X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/b453b0ea95e7b1244912b7bc9fc26f58acb8ec80..d2853de47cac812193083f9b144a0bc818205dd6:/nominatim/tokenizer/token_analysis/generic.py diff --git a/nominatim/tokenizer/token_analysis/generic.py b/nominatim/tokenizer/token_analysis/generic.py index 1e7b75a1..1ed9bf4d 100644 --- a/nominatim/tokenizer/token_analysis/generic.py +++ b/nominatim/tokenizer/token_analysis/generic.py @@ -7,35 +7,53 @@ """ Generic processor for names that creates abbreviation variants. """ +from typing import Mapping, Dict, Any, Iterable, Iterator, Optional, List, cast import itertools import datrie from nominatim.errors import UsageError +from nominatim.data.place_name import PlaceName from nominatim.tokenizer.token_analysis.config_variants import get_variant_config from nominatim.tokenizer.token_analysis.generic_mutation import MutationVariantGenerator ### Configuration section -def configure(rules, normalization_rules): +def configure(rules: Mapping[str, Any], normalizer: Any, _: Any) -> Dict[str, Any]: """ Extract and preprocess the configuration for this module. """ - config = {} + config: Dict[str, Any] = {} config['replacements'], config['chars'] = get_variant_config(rules.get('variants'), - normalization_rules) + normalizer) config['variant_only'] = rules.get('mode', '') == 'variant-only' - config['mutations'] = rules.get('mutations', []) + + # parse mutation rules + config['mutations'] = [] + for rule in rules.get('mutations', []): + if 'pattern' not in rule: + raise UsageError("Missing field 'pattern' in mutation configuration.") + if not isinstance(rule['pattern'], str): + raise UsageError("Field 'pattern' in mutation configuration " + "must be a simple text field.") + if 'replacements' not in rule: + raise UsageError("Missing field 'replacements' in mutation configuration.") + if not isinstance(rule['replacements'], list): + raise UsageError("Field 'replacements' in mutation configuration " + "must be a list of texts.") + + config['mutations'].append((rule['pattern'], rule['replacements'])) return config ### Analysis section -def create(transliterator, config): +def create(normalizer: Any, transliterator: Any, + config: Mapping[str, Any]) -> 'GenericTokenAnalysis': """ Create a new token analysis instance for this module. """ - return GenericTokenAnalysis(transliterator, config) + return GenericTokenAnalysis(normalizer, transliterator, config) class GenericTokenAnalysis: @@ -43,7 +61,8 @@ class GenericTokenAnalysis: and provides the functions to apply the transformations. """ - def __init__(self, to_ascii, config): + def __init__(self, norm: Any, to_ascii: Any, config: Mapping[str, Any]) -> None: + self.norm = norm self.to_ascii = to_ascii self.variant_only = config['variant_only'] @@ -56,24 +75,17 @@ class GenericTokenAnalysis: self.replacements = None # set up mutation rules - self.mutations = [] - for cfg in config['mutations']: - if 'pattern' not in cfg: - raise UsageError("Missing field 'pattern' in mutation configuration.") - if not isinstance(cfg['pattern'], str): - raise UsageError("Field 'pattern' in mutation configuration " - "must be a simple text field.") - if 'replacements' not in cfg: - raise UsageError("Missing field 'replacements' in mutation configuration.") - if not isinstance(cfg['replacements'], list): - raise UsageError("Field 'replacements' in mutation configuration " - "must be a list of texts.") - - self.mutations.append(MutationVariantGenerator(cfg['pattern'], - cfg['replacements'])) - - - def get_variants_ascii(self, norm_name): + self.mutations = [MutationVariantGenerator(*cfg) for cfg in config['mutations']] + + + def get_canonical_id(self, name: PlaceName) -> str: + """ Return the normalized form of the name. This is the standard form + from which possible variants for the name can be derived. + """ + return cast(str, self.norm.transliterate(name.name)).strip() + + + def compute_variants(self, norm_name: str) -> List[str]: """ Compute the spelling variants for the given normalized name and transliterate the result. """ @@ -85,7 +97,8 @@ class GenericTokenAnalysis: return [name for name in self._transliterate_unique_list(norm_name, variants) if name] - def _transliterate_unique_list(self, norm_name, iterable): + def _transliterate_unique_list(self, norm_name: str, + iterable: Iterable[str]) -> Iterator[Optional[str]]: seen = set() if self.variant_only: seen.add(norm_name) @@ -96,7 +109,7 @@ class GenericTokenAnalysis: yield self.to_ascii.transliterate(variant).strip() - def _generate_word_variants(self, norm_name): + def _generate_word_variants(self, norm_name: str) -> Iterable[str]: baseform = '^ ' + norm_name + ' ^' baselen = len(baseform) partials = ['']