blob: 9d89d46b7695452674b977db17fff9b518b2b533 [file] [log] [blame]
//
// Copyright (C) 2002-2005 3Dlabs Inc. Ltd.
// Copyright (C) 2012-2013 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.
//
/**
* This is bison grammar and productions for parsing all versions of the
* GLSL shading languages.
*/
%{
/* Based on:
ANSI C Yacc grammar
In 1985, Jeff Lee published his Yacc grammar (which is accompanied by a
matching Lex specification) for the April 30, 1985 draft version of the
ANSI C standard. Tom Stockfisch reposted it to net.sources in 1987; that
original, as mentioned in the answer to question 17.25 of the comp.lang.c
FAQ, can be ftp'ed from ftp.uu.net, file usenet/net.sources/ansi.c.grammar.Z.
I intend to keep this version as close to the current C Standard grammar as
possible; please let me know if you discover discrepancies.
Jutta Degener, 1995
*/
#include "SymbolTable.h"
#include "ParseHelper.h"
#include "../Public/ShaderLang.h"
#include "attribute.h"
using namespace glslang;
%}
%define parse.error verbose
%union {
struct {
glslang::TSourceLoc loc;
union {
glslang::TString *string;
int i;
unsigned int u;
long long i64;
unsigned long long u64;
bool b;
double d;
};
glslang::TSymbol* symbol;
} lex;
struct {
glslang::TSourceLoc loc;
glslang::TOperator op;
union {
TIntermNode* intermNode;
glslang::TIntermNodePair nodePair;
glslang::TIntermTyped* intermTypedNode;
glslang::TAttributes* attributes;
};
union {
glslang::TPublicType type;
glslang::TFunction* function;
glslang::TParameter param;
glslang::TTypeLoc typeLine;
glslang::TTypeList* typeList;
glslang::TArraySizes* arraySizes;
glslang::TIdentifierList* identifierList;
};
} interm;
}
%{
/* windows only pragma */
#ifdef _MSC_VER
#pragma warning(disable : 4065)
#pragma warning(disable : 4127)
#pragma warning(disable : 4244)
#endif
#define parseContext (*pParseContext)
#define yyerror(context, msg) context->parserError(msg)
extern int yylex(YYSTYPE*, TParseContext&);
%}
%parse-param {glslang::TParseContext* pParseContext}
%lex-param {parseContext}
%pure-parser // enable thread safety
%expect 1 // One shift reduce conflict because of if | else
%token <lex> ATTRIBUTE VARYING
%token <lex> FLOAT16_T FLOAT FLOAT32_T DOUBLE FLOAT64_T
%token <lex> CONST BOOL INT UINT INT64_T UINT64_T INT32_T UINT32_T INT16_T UINT16_T INT8_T UINT8_T
%token <lex> BREAK CONTINUE DO ELSE FOR IF DISCARD RETURN SWITCH CASE DEFAULT SUBROUTINE
%token <lex> BVEC2 BVEC3 BVEC4
%token <lex> IVEC2 IVEC3 IVEC4
%token <lex> UVEC2 UVEC3 UVEC4
%token <lex> I64VEC2 I64VEC3 I64VEC4
%token <lex> U64VEC2 U64VEC3 U64VEC4
%token <lex> I32VEC2 I32VEC3 I32VEC4
%token <lex> U32VEC2 U32VEC3 U32VEC4
%token <lex> I16VEC2 I16VEC3 I16VEC4
%token <lex> U16VEC2 U16VEC3 U16VEC4
%token <lex> I8VEC2 I8VEC3 I8VEC4
%token <lex> U8VEC2 U8VEC3 U8VEC4
%token <lex> VEC2 VEC3 VEC4
%token <lex> MAT2 MAT3 MAT4 CENTROID IN OUT INOUT
%token <lex> UNIFORM PATCH SAMPLE BUFFER SHARED NONUNIFORM PAYLOADNV PAYLOADINNV HITATTRNV
%token <lex> COHERENT VOLATILE RESTRICT READONLY WRITEONLY DEVICECOHERENT QUEUEFAMILYCOHERENT WORKGROUPCOHERENT SUBGROUPCOHERENT NONPRIVATE
%token <lex> DVEC2 DVEC3 DVEC4 DMAT2 DMAT3 DMAT4
%token <lex> F16VEC2 F16VEC3 F16VEC4 F16MAT2 F16MAT3 F16MAT4
%token <lex> F32VEC2 F32VEC3 F32VEC4 F32MAT2 F32MAT3 F32MAT4
%token <lex> F64VEC2 F64VEC3 F64VEC4 F64MAT2 F64MAT3 F64MAT4
%token <lex> NOPERSPECTIVE FLAT SMOOTH LAYOUT EXPLICITINTERPAMD PERVERTEXNV PERPRIMITIVENV PERVIEWNV PERTASKNV
%token <lex> MAT2X2 MAT2X3 MAT2X4
%token <lex> MAT3X2 MAT3X3 MAT3X4
%token <lex> MAT4X2 MAT4X3 MAT4X4
%token <lex> DMAT2X2 DMAT2X3 DMAT2X4
%token <lex> DMAT3X2 DMAT3X3 DMAT3X4
%token <lex> DMAT4X2 DMAT4X3 DMAT4X4
%token <lex> F16MAT2X2 F16MAT2X3 F16MAT2X4
%token <lex> F16MAT3X2 F16MAT3X3 F16MAT3X4
%token <lex> F16MAT4X2 F16MAT4X3 F16MAT4X4
%token <lex> F32MAT2X2 F32MAT2X3 F32MAT2X4
%token <lex> F32MAT3X2 F32MAT3X3 F32MAT3X4
%token <lex> F32MAT4X2 F32MAT4X3 F32MAT4X4
%token <lex> F64MAT2X2 F64MAT2X3 F64MAT2X4
%token <lex> F64MAT3X2 F64MAT3X3 F64MAT3X4
%token <lex> F64MAT4X2 F64MAT4X3 F64MAT4X4
%token <lex> ATOMIC_UINT
%token <lex> ACCSTRUCTNV
// combined image/sampler
%token <lex> SAMPLER1D SAMPLER2D SAMPLER3D SAMPLERCUBE SAMPLER1DSHADOW SAMPLER2DSHADOW
%token <lex> SAMPLERCUBESHADOW SAMPLER1DARRAY SAMPLER2DARRAY SAMPLER1DARRAYSHADOW
%token <lex> SAMPLER2DARRAYSHADOW ISAMPLER1D ISAMPLER2D ISAMPLER3D ISAMPLERCUBE
%token <lex> ISAMPLER1DARRAY ISAMPLER2DARRAY USAMPLER1D USAMPLER2D USAMPLER3D
%token <lex> USAMPLERCUBE USAMPLER1DARRAY USAMPLER2DARRAY
%token <lex> SAMPLER2DRECT SAMPLER2DRECTSHADOW ISAMPLER2DRECT USAMPLER2DRECT
%token <lex> SAMPLERBUFFER ISAMPLERBUFFER USAMPLERBUFFER
%token <lex> SAMPLERCUBEARRAY SAMPLERCUBEARRAYSHADOW
%token <lex> ISAMPLERCUBEARRAY USAMPLERCUBEARRAY
%token <lex> SAMPLER2DMS ISAMPLER2DMS USAMPLER2DMS
%token <lex> SAMPLER2DMSARRAY ISAMPLER2DMSARRAY USAMPLER2DMSARRAY
%token <lex> SAMPLEREXTERNALOES
%token <lex> F16SAMPLER1D F16SAMPLER2D F16SAMPLER3D F16SAMPLER2DRECT F16SAMPLERCUBE
%token <lex> F16SAMPLER1DARRAY F16SAMPLER2DARRAY F16SAMPLERCUBEARRAY
%token <lex> F16SAMPLERBUFFER F16SAMPLER2DMS F16SAMPLER2DMSARRAY
%token <lex> F16SAMPLER1DSHADOW F16SAMPLER2DSHADOW F16SAMPLER1DARRAYSHADOW F16SAMPLER2DARRAYSHADOW
%token <lex> F16SAMPLER2DRECTSHADOW F16SAMPLERCUBESHADOW F16SAMPLERCUBEARRAYSHADOW
// pure sampler
%token <lex> SAMPLER SAMPLERSHADOW
// texture without sampler
%token <lex> TEXTURE1D TEXTURE2D TEXTURE3D TEXTURECUBE
%token <lex> TEXTURE1DARRAY TEXTURE2DARRAY
%token <lex> ITEXTURE1D ITEXTURE2D ITEXTURE3D ITEXTURECUBE
%token <lex> ITEXTURE1DARRAY ITEXTURE2DARRAY UTEXTURE1D UTEXTURE2D UTEXTURE3D
%token <lex> UTEXTURECUBE UTEXTURE1DARRAY UTEXTURE2DARRAY
%token <lex> TEXTURE2DRECT ITEXTURE2DRECT UTEXTURE2DRECT
%token <lex> TEXTUREBUFFER ITEXTUREBUFFER UTEXTUREBUFFER
%token <lex> TEXTURECUBEARRAY ITEXTURECUBEARRAY UTEXTURECUBEARRAY
%token <lex> TEXTURE2DMS ITEXTURE2DMS UTEXTURE2DMS
%token <lex> TEXTURE2DMSARRAY ITEXTURE2DMSARRAY UTEXTURE2DMSARRAY
%token <lex> F16TEXTURE1D F16TEXTURE2D F16TEXTURE3D F16TEXTURE2DRECT F16TEXTURECUBE
%token <lex> F16TEXTURE1DARRAY F16TEXTURE2DARRAY F16TEXTURECUBEARRAY
%token <lex> F16TEXTUREBUFFER F16TEXTURE2DMS F16TEXTURE2DMSARRAY
// input attachments
%token <lex> SUBPASSINPUT SUBPASSINPUTMS ISUBPASSINPUT ISUBPASSINPUTMS USUBPASSINPUT USUBPASSINPUTMS
%token <lex> F16SUBPASSINPUT F16SUBPASSINPUTMS
%token <lex> IMAGE1D IIMAGE1D UIMAGE1D IMAGE2D IIMAGE2D
%token <lex> UIMAGE2D IMAGE3D IIMAGE3D UIMAGE3D
%token <lex> IMAGE2DRECT IIMAGE2DRECT UIMAGE2DRECT
%token <lex> IMAGECUBE IIMAGECUBE UIMAGECUBE
%token <lex> IMAGEBUFFER IIMAGEBUFFER UIMAGEBUFFER
%token <lex> IMAGE1DARRAY IIMAGE1DARRAY UIMAGE1DARRAY
%token <lex> IMAGE2DARRAY IIMAGE2DARRAY UIMAGE2DARRAY
%token <lex> IMAGECUBEARRAY IIMAGECUBEARRAY UIMAGECUBEARRAY
%token <lex> IMAGE2DMS IIMAGE2DMS UIMAGE2DMS
%token <lex> IMAGE2DMSARRAY IIMAGE2DMSARRAY UIMAGE2DMSARRAY
%token <lex> F16IMAGE1D F16IMAGE2D F16IMAGE3D F16IMAGE2DRECT
%token <lex> F16IMAGECUBE F16IMAGE1DARRAY F16IMAGE2DARRAY F16IMAGECUBEARRAY
%token <lex> F16IMAGEBUFFER F16IMAGE2DMS F16IMAGE2DMSARRAY
%token <lex> STRUCT VOID WHILE
%token <lex> IDENTIFIER TYPE_NAME
%token <lex> FLOATCONSTANT DOUBLECONSTANT INT16CONSTANT UINT16CONSTANT INT32CONSTANT UINT32CONSTANT INTCONSTANT UINTCONSTANT INT64CONSTANT UINT64CONSTANT BOOLCONSTANT FLOAT16CONSTANT
%token <lex> LEFT_OP RIGHT_OP
%token <lex> INC_OP DEC_OP LE_OP GE_OP EQ_OP NE_OP
%token <lex> AND_OP OR_OP XOR_OP MUL_ASSIGN DIV_ASSIGN ADD_ASSIGN
%token <lex> MOD_ASSIGN LEFT_ASSIGN RIGHT_ASSIGN AND_ASSIGN XOR_ASSIGN OR_ASSIGN
%token <lex> SUB_ASSIGN
%token <lex> LEFT_PAREN RIGHT_PAREN LEFT_BRACKET RIGHT_BRACKET LEFT_BRACE RIGHT_BRACE DOT
%token <lex> COMMA COLON EQUAL SEMICOLON BANG DASH TILDE PLUS STAR SLASH PERCENT
%token <lex> LEFT_ANGLE RIGHT_ANGLE VERTICAL_BAR CARET AMPERSAND QUESTION
%token <lex> INVARIANT PRECISE
%token <lex> HIGH_PRECISION MEDIUM_PRECISION LOW_PRECISION PRECISION
%token <lex> PACKED RESOURCE SUPERP
%type <interm> assignment_operator unary_operator
%type <interm.intermTypedNode> variable_identifier primary_expression postfix_expression
%type <interm.intermTypedNode> expression integer_expression assignment_expression
%type <interm.intermTypedNode> unary_expression multiplicative_expression additive_expression
%type <interm.intermTypedNode> relational_expression equality_expression
%type <interm.intermTypedNode> conditional_expression constant_expression
%type <interm.intermTypedNode> logical_or_expression logical_xor_expression logical_and_expression
%type <interm.intermTypedNode> shift_expression and_expression exclusive_or_expression inclusive_or_expression
%type <interm.intermTypedNode> function_call initializer initializer_list condition conditionopt
%type <interm.intermNode> translation_unit function_definition
%type <interm.intermNode> statement simple_statement
%type <interm.intermNode> statement_list switch_statement_list compound_statement
%type <interm.intermNode> declaration_statement selection_statement selection_statement_nonattributed expression_statement
%type <interm.intermNode> switch_statement switch_statement_nonattributed case_label
%type <interm.intermNode> declaration external_declaration
%type <interm.intermNode> for_init_statement compound_statement_no_new_scope
%type <interm.nodePair> selection_rest_statement for_rest_statement
%type <interm.intermNode> iteration_statement iteration_statement_nonattributed jump_statement statement_no_new_scope statement_scoped
%type <interm> single_declaration init_declarator_list
%type <interm> parameter_declaration parameter_declarator parameter_type_specifier
%type <interm> array_specifier
%type <interm.type> precise_qualifier invariant_qualifier interpolation_qualifier storage_qualifier precision_qualifier
%type <interm.type> layout_qualifier layout_qualifier_id_list layout_qualifier_id
%type <interm.type> non_uniform_qualifier
%type <interm.type> type_qualifier fully_specified_type type_specifier
%type <interm.type> single_type_qualifier
%type <interm.type> type_specifier_nonarray
%type <interm.type> struct_specifier
%type <interm.typeLine> struct_declarator
%type <interm.typeList> struct_declarator_list struct_declaration struct_declaration_list type_name_list
%type <interm> block_structure
%type <interm.function> function_header function_declarator
%type <interm.function> function_header_with_parameters
%type <interm> function_call_header_with_parameters function_call_header_no_parameters function_call_generic function_prototype
%type <interm> function_call_or_method function_identifier function_call_header
%type <interm.identifierList> identifier_list
%type <interm.attributes> attribute attribute_list single_attribute
%start translation_unit
%%
variable_identifier
: IDENTIFIER {
$$ = parseContext.handleVariable($1.loc, $1.symbol, $1.string);
}
;
primary_expression
: variable_identifier {
$$ = $1;
}
| INT32CONSTANT {
parseContext.explicitInt32Check($1.loc, "32-bit signed literal");
$$ = parseContext.intermediate.addConstantUnion($1.i, $1.loc, true);
}
| UINT32CONSTANT {
parseContext.explicitInt32Check($1.loc, "32-bit signed literal");
$$ = parseContext.intermediate.addConstantUnion($1.u, $1.loc, true);
}
| INTCONSTANT {
$$ = parseContext.intermediate.addConstantUnion($1.i, $1.loc, true);
}
| UINTCONSTANT {
parseContext.fullIntegerCheck($1.loc, "unsigned literal");
$$ = parseContext.intermediate.addConstantUnion($1.u, $1.loc, true);
}
| INT64CONSTANT {
parseContext.int64Check($1.loc, "64-bit integer literal");
$$ = parseContext.intermediate.addConstantUnion($1.i64, $1.loc, true);
}
| UINT64CONSTANT {
parseContext.int64Check($1.loc, "64-bit unsigned integer literal");
$$ = parseContext.intermediate.addConstantUnion($1.u64, $1.loc, true);
}
| INT16CONSTANT {
parseContext.explicitInt16Check($1.loc, "16-bit integer literal");
$$ = parseContext.intermediate.addConstantUnion((short)$1.i, $1.loc, true);
}
| UINT16CONSTANT {
parseContext.explicitInt16Check($1.loc, "16-bit unsigned integer literal");
$$ = parseContext.intermediate.addConstantUnion((unsigned short)$1.u, $1.loc, true);
}
| FLOATCONSTANT {
$$ = parseContext.intermediate.addConstantUnion($1.d, EbtFloat, $1.loc, true);
}
| DOUBLECONSTANT {
parseContext.doubleCheck($1.loc, "double literal");
$$ = parseContext.intermediate.addConstantUnion($1.d, EbtDouble, $1.loc, true);
}
| FLOAT16CONSTANT {
parseContext.float16Check($1.loc, "half float literal");
$$ = parseContext.intermediate.addConstantUnion($1.d, EbtFloat16, $1.loc, true);
}
| BOOLCONSTANT {
$$ = parseContext.intermediate.addConstantUnion($1.b, $1.loc, true);
}
| LEFT_PAREN expression RIGHT_PAREN {
$$ = $2;
if ($$->getAsConstantUnion())
$$->getAsConstantUnion()->setExpression();
}
;
postfix_expression
: primary_expression {
$$ = $1;
}
| postfix_expression LEFT_BRACKET integer_expression RIGHT_BRACKET {
$$ = parseContext.handleBracketDereference($2.loc, $1, $3);
}
| function_call {
$$ = $1;
}
| postfix_expression DOT IDENTIFIER {
$$ = parseContext.handleDotDereference($3.loc, $1, *$3.string);
}
| postfix_expression INC_OP {
parseContext.variableCheck($1);
parseContext.lValueErrorCheck($2.loc, "++", $1);
$$ = parseContext.handleUnaryMath($2.loc, "++", EOpPostIncrement, $1);
}
| postfix_expression DEC_OP {
parseContext.variableCheck($1);
parseContext.lValueErrorCheck($2.loc, "--", $1);
$$ = parseContext.handleUnaryMath($2.loc, "--", EOpPostDecrement, $1);
}
;
integer_expression
: expression {
parseContext.integerCheck($1, "[]");
$$ = $1;
}
;
function_call
: function_call_or_method {
$$ = parseContext.handleFunctionCall($1.loc, $1.function, $1.intermNode);
delete $1.function;
}
;
function_call_or_method
: function_call_generic {
$$ = $1;
}
;
function_call_generic
: function_call_header_with_parameters RIGHT_PAREN {
$$ = $1;
$$.loc = $2.loc;
}
| function_call_header_no_parameters RIGHT_PAREN {
$$ = $1;
$$.loc = $2.loc;
}
;
function_call_header_no_parameters
: function_call_header VOID {
$$ = $1;
}
| function_call_header {
$$ = $1;
}
;
function_call_header_with_parameters
: function_call_header assignment_expression {
TParameter param = { 0, new TType };
param.type->shallowCopy($2->getType());
$1.function->addParameter(param);
$$.function = $1.function;
$$.intermNode = $2;
}
| function_call_header_with_parameters COMMA assignment_expression {
TParameter param = { 0, new TType };
param.type->shallowCopy($3->getType());
$1.function->addParameter(param);
$$.function = $1.function;
$$.intermNode = parseContext.intermediate.growAggregate($1.intermNode, $3, $2.loc);
}
;
function_call_header
: function_identifier LEFT_PAREN {
$$ = $1;
}
;
// Grammar Note: Constructors look like functions, but are recognized as types.
function_identifier
: type_specifier {
// Constructor
$$.intermNode = 0;
$$.function = parseContext.handleConstructorCall($1.loc, $1);
}
| postfix_expression {
//
// Should be a method or subroutine call, but we haven't recognized the arguments yet.
//
$$.function = 0;
$$.intermNode = 0;
TIntermMethod* method = $1->getAsMethodNode();
if (method) {
$$.function = new TFunction(&method->getMethodName(), TType(EbtInt), EOpArrayLength);
$$.intermNode = method->getObject();
} else {
TIntermSymbol* symbol = $1->getAsSymbolNode();
if (symbol) {
parseContext.reservedErrorCheck(symbol->getLoc(), symbol->getName());
TFunction *function = new TFunction(&symbol->getName(), TType(EbtVoid));
$$.function = function;
} else
parseContext.error($1->getLoc(), "function call, method, or subroutine call expected", "", "");
}
if ($$.function == 0) {
// error recover
TString empty("");
$$.function = new TFunction(&empty, TType(EbtVoid), EOpNull);
}
}
| non_uniform_qualifier {
// Constructor
$$.intermNode = 0;
$$.function = parseContext.handleConstructorCall($1.loc, $1);
}
;
unary_expression
: postfix_expression {
parseContext.variableCheck($1);
$$ = $1;
if (TIntermMethod* method = $1->getAsMethodNode())
parseContext.error($1->getLoc(), "incomplete method syntax", method->getMethodName().c_str(), "");
}
| INC_OP unary_expression {
parseContext.lValueErrorCheck($1.loc, "++", $2);
$$ = parseContext.handleUnaryMath($1.loc, "++", EOpPreIncrement, $2);
}
| DEC_OP unary_expression {
parseContext.lValueErrorCheck($1.loc, "--", $2);
$$ = parseContext.handleUnaryMath($1.loc, "--", EOpPreDecrement, $2);
}
| unary_operator unary_expression {
if ($1.op != EOpNull) {
char errorOp[2] = {0, 0};
switch($1.op) {
case EOpNegative: errorOp[0] = '-'; break;
case EOpLogicalNot: errorOp[0] = '!'; break;
case EOpBitwiseNot: errorOp[0] = '~'; break;
default: break; // some compilers want this
}
$$ = parseContext.handleUnaryMath($1.loc, errorOp, $1.op, $2);
} else {
$$ = $2;
if ($$->getAsConstantUnion())
$$->getAsConstantUnion()->setExpression();
}
}
;
// Grammar Note: No traditional style type casts.
unary_operator
: PLUS { $$.loc = $1.loc; $$.op = EOpNull; }
| DASH { $$.loc = $1.loc; $$.op = EOpNegative; }
| BANG { $$.loc = $1.loc; $$.op = EOpLogicalNot; }
| TILDE { $$.loc = $1.loc; $$.op = EOpBitwiseNot;
parseContext.fullIntegerCheck($1.loc, "bitwise not"); }
;
// Grammar Note: No '*' or '&' unary ops. Pointers are not supported.
multiplicative_expression
: unary_expression { $$ = $1; }
| multiplicative_expression STAR unary_expression {
$$ = parseContext.handleBinaryMath($2.loc, "*", EOpMul, $1, $3);
if ($$ == 0)
$$ = $1;
}
| multiplicative_expression SLASH unary_expression {
$$ = parseContext.handleBinaryMath($2.loc, "/", EOpDiv, $1, $3);
if ($$ == 0)
$$ = $1;
}
| multiplicative_expression PERCENT unary_expression {
parseContext.fullIntegerCheck($2.loc, "%");
$$ = parseContext.handleBinaryMath($2.loc, "%", EOpMod, $1, $3);
if ($$ == 0)
$$ = $1;
}
;
additive_expression
: multiplicative_expression { $$ = $1; }
| additive_expression PLUS multiplicative_expression {
$$ = parseContext.handleBinaryMath($2.loc, "+", EOpAdd, $1, $3);
if ($$ == 0)
$$ = $1;
}
| additive_expression DASH multiplicative_expression {
$$ = parseContext.handleBinaryMath($2.loc, "-", EOpSub, $1, $3);
if ($$ == 0)
$$ = $1;
}
;
shift_expression
: additive_expression { $$ = $1; }
| shift_expression LEFT_OP additive_expression {
parseContext.fullIntegerCheck($2.loc, "bit shift left");
$$ = parseContext.handleBinaryMath($2.loc, "<<", EOpLeftShift, $1, $3);
if ($$ == 0)
$$ = $1;
}
| shift_expression RIGHT_OP additive_expression {
parseContext.fullIntegerCheck($2.loc, "bit shift right");
$$ = parseContext.handleBinaryMath($2.loc, ">>", EOpRightShift, $1, $3);
if ($$ == 0)
$$ = $1;
}
;
relational_expression
: shift_expression { $$ = $1; }
| relational_expression LEFT_ANGLE shift_expression {
$$ = parseContext.handleBinaryMath($2.loc, "<", EOpLessThan, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
| relational_expression RIGHT_ANGLE shift_expression {
$$ = parseContext.handleBinaryMath($2.loc, ">", EOpGreaterThan, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
| relational_expression LE_OP shift_expression {
$$ = parseContext.handleBinaryMath($2.loc, "<=", EOpLessThanEqual, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
| relational_expression GE_OP shift_expression {
$$ = parseContext.handleBinaryMath($2.loc, ">=", EOpGreaterThanEqual, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
;
equality_expression
: relational_expression { $$ = $1; }
| equality_expression EQ_OP relational_expression {
parseContext.arrayObjectCheck($2.loc, $1->getType(), "array comparison");
parseContext.opaqueCheck($2.loc, $1->getType(), "==");
parseContext.specializationCheck($2.loc, $1->getType(), "==");
$$ = parseContext.handleBinaryMath($2.loc, "==", EOpEqual, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
| equality_expression NE_OP relational_expression {
parseContext.arrayObjectCheck($2.loc, $1->getType(), "array comparison");
parseContext.opaqueCheck($2.loc, $1->getType(), "!=");
parseContext.specializationCheck($2.loc, $1->getType(), "!=");
$$ = parseContext.handleBinaryMath($2.loc, "!=", EOpNotEqual, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
;
and_expression
: equality_expression { $$ = $1; }
| and_expression AMPERSAND equality_expression {
parseContext.fullIntegerCheck($2.loc, "bitwise and");
$$ = parseContext.handleBinaryMath($2.loc, "&", EOpAnd, $1, $3);
if ($$ == 0)
$$ = $1;
}
;
exclusive_or_expression
: and_expression { $$ = $1; }
| exclusive_or_expression CARET and_expression {
parseContext.fullIntegerCheck($2.loc, "bitwise exclusive or");
$$ = parseContext.handleBinaryMath($2.loc, "^", EOpExclusiveOr, $1, $3);
if ($$ == 0)
$$ = $1;
}
;
inclusive_or_expression
: exclusive_or_expression { $$ = $1; }
| inclusive_or_expression VERTICAL_BAR exclusive_or_expression {
parseContext.fullIntegerCheck($2.loc, "bitwise inclusive or");
$$ = parseContext.handleBinaryMath($2.loc, "|", EOpInclusiveOr, $1, $3);
if ($$ == 0)
$$ = $1;
}
;
logical_and_expression
: inclusive_or_expression { $$ = $1; }
| logical_and_expression AND_OP inclusive_or_expression {
$$ = parseContext.handleBinaryMath($2.loc, "&&", EOpLogicalAnd, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
;
logical_xor_expression
: logical_and_expression { $$ = $1; }
| logical_xor_expression XOR_OP logical_and_expression {
$$ = parseContext.handleBinaryMath($2.loc, "^^", EOpLogicalXor, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
;
logical_or_expression
: logical_xor_expression { $$ = $1; }
| logical_or_expression OR_OP logical_xor_expression {
$$ = parseContext.handleBinaryMath($2.loc, "||", EOpLogicalOr, $1, $3);
if ($$ == 0)
$$ = parseContext.intermediate.addConstantUnion(false, $2.loc);
}
;
conditional_expression
: logical_or_expression { $$ = $1; }
| logical_or_expression QUESTION {
++parseContext.controlFlowNestingLevel;
}
expression COLON assignment_expression {
--parseContext.controlFlowNestingLevel;
parseContext.boolCheck($2.loc, $1);
parseContext.rValueErrorCheck($2.loc, "?", $1);
parseContext.rValueErrorCheck($5.loc, ":", $4);
parseContext.rValueErrorCheck($5.loc, ":", $6);
$$ = parseContext.intermediate.addSelection($1, $4, $6, $2.loc);
if ($$ == 0) {
parseContext.binaryOpError($2.loc, ":", $4->getCompleteString(), $6->getCompleteString());
$$ = $6;
}
}
;
assignment_expression
: conditional_expression { $$ = $1; }
| unary_expression assignment_operator assignment_expression {
parseContext.arrayObjectCheck($2.loc, $1->getType(), "array assignment");
parseContext.opaqueCheck($2.loc, $1->getType(), "=");
parseContext.storage16BitAssignmentCheck($2.loc, $1->getType(), "=");
parseContext.specializationCheck($2.loc, $1->getType(), "=");
parseContext.lValueErrorCheck($2.loc, "assign", $1);
parseContext.rValueErrorCheck($2.loc, "assign", $3);
$$ = parseContext.intermediate.addAssign($2.op, $1, $3, $2.loc);
if ($$ == 0) {
parseContext.assignError($2.loc, "assign", $1->getCompleteString(), $3->getCompleteString());
$$ = $1;
}
}
;
assignment_operator
: EQUAL {
$$.loc = $1.loc;
$$.op = EOpAssign;
}
| MUL_ASSIGN {
$$.loc = $1.loc;
$$.op = EOpMulAssign;
}
| DIV_ASSIGN {
$$.loc = $1.loc;
$$.op = EOpDivAssign;
}
| MOD_ASSIGN {
parseContext.fullIntegerCheck($1.loc, "%=");
$$.loc = $1.loc;
$$.op = EOpModAssign;
}
| ADD_ASSIGN {
$$.loc = $1.loc;
$$.op = EOpAddAssign;
}
| SUB_ASSIGN {
$$.loc = $1.loc;
$$.op = EOpSubAssign;
}
| LEFT_ASSIGN {
parseContext.fullIntegerCheck($1.loc, "bit-shift left assign");
$$.loc = $1.loc; $$.op = EOpLeftShiftAssign;
}
| RIGHT_ASSIGN {
parseContext.fullIntegerCheck($1.loc, "bit-shift right assign");
$$.loc = $1.loc; $$.op = EOpRightShiftAssign;
}
| AND_ASSIGN {
parseContext.fullIntegerCheck($1.loc, "bitwise-and assign");
$$.loc = $1.loc; $$.op = EOpAndAssign;
}
| XOR_ASSIGN {
parseContext.fullIntegerCheck($1.loc, "bitwise-xor assign");
$$.loc = $1.loc; $$.op = EOpExclusiveOrAssign;
}
| OR_ASSIGN {
parseContext.fullIntegerCheck($1.loc, "bitwise-or assign");
$$.loc = $1.loc; $$.op = EOpInclusiveOrAssign;
}
;
expression
: assignment_expression {
$$ = $1;
}
| expression COMMA assignment_expression {
parseContext.samplerConstructorLocationCheck($2.loc, ",", $3);
$$ = parseContext.intermediate.addComma($1, $3, $2.loc);
if ($$ == 0) {
parseContext.binaryOpError($2.loc, ",", $1->getCompleteString(), $3->getCompleteString());
$$ = $3;
}
}
;
constant_expression
: conditional_expression {
parseContext.constantValueCheck($1, "");
$$ = $1;
}
;
declaration
: function_prototype SEMICOLON {
parseContext.handleFunctionDeclarator($1.loc, *$1.function, true /* prototype */);
$$ = 0;
// TODO: 4.0 functionality: subroutines: make the identifier a user type for this signature
}
| init_declarator_list SEMICOLON {
if ($1.intermNode && $1.intermNode->getAsAggregate())
$1.intermNode->getAsAggregate()->setOperator(EOpSequence);
$$ = $1.intermNode;
}
| PRECISION precision_qualifier type_specifier SEMICOLON {
parseContext.profileRequires($1.loc, ENoProfile, 130, 0, "precision statement");
// lazy setting of the previous scope's defaults, has effect only the first time it is called in a particular scope
parseContext.symbolTable.setPreviousDefaultPrecisions(&parseContext.defaultPrecision[0]);
parseContext.setDefaultPrecision($1.loc, $3, $2.qualifier.precision);
$$ = 0;
}
| block_structure SEMICOLON {
parseContext.declareBlock($1.loc, *$1.typeList);
$$ = 0;
}
| block_structure IDENTIFIER SEMICOLON {
parseContext.declareBlock($1.loc, *$1.typeList, $2.string);
$$ = 0;
}
| block_structure IDENTIFIER array_specifier SEMICOLON {
parseContext.declareBlock($1.loc, *$1.typeList, $2.string, $3.arraySizes);
$$ = 0;
}
| type_qualifier SEMICOLON {
parseContext.globalQualifierFixCheck($1.loc, $1.qualifier);
parseContext.updateStandaloneQualifierDefaults($1.loc, $1);
$$ = 0;
}
| type_qualifier IDENTIFIER SEMICOLON {
parseContext.checkNoShaderLayouts($1.loc, $1.shaderQualifiers);
parseContext.addQualifierToExisting($1.loc, $1.qualifier, *$2.string);
$$ = 0;
}
| type_qualifier IDENTIFIER identifier_list SEMICOLON {
parseContext.checkNoShaderLayouts($1.loc, $1.shaderQualifiers);
$3->push_back($2.string);
parseContext.addQualifierToExisting($1.loc, $1.qualifier, *$3);
$$ = 0;
}
;
block_structure
: type_qualifier IDENTIFIER LEFT_BRACE { parseContext.nestedBlockCheck($1.loc); } struct_declaration_list RIGHT_BRACE {
--parseContext.structNestingLevel;
parseContext.blockName = $2.string;
parseContext.globalQualifierFixCheck($1.loc, $1.qualifier);
parseContext.checkNoShaderLayouts($1.loc, $1.shaderQualifiers);
parseContext.currentBlockQualifier = $1.qualifier;
$$.loc = $1.loc;
$$.typeList = $5;
}
identifier_list
: COMMA IDENTIFIER {
$$ = new TIdentifierList;
$$->push_back($2.string);
}
| identifier_list COMMA IDENTIFIER {
$$ = $1;
$$->push_back($3.string);
}
;
function_prototype
: function_declarator RIGHT_PAREN {
$$.function = $1;
$$.loc = $2.loc;
}
;
function_declarator
: function_header {
$$ = $1;
}
| function_header_with_parameters {
$$ = $1;
}
;
function_header_with_parameters
: function_header parameter_declaration {
// Add the parameter
$$ = $1;
if ($2.param.type->getBasicType() != EbtVoid)
$1->addParameter($2.param);
else
delete $2.param.type;
}
| function_header_with_parameters COMMA parameter_declaration {
//
// Only first parameter of one-parameter functions can be void
// The check for named parameters not being void is done in parameter_declarator
//
if ($3.param.type->getBasicType() == EbtVoid) {
//
// This parameter > first is void
//
parseContext.error($2.loc, "cannot be an argument type except for '(void)'", "void", "");
delete $3.param.type;
} else {
// Add the parameter
$$ = $1;
$1->addParameter($3.param);
}
}
;
function_header
: fully_specified_type IDENTIFIER LEFT_PAREN {
if ($1.qualifier.storage != EvqGlobal && $1.qualifier.storage != EvqTemporary) {
parseContext.error($2.loc, "no qualifiers allowed for function return",
GetStorageQualifierString($1.qualifier.storage), "");
}
if ($1.arraySizes)
parseContext.arraySizeRequiredCheck($1.loc, *$1.arraySizes);
// Add the function as a prototype after parsing it (we do not support recursion)
TFunction *function;
TType type($1);
// Potentially rename shader entry point function. No-op most of the time.
parseContext.renameShaderFunction($2.string);
// Make the function
function = new TFunction($2.string, type);
$$ = function;
}
;
parameter_declarator
// Type + name
: type_specifier IDENTIFIER {
if ($1.arraySizes) {
parseContext.profileRequires($1.loc, ENoProfile, 120, E_GL_3DL_array_objects, "arrayed type");
parseContext.profileRequires($1.loc, EEsProfile, 300, 0, "arrayed type");
parseContext.arraySizeRequiredCheck($1.loc, *$1.arraySizes);
}
if ($1.basicType == EbtVoid) {
parseContext.error($2.loc, "illegal use of type 'void'", $2.string->c_str(), "");
}
parseContext.reservedErrorCheck($2.loc, *$2.string);
TParameter param = {$2.string, new TType($1)};
$$.loc = $2.loc;
$$.param = param;
}
| type_specifier IDENTIFIER array_specifier {
if ($1.arraySizes) {
parseContext.profileRequires($1.loc, ENoProfile, 120, E_GL_3DL_array_objects, "arrayed type");
parseContext.profileRequires($1.loc, EEsProfile, 300, 0, "arrayed type");
parseContext.arraySizeRequiredCheck($1.loc, *$1.arraySizes);
}
TType* type = new TType($1);
type->transferArraySizes($3.arraySizes);
type->copyArrayInnerSizes($1.arraySizes);
parseContext.arrayOfArrayVersionCheck($2.loc, type->getArraySizes());
parseContext.arraySizeRequiredCheck($3.loc, *$3.arraySizes);
parseContext.reservedErrorCheck($2.loc, *$2.string);
TParameter param = { $2.string, type };
$$.loc = $2.loc;
$$.param = param;
}
;
parameter_declaration
//
// With name
//
: type_qualifier parameter_declarator {
$$ = $2;
if ($1.qualifier.precision != EpqNone)
$$.param.type->getQualifier().precision = $1.qualifier.precision;
parseContext.precisionQualifierCheck($$.loc, $$.param.type->getBasicType(), $$.param.type->getQualifier());
parseContext.checkNoShaderLayouts($1.loc, $1.shaderQualifiers);
parseContext.parameterTypeCheck($2.loc, $1.qualifier.storage, *$$.param.type);
parseContext.paramCheckFix($1.loc, $1.qualifier, *$$.param.type);
}
| parameter_declarator {
$$ = $1;
parseContext.parameterTypeCheck($1.loc, EvqIn, *$1.param.type);
parseContext.paramCheckFixStorage($1.loc, EvqTemporary, *$$.param.type);
parseContext.precisionQualifierCheck($$.loc, $$.param.type->getBasicType(), $$.param.type->getQualifier());
}
//
// Without name
//
| type_qualifier parameter_type_specifier {
$$ = $2;
if ($1.qualifier.precision != EpqNone)
$$.param.type->getQualifier().precision = $1.qualifier.precision;
parseContext.precisionQualifierCheck($1.loc, $$.param.type->getBasicType(), $$.param.type->getQualifier());
parseContext.checkNoShaderLayouts($1.loc, $1.shaderQualifiers);
parseContext.parameterTypeCheck($2.loc, $1.qualifier.storage, *$$.param.type);
parseContext.paramCheckFix($1.loc, $1.qualifier, *$$.param.type);
}
| parameter_type_specifier {
$$ = $1;
parseContext.parameterTypeCheck($1.loc, EvqIn, *$1.param.type);
parseContext.paramCheckFixStorage($1.loc, EvqTemporary, *$$.param.type);
parseContext.precisionQualifierCheck($$.loc, $$.param.type->getBasicType(), $$.param.type->getQualifier());
}
;
parameter_type_specifier
: type_specifier {
TParameter param = { 0, new TType($1) };
$$.param = param;
if ($1.arraySizes)
parseContext.arraySizeRequiredCheck($1.loc, *$1.arraySizes);
}
;
init_declarator_list
: single_declaration {
$$ = $1;
}
| init_declarator_list COMMA IDENTIFIER {
$$ = $1;
parseContext.declareVariable($3.loc, *$3.string, $1.type);
}
| init_declarator_list COMMA IDENTIFIER array_specifier {
$$ = $1;
parseContext.declareVariable($3.loc, *$3.string, $1.type, $4.arraySizes);
}
| init_declarator_list COMMA IDENTIFIER array_specifier EQUAL initializer {
$$.type = $1.type;
TIntermNode* initNode = parseContext.declareVariable($3.loc, *$3.string, $1.type, $4.arraySizes, $6);
$$.intermNode = parseContext.intermediate.growAggregate($1.intermNode, initNode, $5.loc);
}
| init_declarator_list COMMA IDENTIFIER EQUAL initializer {
$$.type = $1.type;
TIntermNode* initNode = parseContext.declareVariable($3.loc, *$3.string, $1.type, 0, $5);
$$.intermNode = parseContext.intermediate.growAggregate($1.intermNode, initNode, $4.loc);
}
;
single_declaration
: fully_specified_type {
$$.type = $1;
$$.intermNode = 0;
parseContext.declareTypeDefaults($$.loc, $$.type);
}
| fully_specified_type IDENTIFIER {
$$.type = $1;
$$.intermNode = 0;
parseContext.declareVariable($2.loc, *$2.string, $1);
}
| fully_specified_type IDENTIFIER array_specifier {
$$.type = $1;
$$.intermNode = 0;
parseContext.declareVariable($2.loc, *$2.string, $1, $3.arraySizes);
}
| fully_specified_type IDENTIFIER array_specifier EQUAL initializer {
$$.type = $1;
TIntermNode* initNode = parseContext.declareVariable($2.loc, *$2.string, $1, $3.arraySizes, $5);
$$.intermNode = parseContext.intermediate.growAggregate(0, initNode, $4.loc);
}
| fully_specified_type IDENTIFIER EQUAL initializer {
$$.type = $1;
TIntermNode* initNode = parseContext.declareVariable($2.loc, *$2.string, $1, 0, $4);
$$.intermNode = parseContext.intermediate.growAggregate(0, initNode, $3.loc);
}
// Grammar Note: No 'enum', or 'typedef'.
fully_specified_type
: type_specifier {
$$ = $1;
parseContext.globalQualifierTypeCheck($1.loc, $1.qualifier, $$);
if ($1.arraySizes) {
parseContext.profileRequires($1.loc, ENoProfile, 120, E_GL_3DL_array_objects, "arrayed type");
parseContext.profileRequires($1.loc, EEsProfile, 300, 0, "arrayed type");
}
parseContext.precisionQualifierCheck($$.loc, $$.basicType, $$.qualifier);
}
| type_qualifier type_specifier {
parseContext.globalQualifierFixCheck($1.loc, $1.qualifier);
parseContext.globalQualifierTypeCheck($1.loc, $1.qualifier, $2);
if ($2.arraySizes) {
parseContext.profileRequires($2.loc, ENoProfile, 120, E_GL_3DL_array_objects, "arrayed type");
parseContext.profileRequires($2.loc, EEsProfile, 300, 0, "arrayed type");
}
if ($2.arraySizes && parseContext.arrayQualifierError($2.loc, $1.qualifier))
$2.arraySizes = nullptr;
parseContext.checkNoShaderLayouts($2.loc, $1.shaderQualifiers);
$2.shaderQualifiers.merge($1.shaderQualifiers);
parseContext.mergeQualifiers($2.loc, $2.qualifier, $1.qualifier, true);
parseContext.precisionQualifierCheck($2.loc, $2.basicType, $2.qualifier);
$$ = $2;
if (! $$.qualifier.isInterpolation() &&
((parseContext.language == EShLangVertex && $$.qualifier.storage == EvqVaryingOut) ||
(parseContext.language == EShLangFragment && $$.qualifier.storage == EvqVaryingIn)))
$$.qualifier.smooth = true;
}
;
invariant_qualifier
: INVARIANT {
parseContext.globalCheck($1.loc, "invariant");
parseContext.profileRequires($$.loc, ENoProfile, 120, 0, "invariant");
$$.init($1.loc);
$$.qualifier.invariant = true;
}
;
interpolation_qualifier
: SMOOTH {
parseContext.globalCheck($1.loc, "smooth");
parseContext.profileRequires($1.loc, ENoProfile, 130, 0, "smooth");
parseContext.profileRequires($1.loc, EEsProfile, 300, 0, "smooth");
$$.init($1.loc);
$$.qualifier.smooth = true;
}
| FLAT {
parseContext.globalCheck($1.loc, "flat");
parseContext.profileRequires($1.loc, ENoProfile, 130, 0, "flat");
parseContext.profileRequires($1.loc, EEsProfile, 300, 0, "flat");
$$.init($1.loc);
$$.qualifier.flat = true;
}
| NOPERSPECTIVE {
parseContext.globalCheck($1.loc, "noperspective");
#ifdef NV_EXTENSIONS
parseContext.profileRequires($1.loc, EEsProfile, 0, E_GL_NV_shader_noperspective_interpolation, "noperspective");
#else
parseContext.requireProfile($1.loc, ~EEsProfile, "noperspective");
#endif
parseContext.profileRequires($1.loc, ENoProfile, 130, 0, "noperspective");
$$.init($1.loc);
$$.qualifier.nopersp = true;
}
| EXPLICITINTERPAMD {
#ifdef AMD_EXTENSIONS
parseContext.globalCheck($1.loc, "__explicitInterpAMD");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_AMD_shader_explicit_vertex_parameter, "explicit interpolation");
parseContext.profileRequires($1.loc, ECompatibilityProfile, 450, E_GL_AMD_shader_explicit_vertex_parameter, "explicit interpolation");
$$.init($1.loc);
$$.qualifier.explicitInterp = true;
#endif
}
| PERVERTEXNV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "pervertexNV");
parseContext.profileRequires($1.loc, ECoreProfile, 0, E_GL_NV_fragment_shader_barycentric, "fragment shader barycentric");
parseContext.profileRequires($1.loc, ECompatibilityProfile, 0, E_GL_NV_fragment_shader_barycentric, "fragment shader barycentric");
parseContext.profileRequires($1.loc, EEsProfile, 0, E_GL_NV_fragment_shader_barycentric, "fragment shader barycentric");
$$.init($1.loc);
$$.qualifier.pervertexNV = true;
#endif
}
| PERPRIMITIVENV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "perprimitiveNV");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_NV_mesh_shader, "perprimitiveNV");
$$.init($1.loc);
$$.qualifier.perPrimitiveNV = true;
#endif
}
| PERVIEWNV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "perviewNV");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_NV_mesh_shader, "perviewNV");
$$.init($1.loc);
$$.qualifier.perViewNV = true;
#endif
}
| PERTASKNV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "taskNV");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_NV_mesh_shader, "taskNV");
$$.init($1.loc);
$$.qualifier.perTaskNV = true;
#endif
}
;
layout_qualifier
: LAYOUT LEFT_PAREN layout_qualifier_id_list RIGHT_PAREN {
$$ = $3;
}
;
layout_qualifier_id_list
: layout_qualifier_id {
$$ = $1;
}
| layout_qualifier_id_list COMMA layout_qualifier_id {
$$ = $1;
$$.shaderQualifiers.merge($3.shaderQualifiers);
parseContext.mergeObjectLayoutQualifiers($$.qualifier, $3.qualifier, false);
}
layout_qualifier_id
: IDENTIFIER {
$$.init($1.loc);
parseContext.setLayoutQualifier($1.loc, $$, *$1.string);
}
| IDENTIFIER EQUAL constant_expression {
$$.init($1.loc);
parseContext.setLayoutQualifier($1.loc, $$, *$1.string, $3);
}
| SHARED { // because "shared" is both an identifier and a keyword
$$.init($1.loc);
TString strShared("shared");
parseContext.setLayoutQualifier($1.loc, $$, strShared);
}
;
precise_qualifier
: PRECISE {
parseContext.profileRequires($$.loc, ECoreProfile | ECompatibilityProfile, 400, E_GL_ARB_gpu_shader5, "precise");
parseContext.profileRequires($1.loc, EEsProfile, 320, Num_AEP_gpu_shader5, AEP_gpu_shader5, "precise");
$$.init($1.loc);
$$.qualifier.noContraction = true;
}
;
type_qualifier
: single_type_qualifier {
$$ = $1;
}
| type_qualifier single_type_qualifier {
$$ = $1;
if ($$.basicType == EbtVoid)
$$.basicType = $2.basicType;
$$.shaderQualifiers.merge($2.shaderQualifiers);
parseContext.mergeQualifiers($$.loc, $$.qualifier, $2.qualifier, false);
}
;
single_type_qualifier
: storage_qualifier {
$$ = $1;
}
| layout_qualifier {
$$ = $1;
}
| precision_qualifier {
parseContext.checkPrecisionQualifier($1.loc, $1.qualifier.precision);
$$ = $1;
}
| interpolation_qualifier {
// allow inheritance of storage qualifier from block declaration
$$ = $1;
}
| invariant_qualifier {
// allow inheritance of storage qualifier from block declaration
$$ = $1;
}
| precise_qualifier {
// allow inheritance of storage qualifier from block declaration
$$ = $1;
}
| non_uniform_qualifier {
$$ = $1;
}
;
storage_qualifier
: CONST {
$$.init($1.loc);
$$.qualifier.storage = EvqConst; // will later turn into EvqConstReadOnly, if the initializer is not constant
}
| ATTRIBUTE {
parseContext.requireStage($1.loc, EShLangVertex, "attribute");
parseContext.checkDeprecated($1.loc, ECoreProfile, 130, "attribute");
parseContext.checkDeprecated($1.loc, ENoProfile, 130, "attribute");
parseContext.requireNotRemoved($1.loc, ECoreProfile, 420, "attribute");
parseContext.requireNotRemoved($1.loc, EEsProfile, 300, "attribute");
parseContext.globalCheck($1.loc, "attribute");
$$.init($1.loc);
$$.qualifier.storage = EvqVaryingIn;
}
| VARYING {
parseContext.checkDeprecated($1.loc, ENoProfile, 130, "varying");
parseContext.checkDeprecated($1.loc, ECoreProfile, 130, "varying");
parseContext.requireNotRemoved($1.loc, ECoreProfile, 420, "varying");
parseContext.requireNotRemoved($1.loc, EEsProfile, 300, "varying");
parseContext.globalCheck($1.loc, "varying");
$$.init($1.loc);
if (parseContext.language == EShLangVertex)
$$.qualifier.storage = EvqVaryingOut;
else
$$.qualifier.storage = EvqVaryingIn;
}
| INOUT {
parseContext.globalCheck($1.loc, "inout");
$$.init($1.loc);
$$.qualifier.storage = EvqInOut;
}
| IN {
parseContext.globalCheck($1.loc, "in");
$$.init($1.loc);
// whether this is a parameter "in" or a pipeline "in" will get sorted out a bit later
$$.qualifier.storage = EvqIn;
}
| OUT {
parseContext.globalCheck($1.loc, "out");
$$.init($1.loc);
// whether this is a parameter "out" or a pipeline "out" will get sorted out a bit later
$$.qualifier.storage = EvqOut;
}
| CENTROID {
parseContext.profileRequires($1.loc, ENoProfile, 120, 0, "centroid");
parseContext.profileRequires($1.loc, EEsProfile, 300, 0, "centroid");
parseContext.globalCheck($1.loc, "centroid");
$$.init($1.loc);
$$.qualifier.centroid = true;
}
| PATCH {
parseContext.globalCheck($1.loc, "patch");
parseContext.requireStage($1.loc, (EShLanguageMask)(EShLangTessControlMask | EShLangTessEvaluationMask), "patch");
$$.init($1.loc);
$$.qualifier.patch = true;
}
| SAMPLE {
parseContext.globalCheck($1.loc, "sample");
$$.init($1.loc);
$$.qualifier.sample = true;
}
| UNIFORM {
parseContext.globalCheck($1.loc, "uniform");
$$.init($1.loc);
$$.qualifier.storage = EvqUniform;
}
| BUFFER {
parseContext.globalCheck($1.loc, "buffer");
$$.init($1.loc);
$$.qualifier.storage = EvqBuffer;
}
| HITATTRNV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "hitAttributeNVX");
parseContext.requireStage($1.loc, (EShLanguageMask)(EShLangIntersectNVMask | EShLangClosestHitNVMask
| EShLangAnyHitNVMask), "hitAttributeNVX");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_NVX_raytracing, "hitAttributeNVX");
$$.init($1.loc);
$$.qualifier.storage = EvqHitAttrNV;
#endif
}
| PAYLOADNV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "rayPayloadNVX");
parseContext.requireStage($1.loc, (EShLanguageMask)(EShLangRayGenNVMask | EShLangClosestHitNVMask |
EShLangAnyHitNVMask | EShLangMissNVMask), "rayPayloadNVX");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_NVX_raytracing, "rayPayloadNVX");
$$.init($1.loc);
$$.qualifier.storage = EvqPayloadNV;
#endif
}
| PAYLOADINNV {
#ifdef NV_EXTENSIONS
parseContext.globalCheck($1.loc, "rayPayloadInNVX");
parseContext.requireStage($1.loc, (EShLanguageMask)(EShLangClosestHitNVMask |
EShLangAnyHitNVMask | EShLangMissNVMask), "rayPayloadInNVX");
parseContext.profileRequires($1.loc, ECoreProfile, 450, E_GL_NVX_raytracing, "rayPayloadInNVX");
$$.init($1.loc);
$$.qualifier.storage = EvqPayloadInNV;
#endif
}
| SHARED {
parseContext.globalCheck($1.loc, "shared");
parseContext.profileRequires($1.loc, ECoreProfile | ECompatibilityProfile, 430, E_GL_ARB_compute_shader, "shared");
parseContext.profileRequires($1.loc, EEsProfile, 310, 0, "shared");
#ifdef NV_EXTENSIONS
parseContext.requireStage($1.loc, (EShLanguageMask)(EShLangComputeMask | EShLangMeshNVMask | EShLangTaskNVMask), "shared");
#else
parseContext.requireStage($1.loc, EShLangCompute, "shared");
#endif
$$.init($1.loc);
$$.qualifier.storage = EvqShared;
}
| COHERENT {
$$.init($1.loc);
$$.qualifier.coherent = true;
}
| DEVICECOHERENT {
$$.init($1.loc);
parseContext.requireExtensions($1.loc, 1, &E_GL_KHR_memory_scope_semantics, "devicecoherent");
$$.qualifier.devicecoherent = true;
}
| QUEUEFAMILYCOHERENT {
$$.init($1.loc);
parseContext.requireExtensions($1.loc, 1, &E_GL_KHR_memory_scope_semantics, "queuefamilycoherent");
$$.qualifier.queuefamilycoherent = true;
}
| WORKGROUPCOHERENT {
$$.init($1.loc);
parseContext.requireExtensions($1.loc, 1, &E_GL_KHR_memory_scope_semantics, "workgroupcoherent");
$$.qualifier.workgroupcoherent = true;
}
| SUBGROUPCOHERENT {
$$.init($1.loc);
parseContext.requireExtensions($1.loc, 1, &E_GL_KHR_memory_scope_semantics, "subgroupcoherent");
$$.qualifier.subgroupcoherent = true;
}
| NONPRIVATE {
$$.init($1.loc);
parseContext.requireExtensions($1.loc, 1, &E_GL_KHR_memory_scope_semantics, "nonprivate");
$$.qualifier.nonprivate = true;
}
| VOLATILE {
$$.init($1.loc);
$$.qualifier.volatil = true;
}
| RESTRICT {
$$.init($1.loc);
$$.qualifier.restrict = true;
}
| READONLY {
$$.init($1.loc);
$$.qualifier.readonly = true;
}
| WRITEONLY {
$$.init($1.loc);
$$.qualifier.writeonly = true;
}
| SUBROUTINE {
parseContext.spvRemoved($1.loc, "subroutine");
parseContext.globalCheck($1.loc, "subroutine");
parseContext.unimplemented($1.loc, "subroutine");
$$.init($1.loc);
}
| SUBROUTINE LEFT_PAREN type_name_list RIGHT_PAREN {
parseContext.spvRemoved($1.loc, "subroutine");
parseContext.globalCheck($1.loc, "subroutine");
parseContext.unimplemented($1.loc, "subroutine");
$$.init($1.loc);
}
;
non_uniform_qualifier
: NONUNIFORM {
$$.init($1.loc);
$$.qualifier.nonUniform = true;
}
;
type_name_list
: IDENTIFIER {
// TODO
}
| type_name_list COMMA IDENTIFIER {
// TODO: 4.0 semantics: subroutines
// 1) make sure each identifier is a type declared earlier with SUBROUTINE
// 2) save all of the identifiers for future comparison with the declared function
}
;
type_specifier
: type_specifier_nonarray {
$$ = $1;
$$.qualifier.precision = parseContext.getDefaultPrecision($$);
}
| type_specifier_nonarray array_specifier {
parseContext.arrayOfArrayVersionCheck($2.loc, $2.arraySizes);
$$ = $1;
$$.qualifier.precision = parseContext.getDefaultPrecision($$);
$$.arraySizes = $2.arraySizes;
}
;
array_specifier
: LEFT_BRACKET RIGHT_BRACKET {
$$.loc = $1.loc;
$$.arraySizes = new TArraySizes;
$$.arraySizes->addInnerSize();
}
| LEFT_BRACKET conditional_expression RIGHT_BRACKET {
$$.loc = $1.loc;
$$.arraySizes = new TArraySizes;
TArraySize size;
parseContext.arraySizeCheck($2->getLoc(), $2, size);
$$.arraySizes->addInnerSize(size);
}
| array_specifier LEFT_BRACKET RIGHT_BRACKET {
$$ = $1;
$$.arraySizes->addInnerSize();
}
| array_specifier LEFT_BRACKET conditional_expression RIGHT_BRACKET {
$$ = $1;
TArraySize size;
parseContext.arraySizeCheck($3->getLoc(), $3, size);
$$.arraySizes->addInnerSize(size);
}
;
type_specifier_nonarray
: VOID {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtVoid;
}
| FLOAT {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
}
| DOUBLE {
parseContext.doubleCheck($1.loc, "double");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
}
| FLOAT16_T {
parseContext.float16ScalarVectorCheck($1.loc, "float16_t", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
}
| FLOAT32_T {
parseContext.explicitFloat32Check($1.loc, "float32_t", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
}
| FLOAT64_T {
parseContext.explicitFloat64Check($1.loc, "float64_t", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
}
| INT {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
}
| UINT {
parseContext.fullIntegerCheck($1.loc, "unsigned integer");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
}
| INT8_T {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit signed integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt8;
}
| UINT8_T {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit unsigned integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint8;
}
| INT16_T {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit signed integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt16;
}
| UINT16_T {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit unsigned integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint16;
}
| INT32_T {
parseContext.explicitInt32Check($1.loc, "32-bit signed integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
}
| UINT32_T {
parseContext.explicitInt32Check($1.loc, "32-bit unsigned integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
}
| INT64_T {
parseContext.int64Check($1.loc, "64-bit integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt64;
}
| UINT64_T {
parseContext.int64Check($1.loc, "64-bit unsigned integer", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint64;
}
| BOOL {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtBool;
}
| VEC2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setVector(2);
}
| VEC3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setVector(3);
}
| VEC4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setVector(4);
}
| DVEC2 {
parseContext.doubleCheck($1.loc, "double vector");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setVector(2);
}
| DVEC3 {
parseContext.doubleCheck($1.loc, "double vector");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setVector(3);
}
| DVEC4 {
parseContext.doubleCheck($1.loc, "double vector");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setVector(4);
}
| F16VEC2 {
parseContext.float16ScalarVectorCheck($1.loc, "half float vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setVector(2);
}
| F16VEC3 {
parseContext.float16ScalarVectorCheck($1.loc, "half float vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setVector(3);
}
| F16VEC4 {
parseContext.float16ScalarVectorCheck($1.loc, "half float vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setVector(4);
}
| F32VEC2 {
parseContext.explicitFloat32Check($1.loc, "float32_t vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setVector(2);
}
| F32VEC3 {
parseContext.explicitFloat32Check($1.loc, "float32_t vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setVector(3);
}
| F32VEC4 {
parseContext.explicitFloat32Check($1.loc, "float32_t vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setVector(4);
}
| F64VEC2 {
parseContext.explicitFloat64Check($1.loc, "float64_t vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setVector(2);
}
| F64VEC3 {
parseContext.explicitFloat64Check($1.loc, "float64_t vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setVector(3);
}
| F64VEC4 {
parseContext.explicitFloat64Check($1.loc, "float64_t vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setVector(4);
}
| BVEC2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtBool;
$$.setVector(2);
}
| BVEC3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtBool;
$$.setVector(3);
}
| BVEC4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtBool;
$$.setVector(4);
}
| IVEC2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
$$.setVector(2);
}
| IVEC3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
$$.setVector(3);
}
| IVEC4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
$$.setVector(4);
}
| I8VEC2 {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt8;
$$.setVector(2);
}
| I8VEC3 {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt8;
$$.setVector(3);
}
| I8VEC4 {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt8;
$$.setVector(4);
}
| I16VEC2 {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt16;
$$.setVector(2);
}
| I16VEC3 {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt16;
$$.setVector(3);
}
| I16VEC4 {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt16;
$$.setVector(4);
}
| I32VEC2 {
parseContext.explicitInt32Check($1.loc, "32-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
$$.setVector(2);
}
| I32VEC3 {
parseContext.explicitInt32Check($1.loc, "32-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
$$.setVector(3);
}
| I32VEC4 {
parseContext.explicitInt32Check($1.loc, "32-bit signed integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt;
$$.setVector(4);
}
| I64VEC2 {
parseContext.int64Check($1.loc, "64-bit integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt64;
$$.setVector(2);
}
| I64VEC3 {
parseContext.int64Check($1.loc, "64-bit integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt64;
$$.setVector(3);
}
| I64VEC4 {
parseContext.int64Check($1.loc, "64-bit integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtInt64;
$$.setVector(4);
}
| UVEC2 {
parseContext.fullIntegerCheck($1.loc, "unsigned integer vector");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
$$.setVector(2);
}
| UVEC3 {
parseContext.fullIntegerCheck($1.loc, "unsigned integer vector");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
$$.setVector(3);
}
| UVEC4 {
parseContext.fullIntegerCheck($1.loc, "unsigned integer vector");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
$$.setVector(4);
}
| U8VEC2 {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint8;
$$.setVector(2);
}
| U8VEC3 {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint8;
$$.setVector(3);
}
| U8VEC4 {
parseContext.int8ScalarVectorCheck($1.loc, "8-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint8;
$$.setVector(4);
}
| U16VEC2 {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint16;
$$.setVector(2);
}
| U16VEC3 {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint16;
$$.setVector(3);
}
| U16VEC4 {
parseContext.int16ScalarVectorCheck($1.loc, "16-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint16;
$$.setVector(4);
}
| U32VEC2 {
parseContext.explicitInt32Check($1.loc, "32-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
$$.setVector(2);
}
| U32VEC3 {
parseContext.explicitInt32Check($1.loc, "32-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
$$.setVector(3);
}
| U32VEC4 {
parseContext.explicitInt32Check($1.loc, "32-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint;
$$.setVector(4);
}
| U64VEC2 {
parseContext.int64Check($1.loc, "64-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint64;
$$.setVector(2);
}
| U64VEC3 {
parseContext.int64Check($1.loc, "64-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint64;
$$.setVector(3);
}
| U64VEC4 {
parseContext.int64Check($1.loc, "64-bit unsigned integer vector", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtUint64;
$$.setVector(4);
}
| MAT2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 2);
}
| MAT3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 3);
}
| MAT4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 4);
}
| MAT2X2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 2);
}
| MAT2X3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 3);
}
| MAT2X4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 4);
}
| MAT3X2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 2);
}
| MAT3X3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 3);
}
| MAT3X4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 4);
}
| MAT4X2 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 2);
}
| MAT4X3 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 3);
}
| MAT4X4 {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 4);
}
| DMAT2 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 2);
}
| DMAT3 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 3);
}
| DMAT4 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 4);
}
| DMAT2X2 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 2);
}
| DMAT2X3 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 3);
}
| DMAT2X4 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 4);
}
| DMAT3X2 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 2);
}
| DMAT3X3 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 3);
}
| DMAT3X4 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 4);
}
| DMAT4X2 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 2);
}
| DMAT4X3 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 3);
}
| DMAT4X4 {
parseContext.doubleCheck($1.loc, "double matrix");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 4);
}
| F16MAT2 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(2, 2);
}
| F16MAT3 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(3, 3);
}
| F16MAT4 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(4, 4);
}
| F16MAT2X2 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(2, 2);
}
| F16MAT2X3 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(2, 3);
}
| F16MAT2X4 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(2, 4);
}
| F16MAT3X2 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(3, 2);
}
| F16MAT3X3 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(3, 3);
}
| F16MAT3X4 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(3, 4);
}
| F16MAT4X2 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(4, 2);
}
| F16MAT4X3 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(4, 3);
}
| F16MAT4X4 {
parseContext.float16Check($1.loc, "half float matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat16;
$$.setMatrix(4, 4);
}
| F32MAT2 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 2);
}
| F32MAT3 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 3);
}
| F32MAT4 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 4);
}
| F32MAT2X2 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 2);
}
| F32MAT2X3 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 3);
}
| F32MAT2X4 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(2, 4);
}
| F32MAT3X2 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 2);
}
| F32MAT3X3 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 3);
}
| F32MAT3X4 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(3, 4);
}
| F32MAT4X2 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 2);
}
| F32MAT4X3 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 3);
}
| F32MAT4X4 {
parseContext.explicitFloat32Check($1.loc, "float32_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtFloat;
$$.setMatrix(4, 4);
}
| F64MAT2 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 2);
}
| F64MAT3 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 3);
}
| F64MAT4 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 4);
}
| F64MAT2X2 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 2);
}
| F64MAT2X3 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 3);
}
| F64MAT2X4 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(2, 4);
}
| F64MAT3X2 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 2);
}
| F64MAT3X3 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 3);
}
| F64MAT3X4 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(3, 4);
}
| F64MAT4X2 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 2);
}
| F64MAT4X3 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 3);
}
| F64MAT4X4 {
parseContext.explicitFloat64Check($1.loc, "float64_t matrix", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtDouble;
$$.setMatrix(4, 4);
}
| ACCSTRUCTNV {
#ifdef NV_EXTENSIONS
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtAccStructNV;
#endif
}
| ATOMIC_UINT {
parseContext.vulkanRemoved($1.loc, "atomic counter types");
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtAtomicUint;
}
| SAMPLER1D {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd1D);
}
| SAMPLER2D {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd2D);
}
| SAMPLER3D {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd3D);
}
| SAMPLERCUBE {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, EsdCube);
}
| SAMPLER1DSHADOW {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd1D, false, true);
}
| SAMPLER2DSHADOW {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd2D, false, true);
}
| SAMPLERCUBESHADOW {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, EsdCube, false, true);
}
| SAMPLER1DARRAY {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd1D, true);
}
| SAMPLER2DARRAY {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd2D, true);
}
| SAMPLER1DARRAYSHADOW {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd1D, true, true);
}
| SAMPLER2DARRAYSHADOW {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, Esd2D, true, true);
}
| SAMPLERCUBEARRAY {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, EsdCube, true);
}
| SAMPLERCUBEARRAYSHADOW {
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat, EsdCube, true, true);
}
| F16SAMPLER1D {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd1D);
#endif
}
| F16SAMPLER2D {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd2D);
#endif
}
| F16SAMPLER3D {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd3D);
#endif
}
| F16SAMPLERCUBE {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, EsdCube);
#endif
}
| F16SAMPLER1DSHADOW {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd1D, false, true);
#endif
}
| F16SAMPLER2DSHADOW {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd2D, false, true);
#endif
}
| F16SAMPLERCUBESHADOW {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, EsdCube, false, true);
#endif
}
| F16SAMPLER1DARRAY {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd1D, true);
#endif
}
| F16SAMPLER2DARRAY {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd2D, true);
#endif
}
| F16SAMPLER1DARRAYSHADOW {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd1D, true, true);
#endif
}
| F16SAMPLER2DARRAYSHADOW {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, Esd2D, true, true);
#endif
}
| F16SAMPLERCUBEARRAY {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloat16, EsdCube, true);
#endif
}
| F16SAMPLERCUBEARRAYSHADOW {
#ifdef AMD_EXTENSIONS
parseContext.float16OpaqueCheck($1.loc, "half float sampler", parseContext.symbolTable.atBuiltInLevel());
$$.init($1.loc, parseContext.symbolTable.atGlobalLevel());
$$.basicType = EbtSampler;
$$.sampler.set(EbtFloa