state->inst_tail = $1;
$1->next = NULL;
- state->prog->NumInstructions++;
+ state->prog->arb.NumInstructions++;
}
}
| namingStatement ';'
instruction: ALU_instruction
{
$$ = $1;
- state->prog->NumAluInstructions++;
+ state->prog->arb.NumAluInstructions++;
}
| TexInstruction
{
$$ = $1;
- state->prog->NumTexInstructions++;
+ state->prog->arb.NumTexInstructions++;
}
;
VECTORop_instruction: VECTOR_OP maskedDstReg ',' swizzleSrcReg
{
- if ($1.Opcode == OPCODE_DDY)
- state->fragment.UsesDFdy = 1;
$$ = asm_instruction_copy_ctor(& $1, & $2, & $4, NULL, NULL);
}
;
YYERROR;
}
- state->prog->OutputsWritten |= BITFIELD64_BIT($$.Index);
+ state->prog->info.outputs_written |= BITFIELD64_BIT($$.Index);
}
}
;
srcReg: USED_IDENTIFIER /* temporaryReg | progParamSingle */
{
struct asm_symbol *const s = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, $1);
+ _mesa_symbol_table_find_symbol(state->st, $1);
free($1);
break;
case at_attrib:
set_src_reg(& $$, PROGRAM_INPUT, s->attrib_binding);
- state->prog->InputsRead |= BITFIELD64_BIT($$.Base.Index);
+ state->prog->info.inputs_read |= BITFIELD64_BIT($$.Base.Index);
if (!validate_inputs(& @1, state)) {
YYERROR;
| attribBinding
{
set_src_reg(& $$, PROGRAM_INPUT, $1);
- state->prog->InputsRead |= BITFIELD64_BIT($$.Base.Index);
+ state->prog->info.inputs_read |= BITFIELD64_BIT($$.Base.Index);
if (!validate_inputs(& @1, state)) {
YYERROR;
$$.Base.File = $1->param_binding_type;
if ($3.Base.RelAddr) {
- state->prog->IndirectRegisterFiles |= (1 << $$.Base.File);
+ state->prog->arb.IndirectRegisterFiles |= (1 << $$.Base.File);
$1->param_accessed_indirectly = 1;
$$.Base.RelAddr = 1;
| USED_IDENTIFIER /* temporaryReg | vertexResultReg */
{
struct asm_symbol *const s = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, $1);
+ _mesa_symbol_table_find_symbol(state->st, $1);
free($1);
progParamArray: USED_IDENTIFIER
{
struct asm_symbol *const s = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, $1);
+ _mesa_symbol_table_find_symbol(state->st, $1);
free($1);
addrReg: USED_IDENTIFIER
{
struct asm_symbol *const s = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, $1);
+ _mesa_symbol_table_find_symbol(state->st, $1);
free($1);
ALIAS_statement: ALIAS IDENTIFIER '=' USED_IDENTIFIER
{
struct asm_symbol *exist = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, $2);
+ _mesa_symbol_table_find_symbol(state->st, $2);
struct asm_symbol *target = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, $4);
+ _mesa_symbol_table_find_symbol(state->st, $4);
free($4);
"undefined variable binding in ALIAS statement");
YYERROR;
} else {
- _mesa_symbol_table_add_symbol(state->st, 0, $2, target);
+ _mesa_symbol_table_add_symbol(state->st, $2, target);
}
}
;
int
validate_inputs(struct YYLTYPE *locp, struct asm_parser_state *state)
{
- const GLbitfield64 inputs = state->prog->InputsRead | state->InputsBound;
+ const GLbitfield64 inputs = state->prog->info.inputs_read | state->InputsBound;
if (((inputs & VERT_BIT_FF_ALL) & (inputs >> VERT_ATTRIB_GENERIC0)) != 0) {
yyerror(locp, state, "illegal use of generic attribute and name attribute");
{
struct asm_symbol *s = NULL;
struct asm_symbol *exist = (struct asm_symbol *)
- _mesa_symbol_table_find_symbol(state->st, 0, name);
+ _mesa_symbol_table_find_symbol(state->st, name);
if (exist != NULL) {
switch (t) {
case at_temp:
- if (state->prog->NumTemporaries >= state->limits->MaxTemps) {
+ if (state->prog->arb.NumTemporaries >= state->limits->MaxTemps) {
yyerror(locp, state, "too many temporaries declared");
free(s);
return NULL;
}
- s->temp_binding = state->prog->NumTemporaries;
- state->prog->NumTemporaries++;
+ s->temp_binding = state->prog->arb.NumTemporaries;
+ state->prog->arb.NumTemporaries++;
break;
case at_address:
- if (state->prog->NumAddressRegs >= state->limits->MaxAddressRegs) {
+ if (state->prog->arb.NumAddressRegs >=
+ state->limits->MaxAddressRegs) {
yyerror(locp, state, "too many address registers declared");
free(s);
return NULL;
/* FINISHME: Add support for multiple address registers.
*/
- state->prog->NumAddressRegs++;
+ state->prog->arb.NumAddressRegs++;
break;
default:
break;
}
- _mesa_symbol_table_add_symbol(state->st, 0, s->name, s);
+ _mesa_symbol_table_add_symbol(state->st, s->name, s);
s->next = state->sym;
state->sym = s;
}
/* Make a copy of the program string and force it to be NUL-terminated.
*/
- strz = (GLubyte *) malloc(len + 1);
+ strz = (GLubyte *) ralloc_size(state->mem_ctx, len + 1);
if (strz == NULL) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glProgramStringARB");
return GL_FALSE;
/* Add one instruction to store the "END" instruction.
*/
- state->prog->Instructions =
- _mesa_alloc_instructions(state->prog->NumInstructions + 1);
+ state->prog->arb.Instructions =
+ rzalloc_array(state->mem_ctx, struct prog_instruction,
+ state->prog->arb.NumInstructions + 1);
- if (state->prog->Instructions == NULL) {
+ if (state->prog->arb.Instructions == NULL) {
goto error;
}
inst = state->inst_head;
- for (i = 0; i < state->prog->NumInstructions; i++) {
+ for (i = 0; i < state->prog->arb.NumInstructions; i++) {
struct asm_instruction *const temp = inst->next;
- state->prog->Instructions[i] = inst->Base;
+ state->prog->arb.Instructions[i] = inst->Base;
inst = temp;
}
/* Finally, tag on an OPCODE_END instruction */
{
- const GLuint numInst = state->prog->NumInstructions;
- _mesa_init_instructions(state->prog->Instructions + numInst, 1);
- state->prog->Instructions[numInst].Opcode = OPCODE_END;
+ const GLuint numInst = state->prog->arb.NumInstructions;
+ _mesa_init_instructions(state->prog->arb.Instructions + numInst, 1);
+ state->prog->arb.Instructions[numInst].Opcode = OPCODE_END;
}
- state->prog->NumInstructions++;
+ state->prog->arb.NumInstructions++;
- state->prog->NumParameters = state->prog->Parameters->NumParameters;
- state->prog->NumAttributes = _mesa_bitcount_64(state->prog->InputsRead);
+ state->prog->arb.NumParameters = state->prog->Parameters->NumParameters;
+ state->prog->arb.NumAttributes =
+ _mesa_bitcount_64(state->prog->info.inputs_read);
/*
* Initialize native counts to logical counts. The device driver may
* change them if program is translated into a hardware program.
*/
- state->prog->NumNativeInstructions = state->prog->NumInstructions;
- state->prog->NumNativeTemporaries = state->prog->NumTemporaries;
- state->prog->NumNativeParameters = state->prog->NumParameters;
- state->prog->NumNativeAttributes = state->prog->NumAttributes;
- state->prog->NumNativeAddressRegs = state->prog->NumAddressRegs;
+ state->prog->arb.NumNativeInstructions = state->prog->arb.NumInstructions;
+ state->prog->arb.NumNativeTemporaries = state->prog->arb.NumTemporaries;
+ state->prog->arb.NumNativeParameters = state->prog->arb.NumParameters;
+ state->prog->arb.NumNativeAttributes = state->prog->arb.NumAttributes;
+ state->prog->arb.NumNativeAddressRegs = state->prog->arb.NumAddressRegs;
result = GL_TRUE;