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bazarr/libs/pygments/lexers/graphics.py

800 lines
38 KiB

"""
pygments.lexers.graphics
~~~~~~~~~~~~~~~~~~~~~~~~
Lexers for computer graphics and plotting related languages.
:copyright: Copyright 2006-2021 by the Pygments team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
from pygments.lexer import RegexLexer, words, include, bygroups, using, \
this, default
from pygments.token import Text, Comment, Operator, Keyword, Name, \
Number, Punctuation, String, Whitespace
__all__ = ['GLShaderLexer', 'PostScriptLexer', 'AsymptoteLexer', 'GnuplotLexer',
'PovrayLexer', 'HLSLShaderLexer']
class GLShaderLexer(RegexLexer):
"""
GLSL (OpenGL Shader) lexer.
.. versionadded:: 1.1
"""
name = 'GLSL'
aliases = ['glsl']
filenames = ['*.vert', '*.frag', '*.geo']
mimetypes = ['text/x-glslsrc']
tokens = {
'root': [
(r'^#.*$', Comment.Preproc),
(r'//.*$', Comment.Single),
(r'/(\\\n)?[*](.|\n)*?[*](\\\n)?/', Comment.Multiline),
(r'\+|-|~|!=?|\*|/|%|<<|>>|<=?|>=?|==?|&&?|\^|\|\|?',
Operator),
(r'[?:]', Operator), # quick hack for ternary
(r'\bdefined\b', Operator),
(r'[;{}(),\[\]]', Punctuation),
# FIXME when e is present, no decimal point needed
(r'[+-]?\d*\.\d+([eE][-+]?\d+)?', Number.Float),
(r'[+-]?\d+\.\d*([eE][-+]?\d+)?', Number.Float),
(r'0[xX][0-9a-fA-F]*', Number.Hex),
(r'0[0-7]*', Number.Oct),
(r'[1-9][0-9]*', Number.Integer),
(words((
# Storage qualifiers
'attribute', 'const', 'uniform', 'varying',
'buffer', 'shared', 'in', 'out',
# Layout qualifiers
'layout',
# Interpolation qualifiers
'flat', 'smooth', 'noperspective',
# Auxiliary qualifiers
'centroid', 'sample', 'patch',
# Parameter qualifiers. Some double as Storage qualifiers
'inout',
# Precision qualifiers
'lowp', 'mediump', 'highp', 'precision',
# Invariance qualifiers
'invariant',
# Precise qualifiers
'precise',
# Memory qualifiers
'coherent', 'volatile', 'restrict', 'readonly', 'writeonly',
# Statements
'break', 'continue', 'do', 'for', 'while', 'switch',
'case', 'default', 'if', 'else', 'subroutine',
'discard', 'return', 'struct'),
prefix=r'\b', suffix=r'\b'),
Keyword),
(words((
# Boolean values
'true', 'false'),
prefix=r'\b', suffix=r'\b'),
Keyword.Constant),
(words((
# Miscellaneous types
'void', 'atomic_uint',
# Floating-point scalars and vectors
'float', 'vec2', 'vec3', 'vec4',
'double', 'dvec2', 'dvec3', 'dvec4',
# Integer scalars and vectors
'int', 'ivec2', 'ivec3', 'ivec4',
'uint', 'uvec2', 'uvec3', 'uvec4',
# Boolean scalars and vectors
'bool', 'bvec2', 'bvec3', 'bvec4',
# Matrices
'mat2', 'mat3', 'mat4', 'dmat2', 'dmat3', 'dmat4',
'mat2x2', 'mat2x3', 'mat2x4', 'dmat2x2', 'dmat2x3', 'dmat2x4',
'mat3x2', 'mat3x3', 'mat3x4', 'dmat3x2', 'dmat3x3',
'dmat3x4', 'mat4x2', 'mat4x3', 'mat4x4', 'dmat4x2', 'dmat4x3', 'dmat4x4',
# Floating-point samplers
'sampler1D', 'sampler2D', 'sampler3D', 'samplerCube',
'sampler1DArray', 'sampler2DArray', 'samplerCubeArray',
'sampler2DRect', 'samplerBuffer',
'sampler2DMS', 'sampler2DMSArray',
# Shadow samplers
'sampler1DShadow', 'sampler2DShadow', 'samplerCubeShadow',
'sampler1DArrayShadow', 'sampler2DArrayShadow',
'samplerCubeArrayShadow', 'sampler2DRectShadow',
# Signed integer samplers
'isampler1D', 'isampler2D', 'isampler3D', 'isamplerCube',
'isampler1DArray', 'isampler2DArray', 'isamplerCubeArray',
'isampler2DRect', 'isamplerBuffer',
'isampler2DMS', 'isampler2DMSArray',
# Unsigned integer samplers
'usampler1D', 'usampler2D', 'usampler3D', 'usamplerCube',
'usampler1DArray', 'usampler2DArray', 'usamplerCubeArray',
'usampler2DRect', 'usamplerBuffer',
'usampler2DMS', 'usampler2DMSArray',
# Floating-point image types
'image1D', 'image2D', 'image3D', 'imageCube',
'image1DArray', 'image2DArray', 'imageCubeArray',
'image2DRect', 'imageBuffer',
'image2DMS', 'image2DMSArray',
# Signed integer image types
'iimage1D', 'iimage2D', 'iimage3D', 'iimageCube',
'iimage1DArray', 'iimage2DArray', 'iimageCubeArray',
'iimage2DRect', 'iimageBuffer',
'iimage2DMS', 'iimage2DMSArray',
# Unsigned integer image types
'uimage1D', 'uimage2D', 'uimage3D', 'uimageCube',
'uimage1DArray', 'uimage2DArray', 'uimageCubeArray',
'uimage2DRect', 'uimageBuffer',
'uimage2DMS', 'uimage2DMSArray'),
prefix=r'\b', suffix=r'\b'),
Keyword.Type),
(words((
# Reserved for future use.
'common', 'partition', 'active', 'asm', 'class',
'union', 'enum', 'typedef', 'template', 'this',
'resource', 'goto', 'inline', 'noinline', 'public',
'static', 'extern', 'external', 'interface', 'long',
'short', 'half', 'fixed', 'unsigned', 'superp', 'input',
'output', 'hvec2', 'hvec3', 'hvec4', 'fvec2', 'fvec3',
'fvec4', 'sampler3DRect', 'filter', 'sizeof', 'cast',
'namespace', 'using'),
prefix=r'\b', suffix=r'\b'),
Keyword.Reserved),
# All names beginning with "gl_" are reserved.
(r'gl_\w*', Name.Builtin),
(r'[a-zA-Z_]\w*', Name),
(r'\.', Punctuation),
(r'\s+', Whitespace),
],
}
class HLSLShaderLexer(RegexLexer):
"""
HLSL (Microsoft Direct3D Shader) lexer.
.. versionadded:: 2.3
"""
name = 'HLSL'
aliases = ['hlsl']
filenames = ['*.hlsl', '*.hlsli']
mimetypes = ['text/x-hlsl']
tokens = {
'root': [
(r'^#.*$', Comment.Preproc),
(r'//.*$', Comment.Single),
(r'/(\\\n)?[*](.|\n)*?[*](\\\n)?/', Comment.Multiline),
(r'\+|-|~|!=?|\*|/|%|<<|>>|<=?|>=?|==?|&&?|\^|\|\|?',
Operator),
(r'[?:]', Operator), # quick hack for ternary
(r'\bdefined\b', Operator),
(r'[;{}(),.\[\]]', Punctuation),
# FIXME when e is present, no decimal point needed
(r'[+-]?\d*\.\d+([eE][-+]?\d+)?f?', Number.Float),
(r'[+-]?\d+\.\d*([eE][-+]?\d+)?f?', Number.Float),
(r'0[xX][0-9a-fA-F]*', Number.Hex),
(r'0[0-7]*', Number.Oct),
(r'[1-9][0-9]*', Number.Integer),
(r'"', String, 'string'),
(words((
'asm','asm_fragment','break','case','cbuffer','centroid','class',
'column_major','compile','compile_fragment','const','continue',
'default','discard','do','else','export','extern','for','fxgroup',
'globallycoherent','groupshared','if','in','inline','inout',
'interface','line','lineadj','linear','namespace','nointerpolation',
'noperspective','NULL','out','packoffset','pass','pixelfragment',
'point','precise','return','register','row_major','sample',
'sampler','shared','stateblock','stateblock_state','static',
'struct','switch','tbuffer','technique','technique10',
'technique11','texture','typedef','triangle','triangleadj',
'uniform','vertexfragment','volatile','while'),
prefix=r'\b', suffix=r'\b'),
Keyword),
(words(('true','false'), prefix=r'\b', suffix=r'\b'),
Keyword.Constant),
(words((
'auto','catch','char','const_cast','delete','dynamic_cast','enum',
'explicit','friend','goto','long','mutable','new','operator',
'private','protected','public','reinterpret_cast','short','signed',
'sizeof','static_cast','template','this','throw','try','typename',
'union','unsigned','using','virtual'),
prefix=r'\b', suffix=r'\b'),
Keyword.Reserved),
(words((
'dword','matrix','snorm','string','unorm','unsigned','void','vector',
'BlendState','Buffer','ByteAddressBuffer','ComputeShader',
'DepthStencilState','DepthStencilView','DomainShader',
'GeometryShader','HullShader','InputPatch','LineStream',
'OutputPatch','PixelShader','PointStream','RasterizerState',
'RenderTargetView','RasterizerOrderedBuffer',
'RasterizerOrderedByteAddressBuffer',
'RasterizerOrderedStructuredBuffer','RasterizerOrderedTexture1D',
'RasterizerOrderedTexture1DArray','RasterizerOrderedTexture2D',
'RasterizerOrderedTexture2DArray','RasterizerOrderedTexture3D',
'RWBuffer','RWByteAddressBuffer','RWStructuredBuffer',
'RWTexture1D','RWTexture1DArray','RWTexture2D','RWTexture2DArray',
'RWTexture3D','SamplerState','SamplerComparisonState',
'StructuredBuffer','Texture1D','Texture1DArray','Texture2D',
'Texture2DArray','Texture2DMS','Texture2DMSArray','Texture3D',
'TextureCube','TextureCubeArray','TriangleStream','VertexShader'),
prefix=r'\b', suffix=r'\b'),
Keyword.Type),
(words((
'bool','double','float','int','half','min16float','min10float',
'min16int','min12int','min16uint','uint'),
prefix=r'\b', suffix=r'([1-4](x[1-4])?)?\b'),
Keyword.Type), # vector and matrix types
(words((
'abort','abs','acos','all','AllMemoryBarrier',
'AllMemoryBarrierWithGroupSync','any','AppendStructuredBuffer',
'asdouble','asfloat','asin','asint','asuint','asuint','atan',
'atan2','ceil','CheckAccessFullyMapped','clamp','clip',
'CompileShader','ConsumeStructuredBuffer','cos','cosh','countbits',
'cross','D3DCOLORtoUBYTE4','ddx','ddx_coarse','ddx_fine','ddy',
'ddy_coarse','ddy_fine','degrees','determinant',
'DeviceMemoryBarrier','DeviceMemoryBarrierWithGroupSync','distance',
'dot','dst','errorf','EvaluateAttributeAtCentroid',
'EvaluateAttributeAtSample','EvaluateAttributeSnapped','exp',
'exp2','f16tof32','f32tof16','faceforward','firstbithigh',
'firstbitlow','floor','fma','fmod','frac','frexp','fwidth',
'GetRenderTargetSampleCount','GetRenderTargetSamplePosition',
'GlobalOrderedCountIncrement','GroupMemoryBarrier',
'GroupMemoryBarrierWithGroupSync','InterlockedAdd','InterlockedAnd',
'InterlockedCompareExchange','InterlockedCompareStore',
'InterlockedExchange','InterlockedMax','InterlockedMin',
'InterlockedOr','InterlockedXor','isfinite','isinf','isnan',
'ldexp','length','lerp','lit','log','log10','log2','mad','max',
'min','modf','msad4','mul','noise','normalize','pow','printf',
'Process2DQuadTessFactorsAvg','Process2DQuadTessFactorsMax',
'Process2DQuadTessFactorsMin','ProcessIsolineTessFactors',
'ProcessQuadTessFactorsAvg','ProcessQuadTessFactorsMax',
'ProcessQuadTessFactorsMin','ProcessTriTessFactorsAvg',
'ProcessTriTessFactorsMax','ProcessTriTessFactorsMin',
'QuadReadLaneAt','QuadSwapX','QuadSwapY','radians','rcp',
'reflect','refract','reversebits','round','rsqrt','saturate',
'sign','sin','sincos','sinh','smoothstep','sqrt','step','tan',
'tanh','tex1D','tex1D','tex1Dbias','tex1Dgrad','tex1Dlod',
'tex1Dproj','tex2D','tex2D','tex2Dbias','tex2Dgrad','tex2Dlod',
'tex2Dproj','tex3D','tex3D','tex3Dbias','tex3Dgrad','tex3Dlod',
'tex3Dproj','texCUBE','texCUBE','texCUBEbias','texCUBEgrad',
'texCUBElod','texCUBEproj','transpose','trunc','WaveAllBitAnd',
'WaveAllMax','WaveAllMin','WaveAllBitOr','WaveAllBitXor',
'WaveAllEqual','WaveAllProduct','WaveAllSum','WaveAllTrue',
'WaveAnyTrue','WaveBallot','WaveGetLaneCount','WaveGetLaneIndex',
'WaveGetOrderedIndex','WaveIsHelperLane','WaveOnce',
'WavePrefixProduct','WavePrefixSum','WaveReadFirstLane',
'WaveReadLaneAt'),
prefix=r'\b', suffix=r'\b'),
Name.Builtin), # built-in functions
(words((
'SV_ClipDistance','SV_ClipDistance0','SV_ClipDistance1',
'SV_Culldistance','SV_CullDistance0','SV_CullDistance1',
'SV_Coverage','SV_Depth','SV_DepthGreaterEqual',
'SV_DepthLessEqual','SV_DispatchThreadID','SV_DomainLocation',
'SV_GroupID','SV_GroupIndex','SV_GroupThreadID','SV_GSInstanceID',
'SV_InnerCoverage','SV_InsideTessFactor','SV_InstanceID',
'SV_IsFrontFace','SV_OutputControlPointID','SV_Position',
'SV_PrimitiveID','SV_RenderTargetArrayIndex','SV_SampleIndex',
'SV_StencilRef','SV_TessFactor','SV_VertexID',
'SV_ViewportArrayIndex'),
prefix=r'\b', suffix=r'\b'),
Name.Decorator), # system-value semantics
(r'\bSV_Target[0-7]?\b', Name.Decorator),
(words((
'allow_uav_condition','branch','call','domain','earlydepthstencil',
'fastopt','flatten','forcecase','instance','loop','maxtessfactor',
'numthreads','outputcontrolpoints','outputtopology','partitioning',
'patchconstantfunc','unroll'),
prefix=r'\b', suffix=r'\b'),
Name.Decorator), # attributes
(r'[a-zA-Z_]\w*', Name),
(r'\\$', Comment.Preproc), # backslash at end of line -- usually macro continuation
(r'\s+', Whitespace),
],
'string': [
(r'"', String, '#pop'),
(r'\\([\\abfnrtv"\']|x[a-fA-F0-9]{2,4}|'
r'u[a-fA-F0-9]{4}|U[a-fA-F0-9]{8}|[0-7]{1,3})', String.Escape),
(r'[^\\"\n]+', String), # all other characters
(r'\\\n', String), # line continuation
(r'\\', String), # stray backslash
],
}
class PostScriptLexer(RegexLexer):
"""
Lexer for PostScript files.
The PostScript Language Reference published by Adobe at
<http://partners.adobe.com/public/developer/en/ps/PLRM.pdf>
is the authority for this.
.. versionadded:: 1.4
"""
name = 'PostScript'
aliases = ['postscript', 'postscr']
filenames = ['*.ps', '*.eps']
mimetypes = ['application/postscript']
delimiter = r'()<>\[\]{}/%\s'
delimiter_end = r'(?=[%s])' % delimiter
valid_name_chars = r'[^%s]' % delimiter
valid_name = r"%s+%s" % (valid_name_chars, delimiter_end)
tokens = {
'root': [
# All comment types
(r'^%!.+$', Comment.Preproc),
(r'%%.*$', Comment.Special),
(r'(^%.*\n){2,}', Comment.Multiline),
(r'%.*$', Comment.Single),
# String literals are awkward; enter separate state.
(r'\(', String, 'stringliteral'),
(r'[{}<>\[\]]', Punctuation),
# Numbers
(r'<[0-9A-Fa-f]+>' + delimiter_end, Number.Hex),
# Slight abuse: use Oct to signify any explicit base system
(r'[0-9]+\#(\-|\+)?([0-9]+\.?|[0-9]*\.[0-9]+|[0-9]+\.[0-9]*)'
r'((e|E)[0-9]+)?' + delimiter_end, Number.Oct),
(r'(\-|\+)?([0-9]+\.?|[0-9]*\.[0-9]+|[0-9]+\.[0-9]*)((e|E)[0-9]+)?'
+ delimiter_end, Number.Float),
(r'(\-|\+)?[0-9]+' + delimiter_end, Number.Integer),
# References
(r'\/%s' % valid_name, Name.Variable),
# Names
(valid_name, Name.Function), # Anything else is executed
# These keywords taken from
# <http://www.math.ubc.ca/~cass/graphics/manual/pdf/a1.pdf>
# Is there an authoritative list anywhere that doesn't involve
# trawling documentation?
(r'(false|true)' + delimiter_end, Keyword.Constant),
# Conditionals / flow control
(r'(eq|ne|g[et]|l[et]|and|or|not|if(?:else)?|for(?:all)?)'
+ delimiter_end, Keyword.Reserved),
(words((
'abs', 'add', 'aload', 'arc', 'arcn', 'array', 'atan', 'begin',
'bind', 'ceiling', 'charpath', 'clip', 'closepath', 'concat',
'concatmatrix', 'copy', 'cos', 'currentlinewidth', 'currentmatrix',
'currentpoint', 'curveto', 'cvi', 'cvs', 'def', 'defaultmatrix',
'dict', 'dictstackoverflow', 'div', 'dtransform', 'dup', 'end',
'exch', 'exec', 'exit', 'exp', 'fill', 'findfont', 'floor', 'get',
'getinterval', 'grestore', 'gsave', 'gt', 'identmatrix', 'idiv',
'idtransform', 'index', 'invertmatrix', 'itransform', 'length',
'lineto', 'ln', 'load', 'log', 'loop', 'matrix', 'mod', 'moveto',
'mul', 'neg', 'newpath', 'pathforall', 'pathbbox', 'pop', 'print',
'pstack', 'put', 'quit', 'rand', 'rangecheck', 'rcurveto', 'repeat',
'restore', 'rlineto', 'rmoveto', 'roll', 'rotate', 'round', 'run',
'save', 'scale', 'scalefont', 'setdash', 'setfont', 'setgray',
'setlinecap', 'setlinejoin', 'setlinewidth', 'setmatrix',
'setrgbcolor', 'shfill', 'show', 'showpage', 'sin', 'sqrt',
'stack', 'stringwidth', 'stroke', 'strokepath', 'sub', 'syntaxerror',
'transform', 'translate', 'truncate', 'typecheck', 'undefined',
'undefinedfilename', 'undefinedresult'), suffix=delimiter_end),
Name.Builtin),
(r'\s+', Whitespace),
],
'stringliteral': [
(r'[^()\\]+', String),
(r'\\', String.Escape, 'escape'),
(r'\(', String, '#push'),
(r'\)', String, '#pop'),
],
'escape': [
(r'[0-8]{3}|n|r|t|b|f|\\|\(|\)', String.Escape, '#pop'),
default('#pop'),
],
}
class AsymptoteLexer(RegexLexer):
"""
For `Asymptote <http://asymptote.sf.net/>`_ source code.
.. versionadded:: 1.2
"""
name = 'Asymptote'
aliases = ['asymptote', 'asy']
filenames = ['*.asy']
mimetypes = ['text/x-asymptote']
#: optional Comment or Whitespace
_ws = r'(?:\s|//.*?\n|/\*.*?\*/)+'
tokens = {
'whitespace': [
(r'\n', Whitespace),
(r'\s+', Whitespace),
(r'(\\)(\n)', bygroups(Text, Whitespace)), # line continuation
(r'//(\n|(.|\n)*?[^\\]\n)', Comment),
(r'/(\\\n)?\*(.|\n)*?\*(\\\n)?/', Comment),
],
'statements': [
# simple string (TeX friendly)
(r'"(\\\\|\\[^\\]|[^"\\])*"', String),
# C style string (with character escapes)
(r"'", String, 'string'),
(r'(\d+\.\d*|\.\d+|\d+)[eE][+-]?\d+[lL]?', Number.Float),
(r'(\d+\.\d*|\.\d+|\d+[fF])[fF]?', Number.Float),
(r'0x[0-9a-fA-F]+[Ll]?', Number.Hex),
(r'0[0-7]+[Ll]?', Number.Oct),
(r'\d+[Ll]?', Number.Integer),
(r'[~!%^&*+=|?:<>/-]', Operator),
(r'[()\[\],.]', Punctuation),
(r'\b(case)(.+?)(:)', bygroups(Keyword, using(this), Text)),
(r'(and|controls|tension|atleast|curl|if|else|while|for|do|'
r'return|break|continue|struct|typedef|new|access|import|'
r'unravel|from|include|quote|static|public|private|restricted|'
r'this|explicit|true|false|null|cycle|newframe|operator)\b', Keyword),
# Since an asy-type-name can be also an asy-function-name,
# in the following we test if the string " [a-zA-Z]" follows
# the Keyword.Type.
# Of course it is not perfect !
(r'(Braid|FitResult|Label|Legend|TreeNode|abscissa|arc|arrowhead|'
r'binarytree|binarytreeNode|block|bool|bool3|bounds|bqe|circle|'
r'conic|coord|coordsys|cputime|ellipse|file|filltype|frame|grid3|'
r'guide|horner|hsv|hyperbola|indexedTransform|int|inversion|key|'
r'light|line|linefit|marginT|marker|mass|object|pair|parabola|path|'
r'path3|pen|picture|point|position|projection|real|revolution|'
r'scaleT|scientific|segment|side|slice|splitface|string|surface|'
r'tensionSpecifier|ticklocate|ticksgridT|tickvalues|transform|'
r'transformation|tree|triangle|trilinear|triple|vector|'
r'vertex|void)(?=\s+[a-zA-Z])', Keyword.Type),
# Now the asy-type-name which are not asy-function-name
# except yours !
# Perhaps useless
(r'(Braid|FitResult|TreeNode|abscissa|arrowhead|block|bool|bool3|'
r'bounds|coord|frame|guide|horner|int|linefit|marginT|pair|pen|'
r'picture|position|real|revolution|slice|splitface|ticksgridT|'
r'tickvalues|tree|triple|vertex|void)\b', Keyword.Type),
(r'[a-zA-Z_]\w*:(?!:)', Name.Label),
(r'[a-zA-Z_]\w*', Name),
],
'root': [
include('whitespace'),
# functions
(r'((?:[\w*\s])+?(?:\s|\*))' # return arguments
r'([a-zA-Z_]\w*)' # method name
r'(\s*\([^;]*?\))' # signature
r'(' + _ws + r')(\{)',
bygroups(using(this), Name.Function, using(this), using(this),
Punctuation),
'function'),
# function declarations
(r'((?:[\w*\s])+?(?:\s|\*))' # return arguments
r'([a-zA-Z_]\w*)' # method name
r'(\s*\([^;]*?\))' # signature
r'(' + _ws + r')(;)',
bygroups(using(this), Name.Function, using(this), using(this),
Punctuation)),
default('statement'),
],
'statement': [
include('whitespace'),
include('statements'),
('[{}]', Punctuation),
(';', Punctuation, '#pop'),
],
'function': [
include('whitespace'),
include('statements'),
(';', Punctuation),
(r'\{', Punctuation, '#push'),
(r'\}', Punctuation, '#pop'),
],
'string': [
(r"'", String, '#pop'),
(r'\\([\\abfnrtv"\'?]|x[a-fA-F0-9]{2,4}|[0-7]{1,3})', String.Escape),
(r'\n', String),
(r"[^\\'\n]+", String), # all other characters
(r'\\\n', String),
(r'\\n', String), # line continuation
(r'\\', String), # stray backslash
],
}
def get_tokens_unprocessed(self, text):
from pygments.lexers._asy_builtins import ASYFUNCNAME, ASYVARNAME
for index, token, value in \
RegexLexer.get_tokens_unprocessed(self, text):
if token is Name and value in ASYFUNCNAME:
token = Name.Function
elif token is Name and value in ASYVARNAME:
token = Name.Variable
yield index, token, value
def _shortened(word):
dpos = word.find('$')
return '|'.join(word[:dpos] + word[dpos+1:i] + r'\b'
for i in range(len(word), dpos, -1))
def _shortened_many(*words):
return '|'.join(map(_shortened, words))
class GnuplotLexer(RegexLexer):
"""
For `Gnuplot <http://gnuplot.info/>`_ plotting scripts.
.. versionadded:: 0.11
"""
name = 'Gnuplot'
aliases = ['gnuplot']
filenames = ['*.plot', '*.plt']
mimetypes = ['text/x-gnuplot']
tokens = {
'root': [
include('whitespace'),
(_shortened('bi$nd'), Keyword, 'bind'),
(_shortened_many('ex$it', 'q$uit'), Keyword, 'quit'),
(_shortened('f$it'), Keyword, 'fit'),
(r'(if)(\s*)(\()', bygroups(Keyword, Text, Punctuation), 'if'),
(r'else\b', Keyword),
(_shortened('pa$use'), Keyword, 'pause'),
(_shortened_many('p$lot', 'rep$lot', 'sp$lot'), Keyword, 'plot'),
(_shortened('sa$ve'), Keyword, 'save'),
(_shortened('se$t'), Keyword, ('genericargs', 'optionarg')),
(_shortened_many('sh$ow', 'uns$et'),
Keyword, ('noargs', 'optionarg')),
(_shortened_many('low$er', 'ra$ise', 'ca$ll', 'cd$', 'cl$ear',
'h$elp', '\\?$', 'hi$story', 'l$oad', 'pr$int',
'pwd$', 're$read', 'res$et', 'scr$eendump',
'she$ll', 'sy$stem', 'up$date'),
Keyword, 'genericargs'),
(_shortened_many('pwd$', 're$read', 'res$et', 'scr$eendump',
'she$ll', 'test$'),
Keyword, 'noargs'),
(r'([a-zA-Z_]\w*)(\s*)(=)',
bygroups(Name.Variable, Whitespace, Operator), 'genericargs'),
(r'([a-zA-Z_]\w*)(\s*\(.*?\)\s*)(=)',
bygroups(Name.Function, Whitespace, Operator), 'genericargs'),
(r'@[a-zA-Z_]\w*', Name.Constant), # macros
(r';', Keyword),
],
'comment': [
(r'[^\\\n]', Comment),
(r'\\\n', Comment),
(r'\\', Comment),
# don't add the newline to the Comment token
default('#pop'),
],
'whitespace': [
('#', Comment, 'comment'),
(r'[ \t\v\f]+', Whitespace),
],
'noargs': [
include('whitespace'),
# semicolon and newline end the argument list
(r';', Punctuation, '#pop'),
(r'\n', Whitespace, '#pop'),
],
'dqstring': [
(r'"', String, '#pop'),
(r'\\([\\abfnrtv"\']|x[a-fA-F0-9]{2,4}|[0-7]{1,3})', String.Escape),
(r'[^\\"\n]+', String), # all other characters
(r'\\\n', String), # line continuation
(r'\\', String), # stray backslash
(r'\n', Whitespace, '#pop'), # newline ends the string too
],
'sqstring': [
(r"''", String), # escaped single quote
(r"'", String, '#pop'),
(r"[^\\'\n]+", String), # all other characters
(r'\\\n', String), # line continuation
(r'\\', String), # normal backslash
(r'\n', Whitespace, '#pop'), # newline ends the string too
],
'genericargs': [
include('noargs'),
(r'"', String, 'dqstring'),
(r"'", String, 'sqstring'),
(r'(\d+\.\d*|\.\d+|\d+)[eE][+-]?\d+', Number.Float),
(r'(\d+\.\d*|\.\d+)', Number.Float),
(r'-?\d+', Number.Integer),
('[,.~!%^&*+=|?:<>/-]', Operator),
(r'[{}()\[\]]', Punctuation),
(r'(eq|ne)\b', Operator.Word),
(r'([a-zA-Z_]\w*)(\s*)(\()',
bygroups(Name.Function, Text, Punctuation)),
(r'[a-zA-Z_]\w*', Name),
(r'@[a-zA-Z_]\w*', Name.Constant), # macros
(r'(\\)(\n)', bygroups(Text, Whitespace)),
],
'optionarg': [
include('whitespace'),
(_shortened_many(
"a$ll", "an$gles", "ar$row", "au$toscale", "b$ars", "bor$der",
"box$width", "cl$abel", "c$lip", "cn$trparam", "co$ntour", "da$ta",
"data$file", "dg$rid3d", "du$mmy", "enc$oding", "dec$imalsign",
"fit$", "font$path", "fo$rmat", "fu$nction", "fu$nctions", "g$rid",
"hid$den3d", "his$torysize", "is$osamples", "k$ey", "keyt$itle",
"la$bel", "li$nestyle", "ls$", "loa$dpath", "loc$ale", "log$scale",
"mac$ros", "map$ping", "map$ping3d", "mar$gin", "lmar$gin",
"rmar$gin", "tmar$gin", "bmar$gin", "mo$use", "multi$plot",
"mxt$ics", "nomxt$ics", "mx2t$ics", "nomx2t$ics", "myt$ics",
"nomyt$ics", "my2t$ics", "nomy2t$ics", "mzt$ics", "nomzt$ics",
"mcbt$ics", "nomcbt$ics", "of$fsets", "or$igin", "o$utput",
"pa$rametric", "pm$3d", "pal$ette", "colorb$ox", "p$lot",
"poi$ntsize", "pol$ar", "pr$int", "obj$ect", "sa$mples", "si$ze",
"st$yle", "su$rface", "table$", "t$erminal", "termo$ptions", "ti$cs",
"ticsc$ale", "ticsl$evel", "timef$mt", "tim$estamp", "tit$le",
"v$ariables", "ve$rsion", "vi$ew", "xyp$lane", "xda$ta", "x2da$ta",
"yda$ta", "y2da$ta", "zda$ta", "cbda$ta", "xl$abel", "x2l$abel",
"yl$abel", "y2l$abel", "zl$abel", "cbl$abel", "xti$cs", "noxti$cs",
"x2ti$cs", "nox2ti$cs", "yti$cs", "noyti$cs", "y2ti$cs", "noy2ti$cs",
"zti$cs", "nozti$cs", "cbti$cs", "nocbti$cs", "xdti$cs", "noxdti$cs",
"x2dti$cs", "nox2dti$cs", "ydti$cs", "noydti$cs", "y2dti$cs",
"noy2dti$cs", "zdti$cs", "nozdti$cs", "cbdti$cs", "nocbdti$cs",
"xmti$cs", "noxmti$cs", "x2mti$cs", "nox2mti$cs", "ymti$cs",
"noymti$cs", "y2mti$cs", "noy2mti$cs", "zmti$cs", "nozmti$cs",
"cbmti$cs", "nocbmti$cs", "xr$ange", "x2r$ange", "yr$ange",
"y2r$ange", "zr$ange", "cbr$ange", "rr$ange", "tr$ange", "ur$ange",
"vr$ange", "xzeroa$xis", "x2zeroa$xis", "yzeroa$xis", "y2zeroa$xis",
"zzeroa$xis", "zeroa$xis", "z$ero"), Name.Builtin, '#pop'),
],
'bind': [
('!', Keyword, '#pop'),
(_shortened('all$windows'), Name.Builtin),
include('genericargs'),
],
'quit': [
(r'gnuplot\b', Keyword),
include('noargs'),
],
'fit': [
(r'via\b', Name.Builtin),
include('plot'),
],
'if': [
(r'\)', Punctuation, '#pop'),
include('genericargs'),
],
'pause': [
(r'(mouse|any|button1|button2|button3)\b', Name.Builtin),
(_shortened('key$press'), Name.Builtin),
include('genericargs'),
],
'plot': [
(_shortened_many('ax$es', 'axi$s', 'bin$ary', 'ev$ery', 'i$ndex',
'mat$rix', 's$mooth', 'thru$', 't$itle',
'not$itle', 'u$sing', 'w$ith'),
Name.Builtin),
include('genericargs'),
],
'save': [
(_shortened_many('f$unctions', 's$et', 't$erminal', 'v$ariables'),
Name.Builtin),
include('genericargs'),
],
}
class PovrayLexer(RegexLexer):
"""
For `Persistence of Vision Raytracer <http://www.povray.org/>`_ files.
.. versionadded:: 0.11
"""
name = 'POVRay'
aliases = ['pov']
filenames = ['*.pov', '*.inc']
mimetypes = ['text/x-povray']
tokens = {
'root': [
(r'/\*[\w\W]*?\*/', Comment.Multiline),
(r'//.*$', Comment.Single),
(r'(?s)"(?:\\.|[^"\\])+"', String.Double),
(words((
'break', 'case', 'debug', 'declare', 'default', 'define', 'else',
'elseif', 'end', 'error', 'fclose', 'fopen', 'for', 'if', 'ifdef',
'ifndef', 'include', 'local', 'macro', 'range', 'read', 'render',
'statistics', 'switch', 'undef', 'version', 'warning', 'while',
'write'), prefix=r'#', suffix=r'\b'),
Comment.Preproc),
(words((
'aa_level', 'aa_threshold', 'abs', 'acos', 'acosh', 'adaptive', 'adc_bailout',
'agate', 'agate_turb', 'all', 'alpha', 'ambient', 'ambient_light', 'angle',
'aperture', 'arc_angle', 'area_light', 'asc', 'asin', 'asinh', 'assumed_gamma',
'atan', 'atan2', 'atanh', 'atmosphere', 'atmospheric_attenuation',
'attenuating', 'average', 'background', 'black_hole', 'blue', 'blur_samples',
'bounded_by', 'box_mapping', 'bozo', 'break', 'brick', 'brick_size',
'brightness', 'brilliance', 'bumps', 'bumpy1', 'bumpy2', 'bumpy3', 'bump_map',
'bump_size', 'case', 'caustics', 'ceil', 'checker', 'chr', 'clipped_by', 'clock',
'color', 'color_map', 'colour', 'colour_map', 'component', 'composite', 'concat',
'confidence', 'conic_sweep', 'constant', 'control0', 'control1', 'cos', 'cosh',
'count', 'crackle', 'crand', 'cube', 'cubic_spline', 'cylindrical_mapping',
'debug', 'declare', 'default', 'degrees', 'dents', 'diffuse', 'direction',
'distance', 'distance_maximum', 'div', 'dust', 'dust_type', 'eccentricity',
'else', 'emitting', 'end', 'error', 'error_bound', 'exp', 'exponent',
'fade_distance', 'fade_power', 'falloff', 'falloff_angle', 'false',
'file_exists', 'filter', 'finish', 'fisheye', 'flatness', 'flip', 'floor',
'focal_point', 'fog', 'fog_alt', 'fog_offset', 'fog_type', 'frequency', 'gif',
'global_settings', 'glowing', 'gradient', 'granite', 'gray_threshold',
'green', 'halo', 'hexagon', 'hf_gray_16', 'hierarchy', 'hollow', 'hypercomplex',
'if', 'ifdef', 'iff', 'image_map', 'incidence', 'include', 'int', 'interpolate',
'inverse', 'ior', 'irid', 'irid_wavelength', 'jitter', 'lambda', 'leopard',
'linear', 'linear_spline', 'linear_sweep', 'location', 'log', 'looks_like',
'look_at', 'low_error_factor', 'mandel', 'map_type', 'marble', 'material_map',
'matrix', 'max', 'max_intersections', 'max_iteration', 'max_trace_level',
'max_value', 'metallic', 'min', 'minimum_reuse', 'mod', 'mortar',
'nearest_count', 'no', 'normal', 'normal_map', 'no_shadow', 'number_of_waves',
'octaves', 'off', 'offset', 'omega', 'omnimax', 'on', 'once', 'onion', 'open',
'orthographic', 'panoramic', 'pattern1', 'pattern2', 'pattern3',
'perspective', 'pgm', 'phase', 'phong', 'phong_size', 'pi', 'pigment',
'pigment_map', 'planar_mapping', 'png', 'point_at', 'pot', 'pow', 'ppm',
'precision', 'pwr', 'quadratic_spline', 'quaternion', 'quick_color',
'quick_colour', 'quilted', 'radial', 'radians', 'radiosity', 'radius', 'rainbow',
'ramp_wave', 'rand', 'range', 'reciprocal', 'recursion_limit', 'red',
'reflection', 'refraction', 'render', 'repeat', 'rgb', 'rgbf', 'rgbft', 'rgbt',
'right', 'ripples', 'rotate', 'roughness', 'samples', 'scale', 'scallop_wave',
'scattering', 'seed', 'shadowless', 'sin', 'sine_wave', 'sinh', 'sky', 'sky_sphere',
'slice', 'slope_map', 'smooth', 'specular', 'spherical_mapping', 'spiral',
'spiral1', 'spiral2', 'spotlight', 'spotted', 'sqr', 'sqrt', 'statistics', 'str',
'strcmp', 'strength', 'strlen', 'strlwr', 'strupr', 'sturm', 'substr', 'switch', 'sys',
't', 'tan', 'tanh', 'test_camera_1', 'test_camera_2', 'test_camera_3',
'test_camera_4', 'texture', 'texture_map', 'tga', 'thickness', 'threshold',
'tightness', 'tile2', 'tiles', 'track', 'transform', 'translate', 'transmit',
'triangle_wave', 'true', 'ttf', 'turbulence', 'turb_depth', 'type',
'ultra_wide_angle', 'up', 'use_color', 'use_colour', 'use_index', 'u_steps',
'val', 'variance', 'vaxis_rotate', 'vcross', 'vdot', 'version', 'vlength',
'vnormalize', 'volume_object', 'volume_rendered', 'vol_with_light',
'vrotate', 'v_steps', 'warning', 'warp', 'water_level', 'waves', 'while', 'width',
'wood', 'wrinkles', 'yes'), prefix=r'\b', suffix=r'\b'),
Keyword),
(words((
'bicubic_patch', 'blob', 'box', 'camera', 'cone', 'cubic', 'cylinder', 'difference',
'disc', 'height_field', 'intersection', 'julia_fractal', 'lathe',
'light_source', 'merge', 'mesh', 'object', 'plane', 'poly', 'polygon', 'prism',
'quadric', 'quartic', 'smooth_triangle', 'sor', 'sphere', 'superellipsoid',
'text', 'torus', 'triangle', 'union'), suffix=r'\b'),
Name.Builtin),
# TODO: <=, etc
(r'[\[\](){}<>;,]', Punctuation),
(r'[-+*/=]', Operator),
(r'\b(x|y|z|u|v)\b', Name.Builtin.Pseudo),
(r'[a-zA-Z_]\w*', Name),
(r'[0-9]+\.[0-9]*', Number.Float),
(r'\.[0-9]+', Number.Float),
(r'[0-9]+', Number.Integer),
(r'"(\\\\|\\[^\\]|[^"\\])*"', String),
(r'\s+', Whitespace),
]
}
def analyse_text(text):
"""POVRAY is similar to JSON/C, but the combination of camera and
light_source is probably not very likely elsewhere. HLSL or GLSL
are similar (GLSL even has #version), but they miss #declare, and
light_source/camera are not keywords anywhere else -- it's fair
to assume though that any POVRAY scene must have a camera and
lightsource."""
result = 0
if '#version' in text:
result += 0.05
if '#declare' in text:
result += 0.05
if 'camera' in text:
result += 0.05
if 'light_source' in text:
result += 0.1
return result