// Copyright (c) 2023 PaddlePaddle Authors. All Rights Reserved. // // 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 "paddle/ir/core/builtin_op.h" #include "paddle/ir/core/builtin_attribute.h" #include "paddle/ir/core/builtin_type.h" #include "paddle/ir/core/enforce.h" #include "paddle/phi/core/enforce.h" namespace ir { const char *ModuleOp::attributes_name[attributes_num] = {"program"}; Program *ModuleOp::program() { const AttributeMap &attr = this->attributes(); auto iter = attr.find("program"); if (iter == attr.end() || !iter->second) return nullptr; return static_cast( iter->second.dyn_cast().data()); } Block *ModuleOp::block() { assert(operation() != nullptr); assert(operation()->num_regions() == 1); assert(operation()->region(0).size() == 1); return operation()->region(0).front(); } ModuleOp ModuleOp::Create(IrContext *context, Program *pointer) { ir::OpInfo info = context->GetRegisteredOpInfo(name()); OperationArgument argument(info); argument.AddRegion()->emplace_back(); argument.AddAttribute("program", PointerAttribute::get(context, pointer)); return ModuleOp(Operation::Create(std::move(argument))); } void ModuleOp::Destroy() { if (operation()) { operation()->Destroy(); *this = ModuleOp(nullptr); } } void ModuleOp::Verify() { VLOG(4) << "Verifying inputs, outputs and attributes for: ModuleOp."; // Verify inputs: IR_ENFORCE(num_operands() == 0u, "The size of inputs must be equal to 0."); // Verify attributes: auto &attributes = this->attributes(); auto iter = attributes.find("program"); IR_ENFORCE(iter != attributes.end() && iter->second.isa(), "Type of attribute: program is not right."); // Verify outputs: IR_ENFORCE(num_results() == 0u, "The size of inputs must be equal to 0."); } const char *GetParameterOp::attributes_name[attributes_num] = { "parameter_name"}; void GetParameterOp::Build(Builder &builder, OperationArgument &argument, const std::string &name, Type type) { argument.attributes[attributes_name[0]] = ir::StrAttribute::get(builder.ir_context(), name); argument.output_types.emplace_back(type); } void GetParameterOp::Verify() { VLOG(4) << "Verifying inputs, outputs and attributes for: GetParameterOp."; // Verify inputs: IR_ENFORCE(num_operands() == 0u, "The size of inputs must be equal to 0."); // Verify if attributes contain attribute name in attributes_name: auto &attributes = this->attributes(); auto iter = attributes.find("parameter_name"); IR_ENFORCE(iter != attributes.end() && iter->second.isa(), "Type of attribute: parameter_name is not right."); // Verify outputs type: IR_ENFORCE(num_results() == 1u, "The size of outputs must be equal to 1."); } const char *SetParameterOp::attributes_name[attributes_num] = { "parameter_name"}; void SetParameterOp::Build(Builder &builder, // NOLINT OperationArgument &argument, // NOLINT OpResult parameter, const std::string &name) { argument.AddOperand(parameter); argument.AddAttribute(attributes_name[0], ir::StrAttribute::get(builder.ir_context(), name)); } void SetParameterOp::Verify() { VLOG(4) << "Verifying inputs, outputs and attributes for: SetParameterOp."; // Verify inputs: IR_ENFORCE(num_operands() == 1, "The size of outputs must be equal to 1."); // Verify attributes: auto &attributes = this->attributes(); auto iter = attributes.find("parameter_name"); IR_ENFORCE(iter != attributes.end() && iter->second.isa(), "Type of attribute: parameter_name is not right."); // Verify outputs: IR_ENFORCE(num_results() == 0u, "The size of outputs must be equal to 0."); } void CombineOp::Build(Builder &builder, OperationArgument &argument, const std::vector &inputs) { argument.inputs = inputs; std::vector inputs_type(inputs.size()); for (size_t idx = 0; idx < inputs.size(); ++idx) { inputs_type[idx] = inputs[idx].type(); } argument.output_types.emplace_back( ir::VectorType::get(builder.ir_context(), inputs_type)); } void CombineOp::Verify() { // outputs.size() == 1 IR_ENFORCE(num_results() == 1u, "The size of outputs must be equal to 1."); // output_type == Vector auto output_type = (*this)->result(0).type().dyn_cast(); IR_ENFORCE(output_type, "The type of outputs[0] must be equal to VectorType."); // inputs.size() == outputs[0].size() auto input_num = num_operands(); IR_ENFORCE(output_type.size() == input_num, "The size %d of output must be equal to size %d of inputs.", output_type.size(), input_num); // forall i in inputs.size(): inputs[i].type == outputs[0][i].type for (size_t i = 0; i < input_num; ++i) { auto type = (*this)->operand(i).type(); IR_ENFORCE(output_type[i] == type, "The type %s of outputs[0][%d] must be " "equal to type %s of inputs[%d].", output_type[i], i, type, i); } } const char *SliceOp::attributes_name[attributes_num] = {"index"}; void SliceOp::Verify() { // inputs.size() == 1 auto input_size = num_operands(); IR_ENFORCE( input_size == 1, "The size %d of inputs must be equal to 1.", input_size); // inputs[0].type == Vector auto input_type = (*this)->operand(0).type().dyn_cast(); IR_ENFORCE(input_type, "The type %s of inputs[0] must be equal to VectorType.", input_type); auto output_size = num_results(); // outputs.size() == 1 IR_ENFORCE(output_size == 1, "The size %d of outputs must be equal to 1.", output_size); // attributes contains index: Int32 auto &attributes = this->attributes(); IR_ENFORCE(attributes.count("index") != 0, "The attributes must contains index."); const ir::Attribute &attr = attributes.at("index"); IR_ENFORCE(attr.isa(), "The attribute index must be INT32."); auto index = attr.dyn_cast().data(); // index >= 0 and < inputs[0].size() IR_ENFORCE( index >= 0, "The index %d must be greater or equal than 0.", index); IR_ENFORCE(static_cast(index) < input_type.size(), "The index %d must be less or equal than size %d of inputs[0].", index, input_type.size()); // inputs[index].type == outputs[0].type auto output_type = (*this)->result(0).type(); IR_ENFORCE( input_type[index] == output_type, "The type %s of inputs[%d] must be equal to type %s of outputs[0].", input_type[index], index, output_type); } const char *ConstantOp::attributes_name[attributes_num] = {"value"}; void ConstantOp::Build(Builder &builder, OperationArgument &argument, Attribute value, Type output_type) { argument.AddAttribute("value", value); argument.output_types.push_back(output_type); } void ConstantOp::Verify() { IR_ENFORCE(num_operands() == 0, "The size of inputs must be equal to 0."); IR_ENFORCE(num_results() == 1, "The size of outputs must be equal to 1."); IR_ENFORCE(attributes().count("value") > 0, "must has value attribute"); } Attribute ConstantOp::value() { return attributes().at("value"); } } // namespace ir IR_DEFINE_EXPLICIT_TYPE_ID(ir::ModuleOp) IR_DEFINE_EXPLICIT_TYPE_ID(ir::GetParameterOp) IR_DEFINE_EXPLICIT_TYPE_ID(ir::SetParameterOp) IR_DEFINE_EXPLICIT_TYPE_ID(ir::CombineOp) IR_DEFINE_EXPLICIT_TYPE_ID(ir::SliceOp) IR_DEFINE_EXPLICIT_TYPE_ID(ir::ConstantLikeTrait) IR_DEFINE_EXPLICIT_TYPE_ID(ir::ConstantOp)