check metadata as package

.gitignore

@@ -138,3 +138,8 @@ dmypy.json
 # Cython debug symbols
 cython_debug/
 
+av1output/
+
+*.mp4
+*.mkv
+*.png

check_metadata/setup.py

@@ -0,0 +1,12 @@
+from setuptools import setup
+
+setup(
+    name="checkMetadata",
+    version="0.0.1",
+    packages=["checkMetadata"],
+    entry_points={
+        "console_scripts": [
+            "checkMetadata = checkMetadata.__main__:main"
+        ]
+    },
+)

codec_visualizer/codec_visualizer.py

@@ -1,185 +0,0 @@
-#!/usr/bin/env python3
-# -*- coding: utf-8 -*-
-
-""" Author:                     Hendrik Schutter, localhorst@mosad.xyz
-    Date of creation:           2022/01/22
-    Date of last modification:  2022/08/25
-"""
-
-import os
-import sys
-import time
-import subprocess
-import shlex
-import shutil
-import glob
-import PIL
-from PIL import Image
-from PIL import ImageFont
-from PIL import ImageDraw 
-
-temp_dir = os.path.join(os.getcwd(), "_tempCodecVisualizer/")
-
-def create_temp_dir():
-    try:
-        os.mkdir(temp_dir)
-    except OSError:
-        print("Unable to create temp dir:  %s" % temp_dir)
-        sys.exit()
-
-def delete_temp_dir():
-    try:
-        shutil.rmtree(temp_dir)
-    except OSError:
-        pass
-
-def get_length(filename):
-    result = subprocess.run(["ffprobe", "-v", "error", "-show_entries",
-                             "format=duration", "-of",
-                             "default=noprint_wrappers=1:nokey=1", filename],
-        stdout=subprocess.PIPE,
-        stderr=subprocess.STDOUT)
-    return float(result.stdout)
-
-def get_codec(filename):
-    result = subprocess.run(["ffprobe", "-v", "error", "-select_streams", "v:0",
-                             "-show_entries", "stream=codec_name",
-                             "-of", "default=noprint_wrappers=1:nokey=1", filename],
-        stdout=subprocess.PIPE,
-        stderr=subprocess.STDOUT)
-    return str(result.stdout.decode("utf-8")).rstrip("\n")
-
-def extract_frame(video_file, time_offset, output_file):
-    cmd = "ffmpeg -y -ss " + time.strftime('%H:%M:%S', time.gmtime(time_offset)) + ".00 -i " + str(video_file) + " -frames:v 1 " + str(output_file)
-    devnull = open(os.devnull, 'w')
-    subprocess.call(shlex.split(cmd),stdout=devnull, stderr=devnull)
-
-def get_font_path():
-    path = "/usr/share/fonts"
-    files = glob.glob(path + "/**/DejaVuSans-Bold.ttf", recursive = True)
-    return files[0]
-
-def zoom_at(img, crop_factor):
-    image_width, image_height = img.size
-    img = img.crop((int(image_width/2) - int(image_width/crop_factor) / (crop_factor * 2), int(image_height/2) - int(image_height/crop_factor) / (crop_factor * 2), 
-                    int(image_width/2) + int(image_width/crop_factor) / (crop_factor * 2), int(image_height/2) + int(image_height/crop_factor) / (crop_factor * 2)))
-    return img.resize((int(image_width/crop_factor*2), int(image_height/crop_factor*2)), Image.Resampling.LANCZOS)
-
-def create_collage(images_A, images_B, statistics,  output_file):
-    image_width, image_height = images_A[0].size
-    x_offset = int(image_width/15)
-    y_offset = int(image_height/1.5)
-    output_width = image_width *2 + x_offset
-    output_height = image_height *4 + y_offset
-    output_image = Image.new('RGB', (output_width, output_height))
-
-    font_file = get_font_path()
-    draw = ImageDraw.Draw(output_image)
-
-    text = "codec visualizer"
-    draw.text((x_offset, 0), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/10)))
-
-    text = "reduced data size: " + str(statistics["compression_rate"]) + "%"
-    draw.text((x_offset + image_width , int(image_height/18)), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/18)))
-
-    text = str(statistics["codec"][0])
-    draw.text((x_offset , int(image_height/18) * 5), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/25)))
-    text = str(statistics["codec"][1])
-    draw.text((x_offset + image_width , int(image_height/18) * 5), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/25)))
-
-    text = str(statistics["filename"][0])
-    draw.text((x_offset , int(image_height/18) * 7), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/25)))
-    text = str(statistics["filename"][1])
-    draw.text((x_offset + image_width , int(image_height/18) * 7), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/25)))
-
-    text = str(statistics["size"][0])
-    draw.text((x_offset , int(image_height/18) * 9), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/25)))
-    text = str(statistics["size"][1])
-    draw.text((x_offset + image_width , int(image_height/18) * 9), text,(255,255,255),font=ImageFont.truetype(font_file, int(image_width/25)))
-
-    i = 0
-    y = y_offset
-    for row in range(4):
-            output_image.paste(images_A[i], (int(x_offset/2), y))
-            output_image.paste(images_B[i], (int(x_offset/2) + image_width, y))
-            i += 1
-            y += image_height
-
-    i = 0
-    y = y_offset
-    crop_factor = 6
-    for row in range(4):
-            cropped_image = zoom_at(images_A[i], crop_factor)
-            cropped_image_with, _ = cropped_image.size
-            output_image.paste(cropped_image, (int(x_offset/2) + image_width - cropped_image_with , y))
-            cropped_image = zoom_at(images_B[i].transpose(PIL.Image.Transpose.FLIP_LEFT_RIGHT), crop_factor)
-            output_image.paste(cropped_image, (int(x_offset/2) + image_width, y))
-            i += 1
-            y += image_height
-
-    output_image.save(output_file)
-
-def calc_compression_rate(size_A, size_B):
-    if size_A == size_B:
-        return 0
-    if size_A > size_B:
-        return int(100 - 100/size_A*size_B)    
-    if size_B > size_A:
-        return int(100 - 100/size_B*size_A)
-
-def human_readable_size(size, decimal_places=2):
-    for unit in ['B', 'KiB', 'MiB', 'GiB', 'TiB', 'PiB']:
-        if size < 1024.0 or unit == 'PiB':
-            break
-        size /= 1024.0
-    return f"{size:.{decimal_places}f} {unit}"
-
-def main() -> None:
-    if(len(sys.argv) != 3):
-        print("Bad usage!")
-        print("Usage: python ./codec_analyzer.py file file")
-        sys.exit()
-
-    file_A = sys.argv[1]
-    file_B = sys.argv[2]
-
-    if (int(get_length(file_A)) != int(get_length(file_B))):
-        print("video files have different lengths")
-        sys.exit()
-
-    video_lenght = int(get_length(file_A))
-
-    delete_temp_dir()
-    create_temp_dir()
- 
-    stills_timestamps = []
-    stills_file_A = []
-    stills_file_B = []
-
-    stills_timestamps.append(int(video_lenght*0.15)) #don't get the intro
-    stills_timestamps.append(int(video_lenght*0.33))
-    stills_timestamps.append(int(video_lenght*0.50))
-    stills_timestamps.append(int(video_lenght*0.75)) #don't get the outro
-
-    for frame_timestamp in stills_timestamps:
-        still_file_A = temp_dir +  "A_"+ str(frame_timestamp) + ".tif"
-        extract_frame(file_A, frame_timestamp, still_file_A)
-        stills_file_A.append(Image.open(still_file_A))
-
-        still_file_B = temp_dir +  "B_"+ str(frame_timestamp) + ".tif"
-        extract_frame(file_B, frame_timestamp, still_file_B)
-        stills_file_B.append(Image.open(still_file_B))
-
-    file_statistics = {
-        "filename": [os.path.basename(file_A),os.path.basename(file_B)],
-        "size": [human_readable_size(os.path.getsize(file_A)), human_readable_size(os.path.getsize(file_B))],
-        "codec": [get_codec(file_A), get_codec(file_B)],
-        "compression_rate": calc_compression_rate(os.path.getsize(file_A), os.path.getsize(file_B))
-    }
-
-    create_collage(stills_file_A, stills_file_B, file_statistics, "output.png")
-
-    delete_temp_dir()
-
-if __name__ == "__main__":
-    main()

codec_visualizer/setup.py

@@ -9,4 +9,7 @@ setup(
             "codecVis = codecVis.__main__:main"
         ]
     },
+    install_requires=[
+        'Pillow>=9.2.0'
+    ]
 )