A MediaSwift PYTHON PACKAGE FOR MEDIA CONVERSION PLAY AND PROBING.
Project description
MediaSwift
⇨ 🚀 EMPOWERING PYTHON WITH ADVANCED MULTIMEDIA OPERATION'S.
⇨ MediaSwift
: A POWERFUL PYTHON LIBRARY FOR SEAMLESS MULTIMEDIA OPERATIONS , MediaSwift
SIMPLIFIES COMPLEX TASKS, MAKING IT EASY TO INTEGRATE AND ENHANCE YOUR MULTIMEDIA APPLICATIONS. DIVE INTO THE FUTURE OF MEDIA HANDLING WITH MediaSwift
YOUR GO-TO LIBRARY FOR 2024 .
KEY FEATURES :
- EFFORTLESS FILE CONVERSION .
- SEAMLESS MULTIMEDIA PLAYBACK .
- PROVIDING INFORMATION
MediaSwift
ALSO OFFERS DETAILED MULTIMEDIA INFORMATION RETRIEVAL .
EXPLORE THE CAPABILITIES OF MediaSwift
AND ELEVATE YOUR PYTHON MULTIMEDIA PROJECTS WITH SIMPLICITY AND EFFICIENCY.
-
SUPPORTED VIDEO CODEC'S :
h264
,libx264
,mpeg4
,vp9
,av1
,hevc
,mjpeg
,H.265 / HEVC
,VP8
,VP9
,AV1
,VC1
,MPEG1
,MPEG2
,H.263
,Theora
,MJPEG
,MPEG-3
,MPEG-4
. . . -
SUPPORTED AUDIO CODEC'S :
aac
,mp3
,opus
,vorbis
,pcm
,alac
,flac
,wv
,ape
,mka
,opus
,ac3
,eac3
,alac
. . . -
SUPPORTED FILE EXTENSION'S :
VIDEO FORMATS :
.mp4
,.avi
,.mkv
,.webm
,.mov
,.wmv
,.webm
,.flv
,.mov
,.wmv
,.hevc
,.prores
,.dv
. . .
AUDIO FORMATS : .mp3
, .aac
, .ogg
, .wav
, .flac
, .flac
, .m4a
, .ogg
, .wv
, .ape
, .mka
, .opus
, mpc
, .tak
, .alac
. . .
-
SUPPORTED HARDWARE ACCELERATION :
HARDWARE ACCELERATION :cuda
,dxva2
,qsv
,d3d11va
. . .
❗IMPORTANT NOTE:
-
THEY ALSO SUPPORT HARDWARE ACCELERATION FOR MEDIA FILE CONVERTION .
-
SUPPORT DOLBY DIGITAL PLUS AND DOLBY DIGITAL AUDIO CODEC
.eac3
,.ac3
. -
SUPPORT MORE VIDEO AND AUDIO CODECS AND VARIOUS EXTENSION FORMATE'S .
-
MediaSwift
: A VERSATILE LIBRARY WITH MANY SUPPORT AUDIO AND VIDEO CODECS, AS WELL AS MULTIPLE FILE FORMATS EXTENSION . -
LIST THE AVAILABLE
.CODEC'S()
,.FORMATE'S()
AND.HWACCEL'S()
:
from MediaSwift import *
INFO = ffpe()
print(INFO.codecs())
print(INFO.formats())
print(INFO.hwaccels())
# GET CODECS ENCODING
print(INFO.codecs(encoder='aac'))
-
ENHANCE COMPATIBILITY BY LEVERAGING THE
.formats()
,.codecs()
.hwaccels()
AND METHODS TO VALIDATE SUPPORT FOR A VARIETY OF FORMATS, CODECS AND HARDWARE ACCELERATION . -
GET INFORMATION ABOUT THE CODEC'S ENCODER
.codecs(encoder="aac")
. -
CHECK LIBRARY VERSION USING :
from MediaSwift import *
# GET AND PRINT AUTHOR INFORMATION
AUTHOR_INFO = author()
print(AUTHOR_INFO)
# GET AND PRINT VERSION INFORMATION
VERSION_INFO = version()
print(VERSION_INFO)
-
EFFICIENT MEDIA PLAYBACK WITH
ffpl
.
THE ffpl
CLASS PROVIDES METHODS FOR PLAY MEDIA FILES. HERE ARE SOME EXAMPLES OF HOW TO USE THESE METHOD:
from MediaSwift import *
# INCREASE VOLUME BY 5 DB
PLAY = ffpl()
MEDIA_FILE = r"PATH_TO_MEDIA_FILE" # PLAY SINGE MEDIA FILE
MEDIA_FILE = r"PATH_TO_MEDIA_FILE_1", r"PATH_TO_MEDIA_FILE_2" # PLAY MULTIPLE MEDIA FILE
# USE noborder=True TO REMOVE PLAYER WINDOW BORDER.
print(PLAY.play(MEDIA_FILE, volume=5, noborder=True))
print(PLAY.play_multiple(MEDIA_FILE ,volume=5, noborder=True))
NOTE: USE THE .play()
METHOD TO PLAY MEDIA FILES .
noborder=True
ARGUMENT TO ELIMINATE THE BORDER OF THE PLAYER WINDOW .
volume=True
TO AMPLIFY THE AUDIO OUTPUT IN DECIBELS .
-
ANALYZE MEDIA FILE
ffpr
.
THE ffpr
CLASS PROVIDES METHODS FOR PROBING MEDIA FILES. HERE ARE SOME EXAMPLES OF HOW TO USE THESE METHODS :
from MediaSwift import ffpr
DETAILS = ffpr()
INFO = DETAILS.probe(r"PATH_TO_INPUT_FILE")
print(DETAILS.analyze(INFO))
# ENHANCE THE APPEALING CONTENT USING 'pretty=True'.
print(DETAILS.analyze(INFO, pretty=True))
SUBSTITUTE "PATH_TO_INPUT_FILE"
WITH THE ACTUAL FILE PATH TO YOUR MEDIA FILE. THE .probe
METHOD RETURNS A DICTIONARY CONTAINING DETAILED INFORMATION ABOUT THE MEDIA FILE. WHEN USING pretty=True
, THE CONTENT IS DISPLAYED IN A MORE VISUALLY APPEALING FORMAT.
SPECIFY pretty=True
TO DISPLAY THE INFORMATION IN A VISUALLY ENHANCED FORMAT.
-
CONVERT MEDIA FILE
ffpe
.
ffpe
CLASS PROVIDES METHODS FOR VIDEO CONVERSION, LISTING CODECS, AND LISTING FORMATS. HERE ARE SOME EXAMPLES OF HOW TO USE THESE METHODS :
EXAMPLE ⇨ CONVERT SINGLE VIDEO USING THIS :
from MediaSwift import ffpe
FFMPL = ffpe()
FFMPL.convert(
input_files = r"PATH_TO_INPUT_FILE" , # INPUT FILE PATH
output_dir = r"PATH_TO_OUTPUT_FOLDER" , # OUTPUT PATH
cv='h264', # VIDEO CODEC
ca='aac', # AUDIO CODEC
s='1920x1080', # VIDEO RESOLUTION
hwaccel='cuda', # HARDWARE ACCELERATION
ar=44100, # AUDIO SAMPLE RATE
ac=2, # AUDIO CHANNELS
ba='192k', # AUDIO BITRATE
r=30, # VIDEO FRAME RATE
bv='50m', # VIDEO BITRATE
preset='fast', # PRESET FOR ENCODING
f='mp4', # OUTPUT FORMAT
)
EXAMPLE ⇨ CONVERT MULTIPLE VIDEO USING THIS : ⇨ NOTE : ALWAYS SET INPUT FILE PATH IN SQUARE '[ ]' BRACKETS:
from MediaSwift import ffpe
FFPE_INSTANCE = ffpe()
INPUT_FILES = [
r"PATH_TO_INPUT_FILE",
r"PATH_TO_INPUT_FILE",
# ADD MORE FILE PATHS AS NEEDED
] # INPUT_FILES [MULTIPLE CONVERT]
INPUT_FILES = r'PATH_TO_INPUT_FILE' # INPUT_FILES [SINGLE CONVERT]
OUTPUT_DIR = r"PATH_TO_OUTPUT_FOLDER"
FFPE_INSTANCE.convert(
input_files = INPUT_FILES, # INPUT FILE PATH
output_dir = OUTPUT_DIR, # OUTPUT PATH
cv='h264', # VIDEO CODEC
ca='aac', # AUDIO CODEC
s='1920x1080', # VIDEO RESOLUTION
hwaccel='cuda', # HARDWARE ACCELERATION
ar=44100, # AUDIO SAMPLE RATE
ac=2, # AUDIO CHANNELS
ba='192k', # AUDIO BITRATE
bv='50m', # VIDEO BITRATE
preset='fast', # PRESET FOR ENCODING
r=30, # VIDEO FRAME RATE
f='mp4', # OUTPUT FORMAT
)
EXAMPLE ⇨ CONVERT MULTIPLE VIDEO INTO AUDIO FILE USING THIS :
from MediaSwift import ffpe
FFPE_INSTANCE = ffpe()
# DEFINE INPUT FILES AND OUTPUT DIRECTORY.
INPUT_FILES = [ r'PATH_TO_INPUT_FILE', r'PATH_TO_INPUT_FILE' ] # INPUT_FILES [MULTIPLE CONVERT]
INPUT_FILES = r'PATH_TO_INPUT_FILE' # INPUT_FILES [SINGLE CONVERT]
OUTPUT_DIR = r"PATH_TO_OUTPUT_FOLDER"
# PERFORM MULTIMEDIA FILE CONVERSION USING FFPE.
FFPE_INSTANCE.convert(
input_files=INPUT_FILES,
output_dir=OUTPUT_DIR ,
hwaccel="cuda", # HARDWARE ACCELERATION
ar=44100, # AUDIO SAMPLE RATE
ac=2, # AUDIO CHANNELS
ba="192k", # AUDIO BITRATE
f="mp3", # OUTPUT FORMAT (MP3 for audio)
)
⇨ NOTE : USE THE .convert()
METHOD TO CONVERT MEDIA FILES .
NOTE ⇨ ALWAYS SET MULTIPLE INPUT_FILES PATH IN SQUARE '[ ]' BRACKETS:
from MediaSwift import *
CONVERTER = ffpe()
INPUT_FILE = r"PATH_TO_INPUT_FILE" # INPUT FILE
OUTPUT_FILE = r"PATH_TO_INPUT_FILE" # OUTPUT FILE
TIME_RANGE = "01:30,02:30" # CLIP FROM 1 MINUTE 30 SECONDS TO 2 MINUTES 30 SECONDS
CONVERTER.MediaClip(INPUT_FILE, OUTPUT_FILE, TIME_RANGE)
NOTE : USE THE .MediaClip()
METHOD TO EXTRACTS SPECIFIC PART OF VIDEO AND CONVERTS IT INTO GIF.
-
🔎 IMPORT CLASSES AND MODULE :
from MediaSwift import ffpe, ffpl, ffpr
from MediaSwift import *
-
⚙️ INSTALLATION :
pip install MediaSwift
-
😃 AUTHOR INFORMATION :
THIS PYTHON LIBRARY PROJECT IS DONE BY ROHIT SINGH
. FOR ANY QUERIES TO CHECK MY GITHUB, THANK YOU FOR USING MediaSwift
PYTHON LIBRARY,LIBRARY RELEASE IN 2024 .
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