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|
/*
* Mesa 3-D graphics library
* Version: 6.5.3
*
* Copyright (C) 2005-2007 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_codegen.c
* Mesa GLSL code generator. Convert AST to IR tree.
* \author Brian Paul
*/
#include "imports.h"
#include "macros.h"
#include "slang_assemble.h"
#include "slang_codegen.h"
#include "slang_compile.h"
#include "slang_storage.h"
#include "slang_error.h"
#include "slang_simplify.h"
#include "slang_emit.h"
#include "slang_ir.h"
#include "mtypes.h"
#include "program.h"
#include "prog_instruction.h"
#include "prog_parameter.h"
#include "slang_print.h"
/**
* XXX move these into the slang_assemble_ctx struct
*/
static slang_function *CurFunction = NULL;
static slang_atom CurLoopBreak = 0;
static slang_atom CurLoopCont = 0;
static slang_ir_node *
_slang_gen_operation(slang_assemble_ctx * A, slang_operation *oper);
/**
* Map "_asm foo" to IR_FOO, etc.
*/
typedef struct
{
const char *Name;
slang_ir_opcode Opcode;
GLuint HaveRetValue, NumParams;
} slang_asm_info;
static slang_asm_info AsmInfo[] = {
/* vec4 binary op */
{ "vec4_add", IR_ADD, 1, 2 },
{ "vec4_multiply", IR_MUL, 1, 2 },
{ "vec4_dot", IR_DOT4, 1, 2 },
{ "vec3_dot", IR_DOT3, 1, 2 },
{ "vec3_cross", IR_CROSS, 1, 2 },
{ "vec4_min", IR_MIN, 1, 2 },
{ "vec4_max", IR_MAX, 1, 2 },
{ "vec4_seq", IR_SEQ, 1, 2 },
{ "vec4_sge", IR_SGE, 1, 2 },
{ "vec4_sgt", IR_SGT, 1, 2 },
/* vec4 unary */
{ "vec4_floor", IR_FLOOR, 1, 1 },
{ "vec4_frac", IR_FRAC, 1, 1 },
{ "vec4_abs", IR_ABS, 1, 1 },
/* float binary op */
{ "float_add", IR_ADD, 1, 2 },
{ "float_subtract", IR_SUB, 1, 2 },
{ "float_multiply", IR_MUL, 1, 2 },
{ "float_divide", IR_DIV, 1, 2 },
{ "float_power", IR_POW, 1, 2 },
/* unary op */
{ "int_to_float", IR_I_TO_F, 1, 1 },
{ "float_exp", IR_EXP, 1, 1 },
{ "float_exp2", IR_EXP2, 1, 1 },
{ "float_log2", IR_LOG2, 1, 1 },
{ "float_rsq", IR_RSQ, 1, 1 },
{ "float_rcp", IR_RCP, 1, 1 },
{ "float_sine", IR_SIN, 1, 1 },
{ "float_cosine", IR_COS, 1, 1 },
{ NULL, IR_NOP, 0, 0 }
};
static slang_ir_node *
new_node(slang_ir_opcode op, slang_ir_node *left, slang_ir_node *right)
{
slang_ir_node *n = (slang_ir_node *) calloc(1, sizeof(slang_ir_node));
if (n) {
n->Opcode = op;
n->Children[0] = left;
n->Children[1] = right;
n->Swizzle = SWIZZLE_NOOP;
n->Writemask = WRITEMASK_XYZW;
}
return n;
}
static slang_ir_node *
new_seq(slang_ir_node *left, slang_ir_node *right)
{
/* XXX if either left or right is null, just return pointer to other?? */
assert(left);
assert(right);
return new_node(IR_SEQ, left, right);
}
static slang_ir_node *
new_label(slang_atom labName)
{
slang_ir_node *n = new_node(IR_LABEL, NULL, NULL);
n->Target = (char *) labName; /*_mesa_strdup(name);*/
return n;
}
static slang_ir_node *
new_float_literal(float x, float y, float z, float w)
{
slang_ir_node *n = new_node(IR_FLOAT, NULL, NULL);
n->Value[0] = x;
n->Value[1] = y;
n->Value[2] = z;
n->Value[3] = w;
return n;
}
/**
* XXX maybe pass an IR node as second param to indicate the jump target???
*/
static slang_ir_node *
new_cjump(slang_atom target)
{
slang_ir_node *n = new_node(IR_CJUMP, NULL, NULL);
if (n)
n->Target = (char *) target;
return n;
}
/**
* XXX maybe pass an IR node as second param to indicate the jump target???
*/
static slang_ir_node *
new_jump(slang_atom target)
{
slang_ir_node *n = new_node(IR_JUMP, NULL, NULL);
if (n)
n->Target = (char *) target;
return n;
}
/**
* New IR_VAR node - a reference to a previously declared variable.
*/
static slang_ir_node *
new_var(slang_assemble_ctx *A, slang_operation *oper,
slang_atom name, GLuint swizzle)
{
slang_variable *v = _slang_locate_variable(oper->locals, name, GL_TRUE);
slang_ir_node *n = new_node(IR_VAR, NULL, NULL);
if (!v) {
printf("VAR NOT FOUND %s\n", (char *) name);
assert(v);
}
/**
assert(v->declared);
**/
assert(!oper->var || oper->var == v);
v->used = GL_TRUE;
oper->var = v;
n->Swizzle = swizzle;
n->Var = v;
slang_resolve_storage(A->codegen/**NULL**/, n, A->program);
return n;
}
static GLboolean
slang_is_writemask(const char *field, GLuint *mask)
{
const GLuint n = 4;
GLuint i, bit, c = 0;
for (i = 0; i < n && field[i]; i++) {
switch (field[i]) {
case 'x':
case 'r':
bit = WRITEMASK_X;
break;
case 'y':
case 'g':
bit = WRITEMASK_Y;
break;
case 'z':
case 'b':
bit = WRITEMASK_Z;
break;
case 'w':
case 'a':
bit = WRITEMASK_W;
break;
default:
return GL_FALSE;
}
if (c & bit)
return GL_FALSE;
c |= bit;
}
*mask = c;
return GL_TRUE;
}
/**
* Check if the given function is really just a wrapper for an
* basic assembly instruction.
*/
static GLboolean
slang_is_asm_function(const slang_function *fun)
{
if (fun->body->type == slang_oper_block_no_new_scope &&
fun->body->num_children == 1 &&
fun->body->children[0].type == slang_oper_asm) {
return GL_TRUE;
}
return GL_FALSE;
}
/**
* Produce inline code for a call to an assembly instruction.
*/
static slang_operation *
slang_inline_asm_function(slang_assemble_ctx *A,
slang_function *fun, slang_operation *oper)
{
const int numArgs = oper->num_children;
const slang_operation *args = oper->children;
GLuint i;
slang_operation *inlined = slang_operation_new(1);
/*assert(oper->type == slang_oper_call); or vec4_add, etc */
inlined->type = fun->body->children[0].type;
inlined->a_id = fun->body->children[0].a_id;
inlined->num_children = numArgs;
inlined->children = slang_operation_new(numArgs);
#if 0
inlined->locals = slang_variable_scope_copy(oper->locals);
#else
assert(inlined->locals);
inlined->locals->outer_scope = oper->locals->outer_scope;
#endif
for (i = 0; i < numArgs; i++) {
slang_operation_copy(inlined->children + i, args + i);
}
return inlined;
}
static void
slang_resolve_variable(slang_operation *oper)
{
if (oper->type != slang_oper_identifier)
return;
if (!oper->var) {
oper->var = _slang_locate_variable(oper->locals,
(const slang_atom) oper->a_id,
GL_TRUE);
if (oper->var)
oper->var->used = GL_TRUE;
}
}
/**
* Replace particular variables (slang_oper_identifier) with new expressions.
*/
static void
slang_substitute(slang_assemble_ctx *A, slang_operation *oper,
GLuint substCount, slang_variable **substOld,
slang_operation **substNew, GLboolean isLHS)
{
switch (oper->type) {
case slang_oper_variable_decl:
{
slang_variable *v = _slang_locate_variable(oper->locals,
oper->a_id, GL_TRUE);
assert(v);
if (v->initializer && oper->num_children == 0) {
/* set child of oper to copy of initializer */
oper->num_children = 1;
oper->children = slang_operation_new(1);
slang_operation_copy(&oper->children[0], v->initializer);
}
if (oper->num_children == 1) {
/* the initializer */
slang_substitute(A, &oper->children[0], substCount, substOld, substNew, GL_FALSE);
}
}
break;
case slang_oper_identifier:
assert(oper->num_children == 0);
if (1/**!isLHS XXX FIX */) {
slang_atom id = oper->a_id;
slang_variable *v;
GLuint i;
v = _slang_locate_variable(oper->locals, id, GL_TRUE);
if (!v) {
printf("var %s not found!\n", (char *) oper->a_id);
break;
}
/* look for a substitution */
for (i = 0; i < substCount; i++) {
if (v == substOld[i]) {
/* OK, replace this slang_oper_identifier with a new expr */
assert(substNew[i]->type == slang_oper_identifier ||
substNew[i]->type == slang_oper_literal_float);
#if 0 /* DEBUG only */
if (substNew[i]->type == slang_oper_identifier) {
assert(substNew[i]->var);
assert(substNew[i]->var->a_name);
printf("Substitute %s with %s in id node %p\n",
(char*)v->a_name, (char*) substNew[i]->var->a_name,
(void*) oper);
}
else
printf("Substitute %s with %f in id node %p\n",
(char*)v->a_name, substNew[i]->literal[0],
(void*) oper);
#endif
slang_operation_copy(oper, substNew[i]);
break;
}
}
}
break;
#if 0 /* XXX rely on default case below */
case slang_oper_return:
/* do return replacement here too */
assert(oper->num_children == 0 || oper->num_children == 1);
if (oper->num_children == 1) {
slang_substitute(A, &oper->children[0],
substCount, substOld, substNew, GL_FALSE);
}
break;
#endif
case slang_oper_assign:
case slang_oper_subscript:
/* special case:
* child[0] can't have substitutions but child[1] can.
*/
slang_substitute(A, &oper->children[0],
substCount, substOld, substNew, GL_TRUE);
slang_substitute(A, &oper->children[1],
substCount, substOld, substNew, GL_FALSE);
break;
case slang_oper_field:
/* XXX NEW - test */
slang_substitute(A, &oper->children[0],
substCount, substOld, substNew, GL_TRUE);
break;
default:
{
GLuint i;
for (i = 0; i < oper->num_children; i++)
slang_substitute(A, &oper->children[i],
substCount, substOld, substNew, GL_FALSE);
}
}
}
/**
* Inline the given function call operation.
* Return a new slang_operation that corresponds to the inlined code.
*/
static slang_operation *
slang_inline_function_call(slang_assemble_ctx * A, slang_function *fun,
slang_operation *oper, slang_operation *returnOper)
{
typedef enum {
SUBST = 1,
COPY_IN,
COPY_OUT
} ParamMode;
ParamMode *paramMode;
const GLboolean haveRetValue = _slang_function_has_return_value(fun);
const GLuint numArgs = oper->num_children;
const GLuint totalArgs = numArgs + haveRetValue;
slang_operation *args = oper->children;
slang_operation *inlined, *top;
slang_variable **substOld;
slang_operation **substNew;
GLuint substCount, numCopyIn, i;
/*assert(oper->type == slang_oper_call); (or (matrix) multiply, etc) */
assert(fun->param_count == totalArgs);
/* allocate temporary arrays */
paramMode = (ParamMode *)
_mesa_calloc(totalArgs * sizeof(ParamMode));
substOld = (slang_variable **)
_mesa_calloc(totalArgs * sizeof(slang_variable *));
substNew = (slang_operation **)
_mesa_calloc(totalArgs * sizeof(slang_operation *));
printf("\nInline call to %s (total vars=%d nparams=%d)\n",
(char *) fun->header.a_name,
fun->parameters->num_variables, numArgs);
if (haveRetValue && !returnOper) {
/* Create comma sequence for inlined code, the left child will be the
* function body and the right child will be a variable (__retVal)
* that will get the return value.
*/
slang_operation *commaSeq;
slang_operation *declOper = NULL;
slang_variable *resultVar;
commaSeq = slang_operation_new(1);
commaSeq->type = slang_oper_sequence;
assert(commaSeq->locals);
commaSeq->locals->outer_scope = oper->locals->outer_scope;
commaSeq->num_children = 3;
commaSeq->children = slang_operation_new(3);
/* allocate the return var */
resultVar = slang_variable_scope_grow(commaSeq->locals);
/*
printf("ALLOC __retVal from scope %p\n", (void*) commaSeq->locals);
*/
printf("Alloc __resultTemp in scope %p for retval of calling %s\n",
(void*)commaSeq->locals, (char *) fun->header.a_name);
resultVar->a_name = slang_atom_pool_atom(A->atoms, "__resultTmp");
resultVar->type = fun->header.type; /* XXX copy? */
/*resultVar->type.qualifier = slang_qual_out;*/
/* child[0] = __resultTmp declaration */
declOper = &commaSeq->children[0];
declOper->type = slang_oper_variable_decl;
declOper->a_id = resultVar->a_name;
declOper->locals->outer_scope = commaSeq->locals; /*** ??? **/
/* child[1] = function body */
inlined = &commaSeq->children[1];
/* XXXX this may be inappropriate!!!!: */
inlined->locals->outer_scope = commaSeq->locals;
/* child[2] = __resultTmp reference */
returnOper = &commaSeq->children[2];
returnOper->type = slang_oper_identifier;
returnOper->a_id = resultVar->a_name;
returnOper->locals->outer_scope = commaSeq->locals;
declOper->locals->outer_scope = commaSeq->locals;
top = commaSeq;
}
else {
top = inlined = slang_operation_new(1);
/* XXXX this may be inappropriate!!!! */
inlined->locals->outer_scope = oper->locals->outer_scope;
}
assert(inlined->locals);
/* Examine the parameters, look for inout/out params, look for possible
* substitutions, etc:
* param type behaviour
* in copy actual to local
* const in substitute param with actual
* out copy out
*/
substCount = 0;
for (i = 0; i < totalArgs; i++) {
slang_variable *p = &fun->parameters->variables[i];
printf("Param %d: %s %s \n", i,
slang_type_qual_string(p->type.qualifier),
(char *) p->a_name);
if (p->type.qualifier == slang_qual_inout ||
p->type.qualifier == slang_qual_out) {
/* an output param */
slang_operation *arg;
if (i < numArgs)
arg = &args[i];
else
arg = returnOper;
paramMode[i] = SUBST;
assert(arg->type == slang_oper_identifier
/*||arg->type == slang_oper_variable_decl*/);
slang_resolve_variable(arg);
/* replace parameter 'p' with argument 'arg' */
substOld[substCount] = p;
substNew[substCount] = arg; /* will get copied */
substCount++;
}
else if (p->type.qualifier == slang_qual_const) {
/* a constant input param */
if (args[i].type == slang_oper_identifier ||
args[i].type == slang_oper_literal_float) {
/* replace all occurances of this parameter variable with the
* actual argument variable or a literal.
*/
paramMode[i] = SUBST;
slang_resolve_variable(&args[i]);
substOld[substCount] = p;
substNew[substCount] = &args[i]; /* will get copied */
substCount++;
}
else {
paramMode[i] = COPY_IN;
}
}
else {
paramMode[i] = COPY_IN;
}
assert(paramMode[i]);
}
#if 00
printf("ABOUT to inline body %p with checksum %d\n",
(char *) fun->body, slang_checksum_tree(fun->body));
#endif
/* actual code inlining: */
slang_operation_copy(inlined, fun->body);
#if 000
printf("======================= orig body code ======================\n");
printf("=== params scope = %p\n", (void*) fun->parameters);
slang_print_tree(fun->body, 8);
printf("======================= copied code =========================\n");
slang_print_tree(inlined, 8);
#endif
/* do parameter substitution in inlined code: */
slang_substitute(A, inlined, substCount, substOld, substNew, GL_FALSE);
#if 000
printf("======================= subst code ==========================\n");
slang_print_tree(inlined, 8);
printf("=============================================================\n");
#endif
/* New prolog statements: (inserted before the inlined code)
* Copy the 'in' arguments.
*/
numCopyIn = 0;
for (i = 0; i < numArgs; i++) {
if (paramMode[i] == COPY_IN) {
slang_variable *p = &fun->parameters->variables[i];
/* declare parameter 'p' */
slang_operation *decl = slang_operation_insert(&inlined->num_children,
&inlined->children,
numCopyIn);
printf("COPY_IN %s from expr\n", (char*)p->a_name);
decl->type = slang_oper_variable_decl;
assert(decl->locals);
decl->locals = fun->parameters;
decl->a_id = p->a_name;
decl->num_children = 1;
decl->children = slang_operation_new(1);
/* child[0] is the var's initializer */
slang_operation_copy(&decl->children[0], args + i);
numCopyIn++;
}
}
/* New epilog statements:
* 1. Create end of function label to jump to from return statements.
* 2. Copy the 'out' parameter vars
*/
{
slang_operation *lab = slang_operation_insert(&inlined->num_children,
&inlined->children,
inlined->num_children);
lab->type = slang_oper_label;
lab->a_id = slang_atom_pool_atom(A->atoms, CurFunction->end_label);
}
for (i = 0; i < totalArgs; i++) {
if (paramMode[i] == COPY_OUT) {
const slang_variable *p = &fun->parameters->variables[i];
/* actualCallVar = outParam */
/*if (i > 0 || !haveRetValue)*/
slang_operation *ass = slang_operation_insert(&inlined->num_children,
&inlined->children,
inlined->num_children);
ass->type = slang_oper_assign;
ass->num_children = 2;
ass->locals = _slang_variable_scope_new(inlined->locals);
assert(ass->locals);
ass->children = slang_operation_new(2);
ass->children[0] = args[i]; /*XXX copy */
ass->children[1].type = slang_oper_identifier;
ass->children[1].a_id = p->a_name;
ass->children[1].locals = _slang_variable_scope_new(ass->locals);
}
}
_mesa_free(paramMode);
_mesa_free(substOld);
_mesa_free(substNew);
printf("Done Inline call to %s (total vars=%d nparams=%d)\n",
(char *) fun->header.a_name,
fun->parameters->num_variables, numArgs);
return top;
}
static slang_ir_node *
_slang_gen_function_call(slang_assemble_ctx *A, slang_function *fun,
slang_operation *oper, slang_operation *dest)
{
slang_ir_node *n;
slang_operation *inlined;
slang_function *prevFunc;
prevFunc = CurFunction;
CurFunction = fun;
if (!CurFunction->end_label) {
char name[200];
sprintf(name, "__endOfFunc_%s_", (char *) CurFunction->header.a_name);
CurFunction->end_label = slang_atom_pool_gen(A->atoms, name);
}
if (slang_is_asm_function(fun) && !dest) {
/* assemble assembly function - tree style */
inlined = slang_inline_asm_function(A, fun, oper);
}
else {
/* non-assembly function */
inlined = slang_inline_function_call(A, fun, oper, dest);
}
/* Replace the function call with the inlined block */
#if 0
slang_operation_construct(oper);
slang_operation_copy(oper, inlined);
#else
*oper = *inlined;
#endif
#if 0
assert(inlined->locals);
printf("*** Inlined code for call to %s:\n",
(char*) fun->header.a_name);
slang_print_tree(oper, 10);
printf("\n");
#endif
/* assemble what we just made XXX here??? */
n = _slang_gen_operation(A, oper);
CurFunction = prevFunc;
return n;
}
static slang_asm_info *
slang_find_asm_info(const char *name)
{
GLuint i;
for (i = 0; AsmInfo[i].Name; i++) {
if (_mesa_strcmp(AsmInfo[i].Name, name) == 0) {
return AsmInfo + i;
}
}
return NULL;
}
static GLuint
make_writemask(char *field)
{
GLuint mask = 0x0;
while (*field) {
switch (*field) {
case 'x':
mask |= WRITEMASK_X;
break;
case 'y':
mask |= WRITEMASK_Y;
break;
case 'z':
mask |= WRITEMASK_Z;
break;
case 'w':
mask |= WRITEMASK_W;
break;
default:
abort();
}
field++;
}
if (mask == 0x0)
return WRITEMASK_XYZW;
else
return mask;
}
/**
* Generate IR tree for an asm instruction/operation such as:
* __asm vec4_dot __retVal.x, v1, v2;
*/
static slang_ir_node *
_slang_gen_asm(slang_assemble_ctx *A, slang_operation *oper,
slang_operation *dest)
{
const slang_asm_info *info;
slang_ir_node *kids[2], *n;
GLuint j, firstOperand;
assert(oper->type == slang_oper_asm);
info = slang_find_asm_info((char *) oper->a_id);
assert(info);
assert(info->NumParams <= 2);
if (info->NumParams == oper->num_children) {
/* storage for result not specified */
firstOperand = 0;
}
else {
/* storage for result (child[0]) is specified */
firstOperand = 1;
}
/* assemble child(ren) */
kids[0] = kids[1] = NULL;
for (j = 0; j < info->NumParams; j++) {
kids[j] = _slang_gen_operation(A, &oper->children[firstOperand + j]);
}
n = new_node(info->Opcode, kids[0], kids[1]);
if (firstOperand) {
/* Setup n->Store to be a particular location. Otherwise, storage
* for the result (a temporary) will be allocated later.
*/
GLuint writemask = WRITEMASK_XYZW;
slang_operation *dest_oper;
slang_ir_node *n0;
dest_oper = &oper->children[0];
if (dest_oper->type == slang_oper_field) {
/* writemask */
writemask = make_writemask((char*) dest_oper->a_id);
dest_oper = &dest_oper->children[0];
}
assert(dest_oper->type == slang_oper_identifier);
n0 = _slang_gen_operation(A, dest_oper);
assert(n0->Var);
assert(n0->Store);
free(n0);
n->Store = n0->Store;
n->Writemask = writemask;
}
return n;
}
static GLboolean
_slang_is_noop(const slang_operation *oper)
{
if (!oper ||
oper->type == slang_oper_void ||
(oper->num_children == 1 && oper->children[0].type == slang_oper_void))
return GL_TRUE;
else
return GL_FALSE;
}
/**
* Assemble a function call, given a particular function name.
* \param name the function's name (operators like '*' are possible).
*/
static slang_ir_node *
_slang_gen_function_call_name(slang_assemble_ctx *A, const char *name,
slang_operation *oper, slang_operation *dest)
{
slang_operation *params = oper->children;
const GLuint param_count = oper->num_children;
slang_atom atom;
slang_function *fun;
atom = slang_atom_pool_atom(A->atoms, name);
if (atom == SLANG_ATOM_NULL)
return NULL;
fun = _slang_locate_function(A->space.funcs, atom, params, param_count,
&A->space, A->atoms);
if (!fun) {
RETURN_ERROR2("Undefined function", name, 0);
}
return _slang_gen_function_call(A, fun, oper, dest);
}
/**
* Generate IR tree for a while-loop.
*/
static slang_ir_node *
_slang_gen_while(slang_assemble_ctx * A, const slang_operation *oper)
{
/*
* label "__startWhile"
* eval expr (child[0]), updating condcodes
* branch if false to "__endWhile"
* code body
* jump "__startWhile"
* label "__endWhile"
*/
slang_atom startAtom = slang_atom_pool_gen(A->atoms, "__startWhile");
slang_atom endAtom = slang_atom_pool_gen(A->atoms, "__endWhile");
slang_ir_node *startLab, *cond, *bra, *body, *jump, *endLab, *tree;
slang_atom prevLoopBreak = CurLoopBreak;
slang_atom prevLoopCont = CurLoopCont;
/* Push this loop */
CurLoopBreak = endAtom;
CurLoopCont = startAtom;
startLab = new_label(startAtom);
cond = _slang_gen_operation(A, &oper->children[0]);
tree = new_seq(startLab, cond);
bra = new_cjump(endAtom);
tree = new_seq(tree, bra);
body = _slang_gen_operation(A, &oper->children[1]);
tree = new_seq(tree, body);
jump = new_jump(startAtom);
tree = new_seq(tree, jump);
endLab = new_label(endAtom);
tree = new_seq(tree, endLab);
/* Pop this loop */
CurLoopBreak = prevLoopBreak;
CurLoopCont = prevLoopCont;
return tree;
}
/**
* Generate IR tree for a for-loop.
*/
static slang_ir_node *
_slang_gen_for(slang_assemble_ctx * A, const slang_operation *oper)
{
/*
* init code (child[0])
* label "__startFor"
* eval expr (child[1]), updating condcodes
* branch if false to "__endFor"
* code body (child[3])
* label "__continueFor"
* incr code (child[2])
* jump "__startFor"
* label "__endFor"
*/
slang_atom startAtom = slang_atom_pool_gen(A->atoms, "__startFor");
slang_atom contAtom = slang_atom_pool_gen(A->atoms, "__continueFor");
slang_atom endAtom = slang_atom_pool_gen(A->atoms, "__endFor");
slang_ir_node *init, *startLab, *cond, *bra, *body, *contLab;
slang_ir_node *incr, *jump, *endLab, *tree;
slang_atom prevLoopBreak = CurLoopBreak;
slang_atom prevLoopCont = CurLoopCont;
/* Push this loop */
CurLoopBreak = endAtom;
CurLoopCont = contAtom;
init = _slang_gen_operation(A, &oper->children[0]);
startLab = new_label(startAtom);
tree = new_seq(init, startLab);
cond = _slang_gen_operation(A, &oper->children[1]);
tree = new_seq(tree, cond);
bra = new_cjump(endAtom);
tree = new_seq(tree, bra);
body = _slang_gen_operation(A, &oper->children[3]);
tree = new_seq(tree, body);
contLab = new_label(contAtom);
tree = new_seq(tree, contLab);
incr = _slang_gen_operation(A, &oper->children[2]);
tree = new_seq(tree, incr);
jump = new_jump(startAtom);
tree = new_seq(tree, jump);
endLab = new_label(endAtom);
tree = new_seq(tree, endLab);
/* Pop this loop */
CurLoopBreak = prevLoopBreak;
CurLoopCont = prevLoopCont;
return tree;
}
/**
* Generate IR tree for an if/then/else conditional.
*/
static slang_ir_node *
_slang_gen_if(slang_assemble_ctx * A, const slang_operation *oper)
{
/*
* eval expr (child[0]), updating condcodes
* branch if false to _else or _endif
* "true" code block
* if haveElseClause clause:
* jump "__endif"
* label "__else"
* "false" code block
* label "__endif"
*/
const GLboolean haveElseClause = !_slang_is_noop(&oper->children[2]);
slang_ir_node *cond, *bra, *trueBody, *endifLab, *tree;
slang_atom elseAtom = slang_atom_pool_gen(A->atoms, "__else");
slang_atom endifAtom = slang_atom_pool_gen(A->atoms, "__endif");
cond = _slang_gen_operation(A, &oper->children[0]);
/*assert(cond->Store);*/
bra = new_cjump(haveElseClause ? elseAtom : endifAtom);
tree = new_seq(cond, bra);
trueBody = _slang_gen_operation(A, &oper->children[1]);
tree = new_seq(tree, trueBody);
if (haveElseClause) {
/* else clause */
slang_ir_node *jump, *elseLab, *falseBody;
jump = new_jump(endifAtom);
tree = new_seq(tree, jump);
elseLab = new_label(elseAtom);
tree = new_seq(tree, elseLab);
falseBody = _slang_gen_operation(A, &oper->children[2]);
tree = new_seq(tree, falseBody);
}
endifLab = new_label(endifAtom);
tree = new_seq(tree, endifLab);
return tree;
}
/**
* Generate IR tree for a return statement.
*/
static slang_ir_node *
_slang_gen_return(slang_assemble_ctx * A, slang_operation *oper)
{
if (oper->num_children == 0 ||
(oper->num_children == 1 &&
oper->children[0].type == slang_oper_void)) {
/* Convert from:
* return;
* To:
* goto __endOfFunction;
*/
slang_ir_node *n;
slang_operation gotoOp;
slang_operation_construct(&gotoOp);
gotoOp.type = slang_oper_goto;
gotoOp.a_id = slang_atom_pool_atom(A->atoms, CurFunction->end_label);
/* assemble the new code */
n = _slang_gen_operation(A, &gotoOp);
/* destroy temp code */
slang_operation_destruct(&gotoOp);
return n;
}
else {
/*
* Convert from:
* return expr;
* To:
* __retVal = expr;
* goto __endOfFunction;
*/
slang_operation *block, *assign, *jump;
slang_atom a_retVal;
slang_ir_node *n;
a_retVal = slang_atom_pool_atom(A->atoms, "__retVal");
assert(a_retVal);
#if 1 /* DEBUG */
{
slang_variable *v
= _slang_locate_variable(oper->locals, a_retVal, GL_TRUE);
assert(v);
}
#endif
block = slang_operation_new(1);
block->type = slang_oper_block_no_new_scope;
block->num_children = 2;
block->children = slang_operation_new(2);
assert(block->locals);
block->locals->outer_scope = oper->locals->outer_scope;
/* child[0]: __retVal = expr; */
assign = &block->children[0];
assign->type = slang_oper_assign;
assign->locals->outer_scope = block->locals;
assign->num_children = 2;
assign->children = slang_operation_new(2);
/* lhs (__retVal) */
assign->children[0].type = slang_oper_identifier;
assign->children[0].a_id = a_retVal;
assign->children[0].locals->outer_scope = assign->locals;
/* rhs (expr) */
/* XXX we might be able to avoid this copy someday */
slang_operation_copy(&assign->children[1], &oper->children[0]);
/* child[1]: goto __endOfFunction */
jump = &block->children[1];
jump->type = slang_oper_goto;
assert(CurFunction->end_label);
jump->a_id = slang_atom_pool_atom(A->atoms, CurFunction->end_label);
#if 0 /* debug */
printf("NEW RETURN:\n");
slang_print_tree(block, 0);
#endif
/* assemble the new code */
n = _slang_gen_operation(A, block);
slang_operation_delete(block);
return n;
}
}
/**
* Generate IR tree for a variable declaration.
*/
static slang_ir_node *
_slang_gen_declaration(slang_assemble_ctx *A, slang_operation *oper)
{
slang_ir_node *n;
slang_ir_node *varDecl;
slang_variable *v;
assert(oper->num_children == 0 || oper->num_children == 1);
v = _slang_locate_variable(oper->locals, oper->a_id, GL_TRUE);
assert(v);
varDecl = new_node(IR_VAR_DECL, NULL, NULL);
if (!varDecl)
return NULL;
varDecl->Var = v;
v->declared = GL_TRUE;
slang_resolve_storage(A->codegen, varDecl, A->program);
if (oper->num_children > 0) {
/* child is initializer */
slang_ir_node *var, *init, *rhs;
assert(oper->num_children == 1);
var = new_var(A, oper, oper->a_id, SWIZZLE_NOOP);
/* XXX make copy of this initializer? */
/*
printf("\n*** ASSEMBLE INITIALIZER %p\n", (void*) v->initializer);
*/
rhs = _slang_gen_operation(A, &oper->children[0]);
init = new_node(IR_MOVE, var, rhs);
/*assert(rhs->Opcode != IR_SEQ);*/
n = new_seq(varDecl, init);
}
else if (v->initializer) {
slang_ir_node *var, *init, *rhs;
var = new_var(A, oper, oper->a_id, SWIZZLE_NOOP);
/* XXX make copy of this initializer? */
/*
printf("\n*** ASSEMBLE INITIALIZER %p\n", (void*) v->initializer);
*/
rhs = _slang_gen_operation(A, v->initializer);
init = new_node(IR_MOVE, var, rhs);
/*
assert(rhs->Opcode != IR_SEQ);
*/
n = new_seq(varDecl, init);
}
else {
n = varDecl;
}
return n;
}
/**
* Generate IR tree for a variable (such as in an expression).
*/
static slang_ir_node *
_slang_gen_variable(slang_assemble_ctx * A, slang_operation *oper)
{
/* If there's a variable associated with this oper (from inlining)
* use it. Otherwise, use the oper's var id.
*/
slang_atom aVar = oper->var ? oper->var->a_name : oper->a_id;
slang_ir_node *n = new_var(A, oper, aVar, SWIZZLE_NOOP);
assert(oper->var);
return n;
}
/**
* Generate IR tree for an assignment (=).
*/
static slang_ir_node *
_slang_gen_assignment(slang_assemble_ctx * A, slang_operation *oper)
{
if (oper->children[0].type == slang_oper_identifier &&
oper->children[1].type == slang_oper_call) {
/* Sspecial case of: x = f(a, b)
* Replace with f(a, b, x) (where x == hidden __retVal out param)
*/
slang_ir_node *n;
n = _slang_gen_function_call_name(A,
(const char *) oper->children[1].a_id,
&oper->children[1], &oper->children[0]);
return n;
}
else {
slang_operation *lhs = &oper->children[0];
slang_ir_node *n, *c0, *c1;
GLuint mask = WRITEMASK_XYZW;
if (lhs->type == slang_oper_field) {
/* XXXX this is a hack! */
/* writemask */
if (!slang_is_writemask((char *) lhs->a_id, &mask))
mask = WRITEMASK_XYZW;
lhs = &lhs->children[0];
}
c0 = _slang_gen_operation(A, lhs);
c1 = _slang_gen_operation(A, &oper->children[1]);
n = new_node(IR_MOVE, c0, c1);
/*
assert(c1->Opcode != IR_SEQ);
*/
if (c0->Writemask != WRITEMASK_XYZW)
/* XXX this is a hack! */
n->Writemask = c0->Writemask;
else
n->Writemask = mask;
return n;
}
}
/**
* Generate IR tree for referencing a field in a struct (or basic vector type)
*/
static slang_ir_node *
_slang_gen_field(slang_assemble_ctx * A, slang_operation *oper)
{
slang_assembly_typeinfo ti;
slang_assembly_typeinfo_construct(&ti);
_slang_typeof_operation(A, &oper->children[0], &ti);
if (_slang_type_is_vector(ti.spec.type)) {
/* the field should be a swizzle */
const GLuint rows = _slang_type_dim(ti.spec.type);
slang_swizzle swz;
slang_ir_node *n;
if (!_slang_is_swizzle((char *) oper->a_id, rows, &swz)) {
RETURN_ERROR("Bad swizzle", 0);
}
n = _slang_gen_operation(A, &oper->children[0]);
n->Swizzle = MAKE_SWIZZLE4(swz.swizzle[0],
swz.swizzle[1],
swz.swizzle[2],
swz.swizzle[3]);
return n;
}
else if (ti.spec.type == slang_spec_float) {
const GLuint rows = 1;
slang_swizzle swz;
slang_ir_node *n;
if (!_slang_is_swizzle((char *) oper->a_id, rows, &swz)) {
RETURN_ERROR("Bad swizzle", 0);
}
n = _slang_gen_operation(A, &oper->children[0]);
n->Swizzle = MAKE_SWIZZLE4(swz.swizzle[0],
swz.swizzle[1],
swz.swizzle[2],
swz.swizzle[3]);
return n;
}
else {
/* the field is a structure member */
abort();
}
}
/**
* Generate IR tree for an array element reference.
*/
static slang_ir_node *
_slang_gen_subscript(slang_assemble_ctx * A, slang_operation *oper)
{
if (oper->children[1].type == slang_oper_literal_int) {
/* compile-time constant index - OK */
slang_assembly_typeinfo array_ti, elem_ti;
slang_ir_node *base;
GLint index;
/* get type of array element */
slang_assembly_typeinfo_construct(&elem_ti);
_slang_typeof_operation(A, oper, &elem_ti);
/* get type of array */
slang_assembly_typeinfo_construct(&array_ti);
_slang_typeof_operation(A, &oper->children[0], &array_ti);
base = _slang_gen_operation(A, &oper->children[0]);
assert(base->Opcode == IR_VAR);
assert(base->Store);
index = (GLint) oper->children[1].literal[0];
/*printf("element[%d]\n", index);*/
/* new storage info since we don't want to change the original */
base->Store = _slang_clone_ir_storage(base->Store);
if (_slang_type_is_vector(array_ti.spec.type)) {
/* scalar element (float) of a basic vector (vec3) */
const GLuint max = _slang_type_dim(array_ti.spec.type);
if (index >= max) {
RETURN_ERROR("array index out of bounds", 0);
}
assert(index < 4);
/* use swizzle to access the element */
base->Swizzle = SWIZZLE_X + index;
base->Writemask = WRITEMASK_X << index;
}
else {
/* bias Index by array subscript, update storage size */
base->Store->Index += index;
base->Store->Size = _slang_sizeof_type_specifier(&elem_ti.spec);
}
return base;
}
else {
/* run-time index - not supported yet - TBD */
abort();
return NULL;
}
}
/**
* Generate IR tree for a slang_operation (AST node)
*/
static slang_ir_node *
_slang_gen_operation(slang_assemble_ctx * A, slang_operation *oper)
{
switch (oper->type) {
case slang_oper_block_no_new_scope:
case slang_oper_block_new_scope:
/* list of operations */
assert(oper->num_children > 0);
{
slang_ir_node *n, *tree = NULL;
GLuint i;
for (i = 0; i < oper->num_children; i++) {
n = _slang_gen_operation(A, &oper->children[i]);
if (!n)
return NULL; /* error must have occured */
tree = tree ? new_seq(tree, n) : n;
}
return tree;
}
break;
case slang_oper_expression:
return _slang_gen_operation(A, &oper->children[0]);
break;
case slang_oper_while:
return _slang_gen_while(A, oper);
case slang_oper_for:
return _slang_gen_for(A, oper);
case slang_oper_break:
if (!CurLoopBreak) {
RETURN_ERROR("'break' not in loop", 0);
}
return new_jump(CurLoopBreak);
case slang_oper_continue:
if (!CurLoopCont) {
RETURN_ERROR("'continue' not in loop", 0);
}
return new_jump(CurLoopCont);
case slang_oper_equal:
return new_node(IR_SEQUAL,
_slang_gen_operation(A, &oper->children[0]),
_slang_gen_operation(A, &oper->children[1]));
case slang_oper_notequal:
return new_node(IR_SNEQUAL,
_slang_gen_operation(A, &oper->children[0]),
_slang_gen_operation(A, &oper->children[1]));
case slang_oper_greater:
return new_node(IR_SGT,
_slang_gen_operation(A, &oper->children[0]),
_slang_gen_operation(A, &oper->children[1]));
case slang_oper_less:
/* child[0] < child[1] ----> child[1] > child[0] */
#if 0
{
slang_ir_node *n;
assert(oper->num_children == 2);
/* XXX tranpose children */
n = _slang_gen_function_call_name(A, "<", oper, NULL);
return n;
}
#else
/** the operands must be ints or floats, not vectors */
return new_node(IR_SGT,
_slang_gen_operation(A, &oper->children[1]),
_slang_gen_operation(A, &oper->children[0]));
#endif
case slang_oper_greaterequal:
return new_node(IR_SGE,
_slang_gen_operation(A, &oper->children[0]),
_slang_gen_operation(A, &oper->children[1]));
case slang_oper_lessequal:
/* child[0] <= child[1] ----> child[1] >= child[0] */
return new_node(IR_SGE,
_slang_gen_operation(A, &oper->children[1]),
_slang_gen_operation(A, &oper->children[0]));
case slang_oper_add:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "+", oper, NULL);
return n;
}
case slang_oper_subtract:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "-", oper, NULL);
return n;
}
case slang_oper_multiply:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "*", oper, NULL);
return n;
}
case slang_oper_divide:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "/", oper, NULL);
return n;
}
case slang_oper_variable_decl:
return _slang_gen_declaration(A, oper);
case slang_oper_assign:
return _slang_gen_assignment(A, oper);
case slang_oper_addassign:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "+=", oper, NULL);
/* The result of this operation should be stored back into child[0] */
assert(n->Children[0]->Store);
n->Store = n->Children[0]->Store;
return n;
}
case slang_oper_subassign:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "-=", oper, NULL);
/* The result of this operation should be stored back into child[0] */
assert(n->Children[0]->Store);
n->Store = n->Children[0]->Store;
return n;
}
break;
case slang_oper_mulassign:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "*=", oper, NULL);
/* The result of this operation should be stored back into child[0] */
assert(n->Children[0]->Store);
n->Store = n->Children[0]->Store;
return n;
}
case slang_oper_divassign:
{
slang_ir_node *n;
assert(oper->num_children == 2);
n = _slang_gen_function_call_name(A, "/=", oper, NULL);
/* The result of this operation should be stored back into child[0] */
assert(n->Children[0]->Store);
n->Store = n->Children[0]->Store;
return n;
}
case slang_oper_asm:
return _slang_gen_asm(A, oper, NULL);
case slang_oper_call:
return _slang_gen_function_call_name(A, (const char *) oper->a_id,
oper, NULL);
case slang_oper_return:
return _slang_gen_return(A, oper);
case slang_oper_goto:
return new_jump((char*) oper->a_id);
case slang_oper_label:
return new_label((char*) oper->a_id);
case slang_oper_identifier:
return _slang_gen_variable(A, oper);
case slang_oper_if:
return _slang_gen_if(A, oper);
case slang_oper_field:
return _slang_gen_field(A, oper);
case slang_oper_subscript:
return _slang_gen_subscript(A, oper);
case slang_oper_literal_float:
return new_float_literal(oper->literal[0], oper->literal[1],
oper->literal[2], oper->literal[3]);
case slang_oper_literal_int:
return new_float_literal(oper->literal[0], 0, 0, 0);
case slang_oper_literal_bool:
return new_float_literal(oper->literal[0], 0, 0, 0);
case slang_oper_postincrement:
/* XXX not 100% about this */
{
slang_ir_node *var = _slang_gen_operation(A, &oper->children[0]);
slang_ir_node *one = new_float_literal(1.0, 1.0, 1.0, 1.0);
slang_ir_node *sum = new_node(IR_ADD, var, one);
slang_ir_node *assign = new_node(IR_MOVE, var, sum);
assert(sum->Opcode != IR_SEQ);
return assign;
}
break;
case slang_oper_sequence:
{
slang_ir_node *tree = NULL;
GLuint i;
for (i = 0; i < oper->num_children; i++) {
slang_ir_node *n = _slang_gen_operation(A, &oper->children[i]);
tree = tree ? new_seq(tree, n) : n;
}
return tree;
}
break;
case slang_oper_none:
return NULL;
default:
printf("Unhandled node type %d\n", oper->type);
abort();
return new_node(IR_NOP, NULL, NULL);
}
abort();
return NULL;
}
/**
* Produce an IR tree from a function AST.
* Then call the code emitter to convert the IR tree into a gl_program.
*/
struct slang_ir_node_ *
_slang_codegen_function(slang_assemble_ctx * A, slang_function * fun)
{
slang_ir_node *n, *endLabel;
if (_mesa_strcmp((char *) fun->header.a_name, "main") != 0 &&
_mesa_strcmp((char *) fun->header.a_name, "foo") != 0 &&
_mesa_strcmp((char *) fun->header.a_name, "bar") != 0)
return 0;
printf("\n*********** Assemble function2(%s)\n", (char*)fun->header.a_name);
#if 1
slang_print_function(fun, 1);
#endif
A->program->Parameters = _mesa_new_parameter_list();
A->program->Varying = _mesa_new_parameter_list();
A->codegen = _slang_new_codegen_context();
/*printf("** Begin Simplify\n");*/
slang_simplify(fun->body, &A->space, A->atoms);
/*printf("** End Simplify\n");*/
CurFunction = fun;
if (!CurFunction->end_label)
CurFunction->end_label = slang_atom_pool_gen(A->atoms, "__endOfFunction_Main");
n = _slang_gen_operation(A, fun->body);
if (n) {
endLabel = new_label(fun->end_label);
n = new_seq(n, endLabel);
}
CurFunction = NULL;
#if 0
printf("************* New body for %s *****\n", (char*)fun->header.a_name);
slang_print_function(fun, 1);
printf("************* IR for %s *******\n", (char*)fun->header.a_name);
slang_print_ir(n, 0);
printf("************* End assemble function2 ************\n\n");
#endif
if (_mesa_strcmp((char*) fun->header.a_name, "main") == 0) {
_slang_emit_code(n, A->codegen, A->program);
}
return n;
}
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