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shader: also check usage masks and correct swizzles if needed

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Same as for outputs, since inputs might be passed interleaved we also
have to check the access mask and if the component comes with an offset
then we have to shift the swizzle.

Signed-off-by: Gert Wollny <gert.wollny@collabora.com>
Reviewed-By: Gurchetan Singh <gurchetansingh@chromium.org>
macos/master
Gert Wollny 6 years ago committed by Gert Wollny
parent f87162df93
commit cadf0219e8
1 changed files with 215 additions and 2 deletions
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
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  1. 217
      src/vrend_shader.c

217
src/vrend_shader.c
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@ -3111,6 +3111,32 @@ get_destination_info(struct dump_ctx *ctx,
return true; return true;
} }
static const char *shift_swizzles(const struct vrend_shader_io *io, const struct tgsi_full_src_register *src,
int swz_offset, char *swizzle_shifted, const char *swizzle)
{
if (io->usage_mask != 0xf && swizzle[0]) {
if (io->num_components > 1) {
swizzle_shifted[swz_offset++] = '.';
for (int i = 0; i < 4; ++i) {
switch (i) {
case 0: swizzle_shifted[swz_offset++] = get_swiz_char(src->Register.SwizzleX - io->swizzle_offset);
break;
case 1: swizzle_shifted[swz_offset++] = get_swiz_char(src->Register.SwizzleY - io->swizzle_offset);
break;
case 2: swizzle_shifted[swz_offset++] = src->Register.SwizzleZ - io->swizzle_offset < io->num_components ?
get_swiz_char(src->Register.SwizzleZ - io->swizzle_offset) : 'x';
break;
case 3: swizzle_shifted[swz_offset++] = src->Register.SwizzleW - io->swizzle_offset < io->num_components ?
get_swiz_char(src->Register.SwizzleW - io->swizzle_offset) : 'x';
}
}
swizzle_shifted[swz_offset] = 0;
}
swizzle = swizzle_shifted;
}
return swizzle;
}
static void get_source_info_generic(struct dump_ctx *ctx, static void get_source_info_generic(struct dump_ctx *ctx,
enum io_type iot, enum io_type iot,
enum vrend_type_qualifier srcstypeprefix, enum vrend_type_qualifier srcstypeprefix,
@ -3121,10 +3147,21 @@ static void get_source_info_generic(struct dump_ctx *ctx,
const char *swizzle, const char *swizzle,
char srcs[255]) char srcs[255])
{ {
int swz_offset = 0;
char swizzle_shifted[6] = "";
if (swizzle[0] == ')') {
swizzle_shifted[swz_offset++] = ')';
swizzle_shifted[swz_offset] = 0;
}
/* This IO element is not using all vector elements, so we have to shift the swizzle names */
swizzle = shift_swizzles(io, src, swz_offset, swizzle_shifted, swizzle);
if (io->first == io->last) { if (io->first == io->last) {
snprintf(srcs, 255, "%s(%s%s%s%s)", get_string(srcstypeprefix), snprintf(srcs, 255, "%s(%s%s%s%s)", get_string(srcstypeprefix),
prefix, io->glsl_name, arrayname, io->is_int ? "" : swizzle); prefix, io->glsl_name, arrayname, io->is_int ? "" : swizzle);
} else { } else {
if (prefer_generic_io_block(ctx, iot)) { if (prefer_generic_io_block(ctx, iot)) {
char outvarname[64]; char outvarname[64];
const char *stage_prefix = iot == io_in ? get_stage_input_name_prefix(ctx, ctx->prog_type) : const char *stage_prefix = iot == io_in ? get_stage_input_name_prefix(ctx, ctx->prog_type) :
@ -3166,6 +3203,14 @@ static void get_source_info_patch(enum vrend_type_qualifier srcstypeprefix,
const char *swizzle, const char *swizzle,
char srcs[255]) char srcs[255])
{ {
int swz_offset = 0;
char swizzle_shifted[7] = "";
if (swizzle[0] == ')') {
swizzle_shifted[swz_offset++] = ')';
swizzle_shifted[swz_offset] = 0;
}
swizzle = shift_swizzles(io, src, swz_offset, swizzle_shifted, swizzle);
const char *wm = io->is_int ? "" : swizzle; const char *wm = io->is_int ? "" : swizzle;
if (io->last == io->first) if (io->last == io->first)
@ -3222,6 +3267,7 @@ get_source_info(struct dump_ctx *ctx,
for (uint32_t i = 0; i < inst->Instruction.NumSrcRegs; i++) { for (uint32_t i = 0; i < inst->Instruction.NumSrcRegs; i++) {
const struct tgsi_full_src_register *src = &inst->Src[i]; const struct tgsi_full_src_register *src = &inst->Src[i];
char swizzle[8] = {0}; char swizzle[8] = {0};
int usage_mask = 0;
char *swizzle_writer = swizzle; char *swizzle_writer = swizzle;
char prefix[6] = {0}; char prefix[6] = {0};
char arrayname[16] = {0}; char arrayname[16] = {0};
@ -3256,6 +3302,11 @@ get_source_info(struct dump_ctx *ctx,
swizzle_writer = src_swizzle0; swizzle_writer = src_swizzle0;
} }
usage_mask |= 1 << src->Register.SwizzleX;
usage_mask |= 1 << src->Register.SwizzleY;
usage_mask |= 1 << src->Register.SwizzleZ;
usage_mask |= 1 << src->Register.SwizzleW;
if (src->Register.SwizzleX != TGSI_SWIZZLE_X || if (src->Register.SwizzleX != TGSI_SWIZZLE_X ||
src->Register.SwizzleY != TGSI_SWIZZLE_Y || src->Register.SwizzleY != TGSI_SWIZZLE_Y ||
src->Register.SwizzleZ != TGSI_SWIZZLE_Z || src->Register.SwizzleZ != TGSI_SWIZZLE_Z ||
@ -3271,7 +3322,8 @@ get_source_info(struct dump_ctx *ctx,
if (src->Register.File == TGSI_FILE_INPUT) { if (src->Register.File == TGSI_FILE_INPUT) {
for (uint32_t j = 0; j < ctx->num_inputs; j++) for (uint32_t j = 0; j < ctx->num_inputs; j++)
if (ctx->inputs[j].first <= src->Register.Index && if (ctx->inputs[j].first <= src->Register.Index &&
ctx->inputs[j].last >= src->Register.Index) { ctx->inputs[j].last >= src->Register.Index &&
(ctx->inputs[j].usage_mask & usage_mask)) {
if (ctx->key->color_two_side && ctx->inputs[j].name == TGSI_SEMANTIC_COLOR) if (ctx->key->color_two_side && ctx->inputs[j].name == TGSI_SEMANTIC_COLOR)
snprintf(srcs[i], 255, "%s(%s%s%d%s%s)", get_string(stypeprefix), prefix, "realcolor", ctx->inputs[j].sid, arrayname, swizzle); snprintf(srcs[i], 255, "%s(%s%s%d%s%s)", get_string(stypeprefix), prefix, "realcolor", ctx->inputs[j].sid, arrayname, swizzle);
else if (ctx->inputs[j].glsl_gl_block) { else if (ctx->inputs[j].glsl_gl_block) {
@ -3305,6 +3357,14 @@ get_source_info(struct dump_ctx *ctx,
} else if (ctx->inputs[j].name == TGSI_SEMANTIC_PATCH) { } else if (ctx->inputs[j].name == TGSI_SEMANTIC_PATCH) {
struct vrend_shader_io *io = ctx->patch_input_range.used ? &ctx->patch_input_range.io : &ctx->inputs[j]; struct vrend_shader_io *io = ctx->patch_input_range.used ? &ctx->patch_input_range.io : &ctx->inputs[j];
get_source_info_patch(srcstypeprefix, prefix, src, io, arrayname, swizzle, srcs[i]); get_source_info_patch(srcstypeprefix, prefix, src, io, arrayname, swizzle, srcs[i]);
} else if (ctx->inputs[j].name == TGSI_SEMANTIC_POSITION && ctx->prog_type == TGSI_PROCESSOR_VERTEX &&
ctx->inputs[j].first != ctx->inputs[j].last) {
if (src->Register.Indirect)
snprintf(srcs[i], 255, "%s(%s%s%s[addr%d + %d]%s)", get_string(srcstypeprefix), prefix, ctx->inputs[j].glsl_name, arrayname,
src->Indirect.Index, src->Register.Index, ctx->inputs[j].is_int ? "" : swizzle);
else
snprintf(srcs[i], 255, "%s(%s%s%s[%d]%s)", get_string(srcstypeprefix), prefix, ctx->inputs[j].glsl_name, arrayname,
src->Register.Index, ctx->inputs[j].is_int ? "" : swizzle);
} else } else
snprintf(srcs[i], 255, "%s(%s%s%s%s)", get_string(srcstypeprefix), prefix, ctx->inputs[j].glsl_name, arrayname, ctx->inputs[j].is_int ? "" : swizzle); snprintf(srcs[i], 255, "%s(%s%s%s%s)", get_string(srcstypeprefix), prefix, ctx->inputs[j].glsl_name, arrayname, ctx->inputs[j].is_int ? "" : swizzle);
} }
@ -3314,7 +3374,8 @@ get_source_info(struct dump_ctx *ctx,
} else if (src->Register.File == TGSI_FILE_OUTPUT) { } else if (src->Register.File == TGSI_FILE_OUTPUT) {
for (uint32_t j = 0; j < ctx->num_outputs; j++) { for (uint32_t j = 0; j < ctx->num_outputs; j++) {
if (ctx->outputs[j].first <= src->Register.Index && if (ctx->outputs[j].first <= src->Register.Index &&
ctx->outputs[j].last >= src->Register.Index) { ctx->outputs[j].last >= src->Register.Index &&
(ctx->outputs[j].usage_mask & usage_mask)) {
if (inst->Instruction.Opcode == TGSI_OPCODE_FBFETCH) { if (inst->Instruction.Opcode == TGSI_OPCODE_FBFETCH) {
ctx->outputs[j].fbfetch_used = true; ctx->outputs[j].fbfetch_used = true;
ctx->shader_req_bits |= SHADER_REQ_FBFETCH; ctx->shader_req_bits |= SHADER_REQ_FBFETCH;
@ -3850,6 +3911,120 @@ void emit_fs_clipdistance_load(struct dump_ctx *ctx)
} }
} }
/* TGSI possibly emits VS, TES, TCS, and GEOM outputs with layouts (i.e.
* it gives components), but it doesn't do so for the corresponding inputs from
* TXS, GEOM, abd TES, so that we have to apply the output layouts from the
* previous shader stage to the according inputs.
*/
static bool apply_prev_layout(struct dump_ctx *ctx)
{
bool require_enhanced_layouts = false;
/* Walk through all inputs and see whether we have a corresonding output from
* the previous shader that uses a different layout. It may even be that one
* input be the combination of two inputs. */
for (unsigned i = 0; i < ctx->num_inputs; ++i ) {
unsigned i_input = i;
struct vrend_shader_io *io = &ctx->inputs[i];
if (io->name == TGSI_SEMANTIC_GENERIC || io->name == TGSI_SEMANTIC_PATCH) {
struct vrend_layout_info *layout = ctx->key->prev_stage_generic_and_patch_outputs_layout;
for (unsigned generic_index = 0; generic_index < ctx->key->num_prev_generic_and_patch_outputs; ++generic_index, ++layout) {
bool already_found_one = false;
/* Identify by sid and arrays_id */
if (io->sid == layout->sid && (io->array_id == layout->array_id)) {
unsigned new_mask = io->usage_mask;
/* We have already one IO with the same SID and arrays ID, so we need to duplicate it */
if (already_found_one) {
memmove(io + 1, io, (ctx->num_inputs - i_input) * sizeof(struct vrend_shader_io));
ctx->num_inputs++;
++io;
++i_input;
} else if ((io->usage_mask == 0xf) && (layout->usage_mask != 0xf)) {
/* If we found the first input with all components, and a corresponding prev output that uses
* less components */
already_found_one = true;
}
if (already_found_one) {
new_mask = io->usage_mask = (uint8_t)layout->usage_mask;
io->layout_location = layout->location;
io->array_id = layout->array_id;
u_bit_scan_consecutive_range(&new_mask, &io->swizzle_offset, &io->num_components);
require_enhanced_layouts |= io->swizzle_offset > 0;
if (io->num_components == 1)
io->override_no_wm = true;
if (i_input < ctx->num_inputs - 1) {
already_found_one = (io[1].sid != layout->sid || io[1].array_id != layout->array_id);
}
}
}
}
}
++io;
++i_input;
}
return require_enhanced_layouts;
}
static bool evaluate_layout_overlays(unsigned nio, struct vrend_shader_io *io,
const char *name_prefix, unsigned coord_replace)
{
bool require_enhanced_layouts = 0;
int next_loc = 1;
/* IO elements may be emitted for the same location but with
* non-overlapping swizzles, therefore, we modify the name of
* the variable to include the swizzle mask.
*
* Since TGSI also emits inputs that have no masks but are still at the
* same location, we also need to add an array ID.
*/
for (unsigned i = 0; i < nio - 1; ++i) {
if ((io[i].name != TGSI_SEMANTIC_GENERIC &&
io[i].name != TGSI_SEMANTIC_PATCH) ||
io[i].usage_mask == 0xf ||
io[i].layout_location > 0)
continue;
for (unsigned j = i + 1; j < nio ; ++j) {
if ((io[j].name != TGSI_SEMANTIC_GENERIC &&
io[j].name != TGSI_SEMANTIC_PATCH) ||
io[j].usage_mask == 0xf ||
io[j].layout_location > 0)
continue;
/* Do the definition ranges overlap? */
if (io[i].last < io[j].first || io[i].first > io[j].last)
continue;
/* Overlapping ranges require explicite layouts and if they start at the
* same index thet location must be equal */
if (io[i].first == io[j].first) {
io[j].layout_location = io[i].layout_location = next_loc++;
} else {
io[i].layout_location = next_loc++;
io[j].layout_location = next_loc++;
}
require_enhanced_layouts = true;
}
}
rename_variables(nio, io, name_prefix, coord_replace);
return require_enhanced_layouts;
}
static static
void renumber_io_arrays(unsigned nio, struct vrend_shader_io *io) void renumber_io_arrays(unsigned nio, struct vrend_shader_io *io)
@ -3884,6 +4059,8 @@ iter_instruction(struct tgsi_iterate_context *iter,
if (instno == 0) { if (instno == 0) {
bool require_enhanced_layouts = false;
/* If the guest sent real IO arrays then we declare them individually, /* If the guest sent real IO arrays then we declare them individually,
* and have to do some work to deal with overlapping values, regions and * and have to do some work to deal with overlapping values, regions and
* enhanced layouts */ * enhanced layouts */
@ -3893,6 +4070,31 @@ iter_instruction(struct tgsi_iterate_context *iter,
* some renumbering for generics and patches. */ * some renumbering for generics and patches. */
renumber_io_arrays(ctx->num_inputs, ctx->inputs); renumber_io_arrays(ctx->num_inputs, ctx->inputs);
renumber_io_arrays(ctx->num_outputs, ctx->outputs); renumber_io_arrays(ctx->num_outputs, ctx->outputs);
}
/* In these shaders the inputs don't have the layout component information
* therefore, copy the info from the prev shaders output */
if (ctx->prog_type == TGSI_PROCESSOR_GEOMETRY ||
ctx->prog_type == TGSI_PROCESSOR_TESS_CTRL ||
ctx->prog_type == TGSI_PROCESSOR_TESS_EVAL)
require_enhanced_layouts |= apply_prev_layout(ctx);
if (ctx->guest_sent_io_arrays) {
if (ctx->num_inputs > 0)
if (evaluate_layout_overlays(ctx->num_inputs, ctx->inputs,
get_stage_input_name_prefix(ctx, ctx->prog_type),
ctx->key->coord_replace)) {
require_enhanced_layouts = true;
}
if (ctx->num_outputs > 0)
if (evaluate_layout_overlays(ctx->num_outputs, ctx->outputs,
get_stage_output_name_prefix(ctx->prog_type), 0)){
require_enhanced_layouts = true;
}
} else { } else {
/* The guest didn't send real arrays, do we might have to add a big array /* The guest didn't send real arrays, do we might have to add a big array
* for all generic and another ofr patch inputs */ * for all generic and another ofr patch inputs */
@ -3905,6 +4107,11 @@ iter_instruction(struct tgsi_iterate_context *iter,
get_stage_output_name_prefix(ctx->prog_type), 0, true); get_stage_output_name_prefix(ctx->prog_type), 0, true);
} }
if (require_enhanced_layouts) {
ctx->shader_req_bits |= SHADER_REQ_ENHANCED_LAYOUTS;
ctx->shader_req_bits |= SHADER_REQ_SEPERATE_SHADER_OBJECTS;
}
emit_buf(ctx, "void main(void)\n{\n"); emit_buf(ctx, "void main(void)\n{\n");
if (iter->processor.Processor == TGSI_PROCESSOR_FRAGMENT) { if (iter->processor.Processor == TGSI_PROCESSOR_FRAGMENT) {
emit_color_select(ctx); emit_color_select(ctx);
@ -4509,6 +4716,12 @@ static void emit_header(struct dump_ctx *ctx)
emit_ver_ext(ctx, "#version 130\n"); emit_ver_ext(ctx, "#version 130\n");
} }
if (ctx->shader_req_bits & SHADER_REQ_ENHANCED_LAYOUTS)
emit_ext(ctx, "ARB_enhanced_layouts", "require");
if (ctx->shader_req_bits & SHADER_REQ_SEPERATE_SHADER_OBJECTS)
emit_ext(ctx, "ARB_separate_shader_objects", "require");
if (ctx->shader_req_bits & SHADER_REQ_ARRAYS_OF_ARRAYS) if (ctx->shader_req_bits & SHADER_REQ_ARRAYS_OF_ARRAYS)
emit_ext(ctx, "ARB_arrays_of_arrays", "require"); emit_ext(ctx, "ARB_arrays_of_arrays", "require");

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