示例#1
0
def profile_threaded(filename):
    import yappi  # noqa   # yappi is not a dependency
    yappi.set_clock_type("cpu")
    try:
        import gil_load  # noqa   # same
        gil_load.init()
        gil_load.start(av_sample_interval=0.1,
                       output_interval=10,
                       output=sys.stdout)
        monitoring_gil = True
    except (RuntimeError, ImportError):
        monitoring_gil = False
        pass

    yappi.start()
    yield
    yappi.stop()

    if monitoring_gil:
        gil_load.stop()
        stats = gil_load.get()
        print("GIL load information: ", gil_load.format(stats))
    p = yappi.get_func_stats()
    p = yappi.convert2pstats(p)
    p.dump_stats(filename)
    yappi.clear_stats()
示例#2
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def profile_threaded(filename):
    import yappi  # noqa   # yappi is not a dependency
    import gil_load  # noqa   # same
    yappi.set_clock_type("cpu")
    try:
        gil_load.init()
        gil_load.start(av_sample_interval=0.1,
                       output_interval=3,
                       output=sys.stdout)
        monitoring_gil = True
    except RuntimeError:
        monitoring_gil = False
        pass

    yappi.start()
    yield
    yappi.stop()

    if monitoring_gil:
        gil_load.stop()
        print("Gil was held %0.1f %% of the time" % (100 * gil_load.get()[0]))
    p = yappi.get_func_stats()
    p = yappi.convert2pstats(p)
    p.dump_stats(filename)
    yappi.clear_stats()
示例#3
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def main(args=None):
    thread1.start()
    thread2.start()
    time.sleep(0.2)
    for thread in [thread1, thread2]:
        thread.join()
    if use_gil_load:
        gil_load.stop()
        stats = gil_load.get()
        print(gil_load.format(stats))
示例#4
0
        strax.MongoStore(mongo_uri, take_only=['events', 'event_basics']))

st.register_all(strax.xenon.plugins)

gil_load.start(av_sample_interval=0.05)
start = time.time()

for i, events in enumerate(st.get_iter(run_id, args.target,
                                       max_workers=args.n)):
    print(f"\t{i}: Found {len(events)} events")

end = time.time()
gil_load.stop()

dt = end - start
gil_pct = 100 * gil_load.get(4)[0]
print(f"Took {dt:.3f} seconds, GIL was held {gil_pct:.3f}% of the time")


def total_size(data_type, raw=False):
    metadata = st.get_meta(run_id, data_type)
    try:
        return sum(x['nbytes' if raw else 'filesize']
                   for x in metadata['chunks']) / 1e6
    except Exception:
        return float('nan')


raw_data_size = round(total_size('raw_records', raw=True))
speed = raw_data_size / dt
to_show = set(['raw_records', args.target])
示例#5
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    gil_load.start()

try:
    while True:
        msg = pipeline.get_bus().timed_pop_filtered(
            Gst.SECOND,
            Gst.MessageType.EOS | Gst.MessageType.ERROR
        )
        if msg:
            text = msg.get_structure().to_string() if msg.get_structure() else ''
            msg_type = Gst.message_type_get_name(msg.type)
            print(f'{msg.src.name}: [{msg_type}] {text}')
            break
finally:
    if gil_load_enabled:
        gil_load.stop()
    for device, detector, dboxes, image_queue in thread_contexts:
        image_queue.put((None, None))
    for inference_thread in inference_threads:
        inference_thread.join()
    finish_time = time.time()

    open(f'logs/{os.path.splitext(sys.argv[0])[0]}.pipeline.dot', 'w').write(
        Gst.debug_bin_to_dot_data(pipeline, Gst.DebugGraphDetails.ALL)
    )
    pipeline.set_state(Gst.State.NULL)
    print(f'FPS: {frames_processed / (finish_time - start_time):.2f}')
    if gil_load_enabled:
        print()
        print(gil_load.format(gil_load.get()))
示例#6
0
文件: compiler.py 项目: mingtaoy/RIAL
def compiler():
    global exceptions
    exceptions = False

    if not CompilationManager.config.raw_opts.disable_cache:
        Cache.load_cache()

    if CompilationManager.config.raw_opts.file is not None:
        path = Path(CompilationManager.config.raw_opts.file)
    else:
        path = CompilationManager.config.rial_path.joinpath(
            "builtin").joinpath("start.rial")

    if not path.exists():
        raise FileNotFoundError(str(path))

    # Clear global data that can sometimes remain (especially during test execution).
    context.global_context.scope._useset.clear()
    context.global_context.identified_types.clear()

    # Collect all always imported paths
    builtin_path = str(
        CompilationManager.config.rial_path.joinpath("builtin").joinpath(
            "always_imported"))
    for file in [
            join(builtin_path, f) for f in listdir(builtin_path)
            if isfile(join(builtin_path, f))
    ]:
        CompilationManager.request_file(file)
        module_name = CompilationManager.mod_name_from_path(
            CompilationManager.filename_from_path(str(file)))
        CompilationManager.always_imported.append(module_name)

    # Request main file
    CompilationManager.request_file(str(path))

    if CompilationManager.config.raw_opts.profile_gil:
        import gil_load
        gil_load.init()
        gil_load.start()

    futures = list()
    with concurrent.futures.ThreadPoolExecutor() as executor:
        while True:
            for future in futures:
                if future.done():
                    futures.remove(future)

            try:
                # This timeout is so small, it shouldn't matter.
                # However it serves a crucial role in regards to Python's GIL.
                # Setting this on a higher timeout obviously means that there may be some excessive time spent waiting
                # for nothing to appear.
                # BUT, setting it to non-blocking means that the GIL never gives any of the compilation threads priority
                # as well as holding up the internal threading.Lock(s).
                # So setting this timeout so small means not much time is spent waiting for nothing, but it gives other
                # things the opportunity to get control of the GIL and execute.
                path = CompilationManager.files_to_compile.get(timeout=0.01)
                future = executor.submit(compile_file, path)
                futures.append(future)
            except Empty:
                pass

            if len(futures) == 0 and CompilationManager.files_to_compile.empty(
            ):
                break
        executor.shutdown(True)

    CompilationManager.files_to_compile.join()

    if CompilationManager.config.raw_opts.profile_gil:
        import gil_load
        gil_load.stop()
        print(f"Main Thread ID: {threading.current_thread().ident}")
        print(gil_load.format(gil_load.get()))

    if exceptions:
        return

    if not CompilationManager.config.raw_opts.disable_cache:
        Cache.save_cache()

    execute_stage(Stage.POST_IR_GEN)

    modules: Dict[str, ModuleRef] = dict()

    for key, mod in CompilationManager.modules.items():
        if not CompilationManager.config.raw_opts.disable_cache:
            cache_path = str(
                CompilationManager.get_cache_path_str(key)).replace(
                    ".rial", ".cache")
            if not Path(cache_path).exists():
                CompilationManager.codegen.save_module(mod, cache_path)

        with run_with_profiling(CompilationManager.filename_from_path(key),
                                ExecutionStep.COMPILE_MOD):
            try:
                modules[key] = CompilationManager.codegen.compile_ir(mod)
            except Exception as e:
                log_fail(f"Exception when compiling module {mod.name}")
                log_fail(e)
                log_fail(traceback.format_exc())
                return

    object_files: List[str] = list()
    CompilationManager.codegen.generate_final_modules(list(modules.values()))

    for path in list(modules.keys()):
        mod = modules[path]

        if CompilationManager.config.raw_opts.print_ir:
            ir_file = str(
                CompilationManager.get_output_path_str(path)).replace(
                    ".rial", ".ll")
            if check_needs_output(mod.name, ir_file):
                CompilationManager.codegen.save_ir(ir_file, mod)

        if CompilationManager.config.raw_opts.print_asm:
            asm_file = str(
                CompilationManager.get_cache_path_str(path)).replace(
                    ".rial", ".asm")
            if check_needs_output(mod.name, asm_file):
                CompilationManager.codegen.save_assembly(asm_file, mod)

        if not CompilationManager.config.raw_opts.use_object_files:
            llvm_bitcode_file = str(
                CompilationManager.get_output_path_str(path)).replace(
                    ".rial", ".o")
            if check_needs_output(mod.name, llvm_bitcode_file):
                CompilationManager.codegen.save_llvm_bitcode(
                    llvm_bitcode_file, mod)
            object_files.append(llvm_bitcode_file)
        else:
            object_file = str(
                CompilationManager.get_output_path_str(path)).replace(
                    ".rial", ".o")
            if check_needs_output(mod.name, object_file):
                CompilationManager.codegen.save_object(object_file, mod)
            object_files.append(object_file)

    with run_with_profiling(CompilationManager.config.project_name,
                            ExecutionStep.LINK_EXE):
        exe_path = str(
            CompilationManager.config.bin_path.joinpath(
                f"{CompilationManager.config.project_name}{Platform.get_exe_file_extension()}"
            ))

        Linker.link_files(
            object_files, exe_path,
            CompilationManager.config.raw_opts.print_link_command,
            CompilationManager.config.raw_opts.strip)
示例#7
0

def some_numpy_computation():
    total = 0
    for i in range(M):
        total += x.sum()
    return total


thread1 = threading.Thread(target=some_numpy_computation)
thread2 = threading.Thread(target=some_numpy_computation)


def main(args=None):
    thread1.start()
    thread2.start()
    total = 0
    for i in range(2_000_000):
        total += i
    for thread in [thread1, thread2]:
        thread.join()

    if use_gil_load:
        gil_load.stop()
        stats = gil_load.get()
        print(gil_load.format(stats))


if __name__ == "__main__":
    main()