def overlay(old_filename_1, old_filename_2, new_filename): '''Creates an avi where the motion of old_filename_2 is layed over old_filename_1''' size = find_image_size(old_filename_1) if size != find_image_size(old_filename_2): #If the avi's have different dimensions, send an error and terminate function return 'Please only overlay gifs of the same dimensions' e = Index(old_filename_1) #Allows first old avi to be accessed by pymosh f = Index(old_filename_2) #Allows second old avi to be accessed by pymosh write_shell(count_frames(e)+count_frames(f), find_frame_duration(old_filename_1), size) #Creates a blank avi to be written into buf = [None] #Stores most recent p-frame, to be used when processing frames g = Index("shell.avi") #Allows the shell avi to be written into by pymosh newstream = [] #A list to store frames in, is later turned into the final avi for stream in e.video: #Puts all of first avi's frames into newstream, processing each frame newstream.append(process_frame(stream[0], buf)) ix = 0 for i in stream[1:]: ix+=1 newstream.append(process_frame(stream[ix], buf)) for stream in f.video: #Puts all of second avi's frames into newstream, processing each frame ix = 0 for i in stream: newstream.append(process_frame(stream[ix], buf)) ix+=1 for stream in g.video: #Replaces shell's black frames with old avi's frames stream.replace(newstream) g.rebuild() g.write(new_filename) #Writes final avi os.remove(os.getcwd() + "/shell.avi") #Deletes shell avi created by write_shell
def mosh(filename): f = Index(filename) buf = [None] # So I can assign to the closed-over buffer def process_frame(frame): """Process a frame, holding onto one P-frame at a time, which is used to replace any I-frames encountered.""" if buf[0] == None or not is_iframe(frame): buf[0] = frame else: frame = buf[0] print(frame) return frame for stream in f.video: # Each I-frame is replaced by the following P-frame. Going # backwards makes this much less awkward. The first frame is kept # intact. newstream = map(process_frame, reversed(stream[1:])) + stream[:1] # Flip the frames back to the right order. newstream.reverse() print(f) stream.replace(newstream) # Call rebuild to recombine the modified streams and perform any other # maintenance the file format needs for clean output. f.rebuild() print(stream) # Finally, write the modified file to stdout. f.write(sys.stdout) write_data = time.strftime("%I%M%S")
def mosh(filename): f = Index(filename) buf = [None] # So I can assign to the closed-over buffer def process_frame(frame): """Process a frame, holding onto one P-frame at a time, which is used to replace any I-frames encountered.""" if buf[0] == None or not is_iframe(frame): buf[0] = frame else: frame = buf[0] return frame for stream in f.video: # Each I-frame is replaced by the following P-frame. Going # backwards makes this much less awkward. The first frame is kept # intact. newstream = map(process_frame, reversed(stream[1:])) + stream[:1] # Flip the frames back to the right order. newstream.reverse() stream.replace(newstream) # Call rebuild to recombine the modified streams and perform any other # maintenance the file format needs for clean output. f.rebuild() # Finally, write the modified file to stdout. f.write(sys.stdout)
def process_streams(in_filename, out_filename, func, *args, **kwargs): f = Index(in_filename) for stream in f.video: drifted = list(func(stream, *args, **kwargs)) stream.replace(drifted) f.rebuild() f.write(open(out_filename, 'wb'))
def avi_sort(filename): f = Index(filename) for stream in f.video: sorted_stream = sorted(stream, key=len, reverse=True) stream.replace(sorted_stream) f.rebuild() f.write(sys.stdout)
def mosh(interval, filename): f = Index(filename) #loads in the index of frames in the given avi file buf = [None] # So I can assign to the closed-over buffer def process_frame(frame): """Process a frame, holding onto one P-frame at a time, which is used to replace any I-frames encountered.""" #if there is no frame in buf or the frame is not i-frame if buf[0] == None or not is_iframe(frame): #then buf is the seen p-frame buf[0] = frame else: #if it IS an iframe then use the buf'ers pframe frame = buf[0] #return the frame return frame #we use the list of frames in the loaded file for stream in f.video: #make a new list to put in frames YOU decide newstream = [] #append it with a i-frame to make it load fine in video player newstream.append(stream[0]) #two variables for counting frames and interval ix = 0 jx = 0 #stream is reduced by one since we have allready added one frame above for i in stream[1:]: ix += 1 jx += 1 #if ix the counter of interval is < interval select normal frames if ix < interval: newstream.append(process_frame(stream[jx])) #else bleed the reached frame for interval time else: newstream.append(newstream[-1]) #init interval if ix > interval * 2: ix = 0 #replace original stream with same length newstream stream.replace(newstream) # Call rebuild to recombine the modified streams and perform any other # maintenance the file format needs for clean output. f.rebuild() # Finally, write the modified file . f.write("moshed_" + os.path.basename(filename))
def shmear(old_filename, new_filename): '''Creates an avi with each of the P-frames doubled.''' f = Index(old_filename) #Allows original avi to be accessed by pymosh write_shell(count_frames(f)*2-1, find_frame_duration(old_filename), find_image_size(old_filename)) #Creates a blank avi to be written into buf = [None] #Stores most recent p-frame, to be used when processing frames g = Index("shell.avi") #Allows the shell avi to be written into by pymosh for stream in f.video: #Puts each motion frame from the old avi twice into the new avi newstream = [] newstream.append(stream[0]) ix = 0 for i in stream[1:]: ix+=1 newstream.append(process_frame(stream[ix], buf)) newstream.append(process_frame(stream[ix], buf)) for gstream in g.video: #Replaces shell's black frames with old avi's frames gstream.replace(newstream) g.rebuild() g.write(new_filename) #Writes final avi os.remove(os.getcwd() + "/shell.avi") #Deletes shell avi created by write_shell
def bloom(old_filename, new_filename, wait, bloom): '''Creates an avi that behaves normally for (wait) frames, copies the frame after the wait for (bloom) frames, and then continues normally until the end of the avi''' f = Index(old_filename) #Allows original avi to be accessed by pymosh write_shell(count_frames(f)+bloom, find_frame_duration(old_filename), find_image_size(old_filename)) #Creates a blank avi to be written into buf = [None] #Stores most recent p-frame, to be used when processing frames g = Index("shell.avi") #Allows the shell avi to be written into by pymosh for stream in f.video: #Puts the frames from the old avi in the desired order in newstream newstream = [] newstream.append(stream[0]) ix = 0 for i in stream[1:]: ix+=1 newstream.append(process_frame(stream[ix], buf)) if ix == wait: for i in range(bloom): newstream.append(newstream[-1]) for gstream in g.video: #Replaces shell's black frames with old avi's frames gstream.replace(newstream) g.rebuild() g.write(new_filename) #Writes final avi os.remove(os.getcwd() + "/shell.avi") #Deletes shell avi created by write_shell