spaCy/spacy/training/initialize.py

from typing import Union, Dict, Optional, Any, List
from thinc.api import Config, fix_random_seed, set_gpu_allocator
from thinc.api import ConfigValidationError
from pathlib import Path
from wasabi import Printer
import srsly

from .loop import create_before_to_disk_callback
from ..language import Language
from ..lookups import Lookups
from ..errors import Errors
from ..schemas import ConfigSchemaTraining, ConfigSchemaInit, ConfigSchemaPretrain
from ..util import registry, load_model_from_config, resolve_dot_names
from ..util import load_model, ensure_path, OOV_RANK, DEFAULT_OOV_PROB


def init_nlp(config: Config, *, use_gpu: int = -1, silent: bool = True) -> Language:
    msg = Printer(no_print=silent)
    raw_config = config
    config = raw_config.interpolate()
    if config["training"]["seed"] is not None:
        fix_random_seed(config["training"]["seed"])
    allocator = config["training"]["gpu_allocator"]
    if use_gpu >= 0 and allocator:
        set_gpu_allocator(allocator)
    # Use original config here before it's resolved to functions
    sourced_components = get_sourced_components(config)
    nlp = load_model_from_config(raw_config, auto_fill=True)
    msg.good("Set up nlp object from config")
    config = nlp.config.interpolate()
    # Resolve all training-relevant sections using the filled nlp config
    T = registry.resolve(config["training"], schema=ConfigSchemaTraining)
    dot_names = [T["train_corpus"], T["dev_corpus"]]
    train_corpus, dev_corpus = resolve_dot_names(config, dot_names)
    I = registry.resolve(config["initialize"], schema=ConfigSchemaInit)
    V = I["vocab"]
    init_vocab(
        nlp, data=V["data"], lookups=V["lookups"], vectors=V["vectors"], silent=silent
    )
    optimizer = T["optimizer"]
    before_to_disk = create_before_to_disk_callback(T["before_to_disk"])
    # Components that shouldn't be updated during training
    frozen_components = T["frozen_components"]
    # Sourced components that require resume_training
    resume_components = [p for p in sourced_components if p not in frozen_components]
    msg.info(f"Pipeline: {nlp.pipe_names}")
    if resume_components:
        with nlp.select_pipes(enable=resume_components):
            msg.info(f"Resuming training for: {resume_components}")
            nlp.resume_training(sgd=optimizer)
    with nlp.select_pipes(disable=[*frozen_components, *resume_components]):
        nlp.initialize(lambda: train_corpus(nlp), sgd=optimizer)
        msg.good(f"Initialized pipeline components")
    # Verify the config after calling 'initialize' to ensure labels
    # are properly initialized
    verify_config(nlp)
    if "pretraining" in config and config["pretraining"]:
        P = registry.resolve(config["pretraining"], schema=ConfigSchemaPretrain)
        loaded = add_tok2vec_weights(nlp, P, V)
        if loaded and P["component"]:
            msg.good(f"Loaded pretrained weights into component '{P['component']}'")
    nlp = before_to_disk(nlp)
    return nlp


def must_reinitialize(train_config: Config, init_config: Config) -> bool:
    # TODO: do this better and more fine-grained
    return train_config.interpolate().to_str() == init_config.interpolate().to_str()


def init_vocab(
    nlp: Language,
    *,
    data: Optional[Path] = None,
    lookups: Optional[Lookups] = None,
    vectors: Optional[str] = None,
    silent: bool = True,
) -> Language:
    msg = Printer(no_print=silent)
    if lookups:
        nlp.vocab.lookups = lookups
        msg.good(f"Added vocab lookups: {', '.join(lookups.tables)}")
    data_path = ensure_path(data)
    if data_path is not None:
        lex_attrs = srsly.read_jsonl(data_path)
        for lexeme in nlp.vocab:
            lexeme.rank = OOV_RANK
        for attrs in lex_attrs:
            if "settings" in attrs:
                continue
            lexeme = nlp.vocab[attrs["orth"]]
            lexeme.set_attrs(**attrs)
        if len(nlp.vocab):
            oov_prob = min(lex.prob for lex in nlp.vocab) - 1
        else:
            oov_prob = DEFAULT_OOV_PROB
        nlp.vocab.cfg.update({"oov_prob": oov_prob})
        msg.good(f"Added {len(nlp.vocab)} lexical entries to the vocab")
    msg.good("Created vocabulary")
    if vectors is not None:
        load_vectors_into_model(nlp, vectors)
        msg.good(f"Added vectors: {vectors}")


def load_vectors_into_model(
    nlp: "Language", name: Union[str, Path], *, add_strings: bool = True
) -> None:
    """Load word vectors from an installed model or path into a model instance."""
    try:
        vectors_nlp = load_model(name)
    except ConfigValidationError as e:
        title = f"Config validation error for vectors {name}"
        desc = (
            "This typically means that there's a problem in the config.cfg included "
            "with the packaged vectors. Make sure that the vectors package you're "
            "loading is compatible with the current version of spaCy."
        )
        err = ConfigValidationError.from_error(config=None, title=title, desc=desc)
        raise err from None
    nlp.vocab.vectors = vectors_nlp.vocab.vectors
    if add_strings:
        # I guess we should add the strings from the vectors_nlp model?
        # E.g. if someone does a similarity query, they might expect the strings.
        for key in nlp.vocab.vectors.key2row:
            if key in vectors_nlp.vocab.strings:
                nlp.vocab.strings.add(vectors_nlp.vocab.strings[key])


def add_tok2vec_weights(
    nlp: Language, pretrain_config: Dict[str, Any], vocab_config: Dict[str, Any]
) -> bool:
    # Load pretrained tok2vec weights - cf. CLI command 'pretrain'
    P = pretrain_config
    V = vocab_config
    weights_data = None
    init_tok2vec = ensure_path(V["init_tok2vec"])
    if init_tok2vec is not None:
        if P["objective"].get("type") == "vectors" and not V["vectors"]:
            err = 'need initialize.vocab.vectors if pretraining.objective.type is "vectors"'
            errors = [{"loc": ["initialize", "vocab"], "msg": err}]
            raise ConfigValidationError(config=nlp.config, errors=errors)
        if not init_tok2vec.exists():
            err = f"can't find pretrained tok2vec: {init_tok2vec}"
            errors = [{"loc": ["initialize", "vocab", "init_tok2vec"], "msg": err}]
            raise ConfigValidationError(config=nlp.config, errors=errors)
        with init_tok2vec.open("rb") as file_:
            weights_data = file_.read()
    if weights_data is not None:
        tok2vec_component = P["component"]
        if tok2vec_component is None:
            desc = (
                f"To use pretrained tok2vec weights, [pretraining.component] "
                f"needs to specify the component that should load them."
            )
            err = "component can't be null"
            errors = [{"loc": ["pretraining", "component"], "msg": err}]
            raise ConfigValidationError(
                config=nlp.config["pretraining"], errors=errors, desc=desc
            )
        layer = nlp.get_pipe(tok2vec_component).model
        if P["layer"]:
            layer = layer.get_ref(P["layer"])
        layer.from_bytes(weights_data)
        return True
    return False


def verify_config(nlp: Language) -> None:
    """Perform additional checks based on the config, loaded nlp object and training data."""
    # TODO: maybe we should validate based on the actual components, the list
    # in config["nlp"]["pipeline"] instead?
    for pipe_config in nlp.config["components"].values():
        # We can't assume that the component name == the factory
        factory = pipe_config["factory"]
        if factory == "textcat":
            verify_textcat_config(nlp, pipe_config)


def verify_textcat_config(nlp: Language, pipe_config: Dict[str, Any]) -> None:
    # if 'positive_label' is provided: double check whether it's in the data and
    # the task is binary
    if pipe_config.get("positive_label"):
        textcat_labels = nlp.get_pipe("textcat").labels
        pos_label = pipe_config.get("positive_label")
        if pos_label not in textcat_labels:
            raise ValueError(
                Errors.E920.format(pos_label=pos_label, labels=textcat_labels)
            )
        if len(list(textcat_labels)) != 2:
            raise ValueError(
                Errors.E919.format(pos_label=pos_label, labels=textcat_labels)
            )


def get_sourced_components(config: Union[Dict[str, Any], Config]) -> List[str]:
    """RETURNS (List[str]): All sourced components in the original config,
        e.g. {"source": "en_core_web_sm"}. If the config contains a key
        "factory", we assume it refers to a component factory.
    """
    return [
        name
        for name, cfg in config.get("components", {}).items()
        if "factory" not in cfg and "source" in cfg
    ]
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`from typing import Union, Dict, Optional, Any, List`
Refactor CLI 2020-09-28 16:09:59 +03:00			`from thinc.api import Config, fix_random_seed, set_gpu_allocator`
			`from thinc.api import ConfigValidationError`
			`from pathlib import Path`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`from wasabi import Printer`
Refactor CLI 2020-09-28 16:09:59 +03:00			`import srsly`

			`from .loop import create_before_to_disk_callback`
			`from ..language import Language`
			`from ..lookups import Lookups`
			`from ..errors import Errors`
			`from ..schemas import ConfigSchemaTraining, ConfigSchemaInit, ConfigSchemaPretrain`
			`from ..util import registry, load_model_from_config, resolve_dot_names`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`from ..util import load_model, ensure_path, OOV_RANK, DEFAULT_OOV_PROB`
Refactor CLI 2020-09-28 16:09:59 +03:00

Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`def init_nlp(config: Config, *, use_gpu: int = -1, silent: bool = True) -> Language:`
			`msg = Printer(no_print=silent)`
Refactor CLI 2020-09-28 16:09:59 +03:00			`raw_config = config`
			`config = raw_config.interpolate()`
			`if config["training"]["seed"] is not None:`
			`fix_random_seed(config["training"]["seed"])`
			`allocator = config["training"]["gpu_allocator"]`
			`if use_gpu >= 0 and allocator:`
			`set_gpu_allocator(allocator)`
			`# Use original config here before it's resolved to functions`
			`sourced_components = get_sourced_components(config)`
			`nlp = load_model_from_config(raw_config, auto_fill=True)`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.good("Set up nlp object from config")`
Refactor CLI 2020-09-28 16:09:59 +03:00			`config = nlp.config.interpolate()`
			`# Resolve all training-relevant sections using the filled nlp config`
			`T = registry.resolve(config["training"], schema=ConfigSchemaTraining)`
			`dot_names = [T["train_corpus"], T["dev_corpus"]]`
			`train_corpus, dev_corpus = resolve_dot_names(config, dot_names)`
			`I = registry.resolve(config["initialize"], schema=ConfigSchemaInit)`
			`V = I["vocab"]`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`init_vocab(`
			`nlp, data=V["data"], lookups=V["lookups"], vectors=V["vectors"], silent=silent`
			`)`
Refactor CLI 2020-09-28 16:09:59 +03:00			`optimizer = T["optimizer"]`
			`before_to_disk = create_before_to_disk_callback(T["before_to_disk"])`
			`# Components that shouldn't be updated during training`
			`frozen_components = T["frozen_components"]`
			`# Sourced components that require resume_training`
			`resume_components = [p for p in sourced_components if p not in frozen_components]`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.info(f"Pipeline: {nlp.pipe_names}")`
Refactor CLI 2020-09-28 16:09:59 +03:00			`if resume_components:`
			`with nlp.select_pipes(enable=resume_components):`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.info(f"Resuming training for: {resume_components}")`
Refactor CLI 2020-09-28 16:09:59 +03:00			`nlp.resume_training(sgd=optimizer)`
			`with nlp.select_pipes(disable=[frozen_components, resume_components]):`
begin_training -> initialize 2020-09-28 22:35:09 +03:00			`nlp.initialize(lambda: train_corpus(nlp), sgd=optimizer)`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.good(f"Initialized pipeline components")`
begin_training -> initialize 2020-09-28 22:35:09 +03:00			`# Verify the config after calling 'initialize' to ensure labels`
Refactor CLI 2020-09-28 16:09:59 +03:00			`# are properly initialized`
			`verify_config(nlp)`
			`if "pretraining" in config and config["pretraining"]:`
			`P = registry.resolve(config["pretraining"], schema=ConfigSchemaPretrain)`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`loaded = add_tok2vec_weights(nlp, P, V)`
Refactor CLI 2020-09-28 16:09:59 +03:00			`if loaded and P["component"]:`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.good(f"Loaded pretrained weights into component '{P['component']}'")`
Refactor CLI 2020-09-28 16:09:59 +03:00			`nlp = before_to_disk(nlp)`
			`return nlp`


			`def must_reinitialize(train_config: Config, init_config: Config) -> bool:`
			`# TODO: do this better and more fine-grained`
			`return train_config.interpolate().to_str() == init_config.interpolate().to_str()`


			`def init_vocab(`
			`nlp: Language,`
			`*,`
			`data: Optional[Path] = None,`
			`lookups: Optional[Lookups] = None,`
			`vectors: Optional[str] = None,`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`silent: bool = True,`
Refactor CLI 2020-09-28 16:09:59 +03:00			`) -> Language:`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg = Printer(no_print=silent)`
Refactor CLI 2020-09-28 16:09:59 +03:00			`if lookups:`
			`nlp.vocab.lookups = lookups`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.good(f"Added vocab lookups: {', '.join(lookups.tables)}")`
Refactor CLI 2020-09-28 16:09:59 +03:00			`data_path = ensure_path(data)`
			`if data_path is not None:`
			`lex_attrs = srsly.read_jsonl(data_path)`
			`for lexeme in nlp.vocab:`
			`lexeme.rank = OOV_RANK`
			`for attrs in lex_attrs:`
			`if "settings" in attrs:`
			`continue`
			`lexeme = nlp.vocab[attrs["orth"]]`
			`lexeme.set_attrs(**attrs)`
			`if len(nlp.vocab):`
			`oov_prob = min(lex.prob for lex in nlp.vocab) - 1`
			`else:`
			`oov_prob = DEFAULT_OOV_PROB`
			`nlp.vocab.cfg.update({"oov_prob": oov_prob})`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.good(f"Added {len(nlp.vocab)} lexical entries to the vocab")`
			`msg.good("Created vocabulary")`
Refactor CLI 2020-09-28 16:09:59 +03:00			`if vectors is not None:`
			`load_vectors_into_model(nlp, vectors)`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`msg.good(f"Added vectors: {vectors}")`
Refactor CLI 2020-09-28 16:09:59 +03:00

			`def load_vectors_into_model(`
			`nlp: "Language", name: Union[str, Path], *, add_strings: bool = True`
			`) -> None:`
			`"""Load word vectors from an installed model or path into a model instance."""`
			`try:`
			`vectors_nlp = load_model(name)`
			`except ConfigValidationError as e:`
			`title = f"Config validation error for vectors {name}"`
			`desc = (`
			`"This typically means that there's a problem in the config.cfg included "`
			`"with the packaged vectors. Make sure that the vectors package you're "`
			`"loading is compatible with the current version of spaCy."`
			`)`
			`err = ConfigValidationError.from_error(config=None, title=title, desc=desc)`
			`raise err from None`
			`nlp.vocab.vectors = vectors_nlp.vocab.vectors`
			`if add_strings:`
			`# I guess we should add the strings from the vectors_nlp model?`
			`# E.g. if someone does a similarity query, they might expect the strings.`
			`for key in nlp.vocab.vectors.key2row:`
			`if key in vectors_nlp.vocab.strings:`
			`nlp.vocab.strings.add(vectors_nlp.vocab.strings[key])`


			`def add_tok2vec_weights(`
			`nlp: Language, pretrain_config: Dict[str, Any], vocab_config: Dict[str, Any]`
			`) -> bool:`
			`# Load pretrained tok2vec weights - cf. CLI command 'pretrain'`
			`P = pretrain_config`
			`V = vocab_config`
			`weights_data = None`
			`init_tok2vec = ensure_path(V["init_tok2vec"])`
			`if init_tok2vec is not None:`
			`if P["objective"].get("type") == "vectors" and not V["vectors"]:`
Fix typos and refactor CLI logging 2020-09-28 22:17:10 +03:00			`err = 'need initialize.vocab.vectors if pretraining.objective.type is "vectors"'`
			`errors = [{"loc": ["initialize", "vocab"], "msg": err}]`
Refactor CLI 2020-09-28 16:09:59 +03:00			`raise ConfigValidationError(config=nlp.config, errors=errors)`
			`if not init_tok2vec.exists():`
			`err = f"can't find pretrained tok2vec: {init_tok2vec}"`
Fix error 2020-09-28 22:17:45 +03:00			`errors = [{"loc": ["initialize", "vocab", "init_tok2vec"], "msg": err}]`
Refactor CLI 2020-09-28 16:09:59 +03:00			`raise ConfigValidationError(config=nlp.config, errors=errors)`
			`with init_tok2vec.open("rb") as file_:`
			`weights_data = file_.read()`
			`if weights_data is not None:`
			`tok2vec_component = P["component"]`
			`if tok2vec_component is None:`
			`desc = (`
			`f"To use pretrained tok2vec weights, [pretraining.component] "`
			`f"needs to specify the component that should load them."`
			`)`
			`err = "component can't be null"`
			`errors = [{"loc": ["pretraining", "component"], "msg": err}]`
			`raise ConfigValidationError(`
			`config=nlp.config["pretraining"], errors=errors, desc=desc`
			`)`
			`layer = nlp.get_pipe(tok2vec_component).model`
			`if P["layer"]:`
			`layer = layer.get_ref(P["layer"])`
			`layer.from_bytes(weights_data)`
			`return True`
			`return False`


			`def verify_config(nlp: Language) -> None:`
			`"""Perform additional checks based on the config, loaded nlp object and training data."""`
			`# TODO: maybe we should validate based on the actual components, the list`
			`# in config["nlp"]["pipeline"] instead?`
			`for pipe_config in nlp.config["components"].values():`
			`# We can't assume that the component name == the factory`
			`factory = pipe_config["factory"]`
			`if factory == "textcat":`
			`verify_textcat_config(nlp, pipe_config)`


			`def verify_textcat_config(nlp: Language, pipe_config: Dict[str, Any]) -> None:`
			`# if 'positive_label' is provided: double check whether it's in the data and`
			`# the task is binary`
			`if pipe_config.get("positive_label"):`
			`textcat_labels = nlp.get_pipe("textcat").labels`
			`pos_label = pipe_config.get("positive_label")`
			`if pos_label not in textcat_labels:`
			`raise ValueError(`
			`Errors.E920.format(pos_label=pos_label, labels=textcat_labels)`
			`)`
			`if len(list(textcat_labels)) != 2:`
			`raise ValueError(`
			`Errors.E919.format(pos_label=pos_label, labels=textcat_labels)`
			`)`


			`def get_sourced_components(config: Union[Dict[str, Any], Config]) -> List[str]:`
			`"""RETURNS (List[str]): All sourced components in the original config,`
			`e.g. {"source": "en_core_web_sm"}. If the config contains a key`
			`"factory", we assume it refers to a component factory.`
			`"""`
			`return [`
			`name`
			`for name, cfg in config.get("components", {}).items()`
			`if "factory" not in cfg and "source" in cfg`
			`]`