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import json |
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from abc import ABC, abstractmethod |
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from dataclasses import field |
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from typing import Any, Dict, List, Optional, Union |
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from .artifact import Artifact |
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from .collections import ListCollection |
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from .dataclass import NonPositionalField |
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from .instructions import Instruction, TextualInstruction |
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from .operator import StreamInstanceOperator |
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from .random_utils import get_random |
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from .text_utils import split_words |
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from .type_utils import isoftype |
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class Renderer(ABC): |
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@abstractmethod |
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def get_postprocessors(self) -> List[str]: |
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pass |
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class Template(Artifact): |
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is_multi_target: bool = NonPositionalField(default=False) |
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is_multi_reference: bool = NonPositionalField(default=False) |
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@abstractmethod |
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def process_inputs(self, inputs: Dict[str, object]) -> Dict[str, object]: |
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pass |
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@abstractmethod |
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def process_outputs(self, outputs: Dict[str, object]) -> Dict[str, object]: |
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pass |
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@abstractmethod |
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def get_postprocessors(self) -> List[str]: |
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pass |
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class RenderFormatTemplate(Renderer, StreamInstanceOperator): |
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template: Template = None |
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random_reference: bool = False |
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def verify(self): |
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assert isinstance( |
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self.template, Template |
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), "Template must be an instance of Template" |
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assert self.template is not None, "Template must be specified" |
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def process( |
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self, instance: Dict[str, Any], stream_name: Optional[str] = None |
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) -> Dict[str, Any]: |
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return self.render(instance) |
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def render(self, instance: Dict[str, Any]) -> Dict[str, Any]: |
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inputs = instance.pop("inputs") |
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outputs = instance.pop("outputs") |
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source = self.template.process_inputs(inputs) |
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targets = self.template.process_outputs(outputs) |
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if self.template.is_multi_reference: |
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references = targets |
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if self.random_reference: |
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target = get_random().choice(references) |
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else: |
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if len(references) == 0: |
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raise ValueError("No references found") |
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target = references[0] |
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else: |
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references = [targets] |
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target = targets |
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return { |
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**instance, |
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"source": source, |
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"target": target, |
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"references": references, |
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} |
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def get_postprocessors(self) -> List[str]: |
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return self.template.get_postprocessors() |
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class RenderAutoFormatTemplate(RenderFormatTemplate): |
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def prepare(self): |
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if self.template is None: |
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self.template = AutoInputOutputTemplate() |
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def render(self, instance: Dict[str, object]) -> Dict[str, object]: |
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try: |
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if not self.template.is_complete(): |
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self.template.infer_missing(instance["inputs"], instance["outputs"]) |
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except: |
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pass |
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inputs = dict(instance["inputs"].items()) |
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return super().render({**instance, "inputs": inputs}) |
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class CharacterSizeLimiter(Artifact): |
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limit: int = 1000 |
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def check(self, text: str) -> bool: |
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return len(text) <= self.limit |
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class RenderTemplatedICL(RenderAutoFormatTemplate): |
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instruction: Instruction = None |
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input_prefix: str = "" |
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output_prefix: str = "" |
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target_prefix: str = " " |
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instruction_prefix: str = "" |
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demos_field: str = None |
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size_limiter: Artifact = None |
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input_output_separator: str = "\n" |
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demo_separator: str = "\n\n" |
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system_prompt: str = None |
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def render(self, instance: Dict[str, object]) -> Dict[str, object]: |
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demos = instance.pop(self.demos_field, []) |
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source = "" |
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example = super().render(instance) |
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input_str = ( |
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self.input_prefix |
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+ example["source"] |
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+ self.input_output_separator |
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+ self.output_prefix |
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) |
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if self.instruction is not None: |
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source += self.instruction_prefix + self.instruction() + self.demo_separator |
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for demo_instance in demos: |
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demo_example = super().render(demo_instance) |
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demo_str = ( |
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self.input_prefix |
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+ demo_example["source"] |
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+ self.input_output_separator |
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+ self.output_prefix |
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+ self.target_prefix |
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+ demo_example["target"] |
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+ self.demo_separator |
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) |
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if self.size_limiter is not None: |
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if not self.size_limiter.check( |
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source + demo_str + input_str + example["target"] |
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): |
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continue |
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source += demo_str |
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source += input_str |
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if self.system_prompt is not None: |
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source = self.system_prompt.format(source) |
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return { |
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**example, |
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"source": source, |
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} |
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class InputOutputTemplate(Template): |
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input_format: str = None |
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output_format: str = None |
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postprocessors: List[str] = field( |
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default_factory=lambda: ["processors.to_string_stripped"] |
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) |
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def process_template(self, template: str, data: Dict[str, object]) -> str: |
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data = {k: ", ".join(v) if isinstance(v, list) else v for k, v in data.items()} |
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return template.format(**data) |
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def process_inputs(self, inputs: Dict[str, object]) -> str: |
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try: |
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return self.process_template(self.input_format, inputs) |
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except KeyError as e: |
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raise KeyError( |
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f"Available inputs are {list(inputs.keys())} but input format requires a different ones: '{self.input_format}'" |
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) from e |
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def process_outputs(self, outputs: Dict[str, object]) -> str: |
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try: |
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return self.process_template(self.output_format, outputs) |
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except KeyError as e: |
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raise KeyError( |
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f"Available outputs are {outputs.keys()} but output format requires a different one: {self.output_format}" |
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) from e |
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def get_postprocessors(self) -> List[str]: |
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return self.postprocessors |
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class YesNoTemplate(Template): |
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"""A template for generating binary Yes/No questions asking whether an input text is of a specific class. |
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input_format: |
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Defines the format of the question. |
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class_field: |
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Defines the field that contains the name of the class that this template |
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asks of. |
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label_field: |
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Defines the field which contains the true label of the input text. If a gold label is equal to the |
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value in class_name, then the correct output is self.yes_answer (by default, "Yes"). |
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Otherwise the correct output is self.no_answer (by default, "No"). |
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yes_answer: |
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The output value for when the gold label equals self.class_name. |
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Defaults to "Yes". |
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no_answer: |
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The output value for when the gold label differs from self.class_name. |
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Defaults to "No". |
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""" |
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input_format: str = None |
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class_field: str = None |
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label_field: str = None |
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yes_answer: str = "Yes" |
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no_answer: str = "No" |
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postprocessors: List[str] = field( |
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default_factory=lambda: ["processors.to_string_stripped"] |
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) |
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def process_inputs(self, inputs: Dict[str, object]) -> str: |
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try: |
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data = { |
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k: ", ".join(v) if isinstance(v, list) else v for k, v in inputs.items() |
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} |
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return self.input_format.format(**data) |
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except KeyError as e: |
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raise RuntimeError( |
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f"Available inputs are {list(inputs.keys())} but input format requires a different one: {self.input_format}" |
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) from e |
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def process_outputs(self, outputs: Dict[str, object]) -> str: |
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try: |
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gold_class_names = outputs[self.label_field] |
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except KeyError as e: |
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raise RuntimeError( |
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f"Available outputs are {list(outputs.keys())}, missing required label field: '{self.label_field}'." |
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) from e |
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if not isinstance(gold_class_names, list) or not gold_class_names: |
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raise RuntimeError( |
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f"Unexpected value for gold_class_names: '{gold_class_names}'. Expected a non-empty list." |
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) |
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try: |
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queried_class_names = outputs[self.class_field] |
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except KeyError as e: |
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raise RuntimeError( |
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f"Available outputs are {list(outputs.keys())}, missing required class field: '{self.class_field}'." |
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) from e |
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if ( |
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not queried_class_names |
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or not isinstance(queried_class_names, list) |
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or not len(queried_class_names) == 1 |
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): |
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raise RuntimeError( |
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f"Unexpected value for queried_class_names: '{queried_class_names}'. Expected a list with one item." |
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) |
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queried_class_name = queried_class_names[0] |
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if queried_class_name in gold_class_names: |
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return self.yes_answer |
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return self.no_answer |
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def get_postprocessors(self) -> List[str]: |
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return self.postprocessors |
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class KeyValTemplate(Template): |
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pairs_seperator: str = ", " |
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key_val_seperator: str = ": " |
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use_keys_for_inputs: bool = True |
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outputs_key_val_seperator: str = ": " |
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use_keys_for_outputs: bool = False |
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postprocessors: List[str] = field( |
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default_factory=lambda: ["processors.to_string_stripped"] |
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) |
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def process_dict( |
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self, dic: Dict[str, object], key_val_sep, pairs_sep, use_keys |
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) -> str: |
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dic = { |
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k: ", ".join([str(vi) for vi in v]) if isinstance(v, list) else v |
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for k, v in dic.items() |
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} |
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pairs = [] |
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for key, val in dic.items(): |
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key_val = [key, val] if use_keys else [val] |
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pairs.append(key_val_sep.join(key_val)) |
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return pairs_sep.join(pairs) |
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def process_inputs(self, inputs: Dict[str, object]) -> str: |
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return self.process_dict( |
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inputs, |
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key_val_sep=self.key_val_seperator, |
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pairs_sep=self.pairs_seperator, |
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use_keys=self.use_keys_for_inputs, |
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) |
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def process_outputs(self, outputs: Dict[str, object]) -> str: |
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return self.process_dict( |
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outputs, |
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key_val_sep=self.key_val_seperator, |
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pairs_sep=self.pairs_seperator, |
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use_keys=self.use_keys_for_outputs, |
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) |
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def get_postprocessors(self) -> List[str]: |
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return self.postprocessors |
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class OutputQuantizingTemplate(InputOutputTemplate): |
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quantum: float = 0.1 |
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def process_outputs(self, outputs: Dict[str, object]) -> str: |
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quantized_outputs = { |
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key: round(input_float / self.quantum) * self.quantum |
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for key, input_float in outputs.items() |
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} |
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return super().process_outputs(quantized_outputs) |
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class MultiLabelTemplate(InputOutputTemplate): |
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labels_field: str = "labels" |
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labels_seprator: str = ", " |
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postprocessors = ["processors.to_list_by_comma"] |
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output_format = "{labels}" |
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empty_label = "None" |
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def process_outputs(self, outputs: Dict[str, object]) -> str: |
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labels = outputs[self.labels_field] |
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if len(labels) == 0: |
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labels = [self.empty_label] |
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labels_str = self.labels_seprator.join(labels) |
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return super().process_outputs({self.labels_field: labels_str}) |
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class MultiReferenceTemplate(InputOutputTemplate): |
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references_field: str = "references" |
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is_multi_reference = True |
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def process_outputs(self, outputs: Dict[str, object]) -> List[str]: |
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references = outputs[self.references_field] |
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if not isoftype(references, List[str]): |
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raise ValueError( |
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f"MultiReferenceTemplate requires that references field {self.references_field} is of type List[str]." |
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) |
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return references |
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def escape_chars(s, chars_to_escape): |
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for char in chars_to_escape: |
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s = s.replace(char, f"\\{char}") |
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return s |
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class SpanLabelingBaseTemplate(MultiLabelTemplate): |
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spans_starts_field: str = "spans_starts" |
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spans_ends_field: str = "spans_ends" |
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text_field: str = "text" |
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labels_support: list = None |
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def extract_span_label_pairs(self, outputs): |
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spans_starts = outputs[self.spans_starts_field] |
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spans_ends = outputs[self.spans_ends_field] |
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text = outputs[self.text_field] |
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labels = outputs[self.labels_field] |
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spans = [] |
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for span_start, span_end, label in zip(spans_starts, spans_ends, labels): |
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if self.labels_support is None or label in self.labels_support: |
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spans.append((span_start, span_end, text[span_start:span_end], label)) |
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for span in sorted(spans): |
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if self.labels_support is None or span[3] in self.labels_support: |
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yield span[2], span[3] |
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def process_outputs(self, outputs: Dict[str, object]) -> Dict[str, object]: |
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span_lables_pairs = self.extract_span_label_pairs(outputs) |
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targets = self.span_label_pairs_to_targets(span_lables_pairs) |
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return super().process_outputs({"labels": targets}) |
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@abstractmethod |
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def span_label_pairs_to_targets(self, pairs): |
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pass |
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class SpanLabelingTemplate(SpanLabelingBaseTemplate): |
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span_label_format: str = "{span}: {label}" |
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escape_characters: List[str] = [":", ","] |
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postprocessors = ["processors.to_span_label_pairs"] |
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def span_label_pairs_to_targets(self, span_label_pairs): |
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targets = [] |
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for span, label in span_label_pairs: |
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if self.escape_characters is not None: |
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span = escape_chars(span, self.escape_characters) |
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target = self.span_label_format.format(span=span, label=label) |
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targets.append(target) |
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return targets |
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class SpanLabelingJsonTemplate(SpanLabelingBaseTemplate): |
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postprocessors = [ |
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"processors.load_json", |
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"processors.dict_of_lists_to_value_key_pairs", |
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] |
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def span_label_pairs_to_targets(self, span_label_pairs): |
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groups = {} |
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for span, label in span_label_pairs: |
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if label not in groups: |
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groups[label] = [] |
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groups[label].append(span) |
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if len(groups) > 0: |
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targets = [json.dumps(groups)] |
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else: |
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targets = [] |
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return targets |
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class AutoInputOutputTemplate(InputOutputTemplate): |
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def infer_input_format(self, inputs): |
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input_format = "" |
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for key in inputs.keys(): |
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name = " ".join( |
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word.lower().capitalize() for word in split_words(key) if word != " " |
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) |
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input_format += name + ": " + "{" + key + "}" + "\n" |
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self.input_format = input_format |
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def infer_output_format(self, outputs): |
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self.output_format = "{" + next(iter(outputs.keys())) + "}" |
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def infer_missing(self, inputs, outputs): |
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if self.input_format is None: |
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self.infer_input_format(inputs) |
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if self.output_format is None: |
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self.infer_output_format(outputs) |
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def is_complete(self): |
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return self.input_format is not None and self.output_format is not None |
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class TemplatesList(ListCollection): |
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def verify(self): |
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for template in self.items: |
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assert isinstance(template, Template) |
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def outputs_inputs2templates( |
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inputs: Union[str, List], outputs: Union[str, List] |
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) -> TemplatesList: |
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"""Combines input and output formats into their dot product. |
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:param inputs: list of input formats (or one) |
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:param outputs: list of output formats (or one) |
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:return: TemplatesList of InputOutputTemplate. |
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""" |
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templates = [] |
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if isinstance(inputs, str): |
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inputs = [inputs] |
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if isinstance(outputs, str): |
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outputs = [outputs] |
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for input in inputs: |
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for output in outputs: |
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templates.append( |
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InputOutputTemplate( |
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input_format=input.strip(), |
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output_format=output.strip(), |
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), |
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) |
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return TemplatesList(templates) |
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def instructions2templates( |
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instructions: List[TextualInstruction], templates: List[InputOutputTemplate] |
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) -> TemplatesList: |
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"""Insert instructions into per demonstration templates. |
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:param instructions: |
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:param templates: strings containing {instuction} where the instruction should be placed |
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:return: |
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""" |
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res_templates = [] |
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for instruction in instructions: |
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for template in templates: |
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res_templates.append( |
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InputOutputTemplate( |
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input_format=template.input_format.replace( |
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"{instruction}", instruction.text |
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), |
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output_format=template.output_format, |
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) |
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) |
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return TemplatesList(templates) |
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|
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class TemplatesDict(Dict): |
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def verify(self): |
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for _key, template in self.items(): |
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assert isinstance(template, Template) |
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|
