# -*- coding: utf-8 -*- # vi:si:et:sw=4:sts=4:ts=4 from __future__ import division, with_statement import os from os.path import exists import fractions import subprocess import tempfile import time import math from glob import glob import numpy as np import Image import ox import ox.image from ox.utils import json img_extension='jpg' AVCONV = 'avconv' MAX_DISTANCE = math.sqrt(3 * pow(255, 2)) class AspectRatio(fractions.Fraction): def __new__(cls, numerator, denominator=None): if not denominator: ratio = map(int, numerator.split(':')) if len(ratio) == 1: ratio.append(1) numerator = ratio[0] denominator = ratio[1] #if its close enough to the common aspect ratios rather use that if abs(numerator/denominator - 4/3) < 0.03: numerator = 4 denominator = 3 elif abs(numerator/denominator - 16/9) < 0.02: numerator = 16 denominator = 9 return super(AspectRatio, cls).__new__(cls, numerator, denominator) @property def ratio(self): return "%d:%d" % (self.numerator, self.denominator) def supported_formats(): p = subprocess.Popen(['which', AVCONV], stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout, stderr = p.communicate() if not stdout.strip(): return None p = subprocess.Popen([AVCONV, '-codecs'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout, stderr = p.communicate() return { 'ogg': 'libtheora' in stdout and 'libvorbis' in stdout, 'webm': 'libvpx' in stdout and 'libvorbis' in stdout, 'mp4': 'libx264' in stdout and 'libvo_aacenc' in stdout, } def stream(video, target, profile, info): if not os.path.exists(target): ox.makedirs(os.path.dirname(target)) ''' WebM look into lag mb_static_threshold qmax/qmin rc_buf_aggressivity=0.95 token_partitions=4 level / speedlevel bt? H264, should bitrates be a bit lower? other stuff possible? ''' profile, format = profile.split('.') bpp = 0.17 if profile == '1080p': height = 1080 audiorate = 48000 audioquality = 6 audiobitrate = None audiochannels = None if profile == '720p': height = 720 audiorate = 48000 audioquality = 5 audiobitrate = None audiochannels = None if profile == '480p': height = 480 audiorate = 44100 audioquality = 3 audiobitrate = None audiochannels = 2 elif profile == '432p': height = 432 audiorate = 44100 audioquality = 3 audiobitrate = None audiochannels = 2 elif profile == '360p': height = 360 audiorate = 44100 audioquality = 1 audiobitrate = None audiochannels = 1 elif profile == '288p': height = 288 audiorate = 44100 audioquality = 0 audiobitrate = None audiochannels = 1 elif profile == '240p': height = 240 audiorate = 44100 audioquality = 0 audiobitrate = None audiochannels = 1 elif profile == '144p': height = 144 audiorate = 22050 audioquality = -1 audiobitrate = '22k' audiochannels = 1 else: height = 96 audiorate = 22050 audioquality = -1 audiobitrate = '22k' audiochannels = 1 if info['video'] and 'display_aspect_ratio' in info['video'][0]: fps = AspectRatio(info['video'][0]['framerate']) dar = AspectRatio(info['video'][0]['display_aspect_ratio']) width = int(dar * height) width += width % 2 bitrate = height*width*fps*bpp/1000 aspect = dar.ratio #use 1:1 pixel aspect ratio if dar is close to that if abs(width/height - dar) < 0.02: aspect = '%s:%s' % (width, height) video_settings = [ '-vb', '%dk'%bitrate, '-aspect', aspect, #'-vf', 'yadif', '-vf', 'hqdn3d,scale=%s:%s'%(width, height), '-g', '%d' % int(fps*5), ] if format == 'webm': video_settings += [ '-deadline', 'good', '-cpu-used', '0', '-lag-in-frames', '16', '-auto-alt-ref', '1', ] if format == 'mp4': #quicktime does not support bpyramid ''' video_settings += [ '-vcodec', 'libx264', '-flags', '+loop+mv4', '-cmp', '256', '-partitions', '+parti4x4+parti8x8+partp4x4+partp8x8+partb8x8', '-me_method', 'hex', '-subq', '7', '-trellis', '1', '-refs', '5', '-bf', '3', '-flags2', '+bpyramid+wpred+mixed_refs+dct8x8', '-coder', '1', '-me_range', '16', '-keyint_min', '25', #FIXME: should this be related to fps? '-sc_threshold','40', '-i_qfactor', '0.71', '-qmin', '10', '-qmax', '51', '-qdiff', '4' ] ''' video_settings += [ '-vcodec', 'libx264', '-flags', '+loop+mv4', '-cmp', '256', '-partitions', '+parti4x4+parti8x8+partp4x4+partp8x8+partb8x8', '-me_method', 'hex', '-subq', '7', '-trellis', '1', '-refs', '5', '-bf', '0', '-flags2', '+mixed_refs', '-coder', '0', '-me_range', '16', '-sc_threshold', '40', '-i_qfactor', '0.71', '-qmin', '10', '-qmax', '51', '-qdiff', '4' ] else: video_settings = ['-vn'] if info['audio']: audio_settings = ['-ar', str(audiorate), '-aq', str(audioquality)] if audiochannels and 'channels' in info['audio'][0] \ and info['audio'][0]['channels'] > audiochannels: audio_settings += ['-ac', str(audiochannels)] if audiobitrate: audio_settings += ['-ab', audiobitrate] if format == 'mp4': audio_settings += ['-acodec', 'libvo_aacenc'] else: audio_settings += ['-acodec', 'libvorbis'] else: audio_settings = ['-an'] cmd = [AVCONV, '-y', '-i', video, '-threads', '4'] \ + audio_settings \ + video_settings if format == 'webm': cmd += ['-f', 'webm', target] elif format == 'mp4': #mp4 needs postprocessing(qt-faststart), write to temp file cmd += ["%s.mp4" % target] else: cmd += [target] #print cmd p = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=open('/dev/null', 'w'), stderr=subprocess.STDOUT) p.communicate() if format == 'mp4': cmd = ['qt-faststart', "%s.mp4" % target, target] #print cmd p = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=open('/dev/null', 'w'), stderr=subprocess.STDOUT) p.communicate() os.unlink("%s.mp4" % target) return True def run_command(cmd, timeout=10): #print cmd p = subprocess.Popen(cmd, stdout=open('/dev/null', 'w'), stderr=subprocess.STDOUT) while timeout > 0: time.sleep(0.2) timeout -= 0.2 if p.poll() != None: return p.returncode if p.poll() == None: os.kill(p.pid, 9) killedpid, stat = os.waitpid(p.pid, os.WNOHANG) return p.returncode def frame(videoFile, frame, position, height=128, redo=False): ''' params: videoFile input frame output position as float in seconds height of frame redo boolean to extract file even if it exists ''' if exists(videoFile): frameFolder = os.path.dirname(frame) if redo or not exists(frame): ox.makedirs(frameFolder) cmd = ['oxframe', '-i', videoFile, '-o', frame, '-p', str(position), '-y', str(height)] run_command(cmd) def resize_image(image_source, image_output, width=None, size=None): if exists(image_source): source = Image.open(image_source).convert('RGB') source_width = source.size[0] source_height = source.size[1] if size: if source_width > source_height: width = size height = int(width / (float(source_width) / source_height)) height = height - height % 2 else: height = size width = int(height * (float(source_width) / source_height)) width = width - width % 2 else: height = int(width / (float(source_width) / source_height)) height = height - height % 2 width = max(width, 1) height = max(height, 1) if width < source_width: resize_method = Image.ANTIALIAS else: resize_method = Image.BICUBIC output = source.resize((width, height), resize_method) output.save(image_output) def timeline(video, prefix, modes=None, size=None): if modes is None: modes = ['antialias', 'slitscan', 'keyframes', 'audio', 'data'] if size is None: size=[64, 16] if isinstance(video, basestring): video = [video] cmd = ['../bin/oxtimelines', '-s', ','.join(map(str, reversed(sorted(size)))), '-m', ','.join(modes), '-o', prefix, '-c', os.path.join(prefix, 'cuts.json'), ] + video p = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) #print cmd #p = subprocess.Popen(cmd) p.wait() def average_color(prefix, start=0, end=0, mode='antialias'): height = 64 frames = 0 pixels = [] color = np.asarray([0, 0, 0], dtype=np.float32) if end: start = int(start * 25) end = int(end * 25) mode = 'timeline' + mode timelines = ox.sorted_strings(filter(lambda t: t!= '%s%s%sp.jpg'%(prefix, mode, height), glob("%s%s%sp*.jpg"%(prefix, mode, height)))) for image in timelines: start_offset = 0 if start and frames + 1500 <= start: frames += 1500 continue timeline = Image.open(image) frames += timeline.size[0] if start and frames > start > frames-timeline.size[0]: start_offset = start - (frames-timeline.size[0]) box = (start_offset, 0, timeline.size[0], height) timeline = timeline.crop(box) if end and frames > end: end_offset = timeline.size[0] - (frames - end) box = (0, 0, end_offset, height) timeline = timeline.crop(box) p = np.asarray(timeline.convert('RGB'), dtype=np.float32) p = np.sum(p, axis=0) / height #average color per frame pixels.append(p) if end and frames >= end: break if end: frames = end - start if frames: for i in range(0, len(pixels)): p = np.sum(pixels[i], axis=0) / frames color += p color = list(map(float, color)) return ox.image.getHSL(color) def average_volume(prefix, start=0, end=0): return average_color(prefix, start, end, 'audio')[2] def get_distance(rgb0, rgb1): # rgb distance, normalized so that black/white equals 1 dst = math.sqrt(pow(rgb0[0] - rgb1[0], 2) + pow(rgb0[1] - rgb1[1], 2) + pow(rgb0[2] - rgb1[2], 2)) return dst / MAX_DISTANCE def cuts(prefix): fname = os.path.join(prefix, 'cuts.json') if not os.path.exists(fname): return [] with open(fname) as f: cuts = json.load(f) return cuts def divide(num, by): # >>> divide(100, 3) # [33, 33, 34] arr = [] div = int(num / by) mod = num % by for i in range(int(by)): arr.append(div + (i > by - 1 - mod)) return arr def timeline_strip(item, cuts, info, prefix): _debug = False duration = info['duration'] video_height = info['video'][0]['height'] video_width = info['video'][0]['width'] video_ratio = video_width / video_height line_image = [] timeline_height = 64 timeline_width = 1500 fps = 25 frames = int(duration * fps) if cuts[0] != 0: cuts.insert(0, 0) cuts = map(lambda x: int(round(x * fps)), cuts) for frame in range(frames): i = int(frame / timeline_width) x = frame % timeline_width if x == 0: timeline_width = min(timeline_width, frames - frame) timeline_image = Image.new('RGB', (timeline_width, timeline_height)) if frame in cuts: c = cuts.index(frame) if c +1 < len(cuts): duration = cuts[c + 1] - cuts[c] frames = math.ceil(duration / (video_width * timeline_height / video_height)) widths = divide(duration, frames) frame = frame if _debug: print widths, duration, frames, cuts[c], cuts[c + 1] for s in range(int(frames)): frame_ratio = widths[s] / timeline_height if video_ratio > frame_ratio: width = int(round(video_height * frame_ratio)) left = int((video_width - width) / 2) box = (left, 0, left + width, video_height) else: height = int(round(video_width / frame_ratio)) top = int((video_height - height) / 2) box = (0, top, video_width, top + height) if _debug: print frame, 'cut', c, 'frame', s, frame, 'width', widths[s], box #FIXME: why does this have to be frame+1? frame_image = Image.open(item.frame((frame+1)/fps)) frame_image = frame_image.crop(box).resize((widths[s], timeline_height), Image.ANTIALIAS) for x_ in range(widths[s]): line_image.append(frame_image.crop((x_, 0, x_ + 1, timeline_height))) frame += widths[s] if len(line_image) > frame: timeline_image.paste(line_image[frame], (x, 0)) if x == timeline_width - 1: timeline_file = '%sStrip64p%04d.png' % (prefix, i) if _debug: print 'writing', timeline_file timeline_image.save(timeline_file) def chop(video, start, end): t = end - start tmp = tempfile.mkdtemp() ext = os.path.splitext(video)[1] choped_video = '%s/tmp%s' % (tmp, ext) cmd = [ 'ffmpeg', '-y', '-i', video, '-ss', '%.3f'%start, '-t', '%.3f'%t, '-vcodec', 'copy', '-acodec', 'copy', '-f', ext[1:], choped_video ] p = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=open('/dev/null', 'w'), stderr=open('/dev/null', 'w')) p.wait() f = open(choped_video, 'r') os.unlink(choped_video) os.rmdir(tmp) return f