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spirv_msl.cpp
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spirv_msl.cpp
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/*
* Copyright 2016-2021 The Brenwill Workshop Ltd.
* SPDX-License-Identifier: Apache-2.0 OR MIT
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* At your option, you may choose to accept this material under either:
* 1. The Apache License, Version 2.0, found at <http://www.apache.org/licenses/LICENSE-2.0>, or
* 2. The MIT License, found at <http://opensource.org/licenses/MIT>.
*/
#include "spirv_msl.hpp"
#include "GLSL.std.450.h"
#include <algorithm>
#include <assert.h>
#include <numeric>
using namespace spv;
using namespace SPIRV_CROSS_NAMESPACE;
using namespace std;
static const uint32_t k_unknown_location = ~0u;
static const uint32_t k_unknown_component = ~0u;
static const char *force_inline = "static inline __attribute__((always_inline))";
CompilerMSL::CompilerMSL(std::vector<uint32_t> spirv_)
: CompilerGLSL(std::move(spirv_))
{
}
CompilerMSL::CompilerMSL(const uint32_t *ir_, size_t word_count)
: CompilerGLSL(ir_, word_count)
{
}
CompilerMSL::CompilerMSL(const ParsedIR &ir_)
: CompilerGLSL(ir_)
{
}
CompilerMSL::CompilerMSL(ParsedIR &&ir_)
: CompilerGLSL(std::move(ir_))
{
}
void CompilerMSL::add_msl_shader_input(const MSLShaderInterfaceVariable &si)
{
inputs_by_location[{si.location, si.component}] = si;
if (si.builtin != BuiltInMax && !inputs_by_builtin.count(si.builtin))
inputs_by_builtin[si.builtin] = si;
}
void CompilerMSL::add_msl_shader_output(const MSLShaderInterfaceVariable &so)
{
outputs_by_location[{so.location, so.component}] = so;
if (so.builtin != BuiltInMax && !outputs_by_builtin.count(so.builtin))
outputs_by_builtin[so.builtin] = so;
}
void CompilerMSL::add_msl_resource_binding(const MSLResourceBinding &binding)
{
StageSetBinding tuple = { binding.stage, binding.desc_set, binding.binding };
resource_bindings[tuple] = { binding, false };
// If we might need to pad argument buffer members to positionally align
// arg buffer indexes, also maintain a lookup by argument buffer index.
if (msl_options.pad_argument_buffer_resources)
{
StageSetBinding arg_idx_tuple = { binding.stage, binding.desc_set, k_unknown_component };
#define ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP(rez) \
arg_idx_tuple.binding = binding.msl_##rez; \
resource_arg_buff_idx_to_binding_number[arg_idx_tuple] = binding.binding
switch (binding.basetype)
{
case SPIRType::Void:
case SPIRType::Boolean:
case SPIRType::SByte:
case SPIRType::UByte:
case SPIRType::Short:
case SPIRType::UShort:
case SPIRType::Int:
case SPIRType::UInt:
case SPIRType::Int64:
case SPIRType::UInt64:
case SPIRType::AtomicCounter:
case SPIRType::Half:
case SPIRType::Float:
case SPIRType::Double:
ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP(buffer);
break;
case SPIRType::Image:
ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP(texture);
break;
case SPIRType::Sampler:
ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP(sampler);
break;
case SPIRType::SampledImage:
ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP(texture);
ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP(sampler);
break;
default:
SPIRV_CROSS_THROW("Unexpected argument buffer resource base type. When padding argument buffer elements, "
"all descriptor set resources must be supplied with a base type by the app.");
}
#undef ADD_ARG_IDX_TO_BINDING_NUM_LOOKUP
}
}
void CompilerMSL::add_dynamic_buffer(uint32_t desc_set, uint32_t binding, uint32_t index)
{
SetBindingPair pair = { desc_set, binding };
buffers_requiring_dynamic_offset[pair] = { index, 0 };
}
void CompilerMSL::add_inline_uniform_block(uint32_t desc_set, uint32_t binding)
{
SetBindingPair pair = { desc_set, binding };
inline_uniform_blocks.insert(pair);
}
void CompilerMSL::add_discrete_descriptor_set(uint32_t desc_set)
{
if (desc_set < kMaxArgumentBuffers)
argument_buffer_discrete_mask |= 1u << desc_set;
}
void CompilerMSL::set_argument_buffer_device_address_space(uint32_t desc_set, bool device_storage)
{
if (desc_set < kMaxArgumentBuffers)
{
if (device_storage)
argument_buffer_device_storage_mask |= 1u << desc_set;
else
argument_buffer_device_storage_mask &= ~(1u << desc_set);
}
}
bool CompilerMSL::is_msl_shader_input_used(uint32_t location)
{
// Don't report internal location allocations to app.
return location_inputs_in_use.count(location) != 0 &&
location_inputs_in_use_fallback.count(location) == 0;
}
bool CompilerMSL::is_msl_shader_output_used(uint32_t location)
{
// Don't report internal location allocations to app.
return location_outputs_in_use.count(location) != 0 &&
location_outputs_in_use_fallback.count(location) == 0;
}
uint32_t CompilerMSL::get_automatic_builtin_input_location(spv::BuiltIn builtin) const
{
auto itr = builtin_to_automatic_input_location.find(builtin);
if (itr == builtin_to_automatic_input_location.end())
return k_unknown_location;
else
return itr->second;
}
uint32_t CompilerMSL::get_automatic_builtin_output_location(spv::BuiltIn builtin) const
{
auto itr = builtin_to_automatic_output_location.find(builtin);
if (itr == builtin_to_automatic_output_location.end())
return k_unknown_location;
else
return itr->second;
}
bool CompilerMSL::is_msl_resource_binding_used(ExecutionModel model, uint32_t desc_set, uint32_t binding) const
{
StageSetBinding tuple = { model, desc_set, binding };
auto itr = resource_bindings.find(tuple);
return itr != end(resource_bindings) && itr->second.second;
}
bool CompilerMSL::is_var_runtime_size_array(const SPIRVariable &var) const
{
auto& type = get_variable_data_type(var);
return is_runtime_size_array(type) && get_resource_array_size(type, var.self) == 0;
}
// Returns the size of the array of resources used by the variable with the specified type and id.
// The size is first retrieved from the type, but in the case of runtime array sizing,
// the size is retrieved from the resource binding added using add_msl_resource_binding().
uint32_t CompilerMSL::get_resource_array_size(const SPIRType &type, uint32_t id) const
{
uint32_t array_size = to_array_size_literal(type);
if (id == 0)
return array_size;
// If we have argument buffers, we need to honor the ABI by using the correct array size
// from the layout. Only use shader declared size if we're not using argument buffers.
uint32_t desc_set = get_decoration(id, DecorationDescriptorSet);
if (!descriptor_set_is_argument_buffer(desc_set) && array_size)
return array_size;
StageSetBinding tuple = { get_entry_point().model, desc_set,
get_decoration(id, DecorationBinding) };
auto itr = resource_bindings.find(tuple);
return itr != end(resource_bindings) ? itr->second.first.count : array_size;
}
uint32_t CompilerMSL::get_automatic_msl_resource_binding(uint32_t id) const
{
return get_extended_decoration(id, SPIRVCrossDecorationResourceIndexPrimary);
}
uint32_t CompilerMSL::get_automatic_msl_resource_binding_secondary(uint32_t id) const
{
return get_extended_decoration(id, SPIRVCrossDecorationResourceIndexSecondary);
}
uint32_t CompilerMSL::get_automatic_msl_resource_binding_tertiary(uint32_t id) const
{
return get_extended_decoration(id, SPIRVCrossDecorationResourceIndexTertiary);
}
uint32_t CompilerMSL::get_automatic_msl_resource_binding_quaternary(uint32_t id) const
{
return get_extended_decoration(id, SPIRVCrossDecorationResourceIndexQuaternary);
}
void CompilerMSL::set_fragment_output_components(uint32_t location, uint32_t components)
{
fragment_output_components[location] = components;
}
bool CompilerMSL::builtin_translates_to_nonarray(spv::BuiltIn builtin) const
{
return (builtin == BuiltInSampleMask);
}
void CompilerMSL::build_implicit_builtins()
{
bool need_sample_pos = active_input_builtins.get(BuiltInSamplePosition);
bool need_vertex_params = capture_output_to_buffer && get_execution_model() == ExecutionModelVertex &&
!msl_options.vertex_for_tessellation;
bool need_tesc_params = is_tesc_shader();
bool need_tese_params = is_tese_shader() && msl_options.raw_buffer_tese_input;
bool need_subgroup_mask =
active_input_builtins.get(BuiltInSubgroupEqMask) || active_input_builtins.get(BuiltInSubgroupGeMask) ||
active_input_builtins.get(BuiltInSubgroupGtMask) || active_input_builtins.get(BuiltInSubgroupLeMask) ||
active_input_builtins.get(BuiltInSubgroupLtMask);
bool need_subgroup_ge_mask = !msl_options.is_ios() && (active_input_builtins.get(BuiltInSubgroupGeMask) ||
active_input_builtins.get(BuiltInSubgroupGtMask));
bool need_multiview = get_execution_model() == ExecutionModelVertex && !msl_options.view_index_from_device_index &&
msl_options.multiview_layered_rendering &&
(msl_options.multiview || active_input_builtins.get(BuiltInViewIndex));
bool need_dispatch_base =
msl_options.dispatch_base && get_execution_model() == ExecutionModelGLCompute &&
(active_input_builtins.get(BuiltInWorkgroupId) || active_input_builtins.get(BuiltInGlobalInvocationId));
bool need_grid_params = get_execution_model() == ExecutionModelVertex && msl_options.vertex_for_tessellation;
bool need_vertex_base_params =
need_grid_params &&
(active_input_builtins.get(BuiltInVertexId) || active_input_builtins.get(BuiltInVertexIndex) ||
active_input_builtins.get(BuiltInBaseVertex) || active_input_builtins.get(BuiltInInstanceId) ||
active_input_builtins.get(BuiltInInstanceIndex) || active_input_builtins.get(BuiltInBaseInstance));
bool need_local_invocation_index = (msl_options.emulate_subgroups && active_input_builtins.get(BuiltInSubgroupId)) || is_mesh_shader();
bool need_workgroup_size = msl_options.emulate_subgroups && active_input_builtins.get(BuiltInNumSubgroups);
bool force_frag_depth_passthrough =
get_execution_model() == ExecutionModelFragment && !uses_explicit_early_fragment_test() && need_subpass_input &&
msl_options.enable_frag_depth_builtin && msl_options.input_attachment_is_ds_attachment;
if (need_subpass_input || need_sample_pos || need_subgroup_mask || need_vertex_params || need_tesc_params ||
need_tese_params || need_multiview || need_dispatch_base || need_vertex_base_params || need_grid_params ||
needs_sample_id || needs_subgroup_invocation_id || needs_subgroup_size || needs_helper_invocation ||
has_additional_fixed_sample_mask() || need_local_invocation_index || need_workgroup_size || force_frag_depth_passthrough || is_mesh_shader())
{
bool has_frag_coord = false;
bool has_sample_id = false;
bool has_vertex_idx = false;
bool has_base_vertex = false;
bool has_instance_idx = false;
bool has_base_instance = false;
bool has_invocation_id = false;
bool has_primitive_id = false;
bool has_subgroup_invocation_id = false;
bool has_subgroup_size = false;
bool has_view_idx = false;
bool has_layer = false;
bool has_helper_invocation = false;
bool has_local_invocation_index = false;
bool has_workgroup_size = false;
bool has_frag_depth = false;
uint32_t workgroup_id_type = 0;
ir.for_each_typed_id<SPIRVariable>([&](uint32_t, SPIRVariable &var) {
if (var.storage != StorageClassInput && var.storage != StorageClassOutput)
return;
if (!interface_variable_exists_in_entry_point(var.self))
return;
if (!has_decoration(var.self, DecorationBuiltIn))
return;
BuiltIn builtin = ir.meta[var.self].decoration.builtin_type;
if (var.storage == StorageClassOutput)
{
if (has_additional_fixed_sample_mask() && builtin == BuiltInSampleMask)
{
builtin_sample_mask_id = var.self;
mark_implicit_builtin(StorageClassOutput, BuiltInSampleMask, var.self);
does_shader_write_sample_mask = true;
}
if (force_frag_depth_passthrough && builtin == BuiltInFragDepth)
{
builtin_frag_depth_id = var.self;
mark_implicit_builtin(StorageClassOutput, BuiltInFragDepth, var.self);
has_frag_depth = true;
}
}
if (builtin == BuiltInPrimitivePointIndicesEXT ||
builtin == BuiltInPrimitiveLineIndicesEXT ||
builtin == BuiltInPrimitiveTriangleIndicesEXT)
{
builtin_mesh_primitive_indices_id = var.self;
}
if (var.storage != StorageClassInput)
return;
// Use Metal's native frame-buffer fetch API for subpass inputs.
if (need_subpass_input && (!msl_options.use_framebuffer_fetch_subpasses))
{
switch (builtin)
{
case BuiltInFragCoord:
mark_implicit_builtin(StorageClassInput, BuiltInFragCoord, var.self);
builtin_frag_coord_id = var.self;
has_frag_coord = true;
break;
case BuiltInLayer:
if (!msl_options.arrayed_subpass_input || msl_options.multiview)
break;
mark_implicit_builtin(StorageClassInput, BuiltInLayer, var.self);
builtin_layer_id = var.self;
has_layer = true;
break;
case BuiltInViewIndex:
if (!msl_options.multiview)
break;
mark_implicit_builtin(StorageClassInput, BuiltInViewIndex, var.self);
builtin_view_idx_id = var.self;
has_view_idx = true;
break;
default:
break;
}
}
if ((need_sample_pos || needs_sample_id) && builtin == BuiltInSampleId)
{
builtin_sample_id_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInSampleId, var.self);
has_sample_id = true;
}
if (need_vertex_params)
{
switch (builtin)
{
case BuiltInVertexIndex:
builtin_vertex_idx_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInVertexIndex, var.self);
has_vertex_idx = true;
break;
case BuiltInBaseVertex:
builtin_base_vertex_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInBaseVertex, var.self);
has_base_vertex = true;
break;
case BuiltInInstanceIndex:
builtin_instance_idx_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInInstanceIndex, var.self);
has_instance_idx = true;
break;
case BuiltInBaseInstance:
builtin_base_instance_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInBaseInstance, var.self);
has_base_instance = true;
break;
default:
break;
}
}
if (need_tesc_params && builtin == BuiltInInvocationId)
{
builtin_invocation_id_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInInvocationId, var.self);
has_invocation_id = true;
}
if ((need_tesc_params || need_tese_params) && builtin == BuiltInPrimitiveId)
{
builtin_primitive_id_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInPrimitiveId, var.self);
has_primitive_id = true;
}
if (need_tese_params && builtin == BuiltInTessLevelOuter)
{
tess_level_outer_var_id = var.self;
}
if (need_tese_params && builtin == BuiltInTessLevelInner)
{
tess_level_inner_var_id = var.self;
}
if ((need_subgroup_mask || needs_subgroup_invocation_id) && builtin == BuiltInSubgroupLocalInvocationId)
{
builtin_subgroup_invocation_id_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInSubgroupLocalInvocationId, var.self);
has_subgroup_invocation_id = true;
}
if ((need_subgroup_ge_mask || needs_subgroup_size) && builtin == BuiltInSubgroupSize)
{
builtin_subgroup_size_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInSubgroupSize, var.self);
has_subgroup_size = true;
}
if (need_multiview)
{
switch (builtin)
{
case BuiltInInstanceIndex:
// The view index here is derived from the instance index.
builtin_instance_idx_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInInstanceIndex, var.self);
has_instance_idx = true;
break;
case BuiltInBaseInstance:
// If a non-zero base instance is used, we need to adjust for it when calculating the view index.
builtin_base_instance_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInBaseInstance, var.self);
has_base_instance = true;
break;
case BuiltInViewIndex:
builtin_view_idx_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInViewIndex, var.self);
has_view_idx = true;
break;
default:
break;
}
}
if (needs_helper_invocation && builtin == BuiltInHelperInvocation)
{
builtin_helper_invocation_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInHelperInvocation, var.self);
has_helper_invocation = true;
}
if (need_local_invocation_index && builtin == BuiltInLocalInvocationIndex)
{
builtin_local_invocation_index_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInLocalInvocationIndex, var.self);
has_local_invocation_index = true;
}
if (need_workgroup_size && builtin == BuiltInLocalInvocationId)
{
builtin_workgroup_size_id = var.self;
mark_implicit_builtin(StorageClassInput, BuiltInWorkgroupSize, var.self);
has_workgroup_size = true;
}
// The base workgroup needs to have the same type and vector size
// as the workgroup or invocation ID, so keep track of the type that
// was used.
if (need_dispatch_base && workgroup_id_type == 0 &&
(builtin == BuiltInWorkgroupId || builtin == BuiltInGlobalInvocationId))
workgroup_id_type = var.basetype;
});
// Use Metal's native frame-buffer fetch API for subpass inputs.
if ((!has_frag_coord || (msl_options.multiview && !has_view_idx) ||
(msl_options.arrayed_subpass_input && !msl_options.multiview && !has_layer)) &&
(!msl_options.use_framebuffer_fetch_subpasses) && need_subpass_input)
{
if (!has_frag_coord)
{
uint32_t offset = ir.increase_bound_by(3);
uint32_t type_id = offset;
uint32_t type_ptr_id = offset + 1;
uint32_t var_id = offset + 2;
// Create gl_FragCoord.
SPIRType vec4_type { OpTypeVector };
vec4_type.basetype = SPIRType::Float;
vec4_type.width = 32;
vec4_type.vecsize = 4;
set<SPIRType>(type_id, vec4_type);
SPIRType vec4_type_ptr = vec4_type;
vec4_type_ptr.op = OpTypePointer;
vec4_type_ptr.pointer = true;
vec4_type_ptr.pointer_depth++;
vec4_type_ptr.parent_type = type_id;
vec4_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, vec4_type_ptr);
ptr_type.self = type_id;
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInFragCoord);
builtin_frag_coord_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInFragCoord, var_id);
}
if (!has_layer && msl_options.arrayed_subpass_input && !msl_options.multiview)
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_Layer.
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInLayer);
builtin_layer_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInLayer, var_id);
}
if (!has_view_idx && msl_options.multiview)
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_ViewIndex.
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInViewIndex);
builtin_view_idx_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInViewIndex, var_id);
}
}
if (!has_sample_id && (need_sample_pos || needs_sample_id))
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_SampleID.
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInSampleId);
builtin_sample_id_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInSampleId, var_id);
}
if ((need_vertex_params && (!has_vertex_idx || !has_base_vertex || !has_instance_idx || !has_base_instance)) ||
(need_multiview && (!has_instance_idx || !has_base_instance || !has_view_idx)))
{
uint32_t type_ptr_id = ir.increase_bound_by(1);
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
if (need_vertex_params && !has_vertex_idx)
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_VertexIndex.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInVertexIndex);
builtin_vertex_idx_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInVertexIndex, var_id);
}
if (need_vertex_params && !has_base_vertex)
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_BaseVertex.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInBaseVertex);
builtin_base_vertex_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInBaseVertex, var_id);
}
if (!has_instance_idx) // Needed by both multiview and tessellation
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_InstanceIndex.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInInstanceIndex);
builtin_instance_idx_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInInstanceIndex, var_id);
}
if (!has_base_instance) // Needed by both multiview and tessellation
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_BaseInstance.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInBaseInstance);
builtin_base_instance_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInBaseInstance, var_id);
}
if (need_multiview)
{
// Multiview shaders are not allowed to write to gl_Layer, ostensibly because
// it is implicitly written from gl_ViewIndex, but we have to do that explicitly.
// Note that we can't just abuse gl_ViewIndex for this purpose: it's an input, but
// gl_Layer is an output in vertex-pipeline shaders.
uint32_t type_ptr_out_id = ir.increase_bound_by(2);
SPIRType uint_type_ptr_out = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr_out.pointer = true;
uint_type_ptr_out.pointer_depth++;
uint_type_ptr_out.parent_type = get_uint_type_id();
uint_type_ptr_out.storage = StorageClassOutput;
auto &ptr_out_type = set<SPIRType>(type_ptr_out_id, uint_type_ptr_out);
ptr_out_type.self = get_uint_type_id();
uint32_t var_id = type_ptr_out_id + 1;
set<SPIRVariable>(var_id, type_ptr_out_id, StorageClassOutput);
set_decoration(var_id, DecorationBuiltIn, BuiltInLayer);
builtin_layer_id = var_id;
mark_implicit_builtin(StorageClassOutput, BuiltInLayer, var_id);
}
if (need_multiview && !has_view_idx)
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_ViewIndex.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInViewIndex);
builtin_view_idx_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInViewIndex, var_id);
}
}
if ((need_tesc_params && (msl_options.multi_patch_workgroup || !has_invocation_id || !has_primitive_id)) ||
(need_tese_params && !has_primitive_id) || need_grid_params)
{
uint32_t type_ptr_id = ir.increase_bound_by(1);
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
if ((need_tesc_params && msl_options.multi_patch_workgroup) || need_grid_params)
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_GlobalInvocationID.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInGlobalInvocationId);
builtin_invocation_id_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInGlobalInvocationId, var_id);
}
else if (need_tesc_params && !has_invocation_id)
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_InvocationID.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInInvocationId);
builtin_invocation_id_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInInvocationId, var_id);
}
if ((need_tesc_params || need_tese_params) && !has_primitive_id)
{
uint32_t var_id = ir.increase_bound_by(1);
// Create gl_PrimitiveID.
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInPrimitiveId);
builtin_primitive_id_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInPrimitiveId, var_id);
}
if (need_grid_params)
{
uint32_t var_id = ir.increase_bound_by(1);
set<SPIRVariable>(var_id, build_extended_vector_type(get_uint_type_id(), 3), StorageClassInput);
set_extended_decoration(var_id, SPIRVCrossDecorationBuiltInStageInputSize);
get_entry_point().interface_variables.push_back(var_id);
set_name(var_id, "spvStageInputSize");
builtin_stage_input_size_id = var_id;
}
}
if (!has_subgroup_invocation_id && (need_subgroup_mask || needs_subgroup_invocation_id))
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_SubgroupInvocationID.
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInSubgroupLocalInvocationId);
builtin_subgroup_invocation_id_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInSubgroupLocalInvocationId, var_id);
}
if (!has_subgroup_size && (need_subgroup_ge_mask || needs_subgroup_size))
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_SubgroupSize.
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInSubgroupSize);
builtin_subgroup_size_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInSubgroupSize, var_id);
}
if (need_dispatch_base || need_vertex_base_params)
{
if (workgroup_id_type == 0)
workgroup_id_type = build_extended_vector_type(get_uint_type_id(), 3);
uint32_t var_id;
if (msl_options.supports_msl_version(1, 2))
{
// If we have MSL 1.2, we can (ab)use the [[grid_origin]] builtin
// to convey this information and save a buffer slot.
uint32_t offset = ir.increase_bound_by(1);
var_id = offset;
set<SPIRVariable>(var_id, workgroup_id_type, StorageClassInput);
set_extended_decoration(var_id, SPIRVCrossDecorationBuiltInDispatchBase);
get_entry_point().interface_variables.push_back(var_id);
}
else
{
// Otherwise, we need to fall back to a good ol' fashioned buffer.
uint32_t offset = ir.increase_bound_by(2);
var_id = offset;
uint32_t type_id = offset + 1;
SPIRType var_type = get<SPIRType>(workgroup_id_type);
var_type.storage = StorageClassUniform;
set<SPIRType>(type_id, var_type);
set<SPIRVariable>(var_id, type_id, StorageClassUniform);
// This should never match anything.
set_decoration(var_id, DecorationDescriptorSet, ~(5u));
set_decoration(var_id, DecorationBinding, msl_options.indirect_params_buffer_index);
set_extended_decoration(var_id, SPIRVCrossDecorationResourceIndexPrimary,
msl_options.indirect_params_buffer_index);
}
set_name(var_id, "spvDispatchBase");
builtin_dispatch_base_id = var_id;
}
if (has_additional_fixed_sample_mask() && !does_shader_write_sample_mask)
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t var_id = offset + 1;
// Create gl_SampleMask.
SPIRType uint_type_ptr_out = get_uint_type();
uint_type_ptr_out.op = OpTypePointer;
uint_type_ptr_out.pointer = true;
uint_type_ptr_out.pointer_depth++;
uint_type_ptr_out.parent_type = get_uint_type_id();
uint_type_ptr_out.storage = StorageClassOutput;
auto &ptr_out_type = set<SPIRType>(offset, uint_type_ptr_out);
ptr_out_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, offset, StorageClassOutput);
set_decoration(var_id, DecorationBuiltIn, BuiltInSampleMask);
builtin_sample_mask_id = var_id;
mark_implicit_builtin(StorageClassOutput, BuiltInSampleMask, var_id);
}
if (!has_helper_invocation && needs_helper_invocation)
{
uint32_t offset = ir.increase_bound_by(3);
uint32_t type_id = offset;
uint32_t type_ptr_id = offset + 1;
uint32_t var_id = offset + 2;
// Create gl_HelperInvocation.
SPIRType bool_type { OpTypeBool };
bool_type.basetype = SPIRType::Boolean;
bool_type.width = 8;
bool_type.vecsize = 1;
set<SPIRType>(type_id, bool_type);
SPIRType bool_type_ptr_in = bool_type;
bool_type_ptr_in.op = spv::OpTypePointer;
bool_type_ptr_in.pointer = true;
bool_type_ptr_in.pointer_depth++;
bool_type_ptr_in.parent_type = type_id;
bool_type_ptr_in.storage = StorageClassInput;
auto &ptr_in_type = set<SPIRType>(type_ptr_id, bool_type_ptr_in);
ptr_in_type.self = type_id;
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInHelperInvocation);
builtin_helper_invocation_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInHelperInvocation, var_id);
}
if (need_local_invocation_index && !has_local_invocation_index)
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_LocalInvocationIndex.
SPIRType uint_type_ptr = get_uint_type();
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = get_uint_type_id();
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = get_uint_type_id();
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInLocalInvocationIndex);
builtin_local_invocation_index_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInLocalInvocationIndex, var_id);
}
if (need_workgroup_size && !has_workgroup_size)
{
uint32_t offset = ir.increase_bound_by(2);
uint32_t type_ptr_id = offset;
uint32_t var_id = offset + 1;
// Create gl_WorkgroupSize.
uint32_t type_id = build_extended_vector_type(get_uint_type_id(), 3);
SPIRType uint_type_ptr = get<SPIRType>(type_id);
uint_type_ptr.op = OpTypePointer;
uint_type_ptr.pointer = true;
uint_type_ptr.pointer_depth++;
uint_type_ptr.parent_type = type_id;
uint_type_ptr.storage = StorageClassInput;
auto &ptr_type = set<SPIRType>(type_ptr_id, uint_type_ptr);
ptr_type.self = type_id;
set<SPIRVariable>(var_id, type_ptr_id, StorageClassInput);
set_decoration(var_id, DecorationBuiltIn, BuiltInWorkgroupSize);
builtin_workgroup_size_id = var_id;
mark_implicit_builtin(StorageClassInput, BuiltInWorkgroupSize, var_id);
}
if (!has_frag_depth && force_frag_depth_passthrough)
{
uint32_t offset = ir.increase_bound_by(3);
uint32_t type_id = offset;
uint32_t type_ptr_id = offset + 1;
uint32_t var_id = offset + 2;
// Create gl_FragDepth
SPIRType float_type { OpTypeFloat };
float_type.basetype = SPIRType::Float;
float_type.width = 32;
float_type.vecsize = 1;
set<SPIRType>(type_id, float_type);
SPIRType float_type_ptr_in = float_type;
float_type_ptr_in.op = spv::OpTypePointer;
float_type_ptr_in.pointer = true;
float_type_ptr_in.pointer_depth++;
float_type_ptr_in.parent_type = type_id;
float_type_ptr_in.storage = StorageClassOutput;
auto &ptr_in_type = set<SPIRType>(type_ptr_id, float_type_ptr_in);
ptr_in_type.self = type_id;
set<SPIRVariable>(var_id, type_ptr_id, StorageClassOutput);
set_decoration(var_id, DecorationBuiltIn, BuiltInFragDepth);
builtin_frag_depth_id = var_id;
mark_implicit_builtin(StorageClassOutput, BuiltInFragDepth, var_id);
active_output_builtins.set(BuiltInFragDepth);
}
}
if (needs_swizzle_buffer_def)
{
uint32_t var_id = build_constant_uint_array_pointer();
set_name(var_id, "spvSwizzleConstants");
// This should never match anything.
set_decoration(var_id, DecorationDescriptorSet, kSwizzleBufferBinding);
set_decoration(var_id, DecorationBinding, msl_options.swizzle_buffer_index);
set_extended_decoration(var_id, SPIRVCrossDecorationResourceIndexPrimary, msl_options.swizzle_buffer_index);
swizzle_buffer_id = var_id;
}
if (needs_buffer_size_buffer())
{
uint32_t var_id = build_constant_uint_array_pointer();
set_name(var_id, "spvBufferSizeConstants");
// This should never match anything.
set_decoration(var_id, DecorationDescriptorSet, kBufferSizeBufferBinding);
set_decoration(var_id, DecorationBinding, msl_options.buffer_size_buffer_index);
set_extended_decoration(var_id, SPIRVCrossDecorationResourceIndexPrimary, msl_options.buffer_size_buffer_index);
buffer_size_buffer_id = var_id;
}
if (needs_view_mask_buffer())
{
uint32_t var_id = build_constant_uint_array_pointer();
set_name(var_id, "spvViewMask");
// This should never match anything.
set_decoration(var_id, DecorationDescriptorSet, ~(4u));
set_decoration(var_id, DecorationBinding, msl_options.view_mask_buffer_index);
set_extended_decoration(var_id, SPIRVCrossDecorationResourceIndexPrimary, msl_options.view_mask_buffer_index);
view_mask_buffer_id = var_id;
}
if (!buffers_requiring_dynamic_offset.empty())
{
uint32_t var_id = build_constant_uint_array_pointer();
set_name(var_id, "spvDynamicOffsets");
// This should never match anything.
set_decoration(var_id, DecorationDescriptorSet, ~(5u));
set_decoration(var_id, DecorationBinding, msl_options.dynamic_offsets_buffer_index);
set_extended_decoration(var_id, SPIRVCrossDecorationResourceIndexPrimary,
msl_options.dynamic_offsets_buffer_index);
dynamic_offsets_buffer_id = var_id;