src/transform/array_length_from_uniform.cc - tint - Git at Google

 // Copyright 2021 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/transform/array_length_from_uniform.h"

 #include <memory>
 #include <string>
 #include <utility>

 #include "src/ast/struct_block_decoration.h"
 #include "src/program_builder.h"
 #include "src/sem/call.h"
 #include "src/sem/variable.h"
 #include "src/transform/inline_pointer_lets.h"
 #include "src/transform/simplify.h"

 TINT_INSTANTIATE_TYPEINFO(tint::transform::ArrayLengthFromUniform);
 TINT_INSTANTIATE_TYPEINFO(tint::transform::ArrayLengthFromUniform::Config);
 TINT_INSTANTIATE_TYPEINFO(tint::transform::ArrayLengthFromUniform::Result);

 namespace tint {
 namespace transform {

 ArrayLengthFromUniform::ArrayLengthFromUniform() = default;
 ArrayLengthFromUniform::~ArrayLengthFromUniform() = default;

 void ArrayLengthFromUniform::Run(CloneContext& ctx,
                                  const DataMap& inputs,
                                  DataMap& outputs) {
   if (!Requires<InlinePointerLets, Simplify>(ctx)) {
     return;
   }

   auto* cfg = inputs.Get<Config>();
   if (cfg == nullptr) {
     ctx.dst->Diagnostics().add_error(
         diag::System::Transform,
         "missing transform data for " + std::string(TypeInfo().name));
     return;
   }

   auto& sem = ctx.src->Sem();

   const char* kBufferSizeMemberName = "buffer_size";

   // Determine the size of the buffer size array.
   uint32_t max_buffer_size_index = 0;
   for (auto& idx : cfg->bindpoint_to_size_index) {
     if (idx.second > max_buffer_size_index) {
       max_buffer_size_index = idx.second;
     }
   }

   // Get (or create, on first call) the uniform buffer that will receive the
   // size of each storage buffer in the module.
   ast::Variable* buffer_size_ubo = nullptr;
   auto get_ubo = [&]() {
     if (!buffer_size_ubo) {
       // Emit an array<vec4<u32>, N>, where N is 1/4 number of elements.
       // We do this because UBOs require an element stride that is 16-byte
       // aligned.
       auto* buffer_size_struct = ctx.dst->Structure(
           ctx.dst->Sym(),
           {ctx.dst->Member(
               kBufferSizeMemberName,
               ctx.dst->ty.array(ctx.dst->ty.vec4(ctx.dst->ty.u32()),
                                 (max_buffer_size_index / 4) + 1))},

           ast::DecorationList{ctx.dst->create<ast::StructBlockDecoration>()});
       buffer_size_ubo = ctx.dst->Global(
           ctx.dst->Sym(), ctx.dst->ty.Of(buffer_size_struct),
           ast::StorageClass::kUniform,
           ast::DecorationList{
               ctx.dst->create<ast::GroupDecoration>(cfg->ubo_binding.group),
               ctx.dst->create<ast::BindingDecoration>(
                   cfg->ubo_binding.binding)});
     }
     return buffer_size_ubo;
   };

   // Find all calls to the arrayLength() intrinsic.
   for (auto* node : ctx.src->ASTNodes().Objects()) {
     auto* call_expr = node->As<ast::CallExpression>();
     if (!call_expr) {
       continue;
     }

     auto* call = sem.Get(call_expr);
     auto* intrinsic = call->Target()->As<sem::Intrinsic>();
     if (!intrinsic || intrinsic->Type() != sem::IntrinsicType::kArrayLength) {
       continue;
     }

     // Get the storage buffer that contains the runtime array.
     // We assume that the argument to `arrayLength` has the form
     // `&resource.array`, which requires that `InlinePointerLets` and
     // `Simplify` have been run before this transform.
     auto* param = call_expr->params()[0]->As<ast::UnaryOpExpression>();
     if (!param || param->op() != ast::UnaryOp::kAddressOf) {
       TINT_ICE(Transform, ctx.dst->Diagnostics())
           << "expected form of arrayLength argument to be "
              "&resource.array";
       break;
     }
     auto* accessor = param->expr()->As<ast::MemberAccessorExpression>();
     if (!accessor) {
       TINT_ICE(Transform, ctx.dst->Diagnostics())
           << "expected form of arrayLength argument to be "
              "&resource.array";
       break;
     }
     auto* storage_buffer_expr = accessor->structure();
     auto* storage_buffer_sem =
         sem.Get(storage_buffer_expr)->As<sem::VariableUser>();
     if (!storage_buffer_sem) {
       TINT_ICE(Transform, ctx.dst->Diagnostics())
           << "expected form of arrayLength argument to be "
              "&resource.array";
       break;
     }

     // Get the index to use for the buffer size array.
     auto* var = tint::As<sem::GlobalVariable>(storage_buffer_sem->Variable());
     if (!var) {
       TINT_ICE(Transform, ctx.dst->Diagnostics())
           << "storage buffer is not a global variable";
       break;
     }
     auto binding = var->BindingPoint();
     auto idx_itr = cfg->bindpoint_to_size_index.find(binding);
     if (idx_itr == cfg->bindpoint_to_size_index.end()) {
       ctx.dst->Diagnostics().add_error(
           diag::System::Transform,
           "missing size index mapping for binding point (" +
               std::to_string(binding.group) + "," +
               std::to_string(binding.binding) + ")");
       continue;
     }

     // Load the total storage buffer size from the UBO.
     uint32_t array_index = idx_itr->second / 4;
     auto* vec_expr = ctx.dst->IndexAccessor(
         ctx.dst->MemberAccessor(get_ubo()->symbol(), kBufferSizeMemberName),
         array_index);
     uint32_t vec_index = idx_itr->second % 4;
     auto* total_storage_buffer_size =
         ctx.dst->IndexAccessor(vec_expr, vec_index);

     // Calculate actual array length
     //                total_storage_buffer_size - array_offset
     // array_length = ----------------------------------------
     //                             array_stride
     auto* storage_buffer_type =
         storage_buffer_sem->Type()->UnwrapRef()->As<sem::Struct>();
     auto* array_member_sem = storage_buffer_type->Members().back();
     uint32_t array_offset = array_member_sem->Offset();
     uint32_t array_stride = array_member_sem->Size();
     auto* array_length = ctx.dst->Div(
         ctx.dst->Sub(total_storage_buffer_size, array_offset), array_stride);

     ctx.Replace(call_expr, array_length);
   }

   ctx.Clone();

   outputs.Add<Result>(buffer_size_ubo ? true : false);
 }

 ArrayLengthFromUniform::Config::Config(sem::BindingPoint ubo_bp)
     : ubo_binding(ubo_bp) {}
 ArrayLengthFromUniform::Config::Config(const Config&) = default;
 ArrayLengthFromUniform::Config::~Config() = default;

 ArrayLengthFromUniform::Result::Result(bool needs_sizes)
     : needs_buffer_sizes(needs_sizes) {}
 ArrayLengthFromUniform::Result::Result(const Result&) = default;
 ArrayLengthFromUniform::Result::~Result() = default;

 }  // namespace transform
 }  // namespace tint
	// Copyright 2021 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/transform/array_length_from_uniform.h"

	#include <memory>
	#include <string>
	#include <utility>

	#include "src/ast/struct_block_decoration.h"
	#include "src/program_builder.h"
	#include "src/sem/call.h"
	#include "src/sem/variable.h"
	#include "src/transform/inline_pointer_lets.h"
	#include "src/transform/simplify.h"

	TINT_INSTANTIATE_TYPEINFO(tint::transform::ArrayLengthFromUniform);
	TINT_INSTANTIATE_TYPEINFO(tint::transform::ArrayLengthFromUniform::Config);
	TINT_INSTANTIATE_TYPEINFO(tint::transform::ArrayLengthFromUniform::Result);

	namespace tint {
	namespace transform {

	ArrayLengthFromUniform::ArrayLengthFromUniform() = default;
	ArrayLengthFromUniform::~ArrayLengthFromUniform() = default;

	void ArrayLengthFromUniform::Run(CloneContext& ctx,
	const DataMap& inputs,
	DataMap& outputs) {
	if (!Requires<InlinePointerLets, Simplify>(ctx)) {
	return;
	}

	auto* cfg = inputs.Get<Config>();
	if (cfg == nullptr) {
	ctx.dst->Diagnostics().add_error(
	diag::System::Transform,
	"missing transform data for " + std::string(TypeInfo().name));
	return;
	}

	auto& sem = ctx.src->Sem();

	const char* kBufferSizeMemberName = "buffer_size";

	// Determine the size of the buffer size array.
	uint32_t max_buffer_size_index = 0;
	for (auto& idx : cfg->bindpoint_to_size_index) {
	if (idx.second > max_buffer_size_index) {
	max_buffer_size_index = idx.second;
	}
	}

	// Get (or create, on first call) the uniform buffer that will receive the
	// size of each storage buffer in the module.
	ast::Variable* buffer_size_ubo = nullptr;
	auto get_ubo = [&]() {
	if (!buffer_size_ubo) {
	// Emit an array<vec4<u32>, N>, where N is 1/4 number of elements.
	// We do this because UBOs require an element stride that is 16-byte
	// aligned.
	auto* buffer_size_struct = ctx.dst->Structure(
	ctx.dst->Sym(),
	{ctx.dst->Member(
	kBufferSizeMemberName,
	ctx.dst->ty.array(ctx.dst->ty.vec4(ctx.dst->ty.u32()),
	(max_buffer_size_index / 4) + 1))},

	ast::DecorationList{ctx.dst->create<ast::StructBlockDecoration>()});
	buffer_size_ubo = ctx.dst->Global(
	ctx.dst->Sym(), ctx.dst->ty.Of(buffer_size_struct),
	ast::StorageClass::kUniform,
	ast::DecorationList{
	ctx.dst->create<ast::GroupDecoration>(cfg->ubo_binding.group),
	ctx.dst->create<ast::BindingDecoration>(
	cfg->ubo_binding.binding)});
	}
	return buffer_size_ubo;
	};

	// Find all calls to the arrayLength() intrinsic.
	for (auto* node : ctx.src->ASTNodes().Objects()) {
	auto* call_expr = node->As<ast::CallExpression>();
	if (!call_expr) {
	continue;
	}

	auto* call = sem.Get(call_expr);
	auto* intrinsic = call->Target()->As<sem::Intrinsic>();
	if (!intrinsic \|\| intrinsic->Type() != sem::IntrinsicType::kArrayLength) {
	continue;
	}

	// Get the storage buffer that contains the runtime array.
	// We assume that the argument to `arrayLength` has the form
	// `&resource.array`, which requires that `InlinePointerLets` and
	// `Simplify` have been run before this transform.
	auto* param = call_expr->params()[0]->As<ast::UnaryOpExpression>();
	if (!param \|\| param->op() != ast::UnaryOp::kAddressOf) {
	TINT_ICE(Transform, ctx.dst->Diagnostics())
	<< "expected form of arrayLength argument to be "
	"&resource.array";
	break;
	}
	auto* accessor = param->expr()->As<ast::MemberAccessorExpression>();
	if (!accessor) {
	TINT_ICE(Transform, ctx.dst->Diagnostics())
	<< "expected form of arrayLength argument to be "
	"&resource.array";
	break;
	}
	auto* storage_buffer_expr = accessor->structure();
	auto* storage_buffer_sem =
	sem.Get(storage_buffer_expr)->As<sem::VariableUser>();
	if (!storage_buffer_sem) {
	TINT_ICE(Transform, ctx.dst->Diagnostics())
	<< "expected form of arrayLength argument to be "
	"&resource.array";
	break;
	}

	// Get the index to use for the buffer size array.
	auto* var = tint::As<sem::GlobalVariable>(storage_buffer_sem->Variable());
	if (!var) {
	TINT_ICE(Transform, ctx.dst->Diagnostics())
	<< "storage buffer is not a global variable";
	break;
	}
	auto binding = var->BindingPoint();
	auto idx_itr = cfg->bindpoint_to_size_index.find(binding);
	if (idx_itr == cfg->bindpoint_to_size_index.end()) {
	ctx.dst->Diagnostics().add_error(
	diag::System::Transform,
	"missing size index mapping for binding point (" +
	std::to_string(binding.group) + "," +
	std::to_string(binding.binding) + ")");
	continue;
	}

	// Load the total storage buffer size from the UBO.
	uint32_t array_index = idx_itr->second / 4;
	auto* vec_expr = ctx.dst->IndexAccessor(
	ctx.dst->MemberAccessor(get_ubo()->symbol(), kBufferSizeMemberName),
	array_index);
	uint32_t vec_index = idx_itr->second % 4;
	auto* total_storage_buffer_size =
	ctx.dst->IndexAccessor(vec_expr, vec_index);

	// Calculate actual array length
	// total_storage_buffer_size - array_offset
	// array_length = ----------------------------------------
	// array_stride
	auto* storage_buffer_type =
	storage_buffer_sem->Type()->UnwrapRef()->As<sem::Struct>();
	auto* array_member_sem = storage_buffer_type->Members().back();
	uint32_t array_offset = array_member_sem->Offset();
	uint32_t array_stride = array_member_sem->Size();
	auto* array_length = ctx.dst->Div(
	ctx.dst->Sub(total_storage_buffer_size, array_offset), array_stride);

	ctx.Replace(call_expr, array_length);
	}

	ctx.Clone();

	outputs.Add<Result>(buffer_size_ubo ? true : false);
	}

	ArrayLengthFromUniform::Config::Config(sem::BindingPoint ubo_bp)
	: ubo_binding(ubo_bp) {}
	ArrayLengthFromUniform::Config::Config(const Config&) = default;
	ArrayLengthFromUniform::Config::~Config() = default;

	ArrayLengthFromUniform::Result::Result(bool needs_sizes)
	: needs_buffer_sizes(needs_sizes) {}
	ArrayLengthFromUniform::Result::Result(const Result&) = default;
	ArrayLengthFromUniform::Result::~Result() = default;

	} // namespace transform
	} // namespace tint