// 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/ir_context.h" #include #include "paddle/ir/core/attribute_base.h" #include "paddle/ir/core/builtin_dialect.h" #include "paddle/ir/core/builtin_type.h" #include "paddle/ir/core/dialect.h" #include "paddle/ir/core/op_info_impl.h" #include "paddle/ir/core/spin_lock.h" #include "paddle/ir/core/type_base.h" namespace ir { // The implementation class of the IrContext class, cache registered // AbstractType, TypeStorage, AbstractAttribute, AttributeStorage, Dialect. class IrContextImpl { public: IrContextImpl() {} ~IrContextImpl() { std::lock_guard guard(destructor_lock_); for (auto &abstract_type_map : registed_abstract_types_) { delete abstract_type_map.second; } registed_abstract_types_.clear(); for (auto &abstract_attribute_map : registed_abstract_attributes_) { delete abstract_attribute_map.second; } registed_abstract_attributes_.clear(); for (auto &dialect_map : registed_dialect_) { delete dialect_map.second; } registed_dialect_.clear(); for (auto &op_map : registed_op_infos_) { op_map.second->destroy(); } registed_op_infos_.clear(); } void RegisterAbstractType(ir::TypeId type_id, AbstractType *abstract_type) { std::lock_guard guard(registed_abstract_types_lock_); VLOG(4) << "Register an abstract_type of: [TypeId_hash=" << std::hash()(type_id) << ", AbstractType_ptr=" << abstract_type << "]."; registed_abstract_types_.emplace(type_id, abstract_type); } AbstractType *GetAbstractType(ir::TypeId type_id) { std::lock_guard guard(registed_abstract_types_lock_); auto iter = registed_abstract_types_.find(type_id); if (iter != registed_abstract_types_.end()) { VLOG(4) << "Found a cached abstract_type of: [TypeId_hash=" << std::hash()(type_id) << ", AbstractType_ptr=" << iter->second << "]."; return iter->second; } LOG(WARNING) << "No cache found abstract_type of: [TypeId_hash=" << std::hash()(type_id) << "]."; return nullptr; } void RegisterAbstractAttribute(ir::TypeId type_id, AbstractAttribute *abstract_attribute) { std::lock_guard guard(registed_abstract_attributes_lock_); VLOG(4) << "Register an abstract_attribute of: [TypeId_hash=" << std::hash()(type_id) << ", AbstractAttribute_ptr=" << abstract_attribute << "]."; registed_abstract_attributes_.emplace(type_id, abstract_attribute); } AbstractAttribute *GetAbstractAttribute(ir::TypeId type_id) { std::lock_guard guard(registed_abstract_attributes_lock_); auto iter = registed_abstract_attributes_.find(type_id); if (iter != registed_abstract_attributes_.end()) { VLOG(4) << "Found a cached abstract_attribute of: [TypeId_hash=" << std::hash()(type_id) << ", AbstractAttribute_ptr=" << iter->second << "]."; return iter->second; } LOG(WARNING) << "No cache found abstract_attribute of: [TypeId_hash=" << std::hash()(type_id) << "]."; return nullptr; } bool IsOpInfoRegistered(const std::string &name) { return registed_op_infos_.find(name) != registed_op_infos_.end(); } void RegisterOpInfo(const std::string &name, OpInfoImpl *opinfo) { std::lock_guard guard(registed_op_infos_lock_); VLOG(4) << "Register an operation of: [Name=" << name << ", OpInfoImpl ptr=" << opinfo << "]."; registed_op_infos_.emplace(name, opinfo); } OpInfoImpl *GetOpInfo(const std::string &name) { std::lock_guard guard(registed_op_infos_lock_); auto iter = registed_op_infos_.find(name); if (iter != registed_op_infos_.end()) { VLOG(4) << "Found a cached operation of: [name=" << name << ", OpInfoImpl ptr=" << iter->second << "]."; return iter->second; } LOG(WARNING) << "No cache found operation of: [Name=" << name << "]."; return nullptr; } void RegisterDialect(std::string name, Dialect *dialect) { std::lock_guard guard(registed_dialect_lock_); VLOG(4) << "Register a dialect of: [name=" << name << ", dialect_ptr=" << dialect << "]."; registed_dialect_.emplace(name, dialect); } bool IsDialectRegistered(const std::string &name) { return registed_dialect_.find(name) != registed_dialect_.end(); } Dialect *GetDialect(const std::string &name) { std::lock_guard guard(registed_dialect_lock_); auto iter = registed_dialect_.find(name); if (iter != registed_dialect_.end()) { VLOG(4) << "Found a cached dialect of: [name=" << name << ", dialect_ptr=" << iter->second << "]."; return iter->second; } LOG(WARNING) << "No cache found dialect of: [name=" << name << "]."; return nullptr; } // Cached AbstractType instances. std::unordered_map registed_abstract_types_; ir::SpinLock registed_abstract_types_lock_; // TypeStorage uniquer and cache instances. StorageManager registed_type_storage_manager_; // Cache some built-in type objects. Float16Type fp16_type; Float32Type fp32_type; Float64Type fp64_type; Int16Type int16_type; Int32Type int32_type; Int64Type int64_type; // Cached AbstractAttribute instances. std::unordered_map registed_abstract_attributes_; ir::SpinLock registed_abstract_attributes_lock_; // AttributeStorage uniquer and cache instances. StorageManager registed_attribute_storage_manager_; // The dialect registered in the context. std::unordered_map registed_dialect_; ir::SpinLock registed_dialect_lock_; // The Op registered in the context. std::unordered_map registed_op_infos_; ir::SpinLock registed_op_infos_lock_; ir::SpinLock destructor_lock_; }; IrContext *IrContext::Instance() { static IrContext context; return &context; } IrContext::IrContext() : impl_(new IrContextImpl()) { VLOG(4) << "BuiltinDialect registered into IrContext. ===>"; GetOrRegisterDialect(); VLOG(4) << "=============================================="; impl_->fp16_type = TypeManager::get(this); impl_->fp32_type = TypeManager::get(this); impl_->fp64_type = TypeManager::get(this); impl_->int16_type = TypeManager::get(this); impl_->int32_type = TypeManager::get(this); impl_->int64_type = TypeManager::get(this); } StorageManager &IrContext::type_storage_manager() { return impl().registed_type_storage_manager_; } AbstractType *IrContext::GetRegisteredAbstractType(TypeId id) { auto search = impl().registed_abstract_types_.find(id); if (search != impl().registed_abstract_types_.end()) { return search->second; } return nullptr; } void IrContext::RegisterAbstractAttribute( ir::TypeId type_id, AbstractAttribute &&abstract_attribute) { if (GetRegisteredAbstractAttribute(type_id) == nullptr) { impl().RegisterAbstractAttribute( type_id, new AbstractAttribute(std::move(abstract_attribute))); VLOG(4) << "<--- Attribute registered into IrContext. --->"; } else { LOG(WARNING) << " Attribute already registered."; } } StorageManager &IrContext::attribute_storage_manager() { return impl().registed_attribute_storage_manager_; } AbstractAttribute *IrContext::GetRegisteredAbstractAttribute(TypeId id) { auto search = impl().registed_abstract_attributes_.find(id); if (search != impl().registed_abstract_attributes_.end()) { return search->second; } return nullptr; } Dialect *IrContext::GetOrRegisterDialect( const std::string &dialect_name, std::function constructor) { VLOG(4) << "Try to get or register a Dialect of: [name=" << dialect_name << "]."; if (!impl().IsDialectRegistered(dialect_name)) { VLOG(4) << "Create and register a new Dialect of: [name=" << dialect_name << "]."; impl().RegisterDialect(dialect_name, constructor()); } return impl().GetDialect(dialect_name); } std::vector IrContext::GetRegisteredDialects() { std::vector result; for (auto dialect_map : impl().registed_dialect_) { result.push_back(dialect_map.second); } return result; } Dialect *IrContext::GetRegisteredDialect(const std::string &dialect_name) { for (auto dialect_map : impl().registed_dialect_) { if (dialect_map.first == dialect_name) { return dialect_map.second; } } LOG(WARNING) << "No dialect registered for " << dialect_name; return nullptr; } void IrContext::RegisterAbstractType(ir::TypeId type_id, AbstractType &&abstract_type) { if (GetRegisteredAbstractType(type_id) == nullptr) { impl().RegisterAbstractType(type_id, new AbstractType(std::move(abstract_type))); VLOG(4) << "<--- Type registered into IrContext. --->"; } else { LOG(WARNING) << " type already registered."; } } void IrContext::RegisterOpInfo(Dialect *dialect, TypeId op_id, const char *name, std::vector &&interface_map, const std::vector &trait_set, size_t attributes_num, const char **attributes_name, VerifyPtr verify) { if (impl().IsOpInfoRegistered(name)) { LOG(WARNING) << name << " op already registered."; } else { OpInfoImpl *opinfo = OpInfoImpl::create(dialect, op_id, name, std::move(interface_map), trait_set, attributes_num, attributes_name, verify); impl().RegisterOpInfo(name, opinfo); VLOG(4) << name << " op registered into IrContext. --->"; } } OpInfo IrContext::GetRegisteredOpInfo(const std::string &name) { OpInfoImpl *rtn = impl().GetOpInfo(name); return rtn ? rtn : nullptr; } const AbstractType &AbstractType::lookup(TypeId type_id, IrContext *ctx) { auto &impl = ctx->impl(); AbstractType *abstract_type = impl.GetAbstractType(type_id); if (abstract_type) { return *abstract_type; } else { throw("Abstract type not found in IrContext."); } } const AbstractAttribute &AbstractAttribute::lookup(TypeId type_id, IrContext *ctx) { auto &impl = ctx->impl(); AbstractAttribute *abstract_attribute = impl.GetAbstractAttribute(type_id); if (abstract_attribute) { return *abstract_attribute; } else { throw("Abstract attribute not found in IrContext."); } } Float16Type Float16Type::get(IrContext *ctx) { return ctx->impl().fp16_type; } Float32Type Float32Type::get(IrContext *ctx) { return ctx->impl().fp32_type; } Float64Type Float64Type::get(IrContext *ctx) { return ctx->impl().fp64_type; } Int16Type Int16Type::get(IrContext *ctx) { return ctx->impl().int16_type; } Int32Type Int32Type::get(IrContext *ctx) { return ctx->impl().int32_type; } Int64Type Int64Type::get(IrContext *ctx) { return ctx->impl().int64_type; } } // namespace ir