diff --git a/NzbDrone.Common/NzbDrone.Common.csproj b/NzbDrone.Common/NzbDrone.Common.csproj index cc2912980..7aa2c9795 100644 --- a/NzbDrone.Common/NzbDrone.Common.csproj +++ b/NzbDrone.Common/NzbDrone.Common.csproj @@ -38,11 +38,13 @@ ..\Libraries\Exceptioneer.WindowsFormsClient.dll - - ..\packages\Exceptron.Client.1.0.1\lib\net20\Exceptron.Client.dll + + False + ..\packages\Exceptron.Client.1.0.7\lib\net20\Exceptron.Client.dll - ..\packages\Newtonsoft.Json.4.5.4\lib\net40\Newtonsoft.Json.dll + False + ..\packages\Newtonsoft.Json.4.5.9\lib\net40\Newtonsoft.Json.dll ..\packages\Ninject.2.2.1.4\lib\net40-Full\Ninject.dll diff --git a/NzbDrone.Core.Test/NzbDrone.Core.Test.csproj b/NzbDrone.Core.Test/NzbDrone.Core.Test.csproj index a6efa6cf9..6af68d08a 100644 --- a/NzbDrone.Core.Test/NzbDrone.Core.Test.csproj +++ b/NzbDrone.Core.Test/NzbDrone.Core.Test.csproj @@ -38,6 +38,9 @@ True + + ..\packages\AutoMoq.1.6.1\lib\AutoMoq.dll + False ..\Libraries\DeskMetrics\DeskMetrics.NET.dll @@ -53,6 +56,17 @@ False ..\packages\FluentAssertions.1.7.0\Lib\net40\FluentAssertions.dll + + False + ..\packages\CommonServiceLocator.1.0\lib\NET35\Microsoft.Practices.ServiceLocation.dll + + + False + ..\packages\Unity.2.1.505.2\lib\NET35\Microsoft.Practices.Unity.dll + + + ..\packages\Unity.2.1.505.2\lib\NET35\Microsoft.Practices.Unity.Configuration.dll + True ..\packages\Microsoft.Web.Infrastructure.1.0.0.0\lib\net40\Microsoft.Web.Infrastructure.dll @@ -62,7 +76,7 @@ False - ..\packages\Newtonsoft.Json.4.5.3\lib\net40\Newtonsoft.Json.dll + ..\packages\Newtonsoft.Json.4.5.9\lib\net40\Newtonsoft.Json.dll ..\packages\Ninject.2.2.1.4\lib\net40-Full\Ninject.dll diff --git a/NzbDrone.Core.Test/packages.config b/NzbDrone.Core.Test/packages.config index 95288a3b2..f25a8b761 100644 --- a/NzbDrone.Core.Test/packages.config +++ b/NzbDrone.Core.Test/packages.config @@ -1,6 +1,7 @@  + @@ -12,6 +13,6 @@ - + \ No newline at end of file diff --git a/NzbDrone.Core/NzbDrone.Core.csproj b/NzbDrone.Core/NzbDrone.Core.csproj index abfe30b93..69532ee79 100644 --- a/NzbDrone.Core/NzbDrone.Core.csproj +++ b/NzbDrone.Core/NzbDrone.Core.csproj @@ -165,7 +165,7 @@ False - ..\packages\Newtonsoft.Json.4.5.3\lib\net40\Newtonsoft.Json.dll + ..\packages\Newtonsoft.Json.4.5.9\lib\net40\Newtonsoft.Json.dll ..\packages\Ninject.2.2.1.4\lib\net40-Full\Ninject.dll diff --git a/NzbDrone.Services/NzbDrone.Services.Service/NzbDrone.Services.Service.csproj b/NzbDrone.Services/NzbDrone.Services.Service/NzbDrone.Services.Service.csproj index 6bd9460f1..7ad30f6f5 100644 --- a/NzbDrone.Services/NzbDrone.Services.Service/NzbDrone.Services.Service.csproj +++ b/NzbDrone.Services/NzbDrone.Services.Service/NzbDrone.Services.Service.csproj @@ -22,6 +22,10 @@ 4.0 ..\..\ true + + + + true @@ -65,7 +69,7 @@ False - ..\..\packages\Newtonsoft.Json.4.5.3\lib\net40\Newtonsoft.Json.dll + ..\..\packages\Newtonsoft.Json.4.5.9\lib\net40\Newtonsoft.Json.dll ..\..\packages\Ninject.2.2.1.4\lib\net40-Full\Ninject.dll @@ -181,6 +185,60 @@ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + @@ -190,8 +248,13 @@ + + + + + diff --git a/NzbDrone.Test.Common/NzbDrone.Test.Common.csproj b/NzbDrone.Test.Common/NzbDrone.Test.Common.csproj index 61264ae1d..48a1913ba 100644 --- a/NzbDrone.Test.Common/NzbDrone.Test.Common.csproj +++ b/NzbDrone.Test.Common/NzbDrone.Test.Common.csproj @@ -38,11 +38,13 @@ ..\packages\CommonServiceLocator.1.0\lib\NET35\Microsoft.Practices.ServiceLocation.dll - - ..\packages\Unity.2.1.505.0\lib\NET35\Microsoft.Practices.Unity.dll + + False + ..\packages\Unity.2.1.505.2\lib\NET35\Microsoft.Practices.Unity.dll - - ..\packages\Unity.2.1.505.0\lib\NET35\Microsoft.Practices.Unity.Configuration.dll + + False + ..\packages\Unity.2.1.505.2\lib\NET35\Microsoft.Practices.Unity.Configuration.dll ..\packages\Moq.4.0.10827\lib\NET40\Moq.dll diff --git a/NzbDrone.Test.Common/packages.config b/NzbDrone.Test.Common/packages.config index 66a597a9b..c108fe589 100644 --- a/NzbDrone.Test.Common/packages.config +++ b/NzbDrone.Test.Common/packages.config @@ -4,5 +4,5 @@ - + \ No newline at end of file diff --git a/NzbDrone.Web.UI.Test/NzbDrone.Web.UI.Automation.csproj b/NzbDrone.Web.UI.Test/NzbDrone.Web.UI.Automation.csproj index 732b1144a..8d37a0e5c 100644 --- a/NzbDrone.Web.UI.Test/NzbDrone.Web.UI.Automation.csproj +++ b/NzbDrone.Web.UI.Test/NzbDrone.Web.UI.Automation.csproj @@ -43,7 +43,7 @@ False - ..\packages\Newtonsoft.Json.4.5.1\lib\net40\Newtonsoft.Json.dll + ..\packages\Newtonsoft.Json.4.5.9\lib\net40\Newtonsoft.Json.dll ..\packages\NUnit.2.6.0.12054\lib\nunit.framework.dll @@ -56,9 +56,9 @@ - + False - ..\packages\Selenium.WebDriver.2.21.0\lib\net40\WebDriver.dll + ..\packages\Selenium.WebDriver.2.25.1\lib\net40\WebDriver.dll diff --git a/NzbDrone.Web/NzbDrone.Web.csproj b/NzbDrone.Web/NzbDrone.Web.csproj index d5419bb9b..ffcc32816 100644 --- a/NzbDrone.Web/NzbDrone.Web.csproj +++ b/NzbDrone.Web/NzbDrone.Web.csproj @@ -74,7 +74,7 @@ False - ..\packages\Newtonsoft.Json.4.5.3\lib\net40\Newtonsoft.Json.dll + ..\packages\Newtonsoft.Json.4.5.9\lib\net40\Newtonsoft.Json.dll ..\packages\Ninject.2.2.1.4\lib\net40-Full\Ninject.dll @@ -368,6 +368,9 @@ + + + diff --git a/NzbDrone.sln b/NzbDrone.sln index 4b21bf309..07eeff8e8 100644 --- a/NzbDrone.sln +++ b/NzbDrone.sln @@ -1,5 +1,5 @@ Microsoft Visual Studio Solution File, Format Version 12.00 -# Visual Studio 2010 +# Visual Studio 2012 Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Tests", "Tests", "{57A04B72-8088-4F75-A582-1158CF8291F7}" EndProject Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Test.Common", "Test.Common", "{47697CDB-27B6-4B05-B4F8-0CBE6F6EDF97}" @@ -483,6 +483,6 @@ Global {12261AE5-BCC4-4DC7-A218-0764B9C30230} = {5853FEE1-D6C1-49AB-B1E3-12216491DA69} EndGlobalSection GlobalSection(ExtensibilityGlobals) = postSolution - EnterpriseLibraryConfigurationToolBinariesPath = packages\Unity.2.1.505.0\lib\NET35 + EnterpriseLibraryConfigurationToolBinariesPath = packages\Unity.2.1.505.0\lib\NET35;packages\Unity.2.1.505.2\lib\NET35 EndGlobalSection EndGlobal diff --git a/packages/Unity.2.0/Unity.2.0.nupkg b/packages/Unity.2.0/Unity.2.0.nupkg deleted file mode 100644 index db3f48942..000000000 Binary files a/packages/Unity.2.0/Unity.2.0.nupkg and /dev/null differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.ServiceLocation.dll b/packages/Unity.2.0/lib/20/Microsoft.Practices.ServiceLocation.dll deleted file mode 100644 index 3f8895473..000000000 Binary files a/packages/Unity.2.0/lib/20/Microsoft.Practices.ServiceLocation.dll and /dev/null differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Configuration.dll b/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Configuration.dll deleted file mode 100644 index 619a5721f..000000000 Binary files a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Configuration.dll and /dev/null differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.Configuration.dll b/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.Configuration.dll deleted file mode 100644 index 15ec9b8b4..000000000 Binary files a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.Configuration.dll and /dev/null differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.Configuration.xml b/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.Configuration.xml deleted file mode 100644 index c8d919d28..000000000 --- a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.Configuration.xml +++ /dev/null @@ -1,716 +0,0 @@ - - - - Microsoft.Practices.Unity.Interception.Configuration - - - - - Configuration element that lets you specify additional interfaces - to add when this type is intercepted. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Type of interface to add. - - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - Configuration element representing a call handler. - - - - - Base class for the two children of the Policy element: - MatchingRuleElement and CallHandlerElement. - - - - These configuration elements have a required "name" attribute, an optional "type" attribute, and - optional child elements <lifetime> and <injection> - - - Elements without a value for the type attribute can only have a value for the name attribute, and - indicate that the represented handler or rule is configured elsewhere and that a reference to - the given name must be added to the policy to be resolved, while elements with a value for the type - attribute indicate how the represented handler or rule should be built and can optionally specify - lifetime management and injection configuration. - - - This element is similar to the , except that it does not provide - an extension point for arbitrary configuration. - - - - - - Reads XML from the configuration file. - - The that reads from the configuration file. - true to serialize only the collection key properties; otherwise, false. - The element to read is locked. - - or - - An attribute of the current node is not recognized. - - or - - The lock status of the current node cannot be determined. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Name of this item - - - - - Type that implements this matching rule or call handler. - - - - - Injection members that control how this item is created. - - - - - Lifetime manager for this item. - - - - - A collection of s for configuration. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Causes the configuration system to throw an exception. - - - true if the unrecognized element was deserialized successfully; otherwise, false. The default is false. - - The name of the unrecognized element. - An input stream that reads XML from the configuration file. - The element specified in is the <clear> element. - starts with the reserved prefix "config" or "lock". - - - - - Retrieve a call handler element from the collection by name. - - Name to look up. - The rule, or null if not in the collection. - - - - The <default> element that appears inside an <interceptor> element. - - - - - Base class for the default and key elements that can occur - inside the <interceptor> element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Actually register the interceptor against this type. - - Container to configure. - interceptor to register. - - - - Type name that this interceptor will be registered for. - - - - - Return the type object that is resolved from the property. - - The type object. - - - - Actually register the interceptor against this type. - - Container to configure. - interceptor to register. - - - - Configuration elmement for specifying - interception behaviors for a type. - - - - - Reads XML from the configuration file. - - The that reads from the configuration file. - true to serialize only the collection key properties; otherwise, false. - The element to read is locked. - - or - - An attribute of the current node is not recognized. - - or - - The lock status of the current node cannot be determined. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Type of behavior to add. - - - - - Name of behavior to resolve. - - - - - Should this behavior be configured as a default behavior for this type, or - specifically for this type/name pair only? - - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - Section extension class used to add the elements needed to configure - Unity interception to the configuration schema. - - - - - Add the extensions to the section via the context. - - Context object that can be used to add elements and aliases. - - - - A configuration element that contains the top-level container configuration - information for interception - handler policies and global interceptor definitions. - - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Apply this element's configuration to the given . - - Container to configure. - - - - Policies defined for this container. - - - - - Configuration element that lets you configure - what interceptor to use for a type. - - - - - Initialize a new . - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Type name for the interceptor to apply. - - - - - Name to use when resolving interceptors from the container. - - - - - Should this interceptor be registered as the default for the contained - type, or only for this particular type/name pair? - - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - A collection of objects as shown - in configuration. - - - - - When overridden in a derived class, creates a new . - - - A new . - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Configuration element that provides a top-level element for - configuration interceptors for types in a container. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Apply this element's configuration to the given . - - Container to configure. - - - - The various child elements that are contained in this element. - - - - - Configuration element that represents the configuration for - a specific interceptor, as presented in the config file inside - the <interceptors> element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Type of interceptor to configure. - - - - - The types that this interceptor will be registered against. - - - - - Any value passed to the type converter. - - - - - Type converter to use to create the interceptor, if any. - - - - - A collection of objects - as stored in configuration. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - The <key> element that occurs inside an <interceptor> element - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Actually register the interceptor against this type. - - Container to configure. - interceptor to register. - - - - Name registration should be under. To register under the default, leave blank. - - - - - A configuration element representing a matching rule. - - - - - A collection of s for configuration. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Causes the configuration system to throw an exception. - - - true if the unrecognized element was deserialized successfully; otherwise, false. The default is false. - - The name of the unrecognized element. - An input stream that reads XML from the configuration file. - The element specified in is the <clear> element. - starts with the reserved prefix "config" or "lock". - - - - - Retrieve a matching rule element from the collection by name. - - Name to look up. - The rule, or null if not in the collection. - - - - Configuration element for building up an interception policy. - - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Name of this policy. - - - - - Matching rules for this policy. - - - - - Call handlers for this policy. - - - - - A collection of in the configuration. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Indexer to retrieve policy element objects by name. - - Name of policy to get. - The element. - - - - A shortcut element to enable the policy injection behavior. - - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to The abstract type InterceptorRegistrationElement cannot be created. Please create a concrete instance.. - - - - - Looks up a localized string similar to The <injection/> element is not allowed on element named '{0}' because it doesn't have a type attribute.. - - - - - Looks up a localized string similar to The <lifetime/> element is not allowed on element named '{0}' because it doesn't have a type attribute.. - - - - - Looks up a localized string similar to The type name or alias {0} could not be resolved. Please check your configuration file and verify this type name.. - - - - - Looks up a localized string similar to Cannot create instance of type {0} with a default constructor.. - - - - - Looks up a localized string similar to The type name {0} resolved to type {1} is not compatible with the required type {2}.. - - - - - Looks up a localized string similar to The type {0} could not be resolved to a valid type. Please double check your configuration.. - - - - - Looks up a localized string similar to The interception behavior element must have at least one of the 'name' or 'type' attributes.. - - - - diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.dll b/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.dll deleted file mode 100644 index 28b3c0e82..000000000 Binary files a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.dll and /dev/null differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.xml b/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.xml deleted file mode 100644 index c282fc211..000000000 --- a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Interception.xml +++ /dev/null @@ -1,3460 +0,0 @@ - - - - Microsoft.Practices.Unity.Interception - - - - - Stores information about a single to be an additional interface for an intercepted object and - configures a container accordingly. - - - - - Stores information about a an intercepted object and configures a container accordingly. - - - - - Initializes a new instance of the with a - . - - A descriptor representing the interception behavior to use. - when is - . - when is not an interface. - - - - - Add policies to the to configure the container to use the represented - as an additional interface for the supplied parameters. - - Interface being registered. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - Stores information about a single to be an additional interface for an intercepted object and - configures a container accordingly. - - The interface. - - - - Initializes a new instance of the . - - - - - An injection member that lets you specify behaviors that should - apply to all instances of a type in the container regardless - of what name it's resolved under. - - - - - Base class for injection members that allow you to add - interception behaviors. - - - - - Initializes a new instance of the with a - . - - The interception behavior to use. - - - - Initializes a new instance of the with a - given type/name pair. - - Type of behavior to - - - - - Initializes a new instance of the with a - given behavior type. - - Type of behavior to - - - - Add policies to the to configure the container to use the represented - for the supplied parameters. - - Interface being registered. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - Get the list of behaviors for the current type so that it can be added to. - - Policy list. - Implementation type to set behaviors for. - Name type is registered under. - An instance of . - - - - Create a new that will - supply the given interception behavior to the container. - - Behavior to apply to this type. - - - - Create a new that will - resolve the given type/name pair to get the behavior. - - Type of behavior. - Name for behavior registration. - - - - Create a new that will - resolve the given type to get the behavior. - - Type of behavior. - - - - Get the list of behaviors for the current type so that it can be added to. - - Policy list. - Implementation type to set behaviors for. - Name type is registered under. - An instance of . - - - - A generic version of so you - can give the behavior type using generic syntax. - - Type of the behavior object to apply. - - - - Construct a new instance - that use the given type and name to resolve the behavior object. - - Name of the registration. - - - - Construct a new instance - that uses the given type to resolve the behavior object. - - - - - A that can be passed to the - method to specify - which interceptor to use. This member sets up the default - interceptor for a type - this will be used regardless of which - name is used to resolve the type. - - - - - Construt a new instance that, - when applied to a container, will register the given - interceptor as the default one. - - Interceptor to use. - - - - Construct a new that, when - applied to a container, will register the given type as - the default interceptor. - - Type of interceptor. - Name to use to resolve the interceptor. - - - - Construct a new that, when - applied to a container, will register the given type as - the default interceptor. - - Type of interceptor. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface being registered. If no interface, - this will be null. - Type of concrete type being registered. - Name used to resolve the type object. - Policy list to add policies to. - - - - A generic version of so that - you can specify the interceptor type using generics. - - - - - - Create a new instance of . - - Name to use when resolving interceptor. - - - - Create a new instance of . - - - - - An that accumulates a sequence of - instances representing the additional interfaces for an intercepted object. - - - - - An that returns a sequence of - instances representing the additional interfaces for an intercepted object. - - - - - Gets the instances accumulated by this policy. - - - - - Initializes a new instance of the class. - - - - - Gets the instances accumulated by this policy. - - - - - An implementation of that will - resolve the interceptor through the container. - - - - - An interface that determines when to intercept instances - and which interceptor to use. - - - - - Interceptor to use. - - Context for current build operation. - - - - Construct a new that - will resolve the interceptor using the given build key. - - build key to resolve. - - - - Interceptor to use. - - Context for current build operation. - - - - An implementation of that will - resolve the interceptor through the container. - - - - - Interface that controls when and how types get intercepted. - - - - - Interceptor to use to create type proxy - - Context for current build operation. - - - - Cache for proxied type. - - - - - construct a new that - will resolve the interceptor with the given . - - The build key to use to resolve. - - - - Interceptor to use to create type proxy - - Context for current build operation. - - - - Cache for proxied type. - - - - - High-level API for performing interception on existing and new objects. - - - - - Returns a for type which wraps - the supplied . - - The type to intercept. - The instance to intercept. - The to use when creating the proxy. - The interception behaviors for the new proxy. - Any additional interfaces the proxy must implement. - A proxy for compatible with . - when is . - when is . - when is . - when is . - when cannot intercept - . - - - - Returns a for type which wraps - the supplied . - - Type to intercept. - The instance to intercept. - The to use when creating the proxy. - The interception behaviors for the new proxy. - A proxy for compatible with . - when is . - when is . - when is . - when cannot intercept - . - - - - Returns a for type which wraps - the supplied . - - The type to intercept. - The instance to intercept. - The to use when creating the proxy. - The interception behaviors for the new proxy. - Any additional interfaces the proxy must implement. - A proxy for compatible with . - when is . - when is . - when is . - when is . - when is . - when cannot intercept - . - - - - Returns a for type which wraps - the supplied . - - The type to intercept. - The instance to intercept. - The to use when creating the proxy. - The interception behaviors for the new proxy. - A proxy for compatible with . - when is . - when is . - when is . - when is . - when cannot intercept - . - - - - Creates a new instance of type that is intercepted with the behaviors in - . - - The type of the object to create. - The to use when creating the proxy. - The interception behaviors for the new proxy. - Any additional interfaces the proxy must implement. - The arguments for the creation of the new instance. - An instance of a class compatible with that includes execution of the - given . - when is . - when is . - When is . - when cannot intercept - . - - - - Creates a new instance of type that is intercepted with the behaviors in - . - - The type of the object to create. - The to use when creating the proxy. - The interception behaviors for the new proxy. - The arguments for the creation of the new instance. - An instance of a class compatible with that includes execution of the - given . - when is . - when is . - when cannot intercept - . - - - - Creates a new instance of type that is intercepted with the behaviors in - . - - The type of the object to create. - The to use when creating the proxy. - The interception behaviors for the new proxy. - Any additional interfaces the instance must implement. - The arguments for the creation of the new instance. - An instance of a class compatible with that includes execution of the - given . - when is . - when is . - when is . - when is . - when cannot intercept - . - - - - Creates a new instance of type that is intercepted with the behaviors in - . - - The type of the object to create. - The to use when creating the proxy. - The interception behaviors for the new proxy. - The arguments for the creation of the new instance. - An instance of a class compatible with that includes execution of the - given . - when is . - when is . - when is . - when cannot intercept - . - - - - Computes the array with all the additional interfaces for the interception of an object. - - The interception behaviors for the new proxy. - Any additional interfaces the instance must implement. - An array with the required interfaces for - when the interfaces are not valid. - - - - Stores information about the to be used to intercept an object and - configures a container accordingly. - - - - - - Initializes a new instance of the class with an interceptor instance. - - The to use. - when is - . - - - - Initialize a new instance of the class with a given - name and type that will be resolved to provide interception. - - Type of the interceptor - name to use to resolve. - - - - Initialize a new instance of the class with - a given type that will be resolved to provide interception. - - Type of the interceptor. - - - - Add policies to the to configure the container to use the represented - for the supplied parameters. - - Interface being registered. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - Generic version of that lets you specify an interceptor - type using generic syntax. - - Type of interceptor - - - - Initialize an instance of that will - resolve the given interceptor type. - - - - - Initialize an instance of that will - resolve the given interceptor type and name. - - Name that will be used to resolve the interceptor. - - - - A simple data holder class used to store information about the current - interception operation that's being set up. Useful for creating behaviors - that need to know this stuff (especially the PIAB behavior). - - - - - Create a new instance of that - stores the given , - , and . - - that will be used to - create the intercepting type or proxy. - Type that interception was requested on. - Type of the object that will actually be intercepted. - - - - that will be used to - create the intercepting type or proxy. - - - - - Type that interception was requested on. - - - - - Type of the object that will actually be intercepted. - - - - - This interface is implemented by all proxy objects, type or instance based. - It allows for adding interception behaviors. - - - - - Adds a to the proxy. - - The to add. - - - - Base interface for type and instance based interceptor classes. - - - - - Can this interceptor generate a proxy for the given type? - - Type to check. - True if interception is possible, false if not. - - - - Returns a sequence of methods on the given type that can be - intercepted. - - Type that was specified when this interceptor - was created (typically an interface). - The concrete type of the implementing object. - Sequence of objects. - - - - Interface for interceptors that generate separate proxy - objects to implement interception on instances. - - - - - Create a proxy object that provides interception for . - - Type to generate the proxy of. - Object to create the proxy for. - Additional interfaces the proxy must implement. - The proxy object. - - - - Implementation of that returns a - pre-created interceptor. - - - - - Create a new instance of . - - Interceptor to store. - - - - Interceptor to use. - - Context for current build operation. - - - - A that intercepts objects - in the build chain by creating a proxy object. - - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - An instance interceptor that works by generating a - proxy class on the fly for a single interface. - - - - - Can this interceptor generate a proxy for the given type? - - Type to check. - True if interception is possible, false if not. - - - - Returns a sequence of methods on the given type that can be - intercepted. - - Type that was specified when this interceptor - was created (typically an interface). - The concrete type of the implementing object. - Sequence of objects. - - - - Create a proxy object that provides interception for . - - Type to generate the proxy of. - Object to create the proxy for. - Additional interfaces the proxy must implement. - The proxy object. - - - - A class used to generate proxy classes for doing interception on - interfaces. - - - - - Create an instance of that - can construct an intercepting proxy for the given interface. - - Type of the interface to intercept. - Additional interfaces the proxy must implement. - - - - Create the type to proxy the requested interface - - - - - - Represents the implementation of an interface method. - - - - - Used to throw an for non-implemented methods on the - additional interfaces. - - - - - This class provides the remoting-based interception mechanism. It is - invoked by a call on the corresponding TransparentProxy - object. It routes calls through the handlers as appropriate. - - - - - Creates a new instance that applies - the given policies to the given target object. - - Target object to intercept calls to. - Type to return as the type being proxied. - Additional interfaces the proxy must implement. - - - - Adds a to the proxy. - - The to add. - - - - Checks whether the proxy that represents the specified object type can be cast to the type represented by the interface. - - - - true if cast will succeed; otherwise, false. - - - The type to cast to. - The object for which to check casting. - The immediate caller makes the call through a reference to the interface and does not have infrastructure permission. - - - - Executes a method call represented by the - parameter. The CLR will call this method when a method is called - on the TransparentProxy. This method runs the invocation through - the call handler pipeline and finally sends it down to the - target object, and then back through the pipeline. - - An object that contains the information - about the method call. - An object contains the - information about the target method's return value. - - - - Returns the target of this intercepted call. - - The target object. - - - - Gets or sets the fully qualified type name of the server object in a . - - - - The fully qualified type name of the server object in a . - - - The immediate caller makes the call through a reference to the interface and does not have infrastructure permission. - - - - An instance interceptor that uses remoting proxies to do the - interception. - - - - - Can this interceptor generate a proxy for the given type? - - Type to check. - True if interception is possible, false if not. - - - - Returns a sequence of methods on the given type that can be - intercepted. - - The intercepted type. - The concrete type of the implementing object. - Sequence of objects. - - - - Create a proxy object that provides interception for . - - Type to generate the proxy of. - Object to create the proxy for. - Additional interfaces the proxy must implement. - The proxy object. - - - - A dumb data holder that returns the methodinfo for both an - interface method and the method that implements that interface - method. - - - - - Construct a new which holds - the given objects. - - MethodInfo for the interface method (may be null if no interface). - MethodInfo for implementing method. - - - - Determines whether the specified is equal to the current . - - - true if the specified is equal to the current ; otherwise, false. - - - The to compare with the current . - - - The parameter is null. - 2 - - - - Serves as a hash function for a particular type. - - - A hash code for the current . - - 2 - - - - Standard equals operator - - - - - standard not equal operator. - - - - - Returns a that represents the current . - - - A that represents the current . - - 2 - - - - The interface method MethodInfo. - - - - - The implementing method MethodInfo. - - - - - Interface for interceptor objects that generate - proxy types. - - - - - Create a type to proxy for the given type . - - Type to proxy. - Additional interfaces the proxy must implement. - New type that can be instantiated instead of the - original type t, and supports interception. - - - - Implementation of that returns a precreated - interceptor object. - - - - - Create a new instance of that - uses the given . - - Interceptor to use. - - - - Interceptor to use to create type proxy - - Context for current build operation. - - - - Cache for proxied type. - - - - - A that hooks up type interception. It looks for - a for the current build key, or the current - build type. If present, it substitutes types so that that proxy class gets - built up instead. On the way back, it hooks up the appropriate handlers. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - In this class, PreBuildUp is responsible for figuring out if the - class is proxiable, and if so, replacing it with a proxy class. - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - In this class, PostBuildUp checks to see if the object was proxyable, - and if it was, wires up the handlers. - Context of the build operation. - - - - This class provides the code needed to implement the - interface on a class. - - - - - This class handles parameter type mapping. When we generate - a generic method, we need to make sure our parameter type - objects line up with the generic parameters on the generated - method, not on the one we're overriding. - - - - - A utility class that takes a set of s - and pulls out shadowed methods, only returning the ones that - are actually accessible to be overriden. - - - - - Take the list of methods and put them together into lists index by method name. - - Methods to sort through. - - - - Given a list of overloads for a method, return only those methods - that are actually visible. In other words, if there's a "new SomeType" method - somewhere, return only the new one, not the one from the base class - that's now hidden. - - Sequence of methods to process. - Sequence of returned methods. - - - - Take a semi-randomly ordered set of methods on a type and - sort them into groups by name and by parameter list. - - The list of methods. - Sequence of lists of methods, grouped by method name. - - - - Given a set of hiding overloads, return only the currently visible one. - - The set of overloads. - The most visible one. - - - - Given a method, return a value indicating how deeply in the - inheritance hierarchy the method is declared. Current type = 0, - parent = 1, grandparent = 2, etc. - - Method to check. - Declaration depth - - - - A implementation that can compare two - based on their parameter lists. - - First to compare. - Second to compare. - < 0, 0, or > 0 based on which one is "greater" than the other. - - - - Compare two parameter lists. - - First parameter list. - Second parameter list. - < 0, 0, or > 0. - - - - Compare two objects by type. - - First - First - < 0, 0, or > 0 - - - - A type based interceptor that works by generated a new class - on the fly that derives from the target class. - - - - - Can this interceptor generate a proxy for the given type? - - Type to check. - True if interception is possible, false if not. - - - - Returns a sequence of methods on the given type that can be - intercepted. - - The intercepted type. - The concrete type of the implementing object. - Sequence of objects. - - - - Create a type to proxy for the given type . - - Type to proxy. - Additional interfaces the proxy must implement. - New type that can be instantiated instead of the - original type t, and supports interception. - - - - An that returns a sequence of - instances for an intercepted object. - - - - - Get the set of object to be used for the given type and - interceptor. - - - This method will return a sequence of s. These behaviors will - only be included if their properties are true. - - Context for the current build operation. - Interceptor that will be used to invoke the behavior. - Type that interception was requested on. - Type that implements the interception. - - - - - Get the set of that can be used to resolve the - behaviors. - - - - - Key for handler pipelines. - - - - - Creates a new for the supplied method. - - The method for the key. - The new key. - - - - Compare two instances. - - Object to compare to. - True if the two keys are equal, false if not. - - - - Calculate a hash code for this instance. - - A hash code. - - - - Compare two instances for equality. - - First of the two keys to compare. - Second of the two keys to compare. - True if the values of the keys are the same, else false. - - - - Compare two instances for inequality. - - First of the two keys to compare. - Second of the two keys to compare. - false if the values of the keys are the same, else true. - - - - Compare two instances. - - Object to compare to. - True if the two keys are equal, false if not. - - - - A collection of objects, indexed - by . Returns an empty pipeline if a - MethodBase is requested that isn't in the dictionary. - - - - - Retrieve the pipeline assocated with the requested . - - The method for which the pipeline is being requested. - The handler pipeline for the given method. If no pipeline has - been set, returns a new empty pipeline. - - - - Set a new pipeline for a method. - - The method on which the pipeline should be set. - The new pipeline. - - - - Get the pipeline for the given method, creating it if necessary. - - Method to retrieve the pipeline for. - Handlers to initialize the pipeline with - True if the pipeline has any handlers in it, false if not. - - - - Attribute used to indicate that no interception should be applied to - the attribute target. - - - - - A class that reads and constructs handlers - based on on the target. - - - - - Base class for Policies that specifies which handlers apply to which methods of an object. - - - This base class always enforces the - before - passing the checks onto derived classes. This way, derived classes do not need to - worry about implementing this check. - It also means that derived classes cannot override this rule. This is considered a feature. - - - - Creates a new empty Policy. - - - - - Creates a new empty policy with the given name. - - Name of the policy. - - - - Checks if the rules in this policy match the given member info. - - MemberInfo to check against. - true if ruleset matches, false if it does not. - - - - Returns ordered collection of handlers in order that apply to the given member. - - Member that may or may not be assigned handlers by this policy. - The to use when creating handlers, - if necessary. - Collection of handlers (possibly empty) that apply to this member. - - - - Given a method on an object, return the set of MethodBases for that method, - plus any inteface methods that the member implements. - - Member to get Method Set for. - The set of methods - - - - Derived classes implement this method to calculate if the policy - will provide any handler to the specified member. - - Member to check. - true if policy applies to this member, false if not. - - - - Derived classes implement this method to supply the list of handlers for - this specific member. - - Member to get handlers for. - The to use when creating handlers, - if necessary. - Enumerable collection of handlers for this method. - - - - Gets the name of this policy. - - The name of the policy. - - - - Constructs a new instance of the . - - - - - Derived classes implement this method to calculate if the policy - will provide any handler to the specified member. - - Member to check. - true if policy applies to this member, false if not. - - - - Derived classes implement this method to supply the list of handlers for - this specific member. - - Member to get handlers for. - The to use when creating handlers, - if necessary. - Enumerable collection of handlers for this method. - - - - Base class for handler attributes used in the attribute-driven - interception policy. - - - - - Derived classes implement this method. When called, it - creates a new call handler as specified in the attribute - configuration. - - The to use when creating handlers, - if necessary. - A new call handler object. - - - - Gets or sets the order in which the handler will be executed. - - - - - The HandlerPipeline class encapsulates a list of s - and manages calling them in the proper order with the right inputs. - - - - - Creates a new with an empty pipeline. - - - - - Creates a new with the given collection - of s. - - Collection of handlers to add to the pipeline. - - - - Execute the pipeline with the given input. - - Input to the method call. - The ultimate target of the call. - Return value from the pipeline. - - - - Get the number of handlers in this pipeline. - - - - - Handlers implement this interface and are called for each - invocation of the pipelines that they're included in. - - - - - Implement this method to execute your handler processing. - - Inputs to the current call to the target. - Delegate to execute to get the next delegate in the handler - chain. - Return value from the target. - - - - Order in which the handler will be executed - - - - - This delegate type is the type that points to the next - method to execute in the current pipeline. - - Inputs to the current method call. - Delegate to get the next handler in the chain. - Return from the next method in the chain. - - - - This delegate type is passed to each handler's Invoke method. - Call the delegate to get the next delegate to call to continue - the chain. - - Next delegate in the handler chain to call. - - - - This interface is implemented by the matching rule classes. - A Matching rule is used to see if a particular policy should - be applied to a class member. - - - - - Tests to see if this rule applies to the given member. - - Member to test. - true if the rule applies, false if it doesn't. - - - - This interface is used to represent the call to a method. - An implementation of IMethodInvocation is passed to the - call handlers so that they may manipulate the call - (typically by changing the parameters) before the final target - gets called. - - - - - Factory method that creates the correct implementation of - IMethodReturn. - - Return value to be placed in the IMethodReturn object. - All arguments passed or returned as out/byref to the method. - Note that this is the entire argument list, including in parameters. - New IMethodReturn object. - - - - Factory method that creates the correct implementation of - IMethodReturn in the presence of an exception. - - Exception to be set into the returned object. - New IMethodReturn object - - - - Gets the inputs for this call. - - - - - Collection of all parameters to the call: in, out and byref. - - - - - Retrieves a dictionary that can be used to store arbitrary additional - values. This allows the user to pass values between call handlers. - - - - - The object that the call is made on. - - - - - The method on Target that we're aiming at. - - - - - This interface is used to represent the return value from a method. - An implementation of IMethodReturn is returned by call handlers, and - each handler can manipulate the parameters, return value, or add an - exception on the way out. - - - - - The collection of output parameters. If the method has no output - parameters, this is a zero-length list (never null). - - - - - Returns value from the method call. - - This value is null if the method has no return value. - - - - If the method threw an exception, the exception object is here. - - - - - Retrieves a dictionary that can be used to store arbitrary additional - values. This allows the user to pass values between call handlers. - - This is guaranteed to be the same dictionary that was used - in the IMethodInvocation object, so handlers can set context - properties in the pre-call phase and retrieve them in the after-call phase. - - - - - A Unity container extension that allows you to configure - whether an object should be intercepted and which mechanism should - be used to do it, and also provides a convenient set of methods for - configuring injection for instances. - - - - - - - - - - Initial the container with this extension's functionality. - - - - - API to configure interception for a type. - - Type to intercept. - Name type is registered under. - Interceptor to use. - This extension object. - - - - API to configure interception for a type. - - Type to intercept. - Interceptor to use. - This extension object. - - - - API to configure interception for a type. - - Type to intercept - Name type is registered under. - Interceptor object to use. - This extension object. - - - - API to configure interception for a type. - - Type to intercept - Interceptor object to use. - This extension object. - - - - API to configure interception for a type. - - Type to intercept. - Name type is registered under. - Instance interceptor to use. - This extension object. - - - - Set the interceptor for a type, regardless of what name is used to resolve the instances. - - Type to intercept - Interceptor instance. - This extension object. - - - - Set the interceptor for a type, regardless of what name is used to resolve the instances. - - Type to intercept - Interceptor instance. - This extension object. - - - - API to configure interception for a type. - - Type to intercept. - Instance interceptor to use. - This extension object. - - - - API to configure interception for a type. - - Type to intercept. - Name type is registered under. - Instance interceptor to use. - This extension object. - - - - API to configure interception for a type. - - Type to intercept. - Instance interceptor to use. - This extension object. - - - - API to configure the default interception settings for a type. - - Type the interception is being configured for. - The interceptor to use by default. - This extension object. - - - - API to configure the default interception settings for a type. - - Type the interception is being configured for. - The interceptor to use by default. - This extension object. - - - - Starts the definition of a new . - - The policy name. - - This is a convenient way for defining a new policy and the - instances and instances that are required by a policy. - - This mechanism is just a shortcut for what can be natively expressed by wiring up together objects - with repeated calls to the method. - - - - - This interface represents a list of either input or output - parameters. It implements a fixed size list, plus a couple - of other utility methods. - - - - - Gets the name of a parameter based on index. - - Index of parameter to get the name for. - Name of the requested parameter. - - - - Gets the ParameterInfo for a particular parameter by index. - - Index for this parameter. - ParameterInfo object describing the parameter. - - - - Gets the ParameterInfo for a particular parameter by name. - - Name of the parameter. - ParameterInfo object for the named parameter. - - - - Fetches a parameter's value by name. - - parameter name. - value of the named parameter. - - - - A is a matching rule that - is a collection of other matching rules. All the contained - rules much match for the set to match. - - - - - Tests the given member against the ruleset. The member matches - if all contained rules in the ruleset match against it. - - If the ruleset is empty, then Matches passes since no rules failed. - MemberInfo to test. - true if all contained rules match, false if any fail. - - - - A implementation that fails to match - if the method in question has the ApplyNoPolicies attribute on it. - - - - - Check if the matches this rule. - - This rule returns true if the member does NOT have the - on it, or a containing type doesn't have the attribute. - Member to check. - True if the rule matches, false if it doesn't. - - - - An that matches the assembly name of the - given member. - - - - - Constructs a new with the given - assembly name (or partial name). - - Assembly name to match. - - - - Constructs a new that matches - against the given assembly. - - Assembly to match. - - - - Determines if the supplied matches the rule. - - - This rule matches if the assembly containing the given - matches the name given. The rule used for matches lets you include the parts - of the assembly name in order. You can specify assembly name only, assembly and version, - assembly, version and culture, or the fully qualified assembly name. - - Member to check. - true if is in a matching assembly, false if not. - - - - An implementation of that checks to see if the - member (or type containing that member) have any s. - - - - - Checks to see if matches the rule. - - Returns true if any s are present on the method - or the type containing that method. - Member to check. - true if member matches, false if not. - - - - An implementation of that checks to see if - the member tested has an arbitrary attribute applied. - - - - - Constructs a new . - - Attribute to match. - If true, checks the base class for attributes as well. - - - - Checks to see if the given matches the rule. - - Member to check. - true if it matches, false if not. - - - - Class used for storing information about a single name/ignoreCase - pair. This class is also used as a base class for other classes that - need this pair plus some other properties. - - - - - Constructs an empty object with empty - string and ignoreCase = false. - - - - - Constructs a object that matches the given - string. IgnoreCase is false. - - The name to match. - - - - Constructs a object that matches the - given string, setting the ignoreCase flag to the given value. - - The name to match. - true to do case insensitive comparison, false to do case sensitive. - - - - Gets or sets the name to match. - - The name to match. - - - - Gets or sets whether to do case sensitive comparisons of Match. - - If false, case sensitive comparison. If true, case insensitive comparisons. - - - - A matching rule that matches when the given member name is - the same as the one supplied in the constructor. - - - - - Create a new that matches the - given member name. Wildcards are allowed. - - Name to match against. Comparison is case sensitive. - - - - Create a new that matches the - given member name. Wildcards are allowed. - - Name to match against. - If false, name comparisons are case sensitive. If true, name comparisons are case insensitive. - - - - Create a new that matches the - given member names. Wildcards are allowed. - - collections of names to match. If any of these patterns match, the rule matches. Comparisons are case sensitive. - - - - Create a new that matches the - given member names. Wildcards are allowed. - - Collections of names to match. If any of these patterns match, the rule matches. - If false, name comparisons are case sensitive. If true, name comparisons are case insensitive. - - - - Create a new that matches - one of the given member names. Wildcards are allowed. - - List of objects containing - the pattern to match and case sensitivity flag. - - - - Check if the given matches one of this - object's matching patterns. - - Member to check. - True if matches, false if not. - - - - Match methods with the given names and method signature. - - - - - Creates a new that matches methods - with the given name, with parameter types matching the given list. - - Method name to match. Wildcards are allowed. - Parameter type names to match, in order. Wildcards are allowed. - If false, name comparisons are case sensitive. If true, name comparisons are case insensitive. - - - - Create a new that matches methods - with the given name, with parameter types matching the given list. - - Name comparisons are case sensitive. - Method name to match. Wildcards are allowed. - Parameter type names to match, in order. Wildcards are allowed. - - - - Create a new that matches any method - with parameter types matching the given list. - - Name comparisons are case sensitive. - Parameter type names to match, in order. Wildcards are allowed. - - - - Create a new that matches any method - with parameter types matching the given list. - - Parameter type names to match, in order. Wildcards are allowed. - If false, name comparisons are case sensitive. If true, name comparisons are case insensitive. - - - - Check to see if the given method matches the name and signature. - - Member to check. - True if match, false if not. - - - - An that matches members in a given namespace. You can - specify either a single namespace (e.g. System.Data) or a namespace root - (e.g. System.Data.* to match types in that namespace or below. - - - - - Create a new that matches the given - namespace. - - namespace name to match. Comparison is case sensitive. - - - - Create a new that matches the given - namespace. - - namespace name to match. - If false, comparison is case sensitive. If true, comparison is case insensitive. - - - - Create a new that matches any of - the given namespace names. - - Collection of namespace names to match. - - - - Check to see if the given is in a namespace - matched by any of our given namespace names. - - member to check. - True if member is contained in a matching namespace, false if not. - - - - A helper class that encapsulates the name to match, case sensitivity flag, - and the wildcard rules for matching namespaces. - - - - - Construct a new that matches the - given namespace name. - - Namespace name to match. - If false, comparison is case sensitive. If true, comparison is case insensitive. - - - - Check if the given type is in a matching namespace. - - Type to check. - True if type is in a matching namespace, false if not. - - - - An that matches methods that have any parameters - of the given types. - - - - - Creates a new that matches if any of - the method parameters match ones in the given collection. - - Collection of that - describes the types to match. - - - - Check the given member to see if it has any matching parameters. - - Member to match. - true if member matches, false if it doesn't. - - - - The list of describing the parameter types to match. - - The collection of matches. - - - - Describes the type of parameter to match. - - - - - Input parameter - - - - - Output parameter - - - - - Input or output parameter - - - - - Method return value - - - - - A class that stores information about a single type to match. - - - - - Creates a new uninitialized . - - - - - Creates a new matching the given kind of parameter. - - of parameter to match. - - - - Creates a new matching the given parameter - type and kind. - - Parameter name to match. - of parameter to match. - - - - Creates a new matching the given parameter - type and kind. - - Parameter name to match. - If false, compare type names using case-sensitive comparison. - If true, compare type names using case-insensitive comparison. - of parameter to match. - - - - What kind of parameter to match. - - indicating which kind of parameters to match. - - - - An implementation that matches properties - by name. You can match the getter, setter, or both. - - - - - Construct a new that matches the - getter or setter of the given property. - - Name of the property. Name comparison is case sensitive. Wildcards are allowed. - - - - Constructs a new that matches the - given method of the given property. - - Name of the property. Name comparison is case sensitive. Wildcards are allowed. - Match the getter, setter, or both. - - - - Constructs a new that matches the - given method of the given property. - - Name of the property to match. Wildcards are allowed. - Match the getter, setter, or both. - If false, name comparison is case sensitive. If true, name comparison is case insensitive. - - - - Constructs a new that matches any of the - given properties. - - Collection of defining which - properties to match. - - - - Checks if the given member matches the rule. - - Member to check. - True if it matches, false if it does not. - - - - Specifies which methods of a property should be matches by - the . - - - - - Match the property getter method. - - - - - Match the property setter method. - - - - - Match either the getter or setter method. - - - - - Information about a property match. - - - - - Construct a new that matches the get or set methods - of the given property name, and does a case-sensitive comparison. - - Property name to match. - - - - Constructs a new that matches the given methods of - the given property name, doing a case-sensitive comparison. - - Property name to match. - specifying which methods of the property to match. - - - - Construt a new that matches the given methods of - the given property name. - - Property name to match. - specifying which methods of the property to match. - If false, name comparison is case sensitive. If true, name comparison is case insensitive. - - - - The to use when doing name comparisons on this property. - - Specifies which methods of the property to match. - - - - An that checks to see if a member has a specified - type. - - - - - Construct a new that matches - members with the given return type. - - Type to look for. - - - - Construct a new that matches - the given return type by name. - - See the class for details on how - type name matches are done. - Type name to match. Name comparisons are case sensitive. - - - - Construct a new that matches - the given return type by name. - - See the class for details on how - type name matches are done. - Type name to match. - If false, name comparison is case sensitive. If true, comparison - is case insensitive. - - - - Check to see if the given member has a matching return type. - - Member to check. - true if return types match, false if they don't. - - - - A that checks a member for the presence - of the on the method, property, or class, and - that the given string matches. - - - - - Constructs a new , looking for - the given string. The comparison is case sensitive. - - tag string to match. - - - - Constructs a new , looking for - the given string. The comparison is case sensitive if is - false, case insensitive if is true. - - tag string to match. - if false, case-senstive comparison. If true, case-insensitive comparison. - - - - Check the given member for the presence of the and - match the strings. - - Member to check. - True if tag strings match, false if they don't. - - - - A matching rule that matches when the member is declared - in the given type. - - - - - Constructs a new that matches the - given type. - - The type to match. - - - - Constructs a new that matches types - with the given name. - - Comparisons are case sensitive. - Type name to match. - - - - Constructs a new that matches types - with the given name, using the given case sensitivity. - - Type name to match. - if false, do case-sensitive comparison. If true, do case-insensitive. - - - - Constructs a new that will match - any of the type names given in the collection of match information. - - The match information to match. - - - - Checks if the given member matches any of this object's matches. - - Member to match. - True if match, false if not. - - - - Checks if the given type matches any of this object's matches. - - Matches may be on the namespace-qualified type name or just the type name. - Type to check. - True if it matches, false if it doesn't. - - - - An implementation of that wraps a provided array - containing the argument values. - - - - - Construct a new that wraps the - given array of arguments. - - Complete collection of arguments. - Type information about about each parameter. - A that indicates - whether a particular parameter is part of the collection. Used to filter out only input - parameters, for example. - - - - Gets the ParameterInfo for a particular parameter by index. - - Index for this parameter. - ParameterInfo object describing the parameter. - - - - Gets the for the given named parameter. - - Name of parameter. - for the requested parameter. - - - - Gets the name of a parameter based on index. - - Index of parameter to get the name for. - Name of the requested parameter. - - - - Adds to the collection. This is a read only collection, so this method - always throws . - - Object to add. - Nothing, always throws. - Always throws this. - - - - Checks to see if the collection contains the given object. - - Tests for the object using object.Equals. - Object to find. - true if object is in collection, false if it is not. - - - - Remove all items in the collection. This collection is fixed-size, so this - method always throws . - - This is always thrown. - - - - Returns the index of the given object, or -1 if not found. - - Object to find. - zero-based index of found object, or -1 if not found. - - - - Inserts a new item. This is a fixed-size collection, so this method throws . - - Index to insert at. - Always throws. - Always throws this. - - - - Removes the given item. This is a fixed-size collection, so this method throws . - - Always throws. - Always throws this. - - - - Removes the given item. This is a fixed-size collection, so this method throws . - - Always throws. - Always throws this. - - - - Copies the contents of this collection to the given array. - - Destination array. - index to start copying from. - - - - Gets an enumerator object to support the foreach construct. - - Enumerator object. - - - - Fetches a parameter's value by name. - - parameter name. - value of the named parameter. - - - - Gets the value of a parameter based on index. - - Index of parameter to get the value for. - Value of the requested parameter. - - - - Is this collection read only? - - No, it is not read only, the contents can change. - - - - Is this collection fixed size? - - Yes, it is. - - - - Total number of items in the collection. - - The count. - - - - Gets a synchronized version of this collection. WARNING: Not implemented completely, - DO NOT USE THIS METHOD. - - - - - Is the object synchronized for thread safety? - - No, it isn't. - - - - An internal struct that maps the index in the arguments collection to the - corresponding about that argument. - - - - - Construct a new object linking the - given index and object. - - Index into arguments array (zero-based). - for the argument at . - - - - Transient class that supports convenience method for specifying interception policies. - - - - - Adds a reference to matching rule by name. - - The name for the matching rule. - - The than allows further configuration of the policy. - - - The details of how the rule should be created by the container must be specified using a - standard injection specification mechanism. - - - - - Makes a matching rule in the current policy. - - The new for the policy. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a matching rule in the current policy. - - The type for the new matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a matching rule in the current policy, using the given . - - The type for the new matching rule. - The that controls the lifetime - of the configured matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a matching rule in the current policy. - - The type for the new matching rule. - The name for the injection configuration for the matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a matching rule in the current policy, using the given . - - The type for the new matching rule. - The name for the injection configuration for the matching rule. - The that controls the lifetime - of the configured matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a matching rule in the current policy. - - The type for the new matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a matching rule in the current policy, using the given . - - The type for the new matching rule. - The that controls the lifetime - of the configured matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a matching rule in the current policy. - - The type for the new matching rule. - The name for the injection configuration for the matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a matching rule in the current policy, - using the given . - - The type for the new matching rule. - The name for the injection configuration for the matching rule. - The that controls the lifetime - of the configured matching rule. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Adds a reference to call handler by name. - - The name for the call handler. - - The than allows further configuration of the policy. - - - The details of how the handler should be created by the container must be specified using a - standard injection specification mechanism. - - - - - Makes a call handler in the current policy. - - The new for the policy. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a call handler in the current policy. - - The type for the new call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a call handler in the current policy, using the given . - - The type for the new call handler. - The that controls the lifetime - of the configured call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a call handler in the current policy. - - The type for the new call handler. - The name for the injection configuration for the call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a call handler in the current policy, - using the given . - - The type for the new call handler. - The name for the injection configuration for the call handler. - The that controls the lifetime - of the configured call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a call handler in the current policy. - - The type for the new call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new and makes it available - as a call handler in the current policy, using the given . - - The type for the new call handler. - The that controls the lifetime - of the configured call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a call handler in the current policy. - - The type for the new call handler. - The name for the injection configuration for the call handler . - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - Configures injection for a new using the specified name - and makes it available as a call handler in the current policy, - using the given . - - The type for the new call handler. - The name for the injection configuration for the call handler . - The that controls the lifetime - of the configured call handler. - Objects containing the details on which members to inject and how. - - The than allows further configuration of the policy. - - - - - The that is currently being - configured. - - - - - The extension to which the policy was added. - - - Use this property to start adding a new policy. - - - - - A collection of Policy objects. The policies within a PolicySet combine using - an "or" operation. - - - - - Creates a new containing the given policies. - - Policies to put into the policy set. - - - - Gets the policies that apply to the given member. - - Member to get policies for. - Collection of policies that apply to this member. - - - - Gets the policies in the that do not - apply to the given member. - - Member to check. - Collection of policies that do not apply to . - - - - Gets the handlers that apply to the given member based on all policies in the . - - Member to get handlers for. - The to use when creating handlers, - if necessary. - Collection of call handlers for . - - - - Interceptor that performs policy injection. - - - - - Interception behaviors implement this interface and are called for each - invocation of the pipelines that they're included in. - - - - - Implement this method to execute your behavior processing. - - Inputs to the current call to the target. - Delegate to execute to get the next delegate in the behavior chain. - Return value from the target. - - - - Returns the interfaces required by the behavior for the objects it intercepts. - - The required interfaces. - - - - Returns a flag indicating if this behavior will actually do anything when invoked. - - This is used to optimize interception. If the behaviors won't actually - do anything (for example, PIAB where no policies match) then the interception - mechanism can be skipped completely. - - - - Initializes a new instance of the with a pipeline manager. - - The for the new instance. - - - - Initializes a new instance of the with the given information - about what's being intercepted and the current set of injection policies. - - Information about what will be injected. - Current injection policies. - Unity container that can be used to resolve call handlers. - - - - Applies the policy injection handlers configured for the invoked method. - - Inputs to the current call to the target. - Delegate to execute to get the next delegate in the handler - chain. - Return value from the target. - - - - Returns the interfaces required by the behavior for the objects it intercepts. - - An empty array of interfaces. - - - - Returns a flag indicating if this behavior will actually do anything when invoked. - - This is used to optimize interception. If the behaviors won't actually - do anything (for example, PIAB where no policies match) then the interception - mechanism can be skipped completely. - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to Intercepted abstract method was invoked.. - - - - - Looks up a localized string similar to Additional interfaces do not have an implementation.. - - - - - Looks up a localized string similar to The additional interfaces supplied are invalid: {0}. - - - - - Looks up a localized string similar to Type must be a subclass of System.Attribute.. - - - - - Looks up a localized string similar to Could not create instance of type {0} with no constructor arguments.. - - - - - Looks up a localized string similar to Collection contains a null element.. - - - - - Looks up a localized string similar to The collection of interfaces is null.. - - - - - Looks up a localized string similar to The required interfaces for behavior {1} are invalid: {0}. - - - - - Looks up a localized string similar to The type {0} is not an interface.. - - - - - Looks up a localized string similar to Null type.. - - - - - Looks up a localized string similar to The type {0} is an open generic.. - - - - - Looks up a localized string similar to The type {0} is not interceptable.. - - - - - Looks up a localized string similar to Could not find the implementation of interface method {0}.{1} in type {2}. - - - - - Looks up a localized string similar to Null is not permitted as an interception behavior.. - - - - - A class that wraps the inputs of a into the - interface. - - - - - Constructs a new that wraps the - given method call and arguments. - - The call message. - The arguments. - - - - An implementation of that wraps the - remoting-based in the PIAB call - interface. - - - - - Creates a new implementation that wraps - the given , with the given ultimate - target object. - - Remoting call message object. - Ultimate target of the method call. - - - - Factory method that creates the correct implementation of - IMethodReturn. - - In this implementation we create an instance of . - Return value to be placed in the IMethodReturn object. - All arguments passed or returned as out/byref to the method. - Note that this is the entire argument list, including in parameters. - New IMethodReturn object. - - - - Factory method that creates the correct implementation of - IMethodReturn in the presence of an exception. - - Exception to be set into the returned object. - New IMethodReturn object - - - - Gets the inputs for this call. - - The input collection. - - - - Collection of all parameters to the call: in, out and byref. - - The arguments collection. - - - - Retrieves a dictionary that can be used to store arbitrary additional - values. This allows the user to pass values between call handlers. - - The invocation context dictionary. - - - - The object that the call is made on. - - The target object. - - - - The method on Target that we're aiming at. - - The target method base. - - - - Gets the collection of arguments being passed to the target. - - This method exists becuase the underlying remoting call message - does not let handlers change the arguments. - Array containing the arguments to the target. - - - - An implementation of that wraps the - remoting call and return messages. - - - - - Creates a new object that contains a - return value. - - The original call message that invoked the method. - Return value from the method. - Collections of arguments passed to the method (including the new - values of any out params). - Invocation context dictionary passed into the call. - - - - Creates a new object that contains an - exception thrown by the target. - - Exception that was thrown. - The original call message that invoked the method. - Invocation context dictionary passed into the call. - - - - Constructs a for the remoting - infrastructure based on the contents of this object. - - The instance. - - - - The collection of output parameters. If the method has no output - parameters, this is a zero-length list (never null). - - The output parameter collection. - - - - Return value from the method call. - - This value is null if the method has no return value. - The return value. - - - - If the method threw an exception, the exception object is here. - - The exception, or null if no exception was thrown. - - - - Retrieves a dictionary that can be used to store arbitrary additional - values. This allows the user to pass values between call handlers. - - This is guaranteed to be the same dictionary that was used - in the IMethodInvocation object, so handlers can set context - properties in the pre-call phase and retrieve them in the after-call phase. - - The invocation context dictionary. - - - - A class that wraps the outputs of a into the - interface. - - - - - Constructs a new that wraps the - given method call and arguments. - - The call message. - The arguments. - - - - A policy is a combination of a matching rule set and a set of handlers. - If the policy applies to a member, then the handlers will be enabled for - that member. - - - - - Creates a new object with a set of matching rules - and the names to use when resolving handlers. - - - - - Creates a new object with a name, a set of matching rules - and the names to use when resolving handlers. - - - - - Checks if the rules in this policy match the given member info. - - MemberInfo to check against. - true if ruleset matches, false if it does not. - - - - Return ordered collection of handlers in order that apply to the given member. - - Member that may or may not be assigned handlers by this policy. - The to use when creating handlers, - if necessary. - Collection of handlers (possibly empty) that apply to this member. - - - - A simple attribute used to "tag" classes, methods, or properties with a - string that can later be matched via the . - - - - - Creates a new with the given string. - - The tag string. - - - - The string tag for this attribute. - - the tag. - - - - Stores information about a single to be used on an intercepted object and - configures a container accordingly. - - - - - - Initializes a new instance of the with a - . - - The interception behavior to use. - - - - Initializes a new instance of the with a - given type/name pair. - - Type of behavior to - - - - - Initializes a new instance of the with a - given behavior type. - - Type of behavior to - - - - Get the list of behaviors for the current type so that it can be added to. - - Policy list. - Implementation type to set behaviors for. - Name type is registered under. - An instance of . - - - - A generic version of that lets you - specify behavior types using generic syntax. - - Type of behavior to register. - - - - Initializes a new instance of the with a - given behavior type. - - - - - Initializes a new instance of the with a - given type/name pair. - - Name to use to resolve the behavior. - - - - An that accumulates a sequence of - instances for an intercepted object. - - - - - Get the set of object to be used for the given type and - interceptor. - - - This method will return a sequence of s. These behaviors will - only be included if their properties are true. - - Context for the current build operation. - Interceptor that will be used to invoke the behavior. - Type that interception was requested on. - Type that implements the interception. - - - - - Get the set of that can be used to resolve the - behaviors. - - - - - The InterceptionBehaviorPipeline class encapsulates a list of s - and manages calling them in the proper order with the right inputs. - - - - - Creates a new with an empty pipeline. - - - - - Creates a new with the given collection - of s. - - Collection of interception behaviors to add to the pipeline. - - - - Execute the pipeline with the given input. - - Input to the method call. - The ultimate target of the call. - Return value from the pipeline. - - - - Adds a to the pipeline. - - The interception behavior to add. - - - - Get the number of interceptors in this pipeline. - - - - - This delegate type is the type that points to the next - method to execute in the current pipeline. - - Inputs to the current method call. - Delegate to get the next interceptor in the chain. - Return from the next method in the chain. - - - - This delegate type is passed to each interceptor's Invoke method. - Call the delegate to get the next delegate to call to continue - the chain. - - Next delegate in the interceptor chain to call. - - - - A "glob" is a string matching pattern. It is similar to the - matches available in the file system (*.cs, for example). The Glob - class implements this string matching. - - Glob supports the following metacharacters: - * - match zero or more characters - ? - match any one character - [abc] - match one character if it's in the characters inside the brackets. - All other characters in the glob are literals. - - - - - Constructs a new instance that matches the given pattern. - - - The pattern match is case sensitive by default. - - Pattern to use. See summary for - details of the pattern. - - - - Constructs a new instance that matches the given pattern. - - The pattern to use. See summary for - details of the patterns supported. - If true, perform a case sensitive match. - If false, perform a case insensitive comparison. - - - - Checks to see if the given string matches the pattern. - - String to check. - True if it matches, false if it doesn't. - - - - A collection of utility functions to encapsulate details of - reflection and finding attributes. - - - - - Given a MethodBase for a property's get or set method, - return the corresponding property info. - - MethodBase for the property's get or set method. - PropertyInfo for the property, or null if method is not part of a property. - - - - Given a MethodInfo for a property's get or set method, - return the corresponding property info. - - MethodBase for the property's get or set method. - PropertyInfo for the property, or null if method is not part of a property. - - - - Given a particular MemberInfo, return the custom attributes of the - given type on that member. - - Type of attribute to retrieve. - The member to look at. - True to include attributes inherited from base classes. - Array of found attributes. - - - - Given a particular MemberInfo, find all the attributes that apply to this - member. Specifically, it returns the attributes on the type, then (if it's a - property accessor) on the property, then on the member itself. - - Type of attribute to retrieve. - The member to look at. - true to include attributes inherited from base classes. - Array of found attributes. - - - - A small implementation of that returns the - given object. - - - - - Create a new instance. - - Information about which constructor to select. - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - MethodInfo objects for the methods we need to generate - calls to on IMethodInvocation. - - - - - Class that handles generating the dynamic types used for interception. - - - - - Create a new that will generate a - wrapper class for the requested . - - Type to generate the wrapper for. - Additional interfaces the proxy must implement. - - - - Create the wrapper class for the given type. - - Wrapper type. - - - - Represents the implementation of a method override. - - - - - Used to throw an for overrides on abstract methods. - - - - - Implementation of used - by the virtual method interceptor. - - - - - Construct a new instance for the - given target object and method, passing the - to the target method. - - Object that is target of this invocation. - Method on to call. - Values for the parameters. - - - - Factory method that creates the correct implementation of - IMethodReturn. - - Return value to be placed in the IMethodReturn object. - All arguments passed or returned as out/byref to the method. - Note that this is the entire argument list, including in parameters. - New IMethodReturn object. - - - - Factory method that creates the correct implementation of - IMethodReturn in the presence of an exception. - - Exception to be set into the returned object. - New IMethodReturn object - - - - Gets the inputs for this call. - - - - - Collection of all parameters to the call: in, out and byref. - - - - - Retrieves a dictionary that can be used to store arbitrary additional - values. This allows the user to pass values between call handlers. - - - - - The object that the call is made on. - - - - - The method on Target that we're aiming at. - - - - - An implementation of used by - the virtual method interception mechanism. - - - - - Construct a instance that returns - a value. - - The method invocation. - Return value (should be null if method returns void). - All arguments (including current values) passed to the method. - - - - Construct a instance for when the target method throws an exception. - - The method invocation. - Exception that was thrown. - - - - The collection of output parameters. If the method has no output - parameters, this is a zero-length list (never null). - - - - - Returns value from the method call. - - This value is null if the method has no return value. - - - - If the method threw an exception, the exception object is here. - - - - - Retrieves a dictionary that can be used to store arbitrary additional - values. This allows the user to pass values between call handlers. - - This is guaranteed to be the same dictionary that was used - in the IMethodInvocation object, so handlers can set context - properties in the pre-call phase and retrieve them in the after-call phase. - - - - diff --git a/packages/Unity.2.0/lib/SL30/Microsoft.Practices.ServiceLocation.dll b/packages/Unity.2.0/lib/SL30/Microsoft.Practices.ServiceLocation.dll deleted file mode 100644 index fa752370c..000000000 Binary files a/packages/Unity.2.0/lib/SL30/Microsoft.Practices.ServiceLocation.dll and /dev/null differ diff --git a/packages/Unity.2.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll b/packages/Unity.2.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll deleted file mode 100644 index 0ce1d2818..000000000 Binary files a/packages/Unity.2.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll and /dev/null differ diff --git a/packages/Unity.2.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml b/packages/Unity.2.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml deleted file mode 100644 index 37c7a1172..000000000 --- a/packages/Unity.2.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml +++ /dev/null @@ -1,5871 +0,0 @@ - - - - Microsoft.Practices.Unity.Silverlight - - - - - This attribute is used to mark properties and parameters as targets for injection. - - - For properties, this attribute is necessary for injection to happen. For parameters, - it's not needed unless you want to specify additional information to control how - the parameter is resolved. - - - - - Base class for attributes that can be placed on parameters - or properties to specify how to resolve the value for - that parameter or property. - - - - - Create an instance of that - will be used to get the value for the member this attribute is - applied to. - - Type of parameter or property that - this attribute is decoration. - The resolver object. - - - - Create an instance of with no name. - - - - - Create an instance of with the given name. - - Name to use when resolving this dependency. - - - - Create an instance of that - will be used to get the value for the member this attribute is - applied to. - - Type of parameter or property that - this attribute is decoration. - The resolver object. - - - - The name specified in the constructor. - - - - - This attribute is used to indicate which constructor to choose when - the container attempts to build a type. - - - - - This attribute is used to mark methods that should be called when - the container is building an object. - - - - - An used to mark a dependency - as optional - the container will try to resolve it, and return null - if the resolution fails rather than throw. - - - - - Construct a new object. - - - - - Construct a new object that - specifies a named dependency. - - Name of the dependency. - - - - Create an instance of that - will be used to get the value for the member this attribute is - applied to. - - Type of parameter or property that - this attribute is decoration. - The resolver object. - - - - Name of the dependency. - - - - - A that composites other - ResolverOverride objects. The GetResolver operation then - returns the resolver from the first child override that - matches the current context and request. - - - - - Base class for all override objects passed in the - method. - - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - Wrap this resolver in one that verifies the type of the object being built. - This allows you to narrow any override down to a specific type easily. - - Type to constrain the override to. - The new override. - - - - Wrap this resolver in one that verifies the type of the object being built. - This allows you to narrow any override down to a specific type easily. - - Type to constrain the override to. - The new override. - - - - Add a new to the collection - that is checked. - - item to add. - - - - Add a setof s to the collection. - - items to add. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - Class that returns information about the types registered in a container. - - - - - The type that was passed to the method - as the "from" type, or the only type if type mapping wasn't done. - - - - - The type that this registration is mapped to. If no type mapping was done, the - property and this one will have the same value. - - - - - Name the type was registered under. Null for default registration. - - - - - The registered lifetime manager instance. - - - - - The lifetime manager for this registration. - - - This property will be null if this registration is for an open generic. - - - - A class that overrides - the value injected whenever there is a dependency of the - given type, regardless of where it appears in the object graph. - - - - - Create an instance of to override - the given type with the given value. - - Type of the dependency. - Value to use. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience version of that lets you - specify the dependency type using generic syntax. - - Type of the dependency to override. - - - - Construct a new object that will - override the given dependency, and pass the given value. - - - - - A convenience form of that lets you - specify multiple parameter overrides in one shot rather than having - to construct multiple objects. - - - This class isn't really a collection, it just implements IEnumerable - so that we get use of the nice C# collection initializer syntax. - - - - - Base helper class for creating collections of objects - for use in passing a bunch of them to the resolve call. This base class provides - the mechanics needed to allow you to use the C# collection initializer syntax. - - Concrete type of the this class collects. - Key used to create the underlying override object. - Value that the override returns. - - - - Add a new override to the collection with the given key and value. - - Key - for example, a parameter or property name. - Value - the value to be returned by the override. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - Event argument class for the event. - - - - - Construct a new object with the - given child container object. - - An for the newly created child - container. - - - - The newly created child container. - - - - - An extension context for the created child container. - - - - - The class provides the means for extension objects - to manipulate the internal state of the . - - - - - Store a type/name pair for later resolution. - - - - When users register type mappings (or other things) with a named key, this method - allows you to register that name with the container so that when the - method is called, that name is included in the list that is returned. - - to register. - Name assocated with that type. - - - - The container that this context is associated with. - - The object. - - - - The strategies this container uses. - - The that the container uses to build objects. - - - - The strategies this container uses to construct build plans. - - The that this container uses when creating - build plans. - - - - The policies this container uses. - - The the that container uses to build objects. - - - - The that this container uses. - - The is used to manage objects that the container is managing. - - - - This event is raised when the method, - or one of its overloads, is called. - - - - - This event is raised when the method, - or one of its overloads, is called. - - - - - This event is raised when the method is called, providing - the newly created child container to extensions to act on as they see fit. - - - - - Base interface for all extension configuration interfaces. - - - - - Retrieve the container instance that we are currently configuring. - - - - - An EventArgs class that holds a string Name. - - - - - Create a new with a null name. - - - - - Create a new with the given name. - - Name to store. - - - - The name. - - Name used for this event arg object. - - - - Event argument class for the event. - - - - - Create a new instance of . - - Type to map from. - Type to map to. - Name for the registration. - to manage instances. - - - - Type to map from. - - - - - Type to map to. - - - - - to manage instances. - - - - - Event argument class for the event. - - - - - Create a default instance. - - - - - Create a instance initialized with the given arguments. - - Type of instance being registered. - The instance object itself. - Name to register under, null if default registration. - object that handles how - the instance will be owned. - - - - Type of instance being registered. - - - Type of instance being registered. - - - - - Instance object being registered. - - Instance object being registered - - - - that controls ownership of - this instance. - - - - - Base class for all extension objects. - - - - - The container calls this method when the extension is added. - - A instance that gives the - extension access to the internals of the container. - - - - Initial the container with this extension's functionality. - - - When overridden in a derived class, this method will modify the given - by adding strategies, policies, etc. to - install it's functions into the container. - - - - Removes the extension's functions from the container. - - - - This method is called when extensions are being removed from the container. It can be - used to do things like disconnect event handlers or clean up member state. You do not - need to remove strategies or policies here; the container will do that automatically. - - - The default implementation of this method does nothing. - - - - - The container this extension has been added to. - - The that this extension has been added to. - - - - The object used to manipulate - the inner state of the container. - - - - - A that lets you specify that - an instance of a generic type parameter should be resolved. - - - - - Base class for subclasses that let you specify that - an instance of a generic type parameter should be resolved. - - - - - Base type for objects that are used to configure parameters for - constructor or method injection, or for getting the value to - be injected into a property. - - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - Convert the given set of arbitrary values to a sequence of InjectionParameterValue - objects. The rules are: If it's already an InjectionParameterValue, return it. If - it's a Type, return a ResolvedParameter object for that type. Otherwise return - an InjectionParameter object for that value. - - The values to build the sequence from. - The resulting converted sequence. - - - - Convert an arbitrary value to an InjectionParameterValue object. The rules are: - If it's already an InjectionParameterValue, return it. If it's a Type, return a - ResolvedParameter object for that type. Otherwise return an InjectionParameter - object for that value. - - The value to convert. - The resulting . - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - name to use when looking up in the container. - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - Return a instance that will - return this types value for the parameter. - - The actual type to resolve. - The resolution key. - The . - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - name to use when looking up in the container. - - - - Return a instance that will - return this types value for the parameter. - - The actual type to resolve. - The resolution key. - The . - - - - A that lets you specify that - an array containing the registered instances of a generic type parameter - should be resolved. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - The values for the elements, that will - be converted to objects. - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - A type is considered compatible if it is an array type of rank one - and its element type is a generic type parameter with a name matching this generic - parameter name configured for the receiver. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - A Unity container extension that allows you to configure - which constructors, properties, and methods get injected - via an API rather than through attributes. - - - - - Initial the container with this extension's functionality. - - - When overridden in a derived class, this method will modify the given - by adding strategies, policies, etc. to - install it's functions into the container. - - - - API to configure the injection settings for a particular type. - - Type the injection is being configured for. - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type/name pair. - - Type the injection is being configured for. - Name of registration - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type. - - Type to configure. - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type/name pair. - - Type to configure. - Name of registration. - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type/name pair. - - Type of interface/base class being registered (may be null). - Type of actual implementation class being registered. - Name of registration. - Objects containing the details on which members to inject and how. - This extension object. - - - - A class that holds the collection of information - for a constructor, so that the container can - be configured to call this constructor. - - - - - Base class for objects that can be used to configure what - class members get injected by the container. - - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type to register. - Policy list to add policies to. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface being registered. If no interface, - this will be null. - Type of concrete type being registered. - Name used to resolve the type object. - Policy list to add policies to. - - - - Create a new instance of that looks - for a constructor with the given set of parameters. - - The values for the parameters, that will - be converted to objects. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Interface registered, ignored in this implementation. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - A class that lets you specify a factory method the container - will use to create the object. - - This is a significantly easier way to do the same - thing the old static factory extension was used for. - - - - Create a new instance of with - the given factory function. - - Factory function. - - - - Create a new instance of with - the given factory function. - - Factory function. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface being registered. If no interface, - this will be null. This parameter is ignored in this implementation. - Type of concrete type being registered. - Name used to resolve the type object. - Policy list to add policies to. - - - - An that configures the - container to call a method as part of buildup. - - - - - Create a new instance which will configure - the container to call the given methods with the given parameters. - - Name of the method to call. - Parameter values for the method. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface registered, ignored in this implementation. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - A small function to handle name matching. You can override this - to do things like case insensitive comparisons. - - MethodInfo for the method you're checking. - Name of the method you're looking for. - True if a match, false if not. - - - - A class that holds on to the given value and provides - the required - when the container is configured. - - - - - A base class for implementing classes - that deal in explicit types. - - - - - Create a new that exposes - information about the given . - - Type of the parameter. - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - - - - The type of parameter this object represents. - - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - Create an instance of that stores - the given value, using the runtime type of that value as the - type of the parameter. - - Value to be injected for this parameter. - - - - Create an instance of that stores - the given value, associated with the given type. - - Type of the parameter. - Value of the parameter - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of that makes it a - little easier to specify the type of the parameter. - - Type of parameter. - - - - Create a new . - - Value for the parameter. - - - - This class stores information about which properties to inject, - and will configure the container accordingly. - - - - - Configure the container to inject the given property name, - resolving the value via the container. - - Name of the property to inject. - - - - Configure the container to inject the given property name, - using the value supplied. This value is converted to an - object using the - rules defined by the - method. - - Name of property to inject. - Value for property. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Interface being registered, ignored in this implemenation. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - A that lets you specify that - an instance of a generic type parameter should be resolved, providing the - value if resolving fails. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - name to use when looking up in the container. - - - - Return a instance that will - return this types value for the parameter. - - The actual type to resolve. - The resolution key. - The . - - - - A that can be passed to - to configure a - parameter or property as an optional dependency. - - - - - Construct a new object that - specifies the given . - - Type of the dependency. - - - - Construct a new object that - specifies the given and . - - Type of the dependency. - Name for the dependency. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of that lets you - specify the type of the dependency using generics syntax. - - Type of the dependency. - - - - Construct a new . - - - - - Construct a new with the given - . - - Name of the dependency. - - - - A class that stores a type, and generates a - resolver object that resolves all the named instances or the - type registered in a container. - - - - - Construct a new that - resolves to the given element type and collection of element values. - - The type of elements to resolve. - The values for the elements, that will - be converted to objects. - - - - Construct a new that - resolves to the given array and element types and collection of element values. - - The type for the array of elements to resolve. - The type of elements to resolve. - The values for the elements, that will - be converted to objects. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of for convenience - when creating them by hand. - - Type of the elements for the array of the parameter. - - - - Construct a new that - resolves to the given element generic type with the given element values. - - The values for the elements, that will - be converted to objects. - - - - A class that stores a name and type, and generates a - resolver object that resolves the parameter via the - container. - - - - - Construct a new that - resolves to the given type. - - Type of this parameter. - - - - Construct a new that - resolves the given type and name. - - Type of this parameter. - Name to use when resolving parameter. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of for convenience - when creating them by hand. - - Type of the parameter - - - - Create a new for the given - generic type and the default name. - - - - - Create a new for the given - generic type and name. - - Name to use to resolve this parameter. - - - - Interface defining the behavior of the Unity dependency injection container. - - - - - Register a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Name for registration. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve an instance of the requested type with the given name from the container. - - of object to get from the container. - Name of the object to retrieve. - Any overrides for the resolve call. - The retrieved object. - - - - Return instances of all registered types requested. - - - - This method is useful if you've registered multiple types with the same - but different names. - - - Be aware that this method does NOT return an instance for the default (unnamed) registration. - - - The type requested. - Any overrides for the resolve calls. - Set of objects of type . - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - of object to perform injection on. - Instance to build up. - name to use when looking up the typemappings and other configurations. - Any overrides for the resolve calls. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container, and clean it up. - - The object to tear down. - - - - Add an extension object to the container. - - to add. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve access to a configuration interface exposed by an extension. - - Extensions can expose configuration interfaces as well as adding - strategies and policies to the container. This method walks the list of - added extensions and returns the first one that implements the requested type. - - of configuration interface required. - The requested extension's configuration interface, or null if not found. - - - - Remove all installed extensions from this container. - - - - This method removes all extensions from the container, including the default ones - that implement the out-of-the-box behavior. After this method, if you want to use - the container again you will need to either readd the default extensions or replace - them with your own. - - - The registered instances and singletons that have already been set up in this container - do not get removed. - - - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Create a child container. - - - A child container shares the parent's configuration, but can be configured with different - settings or lifetime. - The new child container. - - - - The parent of this container. - - The parent container, or null if this container doesn't have one. - - - - Get a sequence of that describe the current state - of the container. - - - - - A that holds onto the instance given to it. - When the is disposed, - the instance is disposed with it. - - - - - Base class for Lifetime managers which need to synchronize calls to - . - - - - The purpose of this class is to provide a basic implementation of the lifetime manager synchronization pattern. - - - Calls to the method of a - instance acquire a lock, and if the instance has not been initialized with a value yet the lock will only be released - when such an initialization takes place by calling the method or if - the build request which resulted in the call to the GetValue method fails. - - - - - - - Base class for Lifetime managers - classes that control how - and when instances are created by the Unity container. - - - - - A that controls how instances are - persisted and recovered from an external store. Used to implement - things like singletons and per-http-request lifetime. - - - - - Represents a builder policy interface. Since there are no fixed requirements - for policies, it acts as a marker interface from which to derive all other - policy interfaces. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object to store. - - - - Remove the value this lifetime policy is managing from backing store. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - This interface provides a hook for the builder context to - implement error recovery when a builder strategy throws - an exception. Since we can't get try/finally blocks onto - the call stack for later stages in the chain, we instead - add these objects to the context. If there's an exception, - all the current IRequiresRecovery instances will have - their Recover methods called. - - - - - A method that does whatever is needed to clean up - as part of cleaning up after an exception. - - - Don't do anything that could throw in this method, - it will cause later recover operations to get skipped - and play real havoc with the stack trace. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - Calls to this method acquire a lock which is released only if a non-null value - has been set for the lifetime manager. - - - - Performs the actual retrieval of a value from the backing store associated - with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - This method is invoked by - after it has acquired its lock. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - Setting a value will attempt to release the lock acquired by - . - - - - Performs the actual storage of the given value into backing store for retrieval later. - - The object being stored. - This method is invoked by - before releasing its lock. - - - - Remove the given object from backing store. - - - - - A method that does whatever is needed to clean up - as part of cleaning up after an exception. - - - Don't do anything that could throw in this method, - it will cause later recover operations to get skipped - and play real havoc with the stack trace. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources. - - 2 - - - - Standard Dispose pattern implementation. Not needed, but it keeps FxCop happy. - - Always true, since we don't have a finalizer. - - - - A that holds a weak reference to - it's managed instance. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - A special lifetime manager which works like , - except that in the presence of child containers, each child gets it's own instance - of the object, instead of sharing one in the common parent. - - - - - An implementation of that - creates instances of the type of the given Lifetime Manager - by resolving them through the container. - - - - - A builder policy used to create lifetime policy instances. - Used by the LifetimeStrategy when instantiating open - generic types. - - - - - Create a new instance of . - - The new instance. - - - - The type of Lifetime manager that will be created by this factory. - - - - - Create a new that will - return instances of the given type, creating them by - resolving through the container. - - Container to resolve with. - Type of LifetimeManager to create. - - - - Create a new instance of . - - The new instance. - - - - The type of Lifetime manager that will be created by this factory. - - - - - This is a custom lifetime manager that acts like , - but also provides a signal to the default build plan, marking the type so that - instances are reused across the build up object graph. - - - - - Construct a new object that does not - itself manage an instance. - - - - - Construct a new object that stores the - give value. This value will be returned by - but is not stored in the lifetime manager, nor is the value disposed. - This Lifetime manager is intended only for internal use, which is why the - normal method is not used here. - - Value to store. - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. In this class, - this is a noop, since it has special hooks down in the guts. - - The object being stored. - - - - Remove the given object from backing store. Noop in this class. - - - - - A that holds the instances given to it, - keeping one instance per thread. - - - - This LifetimeManager does not dispose the instances it holds. - - - - - - Initializes a new instance of the class. - - - - - Retrieve a value from the backing store associated with this Lifetime policy for the - current thread. - - the object desired, or if no such object is currently - stored for the current thread. - - - - Stores the given value into backing store for retrieval later when requested - in the current thread. - - The object being stored. - - - - Remove the given object from backing store. - - Not implemented for this lifetime manager. - - - - An implementation that does nothing, - thus ensuring that instances are created new every time. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - This strategy implements the logic that will call container.ResolveAll - when an array parameter is detected. - - - - - Represents a strategy in the chain of responsibility. - Strategies are required to support both BuildUp and TearDown. - - - - - Represents a strategy in the chain of responsibility. - Strategies are required to support both BuildUp and TearDown. Although you - can implement this interface directly, you may also choose to use - as the base class for your strategies, as - this class provides useful helper methods and makes support BuildUp and TearDown - optional. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - Called during the chain of responsibility for a teardown operation. The - PreTearDown method is called when the chain is being executed in the - forward direction. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a teardown operation. The - PostTearDown method is called when the chain has finished the PreTearDown - phase and executes in reverse order from the PreTearDown calls. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - Called during the chain of responsibility for a teardown operation. The - PreTearDown method is called when the chain is being executed in the - forward direction. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a teardown operation. The - PostTearDown method is called when the chain has finished the PreTearDown - phase and executes in reverse order from the PreTearDown calls. - - Context of the teardown operation. - - - - Do the PreBuildUp stage of construction. This is where the actual work is performed. - - Current build context. - - - - An implementation of that is - aware of the build keys used by the Unity container. - - - - - Base class that provides an implementation of - which lets you override how the parameter resolvers are created. - - - - - A that, when implemented, - will determine which constructor to call from the build plan. - - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Compares two objects and returns a value indicating whether one is less than, equal to, or greater than the other. - - - - Value Condition Less than zerox is less than y.Zerox equals y.Greater than zerox is greater than y. - - - The second object to compare. - The first object to compare. - - - - Create a instance for the given - . - - - This implementation looks for the Unity on the - parameter and uses it to create an instance of - for this parameter. - Parameter to create the resolver for. - The resolver object. - - - - An implementation of that is aware - of the build keys used by the Unity container. - - - - - Base class that provides an implementation of - which lets you override how the parameter resolvers are created. - - Attribute that marks methods that should - be called. - - - - An that will examine the given - types and return a sequence of objects - that should be called as part of building the object. - - - - - Return the sequence of methods to call while building the target object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of methods to call. - - - - Return the sequence of methods to call while building the target object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of methods to call. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - An implementation of that is aware of - the build keys used by the unity container. - - - - - Base class that provides an implementation of - which lets you override how the parameter resolvers are created. - - - - - An that returns a sequence - of properties that should be injected for the given type. - - - - - Returns sequence of properties on the given type that - should be set as part of building that object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of objects - that contain the properties to set. - - - - Returns sequence of properties on the given type that - should be set as part of building that object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of objects - that contain the properties to set. - - - - Create a for the given - property. - - Property to create resolver for. - The resolver object. - - - - Create a for the given - property. - - Property to create resolver for. - The resolver object. - - - - A strategy that handles Hierarchical lifetimes across a set of parent/child - containers. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - A implementation that returns - the value set in the constructor. - - - - - A that is used at build plan execution time - to resolve a dependent value. - - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - Create a new instance of - which will return the given value when resolved. - - The value to return. - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - An implementation of that stores a - type and name, and at resolution time puts them together into a - . - - - - - Create an instance of - with the given type and name. - - The type. - The name (may be null). - - - - Resolve the value for a dependency. - - Current build context. - The value for the dependency. - - - - The type that this resolver resolves. - - - - - The name that this resolver resolves. - - - - - A that will attempt to - resolve a value, and return null if it cannot rather than throwing. - - - - - Construct a new object - that will attempt to resolve the given name and type from the container. - - Type to resolve. Must be a reference type. - Name to resolve with. - - - - Construct a new object - that will attempt to resolve the given type from the container. - - Type to resolve. Must be a reference type. - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - Type this resolver will resolve. - - - - - Name this resolver will resolve. - - - - - An implementation of that resolves to - to an array populated with the values that result from resolving other instances - of . - - - - - Create an instance of - with the given type and a collection of - instances to use when populating the result. - - The type. - The resolver policies to use when populating an array. - - - - Resolve the value for a dependency. - - Current build context. - An array pupulated with the results of resolving the resolver policies. - - - - An implementation of that selects - the given constructor and creates the appropriate resolvers to call it with - the specified parameters. - - - - - Create an instance of that - will return the given constructor, being passed the given injection values - as parameters. - - The constructor to call. - Set of objects - that describes how to obtain the values for the constructor parameters. - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - Helper class for implementing selector policies that need to - set up dependency resolver policies. - - - - - Add dependency resolvers to the parameter set. - - Type that's currently being built (used to resolve open generics). - PolicyList to add the resolvers to. - Objects supplying the dependency resolvers. - Result object to store the keys in. - - - - A implementation that calls the specific - methods with the given parameters. - - - - - Add the given method and parameter collection to the list of methods - that will be returned when the selector's - method is called. - - Method to call. - sequence of objects - that describe how to create the method parameter values. - - - - Return the sequence of methods to call while building the target object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of methods to call. - - - - An implemnetation of which returns - the set of specific properties that the selector was configured with. - - - - - Add a property that will be par of the set returned when the - is called. - - The property to set. - object describing - how to create the value to inject. - - - - Returns sequence of properties on the given type that - should be set as part of building that object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of objects - that contain the properties to set. - - - - The build stages we use in the Unity container - strategy pipeline. - - - - - First stage. By default, nothing happens here. - - - - - Second stage. Type mapping occurs here. - - - - - Third stage. lifetime managers are checked here, - and if they're available the rest of the pipeline is skipped. - - - - - Fourth stage. Reflection over constructors, properties, etc. is - performed here. - - - - - Fifth stage. Instance creation happens here. - - - - - Sixth stage. Property sets and method injection happens here. - - - - - Seventh and final stage. By default, nothing happens here. - - - - - Represents the context in which a build-up or tear-down operation runs. - - - - - Represents the context in which a build-up or tear-down operation runs. - - - - - Add a new set of resolver override objects to the current build operation. - - objects to add. - - - - Get a object for the given - or null if that dependency hasn't been overridden. - - Type of the dependency. - Resolver to use, or null if no override matches for the current operation. - - - - A convenience method to do a new buildup operation on an existing context. - - Key to use to build up. - Created object. - - - - A convenience method to do a new buildup operation on an existing context. This - overload allows you to specify extra policies which will be in effect for the duration - of the build. - - Key defining what to build up. - A delegate that takes a . This - is invoked with the new child context before the build up process starts. This gives callers - the opportunity to customize the context for the build process. - Created object. - - - - Gets the head of the strategy chain. - - - The strategy that's first in the chain; returns null if there are no - strategies in the chain. - - - - - Gets the associated with the build. - - - The associated with the build. - - - - - Gets the original build key for the build operation. - - - The original build key for the build operation. - - - - - Get the current build key for the current build operation. - - - - - The set of policies that were passed into this context. - - This returns the policies passed into the context. - Policies added here will remain after buildup completes. - The persistent policies for the current context. - - - - Gets the policies for the current context. - - Any policies added to this object are transient - and will be erased at the end of the buildup. - - The policies for the current context. - - - - - Gets the collection of objects - that need to execute in event of an exception. - - - - - The current object being built up or torn down. - - - The current object being manipulated by the build operation. May - be null if the object hasn't been created yet. - - - - Flag indicating if the build operation should continue. - - true means that building should not call any more - strategies, false means continue to the next strategy. - - - - An object representing what is currently being done in the - build chain. Used to report back errors if there's a failure. - - - - - The build context used to resolve a dependency during the build operation represented by this context. - - - - - Initialize a new instance of the class. - - - - - Initialize a new instance of the class with a , - , and the - build key used to start this build operation. - - The to use for this context. - The to use for this context. - The to use for this context. - Build key to start building. - The existing object to build up. - - - - Create a new using the explicitly provided - values. - - The to use for this context. - The to use for this context. - The set of persistent policies to use for this context. - The set of transient policies to use for this context. It is - the caller's responsibility to ensure that the transient and persistent policies are properly - combined. - Build key for this context. - Existing object to build up. - - - - Add a new set of resolver override objects to the current build operation. - - objects to add. - - - - Get a object for the given - or null if that dependency hasn't been overridden. - - Type of the dependency. - Resolver to use, or null if no override matches for the current operation. - - - - A convenience method to do a new buildup operation on an existing context. - - Key to use to build up. - Created object. - - - - A convenience method to do a new buildup operation on an existing context. This - overload allows you to specify extra policies which will be in effect for the duration - of the build. - - Key defining what to build up. - A delegate that takes a . This - is invoked with the new child context before the build up process starts. This gives callers - the opportunity to customize the context for the build process. - Created object. - - - - Gets the head of the strategy chain. - - - The strategy that's first in the chain; returns null if there are no - strategies in the chain. - - - - - Get the current build key for the current build operation. - - - - - The current object being built up or torn down. - - - The current object being manipulated by the build operation. May - be null if the object hasn't been created yet. - - - - Gets the associated with the build. - - - The associated with the build. - - - - - Gets the original build key for the build operation. - - - The original build key for the build operation. - - - - - The set of policies that were passed into this context. - - This returns the policies passed into the context. - Policies added here will remain after buildup completes. - The persistent policies for the current context. - - - - Gets the policies for the current context. - - - Any modifications will be transient (meaning, they will be forgotten when - the outer BuildUp for this context is finished executing). - - - The policies for the current context. - - - - - Gets the collection of objects - that need to execute in event of an exception. - - - - - Flag indicating if the build operation should continue. - - true means that building should not call any more - strategies, false means continue to the next strategy. - - - - An object representing what is currently being done in the - build chain. Used to report back errors if there's a failure. - - - - - The build context used to resolve a dependency during the build operation represented by this context. - - - - - Represents that a dependency could not be resolved. - - - - - Initializes a new instance of the class with no extra information. - - - - - Initializes a new instance of the class with the given message. - - Some random message. - - - - Initialize a new instance of the class with the given - message and inner exception. - - Some random message - Inner exception. - - - - Initializes a new instance of the class with the build key of the object begin built. - - The build key of the object begin built. - - - - The exception thrown when injection is attempted on a method - that is an open generic or has out or ref params. - - - - - Construct a new with no - message. - - - - - Construct a with the given message - - Message to return. - - - - Construct a with the given message - and inner exception. - - Message to return. - Inner exception - - - - Extension methods to provide convenience overloads over the - interface. - - - - - Start a recursive build up operation to retrieve the default - value for the given type. - - Type of object to build. - Parent context. - Resulting object. - - - - Start a recursive build up operation to retrieve the named - implementation for the given type. - - Type to resolve. - Parent context. - Name to resolve with. - The resulting object. - - - - Add a set of s to the context, specified as a - variable argument list. - - Context to add overrides to. - The overrides. - - - - Data structure that stores the set of - objects and executes them when requested. - - - - - Add a new object to this - list. - - Object to add. - - - - Execute the method - of everything in the recovery list. Recoveries will execute - in the opposite order of add - it's a stack. - - - - - Return the number of recovery objects currently in the stack. - - - - - Represents a lifetime container. - - - A lifetime container tracks the lifetime of an object, and implements - IDisposable. When the container is disposed, any objects in the - container which implement IDisposable are also disposed. - - - - - Adds an object to the lifetime container. - - The item to be added to the lifetime container. - - - - Determine if a given object is in the lifetime container. - - - The item to locate in the lifetime container. - - - Returns true if the object is contained in the lifetime - container; returns false otherwise. - - - - - Removes an item from the lifetime container. The item is - not disposed. - - The item to be removed. - - - - Gets the number of references in the lifetime container - - - The number of references in the lifetime container - - - - - Represents a lifetime container. - - - A lifetime container tracks the lifetime of an object, and implements - IDisposable. When the container is disposed, any objects in the - container which implement IDisposable are also disposed. - - - - - Adds an object to the lifetime container. - - The item to be added to the lifetime container. - - - - Determine if a given object is in the lifetime container. - - - The item to locate in the lifetime container. - - - Returns true if the object is contained in the lifetime - container; returns false otherwise. - - - - - Releases the resources used by the . - - - - - Releases the managed resources used by the DbDataReader and optionally releases the unmanaged resources. - - - true to release managed and unmanaged resources; false to release only unmanaged resources. - - - - - Returns an enumerator that iterates through the lifetime container. - - - An object that can be used to iterate through the life time container. - - - - - Returns an enumerator that iterates through the lifetime container. - - - An object that can be used to iterate through the life time container. - - - - - Removes an item from the lifetime container. The item is - not disposed. - - The item to be removed. - - - - Gets the number of references in the lifetime container - - - The number of references in the lifetime container - - - - - A custom collection over objects. - - - - - Removes an individual policy type for a build key. - - The type of policy to remove. - The key the policy applies. - - - - Removes all policies from the list. - - - - - Removes a default policy. - - The type the policy was registered as. - - - - Gets an individual policy. - - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - The key the policy applies to. - True if the search should be in the local policy list only; otherwise false to search up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list if present; returns null otherwise. - - - - Sets an individual policy. - - The of the policy. - The policy to be registered. - The key the policy applies. - - - - Sets a default policy. When checking for a policy, if no specific individual policy - is available, the default will be used. - - The interface to register the policy under. - The default policy to be registered. - - - - A custom collection wrapper over objects. - - - - - Initialize a new instance of a class. - - - - - Initialize a new instance of a class with another policy list. - - An inner policy list to search. - - - - Removes an individual policy type for a build key. - - The type of policy to remove. - The key the policy applies. - - - - Removes all policies from the list. - - - - - Removes a default policy. - - The type the policy was registered as. - - - - Gets an individual policy. - - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - The key the policy applies to. - True if the search should be in the local policy list only; otherwise false to search up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list if present; returns null otherwise. - - - - Sets an individual policy. - - The of the policy. - The policy to be registered. - The key the policy applies. - - - - Sets a default policy. When checking for a policy, if no specific individual policy - is available, the default will be used. - - The interface to register the policy under. - The default policy to be registered. - - - - Gets the number of items in the locator. - - - The number of items in the locator. - - - - - Extension methods on to provide convenience - overloads (generic versions, mostly). - - - - - Removes an individual policy type for a build key. - - The type the policy was registered as. - to remove the policy from. - The key the policy applies. - - - - Removes a default policy. - - The type the policy was registered as. - to remove the policy from. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Sets an individual policy. - - The interface the policy is registered under. - to add the policy to. - The policy to be registered. - The key the policy applies. - - - - Sets a default policy. When checking for a policy, if no specific individual policy - is available, the default will be used. - - The interface to register the policy under. - to add the policy to. - The default policy to be registered. - - - - An implementation of . - - - - - Add a new object to this - list. - - Object to add. - - - - Execute the method - of everything in the recovery list. Recoveries will execute - in the opposite order of add - it's a stack. - - - - - Return the number of recovery objects currently in the stack. - - - - - Implementation of which will notify an object about - the completion of a BuildUp operation, or start of a TearDown operation. - - - This strategy checks the object that is passing through the builder chain to see if it - implements IBuilderAware and if it does, it will call - and . This strategy is meant to be used from the - stage. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a teardown operation. The - PreTearDown method is called when the chain is being executed in the - forward direction. - - Context of the teardown operation. - - - - Implemented on a class when it wants to receive notifications - about the build process. - - - - - Called by the when the object is being built up. - - The key of the object that was just built up. - - - - Called by the when the object is being torn down. - - - - - Enumeration to represent the object builder stages. - - - The order of the values in the enumeration is the order in which the stages are run. - - - - - Strategies in this stage run before creation. Typical work done in this stage might - include strategies that use reflection to set policies into the context that other - strategies would later use. - - - - - Strategies in this stage create objects. Typically you will only have a single policy-driven - creation strategy in this stage. - - - - - Strategies in this stage work on created objects. Typical work done in this stage might - include setter injection and method calls. - - - - - Strategies in this stage work on objects that are already initialized. Typical work done in - this stage might include looking to see if the object implements some notification interface - to discover when its initialization stage has been completed. - - - - - Represents a builder policy for mapping build keys. - - - - - Represents a builder policy for mapping build keys. - - - - - Maps the build key. - - The build key to map. - Current build context. Used for contextual information - if writing a more sophisticated mapping. This parameter can be null - (called when getting container registrations). - The new build key. - - - - Initialize a new instance of the with the new build key. - - The new build key. - - - - Maps the build key. - - The build key to map. - Current build context. Used for contextual information - if writing a more sophisticated mapping, unused in this implementation. - The new build key. - - - - Represents a strategy for mapping build keys in the build up operation. - - - - - Called during the chain of responsibility for a build operation. Looks for the - and if found maps the build key for the current operation. - - The context for the operation. - - - - An implementation of that can map - generic types. - - - - - Create a new instance - that will map generic types. - - Build key to map to. This must be or contain an open generic type. - - - - Maps the build key. - - The build key to map. - Current build context. Used for contextual information - if writing a more sophisticated mapping. - The new build key. - - - - Base class for the current operation stored in the build context. - - - - - Create a new . - - Type currently being built. - - - - The type that's currently being built. - - - - - A that will look for a build plan - in the current context. If it exists, it invokes it, otherwise - it creates one and stores it for later, and invokes it. - - - - - Called during the chain of responsibility for a build operation. - - The context for the operation. - - - - An implementation of that chooses - constructors based on these criteria: first, pick a constructor marked with the - attribute. If there - isn't one, then choose the constructor with the longest parameter list. If that is ambiguous, - then throw. - - Thrown when the constructor to choose is ambiguous. - Attribute used to mark the constructor to call. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Objects of this type are the return value from . - It encapsulates the desired with the string keys - needed to look up the for each - parameter. - - - - - Base class for return values from selector policies that - return a memberinfo of some sort plus a list of parameter - keys to look up the parameter resolvers. - - - - - Base class for return of selector policies that need - to keep track of a set of parameter keys. - - - - - Add a new parameter key to this object. Keys are assumed - to be in the order of the parameters to the constructor. - - Key for the next parameter to look up. - - - - The set of keys for the constructor parameters. - - - - - Construct a new , storing - the given member info. - - Member info to store. - - - - The member info stored. - - - - - Create a new instance which - contains the given constructor. - - The constructor to wrap. - - - - The constructor this object wraps. - - - - - Create a object used to host the - dynamically generated build plan. This class creates the - dynamic method in the anonymous hosting assembly provided by - the Silverlight runtime. - - - - - This interface defines a policy that manages creation of the dynamic methods - used by the ObjectBuilder code generation. This way, we can replace the details - of how the dynamic method is created to handle differences in CLR (like Silverlight - vs desktop) or security policies. - - - - - Create a builder method for the given type, using the given name. - - Type that will be built by the generated method. - Name to give to the method. - A object with the proper signature to use - as part of a build plan. - - - - Create a builder method for the given type, using the given name. - - Type that will be built by the generated method. - Name to give to the method. - A object with the proper signature to use - as part of a build plan. - - - - This class records the information about which constructor argument is currently - being resolved, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - The type that is being constructed. - A string representing the constructor being called. - Parameter being resolved. - - - - Generate the string describing what parameter was being resolved. - - The description string. - - - - String describing the constructor being set up. - - - - - Parameter that's being resolved. - - - - - A that emits IL to call constructors - as part of creating a build plan. - - - - - Called during the chain of responsibility for a build operation. - - Existing object is an instance of . - The context for the operation. - - - - A helper method used by the generated IL to throw an exception if - a dependency cannot be resolved. - - The currently being - used for the build of this object. - - - - A helper method used by the generated IL to throw an exception if - a dependency cannot be resolved because of an invalid constructor. - - The currently being - used for the build of this object. - The signature of the invalid constructor. - - - - A helper method used by the generated IL to throw an exception if - no existing object is present, but the user is attempting to build - an interface (usually due to the lack of a type mapping). - - The currently being - used for the build of this object. - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to set up a PerResolveLifetimeManager lifetime manager - if the current object is such. - - Current build context. - - - - A class that records that a constructor is about to be call, and is - responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - - - - Generate the description string. - - The string. - - - - Constructor we're trying to call. - - - - - This object tracks the current state of the build plan generation, - accumulates the IL, provides the preamble & postamble for the dynamic - method, and tracks things like local variables in the generated IL - so that they can be reused across IL generation strategies. - - - - - Create a that is initialized - to handle creation of a dynamic method to build the given type. - - Type that we're trying to create a build plan for. - An object that actually - creates our object. - - - - Completes generation of the dynamic method and returns the - generated dynamic method delegate. - - The created - - - - Emit the IL to put the build context on top of the IL stack. - - - - - Emit the IL to put the current build key on top of the IL stack. - - - - - Emit the IL to put the current "existing" object on the top of the IL stack. - - - - - Emit the IL to make the top of the IL stack our current "existing" object. - - - - - Emit the IL to load the given object onto the top of the IL stack. - - Type to load on the stack. - - - - Emit the IL needed to look up an and - call it to get a value. - - Type of the dependency to resolve. - Key to look up the policy by. - - - - Emit the IL needed to clear the . - - - - - Emit the IL needed to either cast the top of the stack to the target type - or unbox it, if it's a value type. - - Type to convert the top of the stack to. - - - - A helper method used by the generated IL to clear the current operation in the build context. - - - - - Helper method used by generated IL to look up a dependency resolver based on the given key. - - Current build context. - Type of the dependency being resolved. - Key the resolver was stored under. - The found dependency resolver. - - - - A reflection helper method to make it easier to grab a property getter - for the given property. - - Type that implements the property we want. - Type of the property. - Name of the property. - The property getter's . - - - - A reflection helper method that makes it easier to grab a - for a method. - - Type that implements the method we want. - Name of the method. - Types of arguments to the method. - The method's . - - - - The underlying that can be used to - emit IL into the generated dynamic method. - - - - - The type we're currently creating the method to build. - - - - - A delegate type that defines the signature of the - dynamic method created by the build plans. - - used to build up the object. - - - - An implementation of that runs the - given delegate to execute the plan. - - - - - A build plan is an object that, when invoked, will create a new object - or fill in a given existing one. It encapsulates all the information - gathered by the strategies to construct a particular object. - - - - - Creates an instance of this build plan's type, or fills - in the existing type if passed in. - - Context used to build up the object. - - - - An implementation - that constructs a build plan via dynamic IL emission. - - - - - A that can create and return an - for the given build key. - - - - - Create a build plan using the given context and build key. - - Current build context. - Current build key. - The build plan. - - - - Construct a that - uses the given strategy chain to construct the build plan. - - The strategy chain. - - - - Construct a build plan. - - The current build context. - The current build key. - The created build plan. - - - - A that generates IL to call - chosen methods (as specified by the current ) - as part of object build up. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A class that records that a constructor is about to be call, and is - responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - - - - Generate the description string. - - The string. - - - - Method we're trying to call. - - - - - This class records the information about which constructor argument is currently - being resolved, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - The type that is being constructed. - A string representing the method being called. - Parameter being resolved. - - - - Generate the string describing what parameter was being resolved. - - The description string. - - - - String describing the method being set up. - - - - - Parameter that's being resolved. - - - - - A that generates IL to resolve properties - on an object being built. - - - - - Called during the chain of responsibility for a build operation. - - The context for the operation. - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A base class that holds the information shared by all operations - performed by the container while setting properties. - - - - - Initializes a new instance of the class. - - - - - Generate the description of this operation. - - The string. - - - - Get a format string used to create the description. Called by - the base method. - - The format string. - - - - The property value currently being resolved. - - - - - This class records the information about which property value is currently - being resolved, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - - - - Get a format string used to create the description. Called by - the base method. - - The format string. - - - - This class records the information about which property value is currently - being set, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - Type property is on. - Name of property being set. - - - - Get a format string used to create the description. Called by - the base method. - - The format string. - - - - Build plan for that will - return a func that will resolve the requested type - through this container later. - - - - - Creates an instance of this build plan's type, or fills - in the existing type if passed in. - - Context used to build up the object. - - - - An implementation of that selects - methods by looking for the given - attribute on those methods. - - Type of attribute used to mark methods - to inject. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Objects of this type are the return value from . - It encapsulates the desired with the string keys - needed to look up the for each - parameter. - - - - - Create a new instance which - contains the given method. - - The method - - - - The constructor this object wraps. - - - - - Creates an instance of this build plan's type, or fills - in the existing type if passed in. - - Context used to build up the object. - - - - An implementation of that looks - for properties marked with the - attribute that are also settable and not indexers. - - - - - - Create a for the given - property. - - Property to create resolver for. - The resolver object. - - - - Objects of this type are returned from - . - This class combines the about - the property with the string key used to look up the resolver - for this property's value. - - - - - Create an instance of - with the given and key. - - The property. - Key to use to look up the resolver. - - - - PropertyInfo for this property. - - - - - Key to look up this property's resolver. - - - - - Implementation of . - - - - - A builder policy that lets you keep track of the current - resolvers and will remove them from the given policy set. - - - - - Add a new resolver to track by key. - - Key that was used to add the resolver to the policy set. - - - - Remove the currently tracked resolvers from the given policy list. - - Policy list to remove the resolvers from. - - - - Add a new resolver to track by key. - - Key that was used to add the resolver to the policy set. - - - - Remove the currently tracked resolvers from the given policy list. - - Policy list to remove the resolvers from. - - - - Get an instance that implements , - either the current one in the policy set or creating a new one if it doesn't - exist. - - Policy list to look up from. - Build key to track. - The resolver tracker. - - - - Add a key to be tracked to the current tracker. - - Policy list containing the resolvers and trackers. - Build key for the resolvers being tracked. - Key for the resolver. - - - - Remove the resolvers for the given build key. - - Policy list containing the build key. - Build key. - - - - An implementation of that - calls back into the build chain to build up the dependency, passing - a type given at compile time as its build key. - - - - - Create a new instance storing the given type. - - Type to resolve. - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - This interface defines a standard method to convert any - regardless - of the stage enum into a regular, flat strategy chain. - - - - - Convert this into - a flat . - - The flattened . - - - - Represents a chain of responsibility for builder strategies. - - - - - Reverse the order of the strategy chain. - - The reversed strategy chain. - - - - Execute this strategy chain against the given context, - calling the Buildup methods on the strategies. - - Context for the build process. - The build up object - - - - Execute this strategy chain against the given context, - calling the TearDown methods on the strategies. - - Context for the teardown process. - - - - An implementation that uses - a to figure out if an object - has already been created and to update or remove that - object from some backing store. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - Represents a chain of responsibility for builder strategies partitioned by stages. - - The stage enumeration to partition the strategies. - - - - Initialize a new instance of the class. - - - - - Initialize a new instance of the class with an inner strategy chain to use when building. - - The inner strategy chain to use first when finding strategies in the build operation. - - - - Adds a strategy to the chain at a particular stage. - - The strategy to add to the chain. - The stage to add the strategy. - - - - Add a new strategy for the . - - The of - The stage to add the strategy. - - - - Clear the current strategy chain list. - - - This will not clear the inner strategy chain if this instane was created with one. - - - - - Makes a strategy chain based on this instance. - - A new . - - - - Represents a chain of responsibility for builder strategies. - - - - - Initialzie a new instance of the class. - - - - - Initialzie a new instance of the class with a colleciton of strategies. - - A collection of strategies to initialize the chain. - - - - Adds a strategy to the chain. - - The strategy to add to the chain. - - - - Adds strategies to the chain. - - The strategies to add to the chain. - - - - Reverse the order of the strategy chain. - - The reversed strategy chain. - - - - Execute this strategy chain against the given context to build up. - - Context for the build processes. - The build up object - - - - Execute this strategy chain against the given context, - calling the TearDown methods on the strategies. - - Context for the teardown process. - - - - Returns an enumerator that iterates through the collection. - - - - A that can be used to iterate through the collection. - - 1 - - - - Returns an enumerator that iterates through a collection. - - - - An object that can be used to iterate through the collection. - - 2 - - - - The almost inevitable collection of extra helper methods on - to augment the rich set of what - Linq already gives us. - - - - - Execute the provided on every item in . - - Type of the items stored in - Sequence of items to process. - Code to run over each item. - - - - Create a single string from a sequenc of items, separated by the provided , - and with the conversion to string done by the given . - - This method does basically the same thing as , - but will work on any sequence of items, not just arrays. - Type of items in the sequence. - Sequence of items to convert. - Separator to place between the items in the string. - The conversion function to change TItem -> string. - The resulting string. - - - - Create a single string from a sequenc of items, separated by the provided , - and with the conversion to string done by the item's method. - - This method does basically the same thing as , - but will work on any sequence of items, not just arrays. - Type of items in the sequence. - Sequence of items to convert. - Separator to place between the items in the string. - The resulting string. - - - - Build key used to combine a type object with a string name. Used by - ObjectBuilder to indicate exactly what is being built. - - - - - Create a new instance with the given - type and name. - - to build. - Key to use to look up type mappings and singletons. - - - - Create a new instance for the default - buildup of the given type. - - to build. - - - - This helper method creates a new instance. It is - initialized for the default key for the given type. - - Type to build. - A new instance. - - - - This helper method creates a new instance for - the given type and key. - - Type to build - Key to use to look up type mappings and singletons. - A new instance initialized with the given type and name. - - - - Compare two instances. - - Two instances compare equal - if they contain the same name and the same type. Also, comparing - against a different type will also return false. - Object to compare to. - True if the two keys are equal, false if not. - - - - Calculate a hash code for this instance. - - A hash code. - - - - Compare two instances for equality. - - Two instances compare equal - if they contain the same name and the same type. - First of the two keys to compare. - Second of the two keys to compare. - True if the values of the keys are the same, else false. - - - - Compare two instances for inequality. - - Two instances compare equal - if they contain the same name and the same type. If either field differs - the keys are not equal. - First of the two keys to compare. - Second of the two keys to compare. - false if the values of the keys are the same, else true. - - - - Formats the build key as a string (primarily for debugging). - - A readable string representation of the build key. - - - - Return the stored in this build key. - - The type to build. - - - - Returns the name stored in this build key. - - The name to use when building. - - - - A generic version of so that - you can new up a key using generic syntax. - - Type for the key. - - - - Construct a new that - specifies the given type. - - - - - Construct a new that - specifies the given type and name. - - Name for the key. - - - - A series of helper methods to deal with sequences - - objects that implement . - - - - - A function that turns an arbitrary parameter list into an - . - - Type of arguments. - The items to put into the collection. - An array that contains the values of the . - - - - Given two sequences, return a new sequence containing the corresponding values - from each one. - - Type of first sequence. - Type of second sequence. - First sequence of items. - Second sequence of items. - New sequence of pairs. This sequence ends when the shorter of sequence1 and sequence2 does. - - - - A class that lets you - override a named parameter passed to a constructor. - - - - - Construct a new object that will - override the given named constructor parameter, and pass the given - value. - - Name of the constructor parameter. - Value to pass for the constructor. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience form of that lets you - specify multiple parameter overrides in one shot rather than having - to construct multiple objects. - - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to The type {0} has multiple constructors of length {1}. Unable to disambiguate.. - - - - - Looks up a localized string similar to The provided string argument must not be empty.. - - - - - Looks up a localized string similar to The current build operation (build key {2}) failed: {3} (Strategy type {0}, index {1}). - - - - - Looks up a localized string similar to The current type, {0}, is an interface and cannot be constructed. Are you missing a type mapping?. - - - - - Looks up a localized string similar to Cannot extract type from build key {0}.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) is an open generic method. Open generic methods cannot be injected.. - - - - - Looks up a localized string similar to The property {0} on type {1} is an indexer. Indexed properties cannot be injected.. - - - - - Looks up a localized string similar to The method {1} on type {0} has an out parameter. Injection cannot be performed.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) has at least one out parameter. Methods with out parameters cannot be injected.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) has at least one ref parameter.Methods with ref parameters cannot be injected.. - - - - - Looks up a localized string similar to The method {1} on type {0} is marked for injection, but it is an open generic method. Injection cannot be performed.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) is static. Static methods cannot be injected.. - - - - - Looks up a localized string similar to The type {0} is an open generic type. An open generic type cannot be resolved.. - - - - - Looks up a localized string similar to Resolving parameter "{0}" of constructor {1}. - - - - - Looks up a localized string similar to The parameter {0} could not be resolved when attempting to call constructor {1}.. - - - - - Looks up a localized string similar to Parameter type inference does not work for null values. Indicate the parameter type explicitly using a properly configured instance of the InjectionParameter or InjectionParameter<T> classes.. - - - - - Looks up a localized string similar to Calling constructor {0}. - - - - - Looks up a localized string similar to Calling method {0}.{1}. - - - - - Looks up a localized string similar to An item with the given key is already present in the dictionary.. - - - - - Looks up a localized string similar to The lifetime manager is already registered. Lifetime managers cannot be reused, please create a new one.. - - - - - Looks up a localized string similar to The override marker build plan policy has been invoked. This should never happen, looks like a bug in the container.. - - - - - Looks up a localized string similar to Resolving parameter "{0}" of method {1}.{2}. - - - - - Looks up a localized string similar to The value for parameter "{1}" of method {0} could not be resolved. . - - - - - Looks up a localized string similar to Could not resolve dependency for build key {0}.. - - - - - Looks up a localized string similar to The type {0} has multiple constructors marked with the InjectionConstructor attribute. Unable to disambiguate.. - - - - - Looks up a localized string similar to The supplied type {0} must be an open generic type.. - - - - - Looks up a localized string similar to The supplied type {0} does not have the same number of generic arguments as the target type {1}.. - - - - - Looks up a localized string similar to The type {0} does not have an accessible constructor.. - - - - - Looks up a localized string similar to The type {0} does not have a generic argument named "{1}". - - - - - Looks up a localized string similar to while resolving. - - - - - Looks up a localized string similar to The type {0} does not have a constructor that takes the parameters ({1}).. - - - - - Looks up a localized string similar to The type {0} does not have a public method named {1} that takes the parameters ({2}).. - - - - - Looks up a localized string similar to The type {0} does not contain an instance property named {1}.. - - - - - Looks up a localized string similar to The type {0} is not a generic type, and you are attempting to inject a generic parameter named "{1}".. - - - - - Looks up a localized string similar to The type {0} is not an array type with rank 1, and you are attempting to use a [DependencyArray] attribute on a parameter or property with this type.. - - - - - Looks up a localized string similar to Optional dependencies must be reference types. The type {0} is a value type.. - - - - - Looks up a localized string similar to The property {0} on type {1} is not settable.. - - - - - Looks up a localized string similar to The property {0} on type {1} is of type {2}, and cannot be injected with a value of type {3}.. - - - - - Looks up a localized string similar to The value for the property "{0}" could not be resolved.. - - - - - Looks up a localized string similar to The provided string argument must not be empty.. - - - - - Looks up a localized string similar to Resolution of the dependency failed, type = "{0}", name = "{1}". - Exception occurred while: {2}. - Exception is: {3} - {4} - ----------------------------------------------- - At the time of the exception, the container was: - . - - - - - Looks up a localized string similar to Resolving {0},{1}. - - - - - Looks up a localized string similar to Resolving {0},{1} (mapped from {2}, {3}). - - - - - Looks up a localized string similar to Resolving value for property {0}.{1}. - - - - - Looks up a localized string similar to The constructor {1} selected for type {0} has ref or out parameters. Such parameters are not supported for constructor injection.. - - - - - Looks up a localized string similar to Setting value for property {0}.{1}. - - - - - Looks up a localized string similar to The type {0} cannot be constructed. You must configure the container to supply this value.. - - - - - Looks up a localized string similar to The type {1} cannot be assigned to variables of type {0}.. - - - - - Looks up a localized string similar to <unknown>. - - - - - A that lets you override - the value for a specified property. - - - - - Create an instance of . - - The property name. - Value to use for the property. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience form of that lets you - specify multiple property overrides in one shot rather than having - to construct multiple objects. - - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - The exception thrown by the Unity container when - an attempt to resolve a dependency fails. - - - - - Create a new that records - the exception for the given type and name. - - Type requested from the container. - Name requested from the container. - The actual exception that caused the failure of the build. - The build context representing the failed operation. - - - - The type that was being requested from the container at the time of failure. - - - - - The name that was being requested from the container at the time of failure. - - - - - Interface defining the configuration interface exposed by the - Static Factory extension. - - - - - Register the given factory delegate to be called when the container is - asked to resolve . - - Type that will be requested from the container. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - Register the given factory delegate to be called when the container is - asked to resolve and . - - Type that will be requested from the container. - The name that will be used when requesting to resolve this type. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - A that lets you register a - delegate with the container to create an object, rather than calling - the object's constructor. - - - - - Initialize this extension. This particular extension requires no - initialization work. - - - - - Register the given factory delegate to be called when the container is - asked to resolve and . - - Type that will be requested from the container. - The name that will be used when requesting to resolve this type. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - Register the given factory delegate to be called when the container is - asked to resolve . - - Type that will be requested from the container. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - An implementation of that - acts as a decorator over another . - This checks to see if the current type being built is the - right one before checking the inner . - - - - - Create an instance of - - Type to check for. - Inner override to check after type matches. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience version of that lets you - specify the type to construct via generics syntax. - - Type to check for. - - - - Create an instance of . - - Inner override to check after type matches. - - - - A simple, extensible dependency injection container. - - - - - Create a default . - - - - - Create a with the given parent container. - - The parent . The current object - will apply its own settings first, and then check the parent for additional ones. - - - - RegisterType a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - RegisterType an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Name for registration. - - If true, the container will take over the lifetime of the instance, - calling Dispose on it (if it's ) when the container is Disposed. - - If false, container will not maintain a strong reference to . User is reponsible - for disposing instance, and for keeping the instance from being garbage collected. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Get an instance of the requested type with the given name from the container. - - of object to get from the container. - Name of the object to retrieve. - Any overrides for the resolve call. - The retrieved object. - - - - Return instances of all registered types requested. - - - - This method is useful if you've registered multiple types with the same - but different names. - - - Be aware that this method does NOT return an instance for the default (unnamed) registration. - - - The type requested. - Any overrides for the resolve calls. - Set of objects of type . - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - of object to perform injection on. - Instance to build up. - name to use when looking up the typemappings and other configurations. - Any overrides for the buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container, and clean it up. - - The object to tear down. - - - - Add an extension object to the container. - - to add. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Get access to a configuration interface exposed by an extension. - - Extensions can expose configuration interfaces as well as adding - strategies and policies to the container. This method walks the list of - added extensions and returns the first one that implements the requested type. - - of configuration interface required. - The requested extension's configuration interface, or null if not found. - - - - Remove all installed extensions from this container. - - - - This method removes all extensions from the container, including the default ones - that implement the out-of-the-box behavior. After this method, if you want to use - the container again you will need to either readd the default extensions or replace - them with your own. - - - The registered instances and singletons that have already been set up in this container - do not get removed. - - - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Create a child container. - - - A child container shares the parent's configuration, but can be configured with different - settings or lifetime. - The new child container. - - - - Dispose this container instance. - - - Disposing the container also disposes any child containers, - and disposes any instances whose lifetimes are managed - by the container. - - - - - Dispose this container instance. - - - This class doesn't have a finalizer, so will always be true. - True if being called from the IDisposable.Dispose - method, false if being called from a finalizer. - - - - Remove policies associated with building this type. This removes the - compiled build plan so that it can be rebuilt with the new settings - the next time this type is resolved. - - Type of object to clear the plan for. - Name the object is being registered with. - - - - The parent of this container. - - The parent container, or null if this container doesn't have one. - - - - Get a sequence of that describe the current state - of the container. - - - - - Implementation of the ExtensionContext that is actually used - by the UnityContainer implementation. - - - This is a nested class so that it can access state in the - container that would otherwise be inaccessible. - - - - - This event is raised when the method, - or one of its overloads, is called. - - - - - Extension class that adds a set of convenience overloads to the - interface. - - - - - Register a type with specific members to be injected. - - Type this registration is for. - Container to configure. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - - This overload registers a default mapping and transient lifetime. - - - that will be requested. - that will actually be returned. - Container to configure. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Container to configure. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - that will be requested. - that will actually be returned. - Container to configure. - Name of this mapping. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Container to configure. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type with the container. - No type mapping is performed for this type. - - The type to apply the to. - Container to configure. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type with the container. - No type mapping is performed for this type. - - The type to configure injection on. - Container to configure. - Name that will be used to request the type. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - The type to apply the to. - Container to configure. - Name that will be used to request the type. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type with specific members to be injected. - - Container to configure. - Type this registration is for. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - - This overload registers a default mapping. - - - Container to configure. - that will be requested. - that will actually be returned. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - Container to configure. - that will be requested. - that will actually be returned. - Name to use for registration, null if a default registration. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container, where the created instances will use - the given . - - Container to configure. - that will be requested. - that will actually be returned. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - Container to configure. - The to apply the to. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - Container to configure. - The to configure in the container. - Name to use for registration, null if a default registration. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - Container to configure. - The to apply the to. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration and has the container take over the lifetime of the instance. - - Type of instance to register (may be an implemented interface instead of the full type). - Container to configure. - Object to returned. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration (name = null). - - - Type of instance to register (may be an implemented interface instead of the full type). - Container to configure. - Object to returned. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload automatically has the container take ownership of the . - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Container to configure. - Name for registration. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Container to configure. - Name for registration. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration and has the container take over the lifetime of the instance. - - Container to configure. - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration (name = null). - - - Container to configure. - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload automatically has the container take ownership of the . - - Container to configure. - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Name for registration. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve an instance of the default requested type from the container. - - of object to get from the container. - Container to resolve from. - Any overrides for the resolve call. - The retrieved object. - - - - Resolve an instance of the requested type with the given name from the container. - - of object to get from the container. - Container to resolve from. - Name of the object to retrieve. - Any overrides for the resolve call. - The retrieved object. - - - - Resolve an instance of the default requested type from the container. - - Container to resolve from. - of object to get from the container. - Any overrides for the resolve call. - The retrieved object. - - - - Return instances of all registered types requested. - - - - This method is useful if you've registered multiple types with the same - but different names. - - - Be aware that this method does NOT return an instance for the default (unnamed) registration. - - - The type requested. - Container to resolve from. - Any overrides for the resolve calls. - Set of objects of type . - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - - This overload uses the default registrations. - - - of object to perform injection on. - Container to resolve through. - Instance to build up. - Any overrides for the buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - of object to perform injection on. - Conatiner to resolve through. - Instance to build up. - name to use when looking up the typemappings and other configurations. - Any overrides for the Buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - - This overload uses the default registrations. - - - Container to resolve through. - of object to perform injection on. - Instance to build up. - Any overrides for the Buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Creates a new extension object and adds it to the container. - - Type of to add. The extension type - will be resolved from within the supplied . - Container to add the extension to. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve access to a configuration interface exposed by an extension. - - Extensions can expose configuration interfaces as well as adding - strategies and policies to the container. This method walks the list of - added extensions and returns the first one that implements the requested type. - - The configuration interface required. - Container to configure. - The requested extension's configuration interface, or null if not found. - - - - Check if a particular type has been registered with the container with - the default name. - - Container to inspect. - Type to check registration for. - True if this type has been registered, false if not. - - - - Check if a particular type/name pair has been registered with the container. - - Container to inspect. - Type to check registration for. - Name to check registration for. - True if this type/name pair has been registered, false if not. - - - - Check if a particular type has been registered with the container with the default name. - - Type to check registration for. - Container to inspect. - True if this type has been registered, false if not. - - - - Check if a particular type/name pair has been registered with the container. - - Type to check registration for. - Container to inspect. - Name to check registration for. - True if this type/name pair has been registered, false if not. - - - - This extension supplies the default behavior of the UnityContainer API - by handling the context events and setting policies. - - - - - Install the default container behavior into the container. - - - - - Remove the default behavior from the container. - - - - - This extension installs the default strategies and policies into the container - to implement the standard behavior of the Unity container. - - - This extension installs the default strategies and policies into the container - to implement the standard behavior of the Unity container. - - - - - Add the default ObjectBuilder strategies & policies to the container. - - - - - Add the correct to the policy - set. This version adds the appropriate policy for running on the desktop CLR. - - - - - An implementation of that wraps a Unity container. - - - - - Initializes a new instance of the class for a container. - - The to wrap with the - interface implementation. - - - - Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources. - - 2 - - - - When implemented by inheriting classes, this method will do the actual work of resolving - the requested service instance. - - Type of instance requested.Name of registered service you want. May be null. - - The requested service instance. - - - - - When implemented by inheriting classes, this method will do the actual work of - resolving all the requested service instances. - - Type of service requested. - - Sequence of service instance objects. - - - - - A static helper class that includes various parameter checking routines. - - - - - Throws if the given argument is null. - - if tested value if null. - Argument value to test. - Name of the argument being tested. - - - - Throws an exception if the tested string argument is null or the empty string. - - Thrown if string value is null. - Thrown if the string is empty - Argument value to check. - Name of argument being checked. - - - - Verifies that an argument type is assignable from the provided type (meaning - interfaces are implemented, or classes exist in the base class hierarchy). - - The argument type that will be assigned to. - The type of the value being assigned. - Argument name. - - - - Verifies that an argument instance is assignable from the provided type (meaning - interfaces are implemented, or classes exist in the base class hierarchy, or instance can be - assigned through a runtime wrapper, as is the case for COM Objects). - - The argument type that will be assigned to. - The instance that will be assigned. - Argument name. - - - - Helper class to wrap common reflection stuff dealing with - methods. - - - - - Create a new instance that - lets us do more reflection stuff on that method. - - The method to reflect on. - - - - Given our set of generic type arguments, - - The generic type arguments. - An array with closed parameter types. - - - - Returns true if any of the parameters of this method - are open generics. - - - - - Return the of each parameter for this - method. - - Sequence of objects, one for - each parameter in order. - - - - A helper class that encapsulates two different - data items together into a a single item. - - - - - Create a new containing - the two values give. - - First value - Second value - - - - The first value of the pair. - - - - - The second value of the pair. - - - - - Container for a Pair helper method. - - - - - A helper factory method that lets users take advantage of type inference. - - Type of first value. - Type of second value. - First value. - Second value. - A new instance. - - - - A utility class that handles the logic of matching parameter - lists, so we can find the right constructor and method overloads. - - - - - Create a new that will attempt to - match the given parameter types. - - Target parameters to match against. - - - - Tests to see if the given set of types matches the ones - we're looking for. - - parameter list to look for. - true if they match, false if they don't. - - - - Tests to see if the given set of types matches the ones we're looking for. - - Candidate method signature to look for. - True if they match, false if they don't. - - - - Another reflection helper class that has extra methods - for dealing with ParameterInfos. - - - - - A small helper class to encapsulate details of the - reflection API, particularly around generics. - - - - - Create a new instance that - lets you look at information about the given type. - - Type to do reflection on. - - - - Test the given object, looking at - the parameters. Determine if any of the parameters are - open generic types that need type attributes filled in. - - The method to check. - True if any of the parameters are open generics. False if not. - - - - If this type is an open generic, use the - given array to - determine what the required closed type is and return that. - - If the parameter is not an open type, just - return this parameter's type. - Type arguments to substitute in for - the open type parameters. - Corresponding closed type of this parameter. - - - - Given a generic argument name, return the corresponding type for this - closed type. For example, if the current type is SomeType<User>, and the - corresponding definition was SomeType<TSomething>, calling this method - and passing "TSomething" will return typeof(User). - - Name of the generic parameter. - Type of the corresponding generic parameter, or null if there - is no matching name. - - - - The object we're reflecting over. - - - - - Is this type generic? - - - - - Is this type an open generic (no type parameter specified) - - - - - Is this type an array type? - - - - - Is this type an array of generic elements? - - - - - The type of the elements in this type (if it's an array). - - - - - Create a new instance of that - lets you query information about the given ParameterInfo object. - - Parameter to query. - - - - A set of helper methods to pick through lambdas and pull out - from them. - - - - - Pull out a object from an expression of the form - () => SomeClass.SomeMethod() - - Expression describing the method to call. - Corresponding . - - - - Pull out a object from an expression of the form - x => x.SomeMethod() - - The type where the method is defined. - Expression describing the method to call. - Corresponding . - - - - Pull out a object for the get method from an expression of the form - x => x.SomeProperty - - The type where the method is defined. - The type for the property. - Expression describing the property for which the get method is to be extracted. - Corresponding . - - - - Pull out a object for the set method from an expression of the form - x => x.SomeProperty - - The type where the method is defined. - The type for the property. - Expression describing the property for which the set method is to be extracted. - Corresponding . - - - - Pull out a object from an expression of the form () => new SomeType() - - The type where the constructor is defined. - Expression invoking the desired constructor. - Corresponding . - - - diff --git a/packages/Unity.2.1.505.0/Unity.2.1.505.0.nupkg b/packages/Unity.2.1.505.0/Unity.2.1.505.0.nupkg deleted file mode 100644 index 9df836221..000000000 Binary files a/packages/Unity.2.1.505.0/Unity.2.1.505.0.nupkg and /dev/null differ diff --git a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.Configuration.xml b/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.Configuration.xml deleted file mode 100644 index 8903a0ca7..000000000 --- a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.Configuration.xml +++ /dev/null @@ -1,2451 +0,0 @@ - - - - Microsoft.Practices.Unity.Configuration - - - - - A configuration element storing information about a single type alias. - - - - - Base class for configuration elements with a default implementation of - public deserialization. - - - - - Load this element from the given . - - Contains the XML to initialize from. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Construct a new, uninitialized . - - - - - Construct a new that is initialized - to alias to the target . - - Alias to use. - Type that is aliased. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - The alias used for this type. - - - - - The fully qualified name this alias refers to. - - - - - A collection of s. - - - - - Specialization of - that provides a canned implmentation of . - - Type of configuration element in the collection. - - - - A base helper class for implementing configuration collections. - - Type of configuration element contained in - the collection. - - - - Plug point to get objects out of the collection. - - Index in the collection to retrieve the item from. - Item at that index or null if not present. - - - - Plug point to get objects out of the collection. - - Key to look up the object by. - Item with that key or null if not present. - - - - Load this element from the given . - - Contains the XML to initialize from. - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - Add a new element to the collection. - - Element to add. - - - - Remove an element from the collection at the given index. - - The index of the item to remove. - - - - Remove all the items in the collection. - - - - - Write out the contents of this collection to the given - without a containing element - corresponding directly to this container element. Each - child element will have a tag name given by - . - - to output XML to. - Name of tag to generate. - - - - Indexer to retrieve items in the collection by index. - - Index of the item to get or set. - The item at the given index. - - - - When overridden in a derived class, creates a new . - - - A new . - - - - - Causes the configuration system to throw an exception. - - - true if the unrecognized element was deserialized successfully; otherwise, false. The default is false. - - The name of the unrecognized element. - An input stream that reads XML from the configuration file. - The element specified in is the <clear> element. - starts with the reserved prefix "config" or "lock". - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Indexer that allows you to get or set an alias by the alias name. - - Alias of element to get or set. - The type name at that alias. - - - - A configuration element used to configure injection of - a specific set of values into an array. - - - - - Base class for configuration elements that describe a value that will - be injected. - - - - - Initialize a new instance of . - - - - - Generate an object - that will be used to configure the container for a type registration. - - Container that is being configured. Supplied in order - to let custom implementations retrieve services; do not configure the container - directly in this method. - Type of the - - - - - Validate that an expected attribute is present in the given - dictionary and that it has a non-empty value. - - Dictionary of name/value pairs to check. - attribute name to check. - - - - Return a unique string that can be used to identify this object. Used - by the configuration collection support. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Generate an object - that will be used to configure the container for a type registration. - - Container that is being configured. Supplied in order - to let custom implementations retrieve services; do not configure the container - directly in this method. - Type of the - - - - - Type of array to inject. This is actually the type of the array elements, - not the array type. Optional, if not specified we take the type from - our containing element. - - - - - Values used to calculate the contents of the array. - - - - - A configuration element representing the namespace - tags in the config file. - - - - - An element with a single "name" property, used for - the namespaces and assemblies. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Name attribute for this element. - - - - - A collection of s in configuration. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Helpful extension methods when implementing configuration sections - that deserialize "unwrapped" elements - elements that should be - deserialized into a container but can be present outside - that container in the actual config file. - - - - - Deserialize an element of the given type, store it in - the collection object, and - - Type of element to create and deserialize. - Parent element containing element to deserialize. - Xml reader containing state to deserialize from. - Collection to store the created element into. - The created element. - - - - Deserialize an element, basing the element type on the one - supplied at runtime, and then store the element into the - given . - - This method is useful when reading elements into a polymorphic collection. - Base type of element to store. - Element that contains the collection being stored into. - Xml Reader containing state to deserialize from. - Runtime type of element to create. - Collection to store the created element into. - The created element. - - - - Class that tracks the current input state of the parser. - - - - - A simple implementing of the rules for a Parsing Expression Grammar - parsing algorithm. This supplies basic methods to do the primitives - of the PEG, and combinators to create larger rules. - - - - - The PEG "dot" operator that matches and consumes one character. - - Input to the parser. - The parse result. - - - - Parse function generator that returns a method to match a single, - specific character. - - Character to match. - The generated parsing function. - - - - Parse function generator that checks if the current character matches - the predicate supplied. - - Predicate used to determine if the character is in - the given range. - The generated parsing function. - - - - The "*" operator - match zero or more of the inner parse expressions. - - Parse method to repeat matching. - The generated parsing function. - - - - Parsing combinator that matches all of the given expressions in - order, or matches none of them. - - Expressions that form the sequence to match. - The combined sequence. - - - - Parsing combinator that implements the PEG prioritized choice operator. Basically, - try each of the expressions in order, and match if any of them match, stopping on the - first match. - - Expressions that form the set of alternatives. - The combined parsing method. - - - - Parsing combinator implementing the "not" predicate. This wraps - the given parsing method with a check - to see if it matched. If it matched, then the Not fails, and vice - versa. The result consumes no input. - - The parse method to wrap. - The generated parsing function. - - - - Parsing expression that matches End of input. - - Parser input. - Parse result - - - - Combinator that executes an action if the given expression matched. - - Parsing expression to match. - Action to execute if - matched. Input is the matched text from . - The result of . - - - - Combinator that executes an action if the given expression matched. - - parsing expression to match. - Method to execute if a match happens. This method returns - the that will be returned from the combined expression. - The result of if expression matched, else - whatever returned. - - - - Object containing the result of attempting to match a PEG rule. - This object is the return type for all parsing methods. - - - - - Did the rule match? - - - - - The characters that were matched (if any) - - - - - Any extra information provided by the parsing expression - (only set if the parse matched). The nature - of the data varies depending on the parsing expression. - - - - - Helper methods to make it easier to pull the data - out of the result of a sequence expression. - - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - Adds an item to the . - - The object to add to the . - The is read-only. - - - - - Removes all items from the . - - The is read-only. - - - - - Determines whether the contains a specific value. - - - true if is found in the ; otherwise, false. - - The object to locate in the . - - - - - Copies the elements of the sequence to an , starting at a particular index. - - The one-dimensional that is the destination of the elements copied from this sequence. The must have zero-based indexing. - The zero-based index in at which copying begins. - is null. - is less than 0. - is multidimensional. - -or- - is equal to or greater than the length of . - -or- - The number of elements in the source is greater than the available space from to the end of the destination . - - - - - Removes the first occurrence of a specific object from the . - - - true if was successfully removed from the ; otherwise, false. This method also returns false if is not found in the original . - - The object to remove from the . - The is read-only. - - - - - Determines the index of a specific item in the . - - - The index of if found in the list; otherwise, -1. - - The object to locate in the . - - - - - Inserts an item to the at the specified index. - - The zero-based index at which should be inserted. - The object to insert into the . - is not a valid index in the . - The is read-only. - - - - - Removes the item at the specified index. - - The zero-based index of the item to remove. - is not a valid index in the . - The is read-only. - - - - - Gets the number of elements contained in the . - - - The number of elements contained in the . - - - - - Gets a value indicating whether the is read-only. - - - true if the is read-only; otherwise, false. - - - - - Gets or sets the element at the specified index. - - - The element at the specified index. - - The zero-based index of the element to get or set. - is not a valid index in the . - The property is set and the is read-only. - - - - - Class containing information about a type name. - - - - - The base name of the class - - - - - Namespace if any - - - - - Assembly name, if any - - - - - Helper methods on . - - - - - A helper method to make it more foolproof to write elements. This takes care of writing the - start and end elment tags, and takes a nested closure with the code to write the content of - the tag. That way the caller doesn't need to worry about the details of getting the start - and end tags correct. - - - We don't support XML Namespaces here because .NET configuration doesn't use them so - we don't need it for this current implementation. - - XmlWriter to write to. - Name of element. - Nested lambda which, when executed, will create the content for the - element. - (for method chaining if desired). - - - - A helper method to make it easier to output attributes. If the is - null or an empty string, output nothing, else output the given XML attribute. - - Writer to output to. - Attribute name to write. - Value for the attribute. - (for method chaining if desired). - - - - A base class for those elements that can be used - to configure a unity container. - - - - - Create a new instance of . - - - - - Apply this element's configuration to the given . - - Container to configure. - - - - Return a unique key that can be used to manage this element in a collection. - - - - - A couple of useful extension methods on IDictionary - - - - - Get the value from a dictionary, or null if there is no value. - - Key type of dictionary. - Value type of dictionary. - Dictionary to search. - Key to look up. - The value at the key or null if not in the dictionary. - - - - A helper class used to map element tag names to a handler method - used to interpret that element. - - - - - - Add method to enable dictionary initializer syntax - - - - - - - Process an unknown element according to the map entries. - - Parent element that hit this unknown element. - Name of the unknown element. - XmlReader positioned at start of element. - true if processed, false if not. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - A helper class used to map element tag names to a handler method - used to interpret that element. - - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - A helper class that assists in deserializing parameter and property - elements. These elements both have a single "value" child element that - specify the value to inject for the property or parameter. - - - - - Create a new that wraps reading - values and storing them in the given . - - Element that contains the value elements. - - - - Gets a , or if none is present, - returns a default . - - The . - The given , unless - is null, in which case returns - a . - - - - Helper method used during deserialization to handle - attributes for the dependency and value tags. - - attribute name. - attribute value. - true - - - - Helper method used during deserialization to handle the default - value element tags. - - The element name. - XML data to read. - True if deserialization succeeded, false if it failed. - - - - Call this method at the end of deserialization of your element to - set your value element. - - - - - Serialize a object out to XML. - This method is aware of and implements the shorthand attributes - for dependency and value elements. - - Writer to output XML to. - The to serialize. - If true, always output an element. If false, then - dependency and value elements will be serialized as attributes in the parent tag. - - - - Configuration element representing a constructor configuration. - - - - - Base class for configuration elements that generate - object to configure a container. - - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Get the standard tag name for an - taking into account currently loaded section extensions. - - Element to get the name for. - The element name. - If the member element is not currently registered - with the section. - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - Element name to use to serialize this into XML. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - The parameters of the constructor to call. - - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - Element name to use to serialize this into XML. - - - - - A collection of s as - loaded from configuration. - - - - - When overridden in a derived class, creates a new . - - - A new . - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - A configuration element class defining the set of registrations to be - put into a container. - - - - - Original configuration API kept for backwards compatibility. - - Container to configure - - - - Apply the configuration information in this element to the - given . - - Container to configure. - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Name for this container configuration as given in the config file. - - - - - The type registrations in this container. - - - - - Any instances to register in the container. - - - - - Any extensions to add to the container. - - - - - Set of any extra configuration elements that were added by a - section extension. - - - This is not marked as a configuration property because we don't want - the actual property to show up as a nested element in the configuration. - - - - Configuration element representing an extension to add to a container. - - - - - Add the extension specified in this element to the container. - - Container to configure. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Type of the extension to add. - - - - - A collection of s. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - A derived class that describes - a parameter that should be resolved through the container. - - - - - Create a new instance of . - - - - - Create a new instance of with - properties initialized from the contents of - . - - Dictionary of name/value pairs to - initialize this object with. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Write the contents of this element to the given . This - method always outputs an explicit <dependency> tag, instead of providing - attributes to the parent method. - - Writer to send XML content to. - - - - Generate an object - that will be used to configure the container for a type registration. - - Container that is being configured. Supplied in order - to let custom implementations retrieve services; do not configure the container - directly in this method. - Type of the - - - - - Name to use to when resolving. If empty, resolves the default. - - - - - Name of type this dependency should resolve to. This is optional; - without it the container will resolve the type of whatever - property or parameter this element is contained in. - - - - - Base class used to derive new elements that can occur - directly within a container element. - - - - - Initialize a new instance of . - - - - - When overridden in a derived class, this method will make configuration - calls into the given according to its contents. - - The container to configure. - - - - Unique key generated for use in the collection class. - - - - - A collection of s. - - - - - When overridden in a derived class, creates a new . - - - A new . - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - This class manages the set of extension elements - added by section elements. - - - - - Clear the current set of extension elements. - - - - - Register a new ContainerExtensionConfigurationElement with he section so it - can be read. - - prefix if any. - tag name. - Type of element to register. - - - - Register a new with the section - so it can be read. - - prefix if any. - Tag name. - Type of element to register. - - - - Register a new with the section - so it can be read. - - prefix if any. - Tag name. - Type of element to register. - - - - Retrieve the registered for the given - tag. - - Tag to look up. - Type of element, or null if not registered. - - - - Retrieve the ContainerExtensionConfigurationElement registered for the given - tag. - - Tag to look up. - Type of element, or null if not registered. - - - - Retrieve the ContainerExtensionConfigurationElement registered for the given - tag. - - Tag to look up. - Type of element, or null if not registered. - - - - Retrieve the correct tag to use when serializing the given - to XML. - - Element to be serialized. - The tag for that element type. - if the element is of a type that - is not registered with the section already. - - - - A polymorphic collection of s. - - - - - Causes the configuration system to throw an exception. - - - true if the unrecognized element was deserialized successfully; otherwise, false. The default is false. - - The name of the unrecognized element. - An input stream that reads XML from the configuration file. - The element specified in is the <clear> element. - starts with the reserved prefix "config" or "lock". - - - - - When overridden in a derived class, creates a new . - - - A new . - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Indexer that lets you access elements by their key. - - Key to retrieve element with. - The element. - - - - A configuration element that describes an instance to add to the container. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Add the instance defined by this element to the given container. - - Container to configure. - - - - Name to register instance under - - - - - Value for this instance - - - - - Type of the instance. If not given, defaults to string - - - - - Type name for the type converter to use to create the instance. If not - given, defaults to the default type converter for this instance type. - - - - - Key used to keep these instances unique in the config collection. - - - - - A collection of s. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - An element that has a child Value property. - - - - - String that will be deserialized to provide the value. - - - - - A string describing where the value this element contains - is being used. For example, if setting a property Prop1, - this should return "property Prop1" (in english). - - - - - A configuration element that represents lifetime managers. - - - - - Create the described by - this element. - - A instance. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Type of the lifetime manager. - - - - - Extra initialization information used by the type converter for this lifetime manager. - - - - - Type of to use to create the - lifetime manager. - - - - - A configuration element representing a method to call. - - - - - Construct a new instance of . - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Name of the method to call. - - - - - Parameters to the method call. - - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - Element name to use to serialize this into XML. - - - - - A configuration element representing the namespace - tags in the config file. - - - - - A collection of s in configuration. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - A configuration element that specifies that a value - is optional. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Generate an object - that will be used to configure the container for a type registration. - - Container that is being configured. Supplied in order - to let custom implementations retrieve services; do not configure the container - directly in this method. - Type of the - - - - - Name used to resolve the dependency, leave out or blank to resolve default. - - - - - Type of dependency to resolve. If left out, resolved the type of - the containing parameter or property. - - - - - Configuration element representing a parameter passed to a constructor - or a method. - - - - - Construct a new instance of . - - - - - Returns the required needed - to configure the container so that the correct value is injected. - - Container being configured. - Type of the parameter. - The value to use to configure the container. - - - - Does the information in this match - up with the given ? - - Information about the parameter. - True if this is a match, false if not. - - - - Reads XML from the configuration file. - - The that reads from the configuration file. - true to serialize only the collection key properties; otherwise, false. - The element to read is locked. - - or - - An attribute of the current node is not recognized. - - or - - The lock status of the current node cannot be determined. - - - - - Gets a value indicating whether an unknown attribute is encountered during deserialization. - - - true when an unknown attribute is encountered while deserializing; otherwise, false. - - The name of the unrecognized attribute. - The value of the unrecognized attribute. - - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Name of this parameter. - - - - - Type of this parameter. - - This is only needed in order to disambiguate method overloads. Normally - the parameter name is sufficient. - - - - Element that describes the value for this property. - - - This is NOT marked as a ConfigurationProperty because this - child element is polymorphic, and the element tag determines - the type. Standard configuration properties only let you do - this if it's a collection, but we only want one value. Thus - the separate property. The element is deserialized in - . - - - - A string describing where the value this element contains - is being used. For example, if setting a property Prop1, - this should return "property Prop1" (in english). - - - - - A collection of objects. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - A collection of objects. - - - - - Causes the configuration system to throw an exception. - - - true if the unrecognized element was deserialized successfully; otherwise, false. The default is false. - - The name of the unrecognized element. - An input stream that reads XML from the configuration file. - The element specified in is the <clear> element. - starts with the reserved prefix "config" or "lock". - - - - - When overridden in a derived class, creates a new . - - - A new . - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - String that will be deserialized to provide the value. - - - - - A string describing where the value this element contains - is being used. For example, if setting a property Prop1, - this should return "property Prop1" (in english). - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to An abstract ContainerConfiguringElement cannot be created. Please specify a concrete type.. - - - - - Looks up a localized string similar to An abstract ExtensionConfigurationElement object cannot be created. Please specify a concrete type.. - - - - - Looks up a localized string similar to An abstract InjectionMemberElement object cannot be created. Please specify a concrete type.. - - - - - Looks up a localized string similar to An abstract ParameterValueElement object cannot be created. Please specify a concrete type.. - - - - - Looks up a localized string similar to The type name or alias {0} could not be resolved. Please check your configuration file and verify this type name.. - - - - - Looks up a localized string similar to The dependency element for generic parameter {0} must not have an explicit type name but has '{1}'.. - - - - - Looks up a localized string similar to The optional dependency element for generic parameter {0} must not have an explicit type name but has '{1}'.. - - - - - Looks up a localized string similar to {0} {1}. - - - - - Looks up a localized string similar to The injection configuration for {0} has multiple values.. - - - - - Looks up a localized string similar to The configuration element type {0} has not been registered with the section.. - - - - - Looks up a localized string similar to The injection configuration for {0} is specified through both attributes and child value elements.. - - - - - Looks up a localized string similar to Could not load section extension type {0}.. - - - - - Looks up a localized string similar to The extension type {0} does not derive from SectionExtension.. - - - - - Looks up a localized string similar to The extension element type {0} that is being added does not derive from ContainerConfiguringElement, InjectionMemberElement, or ParameterValueElement. An extension element must derive from one of these types.. - - - - - Looks up a localized string similar to No valid attributes were found to construct the value for the {0}. Please check the configuration file.. - - - - - Looks up a localized string similar to Configuration is incorrect, the type {0} does not have a constructor that takes parameters named {1}.. - - - - - Looks up a localized string similar to Configuration is incorrect, the type {0} does not have a method named {1} that takes parameters named {2}.. - - - - - Looks up a localized string similar to The container named "{0}" is not defined in this configuration section.. - - - - - Looks up a localized string similar to The type {0} does not have a property named {1}.. - - - - - Looks up a localized string similar to The configuration is set to inject an array, but the type {0} is not an array type.. - - - - - Looks up a localized string similar to parameter. - - - - - Looks up a localized string similar to property. - - - - - Looks up a localized string similar to The attribute {0} must be present and non-empty.. - - - - - Looks up a localized string similar to The value element for {1} was specified for the generic array type {0}. Value elements are not allowed for generic array types.. - - - - - Looks up a localized string similar to The value element for {1} was specified for the generic parameter type {0}. Value elements are not allowed for generic parameter types.. - - - - - Looks up a localized string similar to The value element for {1} was specified for the generic type {0}. Value elements are not allowed for generic types.. - - - - - A class representing a property configuration element. - - - - - Construct a new instance of - - - - - Reads XML from the configuration file. - - The that reads from the configuration file. - true to serialize only the collection key properties; otherwise, false. - The element to read is locked. - - or - - An attribute of the current node is not recognized. - - or - - The lock status of the current node cannot be determined. - - - - - Gets a value indicating whether an unknown attribute is encountered during deserialization. - - - true when an unknown attribute is encountered while deserializing; otherwise, false. - - The name of the unrecognized attribute. - The value of the unrecognized attribute. - - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Return the set of s that are needed - to configure the container according to this configuration element. - - Container that is being configured. - Type that is being registered. - Type that is being mapped to. - Name this registration is under. - One or more objects that should be - applied to the container registration. - - - - Name of the property that will be set. - - - - - Each element must have a unique key, which is generated by the subclasses. - - - - - String that will be deserialized to provide the value. - - - - - A string describing where the value this element contains - is being used. For example, if setting a property Prop1, - this should return "property Prop1" (in english). - - - - - Element name to use to serialize this into XML. - - - - - A configuration element representing a single container type registration. - - - - - Apply the registrations from this element to the given container. - - Container to configure. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - The type that is registered. - - - - - Name registered under. - - - - - Type that is mapped to. - - - - - Lifetime manager to register for this registration. - - - - - Any injection members (constructor, properties, etc.) that are specified for - this registration. - - - - - A collection of s. - - - - - Causes the configuration system to throw an exception. - - - true if the unrecognized element was deserialized successfully; otherwise, false. The default is false. - - The name of the unrecognized element. - An input stream that reads XML from the configuration file. - The element specified in is the <clear> element. - starts with the reserved prefix "config" or "lock". - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Base class for Unity configuration section extensions. - Derived classes are used to add custom elments and aliases - into the configuration section being loaded. - - - - - Add the extensions to the section via the context. - - Context object that can be used to add elements and aliases. - - - - An object that gives the ability to add - elements and aliases to a configuration section. - - - - - Add a new alias to the configuration section. This is useful - for those extensions that add commonly used types to configuration - so users don't have to alias them repeatedly. - - The alias to use. - Type the alias maps to. - - - - Add a new alias to the configuration section. This is useful - for those extensions that add commonly used types to configuration - so users don't have to alias them repeatedly. - - Type the alias maps to. - The alias to use - - - - Add a new element to the configuration section schema. - - Tag name in the XML. - Type the tag maps to. - - - - Add a new element to the configuration section schema. - - Type the tag maps to. - Tag name in the XML. - - - - A configuration element used to specify which extensions to - add to the configuration schema. - - - - - Reads XML from the configuration file. - - The that reads from the configuration file. - true to serialize only the collection key properties; otherwise, false. - The element to read is locked. - - or - - An attribute of the current node is not recognized. - - or - - The lock status of the current node cannot be determined. - - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Type of the section extender object that will provide new elements to the schema. - - - - - Optional prefix that will be added to the element names added by this - section extender. If left out, no prefix will be added. - - - - - The extension object represented by this element. - - - - - A collection of s. - - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Type that manage access to a set of type aliases and implements - the logic for converting aliases to their actual types. - - - - - Set the set of aliases to use for resolution. - - Configuration section containing the various - type aliases, namespaces and assemblies. - - - - Resolves a type alias or type fullname to a concrete type. - - Type alias or type fullname - Type object or null if resolve fails. - Thrown if alias lookup fails. - - - - Resolves a type alias or type fullname to a concrete type. - - Alias or name to resolve. - if true and the alias does not - resolve, throw an , otherwise - return null on failure. - The type object or null if resolve fails and - is false. - - - - Resolve a type alias or type full name to a concrete type. - If is null or empty, return the - given instead. - - Type alias or full name to resolve. - Value to return if typeName is null or empty. - The concrete . - Thrown if alias lookup fails. - - - - Resolve a type alias or type full name to a concrete type. - If is null or empty, return the - given instead. - - Type alias or full name to resolve. - Value to return if typeName is null or empty. - if true and the alias does not - resolve, throw an , otherwise - return null on failure. - The concrete . - Thrown if alias lookup fails and - is true. - - - - A helper class that implements the actual logic for resolving a shorthand - type name (alias or raw type name) into an actual type object. - - - - - Construct a new that uses the given - sequence of alias, typename pairs to resolve types. - - Type aliases from the configuration file. - Assembly names to search. - Namespaces to search. - - - - Resolves a type alias or type fullname to a concrete type. - - Alias or name to resolve. - if true and the alias does not - resolve, throw an , otherwise - return null on failure. - The type object or null if resolve fails and - is false. - - - - Resolve a type alias or type full name to a concrete type. - If is null or empty, return the - given instead. - - Type alias or full name to resolve. - Value to return if typeName is null or empty. - if true and the alias does not - resolve, throw an , otherwise - return null on failure. - - If is null or an empty string, - then return . - Otherwise, return the resolved type object. If the resolution fails - and is false, then return null. - - - - - A configuration section describing configuration for an . - - - - - The name of the section where unity configuration is expected to be found. - - - - - XML Namespace string used for IntelliSense in this section. - - - - - Apply the configuration in the default container element to the given container. - - Container to configure. - The passed in . - - - - Apply the configuration in the default container element to the given container. - - Container to configure. - Name of the container element to use to configure the container. - The passed in . - - - - Reads XML from the configuration file. - - The object, which reads from the configuration file. - found no elements in the configuration file. - - - - - Gets a value indicating whether an unknown element is encountered during deserialization. - - - true when an unknown element is encountered while deserializing; otherwise, false. - - The name of the unknown subelement. - The being used for deserialization. - The element identified by is locked. - - or - - One or more of the element's attributes is locked. - - or - - is unrecognized, or the element has an unrecognized attribute. - - or - - The element has a Boolean attribute with an invalid value. - - or - - An attempt was made to deserialize a property more than once. - - or - - An attempt was made to deserialize a property that is not a valid member of the element. - - or - - The element cannot contain a CDATA or text element. - - - - - Creates an XML string containing an unmerged view of the object as a single section to write to a file. - - - An XML string containing an unmerged view of the object. - - The instance to use as the parent when performing the un-merge. - The name of the section to create. - The instance to use when writing to a string. - - - - - The current that is being deserialized - or being configured from. - - - - - Storage for XML namespace. The namespace isn't used or validated by config, but - it is useful for Visual Studio XML IntelliSense to kick in. - - - - - The set of containers defined in this configuration section. - - - - - The set of type aliases defined in this configuration file. - - - - - Any schema extensions that are added. - - - - - Any namespaces added to the type search list. - - - - - Any assemblies added to the type search list. - - - - - Add a new alias to the configuration section. This is useful - for those extensions that add commonly used types to configuration - so users don't have to alias them repeatedly. - - The alias to use. - Type the alias maps to. - - - - Add a new element to the configuration section schema. - - Tag name in the XML. - Type the tag maps to. - - - - Collection element for s. - - - - - Plug point to get objects out of the collection. - - Index in the collection to retrieve the item from. - Item at that index or null if not present. - - - - Plug point to get objects out of the collection. - - Key to look up the object by. - Item with that key or null if not present. - - - - Gets the element key for a specified configuration element when overridden in a derived class. - - - An that acts as the key for the specified . - - The to return the key for. - - - - - Retrieve a stored by name. - - Name to look up. - The stored container or null if not in the collection. - - - - Return the default container in the collection. The default is the one without a name. - - - - - Extensions to to simplify - loading configuration into a container. - - - - - Apply configuration from the given section and named container - into the given container. - - Unity container to configure. - Configuration section with config information. - Named container. - . - - - - Apply configuration from the default section (named "unity" pulled out of - ConfigurationManager) and the named container. - - Unity container to configure. - Named container element in configuration. - . - - - - Apply configuration from the default section and unnamed container element. - - Container to configure. - . - - - - Apply configuration from the default container in the given section. - - Unity container to configure. - Configuration section. - . - - - - Element that describes a constant value that will be - injected into the container. - - - - - Construct a new object. - - - - - Construct a new object, - initializing properties from the contents of - . - - Name/value pairs which - contain the values to initialize properties to. - - - - Write the contents of this element to the given . - - The caller of this method has already written the start element tag before - calling this method, so deriving classes only need to write the element content, not - the start or end tags. - Writer to send XML content to. - - - - Write the contents of this element to the given . This - method always outputs an explicit <dependency> tag, instead of providing - attributes to the parent method. - - Writer to send XML content to. - - - - Generate an object - that will be used to configure the container for a type registration. - - Container that is being configured. Supplied in order - to let custom implementations retrieve services; do not configure the container - directly in this method. - Type of the parameter to get the value for. - The required object. - - - - Value for this element - - - - - - - - - diff --git a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.dll b/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.dll deleted file mode 100644 index 0d1a8950d..000000000 Binary files a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.dll and /dev/null differ diff --git a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.xml b/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.xml deleted file mode 100644 index 3e46f33e1..000000000 --- a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.xml +++ /dev/null @@ -1,5910 +0,0 @@ - - - - Microsoft.Practices.Unity - - - - - Base class for attributes that can be placed on parameters - or properties to specify how to resolve the value for - that parameter or property. - - - - - Create an instance of that - will be used to get the value for the member this attribute is - applied to. - - Type of parameter or property that - this attribute is decoration. - The resolver object. - - - - This attribute is used to indicate which constructor to choose when - the container attempts to build a type. - - - - - This attribute is used to mark methods that should be called when - the container is building an object. - - - - - This attribute is used to mark properties and parameters as targets for injection. - - - For properties, this attribute is necessary for injection to happen. For parameters, - it's not needed unless you want to specify additional information to control how - the parameter is resolved. - - - - - Create an instance of with no name. - - - - - Create an instance of with the given name. - - Name to use when resolving this dependency. - - - - Create an instance of that - will be used to get the value for the member this attribute is - applied to. - - Type of parameter or property that - this attribute is decoration. - The resolver object. - - - - The name specified in the constructor. - - - - - An used to mark a dependency - as optional - the container will try to resolve it, and return null - if the resolution fails rather than throw. - - - - - Construct a new object. - - - - - Construct a new object that - specifies a named dependency. - - Name of the dependency. - - - - Create an instance of that - will be used to get the value for the member this attribute is - applied to. - - Type of parameter or property that - this attribute is decoration. - The resolver object. - - - - Name of the dependency. - - - - - A that composites other - ResolverOverride objects. The GetResolver operation then - returns the resolver from the first child override that - matches the current context and request. - - - - - Base class for all override objects passed in the - method. - - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - Wrap this resolver in one that verifies the type of the object being built. - This allows you to narrow any override down to a specific type easily. - - Type to constrain the override to. - The new override. - - - - Wrap this resolver in one that verifies the type of the object being built. - This allows you to narrow any override down to a specific type easily. - - Type to constrain the override to. - The new override. - - - - Add a new to the collection - that is checked. - - item to add. - - - - Add a setof s to the collection. - - items to add. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - Class that returns information about the types registered in a container. - - - - - The type that was passed to the method - as the "from" type, or the only type if type mapping wasn't done. - - - - - The type that this registration is mapped to. If no type mapping was done, the - property and this one will have the same value. - - - - - Name the type was registered under. Null for default registration. - - - - - The registered lifetime manager instance. - - - - - The lifetime manager for this registration. - - - This property will be null if this registration is for an open generic. - - - - A class that overrides - the value injected whenever there is a dependency of the - given type, regardless of where it appears in the object graph. - - - - - Create an instance of to override - the given type with the given value. - - Type of the dependency. - Value to use. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience version of that lets you - specify the dependency type using generic syntax. - - Type of the dependency to override. - - - - Construct a new object that will - override the given dependency, and pass the given value. - - - - - A convenience form of that lets you - specify multiple parameter overrides in one shot rather than having - to construct multiple objects. - - - This class isn't really a collection, it just implements IEnumerable - so that we get use of the nice C# collection initializer syntax. - - - - - Base helper class for creating collections of objects - for use in passing a bunch of them to the resolve call. This base class provides - the mechanics needed to allow you to use the C# collection initializer syntax. - - Concrete type of the this class collects. - Key used to create the underlying override object. - Value that the override returns. - - - - Add a new override to the collection with the given key and value. - - Key - for example, a parameter or property name. - Value - the value to be returned by the override. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - Returns an enumerator that iterates through a collection. - - - An object that can be used to iterate through the collection. - - 2 - - - - Returns an enumerator that iterates through the collection. - - - A that can be used to iterate through the collection. - - 1 - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - Event argument class for the event. - - - - - Construct a new object with the - given child container object. - - An for the newly created child - container. - - - - The newly created child container. - - - - - An extension context for the created child container. - - - - - Base class for subclasses that let you specify that - an instance of a generic type parameter should be resolved. - - - - - Base type for objects that are used to configure parameters for - constructor or method injection, or for getting the value to - be injected into a property. - - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - Convert the given set of arbitrary values to a sequence of InjectionParameterValue - objects. The rules are: If it's already an InjectionParameterValue, return it. If - it's a Type, return a ResolvedParameter object for that type. Otherwise return - an InjectionParameter object for that value. - - The values to build the sequence from. - The resulting converted sequence. - - - - Convert an arbitrary value to an InjectionParameterValue object. The rules are: - If it's already an InjectionParameterValue, return it. If it's a Type, return a - ResolvedParameter object for that type. Otherwise return an InjectionParameter - object for that value. - - The value to convert. - The resulting . - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - name to use when looking up in the container. - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - Return a instance that will - return this types value for the parameter. - - The actual type to resolve. - The resolution key. - The . - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - A that lets you specify that - an instance of a generic type parameter should be resolved, providing the - value if resolving fails. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - name to use when looking up in the container. - - - - Return a instance that will - return this types value for the parameter. - - The actual type to resolve. - The resolution key. - The . - - - - A class that lets you specify a factory method the container - will use to create the object. - - This is a significantly easier way to do the same - thing the old static factory extension was used for. - - - - Base class for objects that can be used to configure what - class members get injected by the container. - - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type to register. - Policy list to add policies to. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface being registered. If no interface, - this will be null. - Type of concrete type being registered. - Name used to resolve the type object. - Policy list to add policies to. - - - - Create a new instance of with - the given factory function. - - Factory function. - - - - Create a new instance of with - the given factory function. - - Factory function. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface being registered. If no interface, - this will be null. This parameter is ignored in this implementation. - Type of concrete type being registered. - Name used to resolve the type object. - Policy list to add policies to. - - - - A that can be passed to - to configure a - parameter or property as an optional dependency. - - - - - A base class for implementing classes - that deal in explicit types. - - - - - Create a new that exposes - information about the given . - - Type of the parameter. - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - - - - The type of parameter this object represents. - - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - Construct a new object that - specifies the given . - - Type of the dependency. - - - - Construct a new object that - specifies the given and . - - Type of the dependency. - Name for the dependency. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of that lets you - specify the type of the dependency using generics syntax. - - Type of the dependency. - - - - Construct a new . - - - - - Construct a new with the given - . - - Name of the dependency. - - - - A special lifetime manager which works like , - except that in the presence of child containers, each child gets it's own instance - of the object, instead of sharing one in the common parent. - - - - - A that holds onto the instance given to it. - When the is disposed, - the instance is disposed with it. - - - - - Base class for Lifetime managers which need to synchronize calls to - . - - - - The purpose of this class is to provide a basic implementation of the lifetime manager synchronization pattern. - - - Calls to the method of a - instance acquire a lock, and if the instance has not been initialized with a value yet the lock will only be released - when such an initialization takes place by calling the method or if - the build request which resulted in the call to the GetValue method fails. - - - - - - - Base class for Lifetime managers - classes that control how - and when instances are created by the Unity container. - - - - - A that controls how instances are - persisted and recovered from an external store. Used to implement - things like singletons and per-http-request lifetime. - - - - - Represents a builder policy interface. Since there are no fixed requirements - for policies, it acts as a marker interface from which to derive all other - policy interfaces. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object to store. - - - - Remove the value this lifetime policy is managing from backing store. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - This interface provides a hook for the builder context to - implement error recovery when a builder strategy throws - an exception. Since we can't get try/finally blocks onto - the call stack for later stages in the chain, we instead - add these objects to the context. If there's an exception, - all the current IRequiresRecovery instances will have - their Recover methods called. - - - - - A method that does whatever is needed to clean up - as part of cleaning up after an exception. - - - Don't do anything that could throw in this method, - it will cause later recover operations to get skipped - and play real havoc with the stack trace. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - Calls to this method acquire a lock which is released only if a non-null value - has been set for the lifetime manager. - - - - Performs the actual retrieval of a value from the backing store associated - with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - This method is invoked by - after it has acquired its lock. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - Setting a value will attempt to release the lock acquired by - . - - - - Performs the actual storage of the given value into backing store for retrieval later. - - The object being stored. - This method is invoked by - before releasing its lock. - - - - Remove the given object from backing store. - - - - - A method that does whatever is needed to clean up - as part of cleaning up after an exception. - - - Don't do anything that could throw in this method, - it will cause later recover operations to get skipped - and play real havoc with the stack trace. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources. - - 2 - - - - Standard Dispose pattern implementation. Not needed, but it keeps FxCop happy. - - Always true, since we don't have a finalizer. - - - - This is a custom lifetime manager that acts like , - but also provides a signal to the default build plan, marking the type so that - instances are reused across the build up object graph. - - - - - Construct a new object that does not - itself manage an instance. - - - - - Construct a new object that stores the - give value. This value will be returned by - but is not stored in the lifetime manager, nor is the value disposed. - This Lifetime manager is intended only for internal use, which is why the - normal method is not used here. - - Value to store. - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. In this class, - this is a noop, since it has special hooks down in the guts. - - The object being stored. - - - - Remove the given object from backing store. Noop in this class. - - - - - A strategy that handles Hierarchical lifetimes across a set of parent/child - containers. - - - - - Represents a strategy in the chain of responsibility. - Strategies are required to support both BuildUp and TearDown. - - - - - Represents a strategy in the chain of responsibility. - Strategies are required to support both BuildUp and TearDown. Although you - can implement this interface directly, you may also choose to use - as the base class for your strategies, as - this class provides useful helper methods and makes support BuildUp and TearDown - optional. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - Called during the chain of responsibility for a teardown operation. The - PreTearDown method is called when the chain is being executed in the - forward direction. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a teardown operation. The - PostTearDown method is called when the chain has finished the PreTearDown - phase and executes in reverse order from the PreTearDown calls. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - Called during the chain of responsibility for a teardown operation. The - PreTearDown method is called when the chain is being executed in the - forward direction. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a teardown operation. The - PostTearDown method is called when the chain has finished the PreTearDown - phase and executes in reverse order from the PreTearDown calls. - - Context of the teardown operation. - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - A that will attempt to - resolve a value, and return null if it cannot rather than throwing. - - - - - A that is used at build plan execution time - to resolve a dependent value. - - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - Construct a new object - that will attempt to resolve the given name and type from the container. - - Type to resolve. Must be a reference type. - Name to resolve with. - - - - Construct a new object - that will attempt to resolve the given type from the container. - - Type to resolve. Must be a reference type. - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - Type this resolver will resolve. - - - - - Name this resolver will resolve. - - - - - Extension methods on to provide convenience - overloads (generic versions, mostly). - - - - - Removes an individual policy type for a build key. - - The type the policy was registered as. - to remove the policy from. - The key the policy applies. - - - - Removes a default policy. - - The type the policy was registered as. - to remove the policy from. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Gets an individual policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - to search. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list that actually contains the returned policy. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - to search. - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy in the list, if present; returns null otherwise. - - - - Sets an individual policy. - - The interface the policy is registered under. - to add the policy to. - The policy to be registered. - The key the policy applies. - - - - Sets a default policy. When checking for a policy, if no specific individual policy - is available, the default will be used. - - The interface to register the policy under. - to add the policy to. - The default policy to be registered. - - - - Base class for the current operation stored in the build context. - - - - - Create a new . - - Type currently being built. - - - - The type that's currently being built. - - - - - Build plan for that will - return a func that will resolve the requested type - through this container later. - - - - - A build plan is an object that, when invoked, will create a new object - or fill in a given existing one. It encapsulates all the information - gathered by the strategies to construct a particular object. - - - - - Creates an instance of this build plan's type, or fills - in the existing type if passed in. - - Context used to build up the object. - - - - Creates an instance of this build plan's type, or fills - in the existing type if passed in. - - Context used to build up the object. - - - - The almost inevitable collection of extra helper methods on - to augment the rich set of what - Linq already gives us. - - - - - Execute the provided on every item in . - - Type of the items stored in - Sequence of items to process. - Code to run over each item. - - - - Create a single string from a sequenc of items, separated by the provided , - and with the conversion to string done by the given . - - This method does basically the same thing as , - but will work on any sequence of items, not just arrays. - Type of items in the sequence. - Sequence of items to convert. - Separator to place between the items in the string. - The conversion function to change TItem -> string. - The resulting string. - - - - Create a single string from a sequenc of items, separated by the provided , - and with the conversion to string done by the item's method. - - This method does basically the same thing as , - but will work on any sequence of items, not just arrays. - Type of items in the sequence. - Sequence of items to convert. - Separator to place between the items in the string. - The resulting string. - - - - A class that lets you - override a named parameter passed to a constructor. - - - - - Construct a new object that will - override the given named constructor parameter, and pass the given - value. - - Name of the constructor parameter. - Value to pass for the constructor. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience form of that lets you - specify multiple parameter overrides in one shot rather than having - to construct multiple objects. - - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - A that lets you override - the value for a specified property. - - - - - Create an instance of . - - The property name. - Value to use for the property. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience form of that lets you - specify multiple property overrides in one shot rather than having - to construct multiple objects. - - - - - When implemented in derived classes, this method is called from the - method to create the actual objects. - - Key value to create the resolver. - Value to store in the resolver. - The created . - - - - Interface defining the configuration interface exposed by the - Static Factory extension. - - - - - Base interface for all extension configuration interfaces. - - - - - Retrieve the container instance that we are currently configuring. - - - - - Register the given factory delegate to be called when the container is - asked to resolve . - - Type that will be requested from the container. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - Register the given factory delegate to be called when the container is - asked to resolve and . - - Type that will be requested from the container. - The name that will be used when requesting to resolve this type. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - Represents the context in which a build-up or tear-down operation runs. - - - - - Represents the context in which a build-up or tear-down operation runs. - - - - - Add a new set of resolver override objects to the current build operation. - - objects to add. - - - - Get a object for the given - or null if that dependency hasn't been overridden. - - Type of the dependency. - Resolver to use, or null if no override matches for the current operation. - - - - A convenience method to do a new buildup operation on an existing context. - - Key to use to build up. - Created object. - - - - A convenience method to do a new buildup operation on an existing context. This - overload allows you to specify extra policies which will be in effect for the duration - of the build. - - Key defining what to build up. - A delegate that takes a . This - is invoked with the new child context before the build up process starts. This gives callers - the opportunity to customize the context for the build process. - Created object. - - - - Gets the head of the strategy chain. - - - The strategy that's first in the chain; returns null if there are no - strategies in the chain. - - - - - Gets the associated with the build. - - - The associated with the build. - - - - - Gets the original build key for the build operation. - - - The original build key for the build operation. - - - - - Get the current build key for the current build operation. - - - - - The set of policies that were passed into this context. - - This returns the policies passed into the context. - Policies added here will remain after buildup completes. - The persistent policies for the current context. - - - - Gets the policies for the current context. - - Any policies added to this object are transient - and will be erased at the end of the buildup. - - The policies for the current context. - - - - - Gets the collection of objects - that need to execute in event of an exception. - - - - - The current object being built up or torn down. - - - The current object being manipulated by the build operation. May - be null if the object hasn't been created yet. - - - - Flag indicating if the build operation should continue. - - true means that building should not call any more - strategies, false means continue to the next strategy. - - - - An object representing what is currently being done in the - build chain. Used to report back errors if there's a failure. - - - - - The build context used to resolve a dependency during the build operation represented by this context. - - - - - Initialize a new instance of the class. - - - - - Initialize a new instance of the class with a , - , and the - build key used to start this build operation. - - The to use for this context. - The to use for this context. - The to use for this context. - Build key to start building. - The existing object to build up. - - - - Create a new using the explicitly provided - values. - - The to use for this context. - The to use for this context. - The set of persistent policies to use for this context. - The set of transient policies to use for this context. It is - the caller's responsibility to ensure that the transient and persistent policies are properly - combined. - Build key for this context. - Existing object to build up. - - - - Add a new set of resolver override objects to the current build operation. - - objects to add. - - - - Get a object for the given - or null if that dependency hasn't been overridden. - - Type of the dependency. - Resolver to use, or null if no override matches for the current operation. - - - - A convenience method to do a new buildup operation on an existing context. - - Key to use to build up. - Created object. - - - - A convenience method to do a new buildup operation on an existing context. This - overload allows you to specify extra policies which will be in effect for the duration - of the build. - - Key defining what to build up. - A delegate that takes a . This - is invoked with the new child context before the build up process starts. This gives callers - the opportunity to customize the context for the build process. - Created object. - - - - Gets the head of the strategy chain. - - - The strategy that's first in the chain; returns null if there are no - strategies in the chain. - - - - - Get the current build key for the current build operation. - - - - - The current object being built up or torn down. - - - The current object being manipulated by the build operation. May - be null if the object hasn't been created yet. - - - - Gets the associated with the build. - - - The associated with the build. - - - - - Gets the original build key for the build operation. - - - The original build key for the build operation. - - - - - The set of policies that were passed into this context. - - This returns the policies passed into the context. - Policies added here will remain after buildup completes. - The persistent policies for the current context. - - - - Gets the policies for the current context. - - - Any modifications will be transient (meaning, they will be forgotten when - the outer BuildUp for this context is finished executing). - - - The policies for the current context. - - - - - Gets the collection of objects - that need to execute in event of an exception. - - - - - Flag indicating if the build operation should continue. - - true means that building should not call any more - strategies, false means continue to the next strategy. - - - - An object representing what is currently being done in the - build chain. Used to report back errors if there's a failure. - - - - - The build context used to resolve a dependency during the build operation represented by this context. - - - - - Represents that a dependency could not be resolved. - - - Represents that a dependency could not be resolved. - - - - - Initializes a new instance of the class with no extra information. - - - - - Initializes a new instance of the class with the given message. - - Some random message. - - - - Initialize a new instance of the class with the given - message and inner exception. - - Some random message - Inner exception. - - - - Initializes a new instance of the class with the build key of the object begin built. - - The build key of the object begin built. - - - - Initializes a new instance of the class with serialized data. - - The that holds the serialized object data about the exception being thrown. - The that contains contextual information about the source or destination. - - - - The exception thrown when injection is attempted on a method - that is an open generic or has out or ref params. - - - The exception thrown when injection is attempted on a method - that is an open generic or has out or ref params. - - - - - Construct a new with no - message. - - - - - Construct a with the given message - - Message to return. - - - - Construct a with the given message - and inner exception. - - Message to return. - Inner exception - - - - Used for serialization. - - Serialization info. - Serialization context. - - - - Extension methods to provide convenience overloads over the - interface. - - - - - Start a recursive build up operation to retrieve the default - value for the given type. - - Type of object to build. - Parent context. - Resulting object. - - - - Start a recursive build up operation to retrieve the named - implementation for the given type. - - Type to resolve. - Parent context. - Name to resolve with. - The resulting object. - - - - Add a set of s to the context, specified as a - variable argument list. - - Context to add overrides to. - The overrides. - - - - Data structure that stores the set of - objects and executes them when requested. - - - - - Add a new object to this - list. - - Object to add. - - - - Execute the method - of everything in the recovery list. Recoveries will execute - in the opposite order of add - it's a stack. - - - - - Return the number of recovery objects currently in the stack. - - - - - Represents a lifetime container. - - - A lifetime container tracks the lifetime of an object, and implements - IDisposable. When the container is disposed, any objects in the - container which implement IDisposable are also disposed. - - - - - Adds an object to the lifetime container. - - The item to be added to the lifetime container. - - - - Determine if a given object is in the lifetime container. - - - The item to locate in the lifetime container. - - - Returns true if the object is contained in the lifetime - container; returns false otherwise. - - - - - Removes an item from the lifetime container. The item is - not disposed. - - The item to be removed. - - - - Gets the number of references in the lifetime container - - - The number of references in the lifetime container - - - - - Represents a lifetime container. - - - A lifetime container tracks the lifetime of an object, and implements - IDisposable. When the container is disposed, any objects in the - container which implement IDisposable are also disposed. - - - - - Adds an object to the lifetime container. - - The item to be added to the lifetime container. - - - - Determine if a given object is in the lifetime container. - - - The item to locate in the lifetime container. - - - Returns true if the object is contained in the lifetime - container; returns false otherwise. - - - - - Releases the resources used by the . - - - - - Releases the managed resources used by the DbDataReader and optionally releases the unmanaged resources. - - - true to release managed and unmanaged resources; false to release only unmanaged resources. - - - - - Returns an enumerator that iterates through the lifetime container. - - - An object that can be used to iterate through the life time container. - - - - - Returns an enumerator that iterates through the lifetime container. - - - An object that can be used to iterate through the life time container. - - - - - Removes an item from the lifetime container. The item is - not disposed. - - The item to be removed. - - - - Gets the number of references in the lifetime container - - - The number of references in the lifetime container - - - - - A custom collection over objects. - - - - - Removes an individual policy type for a build key. - - The type of policy to remove. - The key the policy applies. - - - - Removes all policies from the list. - - - - - Removes a default policy. - - The type the policy was registered as. - - - - Gets an individual policy. - - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - The key the policy applies to. - True if the search should be in the local policy list only; otherwise false to search up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list if present; returns null otherwise. - - - - Sets an individual policy. - - The of the policy. - The policy to be registered. - The key the policy applies. - - - - Sets a default policy. When checking for a policy, if no specific individual policy - is available, the default will be used. - - The interface to register the policy under. - The default policy to be registered. - - - - A custom collection wrapper over objects. - - - - - Initialize a new instance of a class. - - - - - Initialize a new instance of a class with another policy list. - - An inner policy list to search. - - - - Removes an individual policy type for a build key. - - The type of policy to remove. - The key the policy applies. - - - - Removes all policies from the list. - - - - - Removes a default policy. - - The type the policy was registered as. - - - - Gets an individual policy. - - The interface the policy is registered under. - The key the policy applies. - true if the policy searches local only; otherwise false to seach up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list, if present; returns null otherwise. - - - - Get the non default policy. - - The interface the policy is registered under. - The key the policy applies to. - True if the search should be in the local policy list only; otherwise false to search up the parent chain. - The policy list in the chain that the searched for policy was found in, null if the policy was - not found. - The policy in the list if present; returns null otherwise. - - - - Sets an individual policy. - - The of the policy. - The policy to be registered. - The key the policy applies. - - - - Sets a default policy. When checking for a policy, if no specific individual policy - is available, the default will be used. - - The interface to register the policy under. - The default policy to be registered. - - - - Gets the number of items in the locator. - - - The number of items in the locator. - - - - - An implementation of . - - - - - Add a new object to this - list. - - Object to add. - - - - Execute the method - of everything in the recovery list. Recoveries will execute - in the opposite order of add - it's a stack. - - - - - Return the number of recovery objects currently in the stack. - - - - - Implementation of which will notify an object about - the completion of a BuildUp operation, or start of a TearDown operation. - - - This strategy checks the object that is passing through the builder chain to see if it - implements IBuilderAware and if it does, it will call - and . This strategy is meant to be used from the - stage. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a teardown operation. The - PreTearDown method is called when the chain is being executed in the - forward direction. - - Context of the teardown operation. - - - - Implemented on a class when it wants to receive notifications - about the build process. - - - - - Called by the when the object is being built up. - - The key of the object that was just built up. - - - - Called by the when the object is being torn down. - - - - - Enumeration to represent the object builder stages. - - - The order of the values in the enumeration is the order in which the stages are run. - - - - - Strategies in this stage run before creation. Typical work done in this stage might - include strategies that use reflection to set policies into the context that other - strategies would later use. - - - - - Strategies in this stage create objects. Typically you will only have a single policy-driven - creation strategy in this stage. - - - - - Strategies in this stage work on created objects. Typical work done in this stage might - include setter injection and method calls. - - - - - Strategies in this stage work on objects that are already initialized. Typical work done in - this stage might include looking to see if the object implements some notification interface - to discover when its initialization stage has been completed. - - - - - Represents a builder policy for mapping build keys. - - - - - Represents a builder policy for mapping build keys. - - - - - Maps the build key. - - The build key to map. - Current build context. Used for contextual information - if writing a more sophisticated mapping. This parameter can be null - (called when getting container registrations). - The new build key. - - - - Initialize a new instance of the with the new build key. - - The new build key. - - - - Maps the build key. - - The build key to map. - Current build context. Used for contextual information - if writing a more sophisticated mapping, unused in this implementation. - The new build key. - - - - Represents a strategy for mapping build keys in the build up operation. - - - - - Called during the chain of responsibility for a build operation. Looks for the - and if found maps the build key for the current operation. - - The context for the operation. - - - - An implementation of that can map - generic types. - - - - - Create a new instance - that will map generic types. - - Build key to map to. This must be or contain an open generic type. - - - - Maps the build key. - - The build key to map. - Current build context. Used for contextual information - if writing a more sophisticated mapping. - The new build key. - - - - A that will look for a build plan - in the current context. If it exists, it invokes it, otherwise - it creates one and stores it for later, and invokes it. - - - - - Called during the chain of responsibility for a build operation. - - The context for the operation. - - - - An implementation of that chooses - constructors based on these criteria: first, pick a constructor marked with the - attribute. If there - isn't one, then choose the constructor with the longest parameter list. If that is ambiguous, - then throw. - - Thrown when the constructor to choose is ambiguous. - Attribute used to mark the constructor to call. - - - - Base class that provides an implementation of - which lets you override how the parameter resolvers are created. - - - - - A that, when implemented, - will determine which constructor to call from the build plan. - - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Compares two objects and returns a value indicating whether one is less than, equal to, or greater than the other. - - - - Value Condition Less than zerox is less than y.Zerox equals y.Greater than zerox is greater than y. - - - The second object to compare. - The first object to compare. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Objects of this type are the return value from . - It encapsulates the desired with the string keys - needed to look up the for each - parameter. - - - - - Base class for return values from selector policies that - return a memberinfo of some sort plus a list of parameter - keys to look up the parameter resolvers. - - - - - Base class for return of selector policies that need - to keep track of a set of parameter keys. - - - - - Add a new parameter key to this object. Keys are assumed - to be in the order of the parameters to the constructor. - - Key for the next parameter to look up. - - - - The set of keys for the constructor parameters. - - - - - Construct a new , storing - the given member info. - - Member info to store. - - - - The member info stored. - - - - - Create a new instance which - contains the given constructor. - - The constructor to wrap. - - - - The constructor this object wraps. - - - - - This class records the information about which constructor argument is currently - being resolved, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - The type that is being constructed. - A string representing the constructor being called. - Parameter being resolved. - - - - Generate the string describing what parameter was being resolved. - - The description string. - - - - String describing the constructor being set up. - - - - - Parameter that's being resolved. - - - - - A that emits IL to call constructors - as part of creating a build plan. - - - - - Called during the chain of responsibility for a build operation. - - Existing object is an instance of . - The context for the operation. - - - - A helper method used by the generated IL to throw an exception if - a dependency cannot be resolved. - - The currently being - used for the build of this object. - - - - A helper method used by the generated IL to throw an exception if - a dependency cannot be resolved because of an invalid constructor. - - The currently being - used for the build of this object. - The signature of the invalid constructor. - - - - A helper method used by the generated IL to throw an exception if - no existing object is present, but the user is attempting to build - an interface (usually due to the lack of a type mapping). - - The currently being - used for the build of this object. - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to set up a PerResolveLifetimeManager lifetime manager - if the current object is such. - - Current build context. - - - - A class that records that a constructor is about to be call, and is - responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - - - - Generate the description string. - - The string. - - - - Constructor we're trying to call. - - - - - An implementation of that will - check for full trust and if we're building a class or an interface. If in full - trust, attach to the class or module of the interface respectively. If in partial - trust, attach to the OB2 module instead. - - - - - This interface defines a policy that manages creation of the dynamic methods - used by the ObjectBuilder code generation. This way, we can replace the details - of how the dynamic method is created to handle differences in CLR (like Silverlight - vs desktop) or security policies. - - - - - Create a builder method for the given type, using the given name. - - Type that will be built by the generated method. - Name to give to the method. - A object with the proper signature to use - as part of a build plan. - - - - Create a builder method for the given type, using the given name. - - Type that will be built by the generated method. - Name to give to the method. - A object with the proper signature to use - as part of a build plan. - - - - This object tracks the current state of the build plan generation, - accumulates the IL, provides the preamble & postamble for the dynamic - method, and tracks things like local variables in the generated IL - so that they can be reused across IL generation strategies. - - - - - Create a that is initialized - to handle creation of a dynamic method to build the given type. - - Type that we're trying to create a build plan for. - An object that actually - creates our object. - - - - Completes generation of the dynamic method and returns the - generated dynamic method delegate. - - The created - - - - Emit the IL to put the build context on top of the IL stack. - - - - - Emit the IL to put the current build key on top of the IL stack. - - - - - Emit the IL to put the current "existing" object on the top of the IL stack. - - - - - Emit the IL to make the top of the IL stack our current "existing" object. - - - - - Emit the IL to load the given object onto the top of the IL stack. - - Type to load on the stack. - - - - Emit the IL needed to look up an and - call it to get a value. - - Type of the dependency to resolve. - Key to look up the policy by. - - - - Emit the IL needed to clear the . - - - - - Emit the IL needed to either cast the top of the stack to the target type - or unbox it, if it's a value type. - - Type to convert the top of the stack to. - - - - A helper method used by the generated IL to clear the current operation in the build context. - - - - - Helper method used by generated IL to look up a dependency resolver based on the given key. - - Current build context. - Type of the dependency being resolved. - Key the resolver was stored under. - The found dependency resolver. - - - - A reflection helper method to make it easier to grab a property getter - for the given property. - - Type that implements the property we want. - Type of the property. - Name of the property. - The property getter's . - - - - A reflection helper method that makes it easier to grab a - for a method. - - Type that implements the method we want. - Name of the method. - Types of arguments to the method. - The method's . - - - - The underlying that can be used to - emit IL into the generated dynamic method. - - - - - The type we're currently creating the method to build. - - - - - A delegate type that defines the signature of the - dynamic method created by the build plans. - - used to build up the object. - - - - An implementation of that runs the - given delegate to execute the plan. - - - - - An implementation - that constructs a build plan via dynamic IL emission. - - - - - A that can create and return an - for the given build key. - - - - - Create a build plan using the given context and build key. - - Current build context. - Current build key. - The build plan. - - - - Construct a that - uses the given strategy chain to construct the build plan. - - The strategy chain. - - - - Construct a build plan. - - The current build context. - The current build key. - The created build plan. - - - - A class that records that a constructor is about to be call, and is - responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - - - - Generate the description string. - - The string. - - - - Method we're trying to call. - - - - - This class records the information about which constructor argument is currently - being resolved, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - The type that is being constructed. - A string representing the method being called. - Parameter being resolved. - - - - Generate the string describing what parameter was being resolved. - - The description string. - - - - String describing the method being set up. - - - - - Parameter that's being resolved. - - - - - A that generates IL to call - chosen methods (as specified by the current ) - as part of object build up. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A base class that holds the information shared by all operations - performed by the container while setting properties. - - - - - Initializes a new instance of the class. - - - - - Generate the description of this operation. - - The string. - - - - Get a format string used to create the description. Called by - the base method. - - The format string. - - - - The property value currently being resolved. - - - - - This class records the information about which property value is currently - being resolved, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - - - - Get a format string used to create the description. Called by - the base method. - - The format string. - - - - A that generates IL to resolve properties - on an object being built. - - - - - Called during the chain of responsibility for a build operation. - - The context for the operation. - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - A helper method used by the generated IL to store the current operation in the build context. - - - - - This class records the information about which property value is currently - being set, and is responsible for generating the error string required when - an error has occurred. - - - - - Initializes a new instance of the class. - - Type property is on. - Name of property being set. - - - - Get a format string used to create the description. Called by - the base method. - - The format string. - - - - Creates an instance of this build plan's type, or fills - in the existing type if passed in. - - Context used to build up the object. - - - - An that will examine the given - types and return a sequence of objects - that should be called as part of building the object. - - - - - Return the sequence of methods to call while building the target object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of methods to call. - - - - An implementation of that selects - methods by looking for the given - attribute on those methods. - - Type of attribute used to mark methods - to inject. - - - - Base class that provides an implementation of - which lets you override how the parameter resolvers are created. - - Attribute that marks methods that should - be called. - - - - Return the sequence of methods to call while building the target object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of methods to call. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - Objects of this type are the return value from . - It encapsulates the desired with the string keys - needed to look up the for each - parameter. - - - - - Create a new instance which - contains the given method. - - The method - - - - The constructor this object wraps. - - - - - An that returns a sequence - of properties that should be injected for the given type. - - - - - Returns sequence of properties on the given type that - should be set as part of building that object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of objects - that contain the properties to set. - - - - Base class that provides an implementation of - which lets you override how the parameter resolvers are created. - - - - - Returns sequence of properties on the given type that - should be set as part of building that object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of objects - that contain the properties to set. - - - - Create a for the given - property. - - Property to create resolver for. - The resolver object. - - - - An implementation of that looks - for properties marked with the - attribute that are also settable and not indexers. - - - - - - Create a for the given - property. - - Property to create resolver for. - The resolver object. - - - - Objects of this type are returned from - . - This class combines the about - the property with the string key used to look up the resolver - for this property's value. - - - - - Create an instance of - with the given and key. - - The property. - Key to use to look up the resolver. - - - - PropertyInfo for this property. - - - - - Key to look up this property's resolver. - - - - - Implementation of . - - - - - A builder policy that lets you keep track of the current - resolvers and will remove them from the given policy set. - - - - - Add a new resolver to track by key. - - Key that was used to add the resolver to the policy set. - - - - Remove the currently tracked resolvers from the given policy list. - - Policy list to remove the resolvers from. - - - - Add a new resolver to track by key. - - Key that was used to add the resolver to the policy set. - - - - Remove the currently tracked resolvers from the given policy list. - - Policy list to remove the resolvers from. - - - - Get an instance that implements , - either the current one in the policy set or creating a new one if it doesn't - exist. - - Policy list to look up from. - Build key to track. - The resolver tracker. - - - - Add a key to be tracked to the current tracker. - - Policy list containing the resolvers and trackers. - Build key for the resolvers being tracked. - Key for the resolver. - - - - Remove the resolvers for the given build key. - - Policy list containing the build key. - Build key. - - - - An implementation of that - calls back into the build chain to build up the dependency, passing - a type given at compile time as its build key. - - - - - Create a new instance storing the given type. - - Type to resolve. - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - This interface defines a standard method to convert any - regardless - of the stage enum into a regular, flat strategy chain. - - - - - Convert this into - a flat . - - The flattened . - - - - Represents a chain of responsibility for builder strategies. - - - - - Reverse the order of the strategy chain. - - The reversed strategy chain. - - - - Execute this strategy chain against the given context, - calling the Buildup methods on the strategies. - - Context for the build process. - The build up object - - - - Execute this strategy chain against the given context, - calling the TearDown methods on the strategies. - - Context for the teardown process. - - - - A builder policy used to create lifetime policy instances. - Used by the LifetimeStrategy when instantiating open - generic types. - - - - - Create a new instance of . - - The new instance. - - - - The type of Lifetime manager that will be created by this factory. - - - - - An implementation that uses - a to figure out if an object - has already been created and to update or remove that - object from some backing store. - - - - - Called during the chain of responsibility for a build operation. The - PreBuildUp method is called when the chain is being executed in the - forward direction. - - Context of the build operation. - - - - Called during the chain of responsibility for a build operation. The - PostBuildUp method is called when the chain has finished the PreBuildUp - phase and executes in reverse order from the PreBuildUp calls. - - Context of the build operation. - - - - Represents a chain of responsibility for builder strategies partitioned by stages. - - The stage enumeration to partition the strategies. - - - - Initialize a new instance of the class. - - - - - Initialize a new instance of the class with an inner strategy chain to use when building. - - The inner strategy chain to use first when finding strategies in the build operation. - - - - Adds a strategy to the chain at a particular stage. - - The strategy to add to the chain. - The stage to add the strategy. - - - - Add a new strategy for the . - - The of - The stage to add the strategy. - - - - Clear the current strategy chain list. - - - This will not clear the inner strategy chain if this instane was created with one. - - - - - Makes a strategy chain based on this instance. - - A new . - - - - Represents a chain of responsibility for builder strategies. - - - - - Initialzie a new instance of the class. - - - - - Initialzie a new instance of the class with a colleciton of strategies. - - A collection of strategies to initialize the chain. - - - - Adds a strategy to the chain. - - The strategy to add to the chain. - - - - Adds strategies to the chain. - - The strategies to add to the chain. - - - - Reverse the order of the strategy chain. - - The reversed strategy chain. - - - - Execute this strategy chain against the given context to build up. - - Context for the build processes. - The build up object - - - - Execute this strategy chain against the given context, - calling the TearDown methods on the strategies. - - Context for the teardown process. - - - - Returns an enumerator that iterates through the collection. - - - - A that can be used to iterate through the collection. - - 1 - - - - Returns an enumerator that iterates through a collection. - - - - An object that can be used to iterate through the collection. - - 2 - - - - Build key used to combine a type object with a string name. Used by - ObjectBuilder to indicate exactly what is being built. - - - - - Create a new instance with the given - type and name. - - to build. - Key to use to look up type mappings and singletons. - - - - Create a new instance for the default - buildup of the given type. - - to build. - - - - This helper method creates a new instance. It is - initialized for the default key for the given type. - - Type to build. - A new instance. - - - - This helper method creates a new instance for - the given type and key. - - Type to build - Key to use to look up type mappings and singletons. - A new instance initialized with the given type and name. - - - - Compare two instances. - - Two instances compare equal - if they contain the same name and the same type. Also, comparing - against a different type will also return false. - Object to compare to. - True if the two keys are equal, false if not. - - - - Calculate a hash code for this instance. - - A hash code. - - - - Compare two instances for equality. - - Two instances compare equal - if they contain the same name and the same type. - First of the two keys to compare. - Second of the two keys to compare. - True if the values of the keys are the same, else false. - - - - Compare two instances for inequality. - - Two instances compare equal - if they contain the same name and the same type. If either field differs - the keys are not equal. - First of the two keys to compare. - Second of the two keys to compare. - false if the values of the keys are the same, else true. - - - - Formats the build key as a string (primarily for debugging). - - A readable string representation of the build key. - - - - Return the stored in this build key. - - The type to build. - - - - Returns the name stored in this build key. - - The name to use when building. - - - - A generic version of so that - you can new up a key using generic syntax. - - Type for the key. - - - - Construct a new that - specifies the given type. - - - - - Construct a new that - specifies the given type and name. - - Name for the key. - - - - A series of helper methods to deal with sequences - - objects that implement . - - - - - A function that turns an arbitrary parameter list into an - . - - Type of arguments. - The items to put into the collection. - An array that contains the values of the . - - - - Given two sequences, return a new sequence containing the corresponding values - from each one. - - Type of first sequence. - Type of second sequence. - First sequence of items. - Second sequence of items. - New sequence of pairs. This sequence ends when the shorter of sequence1 and sequence2 does. - - - - The exception thrown by the Unity container when - an attempt to resolve a dependency fails. - - - The exception thrown by the Unity container when - an attempt to resolve a dependency fails. - - - - - Constructor to create a from serialized state. - - Serialization info - Serialization context - - - - Serialize this object into the given context. - - Serialization info - Streaming context - - - - Create a new that records - the exception for the given type and name. - - Type requested from the container. - Name requested from the container. - The actual exception that caused the failure of the build. - The build context representing the failed operation. - - - - The type that was being requested from the container at the time of failure. - - - - - The name that was being requested from the container at the time of failure. - - - - - A that lets you register a - delegate with the container to create an object, rather than calling - the object's constructor. - - - - - Base class for all extension objects. - - - - - The container calls this method when the extension is added. - - A instance that gives the - extension access to the internals of the container. - - - - Initial the container with this extension's functionality. - - - When overridden in a derived class, this method will modify the given - by adding strategies, policies, etc. to - install it's functions into the container. - - - - Removes the extension's functions from the container. - - - - This method is called when extensions are being removed from the container. It can be - used to do things like disconnect event handlers or clean up member state. You do not - need to remove strategies or policies here; the container will do that automatically. - - - The default implementation of this method does nothing. - - - - - The container this extension has been added to. - - The that this extension has been added to. - - - - The object used to manipulate - the inner state of the container. - - - - - Initialize this extension. This particular extension requires no - initialization work. - - - - - Register the given factory delegate to be called when the container is - asked to resolve and . - - Type that will be requested from the container. - The name that will be used when requesting to resolve this type. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - Register the given factory delegate to be called when the container is - asked to resolve . - - Type that will be requested from the container. - Delegate to invoke to create the instance. - The container extension object this method was invoked on. - - - - An implementation of that - acts as a decorator over another . - This checks to see if the current type being built is the - right one before checking the inner . - - - - - Create an instance of - - Type to check for. - Inner override to check after type matches. - - - - Return a that can be used to give a value - for the given desired dependency. - - Current build context. - Type of dependency desired. - a object if this override applies, null if not. - - - - A convenience version of that lets you - specify the type to construct via generics syntax. - - Type to check for. - - - - Create an instance of . - - Inner override to check after type matches. - - - - Extension class that adds a set of convenience overloads to the - interface. - - - - - Register a type with specific members to be injected. - - Type this registration is for. - Container to configure. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - - This overload registers a default mapping and transient lifetime. - - - that will be requested. - that will actually be returned. - Container to configure. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Container to configure. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - that will be requested. - that will actually be returned. - Container to configure. - Name of this mapping. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Container to configure. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type with the container. - No type mapping is performed for this type. - - The type to apply the to. - Container to configure. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type with the container. - No type mapping is performed for this type. - - The type to configure injection on. - Container to configure. - Name that will be used to request the type. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - The type to apply the to. - Container to configure. - Name that will be used to request the type. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type with specific members to be injected. - - Container to configure. - Type this registration is for. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - - This overload registers a default mapping. - - - Container to configure. - that will be requested. - that will actually be returned. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container. - - - This method is used to tell the container that when asked for type , - actually return an instance of type . This is very useful for - getting instances of interfaces. - - Container to configure. - that will be requested. - that will actually be returned. - Name to use for registration, null if a default registration. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a type mapping with the container, where the created instances will use - the given . - - Container to configure. - that will be requested. - that will actually be returned. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - Container to configure. - The to apply the to. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - Container to configure. - The to configure in the container. - Name to use for registration, null if a default registration. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register a for the given type and name with the container. - No type mapping is performed for this type. - - Container to configure. - The to apply the to. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration and has the container take over the lifetime of the instance. - - Type of instance to register (may be an implemented interface instead of the full type). - Container to configure. - Object to returned. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration (name = null). - - - Type of instance to register (may be an implemented interface instead of the full type). - Container to configure. - Object to returned. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload automatically has the container take ownership of the . - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Container to configure. - Name for registration. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Container to configure. - Name for registration. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration and has the container take over the lifetime of the instance. - - Container to configure. - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload does a default registration (name = null). - - - Container to configure. - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - This overload automatically has the container take ownership of the . - - Container to configure. - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Name for registration. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve an instance of the default requested type from the container. - - of object to get from the container. - Container to resolve from. - Any overrides for the resolve call. - The retrieved object. - - - - Resolve an instance of the requested type with the given name from the container. - - of object to get from the container. - Container to resolve from. - Name of the object to retrieve. - Any overrides for the resolve call. - The retrieved object. - - - - Resolve an instance of the default requested type from the container. - - Container to resolve from. - of object to get from the container. - Any overrides for the resolve call. - The retrieved object. - - - - Return instances of all registered types requested. - - - - This method is useful if you've registered multiple types with the same - but different names. - - - Be aware that this method does NOT return an instance for the default (unnamed) registration. - - - The type requested. - Container to resolve from. - Any overrides for the resolve calls. - Set of objects of type . - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - - This overload uses the default registrations. - - - of object to perform injection on. - Container to resolve through. - Instance to build up. - Any overrides for the buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - of object to perform injection on. - Conatiner to resolve through. - Instance to build up. - name to use when looking up the typemappings and other configurations. - Any overrides for the Buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - - This overload uses the default registrations. - - - Container to resolve through. - of object to perform injection on. - Instance to build up. - Any overrides for the Buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Creates a new extension object and adds it to the container. - - Type of to add. The extension type - will be resolved from within the supplied . - Container to add the extension to. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve access to a configuration interface exposed by an extension. - - Extensions can expose configuration interfaces as well as adding - strategies and policies to the container. This method walks the list of - added extensions and returns the first one that implements the requested type. - - The configuration interface required. - Container to configure. - The requested extension's configuration interface, or null if not found. - - - - Check if a particular type has been registered with the container with - the default name. - - Container to inspect. - Type to check registration for. - True if this type has been registered, false if not. - - - - Check if a particular type/name pair has been registered with the container. - - Container to inspect. - Type to check registration for. - Name to check registration for. - True if this type/name pair has been registered, false if not. - - - - Check if a particular type has been registered with the container with the default name. - - Type to check registration for. - Container to inspect. - True if this type has been registered, false if not. - - - - Check if a particular type/name pair has been registered with the container. - - Type to check registration for. - Container to inspect. - Name to check registration for. - True if this type/name pair has been registered, false if not. - - - - This extension installs the default strategies and policies into the container - to implement the standard behavior of the Unity container. - - - This extension installs the default strategies and policies into the container - to implement the standard behavior of the Unity container. - - - - - Add the correct to the policy - set. This version adds the appropriate policy for running on the desktop CLR. - - - - - Add the default ObjectBuilder strategies & policies to the container. - - - - - The class provides the means for extension objects - to manipulate the internal state of the . - - - - - Store a type/name pair for later resolution. - - - - When users register type mappings (or other things) with a named key, this method - allows you to register that name with the container so that when the - method is called, that name is included in the list that is returned. - - to register. - Name assocated with that type. - - - - The container that this context is associated with. - - The object. - - - - The strategies this container uses. - - The that the container uses to build objects. - - - - The strategies this container uses to construct build plans. - - The that this container uses when creating - build plans. - - - - The policies this container uses. - - The the that container uses to build objects. - - - - The that this container uses. - - The is used to manage objects that the container is managing. - - - - This event is raised when the method, - or one of its overloads, is called. - - - - - This event is raised when the method, - or one of its overloads, is called. - - - - - This event is raised when the method is called, providing - the newly created child container to extensions to act on as they see fit. - - - - - An EventArgs class that holds a string Name. - - - - - Create a new with a null name. - - - - - Create a new with the given name. - - Name to store. - - - - The name. - - Name used for this event arg object. - - - - Event argument class for the event. - - - - - Create a new instance of . - - Type to map from. - Type to map to. - Name for the registration. - to manage instances. - - - - Type to map from. - - - - - Type to map to. - - - - - to manage instances. - - - - - Event argument class for the event. - - - - - Create a default instance. - - - - - Create a instance initialized with the given arguments. - - Type of instance being registered. - The instance object itself. - Name to register under, null if default registration. - object that handles how - the instance will be owned. - - - - Type of instance being registered. - - - Type of instance being registered. - - - - - Instance object being registered. - - Instance object being registered - - - - that controls ownership of - this instance. - - - - - A that lets you specify that - an instance of a generic type parameter should be resolved. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - name to use when looking up in the container. - - - - Return a instance that will - return this types value for the parameter. - - The actual type to resolve. - The resolution key. - The . - - - - A that lets you specify that - an array containing the registered instances of a generic type parameter - should be resolved. - - - - - Create a new instance that specifies - that the given named generic parameter should be resolved. - - The generic parameter name to resolve. - The values for the elements, that will - be converted to objects. - - - - Test to see if this parameter value has a matching type for the given type. - - Type to check. - True if this parameter value is compatible with type , - false if not. - A type is considered compatible if it is an array type of rank one - and its element type is a generic type parameter with a name matching this generic - parameter name configured for the receiver. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - Name for the type represented by this . - This may be an actual type name or a generic argument name. - - - - - A Unity container extension that allows you to configure - which constructors, properties, and methods get injected - via an API rather than through attributes. - - - - - Initial the container with this extension's functionality. - - - When overridden in a derived class, this method will modify the given - by adding strategies, policies, etc. to - install it's functions into the container. - - - - API to configure the injection settings for a particular type. - - Type the injection is being configured for. - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type/name pair. - - Type the injection is being configured for. - Name of registration - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type. - - Type to configure. - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type/name pair. - - Type to configure. - Name of registration. - Objects containing the details on which members to inject and how. - This extension object. - - - - API to configure the injection settings for a particular type/name pair. - - Type of interface/base class being registered (may be null). - Type of actual implementation class being registered. - Name of registration. - Objects containing the details on which members to inject and how. - This extension object. - - - - A class that holds the collection of information - for a constructor, so that the container can - be configured to call this constructor. - - - - - Create a new instance of that looks - for a constructor with the given set of parameters. - - The values for the parameters, that will - be converted to objects. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Interface registered, ignored in this implementation. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - An that configures the - container to call a method as part of buildup. - - - - - Create a new instance which will configure - the container to call the given methods with the given parameters. - - Name of the method to call. - Parameter values for the method. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Type of interface registered, ignored in this implementation. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - A small function to handle name matching. You can override this - to do things like case insensitive comparisons. - - MethodInfo for the method you're checking. - Name of the method you're looking for. - True if a match, false if not. - - - - A class that holds on to the given value and provides - the required - when the container is configured. - - - - - Create an instance of that stores - the given value, using the runtime type of that value as the - type of the parameter. - - Value to be injected for this parameter. - - - - Create an instance of that stores - the given value, associated with the given type. - - Type of the parameter. - Value of the parameter - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of that makes it a - little easier to specify the type of the parameter. - - Type of parameter. - - - - Create a new . - - Value for the parameter. - - - - This class stores information about which properties to inject, - and will configure the container accordingly. - - - - - Configure the container to inject the given property name, - resolving the value via the container. - - Name of the property to inject. - - - - Configure the container to inject the given property name, - using the value supplied. This value is converted to an - object using the - rules defined by the - method. - - Name of property to inject. - Value for property. - - - - Add policies to the to configure the - container to call this constructor with the appropriate parameter values. - - Interface being registered, ignored in this implemenation. - Type to register. - Name used to resolve the type object. - Policy list to add policies to. - - - - A class that stores a type, and generates a - resolver object that resolves all the named instances or the - type registered in a container. - - - - - Construct a new that - resolves to the given element type and collection of element values. - - The type of elements to resolve. - The values for the elements, that will - be converted to objects. - - - - Construct a new that - resolves to the given array and element types and collection of element values. - - The type for the array of elements to resolve. - The type of elements to resolve. - The values for the elements, that will - be converted to objects. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of for convenience - when creating them by hand. - - Type of the elements for the array of the parameter. - - - - Construct a new that - resolves to the given element generic type with the given element values. - - The values for the elements, that will - be converted to objects. - - - - Interface defining the behavior of the Unity dependency injection container. - - - - - Register a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Register an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Name for registration. - - object that controls how this instance will be managed by the container. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve an instance of the requested type with the given name from the container. - - of object to get from the container. - Name of the object to retrieve. - Any overrides for the resolve call. - The retrieved object. - - - - Return instances of all registered types requested. - - - - This method is useful if you've registered multiple types with the same - but different names. - - - Be aware that this method does NOT return an instance for the default (unnamed) registration. - - - The type requested. - Any overrides for the resolve calls. - Set of objects of type . - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - of object to perform injection on. - Instance to build up. - name to use when looking up the typemappings and other configurations. - Any overrides for the resolve calls. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container, and clean it up. - - The object to tear down. - - - - Add an extension object to the container. - - to add. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Resolve access to a configuration interface exposed by an extension. - - Extensions can expose configuration interfaces as well as adding - strategies and policies to the container. This method walks the list of - added extensions and returns the first one that implements the requested type. - - of configuration interface required. - The requested extension's configuration interface, or null if not found. - - - - Remove all installed extensions from this container. - - - - This method removes all extensions from the container, including the default ones - that implement the out-of-the-box behavior. After this method, if you want to use - the container again you will need to either readd the default extensions or replace - them with your own. - - - The registered instances and singletons that have already been set up in this container - do not get removed. - - - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Create a child container. - - - A child container shares the parent's configuration, but can be configured with different - settings or lifetime. - The new child container. - - - - The parent of this container. - - The parent container, or null if this container doesn't have one. - - - - Get a sequence of that describe the current state - of the container. - - - - - A that holds a weak reference to - it's managed instance. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - An implementation of that - creates instances of the type of the given Lifetime Manager - by resolving them through the container. - - - - - Create a new that will - return instances of the given type, creating them by - resolving through the container. - - Container to resolve with. - Type of LifetimeManager to create. - - - - Create a new instance of . - - The new instance. - - - - The type of Lifetime manager that will be created by this factory. - - - - - A that holds the instances given to it, - keeping one instance per thread. - - - - This LifetimeManager does not dispose the instances it holds. - - - - - - Initializes a new instance of the class. - - - - - Retrieve a value from the backing store associated with this Lifetime policy for the - current thread. - - the object desired, or if no such object is currently - stored for the current thread. - - - - Stores the given value into backing store for retrieval later when requested - in the current thread. - - The object being stored. - - - - Remove the given object from backing store. - - Not implemented for this lifetime manager. - - - - An implementation that does nothing, - thus ensuring that instances are created new every time. - - - - - Retrieve a value from the backing store associated with this Lifetime policy. - - the object desired, or null if no such object is currently stored. - - - - Stores the given value into backing store for retrieval later. - - The object being stored. - - - - Remove the given object from backing store. - - - - - This strategy implements the logic that will call container.ResolveAll - when an array parameter is detected. - - - - - Do the PreBuildUp stage of construction. This is where the actual work is performed. - - Current build context. - - - - An implementation of that is - aware of the build keys used by the Unity container. - - - - - Create a instance for the given - . - - - This implementation looks for the Unity on the - parameter and uses it to create an instance of - for this parameter. - Parameter to create the resolver for. - The resolver object. - - - - An implementation of that is aware - of the build keys used by the Unity container. - - - - - Create a instance for the given - . - - Parameter to create the resolver for. - The resolver object. - - - - An implementation of that is aware of - the build keys used by the unity container. - - - - - Create a for the given - property. - - Property to create resolver for. - The resolver object. - - - - A implementation that returns - the value set in the constructor. - - - - - Create a new instance of - which will return the given value when resolved. - - The value to return. - - - - Get the value for a dependency. - - Current build context. - The value for the dependency. - - - - An implementation of that stores a - type and name, and at resolution time puts them together into a - . - - - - - Create an instance of - with the given type and name. - - The type. - The name (may be null). - - - - Resolve the value for a dependency. - - Current build context. - The value for the dependency. - - - - The type that this resolver resolves. - - - - - The name that this resolver resolves. - - - - - An implementation of that resolves to - to an array populated with the values that result from resolving other instances - of . - - - - - Create an instance of - with the given type and a collection of - instances to use when populating the result. - - The type. - The resolver policies to use when populating an array. - - - - Resolve the value for a dependency. - - Current build context. - An array pupulated with the results of resolving the resolver policies. - - - - An implementation of that selects - the given constructor and creates the appropriate resolvers to call it with - the specified parameters. - - - - - Create an instance of that - will return the given constructor, being passed the given injection values - as parameters. - - The constructor to call. - Set of objects - that describes how to obtain the values for the constructor parameters. - - - - Choose the constructor to call for the given type. - - Current build context - The to add any - generated resolver objects into. - The chosen constructor. - - - - Helper class for implementing selector policies that need to - set up dependency resolver policies. - - - - - Add dependency resolvers to the parameter set. - - Type that's currently being built (used to resolve open generics). - PolicyList to add the resolvers to. - Objects supplying the dependency resolvers. - Result object to store the keys in. - - - - A implementation that calls the specific - methods with the given parameters. - - - - - Add the given method and parameter collection to the list of methods - that will be returned when the selector's - method is called. - - Method to call. - sequence of objects - that describe how to create the method parameter values. - - - - Return the sequence of methods to call while building the target object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of methods to call. - - - - An implemnetation of which returns - the set of specific properties that the selector was configured with. - - - - - Add a property that will be par of the set returned when the - is called. - - The property to set. - object describing - how to create the value to inject. - - - - Returns sequence of properties on the given type that - should be set as part of building that object. - - Current build context. - The to add any - generated resolver objects into. - Sequence of objects - that contain the properties to set. - - - - A class that stores a name and type, and generates a - resolver object that resolves the parameter via the - container. - - - - - Construct a new that - resolves to the given type. - - Type of this parameter. - - - - Construct a new that - resolves the given type and name. - - Type of this parameter. - Name to use when resolving parameter. - - - - Return a instance that will - return this types value for the parameter. - - Type that contains the member that needs this parameter. Used - to resolve open generic parameters. - The . - - - - A generic version of for convenience - when creating them by hand. - - Type of the parameter - - - - Create a new for the given - generic type and the default name. - - - - - Create a new for the given - generic type and name. - - Name to use to resolve this parameter. - - - - An implementation of that wraps a Unity container. - - - - - Initializes a new instance of the class for a container. - - The to wrap with the - interface implementation. - - - - Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources. - - 2 - - - - When implemented by inheriting classes, this method will do the actual work of resolving - the requested service instance. - - Type of instance requested.Name of registered service you want. May be null. - - The requested service instance. - - - - - When implemented by inheriting classes, this method will do the actual work of - resolving all the requested service instances. - - Type of service requested. - - Sequence of service instance objects. - - - - - A static helper class that includes various parameter checking routines. - - - - - Throws if the given argument is null. - - if tested value if null. - Argument value to test. - Name of the argument being tested. - - - - Throws an exception if the tested string argument is null or the empty string. - - Thrown if string value is null. - Thrown if the string is empty - Argument value to check. - Name of argument being checked. - - - - Verifies that an argument type is assignable from the provided type (meaning - interfaces are implemented, or classes exist in the base class hierarchy). - - The argument type that will be assigned to. - The type of the value being assigned. - Argument name. - - - - Verifies that an argument instance is assignable from the provided type (meaning - interfaces are implemented, or classes exist in the base class hierarchy, or instance can be - assigned through a runtime wrapper, as is the case for COM Objects). - - The argument type that will be assigned to. - The instance that will be assigned. - Argument name. - - - - The build stages we use in the Unity container - strategy pipeline. - - - - - First stage. By default, nothing happens here. - - - - - Second stage. Type mapping occurs here. - - - - - Third stage. lifetime managers are checked here, - and if they're available the rest of the pipeline is skipped. - - - - - Fourth stage. Reflection over constructors, properties, etc. is - performed here. - - - - - Fifth stage. Instance creation happens here. - - - - - Sixth stage. Property sets and method injection happens here. - - - - - Seventh and final stage. By default, nothing happens here. - - - - - A strongly-typed resource class, for looking up localized strings, etc. - - - - - Returns the cached ResourceManager instance used by this class. - - - - - Overrides the current thread's CurrentUICulture property for all - resource lookups using this strongly typed resource class. - - - - - Looks up a localized string similar to The type {0} has multiple constructors of length {1}. Unable to disambiguate.. - - - - - Looks up a localized string similar to The provided string argument must not be empty.. - - - - - Looks up a localized string similar to The current build operation (build key {2}) failed: {3} (Strategy type {0}, index {1}). - - - - - Looks up a localized string similar to The current type, {0}, is an interface and cannot be constructed. Are you missing a type mapping?. - - - - - Looks up a localized string similar to Cannot extract type from build key {0}.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) is an open generic method. Open generic methods cannot be injected.. - - - - - Looks up a localized string similar to The property {0} on type {1} is an indexer. Indexed properties cannot be injected.. - - - - - Looks up a localized string similar to The method {1} on type {0} has an out parameter. Injection cannot be performed.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) has at least one out parameter. Methods with out parameters cannot be injected.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) has at least one ref parameter.Methods with ref parameters cannot be injected.. - - - - - Looks up a localized string similar to The method {1} on type {0} is marked for injection, but it is an open generic method. Injection cannot be performed.. - - - - - Looks up a localized string similar to The method {0}.{1}({2}) is static. Static methods cannot be injected.. - - - - - Looks up a localized string similar to The type {0} is an open generic type. An open generic type cannot be resolved.. - - - - - Looks up a localized string similar to Resolving parameter "{0}" of constructor {1}. - - - - - Looks up a localized string similar to The parameter {0} could not be resolved when attempting to call constructor {1}.. - - - - - Looks up a localized string similar to Parameter type inference does not work for null values. Indicate the parameter type explicitly using a properly configured instance of the InjectionParameter or InjectionParameter<T> classes.. - - - - - Looks up a localized string similar to Calling constructor {0}. - - - - - Looks up a localized string similar to Calling method {0}.{1}. - - - - - Looks up a localized string similar to An item with the given key is already present in the dictionary.. - - - - - Looks up a localized string similar to The lifetime manager is already registered. Lifetime managers cannot be reused, please create a new one.. - - - - - Looks up a localized string similar to The override marker build plan policy has been invoked. This should never happen, looks like a bug in the container.. - - - - - Looks up a localized string similar to Resolving parameter "{0}" of method {1}.{2}. - - - - - Looks up a localized string similar to The value for parameter "{1}" of method {0} could not be resolved. . - - - - - Looks up a localized string similar to Could not resolve dependency for build key {0}.. - - - - - Looks up a localized string similar to The type {0} has multiple constructors marked with the InjectionConstructor attribute. Unable to disambiguate.. - - - - - Looks up a localized string similar to The supplied type {0} must be an open generic type.. - - - - - Looks up a localized string similar to The supplied type {0} does not have the same number of generic arguments as the target type {1}.. - - - - - Looks up a localized string similar to The type {0} does not have an accessible constructor.. - - - - - Looks up a localized string similar to The type {0} does not have a generic argument named "{1}". - - - - - Looks up a localized string similar to while resolving. - - - - - Looks up a localized string similar to The type {0} does not have a constructor that takes the parameters ({1}).. - - - - - Looks up a localized string similar to The type {0} does not have a public method named {1} that takes the parameters ({2}).. - - - - - Looks up a localized string similar to The type {0} does not contain an instance property named {1}.. - - - - - Looks up a localized string similar to The type {0} is not a generic type, and you are attempting to inject a generic parameter named "{1}".. - - - - - Looks up a localized string similar to The type {0} is not an array type with rank 1, and you are attempting to use a [DependencyArray] attribute on a parameter or property with this type.. - - - - - Looks up a localized string similar to Optional dependencies must be reference types. The type {0} is a value type.. - - - - - Looks up a localized string similar to The property {0} on type {1} is not settable.. - - - - - Looks up a localized string similar to The property {0} on type {1} is of type {2}, and cannot be injected with a value of type {3}.. - - - - - Looks up a localized string similar to The value for the property "{0}" could not be resolved.. - - - - - Looks up a localized string similar to The provided string argument must not be empty.. - - - - - Looks up a localized string similar to Resolution of the dependency failed, type = "{0}", name = "{1}". - Exception occurred while: {2}. - Exception is: {3} - {4} - ----------------------------------------------- - At the time of the exception, the container was: - . - - - - - Looks up a localized string similar to Resolving {0},{1}. - - - - - Looks up a localized string similar to Resolving {0},{1} (mapped from {2}, {3}). - - - - - Looks up a localized string similar to Resolving value for property {0}.{1}. - - - - - Looks up a localized string similar to The constructor {1} selected for type {0} has ref or out parameters. Such parameters are not supported for constructor injection.. - - - - - Looks up a localized string similar to Setting value for property {0}.{1}. - - - - - Looks up a localized string similar to The type {0} cannot be constructed. You must configure the container to supply this value.. - - - - - Looks up a localized string similar to The type {1} cannot be assigned to variables of type {0}.. - - - - - Looks up a localized string similar to <unknown>. - - - - - A simple, extensible dependency injection container. - - - - - Create a default . - - - - - Create a with the given parent container. - - The parent . The current object - will apply its own settings first, and then check the parent for additional ones. - - - - RegisterType a type mapping with the container, where the created instances will use - the given . - - that will be requested. - that will actually be returned. - Name to use for registration, null if a default registration. - The that controls the lifetime - of the returned instance. - Injection configuration objects. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - RegisterType an instance with the container. - - - - Instance registration is much like setting a type as a singleton, except that instead - of the container creating the instance the first time it is requested, the user - creates the instance ahead of type and adds that instance to the container. - - - Type of instance to register (may be an implemented interface instead of the full type). - Object to returned. - Name for registration. - - If true, the container will take over the lifetime of the instance, - calling Dispose on it (if it's ) when the container is Disposed. - - If false, container will not maintain a strong reference to . User is reponsible - for disposing instance, and for keeping the instance from being garbage collected. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Get an instance of the requested type with the given name from the container. - - of object to get from the container. - Name of the object to retrieve. - Any overrides for the resolve call. - The retrieved object. - - - - Return instances of all registered types requested. - - - - This method is useful if you've registered multiple types with the same - but different names. - - - Be aware that this method does NOT return an instance for the default (unnamed) registration. - - - The type requested. - Any overrides for the resolve calls. - Set of objects of type . - - - - Run an existing object through the container and perform injection on it. - - - - This method is useful when you don't control the construction of an - instance (ASP.NET pages or objects created via XAML, for instance) - but you still want properties and other injection performed. - - of object to perform injection on. - Instance to build up. - name to use when looking up the typemappings and other configurations. - Any overrides for the buildup. - The resulting object. By default, this will be , but - container extensions may add things like automatic proxy creation which would - cause this to return a different object (but still type compatible with ). - - - - Run an existing object through the container, and clean it up. - - The object to tear down. - - - - Add an extension object to the container. - - to add. - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Get access to a configuration interface exposed by an extension. - - Extensions can expose configuration interfaces as well as adding - strategies and policies to the container. This method walks the list of - added extensions and returns the first one that implements the requested type. - - of configuration interface required. - The requested extension's configuration interface, or null if not found. - - - - Remove all installed extensions from this container. - - - - This method removes all extensions from the container, including the default ones - that implement the out-of-the-box behavior. After this method, if you want to use - the container again you will need to either readd the default extensions or replace - them with your own. - - - The registered instances and singletons that have already been set up in this container - do not get removed. - - - The object that this method was called on (this in C#, Me in Visual Basic). - - - - Create a child container. - - - A child container shares the parent's configuration, but can be configured with different - settings or lifetime. - The new child container. - - - - Dispose this container instance. - - - Disposing the container also disposes any child containers, - and disposes any instances whose lifetimes are managed - by the container. - - - - - Dispose this container instance. - - - This class doesn't have a finalizer, so will always be true. - True if being called from the IDisposable.Dispose - method, false if being called from a finalizer. - - - - Remove policies associated with building this type. This removes the - compiled build plan so that it can be rebuilt with the new settings - the next time this type is resolved. - - Type of object to clear the plan for. - Name the object is being registered with. - - - - The parent of this container. - - The parent container, or null if this container doesn't have one. - - - - Get a sequence of that describe the current state - of the container. - - - - - Implementation of the ExtensionContext that is actually used - by the UnityContainer implementation. - - - This is a nested class so that it can access state in the - container that would otherwise be inaccessible. - - - - - This event is raised when the method, - or one of its overloads, is called. - - - - - This extension supplies the default behavior of the UnityContainer API - by handling the context events and setting policies. - - - - - Install the default container behavior into the container. - - - - - Remove the default behavior from the container. - - - - - Helper class to wrap common reflection stuff dealing with - methods. - - - - - Create a new instance that - lets us do more reflection stuff on that method. - - The method to reflect on. - - - - Given our set of generic type arguments, - - The generic type arguments. - An array with closed parameter types. - - - - Returns true if any of the parameters of this method - are open generics. - - - - - Return the of each parameter for this - method. - - Sequence of objects, one for - each parameter in order. - - - - A helper class that encapsulates two different - data items together into a a single item. - - - - - Create a new containing - the two values give. - - First value - Second value - - - - The first value of the pair. - - - - - The second value of the pair. - - - - - Container for a Pair helper method. - - - - - A helper factory method that lets users take advantage of type inference. - - Type of first value. - Type of second value. - First value. - Second value. - A new instance. - - - - A utility class that handles the logic of matching parameter - lists, so we can find the right constructor and method overloads. - - - - - Create a new that will attempt to - match the given parameter types. - - Target parameters to match against. - - - - Tests to see if the given set of types matches the ones - we're looking for. - - parameter list to look for. - true if they match, false if they don't. - - - - Tests to see if the given set of types matches the ones we're looking for. - - Candidate method signature to look for. - True if they match, false if they don't. - - - - Another reflection helper class that has extra methods - for dealing with ParameterInfos. - - - - - A small helper class to encapsulate details of the - reflection API, particularly around generics. - - - - - Create a new instance that - lets you look at information about the given type. - - Type to do reflection on. - - - - Test the given object, looking at - the parameters. Determine if any of the parameters are - open generic types that need type attributes filled in. - - The method to check. - True if any of the parameters are open generics. False if not. - - - - If this type is an open generic, use the - given array to - determine what the required closed type is and return that. - - If the parameter is not an open type, just - return this parameter's type. - Type arguments to substitute in for - the open type parameters. - Corresponding closed type of this parameter. - - - - Given a generic argument name, return the corresponding type for this - closed type. For example, if the current type is SomeType<User>, and the - corresponding definition was SomeType<TSomething>, calling this method - and passing "TSomething" will return typeof(User). - - Name of the generic parameter. - Type of the corresponding generic parameter, or null if there - is no matching name. - - - - The object we're reflecting over. - - - - - Is this type generic? - - - - - Is this type an open generic (no type parameter specified) - - - - - Is this type an array type? - - - - - Is this type an array of generic elements? - - - - - The type of the elements in this type (if it's an array). - - - - - Create a new instance of that - lets you query information about the given ParameterInfo object. - - Parameter to query. - - - - A set of helper methods to pick through lambdas and pull out - from them. - - - - - Pull out a object from an expression of the form - () => SomeClass.SomeMethod() - - Expression describing the method to call. - Corresponding . - - - - Pull out a object from an expression of the form - x => x.SomeMethod() - - The type where the method is defined. - Expression describing the method to call. - Corresponding . - - - - Pull out a object for the get method from an expression of the form - x => x.SomeProperty - - The type where the method is defined. - The type for the property. - Expression describing the property for which the get method is to be extracted. - Corresponding . - - - - Pull out a object for the set method from an expression of the form - x => x.SomeProperty - - The type where the method is defined. - The type for the property. - Expression describing the property for which the set method is to be extracted. - Corresponding . - - - - Pull out a object from an expression of the form () => new SomeType() - - The type where the constructor is defined. - Expression invoking the desired constructor. - Corresponding . - - - diff --git a/packages/Unity.2.1.505.2/Unity.2.1.505.2.nupkg b/packages/Unity.2.1.505.2/Unity.2.1.505.2.nupkg new file mode 100644 index 000000000..d3f60f8fa Binary files /dev/null and b/packages/Unity.2.1.505.2/Unity.2.1.505.2.nupkg differ diff --git a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.Configuration.dll b/packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.Configuration.dll similarity index 91% rename from packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.Configuration.dll rename to packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.Configuration.dll index 3bf4b2761..50a0fb907 100644 Binary files a/packages/Unity.2.1.505.0/lib/NET35/Microsoft.Practices.Unity.Configuration.dll and b/packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.Configuration.dll differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Configuration.xml b/packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.Configuration.xml similarity index 100% rename from packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.Configuration.xml rename to packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.Configuration.xml diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.dll b/packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.dll similarity index 59% rename from packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.dll rename to packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.dll index 84f1870df..15073b664 100644 Binary files a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.dll and b/packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.dll differ diff --git a/packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.xml b/packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.xml similarity index 100% rename from packages/Unity.2.0/lib/20/Microsoft.Practices.Unity.xml rename to packages/Unity.2.1.505.2/lib/NET35/Microsoft.Practices.Unity.xml diff --git a/packages/Unity.2.1.505.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll b/packages/Unity.2.1.505.2/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll similarity index 61% rename from packages/Unity.2.1.505.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll rename to packages/Unity.2.1.505.2/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll index f83c42685..a20097b28 100644 Binary files a/packages/Unity.2.1.505.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll and b/packages/Unity.2.1.505.2/lib/SL30/Microsoft.Practices.Unity.Silverlight.dll differ diff --git a/packages/Unity.2.1.505.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml b/packages/Unity.2.1.505.2/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml similarity index 100% rename from packages/Unity.2.1.505.0/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml rename to packages/Unity.2.1.505.2/lib/SL30/Microsoft.Practices.Unity.Silverlight.xml diff --git a/packages/Unity.2.1.505.0/tools/Utils.psm1 b/packages/Unity.2.1.505.2/tools/Utils.psm1 similarity index 100% rename from packages/Unity.2.1.505.0/tools/Utils.psm1 rename to packages/Unity.2.1.505.2/tools/Utils.psm1 diff --git a/packages/Unity.2.1.505.0/tools/install.ps1 b/packages/Unity.2.1.505.2/tools/install.ps1 similarity index 100% rename from packages/Unity.2.1.505.0/tools/install.ps1 rename to packages/Unity.2.1.505.2/tools/install.ps1