most_similar() return the k most similar vectors (#4364)

* most_similar return n-most similar vectors * updated most_similar comment * add bintay contributor agreement * sign bintay contributor agreement * fix most_similar documentation typo * fixed error in prune_vectors * updated prune_vectors test
2025-01-12 10:16:27 +03:00 · 2019-10-03 07:09:44 -05:00 · 2019-10-03 07:09:44 -05:00 · 1db79a33cb
commit 1db79a33cb
parent 4159936720
4 changed files with 129 additions and 14 deletions
--- a/.github/contributors/bintay.md
+++ b/.github/contributors/bintay.md
@ -0,0 +1,106 @@
 # spaCy contributor agreement
 This spaCy Contributor Agreement (**"SCA"**) is based on the
 [Oracle Contributor Agreement](http://www.oracle.com/technetwork/oca-405177.pdf).
 The SCA applies to any contribution that you make to any product or project
 managed by us (the **"project"**), and sets out the intellectual property rights
 you grant to us in the contributed materials. The term **"us"** shall mean
 [ExplosionAI GmbH](https://explosion.ai/legal). The term
 **"you"** shall mean the person or entity identified below.
 If you agree to be bound by these terms, fill in the information requested
 below and include the filled-in version with your first pull request, under the
 folder [`.github/contributors/`](/.github/contributors/). The name of the file
 should be your GitHub username, with the extension `.md`. For example, the user
 example_user would create the file `.github/contributors/example_user.md`.
 Read this agreement carefully before signing. These terms and conditions
 constitute a binding legal agreement.
 ## Contributor Agreement
 1. The term "contribution" or "contributed materials" means any source code,
 object code, patch, tool, sample, graphic, specification, manual,
 documentation, or any other material posted or submitted by you to the project.
 2. With respect to any worldwide copyrights, or copyright applications and
 registrations, in your contribution:
    * you hereby assign to us joint ownership, and to the extent that such
    assignment is or becomes invalid, ineffective or unenforceable, you hereby
    grant to us a perpetual, irrevocable, non-exclusive, worldwide, no-charge,
    royalty-free, unrestricted license to exercise all rights under those
    copyrights. This includes, at our option, the right to sublicense these same
    rights to third parties through multiple levels of sublicensees or other
    licensing arrangements;
    * you agree that each of us can do all things in relation to your
    contribution as if each of us were the sole owners, and if one of us makes
    a derivative work of your contribution, the one who makes the derivative
    work (or has it made will be the sole owner of that derivative work;
    * you agree that you will not assert any moral rights in your contribution
    against us, our licensees or transferees;
    * you agree that we may register a copyright in your contribution and
    exercise all ownership rights associated with it; and
    * you agree that neither of us has any duty to consult with, obtain the
    consent of, pay or render an accounting to the other for any use or
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 3. With respect to any patents you own, or that you can license without payment
 to any third party, you hereby grant to us a perpetual, irrevocable,
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    * make, have made, use, sell, offer to sell, import, and otherwise transfer
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    * at our option, to sublicense these same rights to third parties through
    multiple levels of sublicensees or other licensing arrangements.
 4. Except as set out above, you keep all right, title, and interest in your
 contribution. The rights that you grant to us under these terms are effective
 on the date you first submitted a contribution to us, even if your submission
 took place before the date you sign these terms.
 5. You covenant, represent, warrant and agree that:
    * Each contribution that you submit is and shall be an original work of
    authorship and you can legally grant the rights set out in this SCA;
    * to the best of your knowledge, each contribution will not violate any
    third party's copyrights, trademarks, patents, or other intellectual
    property rights; and
    * each contribution shall be in compliance with U.S. export control laws and
    other applicable export and import laws. You agree to notify us if you
    become aware of any circumstance which would make any of the foregoing
    representations inaccurate in any respect. We may publicly disclose your
    participation in the project, including the fact that you have signed the SCA.
 6. This SCA is governed by the laws of the State of California and applicable
 U.S. Federal law. Any choice of law rules will not apply.
 7. Please place an “x” on one of the applicable statement below. Please do NOT
 mark both statements:
    * [x] I am signing on behalf of myself as an individual and no other person
    or entity, including my employer, has or will have rights with respect to my
    contributions.
    * [ ] I am signing on behalf of my employer or a legal entity and I have the
    actual authority to contractually bind that entity.
 ## Contributor Details
 | Field                          | Entry                |
 |------------------------------- | -------------------- |
 | Name                           | Ben Taylor           |
 | Company name (if applicable)   |                      |
 | Title or role (if applicable)  |                      |
 | Date                           | October 2, 2019      |
 | GitHub username                | bintay               |
 | Website (optional)             | bentaylor.xyz        |
--- a/spacy/tests/vocab_vectors/test_vectors.py
+++ b/spacy/tests/vocab_vectors/test_vectors.py
@ -277,9 +277,9 @@ def test_vocab_prune_vectors():
    _ = vocab["dog"]  # noqa: F841
    _ = vocab["kitten"]  # noqa: F841
    data = numpy.ndarray((5, 3), dtype="f")
-    data[0] = 1.0
+    data[0] = [1.0, 1.2, 1.1]
-    data[1] = 2.0
+    data[1] = [0.3, 1.3, 1.0]
-    data[2] = 1.1
+    data[2] = [0.9, 1.22, 1.05]
    vocab.set_vector("cat", data[0])
    vocab.set_vector("dog", data[1])
    vocab.set_vector("kitten", data[2])
--- a/spacy/vectors.pyx
+++ b/spacy/vectors.pyx
@ -303,8 +303,8 @@ cdef class Vectors:
                self._unset.erase(self._unset.find(row))
        return row
-    def most_similar(self, queries, *, batch_size=1024):
+    def most_similar(self, queries, *, batch_size=1024, n=1, sort=True):
-        """For each of the given vectors, find the single entry most similar
+        """For each of the given vectors, find the n most similar entries
        to it, by cosine.
        Queries are by vector. Results are returned as a `(keys, best_rows,
@ -314,15 +314,17 @@ cdef class Vectors:
        queries (ndarray): An array with one or more vectors.
        batch_size (int): The batch size to use.
-        RETURNS (tuple): The most similar entry as a `(keys, best_rows, scores)`
+        n (int): The number of entries to return for each query.
        sort (bool): Whether to sort the n entries returned by score.
        RETURNS (tuple): The most similar entries as a `(keys, best_rows, scores)`
            tuple.
        """
        xp = get_array_module(self.data)
        vectors = self.data / xp.linalg.norm(self.data, axis=1, keepdims=True)
-        best_rows = xp.zeros((queries.shape[0],), dtype='i')
+        best_rows = xp.zeros((queries.shape[0], n), dtype='i')
-        scores = xp.zeros((queries.shape[0],), dtype='f')
+        scores = xp.zeros((queries.shape[0], n), dtype='f')
        # Work in batches, to avoid memory problems.
        for i in range(0, queries.shape[0], batch_size):
            batch = queries[i : i+batch_size]
@ -331,12 +333,19 @@ cdef class Vectors:
            # vectors e.g. (10000, 300)
            # sims    e.g. (1024, 10000)
            sims = xp.dot(batch, vectors.T)
-            best_rows[i:i+batch_size] = sims.argmax(axis=1)
+            best_rows[i:i+batch_size] = xp.argpartition(sims, -n, axis=1)[:,-n:]
-            scores[i:i+batch_size] = sims.max(axis=1)
+            scores[i:i+batch_size] = xp.partition(sims, -n, axis=1)[:,-n:]
            if sort:
                sorted_index = xp.arange(scores.shape[0])[:,None],xp.argsort(scores, axis=1)[:,::-1]
                scores[i:i+batch_size] = scores[sorted_index]
                best_rows[i:i+batch_size] = best_rows[sorted_index]
        xp = get_array_module(self.data)
        row2key = {row: key for key, row in self.key2row.items()}
        keys = xp.asarray(
-            [row2key[row] for row in best_rows if row in row2key], dtype="uint64")
+            [[row2key[row] for row in best_rows[i] if row in row2key] 
                    for i in range(len(queries)) ], dtype="uint64")
        return (keys, best_rows, scores)
    def from_glove(self, path):
--- a/spacy/vocab.pyx
+++ b/spacy/vocab.pyx
@ -324,10 +324,10 @@ cdef class Vocab:
        syn_keys, syn_rows, scores = self.vectors.most_similar(toss, batch_size=batch_size)
        remap = {}
        for i, key in enumerate(keys[nr_row:]):
-            self.vectors.add(key, row=syn_rows[i])
+            self.vectors.add(key, row=syn_rows[i][0])
            word = self.strings[key]
-            synonym = self.strings[syn_keys[i]]
+            synonym = self.strings[syn_keys[i][0]]
-            score = scores[i]
+            score = scores[i][0]
            remap[word] = (synonym, score)
        link_vectors_to_models(self)
        return remap