#include "tgsi_dump.h"
#include "tgsi_info.h"
#include "tgsi_iterate.h"
+#include "tgsi_strings.h"
/** Number of spaces to indent for IF/LOOP/etc */
struct tgsi_iterate_context iter;
uint instno;
+ uint immno;
int indent;
uint indentation;
- void (*printf)(struct dump_ctx *ctx, const char *format, ...);
+ void (*dump_printf)(struct dump_ctx *ctx, const char *format, ...);
};
static void
uint enum_count )
{
if (e >= enum_count)
- ctx->printf( ctx, "%u", e );
+ ctx->dump_printf( ctx, "%u", e );
else
- ctx->printf( ctx, "%s", enums[e] );
+ ctx->dump_printf( ctx, "%s", enums[e] );
}
-#define EOL() ctx->printf( ctx, "\n" )
-#define TXT(S) ctx->printf( ctx, "%s", S )
-#define CHR(C) ctx->printf( ctx, "%c", C )
-#define UIX(I) ctx->printf( ctx, "0x%x", I )
-#define UID(I) ctx->printf( ctx, "%u", I )
-#define INSTID(I) ctx->printf( ctx, "% 3u", I )
-#define SID(I) ctx->printf( ctx, "%d", I )
-#define FLT(F) ctx->printf( ctx, "%10.4f", F )
+#define EOL() ctx->dump_printf( ctx, "\n" )
+#define TXT(S) ctx->dump_printf( ctx, "%s", S )
+#define CHR(C) ctx->dump_printf( ctx, "%c", C )
+#define UIX(I) ctx->dump_printf( ctx, "0x%x", I )
+#define UID(I) ctx->dump_printf( ctx, "%u", I )
+#define INSTID(I) ctx->dump_printf( ctx, "% 3u", I )
+#define SID(I) ctx->dump_printf( ctx, "%d", I )
+#define FLT(F) ctx->dump_printf( ctx, "%10.4f", F )
#define ENM(E,ENUMS) dump_enum( ctx, E, ENUMS, sizeof( ENUMS ) / sizeof( *ENUMS ) )
-static const char *processor_type_names[] =
-{
- "FRAG",
- "VERT",
- "GEOM"
-};
-
const char *
-tgsi_file_names[TGSI_FILE_COUNT] =
-{
- "NULL",
- "CONST",
- "IN",
- "OUT",
- "TEMP",
- "SAMP",
- "ADDR",
- "IMM",
- "PRED",
- "SV",
- "IMMX",
- "TEMPX"
-};
-
-static const char *interpolate_names[] =
-{
- "CONSTANT",
- "LINEAR",
- "PERSPECTIVE"
-};
-
-static const char *semantic_names[] =
-{
- "POSITION",
- "COLOR",
- "BCOLOR",
- "FOG",
- "PSIZE",
- "GENERIC",
- "NORMAL",
- "FACE",
- "EDGEFLAG",
- "PRIM_ID",
- "INSTANCEID",
- "STENCIL"
-};
-
-static const char *immediate_type_names[] =
-{
- "FLT32",
- "UINT32",
- "INT32"
-};
-
-const char *
-tgsi_swizzle_names[] =
+tgsi_swizzle_names[4] =
{
"x",
"y",
"w"
};
-const char *
-tgsi_texture_names[] =
-{
- "UNKNOWN",
- "1D",
- "2D",
- "3D",
- "CUBE",
- "RECT",
- "SHADOW1D",
- "SHADOW2D",
- "SHADOWRECT"
-};
-
-static const char *property_names[] =
-{
- "GS_INPUT_PRIMITIVE",
- "GS_OUTPUT_PRIMITIVE",
- "GS_MAX_OUTPUT_VERTICES",
- "FS_COORD_ORIGIN",
- "FS_COORD_PIXEL_CENTER",
- "FS_COLOR0_WRITES_ALL_CBUFS",
-};
-
-static const char *primitive_names[] =
-{
- "POINTS",
- "LINES",
- "LINE_LOOP",
- "LINE_STRIP",
- "TRIANGLES",
- "TRIANGLE_STRIP",
- "TRIANGLE_FAN",
- "QUADS",
- "QUAD_STRIP",
- "POLYGON",
- "LINES_ADJACENCY",
- "LINE_STRIP_ADJACENCY",
- "TRIANGLES_ADJACENCY",
- "TRIANGLE_STRIP_ADJACENCY"
-};
-
-static const char *fs_coord_origin_names[] =
-{
- "UPPER_LEFT",
- "LOWER_LEFT"
-};
-
-static const char *fs_coord_pixel_center_names[] =
-{
- "HALF_INTEGER",
- "INTEGER"
-};
-
-
static void
_dump_register_src(
struct dump_ctx *ctx,
CHR( '[' );
SID( src->DimIndirect.Index );
TXT( "]." );
- ENM( src->DimIndirect.SwizzleX, tgsi_swizzle_names );
+ ENM( src->DimIndirect.Swizzle, tgsi_swizzle_names );
if (src->Dimension.Index != 0) {
if (src->Dimension.Index > 0)
CHR( '+' );
SID( src->Dimension.Index );
}
CHR( ']' );
+ if (src->DimIndirect.ArrayID) {
+ CHR( '(' );
+ SID( src->DimIndirect.ArrayID );
+ CHR( ')' );
+ }
} else {
CHR('[');
SID(src->Dimension.Index);
CHR( '[' );
SID( src->Indirect.Index );
TXT( "]." );
- ENM( src->Indirect.SwizzleX, tgsi_swizzle_names );
+ ENM( src->Indirect.Swizzle, tgsi_swizzle_names );
if (src->Register.Index != 0) {
if (src->Register.Index > 0)
CHR( '+' );
SID( src->Register.Index );
}
CHR( ']' );
+ if (src->Indirect.ArrayID) {
+ CHR( '(' );
+ SID( src->Indirect.ArrayID );
+ CHR( ')' );
+ }
} else {
CHR( '[' );
SID( src->Register.Index );
CHR( '[' );
SID( dst->DimIndirect.Index );
TXT( "]." );
- ENM( dst->DimIndirect.SwizzleX, tgsi_swizzle_names );
+ ENM( dst->DimIndirect.Swizzle, tgsi_swizzle_names );
if (dst->Dimension.Index != 0) {
if (dst->Dimension.Index > 0)
CHR( '+' );
SID( dst->Dimension.Index );
}
CHR( ']' );
+ if (dst->DimIndirect.ArrayID) {
+ CHR( '(' );
+ SID( dst->DimIndirect.ArrayID );
+ CHR( ')' );
+ }
} else {
CHR('[');
SID(dst->Dimension.Index);
CHR( '[' );
SID( dst->Indirect.Index );
TXT( "]." );
- ENM( dst->Indirect.SwizzleX, tgsi_swizzle_names );
+ ENM( dst->Indirect.Swizzle, tgsi_swizzle_names );
if (dst->Register.Index != 0) {
if (dst->Register.Index > 0)
CHR( '+' );
SID( dst->Register.Index );
}
CHR( ']' );
+ if (dst->Indirect.ArrayID) {
+ CHR( '(' );
+ SID( dst->Indirect.ArrayID );
+ CHR( ')' );
+ }
} else {
CHR( '[' );
SID( dst->Register.Index );
{
struct dump_ctx *ctx = (struct dump_ctx *)iter;
- assert(Elements(semantic_names) == TGSI_SEMANTIC_COUNT);
- assert(Elements(interpolate_names) == TGSI_INTERPOLATE_COUNT);
-
TXT( "DCL " );
ENM(decl->Declaration.File, tgsi_file_names);
ctx,
decl->Declaration.UsageMask );
+ if (decl->Declaration.Array) {
+ TXT( ", ARRAY(" );
+ SID(decl->Array.ArrayID);
+ CHR(')');
+ }
+
+ if (decl->Declaration.Local)
+ TXT( ", LOCAL" );
+
if (decl->Declaration.Semantic) {
TXT( ", " );
- ENM( decl->Semantic.Name, semantic_names );
+ ENM( decl->Semantic.Name, tgsi_semantic_names );
if (decl->Semantic.Index != 0 ||
+ decl->Semantic.Name == TGSI_SEMANTIC_TEXCOORD ||
decl->Semantic.Name == TGSI_SEMANTIC_GENERIC) {
CHR( '[' );
UID( decl->Semantic.Index );
}
}
- if (iter->processor.Processor == TGSI_PROCESSOR_FRAGMENT &&
- decl->Declaration.File == TGSI_FILE_INPUT)
- {
- TXT( ", " );
- ENM( decl->Declaration.Interpolate, interpolate_names );
+ if (decl->Declaration.File == TGSI_FILE_RESOURCE) {
+ TXT(", ");
+ ENM(decl->Resource.Resource, tgsi_texture_names);
+ if (decl->Resource.Writable)
+ TXT(", WR");
+ if (decl->Resource.Raw)
+ TXT(", RAW");
}
- if (decl->Declaration.Centroid) {
- TXT( ", CENTROID" );
- }
-
- if (decl->Declaration.Invariant) {
- TXT( ", INVARIANT" );
+ if (decl->Declaration.File == TGSI_FILE_SAMPLER_VIEW) {
+ TXT(", ");
+ ENM(decl->SamplerView.Resource, tgsi_texture_names);
+ TXT(", ");
+ if ((decl->SamplerView.ReturnTypeX == decl->SamplerView.ReturnTypeY) &&
+ (decl->SamplerView.ReturnTypeX == decl->SamplerView.ReturnTypeZ) &&
+ (decl->SamplerView.ReturnTypeX == decl->SamplerView.ReturnTypeW)) {
+ ENM(decl->SamplerView.ReturnTypeX, tgsi_type_names);
+ } else {
+ ENM(decl->SamplerView.ReturnTypeX, tgsi_type_names);
+ TXT(", ");
+ ENM(decl->SamplerView.ReturnTypeY, tgsi_type_names);
+ TXT(", ");
+ ENM(decl->SamplerView.ReturnTypeZ, tgsi_type_names);
+ TXT(", ");
+ ENM(decl->SamplerView.ReturnTypeW, tgsi_type_names);
+ }
}
- if (decl->Declaration.CylindricalWrap) {
- TXT(", CYLWRAP_");
- if (decl->Declaration.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_X) {
- CHR('X');
- }
- if (decl->Declaration.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_Y) {
- CHR('Y');
- }
- if (decl->Declaration.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_Z) {
- CHR('Z');
- }
- if (decl->Declaration.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_W) {
- CHR('W');
+ if (decl->Declaration.Interpolate) {
+ if (iter->processor.Processor == TGSI_PROCESSOR_FRAGMENT &&
+ decl->Declaration.File == TGSI_FILE_INPUT)
+ {
+ TXT( ", " );
+ ENM( decl->Interp.Interpolate, tgsi_interpolate_names );
}
- }
- if (decl->Declaration.File == TGSI_FILE_IMMEDIATE_ARRAY) {
- unsigned i;
- char range_indent[4];
-
- TXT(" {");
-
- if (decl->Range.Last < 10)
- range_indent[0] = '\0';
- else if (decl->Range.Last < 100) {
- range_indent[0] = ' ';
- range_indent[1] = '\0';
- } else if (decl->Range.Last < 1000) {
- range_indent[0] = ' ';
- range_indent[1] = ' ';
- range_indent[2] = '\0';
- } else {
- range_indent[0] = ' ';
- range_indent[1] = ' ';
- range_indent[2] = ' ';
- range_indent[3] = '\0';
+ if (decl->Interp.Centroid) {
+ TXT( ", CENTROID" );
}
- dump_imm_data(iter, decl->ImmediateData.u,
- 4, TGSI_IMM_FLOAT32);
- for(i = 1; i <= decl->Range.Last; ++i) {
- /* indent by strlen of:
- * "DCL IMMX[0..1] {" */
- CHR('\n');
- TXT( " " );
- TXT( range_indent );
- dump_imm_data(iter, decl->ImmediateData.u + i,
- 4, TGSI_IMM_FLOAT32);
+ if (decl->Interp.CylindricalWrap) {
+ TXT(", CYLWRAP_");
+ if (decl->Interp.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_X) {
+ CHR('X');
+ }
+ if (decl->Interp.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_Y) {
+ CHR('Y');
+ }
+ if (decl->Interp.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_Z) {
+ CHR('Z');
+ }
+ if (decl->Interp.CylindricalWrap & TGSI_CYLINDRICAL_WRAP_W) {
+ CHR('W');
+ }
}
+ }
- TXT(" }");
+ if (decl->Declaration.Invariant) {
+ TXT( ", INVARIANT" );
}
EOL();
{
struct dump_ctx ctx;
- ctx.printf = dump_ctx_printf;
+ ctx.dump_printf = dump_ctx_printf;
iter_declaration( &ctx.iter, (struct tgsi_full_declaration *)decl );
}
struct tgsi_iterate_context *iter,
struct tgsi_full_property *prop )
{
- int i;
+ unsigned i;
struct dump_ctx *ctx = (struct dump_ctx *)iter;
- assert(Elements(property_names) == TGSI_PROPERTY_COUNT);
-
TXT( "PROPERTY " );
- ENM(prop->Property.PropertyName, property_names);
+ ENM(prop->Property.PropertyName, tgsi_property_names);
if (prop->Property.NrTokens > 1)
TXT(" ");
switch (prop->Property.PropertyName) {
case TGSI_PROPERTY_GS_INPUT_PRIM:
case TGSI_PROPERTY_GS_OUTPUT_PRIM:
- ENM(prop->u[i].Data, primitive_names);
+ ENM(prop->u[i].Data, tgsi_primitive_names);
break;
case TGSI_PROPERTY_FS_COORD_ORIGIN:
- ENM(prop->u[i].Data, fs_coord_origin_names);
+ ENM(prop->u[i].Data, tgsi_fs_coord_origin_names);
break;
case TGSI_PROPERTY_FS_COORD_PIXEL_CENTER:
- ENM(prop->u[i].Data, fs_coord_pixel_center_names);
+ ENM(prop->u[i].Data, tgsi_fs_coord_pixel_center_names);
break;
default:
SID( prop->u[i].Data );
{
struct dump_ctx ctx;
- ctx.printf = dump_ctx_printf;
+ ctx.dump_printf = dump_ctx_printf;
iter_property( &ctx.iter, (struct tgsi_full_property *)prop );
}
{
struct dump_ctx *ctx = (struct dump_ctx *) iter;
- TXT( "IMM " );
- ENM( imm->Immediate.DataType, immediate_type_names );
+ TXT( "IMM[" );
+ SID( ctx->immno++ );
+ TXT( "] " );
+ ENM( imm->Immediate.DataType, tgsi_immediate_type_names );
dump_imm_data(iter, imm->u, imm->Immediate.NrTokens - 1,
imm->Immediate.DataType);
{
struct dump_ctx ctx;
- ctx.printf = dump_ctx_printf;
+ ctx.dump_printf = dump_ctx_printf;
iter_immediate( &ctx.iter, (struct tgsi_full_immediate *)imm );
}
if (inst->Instruction.Texture) {
TXT( ", " );
ENM( inst->Texture.Texture, tgsi_texture_names );
+ for (i = 0; i < inst->Texture.NumOffsets; i++) {
+ TXT( ", " );
+ ENM( inst->TexOffsets[i].File, tgsi_file_names);
+ CHR( '[' );
+ SID( inst->TexOffsets[i].Index );
+ CHR( ']' );
+ CHR( '.' );
+ ENM( inst->TexOffsets[i].SwizzleX, tgsi_swizzle_names);
+ ENM( inst->TexOffsets[i].SwizzleY, tgsi_swizzle_names);
+ ENM( inst->TexOffsets[i].SwizzleZ, tgsi_swizzle_names);
+ }
}
switch (inst->Instruction.Opcode) {
struct dump_ctx ctx;
ctx.instno = instno;
+ ctx.immno = instno;
ctx.indent = 0;
- ctx.printf = dump_ctx_printf;
+ ctx.dump_printf = dump_ctx_printf;
ctx.indentation = 0;
iter_instruction( &ctx.iter, (struct tgsi_full_instruction *)inst );
struct tgsi_iterate_context *iter )
{
struct dump_ctx *ctx = (struct dump_ctx *) iter;
- ENM( iter->processor.Processor, processor_type_names );
+ ENM( iter->processor.Processor, tgsi_processor_type_names );
EOL();
return TRUE;
}
ctx.iter.epilog = NULL;
ctx.instno = 0;
+ ctx.immno = 0;
ctx.indent = 0;
- ctx.printf = dump_ctx_printf;
+ ctx.dump_printf = dump_ctx_printf;
ctx.indentation = 0;
tgsi_iterate_shader( tokens, &ctx.iter );
ctx.base.iter.epilog = NULL;
ctx.base.instno = 0;
+ ctx.base.immno = 0;
ctx.base.indent = 0;
- ctx.base.printf = &str_dump_ctx_printf;
+ ctx.base.dump_printf = &str_dump_ctx_printf;
ctx.base.indentation = 0;
ctx.str = str;
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