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|
/*
* Mesa 3-D graphics library
* Version: 6.5.2
*
* Copyright (C) 2005-2006 Brian Paul All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* BRIAN PAUL BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
* AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/**
* \file slang_compile.c
* slang front-end compiler
* \author Michal Krol
*/
#include "imports.h"
#include "context.h"
#include "program.h"
#include "prog_parameter.h"
#include "grammar_mesa.h"
#include "slang_codegen.h"
#include "slang_compile.h"
#include "slang_preprocess.h"
#include "slang_storage.h"
#include "slang_error.h"
#include "slang_print.h"
/*
* This is a straightforward implementation of the slang front-end
* compiler. Lots of error-checking functionality is missing but
* every well-formed shader source should compile successfully and
* execute as expected. However, some semantically ill-formed shaders
* may be accepted resulting in undefined behaviour.
*/
/**
* Allocate storage for a variable of 'size' bytes from given pool.
* Return the allocated address for the variable.
*/
static GLuint
slang_var_pool_alloc(slang_var_pool * pool, unsigned int size)
{
const GLuint addr = pool->next_addr;
pool->next_addr += size;
return addr;
}
/*
* slang_code_unit
*/
GLvoid
_slang_code_unit_ctr(slang_code_unit * self,
struct slang_code_object_ * object)
{
_slang_variable_scope_ctr(&self->vars);
_slang_function_scope_ctr(&self->funs);
_slang_struct_scope_ctr(&self->structs);
self->object = object;
}
GLvoid
_slang_code_unit_dtr(slang_code_unit * self)
{
slang_variable_scope_destruct(&self->vars);
slang_function_scope_destruct(&self->funs);
slang_struct_scope_destruct(&self->structs);
}
/*
* slang_code_object
*/
GLvoid
_slang_code_object_ctr(slang_code_object * self)
{
GLuint i;
for (i = 0; i < SLANG_BUILTIN_TOTAL; i++)
_slang_code_unit_ctr(&self->builtin[i], self);
_slang_code_unit_ctr(&self->unit, self);
_slang_assembly_file_ctr(&self->assembly);
slang_machine_ctr(&self->machine);
self->varpool.next_addr = 0;
slang_atom_pool_construct(&self->atompool);
slang_export_data_table_ctr(&self->expdata);
self->expdata.atoms = &self->atompool;
slang_export_code_table_ctr(&self->expcode);
self->expcode.atoms = &self->atompool;
}
GLvoid
_slang_code_object_dtr(slang_code_object * self)
{
GLuint i;
for (i = 0; i < SLANG_BUILTIN_TOTAL; i++)
_slang_code_unit_dtr(&self->builtin[i]);
_slang_code_unit_dtr(&self->unit);
slang_assembly_file_destruct(&self->assembly);
slang_machine_dtr(&self->machine);
slang_atom_pool_destruct(&self->atompool);
slang_export_data_table_dtr(&self->expdata);
slang_export_code_table_ctr(&self->expcode);
}
/* slang_info_log */
static char *out_of_memory = "Error: Out of memory.\n";
void
slang_info_log_construct(slang_info_log * log)
{
log->text = NULL;
log->dont_free_text = 0;
}
void
slang_info_log_destruct(slang_info_log * log)
{
if (!log->dont_free_text)
slang_alloc_free(log->text);
}
static int
slang_info_log_message(slang_info_log * log, const char *prefix,
const char *msg)
{
GLuint size;
if (log->dont_free_text)
return 0;
size = slang_string_length(msg) + 2;
if (prefix != NULL)
size += slang_string_length(prefix) + 2;
if (log->text != NULL) {
GLuint old_len = slang_string_length(log->text);
log->text = (char *)
slang_alloc_realloc(log->text, old_len + 1, old_len + size);
}
else {
log->text = (char *) (slang_alloc_malloc(size));
if (log->text != NULL)
log->text[0] = '\0';
}
if (log->text == NULL)
return 0;
if (prefix != NULL) {
slang_string_concat(log->text, prefix);
slang_string_concat(log->text, ": ");
}
slang_string_concat(log->text, msg);
slang_string_concat(log->text, "\n");
return 1;
}
int
slang_info_log_print(slang_info_log * log, const char *msg, ...)
{
va_list va;
char buf[1024];
va_start(va, msg);
_mesa_vsprintf(buf, msg, va);
va_end(va);
return slang_info_log_message(log, NULL, buf);
}
int
slang_info_log_error(slang_info_log * log, const char *msg, ...)
{
va_list va;
char buf[1024];
va_start(va, msg);
_mesa_vsprintf(buf, msg, va);
va_end(va);
if (slang_info_log_message(log, "Error", buf))
return 1;
slang_info_log_memory(log);
return 0;
}
int
slang_info_log_warning(slang_info_log * log, const char *msg, ...)
{
va_list va;
char buf[1024];
va_start(va, msg);
_mesa_vsprintf(buf, msg, va);
va_end(va);
if (slang_info_log_message(log, "Warning", buf))
return 1;
slang_info_log_memory(log);
return 0;
}
void
slang_info_log_memory(slang_info_log * log)
{
if (!slang_info_log_message(log, "Error", "Out of memory.")) {
log->dont_free_text = 1;
log->text = out_of_memory;
}
abort();
}
/* slang_parse_ctx */
typedef struct slang_parse_ctx_
{
const byte *I;
slang_info_log *L;
int parsing_builtin;
GLboolean global_scope; /**< Is object being declared a global? */
slang_atom_pool *atoms;
slang_unit_type type; /**< Vertex vs. Fragment */
} slang_parse_ctx;
/* slang_output_ctx */
typedef struct slang_output_ctx_
{
slang_variable_scope *vars;
slang_function_scope *funs;
slang_struct_scope *structs;
slang_assembly_file *assembly;
slang_var_pool *global_pool;
slang_machine *machine;
struct gl_program *program;
} slang_output_ctx;
/* _slang_compile() */
static void
parse_identifier_str(slang_parse_ctx * C, char **id)
{
*id = (char *) C->I;
C->I += _mesa_strlen(*id) + 1;
}
static slang_atom
parse_identifier(slang_parse_ctx * C)
{
const char *id;
id = (const char *) C->I;
C->I += _mesa_strlen(id) + 1;
return slang_atom_pool_atom(C->atoms, id);
}
static int
parse_number(slang_parse_ctx * C, int *number)
{
const int radix = (int) (*C->I++);
*number = 0;
while (*C->I != '\0') {
int digit;
if (*C->I >= '0' && *C->I <= '9')
digit = (int) (*C->I - '0');
else if (*C->I >= 'A' && *C->I <= 'Z')
digit = (int) (*C->I - 'A') + 10;
else
digit = (int) (*C->I - 'a') + 10;
*number = *number * radix + digit;
C->I++;
}
C->I++;
if (*number > 65535)
slang_info_log_warning(C->L, "%d: literal integer overflow.", *number);
return 1;
}
static int
parse_float(slang_parse_ctx * C, float *number)
{
char *integral = NULL;
char *fractional = NULL;
char *exponent = NULL;
char *whole = NULL;
parse_identifier_str(C, &integral);
parse_identifier_str(C, &fractional);
parse_identifier_str(C, &exponent);
whole = (char *) (slang_alloc_malloc((_mesa_strlen(integral) +
_mesa_strlen(fractional) +
_mesa_strlen(exponent) + 3) * sizeof(char)));
if (whole == NULL) {
slang_info_log_memory(C->L);
return 0;
}
slang_string_copy(whole, integral);
slang_string_concat(whole, ".");
slang_string_concat(whole, fractional);
slang_string_concat(whole, "E");
slang_string_concat(whole, exponent);
*number = (float) (_mesa_strtod(whole, (char **) NULL));
slang_alloc_free(whole);
return 1;
}
/* revision number - increment after each change affecting emitted output */
#define REVISION 3
static int
check_revision(slang_parse_ctx * C)
{
if (*C->I != REVISION) {
slang_info_log_error(C->L, "Internal compiler error.");
return 0;
}
C->I++;
return 1;
}
static int parse_statement(slang_parse_ctx *, slang_output_ctx *,
slang_operation *);
static int parse_expression(slang_parse_ctx *, slang_output_ctx *,
slang_operation *);
static int parse_type_specifier(slang_parse_ctx *, slang_output_ctx *,
slang_type_specifier *);
static GLboolean
parse_array_len(slang_parse_ctx * C, slang_output_ctx * O, GLuint * len)
{
slang_operation array_size;
slang_assembly_name_space space;
GLboolean result;
if (!slang_operation_construct(&array_size))
return GL_FALSE;
if (!parse_expression(C, O, &array_size)) {
slang_operation_destruct(&array_size);
return GL_FALSE;
}
space.funcs = O->funs;
space.structs = O->structs;
space.vars = O->vars;
result = _slang_evaluate_int(O->assembly, O->machine, &space,
&array_size, len, C->atoms);
slang_operation_destruct(&array_size);
return result;
}
static GLboolean
calculate_var_size(slang_parse_ctx * C, slang_output_ctx * O,
slang_variable * var)
{
slang_storage_aggregate agg;
if (!slang_storage_aggregate_construct(&agg))
return GL_FALSE;
if (!_slang_aggregate_variable(&agg, &var->type.specifier, var->array_len,
O->funs, O->structs, O->vars, O->machine,
O->assembly, C->atoms)) {
slang_storage_aggregate_destruct(&agg);
return GL_FALSE;
}
var->size = _slang_sizeof_aggregate(&agg);
slang_storage_aggregate_destruct(&agg);
return GL_TRUE;
}
static GLboolean
convert_to_array(slang_parse_ctx * C, slang_variable * var,
const slang_type_specifier * sp)
{
/* sized array - mark it as array, copy the specifier to the array element and
* parse the expression */
var->type.specifier.type = slang_spec_array;
var->type.specifier._array = (slang_type_specifier *)
slang_alloc_malloc(sizeof(slang_type_specifier));
if (var->type.specifier._array == NULL) {
slang_info_log_memory(C->L);
return GL_FALSE;
}
slang_type_specifier_ctr(var->type.specifier._array);
return slang_type_specifier_copy(var->type.specifier._array, sp);
}
/* structure field */
#define FIELD_NONE 0
#define FIELD_NEXT 1
#define FIELD_ARRAY 2
static GLboolean
parse_struct_field_var(slang_parse_ctx * C, slang_output_ctx * O,
slang_variable * var, const slang_type_specifier * sp)
{
var->a_name = parse_identifier(C);
if (var->a_name == SLANG_ATOM_NULL)
return GL_FALSE;
switch (*C->I++) {
case FIELD_NONE:
if (!slang_type_specifier_copy(&var->type.specifier, sp))
return GL_FALSE;
break;
case FIELD_ARRAY:
if (!convert_to_array(C, var, sp))
return GL_FALSE;
if (!parse_array_len(C, O, &var->array_len))
return GL_FALSE;
break;
default:
return GL_FALSE;
}
return calculate_var_size(C, O, var);
}
static int
parse_struct_field(slang_parse_ctx * C, slang_output_ctx * O,
slang_struct * st, slang_type_specifier * sp)
{
slang_output_ctx o = *O;
o.structs = st->structs;
if (!parse_type_specifier(C, &o, sp))
return 0;
do {
slang_variable *var = slang_variable_scope_grow(st->fields);
if (!var) {
slang_info_log_memory(C->L);
return 0;
}
if (!parse_struct_field_var(C, &o, var, sp))
return 0;
}
while (*C->I++ != FIELD_NONE);
return 1;
}
static int
parse_struct(slang_parse_ctx * C, slang_output_ctx * O, slang_struct ** st)
{
slang_atom a_name;
const char *name;
/* parse struct name (if any) and make sure it is unique in current scope */
a_name = parse_identifier(C);
if (a_name == SLANG_ATOM_NULL)
return 0;
name = slang_atom_pool_id(C->atoms, a_name);
if (name[0] != '\0'
&& slang_struct_scope_find(O->structs, a_name, 0) != NULL) {
slang_info_log_error(C->L, "%s: duplicate type name.", name);
return 0;
}
/* set-up a new struct */
*st = (slang_struct *) slang_alloc_malloc(sizeof(slang_struct));
if (*st == NULL) {
slang_info_log_memory(C->L);
return 0;
}
if (!slang_struct_construct(*st)) {
slang_alloc_free(*st);
*st = NULL;
slang_info_log_memory(C->L);
return 0;
}
(**st).a_name = a_name;
(**st).structs->outer_scope = O->structs;
/* parse individual struct fields */
do {
slang_type_specifier sp;
slang_type_specifier_ctr(&sp);
if (!parse_struct_field(C, O, *st, &sp)) {
slang_type_specifier_dtr(&sp);
return 0;
}
slang_type_specifier_dtr(&sp);
}
while (*C->I++ != FIELD_NONE);
/* if named struct, copy it to current scope */
if (name[0] != '\0') {
slang_struct *s;
O->structs->structs =
(slang_struct *) slang_alloc_realloc(O->structs->structs,
O->structs->num_structs *
sizeof(slang_struct),
(O->structs->num_structs +
1) * sizeof(slang_struct));
if (O->structs->structs == NULL) {
slang_info_log_memory(C->L);
return 0;
}
s = &O->structs->structs[O->structs->num_structs];
if (!slang_struct_construct(s))
return 0;
O->structs->num_structs++;
if (!slang_struct_copy(s, *st))
return 0;
}
return 1;
}
/* type qualifier */
#define TYPE_QUALIFIER_NONE 0
#define TYPE_QUALIFIER_CONST 1
#define TYPE_QUALIFIER_ATTRIBUTE 2
#define TYPE_QUALIFIER_VARYING 3
#define TYPE_QUALIFIER_UNIFORM 4
#define TYPE_QUALIFIER_FIXEDOUTPUT 5
#define TYPE_QUALIFIER_FIXEDINPUT 6
static int
parse_type_qualifier(slang_parse_ctx * C, slang_type_qualifier * qual)
{
switch (*C->I++) {
case TYPE_QUALIFIER_NONE:
*qual = slang_qual_none;
break;
case TYPE_QUALIFIER_CONST:
*qual = slang_qual_const;
break;
case TYPE_QUALIFIER_ATTRIBUTE:
*qual = slang_qual_attribute;
break;
case TYPE_QUALIFIER_VARYING:
*qual = slang_qual_varying;
break;
case TYPE_QUALIFIER_UNIFORM:
*qual = slang_qual_uniform;
break;
case TYPE_QUALIFIER_FIXEDOUTPUT:
*qual = slang_qual_fixedoutput;
break;
case TYPE_QUALIFIER_FIXEDINPUT:
*qual = slang_qual_fixedinput;
break;
default:
return 0;
}
return 1;
}
/* type specifier */
#define TYPE_SPECIFIER_VOID 0
#define TYPE_SPECIFIER_BOOL 1
#define TYPE_SPECIFIER_BVEC2 2
#define TYPE_SPECIFIER_BVEC3 3
#define TYPE_SPECIFIER_BVEC4 4
#define TYPE_SPECIFIER_INT 5
#define TYPE_SPECIFIER_IVEC2 6
#define TYPE_SPECIFIER_IVEC3 7
#define TYPE_SPECIFIER_IVEC4 8
#define TYPE_SPECIFIER_FLOAT 9
#define TYPE_SPECIFIER_VEC2 10
#define TYPE_SPECIFIER_VEC3 11
#define TYPE_SPECIFIER_VEC4 12
#define TYPE_SPECIFIER_MAT2 13
#define TYPE_SPECIFIER_MAT3 14
#define TYPE_SPECIFIER_MAT4 15
#define TYPE_SPECIFIER_SAMPLER1D 16
#define TYPE_SPECIFIER_SAMPLER2D 17
#define TYPE_SPECIFIER_SAMPLER3D 18
#define TYPE_SPECIFIER_SAMPLERCUBE 19
#define TYPE_SPECIFIER_SAMPLER1DSHADOW 20
#define TYPE_SPECIFIER_SAMPLER2DSHADOW 21
#define TYPE_SPECIFIER_STRUCT 22
#define TYPE_SPECIFIER_TYPENAME 23
static int
parse_type_specifier(slang_parse_ctx * C, slang_output_ctx * O,
slang_type_specifier * spec)
{
switch (*C->I++) {
case TYPE_SPECIFIER_VOID:
spec->type = slang_spec_void;
break;
case TYPE_SPECIFIER_BOOL:
spec->type = slang_spec_bool;
break;
case TYPE_SPECIFIER_BVEC2:
spec->type = slang_spec_bvec2;
break;
case TYPE_SPECIFIER_BVEC3:
spec->type = slang_spec_bvec3;
break;
case TYPE_SPECIFIER_BVEC4:
spec->type = slang_spec_bvec4;
break;
case TYPE_SPECIFIER_INT:
spec->type = slang_spec_int;
break;
case TYPE_SPECIFIER_IVEC2:
spec->type = slang_spec_ivec2;
break;
case TYPE_SPECIFIER_IVEC3:
spec->type = slang_spec_ivec3;
break;
case TYPE_SPECIFIER_IVEC4:
spec->type = slang_spec_ivec4;
break;
case TYPE_SPECIFIER_FLOAT:
spec->type = slang_spec_float;
break;
case TYPE_SPECIFIER_VEC2:
spec->type = slang_spec_vec2;
break;
case TYPE_SPECIFIER_VEC3:
spec->type = slang_spec_vec3;
break;
case TYPE_SPECIFIER_VEC4:
spec->type = slang_spec_vec4;
break;
case TYPE_SPECIFIER_MAT2:
spec->type = slang_spec_mat2;
break;
case TYPE_SPECIFIER_MAT3:
spec->type = slang_spec_mat3;
break;
case TYPE_SPECIFIER_MAT4:
spec->type = slang_spec_mat4;
break;
case TYPE_SPECIFIER_SAMPLER1D:
spec->type = slang_spec_sampler1D;
break;
case TYPE_SPECIFIER_SAMPLER2D:
spec->type = slang_spec_sampler2D;
break;
case TYPE_SPECIFIER_SAMPLER3D:
spec->type = slang_spec_sampler3D;
break;
case TYPE_SPECIFIER_SAMPLERCUBE:
spec->type = slang_spec_samplerCube;
break;
case TYPE_SPECIFIER_SAMPLER1DSHADOW:
spec->type = slang_spec_sampler1DShadow;
break;
case TYPE_SPECIFIER_SAMPLER2DSHADOW:
spec->type = slang_spec_sampler2DShadow;
break;
case TYPE_SPECIFIER_STRUCT:
spec->type = slang_spec_struct;
if (!parse_struct(C, O, &spec->_struct))
return 0;
break;
case TYPE_SPECIFIER_TYPENAME:
spec->type = slang_spec_struct;
{
slang_atom a_name;
slang_struct *stru;
a_name = parse_identifier(C);
if (a_name == NULL)
return 0;
stru = slang_struct_scope_find(O->structs, a_name, 1);
if (stru == NULL) {
slang_info_log_error(C->L, "undeclared type name '%s'",
slang_atom_pool_id(C->atoms, a_name));
return 0;
}
spec->_struct =
(slang_struct *) slang_alloc_malloc(sizeof(slang_struct));
if (spec->_struct == NULL) {
slang_info_log_memory(C->L);
return 0;
}
if (!slang_struct_construct(spec->_struct)) {
slang_alloc_free(spec->_struct);
spec->_struct = NULL;
return 0;
}
if (!slang_struct_copy(spec->_struct, stru))
return 0;
}
break;
default:
return 0;
}
return 1;
}
static int
parse_fully_specified_type(slang_parse_ctx * C, slang_output_ctx * O,
slang_fully_specified_type * type)
{
if (!parse_type_qualifier(C, &type->qualifier))
return 0;
if (!parse_type_specifier(C, O, &type->specifier))
return 0;
return 1;
}
/* operation */
#define OP_END 0
#define OP_BLOCK_BEGIN_NO_NEW_SCOPE 1
#define OP_BLOCK_BEGIN_NEW_SCOPE 2
#define OP_DECLARE 3
#define OP_ASM 4
#define OP_BREAK 5
#define OP_CONTINUE 6
#define OP_DISCARD 7
#define OP_RETURN 8
#define OP_EXPRESSION 9
#define OP_IF 10
#define OP_WHILE 11
#define OP_DO 12
#define OP_FOR 13
#define OP_PUSH_VOID 14
#define OP_PUSH_BOOL 15
#define OP_PUSH_INT 16
#define OP_PUSH_FLOAT 17
#define OP_PUSH_IDENTIFIER 18
#define OP_SEQUENCE 19
#define OP_ASSIGN 20
#define OP_ADDASSIGN 21
#define OP_SUBASSIGN 22
#define OP_MULASSIGN 23
#define OP_DIVASSIGN 24
/*#define OP_MODASSIGN 25*/
/*#define OP_LSHASSIGN 26*/
/*#define OP_RSHASSIGN 27*/
/*#define OP_ORASSIGN 28*/
/*#define OP_XORASSIGN 29*/
/*#define OP_ANDASSIGN 30*/
#define OP_SELECT 31
#define OP_LOGICALOR 32
#define OP_LOGICALXOR 33
#define OP_LOGICALAND 34
/*#define OP_BITOR 35*/
/*#define OP_BITXOR 36*/
/*#define OP_BITAND 37*/
#define OP_EQUAL 38
#define OP_NOTEQUAL 39
#define OP_LESS 40
#define OP_GREATER 41
#define OP_LESSEQUAL 42
#define OP_GREATEREQUAL 43
/*#define OP_LSHIFT 44*/
/*#define OP_RSHIFT 45*/
#define OP_ADD 46
#define OP_SUBTRACT 47
#define OP_MULTIPLY 48
#define OP_DIVIDE 49
/*#define OP_MODULUS 50*/
#define OP_PREINCREMENT 51
#define OP_PREDECREMENT 52
#define OP_PLUS 53
#define OP_MINUS 54
/*#define OP_COMPLEMENT 55*/
#define OP_NOT 56
#define OP_SUBSCRIPT 57
#define OP_CALL 58
#define OP_FIELD 59
#define OP_POSTINCREMENT 60
#define OP_POSTDECREMENT 61
/**
* When parsing a compound production, this function is used to parse the
* children.
* For example, a a while-loop compound will have two children, the
* while condition expression and the loop body. So, this function will
* be called twice to parse those two sub-expressions.
* \param C the parsing context
* \param O the output context
* \param oper the operation we're parsing
* \param statement indicates whether parsing a statement, or expression
* \return 1 if success, 0 if error
*/
static int
parse_child_operation(slang_parse_ctx * C, slang_output_ctx * O,
slang_operation * oper, GLboolean statement)
{
slang_operation *ch;
/* grow child array */
ch = slang_operation_grow(&oper->num_children, &oper->children);
if (statement)
return parse_statement(C, O, ch);
return parse_expression(C, O, ch);
}
static int parse_declaration(slang_parse_ctx * C, slang_output_ctx * O);
static int
parse_statement(slang_parse_ctx * C, slang_output_ctx * O,
slang_operation * oper)
{
oper->locals->outer_scope = O->vars;
switch (*C->I++) {
case OP_BLOCK_BEGIN_NO_NEW_SCOPE:
/* parse child statements, do not create new variable scope */
oper->type = slang_oper_block_no_new_scope;
while (*C->I != OP_END)
if (!parse_child_operation(C, O, oper, 1))
return 0;
C->I++;
break;
case OP_BLOCK_BEGIN_NEW_SCOPE:
/* parse child statements, create new variable scope */
{
slang_output_ctx o = *O;
oper->type = slang_oper_block_new_scope;
o.vars = oper->locals;
while (*C->I != OP_END)
if (!parse_child_operation(C, &o, oper, 1))
return 0;
C->I++;
}
break;
case OP_DECLARE:
/* local variable declaration, individual declarators are stored as
* children identifiers
*/
oper->type = slang_oper_block_no_new_scope;
{
const unsigned int first_var = O->vars->num_variables;
/* parse the declaration, note that there can be zero or more
* than one declarators
*/
if (!parse_declaration(C, O))
return 0;
if (first_var < O->vars->num_variables) {
const unsigned int num_vars = O->vars->num_variables - first_var;
unsigned int i;
oper->num_children = num_vars;
oper->children = slang_operation_new(num_vars);
if (oper->children == NULL) {
slang_info_log_memory(C->L);
return 0;
}
for (i = first_var; i < O->vars->num_variables; i++) {
slang_operation *o = &oper->children[i - first_var];
o->type = slang_oper_variable_decl;
o->locals->outer_scope = O->vars;
o->a_id = O->vars->variables[i].a_name;
}
}
}
break;
case OP_ASM:
/* the __asm statement, parse the mnemonic and all its arguments
* as expressions
*/
oper->type = slang_oper_asm;
oper->a_id = parse_identifier(C);
if (strcmp((char*)oper->a_id, "dot") == 0) {
printf("Assemble dot! **************************\n");
}
if (oper->a_id == SLANG_ATOM_NULL)
return 0;
while (*C->I != OP_END) {
if (!parse_child_operation(C, O, oper, 0))
return 0;
}
C->I++;
break;
case OP_BREAK:
oper->type = slang_oper_break;
break;
case OP_CONTINUE:
oper->type = slang_oper_continue;
break;
case OP_DISCARD:
oper->type = slang_oper_discard;
break;
case OP_RETURN:
oper->type = slang_oper_return;
if (!parse_child_operation(C, O, oper, 0))
return 0;
break;
case OP_EXPRESSION:
oper->type = slang_oper_expression;
if (!parse_child_operation(C, O, oper, 0))
return 0;
break;
case OP_IF:
oper->type = slang_oper_if;
if (!parse_child_operation(C, O, oper, 0))
return 0;
if (!parse_child_operation(C, O, oper, 1))
return 0;
if (!parse_child_operation(C, O, oper, 1))
return 0;
break;
case OP_WHILE:
{
slang_output_ctx o = *O;
oper->type = slang_oper_while;
o.vars = oper->locals;
if (!parse_child_operation(C, &o, oper, 1))
return 0;
if (!parse_child_operation(C, &o, oper, 1))
return 0;
}
break;
case OP_DO:
oper->type = slang_oper_do;
if (!parse_child_operation(C, O, oper, 1))
return 0;
if (!parse_child_operation(C, O, oper, 0))
return 0;
break;
case OP_FOR:
{
slang_output_ctx o = *O;
oper->type = slang_oper_for;
o.vars = oper->locals;
if (!parse_child_operation(C, &o, oper, 1))
return 0;
if (!parse_child_operation(C, &o, oper, 1))
return 0;
if (!parse_child_operation(C, &o, oper, 0))
return 0;
if (!parse_child_operation(C, &o, oper, 1))
return 0;
}
break;
default:
return 0;
}
return 1;
}
static int
handle_nary_expression(slang_parse_ctx * C, slang_operation * op,
slang_operation ** ops, unsigned int *total_ops,
unsigned int n)
{
unsigned int i;
op->children =
(slang_operation *) slang_alloc_malloc(n * sizeof(slang_operation));
if (op->children == NULL) {
slang_info_log_memory(C->L);
return 0;
}
op->num_children = n;
for (i = 0; i < n; i++)
op->children[i] = (*ops)[*total_ops - (n + 1 - i)];
(*ops)[*total_ops - (n + 1)] = (*ops)[*total_ops - 1];
*total_ops -= n;
*ops = (slang_operation *)
slang_alloc_realloc(*ops,
(*total_ops + n) * sizeof(slang_operation),
*total_ops * sizeof(slang_operation));
if (*ops == NULL) {
slang_info_log_memory(C->L);
return 0;
}
return 1;
}
static int
is_constructor_name(const char *name, slang_atom a_name,
slang_struct_scope * structs)
{
if (slang_type_specifier_type_from_string(name) != slang_spec_void)
return 1;
return slang_struct_scope_find(structs, a_name, 1) != NULL;
}
static int
parse_expression(slang_parse_ctx * C, slang_output_ctx * O,
slang_operation * oper)
{
slang_operation *ops = NULL;
unsigned int num_ops = 0;
int number;
while (*C->I != OP_END) {
slang_operation *op;
const unsigned int op_code = *C->I++;
/* allocate default operation, becomes a no-op if not used */
ops = (slang_operation *)
slang_alloc_realloc(ops,
num_ops * sizeof(slang_operation),
(num_ops + 1) * sizeof(slang_operation));
if (ops == NULL) {
slang_info_log_memory(C->L);
return 0;
}
op = &ops[num_ops];
if (!slang_operation_construct(op)) {
slang_info_log_memory(C->L);
return 0;
}
num_ops++;
op->locals->outer_scope = O->vars;
switch (op_code) {
case OP_PUSH_VOID:
op->type = slang_oper_void;
break;
case OP_PUSH_BOOL:
op->type = slang_oper_literal_bool;
if (!parse_number(C, &number))
return 0;
op->literal[0] =
op->literal[1] =
op->literal[2] =
op->literal[3] = (GLfloat) number;
break;
case OP_PUSH_INT:
op->type = slang_oper_literal_int;
if (!parse_number(C, &number))
return 0;
op->literal[0] =
op->literal[1] =
op->literal[2] =
op->literal[3] = (GLfloat) number;
break;
case OP_PUSH_FLOAT:
op->type = slang_oper_literal_float;
if (!parse_float(C, &op->literal[0]))
return 0;
op->literal[1] =
op->literal[2] =
op->literal[3] = op->literal[0];
break;
case OP_PUSH_IDENTIFIER:
op->type = slang_oper_identifier;
op->a_id = parse_identifier(C);
if (op->a_id == SLANG_ATOM_NULL)
return 0;
break;
case OP_SEQUENCE:
op->type = slang_oper_sequence;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_ASSIGN:
op->type = slang_oper_assign;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_ADDASSIGN:
op->type = slang_oper_addassign;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_SUBASSIGN:
op->type = slang_oper_subassign;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_MULASSIGN:
op->type = slang_oper_mulassign;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_DIVASSIGN:
op->type = slang_oper_divassign;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
/*case OP_MODASSIGN: */
/*case OP_LSHASSIGN: */
/*case OP_RSHASSIGN: */
/*case OP_ORASSIGN: */
/*case OP_XORASSIGN: */
/*case OP_ANDASSIGN: */
case OP_SELECT:
op->type = slang_oper_select;
if (!handle_nary_expression(C, op, &ops, &num_ops, 3))
return 0;
break;
case OP_LOGICALOR:
op->type = slang_oper_logicalor;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_LOGICALXOR:
op->type = slang_oper_logicalxor;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_LOGICALAND:
op->type = slang_oper_logicaland;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
/*case OP_BITOR: */
/*case OP_BITXOR: */
/*case OP_BITAND: */
case OP_EQUAL:
op->type = slang_oper_equal;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_NOTEQUAL:
op->type = slang_oper_notequal;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_LESS:
op->type = slang_oper_less;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_GREATER:
op->type = slang_oper_greater;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_LESSEQUAL:
op->type = slang_oper_lessequal;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_GREATEREQUAL:
op->type = slang_oper_greaterequal;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
/*case OP_LSHIFT: */
/*case OP_RSHIFT: */
case OP_ADD:
op->type = slang_oper_add;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_SUBTRACT:
op->type = slang_oper_subtract;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_MULTIPLY:
op->type = slang_oper_multiply;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_DIVIDE:
op->type = slang_oper_divide;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
/*case OP_MODULUS: */
case OP_PREINCREMENT:
op->type = slang_oper_preincrement;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
case OP_PREDECREMENT:
op->type = slang_oper_predecrement;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
case OP_PLUS:
op->type = slang_oper_plus;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
case OP_MINUS:
op->type = slang_oper_minus;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
case OP_NOT:
op->type = slang_oper_not;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
/*case OP_COMPLEMENT: */
case OP_SUBSCRIPT:
op->type = slang_oper_subscript;
if (!handle_nary_expression(C, op, &ops, &num_ops, 2))
return 0;
break;
case OP_CALL:
op->type = slang_oper_call;
op->a_id = parse_identifier(C);
if (op->a_id == SLANG_ATOM_NULL)
return 0;
while (*C->I != OP_END)
if (!parse_child_operation(C, O, op, 0))
return 0;
C->I++;
if (!C->parsing_builtin
&& !slang_function_scope_find_by_name(O->funs, op->a_id, 1)) {
const char *id;
id = slang_atom_pool_id(C->atoms, op->a_id);
if (!is_constructor_name(id, op->a_id, O->structs)) {
slang_info_log_error(C->L, "%s: undeclared function name.", id);
return 0;
}
}
break;
case OP_FIELD:
op->type = slang_oper_field;
op->a_id = parse_identifier(C);
if (op->a_id == SLANG_ATOM_NULL)
return 0;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
case OP_POSTINCREMENT:
op->type = slang_oper_postincrement;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
case OP_POSTDECREMENT:
op->type = slang_oper_postdecrement;
if (!handle_nary_expression(C, op, &ops, &num_ops, 1))
return 0;
break;
default:
return 0;
}
}
C->I++;
*oper = *ops;
slang_alloc_free(ops);
return 1;
}
/* parameter qualifier */
#define PARAM_QUALIFIER_IN 0
#define PARAM_QUALIFIER_OUT 1
#define PARAM_QUALIFIER_INOUT 2
/* function parameter array presence */
#define PARAMETER_ARRAY_NOT_PRESENT 0
#define PARAMETER_ARRAY_PRESENT 1
static int
parse_parameter_declaration(slang_parse_ctx * C, slang_output_ctx * O,
slang_variable * param)
{
/* parse and validate the parameter's type qualifiers (there can be
* two at most) because not all combinations are valid
*/
if (!parse_type_qualifier(C, ¶m->type.qualifier))
return 0;
switch (*C->I++) {
case PARAM_QUALIFIER_IN:
if (param->type.qualifier != slang_qual_const
&& param->type.qualifier != slang_qual_none) {
slang_info_log_error(C->L, "Invalid type qualifier.");
return 0;
}
break;
case PARAM_QUALIFIER_OUT:
if (param->type.qualifier == slang_qual_none)
param->type.qualifier = slang_qual_out;
else {
slang_info_log_error(C->L, "Invalid type qualifier.");
return 0;
}
break;
case PARAM_QUALIFIER_INOUT:
if (param->type.qualifier == slang_qual_none)
param->type.qualifier = slang_qual_inout;
else {
slang_info_log_error(C->L, "Invalid type qualifier.");
return 0;
}
break;
default:
return 0;
}
/* parse parameter's type specifier and name */
if (!parse_type_specifier(C, O, ¶m->type.specifier))
return 0;
param->a_name = parse_identifier(C);
if (param->a_name == SLANG_ATOM_NULL)
return 0;
/* if the parameter is an array, parse its size (the size must be
* explicitly defined
*/
if (*C->I++ == PARAMETER_ARRAY_PRESENT) {
slang_type_specifier p;
slang_type_specifier_ctr(&p);
if (!slang_type_specifier_copy(&p, ¶m->type.specifier)) {
slang_type_specifier_dtr(&p);
return GL_FALSE;
}
if (!convert_to_array(C, param, &p)) {
slang_type_specifier_dtr(&p);
return GL_FALSE;
}
slang_type_specifier_dtr(&p);
if (!parse_array_len(C, O, ¶m->array_len))
return GL_FALSE;
}
/* calculate the parameter size */
if (!calculate_var_size(C, O, param))
return GL_FALSE;
/* TODO: allocate the local address here? */
return 1;
}
/* function type */
#define FUNCTION_ORDINARY 0
#define FUNCTION_CONSTRUCTOR 1
#define FUNCTION_OPERATOR 2
/* function parameter */
#define PARAMETER_NONE 0
#define PARAMETER_NEXT 1
/* operator type */
#define OPERATOR_ADDASSIGN 1
#define OPERATOR_SUBASSIGN 2
#define OPERATOR_MULASSIGN 3
#define OPERATOR_DIVASSIGN 4
/*#define OPERATOR_MODASSIGN 5*/
/*#define OPERATOR_LSHASSIGN 6*/
/*#define OPERATOR_RSHASSIGN 7*/
/*#define OPERATOR_ANDASSIGN 8*/
/*#define OPERATOR_XORASSIGN 9*/
/*#define OPERATOR_ORASSIGN 10*/
#define OPERATOR_LOGICALXOR 11
/*#define OPERATOR_BITOR 12*/
/*#define OPERATOR_BITXOR 13*/
/*#define OPERATOR_BITAND 14*/
#define OPERATOR_LESS 15
#define OPERATOR_GREATER 16
#define OPERATOR_LESSEQUAL 17
#define OPERATOR_GREATEREQUAL 18
/*#define OPERATOR_LSHIFT 19*/
/*#define OPERATOR_RSHIFT 20*/
#define OPERATOR_MULTIPLY 21
#define OPERATOR_DIVIDE 22
/*#define OPERATOR_MODULUS 23*/
#define OPERATOR_INCREMENT 24
#define OPERATOR_DECREMENT 25
#define OPERATOR_PLUS 26
#define OPERATOR_MINUS 27
/*#define OPERATOR_COMPLEMENT 28*/
#define OPERATOR_NOT 29
static const struct
{
unsigned int o_code;
const char *o_name;
} operator_names[] = {
{OPERATOR_INCREMENT, "++"},
{OPERATOR_ADDASSIGN, "+="},
{OPERATOR_PLUS, "+"},
{OPERATOR_DECREMENT, "--"},
{OPERATOR_SUBASSIGN, "-="},
{OPERATOR_MINUS, "-"},
{OPERATOR_NOT, "!"},
{OPERATOR_MULASSIGN, "*="},
{OPERATOR_MULTIPLY, "*"},
{OPERATOR_DIVASSIGN, "/="},
{OPERATOR_DIVIDE, "/"},
{OPERATOR_LESSEQUAL, "<="},
/*{ OPERATOR_LSHASSIGN, "<<=" }, */
/*{ OPERATOR_LSHIFT, "<<" }, */
{OPERATOR_LESS, "<"},
{OPERATOR_GREATEREQUAL, ">="},
/*{ OPERATOR_RSHASSIGN, ">>=" }, */
/*{ OPERATOR_RSHIFT, ">>" }, */
{OPERATOR_GREATER, ">"},
/*{ OPERATOR_MODASSIGN, "%=" }, */
/*{ OPERATOR_MODULUS, "%" }, */
/*{ OPERATOR_ANDASSIGN, "&=" }, */
/*{ OPERATOR_BITAND, "&" }, */
/*{ OPERATOR_ORASSIGN, "|=" }, */
/*{ OPERATOR_BITOR, "|" }, */
/*{ OPERATOR_COMPLEMENT, "~" }, */
/*{ OPERATOR_XORASSIGN, "^=" }, */
{OPERATOR_LOGICALXOR, "^^"},
/*{ OPERATOR_BITXOR, "^" } */
};
static slang_atom
parse_operator_name(slang_parse_ctx * C)
{
unsigned int i;
for (i = 0; i < sizeof(operator_names) / sizeof(*operator_names); i++) {
if (operator_names[i].o_code == (unsigned int) (*C->I)) {
slang_atom atom =
slang_atom_pool_atom(C->atoms, operator_names[i].o_name);
if (atom == SLANG_ATOM_NULL) {
slang_info_log_memory(C->L);
return 0;
}
C->I++;
return atom;
}
}
return 0;
}
static int
parse_function_prototype(slang_parse_ctx * C, slang_output_ctx * O,
slang_function * func)
{
/* parse function type and name */
if (!parse_fully_specified_type(C, O, &func->header.type))
return 0;
switch (*C->I++) {
case FUNCTION_ORDINARY:
func->kind = slang_func_ordinary;
func->header.a_name = parse_identifier(C);
if (func->header.a_name == SLANG_ATOM_NULL)
return 0;
break;
case FUNCTION_CONSTRUCTOR:
func->kind = slang_func_constructor;
if (func->header.type.specifier.type == slang_spec_struct)
return 0;
func->header.a_name =
slang_atom_pool_atom(C->atoms,
slang_type_specifier_type_to_string
(func->header.type.specifier.type));
if (func->header.a_name == SLANG_ATOM_NULL) {
slang_info_log_memory(C->L);
return 0;
}
break;
case FUNCTION_OPERATOR:
func->kind = slang_func_operator;
func->header.a_name = parse_operator_name(C);
if (func->header.a_name == SLANG_ATOM_NULL)
return 0;
break;
default:
return 0;
}
/* parse function parameters */
while (*C->I++ == PARAMETER_NEXT) {
slang_variable *p = slang_variable_scope_grow(func->parameters);
if (!p) {
slang_info_log_memory(C->L);
return 0;
}
if (!parse_parameter_declaration(C, O, p))
return 0;
}
#if 111
/* if the function returns a value, append a hidden __retVal 'out'
* parameter that corresponds to the return value.
*/
if (_slang_function_has_return_value(func)) {
slang_variable *p = slang_variable_scope_grow(func->parameters);
slang_atom a_retVal = slang_atom_pool_atom(C->atoms, "__retVal");
assert(a_retVal);
p->a_name = a_retVal;
p->type = func->header.type;
p->type.qualifier = slang_qual_out;
}
#endif
/* function formal parameters and local variables share the same
* scope, so save the information about param count in a seperate
* place also link the scope to the global variable scope so when a
* given identifier is not found here, the search process continues
* in the global space
*/
func->param_count = func->parameters->num_variables;
func->parameters->outer_scope = O->vars;
return 1;
}
static int
parse_function_definition(slang_parse_ctx * C, slang_output_ctx * O,
slang_function * func)
{
slang_output_ctx o = *O;
if (!parse_function_prototype(C, O, func))
return 0;
/* create function's body operation */
func->body =
(slang_operation *) slang_alloc_malloc(sizeof(slang_operation));
if (func->body == NULL) {
slang_info_log_memory(C->L);
return 0;
}
if (!slang_operation_construct(func->body)) {
slang_alloc_free(func->body);
func->body = NULL;
slang_info_log_memory(C->L);
return 0;
}
/* to parse the body the parse context is modified in order to
* capture parsed variables into function's local variable scope
*/
C->global_scope = GL_FALSE;
o.vars = func->parameters;
if (!parse_statement(C, &o, func->body))
return 0;
C->global_scope = GL_TRUE;
return 1;
}
static GLboolean
initialize_global(slang_assemble_ctx * A, slang_variable * var)
{
slang_assembly_file_restore_point point;
slang_machine mach;
slang_assembly_local_info save_local = A->local;
slang_operation op_id, op_assign;
GLboolean result;
/* save the current assembly */
if (!slang_assembly_file_restore_point_save(A->file, &point))
return GL_FALSE;
/* setup the machine */
mach = *A->mach;
mach.ip = A->file->count;
/* allocate local storage for expression */
A->local.ret_size = 0;
A->local.addr_tmp = 0;
A->local.swizzle_tmp = 4;
if (!slang_assembly_file_push_label(A->file, slang_asm_local_alloc, 20))
return GL_FALSE;
if (!slang_assembly_file_push_label(A->file, slang_asm_enter, 20))
return GL_FALSE;
/* construct the left side of assignment */
if (!slang_operation_construct(&op_id))
return GL_FALSE;
op_id.type = slang_oper_identifier;
op_id.a_id = var->a_name;
/* put the variable into operation's scope */
op_id.locals->variables =
(slang_variable *) slang_alloc_malloc(sizeof(slang_variable));
if (op_id.locals->variables == NULL) {
slang_operation_destruct(&op_id);
return GL_FALSE;
}
op_id.locals->num_variables = 1;
op_id.locals->variables[0] = *var;
/* construct the assignment expression */
if (!slang_operation_construct(&op_assign)) {
op_id.locals->num_variables = 0;
slang_operation_destruct(&op_id);
return GL_FALSE;
}
op_assign.type = slang_oper_assign;
op_assign.children =
(slang_operation *) slang_alloc_malloc(2 * sizeof(slang_operation));
if (op_assign.children == NULL) {
slang_operation_destruct(&op_assign);
op_id.locals->num_variables = 0;
slang_operation_destruct(&op_id);
return GL_FALSE;
}
op_assign.num_children = 2;
op_assign.children[0] = op_id;
op_assign.children[1] = *var->initializer;
/* insert the actual expression */
result = _slang_assemble_operation(A, &op_assign, slang_ref_forbid);
/* carefully destroy the operations */
op_assign.num_children = 0;
slang_alloc_free(op_assign.children);
op_assign.children = NULL;
slang_operation_destruct(&op_assign);
op_id.locals->num_variables = 0;
slang_operation_destruct(&op_id);
if (!result)
return GL_FALSE;
if (!slang_assembly_file_push(A->file, slang_asm_exit))
return GL_FALSE;
/* execute the expression */
if (!_slang_execute2(A->file, &mach))
return GL_FALSE;
/* restore the old assembly */
if (!slang_assembly_file_restore_point_load(A->file, &point))
return GL_FALSE;
A->local = save_local;
/* now we copy the contents of the initialized variable back to the original machine */
_mesa_memcpy((GLubyte *) A->mach->mem + var->address,
(GLubyte *) mach.mem + var->address, var->size);
return GL_TRUE;
}
/* init declarator list */
#define DECLARATOR_NONE 0
#define DECLARATOR_NEXT 1
/* variable declaration */
#define VARIABLE_NONE 0
#define VARIABLE_IDENTIFIER 1
#define VARIABLE_INITIALIZER 2
#define VARIABLE_ARRAY_EXPLICIT 3
#define VARIABLE_ARRAY_UNKNOWN 4
/**
* Parse the initializer for a variable declaration.
*/
static int
parse_init_declarator(slang_parse_ctx * C, slang_output_ctx * O,
const slang_fully_specified_type * type)
{
slang_variable *var;
/* empty init declatator (without name, e.g. "float ;") */
if (*C->I++ == VARIABLE_NONE)
return 1;
/* make room for the new variable and initialize it */
var = slang_variable_scope_grow(O->vars);
if (!var) {
slang_info_log_memory(C->L);
return 0;
}
/* copy the declarator qualifier type, parse the identifier */
var->global = C->global_scope;
var->type.qualifier = type->qualifier;
var->a_name = parse_identifier(C);
if (var->a_name == SLANG_ATOM_NULL)
return 0;
switch (*C->I++) {
case VARIABLE_NONE:
/* simple variable declarator - just copy the specifier */
if (!slang_type_specifier_copy(&var->type.specifier, &type->specifier))
return 0;
break;
case VARIABLE_INITIALIZER:
/* initialized variable - copy the specifier and parse the expression */
if (!slang_type_specifier_copy(&var->type.specifier, &type->specifier))
return 0;
var->initializer =
(slang_operation *) slang_alloc_malloc(sizeof(slang_operation));
if (var->initializer == NULL) {
slang_info_log_memory(C->L);
return 0;
}
if (!slang_operation_construct(var->initializer)) {
slang_alloc_free(var->initializer);
var->initializer = NULL;
slang_info_log_memory(C->L);
return 0;
}
if (!parse_expression(C, O, var->initializer))
return 0;
break;
#if 0
case VARIABLE_ARRAY_UNKNOWN:
/* unsized array - mark it as array and copy the specifier to
the array element
*/
if (!convert_to_array(C, var, &type->specifier))
return GL_FALSE;
break;
#endif
case VARIABLE_ARRAY_EXPLICIT:
if (!convert_to_array(C, var, &type->specifier))
return GL_FALSE;
if (!parse_array_len(C, O, &var->array_len))
return GL_FALSE;
break;
default:
return 0;
}
#if 1
if (C->global_scope /*&& O->program*/)
_slang_codegen_global_variable(var, O->program, C->type);
#endif
/* allocate global address space for a variable with a known size */
if (C->global_scope
&& !(var->type.specifier.type == slang_spec_array
&& var->array_len == 0)) {
if (!calculate_var_size(C, O, var))
return GL_FALSE;
var->address = slang_var_pool_alloc(O->global_pool, var->size);
}
/* initialize global variable */
if (C->global_scope) {
if (var->initializer != NULL) {
slang_assemble_ctx A;
A.file = O->assembly;
A.mach = O->machine;
A.atoms = C->atoms;
A.space.funcs = O->funs;
A.space.structs = O->structs;
A.space.vars = O->vars;
if (!initialize_global(&A, var))
return 0;
}
else {
_mesa_memset((GLubyte *) (O->machine->mem) + var->address, 0,
var->size);
}
}
return 1;
}
/**
* Parse a list of variable declarations. Each variable may have an
* initializer.
*/
static int
parse_init_declarator_list(slang_parse_ctx * C, slang_output_ctx * O)
{
slang_fully_specified_type type;
/* parse the fully specified type, common to all declarators */
if (!slang_fully_specified_type_construct(&type))
return 0;
if (!parse_fully_specified_type(C, O, &type)) {
slang_fully_specified_type_destruct(&type);
return 0;
}
/* parse declarators, pass-in the parsed type */
do {
if (!parse_init_declarator(C, O, &type)) {
slang_fully_specified_type_destruct(&type);
return 0;
}
}
while (*C->I++ == DECLARATOR_NEXT);
slang_fully_specified_type_destruct(&type);
return 1;
}
/**
* Parse a function definition or declaration.
* \param C parsing context
* \param O output context
* \param definition if non-zero expect a definition, else a declaration
* \param parsed_func_ret returns the parsed function
* \return GL_TRUE if success, GL_FALSE if failure
*/
static GLboolean
parse_function(slang_parse_ctx * C, slang_output_ctx * O, int definition,
slang_function ** parsed_func_ret)
{
slang_function parsed_func, *found_func;
/* parse function definition/declaration */
if (!slang_function_construct(&parsed_func))
return GL_FALSE;
if (definition) {
if (!parse_function_definition(C, O, &parsed_func)) {
slang_function_destruct(&parsed_func);
return GL_FALSE;
}
}
else {
if (!parse_function_prototype(C, O, &parsed_func)) {
slang_function_destruct(&parsed_func);
return GL_FALSE;
}
}
/* find a function with a prototype matching the parsed one - only
* the current scope is being searched to allow built-in function
* overriding
*/
found_func = slang_function_scope_find(O->funs, &parsed_func, 0);
if (found_func == NULL) {
/* New function, add it to the function list */
O->funs->functions =
(slang_function *) slang_alloc_realloc(O->funs->functions,
O->funs->num_functions *
sizeof(slang_function),
(O->funs->num_functions +
1) * sizeof(slang_function));
if (O->funs->functions == NULL) {
slang_info_log_memory(C->L);
slang_function_destruct(&parsed_func);
return GL_FALSE;
}
O->funs->functions[O->funs->num_functions] = parsed_func;
O->funs->num_functions++;
/* return the newly parsed function */
*parsed_func_ret = &O->funs->functions[O->funs->num_functions - 1];
}
else {
/* previously defined or declared */
/* TODO: check function return type qualifiers and specifiers */
if (definition) {
if (found_func->body != NULL) {
slang_info_log_error(C->L, "%s: function already has a body.",
slang_atom_pool_id(C->atoms,
parsed_func.header.
a_name));
slang_function_destruct(&parsed_func);
return GL_FALSE;
}
/* destroy the existing function declaration and replace it
* with the new one, remember to save the fixup table
*/
parsed_func.fixups = found_func->fixups;
slang_fixup_table_init(&found_func->fixups);
slang_function_destruct(found_func);
*found_func = parsed_func;
}
else {
/* another declaration of the same function prototype - ignore it */
slang_function_destruct(&parsed_func);
}
/* return the found function */
*parsed_func_ret = found_func;
}
/* assemble the parsed function */
{
slang_assemble_ctx A;
A.file = O->assembly;
A.mach = O->machine;
A.atoms = C->atoms;
A.space.funcs = O->funs;
A.space.structs = O->structs;
A.space.vars = O->vars;
A.program = O->program;
_slang_reset_error();
#if 0
printf("*************** Assemble function %s ****\n", (char *) (*parsed_func_ret)->header.a_name);
slang_print_var_scope((*parsed_func_ret)->parameters,
(*parsed_func_ret)->param_count);
#endif
if (!_slang_assemble_function(&A, *parsed_func_ret)) {
/* propogate the error message back through the info log */
C->L->text = _mesa_strdup(_slang_error_text());
C->L->dont_free_text = GL_FALSE;
return GL_FALSE;
}
#if 0
printf("**************************************\n");
#endif
#if 1
_slang_codegen_function(&A, *parsed_func_ret);
#endif
}
return GL_TRUE;
}
/* declaration */
#define DECLARATION_FUNCTION_PROTOTYPE 1
#define DECLARATION_INIT_DECLARATOR_LIST 2
static int
parse_declaration(slang_parse_ctx * C, slang_output_ctx * O)
{
switch (*C->I++) {
case DECLARATION_INIT_DECLARATOR_LIST:
if (!parse_init_declarator_list(C, O))
return 0;
break;
case DECLARATION_FUNCTION_PROTOTYPE:
{
slang_function *dummy_func;
if (!parse_function(C, O, 0, &dummy_func))
return 0;
}
break;
default:
return 0;
}
return 1;
}
/* external declaration */
#define EXTERNAL_NULL 0
#define EXTERNAL_FUNCTION_DEFINITION 1
#define EXTERNAL_DECLARATION 2
static GLboolean
parse_code_unit(slang_parse_ctx * C, slang_code_unit * unit,
struct gl_program *program)
{
slang_output_ctx o;
/* setup output context */
o.funs = &unit->funs;
o.structs = &unit->structs;
o.vars = &unit->vars;
o.assembly = &unit->object->assembly;
o.global_pool = &unit->object->varpool;
o.machine = &unit->object->machine;
o.program = program;
/* parse individual functions and declarations */
while (*C->I != EXTERNAL_NULL) {
switch (*C->I++) {
case EXTERNAL_FUNCTION_DEFINITION:
{
slang_function *func;
if (!parse_function(C, &o, 1, &func))
return GL_FALSE;
}
break;
case EXTERNAL_DECLARATION:
if (!parse_declaration(C, &o))
return GL_FALSE;
break;
default:
return GL_FALSE;
}
}
C->I++;
return GL_TRUE;
}
static GLboolean
compile_binary(const byte * prod, slang_code_unit * unit,
slang_unit_type type, slang_info_log * infolog,
slang_code_unit * builtin, slang_code_unit * downlink,
struct gl_program *program)
{
slang_parse_ctx C;
unit->type = type;
/* setup parse context */
C.I = prod;
C.L = infolog;
C.parsing_builtin = (builtin == NULL);
C.global_scope = GL_TRUE;
C.atoms = &unit->object->atompool;
C.type = type;
if (!check_revision(&C))
return GL_FALSE;
if (downlink != NULL) {
unit->vars.outer_scope = &downlink->vars;
unit->funs.outer_scope = &downlink->funs;
unit->structs.outer_scope = &downlink->structs;
}
/* parse translation unit */
return parse_code_unit(&C, unit, program);
}
static GLboolean
compile_with_grammar(grammar id, const char *source, slang_code_unit * unit,
slang_unit_type type, slang_info_log * infolog,
slang_code_unit * builtin,
struct gl_program *program)
{
byte *prod;
GLuint size, start, version;
slang_string preprocessed;
/* First retrieve the version number. */
if (!_slang_preprocess_version(source, &version, &start, infolog))
return GL_FALSE;
if (version > 110) {
slang_info_log_error(infolog,
"language version specified is not supported.");
return GL_FALSE;
}
/* Now preprocess the source string. */
slang_string_init(&preprocessed);
if (!_slang_preprocess_directives(&preprocessed, &source[start], infolog)) {
slang_string_free(&preprocessed);
slang_info_log_error(infolog, "failed to preprocess the source.");
return GL_FALSE;
}
/* Finally check the syntax and generate its binary representation. */
if (!grammar_fast_check(id,
(const byte *) (slang_string_cstr(&preprocessed)),
&prod, &size,
65536)) {
char buf[1024];
GLint pos;
slang_string_free(&preprocessed);
grammar_get_last_error((byte *) (buf), sizeof(buf), &pos);
slang_info_log_error(infolog, buf);
RETURN_ERROR("syntax error (possibly in library code)", 0);
}
slang_string_free(&preprocessed);
/* Syntax is okay - translate it to internal representation. */
if (!compile_binary(prod, unit, type, infolog, builtin,
&builtin[SLANG_BUILTIN_TOTAL - 1],
program)) {
grammar_alloc_free(prod);
return GL_FALSE;
}
grammar_alloc_free(prod);
return GL_TRUE;
}
LONGSTRING static const char *slang_shader_syn =
#include "library/slang_shader_syn.h"
;
static const byte slang_core_gc[] = {
#include "library/slang_core_gc.h"
};
static const byte slang_common_builtin_gc[] = {
#include "library/slang_common_builtin_gc.h"
};
static const byte slang_fragment_builtin_gc[] = {
#include "library/slang_fragment_builtin_gc.h"
};
static const byte slang_vertex_builtin_gc[] = {
#include "library/slang_vertex_builtin_gc.h"
};
#if defined(USE_X86_ASM) || defined(SLANG_X86)
foo
static const byte slang_builtin_vec4_gc[] = {
#include "library/slang_builtin_vec4_gc.h"
};
#endif
static GLboolean
compile_object(grammar * id, const char *source, slang_code_object * object,
slang_unit_type type, slang_info_log * infolog,
struct gl_program *program)
{
slang_code_unit *builtins = NULL;
/* load GLSL grammar */
*id = grammar_load_from_text((const byte *) (slang_shader_syn));
if (*id == 0) {
byte buf[1024];
int pos;
grammar_get_last_error(buf, 1024, &pos);
slang_info_log_error(infolog, (const char *) (buf));
return GL_FALSE;
}
/* set shader type - the syntax is slightly different for different shaders */
if (type == slang_unit_fragment_shader
|| type == slang_unit_fragment_builtin)
grammar_set_reg8(*id, (const byte *) "shader_type", 1);
else
grammar_set_reg8(*id, (const byte *) "shader_type", 2);
/* enable language extensions */
grammar_set_reg8(*id, (const byte *) "parsing_builtin", 1);
/* if parsing user-specified shader, load built-in library */
if (type == slang_unit_fragment_shader || type == slang_unit_vertex_shader) {
/* compile core functionality first */
if (!compile_binary(slang_core_gc,
&object->builtin[SLANG_BUILTIN_CORE],
slang_unit_fragment_builtin, infolog,
NULL, NULL, NULL))
return GL_FALSE;
/* compile common functions and variables, link to core */
if (!compile_binary(slang_common_builtin_gc,
&object->builtin[SLANG_BUILTIN_COMMON],
slang_unit_fragment_builtin, infolog, NULL,
&object->builtin[SLANG_BUILTIN_CORE], NULL))
return GL_FALSE;
/* compile target-specific functions and variables, link to common */
if (type == slang_unit_fragment_shader) {
if (!compile_binary(slang_fragment_builtin_gc,
&object->builtin[SLANG_BUILTIN_TARGET],
slang_unit_fragment_builtin, infolog, NULL,
&object->builtin[SLANG_BUILTIN_COMMON], NULL))
return GL_FALSE;
}
else if (type == slang_unit_vertex_shader) {
if (!compile_binary(slang_vertex_builtin_gc,
&object->builtin[SLANG_BUILTIN_TARGET],
slang_unit_vertex_builtin, infolog, NULL,
&object->builtin[SLANG_BUILTIN_COMMON], NULL))
return GL_FALSE;
}
#if defined(USE_X86_ASM) || defined(SLANG_X86)
/* compile x86 4-component vector overrides, link to target */
if (!compile_binary(slang_builtin_vec4_gc,
&object->builtin[SLANG_BUILTIN_VEC4],
slang_unit_fragment_builtin, infolog, NULL,
&object->builtin[SLANG_BUILTIN_TARGET]))
return GL_FALSE;
#endif
/* disable language extensions */
#if NEW_SLANG /* allow-built-ins */
grammar_set_reg8(*id, (const byte *) "parsing_builtin", 1);
#else
grammar_set_reg8(*id, (const byte *) "parsing_builtin", 0);
#endif
builtins = object->builtin;
}
/* compile the actual shader - pass-in built-in library for external shader */
return compile_with_grammar(*id, source, &object->unit, type, infolog,
builtins, program);
}
#if 0
static void
slang_create_uniforms(const slang_export_data_table *exports,
struct gl_program *program)
{
/* XXX only add uniforms that are actually going to get used */
GLuint i;
for (i = 0; i < exports->count; i++) {
if (exports->entries[i].access == slang_exp_uniform) {
const char *name = (char *) exports->entries[i].quant.name;
GLint j = _mesa_add_uniform(program->Parameters, name, 4);
assert(j >= 0);
}
}
}
#endif
static GLboolean
compile_shader(GLcontext *ctx, slang_code_object * object,
slang_unit_type type, slang_info_log * infolog,
struct gl_shader *shader)
{
struct gl_program *program = shader->Programs[0];
GLboolean success;
grammar id = 0;
assert(program);
_slang_code_object_dtr(object);
_slang_code_object_ctr(object);
success = compile_object(&id, shader->Source, object, type, infolog, program);
if (id != 0)
grammar_destroy(id);
if (!success)
return GL_FALSE;
if (!_slang_build_export_data_table(&object->expdata, &object->unit.vars))
return GL_FALSE;
if (!_slang_build_export_code_table(&object->expcode, &object->unit.funs,
&object->unit))
return GL_FALSE;
#if NEW_SLANG
{
slang_create_uniforms(&object->expdata, shader);
_mesa_print_program(program);
_mesa_print_program_parameters(ctx, program);
}
#endif
return GL_TRUE;
}
GLboolean
_slang_compile(GLcontext *ctx, struct gl_shader *shader)
{
GLboolean success;
slang_info_log info_log;
slang_code_object obj;
slang_unit_type type;
if (shader->Type == GL_VERTEX_SHADER) {
type = slang_unit_vertex_shader;
}
else {
assert(shader->Type == GL_FRAGMENT_SHADER);
type = slang_unit_fragment_shader;
}
/* XXX temporary hack */
if (!shader->Programs) {
GLenum progTarget;
if (shader->Type == GL_VERTEX_SHADER)
progTarget = GL_VERTEX_PROGRAM_ARB;
else
progTarget = GL_FRAGMENT_PROGRAM_ARB;
shader->Programs
= (struct gl_program **) malloc(sizeof(struct gl_program*));
shader->Programs[0] = _mesa_new_program(ctx, progTarget, 1);
shader->NumPrograms = 1;
shader->Programs[0]->Parameters = _mesa_new_parameter_list();
shader->Programs[0]->Varying = _mesa_new_parameter_list();
}
slang_info_log_construct(&info_log);
_slang_code_object_ctr(&obj);
success = compile_shader(ctx, &obj, type, &info_log, shader);
if (success) {
#if 0
slang_create_uniforms(&object->expdata, shader);
_mesa_print_program(program);
_mesa_print_program_parameters(ctx, program);
#endif
}
else {
/* XXX more work on info log needed here */
if (info_log.text) {
if (shader->InfoLog) {
free(shader->InfoLog);
shader->InfoLog = NULL;
}
shader->InfoLog = strdup(info_log.text);
}
}
slang_info_log_destruct(&info_log);
_slang_code_object_dtr(&obj);
return success;
}
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