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android / platform / external / mesa3d / bd25bc66bde20c297e8bae373f371eb1a372c3a4 / . / src / gallium / auxiliary / tgsi / tgsi_sanity.c
blob: 239a2c938353dc437626219abaa97a2356d601a7 [file] [log] [blame]
/**************************************************************************
*
* Copyright 2008 VMware, Inc.
* 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, sub license, 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 (including the
* next paragraph) 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 NON-INFRINGEMENT.
* IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS 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.
*
**************************************************************************/
#include "util/u_debug.h"
#include "util/u_memory.h"
#include "util/u_prim.h"
#include "cso_cache/cso_hash.h"
#include "tgsi_sanity.h"
#include "tgsi_info.h"
#include "tgsi_iterate.h"
DEBUG_GET_ONCE_BOOL_OPTION(print_sanity, "TGSI_PRINT_SANITY", FALSE)
typedef struct {
uint file : 28;
/* max 2 dimensions */
uint dimensions : 4;
uint indices[2];
} scan_register;
struct sanity_check_ctx
{
struct tgsi_iterate_context iter;
struct cso_hash *regs_decl;
struct cso_hash *regs_used;
struct cso_hash *regs_ind_used;
uint num_imms;
uint num_instructions;
uint index_of_END;
uint errors;
uint warnings;
uint implied_array_size;
uint implied_out_array_size;
boolean print;
};
static inline unsigned
scan_register_key(const scan_register *reg)
{
unsigned key = reg->file;
key |= (reg->indices[0] << 4);
key |= (reg->indices[1] << 18);
return key;
}
static void
fill_scan_register1d(scan_register *reg,
uint file, uint index)
{
reg->file = file;
reg->dimensions = 1;
reg->indices[0] = index;
reg->indices[1] = 0;
}
static void
fill_scan_register2d(scan_register *reg,
uint file, uint index1, uint index2)
{
reg->file = file;
reg->dimensions = 2;
reg->indices[0] = index1;
reg->indices[1] = index2;
}
static void
scan_register_dst(scan_register *reg,
struct tgsi_full_dst_register *dst)
{
if (dst->Register.Dimension) {
/*FIXME: right now we don't support indirect
* multidimensional addressing */
fill_scan_register2d(reg,
dst->Register.File,
dst->Register.Index,
dst->Dimension.Index);
} else {
fill_scan_register1d(reg,
dst->Register.File,
dst->Register.Index);
}
}
static void
scan_register_src(scan_register *reg,
struct tgsi_full_src_register *src)
{
if (src->Register.Dimension) {
/*FIXME: right now we don't support indirect
* multidimensional addressing */
fill_scan_register2d(reg,
src->Register.File,
src->Register.Index,
src->Dimension.Index);
} else {
fill_scan_register1d(reg,
src->Register.File,
src->Register.Index);
}
}
static scan_register *
create_scan_register_src(struct tgsi_full_src_register *src)
{
scan_register *reg = MALLOC(sizeof(scan_register));
scan_register_src(reg, src);
return reg;
}
static scan_register *
create_scan_register_dst(struct tgsi_full_dst_register *dst)
{
scan_register *reg = MALLOC(sizeof(scan_register));
scan_register_dst(reg, dst);
return reg;
}
static void
report_error(
struct sanity_check_ctx *ctx,
const char *format,
... )
{
va_list args;
if (!ctx->print)
return;
debug_printf( "Error : " );
va_start( args, format );
_debug_vprintf( format, args );
va_end( args );
debug_printf( "\n" );
ctx->errors++;
}
static void
report_warning(
struct sanity_check_ctx *ctx,
const char *format,
... )
{
va_list args;
if (!ctx->print)
return;
debug_printf( "Warning: " );
va_start( args, format );
_debug_vprintf( format, args );
va_end( args );
debug_printf( "\n" );
ctx->warnings++;
}
static boolean
check_file_name(
struct sanity_check_ctx *ctx,
uint file )
{
if (file <= TGSI_FILE_NULL || file >= TGSI_FILE_COUNT) {
report_error( ctx, "(%u): Invalid register file name", file );
return FALSE;
}
return TRUE;
}
static boolean
is_register_declared(
struct sanity_check_ctx *ctx,
const scan_register *reg)
{
void *data = cso_hash_find_data_from_template(
ctx->regs_decl, scan_register_key(reg),
(void*)reg, sizeof(scan_register));
return data ? TRUE : FALSE;
}
static boolean
is_any_register_declared(
struct sanity_check_ctx *ctx,
uint file )
{
struct cso_hash_iter iter =
cso_hash_first_node(ctx->regs_decl);
while (!cso_hash_iter_is_null(iter)) {
scan_register *reg = (scan_register *)cso_hash_iter_data(iter);
if (reg->file == file)
return TRUE;
iter = cso_hash_iter_next(iter);
}
return FALSE;
}
static boolean
is_register_used(
struct sanity_check_ctx *ctx,
scan_register *reg)
{
void *data = cso_hash_find_data_from_template(
ctx->regs_used, scan_register_key(reg),
reg, sizeof(scan_register));
return data ? TRUE : FALSE;
}
static boolean
is_ind_register_used(
struct sanity_check_ctx *ctx,
scan_register *reg)
{
return cso_hash_contains(ctx->regs_ind_used, reg->file);
}
static const char *file_names[TGSI_FILE_COUNT] =
{
"NULL",
"CONST",
"IN",
"OUT",
"TEMP",
"SAMP",
"ADDR",
"IMM",
"PRED",
"SV",
"RES"
};
static boolean
check_register_usage(
struct sanity_check_ctx *ctx,
scan_register *reg,
const char *name,
boolean indirect_access )
{
if (!check_file_name( ctx, reg->file )) {
FREE(reg);
return FALSE;
}
if (indirect_access) {
/* Note that 'index' is an offset relative to the value of the
* address register. No range checking done here.*/
reg->indices[0] = 0;
reg->indices[1] = 0;
if (!is_any_register_declared( ctx, reg->file ))
report_error( ctx, "%s: Undeclared %s register", file_names[reg->file], name );
if (!is_ind_register_used(ctx, reg))
cso_hash_insert(ctx->regs_ind_used, reg->file, reg);
else
FREE(reg);
}
else {
if (!is_register_declared( ctx, reg )) {
if (reg->dimensions == 2) {
report_error( ctx, "%s[%d][%d]: Undeclared %s register", file_names[reg->file],
reg->indices[0], reg->indices[1], name );
}
else {
report_error( ctx, "%s[%d]: Undeclared %s register", file_names[reg->file],
reg->indices[0], name );
}
}
if (!is_register_used( ctx, reg ))
cso_hash_insert(ctx->regs_used, scan_register_key(reg), reg);
else
FREE(reg);
}
return TRUE;
}
static boolean
iter_instruction(
struct tgsi_iterate_context *iter,
struct tgsi_full_instruction *inst )
{
struct sanity_check_ctx *ctx = (struct sanity_check_ctx *) iter;
const struct tgsi_opcode_info *info;
uint i;
if (inst->Instruction.Opcode == TGSI_OPCODE_END) {
if (ctx->index_of_END != ~0) {
report_error( ctx, "Too many END instructions" );
}
ctx->index_of_END = ctx->num_instructions;
}
info = tgsi_get_opcode_info( inst->Instruction.Opcode );
if (!info) {
report_error( ctx, "(%u): Invalid instruction opcode", inst->Instruction.Opcode );
return TRUE;
}
if (info->num_dst != inst->Instruction.NumDstRegs) {
report_error( ctx, "%s: Invalid number of destination operands, should be %u", info->mnemonic, info->num_dst );
}
if (info->num_src != inst->Instruction.NumSrcRegs) {
report_error( ctx, "%s: Invalid number of source operands, should be %u", info->mnemonic, info->num_src );
}
/* Check destination and source registers' validity.
* Mark the registers as used.
*/
for (i = 0; i < inst->Instruction.NumDstRegs; i++) {
scan_register *reg = create_scan_register_dst(&inst->Dst[i]);
check_register_usage(
ctx,
reg,
"destination",
FALSE );
if (!inst->Dst[i].Register.WriteMask) {
report_error(ctx, "Destination register has empty writemask");
}
}
for (i = 0; i < inst->Instruction.NumSrcRegs; i++) {
scan_register *reg = create_scan_register_src(&inst->Src[i]);
check_register_usage(
ctx,
reg,
"source",
(boolean)inst->Src[i].Register.Indirect );
if (inst->Src[i].Register.Indirect) {
scan_register *ind_reg = MALLOC(sizeof(scan_register));
fill_scan_register1d(ind_reg,
inst->Src[i].Indirect.File,
inst->Src[i].Indirect.Index);
check_register_usage(
ctx,
ind_reg,
"indirect",
FALSE );
}
}
ctx->num_instructions++;
return TRUE;
}
static void
check_and_declare(struct sanity_check_ctx *ctx,
scan_register *reg)
{
if (is_register_declared( ctx, reg))
report_error( ctx, "%s[%u]: The same register declared more than once",
file_names[reg->file], reg->indices[0] );
cso_hash_insert(ctx->regs_decl,
scan_register_key(reg),
reg);
}
static boolean
iter_declaration(
struct tgsi_iterate_context *iter,
struct tgsi_full_declaration *decl )
{
struct sanity_check_ctx *ctx = (struct sanity_check_ctx *) iter;
uint file;
uint i;
/* No declarations allowed after the first instruction.
*/
if (ctx->num_instructions > 0)
report_error( ctx, "Instruction expected but declaration found" );
/* Check registers' validity.
* Mark the registers as declared.
*/
file = decl->Declaration.File;
if (!check_file_name( ctx, file ))
return TRUE;
for (i = decl->Range.First; i <= decl->Range.Last; i++) {
/* declared TGSI_FILE_INPUT's for geometry and tessellation
* have an implied second dimension */
uint processor = ctx->iter.processor.Processor;
uint patch = decl->Semantic.Name == TGSI_SEMANTIC_PATCH ||
decl->Semantic.Name == TGSI_SEMANTIC_TESSOUTER ||
decl->Semantic.Name == TGSI_SEMANTIC_TESSINNER;
if (file == TGSI_FILE_INPUT && !patch && (
processor == PIPE_SHADER_GEOMETRY ||
processor == PIPE_SHADER_TESS_CTRL ||
processor == PIPE_SHADER_TESS_EVAL)) {
uint vert;
for (vert = 0; vert < ctx->implied_array_size; ++vert) {
scan_register *reg = MALLOC(sizeof(scan_register));
fill_scan_register2d(reg, file, i, vert);
check_and_declare(ctx, reg);
}
} else if (file == TGSI_FILE_OUTPUT && !patch &&
processor == PIPE_SHADER_TESS_CTRL) {
uint vert;
for (vert = 0; vert < ctx->implied_out_array_size; ++vert) {
scan_register *reg = MALLOC(sizeof(scan_register));
fill_scan_register2d(reg, file, i, vert);
check_and_declare(ctx, reg);
}
} else {
scan_register *reg = MALLOC(sizeof(scan_register));
if (decl->Declaration.Dimension) {
fill_scan_register2d(reg, file, i, decl->Dim.Index2D);
} else {
fill_scan_register1d(reg, file, i);
}
check_and_declare(ctx, reg);
}
}
return TRUE;
}
static boolean
iter_immediate(
struct tgsi_iterate_context *iter,
struct tgsi_full_immediate *imm )
{
struct sanity_check_ctx *ctx = (struct sanity_check_ctx *) iter;
scan_register *reg;
/* No immediates allowed after the first instruction.
*/
if (ctx->num_instructions > 0)
report_error( ctx, "Instruction expected but immediate found" );
/* Mark the register as declared.
*/
reg = MALLOC(sizeof(scan_register));
fill_scan_register1d(reg, TGSI_FILE_IMMEDIATE, ctx->num_imms);
cso_hash_insert(ctx->regs_decl, scan_register_key(reg), reg);
ctx->num_imms++;
/* Check data type validity.
*/
if (imm->Immediate.DataType != TGSI_IMM_FLOAT32 &&
imm->Immediate.DataType != TGSI_IMM_UINT32 &&
imm->Immediate.DataType != TGSI_IMM_INT32) {
report_error( ctx, "(%u): Invalid immediate data type", imm->Immediate.DataType );
return TRUE;
}
return TRUE;
}
static boolean
iter_property(
struct tgsi_iterate_context *iter,
struct tgsi_full_property *prop )
{
struct sanity_check_ctx *ctx = (struct sanity_check_ctx *) iter;
if (iter->processor.Processor == PIPE_SHADER_GEOMETRY &&
prop->Property.PropertyName == TGSI_PROPERTY_GS_INPUT_PRIM) {
ctx->implied_array_size = u_vertices_per_prim(prop->u[0].Data);
}
if (iter->processor.Processor == PIPE_SHADER_TESS_CTRL &&
prop->Property.PropertyName == TGSI_PROPERTY_TCS_VERTICES_OUT)
ctx->implied_out_array_size = prop->u[0].Data;
return TRUE;
}
static boolean
prolog(struct tgsi_iterate_context *iter)
{
struct sanity_check_ctx *ctx = (struct sanity_check_ctx *) iter;
if (iter->processor.Processor == PIPE_SHADER_TESS_CTRL ||
iter->processor.Processor == PIPE_SHADER_TESS_EVAL)
ctx->implied_array_size = 32;
return TRUE;
}
static boolean
epilog(
struct tgsi_iterate_context *iter )
{
struct sanity_check_ctx *ctx = (struct sanity_check_ctx *) iter;
/* There must be an END instruction somewhere.
*/
if (ctx->index_of_END == ~0) {
report_error( ctx, "Missing END instruction" );
}
/* Check if all declared registers were used.
*/
{
struct cso_hash_iter iter =
cso_hash_first_node(ctx->regs_decl);
while (!cso_hash_iter_is_null(iter)) {
scan_register *reg = (scan_register *)cso_hash_iter_data(iter);
if (!is_register_used(ctx, reg) && !is_ind_register_used(ctx, reg)) {
report_warning( ctx, "%s[%u]: Register never used",
file_names[reg->file], reg->indices[0] );
}
iter = cso_hash_iter_next(iter);
}
}
/* Print totals, if any.
*/
if (ctx->errors || ctx->warnings)
debug_printf( "%u errors, %u warnings\n", ctx->errors, ctx->warnings );
return TRUE;
}
static void
regs_hash_destroy(struct cso_hash *hash)
{
struct cso_hash_iter iter = cso_hash_first_node(hash);
while (!cso_hash_iter_is_null(iter)) {
scan_register *reg = (scan_register *)cso_hash_iter_data(iter);
iter = cso_hash_erase(hash, iter);
assert(reg->file < TGSI_FILE_COUNT);
FREE(reg);
}
cso_hash_delete(hash);
}
boolean
tgsi_sanity_check(
const struct tgsi_token *tokens )
{
struct sanity_check_ctx ctx;
boolean retval;
ctx.iter.prolog = prolog;
ctx.iter.iterate_instruction = iter_instruction;
ctx.iter.iterate_declaration = iter_declaration;
ctx.iter.iterate_immediate = iter_immediate;
ctx.iter.iterate_property = iter_property;
ctx.iter.epilog = epilog;
ctx.regs_decl = cso_hash_create();
ctx.regs_used = cso_hash_create();
ctx.regs_ind_used = cso_hash_create();
ctx.num_imms = 0;
ctx.num_instructions = 0;
ctx.index_of_END = ~0;
ctx.errors = 0;
ctx.warnings = 0;
ctx.implied_array_size = 0;
ctx.print = debug_get_option_print_sanity();
retval = tgsi_iterate_shader( tokens, &ctx.iter );
regs_hash_destroy(ctx.regs_decl);
regs_hash_destroy(ctx.regs_used);
regs_hash_destroy(ctx.regs_ind_used);
if (retval == FALSE)
return FALSE;
return ctx.errors == 0;
}