mirror of
https://github.com/morpheus65535/bazarr.git
synced 2024-11-15 12:14:51 +08:00
329 lines
11 KiB
Python
329 lines
11 KiB
Python
from __future__ import unicode_literals
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from .dag import get_outgoing_edges, topo_sort
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from ._utils import basestring, convert_kwargs_to_cmd_line_args
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from builtins import str
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from functools import reduce
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import collections
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import copy
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import operator
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import subprocess
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from ._ffmpeg import input, output
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from .nodes import (
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get_stream_spec_nodes,
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FilterNode,
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GlobalNode,
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InputNode,
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OutputNode,
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output_operator,
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)
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class Error(Exception):
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def __init__(self, cmd, stdout, stderr):
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super(Error, self).__init__(
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'{} error (see stderr output for detail)'.format(cmd)
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)
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self.stdout = stdout
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self.stderr = stderr
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def _get_input_args(input_node):
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if input_node.name == input.__name__:
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kwargs = copy.copy(input_node.kwargs)
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filename = kwargs.pop('filename')
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fmt = kwargs.pop('format', None)
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video_size = kwargs.pop('video_size', None)
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args = []
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if fmt:
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args += ['-f', fmt]
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if video_size:
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args += ['-video_size', '{}x{}'.format(video_size[0], video_size[1])]
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args += convert_kwargs_to_cmd_line_args(kwargs)
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args += ['-i', filename]
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else:
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raise ValueError('Unsupported input node: {}'.format(input_node))
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return args
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def _format_input_stream_name(stream_name_map, edge, is_final_arg=False):
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prefix = stream_name_map[edge.upstream_node, edge.upstream_label]
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if not edge.upstream_selector:
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suffix = ''
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else:
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suffix = ':{}'.format(edge.upstream_selector)
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if is_final_arg and isinstance(edge.upstream_node, InputNode):
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## Special case: `-map` args should not have brackets for input
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## nodes.
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fmt = '{}{}'
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else:
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fmt = '[{}{}]'
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return fmt.format(prefix, suffix)
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def _format_output_stream_name(stream_name_map, edge):
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return '[{}]'.format(stream_name_map[edge.upstream_node, edge.upstream_label])
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def _get_filter_spec(node, outgoing_edge_map, stream_name_map):
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incoming_edges = node.incoming_edges
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outgoing_edges = get_outgoing_edges(node, outgoing_edge_map)
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inputs = [
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_format_input_stream_name(stream_name_map, edge) for edge in incoming_edges
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]
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outputs = [
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_format_output_stream_name(stream_name_map, edge) for edge in outgoing_edges
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]
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filter_spec = '{}{}{}'.format(
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''.join(inputs), node._get_filter(outgoing_edges), ''.join(outputs)
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)
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return filter_spec
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def _allocate_filter_stream_names(filter_nodes, outgoing_edge_maps, stream_name_map):
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stream_count = 0
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for upstream_node in filter_nodes:
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outgoing_edge_map = outgoing_edge_maps[upstream_node]
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for upstream_label, downstreams in sorted(outgoing_edge_map.items()):
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if len(downstreams) > 1:
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# TODO: automatically insert `splits` ahead of time via graph transformation.
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raise ValueError(
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'Encountered {} with multiple outgoing edges with same upstream label {!r}; a '
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'`split` filter is probably required'.format(
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upstream_node, upstream_label
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)
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)
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stream_name_map[upstream_node, upstream_label] = 's{}'.format(stream_count)
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stream_count += 1
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def _get_filter_arg(filter_nodes, outgoing_edge_maps, stream_name_map):
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_allocate_filter_stream_names(filter_nodes, outgoing_edge_maps, stream_name_map)
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filter_specs = [
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_get_filter_spec(node, outgoing_edge_maps[node], stream_name_map)
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for node in filter_nodes
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]
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return ';'.join(filter_specs)
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def _get_global_args(node):
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return list(node.args)
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def _get_output_args(node, stream_name_map):
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if node.name != output.__name__:
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raise ValueError('Unsupported output node: {}'.format(node))
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args = []
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if len(node.incoming_edges) == 0:
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raise ValueError('Output node {} has no mapped streams'.format(node))
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for edge in node.incoming_edges:
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# edge = node.incoming_edges[0]
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stream_name = _format_input_stream_name(
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stream_name_map, edge, is_final_arg=True
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)
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if stream_name != '0' or len(node.incoming_edges) > 1:
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args += ['-map', stream_name]
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kwargs = copy.copy(node.kwargs)
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filename = kwargs.pop('filename')
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if 'format' in kwargs:
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args += ['-f', kwargs.pop('format')]
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if 'video_bitrate' in kwargs:
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args += ['-b:v', str(kwargs.pop('video_bitrate'))]
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if 'audio_bitrate' in kwargs:
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args += ['-b:a', str(kwargs.pop('audio_bitrate'))]
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if 'video_size' in kwargs:
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video_size = kwargs.pop('video_size')
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if not isinstance(video_size, basestring) and isinstance(
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video_size, collections.Iterable
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):
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video_size = '{}x{}'.format(video_size[0], video_size[1])
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args += ['-video_size', video_size]
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args += convert_kwargs_to_cmd_line_args(kwargs)
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args += [filename]
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return args
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@output_operator()
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def get_args(stream_spec, overwrite_output=False):
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"""Build command-line arguments to be passed to ffmpeg."""
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nodes = get_stream_spec_nodes(stream_spec)
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args = []
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# TODO: group nodes together, e.g. `-i somefile -r somerate`.
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sorted_nodes, outgoing_edge_maps = topo_sort(nodes)
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input_nodes = [node for node in sorted_nodes if isinstance(node, InputNode)]
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output_nodes = [node for node in sorted_nodes if isinstance(node, OutputNode)]
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global_nodes = [node for node in sorted_nodes if isinstance(node, GlobalNode)]
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filter_nodes = [node for node in sorted_nodes if isinstance(node, FilterNode)]
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stream_name_map = {(node, None): str(i) for i, node in enumerate(input_nodes)}
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filter_arg = _get_filter_arg(filter_nodes, outgoing_edge_maps, stream_name_map)
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args += reduce(operator.add, [_get_input_args(node) for node in input_nodes])
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if filter_arg:
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args += ['-filter_complex', filter_arg]
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args += reduce(
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operator.add, [_get_output_args(node, stream_name_map) for node in output_nodes]
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)
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args += reduce(operator.add, [_get_global_args(node) for node in global_nodes], [])
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if overwrite_output:
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args += ['-y']
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return args
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@output_operator()
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def compile(stream_spec, cmd='ffmpeg', overwrite_output=False):
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"""Build command-line for invoking ffmpeg.
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The :meth:`run` function uses this to build the commnad line
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arguments and should work in most cases, but calling this function
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directly is useful for debugging or if you need to invoke ffmpeg
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manually for whatever reason.
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This is the same as calling :meth:`get_args` except that it also
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includes the ``ffmpeg`` command as the first argument.
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"""
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if isinstance(cmd, basestring):
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cmd = [cmd]
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elif type(cmd) != list:
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cmd = list(cmd)
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return cmd + get_args(stream_spec, overwrite_output=overwrite_output)
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@output_operator()
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def run_async(
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stream_spec,
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cmd='ffmpeg',
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pipe_stdin=False,
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pipe_stdout=False,
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pipe_stderr=False,
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quiet=False,
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overwrite_output=False,
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):
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"""Asynchronously invoke ffmpeg for the supplied node graph.
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Args:
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pipe_stdin: if True, connect pipe to subprocess stdin (to be
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used with ``pipe:`` ffmpeg inputs).
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pipe_stdout: if True, connect pipe to subprocess stdout (to be
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used with ``pipe:`` ffmpeg outputs).
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pipe_stderr: if True, connect pipe to subprocess stderr.
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quiet: shorthand for setting ``capture_stdout`` and
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``capture_stderr``.
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**kwargs: keyword-arguments passed to ``get_args()`` (e.g.
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``overwrite_output=True``).
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Returns:
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A `subprocess Popen`_ object representing the child process.
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Examples:
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Run and stream input::
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process = (
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ffmpeg
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.input('pipe:', format='rawvideo', pix_fmt='rgb24', s='{}x{}'.format(width, height))
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.output(out_filename, pix_fmt='yuv420p')
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.overwrite_output()
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.run_async(pipe_stdin=True)
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)
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process.communicate(input=input_data)
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Run and capture output::
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process = (
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ffmpeg
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.input(in_filename)
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.output('pipe':, format='rawvideo', pix_fmt='rgb24')
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.run_async(pipe_stdout=True, pipe_stderr=True)
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)
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out, err = process.communicate()
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Process video frame-by-frame using numpy::
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process1 = (
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ffmpeg
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.input(in_filename)
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.output('pipe:', format='rawvideo', pix_fmt='rgb24')
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.run_async(pipe_stdout=True)
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)
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process2 = (
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ffmpeg
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.input('pipe:', format='rawvideo', pix_fmt='rgb24', s='{}x{}'.format(width, height))
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.output(out_filename, pix_fmt='yuv420p')
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.overwrite_output()
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.run_async(pipe_stdin=True)
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)
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while True:
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in_bytes = process1.stdout.read(width * height * 3)
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if not in_bytes:
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break
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in_frame = (
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np
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.frombuffer(in_bytes, np.uint8)
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.reshape([height, width, 3])
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)
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out_frame = in_frame * 0.3
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process2.stdin.write(
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frame
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.astype(np.uint8)
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.tobytes()
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)
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process2.stdin.close()
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process1.wait()
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process2.wait()
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.. _subprocess Popen: https://docs.python.org/3/library/subprocess.html#popen-objects
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"""
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args = compile(stream_spec, cmd, overwrite_output=overwrite_output)
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stdin_stream = subprocess.PIPE if pipe_stdin else None
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stdout_stream = subprocess.PIPE if pipe_stdout or quiet else None
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stderr_stream = subprocess.PIPE if pipe_stderr or quiet else None
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return subprocess.Popen(
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args, stdin=stdin_stream, stdout=stdout_stream, stderr=stderr_stream
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)
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@output_operator()
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def run(
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stream_spec,
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cmd='ffmpeg',
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capture_stdout=False,
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capture_stderr=False,
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input=None,
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quiet=False,
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overwrite_output=False,
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):
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"""Invoke ffmpeg for the supplied node graph.
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Args:
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capture_stdout: if True, capture stdout (to be used with
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``pipe:`` ffmpeg outputs).
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capture_stderr: if True, capture stderr.
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quiet: shorthand for setting ``capture_stdout`` and ``capture_stderr``.
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input: text to be sent to stdin (to be used with ``pipe:``
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ffmpeg inputs)
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**kwargs: keyword-arguments passed to ``get_args()`` (e.g.
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``overwrite_output=True``).
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Returns: (out, err) tuple containing captured stdout and stderr data.
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"""
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process = run_async(
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stream_spec,
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cmd,
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pipe_stdin=input is not None,
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pipe_stdout=capture_stdout,
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pipe_stderr=capture_stderr,
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quiet=quiet,
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overwrite_output=overwrite_output,
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)
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out, err = process.communicate(input)
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retcode = process.poll()
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if retcode:
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raise Error('ffmpeg', out, err)
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return out, err
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__all__ = ['compile', 'Error', 'get_args', 'run', 'run_async']
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