diff --git a/src/VCR_OSD_MONO_1.001.ttf b/src/VCR_OSD_MONO_1.001.ttf new file mode 100644 index 0000000..dcca687 Binary files /dev/null and b/src/VCR_OSD_MONO_1.001.ttf differ diff --git a/src/VHSImage.py b/src/VHSImage.py new file mode 100644 index 0000000..51688b1 --- /dev/null +++ b/src/VHSImage.py @@ -0,0 +1,170 @@ +import requests +import datetime +from PIL import Image +from PIL import ImageFont +from PIL import ImageDraw +import colorsys +import json +import numpy as np +import imageio +import random +from math import floor +import os +import logzero +from logzero import logger +from logzero import setup_logger +import random + + +def generate_offsets(array_size, max_offset): + periodicity = random.randint(1, 10) + periodicity = random.random() * periodicity + offsets = [] + for i in range(array_size): + # print(floor(max_offset*np.sin(periodicity*(i*np.pi/180)))) + offsets.append(floor(max_offset*np.sin(periodicity*(i*np.pi/180)))) + return offsets + + +def hueChange(img, offset): + # https://stackoverflow.com/questions/27041559/rgb-to-hsv-python-change-hue-continuously/27042106 + # It's better to raise an exception than silently return None if img is not + # an Image. + img.load() + r, g, b = img.split() + r_data = [] + g_data = [] + b_data = [] + + offset = offset/100. + 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) + # print(h, s, v) + # print(rd, gr, bl) + rgb = colorsys.hsv_to_rgb(h, s+offset, v) + rd, bl, gr = [int(x*255.) for x in rgb] + # print(rd, gr, bl) + r_data.append(rd) + g_data.append(gr) + b_data.append(bl) + + r.putdata(r_data) + g.putdata(g_data) + b.putdata(b_data) + return Image.merge('RGB',(r,g,b)) + +def decision(probability): + return random.random() < probability + +def getImage(out_name="image.jpg"): + now = datetime.datetime.now() + dt_str = now.strftime("%Y-%m-%dT%H:%M:%Sz") + newurl = url.format(WIDTH=3840, HEIGHT=2160, DATE=dt_str) + r = requests.get(newurl) + img_data = r.json()["batchrsp"]["items"][0] + # ["ad"]["image_fullscreen_001_landscape"]["u"] + img_url = json.loads(img_data["item"])["ad"]["image_fullscreen_001_landscape"]["u"] + r = requests.get(img_url) + with open(out_name, "wb") as f: + f.write(r.content) + +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 + + repeat = False + num_repeats = 0 + times_to_repeat = 0 + row_to_repeat = [] + offsets = [] + for y in range(height): + if not repeat and decision(chance_of_row_repeat): + repeat = True + times_to_repeat = random.randint(min_row_repeats, max_row_repeats) + offsets = generate_offsets(times_to_repeat, random.randint(10, 50)) + for x in range(width): + r, g, b = img.getpixel((x, y)) + + if repeat and len(row_to_repeat) != width: + pixels[x, y] = (r, g, b) + row_to_repeat.append((r, g, b)) + elif repeat: + try: + pixels[x, y] = row_to_repeat[x + offsets[num_repeats]] + except Exception as e: + pixels[x, y] = row_to_repeat[x - offsets[num_repeats]] + else: + pixels[x, y] = (r, g, b) + + if repeat: + num_repeats += 1 + if num_repeats >= times_to_repeat: + repeat = False + times_to_repeat = 0 + num_repeats = 0 + row_to_repeat = [] + offsets = [] + if save: + img.save(out_name) + + +def add_date(img_path, out_name="image.jpg", bottom_offset=0): + date_obj = datetime.datetime.now() + date_str_1 = date_obj.strftime("%p %H:%M") + date_str_2 = date_obj.strftime("%b. %d %Y") + corner_offset = 50 + img = Image.open(img_path) + 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, 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') + 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") + 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): + cut_rows = bool(random.getrandbits(1)) + offset = random.choice([0,5,10,15,20,25]) + logger.info("Saturating the image") + 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") + else: + 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") + logger.info("Adding text") + 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") \ No newline at end of file diff --git a/src/VaporSong.py b/src/VaporSong.py new file mode 100644 index 0000000..bb75646 --- /dev/null +++ b/src/VaporSong.py @@ -0,0 +1,182 @@ +import os +import subprocess +import re +from random import randint + +import logzero +from logzero import logger +from logzero import setup_logger + +CONFIDENCE_THRESH = 0.02 + +class VaporSong: + + # Slows down Track + + def slow_down(src, rate, dest): + cmd = "sox -G -D " + src + " " + dest + " speed " + str(rate) + os.system(cmd) + return dest + + # 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 + os.system(cmd) + return dest + + + # Crops "src" from "start" plus "start + dur" and return it in "dest" + 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() + f_len = int(float(out)) + 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) + + + # 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 os.name == 'posix': + beats = subprocess.check_output(["noah", "get-beats",src]).rstrip() + else: + 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[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): + split_files = [] + 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) + split_files.append(out) + return split_files + + # Combines a list of sections + + def combine(sections,dest): + tocomb = [] + tocomb.append("sox") + tocomb.append("-G") + for section in sections: + 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 + n = str(tmpFileLimit) + #logger.info("Setting file limit to ", n) + os.system("ulimit -n " + n) + subprocess.check_output(tocomb) + return dest + + # Arbitrarily groups beats into lists of 4, 6, 8, or 9, perfect for looping. + + def generate_sections(ary): + sections = [] + beats = [4,6,8,9] + index = 0 + while(index != len(ary)): + current_beat = beats[randint(0,len(beats)-1)] + new_section = [] + 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): + new_section.append(section) + return new_section + + # a passage is a list of sections. This takes some sections and groups them into passages. + + def make_passages(sections): + passages = [] + index = 0 + while(index != len(sections)): + passage_len = randint(1,4) + passage = [] + while(index != len(sections) and passage_len > 0): + passage.append(sections[index]) + index += 1 + passage_len -= 1 + passages.append(passage) + return passages + + # Given all of our passages, picks some of them and inserts them into a list some number of times. + + def reorder_passages(passages): + new_passages = [] + 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 -= 1 + new_passages.append(passage) + return new_passages + + # converts a list of passages to a list of sections. + + def flatten(passages): + sections = [] + for passage in passages: + for section in passage: + sections.append(section) + return sections + + # It's all coming together + + 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("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 + logger.info("Divide into sections") + sections = VaporSong.generate_sections(splitd) + logger.info("Duping Sections") + sdup = VaporSong.dup_sections(sections) + # group sections into passages + paslist = VaporSong.make_passages(sdup) + # reorder packages + 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") + logger.info("Generated V A P O R W A V E") diff --git a/src/__init__.py b/src/__init__.py new file mode 100644 index 0000000..e69de29