mojoshader_compiler.c
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/**
* MojoShader; generate shader programs from bytecode of compiled
* Direct3D shaders.
*
* Please see the file LICENSE.txt in the source's root directory.
*
* This file written by Ryan C. Gordon.
*/
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#define __MOJOSHADER_INTERNAL__ 1
#include "mojoshader_internal.h"
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#if DEBUG_COMPILER_PARSER
#define LEMON_SUPPORT_TRACING 1
#endif
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#define REVERSE_LINKED_LIST(typ, head) { \
if ((head) && (head->next)) { \
typ *tmp = NULL; \
typ *tmp1 = NULL; \
while (head != NULL) { \
tmp = head; \
head = head->next; \
tmp->next = tmp1; \
tmp1 = tmp; \
} \
head = tmp; \
} \
}
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typedef union TokenData
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int64 i64;
double dbl;
const char *string;
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} TokenData;
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// Structures that make up the parse tree...
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typedef enum ASTNodeType
{
AST_OP_START_RANGE,
AST_OP_START_RANGE_UNARY,
AST_OP_POSTINCREMENT,
AST_OP_POSTDECREMENT,
AST_OP_PREINCREMENT,
AST_OP_PREDECREMENT,
AST_OP_NEGATE,
AST_OP_COMPLEMENT,
AST_OP_NOT,
AST_OP_END_RANGE_UNARY,
AST_OP_START_RANGE_BINARY,
AST_OP_DEREF_ARRAY,
AST_OP_CALLFUNC,
AST_OP_DEREF_STRUCT,
AST_OP_COMMA,
AST_OP_MULTIPLY,
AST_OP_DIVIDE,
AST_OP_MODULO,
AST_OP_ADD,
AST_OP_SUBTRACT,
AST_OP_LSHIFT,
AST_OP_RSHIFT,
AST_OP_LESSTHAN,
AST_OP_GREATERTHAN,
AST_OP_LESSTHANOREQUAL,
AST_OP_GREATERTHANOREQUAL,
AST_OP_EQUAL,
AST_OP_NOTEQUAL,
AST_OP_BINARYAND,
AST_OP_BINARYXOR,
AST_OP_BINARYOR,
AST_OP_LOGICALAND,
AST_OP_LOGICALOR,
AST_OP_ASSIGN,
AST_OP_MULASSIGN,
AST_OP_DIVASSIGN,
AST_OP_MODASSIGN,
AST_OP_ADDASSIGN,
AST_OP_SUBASSIGN,
AST_OP_LSHIFTASSIGN,
AST_OP_RSHIFTASSIGN,
AST_OP_ANDASSIGN,
AST_OP_XORASSIGN,
AST_OP_ORASSIGN,
AST_OP_END_RANGE_BINARY,
AST_OP_START_RANGE_TERNARY,
AST_OP_CONDITIONAL,
AST_OP_END_RANGE_TERNARY,
AST_OP_START_RANGE_DATA,
AST_OP_IDENTIFIER,
AST_OP_INT_LITERAL,
AST_OP_FLOAT_LITERAL,
AST_OP_STRING_LITERAL,
AST_OP_END_RANGE_DATA,
AST_OP_START_RANGE_MISC,
AST_OP_CONSTRUCTOR,
AST_OP_CAST,
AST_OP_END_RANGE_MISC,
AST_OP_END_RANGE,
AST_COMPUNIT_START_RANGE,
AST_COMPUNIT_FUNCTION, // function declaration or definition
AST_COMPUNIT_TYPEDEF, // typedef or struct
AST_COMPUNIT_STRUCT, // global struct
AST_COMPUNIT_VARIABLE, // global variable
AST_COMPUNIT_END_RANGE,
AST_STATEMENT_START_RANGE,
AST_STATEMENT_EMPTY,
AST_STATEMENT_EXPRESSION,
AST_STATEMENT_IF,
AST_STATEMENT_SWITCH,
AST_STATEMENT_FOR,
AST_STATEMENT_DO,
AST_STATEMENT_WHILE,
AST_STATEMENT_RETURN,
AST_STATEMENT_BREAK,
AST_STATEMENT_CONTINUE,
AST_STATEMENT_DISCARD,
AST_STATEMENT_TYPEDEF,
AST_STATEMENT_STRUCT,
AST_STATEMENT_VARDECL,
AST_STATEMENT_END_RANGE,
AST_MISC_START_RANGE,
AST_FUNCTION_ARGS,
AST_FUNCTION_SIGNATURE,
AST_SCALAR_OR_ARRAY,
AST_TYPEDEF,
AST_PACK_OFFSET,
AST_VARIABLE_LOWLEVEL,
AST_ANNOTATION,
AST_VARIABLE_DECLARATION,
AST_STRUCT_DECLARATION,
AST_STRUCT_MEMBER,
AST_SWITCH_CASE,
AST_MISC_END_RANGE,
AST_END_RANGE
} ASTNodeType;
typedef struct ASTNode
{
ASTNodeType type;
const char *filename;
uint32 line;
} ASTNode;
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typedef enum VariableAttributes
{
VARATTR_EXTERN = (1 << 0),
VARATTR_NOINTERPOLATION = (1 << 1),
VARATTR_SHARED = (1 << 2),
VARATTR_STATIC = (1 << 3),
VARATTR_UNIFORM = (1 << 4),
VARATTR_VOLATILE = (1 << 5),
VARATTR_CONST = (1 << 6),
VARATTR_ROWMAJOR = (1 << 7),
VARATTR_COLUMNMAJOR = (1 << 8)
} VariableAttributes;
typedef enum IfAttributes
{
IFATTR_NONE,
IFATTR_BRANCH,
IFATTR_FLATTEN,
IFATTR_IFALL,
IFATTR_IFANY,
IFATTR_PREDICATE,
IFATTR_PREDICATEBLOCK,
} IfAttributes;
typedef enum SwitchAttributes
{
SWITCHATTR_NONE,
SWITCHATTR_FLATTEN,
SWITCHATTR_BRANCH,
SWITCHATTR_FORCECASE,
SWITCHATTR_CALL
} SwitchAttributes;
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static inline int operator_is_unary(const ASTNodeType op)
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return ((op > AST_OP_START_RANGE_UNARY) && (op < AST_OP_END_RANGE_UNARY));
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} // operator_is_unary
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static inline int operator_is_binary(const ASTNodeType op)
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return ((op > AST_OP_START_RANGE_BINARY) && (op < AST_OP_END_RANGE_BINARY));
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} // operator_is_binary
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static inline int operator_is_ternary(const ASTNodeType op)
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return ((op > AST_OP_START_RANGE_TERNARY) && (op < AST_OP_END_RANGE_TERNARY));
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} // operator_is_ternary
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typedef struct ASTGeneric
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ASTNode ast;
} ASTGeneric;
typedef ASTGeneric Expression;
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typedef struct ExpressionUnary
{
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Expression *operand;
} ExpressionUnary;
typedef struct ExpressionBinary
{
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Expression *left;
Expression *right;
} ExpressionBinary;
typedef struct ExpressionTernary
{
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Expression *left;
Expression *center;
Expression *right;
} ExpressionTernary;
typedef struct ExpressionIdentifier
{
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ASTNode ast; // Always AST_OP_IDENTIFIER
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const char *identifier;
} ExpressionIdentifier;
typedef struct ExpressionIntLiteral
{
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ASTNode ast; // Always AST_OP_INT_LITERAL
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int64 value;
} ExpressionIntLiteral;
typedef struct ExpressionFloatLiteral
{
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ASTNode ast; // Always AST_OP_FLOAT_LITERAL
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double value;
} ExpressionFloatLiteral;
typedef struct ExpressionStringLiteral
{
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ASTNode ast; // Always AST_OP_STRING_LITERAL
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const char *string;
} ExpressionStringLiteral;
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typedef struct ExpressionConstructor
{
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ASTNode ast; // Always AST_OP_CONSTRUCTOR
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const char *datatype;
Expression *args;
} ExpressionConstructor;
typedef struct ExpressionCast
{
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ASTNode ast; // Always AST_OP_CAST
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const char *datatype;
Expression *operand;
} ExpressionCast;
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typedef struct CompilationUnit
{
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struct CompilationUnit *next;
} CompilationUnit;
typedef enum FunctionStorageClass
{
FNSTORECLS_NONE,
FNSTORECLS_INLINE
} FunctionStorageClass;
typedef enum InputModifier
{
INPUTMOD_NONE,
INPUTMOD_IN,
INPUTMOD_OUT,
INPUTMOD_INOUT,
INPUTMOD_UNIFORM
} InputModifier;
typedef enum InterpolationModifier
{
INTERPMOD_NONE,
INTERPMOD_LINEAR,
INTERPMOD_CENTROID,
INTERPMOD_NOINTERPOLATION,
INTERPMOD_NOPERSPECTIVE,
INTERPMOD_SAMPLE
} InterpolationModifier;
typedef struct FunctionArguments
{
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InputModifier input_modifier;
const char *datatype;
const char *identifier;
const char *semantic;
InterpolationModifier interpolation_modifier;
Expression *initializer;
struct FunctionArguments *next;
} FunctionArguments;
typedef struct FunctionSignature
{
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const char *datatype;
const char *identifier;
FunctionArguments *args;
FunctionStorageClass storage_class;
const char *semantic;
} FunctionSignature;
typedef struct ScalarOrArray
{
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const char *identifier;
int isarray;
Expression *dimension;
} ScalarOrArray;
typedef struct Annotations
{
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const char *datatype;
Expression *initializer;
struct Annotations *next;
} Annotations;
typedef struct PackOffset
{
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const char *ident1; // !!! FIXME: rename this.
const char *ident2;
} PackOffset;
typedef struct VariableLowLevel
{
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PackOffset *packoffset;
const char *register_name;
} VariableLowLevel;
typedef struct StructMembers
{
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const char *datatype;
const char *semantic;
ScalarOrArray *details;
InterpolationModifier interpolation_mod;
struct StructMembers *next;
} StructMembers;
typedef struct StructDeclaration
{
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const char *name;
StructMembers *members;
} StructDeclaration;
typedef struct VariableDeclaration
{
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int attributes;
const char *datatype;
StructDeclaration *anonymous_datatype;
ScalarOrArray *details;
const char *semantic;
Annotations *annotations;
Expression *initializer;
VariableLowLevel *lowlevel;
struct VariableDeclaration *next;
} VariableDeclaration;
typedef struct Statement
{
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struct Statement *next;
} Statement;
typedef Statement EmptyStatement;
typedef Statement BreakStatement;
typedef Statement ContinueStatement;
typedef Statement DiscardStatement;
typedef struct ReturnStatement
{
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struct Statement *next;
Expression *expr;
} ReturnStatement;
typedef struct ExpressionStatement
{
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struct Statement *next;
Expression *expr;
} ExpressionStatement;
typedef struct IfStatement
{
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struct Statement *next;
int attributes;
Expression *expr;
Statement *statement;
Statement *else_statement;
} IfStatement;
typedef struct SwitchCases
{
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Expression *expr;
Statement *statement;
struct SwitchCases *next;
} SwitchCases;
typedef struct SwitchStatement
{
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struct Statement *next;
int attributes;
Expression *expr;
SwitchCases *cases;
} SwitchStatement;
typedef struct WhileStatement
{
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struct Statement *next;
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int64 unroll; // # times to unroll, 0 to loop, negative for compiler's choice.
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Expression *expr;
Statement *statement;
} WhileStatement;
typedef WhileStatement DoStatement;
typedef struct ForStatement
{
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struct Statement *next;
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int64 unroll; // # times to unroll, 0 to loop, negative for compiler's choice.
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VariableDeclaration *var_decl;
Expression *initializer;
Expression *looptest;
Expression *counter;
Statement *statement;
} ForStatement;
typedef struct Typedef
{
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int isconst;
const char *datatype;
ScalarOrArray *details;
} Typedef;
typedef struct TypedefStatement
{
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struct Statement *next;
Typedef *type_info;
} TypedefStatement;
typedef struct VarDeclStatement
{
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struct Statement *next;
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VariableDeclaration *declaration;
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} VarDeclStatement;
typedef struct StructStatement
{
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struct Statement *next;
StructDeclaration *struct_info;
} StructStatement;
typedef struct CompilationUnitFunction
{
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struct CompilationUnit *next;
FunctionSignature *declaration;
Statement *definition;
} CompilationUnitFunction;
typedef struct CompilationUnitTypedef
{
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struct CompilationUnit *next;
Typedef *type_info;
} CompilationUnitTypedef;
typedef struct CompilationUnitStruct
{
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struct CompilationUnit *next;
StructDeclaration *struct_info;
} CompilationUnitStruct;
typedef struct CompilationUnitVariable
{
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struct CompilationUnit *next;
VariableDeclaration *declaration;
} CompilationUnitVariable;
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// This tracks typedefs and structs, and notes when they enter/leave scope.
typedef struct UserTypeScopeStack
{
const char *symbol;
const char *datatype;
struct UserTypeScopeStack *next;
} UserTypeScopeStack;
typedef struct UserTypeMap
{
HashTable *types;
UserTypeScopeStack *scope;
} UserTypeMap;
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// Compile state, passed around all over the place.
typedef struct Context
{
int isfail;
int out_of_memory;
MOJOSHADER_malloc malloc;
MOJOSHADER_free free;
void *malloc_data;
int error_count;
ErrorList *errors;
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StringCache *strcache;
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const char *sourcefile; // current source file that we're parsing.
unsigned int sourceline; // current line in sourcefile that we're parsing.
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UserTypeMap usertypes;
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CompilationUnit *ast; // Abstract Syntax Tree
} Context;
// Convenience functions for allocators...
static inline void out_of_memory(Context *ctx)
{
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if (!ctx->out_of_memory) printf("out of memory\n"); // !!! FIXME: placeholder.
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ctx->isfail = ctx->out_of_memory = 1;
} // out_of_memory
static inline void *Malloc(Context *ctx, const size_t len)
{
void *retval = ctx->malloc((int) len, ctx->malloc_data);
if (retval == NULL)
out_of_memory(ctx);
return retval;
} // Malloc
static inline char *StrDup(Context *ctx, const char *str)
{
char *retval = (char *) Malloc(ctx, strlen(str) + 1);
if (retval != NULL)
strcpy(retval, str);
return retval;
} // StrDup
static inline void Free(Context *ctx, void *ptr)
{
if (ptr != NULL) // check for NULL in case of dumb free() impl.
ctx->free(ptr, ctx->malloc_data);
} // Free
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static void fail(Context *ctx, const char *str)
{
// !!! FIXME: placeholder.
(void) ctx;
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printf("%s:%u: %s\n", ctx->sourcefile, ctx->sourceline, str);
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} // fail
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static void usertypemap_nuke(const void *k, const void *v, void *d) {/*no-op*/}
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static int create_usertypemap(Context *ctx)
{
UserTypeMap *map = &ctx->usertypes;
map->scope = NULL;
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map->types = hash_create(ctx, hash_hash_string, hash_keymatch_string,
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usertypemap_nuke, 1, ctx->malloc, ctx->free,
ctx->malloc_data);
if (!map->types)
{
out_of_memory(ctx);
return 0;
} // if
return 1;
} // create_usertypemap
static void push_usertype(Context *ctx, const char *sym, const char *datatype)
{
UserTypeMap *map = &ctx->usertypes;
UserTypeScopeStack *item;
item = (UserTypeScopeStack *) Malloc(ctx, sizeof (UserTypeScopeStack));
if (item == NULL)
return;
if (sym != NULL)
{
if (hash_insert(map->types, sym, datatype) == -1)
{
Free(ctx, item);
return;
}
} // if
item->symbol = sym; // cached strings, don't copy.
item->datatype = datatype;
item->next = map->scope;
map->scope = item;
} // push_usertype
static void pop_usertype(Context *ctx)
{
UserTypeMap *map = &ctx->usertypes;
UserTypeScopeStack *item = map->scope;
if (!item)
return;
if (item->symbol)
hash_remove(map->types, item->symbol);
map->scope = item->next;
Free(ctx, item);
} // pop_usertype
static void push_scope(Context *ctx)
{
push_usertype(ctx, NULL, NULL);
} // push_scope
static void pop_scope(Context *ctx)
{
UserTypeMap *map = &ctx->usertypes;
while ((map->scope) && (map->scope->symbol))
pop_usertype(ctx);
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assert(map->scope != NULL);
assert(map->scope->symbol == NULL);
pop_usertype(ctx);
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} // push_scope
static void destroy_usertypemap(Context *ctx)
{
UserTypeMap *map = &ctx->usertypes;
while (map->scope)
pop_usertype(ctx);
hash_destroy(map->types);
} // destroy_usertypemap
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// These functions are mostly for construction and cleanup of nodes in the
// parse tree. Mostly this is simple allocation and initialization, so we
// can do as little in the lemon code as possible, and then sort it all out
// afterwards.
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#define NEW_AST_NODE(retval, cls, typ) \
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cls *retval = (cls *) Malloc(ctx, sizeof (cls)); \
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do { \
if (retval == NULL) { return NULL; } \
retval->ast.type = typ; \
retval->ast.filename = ctx->sourcefile; \
retval->ast.line = ctx->sourceline; \
} while (0)
#define DELETE_AST_NODE(cls) do { \
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if (!cls) return; \
} while (0)
static void delete_compilation_unit(Context *ctx, CompilationUnit *unit);
static void delete_statement(Context *ctx, Statement *stmt);
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static Expression *new_constructor_expr(Context *ctx, const char *datatype,
Expression *args)
{
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NEW_AST_NODE(retval, ExpressionConstructor, AST_OP_CONSTRUCTOR);
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retval->datatype = datatype;
retval->args = args;
return (Expression *) retval;
} // new_constructor_expr
static Expression *new_cast_expr(Context *ctx, const char *datatype,
Expression *operand)
{
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NEW_AST_NODE(retval, ExpressionCast, AST_OP_CAST);
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retval->datatype = datatype;
retval->operand = operand;
return (Expression *) retval;
} // new_cast_expr
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static Expression *new_unary_expr(Context *ctx, const ASTNodeType op,
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Expression *operand)
{
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NEW_AST_NODE(retval, ExpressionUnary, op);
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assert(operator_is_unary(op));
retval->operand = operand;
return (Expression *) retval;
} // new_unary_expr
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static Expression *new_binary_expr(Context *ctx, const ASTNodeType op,
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Expression *left, Expression *right)
{
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NEW_AST_NODE(retval, ExpressionBinary, op);
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assert(operator_is_binary(op));
retval->left = left;
retval->right = right;
return (Expression *) retval;
} // new_binary_expr
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static Expression *new_ternary_expr(Context *ctx, const ASTNodeType op,
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Expression *left, Expression *center,
Expression *right)
{
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NEW_AST_NODE(retval, ExpressionTernary, op);
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assert(operator_is_ternary(op));
retval->left = left;
retval->center = center;
retval->right = right;
return (Expression *) retval;
} // new_ternary_expr
static Expression *new_identifier_expr(Context *ctx, const char *string)
{
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NEW_AST_NODE(retval, ExpressionIdentifier, AST_OP_IDENTIFIER);
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retval->identifier = string; // cached; don't copy string.
return (Expression *) retval;
} // new_identifier_expr
static Expression *new_literal_int_expr(Context *ctx, const int64 value)
{
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NEW_AST_NODE(retval, ExpressionIntLiteral, AST_OP_INT_LITERAL);
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retval->value = value;
return (Expression *) retval;
} // new_literal_int_expr
static Expression *new_literal_float_expr(Context *ctx, const double dbl)
{
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NEW_AST_NODE(retval, ExpressionFloatLiteral, AST_OP_FLOAT_LITERAL);
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retval->value = dbl;
return (Expression *) retval;
} // new_literal_float_expr
static Expression *new_literal_string_expr(Context *ctx, const char *string)
{
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NEW_AST_NODE(retval, ExpressionStringLiteral, AST_OP_STRING_LITERAL);
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retval->string = string; // cached; don't copy string.
return (Expression *) retval;
} // new_string_literal_expr
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static void delete_expr(Context *ctx, Expression *expr)
{
DELETE_AST_NODE(expr);
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if (operator_is_unary(expr->ast.type))
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{
const ExpressionUnary *unary = (const ExpressionUnary *) expr;
delete_expr(ctx, unary->operand);
} // if
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else if (operator_is_binary(expr->ast.type))
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{
const ExpressionBinary *binary = (const ExpressionBinary *) expr;
delete_expr(ctx, binary->left);
delete_expr(ctx, binary->right);
} // else if
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else if (operator_is_ternary(expr->ast.type))
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{
const ExpressionTernary *ternary = (const ExpressionTernary *) expr;
delete_expr(ctx, ternary->left);
delete_expr(ctx, ternary->center);
delete_expr(ctx, ternary->right);
} // else if
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else if (expr->ast.type == AST_OP_CAST)
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{
delete_expr(ctx, ((ExpressionCast *) expr)->operand);
} // else if
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else if (expr->ast.type == AST_OP_CONSTRUCTOR)
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{
delete_expr(ctx, ((ExpressionConstructor *) expr)->args);
} // else if
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// rest of operators don't have extra data to free.
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Free(ctx, expr);
} // delete_expr
static FunctionArguments *new_function_arg(Context *ctx,
const InputModifier inputmod,
const char *datatype,
const char *identifier,
const char *semantic,
const InterpolationModifier interpmod,
Expression *initializer)
{
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NEW_AST_NODE(retval, FunctionArguments, AST_FUNCTION_ARGS);
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retval->input_modifier = inputmod;
retval->datatype = datatype;
retval->identifier = identifier;
retval->semantic = semantic;
retval->interpolation_modifier = interpmod;
retval->initializer = initializer;
retval->next = NULL;
return retval;
} // new_function_arg
static void delete_function_args(Context *ctx, FunctionArguments *args)
{
DELETE_AST_NODE(args);
delete_function_args(ctx, args->next);
delete_expr(ctx, args->initializer);
Free(ctx, args);
} // delete_function_args
static FunctionSignature *new_function_signature(Context *ctx,
const char *datatype,
const char *identifier,
FunctionArguments *args)
{
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NEW_AST_NODE(retval, FunctionSignature, AST_FUNCTION_SIGNATURE);
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retval->datatype = datatype;
retval->identifier = identifier;
retval->args = args;
retval->storage_class = FNSTORECLS_NONE;
retval->semantic = NULL;
return retval;
} // new_function_signature
static void delete_function_signature(Context *ctx, FunctionSignature *sig)
{
DELETE_AST_NODE(sig);
delete_function_args(ctx, sig->args);
Free(ctx, sig);
} // delete_function_signature
static CompilationUnit *new_function(Context *ctx,
FunctionSignature *declaration,
Statement *definition)
{
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NEW_AST_NODE(retval, CompilationUnitFunction, AST_COMPUNIT_FUNCTION);
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retval->next = NULL;
retval->declaration = declaration;
retval->definition = definition;
return (CompilationUnit *) retval;
} // new_function
static void delete_function(Context *ctx, CompilationUnitFunction *unitfn)
{
DELETE_AST_NODE(unitfn);
delete_compilation_unit(ctx, unitfn->next);
delete_function_signature(ctx, unitfn->declaration);
delete_statement(ctx, unitfn->definition);
Free(ctx, unitfn);
} // delete_function
static ScalarOrArray *new_scalar_or_array(Context *ctx, const char *ident,
const int isvec, Expression *dim)
{
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NEW_AST_NODE(retval, ScalarOrArray, AST_SCALAR_OR_ARRAY);
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retval->identifier = ident;
retval->isarray = isvec;
retval->dimension = dim;
return retval;
} // new_scalar_or_array
static void delete_scalar_or_array(Context *ctx, ScalarOrArray *soa)
{
DELETE_AST_NODE(soa);
delete_expr(ctx, soa->dimension);
Free(ctx, soa);
} // delete_scalar_or_array
static Typedef *new_typedef(Context *ctx, int isconst, const char *datatype,
ScalarOrArray *soa)
{
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NEW_AST_NODE(retval, Typedef, AST_TYPEDEF);
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retval->isconst = isconst;
retval->datatype = datatype;
retval->details = soa;
return retval;
} // new_typedef
static void delete_typedef(Context *ctx, Typedef *td)
{
DELETE_AST_NODE(td);
delete_scalar_or_array(ctx, td->details);
Free(ctx, td);
} // delete_typedef
static PackOffset *new_pack_offset(Context *ctx, const char *a, const char *b)
{
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NEW_AST_NODE(retval, PackOffset, AST_PACK_OFFSET);
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retval->ident1 = a;
retval->ident2 = b;
return retval;
} // new_pack_offset
static void delete_pack_offset(Context *ctx, PackOffset *o)
{
DELETE_AST_NODE(o);
Free(ctx, o);
} // delete_pack_offset
static VariableLowLevel *new_variable_lowlevel(Context *ctx, PackOffset *po,
const char *reg)
{
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NEW_AST_NODE(retval, VariableLowLevel, AST_VARIABLE_LOWLEVEL);
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retval->packoffset = po;
retval->register_name = reg;
return retval;
} // new_variable_lowlevel
static void delete_variable_lowlevel(Context *ctx, VariableLowLevel *vll)
{
DELETE_AST_NODE(vll);
delete_pack_offset(ctx, vll->packoffset);
Free(ctx, vll);
} // delete_variable_lowlevel
static Annotations *new_annotation(Context *ctx, const char *datatype,
Expression *initializer)
{
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NEW_AST_NODE(retval, Annotations, AST_ANNOTATION);
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retval->datatype = datatype;
retval->initializer = initializer;
retval->next = NULL;
return retval;
} // new_annotation
static void delete_annotation(Context *ctx, Annotations *annotations)
{
DELETE_AST_NODE(annotations);
delete_annotation(ctx, annotations->next);
delete_expr(ctx, annotations->initializer);
Free(ctx, annotations);
} // delete_annotation
static VariableDeclaration *new_variable_declaration(Context *ctx,
ScalarOrArray *soa, const char *semantic,
Annotations *annotations, Expression *init,
VariableLowLevel *vll)
{
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NEW_AST_NODE(retval, VariableDeclaration, AST_VARIABLE_DECLARATION);
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retval->attributes = 0;
retval->datatype = NULL;
retval->anonymous_datatype = NULL;
retval->details = soa;
retval->semantic = semantic;
retval->annotations = annotations;
retval->initializer = init;
retval->lowlevel = vll;
retval->next = NULL;
return retval;
} // new_variable_declaration
static void delete_variable_declaration(Context *ctx, VariableDeclaration *dcl)
{
DELETE_AST_NODE(dcl);
delete_variable_declaration(ctx, dcl->next);
delete_scalar_or_array(ctx, dcl->details);
delete_annotation(ctx, dcl->annotations);
delete_expr(ctx, dcl->initializer);
delete_variable_lowlevel(ctx, dcl->lowlevel);
Free(ctx, dcl);
} // delete_variable_declaration
static CompilationUnit *new_global_variable(Context *ctx,
VariableDeclaration *decl)
{
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NEW_AST_NODE(retval, CompilationUnitVariable, AST_COMPUNIT_VARIABLE);
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retval->next = NULL;
retval->declaration = decl;
return (CompilationUnit *) retval;
} // new_global_variable
static void delete_global_variable(Context *ctx, CompilationUnitVariable *var)
{
DELETE_AST_NODE(var);
delete_compilation_unit(ctx, var->next);
delete_variable_declaration(ctx, var->declaration);
Free(ctx, var);
} // delete_global_variable
static CompilationUnit *new_global_typedef(Context *ctx, Typedef *td)
{