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|
/*
* Copyright © 2015 Intel Corporation
*
* 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 (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 NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS 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.
*
* Authors:
* Jason Ekstrand (jason@jlekstrand.net)
*
*/
#include "vtn_private.h"
#include "spirv_info.h"
#include "nir_deref.h"
#include <vulkan/vulkan_core.h>
static void ptr_decoration_cb(struct vtn_builder *b,
struct vtn_value *val, int member,
const struct vtn_decoration *dec,
void *void_ptr);
struct vtn_value *
vtn_push_value_pointer(struct vtn_builder *b, uint32_t value_id,
struct vtn_pointer *ptr)
{
struct vtn_value *val = vtn_push_value(b, value_id, vtn_value_type_pointer);
val->pointer = ptr;
vtn_foreach_decoration(b, val, ptr_decoration_cb, ptr);
return val;
}
static void
ssa_decoration_cb(struct vtn_builder *b, struct vtn_value *val, int member,
const struct vtn_decoration *dec, void *void_ssa)
{
struct vtn_ssa_value *ssa = void_ssa;
switch (dec->decoration) {
case SpvDecorationNonUniformEXT:
ssa->access |= ACCESS_NON_UNIFORM;
break;
default:
break;
}
}
struct vtn_value *
vtn_push_ssa(struct vtn_builder *b, uint32_t value_id,
struct vtn_type *type, struct vtn_ssa_value *ssa)
{
struct vtn_value *val;
if (type->base_type == vtn_base_type_pointer) {
val = vtn_push_value_pointer(b, value_id, vtn_pointer_from_ssa(b, ssa->def, type));
} else {
val = vtn_push_value(b, value_id, vtn_value_type_ssa);
val->ssa = ssa;
vtn_foreach_decoration(b, val, ssa_decoration_cb, val->ssa);
}
return val;
}
static struct vtn_access_chain *
vtn_access_chain_create(struct vtn_builder *b, unsigned length)
{
struct vtn_access_chain *chain;
/* Subtract 1 from the length since there's already one built in */
size_t size = sizeof(*chain) +
(MAX2(length, 1) - 1) * sizeof(chain->link[0]);
chain = rzalloc_size(b, size);
chain->length = length;
return chain;
}
bool
vtn_mode_uses_ssa_offset(struct vtn_builder *b,
enum vtn_variable_mode mode)
{
return ((mode == vtn_variable_mode_ubo ||
mode == vtn_variable_mode_ssbo) &&
b->options->lower_ubo_ssbo_access_to_offsets) ||
mode == vtn_variable_mode_push_constant;
}
static bool
vtn_pointer_is_external_block(struct vtn_builder *b,
struct vtn_pointer *ptr)
{
return ptr->mode == vtn_variable_mode_ssbo ||
ptr->mode == vtn_variable_mode_ubo ||
ptr->mode == vtn_variable_mode_phys_ssbo ||
ptr->mode == vtn_variable_mode_push_constant;
}
static nir_ssa_def *
vtn_access_link_as_ssa(struct vtn_builder *b, struct vtn_access_link link,
unsigned stride, unsigned bit_size)
{
vtn_assert(stride > 0);
if (link.mode == vtn_access_mode_literal) {
return nir_imm_intN_t(&b->nb, link.id * stride, bit_size);
} else {
nir_ssa_def *ssa = vtn_ssa_value(b, link.id)->def;
if (ssa->bit_size != bit_size)
ssa = nir_i2i(&b->nb, ssa, bit_size);
return nir_imul_imm(&b->nb, ssa, stride);
}
}
static VkDescriptorType
vk_desc_type_for_mode(struct vtn_builder *b, enum vtn_variable_mode mode)
{
switch (mode) {
case vtn_variable_mode_ubo:
return VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER;
case vtn_variable_mode_ssbo:
return VK_DESCRIPTOR_TYPE_STORAGE_BUFFER;
default:
vtn_fail("Invalid mode for vulkan_resource_index");
}
}
static nir_ssa_def *
vtn_variable_resource_index(struct vtn_builder *b, struct vtn_variable *var,
nir_ssa_def *desc_array_index)
{
vtn_assert(b->options->environment == NIR_SPIRV_VULKAN);
if (!desc_array_index) {
vtn_assert(glsl_type_is_struct_or_ifc(var->type->type));
desc_array_index = nir_imm_int(&b->nb, 0);
}
nir_intrinsic_instr *instr =
nir_intrinsic_instr_create(b->nb.shader,
nir_intrinsic_vulkan_resource_index);
instr->src[0] = nir_src_for_ssa(desc_array_index);
nir_intrinsic_set_desc_set(instr, var->descriptor_set);
nir_intrinsic_set_binding(instr, var->binding);
nir_intrinsic_set_desc_type(instr, vk_desc_type_for_mode(b, var->mode));
vtn_fail_if(var->mode != vtn_variable_mode_ubo &&
var->mode != vtn_variable_mode_ssbo,
"Invalid mode for vulkan_resource_index");
nir_address_format addr_format = vtn_mode_to_address_format(b, var->mode);
const struct glsl_type *index_type =
b->options->lower_ubo_ssbo_access_to_offsets ?
glsl_uint_type() : nir_address_format_to_glsl_type(addr_format);
instr->num_components = glsl_get_vector_elements(index_type);
nir_ssa_dest_init(&instr->instr, &instr->dest, instr->num_components,
glsl_get_bit_size(index_type), NULL);
nir_builder_instr_insert(&b->nb, &instr->instr);
return &instr->dest.ssa;
}
static nir_ssa_def *
vtn_resource_reindex(struct vtn_builder *b, enum vtn_variable_mode mode,
nir_ssa_def *base_index, nir_ssa_def *offset_index)
{
vtn_assert(b->options->environment == NIR_SPIRV_VULKAN);
nir_intrinsic_instr *instr =
nir_intrinsic_instr_create(b->nb.shader,
nir_intrinsic_vulkan_resource_reindex);
instr->src[0] = nir_src_for_ssa(base_index);
instr->src[1] = nir_src_for_ssa(offset_index);
nir_intrinsic_set_desc_type(instr, vk_desc_type_for_mode(b, mode));
vtn_fail_if(mode != vtn_variable_mode_ubo && mode != vtn_variable_mode_ssbo,
"Invalid mode for vulkan_resource_reindex");
nir_address_format addr_format = vtn_mode_to_address_format(b, mode);
const struct glsl_type *index_type =
b->options->lower_ubo_ssbo_access_to_offsets ?
glsl_uint_type() : nir_address_format_to_glsl_type(addr_format);
instr->num_components = glsl_get_vector_elements(index_type);
nir_ssa_dest_init(&instr->instr, &instr->dest, instr->num_components,
glsl_get_bit_size(index_type), NULL);
nir_builder_instr_insert(&b->nb, &instr->instr);
return &instr->dest.ssa;
}
static nir_ssa_def *
vtn_descriptor_load(struct vtn_builder *b, enum vtn_variable_mode mode,
nir_ssa_def *desc_index)
{
vtn_assert(b->options->environment == NIR_SPIRV_VULKAN);
nir_intrinsic_instr *desc_load =
nir_intrinsic_instr_create(b->nb.shader,
nir_intrinsic_load_vulkan_descriptor);
desc_load->src[0] = nir_src_for_ssa(desc_index);
nir_intrinsic_set_desc_type(desc_load, vk_desc_type_for_mode(b, mode));
vtn_fail_if(mode != vtn_variable_mode_ubo && mode != vtn_variable_mode_ssbo,
"Invalid mode for load_vulkan_descriptor");
nir_address_format addr_format = vtn_mode_to_address_format(b, mode);
const struct glsl_type *ptr_type =
nir_address_format_to_glsl_type(addr_format);
desc_load->num_components = glsl_get_vector_elements(ptr_type);
nir_ssa_dest_init(&desc_load->instr, &desc_load->dest,
desc_load->num_components,
glsl_get_bit_size(ptr_type), NULL);
nir_builder_instr_insert(&b->nb, &desc_load->instr);
return &desc_load->dest.ssa;
}
/* Dereference the given base pointer by the access chain */
static struct vtn_pointer *
vtn_nir_deref_pointer_dereference(struct vtn_builder *b,
struct vtn_pointer *base,
struct vtn_access_chain *deref_chain)
{
struct vtn_type *type = base->type;
enum gl_access_qualifier access = base->access | deref_chain->access;
unsigned idx = 0;
nir_deref_instr *tail;
if (base->deref) {
tail = base->deref;
} else if (b->options->environment == NIR_SPIRV_VULKAN &&
vtn_pointer_is_external_block(b, base)) {
nir_ssa_def *block_index = base->block_index;
/* We dereferencing an external block pointer. Correctness of this
* operation relies on one particular line in the SPIR-V spec, section
* entitled "Validation Rules for Shader Capabilities":
*
* "Block and BufferBlock decorations cannot decorate a structure
* type that is nested at any level inside another structure type
* decorated with Block or BufferBlock."
*
* This means that we can detect the point where we cross over from
* descriptor indexing to buffer indexing by looking for the block
* decorated struct type. Anything before the block decorated struct
* type is a descriptor indexing operation and anything after the block
* decorated struct is a buffer offset operation.
*/
/* Figure out the descriptor array index if any
*
* Some of the Vulkan CTS tests with hand-rolled SPIR-V have been known
* to forget the Block or BufferBlock decoration from time to time.
* It's more robust if we check for both !block_index and for the type
* to contain a block. This way there's a decent chance that arrays of
* UBOs/SSBOs will work correctly even if variable pointers are
* completley toast.
*/
nir_ssa_def *desc_arr_idx = NULL;
if (!block_index || vtn_type_contains_block(b, type)) {
/* If our type contains a block, then we're still outside the block
* and we need to process enough levels of dereferences to get inside
* of it.
*/
if (deref_chain->ptr_as_array) {
unsigned aoa_size = glsl_get_aoa_size(type->type);
desc_arr_idx = vtn_access_link_as_ssa(b, deref_chain->link[idx],
MAX2(aoa_size, 1), 32);
idx++;
}
for (; idx < deref_chain->length; idx++) {
if (type->base_type != vtn_base_type_array) {
vtn_assert(type->base_type == vtn_base_type_struct);
break;
}
unsigned aoa_size = glsl_get_aoa_size(type->array_element->type);
nir_ssa_def *arr_offset =
vtn_access_link_as_ssa(b, deref_chain->link[idx],
MAX2(aoa_size, 1), 32);
if (desc_arr_idx)
desc_arr_idx = nir_iadd(&b->nb, desc_arr_idx, arr_offset);
else
desc_arr_idx = arr_offset;
type = type->array_element;
access |= type->access;
}
}
if (!block_index) {
vtn_assert(base->var && base->type);
block_index = vtn_variable_resource_index(b, base->var, desc_arr_idx);
} else if (desc_arr_idx) {
block_index = vtn_resource_reindex(b, base->mode,
block_index, desc_arr_idx);
}
if (idx == deref_chain->length) {
/* The entire deref was consumed in finding the block index. Return
* a pointer which just has a block index and a later access chain
* will dereference deeper.
*/
struct vtn_pointer *ptr = rzalloc(b, struct vtn_pointer);
ptr->mode = base->mode;
ptr->type = type;
ptr->block_index = block_index;
ptr->access = access;
return ptr;
}
/* If we got here, there's more access chain to handle and we have the
* final block index. Insert a descriptor load and cast to a deref to
* start the deref chain.
*/
nir_ssa_def *desc = vtn_descriptor_load(b, base->mode, block_index);
assert(base->mode == vtn_variable_mode_ssbo ||
base->mode == vtn_variable_mode_ubo);
nir_variable_mode nir_mode =
base->mode == vtn_variable_mode_ssbo ? nir_var_mem_ssbo : nir_var_mem_ubo;
tail = nir_build_deref_cast(&b->nb, desc, nir_mode, type->type,
base->ptr_type->stride);
} else {
assert(base->var && base->var->var);
tail = nir_build_deref_var(&b->nb, base->var->var);
if (base->ptr_type && base->ptr_type->type) {
tail->dest.ssa.num_components =
glsl_get_vector_elements(base->ptr_type->type);
tail->dest.ssa.bit_size = glsl_get_bit_size(base->ptr_type->type);
}
}
if (idx == 0 && deref_chain->ptr_as_array) {
/* We start with a deref cast to get the stride. Hopefully, we'll be
* able to delete that cast eventually.
*/
tail = nir_build_deref_cast(&b->nb, &tail->dest.ssa, tail->mode,
tail->type, base->ptr_type->stride);
nir_ssa_def *index = vtn_access_link_as_ssa(b, deref_chain->link[0], 1,
tail->dest.ssa.bit_size);
tail = nir_build_deref_ptr_as_array(&b->nb, tail, index);
idx++;
}
for (; idx < deref_chain->length; idx++) {
if (glsl_type_is_struct_or_ifc(type->type)) {
vtn_assert(deref_chain->link[idx].mode == vtn_access_mode_literal);
unsigned field = deref_chain->link[idx].id;
tail = nir_build_deref_struct(&b->nb, tail, field);
type = type->members[field];
} else {
nir_ssa_def *arr_index =
vtn_access_link_as_ssa(b, deref_chain->link[idx], 1,
tail->dest.ssa.bit_size);
tail = nir_build_deref_array(&b->nb, tail, arr_index);
type = type->array_element;
}
access |= type->access;
}
struct vtn_pointer *ptr = rzalloc(b, struct vtn_pointer);
ptr->mode = base->mode;
ptr->type = type;
ptr->var = base->var;
ptr->deref = tail;
ptr->access = access;
return ptr;
}
static struct vtn_pointer *
vtn_ssa_offset_pointer_dereference(struct vtn_builder *b,
struct vtn_pointer *base,
struct vtn_access_chain *deref_chain)
{
nir_ssa_def *block_index = base->block_index;
nir_ssa_def *offset = base->offset;
struct vtn_type *type = base->type;
enum gl_access_qualifier access = base->access;
unsigned idx = 0;
if (base->mode == vtn_variable_mode_ubo ||
base->mode == vtn_variable_mode_ssbo) {
if (!block_index) {
vtn_assert(base->var && base->type);
nir_ssa_def *desc_arr_idx;
if (glsl_type_is_array(type->type)) {
if (deref_chain->length >= 1) {
desc_arr_idx =
vtn_access_link_as_ssa(b, deref_chain->link[0], 1, 32);
idx++;
/* This consumes a level of type */
type = type->array_element;
access |= type->access;
} else {
/* This is annoying. We've been asked for a pointer to the
* array of UBOs/SSBOs and not a specifc buffer. Return a
* pointer with a descriptor index of 0 and we'll have to do
* a reindex later to adjust it to the right thing.
*/
desc_arr_idx = nir_imm_int(&b->nb, 0);
}
} else if (deref_chain->ptr_as_array) {
/* You can't have a zero-length OpPtrAccessChain */
vtn_assert(deref_chain->length >= 1);
desc_arr_idx = vtn_access_link_as_ssa(b, deref_chain->link[0], 1, 32);
} else {
/* We have a regular non-array SSBO. */
desc_arr_idx = NULL;
}
block_index = vtn_variable_resource_index(b, base->var, desc_arr_idx);
} else if (deref_chain->ptr_as_array &&
type->base_type == vtn_base_type_struct && type->block) {
/* We are doing an OpPtrAccessChain on a pointer to a struct that is
* decorated block. This is an interesting corner in the SPIR-V
* spec. One interpretation would be that they client is clearly
* trying to treat that block as if it's an implicit array of blocks
* repeated in the buffer. However, the SPIR-V spec for the
* OpPtrAccessChain says:
*
* "Base is treated as the address of the first element of an
* array, and the Element element’s address is computed to be the
* base for the Indexes, as per OpAccessChain."
*
* Taken literally, that would mean that your struct type is supposed
* to be treated as an array of such a struct and, since it's
* decorated block, that means an array of blocks which corresponds
* to an array descriptor. Therefore, we need to do a reindex
* operation to add the index from the first link in the access chain
* to the index we recieved.
*
* The downside to this interpretation (there always is one) is that
* this might be somewhat surprising behavior to apps if they expect
* the implicit array behavior described above.
*/
vtn_assert(deref_chain->length >= 1);
nir_ssa_def *offset_index =
vtn_access_link_as_ssa(b, deref_chain->link[0], 1, 32);
idx++;
block_index = vtn_resource_reindex(b, base->mode,
block_index, offset_index);
}
}
if (!offset) {
if (base->mode == vtn_variable_mode_workgroup) {
/* SLM doesn't need nor have a block index */
vtn_assert(!block_index);
/* We need the variable for the base offset */
vtn_assert(base->var);
/* We need ptr_type for size and alignment */
vtn_assert(base->ptr_type);
/* Assign location on first use so that we don't end up bloating SLM
* address space for variables which are never statically used.
*/
if (base->var->shared_location < 0) {
vtn_assert(base->ptr_type->length > 0 && base->ptr_type->align > 0);
b->shader->num_shared = vtn_align_u32(b->shader->num_shared,
base->ptr_type->align);
base->var->shared_location = b->shader->num_shared;
b->shader->num_shared += base->ptr_type->length;
}
offset = nir_imm_int(&b->nb, base->var->shared_location);
} else if (base->mode == vtn_variable_mode_push_constant) {
/* Push constants neither need nor have a block index */
vtn_assert(!block_index);
/* Start off with at the start of the push constant block. */
offset = nir_imm_int(&b->nb, 0);
} else {
/* The code above should have ensured a block_index when needed. */
vtn_assert(block_index);
/* Start off with at the start of the buffer. */
offset = nir_imm_int(&b->nb, 0);
}
}
if (deref_chain->ptr_as_array && idx == 0) {
/* We need ptr_type for the stride */
vtn_assert(base->ptr_type);
/* We need at least one element in the chain */
vtn_assert(deref_chain->length >= 1);
nir_ssa_def *elem_offset =
vtn_access_link_as_ssa(b, deref_chain->link[idx],
base->ptr_type->stride, offset->bit_size);
offset = nir_iadd(&b->nb, offset, elem_offset);
idx++;
}
for (; idx < deref_chain->length; idx++) {
switch (glsl_get_base_type(type->type)) {
case GLSL_TYPE_UINT:
case GLSL_TYPE_INT:
case GLSL_TYPE_UINT16:
case GLSL_TYPE_INT16:
case GLSL_TYPE_UINT8:
case GLSL_TYPE_INT8:
case GLSL_TYPE_UINT64:
case GLSL_TYPE_INT64:
case GLSL_TYPE_FLOAT:
case GLSL_TYPE_FLOAT16:
case GLSL_TYPE_DOUBLE:
case GLSL_TYPE_BOOL:
case GLSL_TYPE_ARRAY: {
nir_ssa_def *elem_offset =
vtn_access_link_as_ssa(b, deref_chain->link[idx],
type->stride, offset->bit_size);
offset = nir_iadd(&b->nb, offset, elem_offset);
type = type->array_element;
access |= type->access;
break;
}
case GLSL_TYPE_INTERFACE:
case GLSL_TYPE_STRUCT: {
vtn_assert(deref_chain->link[idx].mode == vtn_access_mode_literal);
unsigned member = deref_chain->link[idx].id;
offset = nir_iadd_imm(&b->nb, offset, type->offsets[member]);
type = type->members[member];
access |= type->access;
break;
}
default:
vtn_fail("Invalid type for deref");
}
}
struct vtn_pointer *ptr = rzalloc(b, struct vtn_pointer);
ptr->mode = base->mode;
ptr->type = type;
ptr->block_index = block_index;
ptr->offset = offset;
ptr->access = access;
return ptr;
}
/* Dereference the given base pointer by the access chain */
static struct vtn_pointer *
vtn_pointer_dereference(struct vtn_builder *b,
struct vtn_pointer *base,
struct vtn_access_chain *deref_chain)
{
if (vtn_pointer_uses_ssa_offset(b, base)) {
return vtn_ssa_offset_pointer_dereference(b, base, deref_chain);
} else {
return vtn_nir_deref_pointer_dereference(b, base, deref_chain);
}
}
struct vtn_pointer *
vtn_pointer_for_variable(struct vtn_builder *b,
struct vtn_variable *var, struct vtn_type *ptr_type)
{
struct vtn_pointer *pointer = rzalloc(b, struct vtn_pointer);
pointer->mode = var->mode;
pointer->type = var->type;
vtn_assert(ptr_type->base_type == vtn_base_type_pointer);
vtn_assert(ptr_type->deref->type == var->type->type);
pointer->ptr_type = ptr_type;
pointer->var = var;
pointer->access = var->access | var->type->access;
return pointer;
}
/* Returns an atomic_uint type based on the original uint type. The returned
* type will be equivalent to the original one but will have an atomic_uint
* type as leaf instead of an uint.
*
* Manages uint scalars, arrays, and arrays of arrays of any nested depth.
*/
static const struct glsl_type *
repair_atomic_type(const struct glsl_type *type)
{
assert(glsl_get_base_type(glsl_without_array(type)) == GLSL_TYPE_UINT);
assert(glsl_type_is_scalar(glsl_without_array(type)));
if (glsl_type_is_array(type)) {
const struct glsl_type *atomic =
repair_atomic_type(glsl_get_array_element(type));
return glsl_array_type(atomic, glsl_get_length(type),
glsl_get_explicit_stride(type));
} else {
return glsl_atomic_uint_type();
}
}
nir_deref_instr *
vtn_pointer_to_deref(struct vtn_builder *b, struct vtn_pointer *ptr)
{
if (b->wa_glslang_179) {
/* Do on-the-fly copy propagation for samplers. */
if (ptr->var && ptr->var->copy_prop_sampler)
return vtn_pointer_to_deref(b, ptr->var->copy_prop_sampler);
}
vtn_assert(!vtn_pointer_uses_ssa_offset(b, ptr));
if (!ptr->deref) {
struct vtn_access_chain chain = {
.length = 0,
};
ptr = vtn_nir_deref_pointer_dereference(b, ptr, &chain);
}
return ptr->deref;
}
static void
_vtn_local_load_store(struct vtn_builder *b, bool load, nir_deref_instr *deref,
struct vtn_ssa_value *inout,
enum gl_access_qualifier access)
{
if (glsl_type_is_vector_or_scalar(deref->type)) {
if (load) {
inout->def = nir_load_deref_with_access(&b->nb, deref, access);
} else {
nir_store_deref_with_access(&b->nb, deref, inout->def, ~0, access);
}
} else if (glsl_type_is_array(deref->type) ||
glsl_type_is_matrix(deref->type)) {
unsigned elems = glsl_get_length(deref->type);
for (unsigned i = 0; i < elems; i++) {
nir_deref_instr *child =
nir_build_deref_array_imm(&b->nb, deref, i);
_vtn_local_load_store(b, load, child, inout->elems[i], access);
}
} else {
vtn_assert(glsl_type_is_struct_or_ifc(deref->type));
unsigned elems = glsl_get_length(deref->type);
for (unsigned i = 0; i < elems; i++) {
nir_deref_instr *child = nir_build_deref_struct(&b->nb, deref, i);
_vtn_local_load_store(b, load, child, inout->elems[i], access);
}
}
}
nir_deref_instr *
vtn_nir_deref(struct vtn_builder *b, uint32_t id)
{
struct vtn_pointer *ptr = vtn_value(b, id, vtn_value_type_pointer)->pointer;
return vtn_pointer_to_deref(b, ptr);
}
/*
* Gets the NIR-level deref tail, which may have as a child an array deref
* selecting which component due to OpAccessChain supporting per-component
* indexing in SPIR-V.
*/
static nir_deref_instr *
get_deref_tail(nir_deref_instr *deref)
{
if (deref->deref_type != nir_deref_type_array)
return deref;
nir_deref_instr *parent =
nir_instr_as_deref(deref->parent.ssa->parent_instr);
if (glsl_type_is_vector(parent->type))
return parent;
else
return deref;
}
struct vtn_ssa_value *
vtn_local_load(struct vtn_builder *b, nir_deref_instr *src,
enum gl_access_qualifier access)
{
nir_deref_instr *src_tail = get_deref_tail(src);
struct vtn_ssa_value *val = vtn_create_ssa_value(b, src_tail->type);
_vtn_local_load_store(b, true, src_tail, val, access);
if (src_tail != src) {
val->type = src->type;
if (nir_src_is_const(src->arr.index))
val->def = vtn_vector_extract(b, val->def,
nir_src_as_uint(src->arr.index));
else
val->def = vtn_vector_extract_dynamic(b, val->def, src->arr.index.ssa);
}
return val;
}
void
vtn_local_store(struct vtn_builder *b, struct vtn_ssa_value *src,
nir_deref_instr *dest, enum gl_access_qualifier access)
{
nir_deref_instr *dest_tail = get_deref_tail(dest);
if (dest_tail != dest) {
struct vtn_ssa_value *val = vtn_create_ssa_value(b, dest_tail->type);
_vtn_local_load_store(b, true, dest_tail, val, access);
if (nir_src_is_const(dest->arr.index))
val->def = vtn_vector_insert(b, val->def, src->def,
nir_src_as_uint(dest->arr.index));
else
val->def = vtn_vector_insert_dynamic(b, val->def, src->def,
dest->arr.index.ssa);
_vtn_local_load_store(b, false, dest_tail, val, access);
} else {
_vtn_local_load_store(b, false, dest_tail, src, access);
}
}
nir_ssa_def *
vtn_pointer_to_offset(struct vtn_builder *b, struct vtn_pointer *ptr,
nir_ssa_def **index_out)
{
assert(vtn_pointer_uses_ssa_offset(b, ptr));
if (!ptr->offset) {
struct vtn_access_chain chain = {
.length = 0,
};
ptr = vtn_ssa_offset_pointer_dereference(b, ptr, &chain);
}
*index_out = ptr->block_index;
return ptr->offset;
}
/* Tries to compute the size of an interface block based on the strides and
* offsets that are provided to us in the SPIR-V source.
*/
static unsigned
vtn_type_block_size(struct vtn_builder *b, struct vtn_type *type)
{
enum glsl_base_type base_type = glsl_get_base_type(type->type);
switch (base_type) {
case GLSL_TYPE_UINT:
case GLSL_TYPE_INT:
case GLSL_TYPE_UINT16:
case GLSL_TYPE_INT16:
case GLSL_TYPE_UINT8:
case GLSL_TYPE_INT8:
case GLSL_TYPE_UINT64:
case GLSL_TYPE_INT64:
case GLSL_TYPE_FLOAT:
case GLSL_TYPE_FLOAT16:
case GLSL_TYPE_BOOL:
case GLSL_TYPE_DOUBLE: {
unsigned cols = type->row_major ? glsl_get_vector_elements(type->type) :
glsl_get_matrix_columns(type->type);
if (cols > 1) {
vtn_assert(type->stride > 0);
return type->stride * cols;
} else {
unsigned type_size = glsl_get_bit_size(type->type) / 8;
return glsl_get_vector_elements(type->type) * type_size;
}
}
case GLSL_TYPE_STRUCT:
case GLSL_TYPE_INTERFACE: {
unsigned size = 0;
unsigned num_fields = glsl_get_length(type->type);
for (unsigned f = 0; f < num_fields; f++) {
unsigned field_end = type->offsets[f] +
vtn_type_block_size(b, type->members[f]);
size = MAX2(size, field_end);
}
return size;
}
case GLSL_TYPE_ARRAY:
vtn_assert(type->stride > 0);
vtn_assert(glsl_get_length(type->type) > 0);
return type->stride * glsl_get_length(type->type);
default:
vtn_fail("Invalid block type");
return 0;
}
}
static void
_vtn_load_store_tail(struct vtn_builder *b, nir_intrinsic_op op, bool load,
nir_ssa_def *index, nir_ssa_def *offset,
unsigned access_offset, unsigned access_size,
struct vtn_ssa_value **inout, const struct glsl_type *type,
enum gl_access_qualifier access)
{
nir_intrinsic_instr *instr = nir_intrinsic_instr_create(b->nb.shader, op);
instr->num_components = glsl_get_vector_elements(type);
/* Booleans usually shouldn't show up in external memory in SPIR-V.
* However, they do for certain older GLSLang versions and can for shared
* memory when we lower access chains internally.
*/
const unsigned data_bit_size = glsl_type_is_boolean(type) ? 32 :
glsl_get_bit_size(type);
int src = 0;
if (!load) {
nir_intrinsic_set_write_mask(instr, (1 << instr->num_components) - 1);
instr->src[src++] = nir_src_for_ssa((*inout)->def);
}
if (op == nir_intrinsic_load_push_constant) {
nir_intrinsic_set_base(instr, access_offset);
nir_intrinsic_set_range(instr, access_size);
}
if (op == nir_intrinsic_load_ubo ||
op == nir_intrinsic_load_ssbo ||
op == nir_intrinsic_store_ssbo) {
nir_intrinsic_set_access(instr, access);
}
/* With extensions like relaxed_block_layout, we really can't guarantee
* much more than scalar alignment.
*/
if (op != nir_intrinsic_load_push_constant)
nir_intrinsic_set_align(instr, data_bit_size / 8, 0);
if (index)
instr->src[src++] = nir_src_for_ssa(index);
if (op == nir_intrinsic_load_push_constant) {
/* We need to subtract the offset from where the intrinsic will load the
* data. */
instr->src[src++] =
nir_src_for_ssa(nir_isub(&b->nb, offset,
nir_imm_int(&b->nb, access_offset)));
} else {
instr->src[src++] = nir_src_for_ssa(offset);
}
if (load) {
nir_ssa_dest_init(&instr->instr, &instr->dest,
instr->num_components, data_bit_size, NULL);
(*inout)->def = &instr->dest.ssa;
}
nir_builder_instr_insert(&b->nb, &instr->instr);
if (load && glsl_get_base_type(type) == GLSL_TYPE_BOOL)
(*inout)->def = nir_ine(&b->nb, (*inout)->def, nir_imm_int(&b->nb, 0));
}
static void
_vtn_block_load_store(struct vtn_builder *b, nir_intrinsic_op op, bool load,
nir_ssa_def *index, nir_ssa_def *offset,
unsigned access_offset, unsigned access_size,
struct vtn_type *type, enum gl_access_qualifier access,
struct vtn_ssa_value **inout)
{
if (load && *inout == NULL)
*inout = vtn_create_ssa_value(b, type->type);
enum glsl_base_type base_type = glsl_get_base_type(type->type);
switch (base_type) {
case GLSL_TYPE_UINT:
case GLSL_TYPE_INT:
case GLSL_TYPE_UINT16:
case GLSL_TYPE_INT16:
case GLSL_TYPE_UINT8:
case GLSL_TYPE_INT8:
case GLSL_TYPE_UINT64:
case GLSL_TYPE_INT64:
case GLSL_TYPE_FLOAT:
case GLSL_TYPE_FLOAT16:
case GLSL_TYPE_DOUBLE:
case GLSL_TYPE_BOOL:
/* This is where things get interesting. At this point, we've hit
* a vector, a scalar, or a matrix.
*/
if (glsl_type_is_matrix(type->type)) {
/* Loading the whole matrix */
struct vtn_ssa_value *transpose;
unsigned num_ops, vec_width, col_stride;
if (type->row_major) {
num_ops = glsl_get_vector_elements(type->type);
vec_width = glsl_get_matrix_columns(type->type);
col_stride = type->array_element->stride;
if (load) {
const struct glsl_type *transpose_type =
glsl_matrix_type(base_type, vec_width, num_ops);
*inout = vtn_create_ssa_value(b, transpose_type);
} else {
transpose = vtn_ssa_transpose(b, *inout);
inout = &transpose;
}
} else {
num_ops = glsl_get_matrix_columns(type->type);
vec_width = glsl_get_vector_elements(type->type);
col_stride = type->stride;
}
for (unsigned i = 0; i < num_ops; i++) {
nir_ssa_def *elem_offset =
nir_iadd_imm(&b->nb, offset, i * col_stride);
_vtn_load_store_tail(b, op, load, index, elem_offset,
access_offset, access_size,
&(*inout)->elems[i],
glsl_vector_type(base_type, vec_width),
type->access | access);
}
if (load && type->row_major)
*inout = vtn_ssa_transpose(b, *inout);
} else {
unsigned elems = glsl_get_vector_elements(type->type);
unsigned type_size = glsl_get_bit_size(type->type) / 8;
if (elems == 1 || type->stride == type_size) {
/* This is a tightly-packed normal scalar or vector load */
vtn_assert(glsl_type_is_vector_or_scalar(type->type));
_vtn_load_store_tail(b, op, load, index, offset,
access_offset, access_size,
inout, type->type,
type->access | access);
} else {
/* This is a strided load. We have to load N things separately.
* This is the single column of a row-major matrix case.
*/
vtn_assert(type->stride > type_size);
vtn_assert(type->stride % type_size == 0);
nir_ssa_def *per_comp[4];
for (unsigned i = 0; i < elems; i++) {
nir_ssa_def *elem_offset =
nir_iadd_imm(&b->nb, offset, i * type->stride);
struct vtn_ssa_value *comp, temp_val;
if (!load) {
temp_val.def = nir_channel(&b->nb, (*inout)->def, i);
temp_val.type = glsl_scalar_type(base_type);
}
comp = &temp_val;
_vtn_load_store_tail(b, op, load, index, elem_offset,
access_offset, access_size,
&comp, glsl_scalar_type(base_type),
type->access | access);
per_comp[i] = comp->def;
}
if (load) {
if (*inout == NULL)
*inout = vtn_create_ssa_value(b, type->type);
(*inout)->def = nir_vec(&b->nb, per_comp, elems);
}
}
}
return;
case GLSL_TYPE_ARRAY: {
unsigned elems = glsl_get_length(type->type);
for (unsigned i = 0; i < elems; i++) {
nir_ssa_def *elem_off =
nir_iadd_imm(&b->nb, offset, i * type->stride);
_vtn_block_load_store(b, op, load, index, elem_off,
access_offset, access_size,
type->array_element,
type->array_element->access | access,
&(*inout)->elems[i]);
}
return;
}
case GLSL_TYPE_INTERFACE:
case GLSL_TYPE_STRUCT: {
unsigned elems = glsl_get_length(type->type);
for (unsigned i = 0; i < elems; i++) {
nir_ssa_def *elem_off =
nir_iadd_imm(&b->nb, offset, type->offsets[i]);
_vtn_block_load_store(b, op, load, index, elem_off,
access_offset, access_size,
type->members[i],
type->members[i]->access | access,
&(*inout)->elems[i]);
}
return;
}
default:
vtn_fail("Invalid block member type");
}
}
static struct vtn_ssa_value *
vtn_block_load(struct vtn_builder *b, struct vtn_pointer *src)
{
nir_intrinsic_op op;
unsigned access_offset = 0, access_size = 0;
switch (src->mode) {
case vtn_variable_mode_ubo:
op = nir_intrinsic_load_ubo;
break;
case vtn_variable_mode_ssbo:
op = nir_intrinsic_load_ssbo;
break;
case vtn_variable_mode_push_constant:
op = nir_intrinsic_load_push_constant;
access_size = b->shader->num_uniforms;
break;
case vtn_variable_mode_workgroup:
op = nir_intrinsic_load_shared;
break;
default:
vtn_fail("Invalid block variable mode");
}
nir_ssa_def *offset, *index = NULL;
offset = vtn_pointer_to_offset(b, src, &index);
struct vtn_ssa_value *value = NULL;
_vtn_block_load_store(b, op, true, index, offset,
access_offset, access_size,
src->type, src->access, &value);
return value;
}
static void
vtn_block_store(struct vtn_builder *b, struct vtn_ssa_value *src,
struct vtn_pointer *dst)
{
nir_intrinsic_op op;
switch (dst->mode) {
case vtn_variable_mode_ssbo:
op = nir_intrinsic_store_ssbo;
break;
case vtn_variable_mode_workgroup:
op = nir_intrinsic_store_shared;
break;
default:
vtn_fail("Invalid block variable mode");
}
nir_ssa_def *offset, *index = NULL;
offset = vtn_pointer_to_offset(b, dst, &index);
_vtn_block_load_store(b, op, false, index, offset,
0, 0, dst->type, dst->access, &src);
}
static void
_vtn_variable_load_store(struct vtn_builder *b, bool load,
struct vtn_pointer *ptr,
enum gl_access_qualifier access,
struct vtn_ssa_value **inout)
{
enum glsl_base_type base_type = glsl_get_base_type(ptr->type->type);
switch (base_type) {
case GLSL_TYPE_UINT:
case GLSL_TYPE_INT:
case GLSL_TYPE_UINT16:
case GLSL_TYPE_INT16:
case GLSL_TYPE_UINT8:
case GLSL_TYPE_INT8:
case GLSL_TYPE_UINT64:
case GLSL_TYPE_INT64:
case GLSL_TYPE_FLOAT:
case GLSL_TYPE_FLOAT16:
case GLSL_TYPE_BOOL:
case GLSL_TYPE_DOUBLE:
if (glsl_type_is_vector_or_scalar(ptr->type->type)) {
/* We hit a vector or scalar; go ahead and emit the load[s] */
nir_deref_instr *deref = vtn_pointer_to_deref(b, ptr);
if (vtn_pointer_is_external_block(b, ptr)) {
/* If it's external, we call nir_load/store_deref directly. The
* vtn_local_load/store helpers are too clever and do magic to
* avoid array derefs of vectors. That magic is both less
* efficient than the direct load/store and, in the case of
* stores, is broken because it creates a race condition if two
* threads are writing to different components of the same vector
* due to the load+insert+store it uses to emulate the array
* deref.
*/
if (load) {
*inout = vtn_create_ssa_value(b, ptr->type->type);
(*inout)->def = nir_load_deref_with_access(&b->nb, deref,
ptr->type->access | access);
} else {
nir_store_deref_with_access(&b->nb, deref, (*inout)->def, ~0,
ptr->type->access | access);
}
} else {
if (load) {
*inout = vtn_local_load(b, deref, ptr->type->access | access);
} else {
vtn_local_store(b, *inout, deref, ptr->type->access | access);
}
}
return;
}
/* Fall through */
case GLSL_TYPE_INTERFACE:
case GLSL_TYPE_ARRAY:
case GLSL_TYPE_STRUCT: {
unsigned elems = glsl_get_length(ptr->type->type);
if (load) {
vtn_assert(*inout == NULL);
*inout = rzalloc(b, struct vtn_ssa_value);
(*inout)->type = ptr->type->type;
(*inout)->elems = rzalloc_array(b, struct vtn_ssa_value *, elems);
}
struct vtn_access_chain chain = {
.length = 1,
.link = {
{ .mode = vtn_access_mode_literal, },
}
};
for (unsigned i = 0; i < elems; i++) {
chain.link[0].id = i;
struct vtn_pointer *elem = vtn_pointer_dereference(b, ptr, &chain);
_vtn_variable_load_store(b, load, elem, ptr->type->access | access,
&(*inout)->elems[i]);
}
return;
}
default:
vtn_fail("Invalid access chain type");
}
}
struct vtn_ssa_value *
vtn_variable_load(struct vtn_builder *b, struct vtn_pointer *src)
{
if (vtn_pointer_uses_ssa_offset(b, src)) {
return vtn_block_load(b, src);
} else {
struct vtn_ssa_value *val = NULL;
_vtn_variable_load_store(b, true, src, src->access, &val);
return val;
}
}
void
vtn_variable_store(struct vtn_builder *b, struct vtn_ssa_value *src,
struct vtn_pointer *dest)
{
if (vtn_pointer_uses_ssa_offset(b, dest)) {
vtn_assert(dest->mode == vtn_variable_mode_ssbo ||
dest->mode == vtn_variable_mode_workgroup);
vtn_block_store(b, src, dest);
} else {
_vtn_variable_load_store(b, false, dest, dest->access, &src);
}
}
static void
_vtn_variable_copy(struct vtn_builder *b, struct vtn_pointer *dest,
struct vtn_pointer *src)
{
vtn_assert(src->type->type == dest->type->type);
enum glsl_base_type base_type = glsl_get_base_type(src->type->type);
switch (base_type) {
case GLSL_TYPE_UINT:
case GLSL_TYPE_INT:
case GLSL_TYPE_UINT16:
case GLSL_TYPE_INT16:
case GLSL_TYPE_UINT8:
case GLSL_TYPE_INT8:
case GLSL_TYPE_UINT64:
case GLSL_TYPE_INT64:
case GLSL_TYPE_FLOAT:
case GLSL_TYPE_FLOAT16:
case GLSL_TYPE_DOUBLE:
case GLSL_TYPE_BOOL:
/* At this point, we have a scalar, vector, or matrix so we know that
* there cannot be any structure splitting still in the way. By
* stopping at the matrix level rather than the vector level, we
* ensure that matrices get loaded in the optimal way even if they
* are storred row-major in a UBO.
*/
vtn_variable_store(b, vtn_variable_load(b, src), dest);
return;
case GLSL_TYPE_INTERFACE:
case GLSL_TYPE_ARRAY:
case GLSL_TYPE_STRUCT: {
struct vtn_access_chain chain = {
.length = 1,
.link = {
{ .mode = vtn_access_mode_literal, },
}
};
unsigned elems = glsl_get_length(src->type->type);
for (unsigned i = 0; i < elems; i++) {
chain.link[0].id = i;
struct vtn_pointer *src_elem =
vtn_pointer_dereference(b, src, &chain);
struct vtn_pointer *dest_elem =
vtn_pointer_dereference(b, dest, &chain);
_vtn_variable_copy(b, dest_elem, src_elem);
}
return;
}
default:
vtn_fail("Invalid access chain type");
}
}
static void
vtn_variable_copy(struct vtn_builder *b, struct vtn_pointer *dest,
struct vtn_pointer *src)
{
/* TODO: At some point, we should add a special-case for when we can
* just emit a copy_var intrinsic.
*/
_vtn_variable_copy(b, dest, src);
}
static void
set_mode_system_value(struct vtn_builder *b, nir_variable_mode *mode)
{
vtn_assert(*mode == nir_var_system_value || *mode == nir_var_shader_in);
*mode = nir_var_system_value;
}
static void
vtn_get_builtin_location(struct vtn_builder *b,
SpvBuiltIn builtin, int *location,
nir_variable_mode *mode)
{
switch (builtin) {
case SpvBuiltInPosition:
*location = VARYING_SLOT_POS;
break;
case SpvBuiltInPointSize:
*location = VARYING_SLOT_PSIZ;
break;
case SpvBuiltInClipDistance:
*location = VARYING_SLOT_CLIP_DIST0; /* XXX CLIP_DIST1? */
break;
case SpvBuiltInCullDistance:
*location = VARYING_SLOT_CULL_DIST0;
break;
case SpvBuiltInVertexId:
case SpvBuiltInVertexIndex:
/* The Vulkan spec defines VertexIndex to be non-zero-based and doesn't
* allow VertexId. The ARB_gl_spirv spec defines VertexId to be the
* same as gl_VertexID, which is non-zero-based, and removes
* VertexIndex. Since they're both defined to be non-zero-based, we use
* SYSTEM_VALUE_VERTEX_ID for both.
*/
*location = SYSTEM_VALUE_VERTEX_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInInstanceIndex:
*location = SYSTEM_VALUE_INSTANCE_INDEX;
set_mode_system_value(b, mode);
break;
case SpvBuiltInInstanceId:
*location = SYSTEM_VALUE_INSTANCE_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInPrimitiveId:
if (b->shader->info.stage == MESA_SHADER_FRAGMENT) {
vtn_assert(*mode == nir_var_shader_in);
*location = VARYING_SLOT_PRIMITIVE_ID;
} else if (*mode == nir_var_shader_out) {
*location = VARYING_SLOT_PRIMITIVE_ID;
} else {
*location = SYSTEM_VALUE_PRIMITIVE_ID;
set_mode_system_value(b, mode);
}
break;
case SpvBuiltInInvocationId:
*location = SYSTEM_VALUE_INVOCATION_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInLayer:
*location = VARYING_SLOT_LAYER;
if (b->shader->info.stage == MESA_SHADER_FRAGMENT)
*mode = nir_var_shader_in;
else if (b->shader->info.stage == MESA_SHADER_GEOMETRY)
*mode = nir_var_shader_out;
else if (b->options && b->options->caps.shader_viewport_index_layer &&
(b->shader->info.stage == MESA_SHADER_VERTEX ||
b->shader->info.stage == MESA_SHADER_TESS_EVAL))
*mode = nir_var_shader_out;
else
vtn_fail("invalid stage for SpvBuiltInLayer");
break;
case SpvBuiltInViewportIndex:
*location = VARYING_SLOT_VIEWPORT;
if (b->shader->info.stage == MESA_SHADER_GEOMETRY)
*mode = nir_var_shader_out;
else if (b->options && b->options->caps.shader_viewport_index_layer &&
(b->shader->info.stage == MESA_SHADER_VERTEX ||
b->shader->info.stage == MESA_SHADER_TESS_EVAL))
*mode = nir_var_shader_out;
else if (b->shader->info.stage == MESA_SHADER_FRAGMENT)
*mode = nir_var_shader_in;
else
vtn_fail("invalid stage for SpvBuiltInViewportIndex");
break;
case SpvBuiltInTessLevelOuter:
*location = VARYING_SLOT_TESS_LEVEL_OUTER;
break;
case SpvBuiltInTessLevelInner:
*location = VARYING_SLOT_TESS_LEVEL_INNER;
break;
case SpvBuiltInTessCoord:
*location = SYSTEM_VALUE_TESS_COORD;
set_mode_system_value(b, mode);
break;
case SpvBuiltInPatchVertices:
*location = SYSTEM_VALUE_VERTICES_IN;
set_mode_system_value(b, mode);
break;
case SpvBuiltInFragCoord:
vtn_assert(*mode == nir_var_shader_in);
if (b->options && b->options->frag_coord_is_sysval) {
*mode = nir_var_system_value;
*location = SYSTEM_VALUE_FRAG_COORD;
} else {
*location = VARYING_SLOT_POS;
}
break;
case SpvBuiltInPointCoord:
*location = VARYING_SLOT_PNTC;
vtn_assert(*mode == nir_var_shader_in);
break;
case SpvBuiltInFrontFacing:
*location = SYSTEM_VALUE_FRONT_FACE;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSampleId:
*location = SYSTEM_VALUE_SAMPLE_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSamplePosition:
*location = SYSTEM_VALUE_SAMPLE_POS;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSampleMask:
if (*mode == nir_var_shader_out) {
*location = FRAG_RESULT_SAMPLE_MASK;
} else {
*location = SYSTEM_VALUE_SAMPLE_MASK_IN;
set_mode_system_value(b, mode);
}
break;
case SpvBuiltInFragDepth:
*location = FRAG_RESULT_DEPTH;
vtn_assert(*mode == nir_var_shader_out);
break;
case SpvBuiltInHelperInvocation:
*location = SYSTEM_VALUE_HELPER_INVOCATION;
set_mode_system_value(b, mode);
break;
case SpvBuiltInNumWorkgroups:
*location = SYSTEM_VALUE_NUM_WORK_GROUPS;
set_mode_system_value(b, mode);
break;
case SpvBuiltInWorkgroupSize:
*location = SYSTEM_VALUE_LOCAL_GROUP_SIZE;
set_mode_system_value(b, mode);
break;
case SpvBuiltInWorkgroupId:
*location = SYSTEM_VALUE_WORK_GROUP_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInLocalInvocationId:
*location = SYSTEM_VALUE_LOCAL_INVOCATION_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInLocalInvocationIndex:
*location = SYSTEM_VALUE_LOCAL_INVOCATION_INDEX;
set_mode_system_value(b, mode);
break;
case SpvBuiltInGlobalInvocationId:
*location = SYSTEM_VALUE_GLOBAL_INVOCATION_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInGlobalLinearId:
*location = SYSTEM_VALUE_GLOBAL_INVOCATION_INDEX;
set_mode_system_value(b, mode);
break;
case SpvBuiltInBaseVertex:
/* OpenGL gl_BaseVertex (SYSTEM_VALUE_BASE_VERTEX) is not the same
* semantic as Vulkan BaseVertex (SYSTEM_VALUE_FIRST_VERTEX).
*/
if (b->options->environment == NIR_SPIRV_OPENGL)
*location = SYSTEM_VALUE_BASE_VERTEX;
else
*location = SYSTEM_VALUE_FIRST_VERTEX;
set_mode_system_value(b, mode);
break;
case SpvBuiltInBaseInstance:
*location = SYSTEM_VALUE_BASE_INSTANCE;
set_mode_system_value(b, mode);
break;
case SpvBuiltInDrawIndex:
*location = SYSTEM_VALUE_DRAW_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupSize:
*location = SYSTEM_VALUE_SUBGROUP_SIZE;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupId:
*location = SYSTEM_VALUE_SUBGROUP_ID;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupLocalInvocationId:
*location = SYSTEM_VALUE_SUBGROUP_INVOCATION;
set_mode_system_value(b, mode);
break;
case SpvBuiltInNumSubgroups:
*location = SYSTEM_VALUE_NUM_SUBGROUPS;
set_mode_system_value(b, mode);
break;
case SpvBuiltInDeviceIndex:
*location = SYSTEM_VALUE_DEVICE_INDEX;
set_mode_system_value(b, mode);
break;
case SpvBuiltInViewIndex:
*location = SYSTEM_VALUE_VIEW_INDEX;
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupEqMask:
*location = SYSTEM_VALUE_SUBGROUP_EQ_MASK,
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupGeMask:
*location = SYSTEM_VALUE_SUBGROUP_GE_MASK,
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupGtMask:
*location = SYSTEM_VALUE_SUBGROUP_GT_MASK,
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupLeMask:
*location = SYSTEM_VALUE_SUBGROUP_LE_MASK,
set_mode_system_value(b, mode);
break;
case SpvBuiltInSubgroupLtMask:
*location = SYSTEM_VALUE_SUBGROUP_LT_MASK,
set_mode_system_value(b, mode);
break;
case SpvBuiltInFragStencilRefEXT:
*location = FRAG_RESULT_STENCIL;
vtn_assert(*mode == nir_var_shader_out);
break;
case SpvBuiltInWorkDim:
*location = SYSTEM_VALUE_WORK_DIM;
set_mode_system_value(b, mode);
break;
case SpvBuiltInGlobalSize:
*location = SYSTEM_VALUE_GLOBAL_GROUP_SIZE;
set_mode_system_value(b, mode);
break;
default:
vtn_fail("Unsupported builtin: %s (%u)",
spirv_builtin_to_string(builtin), builtin);
}
}
static void
apply_var_decoration(struct vtn_builder *b,
struct nir_variable_data *var_data,
const struct vtn_decoration *dec)
{
switch (dec->decoration) {
case SpvDecorationRelaxedPrecision:
break; /* FIXME: Do nothing with this for now. */
case SpvDecorationNoPerspective:
var_data->interpolation = INTERP_MODE_NOPERSPECTIVE;
break;
case SpvDecorationFlat:
var_data->interpolation = INTERP_MODE_FLAT;
break;
case SpvDecorationCentroid:
var_data->centroid = true;
break;
case SpvDecorationSample:
var_data->sample = true;
break;
case SpvDecorationInvariant:
var_data->invariant = true;
break;
case SpvDecorationConstant:
var_data->read_only = true;
break;
case SpvDecorationNonReadable:
var_data->image.access |= ACCESS_NON_READABLE;
break;
case SpvDecorationNonWritable:
var_data->read_only = true;
var_data->image.access |= ACCESS_NON_WRITEABLE;
break;
case SpvDecorationRestrict:
var_data->image.access |= ACCESS_RESTRICT;
break;
case SpvDecorationVolatile:
var_data->image.access |= ACCESS_VOLATILE;
break;
case SpvDecorationCoherent:
var_data->image.access |= ACCESS_COHERENT;
break;
case SpvDecorationComponent:
var_data->location_frac = dec->operands[0];
break;
case SpvDecorationIndex:
var_data->index = dec->operands[0];
break;
case SpvDecorationBuiltIn: {
SpvBuiltIn builtin = dec->operands[0];
nir_variable_mode mode = var_data->mode;
vtn_get_builtin_location(b, builtin, &var_data->location, &mode);
var_data->mode = mode;
switch (builtin) {
case SpvBuiltInTessLevelOuter:
case SpvBuiltInTessLevelInner:
case SpvBuiltInClipDistance:
case SpvBuiltInCullDistance:
var_data->compact = true;
break;
default:
break;
}
}
case SpvDecorationSpecId:
case SpvDecorationRowMajor:
case SpvDecorationColMajor:
case SpvDecorationMatrixStride:
case SpvDecorationAliased:
case SpvDecorationUniform:
case SpvDecorationUniformId:
case SpvDecorationLinkageAttributes:
break; /* Do nothing with these here */
case SpvDecorationPatch:
var_data->patch = true;
break;
case SpvDecorationLocation:
vtn_fail("Handled above");
case SpvDecorationBlock:
case SpvDecorationBufferBlock:
case SpvDecorationArrayStride:
case SpvDecorationGLSLShared:
case SpvDecorationGLSLPacked:
break; /* These can apply to a type but we don't care about them */
case SpvDecorationBinding:
case SpvDecorationDescriptorSet:
case SpvDecorationNoContraction:
case SpvDecorationInputAttachmentIndex:
vtn_warn("Decoration not allowed for variable or structure member: %s",
spirv_decoration_to_string(dec->decoration));
break;
case SpvDecorationXfbBuffer:
var_data->explicit_xfb_buffer = true;
var_data->xfb.buffer = dec->operands[0];
var_data->always_active_io = true;
break;
case SpvDecorationXfbStride:
var_data->explicit_xfb_stride = true;
var_data->xfb.stride = dec->operands[0];
break;
case SpvDecorationOffset:
var_data->explicit_offset = true;
var_data->offset = dec->operands[0];
break;
case SpvDecorationStream:
var_data->stream = dec->operands[0];
break;
case SpvDecorationCPacked:
case SpvDecorationSaturatedConversion:
case SpvDecorationFuncParamAttr:
case SpvDecorationFPRoundingMode:
case SpvDecorationFPFastMathMode:
case SpvDecorationAlignment:
if (b->shader->info.stage != MESA_SHADER_KERNEL) {
vtn_warn("Decoration only allowed for CL-style kernels: %s",
spirv_decoration_to_string(dec->decoration));
}
break;
case SpvDecorationUserSemantic:
/* User semantic decorations can safely be ignored by the driver. */
break;
case SpvDecorationRestrictPointerEXT:
case SpvDecorationAliasedPointerEXT:
/* TODO: We should actually plumb alias information through NIR. */
break;
default:
vtn_fail_with_decoration("Unhandled decoration", dec->decoration);
}
}
static void
var_is_patch_cb(struct vtn_builder *b, struct vtn_value *val, int member,
const struct vtn_decoration *dec, void *out_is_patch)
{
if (dec->decoration == SpvDecorationPatch) {
*((bool *) out_is_patch) = true;
}
}
static void
var_decoration_cb(struct vtn_builder *b, struct vtn_value *val, int member,
const struct vtn_decoration *dec, void *void_var)
{
struct vtn_variable *vtn_var = void_var;
/* Handle decorations that apply to a vtn_variable as a whole */
switch (dec->decoration) {
case SpvDecorationBinding:
vtn_var->binding = dec->operands[0];
vtn_var->explicit_binding = true;
return;
case SpvDecorationDescriptorSet:
vtn_var->descriptor_set = dec->operands[0];
return;
case SpvDecorationInputAttachmentIndex:
vtn_var->input_attachment_index = dec->operands[0];
return;
case SpvDecorationPatch:
vtn_var->patch = true;
break;
case SpvDecorationOffset:
vtn_var->offset = dec->operands[0];
break;
case SpvDecorationNonWritable:
vtn_var->access |= ACCESS_NON_WRITEABLE;
break;
case SpvDecorationNonReadable:
vtn_var->access |= ACCESS_NON_READABLE;
break;
case SpvDecorationVolatile:
vtn_var->access |= ACCESS_VOLATILE;
break;
case SpvDecorationCoherent:
vtn_var->access |= ACCESS_COHERENT;
break;
case SpvDecorationCounterBuffer:
/* Counter buffer decorations can safely be ignored by the driver. */
return;
default:
break;
}
if (val->value_type == vtn_value_type_pointer) {
assert(val->pointer->var == void_var);
assert(member == -1);
} else {
assert(val->value_type == vtn_value_type_type);
}
/* Location is odd. If applied to a split structure, we have to walk the
* whole thing and accumulate the location. It's easier to handle as a
* special case.
*/
if (dec->decoration == SpvDecorationLocation) {
unsigned location = dec->operands[0];
if (b->shader->info.stage == MESA_SHADER_FRAGMENT &&
vtn_var->mode == vtn_variable_mode_output) {
location += FRAG_RESULT_DATA0;
} else if (b->shader->info.stage == MESA_SHADER_VERTEX &&
vtn_var->mode == vtn_variable_mode_input) {
location += VERT_ATTRIB_GENERIC0;
} else if (vtn_var->mode == vtn_variable_mode_input ||
vtn_var->mode == vtn_variable_mode_output) {
location += vtn_var->patch ? VARYING_SLOT_PATCH0 : VARYING_SLOT_VAR0;
} else if (vtn_var->mode != vtn_variable_mode_uniform) {
vtn_warn("Location must be on input, output, uniform, sampler or "
"image variable");
return;
}
if (vtn_var->var->num_members == 0) {
/* This handles the member and lone variable cases */
vtn_var->var->data.location = location;
} else {
/* This handles the structure member case */
assert(vtn_var->var->members);
if (member == -1)
vtn_var->base_location = location;
else
vtn_var->var->members[member].location = location;
}
return;
} else {
if (vtn_var->var) {
if (vtn_var->var->num_members == 0) {
/* We call this function on types as well as variables and not all
* struct types get split so we can end up having stray member
* decorations; just ignore them.
*/
if (member == -1)
apply_var_decoration(b, &vtn_var->var->data, dec);
} else if (member >= 0) {
/* Member decorations must come from a type */
assert(val->value_type == vtn_value_type_type);
apply_var_decoration(b, &vtn_var->var->members[member], dec);
} else {
unsigned length =
glsl_get_length(glsl_without_array(vtn_var->type->type));
for (unsigned i = 0; i < length; i++)
apply_var_decoration(b, &vtn_var->var->members[i], dec);
}
} else {
/* A few variables, those with external storage, have no actual
* nir_variables associated with them. Fortunately, all decorations
* we care about for those variables are on the type only.
*/
vtn_assert(vtn_var->mode == vtn_variable_mode_ubo ||
vtn_var->mode == vtn_variable_mode_ssbo ||
vtn_var->mode == vtn_variable_mode_push_constant);
}
}
}
static void
ptr_decoration_cb(struct vtn_builder *b, struct vtn_value *val, int member,
const struct vtn_decoration *dec, void *void_ptr)
{
struct vtn_pointer *ptr = void_ptr;
switch (dec->decoration) {
case SpvDecorationNonUniformEXT:
ptr->access |= ACCESS_NON_UNIFORM;
break;
default:
break;
}
}
enum vtn_variable_mode
vtn_storage_class_to_mode(struct vtn_builder *b,
SpvStorageClass class,
struct vtn_type *interface_type,
nir_variable_mode *nir_mode_out)
{
enum vtn_variable_mode mode;
nir_variable_mode nir_mode;
switch (class) {
case SpvStorageClassUniform:
/* Assume it's an UBO if we lack the interface_type. */
if (!interface_type || interface_type->block) {
mode = vtn_variable_mode_ubo;
nir_mode = nir_var_mem_ubo;
} else if (interface_type->buffer_block) {
mode = vtn_variable_mode_ssbo;
nir_mode = nir_var_mem_ssbo;
} else {
/* Default-block uniforms, coming from gl_spirv */
mode = vtn_variable_mode_uniform;
nir_mode = nir_var_uniform;
}
break;
case SpvStorageClassStorageBuffer:
mode = vtn_variable_mode_ssbo;
nir_mode = nir_var_mem_ssbo;
break;
case SpvStorageClassPhysicalStorageBufferEXT:
mode = vtn_variable_mode_phys_ssbo;
nir_mode = nir_var_mem_global;
break;
case SpvStorageClassUniformConstant:
mode = vtn_variable_mode_uniform;
nir_mode = nir_var_uniform;
break;
case SpvStorageClassPushConstant:
mode = vtn_variable_mode_push_constant;
nir_mode = nir_var_uniform;
break;
case SpvStorageClassInput:
mode = vtn_variable_mode_input;
nir_mode = nir_var_shader_in;
break;
case SpvStorageClassOutput:
mode = vtn_variable_mode_output;
nir_mode = nir_var_shader_out;
break;
case SpvStorageClassPrivate:
mode = vtn_variable_mode_private;
nir_mode = nir_var_shader_temp;
break;
case SpvStorageClassFunction:
mode = vtn_variable_mode_function;
nir_mode = nir_var_function_temp;
break;
case SpvStorageClassWorkgroup:
mode = vtn_variable_mode_workgroup;
nir_mode = nir_var_mem_shared;
break;
case SpvStorageClassAtomicCounter:
mode = vtn_variable_mode_uniform;
nir_mode = nir_var_uniform;
break;
case SpvStorageClassCrossWorkgroup:
mode = vtn_variable_mode_cross_workgroup;
nir_mode = nir_var_mem_global;
break;
case SpvStorageClassImage:
mode = vtn_variable_mode_image;
nir_mode = nir_var_mem_ubo;
break;
case SpvStorageClassGeneric:
default:
vtn_fail("Unhandled variable storage class: %s (%u)",
spirv_storageclass_to_string(class), class);
}
if (nir_mode_out)
*nir_mode_out = nir_mode;
return mode;
}
nir_address_format
vtn_mode_to_address_format(struct vtn_builder *b, enum vtn_variable_mode mode)
{
switch (mode) {
case vtn_variable_mode_ubo:
return b->options->ubo_addr_format;
case vtn_variable_mode_ssbo:
return b->options->ssbo_addr_format;
case vtn_variable_mode_phys_ssbo:
return b->options->phys_ssbo_addr_format;
case vtn_variable_mode_push_constant:
return b->options->push_const_addr_format;
case vtn_variable_mode_workgroup:
return b->options->shared_addr_format;
case vtn_variable_mode_cross_workgroup:
return b->options->global_addr_format;
case vtn_variable_mode_function:
if (b->physical_ptrs)
return b->options->temp_addr_format;
/* Fall through. */
case vtn_variable_mode_private:
case vtn_variable_mode_uniform:
case vtn_variable_mode_input:
case vtn_variable_mode_output:
case vtn_variable_mode_image:
return nir_address_format_logical;
}
unreachable("Invalid variable mode");
}
nir_ssa_def *
vtn_pointer_to_ssa(struct vtn_builder *b, struct vtn_pointer *ptr)
{
if (vtn_pointer_uses_ssa_offset(b, ptr)) {
/* This pointer needs to have a pointer type with actual storage */
vtn_assert(ptr->ptr_type);
vtn_assert(ptr->ptr_type->type);
if (!ptr->offset) {
/* If we don't have an offset then we must be a pointer to the variable
* itself.
*/
vtn_assert(!ptr->offset && !ptr->block_index);
struct vtn_access_chain chain = {
.length = 0,
};
ptr = vtn_ssa_offset_pointer_dereference(b, ptr, &chain);
}
vtn_assert(ptr->offset);
if (ptr->block_index) {
vtn_assert(ptr->mode == vtn_variable_mode_ubo ||
ptr->mode == vtn_variable_mode_ssbo);
return nir_vec2(&b->nb, ptr->block_index, ptr->offset);
} else {
vtn_assert(ptr->mode == vtn_variable_mode_workgroup);
return ptr->offset;
}
} else {
if (vtn_pointer_is_external_block(b, ptr) &&
vtn_type_contains_block(b, ptr->type) &&
ptr->mode != vtn_variable_mode_phys_ssbo) {
/* In this case, we're looking for a block index and not an actual
* deref.
*
* For PhysicalStorageBufferEXT pointers, we don't have a block index
* at all because we get the pointer directly from the client. This
* assumes that there will never be a SSBO binding variable using the
* PhysicalStorageBufferEXT storage class. This assumption appears
* to be correct according to the Vulkan spec because the table,
* "Shader Resource and Storage Class Correspondence," the only the
* Uniform storage class with BufferBlock or the StorageBuffer
* storage class with Block can be used.
*/
if (!ptr->block_index) {
/* If we don't have a block_index then we must be a pointer to the
* variable itself.
*/
vtn_assert(!ptr->deref);
struct vtn_access_chain chain = {
.length = 0,
};
ptr = vtn_nir_deref_pointer_dereference(b, ptr, &chain);
}
return ptr->block_index;
} else {
return &vtn_pointer_to_deref(b, ptr)->dest.ssa;
}
}
}
struct vtn_pointer *
vtn_pointer_from_ssa(struct vtn_builder *b, nir_ssa_def *ssa,
struct vtn_type *ptr_type)
{
vtn_assert(ptr_type->base_type == vtn_base_type_pointer);
struct vtn_pointer *ptr = rzalloc(b, struct vtn_pointer);
struct vtn_type *without_array =
vtn_type_without_array(ptr_type->deref);
nir_variable_mode nir_mode;
ptr->mode = vtn_storage_class_to_mode(b, ptr_type->storage_class,
without_array, &nir_mode);
ptr->type = ptr_type->deref;
ptr->ptr_type = ptr_type;
if (b->wa_glslang_179) {
/* To work around https://github.com/KhronosGroup/glslang/issues/179 we
* need to whack the mode because it creates a function parameter with
* the Function storage class even though it's a pointer to a sampler.
* If we don't do this, then NIR won't get rid of the deref_cast for us.
*/
if (ptr->mode == vtn_variable_mode_function &&
(ptr->type->base_type == vtn_base_type_sampler ||
ptr->type->base_type == vtn_base_type_sampled_image)) {
ptr->mode = vtn_variable_mode_uniform;
nir_mode = nir_var_uniform;
}
}
if (vtn_pointer_uses_ssa_offset(b, ptr)) {
/* This pointer type needs to have actual storage */
vtn_assert(ptr_type->type);
if (ptr->mode == vtn_variable_mode_ubo ||
ptr->mode == vtn_variable_mode_ssbo) {
vtn_assert(ssa->num_components == 2);
ptr->block_index = nir_channel(&b->nb, ssa, 0);
ptr->offset = nir_channel(&b->nb, ssa, 1);
} else {
vtn_assert(ssa->num_components == 1);
ptr->block_index = NULL;
ptr->offset = ssa;
}
} else {
const struct glsl_type *deref_type = ptr_type->deref->type;
if (!vtn_pointer_is_external_block(b, ptr)) {
ptr->deref = nir_build_deref_cast(&b->nb, ssa, nir_mode,
deref_type, ptr_type->stride);
} else if (vtn_type_contains_block(b, ptr->type) &&
ptr->mode != vtn_variable_mode_phys_ssbo) {
/* This is a pointer to somewhere in an array of blocks, not a
* pointer to somewhere inside the block. Set the block index
* instead of making a cast.
*/
ptr->block_index = ssa;
} else {
/* This is a pointer to something internal or a pointer inside a
* block. It's just a regular cast.
*
* For PhysicalStorageBufferEXT pointers, we don't have a block index
* at all because we get the pointer directly from the client. This
* assumes that there will never be a SSBO binding variable using the
* PhysicalStorageBufferEXT storage class. This assumption appears
* to be correct according to the Vulkan spec because the table,
* "Shader Resource and Storage Class Correspondence," the only the
* Uniform storage class with BufferBlock or the StorageBuffer
* storage class with Block can be used.
*/
ptr->deref = nir_build_deref_cast(&b->nb, ssa, nir_mode,
ptr_type->deref->type,
ptr_type->stride);
ptr->deref->dest.ssa.num_components =
glsl_get_vector_elements(ptr_type->type);
ptr->deref->dest.ssa.bit_size = glsl_get_bit_size(ptr_type->type);
}
}
return ptr;
}
static bool
is_per_vertex_inout(const struct vtn_variable *var, gl_shader_stage stage)
{
if (var->patch || !glsl_type_is_array(var->type->type))
return false;
if (var->mode == vtn_variable_mode_input) {
return stage == MESA_SHADER_TESS_CTRL ||
stage == MESA_SHADER_TESS_EVAL ||
stage == MESA_SHADER_GEOMETRY;
}
if (var->mode == vtn_variable_mode_output)
return stage == MESA_SHADER_TESS_CTRL;
return false;
}
static void
assign_missing_member_locations(struct vtn_variable *var)
{
unsigned length =
glsl_get_length(glsl_without_array(var->type->type));
int location = var->base_location;
for (unsigned i = 0; i < length; i++) {
/* From the Vulkan spec:
*
* “If the structure type is a Block but without a Location, then each
* of its members must have a Location decoration.”
*
*/
if (var->type->block) {
assert(var->base_location != -1 ||
var->var->members[i].location != -1);
}
/* From the Vulkan spec:
*
* “Any member with its own Location decoration is assigned that
* location. Each remaining member is assigned the location after the
* immediately preceding member in declaration order.”
*/
if (var->var->members[i].location != -1)
location = var->var->members[i].location;
else
var->var->members[i].location = location;
/* Below we use type instead of interface_type, because interface_type
* is only available when it is a Block. This code also supports
* input/outputs that are just structs
*/
const struct glsl_type *member_type =
glsl_get_struct_field(glsl_without_array(var->type->type), i);
location +=
glsl_count_attribute_slots(member_type,
false /* is_gl_vertex_input */);
}
}
static void
vtn_create_variable(struct vtn_builder *b, struct vtn_value *val,
struct vtn_type *ptr_type, SpvStorageClass storage_class,
nir_constant *initializer)
{
vtn_assert(ptr_type->base_type == vtn_base_type_pointer);
struct vtn_type *type = ptr_type->deref;
struct vtn_type *without_array = vtn_type_without_array(ptr_type->deref);
enum vtn_variable_mode mode;
nir_variable_mode nir_mode;
mode = vtn_storage_class_to_mode(b, storage_class, without_array, &nir_mode);
switch (mode) {
case vtn_variable_mode_ubo:
/* There's no other way to get vtn_variable_mode_ubo */
vtn_assert(without_array->block);
b->shader->info.num_ubos++;
break;
case vtn_variable_mode_ssbo:
if (storage_class == SpvStorageClassStorageBuffer &&
!without_array->block) {
if (b->variable_pointers) {
vtn_fail("Variables in the StorageBuffer storage class must "
"have a struct type with the Block decoration");
} else {
/* If variable pointers are not present, it's still malformed
* SPIR-V but we can parse it and do the right thing anyway.
* Since some of the 8-bit storage tests have bugs in this are,
* just make it a warning for now.
*/
vtn_warn("Variables in the StorageBuffer storage class must "
"have a struct type with the Block decoration");
}
}
b->shader->info.num_ssbos++;
break;
case vtn_variable_mode_uniform:
if (glsl_type_is_image(without_array->type))
b->shader->info.num_images++;
else if (glsl_type_is_sampler(without_array->type))
b->shader->info.num_textures++;
break;
case vtn_variable_mode_push_constant:
b->shader->num_uniforms = vtn_type_block_size(b, type);
break;
case vtn_variable_mode_image:
vtn_fail("Cannot create a variable with the Image storage class");
break;
case vtn_variable_mode_phys_ssbo:
vtn_fail("Cannot create a variable with the "
"PhysicalStorageBufferEXT storage class");
break;
default:
/* No tallying is needed */
break;
}
struct vtn_variable *var = rzalloc(b, struct vtn_variable);
var->type = type;
var->mode = mode;
var->base_location = -1;
vtn_assert(val->value_type == vtn_value_type_pointer);
val->pointer = vtn_pointer_for_variable(b, var, ptr_type);
switch (var->mode) {
case vtn_variable_mode_function:
case vtn_variable_mode_private:
case vtn_variable_mode_uniform:
/* For these, we create the variable normally */
var->var = rzalloc(b->shader, nir_variable);
var->var->name = ralloc_strdup(var->var, val->name);
if (storage_class == SpvStorageClassAtomicCounter) {
/* Need to tweak the nir type here as at vtn_handle_type we don't
* have the access to storage_class, that is the one that points us
* that is an atomic uint.
*/
var->var->type = repair_atomic_type(var->type->type);
} else {
/* Private variables don't have any explicit layout but some layouts
* may have leaked through due to type deduplication in the SPIR-V.
*/
var->var->type = var->type->type;
}
var->var->data.mode = nir_mode;
var->var->data.location = -1;
var->var->interface_type = NULL;
break;
case vtn_variable_mode_ubo:
case vtn_variable_mode_ssbo:
var->var = rzalloc(b->shader, nir_variable);
var->var->name = ralloc_strdup(var->var, val->name);
var->var->type = var->type->type;
var->var->interface_type = var->type->type;
var->var->data.mode = nir_mode;
var->var->data.location = -1;
break;
case vtn_variable_mode_workgroup:
/* Create the variable normally */
var->var = rzalloc(b->shader, nir_variable);
var->var->name = ralloc_strdup(var->var, val->name);
/* Workgroup variables don't have any explicit layout but some
* layouts may have leaked through due to type deduplication in the
* SPIR-V.
*/
var->var->type = var->type->type;
var->var->data.mode = nir_var_mem_shared;
break;
case vtn_variable_mode_input:
case vtn_variable_mode_output: {
/* In order to know whether or not we're a per-vertex inout, we need
* the patch qualifier. This means walking the variable decorations
* early before we actually create any variables. Not a big deal.
*
* GLSLang really likes to place decorations in the most interior
* thing it possibly can. In particular, if you have a struct, it
* will place the patch decorations on the struct members. This
* should be handled by the variable splitting below just fine.
*
* If you have an array-of-struct, things get even more weird as it
* will place the patch decorations on the struct even though it's
* inside an array and some of the members being patch and others not
* makes no sense whatsoever. Since the only sensible thing is for
* it to be all or nothing, we'll call it patch if any of the members
* are declared patch.
*/
var->patch = false;
vtn_foreach_decoration(b, val, var_is_patch_cb, &var->patch);
if (glsl_type_is_array(var->type->type) &&
glsl_type_is_struct_or_ifc(without_array->type)) {
vtn_foreach_decoration(b, vtn_value(b, without_array->id,
vtn_value_type_type),
var_is_patch_cb, &var->patch);
}
/* For inputs and outputs, we immediately split structures. This
* is for a couple of reasons. For one, builtins may all come in
* a struct and we really want those split out into separate
* variables. For another, interpolation qualifiers can be
* applied to members of the top-level struct ane we need to be
* able to preserve that information.
*/
struct vtn_type *per_vertex_type = var->type;
if (is_per_vertex_inout(var, b->shader->info.stage)) {
/* In Geometry shaders (and some tessellation), inputs come
* in per-vertex arrays. However, some builtins come in
* non-per-vertex, hence the need for the is_array check. In
* any case, there are no non-builtin arrays allowed so this
* check should be sufficient.
*/
per_vertex_type = var->type->array_element;
}
var->var = rzalloc(b->shader, nir_variable);
var->var->name = ralloc_strdup(var->var, val->name);
/* In Vulkan, shader I/O variables don't have any explicit layout but
* some layouts may have leaked through due to type deduplication in
* the SPIR-V. We do, however, keep the layouts in the variable's
* interface_type because we need offsets for XFB arrays of blocks.
*/
var->var->type = var->type->type;
var->var->data.mode = nir_mode;
var->var->data.patch = var->patch;
/* Figure out the interface block type. */
struct vtn_type *iface_type = per_vertex_type;
if (var->mode == vtn_variable_mode_output &&
(b->shader->info.stage == MESA_SHADER_VERTEX ||
b->shader->info.stage == MESA_SHADER_TESS_EVAL ||
b->shader->info.stage == MESA_SHADER_GEOMETRY)) {
/* For vertex data outputs, we can end up with arrays of blocks for
* transform feedback where each array element corresponds to a
* different XFB output buffer.
*/
while (iface_type->base_type == vtn_base_type_array)
iface_type = iface_type->array_element;
}
if (iface_type->base_type == vtn_base_type_struct && iface_type->block)
var->var->interface_type = iface_type->type;
if (per_vertex_type->base_type == vtn_base_type_struct &&
per_vertex_type->block) {
/* It's a struct. Set it up as per-member. */
var->var->num_members = glsl_get_length(per_vertex_type->type);
var->var->members = rzalloc_array(var->var, struct nir_variable_data,
var->var->num_members);
for (unsigned i = 0; i < var->var->num_members; i++) {
var->var->members[i].mode = nir_mode;
var->var->members[i].patch = var->patch;
var->var->members[i].location = -1;
}
}
/* For inputs and outputs, we need to grab locations and builtin
* information from the per-vertex type.
*/
vtn_foreach_decoration(b, vtn_value(b, per_vertex_type->id,
vtn_value_type_type),
var_decoration_cb, var);
break;
}
case vtn_variable_mode_push_constant:
case vtn_variable_mode_cross_workgroup:
/* These don't need actual variables. */
break;
case vtn_variable_mode_image:
case vtn_variable_mode_phys_ssbo:
unreachable("Should have been caught before");
}
if (initializer) {
var->var->constant_initializer =
nir_constant_clone(initializer, var->var);
}
vtn_foreach_decoration(b, val, var_decoration_cb, var);
vtn_foreach_decoration(b, val, ptr_decoration_cb, val->pointer);
if ((var->mode == vtn_variable_mode_input ||
var->mode == vtn_variable_mode_output) &&
var->var->members) {
assign_missing_member_locations(var);
}
if (var->mode == vtn_variable_mode_uniform ||
var->mode == vtn_variable_mode_ubo ||
var->mode == vtn_variable_mode_ssbo) {
/* XXX: We still need the binding information in the nir_variable
* for these. We should fix that.
*/
var->var->data.binding = var->binding;
var->var->data.explicit_binding = var->explicit_binding;
var->var->data.descriptor_set = var->descriptor_set;
var->var->data.index = var->input_attachment_index;
var->var->data.offset = var->offset;
if (glsl_type_is_image(without_array->type))
var->var->data.image.format = without_array->image_format;
}
if (var->mode == vtn_variable_mode_function) {
vtn_assert(var->var != NULL && var->var->members == NULL);
nir_function_impl_add_variable(b->nb.impl, var->var);
} else if (var->var) {
nir_shader_add_variable(b->shader, var->var);
} else {
vtn_assert(vtn_pointer_is_external_block(b, val->pointer));
}
}
static void
vtn_assert_types_equal(struct vtn_builder *b, SpvOp opcode,
struct vtn_type *dst_type,
struct vtn_type *src_type)
{
if (dst_type->id == src_type->id)
return;
if (vtn_types_compatible(b, dst_type, src_type)) {
/* Early versions of GLSLang would re-emit types unnecessarily and you
* would end up with OpLoad, OpStore, or OpCopyMemory opcodes which have
* mismatched source and destination types.
*
* https://github.com/KhronosGroup/glslang/issues/304
* https://github.com/KhronosGroup/glslang/issues/307
* https://bugs.freedesktop.org/show_bug.cgi?id=104338
* https://bugs.freedesktop.org/show_bug.cgi?id=104424
*/
vtn_warn("Source and destination types of %s do not have the same "
"ID (but are compatible): %u vs %u",
spirv_op_to_string(opcode), dst_type->id, src_type->id);
return;
}
vtn_fail("Source and destination types of %s do not match: %s vs. %s",
spirv_op_to_string(opcode),
glsl_get_type_name(dst_type->type),
glsl_get_type_name(src_type->type));
}
static nir_ssa_def *
nir_shrink_zero_pad_vec(nir_builder *b, nir_ssa_def *val,
unsigned num_components)
{
if (val->num_components == num_components)
return val;
nir_ssa_def *comps[NIR_MAX_VEC_COMPONENTS];
for (unsigned i = 0; i < num_components; i++) {
if (i < val->num_components)
comps[i] = nir_channel(b, val, i);
else
comps[i] = nir_imm_intN_t(b, 0, val->bit_size);
}
return nir_vec(b, comps, num_components);
}
static nir_ssa_def *
nir_sloppy_bitcast(nir_builder *b, nir_ssa_def *val,
const struct glsl_type *type)
{
const unsigned num_components = glsl_get_vector_elements(type);
const unsigned bit_size = glsl_get_bit_size(type);
/* First, zero-pad to ensure that the value is big enough that when we
* bit-cast it, we don't loose anything.
*/
if (val->bit_size < bit_size) {
const unsigned src_num_components_needed =
vtn_align_u32(val->num_components, bit_size / val->bit_size);
val = nir_shrink_zero_pad_vec(b, val, src_num_components_needed);
}
val = nir_bitcast_vector(b, val, bit_size);
return nir_shrink_zero_pad_vec(b, val, num_components);
}
void
vtn_handle_variables(struct vtn_builder *b, SpvOp opcode,
const uint32_t *w, unsigned count)
{
switch (opcode) {
case SpvOpUndef: {
struct vtn_value *val = vtn_push_value(b, w[2], vtn_value_type_undef);
val->type = vtn_value(b, w[1], vtn_value_type_type)->type;
break;
}
case SpvOpVariable: {
struct vtn_type *ptr_type = vtn_value(b, w[1], vtn_value_type_type)->type;
struct vtn_value *val = vtn_push_value(b, w[2], vtn_value_type_pointer);
SpvStorageClass storage_class = w[3];
nir_constant *initializer = NULL;
if (count > 4)
initializer = vtn_value(b, w[4], vtn_value_type_constant)->constant;
vtn_create_variable(b, val, ptr_type, storage_class, initializer);
break;
}
case SpvOpAccessChain:
case SpvOpPtrAccessChain:
case SpvOpInBoundsAccessChain:
case SpvOpInBoundsPtrAccessChain: {
struct vtn_access_chain *chain = vtn_access_chain_create(b, count - 4);
enum gl_access_qualifier access = 0;
chain->ptr_as_array = (opcode == SpvOpPtrAccessChain || opcode == SpvOpInBoundsPtrAccessChain);
unsigned idx = 0;
for (int i = 4; i < count; i++) {
struct vtn_value *link_val = vtn_untyped_value(b, w[i]);
if (link_val->value_type == vtn_value_type_constant) {
chain->link[idx].mode = vtn_access_mode_literal;
chain->link[idx].id = vtn_constant_int(b, w[i]);
} else {
chain->link[idx].mode = vtn_access_mode_id;
chain->link[idx].id = w[i];
}
access |= vtn_value_access(link_val);
idx++;
}
struct vtn_type *ptr_type = vtn_value(b, w[1], vtn_value_type_type)->type;
struct vtn_value *base_val = vtn_untyped_value(b, w[3]);
if (base_val->value_type == vtn_value_type_sampled_image) {
/* This is rather insane. SPIR-V allows you to use OpSampledImage
* to combine an array of images with a single sampler to get an
* array of sampled images that all share the same sampler.
* Fortunately, this means that we can more-or-less ignore the
* sampler when crawling the access chain, but it does leave us
* with this rather awkward little special-case.
*/
struct vtn_value *val =
vtn_push_value(b, w[2], vtn_value_type_sampled_image);
val->sampled_image = ralloc(b, struct vtn_sampled_image);
val->sampled_image->image =
vtn_pointer_dereference(b, base_val->sampled_image->image, chain);
val->sampled_image->sampler = base_val->sampled_image->sampler;
vtn_foreach_decoration(b, val, ptr_decoration_cb,
val->sampled_image->image);
vtn_foreach_decoration(b, val, ptr_decoration_cb,
val->sampled_image->sampler);
} else {
vtn_assert(base_val->value_type == vtn_value_type_pointer);
struct vtn_pointer *ptr =
vtn_pointer_dereference(b, base_val->pointer, chain);
ptr->ptr_type = ptr_type;
ptr->access |= access;
vtn_push_value_pointer(b, w[2], ptr);
}
break;
}
case SpvOpCopyMemory: {
struct vtn_value *dest = vtn_value(b, w[1], vtn_value_type_pointer);
struct vtn_value *src = vtn_value(b, w[2], vtn_value_type_pointer);
vtn_assert_types_equal(b, opcode, dest->type->deref, src->type->deref);
vtn_variable_copy(b, dest->pointer, src->pointer);
break;
}
case SpvOpLoad: {
struct vtn_type *res_type =
vtn_value(b, w[1], vtn_value_type_type)->type;
struct vtn_value *src_val = vtn_value(b, w[3], vtn_value_type_pointer);
struct vtn_pointer *src = src_val->pointer;
vtn_assert_types_equal(b, opcode, res_type, src_val->type->deref);
if (glsl_type_is_image(res_type->type) ||
glsl_type_is_sampler(res_type->type)) {
vtn_push_value_pointer(b, w[2], src);
return;
}
if (count > 4) {
unsigned idx = 5;
SpvMemoryAccessMask access = w[4];
if (access & SpvMemoryAccessAlignedMask)
idx++;
if (access & SpvMemoryAccessMakePointerVisibleMask) {
SpvMemorySemanticsMask semantics =
SpvMemorySemanticsMakeVisibleMask |
vtn_storage_class_to_memory_semantics(src->ptr_type->storage_class);
SpvScope scope = vtn_constant_uint(b, w[idx]);
vtn_emit_memory_barrier(b, scope, semantics);
}
}
vtn_push_ssa(b, w[2], res_type, vtn_variable_load(b, src));
break;
}
case SpvOpStore: {
struct vtn_value *dest_val = vtn_value(b, w[1], vtn_value_type_pointer);
struct vtn_pointer *dest = dest_val->pointer;
struct vtn_value *src_val = vtn_untyped_value(b, w[2]);
/* OpStore requires us to actually have a storage type */
vtn_fail_if(dest->type->type == NULL,
"Invalid destination type for OpStore");
if (glsl_get_base_type(dest->type->type) == GLSL_TYPE_BOOL &&
glsl_get_base_type(src_val->type->type) == GLSL_TYPE_UINT) {
/* Early versions of GLSLang would use uint types for UBOs/SSBOs but
* would then store them to a local variable as bool. Work around
* the issue by doing an implicit conversion.
*
* https://github.com/KhronosGroup/glslang/issues/170
* https://bugs.freedesktop.org/show_bug.cgi?id=104424
*/
vtn_warn("OpStore of value of type OpTypeInt to a pointer to type "
"OpTypeBool. Doing an implicit conversion to work around "
"the problem.");
struct vtn_ssa_value *bool_ssa =
vtn_create_ssa_value(b, dest->type->type);
bool_ssa->def = nir_i2b(&b->nb, vtn_ssa_value(b, w[2])->def);
vtn_variable_store(b, bool_ssa, dest);
break;
}
vtn_assert_types_equal(b, opcode, dest_val->type->deref, src_val->type);
if (glsl_type_is_sampler(dest->type->type)) {
if (b->wa_glslang_179) {
vtn_warn("OpStore of a sampler detected. Doing on-the-fly copy "
"propagation to workaround the problem.");
vtn_assert(dest->var->copy_prop_sampler == NULL);
dest->var->copy_prop_sampler =
vtn_value(b, w[2], vtn_value_type_pointer)->pointer;
} else {
vtn_fail("Vulkan does not allow OpStore of a sampler or image.");
}
break;
}
struct vtn_ssa_value *src = vtn_ssa_value(b, w[2]);
vtn_variable_store(b, src, dest);
if (count > 3) {
unsigned idx = 4;
SpvMemoryAccessMask access = w[3];
if (access & SpvMemoryAccessAlignedMask)
idx++;
if (access & SpvMemoryAccessMakePointerAvailableMask) {
SpvMemorySemanticsMask semantics =
SpvMemorySemanticsMakeAvailableMask |
vtn_storage_class_to_memory_semantics(dest->ptr_type->storage_class);
SpvScope scope = vtn_constant_uint(b, w[idx]);
vtn_emit_memory_barrier(b, scope, semantics);
}
}
break;
}
case SpvOpArrayLength: {
struct vtn_pointer *ptr =
vtn_value(b, w[3], vtn_value_type_pointer)->pointer;
const uint32_t field = w[4];
vtn_fail_if(ptr->type->base_type != vtn_base_type_struct,
"OpArrayLength must take a pointer to a structure type");
vtn_fail_if(field != ptr->type->length - 1 ||
ptr->type->members[field]->base_type != vtn_base_type_array,
"OpArrayLength must reference the last memeber of the "
"structure and that must be an array");
const uint32_t offset = ptr->type->offsets[field];
const uint32_t stride = ptr->type->members[field]->stride;
if (!ptr->block_index) {
struct vtn_access_chain chain = {
.length = 0,
};
ptr = vtn_pointer_dereference(b, ptr, &chain);
vtn_assert(ptr->block_index);
}
nir_intrinsic_instr *instr =
nir_intrinsic_instr_create(b->nb.shader,
nir_intrinsic_get_buffer_size);
instr->src[0] = nir_src_for_ssa(ptr->block_index);
nir_ssa_dest_init(&instr->instr, &instr->dest, 1, 32, NULL);
nir_builder_instr_insert(&b->nb, &instr->instr);
nir_ssa_def *buf_size = &instr->dest.ssa;
/* array_length = max(buffer_size - offset, 0) / stride */
nir_ssa_def *array_length =
nir_idiv(&b->nb,
nir_imax(&b->nb,
nir_isub(&b->nb,
buf_size,
nir_imm_int(&b->nb, offset)),
nir_imm_int(&b->nb, 0u)),
nir_imm_int(&b->nb, stride));
struct vtn_value *val = vtn_push_value(b, w[2], vtn_value_type_ssa);
val->ssa = vtn_create_ssa_value(b, glsl_uint_type());
val->ssa->def = array_length;
break;
}
case SpvOpConvertPtrToU: {
struct vtn_value *u_val = vtn_push_value(b, w[2], vtn_value_type_ssa);
vtn_fail_if(u_val->type->base_type != vtn_base_type_vector &&
u_val->type->base_type != vtn_base_type_scalar,
"OpConvertPtrToU can only be used to cast to a vector or "
"scalar type");
/* The pointer will be converted to an SSA value automatically */
struct vtn_ssa_value *ptr_ssa = vtn_ssa_value(b, w[3]);
u_val->ssa = vtn_create_ssa_value(b, u_val->type->type);
u_val->ssa->def = nir_sloppy_bitcast(&b->nb, ptr_ssa->def, u_val->type->type);
u_val->ssa->access |= ptr_ssa->access;
break;
}
case SpvOpConvertUToPtr: {
struct vtn_value *ptr_val =
vtn_push_value(b, w[2], vtn_value_type_pointer);
struct vtn_value *u_val = vtn_value(b, w[3], vtn_value_type_ssa);
vtn_fail_if(ptr_val->type->type == NULL,
"OpConvertUToPtr can only be used on physical pointers");
vtn_fail_if(u_val->type->base_type != vtn_base_type_vector &&
u_val->type->base_type != vtn_base_type_scalar,
"OpConvertUToPtr can only be used to cast from a vector or "
"scalar type");
nir_ssa_def *ptr_ssa = nir_sloppy_bitcast(&b->nb, u_val->ssa->def,
ptr_val->type->type);
ptr_val->pointer = vtn_pointer_from_ssa(b, ptr_ssa, ptr_val->type);
vtn_foreach_decoration(b, ptr_val, ptr_decoration_cb, ptr_val->pointer);
ptr_val->pointer->access |= u_val->ssa->access;
break;
}
case SpvOpCopyMemorySized:
default:
vtn_fail_with_opcode("Unhandled opcode", opcode);
}
}
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