import os import multiprocessing import time import subprocess import sys class FSRScaler: def __init__(self): self.os_type = sys.platform self.command = "" self.tmppath = "" self.videometa = {} def fsrScaler ( self, tmppath, filepath, threads, fsrpath, quality_setting, sharpening, scaling, filetype, mode ): # Locate Images and assemble FSR-Command self.file_list = [] self.filelist = os.listdir(tmppath) self.filelist.pop(0) self.filelist.sort() self.number = 0 if sharpening != '' and sharpening != None: for self.file in self.filelist: self.number += 1 if ( self.os_type == 'win32' ): self.file_list.append( f"{tmppath}{self.file} {tmppath}up\\up{str(self.number).zfill(8)}.{ filetype } " ); else: self.file_list.append( f"{tmppath}{self.file} {tmppath}up/up{str(self.number).zfill(8)}.{ filetype } " ); try: os.mkdir( f'{tmppath}up' ) except FileExistsError: pass else: for self.file in self.filelist: self.number += 1 if ( self.os_type == 'win32' ): self.file_list.append( f"{tmppath}{self.file} {tmppath}sc\\ig{str(self.number).zfill(8)}.{ filetype } " ); else: self.file_list.append( f"{tmppath}{self.file} {tmppath}sc/ig{str(self.number).zfill(8)}.{ filetype } " ); try: os.mkdir( f'{tmppath}sc' ) except FileExistsError: pass if ( self.os_type == 'win32' ): self.maxlength = 8000 else: self.maxlength = 31900 self.pos = 1 ############################################ # # Thread optimisation: Divide workload up into different threads & upscale using helper function # ############################################ self.threads = threads if ( threads > multiprocessing.cpu_count() ): self.threads = multiprocessing.cpu_count(); if ( not scaling ): engines = { 'c': 'Cubic', 'hqc': 'High Quality Cubic', 'fsr':'FidelityFX Super Resolution' } print( f'\n\n==> Upscaling using { self.threads } threads <==\n\n' ); print( f'\n\n==> Upscaling Engine is { engines[ mode.lower() ] } <==\n\n' ); time.sleep( 2 ); self.command_list = []; self.file_list_length = len( self.file_list ); for i in range( self.threads ): self.files = ''; for _ in range( int( self.file_list_length // self.threads ) ): self.files += self.file_list.pop( 0 ); if ( i == self.threads - 1 ): for element in self.file_list: self.files += element; self.command_list.append( ( self.files, fsrpath, quality_setting, i, self.maxlength, self.os_type, mode ) ) self.pool = multiprocessing.Pool( self.threads ) self.pool.starmap( upscalerEngine, self.command_list ); self.pool.close(); self.pool.join(); if sharpening != '' and sharpening != None: print( f'\n\n\n==> Sharpening using { self.threads } threads <==\n\n' ); time.sleep( 2 ); self.pathSharpening = tmppath if ( not scaling ): if ( self.os_type == 'win32' ): self.pathSharpening += 'up\\' elif ( self.os_type == 'linux' ): self.pathSharpening += 'up/' time.sleep( 2 ); try: os.mkdir( f'{tmppath}sc' ) except FileExistsError: pass # Locate Images and assemble FSR-Command self.file_list = [] self.filelist = os.listdir( self.pathSharpening ) self.filelist.pop(0) self.filelist.sort() self.number = 0 for self.file in self.filelist: self.number += 1 if ( self.os_type == 'win32' ): self.file_list.append( f"{self.pathSharpening}{self.file} {tmppath}sc\\ig{str(self.number).zfill(8)}.{ filetype } " ); else: self.file_list.append( f"{self.pathSharpening}{self.file} {tmppath}sc/ig{str(self.number).zfill(8)}.{ filetype } " ); if ( self.os_type == 'win32' ): self.maxlength = 8000 else: self.maxlength = 31900 self.pos = 1 # assemble command list self.command_list = []; self.file_list_length = len( self.file_list ); for i in range( self.threads ): self.files = ''; for _ in range( int( self.file_list_length // self.threads ) ): self.files += self.file_list.pop( 0 ); if ( i == self.threads - 1 ): for element in self.file_list: self.files += element; self.command_list.append( ( self.files, fsrpath, i, self.maxlength, self.os_type, sharpening, not sharpening ) ) self.pool = multiprocessing.Pool( self.threads ) self.pool.starmap( sharpeningEngine, self.command_list ); self.pool.close(); self.pool.join(); # Add return values def upscalerEngine ( files, fsrpath, quality_setting, number, maxlength, os_type, version ): scaler = 'FSR' if ( version.upper() == 'HQC' ): scaler = 'HighQualityCubic' elif ( version.upper() == 'C' ): scaler = 'Cubic' files = files; # Refactoring of commands that are longer than 32K characters fileout = []; pos = 0; if len( files ) > maxlength: while files[maxlength - pos:maxlength - pos + 1] != ' ': pos += 1 file_processing = files[:maxlength - pos] if file_processing[len(file_processing) - 14:len(file_processing) - 12] == 'ig': pos += 5 else: pass while files[maxlength - pos:maxlength - pos + 1] != ' ': pos += 1 fileout.append(files[:maxlength - pos]) filesopt = files[maxlength - pos:] posx = 0 posy = maxlength # Command refactoring for commands that are longer than 64K characters if len(filesopt) > maxlength: while len(filesopt) > maxlength: posx += maxlength - pos posy += maxlength - pos pos = 1 while files[posy - pos:posy - pos + 1] != ' ': pos += 1 file_processing = files[posx:posy - pos] if file_processing[len(file_processing) - 14:len(file_processing) - 12] == 'ig': pos += 5 while files[posy - pos:posy - pos + 1] != ' ': pos += 1 file_processing = files[posx:posy - pos] fileout.append(file_processing) filesopt = files[posy - pos:] fileout.append(filesopt) else: fileout.append(files[maxlength - pos:]) else: fileout.append(files) # Upscaling images print( '\n\n\nUpscaling images... \n\n\n\n\n\n PROCESS: ', number, '\n\n\n' ) while len( fileout ) > 0: files_handle = fileout.pop(0) if os_type == 'linux': command_us = f'wine {fsrpath} -Mode { scaler } -Scale {quality_setting} {quality_setting} {files_handle}' elif os_type == 'win32': command_us = f'FidelityFX_CLI -Mode { scaler } -Scale {quality_setting} {quality_setting} {files_handle}' else: print( 'OS CURRENTLY UNSUPPORTED!' ) return False sub = subprocess.Popen( command_us, shell=True ); sub.wait(); time.sleep(3) print( '\n\nCompleted executing Job\n\n\n PROCESS: ', number, '\n\n\n' ); ######################## # # Sharpening # ####################### def sharpeningEngine ( files, fsrpath, number, maxlength, os_type, sharpening, didUpscale ): files = files; # Refactoring of commands that are longer than 32K characters fileout = []; pos = 0; if len( files ) > maxlength: while files[maxlength - pos:maxlength - pos + 1] != ' ': pos += 1 file_processing = files[:maxlength - pos] if ( didUpscale ): if file_processing[len(file_processing) - 14:len(file_processing) - 12] == 'up': pos += 5 else: if file_processing[len(file_processing) - 17:len(file_processing) - 15] == 'ru': pos += 8 while files[maxlength - pos:maxlength - pos + 1] != ' ': pos += 1 fileout.append(files[:maxlength - pos]) filesopt = files[maxlength - pos:] posx = 0 posy = maxlength # Command refactoring for commands that are longer than 64K characters if len(filesopt) > maxlength: while len(filesopt) > maxlength: posx += maxlength - pos posy += maxlength - pos pos = 1 while files[posy - pos:posy - pos + 1] != ' ': pos += 1 file_processing = files[posx:posy - pos] if ( didUpscale ): if file_processing[len(file_processing) - 14:len(file_processing) - 12] == 'up': pos += 5 else: if file_processing[len(file_processing) - 17:len(file_processing) - 15] == 'ru': pos += 8 while files[posy - pos:posy - pos + 1] != ' ': pos += 1 file_processing = files[posx:posy - pos] fileout.append(file_processing) filesopt = files[posy - pos:] fileout.append(filesopt) else: fileout.append(files[maxlength - pos:]) else: fileout.append(files) # Upscaling images print( '\n\n\nSharpening images... \n\n\n\n\n\n PROCESS: ', number, '\n\n\n' ) while len( fileout ) > 0: files_handle = fileout.pop(0) print( '\n\n\n PROCESS: ', number, '\nRunning sharpening filter\n\n\n' ); if os_type == 'linux': command_sharpening = f'wine {fsrpath} -Mode CAS -Sharpness {sharpening} {files_handle}' elif os_type == 'win32': command_sharpening = f'FidelityFX_CLI -Mode CAS -Sharpness {sharpening} {files_handle}' else: print( 'OS CURRENTLY UNSUPPORTED!' ) return False sub2 = subprocess.Popen( command_sharpening, shell=True ); sub2.wait() time.sleep(3) print( '\n\nCompleted executing Job\n\n\n PROCESS: ', number, '\n\n\n' );