mirror of
https://github.com/open-mmlab/mmdeploy.git
synced 2025-01-14 08:09:43 +08:00
46bfe0ac87
* executor prototype * add split/when_all * fix GCC build * WIP let_value * fix let_value * WIP ensure_started * ensure_started & start_detached * fix let_value + when_all combo on MSVC 142 * fix static thread pool * generic just, then, let_value, sync_wait * minor * generic split and when_all * fully generic sender adapters * when_all: workaround for GCC7 * support legacy spdlog * fix memleak * bulk * static detector * fix bulk & first pipeline * bulk for static thread pools * fix on MSVC * WIP async batch submission * WIP collation * async batch * fix detector * fix async detector * fix * fix * debug * fix cuda allocator * WIP type erased executor * better type erasure * simplify C API impl * Expand & type erase TC * deduction guide for type erased senders * fix GCC build * when_all for arrays of Value senders * WIP pipeline v2 * WIP pipeline parser * WIP timed batch operation * add registry * experiment * fix pipeline * naming * fix mem-leak * fix deferred batch operation * WIP * WIP configurable scheduler * WIP configurable scheduler * add comment * parse scheduler config * force link schedulers * WIP pipeable sender * WIP CPO * ADL isolation and dismantle headers * type erase single thread context * fix MSVC build * CPO * replace decay_t with remove_cvref_t * structure adjustment * structure adjustment * apply CPOs & C API rework * refine C API * detector async C API * adjust detector async C API * # Conflicts: # csrc/apis/c/detector.cpp * fix when_all for type erased senders * support void return for Then * async detector * fix some CPOs * minor * WIP rework capture mechanism for type erased types * minor fix * fix MSVC build * move expand.h to execution * make `Expand` pipeable * fix type erased * un-templatize `_TypeErasedOperation` * re-work C API * remove async_detector C API * fix pipeline * add flatten & unflatten * fix flatten & unflatten * add aync OCR demo * config executor for nodes & better executor API * working async OCR example * minor * dynamic batch via scheduler * dynamic batch on `Value` * fix MSVC build * type erase dynamic batch scheduler * sender as Python Awaitable * naming * naming * add docs * minor * merge tmp branch * unify C APIs * fix ocr * unify APIs * fix typo * update async OCR demo * add v3 API text recognizer * fix v3 API * fix lint * add license info & reformat * add demo async_ocr_v2 * revert files * revert files * resolve link issues * fix scheduler linkage for shared libs * fix license header * add docs for `mmdeploy_executor_split` * add missing `mmdeploy_executor_transfer_just` and `mmdeploy_executor_execute` * make `TimedSingleThreadContext` header only * fix lint * simplify type-erased sender
125 lines
4.3 KiB
C++
125 lines
4.3 KiB
C++
// Copyright (c) OpenMMLab. All rights reserved.
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// Modified from
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// https://github.com/brycelelbach/wg21_p2300_std_execution/blob/main/include/execution.hpp
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#ifndef MMDEPLOY_CSRC_EXPERIMENTAL_EXECUTION_ON_H_
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#define MMDEPLOY_CSRC_EXPERIMENTAL_EXECUTION_ON_H_
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#include <variant>
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#include "utility.h"
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namespace mmdeploy {
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namespace __on {
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template <typename Scheduler, typename Sender, typename Receiver>
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struct _Operation {
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struct type;
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};
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template <typename Scheduler, typename Sender, typename Receiver>
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using operation_t = typename _Operation<Scheduler, Sender, Receiver>::type;
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template <typename Scheduler, typename Sender, typename Receiver>
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struct _ReceiverRef {
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struct type;
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};
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template <typename Scheduler, typename Sender, typename Receiver>
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using receiver_ref_t = typename _ReceiverRef<Scheduler, Sender, Receiver>::type;
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template <typename Scheduler, typename Sender, typename Receiver>
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struct _ReceiverRef<Scheduler, Sender, Receiver>::type {
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operation_t<Scheduler, Sender, Receiver>* op_state_;
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template <typename... Args>
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friend void tag_invoke(set_value_t, type&& self, Args&&... args) noexcept {
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SetValue((Receiver &&) self.op_state_->receiver_, ((Args &&) args)...);
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}
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};
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template <typename Scheduler, typename Sender, typename Receiver>
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struct _Receiver {
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struct type;
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};
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template <typename Scheduler, typename Sender, typename Receiver>
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using receiver_t = typename _Receiver<Scheduler, Sender, Receiver>::type;
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template <typename Scheduler, typename Sender, typename Receiver>
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struct _Receiver<Scheduler, Sender, Receiver>::type {
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operation_t<Scheduler, Sender, Receiver>* op_state_;
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using _receiver_ref_t = receiver_ref_t<Scheduler, Sender, Receiver>;
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friend void tag_invoke(set_value_t, type&& self) noexcept {
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auto op_state = self.op_state_;
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Start(op_state->data_.template emplace<1>(
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Connect((Sender &&) op_state->sender_, _receiver_ref_t{op_state})));
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}
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};
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template <typename Scheduler, typename Sender, typename Receiver>
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struct _Operation<Scheduler, Sender, Receiver>::type {
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using _receiver_t = receiver_t<Scheduler, Sender, Receiver>;
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using _receiver_ref_t = receiver_ref_t<Scheduler, Sender, Receiver>;
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template <class Sender2, class Receiver2>
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type(Scheduler scheduler, Sender2&& sender, Receiver2&& receiver)
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: data_(std::in_place_index<0>, Connect(Schedule(scheduler), _receiver_t{this})),
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scheduler_(scheduler),
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sender_((Sender2 &&) sender),
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receiver_((Receiver2 &&) receiver) {}
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friend void tag_invoke(start_t, type& self) { Start(std::get<0>(self.data_)); }
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std::variant<connect_result_t<schedule_result_t<Scheduler>, _receiver_t>,
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connect_result_t<Sender, _receiver_ref_t>>
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data_;
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Scheduler scheduler_;
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Sender sender_;
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Receiver receiver_;
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};
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template <typename Scheduler, typename Sender>
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struct _Sender {
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struct type;
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};
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template <typename Scheduler, typename Sender>
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using sender_t = typename _Sender<remove_cvref_t<Scheduler>, remove_cvref_t<Sender>>::type;
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template <typename Scheduler, typename Sender>
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struct _Sender<Scheduler, Sender>::type {
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using value_types = completion_signatures_of_t<Sender>;
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Scheduler scheduler_;
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Sender sender_;
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template <typename Receiver>
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using _operation_t = operation_t<Scheduler, Sender, remove_cvref_t<Receiver>>;
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template <typename Self, typename Receiver, _decays_to<Self, type, int> = 0>
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friend auto tag_invoke(connect_t, Self&& self, Receiver&& receiver) -> _operation_t<Receiver> {
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return {((Self &&) self).scheduler_, ((Self &&) self).sender_, (Receiver &&) receiver};
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}
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};
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struct on_t {
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template <typename Scheduler, typename Sender,
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std::enable_if_t<_is_sender<Sender> && tag_invocable<on_t, Scheduler, Sender>, int> = 0>
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auto operator()(Scheduler&& scheduler, Sender&& sender) const
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-> tag_invoke_result_t<on_t, Scheduler, Sender> {
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return tag_invoke(on_t{}, (Scheduler &&) scheduler, (Sender &&) sender);
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}
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template <
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typename Scheduler, typename Sender,
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std::enable_if_t<_is_sender<Sender> && !tag_invocable<on_t, Scheduler, Sender>, int> = 0>
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sender_t<Scheduler, Sender> operator()(Scheduler&& scheduler, Sender&& sender) const {
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return {(Scheduler &&) scheduler, (Sender &&) sender};
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}
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};
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} // namespace __on
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using __on::on_t;
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inline constexpr on_t On{};
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} // namespace mmdeploy
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#endif // MMDEPLOY_CSRC_EXPERIMENTAL_EXECUTION_ON_H_
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