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parse.yy
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parse.yy
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/*
Copyright (c) 2010-2013, Intel Corporation
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 Intel Corporation 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 OWNER
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.
*/
%locations
/* supress shift-reduces conflict message for dangling else */
/* one for 'if', one for 'cif' */
%expect 2
%define parse.error verbose
%code requires {
#define yytnamerr lYYTNameErr
#define YYLTYPE SourcePos
# define YYLLOC_DEFAULT(Current, Rhs, N) \
do \
if (N) \
{ \
(Current).first_line = YYRHSLOC (Rhs, 1).first_line; \
(Current).first_column = YYRHSLOC (Rhs, 1).first_column; \
(Current).last_line = YYRHSLOC (Rhs, N).last_line; \
(Current).last_column = YYRHSLOC (Rhs, N).last_column; \
(Current).name = YYRHSLOC (Rhs, 1).name ; \
} \
else \
{ /* empty RHS */ \
(Current).first_line = (Current).last_line = \
YYRHSLOC (Rhs, 0).last_line; \
(Current).first_column = (Current).last_column = \
YYRHSLOC (Rhs, 0).last_column; \
(Current).name = NULL; /* new */ \
} \
while (0)
struct ForeachDimension;
}
%{
#include "ispc.h"
#include "type.h"
#include "module.h"
#include "decl.h"
#include "expr.h"
#include "sym.h"
#include "stmt.h"
#include "util.h"
#include <stdio.h>
#if ISPC_LLVM_VERSION == ISPC_LLVM_3_2
#include <llvm/Constants.h>
#else
#include <llvm/IR/Constants.h>
#endif
#define UNIMPLEMENTED \
Error(yylloc, "Unimplemented parser functionality %s:%d", \
__FILE__, __LINE__);
union YYSTYPE;
extern int yylex();
extern char *yytext;
void yyerror(const char *s);
static int lYYTNameErr(char *yyres, const char *yystr);
static void lSuggestBuiltinAlternates();
static void lSuggestParamListAlternates();
static void lAddDeclaration(DeclSpecs *ds, Declarator *decl);
static void lAddFunctionParams(Declarator *decl);
static void lAddMaskToSymbolTable(SourcePos pos);
static void lAddThreadIndexCountToSymbolTable(SourcePos pos);
static std::string lGetAlternates(std::vector<std::string> &alternates);
static const char *lGetStorageClassString(StorageClass sc);
static bool lGetConstantInt(Expr *expr, int *value, SourcePos pos, const char *usage);
static EnumType *lCreateEnumType(const char *name, std::vector<Symbol *> *enums,
SourcePos pos);
static void lFinalizeEnumeratorSymbols(std::vector<Symbol *> &enums,
const EnumType *enumType);
static const char *lBuiltinTokens[] = {
"assert", "bool", "break", "case", "cdo", "cfor", "cif", "cwhile", "const",
"continue", "default", "do", "delete", "double", "else", "enum", "export",
"extern", "false", "float", "floating", "for", "foreach", "foreach_active",
"foreach_tiled", "foreach_unique", "goto", "if", "in", "inline", "int",
"int8", "int16", "int32", "int64", "integer", "launch", "new", "NULL",
"number", "print", "return", "signed", "sizeof", "static", "struct",
"switch", "sync", "task", "true", "typedef", "uniform", "unmasked",
"unsigned", "varying", "void", "while", NULL
};
static const char *lParamListTokens[] = {
"bool", "const", "double", "enum", "false", "float", "floating", "int",
"int8", "int16", "int32", "int64", "integer", "number", "signed", "struct",
"true", "uniform", "unsigned", "varying", "void", NULL
};
struct ForeachDimension {
ForeachDimension(Symbol *s = NULL, Expr *b = NULL, Expr *e = NULL) {
sym = s;
beginExpr = b;
endExpr = e;
}
Symbol *sym;
Expr *beginExpr, *endExpr;
};
%}
%union {
uint64_t intVal;
float floatVal;
double doubleVal;
std::string *stringVal;
const char *constCharPtr;
Expr *expr;
ExprList *exprList;
const Type *type;
std::vector<std::pair<const Type *, SourcePos> > *typeList;
const AtomicType *atomicType;
const PolyType *polyType;
int typeQualifier;
StorageClass storageClass;
Stmt *stmt;
DeclSpecs *declSpecs;
Declaration *declaration;
std::vector<Declarator *> *declarators;
std::vector<Declaration *> *declarationList;
Declarator *declarator;
std::vector<Declarator *> *structDeclaratorList;
StructDeclaration *structDeclaration;
std::vector<StructDeclaration *> *structDeclarationList;
const EnumType *enumType;
Symbol *symbol;
std::vector<Symbol *> *symbolList;
ForeachDimension *foreachDimension;
std::vector<ForeachDimension *> *foreachDimensionList;
std::pair<std::string, SourcePos> *declspecPair;
std::vector<std::pair<std::string, SourcePos> > *declspecList;
}
%token TOKEN_INT8_CONSTANT TOKEN_UINT8_CONSTANT
%token TOKEN_INT16_CONSTANT TOKEN_UINT16_CONSTANT
%token TOKEN_INT32_CONSTANT TOKEN_UINT32_CONSTANT
%token TOKEN_INT64_CONSTANT TOKEN_UINT64_CONSTANT
%token TOKEN_INT32DOTDOTDOT_CONSTANT TOKEN_UINT32DOTDOTDOT_CONSTANT
%token TOKEN_INT64DOTDOTDOT_CONSTANT TOKEN_UINT64DOTDOTDOT_CONSTANT
%token TOKEN_FLOAT_CONSTANT TOKEN_DOUBLE_CONSTANT TOKEN_STRING_C_LITERAL
%token TOKEN_IDENTIFIER TOKEN_STRING_LITERAL TOKEN_TYPE_NAME TOKEN_NULL
%token TOKEN_PTR_OP TOKEN_INC_OP TOKEN_DEC_OP TOKEN_LEFT_OP TOKEN_RIGHT_OP
%token TOKEN_LE_OP TOKEN_GE_OP TOKEN_EQ_OP TOKEN_NE_OP
%token TOKEN_AND_OP TOKEN_OR_OP TOKEN_MUL_ASSIGN TOKEN_DIV_ASSIGN TOKEN_MOD_ASSIGN
%token TOKEN_ADD_ASSIGN TOKEN_SUB_ASSIGN TOKEN_LEFT_ASSIGN TOKEN_RIGHT_ASSIGN
%token TOKEN_AND_ASSIGN TOKEN_OR_ASSIGN TOKEN_XOR_ASSIGN
%token TOKEN_SIZEOF TOKEN_NEW TOKEN_DELETE TOKEN_IN
%token TOKEN_EXTERN TOKEN_EXPORT TOKEN_STATIC TOKEN_INLINE TOKEN_TASK TOKEN_DECLSPEC
%token TOKEN_UNIFORM TOKEN_VARYING TOKEN_TYPEDEF TOKEN_SOA TOKEN_UNMASKED
%token TOKEN_CHAR TOKEN_INT TOKEN_SIGNED TOKEN_UNSIGNED TOKEN_FLOAT TOKEN_DOUBLE
%token TOKEN_INTEGER TOKEN_FLOATING TOKEN_NUMBER
%token TOKEN_INT8 TOKEN_INT16 TOKEN_INT64 TOKEN_CONST TOKEN_VOID TOKEN_BOOL
%token TOKEN_ENUM TOKEN_STRUCT TOKEN_TRUE TOKEN_FALSE
%token TOKEN_CASE TOKEN_DEFAULT TOKEN_IF TOKEN_ELSE TOKEN_SWITCH
%token TOKEN_WHILE TOKEN_DO TOKEN_LAUNCH TOKEN_FOREACH TOKEN_FOREACH_TILED
%token TOKEN_FOREACH_UNIQUE TOKEN_FOREACH_ACTIVE TOKEN_DOTDOTDOT
%token TOKEN_FOR TOKEN_GOTO TOKEN_CONTINUE TOKEN_BREAK TOKEN_RETURN
%token TOKEN_CIF TOKEN_CDO TOKEN_CFOR TOKEN_CWHILE
%token TOKEN_SYNC TOKEN_PRINT TOKEN_ASSERT
%type <expr> primary_expression postfix_expression integer_dotdotdot
%type <expr> unary_expression cast_expression funcall_expression launch_expression
%type <expr> multiplicative_expression additive_expression shift_expression
%type <expr> relational_expression equality_expression and_expression
%type <expr> exclusive_or_expression inclusive_or_expression
%type <expr> logical_and_expression logical_or_expression new_expression
%type <expr> conditional_expression assignment_expression expression
%type <expr> initializer constant_expression for_test
%type <exprList> argument_expression_list initializer_list
%type <stmt> statement labeled_statement compound_statement for_init_statement
%type <stmt> expression_statement selection_statement iteration_statement
%type <stmt> jump_statement statement_list declaration_statement print_statement
%type <stmt> assert_statement sync_statement delete_statement unmasked_statement
%type <declaration> declaration parameter_declaration
%type <declarators> init_declarator_list
%type <declarationList> parameter_list parameter_type_list
%type <declarator> declarator pointer reference
%type <declarator> init_declarator direct_declarator struct_declarator
%type <declarator> abstract_declarator direct_abstract_declarator
%type <structDeclaratorList> struct_declarator_list
%type <structDeclaration> struct_declaration
%type <structDeclarationList> struct_declaration_list
%type <symbolList> enumerator_list
%type <symbol> enumerator foreach_identifier foreach_active_identifier
%type <enumType> enum_specifier
%type <type> specifier_qualifier_list struct_or_union_specifier
%type <type> struct_or_union_and_name
%type <type> type_specifier type_name rate_qualified_type_specifier
%type <type> short_vec_specifier
%type <typeList> type_specifier_list
%type <atomicType> atomic_var_type_specifier
%type <polyType> poly_type_specifier poly_quant_type_specifier
%type <typeQualifier> type_qualifier type_qualifier_list
%type <storageClass> storage_class_specifier
%type <declSpecs> declaration_specifiers
%type <stringVal> string_constant
%type <constCharPtr> struct_or_union_name enum_identifier goto_identifier
%type <constCharPtr> foreach_unique_identifier
%type <intVal> int_constant soa_width_specifier rate_qualified_new
%type <foreachDimension> foreach_dimension_specifier
%type <foreachDimensionList> foreach_dimension_list
%type <declspecPair> declspec_item
%type <declspecList> declspec_specifier declspec_list
%start translation_unit
%%
string_constant
: TOKEN_STRING_LITERAL { $$ = new std::string(*yylval.stringVal); }
| string_constant TOKEN_STRING_LITERAL
{
std::string s = *((std::string *)$1);
s += *yylval.stringVal;
$$ = new std::string(s);
}
;
primary_expression
: TOKEN_IDENTIFIER {
const char *name = yylval.stringVal->c_str();
Symbol *s = m->symbolTable->LookupVariable(name);
$$ = NULL;
if (s)
$$ = new SymbolExpr(s, @1);
else {
std::vector<Symbol *> funs;
m->symbolTable->LookupFunction(name, &funs);
if (funs.size() > 0)
$$ = new FunctionSymbolExpr(name, funs, @1);
}
if ($$ == NULL) {
std::vector<std::string> alternates =
m->symbolTable->ClosestVariableOrFunctionMatch(name);
std::string alts = lGetAlternates(alternates);
Error(@1, "Undeclared symbol \"%s\".%s", name, alts.c_str());
}
}
| TOKEN_INT8_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformInt8->GetAsConstType(),
(int8_t)yylval.intVal, @1);
}
| TOKEN_UINT8_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformUInt8->GetAsConstType(),
(uint8_t)yylval.intVal, @1);
}
| TOKEN_INT16_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformInt16->GetAsConstType(),
(int16_t)yylval.intVal, @1);
}
| TOKEN_UINT16_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformUInt16->GetAsConstType(),
(uint16_t)yylval.intVal, @1);
}
| TOKEN_INT32_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformInt32->GetAsConstType(),
(int32_t)yylval.intVal, @1);
}
| TOKEN_UINT32_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformUInt32->GetAsConstType(),
(uint32_t)yylval.intVal, @1);
}
| TOKEN_INT64_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformInt64->GetAsConstType(),
(int64_t)yylval.intVal, @1);
}
| TOKEN_UINT64_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformUInt64->GetAsConstType(),
(uint64_t)yylval.intVal, @1);
}
| TOKEN_FLOAT_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformFloat->GetAsConstType(),
yylval.floatVal, @1);
}
| TOKEN_DOUBLE_CONSTANT {
$$ = new ConstExpr(AtomicType::UniformDouble->GetAsConstType(),
yylval.doubleVal, @1);
}
| TOKEN_TRUE {
$$ = new ConstExpr(AtomicType::UniformBool->GetAsConstType(), true, @1);
}
| TOKEN_FALSE {
$$ = new ConstExpr(AtomicType::UniformBool->GetAsConstType(), false, @1);
}
| TOKEN_NULL {
$$ = new NullPointerExpr(@1);
}
/* | TOKEN_STRING_LITERAL
{ UNIMPLEMENTED }*/
| '(' expression ')' { $$ = $2; }
| '(' error ')' { $$ = NULL; }
;
launch_expression
: TOKEN_LAUNCH postfix_expression '(' argument_expression_list ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @2);
Expr *launchCount[3] = {oneExpr, oneExpr, oneExpr};
$$ = new FunctionCallExpr($2, $4, Union(@2, @5), true, launchCount);
}
| TOKEN_LAUNCH postfix_expression '(' ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @2);
Expr *launchCount[3] = {oneExpr, oneExpr, oneExpr};
$$ = new FunctionCallExpr($2, new ExprList(Union(@3,@4)), Union(@2, @4), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ']' postfix_expression '(' argument_expression_list ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @5);
Expr *launchCount[3] = {$3, oneExpr, oneExpr};
$$ = new FunctionCallExpr($5, $7, Union(@5,@8), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ']' postfix_expression '(' ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @5);
Expr *launchCount[3] = {$3, oneExpr, oneExpr};
$$ = new FunctionCallExpr($5, new ExprList(Union(@5,@6)), Union(@5,@7), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ',' assignment_expression ']' postfix_expression '(' argument_expression_list ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @7);
Expr *launchCount[3] = {$3, $5, oneExpr};
$$ = new FunctionCallExpr($7, $9, Union(@7,@10), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ',' assignment_expression ']' postfix_expression '(' ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @7);
Expr *launchCount[3] = {$3, $5, oneExpr};
$$ = new FunctionCallExpr($7, new ExprList(Union(@7,@8)), Union(@7,@9), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ']' '[' assignment_expression ']' postfix_expression '(' argument_expression_list ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @8);
Expr *launchCount[3] = {$6, $3, oneExpr};
$$ = new FunctionCallExpr($8, $10, Union(@8,@11), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ']' '[' assignment_expression ']' postfix_expression '(' ')'
{
ConstExpr *oneExpr = new ConstExpr(AtomicType::UniformInt32, (int32_t)1, @8);
Expr *launchCount[3] = {$6, $3, oneExpr};
$$ = new FunctionCallExpr($8, new ExprList(Union(@8,@9)), Union(@8,@10), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ',' assignment_expression ',' assignment_expression ']' postfix_expression '(' argument_expression_list ')'
{
Expr *launchCount[3] = {$3, $5, $7};
$$ = new FunctionCallExpr($9, $11, Union(@9,@12), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ',' assignment_expression ',' assignment_expression ']' postfix_expression '(' ')'
{
Expr *launchCount[3] = {$3, $5, $7};
$$ = new FunctionCallExpr($9, new ExprList(Union(@9,@10)), Union(@9,@11), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ']' '[' assignment_expression ']' '[' assignment_expression ']' postfix_expression '(' argument_expression_list ')'
{
Expr *launchCount[3] = {$9, $6, $3};
$$ = new FunctionCallExpr($11, $13, Union(@11,@14), true, launchCount);
}
| TOKEN_LAUNCH '[' assignment_expression ']' '[' assignment_expression ']' '[' assignment_expression ']' postfix_expression '(' ')'
{
Expr *launchCount[3] = {$9, $6, $3};
$$ = new FunctionCallExpr($11, new ExprList(Union(@11,@12)), Union(@11,@13), true, launchCount);
}
| TOKEN_LAUNCH '<' postfix_expression '(' argument_expression_list ')' '>'
{
Error(Union(@2, @7), "\"launch\" expressions no longer take '<' '>' "
"around function call expression.");
$$ = NULL;
}
| TOKEN_LAUNCH '<' postfix_expression '(' ')' '>'
{
Error(Union(@2, @6), "\"launch\" expressions no longer take '<' '>' "
"around function call expression.");
$$ = NULL;
}
| TOKEN_LAUNCH '[' assignment_expression ']' '<' postfix_expression '(' argument_expression_list ')' '>'
{
Error(Union(@5, @10), "\"launch\" expressions no longer take '<' '>' "
"around function call expression.");
$$ = NULL;
}
| TOKEN_LAUNCH '[' assignment_expression ']' '<' postfix_expression '(' ')' '>'
{
Error(Union(@5, @9), "\"launch\" expressions no longer take '<' '>' "
"around function call expression.");
$$ = NULL;
}
;
postfix_expression
: primary_expression
| postfix_expression '[' expression ']'
{ $$ = new IndexExpr($1, $3, Union(@1,@4)); }
| postfix_expression '[' error ']'
{ $$ = NULL; }
| launch_expression
| postfix_expression '.' TOKEN_IDENTIFIER
{ $$ = MemberExpr::create($1, yytext, Union(@1,@3), @3, false); }
| postfix_expression TOKEN_PTR_OP TOKEN_IDENTIFIER
{ $$ = MemberExpr::create($1, yytext, Union(@1,@3), @3, true); }
| postfix_expression TOKEN_INC_OP
{ $$ = new UnaryExpr(UnaryExpr::PostInc, $1, Union(@1,@2)); }
| postfix_expression TOKEN_DEC_OP
{ $$ = new UnaryExpr(UnaryExpr::PostDec, $1, Union(@1,@2)); }
;
funcall_expression
: postfix_expression
| postfix_expression '(' ')'
{ $$ = new FunctionCallExpr($1, new ExprList(Union(@1,@2)), Union(@1,@3)); }
| postfix_expression '(' argument_expression_list ')'
{ $$ = new FunctionCallExpr($1, $3, Union(@1,@4)); }
| postfix_expression '(' error ')'
{ $$ = NULL; }
;
argument_expression_list
: assignment_expression { $$ = new ExprList($1, @1); }
| argument_expression_list ',' assignment_expression
{
ExprList *argList = llvm::dyn_cast<ExprList>($1);
if (argList == NULL) {
AssertPos(@1, m->errorCount > 0);
argList = new ExprList(@3);
}
argList->exprs.push_back($3);
argList->pos = Union(argList->pos, @3);
$$ = argList;
}
;
unary_expression
: funcall_expression
| TOKEN_INC_OP unary_expression
{ $$ = new UnaryExpr(UnaryExpr::PreInc, $2, Union(@1, @2)); }
| TOKEN_DEC_OP unary_expression
{ $$ = new UnaryExpr(UnaryExpr::PreDec, $2, Union(@1, @2)); }
| '&' unary_expression
{ $$ = new AddressOfExpr($2, Union(@1, @2)); }
| '*' unary_expression
{ $$ = new PtrDerefExpr($2, Union(@1, @2)); }
| '+' cast_expression
{ $$ = $2; }
| '-' cast_expression
{ $$ = new UnaryExpr(UnaryExpr::Negate, $2, Union(@1, @2)); }
| '~' cast_expression
{ $$ = new UnaryExpr(UnaryExpr::BitNot, $2, Union(@1, @2)); }
| '!' cast_expression
{ $$ = new UnaryExpr(UnaryExpr::LogicalNot, $2, Union(@1, @2)); }
| TOKEN_SIZEOF unary_expression
{ $$ = new SizeOfExpr($2, Union(@1, @2)); }
| TOKEN_SIZEOF '(' type_name ')'
{ $$ = new SizeOfExpr($3, Union(@1, @4)); }
;
cast_expression
: unary_expression
| '(' type_name ')' cast_expression
{
$$ = new TypeCastExpr($2, $4, Union(@1,@4));
}
;
multiplicative_expression
: cast_expression
| multiplicative_expression '*' cast_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Mul, $1, $3, Union(@1, @3)); }
| multiplicative_expression '/' cast_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Div, $1, $3, Union(@1, @3)); }
| multiplicative_expression '%' cast_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Mod, $1, $3, Union(@1, @3)); }
;
additive_expression
: multiplicative_expression
| additive_expression '+' multiplicative_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Add, $1, $3, Union(@1, @3)); }
| additive_expression '-' multiplicative_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Sub, $1, $3, Union(@1, @3)); }
;
shift_expression
: additive_expression
| shift_expression TOKEN_LEFT_OP additive_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Shl, $1, $3, Union(@1, @3)); }
| shift_expression TOKEN_RIGHT_OP additive_expression
{ $$ = MakeBinaryExpr(BinaryExpr::Shr, $1, $3, Union(@1, @3)); }
;
relational_expression
: shift_expression
| relational_expression '<' shift_expression
{ $$ = new BinaryExpr(BinaryExpr::Lt, $1, $3, Union(@1, @3)); }
| relational_expression '>' shift_expression
{ $$ = new BinaryExpr(BinaryExpr::Gt, $1, $3, Union(@1, @3)); }
| relational_expression TOKEN_LE_OP shift_expression
{ $$ = new BinaryExpr(BinaryExpr::Le, $1, $3, Union(@1, @3)); }
| relational_expression TOKEN_GE_OP shift_expression
{ $$ = new BinaryExpr(BinaryExpr::Ge, $1, $3, Union(@1, @3)); }
;
equality_expression
: relational_expression
| equality_expression TOKEN_EQ_OP relational_expression
{ $$ = new BinaryExpr(BinaryExpr::Equal, $1, $3, Union(@1,@3)); }
| equality_expression TOKEN_NE_OP relational_expression
{ $$ = new BinaryExpr(BinaryExpr::NotEqual, $1, $3, Union(@1,@3)); }
;
and_expression
: equality_expression
| and_expression '&' equality_expression
{ $$ = new BinaryExpr(BinaryExpr::BitAnd, $1, $3, Union(@1, @3)); }
;
exclusive_or_expression
: and_expression
| exclusive_or_expression '^' and_expression
{ $$ = new BinaryExpr(BinaryExpr::BitXor, $1, $3, Union(@1, @3)); }
;
inclusive_or_expression
: exclusive_or_expression
| inclusive_or_expression '|' exclusive_or_expression
{ $$ = new BinaryExpr(BinaryExpr::BitOr, $1, $3, Union(@1, @3)); }
;
logical_and_expression
: inclusive_or_expression
| logical_and_expression TOKEN_AND_OP inclusive_or_expression
{ $$ = new BinaryExpr(BinaryExpr::LogicalAnd, $1, $3, Union(@1, @3)); }
;
logical_or_expression
: logical_and_expression
| logical_or_expression TOKEN_OR_OP logical_and_expression
{ $$ = new BinaryExpr(BinaryExpr::LogicalOr, $1, $3, Union(@1, @3)); }
;
conditional_expression
: logical_or_expression
| logical_or_expression '?' expression ':' conditional_expression
{ $$ = new SelectExpr($1, $3, $5, Union(@1,@5)); }
;
rate_qualified_new
: TOKEN_NEW { $$ = 0; }
| TOKEN_UNIFORM TOKEN_NEW { $$ = TYPEQUAL_UNIFORM; }
| TOKEN_VARYING TOKEN_NEW { $$ = TYPEQUAL_VARYING; }
;
rate_qualified_type_specifier
: type_specifier { $$ = $1; }
| TOKEN_UNIFORM type_specifier
{
if ($2 == NULL)
$$ = NULL;
else if ($2->IsVoidType()) {
Error(@1, "\"uniform\" qualifier is illegal with \"void\" type.");
$$ = NULL;
}
else
$$ = $2->GetAsUniformType();
}
| TOKEN_VARYING type_specifier
{
if ($2 == NULL)
$$ = NULL;
else if ($2->IsVoidType()) {
Error(@1, "\"varying\" qualifier is illegal with \"void\" type.");
$$ = NULL;
}
else
$$ = $2->GetAsVaryingType();
}
| soa_width_specifier type_specifier
{
if ($2 == NULL)
$$ = NULL;
else {
int soaWidth = (int)$1;
const StructType *st = CastType<StructType>($2);
if (st == NULL) {
Error(@1, "\"soa\" qualifier is illegal with non-struct type \"%s\".",
$2->GetString().c_str());
$$ = NULL;
}
else if (soaWidth <= 0 || (soaWidth & (soaWidth - 1)) != 0) {
Error(@1, "soa<%d> width illegal. Value must be positive power "
"of two.", soaWidth);
$$ = NULL;
}
else
$$ = st->GetAsSOAType(soaWidth);
}
}
;
new_expression
: conditional_expression
| rate_qualified_new rate_qualified_type_specifier
{
$$ = new NewExpr((int32_t)$1, $2, NULL, NULL, @1, Union(@1, @2));
}
| rate_qualified_new rate_qualified_type_specifier '(' initializer_list ')'
{
$$ = new NewExpr((int32_t)$1, $2, $4, NULL, @1, Union(@1, @2));
}
| rate_qualified_new rate_qualified_type_specifier '[' expression ']'
{
$$ = new NewExpr((int32_t)$1, $2, NULL, $4, @1, Union(@1, @4));
}
;
assignment_expression
: new_expression
| unary_expression '=' assignment_expression
{ $$ = new AssignExpr(AssignExpr::Assign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_MUL_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::MulAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_DIV_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::DivAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_MOD_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::ModAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_ADD_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::AddAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_SUB_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::SubAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_LEFT_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::ShlAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_RIGHT_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::ShrAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_AND_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::AndAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_XOR_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::XorAssign, $1, $3, Union(@1, @3)); }
| unary_expression TOKEN_OR_ASSIGN assignment_expression
{ $$ = new AssignExpr(AssignExpr::OrAssign, $1, $3, Union(@1, @3)); }
;
expression
: assignment_expression
| expression ',' assignment_expression
{ $$ = new BinaryExpr(BinaryExpr::Comma, $1, $3, Union(@1, @3)); }
;
constant_expression
: conditional_expression
;
declaration_statement
: declaration
{
if ($1 == NULL) {
AssertPos(@1, m->errorCount > 0);
$$ = NULL;
}
else if ($1->declSpecs->storageClass == SC_TYPEDEF) {
for (unsigned int i = 0; i < $1->declarators.size(); ++i) {
if ($1->declarators[i] == NULL)
AssertPos(@1, m->errorCount > 0);
else
m->AddTypeDef($1->declarators[i]->name,
$1->declarators[i]->type,
$1->declarators[i]->pos);
}
$$ = NULL;
}
else {
$1->DeclareFunctions();
std::vector<VariableDeclaration> vars = $1->GetVariableDeclarations();
$$ = new DeclStmt(vars, @1);
}
}
;
declaration
: declaration_specifiers ';'
{
$$ = new Declaration($1);
}
| declaration_specifiers init_declarator_list ';'
{
$$ = new Declaration($1, $2);
}
;
soa_width_specifier
: TOKEN_SOA '<' int_constant '>'
{ $$ = $3; }
;
declspec_item
: TOKEN_IDENTIFIER
{
std::pair<std::string, SourcePos> *p = new std::pair<std::string, SourcePos>;
p->first = *(yylval.stringVal);
p->second = @1;
$$ = p;
}
;
declspec_list
: declspec_item
{
$$ = new std::vector<std::pair<std::string, SourcePos> >;
$$->push_back(*$1);
}
| declspec_list ',' declspec_item
{
if ($1 != NULL)
$1->push_back(*$3);
$$ = $1;
}
;
declspec_specifier
: TOKEN_DECLSPEC '(' declspec_list ')'
{
$$ = $3;
}
;
declaration_specifiers
: storage_class_specifier
{
$$ = new DeclSpecs(NULL, $1);
}
| storage_class_specifier declaration_specifiers
{
DeclSpecs *ds = (DeclSpecs *)$2;
if (ds != NULL) {
if (ds->storageClass != SC_NONE)
Error(@1, "Multiple storage class specifiers in a declaration are illegal. "
"(Have provided both \"%s\" and \"%s\".)",
lGetStorageClassString(ds->storageClass),
lGetStorageClassString($1));
else
ds->storageClass = $1;
}
$$ = ds;
}
| declspec_specifier
{
$$ = new DeclSpecs;
if ($1 != NULL)
$$->declSpecList = *$1;
}
| declspec_specifier declaration_specifiers
{
DeclSpecs *ds = (DeclSpecs *)$2;
std::vector<std::pair<std::string, SourcePos> > *declSpecList = $1;
if (ds != NULL && declSpecList != NULL) {
for (int i = 0; i < (int)declSpecList->size(); ++i)
ds->declSpecList.push_back((*declSpecList)[i]);
}
$$ = ds;
}
| soa_width_specifier
{
DeclSpecs *ds = new DeclSpecs;
ds->soaWidth = (int32_t)$1;
$$ = ds;
}
| soa_width_specifier declaration_specifiers
{
DeclSpecs *ds = (DeclSpecs *)$2;
if (ds != NULL) {
if (ds->soaWidth != 0)
Error(@1, "soa<> qualifier supplied multiple times in declaration.");
else
ds->soaWidth = (int32_t)$1;
}
$$ = ds;
}
| type_specifier
{
$$ = new DeclSpecs($1);
}
| type_specifier '<' int_constant '>'
{
DeclSpecs *ds = new DeclSpecs($1);
ds->vectorSize = (int32_t)$3;
$$ = ds;
}
| type_specifier declaration_specifiers
{
DeclSpecs *ds = (DeclSpecs *)$2;
if (ds != NULL) {
if (ds->baseType != NULL)
Error(@1, "Multiple types provided for declaration.");
ds->baseType = $1;
}
$$ = ds;
}
| type_qualifier
{
$$ = new DeclSpecs(NULL, SC_NONE, $1);
}
| type_qualifier declaration_specifiers
{
DeclSpecs *ds = (DeclSpecs *)$2;
if (ds != NULL)
ds->typeQualifiers |= $1;
$$ = ds;
}
;
init_declarator_list
: init_declarator
{
std::vector<Declarator *> *dl = new std::vector<Declarator *>;
if ($1 != NULL)
dl->push_back($1);
$$ = dl;
}
| init_declarator_list ',' init_declarator
{
std::vector<Declarator *> *dl = (std::vector<Declarator *> *)$1;
if (dl == NULL) {
AssertPos(@1, m->errorCount > 0);
dl = new std::vector<Declarator *>;
}
if ($3 != NULL)
dl->push_back($3);
$$ = dl;
}
;
init_declarator
: declarator
| declarator '=' initializer
{
if ($1 != NULL)
$1->initExpr = $3;
$$ = $1;
}
;
storage_class_specifier
: TOKEN_TYPEDEF { $$ = SC_TYPEDEF; }
| TOKEN_EXTERN { $$ = SC_EXTERN; }
| TOKEN_EXTERN TOKEN_STRING_C_LITERAL { $$ = SC_EXTERN_C; }
| TOKEN_STATIC { $$ = SC_STATIC; }
;
type_specifier
: atomic_var_type_specifier { $$ = $1; }
| poly_quant_type_specifier { $$ = $1; }
| TOKEN_TYPE_NAME
{
const Type *t = m->symbolTable->LookupType(yytext);
$$ = t;
}
| struct_or_union_specifier { $$ = $1; }
| enum_specifier { $$ = $1; }
;
type_specifier_list
: type_specifier
{
if ($1 == NULL)
$$ = NULL;
else {
std::vector<std::pair<const Type *, SourcePos> > *vec =
new std::vector<std::pair<const Type *, SourcePos> >;
vec->push_back(std::make_pair($1, @1));
$$ = vec;
}
}
| type_specifier_list ',' type_specifier
{
$$ = $1;
if ($1 == NULL)
Assert(m->errorCount > 0);
else
$$->push_back(std::make_pair($3, @3));
}
;
atomic_var_type_specifier
: TOKEN_VOID { $$ = AtomicType::Void; }
| TOKEN_BOOL { $$ = AtomicType::UniformBool->GetAsUnboundVariabilityType(); }
| TOKEN_INT8 { $$ = AtomicType::UniformInt8->GetAsUnboundVariabilityType(); }
| TOKEN_INT16 { $$ = AtomicType::UniformInt16->GetAsUnboundVariabilityType(); }
| TOKEN_INT { $$ = AtomicType::UniformInt32->GetAsUnboundVariabilityType(); }
| TOKEN_FLOAT { $$ = AtomicType::UniformFloat->GetAsUnboundVariabilityType(); }
| TOKEN_DOUBLE { $$ = AtomicType::UniformDouble->GetAsUnboundVariabilityType(); }
| TOKEN_INT64 { $$ = AtomicType::UniformInt64->GetAsUnboundVariabilityType(); }
;
poly_type_specifier
: TOKEN_FLOATING { $$ = PolyType::UniformFloating->GetAsUnboundVariabilityType(); }
| TOKEN_INTEGER { $$ = PolyType::UniformInteger->GetAsUnboundVariabilityType(); }
| TOKEN_NUMBER { $$ = PolyType::UniformNumber->GetAsUnboundVariabilityType(); }
;
poly_quant_type_specifier
: poly_type_specifier '$' int_constant
{
$$ = $1->Quantify($3);
}
| poly_type_specifier { $$ = $1; }
;
short_vec_specifier
: atomic_var_type_specifier '<' int_constant '>'
{
$$ = $1 ? new VectorType($1, (int32_t)$3) : NULL;
}
;
struct_or_union_name
: TOKEN_IDENTIFIER { $$ = strdup(yytext); }
| TOKEN_TYPE_NAME { $$ = strdup(yytext); }
;
struct_or_union_and_name
: struct_or_union struct_or_union_name
{
const Type *st = m->symbolTable->LookupType($2);
if (st == NULL) {
st = new UndefinedStructType($2, Variability::Unbound, false, @2);
m->symbolTable->AddType($2, st, @2);
$$ = st;
}
else {
if (CastType<StructType>(st) == NULL &&
CastType<UndefinedStructType>(st) == NULL) {
Error(@2, "Type \"%s\" is not a struct type! (%s)", $2,
st->GetString().c_str());
$$ = NULL;
}
else
$$ = st;
}