#include "linker.h"
#include "link_varyings.h"
#include "main/macros.h"
-#include "program/hash_table.h"
+#include "util/hash_table.h"
#include "program.h"
}
}
-bool
-process_xfb_layout_qualifiers(void *mem_ctx, const gl_shader *sh,
+static bool
+process_xfb_layout_qualifiers(void *mem_ctx, const gl_linked_shader *sh,
+ struct gl_shader_program *prog,
unsigned *num_tfeedback_decls,
char ***varying_names)
{
* xfb_stride to interface block members so this will catch that case also.
*/
for (unsigned j = 0; j < MAX_FEEDBACK_BUFFERS; j++) {
- if (sh->TransformFeedback.BufferStride[j]) {
+ if (prog->TransformFeedback.BufferStride[j]) {
has_xfb_qualifiers = true;
+ break;
}
}
* OpenGLES 3.0 drivers, so we relax the checking in all cases.
*/
if (false /* always skip the centroid check */ &&
- prog->Version < (prog->IsES ? 310 : 430) &&
+ prog->data->Version < (prog->IsES ? 310 : 430) &&
input->data.centroid != output->data.centroid) {
linker_error(prog,
"%s shader output `%s' %s centroid qualifier, "
return;
}
- if (!prog->IsES && input->data.invariant != output->data.invariant) {
+ /* The GLSL 4.30 and GLSL ES 3.00 specifications say:
+ *
+ * "As only outputs need be declared with invariant, an output from
+ * one shader stage will still match an input of a subsequent stage
+ * without the input being declared as invariant."
+ *
+ * while GLSL 4.20 says:
+ *
+ * "For variables leaving one shader and coming into another shader,
+ * the invariant keyword has to be used in both shaders, or a link
+ * error will result."
+ *
+ * and GLSL ES 1.00 section 4.6.4 "Invariance and Linking" says:
+ *
+ * "The invariance of varyings that are declared in both the vertex
+ * and fragment shaders must match."
+ */
+ if (input->data.invariant != output->data.invariant &&
+ prog->data->Version < (prog->IsES ? 300 : 430)) {
linker_error(prog,
"%s shader output `%s' %s invariant qualifier, "
"but %s shader input %s invariant qualifier\n",
*
*/
if (input->data.interpolation != output->data.interpolation &&
- prog->Version < 440) {
+ prog->data->Version < 440) {
linker_error(prog,
"%s shader output `%s' specifies %s "
"interpolation qualifier, "
*/
void
cross_validate_outputs_to_inputs(struct gl_shader_program *prog,
- gl_shader *producer, gl_shader *consumer)
+ gl_linked_shader *producer,
+ gl_linked_shader *consumer)
{
glsl_symbol_table parameters;
ir_variable *explicit_locations[MAX_VARYINGS_INCL_PATCH][4] =
unsigned slot_limit = idx + num_elements;
unsigned last_comp;
- if (var->type->without_array()->is_record()) {
+ if (type->without_array()->is_record()) {
/* The component qualifier can't be used on structs so just treat
* all component slots as used.
*/
last_comp = 4;
} else {
- unsigned dmul = var->type->is_double() ? 2 : 1;
+ unsigned dmul = type->without_array()->is_64bit() ? 2 : 1;
last_comp = var->data.location_frac +
- var->type->without_array()->vector_elements * dmul;
+ type->without_array()->vector_elements * dmul;
}
while (idx < slot_limit) {
for (unsigned j = 0; j < 4; j++) {
if (explicit_locations[idx][j] &&
(explicit_locations[idx][j]->type->without_array()
- ->base_type != var->type->without_array()->base_type)) {
+ ->base_type != type->without_array()->base_type)) {
linker_error(prog,
"Varyings sharing the same location must "
"have the same underlying numerical type. "
* worry about components beginning at anything other than 0 as
* the spec does not allow this for dvec3 and dvec4.
*/
- if (i == 3 && last_comp > 4) {
+ if (i == 4 && last_comp > 4) {
last_comp = last_comp - 4;
/* Bump location index and reset the component index */
idx++;
* Demote shader inputs and outputs that are not used in other stages, and
* remove them via dead code elimination.
*/
-void
+static void
remove_unused_shader_inputs_and_outputs(bool is_separate_shader_object,
- gl_shader *sh,
+ gl_linked_shader *sh,
enum ir_variable_mode mode)
{
if (is_separate_shader_object)
*/
if (var->data.is_unmatched_generic_inout && !var->data.is_xfb_only) {
assert(var->data.mode != ir_var_temporary);
+
+ /* Assign zeros to demoted inputs to allow more optimizations. */
+ if (var->data.mode == ir_var_shader_in && !var->constant_value)
+ var->constant_value = ir_constant::zero(var, var->type);
+
var->data.mode = ir_var_auto;
}
}
+ this->matched_candidate->toplevel_var->data.location_frac
+ this->matched_candidate->offset;
const unsigned dmul =
- this->matched_candidate->type->without_array()->is_double() ? 2 : 1;
+ this->matched_candidate->type->without_array()->is_64bit() ? 2 : 1;
if (this->matched_candidate->type->is_array()) {
/* Array variable */
unsigned actual_array_size;
switch (this->lowered_builtin_array_variable) {
case clip_distance:
- actual_array_size = prog->LastClipDistanceArraySize;
+ actual_array_size = prog->last_vert_prog ?
+ prog->last_vert_prog->info.clip_distance_array_size : 0;
break;
case cull_distance:
- actual_array_size = prog->LastCullDistanceArraySize;
+ actual_array_size = prog->last_vert_prog ?
+ prog->last_vert_prog->info.cull_distance_array_size : 0;
break;
case tess_level_outer:
actual_array_size = 4;
}
if (explicit_stride && explicit_stride[buffer]) {
- if (this->is_double() && info->Buffers[buffer].Stride % 2) {
+ if (this->is_64bit() && info->Buffers[buffer].Stride % 2) {
linker_error(prog, "invalid qualifier xfb_stride=%d must be a "
"multiple of 8 as its applied to a type that is or "
"contains a double.",
name = "gl_TessLevelInnerMESA";
break;
}
- this->matched_candidate = (const tfeedback_candidate *)
- hash_table_find(tfeedback_candidates, name);
+ hash_entry *entry = _mesa_hash_table_search(tfeedback_candidates, name);
+
+ this->matched_candidate = entry ?
+ (const tfeedback_candidate *) entry->data : NULL;
+
if (!this->matched_candidate) {
/* From GL_EXT_transform_feedback:
* A program will fail to link if:
linker_error(prog, "Transform feedback varying %s undeclared.",
this->orig_name);
}
+
return this->matched_candidate;
}
* If an error occurs, the error is reported through linker_error() and false
* is returned.
*/
-bool
+static bool
parse_tfeedback_decls(struct gl_context *ctx, struct gl_shader_program *prog,
const void *mem_ctx, unsigned num_names,
char **varying_names, tfeedback_decl *decls)
/**
* Store transform feedback location assignments into
- * prog->LinkedTransformFeedback based on the data stored in tfeedback_decls.
+ * prog->sh.LinkedTransformFeedback based on the data stored in
+ * tfeedback_decls.
*
* If an error occurs, the error is reported through linker_error() and false
* is returned.
*/
-bool
+static bool
store_tfeedback_info(struct gl_context *ctx, struct gl_shader_program *prog,
unsigned num_tfeedback_decls,
tfeedback_decl *tfeedback_decls, bool has_xfb_qualifiers)
{
+ if (!prog->last_vert_prog)
+ return true;
+
/* Make sure MaxTransformFeedbackBuffers is less than 32 so the bitmask for
* tracking the number of buffers doesn't overflow.
*/
bool separate_attribs_mode =
prog->TransformFeedback.BufferMode == GL_SEPARATE_ATTRIBS;
- ralloc_free(prog->LinkedTransformFeedback.Varyings);
- ralloc_free(prog->LinkedTransformFeedback.Outputs);
-
- memset(&prog->LinkedTransformFeedback, 0,
- sizeof(prog->LinkedTransformFeedback));
+ struct gl_program *xfb_prog = prog->last_vert_prog;
+ xfb_prog->sh.LinkedTransformFeedback =
+ rzalloc(xfb_prog, struct gl_transform_feedback_info);
/* The xfb_offset qualifier does not have to be used in increasing order
* however some drivers expect to receive the list of transform feedback
qsort(tfeedback_decls, num_tfeedback_decls, sizeof(*tfeedback_decls),
cmp_xfb_offset);
- prog->LinkedTransformFeedback.Varyings =
- rzalloc_array(prog,
- struct gl_transform_feedback_varying_info,
+ xfb_prog->sh.LinkedTransformFeedback->Varyings =
+ rzalloc_array(xfb_prog, struct gl_transform_feedback_varying_info,
num_tfeedback_decls);
unsigned num_outputs = 0;
num_outputs += tfeedback_decls[i].get_num_outputs();
}
- prog->LinkedTransformFeedback.Outputs =
- rzalloc_array(prog,
- struct gl_transform_feedback_output,
+ xfb_prog->sh.LinkedTransformFeedback->Outputs =
+ rzalloc_array(xfb_prog, struct gl_transform_feedback_output,
num_outputs);
unsigned num_buffers = 0;
if (!has_xfb_qualifiers && separate_attribs_mode) {
/* GL_SEPARATE_ATTRIBS */
for (unsigned i = 0; i < num_tfeedback_decls; ++i) {
- if (!tfeedback_decls[i].store(ctx, prog, &prog->LinkedTransformFeedback,
+ if (!tfeedback_decls[i].store(ctx, prog,
+ xfb_prog->sh.LinkedTransformFeedback,
num_buffers, num_buffers, num_outputs,
NULL, has_xfb_qualifiers))
return false;
if (prog->TransformFeedback.BufferStride[j]) {
buffers |= 1 << j;
explicit_stride[j] = true;
- prog->LinkedTransformFeedback.Buffers[j].Stride =
+ xfb_prog->sh.LinkedTransformFeedback->Buffers[j].Stride =
prog->TransformFeedback.BufferStride[j] / 4;
}
}
if (tfeedback_decls[i].is_next_buffer_separator()) {
if (!tfeedback_decls[i].store(ctx, prog,
- &prog->LinkedTransformFeedback,
+ xfb_prog->sh.LinkedTransformFeedback,
buffer, num_buffers, num_outputs,
explicit_stride, has_xfb_qualifiers))
return false;
buffers |= 1 << buffer;
if (!tfeedback_decls[i].store(ctx, prog,
- &prog->LinkedTransformFeedback,
+ xfb_prog->sh.LinkedTransformFeedback,
buffer, num_buffers, num_outputs,
explicit_stride, has_xfb_qualifiers))
return false;
}
}
- assert(prog->LinkedTransformFeedback.NumOutputs == num_outputs);
+ assert(xfb_prog->sh.LinkedTransformFeedback->NumOutputs == num_outputs);
- prog->LinkedTransformFeedback.ActiveBuffers = buffers;
+ xfb_prog->sh.LinkedTransformFeedback->ActiveBuffers = buffers;
return true;
}
{
public:
varying_matches(bool disable_varying_packing, bool xfb_enabled,
+ bool enhanced_layouts_enabled,
gl_shader_stage producer_stage,
gl_shader_stage consumer_stage);
~varying_matches();
void record(ir_variable *producer_var, ir_variable *consumer_var);
unsigned assign_locations(struct gl_shader_program *prog,
+ uint8_t *components,
uint64_t reserved_slots);
void store_locations() const;
*/
const bool xfb_enabled;
+ const bool enhanced_layouts_enabled;
+
/**
* Enum representing the order in which varyings are packed within a
* packing class.
varying_matches::varying_matches(bool disable_varying_packing,
bool xfb_enabled,
+ bool enhanced_layouts_enabled,
gl_shader_stage producer_stage,
gl_shader_stage consumer_stage)
: disable_varying_packing(disable_varying_packing),
xfb_enabled(xfb_enabled),
+ enhanced_layouts_enabled(enhanced_layouts_enabled),
producer_stage(producer_stage),
consumer_stage(consumer_stage)
{
(producer_var->type->contains_integer() ||
producer_var->type->contains_double());
- if (needs_flat_qualifier ||
- (consumer_stage != -1 && consumer_stage != MESA_SHADER_FRAGMENT)) {
+ if (!disable_varying_packing &&
+ (needs_flat_qualifier ||
+ (consumer_stage != MESA_SHADER_NONE && consumer_stage != MESA_SHADER_FRAGMENT))) {
/* Since this varying is not being consumed by the fragment shader, its
* interpolation type varying cannot possibly affect rendering.
* Also, this variable is non-flat and is (or contains) an integer
if (producer_var) {
producer_var->data.centroid = false;
producer_var->data.sample = false;
- producer_var->data.interpolation = INTERP_QUALIFIER_FLAT;
+ producer_var->data.interpolation = INTERP_MODE_FLAT;
}
if (consumer_var) {
consumer_var->data.centroid = false;
consumer_var->data.sample = false;
- consumer_var->data.interpolation = INTERP_QUALIFIER_FLAT;
+ consumer_var->data.interpolation = INTERP_MODE_FLAT;
}
}
sizeof(*this->matches) * this->matches_capacity);
}
- const ir_variable *const var = (producer_var != NULL)
- ? producer_var : consumer_var;
- const gl_shader_stage stage = (producer_var != NULL)
- ? producer_stage : consumer_stage;
+ /* We must use the consumer to compute the packing class because in GL4.4+
+ * there is no guarantee interpolation qualifiers will match across stages.
+ *
+ * From Section 4.5 (Interpolation Qualifiers) of the GLSL 4.30 spec:
+ *
+ * "The type and presence of interpolation qualifiers of variables with
+ * the same name declared in all linked shaders for the same cross-stage
+ * interface must match, otherwise the link command will fail.
+ *
+ * When comparing an output from one stage to an input of a subsequent
+ * stage, the input and output don't match if their interpolation
+ * qualifiers (or lack thereof) are not the same."
+ *
+ * This text was also in at least revison 7 of the 4.40 spec but is no
+ * longer in revision 9 and not in the 4.50 spec.
+ */
+ const ir_variable *const var = (consumer_var != NULL)
+ ? consumer_var : producer_var;
+ const gl_shader_stage stage = (consumer_var != NULL)
+ ? consumer_stage : producer_stage;
const glsl_type *type = get_varying_type(var, stage);
+ if (producer_var && consumer_var &&
+ consumer_var->data.must_be_shader_input) {
+ producer_var->data.must_be_shader_input = 1;
+ }
+
this->matches[this->num_matches].packing_class
= this->compute_packing_class(var);
this->matches[this->num_matches].packing_order
= this->compute_packing_order(var);
- if (this->disable_varying_packing && !is_varying_packing_safe(type, var)) {
+ if ((this->disable_varying_packing && !is_varying_packing_safe(type, var)) ||
+ var->data.must_be_shader_input) {
unsigned slots = type->count_attribute_slots(false);
this->matches[this->num_matches].num_components = slots * 4;
} else {
this->matches[this->num_matches].num_components
= type->component_slots();
}
+
this->matches[this->num_matches].producer_var = producer_var;
this->matches[this->num_matches].consumer_var = consumer_var;
this->num_matches++;
*/
unsigned
varying_matches::assign_locations(struct gl_shader_program *prog,
+ uint8_t *components,
uint64_t reserved_slots)
{
/* If packing has been disabled then we cannot safely sort the varyings by
* we can pack varyings together that are only used for transform
* feedback.
*/
- if ((this->disable_varying_packing &&
+ if (var->data.must_be_shader_input ||
+ (this->disable_varying_packing &&
!(previous_var_xfb_only && var->data.is_xfb_only)) ||
(i > 0 && this->matches[i - 1].packing_class
!= this->matches[i].packing_class )) {
previous_var_xfb_only = var->data.is_xfb_only;
- unsigned num_elements = type->count_attribute_slots(is_vertex_input);
- unsigned slot_end;
- if (this->disable_varying_packing &&
- !is_varying_packing_safe(type, var))
- slot_end = 4;
- else
- slot_end = type->without_array()->vector_elements;
- slot_end += *location - 1;
+ /* The number of components taken up by this variable. For vertex shader
+ * inputs, we use the number of slots * 4, as they have different
+ * counting rules.
+ */
+ unsigned num_components = is_vertex_input ?
+ type->count_attribute_slots(is_vertex_input) * 4 :
+ this->matches[i].num_components;
+
+ /* The last slot for this variable, inclusive. */
+ unsigned slot_end = *location + num_components - 1;
/* FIXME: We could be smarter in the below code and loop back over
* trying to fill any locations that we skipped because we couldn't pack
* hit the linking error if we run out of room and suggest they use
* explicit locations.
*/
- for (unsigned j = 0; j < num_elements; j++) {
- while ((slot_end < MAX_VARYING * 4u) &&
- ((reserved_slots & (UINT64_C(1) << *location / 4u) ||
- (reserved_slots & (UINT64_C(1) << slot_end / 4u))))) {
+ while (slot_end < MAX_VARYING * 4u) {
+ const unsigned slots = (slot_end / 4u) - (*location / 4u) + 1;
+ const uint64_t slot_mask = ((1ull << slots) - 1) << (*location / 4u);
+ assert(slots > 0);
+ if (reserved_slots & slot_mask) {
*location = ALIGN(*location + 1, 4);
- slot_end = *location;
-
- /* reset the counter and try again */
- j = 0;
+ slot_end = *location + num_components - 1;
+ continue;
}
- /* Increase the slot to make sure there is enough room for next
- * array element.
- */
- if (this->disable_varying_packing &&
- !is_varying_packing_safe(type, var))
- slot_end += 4;
- else
- slot_end += type->without_array()->vector_elements;
+ break;
}
- if (!var->data.patch && *location >= MAX_VARYING * 4u) {
+ if (!var->data.patch && slot_end >= MAX_VARYING * 4u) {
linker_error(prog, "insufficient contiguous locations available for "
"%s it is possible an array or struct could not be "
"packed between varyings with explicit locations. Try "
var->name);
}
+ if (slot_end < MAX_VARYINGS_INCL_PATCH * 4u) {
+ for (unsigned j = *location / 4u; j < slot_end / 4u; j++)
+ components[j] = 4;
+ components[slot_end / 4u] = (slot_end & 3) + 1;
+ }
+
this->matches[i].generic_location = *location;
- *location += this->matches[i].num_components;
+ *location = slot_end + 1;
}
return (generic_location + 3) / 4;
void
varying_matches::store_locations() const
{
+ /* Check is location needs to be packed with lower_packed_varyings() or if
+ * we can just use ARB_enhanced_layouts packing.
+ */
+ bool pack_loc[MAX_VARYINGS_INCL_PATCH] = { 0 };
+ const glsl_type *loc_type[MAX_VARYINGS_INCL_PATCH][4] = { {NULL, NULL} };
+
for (unsigned i = 0; i < this->num_matches; i++) {
ir_variable *producer_var = this->matches[i].producer_var;
ir_variable *consumer_var = this->matches[i].consumer_var;
consumer_var->data.location = VARYING_SLOT_VAR0 + slot;
consumer_var->data.location_frac = offset;
}
+
+ /* Find locations suitable for native packing via
+ * ARB_enhanced_layouts.
+ */
+ if (producer_var && consumer_var) {
+ if (enhanced_layouts_enabled) {
+ const glsl_type *type =
+ get_varying_type(producer_var, producer_stage);
+ if (type->is_array() || type->is_matrix() || type->is_record() ||
+ type->is_double()) {
+ unsigned comp_slots = type->component_slots() + offset;
+ unsigned slots = comp_slots / 4;
+ if (comp_slots % 4)
+ slots += 1;
+
+ for (unsigned j = 0; j < slots; j++) {
+ pack_loc[slot + j] = true;
+ }
+ } else if (offset + type->vector_elements > 4) {
+ pack_loc[slot] = true;
+ pack_loc[slot + 1] = true;
+ } else {
+ loc_type[slot][offset] = type;
+ }
+ }
+ }
+ }
+
+ /* Attempt to use ARB_enhanced_layouts for more efficient packing if
+ * suitable.
+ */
+ if (enhanced_layouts_enabled) {
+ for (unsigned i = 0; i < this->num_matches; i++) {
+ ir_variable *producer_var = this->matches[i].producer_var;
+ ir_variable *consumer_var = this->matches[i].consumer_var;
+ unsigned generic_location = this->matches[i].generic_location;
+ unsigned slot = generic_location / 4;
+
+ if (pack_loc[slot] || !producer_var || !consumer_var)
+ continue;
+
+ const glsl_type *type =
+ get_varying_type(producer_var, producer_stage);
+ bool type_match = true;
+ for (unsigned j = 0; j < 4; j++) {
+ if (loc_type[slot][j]) {
+ if (type->base_type != loc_type[slot][j]->base_type)
+ type_match = false;
+ }
+ }
+
+ if (type_match) {
+ producer_var->data.explicit_location = 1;
+ consumer_var->data.explicit_location = 1;
+ producer_var->data.explicit_component = 1;
+ consumer_var->data.explicit_component = 1;
+ }
+ }
}
}
* Therefore, the packing class depends only on the interpolation type.
*/
unsigned packing_class = var->data.centroid | (var->data.sample << 1) |
- (var->data.patch << 2);
- packing_class *= 4;
- packing_class += var->data.interpolation;
+ (var->data.patch << 2) |
+ (var->data.must_be_shader_input << 3);
+ packing_class *= 8;
+ packing_class += var->is_interpolation_flat()
+ ? unsigned(INTERP_MODE_FLAT) : var->data.interpolation;
return packing_class;
}
{
const glsl_type *element_type = var->type;
- while (element_type->base_type == GLSL_TYPE_ARRAY) {
+ while (element_type->is_array()) {
element_type = element_type->fields.array;
}
private:
virtual void visit_field(const glsl_type *type, const char *name,
- bool row_major)
+ bool /* row_major */,
+ const glsl_type * /* record_type */,
+ const enum glsl_interface_packing,
+ bool /* last_field */)
{
assert(!type->without_array()->is_record());
assert(!type->without_array()->is_interface());
- (void) row_major;
-
tfeedback_candidate *candidate
= rzalloc(this->mem_ctx, tfeedback_candidate);
candidate->toplevel_var = this->toplevel_var;
candidate->type = type;
candidate->offset = this->varying_floats;
- hash_table_insert(this->tfeedback_candidates, candidate,
- ralloc_strdup(this->mem_ctx, name));
+ _mesa_hash_table_insert(this->tfeedback_candidates,
+ ralloc_strdup(this->mem_ctx, name),
+ candidate);
this->varying_floats += type->component_slots();
}
ralloc_asprintf(mem_ctx, "%s.%s",
input_var->get_interface_type()->without_array()->name,
input_var->name);
- hash_table_insert(consumer_interface_inputs, input_var,
- iface_field_name);
+ _mesa_hash_table_insert(consumer_interface_inputs,
+ iface_field_name, input_var);
} else {
- hash_table_insert(consumer_inputs, input_var,
- ralloc_strdup(mem_ctx, input_var->name));
+ _mesa_hash_table_insert(consumer_inputs,
+ ralloc_strdup(mem_ctx, input_var->name),
+ input_var);
}
}
}
ralloc_asprintf(mem_ctx, "%s.%s",
output_var->get_interface_type()->without_array()->name,
output_var->name);
- input_var =
- (ir_variable *) hash_table_find(consumer_interface_inputs,
- iface_field_name);
+ hash_entry *entry = _mesa_hash_table_search(consumer_interface_inputs, iface_field_name);
+ input_var = entry ? (ir_variable *) entry->data : NULL;
} else {
- input_var =
- (ir_variable *) hash_table_find(consumer_inputs, output_var->name);
+ hash_entry *entry = _mesa_hash_table_search(consumer_inputs, output_var->name);
+ input_var = entry ? (ir_variable *) entry->data : NULL;
}
return (input_var == NULL || input_var->data.mode != ir_var_shader_in)
* with a max of MAX_VARYING.
*/
static uint64_t
-reserved_varying_slot(struct gl_shader *stage, ir_variable_mode io_mode)
+reserved_varying_slot(struct gl_linked_shader *stage,
+ ir_variable_mode io_mode)
{
assert(io_mode == ir_var_shader_in || io_mode == ir_var_shader_out);
/* Avoid an overflow of the returned value */
* be NULL. In this case, varying locations are assigned solely based on the
* requirements of transform feedback.
*/
-bool
+static bool
assign_varying_locations(struct gl_context *ctx,
void *mem_ctx,
struct gl_shader_program *prog,
- gl_shader *producer, gl_shader *consumer,
+ gl_linked_shader *producer,
+ gl_linked_shader *consumer,
unsigned num_tfeedback_decls,
- tfeedback_decl *tfeedback_decls)
+ tfeedback_decl *tfeedback_decls,
+ const uint64_t reserved_slots)
{
/* Tessellation shaders treat inputs and outputs as shared memory and can
* access inputs and outputs of other invocations.
bool xfb_enabled =
ctx->Extensions.EXT_transform_feedback && !unpackable_tess;
- /* Disable varying packing for GL 4.4+ as there is no guarantee
- * that interpolation qualifiers will match between shaders in these
- * versions. We also disable packing on outward facing interfaces for
- * SSO because in ES we need to retain the unpacked varying information
- * for draw time validation. For desktop GL we could allow packing for
- * versions < 4.4 but it's just safer not to do packing.
+ /* Disable packing on outward facing interfaces for SSO because in ES we
+ * need to retain the unpacked varying information for draw time
+ * validation.
*
* Packing is still enabled on individual arrays, structs, and matrices as
* these are required by the transform feedback code and it is still safe
* to do so. We also enable packing when a varying is only used for
* transform feedback and its not a SSO.
- *
- * Varying packing currently only packs together varyings with matching
- * interpolation qualifiers as the backends assume all packed components
- * are to be processed in the same way. Therefore we cannot do packing in
- * these versions of GL without the risk of mismatching interfaces.
- *
- * From Section 4.5 (Interpolation Qualifiers) of the GLSL 4.30 spec:
- *
- * "The type and presence of interpolation qualifiers of variables with
- * the same name declared in all linked shaders for the same cross-stage
- * interface must match, otherwise the link command will fail.
- *
- * When comparing an output from one stage to an input of a subsequent
- * stage, the input and output don't match if their interpolation
- * qualifiers (or lack thereof) are not the same."
- *
- * This text was also in at least revison 7 of the 4.40 spec but is no
- * longer in revision 9 and not in the 4.50 spec.
*/
bool disable_varying_packing =
ctx->Const.DisableVaryingPacking || unpackable_tess;
- if ((ctx->API == API_OPENGL_CORE && ctx->Version >= 44) ||
- (prog->SeparateShader && (producer == NULL || consumer == NULL)))
+ if (prog->SeparateShader && (producer == NULL || consumer == NULL))
disable_varying_packing = true;
varying_matches matches(disable_varying_packing, xfb_enabled,
- producer ? producer->Stage : (gl_shader_stage)-1,
- consumer ? consumer->Stage : (gl_shader_stage)-1);
- hash_table *tfeedback_candidates
- = hash_table_ctor(0, hash_table_string_hash, hash_table_string_compare);
- hash_table *consumer_inputs
- = hash_table_ctor(0, hash_table_string_hash, hash_table_string_compare);
- hash_table *consumer_interface_inputs
- = hash_table_ctor(0, hash_table_string_hash, hash_table_string_compare);
+ ctx->Extensions.ARB_enhanced_layouts,
+ producer ? producer->Stage : MESA_SHADER_NONE,
+ consumer ? consumer->Stage : MESA_SHADER_NONE);
+ hash_table *tfeedback_candidates =
+ _mesa_hash_table_create(NULL, _mesa_key_hash_string,
+ _mesa_key_string_equal);
+ hash_table *consumer_inputs =
+ _mesa_hash_table_create(NULL, _mesa_key_hash_string,
+ _mesa_key_string_equal);
+ hash_table *consumer_interface_inputs =
+ _mesa_hash_table_create(NULL, _mesa_key_hash_string,
+ _mesa_key_string_equal);
ir_variable *consumer_inputs_with_locations[VARYING_SLOT_TESS_MAX] = {
NULL,
};
* within a patch and can be used as shared memory.
*/
if (input_var || (prog->SeparateShader && consumer == NULL) ||
- producer->Type == GL_TESS_CONTROL_SHADER) {
+ producer->Stage == MESA_SHADER_TESS_CTRL) {
matches.record(output_var, input_var);
}
}
}
+ _mesa_hash_table_destroy(consumer_inputs, NULL);
+ _mesa_hash_table_destroy(consumer_interface_inputs, NULL);
+
for (unsigned i = 0; i < num_tfeedback_decls; ++i) {
if (!tfeedback_decls[i].is_varying())
continue;
= tfeedback_decls[i].find_candidate(prog, tfeedback_candidates);
if (matched_candidate == NULL) {
- hash_table_dtor(tfeedback_candidates);
- hash_table_dtor(consumer_inputs);
- hash_table_dtor(consumer_interface_inputs);
+ _mesa_hash_table_destroy(tfeedback_candidates, NULL);
return false;
}
}
}
- const uint64_t reserved_slots =
- reserved_varying_slot(producer, ir_var_shader_out) |
- reserved_varying_slot(consumer, ir_var_shader_in);
-
- const unsigned slots_used = matches.assign_locations(prog, reserved_slots);
+ uint8_t components[MAX_VARYINGS_INCL_PATCH] = {0};
+ const unsigned slots_used = matches.assign_locations(
+ prog, components, reserved_slots);
matches.store_locations();
for (unsigned i = 0; i < num_tfeedback_decls; ++i) {
continue;
if (!tfeedback_decls[i].assign_location(ctx, prog)) {
- hash_table_dtor(tfeedback_candidates);
- hash_table_dtor(consumer_inputs);
- hash_table_dtor(consumer_interface_inputs);
+ _mesa_hash_table_destroy(tfeedback_candidates, NULL);
return false;
}
}
-
- hash_table_dtor(tfeedback_candidates);
- hash_table_dtor(consumer_inputs);
- hash_table_dtor(consumer_interface_inputs);
+ _mesa_hash_table_destroy(tfeedback_candidates, NULL);
if (consumer && producer) {
foreach_in_list(ir_instruction, node, consumer->ir) {
if (var && var->data.mode == ir_var_shader_in &&
var->data.is_unmatched_generic_inout) {
- if (!prog->IsES && prog->Version <= 120) {
+ if (!prog->IsES && prog->data->Version <= 120) {
/* On page 25 (page 31 of the PDF) of the GLSL 1.20 spec:
*
* Only those varying variables used (i.e. read) in
}
if (producer) {
- lower_packed_varyings(mem_ctx, slots_used, ir_var_shader_out,
+ lower_packed_varyings(mem_ctx, slots_used, components, ir_var_shader_out,
0, producer, disable_varying_packing,
xfb_enabled);
}
if (consumer) {
- lower_packed_varyings(mem_ctx, slots_used, ir_var_shader_in,
+ lower_packed_varyings(mem_ctx, slots_used, components, ir_var_shader_in,
consumer_vertices, consumer,
disable_varying_packing, xfb_enabled);
}
bool
check_against_output_limit(struct gl_context *ctx,
struct gl_shader_program *prog,
- gl_shader *producer)
+ gl_linked_shader *producer,
+ unsigned num_explicit_locations)
{
- unsigned output_vectors = 0;
+ unsigned output_vectors = num_explicit_locations;
foreach_in_list(ir_instruction, node, producer->ir) {
ir_variable *const var = node->as_variable();
- if (var && var->data.mode == ir_var_shader_out &&
+ if (var && !var->data.explicit_location &&
+ var->data.mode == ir_var_shader_out &&
var_counts_against_varying_limit(producer->Stage, var)) {
/* outputs for fragment shader can't be doubles */
output_vectors += var->type->count_attribute_slots(false);
bool
check_against_input_limit(struct gl_context *ctx,
struct gl_shader_program *prog,
- gl_shader *consumer)
+ gl_linked_shader *consumer,
+ unsigned num_explicit_locations)
{
- unsigned input_vectors = 0;
+ unsigned input_vectors = num_explicit_locations;
foreach_in_list(ir_instruction, node, consumer->ir) {
ir_variable *const var = node->as_variable();
- if (var && var->data.mode == ir_var_shader_in &&
+ if (var && !var->data.explicit_location &&
+ var->data.mode == ir_var_shader_in &&
var_counts_against_varying_limit(consumer->Stage, var)) {
/* vertex inputs aren't varying counted */
input_vectors += var->type->count_attribute_slots(false);
return true;
}
+
+bool
+link_varyings(struct gl_shader_program *prog, unsigned first, unsigned last,
+ struct gl_context *ctx, void *mem_ctx)
+{
+ bool has_xfb_qualifiers = false;
+ unsigned num_tfeedback_decls = 0;
+ char **varying_names = NULL;
+ tfeedback_decl *tfeedback_decls = NULL;
+
+ /* From the ARB_enhanced_layouts spec:
+ *
+ * "If the shader used to record output variables for transform feedback
+ * varyings uses the "xfb_buffer", "xfb_offset", or "xfb_stride" layout
+ * qualifiers, the values specified by TransformFeedbackVaryings are
+ * ignored, and the set of variables captured for transform feedback is
+ * instead derived from the specified layout qualifiers."
+ */
+ for (int i = MESA_SHADER_FRAGMENT - 1; i >= 0; i--) {
+ /* Find last stage before fragment shader */
+ if (prog->_LinkedShaders[i]) {
+ has_xfb_qualifiers =
+ process_xfb_layout_qualifiers(mem_ctx, prog->_LinkedShaders[i],
+ prog, &num_tfeedback_decls,
+ &varying_names);
+ break;
+ }
+ }
+
+ if (!has_xfb_qualifiers) {
+ num_tfeedback_decls = prog->TransformFeedback.NumVarying;
+ varying_names = prog->TransformFeedback.VaryingNames;
+ }
+
+ if (num_tfeedback_decls != 0) {
+ /* From GL_EXT_transform_feedback:
+ * A program will fail to link if:
+ *
+ * * the <count> specified by TransformFeedbackVaryingsEXT is
+ * non-zero, but the program object has no vertex or geometry
+ * shader;
+ */
+ if (first >= MESA_SHADER_FRAGMENT) {
+ linker_error(prog, "Transform feedback varyings specified, but "
+ "no vertex, tessellation, or geometry shader is "
+ "present.\n");
+ return false;
+ }
+
+ tfeedback_decls = rzalloc_array(mem_ctx, tfeedback_decl,
+ num_tfeedback_decls);
+ if (!parse_tfeedback_decls(ctx, prog, mem_ctx, num_tfeedback_decls,
+ varying_names, tfeedback_decls))
+ return false;
+ }
+
+ /* If there is no fragment shader we need to set transform feedback.
+ *
+ * For SSO we also need to assign output locations. We assign them here
+ * because we need to do it for both single stage programs and multi stage
+ * programs.
+ */
+ if (last < MESA_SHADER_FRAGMENT &&
+ (num_tfeedback_decls != 0 || prog->SeparateShader)) {
+ const uint64_t reserved_out_slots =
+ reserved_varying_slot(prog->_LinkedShaders[last], ir_var_shader_out);
+ if (!assign_varying_locations(ctx, mem_ctx, prog,
+ prog->_LinkedShaders[last], NULL,
+ num_tfeedback_decls, tfeedback_decls,
+ reserved_out_slots))
+ return false;
+ }
+
+ if (last <= MESA_SHADER_FRAGMENT) {
+ /* Remove unused varyings from the first/last stage unless SSO */
+ remove_unused_shader_inputs_and_outputs(prog->SeparateShader,
+ prog->_LinkedShaders[first],
+ ir_var_shader_in);
+ remove_unused_shader_inputs_and_outputs(prog->SeparateShader,
+ prog->_LinkedShaders[last],
+ ir_var_shader_out);
+
+ /* If the program is made up of only a single stage */
+ if (first == last) {
+ gl_linked_shader *const sh = prog->_LinkedShaders[last];
+
+ do_dead_builtin_varyings(ctx, NULL, sh, 0, NULL);
+ do_dead_builtin_varyings(ctx, sh, NULL, num_tfeedback_decls,
+ tfeedback_decls);
+
+ if (prog->SeparateShader) {
+ const uint64_t reserved_slots =
+ reserved_varying_slot(sh, ir_var_shader_in);
+
+ /* Assign input locations for SSO, output locations are already
+ * assigned.
+ */
+ if (!assign_varying_locations(ctx, mem_ctx, prog,
+ NULL /* producer */,
+ sh /* consumer */,
+ 0 /* num_tfeedback_decls */,
+ NULL /* tfeedback_decls */,
+ reserved_slots))
+ return false;
+ }
+ } else {
+ /* Linking the stages in the opposite order (from fragment to vertex)
+ * ensures that inter-shader outputs written to in an earlier stage
+ * are eliminated if they are (transitively) not used in a later
+ * stage.
+ */
+ int next = last;
+ for (int i = next - 1; i >= 0; i--) {
+ if (prog->_LinkedShaders[i] == NULL && i != 0)
+ continue;
+
+ gl_linked_shader *const sh_i = prog->_LinkedShaders[i];
+ gl_linked_shader *const sh_next = prog->_LinkedShaders[next];
+
+ const uint64_t reserved_out_slots =
+ reserved_varying_slot(sh_i, ir_var_shader_out);
+ const uint64_t reserved_in_slots =
+ reserved_varying_slot(sh_next, ir_var_shader_in);
+
+ do_dead_builtin_varyings(ctx, sh_i, sh_next,
+ next == MESA_SHADER_FRAGMENT ? num_tfeedback_decls : 0,
+ tfeedback_decls);
+
+ if (!assign_varying_locations(ctx, mem_ctx, prog, sh_i, sh_next,
+ next == MESA_SHADER_FRAGMENT ? num_tfeedback_decls : 0,
+ tfeedback_decls,
+ reserved_out_slots | reserved_in_slots))
+ return false;
+
+ /* This must be done after all dead varyings are eliminated. */
+ if (sh_i != NULL) {
+ unsigned slots_used = _mesa_bitcount_64(reserved_out_slots);
+ if (!check_against_output_limit(ctx, prog, sh_i, slots_used)) {
+ return false;
+ }
+ }
+
+ unsigned slots_used = _mesa_bitcount_64(reserved_in_slots);
+ if (!check_against_input_limit(ctx, prog, sh_next, slots_used))
+ return false;
+
+ next = i;
+ }
+ }
+ }
+
+ if (!store_tfeedback_info(ctx, prog, num_tfeedback_decls, tfeedback_decls,
+ has_xfb_qualifiers))
+ return false;
+
+ return true;
+}