import os
import sys
import copy
import json
import threading
import heapq
import traceback
import asyncio
if os . name == " nt " :
import logging
logging . getLogger ( " xformers " ) . addFilter ( lambda record : ' A matching Triton is not available ' not in record . getMessage ( ) )
import server
if __name__ == " __main__ " :
if ' --help ' in sys . argv :
print ( " Valid Command line Arguments: " )
print ( " \t --listen \t \t \t Listen on 0.0.0.0 so the UI can be accessed from other computers. " )
print ( " \t --port 8188 \t \t \t Set the listen port. " )
print ( " \t --dont-upcast-attention \t \t Disable upcasting of attention \n \t \t \t \t \t can boost speed but increase the chances of black images. \n " )
print ( " \t --use-split-cross-attention \t Use the split cross attention optimization instead of the sub-quadratic one. \n \t \t \t \t \t Ignored when xformers is used. " )
print ( )
print ( " \t --highvram \t \t \t By default models will be unloaded to CPU memory after being used. \n \t \t \t \t \t This option keeps them in GPU memory. \n " )
print ( " \t --normalvram \t \t \t Used to force normal vram use if lowvram gets automatically enabled. " )
print ( " \t --lowvram \t \t \t Split the unet in parts to use less vram. " )
print ( " \t --novram \t \t \t When lowvram isn ' t enough. " )
print ( )
exit ( )
if ' --dont-upcast-attention ' in sys . argv :
print ( " disabling upcasting of attention " )
os . environ [ ' ATTN_PRECISION ' ] = " fp16 "
import torch
import nodes
def get_input_data ( inputs , class_def , outputs = { } , prompt = { } , extra_data = { } ) :
valid_inputs = class_def . INPUT_TYPES ( )
input_data_all = { }
for x in inputs :
input_data = inputs [ x ]
if isinstance ( input_data , list ) :
input_unique_id = input_data [ 0 ]
output_index = input_data [ 1 ]
obj = outputs [ input_unique_id ] [ output_index ]
input_data_all [ x ] = obj
else :
if ( " required " in valid_inputs and x in valid_inputs [ " required " ] ) or ( " optional " in valid_inputs and x in valid_inputs [ " optional " ] ) :
input_data_all [ x ] = input_data
if " hidden " in valid_inputs :
h = valid_inputs [ " hidden " ]
for x in h :
if h [ x ] == " PROMPT " :
input_data_all [ x ] = prompt
if h [ x ] == " EXTRA_PNGINFO " :
if " extra_pnginfo " in extra_data :
input_data_all [ x ] = extra_data [ ' extra_pnginfo ' ]
return input_data_all
def recursive_execute ( server , prompt , outputs , current_item , extra_data = { } ) :
unique_id = current_item
inputs = prompt [ unique_id ] [ ' inputs ' ]
class_type = prompt [ unique_id ] [ ' class_type ' ]
class_def = nodes . NODE_CLASS_MAPPINGS [ class_type ]
if unique_id in outputs :
return [ ]
executed = [ ]
for x in inputs :
input_data = inputs [ x ]
if isinstance ( input_data , list ) :
input_unique_id = input_data [ 0 ]
output_index = input_data [ 1 ]
if input_unique_id not in outputs :
executed + = recursive_execute ( server , prompt , outputs , input_unique_id , extra_data )
input_data_all = get_input_data ( inputs , class_def , outputs , prompt , extra_data )
if server . client_id is not None :
server . send_sync ( " executing " , { " node " : unique_id } , server . client_id )
obj = class_def ( )
outputs [ unique_id ] = getattr ( obj , obj . FUNCTION ) ( * * input_data_all )
if " ui " in outputs [ unique_id ] and server . client_id is not None :
server . send_sync ( " executed " , { " node " : unique_id , " output " : outputs [ unique_id ] [ " ui " ] } , server . client_id )
return executed + [ unique_id ]
def recursive_will_execute ( prompt , outputs , current_item ) :
unique_id = current_item
inputs = prompt [ unique_id ] [ ' inputs ' ]
will_execute = [ ]
if unique_id in outputs :
return [ ]
for x in inputs :
input_data = inputs [ x ]
if isinstance ( input_data , list ) :
input_unique_id = input_data [ 0 ]
output_index = input_data [ 1 ]
if input_unique_id not in outputs :
will_execute + = recursive_will_execute ( prompt , outputs , input_unique_id )
return will_execute + [ unique_id ]
def recursive_output_delete_if_changed ( prompt , old_prompt , outputs , current_item ) :
unique_id = current_item
inputs = prompt [ unique_id ] [ ' inputs ' ]
class_type = prompt [ unique_id ] [ ' class_type ' ]
class_def = nodes . NODE_CLASS_MAPPINGS [ class_type ]
is_changed_old = ' '
is_changed = ' '
if hasattr ( class_def , ' IS_CHANGED ' ) :
if unique_id in old_prompt and ' is_changed ' in old_prompt [ unique_id ] :
is_changed_old = old_prompt [ unique_id ] [ ' is_changed ' ]
if ' is_changed ' not in prompt [ unique_id ] :
input_data_all = get_input_data ( inputs , class_def )
is_changed = class_def . IS_CHANGED ( * * input_data_all )
prompt [ unique_id ] [ ' is_changed ' ] = is_changed
else :
is_changed = prompt [ unique_id ] [ ' is_changed ' ]
if unique_id not in outputs :
return True
to_delete = False
if is_changed != is_changed_old :
to_delete = True
elif unique_id not in old_prompt :
to_delete = True
elif inputs == old_prompt [ unique_id ] [ ' inputs ' ] :
for x in inputs :
input_data = inputs [ x ]
if isinstance ( input_data , list ) :
input_unique_id = input_data [ 0 ]
output_index = input_data [ 1 ]
if input_unique_id in outputs :
to_delete = recursive_output_delete_if_changed ( prompt , old_prompt , outputs , input_unique_id )
else :
to_delete = True
if to_delete :
break
else :
to_delete = True
if to_delete :
d = outputs . pop ( unique_id )
del d
return to_delete
class PromptExecutor :
def __init__ ( self , server ) :
self . outputs = { }
self . old_prompt = { }
self . server = server
def execute ( self , prompt , extra_data = { } ) :
if " client_id " in extra_data :
self . server . client_id = extra_data [ " client_id " ]
else :
self . server . client_id = None
with torch . no_grad ( ) :
for x in prompt :
recursive_output_delete_if_changed ( prompt , self . old_prompt , self . outputs , x )
current_outputs = set ( self . outputs . keys ( ) )
executed = [ ]
try :
to_execute = [ ]
for x in prompt :
class_ = nodes . NODE_CLASS_MAPPINGS [ prompt [ x ] [ ' class_type ' ] ]
if hasattr ( class_ , ' OUTPUT_NODE ' ) :
to_execute + = [ ( 0 , x ) ]
while len ( to_execute ) > 0 :
#always execute the output that depends on the least amount of unexecuted nodes first
to_execute = sorted ( list ( map ( lambda a : ( len ( recursive_will_execute ( prompt , self . outputs , a [ - 1 ] ) ) , a [ - 1 ] ) , to_execute ) ) )
x = to_execute . pop ( 0 ) [ - 1 ]
class_ = nodes . NODE_CLASS_MAPPINGS [ prompt [ x ] [ ' class_type ' ] ]
if hasattr ( class_ , ' OUTPUT_NODE ' ) :
if class_ . OUTPUT_NODE == True :
valid = False
try :
m = validate_inputs ( prompt , x )
valid = m [ 0 ]
except :
valid = False
if valid :
executed + = recursive_execute ( self . server , prompt , self . outputs , x , extra_data )
except Exception as e :
print ( traceback . format_exc ( ) )
to_delete = [ ]
for o in self . outputs :
if o not in current_outputs :
to_delete + = [ o ]
if o in self . old_prompt :
d = self . old_prompt . pop ( o )
del d
for o in to_delete :
d = self . outputs . pop ( o )
del d
else :
executed = set ( executed )
for x in executed :
self . old_prompt [ x ] = copy . deepcopy ( prompt [ x ] )
finally :
if self . server . client_id is not None :
self . server . send_sync ( " executing " , { " node " : None } , self . server . client_id )
torch . cuda . empty_cache ( )
def validate_inputs ( prompt , item ) :
unique_id = item
inputs = prompt [ unique_id ] [ ' inputs ' ]
class_type = prompt [ unique_id ] [ ' class_type ' ]
obj_class = nodes . NODE_CLASS_MAPPINGS [ class_type ]
class_inputs = obj_class . INPUT_TYPES ( )
required_inputs = class_inputs [ ' required ' ]
for x in required_inputs :
if x not in inputs :
return ( False , " Required input is missing. {} , {} " . format ( class_type , x ) )
val = inputs [ x ]
info = required_inputs [ x ]
type_input = info [ 0 ]
if isinstance ( val , list ) :
if len ( val ) != 2 :
return ( False , " Bad Input. {} , {} " . format ( class_type , x ) )
o_id = val [ 0 ]
o_class_type = prompt [ o_id ] [ ' class_type ' ]
r = nodes . NODE_CLASS_MAPPINGS [ o_class_type ] . RETURN_TYPES
if r [ val [ 1 ] ] != type_input :
return ( False , " Return type mismatch. {} , {} " . format ( class_type , x ) )
r = validate_inputs ( prompt , o_id )
if r [ 0 ] == False :
return r
else :
if type_input == " INT " :
val = int ( val )
inputs [ x ] = val
if type_input == " FLOAT " :
val = float ( val )
inputs [ x ] = val
if type_input == " STRING " :
val = str ( val )
inputs [ x ] = val
if len ( info ) > 1 :
if " min " in info [ 1 ] and val < info [ 1 ] [ " min " ] :
return ( False , " Value smaller than min. {} , {} " . format ( class_type , x ) )
if " max " in info [ 1 ] and val > info [ 1 ] [ " max " ] :
return ( False , " Value bigger than max. {} , {} " . format ( class_type , x ) )
if isinstance ( type_input , list ) :
if val not in type_input :
return ( False , " Value not in list. {} , {} : {} not in {} " . format ( class_type , x , val , type_input ) )
return ( True , " " )
def validate_prompt ( prompt ) :
outputs = set ( )
for x in prompt :
class_ = nodes . NODE_CLASS_MAPPINGS [ prompt [ x ] [ ' class_type ' ] ]
if hasattr ( class_ , ' OUTPUT_NODE ' ) and class_ . OUTPUT_NODE == True :
outputs . add ( x )
if len ( outputs ) == 0 :
return ( False , " Prompt has no outputs " )
good_outputs = set ( )
errors = [ ]
for o in outputs :
valid = False
reason = " "
try :
m = validate_inputs ( prompt , o )
valid = m [ 0 ]
reason = m [ 1 ]
except :
valid = False
reason = " Parsing error "
if valid == True :
good_outputs . add ( x )
else :
print ( " Failed to validate prompt for output {} {} " . format ( o , reason ) )
print ( " output will be ignored " )
errors + = [ ( o , reason ) ]
if len ( good_outputs ) == 0 :
errors_list = " \n " . join ( map ( lambda a : " {} " . format ( a [ 1 ] ) , errors ) )
return ( False , " Prompt has no properly connected outputs \n {} " . format ( errors_list ) )
return ( True , " " )
def prompt_worker ( q , server ) :
e = PromptExecutor ( server )
while True :
item , item_id = q . get ( )
e . execute ( item [ - 2 ] , item [ - 1 ] )
q . task_done ( item_id , e . outputs )
class PromptQueue :
def __init__ ( self , server ) :
self . server = server
self . mutex = threading . RLock ( )
self . not_empty = threading . Condition ( self . mutex )
self . task_counter = 0
self . queue = [ ]
self . currently_running = { }
self . history = { }
server . prompt_queue = self
def put ( self , item ) :
with self . mutex :
heapq . heappush ( self . queue , item )
self . server . queue_updated ( )
self . not_empty . notify ( )
def get ( self ) :
with self . not_empty :
while len ( self . queue ) == 0 :
self . not_empty . wait ( )
item = heapq . heappop ( self . queue )
i = self . task_counter
self . currently_running [ i ] = copy . deepcopy ( item )
self . task_counter + = 1
self . server . queue_updated ( )
return ( item , i )
def task_done ( self , item_id , outputs ) :
with self . mutex :
prompt = self . currently_running . pop ( item_id )
self . history [ prompt [ 1 ] ] = { " prompt " : prompt , " outputs " : { } }
for o in outputs :
if " ui " in outputs [ o ] :
self . history [ prompt [ 1 ] ] [ " outputs " ] [ o ] = outputs [ o ] [ " ui " ]
self . server . queue_updated ( )
def get_current_queue ( self ) :
with self . mutex :
out = [ ]
for x in self . currently_running . values ( ) :
out + = [ x ]
return ( out , copy . deepcopy ( self . queue ) )
def get_tasks_remaining ( self ) :
with self . mutex :
return len ( self . queue ) + len ( self . currently_running )
def wipe_queue ( self ) :
with self . mutex :
self . queue = [ ]
self . server . queue_updated ( )
def delete_queue_item ( self , function ) :
with self . mutex :
for x in range ( len ( self . queue ) ) :
if function ( self . queue [ x ] ) :
if len ( self . queue ) == 1 :
self . wipe_queue ( )
else :
self . queue . pop ( x )
heapq . heapify ( self . queue )
self . server . queue_updated ( )
return True
return False
def get_history ( self ) :
with self . mutex :
return copy . deepcopy ( self . history )
def wipe_history ( self ) :
with self . mutex :
self . history = { }
def delete_history_item ( self , id_to_delete ) :
with self . mutex :
self . history . pop ( id_to_delete , None )
async def run ( server , address = ' ' , port = 8188 , verbose = True ) :
await asyncio . gather ( server . start ( address , port , verbose ) , server . publish_loop ( ) )
def hijack_progress ( server ) :
from tqdm . auto import tqdm
orig_func = getattr ( tqdm , " update " )
def wrapped_func ( * args , * * kwargs ) :
pbar = args [ 0 ]
v = orig_func ( * args , * * kwargs )
server . send_sync ( " progress " , { " value " : pbar . n , " max " : pbar . total } , server . client_id )
return v
setattr ( tqdm , " update " , wrapped_func )
if __name__ == " __main__ " :
loop = asyncio . new_event_loop ( )
asyncio . set_event_loop ( loop )
server = server . PromptServer ( loop )
q = PromptQueue ( server )
hijack_progress ( server )
threading . Thread ( target = prompt_worker , daemon = True , args = ( q , server , ) ) . start ( )
if ' --listen ' in sys . argv :
address = ' 0.0.0.0 '
else :
address = ' 127.0.0.1 '
dont_print = False
if ' --dont-print-server ' in sys . argv :
dont_print = True
port = 8188
try :
p_index = sys . argv . index ( ' --port ' )
port = int ( sys . argv [ p_index + 1 ] )
except :
pass
if os . name == " nt " :
try :
loop . run_until_complete ( run ( server , address = address , port = port , verbose = not dont_print ) )
except KeyboardInterrupt :
pass
else :
loop . run_until_complete ( run ( server , address = address , port = port , verbose = not dont_print ) )