mirror of
https://github.com/explosion/spaCy.git
synced 2024-12-27 02:16:32 +03:00
8c29268749
* Update errors * Remove beam for now (maybe) Remove beam_utils Update setup.py Remove beam * Remove GoldParse WIP on removing goldparse Get ArcEager compiling after GoldParse excise Update setup.py Get spacy.syntax compiling after removing GoldParse Rename NewExample -> Example and clean up Clean html files Start updating tests Update Morphologizer * fix error numbers * fix merge conflict * informative error when calling to_array with wrong field * fix error catching * fixing language and scoring tests * start testing get_aligned * additional tests for new get_aligned function * Draft create_gold_state for arc_eager oracle * Fix import * Fix import * Remove TokenAnnotation code from nonproj * fixing NER one-to-many alignment * Fix many-to-one IOB codes * fix test for misaligned * attempt to fix cases with weird spaces * fix spaces * test_gold_biluo_different_tokenization works * allow None as BILUO annotation * fixed some tests + WIP roundtrip unit test * add spaces to json output format * minibatch utiltiy can deal with strings, docs or examples * fix augment (needs further testing) * various fixes in scripts - needs to be further tested * fix test_cli * cleanup * correct silly typo * add support for MORPH in to/from_array, fix morphologizer overfitting test * fix tagger * fix entity linker * ensure test keeps working with non-linked entities * pipe() takes docs, not examples * small bug fix * textcat bugfix * throw informative error when running the components with the wrong type of objects * fix parser tests to work with example (most still failing) * fix BiluoPushDown parsing entities * small fixes * bugfix tok2vec * fix renames and simple_ner labels * various small fixes * prevent writing dummy values like deps because that could interfer with sent_start values * fix the fix * implement split_sent with aligned SENT_START attribute * test for split sentences with various alignment issues, works * Return ArcEagerGoldParse from ArcEager * Update parser and NER gold stuff * Draft new GoldCorpus class * add links to to_dict * clean up * fix test checking for variants * Fix oracles * Start updating converters * Move converters under spacy.gold * Move things around * Fix naming * Fix name * Update converter to produce DocBin * Update converters * Allow DocBin to take list of Doc objects. * Make spacy convert output docbin * Fix import * Fix docbin * Fix compile in ArcEager * Fix import * Serialize all attrs by default * Update converter * Remove jsonl converter * Add json2docs converter * Draft Corpus class for DocBin * Work on train script * Update Corpus * Update DocBin * Allocate Doc before starting to add words * Make doc.from_array several times faster * Update train.py * Fix Corpus * Fix parser model * Start debugging arc_eager oracle * Update header * Fix parser declaration * Xfail some tests * Skip tests that cause crashes * Skip test causing segfault * Remove GoldCorpus * Update imports * Update after removing GoldCorpus * Fix module name of corpus * Fix mimport * Work on parser oracle * Update arc_eager oracle * Restore ArcEager.get_cost function * Update transition system * Update test_arc_eager_oracle * Remove beam test * Update test * Unskip * Unskip tests * add links to to_dict * clean up * fix test checking for variants * Allow DocBin to take list of Doc objects. * Fix compile in ArcEager * Serialize all attrs by default Move converters under spacy.gold Move things around Fix naming Fix name Update converter to produce DocBin Update converters Make spacy convert output docbin Fix import Fix docbin Fix import Update converter Remove jsonl converter Add json2docs converter * Allocate Doc before starting to add words * Make doc.from_array several times faster * Start updating converters * Work on train script * Draft Corpus class for DocBin Update Corpus Fix Corpus * Update DocBin Add missing strings when serializing * Update train.py * Fix parser model * Start debugging arc_eager oracle * Update header * Fix parser declaration * Xfail some tests Skip tests that cause crashes Skip test causing segfault * Remove GoldCorpus Update imports Update after removing GoldCorpus Fix module name of corpus Fix mimport * Work on parser oracle Update arc_eager oracle Restore ArcEager.get_cost function Update transition system * Update tests Remove beam test Update test Unskip Unskip tests * Add get_aligned_parse method in Example Fix Example.get_aligned_parse * Add kwargs to Corpus.dev_dataset to match train_dataset * Update nonproj * Use get_aligned_parse in ArcEager * Add another arc-eager oracle test * Remove Example.doc property Remove Example.doc Remove Example.doc Remove Example.doc Remove Example.doc * Update ArcEager oracle Fix Break oracle * Debugging * Fix Corpus * Fix eg.doc * Format * small fixes * limit arg for Corpus * fix test_roundtrip_docs_to_docbin * fix test_make_orth_variants * fix add_label test * Update tests * avoid writing temp dir in json2docs, fixing 4402 test * Update test * Add missing costs to NER oracle * Update test * Work on Example.get_aligned_ner method * Clean up debugging * Xfail tests * Remove prints * Remove print * Xfail some tests * Replace unseen labels for parser * Update test * Update test * Xfail test * Fix Corpus * fix imports * fix docs_to_json * various small fixes * cleanup * Support gold_preproc in Corpus * Support gold_preproc * Pass gold_preproc setting into corpus * Remove debugging * Fix gold_preproc * Fix json2docs converter * Fix convert command * Fix flake8 * Fix import * fix output_dir (converted to Path by typer) * fix var * bugfix: update states after creating golds to avoid out of bounds indexing * Improve efficiency of ArEager oracle * pull merge_sent into iob2docs to avoid Doc creation for each line * fix asserts * bugfix excl Span.end in iob2docs * Support max_length in Corpus * Fix arc_eager oracle * Filter out uannotated sentences in NER * Remove debugging in parser * Simplify NER alignment * Fix conversion of NER data * Fix NER init_gold_batch * Tweak efficiency of precomputable affine * Update onto-json default * Update gold test for NER * Fix parser test * Update test * Add NER data test * Fix convert for single file * Fix test * Hack scorer to avoid evaluating non-nered data * Fix handling of NER data in Example * Output unlabelled spans from O biluo tags in iob_utils * Fix unset variable * Return kept examples from init_gold_batch * Return examples from init_gold_batch * Dont return Example from init_gold_batch * Set spaces on gold doc after conversion * Add test * Fix spaces reading * Improve NER alignment * Improve handling of missing values in NER * Restore the 'cutting' in parser training * Add assertion * Print epochs * Restore random cuts in parser/ner training * Implement Doc.copy * Implement Example.copy * Copy examples at the start of Language.update * Don't unset example docs * Tweak parser model slightly * attempt to fix _guess_spaces * _add_entities_to_doc first, so that links don't get overwritten * fixing get_aligned_ner for one-to-many * fix indexing into x_text * small fix biluo_tags_from_offsets * Add onto-ner config * Simplify NER alignment * Fix NER scoring for partially annotated documents * fix indexing into x_text * fix test_cli failing tests by ignoring spans in doc.ents with empty label * Fix limit * Improve NER alignment * Fix count_train * Remove print statement * fix tests, we're not having nothing but None * fix clumsy fingers * Fix tests * Fix doc.ents * Remove empty docs in Corpus and improve limit * Update config Co-authored-by: svlandeg <sofie.vanlandeghem@gmail.com>
490 lines
18 KiB
Cython
490 lines
18 KiB
Cython
# cython: infer_types=True, cdivision=True, boundscheck=False
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cimport cython.parallel
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cimport numpy as np
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from libc.math cimport exp
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from libcpp.vector cimport vector
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from libc.string cimport memset, memcpy
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from libc.stdlib cimport calloc, free, realloc
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from cymem.cymem cimport Pool
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from thinc.extra.search cimport Beam
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from thinc.backends.linalg cimport Vec, VecVec
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cimport blis.cy
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import numpy
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import numpy.random
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from thinc.api import Linear, Model, CupyOps, NumpyOps, use_ops, noop
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from ..typedefs cimport weight_t, class_t, hash_t
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from ..tokens.doc cimport Doc
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from .stateclass cimport StateClass
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from .transition_system cimport Transition
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from ..compat import copy_array
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from ..errors import Errors, TempErrors
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from ..util import link_vectors_to_models, create_default_optimizer
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from .. import util
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from . import nonproj
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cdef WeightsC get_c_weights(model) except *:
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cdef WeightsC output
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cdef precompute_hiddens state2vec = model.state2vec
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output.feat_weights = state2vec.get_feat_weights()
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output.feat_bias = <const float*>state2vec.bias.data
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cdef np.ndarray vec2scores_W
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cdef np.ndarray vec2scores_b
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if model.vec2scores is None:
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output.hidden_weights = NULL
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output.hidden_bias = NULL
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else:
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vec2scores_W = model.vec2scores.get_param("W")
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vec2scores_b = model.vec2scores.get_param("b")
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output.hidden_weights = <const float*>vec2scores_W.data
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output.hidden_bias = <const float*>vec2scores_b.data
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cdef np.ndarray class_mask = model._class_mask
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output.seen_classes = <const float*>class_mask.data
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return output
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cdef SizesC get_c_sizes(model, int batch_size) except *:
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cdef SizesC output
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output.states = batch_size
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if model.vec2scores is None:
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output.classes = model.state2vec.get_dim("nO")
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else:
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output.classes = model.vec2scores.get_dim("nO")
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output.hiddens = model.state2vec.get_dim("nO")
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output.pieces = model.state2vec.get_dim("nP")
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output.feats = model.state2vec.get_dim("nF")
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output.embed_width = model.tokvecs.shape[1]
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return output
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cdef ActivationsC alloc_activations(SizesC n) nogil:
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cdef ActivationsC A
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memset(&A, 0, sizeof(A))
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resize_activations(&A, n)
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return A
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cdef void free_activations(const ActivationsC* A) nogil:
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free(A.token_ids)
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free(A.scores)
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free(A.unmaxed)
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free(A.hiddens)
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free(A.is_valid)
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cdef void resize_activations(ActivationsC* A, SizesC n) nogil:
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if n.states <= A._max_size:
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A._curr_size = n.states
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return
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if A._max_size == 0:
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A.token_ids = <int*>calloc(n.states * n.feats, sizeof(A.token_ids[0]))
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A.scores = <float*>calloc(n.states * n.classes, sizeof(A.scores[0]))
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A.unmaxed = <float*>calloc(n.states * n.hiddens * n.pieces, sizeof(A.unmaxed[0]))
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A.hiddens = <float*>calloc(n.states * n.hiddens, sizeof(A.hiddens[0]))
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A.is_valid = <int*>calloc(n.states * n.classes, sizeof(A.is_valid[0]))
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A._max_size = n.states
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else:
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A.token_ids = <int*>realloc(A.token_ids,
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n.states * n.feats * sizeof(A.token_ids[0]))
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A.scores = <float*>realloc(A.scores,
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n.states * n.classes * sizeof(A.scores[0]))
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A.unmaxed = <float*>realloc(A.unmaxed,
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n.states * n.hiddens * n.pieces * sizeof(A.unmaxed[0]))
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A.hiddens = <float*>realloc(A.hiddens,
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n.states * n.hiddens * sizeof(A.hiddens[0]))
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A.is_valid = <int*>realloc(A.is_valid,
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n.states * n.classes * sizeof(A.is_valid[0]))
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A._max_size = n.states
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A._curr_size = n.states
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cdef void predict_states(ActivationsC* A, StateC** states,
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const WeightsC* W, SizesC n) nogil:
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cdef double one = 1.0
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resize_activations(A, n)
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for i in range(n.states):
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states[i].set_context_tokens(&A.token_ids[i*n.feats], n.feats)
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memset(A.unmaxed, 0, n.states * n.hiddens * n.pieces * sizeof(float))
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memset(A.hiddens, 0, n.states * n.hiddens * sizeof(float))
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sum_state_features(A.unmaxed,
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W.feat_weights, A.token_ids, n.states, n.feats, n.hiddens * n.pieces)
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for i in range(n.states):
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VecVec.add_i(&A.unmaxed[i*n.hiddens*n.pieces],
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W.feat_bias, 1., n.hiddens * n.pieces)
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for j in range(n.hiddens):
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index = i * n.hiddens * n.pieces + j * n.pieces
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which = Vec.arg_max(&A.unmaxed[index], n.pieces)
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A.hiddens[i*n.hiddens + j] = A.unmaxed[index + which]
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memset(A.scores, 0, n.states * n.classes * sizeof(float))
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if W.hidden_weights == NULL:
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memcpy(A.scores, A.hiddens, n.states * n.classes * sizeof(float))
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else:
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# Compute hidden-to-output
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blis.cy.gemm(blis.cy.NO_TRANSPOSE, blis.cy.TRANSPOSE,
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n.states, n.classes, n.hiddens, one,
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<float*>A.hiddens, n.hiddens, 1,
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<float*>W.hidden_weights, n.hiddens, 1,
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one,
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<float*>A.scores, n.classes, 1)
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# Add bias
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for i in range(n.states):
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VecVec.add_i(&A.scores[i*n.classes],
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W.hidden_bias, 1., n.classes)
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# Set unseen classes to minimum value
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i = 0
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min_ = A.scores[0]
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for i in range(1, n.states * n.classes):
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if A.scores[i] < min_:
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min_ = A.scores[i]
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for i in range(n.states):
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for j in range(n.classes):
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if not W.seen_classes[j]:
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A.scores[i*n.classes+j] = min_
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cdef void sum_state_features(float* output,
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const float* cached, const int* token_ids, int B, int F, int O) nogil:
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cdef int idx, b, f, i
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cdef const float* feature
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padding = cached
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cached += F * O
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cdef int id_stride = F*O
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cdef float one = 1.
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for b in range(B):
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for f in range(F):
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if token_ids[f] < 0:
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feature = &padding[f*O]
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else:
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idx = token_ids[f] * id_stride + f*O
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feature = &cached[idx]
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blis.cy.axpyv(blis.cy.NO_CONJUGATE, O, one,
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<float*>feature, 1,
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&output[b*O], 1)
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token_ids += F
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cdef void cpu_log_loss(float* d_scores,
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const float* costs, const int* is_valid, const float* scores,
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int O) nogil:
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"""Do multi-label log loss"""
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cdef double max_, gmax, Z, gZ
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best = arg_max_if_gold(scores, costs, is_valid, O)
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guess = Vec.arg_max(scores, O)
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if best == -1 or guess == -1:
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# These shouldn't happen, but if they do, we want to make sure we don't
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# cause an OOB access.
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return
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Z = 1e-10
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gZ = 1e-10
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max_ = scores[guess]
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gmax = scores[best]
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for i in range(O):
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Z += exp(scores[i] - max_)
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if costs[i] <= costs[best]:
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gZ += exp(scores[i] - gmax)
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for i in range(O):
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if costs[i] <= costs[best]:
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d_scores[i] = (exp(scores[i]-max_) / Z) - (exp(scores[i]-gmax)/gZ)
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else:
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d_scores[i] = exp(scores[i]-max_) / Z
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cdef int arg_max_if_gold(const weight_t* scores, const weight_t* costs,
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const int* is_valid, int n) nogil:
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# Find minimum cost
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cdef float cost = 1
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for i in range(n):
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if is_valid[i] and costs[i] < cost:
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cost = costs[i]
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# Now find best-scoring with that cost
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cdef int best = -1
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for i in range(n):
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if costs[i] <= cost and is_valid[i]:
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if best == -1 or scores[i] > scores[best]:
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best = i
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return best
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cdef int arg_max_if_valid(const weight_t* scores, const int* is_valid, int n) nogil:
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cdef int best = -1
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for i in range(n):
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if is_valid[i] >= 1:
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if best == -1 or scores[i] > scores[best]:
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best = i
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return best
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class ParserStepModel(Model):
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def __init__(self, docs, layers, *, has_upper, unseen_classes=None, train=True):
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Model.__init__(self, name="parser_step_model", forward=step_forward)
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self.attrs["has_upper"] = has_upper
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self.tokvecs, self.bp_tokvecs = layers[0](docs, is_train=train)
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if layers[1].get_dim("nP") >= 2:
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activation = "maxout"
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elif has_upper:
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activation = None
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else:
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activation = "relu"
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self.state2vec = precompute_hiddens(len(docs), self.tokvecs, layers[1],
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activation=activation, train=train)
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if has_upper:
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self.vec2scores = layers[-1]
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else:
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self.vec2scores = None
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self.cuda_stream = util.get_cuda_stream(non_blocking=True)
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self.backprops = []
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self._class_mask = numpy.zeros((self.nO,), dtype='f')
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self._class_mask.fill(1)
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if unseen_classes is not None:
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for class_ in unseen_classes:
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self._class_mask[class_] = 0.
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@property
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def nO(self):
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if self.attrs["has_upper"]:
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return self.vec2scores.get_dim("nO")
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else:
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return self.state2vec.get_dim("nO")
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def class_is_unseen(self, class_):
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return self._class_mask[class_]
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def mark_class_unseen(self, class_):
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self._class_mask[class_] = 0
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def mark_class_seen(self, class_):
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self._class_mask[class_] = 1
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def get_token_ids(self, states):
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cdef StateClass state
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states = [state for state in states if not state.is_final()]
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cdef np.ndarray ids = numpy.zeros((len(states), self.state2vec.nF),
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dtype='i', order='C')
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ids.fill(-1)
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c_ids = <int*>ids.data
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for state in states:
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state.c.set_context_tokens(c_ids, ids.shape[1])
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c_ids += ids.shape[1]
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return ids
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def finish_steps(self, golds):
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# Add a padding vector to the d_tokvecs gradient, so that missing
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# values don't affect the real gradient.
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d_tokvecs = self.ops.alloc((self.tokvecs.shape[0]+1, self.tokvecs.shape[1]))
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# Tells CUDA to block, so our async copies complete.
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if self.cuda_stream is not None:
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self.cuda_stream.synchronize()
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for ids, d_vector, bp_vector in self.backprops:
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d_state_features = bp_vector((d_vector, ids))
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ids = ids.flatten()
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d_state_features = d_state_features.reshape(
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(ids.size, d_state_features.shape[2]))
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self.ops.scatter_add(d_tokvecs, ids,
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d_state_features)
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# Padded -- see update()
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self.bp_tokvecs(d_tokvecs[:-1])
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return d_tokvecs
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def step_forward(model: ParserStepModel, states, is_train):
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token_ids = model.get_token_ids(states)
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vector, get_d_tokvecs = model.state2vec(token_ids, is_train)
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if model.attrs["has_upper"]:
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scores, get_d_vector = model.vec2scores(vector, is_train)
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else:
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scores = NumpyOps().asarray(vector)
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get_d_vector = lambda d_scores: d_scores
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# If the class is unseen, make sure its score is minimum
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scores[:, model._class_mask == 0] = numpy.nanmin(scores)
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def backprop_parser_step(d_scores):
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# Zero vectors for unseen classes
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d_scores *= model._class_mask
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d_vector = get_d_vector(d_scores)
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if isinstance(model.state2vec.ops, CupyOps) \
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and not isinstance(token_ids, model.state2vec.ops.xp.ndarray):
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# Move token_ids and d_vector to GPU, asynchronously
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model.backprops.append((
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util.get_async(model.cuda_stream, token_ids),
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util.get_async(model.cuda_stream, d_vector),
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get_d_tokvecs
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))
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else:
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model.backprops.append((token_ids, d_vector, get_d_tokvecs))
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return None
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return scores, backprop_parser_step
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cdef class precompute_hiddens:
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"""Allow a model to be "primed" by pre-computing input features in bulk.
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This is used for the parser, where we want to take a batch of documents,
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and compute vectors for each (token, position) pair. These vectors can then
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be reused, especially for beam-search.
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Let's say we're using 12 features for each state, e.g. word at start of
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buffer, three words on stack, their children, etc. In the normal arc-eager
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system, a document of length N is processed in 2*N states. This means we'll
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create 2*N*12 feature vectors --- but if we pre-compute, we only need
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N*12 vector computations. The saving for beam-search is much better:
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if we have a beam of k, we'll normally make 2*N*12*K computations --
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so we can save the factor k. This also gives a nice CPU/GPU division:
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we can do all our hard maths up front, packed into large multiplications,
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and do the hard-to-program parsing on the CPU.
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"""
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cdef readonly int nF, nO, nP
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cdef bint _is_synchronized
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cdef public object ops
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cdef np.ndarray _features
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cdef np.ndarray _cached
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cdef np.ndarray bias
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cdef object _cuda_stream
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cdef object _bp_hiddens
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cdef object activation
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def __init__(self, batch_size, tokvecs, lower_model, cuda_stream=None,
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activation="maxout", train=False):
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gpu_cached, bp_features = lower_model(tokvecs, train)
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cdef np.ndarray cached
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if not isinstance(gpu_cached, numpy.ndarray):
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# Note the passing of cuda_stream here: it lets
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# cupy make the copy asynchronously.
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# We then have to block before first use.
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cached = gpu_cached.get(stream=cuda_stream)
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else:
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cached = gpu_cached
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if not isinstance(lower_model.get_param("b"), numpy.ndarray):
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self.bias = lower_model.get_param("b").get(stream=cuda_stream)
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else:
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self.bias = lower_model.get_param("b")
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self.nF = cached.shape[1]
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if lower_model.has_dim("nP"):
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self.nP = lower_model.get_dim("nP")
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else:
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self.nP = 1
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self.nO = cached.shape[2]
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self.ops = lower_model.ops
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assert activation in (None, "relu", "maxout")
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self.activation = activation
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self._is_synchronized = False
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self._cuda_stream = cuda_stream
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self._cached = cached
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self._bp_hiddens = bp_features
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cdef const float* get_feat_weights(self) except NULL:
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if not self._is_synchronized and self._cuda_stream is not None:
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self._cuda_stream.synchronize()
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self._is_synchronized = True
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return <float*>self._cached.data
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def has_dim(self, name):
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if name == "nF":
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return self.nF if self.nF is not None else True
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elif name == "nP":
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return self.nP if self.nP is not None else True
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elif name == "nO":
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return self.nO if self.nO is not None else True
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else:
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return False
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def get_dim(self, name):
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if name == "nF":
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return self.nF
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elif name == "nP":
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return self.nP
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elif name == "nO":
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return self.nO
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else:
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raise ValueError(f"Dimension {name} invalid -- only nO, nF, nP")
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def set_dim(self, name, value):
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if name == "nF":
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self.nF = value
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elif name == "nP":
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self.nP = value
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elif name == "nO":
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self.nO = value
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else:
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raise ValueError(f"Dimension {name} invalid -- only nO, nF, nP")
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def __call__(self, X, bint is_train):
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if is_train:
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return self.begin_update(X)
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else:
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return self.predict(X), lambda X: X
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def predict(self, X):
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return self.begin_update(X)[0]
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def begin_update(self, token_ids):
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cdef np.ndarray state_vector = numpy.zeros(
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(token_ids.shape[0], self.nO, self.nP), dtype='f')
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# This is tricky, but (assuming GPU available);
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# - Input to forward on CPU
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# - Output from forward on CPU
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# - Input to backward on GPU!
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# - Output from backward on GPU
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bp_hiddens = self._bp_hiddens
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feat_weights = self.get_feat_weights()
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cdef int[:, ::1] ids = token_ids
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sum_state_features(<float*>state_vector.data,
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feat_weights, &ids[0,0],
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token_ids.shape[0], self.nF, self.nO*self.nP)
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state_vector = state_vector + self.bias
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state_vector, bp_nonlinearity = self._nonlinearity(state_vector)
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def backward(d_state_vector_ids):
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d_state_vector, token_ids = d_state_vector_ids
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d_state_vector = bp_nonlinearity(d_state_vector)
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d_tokens = bp_hiddens((d_state_vector, token_ids))
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return d_tokens
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return state_vector, backward
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def _nonlinearity(self, state_vector):
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if isinstance(state_vector, numpy.ndarray):
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ops = NumpyOps()
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else:
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ops = CupyOps()
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if self.activation == "maxout":
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state_vector, mask = ops.maxout(state_vector)
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else:
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state_vector = state_vector.reshape(state_vector.shape[:-1])
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if self.activation == "relu":
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mask = state_vector >= 0.
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state_vector *= mask
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else:
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mask = None
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def backprop_nonlinearity(d_best):
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if isinstance(d_best, numpy.ndarray):
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ops = NumpyOps()
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else:
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ops = CupyOps()
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if mask is not None:
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mask_ = ops.asarray(mask)
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# This will usually be on GPU
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d_best = ops.asarray(d_best)
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# Fix nans (which can occur from unseen classes.)
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try:
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d_best[ops.xp.isnan(d_best)] = 0.
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except:
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print(ops.xp.isnan(d_best))
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raise
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if self.activation == "maxout":
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mask_ = ops.asarray(mask)
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return ops.backprop_maxout(d_best, mask_, self.nP)
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|
elif self.activation == "relu":
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|
mask_ = ops.asarray(mask)
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|
d_best *= mask_
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|
d_best = d_best.reshape((d_best.shape + (1,)))
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|
return d_best
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|
else:
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return d_best.reshape((d_best.shape + (1,)))
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return state_vector, backprop_nonlinearity
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