| #!/usr/bin/env python |
| |
| """Rippy! |
| |
| This script helps to convert video from one format to another. |
| This is useful for ripping DVD to mpeg4 video (XviD, DivX). |
| |
| Features: |
| * automatic crop detection |
| * mp3 audio compression with resampling options |
| * automatic bitrate calculation based on desired target size |
| * optional interlace removal, b/w video optimization, video scaling |
| |
| Run the script with no arguments to start with interactive prompts: |
| rippy.py |
| Run the script with the filename of a config to start automatic mode: |
| rippy.py rippy.conf |
| |
| After Rippy is finished it saves the current configuation in a file called |
| 'rippy.conf' in the local directoy. This can be used to rerun process using the |
| exact same settings by passing the filename of the conf file as an argument to |
| Rippy. Rippy will read the options from the file instead of asking you for |
| options interactively. So if you run rippy with 'dry_run=1' then you can run |
| the process again later using the 'rippy.conf' file. Don't forget to edit |
| 'rippy.conf' to set 'dry_run=0'! |
| |
| If you run rippy with 'dry_run' and 'verbose' true then the output generated is |
| valid command line commands. you could (in theory) cut-and-paste the commands |
| to a shell prompt. You will need to tweak some values such as crop area and bit |
| rate because these cannot be calculated in a dry run. This is useful if you |
| want to get an idea of what Rippy plans to do. |
| |
| For all the trouble that Rippy goes through to calculate the best bitrate for a |
| desired target video size it sometimes fails to get it right. Sometimes the |
| final video size will differ more than you wanted from the desired size, but if |
| you are really motivated and have a lot of time on your hands then you can run |
| Rippy again with a manually calculated bitrate. After all compression is done |
| the first time Rippy will recalculate the bitrate to give you the nearly exact |
| bitrate that would have worked. You can then edit the 'rippy.conf' file; set |
| the video_bitrate with this revised bitrate; and then run Rippy all over again. |
| There is nothing like 4-pass video compression to get it right! Actually, this |
| could be done in three passes since I don't need to do the second pass |
| compression before I calculate the revised bitrate. I'm also considering an |
| enhancement where Rippy would compress ten spread out chunks, 1-minute in |
| length to estimate the bitrate. |
| |
| Free, open source, and all that good stuff. |
| Rippy Copyright (c) 2006 Noah Spurrier |
| |
| Permission is hereby granted, free of charge, to any person obtaining a copy |
| of this software and associated documentation files (the "Software"), to deal |
| in the Software without restriction, including without limitation the rights |
| to use, copy, modify, merge, publish, distribute, sublicense, and/or sell |
| copies of the Software, and to permit persons to whom the Software is |
| furnished to do so, subject to the following conditions: |
| |
| The above copyright notice and this permission notice shall be included in all |
| copies or substantial portions of the Software. |
| |
| THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, |
| EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
| MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. |
| IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, |
| DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR |
| OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE |
| USE OR OTHER DEALINGS IN THE SOFTWARE. |
| |
| Noah Spurrier |
| $Id: rippy.py 517 2008-08-18 22:23:56Z noah $ |
| """ |
| |
| import sys, os, re, math, stat, getopt, traceback, types, time |
| import pexpect |
| |
| __version__ = '1.2' |
| __revision__ = '$Revision: 11 $' |
| __all__ = ['main', __version__, __revision__] |
| |
| GLOBAL_LOGFILE_NAME = "rippy_%d.log" % os.getpid() |
| GLOBAL_LOGFILE = open (GLOBAL_LOGFILE_NAME, "wb") |
| |
| ############################################################################### |
| # This giant section defines the prompts and defaults used in interactive mode. |
| ############################################################################### |
| # Python dictionaries are unordered, so |
| # I have this list that maintains the order of the keys. |
| prompts_key_order = ( |
| 'verbose_flag', |
| 'dry_run_flag', |
| 'video_source_filename', |
| 'video_chapter', |
| 'video_final_filename', |
| 'video_length', |
| 'video_aspect_ratio', |
| 'video_scale', |
| 'video_encode_passes', |
| 'video_codec', |
| 'video_fourcc_override', |
| 'video_bitrate', |
| 'video_bitrate_overhead', |
| 'video_target_size', |
| 'video_deinterlace_flag', |
| 'video_crop_area', |
| 'video_gray_flag', |
| 'subtitle_id', |
| 'audio_id', |
| 'audio_codec', |
| 'audio_raw_filename', |
| 'audio_volume_boost', |
| 'audio_sample_rate', |
| 'audio_bitrate', |
| #'audio_lowpass_filter', |
| 'delete_tmp_files_flag' |
| ) |
| # |
| # The 'prompts' dictionary holds all the messages shown to the user in |
| # interactive mode. The 'prompts' dictionary schema is defined as follows: |
| # prompt_key : ( default value, prompt string, help string, level of difficulty (0,1,2) ) |
| # |
| prompts = { |
| 'video_source_filename':("dvd://1", 'video source filename?', """This is the filename of the video that you want to convert from. |
| It can be any file that mencoder supports. |
| You can also choose a DVD device using the dvd://1 syntax. |
| Title 1 is usually the main title on a DVD.""",0), |
| 'video_chapter':("none",'video chapter?',"""This is the chapter number. Usually disks such as TV series seasons will be divided into chapters. Maybe be set to none.""",0), |
| 'video_final_filename':("video_final.avi", "video final filename?", """This is the name of the final video.""",0), |
| 'audio_raw_filename':("audiodump.wav", "audio raw filename?", """This is the audio raw PCM filename. This is prior to compression. |
| Note that mplayer automatically names this audiodump.wav, so don't change this.""",1000), |
| #'audio_compressed_filename':("audiodump.mp3","Audio compressed filename?", """This is the name of the compressed audio that will be mixed |
| #into the final video. Normally you don't need to change this.""",2), |
| 'video_length':("none","video length in seconds?","""This sets the length of the video in seconds. This is used to estimate the |
| bitrate for a target video file size. Set to 'calc' to have Rippy calculate |
| the length. Set to 'none' if you don't want rippy to estimate the bitrate -- |
| you will have to manually specify bitrate.""",1), |
| 'video_aspect_ratio':("calc","aspect ratio?","""This sets the aspect ratio of the video. Most DVDs are 16/9 or 4/3.""",1), |
| 'video_scale':("none","video scale?","""This scales the video to the given output size. The default is to do no scaling. |
| You may type in a resolution such as 320x240 or you may use presets. |
| qntsc: 352x240 (NTSC quarter screen) |
| qpal: 352x288 (PAL quarter screen) |
| ntsc: 720x480 (standard NTSC) |
| pal: 720x576 (standard PAL) |
| sntsc: 640x480 (square pixel NTSC) |
| spal: 768x576 (square pixel PAL)""",1), |
| 'video_codec':("mpeg4","video codec?","""This is the video compression to use. This is passed directly to mencoder, so |
| any format that it recognizes should work. For XviD or DivX use mpeg4. |
| Almost all MS Windows systems support wmv2 out of the box. |
| Some common codecs include: |
| mjpeg, h263, h263p, h264, mpeg4, msmpeg4, wmv1, wmv2, mpeg1video, mpeg2video, huffyuv, ffv1. |
| """,2), |
| 'audio_codec':("mp3","audio codec?","""This is the audio compression to use. This is passed directly to mencoder, so |
| any format that it recognizes will work. |
| Some common codecs include: |
| mp3, mp2, aac, pcm |
| See mencoder manual for details.""",2), |
| 'video_fourcc_override':("XVID","force fourcc code?","""This forces the fourcc codec to the given value. XVID is safest for Windows. |
| The following are common fourcc values: |
| FMP4 - This is the mencoder default. This is the "real" value. |
| XVID - used by Xvid (safest) |
| DX50 - |
| MP4S - Microsoft""",2), |
| 'video_encode_passes':("1","number of encode passes?","""This sets how many passes to use to encode the video. You can choose 1 or 2. |
| Using two pases takes twice as long as one pass, but produces a better |
| quality video. I found that the improvement is not that impressive.""",1), |
| 'verbose_flag':("Y","verbose output?","""This sets verbose output. If true then all commands and arguments are printed |
| before they are run. This is useful to see exactly how commands are run.""",1), |
| 'dry_run_flag':("N","dry run?","""This sets 'dry run' mode. If true then commands are not run. This is useful |
| if you want to see what would the script would do.""",1), |
| 'video_bitrate':("calc","video bitrate?","""This sets the video bitrate. This overrides video_target_size. |
| Set to 'calc' to automatically estimate the bitrate based on the |
| video final target size. If you set video_length to 'none' then |
| you will have to specify this video_bitrate.""",1), |
| 'video_target_size':("737280000","video final target size?","""This sets the target video size that you want to end up with. |
| This is over-ridden by video_bitrate. In other words, if you specify |
| video_bitrate then video_target_size is ignored. |
| Due to the unpredictable nature of VBR compression the final video size |
| may not exactly match. The following are common CDR sizes: |
| 180MB CDR (21 minutes) holds 193536000 bytes |
| 550MB CDR (63 minutes) holds 580608000 bytes |
| 650MB CDR (74 minutes) holds 681984000 bytes |
| 700MB CDR (80 minutes) holds 737280000 bytes""",0), |
| 'video_bitrate_overhead':("1.0","bitrate overhead factor?","""Adjust this value if you want to leave more room for |
| other files such as subtitle files. |
| If you specify video_bitrate then this value is ignored.""",2), |
| 'video_crop_area':("detect","crop area?","""This sets the crop area to remove black bars from the top or sides of the video. |
| This helps save space. Set to 'detect' to automatically detect the crop area. |
| Set to 'none' to not crop the video. Normally you don't need to change this.""",1), |
| 'video_deinterlace_flag':("N","is the video interlaced?","""This sets the deinterlace flag. If set then mencoder will be instructed |
| to filter out interlace artifacts (using '-vf pp=md').""",1), |
| 'video_gray_flag':("N","is the video black and white (gray)?","""This improves output for black and white video.""",1), |
| 'subtitle_id':("None","Subtitle ID stream?","""This selects the subtitle stream to extract from the source video. |
| Normally, 0 is the English subtitle stream for a DVD. |
| Subtitles IDs with higher numbers may be other languages.""",1), |
| 'audio_id':("128","audio ID stream?","""This selects the audio stream to extract from the source video. |
| If your source is a VOB file (DVD) then stream IDs start at 128. |
| Normally, 128 is the main audio track for a DVD. |
| Tracks with higher numbers may be other language dubs or audio commentary.""",1), |
| 'audio_sample_rate':("32000","audio sample rate (Hz) 48000, 44100, 32000, 24000, 12000","""This sets the rate at which the compressed audio will be resampled. |
| DVD audio is 48 kHz whereas music CDs use 44.1 kHz. The higher the sample rate |
| the more space the audio track will take. That will leave less space for video. |
| 32 kHz is a good trade-off if you are trying to fit a video onto a CD.""",1), |
| 'audio_bitrate':("96","audio bitrate (kbit/s) 192, 128, 96, 64?","""This sets the bitrate for MP3 audio compression. |
| The higher the bitrate the more space the audio track will take. |
| That will leave less space for video. Most people find music to be acceptable |
| at 128 kBitS. 96 kBitS is a good trade-off if you are trying to fit a video onto a CD.""",1), |
| 'audio_volume_boost':("none","volume dB boost?","""Many DVDs have very low audio volume. This sets an audio volume boost in Decibels. |
| Values of 6 to 10 usually adjust quiet DVDs to a comfortable level.""",1), |
| #'audio_lowpass_filter':("16","audio lowpass filter (kHz)?","""This sets the low-pass filter for the audio. |
| #Normally this should be half of the audio sample rate. |
| #This improves audio compression and quality. |
| #Normally you don't need to change this.""",1), |
| 'delete_tmp_files_flag':("N","delete temporary files when finished?","""If Y then %s, audio_raw_filename, and 'divx2pass.log' will be deleted at the end."""%GLOBAL_LOGFILE_NAME,1) |
| } |
| |
| ############################################################################## |
| # This is the important convert control function |
| ############################################################################## |
| def convert (options): |
| """This is the heart of it all -- this performs an end-to-end conversion of |
| a video from one format to another. It requires a dictionary of options. |
| The conversion process will also add some keys to the dictionary |
| such as length of the video and crop area. The dictionary is returned. |
| This options dictionary could be used again to repeat the convert process |
| (it is also saved to rippy.conf as text). |
| """ |
| if options['subtitle_id'] is not None: |
| print "# extract subtitles" |
| apply_smart (extract_subtitles, options) |
| else: |
| print "# do not extract subtitles." |
| |
| # Optimization |
| # I really only need to calculate the exact video length if the user |
| # selected 'calc' for video_bitrate |
| # or |
| # selected 'detect' for video_crop_area. |
| if options['video_bitrate']=='calc' or options['video_crop_area']=='detect': |
| # As strange as it seems, the only reliable way to calculate the length |
| # of a video (in seconds) is to extract the raw, uncompressed PCM audio stream |
| # and then calculate the length of that. This is because MP4 video is VBR, so |
| # you cannot get exact time based on compressed size. |
| if options['video_length']=='calc': |
| print "# extract PCM raw audio to %s" % (options['audio_raw_filename']) |
| apply_smart (extract_audio, options) |
| options['video_length'] = apply_smart (get_length, options) |
| print "# Length of raw audio file : %d seconds (%0.2f minutes)" % (options['video_length'], float(options['video_length'])/60.0) |
| if options['video_bitrate']=='calc': |
| options['video_bitrate'] = options['video_bitrate_overhead'] * apply_smart (calc_video_bitrate, options) |
| print "# video bitrate : " + str(options['video_bitrate']) |
| if options['video_crop_area']=='detect': |
| options['video_crop_area'] = apply_smart (crop_detect, options) |
| print "# crop area : " + str(options['video_crop_area']) |
| print "# compression estimate" |
| print apply_smart (compression_estimate, options) |
| |
| print "# compress video" |
| apply_smart (compress_video, options) |
| 'audio_volume_boost', |
| |
| print "# delete temporary files:", |
| if options['delete_tmp_files_flag']: |
| print "yes" |
| apply_smart (delete_tmp_files, options) |
| else: |
| print "no" |
| |
| # Finish by saving options to rippy.conf and |
| # calclating if final_size is less than target_size. |
| o = ["# options used to create video\n"] |
| video_actual_size = get_filesize (options['video_final_filename']) |
| if options['video_target_size'] != 'none': |
| revised_bitrate = calculate_revised_bitrate (options['video_bitrate'], options['video_target_size'], video_actual_size) |
| o.append("# revised video_bitrate : %d\n" % revised_bitrate) |
| for k,v in options.iteritems(): |
| o.append (" %30s : %s\n" % (k, v)) |
| print '# '.join(o) |
| fout = open("rippy.conf","wb").write(''.join(o)) |
| print "# final actual video size = %d" % video_actual_size |
| if options['video_target_size'] != 'none': |
| if video_actual_size > options['video_target_size']: |
| print "# FINAL VIDEO SIZE IS GREATER THAN DESIRED TARGET" |
| print "# final video size is %d bytes over target size" % (video_actual_size - options['video_target_size']) |
| else: |
| print "# final video size is %d bytes under target size" % (options['video_target_size'] - video_actual_size) |
| print "# If you want to run the entire compression process all over again" |
| print "# to get closer to the target video size then trying using a revised" |
| print "# video_bitrate of %d" % revised_bitrate |
| |
| return options |
| |
| ############################################################################## |
| |
| def exit_with_usage(exit_code=1): |
| print globals()['__doc__'] |
| print 'version:', globals()['__version__'] |
| sys.stdout.flush() |
| os._exit(exit_code) |
| |
| def check_missing_requirements (): |
| """This list of missing requirements (mencoder, mplayer, lame, and mkvmerge). |
| Returns None if all requirements are in the execution path. |
| """ |
| missing = [] |
| if pexpect.which("mencoder") is None: |
| missing.append("mencoder") |
| if pexpect.which("mplayer") is None: |
| missing.append("mplayer") |
| cmd = "mencoder -oac help" |
| (command_output, exitstatus) = run(cmd) |
| ar = re.findall("(mp3lame)", command_output) |
| if len(ar)==0: |
| missing.append("Mencoder was not compiled with mp3lame support.") |
| |
| #if pexpect.which("lame") is None: |
| # missing.append("lame") |
| #if pexpect.which("mkvmerge") is None: |
| # missing.append("mkvmerge") |
| if len(missing)==0: |
| return None |
| return missing |
| |
| def input_option (message, default_value="", help=None, level=0, max_level=0): |
| """This is a fancy raw_input function. |
| If the user enters '?' then the contents of help is printed. |
| |
| The 'level' and 'max_level' are used to adjust which advanced options |
| are printed. 'max_level' is the level of options that the user wants |
| to see. 'level' is the level of difficulty for this particular option. |
| If this level is <= the max_level the user wants then the |
| message is printed and user input is allowed; otherwise, the |
| default value is returned automatically without user input. |
| """ |
| if default_value != '': |
| message = "%s [%s] " % (message, default_value) |
| if level > max_level: |
| return default_value |
| while 1: |
| user_input = raw_input (message) |
| if user_input=='?': |
| print help |
| elif user_input=='': |
| return default_value |
| else: |
| break |
| return user_input |
| |
| def progress_callback (d=None): |
| """This callback simply prints a dot to show activity. |
| This is used when running external commands with pexpect.run. |
| """ |
| sys.stdout.write (".") |
| sys.stdout.flush() |
| |
| def run(cmd): |
| global GLOBAL_LOGFILE |
| print >>GLOBAL_LOGFILE, cmd |
| (command_output, exitstatus) = pexpect.run(cmd, events={pexpect.TIMEOUT:progress_callback}, timeout=5, withexitstatus=True, logfile=GLOBAL_LOGFILE) |
| if exitstatus != 0: |
| print "RUN FAILED. RETURNED EXIT STATUS:", exitstatus |
| print >>GLOBAL_LOGFILE, "RUN FAILED. RETURNED EXIT STATUS:", exitstatus |
| return (command_output, exitstatus) |
| |
| def apply_smart (func, args): |
| """This is similar to func(**args), but this won't complain about |
| extra keys in 'args'. This ignores keys in 'args' that are |
| not required by 'func'. This passes None to arguments that are |
| not defined in 'args'. That's fine for arguments with a default valeue, but |
| that's a bug for required arguments. I should probably raise a TypeError. |
| The func parameter can be a function reference or a string. |
| If it is a string then it is converted to a function reference. |
| """ |
| if type(func) is type(''): |
| if func in globals(): |
| func = globals()[func] |
| else: |
| raise NameError("name '%s' is not defined" % func) |
| if hasattr(func,'im_func'): # Handle case when func is a class method. |
| func = func.im_func |
| argcount = func.func_code.co_argcount |
| required_args = dict([(k,args.get(k)) for k in func.func_code.co_varnames[:argcount]]) |
| return func(**required_args) |
| |
| def count_unique (items): |
| """This takes a list and returns a sorted list of tuples with a count of each unique item in the list. |
| Example 1: |
| count_unique(['a','b','c','a','c','c','a','c','c']) |
| returns: |
| [(5,'c'), (3,'a'), (1,'b')] |
| Example 2 -- get the most frequent item in a list: |
| count_unique(['a','b','c','a','c','c','a','c','c'])[0][1] |
| returns: |
| 'c' |
| """ |
| stats = {} |
| for i in items: |
| if i in stats: |
| stats[i] = stats[i] + 1 |
| else: |
| stats[i] = 1 |
| stats = [(v, k) for k, v in stats.items()] |
| stats.sort() |
| stats.reverse() |
| return stats |
| |
| def calculate_revised_bitrate (video_bitrate, video_target_size, video_actual_size): |
| """This calculates a revised video bitrate given the video_bitrate used, |
| the actual size that resulted, and the video_target_size. |
| This can be used if you want to compress the video all over again in an |
| attempt to get closer to the video_target_size. |
| """ |
| return int(math.floor(video_bitrate * (float(video_target_size) / float(video_actual_size)))) |
| |
| def get_aspect_ratio (video_source_filename): |
| """This returns the aspect ratio of the original video. |
| This is usualy 1.78:1(16/9) or 1.33:1(4/3). |
| This function is very lenient. It basically guesses 16/9 whenever |
| it cannot figure out the aspect ratio. |
| """ |
| cmd = "mplayer '%s' -vo png -ao null -frames 1" % video_source_filename |
| (command_output, exitstatus) = run(cmd) |
| ar = re.findall("Movie-Aspect is ([0-9]+\.?[0-9]*:[0-9]+\.?[0-9]*)", command_output) |
| if len(ar)==0: |
| return '16/9' |
| if ar[0] == '1.78:1': |
| return '16/9' |
| if ar[0] == '1.33:1': |
| return '4/3' |
| return '16/9' |
| #idh = re.findall("ID_VIDEO_HEIGHT=([0-9]+)", command_output) |
| #if len(idw)==0 or len(idh)==0: |
| # print 'WARNING!' |
| # print 'Could not get aspect ration. Assuming 1.78:1 (16/9).' |
| # return 1.78 |
| #return float(idw[0])/float(idh[0]) |
| #ID_VIDEO_WIDTH=720 |
| #ID_VIDEO_HEIGHT=480 |
| #Movie-Aspect is 1.78:1 - prescaling to correct movie aspect. |
| |
| |
| def get_aid_list (video_source_filename): |
| """This returns a list of audio ids in the source video file. |
| TODO: Also extract ID_AID_nnn_LANG to associate language. Not all DVDs include this. |
| """ |
| cmd = "mplayer '%s' -vo null -ao null -frames 0 -identify" % video_source_filename |
| (command_output, exitstatus) = run(cmd) |
| idl = re.findall("ID_AUDIO_ID=([0-9]+)", command_output) |
| idl.sort() |
| return idl |
| |
| def get_sid_list (video_source_filename): |
| """This returns a list of subtitle ids in the source video file. |
| TODO: Also extract ID_SID_nnn_LANG to associate language. Not all DVDs include this. |
| """ |
| cmd = "mplayer '%s' -vo null -ao null -frames 0 -identify" % video_source_filename |
| (command_output, exitstatus) = run(cmd) |
| idl = re.findall("ID_SUBTITLE_ID=([0-9]+)", command_output) |
| idl.sort() |
| return idl |
| |
| def extract_audio (video_source_filename, audio_id=128, verbose_flag=0, dry_run_flag=0): |
| """This extracts the given audio_id track as raw uncompressed PCM from the given source video. |
| Note that mplayer always saves this to audiodump.wav. |
| At this time there is no way to set the output audio name. |
| """ |
| #cmd = "mplayer %(video_source_filename)s -vc null -vo null -aid %(audio_id)s -ao pcm:fast -noframedrop" % locals() |
| cmd = "mplayer -quiet '%(video_source_filename)s' -vc dummy -vo null -aid %(audio_id)s -ao pcm:fast -noframedrop" % locals() |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| run(cmd) |
| print |
| |
| def extract_subtitles (video_source_filename, subtitle_id=0, verbose_flag=0, dry_run_flag=0): |
| """This extracts the given subtitle_id track as VOBSUB format from the given source video. |
| """ |
| cmd = "mencoder -quiet '%(video_source_filename)s' -o /dev/null -nosound -ovc copy -vobsubout subtitles -vobsuboutindex 0 -sid %(subtitle_id)s" % locals() |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| run(cmd) |
| print |
| |
| def get_length (audio_raw_filename): |
| """This attempts to get the length of the media file (length is time in seconds). |
| This should not be confused with size (in bytes) of the file data. |
| This is best used on a raw PCM AUDIO file because mplayer cannot get an accurate |
| time for many compressed video and audio formats -- notably MPEG4 and MP3. |
| Weird... |
| This returns -1 if it cannot get the length of the given file. |
| """ |
| cmd = "mplayer %s -vo null -ao null -frames 0 -identify" % audio_raw_filename |
| (command_output, exitstatus) = run(cmd) |
| idl = re.findall("ID_LENGTH=([0-9.]*)", command_output) |
| idl.sort() |
| if len(idl) != 1: |
| print "ERROR: cannot get length of raw audio file." |
| print "command_output of mplayer identify:" |
| print command_output |
| print "parsed command_output:" |
| print str(idl) |
| return -1 |
| return float(idl[0]) |
| |
| def get_filesize (filename): |
| """This returns the number of bytes a file takes on storage.""" |
| return os.stat(filename)[stat.ST_SIZE] |
| |
| def calc_video_bitrate (video_target_size, audio_bitrate, video_length, extra_space=0, dry_run_flag=0): |
| """This gives an estimate of the video bitrate necessary to |
| fit the final target size. This will take into account room to |
| fit the audio and extra space if given (for container overhead or whatnot). |
| video_target_size is in bytes, |
| audio_bitrate is bits per second (96, 128, 256, etc.) ASSUMING CBR, |
| video_length is in seconds, |
| extra_space is in bytes. |
| a 180MB CDR (21 minutes) holds 193536000 bytes. |
| a 550MB CDR (63 minutes) holds 580608000 bytes. |
| a 650MB CDR (74 minutes) holds 681984000 bytes. |
| a 700MB CDR (80 minutes) holds 737280000 bytes. |
| """ |
| if dry_run_flag: |
| return -1 |
| if extra_space is None: extra_space = 0 |
| #audio_size = os.stat(audio_compressed_filename)[stat.ST_SIZE] |
| audio_size = (audio_bitrate * video_length * 1000) / 8.0 |
| video_target_size = video_target_size - audio_size - extra_space |
| return (int)(calc_video_kbitrate (video_target_size, video_length)) |
| |
| def calc_video_kbitrate (target_size, length_secs): |
| """Given a target byte size free for video data, this returns the bitrate in kBit/S. |
| For mencoder vbitrate 1 kBit = 1000 Bits -- not 1024 bits. |
| target_size = bitrate * 1000 * length_secs / 8 |
| target_size = bitrate * 125 * length_secs |
| bitrate = target_size/(125*length_secs) |
| """ |
| return int(target_size / (125.0 * length_secs)) |
| |
| def crop_detect (video_source_filename, video_length, dry_run_flag=0): |
| """This attempts to figure out the best crop for the given video file. |
| Basically it runs crop detect for 10 seconds on five different places in the video. |
| It picks the crop area that was most often detected. |
| """ |
| skip = int(video_length/9) # offset to skip (-ss option in mencoder) |
| sample_length = 10 |
| cmd1 = "mencoder '%s' -quiet -ss %d -endpos %d -o /dev/null -nosound -ovc lavc -vf cropdetect" % (video_source_filename, skip, sample_length) |
| cmd2 = "mencoder '%s' -quiet -ss %d -endpos %d -o /dev/null -nosound -ovc lavc -vf cropdetect" % (video_source_filename, 2*skip, sample_length) |
| cmd3 = "mencoder '%s' -quiet -ss %d -endpos %d -o /dev/null -nosound -ovc lavc -vf cropdetect" % (video_source_filename, 4*skip, sample_length) |
| cmd4 = "mencoder '%s' -quiet -ss %d -endpos %d -o /dev/null -nosound -ovc lavc -vf cropdetect" % (video_source_filename, 6*skip, sample_length) |
| cmd5 = "mencoder '%s' -quiet -ss %d -endpos %d -o /dev/null -nosound -ovc lavc -vf cropdetect" % (video_source_filename, 8*skip, sample_length) |
| if dry_run_flag: |
| return "0:0:0:0" |
| (command_output1, exitstatus1) = run(cmd1) |
| (command_output2, exitstatus2) = run(cmd2) |
| (command_output3, exitstatus3) = run(cmd3) |
| (command_output4, exitstatus4) = run(cmd4) |
| (command_output5, exitstatus5) = run(cmd5) |
| idl = re.findall("-vf crop=([0-9]+:[0-9]+:[0-9]+:[0-9]+)", command_output1) |
| idl = idl + re.findall("-vf crop=([0-9]+:[0-9]+:[0-9]+:[0-9]+)", command_output2) |
| idl = idl + re.findall("-vf crop=([0-9]+:[0-9]+:[0-9]+:[0-9]+)", command_output3) |
| idl = idl + re.findall("-vf crop=([0-9]+:[0-9]+:[0-9]+:[0-9]+)", command_output4) |
| idl = idl + re.findall("-vf crop=([0-9]+:[0-9]+:[0-9]+:[0-9]+)", command_output5) |
| items_count = count_unique(idl) |
| return items_count[0][1] |
| |
| |
| def build_compression_command (video_source_filename, video_final_filename, video_target_size, audio_id=128, video_bitrate=1000, video_codec='mpeg4', audio_codec='mp3', video_fourcc_override='FMP4', video_gray_flag=0, video_crop_area=None, video_aspect_ratio='16/9', video_scale=None, video_encode_passes=2, video_deinterlace_flag=0, audio_volume_boost=None, audio_sample_rate=None, audio_bitrate=None, seek_skip=None, seek_length=None, video_chapter=None): |
| #Notes:For DVD, VCD, and SVCD use acodec=mp2 and vcodec=mpeg2video: |
| #mencoder movie.avi -o movie.VOB -ovc lavc -oac lavc -lavcopts acodec=mp2:abitrate=224:vcodec=mpeg2video:vbitrate=2000 |
| |
| # |
| # build video filter (-vf) argument |
| # |
| video_filter = '' |
| if video_crop_area and video_crop_area.lower()!='none': |
| video_filter = video_filter + 'crop=%s' % video_crop_area |
| if video_deinterlace_flag: |
| if video_filter != '': |
| video_filter = video_filter + ',' |
| video_filter = video_filter + 'pp=md' |
| if video_scale and video_scale.lower()!='none': |
| if video_filter != '': |
| video_filter = video_filter + ',' |
| video_filter = video_filter + 'scale=%s' % video_scale |
| # optional video rotation -- were you holding your camera sideways? |
| #if video_filter != '': |
| # video_filter = video_filter + ',' |
| #video_filter = video_filter + 'rotate=2' |
| if video_filter != '': |
| video_filter = '-vf ' + video_filter |
| |
| # |
| # build chapter argument |
| # |
| if video_chapter is not None: |
| chapter = '-chapter %d-%d' %(video_chapter,video_chapter) |
| else: |
| chapter = '' |
| # chapter = '-chapter 2-2' |
| |
| # |
| # build audio_filter argument |
| # |
| audio_filter = '' |
| if audio_sample_rate: |
| if audio_filter != '': |
| audio_filter = audio_filter + ',' |
| audio_filter = audio_filter + 'lavcresample=%s' % audio_sample_rate |
| if audio_volume_boost is not None: |
| if audio_filter != '': |
| audio_filter = audio_filter + ',' |
| audio_filter = audio_filter + 'volume=%0.1f:1'%audio_volume_boost |
| if audio_filter != '': |
| audio_filter = '-af ' + audio_filter |
| # |
| #if audio_sample_rate: |
| # audio_filter = ('-srate %d ' % audio_sample_rate) + audio_filter |
| |
| # |
| # build lavcopts argument |
| # |
| #lavcopts = '-lavcopts vcodec=%s:vbitrate=%d:mbd=2:aspect=%s:acodec=%s:abitrate=%d:vpass=1' % (video_codec,video_bitrate,audio_codec,audio_bitrate) |
| lavcopts = '-lavcopts vcodec=%(video_codec)s:vbitrate=%(video_bitrate)d:mbd=2:aspect=%(video_aspect_ratio)s:acodec=%(audio_codec)s:abitrate=%(audio_bitrate)d:vpass=1' % (locals()) |
| if video_gray_flag: |
| lavcopts = lavcopts + ':gray' |
| |
| seek_filter = '' |
| if seek_skip is not None: |
| seek_filter = '-ss %s' % (str(seek_skip)) |
| if seek_length is not None: |
| seek_filter = seek_filter + ' -endpos %s' % (str(seek_length)) |
| |
| # cmd = "mencoder -quiet -info comment='Arkivist' '%(video_source_filename)s' %(seek_filter)s %(chapter)s -aid %(audio_id)s -o '%(video_final_filename)s' -ffourcc %(video_fourcc_override)s -ovc lavc -oac lavc %(lavcopts)s %(video_filter)s %(audio_filter)s" % locals() |
| cmd = "mencoder -quiet -info comment='Arkivist' '%(video_source_filename)s' %(seek_filter)s %(chapter)s -aid %(audio_id)s -o '%(video_final_filename)s' -ffourcc %(video_fourcc_override)s -ovc lavc -oac mp3lame %(lavcopts)s %(video_filter)s %(audio_filter)s" % locals() |
| return cmd |
| |
| def compression_estimate (video_length, video_source_filename, video_final_filename, video_target_size, audio_id=128, video_bitrate=1000, video_codec='mpeg4', audio_codec='mp3', video_fourcc_override='FMP4', video_gray_flag=0, video_crop_area=None, video_aspect_ratio='16/9', video_scale=None, video_encode_passes=2, video_deinterlace_flag=0, audio_volume_boost=None, audio_sample_rate=None, audio_bitrate=None): |
| """This attempts to figure out the best compression ratio for a given set of compression options. |
| """ |
| # TODO Need to account for AVI overhead. |
| skip = int(video_length/9) # offset to skip (-ss option in mencoder) |
| sample_length = 10 |
| cmd1 = build_compression_command (video_source_filename, "compression_test_1.avi", video_target_size, audio_id, video_bitrate, video_codec, audio_codec, video_fourcc_override, video_gray_flag, video_crop_area, video_aspect_ratio, video_scale, video_encode_passes, video_deinterlace_flag, audio_volume_boost, audio_sample_rate, audio_bitrate, skip, sample_length) |
| cmd2 = build_compression_command (video_source_filename, "compression_test_2.avi", video_target_size, audio_id, video_bitrate, video_codec, audio_codec, video_fourcc_override, video_gray_flag, video_crop_area, video_aspect_ratio, video_scale, video_encode_passes, video_deinterlace_flag, audio_volume_boost, audio_sample_rate, audio_bitrate, skip*2, sample_length) |
| cmd3 = build_compression_command (video_source_filename, "compression_test_3.avi", video_target_size, audio_id, video_bitrate, video_codec, audio_codec, video_fourcc_override, video_gray_flag, video_crop_area, video_aspect_ratio, video_scale, video_encode_passes, video_deinterlace_flag, audio_volume_boost, audio_sample_rate, audio_bitrate, skip*4, sample_length) |
| cmd4 = build_compression_command (video_source_filename, "compression_test_4.avi", video_target_size, audio_id, video_bitrate, video_codec, audio_codec, video_fourcc_override, video_gray_flag, video_crop_area, video_aspect_ratio, video_scale, video_encode_passes, video_deinterlace_flag, audio_volume_boost, audio_sample_rate, audio_bitrate, skip*6, sample_length) |
| cmd5 = build_compression_command (video_source_filename, "compression_test_5.avi", video_target_size, audio_id, video_bitrate, video_codec, audio_codec, video_fourcc_override, video_gray_flag, video_crop_area, video_aspect_ratio, video_scale, video_encode_passes, video_deinterlace_flag, audio_volume_boost, audio_sample_rate, audio_bitrate, skip*8, sample_length) |
| run(cmd1) |
| run(cmd2) |
| run(cmd3) |
| run(cmd4) |
| run(cmd5) |
| size = get_filesize ("compression_test_1.avi")+get_filesize ("compression_test_2.avi")+get_filesize ("compression_test_3.avi")+get_filesize ("compression_test_4.avi")+get_filesize ("compression_test_5.avi") |
| return (size / 5.0) |
| |
| def compress_video (video_source_filename, video_final_filename, video_target_size, audio_id=128, video_bitrate=1000, video_codec='mpeg4', audio_codec='mp3', video_fourcc_override='FMP4', video_gray_flag=0, video_crop_area=None, video_aspect_ratio='16/9', video_scale=None, video_encode_passes=2, video_deinterlace_flag=0, audio_volume_boost=None, audio_sample_rate=None, audio_bitrate=None, seek_skip=None, seek_length=None, video_chapter=None, verbose_flag=0, dry_run_flag=0): |
| """This compresses the video and audio of the given source video filename to the transcoded filename. |
| This does a two-pass compression (I'm assuming mpeg4, I should probably make this smarter for other formats). |
| """ |
| # |
| # do the first pass video compression |
| # |
| #cmd = "mencoder -quiet '%(video_source_filename)s' -ss 65 -endpos 20 -aid %(audio_id)s -o '%(video_final_filename)s' -ffourcc %(video_fourcc_override)s -ovc lavc -oac lavc %(lavcopts)s %(video_filter)s %(audio_filter)s" % locals() |
| |
| cmd = build_compression_command (video_source_filename, video_final_filename, video_target_size, audio_id, video_bitrate, video_codec, audio_codec, video_fourcc_override, video_gray_flag, video_crop_area, video_aspect_ratio, video_scale, video_encode_passes, video_deinterlace_flag, audio_volume_boost, audio_sample_rate, audio_bitrate, seek_skip, seek_length, video_chapter) |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| run(cmd) |
| print |
| |
| # If not doing two passes then return early. |
| if video_encode_passes!='2': |
| return |
| |
| if verbose_flag: |
| video_actual_size = get_filesize (video_final_filename) |
| if video_actual_size > video_target_size: |
| print "=======================================================" |
| print "WARNING!" |
| print "First pass compression resulted in" |
| print "actual file size greater than target size." |
| print "Second pass will be too big." |
| print "=======================================================" |
| |
| # |
| # do the second pass video compression |
| # |
| cmd = cmd.replace ('vpass=1', 'vpass=2') |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| run(cmd) |
| print |
| return |
| |
| def compress_audio (audio_raw_filename, audio_compressed_filename, audio_lowpass_filter=None, audio_sample_rate=None, audio_bitrate=None, verbose_flag=0, dry_run_flag=0): |
| """This is depricated. |
| This compresses the raw audio file to the compressed audio filename. |
| """ |
| cmd = 'lame -h --athaa-sensitivity 1' # --cwlimit 11" |
| if audio_lowpass_filter: |
| cmd = cmd + ' --lowpass ' + audio_lowpass_filter |
| if audio_bitrate: |
| #cmd = cmd + ' --abr ' + audio_bitrate |
| cmd = cmd + ' --cbr -b ' + audio_bitrate |
| if audio_sample_rate: |
| cmd = cmd + ' --resample ' + audio_sample_rate |
| cmd = cmd + ' ' + audio_raw_filename + ' ' + audio_compressed_filename |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| (command_output, exitstatus) = run(cmd) |
| print |
| if exitstatus != 0: |
| raise Exception('ERROR: lame failed to compress raw audio file.') |
| |
| def mux (video_final_filename, video_transcoded_filename, audio_compressed_filename, video_container_format, verbose_flag=0, dry_run_flag=0): |
| """This is depricated. I used to use a three-pass encoding where I would mix the audio track separately, but |
| this never worked very well (loss of audio sync).""" |
| if video_container_format.lower() == 'mkv': # Matroska |
| mux_mkv (video_final_filename, video_transcoded_filename, audio_compressed_filename, verbose_flag, dry_run_flag) |
| if video_container_format.lower() == 'avi': |
| mux_avi (video_final_filename, video_transcoded_filename, audio_compressed_filename, verbose_flag, dry_run_flag) |
| |
| def mux_mkv (video_final_filename, video_transcoded_filename, audio_compressed_filename, verbose_flag=0, dry_run_flag=0): |
| """This is depricated.""" |
| cmd = 'mkvmerge -o %s --noaudio %s %s' % (video_final_filename, video_transcoded_filename, audio_compressed_filename) |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| run(cmd) |
| print |
| |
| def mux_avi (video_final_filename, video_transcoded_filename, audio_compressed_filename, verbose_flag=0, dry_run_flag=0): |
| """This is depricated.""" |
| pass |
| # cmd = "mencoder -quiet -oac copy -ovc copy -o '%s' -audiofile %s '%s'" % (video_final_filename, audio_compressed_filename, video_transcoded_filename) |
| # if verbose_flag: print cmd |
| # if not dry_run_flag: |
| # run(cmd) |
| # print |
| |
| def delete_tmp_files (audio_raw_filename, verbose_flag=0, dry_run_flag=0): |
| global GLOBAL_LOGFILE_NAME |
| file_list = ' '.join([GLOBAL_LOGFILE_NAME, 'divx2pass.log', audio_raw_filename ]) |
| cmd = 'rm -f ' + file_list |
| if verbose_flag: print cmd |
| if not dry_run_flag: |
| run(cmd) |
| print |
| |
| ############################################################################## |
| # This is the interactive Q&A that is used if a conf file was not given. |
| ############################################################################## |
| def interactive_convert (): |
| |
| global prompts, prompts_key_order |
| |
| print globals()['__doc__'] |
| print |
| print "==============================================" |
| print " Enter '?' at any question to get extra help." |
| print "==============================================" |
| print |
| |
| # Ask for the level of options the user wants. |
| # A lot of code just to print a string! |
| level_sort = {0:'', 1:'', 2:''} |
| for k in prompts: |
| level = prompts[k][3] |
| if level < 0 or level > 2: |
| continue |
| level_sort[level] += " " + prompts[k][1] + "\n" |
| level_sort_string = "This sets the level for advanced options prompts. Set 0 for simple, 1 for advanced, or 2 for expert.\n" |
| level_sort_string += "[0] Basic options:\n" + str(level_sort[0]) + "\n" |
| level_sort_string += "[1] Advanced options:\n" + str(level_sort[1]) + "\n" |
| level_sort_string += "[2] Expert options:\n" + str(level_sort[2]) |
| c = input_option("Prompt level (0, 1, or 2)?", "1", level_sort_string) |
| max_prompt_level = int(c) |
| |
| options = {} |
| for k in prompts_key_order: |
| if k == 'video_aspect_ratio': |
| guess_aspect = get_aspect_ratio(options['video_source_filename']) |
| options[k] = input_option (prompts[k][1], guess_aspect, prompts[k][2], prompts[k][3], max_prompt_level) |
| elif k == 'audio_id': |
| aid_list = get_aid_list (options['video_source_filename']) |
| default_id = '128' |
| if max_prompt_level>=prompts[k][3]: |
| if len(aid_list) > 1: |
| print "This video has more than one audio stream. The following stream audio IDs were found:" |
| for aid in aid_list: |
| print " " + aid |
| default_id = aid_list[0] |
| else: |
| print "WARNING!" |
| print "Rippy was unable to get the list of audio streams from this video." |
| print "If reading directly from a DVD then the DVD device might be busy." |
| print "Using a default setting of stream id 128 (main audio on most DVDs)." |
| default_id = '128' |
| options[k] = input_option (prompts[k][1], default_id, prompts[k][2], prompts[k][3], max_prompt_level) |
| elif k == 'subtitle_id': |
| sid_list = get_sid_list (options['video_source_filename']) |
| default_id = 'None' |
| if max_prompt_level>=prompts[k][3]: |
| if len(sid_list) > 0: |
| print "This video has one or more subtitle streams. The following stream subtitle IDs were found:" |
| for sid in sid_list: |
| print " " + sid |
| #default_id = sid_list[0] |
| default_id = prompts[k][0] |
| else: |
| print "WARNING!" |
| print "Unable to get the list of subtitle streams from this video. It may have none." |
| print "Setting default to None." |
| default_id = 'None' |
| options[k] = input_option (prompts[k][1], default_id, prompts[k][2], prompts[k][3], max_prompt_level) |
| elif k == 'audio_lowpass_filter': |
| lowpass_default = "%.1f" % (math.floor(float(options['audio_sample_rate']) / 2.0)) |
| options[k] = input_option (prompts[k][1], lowpass_default, prompts[k][2], prompts[k][3], max_prompt_level) |
| elif k == 'video_bitrate': |
| if options['video_length'].lower() == 'none': |
| options[k] = input_option (prompts[k][1], '1000', prompts[k][2], prompts[k][3], max_prompt_level) |
| else: |
| options[k] = input_option (prompts[k][1], prompts[k][0], prompts[k][2], prompts[k][3], max_prompt_level) |
| else: |
| # don't bother asking for video_target_size or video_bitrate_overhead if video_bitrate was set |
| if (k=='video_target_size' or k=='video_bitrate_overhead') and options['video_bitrate']!='calc': |
| continue |
| # don't bother with crop area if video length is none |
| if k == 'video_crop_area' and options['video_length'].lower() == 'none': |
| options['video_crop_area'] = 'none' |
| continue |
| options[k] = input_option (prompts[k][1], prompts[k][0], prompts[k][2], prompts[k][3], max_prompt_level) |
| |
| #options['video_final_filename'] = options['video_final_filename'] + "." + options['video_container_format'] |
| |
| print "==========================================================================" |
| print "Ready to Rippy!" |
| print |
| print "The following options will be used:" |
| for k,v in options.iteritems(): |
| print "%27s : %s" % (k, v) |
| |
| print |
| c = input_option("Continue?", "Y") |
| c = c.strip().lower() |
| if c[0] != 'y': |
| print "Exiting..." |
| os._exit(1) |
| return options |
| |
| def clean_options (d): |
| """This validates and cleans up the options dictionary. |
| After reading options interactively or from a conf file |
| we need to make sure that the values make sense and are |
| converted to the correct type. |
| 1. Any key with "_flag" in it becomes a boolean True or False. |
| 2. Values are normalized ("No", "None", "none" all become "none"; |
| "Calcluate", "c", "CALC" all become "calc"). |
| 3. Certain values are converted from string to int. |
| 4. Certain combinations of options are invalid or override each other. |
| This is a rather annoying function, but then so it most cleanup work. |
| """ |
| for k in d: |
| d[k] = d[k].strip() |
| # convert all flag options to 0 or 1 |
| if '_flag' in k: |
| if type(d[k]) is types.StringType: |
| if d[k].strip().lower()[0] in 'yt1': #Yes, True, 1 |
| d[k] = 1 |
| else: |
| d[k] = 0 |
| d['video_bitrate'] = d['video_bitrate'].lower() |
| if d['video_bitrate'][0]=='c': |
| d['video_bitrate']='calc' |
| else: |
| d['video_bitrate'] = int(float(d['video_bitrate'])) |
| try: |
| d['video_target_size'] = int(d['video_target_size']) |
| # shorthand magic numbers get automatically expanded |
| if d['video_target_size'] == 180: |
| d['video_target_size'] = 193536000 |
| elif d['video_target_size'] == 550: |
| d['video_target_size'] = 580608000 |
| elif d['video_target_size'] == 650: |
| d['video_target_size'] = 681984000 |
| elif d['video_target_size'] == 700: |
| d['video_target_size'] = 737280000 |
| except: |
| d['video_target_size'] = 'none' |
| |
| try: |
| d['video_chapter'] = int(d['video_chapter']) |
| except: |
| d['video_chapter'] = None |
| |
| try: |
| d['subtitle_id'] = int(d['subtitle_id']) |
| except: |
| d['subtitle_id'] = None |
| |
| try: |
| d['video_bitrate_overhead'] = float(d['video_bitrate_overhead']) |
| except: |
| d['video_bitrate_overhead'] = -1.0 |
| |
| d['audio_bitrate'] = int(d['audio_bitrate']) |
| d['audio_sample_rate'] = int(d['audio_sample_rate']) |
| d['audio_volume_boost'] = d['audio_volume_boost'].lower() |
| if d['audio_volume_boost'][0]=='n': |
| d['audio_volume_boost'] = None |
| else: |
| d['audio_volume_boost'] = d['audio_volume_boost'].replace('db','') |
| d['audio_volume_boost'] = float(d['audio_volume_boost']) |
| |
| # assert (d['video_bitrate']=='calc' and d['video_target_size']!='none') |
| # or (d['video_bitrate']!='calc' and d['video_target_size']=='none') |
| |
| d['video_scale'] = d['video_scale'].lower() |
| if d['video_scale'][0]=='n': |
| d['video_scale']='none' |
| else: |
| al = re.findall("([0-9]+).*?([0-9]+)", d['video_scale']) |
| d['video_scale']=al[0][0]+':'+al[0][1] |
| d['video_crop_area'] = d['video_crop_area'].lower() |
| if d['video_crop_area'][0]=='n': |
| d['video_crop_area']='none' |
| d['video_length'] = d['video_length'].lower() |
| if d['video_length'][0]=='c': |
| d['video_length']='calc' |
| elif d['video_length'][0]=='n': |
| d['video_length']='none' |
| else: |
| d['video_length'] = int(float(d['video_length'])) |
| if d['video_length']==0: |
| d['video_length'] = 'none' |
| assert (not (d['video_length']=='none' and d['video_bitrate']=='calc')) |
| return d |
| |
| def main (): |
| try: |
| optlist, args = getopt.getopt(sys.argv[1:], 'h?', ['help','h','?']) |
| except Exception, e: |
| print str(e) |
| exit_with_usage() |
| command_line_options = dict(optlist) |
| # There are a million ways to cry for help. These are but a few of them. |
| if [elem for elem in command_line_options if elem in ['-h','--h','-?','--?','--help']]: |
| exit_with_usage(0) |
| |
| missing = check_missing_requirements() |
| if missing is not None: |
| print |
| print "==========================================================================" |
| print "ERROR!" |
| print "Some required external commands are missing." |
| print "please install the following packages:" |
| print str(missing) |
| print "==========================================================================" |
| print |
| c = input_option("Continue?", "Y") |
| c = c.strip().lower() |
| if c[0] != 'y': |
| print "Exiting..." |
| os._exit(1) |
| |
| if len(args) > 0: |
| # cute one-line string-to-dictionary parser (two-lines if you count this comment): |
| options = dict(re.findall('([^: \t\n]*)\s*:\s*(".*"|[^ \t\n]*)', file(args[0]).read())) |
| options = clean_options(options) |
| convert (options) |
| else: |
| options = interactive_convert () |
| options = clean_options(options) |
| convert (options) |
| print "# Done!" |
| |
| if __name__ == "__main__": |
| try: |
| start_time = time.time() |
| print time.asctime() |
| main() |
| print time.asctime() |
| print "TOTAL TIME IN MINUTES:", |
| print (time.time() - start_time) / 60.0 |
| except Exception, e: |
| tb_dump = traceback.format_exc() |
| print "==========================================================================" |
| print "ERROR -- Unexpected exception in script." |
| print str(e) |
| print str(tb_dump) |
| print "==========================================================================" |
| print >>GLOBAL_LOGFILE, "==========================================================================" |
| print >>GLOBAL_LOGFILE, "ERROR -- Unexpected exception in script." |
| print >>GLOBAL_LOGFILE, str(e) |
| print >>GLOBAL_LOGFILE, str(tb_dump) |
| print >>GLOBAL_LOGFILE, "==========================================================================" |
| exit_with_usage(3) |
| |