522 lines
19 KiB
Python
522 lines
19 KiB
Python
from abc import ABC, abstractmethod
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from typing import List, Optional
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class Constraint(ABC):
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r"""Abstract base class for all constraints that can be applied during generation.
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It must define how the constraint can be satisfied.
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All classes that inherit Constraint must follow the requirement that
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```py
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completed = False
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while not completed:
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_, completed = constraint.update(constraint.advance())
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```
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will always terminate (halt).
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"""
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def __init__(self):
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# test for the above condition
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self.test()
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def test(self):
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"""
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Tests whether this constraint has been properly defined.
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"""
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counter = 0
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completed = False
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while not completed:
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if counter == 1:
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self.reset()
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advance = self.advance()
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if not self.does_advance(advance):
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raise Exception(
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"Custom Constraint is not defined correctly. self.does_advance(self.advance()) must be true."
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)
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stepped, completed, reset = self.update(advance)
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counter += 1
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if counter > 10000:
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raise Exception("update() does not fulfill the constraint.")
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if self.remaining() != 0:
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raise Exception("Custom Constraint is not defined correctly.")
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@abstractmethod
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def advance(self):
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"""
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When called, returns the token that would take this constraint one step closer to being fulfilled.
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Return:
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token_ids(`torch.tensor`): Must be a tensor of a list of indexable tokens, not some integer.
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"""
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raise NotImplementedError(
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f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
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)
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@abstractmethod
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def does_advance(self, token_id: int):
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"""
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Reads in a token and returns whether it creates progress.
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"""
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raise NotImplementedError(
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f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
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)
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@abstractmethod
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def update(self, token_id: int):
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"""
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Reads in a token and returns booleans that indicate the progress made by it. This function will update the
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state of this object unlikes `does_advance(self, token_id: int)`.
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This isn't to test whether a certain token will advance the progress; it's to update its state as if it has
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been generated. This becomes important if token_id != desired token (refer to else statement in
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PhrasalConstraint)
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Args:
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token_id(`int`):
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The id of a newly generated token in the beam search.
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Return:
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stepped(`bool`):
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Whether this constraint has become one step closer to being fulfuilled.
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completed(`bool`):
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Whether this constraint has been completely fulfilled by this token being generated.
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reset (`bool`):
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Whether this constraint has reset its progress by this token being generated.
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"""
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raise NotImplementedError(
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f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
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)
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@abstractmethod
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def reset(self):
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"""
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Resets the state of this constraint to its initialization. We would call this in cases where the fulfillment of
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a constraint is abrupted by an unwanted token.
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"""
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raise NotImplementedError(
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f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
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)
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@abstractmethod
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def remaining(self):
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"""
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Returns the number of remaining steps of `advance()` in order to complete this constraint.
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"""
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raise NotImplementedError(
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f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
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)
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@abstractmethod
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def copy(self, stateful=False):
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"""
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Creates a new instance of this constraint.
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Args:
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stateful(`bool`): Whether to not only copy the constraint for new instance, but also its state.
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Return:
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constraint(`Constraint`): The same constraint as the one being called from.
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"""
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raise NotImplementedError(
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f"{self.__class__} is an abstract class. Only classes inheriting this class can be called."
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)
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class PhrasalConstraint(Constraint):
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r"""
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[`Constraint`] enforcing that an ordered sequence of tokens is included in the output.
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Args:
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token_ids (`List[int]`):
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The id of the token that must be generated by the output.
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"""
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def __init__(self, token_ids: List[int]):
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super(Constraint, self).__init__()
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if not isinstance(token_ids, list) or len(token_ids) == 0:
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raise ValueError(f"`token_ids` has to be a non-empty list, but is {token_ids}.")
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if any((not isinstance(token_id, int) or token_id < 0) for token_id in token_ids):
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raise ValueError(f"Each list in `token_ids` has to be a list of positive integers, but is {token_ids}.")
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self.token_ids = token_ids
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self.seqlen = len(self.token_ids)
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self.fulfilled_idx = -1 # the index of the currently fulfilled step
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self.completed = False
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def advance(self):
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if self.completed:
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return None
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return self.token_ids[self.fulfilled_idx + 1]
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def does_advance(self, token_id: int):
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if not isinstance(token_id, int):
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raise ValueError(f"`token_id` has to be an `int`, but is {token_id} of type {type(token_id)}")
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if self.completed:
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return False
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return token_id == self.token_ids[self.fulfilled_idx + 1]
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def update(self, token_id: int):
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if not isinstance(token_id, int):
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raise ValueError(f"`token_id` has to be an `int`, but is {token_id} of type {type(token_id)}")
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stepped = False
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completed = False
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reset = False
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if self.does_advance(token_id):
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self.fulfilled_idx += 1
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stepped = True
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if self.fulfilled_idx == (self.seqlen - 1):
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completed = True
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self.completed = completed
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else:
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# failed to make progress.
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reset = True
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self.reset()
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return stepped, completed, reset
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def reset(self):
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self.completed = False
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self.fulfilled_idx = 0
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def remaining(self):
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return self.seqlen - (self.fulfilled_idx + 1)
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def copy(self, stateful=False):
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new_constraint = PhrasalConstraint(self.token_ids)
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if stateful:
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new_constraint.seq_len = self.seqlen
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new_constraint.fulfilled_idx = self.fulfilled_idx
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new_constraint.completed = self.completed
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return new_constraint
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class DisjunctiveTrie:
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def __init__(self, nested_token_ids: List[List[int]], no_subsets=True):
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r"""
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A helper class that builds a trie with the words represented in `nested_token_ids`.
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"""
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self.max_height = max([len(one) for one in nested_token_ids])
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root = {}
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for token_ids in nested_token_ids:
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level = root
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for tidx, token_id in enumerate(token_ids):
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if token_id not in level:
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level[token_id] = {}
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level = level[token_id]
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if no_subsets and self.has_subsets(root, nested_token_ids):
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raise ValueError(
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"Each list in `nested_token_ids` can't be a complete subset of another list, but is"
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f" {nested_token_ids}."
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)
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self.trie = root
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def next_tokens(self, current_seq):
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"""
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The next possible tokens that will progress the trie, given the current sequence of tokens in `current_seq`.
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"""
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start = self.trie
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for current_token in current_seq:
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start = start[current_token]
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next_tokens = list(start.keys())
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return next_tokens
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def reached_leaf(self, current_seq):
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next_tokens = self.next_tokens(current_seq)
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return len(next_tokens) == 0
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def count_leaves(self, root):
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next_nodes = list(root.values())
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if len(next_nodes) == 0:
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return 1
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else:
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return sum([self.count_leaves(nn) for nn in next_nodes])
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def has_subsets(self, trie, nested_token_ids):
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"""
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Returns whether # of leaves == # of words. Otherwise some word is a subset of another.
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"""
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leaf_count = self.count_leaves(trie)
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return len(nested_token_ids) != leaf_count
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class DisjunctiveConstraint(Constraint):
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r"""
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A special [`Constraint`] that is fulfilled by fulfilling just one of several constraints.
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Args:
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nested_token_ids (`List[List[int]]`):
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A list of words, where each word is a list of ids. This constraint is fulfilled by generating just one from
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the list of words.
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"""
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def __init__(self, nested_token_ids: List[List[int]]):
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super(Constraint, self).__init__()
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if not isinstance(nested_token_ids, list) or len(nested_token_ids) == 0:
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raise ValueError(f"`nested_token_ids` has to be a non-empty list, but is {nested_token_ids}.")
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if any(not isinstance(token_ids, list) for token_ids in nested_token_ids):
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raise ValueError(f"`nested_token_ids` has to be a list of lists, but is {nested_token_ids}.")
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if any(
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any((not isinstance(token_id, int) or token_id < 0) for token_id in token_ids)
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for token_ids in nested_token_ids
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):
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raise ValueError(
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f"Each list in `nested_token_ids` has to be a list of positive integers, but is {nested_token_ids}."
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)
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self.trie = DisjunctiveTrie(nested_token_ids)
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self.token_ids = nested_token_ids
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self.seqlen = self.trie.max_height
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self.current_seq = []
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self.completed = False
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def advance(self):
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token_list = self.trie.next_tokens(self.current_seq)
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if len(token_list) == 0:
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return None
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else:
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return token_list
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def does_advance(self, token_id: int):
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if not isinstance(token_id, int):
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raise ValueError(f"`token_id` is supposed to be type `int`, but is {token_id} of type {type(token_id)}")
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next_tokens = self.trie.next_tokens(self.current_seq)
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return token_id in next_tokens
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def update(self, token_id: int):
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if not isinstance(token_id, int):
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raise ValueError(f"`token_id` is supposed to be type `int`, but is {token_id} of type {type(token_id)}")
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stepped = False
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completed = False
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reset = False
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if self.does_advance(token_id):
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self.current_seq.append(token_id)
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stepped = True
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else:
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reset = True
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self.reset()
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completed = self.trie.reached_leaf(self.current_seq)
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self.completed = completed
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return stepped, completed, reset
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def reset(self):
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self.completed = False
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self.current_seq = []
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def remaining(self):
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if self.completed:
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# since this can be completed without reaching max height
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return 0
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else:
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return self.seqlen - len(self.current_seq)
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def copy(self, stateful=False):
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new_constraint = DisjunctiveConstraint(self.token_ids)
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if stateful:
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new_constraint.seq_len = self.seqlen
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new_constraint.current_seq = self.current_seq
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new_constraint.completed = self.completed
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return new_constraint
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class ConstraintListState:
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r"""
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A class for beam scorers to track its progress through a list of constraints.
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Args:
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constraints (`List[Constraint]`):
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A list of [`Constraint`] objects that must be fulfilled by the beam scorer.
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"""
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def __init__(self, constraints: List[Constraint]):
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self.constraints = constraints
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# max # of steps required to fulfill a given constraint
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self.max_seqlen = max([c.seqlen for c in constraints])
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self.n_constraints = len(constraints)
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self.completed = False
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self.init_state()
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def init_state(self):
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self.complete_constraints = []
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self.inprogress_constraint = None
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self.pending_constraints = [constraint.copy(stateful=False) for constraint in self.constraints]
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def get_bank(self):
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add = 0
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if self.inprogress_constraint:
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# extra points for having a constraint mid-fulfilled
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add += self.max_seqlen - self.inprogress_constraint.remaining()
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return (len(self.complete_constraints) * self.max_seqlen) + add
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def advance(self):
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"""The list of tokens to generate such that we can make progress.
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By "list" we don't mean the list of token that will fully fulfill a constraint.
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Given constraints `c_i = {t_ij | j == # of tokens}`, If we're not in the middle of progressing through a
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specific constraint `c_i`, we return:
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`[t_k1 for k in indices of unfulfilled constraints]`
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If we are in the middle of a constraint, then we return:
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`[t_ij]`, where `i` is the index of the inprogress constraint, `j` is the next step for the constraint.
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Though we don't care which constraint is fulfilled first, if we are in the progress of fulfilling a constraint,
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that's the only one we'll return.
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"""
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token_list = []
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if self.inprogress_constraint is None:
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for constraint in self.pending_constraints: # "pending" == "unfulfilled yet"
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advance = constraint.advance()
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if isinstance(advance, int):
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token_list.append(advance)
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elif isinstance(advance, list):
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token_list.extend(advance)
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else:
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advance = self.inprogress_constraint.advance()
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if isinstance(advance, int):
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token_list.append(advance)
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elif isinstance(advance, list):
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token_list.extend(advance)
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if len(token_list) == 0:
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return None
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else:
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return token_list
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def reset(self, token_ids: Optional[List[int]]):
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"""
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token_ids: the tokens generated thus far to reset the state of the progress through constraints.
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"""
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self.init_state()
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if token_ids is not None:
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for token in token_ids:
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# completes or steps **one** constraint
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complete, stepped = self.add(token)
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# the entire list of constraints are fulfilled
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if self.completed:
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break
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def add(self, token_id: int):
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if not isinstance(token_id, int):
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raise ValueError(f"`token_id` should be an `int`, but is `{token_id}`.")
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complete, stepped = False, False
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if self.completed:
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complete = True
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stepped = False
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return complete, stepped
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if self.inprogress_constraint is not None:
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# In the middle of fulfilling a constraint. If the `token_id` *does* makes an incremental progress to current
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# job, simply update the state
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stepped, complete, reset = self.inprogress_constraint.update(token_id)
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if reset:
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# 1. If the next token breaks the progress, then we must restart.
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# e.g. constraint = "I love pies" and sequence so far is "I love" but `token_id` == "books".
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# But that doesn't mean we self.init_state(), since we only reset the state for this particular
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# constraint, not the full list of constraints.
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self.pending_constraints.append(self.inprogress_constraint.copy(stateful=False))
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self.inprogress_constraint = None
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if complete:
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# 2. If the next token completes the constraint, move it to completed list, set
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# inprogress to None. If there are no pending constraints either, then this full list of constraints
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# is complete.
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self.complete_constraints.append(self.inprogress_constraint)
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self.inprogress_constraint = None
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if len(self.pending_constraints) == 0:
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# we're done!
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self.completed = True
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else:
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# Not in the middle of fulfilling a constraint. So does this `token_id` helps us step towards any of our list
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# of constraints?
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for cidx, pending_constraint in enumerate(self.pending_constraints):
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if pending_constraint.does_advance(token_id):
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stepped, complete, reset = pending_constraint.update(token_id)
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if not stepped:
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raise Exception(
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"`constraint.update(token_id)` is not yielding incremental progress, "
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"even though `constraint.does_advance(token_id)` is true."
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)
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if complete:
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self.complete_constraints.append(pending_constraint)
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self.inprogress_constraint = None
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if not complete and stepped:
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self.inprogress_constraint = pending_constraint
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if complete or stepped:
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# If we made any progress at all, then it's at least not a "pending constraint".
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self.pending_constraints = (
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self.pending_constraints[:cidx] + self.pending_constraints[cidx + 1 :]
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)
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if len(self.pending_constraints) == 0 and self.inprogress_constraint is None:
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# If there's no longer any pending after this and no inprogress either, then we must be
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# complete.
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self.completed = True
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break # prevent accidentally stepping through multiple constraints with just one token.
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return complete, stepped
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def copy(self, stateful=True):
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new_state = ConstraintListState(self.constraints) # we actually never though self.constraints objects
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# throughout this process. So it's at initialization state.
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if stateful:
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new_state.complete_constraints = [
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constraint.copy(stateful=True) for constraint in self.complete_constraints
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]
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if self.inprogress_constraint is not None:
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new_state.inprogress_constraint = self.inprogress_constraint.copy(stateful=True)
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new_state.pending_constraints = [constraint.copy() for constraint in self.pending_constraints]
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return new_state
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