zdray/thirdparty/ShaderCompiler/glslang/MachineIndependent/Scan.cpp
2021-10-28 23:26:53 +02:00

1784 lines
65 KiB
C++

//
// Copyright (C) 2002-2005 3Dlabs Inc. Ltd.
// Copyright (C) 2013 LunarG, Inc.
// Copyright (C) 2017 ARM Limited.
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
//
// Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
//
// Neither the name of 3Dlabs Inc. Ltd. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
// COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
// LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
// ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
//
// GLSL scanning, leveraging the scanning done by the preprocessor.
//
#include <cstring>
#include <unordered_map>
#include <unordered_set>
#include "../Include/Types.h"
#include "SymbolTable.h"
#include "ParseHelper.h"
#include "attribute.h"
#include "glslang_tab.cpp.h"
#include "ScanContext.h"
#include "Scan.h"
// preprocessor includes
#include "preprocessor/PpContext.h"
#include "preprocessor/PpTokens.h"
// Required to avoid missing prototype warnings for some compilers
int yylex(YYSTYPE*, glslang::TParseContext&);
namespace glslang {
// read past any white space
void TInputScanner::consumeWhiteSpace(bool& foundNonSpaceTab)
{
int c = peek(); // don't accidentally consume anything other than whitespace
while (c == ' ' || c == '\t' || c == '\r' || c == '\n') {
if (c == '\r' || c == '\n')
foundNonSpaceTab = true;
get();
c = peek();
}
}
// return true if a comment was actually consumed
bool TInputScanner::consumeComment()
{
if (peek() != '/')
return false;
get(); // consume the '/'
int c = peek();
if (c == '/') {
// a '//' style comment
get(); // consume the second '/'
c = get();
do {
while (c != EndOfInput && c != '\\' && c != '\r' && c != '\n')
c = get();
if (c == EndOfInput || c == '\r' || c == '\n') {
while (c == '\r' || c == '\n')
c = get();
// we reached the end of the comment
break;
} else {
// it's a '\', so we need to keep going, after skipping what's escaped
// read the skipped character
c = get();
// if it's a two-character newline, skip both characters
if (c == '\r' && peek() == '\n')
get();
c = get();
}
} while (true);
// put back the last non-comment character
if (c != EndOfInput)
unget();
return true;
} else if (c == '*') {
// a '/*' style comment
get(); // consume the '*'
c = get();
do {
while (c != EndOfInput && c != '*')
c = get();
if (c == '*') {
c = get();
if (c == '/')
break; // end of comment
// not end of comment
} else // end of input
break;
} while (true);
return true;
} else {
// it's not a comment, put the '/' back
unget();
return false;
}
}
// skip whitespace, then skip a comment, rinse, repeat
void TInputScanner::consumeWhitespaceComment(bool& foundNonSpaceTab)
{
do {
consumeWhiteSpace(foundNonSpaceTab);
// if not starting a comment now, then done
int c = peek();
if (c != '/' || c == EndOfInput)
return;
// skip potential comment
foundNonSpaceTab = true;
if (! consumeComment())
return;
} while (true);
}
// Returns true if there was non-white space (e.g., a comment, newline) before the #version
// or no #version was found; otherwise, returns false. There is no error case, it always
// succeeds, but will leave version == 0 if no #version was found.
//
// Sets notFirstToken based on whether tokens (beyond white space and comments)
// appeared before the #version.
//
// N.B. does not attempt to leave input in any particular known state. The assumption
// is that scanning will start anew, following the rules for the chosen version/profile,
// and with a corresponding parsing context.
//
bool TInputScanner::scanVersion(int& version, EProfile& profile, bool& notFirstToken)
{
// This function doesn't have to get all the semantics correct,
// just find the #version if there is a correct one present.
// The preprocessor will have the responsibility of getting all the semantics right.
bool versionNotFirst = false; // means not first WRT comments and white space, nothing more
notFirstToken = false; // means not first WRT to real tokens
version = 0; // means not found
profile = ENoProfile;
bool foundNonSpaceTab = false;
bool lookingInMiddle = false;
int c;
do {
if (lookingInMiddle) {
notFirstToken = true;
// make forward progress by finishing off the current line plus extra new lines
if (peek() == '\n' || peek() == '\r') {
while (peek() == '\n' || peek() == '\r')
get();
} else
do {
c = get();
} while (c != EndOfInput && c != '\n' && c != '\r');
while (peek() == '\n' || peek() == '\r')
get();
if (peek() == EndOfInput)
return true;
}
lookingInMiddle = true;
// Nominal start, skipping the desktop allowed comments and white space, but tracking if
// something else was found for ES:
consumeWhitespaceComment(foundNonSpaceTab);
if (foundNonSpaceTab)
versionNotFirst = true;
// "#"
if (get() != '#') {
versionNotFirst = true;
continue;
}
// whitespace
do {
c = get();
} while (c == ' ' || c == '\t');
// "version"
if ( c != 'v' ||
get() != 'e' ||
get() != 'r' ||
get() != 's' ||
get() != 'i' ||
get() != 'o' ||
get() != 'n') {
versionNotFirst = true;
continue;
}
// whitespace
do {
c = get();
} while (c == ' ' || c == '\t');
// version number
while (c >= '0' && c <= '9') {
version = 10 * version + (c - '0');
c = get();
}
if (version == 0) {
versionNotFirst = true;
continue;
}
// whitespace
while (c == ' ' || c == '\t')
c = get();
// profile
const int maxProfileLength = 13; // not including any 0
char profileString[maxProfileLength];
int profileLength;
for (profileLength = 0; profileLength < maxProfileLength; ++profileLength) {
if (c == EndOfInput || c == ' ' || c == '\t' || c == '\n' || c == '\r')
break;
profileString[profileLength] = (char)c;
c = get();
}
if (c != EndOfInput && c != ' ' && c != '\t' && c != '\n' && c != '\r') {
versionNotFirst = true;
continue;
}
if (profileLength == 2 && strncmp(profileString, "es", profileLength) == 0)
profile = EEsProfile;
else if (profileLength == 4 && strncmp(profileString, "core", profileLength) == 0)
profile = ECoreProfile;
else if (profileLength == 13 && strncmp(profileString, "compatibility", profileLength) == 0)
profile = ECompatibilityProfile;
return versionNotFirst;
} while (true);
}
// Fill this in when doing glslang-level scanning, to hand back to the parser.
class TParserToken {
public:
explicit TParserToken(YYSTYPE& b) : sType(b) { }
YYSTYPE& sType;
protected:
TParserToken(TParserToken&);
TParserToken& operator=(TParserToken&);
};
} // end namespace glslang
// This is the function the glslang parser (i.e., bison) calls to get its next token
int yylex(YYSTYPE* glslangTokenDesc, glslang::TParseContext& parseContext)
{
glslang::TParserToken token(*glslangTokenDesc);
return parseContext.getScanContext()->tokenize(parseContext.getPpContext(), token);
}
namespace {
struct str_eq
{
bool operator()(const char* lhs, const char* rhs) const
{
return strcmp(lhs, rhs) == 0;
}
};
struct str_hash
{
size_t operator()(const char* str) const
{
// djb2
unsigned long hash = 5381;
int c;
while ((c = *str++) != 0)
hash = ((hash << 5) + hash) + c;
return hash;
}
};
// A single global usable by all threads, by all versions, by all languages.
// After a single process-level initialization, this is read only and thread safe
std::unordered_map<const char*, int, str_hash, str_eq>* KeywordMap = nullptr;
std::unordered_set<const char*, str_hash, str_eq>* ReservedSet = nullptr;
};
namespace glslang {
void TScanContext::fillInKeywordMap()
{
if (KeywordMap != nullptr) {
// this is really an error, as this should called only once per process
// but, the only risk is if two threads called simultaneously
return;
}
KeywordMap = new std::unordered_map<const char*, int, str_hash, str_eq>;
(*KeywordMap)["const"] = CONST;
(*KeywordMap)["uniform"] = UNIFORM;
(*KeywordMap)["nonuniformEXT"] = NONUNIFORM;
(*KeywordMap)["in"] = IN;
(*KeywordMap)["out"] = OUT;
(*KeywordMap)["inout"] = INOUT;
(*KeywordMap)["struct"] = STRUCT;
(*KeywordMap)["break"] = BREAK;
(*KeywordMap)["continue"] = CONTINUE;
(*KeywordMap)["do"] = DO;
(*KeywordMap)["for"] = FOR;
(*KeywordMap)["while"] = WHILE;
(*KeywordMap)["switch"] = SWITCH;
(*KeywordMap)["case"] = CASE;
(*KeywordMap)["default"] = DEFAULT;
(*KeywordMap)["if"] = IF;
(*KeywordMap)["else"] = ELSE;
(*KeywordMap)["discard"] = DISCARD;
(*KeywordMap)["return"] = RETURN;
(*KeywordMap)["void"] = VOID;
(*KeywordMap)["bool"] = BOOL;
(*KeywordMap)["float"] = FLOAT;
(*KeywordMap)["int"] = INT;
(*KeywordMap)["bvec2"] = BVEC2;
(*KeywordMap)["bvec3"] = BVEC3;
(*KeywordMap)["bvec4"] = BVEC4;
(*KeywordMap)["vec2"] = VEC2;
(*KeywordMap)["vec3"] = VEC3;
(*KeywordMap)["vec4"] = VEC4;
(*KeywordMap)["ivec2"] = IVEC2;
(*KeywordMap)["ivec3"] = IVEC3;
(*KeywordMap)["ivec4"] = IVEC4;
(*KeywordMap)["mat2"] = MAT2;
(*KeywordMap)["mat3"] = MAT3;
(*KeywordMap)["mat4"] = MAT4;
(*KeywordMap)["true"] = BOOLCONSTANT;
(*KeywordMap)["false"] = BOOLCONSTANT;
(*KeywordMap)["attribute"] = ATTRIBUTE;
(*KeywordMap)["varying"] = VARYING;
(*KeywordMap)["buffer"] = BUFFER;
(*KeywordMap)["coherent"] = COHERENT;
(*KeywordMap)["devicecoherent"] = DEVICECOHERENT;
(*KeywordMap)["queuefamilycoherent"] = QUEUEFAMILYCOHERENT;
(*KeywordMap)["workgroupcoherent"] = WORKGROUPCOHERENT;
(*KeywordMap)["subgroupcoherent"] = SUBGROUPCOHERENT;
(*KeywordMap)["nonprivate"] = NONPRIVATE;
(*KeywordMap)["restrict"] = RESTRICT;
(*KeywordMap)["readonly"] = READONLY;
(*KeywordMap)["writeonly"] = WRITEONLY;
(*KeywordMap)["atomic_uint"] = ATOMIC_UINT;
(*KeywordMap)["volatile"] = VOLATILE;
(*KeywordMap)["layout"] = LAYOUT;
(*KeywordMap)["shared"] = SHARED;
(*KeywordMap)["patch"] = PATCH;
(*KeywordMap)["sample"] = SAMPLE;
(*KeywordMap)["subroutine"] = SUBROUTINE;
(*KeywordMap)["highp"] = HIGH_PRECISION;
(*KeywordMap)["mediump"] = MEDIUM_PRECISION;
(*KeywordMap)["lowp"] = LOW_PRECISION;
(*KeywordMap)["precision"] = PRECISION;
(*KeywordMap)["mat2x2"] = MAT2X2;
(*KeywordMap)["mat2x3"] = MAT2X3;
(*KeywordMap)["mat2x4"] = MAT2X4;
(*KeywordMap)["mat3x2"] = MAT3X2;
(*KeywordMap)["mat3x3"] = MAT3X3;
(*KeywordMap)["mat3x4"] = MAT3X4;
(*KeywordMap)["mat4x2"] = MAT4X2;
(*KeywordMap)["mat4x3"] = MAT4X3;
(*KeywordMap)["mat4x4"] = MAT4X4;
(*KeywordMap)["dmat2"] = DMAT2;
(*KeywordMap)["dmat3"] = DMAT3;
(*KeywordMap)["dmat4"] = DMAT4;
(*KeywordMap)["dmat2x2"] = DMAT2X2;
(*KeywordMap)["dmat2x3"] = DMAT2X3;
(*KeywordMap)["dmat2x4"] = DMAT2X4;
(*KeywordMap)["dmat3x2"] = DMAT3X2;
(*KeywordMap)["dmat3x3"] = DMAT3X3;
(*KeywordMap)["dmat3x4"] = DMAT3X4;
(*KeywordMap)["dmat4x2"] = DMAT4X2;
(*KeywordMap)["dmat4x3"] = DMAT4X3;
(*KeywordMap)["dmat4x4"] = DMAT4X4;
(*KeywordMap)["image1D"] = IMAGE1D;
(*KeywordMap)["iimage1D"] = IIMAGE1D;
(*KeywordMap)["uimage1D"] = UIMAGE1D;
(*KeywordMap)["image2D"] = IMAGE2D;
(*KeywordMap)["iimage2D"] = IIMAGE2D;
(*KeywordMap)["uimage2D"] = UIMAGE2D;
(*KeywordMap)["image3D"] = IMAGE3D;
(*KeywordMap)["iimage3D"] = IIMAGE3D;
(*KeywordMap)["uimage3D"] = UIMAGE3D;
(*KeywordMap)["image2DRect"] = IMAGE2DRECT;
(*KeywordMap)["iimage2DRect"] = IIMAGE2DRECT;
(*KeywordMap)["uimage2DRect"] = UIMAGE2DRECT;
(*KeywordMap)["imageCube"] = IMAGECUBE;
(*KeywordMap)["iimageCube"] = IIMAGECUBE;
(*KeywordMap)["uimageCube"] = UIMAGECUBE;
(*KeywordMap)["imageBuffer"] = IMAGEBUFFER;
(*KeywordMap)["iimageBuffer"] = IIMAGEBUFFER;
(*KeywordMap)["uimageBuffer"] = UIMAGEBUFFER;
(*KeywordMap)["image1DArray"] = IMAGE1DARRAY;
(*KeywordMap)["iimage1DArray"] = IIMAGE1DARRAY;
(*KeywordMap)["uimage1DArray"] = UIMAGE1DARRAY;
(*KeywordMap)["image2DArray"] = IMAGE2DARRAY;
(*KeywordMap)["iimage2DArray"] = IIMAGE2DARRAY;
(*KeywordMap)["uimage2DArray"] = UIMAGE2DARRAY;
(*KeywordMap)["imageCubeArray"] = IMAGECUBEARRAY;
(*KeywordMap)["iimageCubeArray"] = IIMAGECUBEARRAY;
(*KeywordMap)["uimageCubeArray"] = UIMAGECUBEARRAY;
(*KeywordMap)["image2DMS"] = IMAGE2DMS;
(*KeywordMap)["iimage2DMS"] = IIMAGE2DMS;
(*KeywordMap)["uimage2DMS"] = UIMAGE2DMS;
(*KeywordMap)["image2DMSArray"] = IMAGE2DMSARRAY;
(*KeywordMap)["iimage2DMSArray"] = IIMAGE2DMSARRAY;
(*KeywordMap)["uimage2DMSArray"] = UIMAGE2DMSARRAY;
(*KeywordMap)["double"] = DOUBLE;
(*KeywordMap)["dvec2"] = DVEC2;
(*KeywordMap)["dvec3"] = DVEC3;
(*KeywordMap)["dvec4"] = DVEC4;
(*KeywordMap)["uint"] = UINT;
(*KeywordMap)["uvec2"] = UVEC2;
(*KeywordMap)["uvec3"] = UVEC3;
(*KeywordMap)["uvec4"] = UVEC4;
(*KeywordMap)["int64_t"] = INT64_T;
(*KeywordMap)["uint64_t"] = UINT64_T;
(*KeywordMap)["i64vec2"] = I64VEC2;
(*KeywordMap)["i64vec3"] = I64VEC3;
(*KeywordMap)["i64vec4"] = I64VEC4;
(*KeywordMap)["u64vec2"] = U64VEC2;
(*KeywordMap)["u64vec3"] = U64VEC3;
(*KeywordMap)["u64vec4"] = U64VEC4;
// GL_EXT_shader_explicit_arithmetic_types
(*KeywordMap)["int8_t"] = INT8_T;
(*KeywordMap)["i8vec2"] = I8VEC2;
(*KeywordMap)["i8vec3"] = I8VEC3;
(*KeywordMap)["i8vec4"] = I8VEC4;
(*KeywordMap)["uint8_t"] = UINT8_T;
(*KeywordMap)["u8vec2"] = U8VEC2;
(*KeywordMap)["u8vec3"] = U8VEC3;
(*KeywordMap)["u8vec4"] = U8VEC4;
(*KeywordMap)["int16_t"] = INT16_T;
(*KeywordMap)["i16vec2"] = I16VEC2;
(*KeywordMap)["i16vec3"] = I16VEC3;
(*KeywordMap)["i16vec4"] = I16VEC4;
(*KeywordMap)["uint16_t"] = UINT16_T;
(*KeywordMap)["u16vec2"] = U16VEC2;
(*KeywordMap)["u16vec3"] = U16VEC3;
(*KeywordMap)["u16vec4"] = U16VEC4;
(*KeywordMap)["int32_t"] = INT32_T;
(*KeywordMap)["i32vec2"] = I32VEC2;
(*KeywordMap)["i32vec3"] = I32VEC3;
(*KeywordMap)["i32vec4"] = I32VEC4;
(*KeywordMap)["uint32_t"] = UINT32_T;
(*KeywordMap)["u32vec2"] = U32VEC2;
(*KeywordMap)["u32vec3"] = U32VEC3;
(*KeywordMap)["u32vec4"] = U32VEC4;
(*KeywordMap)["float16_t"] = FLOAT16_T;
(*KeywordMap)["f16vec2"] = F16VEC2;
(*KeywordMap)["f16vec3"] = F16VEC3;
(*KeywordMap)["f16vec4"] = F16VEC4;
(*KeywordMap)["f16mat2"] = F16MAT2;
(*KeywordMap)["f16mat3"] = F16MAT3;
(*KeywordMap)["f16mat4"] = F16MAT4;
(*KeywordMap)["f16mat2x2"] = F16MAT2X2;
(*KeywordMap)["f16mat2x3"] = F16MAT2X3;
(*KeywordMap)["f16mat2x4"] = F16MAT2X4;
(*KeywordMap)["f16mat3x2"] = F16MAT3X2;
(*KeywordMap)["f16mat3x3"] = F16MAT3X3;
(*KeywordMap)["f16mat3x4"] = F16MAT3X4;
(*KeywordMap)["f16mat4x2"] = F16MAT4X2;
(*KeywordMap)["f16mat4x3"] = F16MAT4X3;
(*KeywordMap)["f16mat4x4"] = F16MAT4X4;
(*KeywordMap)["float32_t"] = FLOAT32_T;
(*KeywordMap)["f32vec2"] = F32VEC2;
(*KeywordMap)["f32vec3"] = F32VEC3;
(*KeywordMap)["f32vec4"] = F32VEC4;
(*KeywordMap)["f32mat2"] = F32MAT2;
(*KeywordMap)["f32mat3"] = F32MAT3;
(*KeywordMap)["f32mat4"] = F32MAT4;
(*KeywordMap)["f32mat2x2"] = F32MAT2X2;
(*KeywordMap)["f32mat2x3"] = F32MAT2X3;
(*KeywordMap)["f32mat2x4"] = F32MAT2X4;
(*KeywordMap)["f32mat3x2"] = F32MAT3X2;
(*KeywordMap)["f32mat3x3"] = F32MAT3X3;
(*KeywordMap)["f32mat3x4"] = F32MAT3X4;
(*KeywordMap)["f32mat4x2"] = F32MAT4X2;
(*KeywordMap)["f32mat4x3"] = F32MAT4X3;
(*KeywordMap)["f32mat4x4"] = F32MAT4X4;
(*KeywordMap)["float64_t"] = FLOAT64_T;
(*KeywordMap)["f64vec2"] = F64VEC2;
(*KeywordMap)["f64vec3"] = F64VEC3;
(*KeywordMap)["f64vec4"] = F64VEC4;
(*KeywordMap)["f64mat2"] = F64MAT2;
(*KeywordMap)["f64mat3"] = F64MAT3;
(*KeywordMap)["f64mat4"] = F64MAT4;
(*KeywordMap)["f64mat2x2"] = F64MAT2X2;
(*KeywordMap)["f64mat2x3"] = F64MAT2X3;
(*KeywordMap)["f64mat2x4"] = F64MAT2X4;
(*KeywordMap)["f64mat3x2"] = F64MAT3X2;
(*KeywordMap)["f64mat3x3"] = F64MAT3X3;
(*KeywordMap)["f64mat3x4"] = F64MAT3X4;
(*KeywordMap)["f64mat4x2"] = F64MAT4X2;
(*KeywordMap)["f64mat4x3"] = F64MAT4X3;
(*KeywordMap)["f64mat4x4"] = F64MAT4X4;
(*KeywordMap)["sampler2D"] = SAMPLER2D;
(*KeywordMap)["samplerCube"] = SAMPLERCUBE;
(*KeywordMap)["samplerCubeArray"] = SAMPLERCUBEARRAY;
(*KeywordMap)["samplerCubeArrayShadow"] = SAMPLERCUBEARRAYSHADOW;
(*KeywordMap)["isamplerCubeArray"] = ISAMPLERCUBEARRAY;
(*KeywordMap)["usamplerCubeArray"] = USAMPLERCUBEARRAY;
(*KeywordMap)["sampler1DArrayShadow"] = SAMPLER1DARRAYSHADOW;
(*KeywordMap)["isampler1DArray"] = ISAMPLER1DARRAY;
(*KeywordMap)["usampler1D"] = USAMPLER1D;
(*KeywordMap)["isampler1D"] = ISAMPLER1D;
(*KeywordMap)["usampler1DArray"] = USAMPLER1DARRAY;
(*KeywordMap)["samplerBuffer"] = SAMPLERBUFFER;
(*KeywordMap)["samplerCubeShadow"] = SAMPLERCUBESHADOW;
(*KeywordMap)["sampler2DArray"] = SAMPLER2DARRAY;
(*KeywordMap)["sampler2DArrayShadow"] = SAMPLER2DARRAYSHADOW;
(*KeywordMap)["isampler2D"] = ISAMPLER2D;
(*KeywordMap)["isampler3D"] = ISAMPLER3D;
(*KeywordMap)["isamplerCube"] = ISAMPLERCUBE;
(*KeywordMap)["isampler2DArray"] = ISAMPLER2DARRAY;
(*KeywordMap)["usampler2D"] = USAMPLER2D;
(*KeywordMap)["usampler3D"] = USAMPLER3D;
(*KeywordMap)["usamplerCube"] = USAMPLERCUBE;
(*KeywordMap)["usampler2DArray"] = USAMPLER2DARRAY;
(*KeywordMap)["isampler2DRect"] = ISAMPLER2DRECT;
(*KeywordMap)["usampler2DRect"] = USAMPLER2DRECT;
(*KeywordMap)["isamplerBuffer"] = ISAMPLERBUFFER;
(*KeywordMap)["usamplerBuffer"] = USAMPLERBUFFER;
(*KeywordMap)["sampler2DMS"] = SAMPLER2DMS;
(*KeywordMap)["isampler2DMS"] = ISAMPLER2DMS;
(*KeywordMap)["usampler2DMS"] = USAMPLER2DMS;
(*KeywordMap)["sampler2DMSArray"] = SAMPLER2DMSARRAY;
(*KeywordMap)["isampler2DMSArray"] = ISAMPLER2DMSARRAY;
(*KeywordMap)["usampler2DMSArray"] = USAMPLER2DMSARRAY;
(*KeywordMap)["sampler1D"] = SAMPLER1D;
(*KeywordMap)["sampler1DShadow"] = SAMPLER1DSHADOW;
(*KeywordMap)["sampler3D"] = SAMPLER3D;
(*KeywordMap)["sampler2DShadow"] = SAMPLER2DSHADOW;
(*KeywordMap)["sampler2DRect"] = SAMPLER2DRECT;
(*KeywordMap)["sampler2DRectShadow"] = SAMPLER2DRECTSHADOW;
(*KeywordMap)["sampler1DArray"] = SAMPLER1DARRAY;
(*KeywordMap)["samplerExternalOES"] = SAMPLEREXTERNALOES; // GL_OES_EGL_image_external
(*KeywordMap)["__samplerExternal2DY2YEXT"] = SAMPLEREXTERNAL2DY2YEXT; // GL_EXT_YUV_target
(*KeywordMap)["sampler"] = SAMPLER;
(*KeywordMap)["samplerShadow"] = SAMPLERSHADOW;
(*KeywordMap)["texture2D"] = TEXTURE2D;
(*KeywordMap)["textureCube"] = TEXTURECUBE;
(*KeywordMap)["textureCubeArray"] = TEXTURECUBEARRAY;
(*KeywordMap)["itextureCubeArray"] = ITEXTURECUBEARRAY;
(*KeywordMap)["utextureCubeArray"] = UTEXTURECUBEARRAY;
(*KeywordMap)["itexture1DArray"] = ITEXTURE1DARRAY;
(*KeywordMap)["utexture1D"] = UTEXTURE1D;
(*KeywordMap)["itexture1D"] = ITEXTURE1D;
(*KeywordMap)["utexture1DArray"] = UTEXTURE1DARRAY;
(*KeywordMap)["textureBuffer"] = TEXTUREBUFFER;
(*KeywordMap)["texture2DArray"] = TEXTURE2DARRAY;
(*KeywordMap)["itexture2D"] = ITEXTURE2D;
(*KeywordMap)["itexture3D"] = ITEXTURE3D;
(*KeywordMap)["itextureCube"] = ITEXTURECUBE;
(*KeywordMap)["itexture2DArray"] = ITEXTURE2DARRAY;
(*KeywordMap)["utexture2D"] = UTEXTURE2D;
(*KeywordMap)["utexture3D"] = UTEXTURE3D;
(*KeywordMap)["utextureCube"] = UTEXTURECUBE;
(*KeywordMap)["utexture2DArray"] = UTEXTURE2DARRAY;
(*KeywordMap)["itexture2DRect"] = ITEXTURE2DRECT;
(*KeywordMap)["utexture2DRect"] = UTEXTURE2DRECT;
(*KeywordMap)["itextureBuffer"] = ITEXTUREBUFFER;
(*KeywordMap)["utextureBuffer"] = UTEXTUREBUFFER;
(*KeywordMap)["texture2DMS"] = TEXTURE2DMS;
(*KeywordMap)["itexture2DMS"] = ITEXTURE2DMS;
(*KeywordMap)["utexture2DMS"] = UTEXTURE2DMS;
(*KeywordMap)["texture2DMSArray"] = TEXTURE2DMSARRAY;
(*KeywordMap)["itexture2DMSArray"] = ITEXTURE2DMSARRAY;
(*KeywordMap)["utexture2DMSArray"] = UTEXTURE2DMSARRAY;
(*KeywordMap)["texture1D"] = TEXTURE1D;
(*KeywordMap)["texture3D"] = TEXTURE3D;
(*KeywordMap)["texture2DRect"] = TEXTURE2DRECT;
(*KeywordMap)["texture1DArray"] = TEXTURE1DARRAY;
(*KeywordMap)["subpassInput"] = SUBPASSINPUT;
(*KeywordMap)["subpassInputMS"] = SUBPASSINPUTMS;
(*KeywordMap)["isubpassInput"] = ISUBPASSINPUT;
(*KeywordMap)["isubpassInputMS"] = ISUBPASSINPUTMS;
(*KeywordMap)["usubpassInput"] = USUBPASSINPUT;
(*KeywordMap)["usubpassInputMS"] = USUBPASSINPUTMS;
#ifdef AMD_EXTENSIONS
(*KeywordMap)["f16sampler1D"] = F16SAMPLER1D;
(*KeywordMap)["f16sampler2D"] = F16SAMPLER2D;
(*KeywordMap)["f16sampler3D"] = F16SAMPLER3D;
(*KeywordMap)["f16sampler2DRect"] = F16SAMPLER2DRECT;
(*KeywordMap)["f16samplerCube"] = F16SAMPLERCUBE;
(*KeywordMap)["f16sampler1DArray"] = F16SAMPLER1DARRAY;
(*KeywordMap)["f16sampler2DArray"] = F16SAMPLER2DARRAY;
(*KeywordMap)["f16samplerCubeArray"] = F16SAMPLERCUBEARRAY;
(*KeywordMap)["f16samplerBuffer"] = F16SAMPLERBUFFER;
(*KeywordMap)["f16sampler2DMS"] = F16SAMPLER2DMS;
(*KeywordMap)["f16sampler2DMSArray"] = F16SAMPLER2DMSARRAY;
(*KeywordMap)["f16sampler1DShadow"] = F16SAMPLER1DSHADOW;
(*KeywordMap)["f16sampler2DShadow"] = F16SAMPLER2DSHADOW;
(*KeywordMap)["f16sampler2DRectShadow"] = F16SAMPLER2DRECTSHADOW;
(*KeywordMap)["f16samplerCubeShadow"] = F16SAMPLERCUBESHADOW;
(*KeywordMap)["f16sampler1DArrayShadow"] = F16SAMPLER1DARRAYSHADOW;
(*KeywordMap)["f16sampler2DArrayShadow"] = F16SAMPLER2DARRAYSHADOW;
(*KeywordMap)["f16samplerCubeArrayShadow"] = F16SAMPLERCUBEARRAYSHADOW;
(*KeywordMap)["f16image1D"] = F16IMAGE1D;
(*KeywordMap)["f16image2D"] = F16IMAGE2D;
(*KeywordMap)["f16image3D"] = F16IMAGE3D;
(*KeywordMap)["f16image2DRect"] = F16IMAGE2DRECT;
(*KeywordMap)["f16imageCube"] = F16IMAGECUBE;
(*KeywordMap)["f16image1DArray"] = F16IMAGE1DARRAY;
(*KeywordMap)["f16image2DArray"] = F16IMAGE2DARRAY;
(*KeywordMap)["f16imageCubeArray"] = F16IMAGECUBEARRAY;
(*KeywordMap)["f16imageBuffer"] = F16IMAGEBUFFER;
(*KeywordMap)["f16image2DMS"] = F16IMAGE2DMS;
(*KeywordMap)["f16image2DMSArray"] = F16IMAGE2DMSARRAY;
(*KeywordMap)["f16texture1D"] = F16TEXTURE1D;
(*KeywordMap)["f16texture2D"] = F16TEXTURE2D;
(*KeywordMap)["f16texture3D"] = F16TEXTURE3D;
(*KeywordMap)["f16texture2DRect"] = F16TEXTURE2DRECT;
(*KeywordMap)["f16textureCube"] = F16TEXTURECUBE;
(*KeywordMap)["f16texture1DArray"] = F16TEXTURE1DARRAY;
(*KeywordMap)["f16texture2DArray"] = F16TEXTURE2DARRAY;
(*KeywordMap)["f16textureCubeArray"] = F16TEXTURECUBEARRAY;
(*KeywordMap)["f16textureBuffer"] = F16TEXTUREBUFFER;
(*KeywordMap)["f16texture2DMS"] = F16TEXTURE2DMS;
(*KeywordMap)["f16texture2DMSArray"] = F16TEXTURE2DMSARRAY;
(*KeywordMap)["f16subpassInput"] = F16SUBPASSINPUT;
(*KeywordMap)["f16subpassInputMS"] = F16SUBPASSINPUTMS;
#endif
(*KeywordMap)["noperspective"] = NOPERSPECTIVE;
(*KeywordMap)["smooth"] = SMOOTH;
(*KeywordMap)["flat"] = FLAT;
#ifdef AMD_EXTENSIONS
(*KeywordMap)["__explicitInterpAMD"] = EXPLICITINTERPAMD;
#endif
(*KeywordMap)["centroid"] = CENTROID;
#ifdef NV_EXTENSIONS
(*KeywordMap)["pervertexNV"] = PERVERTEXNV;
#endif
(*KeywordMap)["precise"] = PRECISE;
(*KeywordMap)["invariant"] = INVARIANT;
(*KeywordMap)["packed"] = PACKED;
(*KeywordMap)["resource"] = RESOURCE;
(*KeywordMap)["superp"] = SUPERP;
#ifdef NV_EXTENSIONS
(*KeywordMap)["rayPayloadNV"] = PAYLOADNV;
(*KeywordMap)["rayPayloadInNV"] = PAYLOADINNV;
(*KeywordMap)["hitAttributeNV"] = HITATTRNV;
(*KeywordMap)["callableDataNV"] = CALLDATANV;
(*KeywordMap)["callableDataInNV"] = CALLDATAINNV;
(*KeywordMap)["accelerationStructureNV"] = ACCSTRUCTNV;
(*KeywordMap)["perprimitiveNV"] = PERPRIMITIVENV;
(*KeywordMap)["perviewNV"] = PERVIEWNV;
(*KeywordMap)["taskNV"] = PERTASKNV;
#endif
ReservedSet = new std::unordered_set<const char*, str_hash, str_eq>;
ReservedSet->insert("common");
ReservedSet->insert("partition");
ReservedSet->insert("active");
ReservedSet->insert("asm");
ReservedSet->insert("class");
ReservedSet->insert("union");
ReservedSet->insert("enum");
ReservedSet->insert("typedef");
ReservedSet->insert("template");
ReservedSet->insert("this");
ReservedSet->insert("goto");
ReservedSet->insert("inline");
ReservedSet->insert("noinline");
ReservedSet->insert("public");
ReservedSet->insert("static");
ReservedSet->insert("extern");
ReservedSet->insert("external");
ReservedSet->insert("interface");
ReservedSet->insert("long");
ReservedSet->insert("short");
ReservedSet->insert("half");
ReservedSet->insert("fixed");
ReservedSet->insert("unsigned");
ReservedSet->insert("input");
ReservedSet->insert("output");
ReservedSet->insert("hvec2");
ReservedSet->insert("hvec3");
ReservedSet->insert("hvec4");
ReservedSet->insert("fvec2");
ReservedSet->insert("fvec3");
ReservedSet->insert("fvec4");
ReservedSet->insert("sampler3DRect");
ReservedSet->insert("filter");
ReservedSet->insert("sizeof");
ReservedSet->insert("cast");
ReservedSet->insert("namespace");
ReservedSet->insert("using");
}
void TScanContext::deleteKeywordMap()
{
delete KeywordMap;
KeywordMap = nullptr;
delete ReservedSet;
ReservedSet = nullptr;
}
// Called by yylex to get the next token.
// Returning 0 implies end of input.
int TScanContext::tokenize(TPpContext* pp, TParserToken& token)
{
do {
parserToken = &token;
TPpToken ppToken;
int token = pp->tokenize(ppToken);
if (token == EndOfInput)
return 0;
tokenText = ppToken.name;
loc = ppToken.loc;
parserToken->sType.lex.loc = loc;
switch (token) {
case ';': afterType = false; afterBuffer = false; return SEMICOLON;
case ',': afterType = false; return COMMA;
case ':': return COLON;
case '=': afterType = false; return EQUAL;
case '(': afterType = false; return LEFT_PAREN;
case ')': afterType = false; return RIGHT_PAREN;
case '.': field = true; return DOT;
case '!': return BANG;
case '-': return DASH;
case '~': return TILDE;
case '+': return PLUS;
case '*': return STAR;
case '/': return SLASH;
case '%': return PERCENT;
case '<': return LEFT_ANGLE;
case '>': return RIGHT_ANGLE;
case '|': return VERTICAL_BAR;
case '^': return CARET;
case '&': return AMPERSAND;
case '?': return QUESTION;
case '[': return LEFT_BRACKET;
case ']': return RIGHT_BRACKET;
case '{': afterStruct = false; afterBuffer = false; return LEFT_BRACE;
case '}': return RIGHT_BRACE;
case '\\':
parseContext.error(loc, "illegal use of escape character", "\\", "");
break;
case PPAtomAddAssign: return ADD_ASSIGN;
case PPAtomSubAssign: return SUB_ASSIGN;
case PPAtomMulAssign: return MUL_ASSIGN;
case PPAtomDivAssign: return DIV_ASSIGN;
case PPAtomModAssign: return MOD_ASSIGN;
case PpAtomRight: return RIGHT_OP;
case PpAtomLeft: return LEFT_OP;
case PpAtomRightAssign: return RIGHT_ASSIGN;
case PpAtomLeftAssign: return LEFT_ASSIGN;
case PpAtomAndAssign: return AND_ASSIGN;
case PpAtomOrAssign: return OR_ASSIGN;
case PpAtomXorAssign: return XOR_ASSIGN;
case PpAtomAnd: return AND_OP;
case PpAtomOr: return OR_OP;
case PpAtomXor: return XOR_OP;
case PpAtomEQ: return EQ_OP;
case PpAtomGE: return GE_OP;
case PpAtomNE: return NE_OP;
case PpAtomLE: return LE_OP;
case PpAtomDecrement: return DEC_OP;
case PpAtomIncrement: return INC_OP;
case PpAtomColonColon:
parseContext.error(loc, "not supported", "::", "");
break;
case PpAtomConstInt: parserToken->sType.lex.i = ppToken.ival; return INTCONSTANT;
case PpAtomConstUint: parserToken->sType.lex.i = ppToken.ival; return UINTCONSTANT;
case PpAtomConstInt16: parserToken->sType.lex.i = ppToken.ival; return INT16CONSTANT;
case PpAtomConstUint16: parserToken->sType.lex.i = ppToken.ival; return UINT16CONSTANT;
case PpAtomConstInt64: parserToken->sType.lex.i64 = ppToken.i64val; return INT64CONSTANT;
case PpAtomConstUint64: parserToken->sType.lex.i64 = ppToken.i64val; return UINT64CONSTANT;
case PpAtomConstFloat: parserToken->sType.lex.d = ppToken.dval; return FLOATCONSTANT;
case PpAtomConstDouble: parserToken->sType.lex.d = ppToken.dval; return DOUBLECONSTANT;
case PpAtomConstFloat16: parserToken->sType.lex.d = ppToken.dval; return FLOAT16CONSTANT;
case PpAtomIdentifier:
{
int token = tokenizeIdentifier();
field = false;
return token;
}
case EndOfInput: return 0;
default:
char buf[2];
buf[0] = (char)token;
buf[1] = 0;
parseContext.error(loc, "unexpected token", buf, "");
break;
}
} while (true);
}
int TScanContext::tokenizeIdentifier()
{
if (ReservedSet->find(tokenText) != ReservedSet->end())
return reservedWord();
auto it = KeywordMap->find(tokenText);
if (it == KeywordMap->end()) {
// Should have an identifier of some sort
return identifierOrType();
}
keyword = it->second;
switch (keyword) {
case CONST:
case UNIFORM:
case IN:
case OUT:
case INOUT:
case BREAK:
case CONTINUE:
case DO:
case FOR:
case WHILE:
case IF:
case ELSE:
case DISCARD:
case RETURN:
case CASE:
return keyword;
case STRUCT:
afterStruct = true;
return keyword;
case NONUNIFORM:
if (parseContext.extensionTurnedOn(E_GL_EXT_nonuniform_qualifier))
return keyword;
else
return identifierOrType();
case SWITCH:
case DEFAULT:
if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < 130))
reservedWord();
return keyword;
case VOID:
case BOOL:
case FLOAT:
case INT:
case BVEC2:
case BVEC3:
case BVEC4:
case VEC2:
case VEC3:
case VEC4:
case IVEC2:
case IVEC3:
case IVEC4:
case MAT2:
case MAT3:
case MAT4:
case SAMPLER2D:
case SAMPLERCUBE:
afterType = true;
return keyword;
case BOOLCONSTANT:
if (strcmp("true", tokenText) == 0)
parserToken->sType.lex.b = true;
else
parserToken->sType.lex.b = false;
return keyword;
case ATTRIBUTE:
case VARYING:
if (parseContext.profile == EEsProfile && parseContext.version >= 300)
reservedWord();
return keyword;
case BUFFER:
afterBuffer = true;
if ((parseContext.profile == EEsProfile && parseContext.version < 310) ||
(parseContext.profile != EEsProfile && parseContext.version < 430))
return identifierOrType();
return keyword;
#ifdef NV_EXTENSIONS
case PAYLOADNV:
case PAYLOADINNV:
case HITATTRNV:
case CALLDATANV:
case CALLDATAINNV:
case ACCSTRUCTNV:
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile && parseContext.version >= 460
&& parseContext.extensionTurnedOn(E_GL_NV_ray_tracing)))
return keyword;
return identifierOrType();
#endif
case ATOMIC_UINT:
if ((parseContext.profile == EEsProfile && parseContext.version >= 310) ||
parseContext.extensionTurnedOn(E_GL_ARB_shader_atomic_counters))
return keyword;
return es30ReservedFromGLSL(420);
case COHERENT:
case DEVICECOHERENT:
case QUEUEFAMILYCOHERENT:
case WORKGROUPCOHERENT:
case SUBGROUPCOHERENT:
case NONPRIVATE:
case RESTRICT:
case READONLY:
case WRITEONLY:
if (parseContext.profile == EEsProfile && parseContext.version >= 310)
return keyword;
return es30ReservedFromGLSL(parseContext.extensionTurnedOn(E_GL_ARB_shader_image_load_store) ? 130 : 420);
case VOLATILE:
if (parseContext.profile == EEsProfile && parseContext.version >= 310)
return keyword;
if (! parseContext.symbolTable.atBuiltInLevel() && (parseContext.profile == EEsProfile ||
(parseContext.version < 420 && ! parseContext.extensionTurnedOn(E_GL_ARB_shader_image_load_store))))
reservedWord();
return keyword;
case LAYOUT:
{
const int numLayoutExts = 2;
const char* layoutExts[numLayoutExts] = { E_GL_ARB_shading_language_420pack,
E_GL_ARB_explicit_attrib_location };
if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < 140 &&
! parseContext.extensionsTurnedOn(numLayoutExts, layoutExts)))
return identifierOrType();
return keyword;
}
case SHARED:
if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < 140))
return identifierOrType();
return keyword;
case PATCH:
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile == EEsProfile &&
(parseContext.version >= 320 ||
parseContext.extensionsTurnedOn(Num_AEP_tessellation_shader, AEP_tessellation_shader))) ||
(parseContext.profile != EEsProfile && parseContext.extensionTurnedOn(E_GL_ARB_tessellation_shader)))
return keyword;
return es30ReservedFromGLSL(400);
case SAMPLE:
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(1, &E_GL_OES_shader_multisample_interpolation))
return keyword;
return es30ReservedFromGLSL(400);
case SUBROUTINE:
return es30ReservedFromGLSL(400);
case HIGH_PRECISION:
case MEDIUM_PRECISION:
case LOW_PRECISION:
case PRECISION:
return precisionKeyword();
case MAT2X2:
case MAT2X3:
case MAT2X4:
case MAT3X2:
case MAT3X3:
case MAT3X4:
case MAT4X2:
case MAT4X3:
case MAT4X4:
return matNxM();
case DMAT2:
case DMAT3:
case DMAT4:
case DMAT2X2:
case DMAT2X3:
case DMAT2X4:
case DMAT3X2:
case DMAT3X3:
case DMAT3X4:
case DMAT4X2:
case DMAT4X3:
case DMAT4X4:
return dMat();
case IMAGE1D:
case IIMAGE1D:
case UIMAGE1D:
case IMAGE1DARRAY:
case IIMAGE1DARRAY:
case UIMAGE1DARRAY:
case IMAGE2DRECT:
case IIMAGE2DRECT:
case UIMAGE2DRECT:
afterType = true;
return firstGenerationImage(false);
case IMAGEBUFFER:
case IIMAGEBUFFER:
case UIMAGEBUFFER:
afterType = true;
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(Num_AEP_texture_buffer, AEP_texture_buffer))
return keyword;
return firstGenerationImage(false);
case IMAGE2D:
case IIMAGE2D:
case UIMAGE2D:
case IMAGE3D:
case IIMAGE3D:
case UIMAGE3D:
case IMAGECUBE:
case IIMAGECUBE:
case UIMAGECUBE:
case IMAGE2DARRAY:
case IIMAGE2DARRAY:
case UIMAGE2DARRAY:
afterType = true;
return firstGenerationImage(true);
case IMAGECUBEARRAY:
case IIMAGECUBEARRAY:
case UIMAGECUBEARRAY:
afterType = true;
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(Num_AEP_texture_cube_map_array, AEP_texture_cube_map_array))
return keyword;
return secondGenerationImage();
case IMAGE2DMS:
case IIMAGE2DMS:
case UIMAGE2DMS:
case IMAGE2DMSARRAY:
case IIMAGE2DMSARRAY:
case UIMAGE2DMSARRAY:
afterType = true;
return secondGenerationImage();
case DOUBLE:
case DVEC2:
case DVEC3:
case DVEC4:
afterType = true;
if (parseContext.profile == EEsProfile || parseContext.version < 400)
reservedWord();
return keyword;
case INT64_T:
case UINT64_T:
case I64VEC2:
case I64VEC3:
case I64VEC4:
case U64VEC2:
case U64VEC3:
case U64VEC4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile && parseContext.version >= 450 &&
(parseContext.extensionTurnedOn(E_GL_ARB_gpu_shader_int64) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_int64))))
return keyword;
return identifierOrType();
case INT8_T:
case UINT8_T:
case I8VEC2:
case I8VEC3:
case I8VEC4:
case U8VEC2:
case U8VEC3:
case U8VEC4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
((parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_8bit_storage) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_int8)) &&
parseContext.profile != EEsProfile && parseContext.version >= 450))
return keyword;
return identifierOrType();
case INT16_T:
case UINT16_T:
case I16VEC2:
case I16VEC3:
case I16VEC4:
case U16VEC2:
case U16VEC3:
case U16VEC4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile && parseContext.version >= 450 &&
(
#ifdef AMD_EXTENSIONS
parseContext.extensionTurnedOn(E_GL_AMD_gpu_shader_int16) ||
#endif
parseContext.extensionTurnedOn(E_GL_EXT_shader_16bit_storage) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_int16))))
return keyword;
return identifierOrType();
case INT32_T:
case UINT32_T:
case I32VEC2:
case I32VEC3:
case I32VEC4:
case U32VEC2:
case U32VEC3:
case U32VEC4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
((parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_int32)) &&
parseContext.profile != EEsProfile && parseContext.version >= 450))
return keyword;
return identifierOrType();
case FLOAT32_T:
case F32VEC2:
case F32VEC3:
case F32VEC4:
case F32MAT2:
case F32MAT3:
case F32MAT4:
case F32MAT2X2:
case F32MAT2X3:
case F32MAT2X4:
case F32MAT3X2:
case F32MAT3X3:
case F32MAT3X4:
case F32MAT4X2:
case F32MAT4X3:
case F32MAT4X4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
((parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_float32)) &&
parseContext.profile != EEsProfile && parseContext.version >= 450))
return keyword;
return identifierOrType();
case FLOAT64_T:
case F64VEC2:
case F64VEC3:
case F64VEC4:
case F64MAT2:
case F64MAT3:
case F64MAT4:
case F64MAT2X2:
case F64MAT2X3:
case F64MAT2X4:
case F64MAT3X2:
case F64MAT3X3:
case F64MAT3X4:
case F64MAT4X2:
case F64MAT4X3:
case F64MAT4X4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
((parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_float64)) &&
parseContext.profile != EEsProfile && parseContext.version >= 450))
return keyword;
return identifierOrType();
case FLOAT16_T:
case F16VEC2:
case F16VEC3:
case F16VEC4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile && parseContext.version >= 450 &&
(
#ifdef AMD_EXTENSIONS
parseContext.extensionTurnedOn(E_GL_AMD_gpu_shader_half_float) ||
#endif
parseContext.extensionTurnedOn(E_GL_EXT_shader_16bit_storage) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_float16))))
return keyword;
return identifierOrType();
case F16MAT2:
case F16MAT3:
case F16MAT4:
case F16MAT2X2:
case F16MAT2X3:
case F16MAT2X4:
case F16MAT3X2:
case F16MAT3X3:
case F16MAT3X4:
case F16MAT4X2:
case F16MAT4X3:
case F16MAT4X4:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile && parseContext.version >= 450 &&
(
#ifdef AMD_EXTENSIONS
parseContext.extensionTurnedOn(E_GL_AMD_gpu_shader_half_float) ||
#endif
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types) ||
parseContext.extensionTurnedOn(E_GL_EXT_shader_explicit_arithmetic_types_float16))))
return keyword;
return identifierOrType();
case SAMPLERCUBEARRAY:
case SAMPLERCUBEARRAYSHADOW:
case ISAMPLERCUBEARRAY:
case USAMPLERCUBEARRAY:
afterType = true;
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(Num_AEP_texture_cube_map_array, AEP_texture_cube_map_array))
return keyword;
if (parseContext.profile == EEsProfile || (parseContext.version < 400 && ! parseContext.extensionTurnedOn(E_GL_ARB_texture_cube_map_array)))
reservedWord();
return keyword;
case ISAMPLER1D:
case ISAMPLER1DARRAY:
case SAMPLER1DARRAYSHADOW:
case USAMPLER1D:
case USAMPLER1DARRAY:
afterType = true;
return es30ReservedFromGLSL(130);
case UINT:
case UVEC2:
case UVEC3:
case UVEC4:
case SAMPLERCUBESHADOW:
case SAMPLER2DARRAY:
case SAMPLER2DARRAYSHADOW:
case ISAMPLER2D:
case ISAMPLER3D:
case ISAMPLERCUBE:
case ISAMPLER2DARRAY:
case USAMPLER2D:
case USAMPLER3D:
case USAMPLERCUBE:
case USAMPLER2DARRAY:
afterType = true;
return nonreservedKeyword(300, 130);
case ISAMPLER2DRECT:
case USAMPLER2DRECT:
afterType = true;
return es30ReservedFromGLSL(140);
case SAMPLERBUFFER:
afterType = true;
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(Num_AEP_texture_buffer, AEP_texture_buffer))
return keyword;
return es30ReservedFromGLSL(130);
case ISAMPLERBUFFER:
case USAMPLERBUFFER:
afterType = true;
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(Num_AEP_texture_buffer, AEP_texture_buffer))
return keyword;
return es30ReservedFromGLSL(140);
case SAMPLER2DMS:
case ISAMPLER2DMS:
case USAMPLER2DMS:
afterType = true;
if (parseContext.profile == EEsProfile && parseContext.version >= 310)
return keyword;
return es30ReservedFromGLSL(150);
case SAMPLER2DMSARRAY:
case ISAMPLER2DMSARRAY:
case USAMPLER2DMSARRAY:
afterType = true;
if ((parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionsTurnedOn(1, &E_GL_OES_texture_storage_multisample_2d_array))
return keyword;
return es30ReservedFromGLSL(150);
case SAMPLER1D:
case SAMPLER1DSHADOW:
afterType = true;
if (parseContext.profile == EEsProfile)
reservedWord();
return keyword;
case SAMPLER3D:
afterType = true;
if (parseContext.profile == EEsProfile && parseContext.version < 300) {
if (!parseContext.extensionTurnedOn(E_GL_OES_texture_3D))
reservedWord();
}
return keyword;
case SAMPLER2DSHADOW:
afterType = true;
if (parseContext.profile == EEsProfile && parseContext.version < 300) {
if (!parseContext.extensionTurnedOn(E_GL_EXT_shadow_samplers))
reservedWord();
}
return keyword;
case SAMPLER2DRECT:
case SAMPLER2DRECTSHADOW:
afterType = true;
if (parseContext.profile == EEsProfile)
reservedWord();
else if (parseContext.version < 140 && ! parseContext.symbolTable.atBuiltInLevel() && ! parseContext.extensionTurnedOn(E_GL_ARB_texture_rectangle)) {
if (parseContext.relaxedErrors())
parseContext.requireExtensions(loc, 1, &E_GL_ARB_texture_rectangle, "texture-rectangle sampler keyword");
else
reservedWord();
}
return keyword;
case SAMPLER1DARRAY:
afterType = true;
if (parseContext.profile == EEsProfile && parseContext.version == 300)
reservedWord();
else if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < 130))
return identifierOrType();
return keyword;
case SAMPLEREXTERNALOES:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
parseContext.extensionTurnedOn(E_GL_OES_EGL_image_external) ||
parseContext.extensionTurnedOn(E_GL_OES_EGL_image_external_essl3))
return keyword;
return identifierOrType();
case SAMPLEREXTERNAL2DY2YEXT:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
parseContext.extensionTurnedOn(E_GL_EXT_YUV_target))
return keyword;
return identifierOrType();
case TEXTURE2D:
case TEXTURECUBE:
case TEXTURECUBEARRAY:
case ITEXTURECUBEARRAY:
case UTEXTURECUBEARRAY:
case ITEXTURE1DARRAY:
case UTEXTURE1D:
case ITEXTURE1D:
case UTEXTURE1DARRAY:
case TEXTUREBUFFER:
case TEXTURE2DARRAY:
case ITEXTURE2D:
case ITEXTURE3D:
case ITEXTURECUBE:
case ITEXTURE2DARRAY:
case UTEXTURE2D:
case UTEXTURE3D:
case UTEXTURECUBE:
case UTEXTURE2DARRAY:
case ITEXTURE2DRECT:
case UTEXTURE2DRECT:
case ITEXTUREBUFFER:
case UTEXTUREBUFFER:
case TEXTURE2DMS:
case ITEXTURE2DMS:
case UTEXTURE2DMS:
case TEXTURE2DMSARRAY:
case ITEXTURE2DMSARRAY:
case UTEXTURE2DMSARRAY:
case TEXTURE1D:
case TEXTURE3D:
case TEXTURE2DRECT:
case TEXTURE1DARRAY:
case SAMPLER:
case SAMPLERSHADOW:
if (parseContext.spvVersion.vulkan > 0)
return keyword;
else
return identifierOrType();
case SUBPASSINPUT:
case SUBPASSINPUTMS:
case ISUBPASSINPUT:
case ISUBPASSINPUTMS:
case USUBPASSINPUT:
case USUBPASSINPUTMS:
if (parseContext.spvVersion.vulkan > 0)
return keyword;
else
return identifierOrType();
#ifdef AMD_EXTENSIONS
case F16SAMPLER1D:
case F16SAMPLER2D:
case F16SAMPLER3D:
case F16SAMPLER2DRECT:
case F16SAMPLERCUBE:
case F16SAMPLER1DARRAY:
case F16SAMPLER2DARRAY:
case F16SAMPLERCUBEARRAY:
case F16SAMPLERBUFFER:
case F16SAMPLER2DMS:
case F16SAMPLER2DMSARRAY:
case F16SAMPLER1DSHADOW:
case F16SAMPLER2DSHADOW:
case F16SAMPLER1DARRAYSHADOW:
case F16SAMPLER2DARRAYSHADOW:
case F16SAMPLER2DRECTSHADOW:
case F16SAMPLERCUBESHADOW:
case F16SAMPLERCUBEARRAYSHADOW:
case F16IMAGE1D:
case F16IMAGE2D:
case F16IMAGE3D:
case F16IMAGE2DRECT:
case F16IMAGECUBE:
case F16IMAGE1DARRAY:
case F16IMAGE2DARRAY:
case F16IMAGECUBEARRAY:
case F16IMAGEBUFFER:
case F16IMAGE2DMS:
case F16IMAGE2DMSARRAY:
case F16TEXTURE1D:
case F16TEXTURE2D:
case F16TEXTURE3D:
case F16TEXTURE2DRECT:
case F16TEXTURECUBE:
case F16TEXTURE1DARRAY:
case F16TEXTURE2DARRAY:
case F16TEXTURECUBEARRAY:
case F16TEXTUREBUFFER:
case F16TEXTURE2DMS:
case F16TEXTURE2DMSARRAY:
case F16SUBPASSINPUT:
case F16SUBPASSINPUTMS:
afterType = true;
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.extensionTurnedOn(E_GL_AMD_gpu_shader_half_float_fetch) &&
parseContext.profile != EEsProfile && parseContext.version >= 450))
return keyword;
return identifierOrType();
#endif
case NOPERSPECTIVE:
#ifdef NV_EXTENSIONS
if (parseContext.profile == EEsProfile && parseContext.version >= 300 &&
parseContext.extensionTurnedOn(E_GL_NV_shader_noperspective_interpolation))
return keyword;
#endif
return es30ReservedFromGLSL(130);
case SMOOTH:
if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < 130))
return identifierOrType();
return keyword;
#ifdef AMD_EXTENSIONS
case EXPLICITINTERPAMD:
if (parseContext.profile != EEsProfile && parseContext.version >= 450 &&
parseContext.extensionTurnedOn(E_GL_AMD_shader_explicit_vertex_parameter))
return keyword;
return identifierOrType();
#endif
#ifdef NV_EXTENSIONS
case PERVERTEXNV:
if (((parseContext.profile != EEsProfile && parseContext.version >= 450) ||
(parseContext.profile == EEsProfile && parseContext.version >= 320)) &&
parseContext.extensionTurnedOn(E_GL_NV_fragment_shader_barycentric))
return keyword;
return identifierOrType();
#endif
case FLAT:
if (parseContext.profile == EEsProfile && parseContext.version < 300)
reservedWord();
else if (parseContext.profile != EEsProfile && parseContext.version < 130)
return identifierOrType();
return keyword;
case CENTROID:
if (parseContext.version < 120)
return identifierOrType();
return keyword;
case PRECISE:
if ((parseContext.profile == EEsProfile &&
(parseContext.version >= 320 || parseContext.extensionsTurnedOn(Num_AEP_gpu_shader5, AEP_gpu_shader5))) ||
(parseContext.profile != EEsProfile && parseContext.version >= 400))
return keyword;
if (parseContext.profile == EEsProfile && parseContext.version == 310) {
reservedWord();
return keyword;
}
return identifierOrType();
case INVARIANT:
if (parseContext.profile != EEsProfile && parseContext.version < 120)
return identifierOrType();
return keyword;
case PACKED:
if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < 330))
return reservedWord();
return identifierOrType();
case RESOURCE:
{
bool reserved = (parseContext.profile == EEsProfile && parseContext.version >= 300) ||
(parseContext.profile != EEsProfile && parseContext.version >= 420);
return identifierOrReserved(reserved);
}
case SUPERP:
{
bool reserved = parseContext.profile == EEsProfile || parseContext.version >= 130;
return identifierOrReserved(reserved);
}
#ifdef NV_EXTENSIONS
case PERPRIMITIVENV:
case PERVIEWNV:
case PERTASKNV:
if ((parseContext.profile != EEsProfile && parseContext.version >= 450) ||
(parseContext.profile == EEsProfile && parseContext.version >= 320) ||
parseContext.extensionTurnedOn(E_GL_NV_mesh_shader))
return keyword;
return identifierOrType();
#endif
default:
parseContext.infoSink.info.message(EPrefixInternalError, "Unknown glslang keyword", loc);
return 0;
}
}
int TScanContext::identifierOrType()
{
parserToken->sType.lex.string = NewPoolTString(tokenText);
if (field)
return IDENTIFIER;
parserToken->sType.lex.symbol = parseContext.symbolTable.find(*parserToken->sType.lex.string);
if ((afterType == false && afterStruct == false) && parserToken->sType.lex.symbol != nullptr) {
if (const TVariable* variable = parserToken->sType.lex.symbol->getAsVariable()) {
if (variable->isUserType() &&
// treat redeclaration of forward-declared buffer/uniform reference as an identifier
!(variable->getType().getBasicType() == EbtReference && afterBuffer)) {
afterType = true;
return TYPE_NAME;
}
}
}
return IDENTIFIER;
}
// Give an error for use of a reserved symbol.
// However, allow built-in declarations to use reserved words, to allow
// extension support before the extension is enabled.
int TScanContext::reservedWord()
{
if (! parseContext.symbolTable.atBuiltInLevel())
parseContext.error(loc, "Reserved word.", tokenText, "", "");
return 0;
}
int TScanContext::identifierOrReserved(bool reserved)
{
if (reserved) {
reservedWord();
return 0;
}
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using future reserved keyword", tokenText, "");
return identifierOrType();
}
// For keywords that suddenly showed up on non-ES (not previously reserved)
// but then got reserved by ES 3.0.
int TScanContext::es30ReservedFromGLSL(int version)
{
if (parseContext.symbolTable.atBuiltInLevel())
return keyword;
if ((parseContext.profile == EEsProfile && parseContext.version < 300) ||
(parseContext.profile != EEsProfile && parseContext.version < version)) {
if (parseContext.forwardCompatible)
parseContext.warn(loc, "future reserved word in ES 300 and keyword in GLSL", tokenText, "");
return identifierOrType();
} else if (parseContext.profile == EEsProfile && parseContext.version >= 300)
reservedWord();
return keyword;
}
// For a keyword that was never reserved, until it suddenly
// showed up, both in an es version and a non-ES version.
int TScanContext::nonreservedKeyword(int esVersion, int nonEsVersion)
{
if ((parseContext.profile == EEsProfile && parseContext.version < esVersion) ||
(parseContext.profile != EEsProfile && parseContext.version < nonEsVersion)) {
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using future keyword", tokenText, "");
return identifierOrType();
}
return keyword;
}
int TScanContext::precisionKeyword()
{
if (parseContext.profile == EEsProfile || parseContext.version >= 130)
return keyword;
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using ES precision qualifier keyword", tokenText, "");
return identifierOrType();
}
int TScanContext::matNxM()
{
afterType = true;
if (parseContext.version > 110)
return keyword;
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using future non-square matrix type keyword", tokenText, "");
return identifierOrType();
}
int TScanContext::dMat()
{
afterType = true;
if (parseContext.profile == EEsProfile && parseContext.version >= 300) {
reservedWord();
return keyword;
}
if (parseContext.profile != EEsProfile && parseContext.version >= 400)
return keyword;
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using future type keyword", tokenText, "");
return identifierOrType();
}
int TScanContext::firstGenerationImage(bool inEs310)
{
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile && (parseContext.version >= 420 ||
parseContext.extensionTurnedOn(E_GL_ARB_shader_image_load_store))) ||
(inEs310 && parseContext.profile == EEsProfile && parseContext.version >= 310))
return keyword;
if ((parseContext.profile == EEsProfile && parseContext.version >= 300) ||
(parseContext.profile != EEsProfile && parseContext.version >= 130)) {
reservedWord();
return keyword;
}
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using future type keyword", tokenText, "");
return identifierOrType();
}
int TScanContext::secondGenerationImage()
{
if (parseContext.profile == EEsProfile && parseContext.version >= 310) {
reservedWord();
return keyword;
}
if (parseContext.symbolTable.atBuiltInLevel() ||
(parseContext.profile != EEsProfile &&
(parseContext.version >= 420 || parseContext.extensionTurnedOn(E_GL_ARB_shader_image_load_store))))
return keyword;
if (parseContext.forwardCompatible)
parseContext.warn(loc, "using future type keyword", tokenText, "");
return identifierOrType();
}
} // end namespace glslang