forked from bartvdbraak/blender
c8d2bc7890
We don't have vectors re-allocation happening multiple times from inside a loop anymore, so we can safely switch to a memory guarded allocator for vectors and keep track on the memory usage at various stages of rendering. Additionally, when building from inside Blender repository, Cycles will use Blender's guarded allocator, so actual memory usage will be displayed in the Space Info header. There are couple of tricky aspects of the patch: - TaskScheduler::exit() now explicitly frees memory used by `threads`. This is needed because `threads` is a static member which destructor isn't getting called on Blender's exit which caused memory leak print to happen. This shouldn't give any measurable speed issues, reallocation of that vector is only one of fewzillion other allocations happening during synchronization. - Use regular guarded malloc (not aligned one). No idea why it was made to be aligned in the first place. Perhaps some corner case tests or so. Vector was never expected to be aligned anyway. Let's see if we'll have actual bugs with this. Reviewers: dingto, lukasstockner97, juicyfruit, brecht Reviewed By: brecht Differential Revision: https://developer.blender.org/D1774
175 lines
3.8 KiB
C++
175 lines
3.8 KiB
C++
/*
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* Copyright 2011-2013 Blender Foundation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef __UTIL_TASK_H__
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#define __UTIL_TASK_H__
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#include "util_list.h"
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#include "util_thread.h"
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#include "util_vector.h"
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CCL_NAMESPACE_BEGIN
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class Task;
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class TaskPool;
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class TaskScheduler;
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typedef function<void(void)> TaskRunFunction;
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/* Task
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*
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* Base class for tasks to be executed in threads. */
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class Task
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{
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public:
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Task() {};
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Task(const TaskRunFunction& run_) : run(run_) {}
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virtual ~Task() {}
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TaskRunFunction run;
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};
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/* Task Pool
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*
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* Pool of tasks that will be executed by the central TaskScheduler.For each
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* pool, we can wait for all tasks to be done, or cancel them before they are
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* done.
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*
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* The run callback that actually executes the task may be created like this:
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* function_bind(&MyClass::task_execute, this, _1, _2) */
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class TaskPool
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{
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public:
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TaskPool();
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~TaskPool();
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void push(Task *task, bool front = false);
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void push(const TaskRunFunction& run, bool front = false);
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void wait_work(); /* work and wait until all tasks are done */
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void cancel(); /* cancel all tasks, keep worker threads running */
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void stop(); /* stop all worker threads */
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bool canceled(); /* for worker threads, test if canceled */
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protected:
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friend class TaskScheduler;
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void num_decrease(int done);
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void num_increase();
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thread_mutex num_mutex;
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thread_condition_variable num_cond;
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int num;
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bool do_cancel;
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};
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/* Task Scheduler
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*
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* Central scheduler that holds running threads ready to execute tasks. A singe
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* queue holds the task from all pools. */
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class TaskScheduler
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{
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public:
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static void init(int num_threads = 0);
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static void exit();
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static void free_memory();
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/* number of threads that can work on task */
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static int num_threads() { return threads.size(); }
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/* test if any session is using the scheduler */
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static bool active() { return users != 0; }
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protected:
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friend class TaskPool;
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struct Entry {
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Task *task;
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TaskPool *pool;
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};
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static thread_mutex mutex;
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static int users;
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static vector<thread*> threads;
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static bool do_exit;
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static list<Entry> queue;
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static thread_mutex queue_mutex;
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static thread_condition_variable queue_cond;
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static void thread_run(int thread_id);
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static bool thread_wait_pop(Entry& entry);
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static void push(Entry& entry, bool front);
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static void clear(TaskPool *pool);
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};
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/* Dedicated Task Pool
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*
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* Like a TaskPool, but will launch one dedicated thread to execute all tasks.
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*
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* The run callback that actually executes the task may be created like this:
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* function_bind(&MyClass::task_execute, this, _1, _2) */
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class DedicatedTaskPool
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{
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public:
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DedicatedTaskPool();
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~DedicatedTaskPool();
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void push(Task *task, bool front = false);
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void push(const TaskRunFunction& run, bool front = false);
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void wait(); /* wait until all tasks are done */
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void cancel(); /* cancel all tasks, keep worker thread running */
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void stop(); /* stop worker thread */
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bool canceled(); /* for worker thread, test if canceled */
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protected:
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void num_decrease(int done);
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void num_increase();
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void thread_run();
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bool thread_wait_pop(Task*& entry);
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void clear();
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thread_mutex num_mutex;
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thread_condition_variable num_cond;
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list<Task*> queue;
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thread_mutex queue_mutex;
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thread_condition_variable queue_cond;
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int num;
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bool do_cancel;
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bool do_exit;
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thread *worker_thread;
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};
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CCL_NAMESPACE_END
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#endif
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