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from __future__ import annotations
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import re
from collections import namedtuple
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from typing import List
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import lark
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# a prompt like this: "fantasy landscape with a [mountain:lake:0.25] and [an oak:a christmas tree:0.75][ in foreground::0.6][ in background:0.25] [shoddy:masterful:0.5]"
# will be represented with prompt_schedule like this (assuming steps=100):
# [25, 'fantasy landscape with a mountain and an oak in foreground shoddy']
# [50, 'fantasy landscape with a lake and an oak in foreground in background shoddy']
# [60, 'fantasy landscape with a lake and an oak in foreground in background masterful']
# [75, 'fantasy landscape with a lake and an oak in background masterful']
# [100, 'fantasy landscape with a lake and a christmas tree in background masterful']
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schedule_parser = lark . Lark ( r """
! start : ( prompt | / [ ] [ ( ) : ] / + ) *
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prompt : ( emphasized | scheduled | alternate | plain | WHITESPACE ) *
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! emphasized : " ( " prompt " ) "
| " ( " prompt " : " prompt " ) "
| " [ " prompt " ] "
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scheduled : " [ " [ prompt " : " ] prompt " : " [ WHITESPACE ] NUMBER [ WHITESPACE ] " ] "
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alternate : " [ " prompt ( " | " [ prompt ] ) + " ] "
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WHITESPACE : / \s + /
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plain : / ( [ ^ \\\[ \] ( ) : | ] | \\. ) + /
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% import common . SIGNED_NUMBER - > NUMBER
""" )
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def get_learned_conditioning_prompt_schedules ( prompts , base_steps , hires_steps = None , use_old_scheduling = False ) :
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"""
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>> > g = lambda p : get_learned_conditioning_prompt_schedules ( [ p ] , 10 ) [ 0 ]
>> > g ( " test " )
[ [ 10 , ' test ' ] ]
>> > g ( " a [b:3] " )
[ [ 3 , ' a ' ] , [ 10 , ' a b ' ] ]
>> > g ( " a [b: 3] " )
[ [ 3 , ' a ' ] , [ 10 , ' a b ' ] ]
>> > g ( " a [[[b]]:2] " )
[ [ 2 , ' a ' ] , [ 10 , ' a [[b]] ' ] ]
>> > g ( " [(a:2):3] " )
[ [ 3 , ' ' ] , [ 10 , ' (a:2) ' ] ]
>> > g ( " a [b : c : 1] d " )
[ [ 1 , ' a b d ' ] , [ 10 , ' a c d ' ] ]
>> > g ( " a[b:[c:d:2]:1]e " )
[ [ 1 , ' abe ' ] , [ 2 , ' ace ' ] , [ 10 , ' ade ' ] ]
>> > g ( " a [unbalanced " )
[ [ 10 , ' a [unbalanced ' ] ]
>> > g ( " a [b:.5] c " )
[ [ 5 , ' a c ' ] , [ 10 , ' a b c ' ] ]
>> > g ( " a [ { b|d { :.5] c " ) # not handling this right now
[ [ 5 , ' a c ' ] , [ 10 , ' a { b|d { c ' ] ]
>> > g ( " ((a][:b:c [d:3] " )
[ [ 3 , ' ((a][:b:c ' ] , [ 10 , ' ((a][:b:c d ' ] ]
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>> > g ( " [a|(b:1.1)] " )
[ [ 1 , ' a ' ] , [ 2 , ' (b:1.1) ' ] , [ 3 , ' a ' ] , [ 4 , ' (b:1.1) ' ] , [ 5 , ' a ' ] , [ 6 , ' (b:1.1) ' ] , [ 7 , ' a ' ] , [ 8 , ' (b:1.1) ' ] , [ 9 , ' a ' ] , [ 10 , ' (b:1.1) ' ] ]
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>> > g ( " [fe|]male " )
[ [ 1 , ' female ' ] , [ 2 , ' male ' ] , [ 3 , ' female ' ] , [ 4 , ' male ' ] , [ 5 , ' female ' ] , [ 6 , ' male ' ] , [ 7 , ' female ' ] , [ 8 , ' male ' ] , [ 9 , ' female ' ] , [ 10 , ' male ' ] ]
>> > g ( " [fe|||]male " )
[ [ 1 , ' female ' ] , [ 2 , ' male ' ] , [ 3 , ' male ' ] , [ 4 , ' male ' ] , [ 5 , ' female ' ] , [ 6 , ' male ' ] , [ 7 , ' male ' ] , [ 8 , ' male ' ] , [ 9 , ' female ' ] , [ 10 , ' male ' ] ]
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>> > g = lambda p : get_learned_conditioning_prompt_schedules ( [ p ] , 10 , 10 ) [ 0 ]
>> > g ( " a [b:.5] c " )
[ [ 10 , ' a b c ' ] ]
>> > g ( " a [b:1.5] c " )
[ [ 5 , ' a c ' ] , [ 10 , ' a b c ' ] ]
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"""
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if hires_steps is None or use_old_scheduling :
int_offset = 0
flt_offset = 0
steps = base_steps
else :
int_offset = base_steps
flt_offset = 1.0
steps = hires_steps
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def collect_steps ( steps , tree ) :
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res = [ steps ]
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class CollectSteps ( lark . Visitor ) :
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def scheduled ( self , tree ) :
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s = tree . children [ - 2 ]
v = float ( s )
if use_old_scheduling :
v = v * steps if v < 1 else v
else :
if " . " in s :
v = ( v - flt_offset ) * steps
else :
v = ( v - int_offset )
tree . children [ - 2 ] = min ( steps , int ( v ) )
if tree . children [ - 2 ] > = 1 :
res . append ( tree . children [ - 2 ] )
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def alternate ( self , tree ) :
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res . extend ( range ( 1 , steps + 1 ) )
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CollectSteps ( ) . visit ( tree )
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return sorted ( set ( res ) )
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def at_step ( step , tree ) :
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class AtStep ( lark . Transformer ) :
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def scheduled ( self , args ) :
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before , after , _ , when , _ = args
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yield before or ( ) if step < = when else after
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def alternate ( self , args ) :
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args = [ " " if not arg else arg for arg in args ]
yield args [ ( step - 1 ) % len ( args ) ]
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def start ( self , args ) :
def flatten ( x ) :
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if isinstance ( x , str ) :
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yield x
else :
for gen in x :
yield from flatten ( gen )
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return ' ' . join ( flatten ( args ) )
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def plain ( self , args ) :
yield args [ 0 ] . value
def __default__ ( self , data , children , meta ) :
for child in children :
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yield child
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return AtStep ( ) . transform ( tree )
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def get_schedule ( prompt ) :
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try :
tree = schedule_parser . parse ( prompt )
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except lark . exceptions . LarkError :
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if 0 :
import traceback
traceback . print_exc ( )
return [ [ steps , prompt ] ]
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return [ [ t , at_step ( t , tree ) ] for t in collect_steps ( steps , tree ) ]
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promptdict = { prompt : get_schedule ( prompt ) for prompt in set ( prompts ) }
return [ promptdict [ prompt ] for prompt in prompts ]
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ScheduledPromptConditioning = namedtuple ( " ScheduledPromptConditioning " , [ " end_at_step " , " cond " ] )
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class SdConditioning ( list ) :
"""
A list with prompts for stable diffusion ' s conditioner model.
Can also specify width and height of created image - SDXL needs it .
"""
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def __init__ ( self , prompts , is_negative_prompt = False , width = None , height = None , copy_from = None ) :
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super ( ) . __init__ ( )
self . extend ( prompts )
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if copy_from is None :
copy_from = prompts
self . is_negative_prompt = is_negative_prompt or getattr ( copy_from , ' is_negative_prompt ' , False )
self . width = width or getattr ( copy_from , ' width ' , None )
self . height = height or getattr ( copy_from , ' height ' , None )
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def get_learned_conditioning ( model , prompts : SdConditioning | list [ str ] , steps , hires_steps = None , use_old_scheduling = False ) :
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""" converts a list of prompts into a list of prompt schedules - each schedule is a list of ScheduledPromptConditioning, specifying the comdition (cond),
and the sampling step at which this condition is to be replaced by the next one .
Input :
( model , [ ' a red crown ' , ' a [blue:green:5] jeweled crown ' ] , 20 )
Output :
[
[
ScheduledPromptConditioning ( end_at_step = 20 , cond = tensor ( [ [ - 0.3886 , 0.0229 , - 0.0523 , . . . , - 0.4901 , - 0.3066 , 0.0674 ] , . . . , [ 0.3317 , - 0.5102 , - 0.4066 , . . . , 0.4119 , - 0.7647 , - 1.0160 ] ] , device = ' cuda:0 ' ) )
] ,
[
ScheduledPromptConditioning ( end_at_step = 5 , cond = tensor ( [ [ - 0.3886 , 0.0229 , - 0.0522 , . . . , - 0.4901 , - 0.3067 , 0.0673 ] , . . . , [ - 0.0192 , 0.3867 , - 0.4644 , . . . , 0.1135 , - 0.3696 , - 0.4625 ] ] , device = ' cuda:0 ' ) ) ,
ScheduledPromptConditioning ( end_at_step = 20 , cond = tensor ( [ [ - 0.3886 , 0.0229 , - 0.0522 , . . . , - 0.4901 , - 0.3067 , 0.0673 ] , . . . , [ - 0.7352 , - 0.4356 , - 0.7888 , . . . , 0.6994 , - 0.4312 , - 1.2593 ] ] , device = ' cuda:0 ' ) )
]
]
"""
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res = [ ]
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prompt_schedules = get_learned_conditioning_prompt_schedules ( prompts , steps , hires_steps , use_old_scheduling )
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cache = { }
for prompt , prompt_schedule in zip ( prompts , prompt_schedules ) :
cached = cache . get ( prompt , None )
if cached is not None :
res . append ( cached )
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continue
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texts = SdConditioning ( [ x [ 1 ] for x in prompt_schedule ] , copy_from = prompts )
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conds = model . get_learned_conditioning ( texts )
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cond_schedule = [ ]
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for i , ( end_at_step , _ ) in enumerate ( prompt_schedule ) :
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if isinstance ( conds , dict ) :
cond = { k : v [ i ] for k , v in conds . items ( ) }
else :
cond = conds [ i ]
cond_schedule . append ( ScheduledPromptConditioning ( end_at_step , cond ) )
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cache [ prompt ] = cond_schedule
res . append ( cond_schedule )
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return res
re_AND = re . compile ( r " \ bAND \ b " )
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re_weight = re . compile ( r " ^((?: \ s|.)*?)(?: \ s*: \ s*([-+]?(?: \ d+ \ .?| \ d* \ . \ d+)))? \ s*$ " )
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def get_multicond_prompt_list ( prompts : SdConditioning | list [ str ] ) :
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res_indexes = [ ]
prompt_indexes = { }
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prompt_flat_list = SdConditioning ( prompts )
prompt_flat_list . clear ( )
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for prompt in prompts :
subprompts = re_AND . split ( prompt )
indexes = [ ]
for subprompt in subprompts :
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match = re_weight . search ( subprompt )
text , weight = match . groups ( ) if match is not None else ( subprompt , 1.0 )
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weight = float ( weight ) if weight is not None else 1.0
index = prompt_indexes . get ( text , None )
if index is None :
index = len ( prompt_flat_list )
prompt_flat_list . append ( text )
prompt_indexes [ text ] = index
indexes . append ( ( index , weight ) )
res_indexes . append ( indexes )
return res_indexes , prompt_flat_list , prompt_indexes
class ComposableScheduledPromptConditioning :
def __init__ ( self , schedules , weight = 1.0 ) :
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self . schedules : List [ ScheduledPromptConditioning ] = schedules
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self . weight : float = weight
class MulticondLearnedConditioning :
def __init__ ( self , shape , batch ) :
self . shape : tuple = shape # the shape field is needed to send this object to DDIM/PLMS
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self . batch : List [ List [ ComposableScheduledPromptConditioning ] ] = batch
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def get_multicond_learned_conditioning ( model , prompts , steps , hires_steps = None , use_old_scheduling = False ) - > MulticondLearnedConditioning :
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""" same as get_learned_conditioning, but returns a list of ScheduledPromptConditioning along with the weight objects for each prompt.
For each prompt , the list is obtained by splitting the prompt using the AND separator .
https : / / energy - based - model . github . io / Compositional - Visual - Generation - with - Composable - Diffusion - Models /
"""
res_indexes , prompt_flat_list , prompt_indexes = get_multicond_prompt_list ( prompts )
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learned_conditioning = get_learned_conditioning ( model , prompt_flat_list , steps , hires_steps , use_old_scheduling )
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res = [ ]
for indexes in res_indexes :
res . append ( [ ComposableScheduledPromptConditioning ( learned_conditioning [ i ] , weight ) for i , weight in indexes ] )
return MulticondLearnedConditioning ( shape = ( len ( prompts ) , ) , batch = res )
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class DictWithShape ( dict ) :
def __init__ ( self , x , shape ) :
super ( ) . __init__ ( )
self . update ( x )
@property
def shape ( self ) :
return self [ " crossattn " ] . shape
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def reconstruct_cond_batch ( c : List [ List [ ScheduledPromptConditioning ] ] , current_step ) :
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param = c [ 0 ] [ 0 ] . cond
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is_dict = isinstance ( param , dict )
if is_dict :
dict_cond = param
res = { k : torch . zeros ( ( len ( c ) , ) + param . shape , device = param . device , dtype = param . dtype ) for k , param in dict_cond . items ( ) }
res = DictWithShape ( res , ( len ( c ) , ) + dict_cond [ ' crossattn ' ] . shape )
else :
res = torch . zeros ( ( len ( c ) , ) + param . shape , device = param . device , dtype = param . dtype )
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for i , cond_schedule in enumerate ( c ) :
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target_index = 0
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for current , entry in enumerate ( cond_schedule ) :
if current_step < = entry . end_at_step :
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target_index = current
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break
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if is_dict :
for k , param in cond_schedule [ target_index ] . cond . items ( ) :
res [ k ] [ i ] = param
else :
res [ i ] = cond_schedule [ target_index ] . cond
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return res
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def stack_conds ( tensors ) :
# if prompts have wildly different lengths above the limit we'll get tensors of different shapes
# and won't be able to torch.stack them. So this fixes that.
token_count = max ( [ x . shape [ 0 ] for x in tensors ] )
for i in range ( len ( tensors ) ) :
if tensors [ i ] . shape [ 0 ] != token_count :
last_vector = tensors [ i ] [ - 1 : ]
last_vector_repeated = last_vector . repeat ( [ token_count - tensors [ i ] . shape [ 0 ] , 1 ] )
tensors [ i ] = torch . vstack ( [ tensors [ i ] , last_vector_repeated ] )
return torch . stack ( tensors )
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def reconstruct_multicond_batch ( c : MulticondLearnedConditioning , current_step ) :
param = c . batch [ 0 ] [ 0 ] . schedules [ 0 ] . cond
tensors = [ ]
conds_list = [ ]
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for composable_prompts in c . batch :
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conds_for_batch = [ ]
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for composable_prompt in composable_prompts :
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target_index = 0
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for current , entry in enumerate ( composable_prompt . schedules ) :
if current_step < = entry . end_at_step :
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target_index = current
break
conds_for_batch . append ( ( len ( tensors ) , composable_prompt . weight ) )
tensors . append ( composable_prompt . schedules [ target_index ] . cond )
conds_list . append ( conds_for_batch )
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if isinstance ( tensors [ 0 ] , dict ) :
keys = list ( tensors [ 0 ] . keys ( ) )
stacked = { k : stack_conds ( [ x [ k ] for x in tensors ] ) for k in keys }
stacked = DictWithShape ( stacked , stacked [ ' crossattn ' ] . shape )
else :
stacked = stack_conds ( tensors ) . to ( device = param . device , dtype = param . dtype )
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return conds_list , stacked
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re_attention = re . compile ( r """
\\\( |
\\\) |
\\\[ |
\\] |
\\\\|
\\|
\( |
\[ |
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: \s * ( [ + - ] ? [ . \d ] + ) \s * \) |
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\) |
] |
[ ^ \\( ) \[ \] : ] + |
:
""" , re.X)
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re_break = re . compile ( r " \ s* \ bBREAK \ b \ s* " , re . S )
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def parse_prompt_attention ( text ) :
"""
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Parses a string with attention tokens and returns a list of pairs : text and its associated weight .
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Accepted tokens are :
( abc ) - increases attention to abc by a multiplier of 1.1
( abc : 3.12 ) - increases attention to abc by a multiplier of 3.12
[ abc ] - decreases attention to abc by a multiplier of 1.1
\( - literal character ' ( '
\[ - literal character ' [ '
\) - literal character ' ) '
\] - literal character ' ] '
\\ - literal character ' \'
anything else - just text
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>> > parse_prompt_attention ( ' normal text ' )
[ [ ' normal text ' , 1.0 ] ]
>> > parse_prompt_attention ( ' an (important) word ' )
[ [ ' an ' , 1.0 ] , [ ' important ' , 1.1 ] , [ ' word ' , 1.0 ] ]
>> > parse_prompt_attention ( ' (unbalanced ' )
[ [ ' unbalanced ' , 1.1 ] ]
>> > parse_prompt_attention ( ' \ (literal \ ] ' )
[ [ ' (literal] ' , 1.0 ] ]
>> > parse_prompt_attention ( ' (unnecessary)(parens) ' )
[ [ ' unnecessaryparens ' , 1.1 ] ]
>> > parse_prompt_attention ( ' a (((house:1.3)) [on] a (hill:0.5), sun, (((sky))). ' )
[ [ ' a ' , 1.0 ] ,
[ ' house ' , 1.5730000000000004 ] ,
[ ' ' , 1.1 ] ,
[ ' on ' , 1.0 ] ,
[ ' a ' , 1.1 ] ,
[ ' hill ' , 0.55 ] ,
[ ' , sun, ' , 1.1 ] ,
[ ' sky ' , 1.4641000000000006 ] ,
[ ' . ' , 1.1 ] ]
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"""
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res = [ ]
round_brackets = [ ]
square_brackets = [ ]
round_bracket_multiplier = 1.1
square_bracket_multiplier = 1 / 1.1
def multiply_range ( start_position , multiplier ) :
for p in range ( start_position , len ( res ) ) :
res [ p ] [ 1 ] * = multiplier
for m in re_attention . finditer ( text ) :
text = m . group ( 0 )
weight = m . group ( 1 )
if text . startswith ( ' \\ ' ) :
res . append ( [ text [ 1 : ] , 1.0 ] )
elif text == ' ( ' :
round_brackets . append ( len ( res ) )
elif text == ' [ ' :
square_brackets . append ( len ( res ) )
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elif weight is not None and round_brackets :
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multiply_range ( round_brackets . pop ( ) , float ( weight ) )
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elif text == ' ) ' and round_brackets :
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multiply_range ( round_brackets . pop ( ) , round_bracket_multiplier )
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elif text == ' ] ' and square_brackets :
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multiply_range ( square_brackets . pop ( ) , square_bracket_multiplier )
else :
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parts = re . split ( re_break , text )
for i , part in enumerate ( parts ) :
if i > 0 :
res . append ( [ " BREAK " , - 1 ] )
res . append ( [ part , 1.0 ] )
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for pos in round_brackets :
multiply_range ( pos , round_bracket_multiplier )
for pos in square_brackets :
multiply_range ( pos , square_bracket_multiplier )
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if len ( res ) == 0 :
res = [ [ " " , 1.0 ] ]
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# merge runs of identical weights
i = 0
while i + 1 < len ( res ) :
if res [ i ] [ 1 ] == res [ i + 1 ] [ 1 ] :
res [ i ] [ 0 ] + = res [ i + 1 ] [ 0 ]
res . pop ( i + 1 )
else :
i + = 1
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return res
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if __name__ == " __main__ " :
import doctest
doctest . testmod ( optionflags = doctest . NORMALIZE_WHITESPACE )
else :
import torch # doctest faster