contentgit.append(filepath) if int(os.stat(filepath).st_size) < sizlim: contentpepper.append(filepath) print("") print("Gathering Root Sounds.") x = len(contentbeats) print("") print("Beats") for ctr in range(80): y = random_number(x) atrack = contentbeats[y] trackname = atrack[-20:-4] tracknam = "" for m in trackname: if m.isalnum(): tracknam += m outstr = "C:\\Users\\mysti\\BadIter\\Beats\\Beat_" + str(ctr) + tracknam + ".wav" shutil.copy(contentbeats[y], outstr) x = len(contentdrones) print("") print("Drone") for ctr in range(60):
for xlet in x: if xlet.isalnum(): addstr += xlet xl = addstr.strip() xl2 = xl.lower() if len(xl2) > 1: wordcon.append(xl2) x1 = len(wordcon) phraselist = [] for phrs in range(lx): for wiz in range(3): num1 = random_number(x1) num2 = random_number(x1) num3 = random_number(x1) astr = wordcon[num1] bstr = wordcon[num2] cstr = wordcon[num3] phrsstr = astr + "_" + bstr + "_" + cstr phraselist.append(phrsstr) for ctr in range(lx): astr = fillst[ctr] bstr = fillrt[ctr] + phraselist[ctr] + filltyp[ctr] os.rename(astr, bstr)
tim = os.path.getmtime(filepath) contentdat[filepath] = tim newply = [] newplyd = [] for w in sorted(contentdat, key=contentdat.get, reverse=False): newply.append(w) newplyd.append(contentdat[w]) totlen = len(newply) totch = random_number(totlen) fitch = newply[totch] fich = str(newplyd[totch]) finlst = [] for ctr in range(30): sublst = [] for elem in range(totlen): tesstr = newply[elem] testr = str(newplyd[elem]) piv2str = testr[-10:-8]
collst = [ "black", "white", "blue", "red", "yellow", "pink", "brown", "silver", "gray", "purple", "gold", "green", "light blue", "light yellow", "light pink", "tan", "light gray", "lavender", "light green" ] bcollst = [ "light blue", "light yellow", "light pink", "tan", "light gray", "lavender", "light green" ] tommy = turtle.Turtle() tommy.shape("circle") tommy.speed(1000) bkgr = random_number(len(bcollst)) back = bcollst[bkgr] turtle.bgcolor(back) collst.remove(bcollst[bkgr]) shnum = random_number2(15, 30) for ctr in range(shnum): fgr = random_number(len(collst)) fore = collst[fgr]
plist = infile.readline() while plist: content.append(plist.strip()) plist = infile.readline() infile.close() leng = len(content) #This code uses organic "filters" to derive track addresses from the main original list for y in range(50): trk = random_number(leng - 30) skip = random_number2(1, 30) adnum = trk + skip dreamcrack = random_number(9) if dreamcrack < 4: adnum = random_number2(1,len(content)) adstr = content[adnum] if adstr not in finlst: finlst.append(adstr)