src/tint/lang/spirv/writer/raise/shader_io.cc - dawn - Git at Google

 // Copyright 2023 The Tint Authors.
 //
 // 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.

 #include "src/tint/lang/spirv/writer/raise/shader_io.h"

 #include <memory>
 #include <utility>

 #include "src/tint/lang/core/ir/builder.h"
 #include "src/tint/lang/core/ir/module.h"
 #include "src/tint/lang/core/ir/transform/shader_io.h"
 #include "src/tint/lang/core/ir/validator.h"
 #include "src/tint/lang/core/type/array.h"
 #include "src/tint/lang/core/type/struct.h"

 using namespace tint::core::fluent_types;  // NOLINT
 using namespace tint::core::number_suffixes;  // NOLINT

 namespace tint::spirv::writer::raise {

 namespace {

 /// PIMPL state for the parts of the shader IO transform specific to SPIR-V.
 /// For SPIR-V, we split builtins and locations into two separate structures each for input and
 /// output, and declare global variables for them. The wrapper entry point then loads from and
 /// stores to these variables.
 /// We also modify the type of the SampleMask builtin to be an array, as required by Vulkan.
 struct StateImpl : ir::transform::ShaderIOBackendState {
     /// The global variable for input builtins.
     ir::Var* builtin_input_var = nullptr;
     /// The global variable for input locations.
     ir::Var* location_input_var = nullptr;
     /// The global variable for output builtins.
     ir::Var* builtin_output_var = nullptr;
     /// The global variable for output locations.
     ir::Var* location_output_var = nullptr;
     /// The member indices for inputs.
     Vector<uint32_t, 4> input_indices;
     /// The member indices for outputs.
     Vector<uint32_t, 4> output_indices;

     /// The configuration options.
     const ShaderIOConfig& config;

     /// The frag_depth clamp arguments.
     ir::Value* frag_depth_clamp_args = nullptr;

     /// Constructor
     StateImpl(ir::Module* mod, ir::Function* f, const ShaderIOConfig& cfg)
         : ShaderIOBackendState(mod, f), config(cfg) {}

     /// Destructor
     ~StateImpl() override {}

     /// Split the members listed in @p entries into two separate structures for builtins and
     /// locations, and make global variables for them. Record the new member indices in @p indices.
     /// @param builtin_var the generated global variable for builtins
     /// @param location_var the generated global variable for locations
     /// @param indices the new member indices
     /// @param entries the entries to split
     /// @param addrspace the address to use for the global variables
     /// @param access the access mode to use for the global variables
     /// @param name_suffix the suffix to add to struct and variable names
     void MakeStructs(ir::Var*& builtin_var,
                      ir::Var*& location_var,
                      Vector<uint32_t, 4>* indices,
                      Vector<core::type::Manager::StructMemberDesc, 4>& entries,
                      core::AddressSpace addrspace,
                      core::Access access,
                      const char* name_suffix) {
         // Build separate lists of builtin and location entries and record their new indices.
         uint32_t next_builtin_idx = 0;
         uint32_t next_location_idx = 0;
         Vector<core::type::Manager::StructMemberDesc, 4> builtin_members;
         Vector<core::type::Manager::StructMemberDesc, 4> location_members;
         for (auto io : entries) {
             if (io.attributes.builtin) {
                 // SampleMask must be an array for Vulkan.
                 if (io.attributes.builtin.value() == core::BuiltinValue::kSampleMask) {
                     io.type = ty.array<u32, 1>();
                 }
                 builtin_members.Push(io);
                 indices->Push(next_builtin_idx++);
             } else {
                 location_members.Push(io);
                 indices->Push(next_location_idx++);
             }
         }

         // Declare the structs and variables if needed.
         auto make_struct = [&](auto& members, const char* iotype) {
             auto name = ir->NameOf(func).Name() + iotype + name_suffix;
             auto* str = ty.Struct(ir->symbols.New(name + "Struct"), std::move(members));
             auto* var = b.Var(name, ty.ptr(addrspace, str, access));
             str->SetStructFlag(core::type::kBlock);
             b.RootBlock()->Append(var);
             return var;
         };
         if (!builtin_members.IsEmpty()) {
             builtin_var = make_struct(builtin_members, "_Builtin");
         }
         if (!location_members.IsEmpty()) {
             location_var = make_struct(location_members, "_Location");
         }
     }

     /// @copydoc ShaderIO::BackendState::FinalizeInputs
     Vector<ir::FunctionParam*, 4> FinalizeInputs() override {
         MakeStructs(builtin_input_var, location_input_var, &input_indices, inputs,
                     core::AddressSpace::kIn, core::Access::kRead, "Inputs");
         return tint::Empty;
     }

     /// @copydoc ShaderIO::BackendState::FinalizeOutputs
     ir::Value* FinalizeOutputs() override {
         MakeStructs(builtin_output_var, location_output_var, &output_indices, outputs,
                     core::AddressSpace::kOut, core::Access::kWrite, "Outputs");
         return nullptr;
     }

     /// @copydoc ShaderIO::BackendState::GetInput
     ir::Value* GetInput(ir::Builder& builder, uint32_t idx) override {
         // Load the input from the global variable declared earlier.
         auto* ptr = ty.ptr(core::AddressSpace::kIn, inputs[idx].type, core::Access::kRead);
         ir::Access* from = nullptr;
         if (inputs[idx].attributes.builtin) {
             if (inputs[idx].attributes.builtin.value() == core::BuiltinValue::kSampleMask) {
                 // SampleMask becomes an array for SPIR-V, so load from the first element.
                 from = builder.Access(ptr, builtin_input_var, u32(input_indices[idx]), 0_u);
             } else {
                 from = builder.Access(ptr, builtin_input_var, u32(input_indices[idx]));
             }
         } else {
             from = builder.Access(ptr, location_input_var, u32(input_indices[idx]));
         }
         return builder.Load(from)->Result();
     }

     /// @copydoc ShaderIO::BackendState::SetOutput
     void SetOutput(ir::Builder& builder, uint32_t idx, ir::Value* value) override {
         // Store the output to the global variable declared earlier.
         auto* ptr = ty.ptr(core::AddressSpace::kOut, outputs[idx].type, core::Access::kWrite);
         ir::Access* to = nullptr;
         if (outputs[idx].attributes.builtin) {
             if (outputs[idx].attributes.builtin.value() == core::BuiltinValue::kSampleMask) {
                 // SampleMask becomes an array for SPIR-V, so store to the first element.
                 to = builder.Access(ptr, builtin_output_var, u32(output_indices[idx]), 0_u);
             } else {
                 to = builder.Access(ptr, builtin_output_var, u32(output_indices[idx]));
             }

             // Clamp frag_depth values if necessary.
             if (outputs[idx].attributes.builtin.value() == core::BuiltinValue::kFragDepth) {
                 value = ClampFragDepth(builder, value);
             }
         } else {
             to = builder.Access(ptr, location_output_var, u32(output_indices[idx]));
         }
         builder.Store(to, value);
     }

     /// Clamp a frag_depth builtin value if necessary.
     /// @param builder the builder to use for new instructions
     /// @param frag_depth the incoming frag_depth value
     /// @returns the clamped value
     ir::Value* ClampFragDepth(ir::Builder& builder, ir::Value* frag_depth) {
         if (!config.clamp_frag_depth) {
             return frag_depth;
         }

         // Create the clamp args struct and variable.
         if (!frag_depth_clamp_args) {
             // Check that there are no push constants in the module already.
             for (auto* inst : *b.RootBlock()) {
                 if (auto* var = inst->As<ir::Var>()) {
                     auto* ptr = var->Result()->Type()->As<core::type::Pointer>();
                     if (ptr->AddressSpace() == core::AddressSpace::kPushConstant) {
                         TINT_ICE() << "cannot clamp frag_depth with pre-existing push constants";
                     }
                 }
             }

             // Declare the struct.
             auto* str = ty.Struct(ir->symbols.Register("FragDepthClampArgs"),
                                   {
                                       {ir->symbols.Register("min"), ty.f32()},
                                       {ir->symbols.Register("max"), ty.f32()},
                                   });
             str->SetStructFlag(core::type::kBlock);

             // Declare the variable.
             auto* var = b.Var("tint_frag_depth_clamp_args", ty.ptr(push_constant, str));
             b.RootBlock()->Append(var);
             frag_depth_clamp_args = var->Result();
         }

         // Clamp the value.
         auto* args = builder.Load(frag_depth_clamp_args);
         auto* frag_depth_min = builder.Access(ty.f32(), args, 0_u);
         auto* frag_depth_max = builder.Access(ty.f32(), args, 1_u);
         return builder
             .Call(ty.f32(), core::Function::kClamp, frag_depth, frag_depth_min, frag_depth_max)
             ->Result();
     }
 };
 }  // namespace

 Result<SuccessType, std::string> ShaderIO(ir::Module* ir, const ShaderIOConfig& config) {
     auto result = ValidateAndDumpIfNeeded(*ir, "ShaderIO transform");
     if (!result) {
         return result;
     }

     ir::transform::RunShaderIOBase(ir, [&](ir::Module* mod, ir::Function* func) {
         return std::make_unique<StateImpl>(mod, func, config);
     });

     return Success;
 }

 }  // namespace tint::spirv::writer::raise
	// Copyright 2023 The Tint Authors.
	//
	// 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.

	#include "src/tint/lang/spirv/writer/raise/shader_io.h"

	#include <memory>
	#include <utility>

	#include "src/tint/lang/core/ir/builder.h"
	#include "src/tint/lang/core/ir/module.h"
	#include "src/tint/lang/core/ir/transform/shader_io.h"
	#include "src/tint/lang/core/ir/validator.h"
	#include "src/tint/lang/core/type/array.h"
	#include "src/tint/lang/core/type/struct.h"

	using namespace tint::core::fluent_types; // NOLINT
	using namespace tint::core::number_suffixes; // NOLINT

	namespace tint::spirv::writer::raise {

	namespace {

	/// PIMPL state for the parts of the shader IO transform specific to SPIR-V.
	/// For SPIR-V, we split builtins and locations into two separate structures each for input and
	/// output, and declare global variables for them. The wrapper entry point then loads from and
	/// stores to these variables.
	/// We also modify the type of the SampleMask builtin to be an array, as required by Vulkan.
	struct StateImpl : ir::transform::ShaderIOBackendState {
	/// The global variable for input builtins.
	ir::Var* builtin_input_var = nullptr;
	/// The global variable for input locations.
	ir::Var* location_input_var = nullptr;
	/// The global variable for output builtins.
	ir::Var* builtin_output_var = nullptr;
	/// The global variable for output locations.
	ir::Var* location_output_var = nullptr;
	/// The member indices for inputs.
	Vector<uint32_t, 4> input_indices;
	/// The member indices for outputs.
	Vector<uint32_t, 4> output_indices;

	/// The configuration options.
	const ShaderIOConfig& config;

	/// The frag_depth clamp arguments.
	ir::Value* frag_depth_clamp_args = nullptr;

	/// Constructor
	StateImpl(ir::Module* mod, ir::Function* f, const ShaderIOConfig& cfg)
	: ShaderIOBackendState(mod, f), config(cfg) {}

	/// Destructor
	~StateImpl() override {}

	/// Split the members listed in @p entries into two separate structures for builtins and
	/// locations, and make global variables for them. Record the new member indices in @p indices.
	/// @param builtin_var the generated global variable for builtins
	/// @param location_var the generated global variable for locations
	/// @param indices the new member indices
	/// @param entries the entries to split
	/// @param addrspace the address to use for the global variables
	/// @param access the access mode to use for the global variables
	/// @param name_suffix the suffix to add to struct and variable names
	void MakeStructs(ir::Var*& builtin_var,
	ir::Var*& location_var,
	Vector<uint32_t, 4>* indices,
	Vector<core::type::Manager::StructMemberDesc, 4>& entries,
	core::AddressSpace addrspace,
	core::Access access,
	const char* name_suffix) {
	// Build separate lists of builtin and location entries and record their new indices.
	uint32_t next_builtin_idx = 0;
	uint32_t next_location_idx = 0;
	Vector<core::type::Manager::StructMemberDesc, 4> builtin_members;
	Vector<core::type::Manager::StructMemberDesc, 4> location_members;
	for (auto io : entries) {
	if (io.attributes.builtin) {
	// SampleMask must be an array for Vulkan.
	if (io.attributes.builtin.value() == core::BuiltinValue::kSampleMask) {
	io.type = ty.array<u32, 1>();
	}
	builtin_members.Push(io);
	indices->Push(next_builtin_idx++);
	} else {
	location_members.Push(io);
	indices->Push(next_location_idx++);
	}
	}

	// Declare the structs and variables if needed.
	auto make_struct = [&](auto& members, const char* iotype) {
	auto name = ir->NameOf(func).Name() + iotype + name_suffix;
	auto* str = ty.Struct(ir->symbols.New(name + "Struct"), std::move(members));
	auto* var = b.Var(name, ty.ptr(addrspace, str, access));
	str->SetStructFlag(core::type::kBlock);
	b.RootBlock()->Append(var);
	return var;
	};
	if (!builtin_members.IsEmpty()) {
	builtin_var = make_struct(builtin_members, "_Builtin");
	}
	if (!location_members.IsEmpty()) {
	location_var = make_struct(location_members, "_Location");
	}
	}

	/// @copydoc ShaderIO::BackendState::FinalizeInputs
	Vector<ir::FunctionParam*, 4> FinalizeInputs() override {
	MakeStructs(builtin_input_var, location_input_var, &input_indices, inputs,
	core::AddressSpace::kIn, core::Access::kRead, "Inputs");
	return tint::Empty;
	}

	/// @copydoc ShaderIO::BackendState::FinalizeOutputs
	ir::Value* FinalizeOutputs() override {
	MakeStructs(builtin_output_var, location_output_var, &output_indices, outputs,
	core::AddressSpace::kOut, core::Access::kWrite, "Outputs");
	return nullptr;
	}

	/// @copydoc ShaderIO::BackendState::GetInput
	ir::Value* GetInput(ir::Builder& builder, uint32_t idx) override {
	// Load the input from the global variable declared earlier.
	auto* ptr = ty.ptr(core::AddressSpace::kIn, inputs[idx].type, core::Access::kRead);
	ir::Access* from = nullptr;
	if (inputs[idx].attributes.builtin) {
	if (inputs[idx].attributes.builtin.value() == core::BuiltinValue::kSampleMask) {
	// SampleMask becomes an array for SPIR-V, so load from the first element.
	from = builder.Access(ptr, builtin_input_var, u32(input_indices[idx]), 0_u);
	} else {
	from = builder.Access(ptr, builtin_input_var, u32(input_indices[idx]));
	}
	} else {
	from = builder.Access(ptr, location_input_var, u32(input_indices[idx]));
	}
	return builder.Load(from)->Result();
	}

	/// @copydoc ShaderIO::BackendState::SetOutput
	void SetOutput(ir::Builder& builder, uint32_t idx, ir::Value* value) override {
	// Store the output to the global variable declared earlier.
	auto* ptr = ty.ptr(core::AddressSpace::kOut, outputs[idx].type, core::Access::kWrite);
	ir::Access* to = nullptr;
	if (outputs[idx].attributes.builtin) {
	if (outputs[idx].attributes.builtin.value() == core::BuiltinValue::kSampleMask) {
	// SampleMask becomes an array for SPIR-V, so store to the first element.
	to = builder.Access(ptr, builtin_output_var, u32(output_indices[idx]), 0_u);
	} else {
	to = builder.Access(ptr, builtin_output_var, u32(output_indices[idx]));
	}

	// Clamp frag_depth values if necessary.
	if (outputs[idx].attributes.builtin.value() == core::BuiltinValue::kFragDepth) {
	value = ClampFragDepth(builder, value);
	}
	} else {
	to = builder.Access(ptr, location_output_var, u32(output_indices[idx]));
	}
	builder.Store(to, value);
	}

	/// Clamp a frag_depth builtin value if necessary.
	/// @param builder the builder to use for new instructions
	/// @param frag_depth the incoming frag_depth value
	/// @returns the clamped value
	ir::Value* ClampFragDepth(ir::Builder& builder, ir::Value* frag_depth) {
	if (!config.clamp_frag_depth) {
	return frag_depth;
	}

	// Create the clamp args struct and variable.
	if (!frag_depth_clamp_args) {
	// Check that there are no push constants in the module already.
	for (auto* inst : *b.RootBlock()) {
	if (auto* var = inst->As<ir::Var>()) {
	auto* ptr = var->Result()->Type()->As<core::type::Pointer>();
	if (ptr->AddressSpace() == core::AddressSpace::kPushConstant) {
	TINT_ICE() << "cannot clamp frag_depth with pre-existing push constants";
	}
	}
	}

	// Declare the struct.
	auto* str = ty.Struct(ir->symbols.Register("FragDepthClampArgs"),
	{
	{ir->symbols.Register("min"), ty.f32()},
	{ir->symbols.Register("max"), ty.f32()},
	});
	str->SetStructFlag(core::type::kBlock);

	// Declare the variable.
	auto* var = b.Var("tint_frag_depth_clamp_args", ty.ptr(push_constant, str));
	b.RootBlock()->Append(var);
	frag_depth_clamp_args = var->Result();
	}

	// Clamp the value.
	auto* args = builder.Load(frag_depth_clamp_args);
	auto* frag_depth_min = builder.Access(ty.f32(), args, 0_u);
	auto* frag_depth_max = builder.Access(ty.f32(), args, 1_u);
	return builder
	.Call(ty.f32(), core::Function::kClamp, frag_depth, frag_depth_min, frag_depth_max)
	->Result();
	}
	};
	} // namespace

	Result<SuccessType, std::string> ShaderIO(ir::Module* ir, const ShaderIOConfig& config) {
	auto result = ValidateAndDumpIfNeeded(*ir, "ShaderIO transform");
	if (!result) {
	return result;
	}

	ir::transform::RunShaderIOBase(ir, [&](ir::Module* mod, ir::Function* func) {
	return std::make_unique<StateImpl>(mod, func, config);
	});

	return Success;
	}

	} // namespace tint::spirv::writer::raise