#ifndef MIGRAPHX_GUARD_SCHEDULE_MODEL_HPP #define MIGRAPHX_GUARD_SCHEDULE_MODEL_HPP #include #include #include #include #include #include #include #include #include namespace migraphx { inline namespace MIGRAPHX_INLINE_NS { struct module; struct operation; #ifdef DOXYGEN /// An interface for target-dependent model for the scheduler struct schedule_model { /// Get the number of concurrent instruction allowed std::size_t concurrency() const; /// Schedule a concurrent instruction void sched(module& p, instruction_ref ins, std::size_t n) const; // Insert necessary waits before an instruction void wait(module& p, instruction_ref ins, std::size_t wait_id) const; // Insert necessary records after an instruction void record(module& p, instruction_ref ins, std::size_t wait_id) const; /// Compute weights for an operation std::size_t weight(const operation& op) const; }; #else /* * Type-erased interface for: * * struct schedule_model * { * std::size_t concurrency() const; * void sched(module& p,instruction_ref ins,std::size_t n) const; * void wait(module& p,instruction_ref ins,std::size_t wait_id) const; * void record(module& p,instruction_ref ins,std::size_t wait_id) const; * std::size_t weight(const operation& op) const; * }; * */ struct schedule_model { // Constructors schedule_model() = default; template schedule_model(PrivateDetailTypeErasedT value) : private_detail_te_handle_mem_var( std::make_shared::type>>( std::forward(value))) { } // Assignment template schedule_model& operator=(PrivateDetailTypeErasedT value) { using std::swap; auto* derived = this->any_cast(); if(derived and private_detail_te_handle_mem_var.unique()) { *derived = std::forward(value); } else { schedule_model rhs(value); swap(private_detail_te_handle_mem_var, rhs.private_detail_te_handle_mem_var); } return *this; } // Cast template PrivateDetailTypeErasedT* any_cast() { return this->type_id() == typeid(PrivateDetailTypeErasedT) ? std::addressof(static_cast::type>&>( private_detail_te_get_handle()) .private_detail_te_value) : nullptr; } template const typename std::remove_cv::type* any_cast() const { return this->type_id() == typeid(PrivateDetailTypeErasedT) ? std::addressof(static_cast::type>&>( private_detail_te_get_handle()) .private_detail_te_value) : nullptr; } const std::type_info& type_id() const { if(private_detail_te_handle_empty()) return typeid(std::nullptr_t); else return private_detail_te_get_handle().type(); } std::size_t concurrency() const { assert((*this).private_detail_te_handle_mem_var); return (*this).private_detail_te_get_handle().concurrency(); } void sched(module& p, instruction_ref ins, std::size_t n) const { assert((*this).private_detail_te_handle_mem_var); (*this).private_detail_te_get_handle().sched(p, ins, n); } void wait(module& p, instruction_ref ins, std::size_t wait_id) const { assert((*this).private_detail_te_handle_mem_var); (*this).private_detail_te_get_handle().wait(p, ins, wait_id); } void record(module& p, instruction_ref ins, std::size_t wait_id) const { assert((*this).private_detail_te_handle_mem_var); (*this).private_detail_te_get_handle().record(p, ins, wait_id); } std::size_t weight(const operation& op) const { assert((*this).private_detail_te_handle_mem_var); return (*this).private_detail_te_get_handle().weight(op); } friend bool is_shared(const schedule_model& private_detail_x, const schedule_model& private_detail_y) { return private_detail_x.private_detail_te_handle_mem_var == private_detail_y.private_detail_te_handle_mem_var; } private: struct private_detail_te_handle_base_type { virtual ~private_detail_te_handle_base_type() {} virtual std::shared_ptr clone() const = 0; virtual const std::type_info& type() const = 0; virtual std::size_t concurrency() const = 0; virtual void sched(module& p, instruction_ref ins, std::size_t n) const = 0; virtual void wait(module& p, instruction_ref ins, std::size_t wait_id) const = 0; virtual void record(module& p, instruction_ref ins, std::size_t wait_id) const = 0; virtual std::size_t weight(const operation& op) const = 0; }; template struct private_detail_te_handle_type : private_detail_te_handle_base_type { template private_detail_te_handle_type( PrivateDetailTypeErasedT value, typename std::enable_if::value>::type* = nullptr) : private_detail_te_value(value) { } template private_detail_te_handle_type( PrivateDetailTypeErasedT value, typename std::enable_if::value, int>::type* = nullptr) noexcept : private_detail_te_value(std::move(value)) { } std::shared_ptr clone() const override { return std::make_shared(private_detail_te_value); } const std::type_info& type() const override { return typeid(private_detail_te_value); } std::size_t concurrency() const override { return private_detail_te_value.concurrency(); } void sched(module& p, instruction_ref ins, std::size_t n) const override { private_detail_te_value.sched(p, ins, n); } void wait(module& p, instruction_ref ins, std::size_t wait_id) const override { private_detail_te_value.wait(p, ins, wait_id); } void record(module& p, instruction_ref ins, std::size_t wait_id) const override { private_detail_te_value.record(p, ins, wait_id); } std::size_t weight(const operation& op) const override { return private_detail_te_value.weight(op); } PrivateDetailTypeErasedT private_detail_te_value; }; template struct private_detail_te_handle_type> : private_detail_te_handle_type { private_detail_te_handle_type(std::reference_wrapper ref) : private_detail_te_handle_type(ref.get()) { } }; bool private_detail_te_handle_empty() const { return private_detail_te_handle_mem_var == nullptr; } const private_detail_te_handle_base_type& private_detail_te_get_handle() const { assert(private_detail_te_handle_mem_var != nullptr); return *private_detail_te_handle_mem_var; } private_detail_te_handle_base_type& private_detail_te_get_handle() { assert(private_detail_te_handle_mem_var != nullptr); if(!private_detail_te_handle_mem_var.unique()) private_detail_te_handle_mem_var = private_detail_te_handle_mem_var->clone(); return *private_detail_te_handle_mem_var; } std::shared_ptr private_detail_te_handle_mem_var; }; template inline const ValueType* any_cast(const schedule_model* x) { return x->any_cast(); } template inline ValueType* any_cast(schedule_model* x) { return x->any_cast(); } template inline ValueType& any_cast(schedule_model& x) { auto* y = x.any_cast::type>(); if(y == nullptr) throw std::bad_cast(); return *y; } template inline const ValueType& any_cast(const schedule_model& x) { const auto* y = x.any_cast::type>(); if(y == nullptr) throw std::bad_cast(); return *y; } #endif } // namespace MIGRAPHX_INLINE_NS } // namespace migraphx #endif