navan
/
VaporwaveGenerator
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deepsource-autofix[bot] 2020-07-07 14:55:32 +00:00 committed by GitHub
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90
main.py
View File

@ -16,15 +16,19 @@ import time
version = 2.0
style = False
text = '| V A P O R W A V E || G E N E R A T O R |'
text = "| V A P O R W A V E || G E N E R A T O R |"
parser = argparse.ArgumentParser(description = text)
parser.add_argument("-M", "--music", help="generate v a p o r w a v e music", action="store_true")
parser.add_argument("-P", "--picture", help="generate VHS Style image", action="store_true")
parser.add_argument("-V","--video", help="VHS Style Video", action="store_true")
parser = argparse.ArgumentParser(description=text)
parser.add_argument(
"-M", "--music", help="generate v a p o r w a v e music", action="store_true"
)
parser.add_argument(
"-P", "--picture", help="generate VHS Style image", action="store_true"
)
parser.add_argument("-V", "--video", help="VHS Style Video", action="store_true")
parser.add_argument("-v", "--version", help="show program version", action="store_true")
parser.add_argument("-i", "--input")
parser.add_argument("-o","--output", help="Output for specifying output video")
parser.add_argument("-o", "--output", help="Output for specifying output video")
args = parser.parse_args()
@ -51,9 +55,17 @@ else:
exit
MAX_DURATION = 600 # In-case the program finds a compilation
youtube_urls = ('youtube.com', 'https://www.youtube.com/', 'http://www.youtube.com/', 'http://youtu.be/', 'https://youtu.be/', 'youtu.be')
youtube_urls = (
"youtube.com",
"https://www.youtube.com/",
"http://www.youtube.com/",
"http://youtu.be/",
"https://youtu.be/",
"youtu.be",
)
def download_file(query,request_id=1):
def download_file(query, request_id=1):
"""Returns audio to the vapor command handler
Searches YouTube for 'query', finds first match that has
@ -63,16 +75,18 @@ def download_file(query,request_id=1):
Query can be YouTube link.
"""
ydl_opts = {
'quiet': 'True',
'format': 'bestaudio/best',
'outtmpl': str(request_id) +'.%(ext)s',
'prefer_ffmpeg': 'True',
'noplaylist': 'True',
'postprocessors': [{
'key': 'FFmpegExtractAudio',
'preferredcodec': 'wav',
'preferredquality': '192',
}],
"quiet": "True",
"format": "bestaudio/best",
"outtmpl": str(request_id) + ".%(ext)s",
"prefer_ffmpeg": "True",
"noplaylist": "True",
"postprocessors": [
{
"key": "FFmpegExtractAudio",
"preferredcodec": "wav",
"preferredquality": "192",
}
],
}
original_path = str(request_id) + ".wav"
@ -81,9 +95,13 @@ def download_file(query,request_id=1):
# check if query is youtube url
if not query.lower().startswith((youtube_urls)):
# search for youtube videos matching query
query_string = urllib.parse.urlencode({"search_query" : query})
html_content = urllib.request.urlopen("http://www.youtube.com/results?" + query_string)
search_results = re.findall(r'href=\"\/watch\?v=(.{11})', html_content.read().decode())
query_string = urllib.parse.urlencode({"search_query": query})
html_content = urllib.request.urlopen(
"http://www.youtube.com/results?" + query_string
)
search_results = re.findall(
r"href=\"\/watch\?v=(.{11})", html_content.read().decode()
)
info = False
# find video that fits max duration
@ -91,30 +109,30 @@ def download_file(query,request_id=1):
for url in search_results:
# check for video duration
try:
info = youtube_dl.YoutubeDL(ydl_opts).extract_info(url,download = False)
info = youtube_dl.YoutubeDL(ydl_opts).extract_info(url, download=False)
except Exception as e:
logger.error(e)
raise ValueError('Could not get information about video.')
full_title = info['title']
if (info['duration'] < MAX_DURATION and info['duration'] >= 5):
raise ValueError("Could not get information about video.")
full_title = info["title"]
if info["duration"] < MAX_DURATION and info["duration"] >= 5:
# get first video that fits the limit duration
logger.info("Got video: " + str(full_title))
file_title = info['title']
file_title = info["title"]
break
# if we ran out of urls, return error
if (not info):
raise ValueError('Could not find a video.')
if not info:
raise ValueError("Could not find a video.")
# query was a youtube link
else:
logger.info("Query was a YouTube URL.")
url = query
info = youtube_dl.YoutubeDL(ydl_opts).extract_info(url,download = False)
file_title = info['title']
info = youtube_dl.YoutubeDL(ydl_opts).extract_info(url, download=False)
file_title = info["title"]
# check if video fits limit duration
if (info['duration'] < 5 or info['duration'] > MAX_DURATION):
raise ValueError('Video is too short. Need 5 seconds or more.')
if info["duration"] < 5 or info["duration"] > MAX_DURATION:
raise ValueError("Video is too short. Need 5 seconds or more.")
# download video and extract audio
logger.info("Downloading video...")
@ -123,7 +141,7 @@ def download_file(query,request_id=1):
ydl.download([url])
except Exception as e:
logger.error(e)
raise ValueError('Could not download ' + str(full_title) + '.')
raise ValueError("Could not download " + str(full_title) + ".")
return original_path, file_title
@ -137,9 +155,8 @@ def gen_vapor(filePath, title):
os.system("mkdir download/")
os.system("mkdir beats/")
# Download the youtube query's first result. Might be wrong but YOLO
#YTDownloader.download_wav_to_samp2(query)
# YTDownloader.download_wav_to_samp2(query)
# For every song in download folder(just one for now)
"""
@ -167,7 +184,6 @@ if music:
name, title = download_file(query)
gen_vapor(name, title)
elif picture:
generateVHSStyle(query,"out.jpg")
generateVHSStyle(query, "out.jpg")
elif video:
VHS_Vid(query, outfile)

65
src/VHSImage.py
View File

@ -21,7 +21,7 @@ def generate_offsets(array_size, max_offset):
periodicity = random.random() * periodicity
offsets = []
for i in range(array_size):
offsets.append(floor(max_offset*np.sin(periodicity*(i*np.pi/180))))
offsets.append(floor(max_offset * np.sin(periodicity * (i * np.pi / 180))))
return offsets
@ -35,11 +35,11 @@ def hueChange(img, offset):
g_data = []
b_data = []
offset = offset/100.
offset = offset / 100.0
for rd, gr, bl in zip(r.getdata(), g.getdata(), b.getdata()):
h, s, v = colorsys.rgb_to_hsv(rd/255.0, bl/255.0, gr/255.0)
rgb = colorsys.hsv_to_rgb(h, s+offset, v)
rd, bl, gr = [int(x*255.) for x in rgb]
h, s, v = colorsys.rgb_to_hsv(rd / 255.0, bl / 255.0, gr / 255.0)
rgb = colorsys.hsv_to_rgb(h, s + offset, v)
rd, bl, gr = [int(x * 255.0) for x in rgb]
r_data.append(rd)
g_data.append(gr)
b_data.append(bl)
@ -47,12 +47,21 @@ def hueChange(img, offset):
r.putdata(r_data)
g.putdata(g_data)
b.putdata(b_data)
return Image.merge('RGB',(r,g,b))
return Image.merge("RGB", (r, g, b))
def decision(probability):
return random.random() < probability
def mod_image_repeat_rows(imgname, chance_of_row_repeat=0, max_row_repeats=0, min_row_repeats=0, save=True, out_name="image.jpg"):
def mod_image_repeat_rows(
imgname,
chance_of_row_repeat=0,
max_row_repeats=0,
min_row_repeats=0,
save=True,
out_name="image.jpg",
):
img = Image.open(imgname)
pixels = img.load()
width, height = img.size
@ -102,53 +111,68 @@ def add_date(img_path, out_name="image.jpg", bottom_offset=0):
width, height = img.size
draw = ImageDraw.Draw(img)
font = ImageFont.truetype("src/VCR_OSD_MONO_1.001.ttf", 64)
draw.text((corner_offset, (height-150-bottom_offset)), date_str_1, (255, 255, 255), font=font)
draw.text((corner_offset, (height-75)-bottom_offset), date_str_2, (255, 255, 255), font=font)
draw.text(
(corner_offset, (height - 150 - bottom_offset)),
date_str_1,
(255, 255, 255),
font=font,
)
draw.text(
(corner_offset, (height - 75) - bottom_offset),
date_str_2,
(255, 255, 255),
font=font,
)
draw.text((corner_offset, 25), "|| PAUSE", (255, 255, 255), font=font)
img.save(out_name)
def add_img_noise(imgpath, intensity=1, out_name="image.jpg"):
img = imageio.imread(imgpath, pilmode='RGB')
img = imageio.imread(imgpath, pilmode="RGB")
noise1 = img + intensity * img.std() * np.random.random(img.shape)
imageio.imwrite(out_name, noise1)
def offset_hue(image, out_name="image.jpg"):
if isinstance(image, str):
image = Image.open(image)
image = hueChange(image, 25)
image.save(out_name)
def build_background(out_name, taskbar_offset):
#getImage(out_name="start.jpg")
# getImage(out_name="start.jpg")
offset_hue("start.jpg", out_name="saturated.jpg")
mod_image_repeat_rows("saturated.jpg", 0.012, 50, 10, out_name="shifted.jpg")
add_img_noise("shifted.jpg", out_name="noisy.jpg")
add_date("noisy.jpg", out_name=out_name, bottom_offset=taskbar_offset)
"""
if __name__ == "__main__":
build_background("bkg.jpg", 25)
"""
def generateVHSStyle(infile, outfile, silence=False):
if silence:
cut_rows = bool(random.getrandbits(1))
offset = random.choice([0,5,10])
offset_hue(infile,"saturated.jpg")
offset = random.choice([0, 5, 10])
offset_hue(infile, "saturated.jpg")
if cut_rows:
mod_image_repeat_rows("saturated.jpg", 0.012, 50, 10, True, "shifted.jpg")
else:
mod_image_repeat_rows("saturated.jpg", 0, 0, 0, True, "shifted.jpg")
add_date("shifted.jpg","noisy.jpg")
add_date("noisy.jpg",outfile, bottom_offset=offset)
add_date("shifted.jpg", "noisy.jpg")
add_date("noisy.jpg", outfile, bottom_offset=offset)
os.remove("shifted.jpg")
os.remove("saturated.jpg")
os.remove("noisy.jpg")
else:
cut_rows = bool(random.getrandbits(1))
offset = random.choice([0,5,10,15,20,25])
offset = random.choice([0, 5, 10, 15, 20, 25])
logger.info("Saturating the image")
offset_hue(infile,"saturated.jpg")
offset_hue(infile, "saturated.jpg")
if cut_rows:
logger.info("Shifting the image")
mod_image_repeat_rows("saturated.jpg", 0.012, 50, 10, True, "shifted.jpg")
@ -156,13 +180,14 @@ def generateVHSStyle(infile, outfile, silence=False):
logger.info("Not applying lines effect")
mod_image_repeat_rows("saturated.jpg", 0, 0, 0, True, "shifted.jpg")
logger.info("Adding noise")
add_date("shifted.jpg","noisy.jpg")
add_date("shifted.jpg", "noisy.jpg")
logger.info("Adding text")
add_date("noisy.jpg",outfile, bottom_offset=offset)
add_date("noisy.jpg", outfile, bottom_offset=offset)
logger.info("Generated Image: out.jpg")
logger.info("Removing residual files")
os.remove("shifted.jpg")
os.remove("saturated.jpg")
os.remove("noisy.jpg")
#generateVHSStyle("s.jpg","o.jpg")
# generateVHSStyle("s.jpg","o.jpg")

33
src/VHSVideo.py
View File

@ -8,16 +8,18 @@ import logzero
from logzero import logger
from logzero import setup_logger
def SaveVid(path):
vidObj = cv2.VideoCapture(path)
count = 0
success = 1
while success:
success, image = vidObj.read()
cv2.imwrite("frames/"+str(count)+".jpg", image)
#os.rename("frames/"+str(count)+".jpg", os.path.splitext("frames/"+str(count)+".jpg")[0])
cv2.imwrite("frames/" + str(count) + ".jpg", image)
# os.rename("frames/"+str(count)+".jpg", os.path.splitext("frames/"+str(count)+".jpg")[0])
count += 1
def Style(pathToFrames):
files = [f for f in os.listdir(pathToFrames) if isfile(join(pathToFrames, f))]
count = 0
@ -41,29 +43,42 @@ def Style(pathToFrames):
os.system(c)
os.chdir(cwd)
def generateVideo(outfile, path, infile):
frame_array = []
files = [int(f) for f in os.listdir(path) if isfile(join(path, f))]
files.sort()
duration = subprocess.check_output(['ffprobe', '-i', infile, '-show_entries', 'format=duration', '-v', 'quiet', '-of', 'csv=%s' % ("p=0")])
fps = len(files)/float(duration)
duration = subprocess.check_output(
[
"ffprobe",
"-i",
infile,
"-show_entries",
"format=duration",
"-v",
"quiet",
"-of",
"csv=%s" % ("p=0"),
]
)
fps = len(files) / float(duration)
print("FPS", fps)
for i in range(len(files)):
filename=path + str(files[i])
filename = path + str(files[i])
img = cv2.imread(filename)
height, width, layers = img.shape
size = (width,height)
size = (width, height)
frame_array.append(img)
out = cv2.VideoWriter(outfile,cv2.VideoWriter_fourcc(*'MP4V'), fps, size)
out = cv2.VideoWriter(outfile, cv2.VideoWriter_fourcc(*"MP4V"), fps, size)
for i in range(len(frame_array)):
out.write(frame_array[i])
out.release()
def VHS_Vid(infile, outfile):
path = './frames/'
path = "./frames/"
os.system("rm frames/*")
os.system("mkdir frames")
logger.info("Exctracting Frames")
@ -84,4 +99,4 @@ def VHS_Vid(infile, outfile):
os.remove("output-audio.aac")
#VHS_Vid("video.mp4","video2.mp4")
# VHS_Vid("video.mp4","video2.mp4")

88
src/VaporSong.py
View File

@ -11,6 +11,7 @@ from logzero import setup_logger
CONFIDENCE_THRESH = 0.02
class VaporSong:
# Slows down Track
@ -23,62 +24,61 @@ class VaporSong:
# Adds Reverb
def reverbize(src, dest):
cmd = "sox -G -D " + src + " " + dest + " reverb 100 fade 5 -0 7" # idk what this does tbh, https://stackoverflow.com/a/57767238/8386344
cmd = (
"sox -G -D " + src + " " + dest + " reverb 100 fade 5 -0 7"
) # idk what this does tbh, https://stackoverflow.com/a/57767238/8386344
os.system(cmd)
return dest
# Crops "src" from "start" plus "start + dur" and return it in "dest"
def crop(src,dest,start,dur):
def crop(src, dest, start, dur):
cmd = "sox " + src + " " + dest + " trim " + " " + str(start) + " " + str(dur)
os.system(cmd)
# Randomly crops a part of the song of at most max_sec_len.
def random_crop(src, max_sec_len, dest):
out = subprocess.check_output(["soxi","-D",src]).rstrip()
out = subprocess.check_output(["soxi", "-D", src]).rstrip()
f_len = int(float(out))
if (f_len <= max_sec_len):
if f_len <= max_sec_len:
os.system("cp " + src + " " + dest)
return
else:
start_region = f_len - max_sec_len
start = randint(0,start_region)
VaporSong.crop(src,dest,start,max_sec_len)
start = randint(0, start_region)
VaporSong.crop(src, dest, start, max_sec_len)
# Given a file, returns a list of [beats, confidence], executable based on audibo's test-beattracking.c
# TODO: Move away from executable and use aubio's Python module
def fetchbeats(src):
beat_matrix = []
if platform == 'darwin':
beats = subprocess.check_output(["noah", "get-beats",src]).rstrip()
if platform == "darwin":
beats = subprocess.check_output(["noah", "get-beats", src]).rstrip()
else:
beats = subprocess.check_output(["./get-beats",src]).rstrip()
beats = subprocess.check_output(["./get-beats", src]).rstrip()
beats_ary = beats.splitlines()
for i in beats_ary:
record = i.split()
record[0] = float(record[0])/1000.0
record[0] = float(record[0]) / 1000.0
record[1] = float(record[1])
beat_matrix.append(record)
return beat_matrix
# Splits an audio file into beats according to beat_matrix list
def split_beat(src,beat_matrix):
def split_beat(src, beat_matrix):
split_files = []
for i in range(0,len(beat_matrix)-1):
for i in range(0, len(beat_matrix) - 1):
if(beat_matrix[i][1] > CONFIDENCE_THRESH):
dur = (beat_matrix[i+1][0] - beat_matrix[i][0])
out = src.split(".")[0]+str(i)+".wav"
VaporSong.crop(src,out,beat_matrix[i][0],dur)
if beat_matrix[i][1] > CONFIDENCE_THRESH:
dur = beat_matrix[i + 1][0] - beat_matrix[i][0]
out = src.split(".")[0] + str(i) + ".wav"
VaporSong.crop(src, out, beat_matrix[i][0], dur)
split_files.append(out)
return split_files
# Combines a list of sections
def combine(sections,dest):
def combine(sections, dest):
tocomb = []
tocomb.append("sox")
tocomb.append("-G")
@ -86,9 +86,11 @@ class VaporSong:
for sample in section:
tocomb.append(sample)
tocomb.append(dest)
tmpFileLimit = len(tocomb) + 256 # in case the program messes up, it does not actually frick up your system
tmpFileLimit = (
len(tocomb) + 256
) # in case the program messes up, it does not actually frick up your system
n = str(tmpFileLimit)
#logger.info("Setting file limit to ", n)
# logger.info("Setting file limit to ", n)
os.system("ulimit -n " + n)
subprocess.check_output(tocomb)
return dest
@ -97,25 +99,24 @@ class VaporSong:
def generate_sections(ary):
sections = []
beats = [4,6,8,9]
beats = [4, 6, 8, 9]
index = 0
while(index != len(ary)):
current_beat = beats[randint(0,len(beats)-1)]
while index != len(ary):
current_beat = beats[randint(0, len(beats) - 1)]
new_section = []
while((current_beat != 0) and (index != len(ary))):
while (current_beat != 0) and (index != len(ary)):
new_section.append(ary[index])
current_beat -= 1
index += 1
sections.append(new_section)
return sections
# given a list of sections, selects some of them and duplicates them, perfect for that vaporwave looping effect
def dup_sections(sections):
new_section = []
for section in sections:
new_section.append(section)
if(randint(0,1) == 0):
if randint(0, 1) == 0:
new_section.append(section)
return new_section
@ -124,10 +125,10 @@ class VaporSong:
def make_passages(sections):
passages = []
index = 0
while(index != len(sections)):
passage_len = randint(1,4)
while index != len(sections):
passage_len = randint(1, 4)
passage = []
while(index != len(sections) and passage_len > 0):
while index != len(sections) and passage_len > 0:
passage.append(sections[index])
index += 1
passage_len -= 1
@ -138,12 +139,12 @@ class VaporSong:
def reorder_passages(passages):
new_passages = []
passage_count = randint(5,12)
while(passage_count != 0):
passage = passages[randint(0,len(passages)-1)]
passage_count = randint(5, 12)
while passage_count != 0:
passage = passages[randint(0, len(passages) - 1)]
passage_count -= 1
dup = randint(1,4)
while(dup != 0):
dup = randint(1, 4)
while dup != 0:
dup -= 1
new_passages.append(passage)
return new_passages
@ -162,13 +163,13 @@ class VaporSong:
def vaporize_song(fname, title):
logger.info("Slowing down the music")
VaporSong.slow_down(fname, 0.7, "beats/out.wav")
#logger.info("Cropping")
#VaporSong.random_crop("beats/out.wav",150,"beats/outcrop.wav")
# logger.info("Cropping")
# VaporSong.random_crop("beats/out.wav",150,"beats/outcrop.wav")
logger.info("Doing Beat Analysis")
bm = VaporSong.fetchbeats("beats/out.wav")
logger.info("Split into beats")
splitd = VaporSong.split_beat("beats/out.wav",bm)
#group beats to sections
splitd = VaporSong.split_beat("beats/out.wav", bm)
# group beats to sections
logger.info("Divide into sections")
sections = VaporSong.generate_sections(splitd)
logger.info("Duping Sections")
@ -179,6 +180,9 @@ class VaporSong:
pasloop = VaporSong.reorder_passages(paslist)
sectionflat = VaporSong.flatten(pasloop)
logger.info("Mastering & Reverbing")
VaporSong.combine(sectionflat,"beats/out_norev.wav")
VaporSong.reverbize("beats/out_norev.wav","./" + (re.sub(r"\W+|_", " ", title)).replace(" ","_") + ".wav")
VaporSong.combine(sectionflat, "beats/out_norev.wav")
VaporSong.reverbize(
"beats/out_norev.wav",
"./" + (re.sub(r"\W+|_", " ", title)).replace(" ", "_") + ".wav",
)
logger.info("Generated V A P O R W A V E")