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Implement C/C++ PairwiseANN w/ Python API
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Wei-Cheng Chang committed Dec 1, 2023
1 parent bde8676 commit bdab871
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2 changes: 1 addition & 1 deletion pecos/ann/hnsw/model.py
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Expand Up @@ -93,7 +93,7 @@ def __init__(self, model_ptr, num_item, feat_dim, fn_dict, pred_params=None):
self.pred_params = self.PredParams.from_dict(pred_params)

def __del__(self):
if self.model_ptr and type(self.model_ptr) == c_void_p:
if self.model_ptr and isinstance(self.model_ptr, c_void_p):
self.fn_dict["destruct"](self.model_ptr)

@property
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11 changes: 11 additions & 0 deletions pecos/ann/pairwise/__init__.py
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# Copyright 2023 Amazon.com, Inc. or its affiliates. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance
# with the License. A copy of the License is located at
#
# http://aws.amazon.com/apache2.0/
#
# or in the "license" file accompanying this file. This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES
# OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions
# and limitations under the License.
from .model import PairwiseANN # noqa
294 changes: 294 additions & 0 deletions pecos/ann/pairwise/model.py
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# Copyright 2023 Amazon.com, Inc. or its affiliates. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance
# with the License. A copy of the License is located at
#
# http://aws.amazon.com/apache2.0/
#
# or in the "license" file accompanying this file. This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES
# OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions
# and limitations under the License.
from ctypes import (
POINTER,
c_bool,
c_float,
c_uint32,
c_char_p,
c_void_p,
)
import os
import copy
import json
import dataclasses as dc
import numpy as np
import scipy.sparse as smat

import pecos
from pecos.core import ScipyCsrF32, ScipyDrmF32
from pecos.core import clib as pecos_clib


class PairwiseANN(pecos.BaseClass):
@dc.dataclass
class TrainParams(pecos.BaseParams):
"""Training Parameters of PairwiseANN class
Attributes:
metric_type (str): distance metric type, can only be "ip" for inner product for now
"""

metric_type: str = "ip"

@dc.dataclass
class PredParams(pecos.BaseParams):
"""Prediction Parameters of PairwiseANN class
Attributes:
topk (int): maximum number of candidates (sorted by distances, nearest first) return by the searcher per query
"""

topk: int = 10

class Searchers(object):
def __init__(self, model, max_batch_size=256, max_only_topk=10, num_searcher=1):
self.searchers_ptr = model.fn_dict["searchers_create"](
model.model_ptr,
num_searcher,
)
self.destruct_fn = model.fn_dict["searchers_destruct"]

# searchers also hold the memory of returned np.ndarray
self.max_batch_size = max_batch_size
self.max_only_topk = max_only_topk
max_nnz = max_batch_size * max_only_topk
self.Imat = np.zeros(max_nnz, dtype=np.uint32)
self.Mmat = np.zeros(max_nnz, dtype=np.uint32)
self.Dmat = np.zeros(max_nnz, dtype=np.float32)
self.Vmat = np.zeros(max_nnz, dtype=np.float32)

def __del__(self):
if self.searchers_ptr is not None:
self.destruct_fn(self.searchers_ptr)

def ctypes(self):
return self.searchers_ptr

def reset(self, reset_nnz):
self.Imat[:reset_nnz].fill(0)
self.Mmat[:reset_nnz].fill(0)
self.Dmat[:reset_nnz].fill(0.0)
self.Vmat[:reset_nnz].fill(0.0)

def __init__(
self, model_ptr, num_input_keys, num_label_keys, feat_dim, fn_dict, pred_params=None
):
"""constructor of PairwiseANN class
Args:
model_ptr (c_void_p): pointer to C instance pecos::ann:PairwiseANN.
num_item (int): number of item being indexed
feat_dim (int): feature dimension of each item
fn_dict (dict): dictionary that stores the C/C++ functions to call
pred_params (PairwiseANN.PredParams, optional): prediction parameters
"""
self.model_ptr = model_ptr
self.num_input_keys = num_input_keys
self.num_label_keys = num_label_keys
self.feat_dim = feat_dim
self.fn_dict = fn_dict
self.pred_params = self.PredParams.from_dict(pred_params)

def __del__(self):
if self.model_ptr and isinstance(self.model_ptr, c_void_p):
self.fn_dict["destruct"](self.model_ptr)

@property
def data_type(self):
return self.fn_dict["data_type"]

@property
def metric_type(self):
return self.fn_dict["metric_type"]

@staticmethod
def create_pymat(X):
"""create PyMat wrapper given the input X matrix
Args:
X (nd.array, scipy.sparse.csr_matrix): database matrix to be indexed. (num_item x feat_dim).
Returns:
pX (ScipyDrmF32/ScipyCsrF32): python wrapper class for np.array/csr_matrix
data_type (str): data type of X, either drm or csr
"""
pX = None
data_type = None
if isinstance(X, (np.ndarray, ScipyDrmF32)):
pX = ScipyDrmF32.init_from(X)
data_type = "drm"
elif isinstance(X, (smat.csr_matrix, ScipyCsrF32)):
pX = ScipyCsrF32.init_from(X)
data_type = "csr"
else:
raise ValueError("type(X)={} is NOT supported!".format(type(X)))
return pX, data_type

@classmethod
def train(cls, X, Y, train_params=None, pred_params=None):
"""train and return the PairwiseANN indexer
Args:
X (numpy.array or smat.csr_matrix): database matrix to be indexed. (num_item x feat_dim).
train_params (Pairwise.TrainParams, optional): instance of PairwiseANN.TrainParams
pred_params (Pairwise.PredParams, optional): instance of PairwiseANN.PredParams
Returns:
PairwiseANN (pecos.ann.pairwise.PairwiseANN): the trained PairwiseANN model
"""
train_params = cls.TrainParams.from_dict(train_params)
pred_params = cls.PredParams.from_dict(pred_params)

if isinstance(Y, smat.csr_matrix):
pY = ScipyCsrF32.init_from(Y)
else:
raise ValueError("type(Y) != smat.csr_matix..")
pX, data_type = cls.create_pymat(X)
fn_dict = pecos_clib.pairwise_ann_init(data_type, train_params.metric_type)
model_ptr = fn_dict["train"](pX, pY)
return cls(model_ptr, pY.rows, pY.cols, pX.cols, fn_dict, pred_params)

@classmethod
def load(cls, model_folder, lazy_load=False):
"""Load PairwiseANN model from file
Args:
model_folder (str): model directory from which the model is loaded.
lazy_load (bool): whether to lazy_load memory-mapped files (default False).
Returns:
PairwiseANN (pecos.ann.pairwise.PairwiseANN): the loaded PairwiseANN model
"""
with open("{}/param.json".format(model_folder), "r") as fin:
param = json.loads(fin.read())
if param["model"] != cls.__name__:
raise ValueError(f"param[model] != cls.__name__")

if not ("data_type" in param and "metric_type" in param):
raise ValueError(f"param.json did not have data_type or metric_type!")
fn_dict = pecos_clib.pairwise_ann_init(param["data_type"], param["metric_type"])

c_model_dir = f"{model_folder}/c_model"
if not os.path.isdir(c_model_dir):
raise ValueError(f"c_model_dir did not exist: {c_model_dir}")
model_ptr = fn_dict["load"](c_char_p(c_model_dir.encode("utf-8")), c_bool(lazy_load))
pred_params = cls.PredParams.from_dict(param["pred_kwargs"])
return cls(
model_ptr,
param["num_input_keys"],
param["num_label_keys"],
param["feat_dim"],
fn_dict,
pred_params,
)

def save(self, model_folder):
"""Save PairwiseANN Model to file
Args:
model_folder (str): model directory to which the model is saved
"""
if not os.path.exists(model_folder):
os.makedirs(model_folder)
param = {
"model": self.__class__.__name__,
"data_type": self.data_type,
"metric_type": self.metric_type,
"num_input_keys": self.num_input_keys,
"num_label_keys": self.num_label_keys,
"feat_dim": self.feat_dim,
"pred_kwargs": self.pred_params.to_dict(),
}
param = self.append_meta(param)
with open("{}/param.json".format(model_folder), "w") as fout:
fout.write(json.dumps(param, indent=True))
c_model_dir = f"{model_folder}/c_model"
self.fn_dict["save"](self.model_ptr, c_char_p(c_model_dir.encode("utf-8")))

def searchers_create(self, max_batch_size=256, max_only_topk=10, num_searcher=1):
"""create searchers that pre-allocate intermediate variables (e.g., topk_queue)
Args:
max_batch_size (int): the maximum batch size for the input/label pairs to be inference
max_only_topk (int): the maximum only topk for the kNN to return
num_searcher: number of searcher for multi-thread inference
Returns:
PairwiseANN.Searchers: the pre-allocated PairwiseANN.Searchers (class object)
"""
if not self.model_ptr:
raise ValueError("self.model_ptr must exist before using searchers_create()")
if num_searcher <= 0:
raise ValueError("num_searcher={} <= 0 is NOT valid".format(num_searcher))
return PairwiseANN.Searchers(self, max_batch_size, max_only_topk, num_searcher)

def get_pred_params(self):
"""Return a deep copy of prediction parameters
Returns:
copied_pred_params (dict): Prediction parameters.
"""
return copy.deepcopy(self.pred_params)

def predict(self, input_feat, label_keys, searchers, pred_params=None, is_same_input=False):
"""predict with multi-thread. The searchers are required to be provided.
Args:
input_feat (numpy.array or smat.csr_matrix): input feature matrix (first key) to find kNN.
if is_same_input == False, the shape should be (batch_size, feat_dim)
if is_same_input == True, the shape should be (1, feat_dim)
label_keys (numpy.array): the label keys (second key) to find kNN. The shape should be (batch_size, ).
searchers (c_void_p): pointer to C/C++ vector<pecos::ann::PairwiseANN:Searcher>. Created by PairwiseANN.searchers_create().
pred_params (Pairwise.PredParams, optional): instance of pecos.ann.pairwise.Pairwise.PredParams.
is_same_input (bool): whether to use the same first row of X to do prediction.
For real-time inference with same input query, set is_same_input = True.
For batch prediction with varying input querues, set is_same_input = False.
Returns:
Imat (np.array): returned kNN input key indices. Shape of (batch_size, topk)
Mmat (np.array): returned kNN masking array. 1/0 mean value is or is not presented. Shape of (batch_size, topk)
Dmat (np.array): returned kNN distance array. Shape of (batch_size, topk)
Vmat (np.array): returned kNN value array. Shape of (batch_size, topk)
"""
input_feat_py, data_type = self.create_pymat(input_feat)
if data_type != self.data_type:
raise ValueError(
"data_type={} is NOT consistent with self.data_type={}".format(
data_type, self.data_type
)
)
if input_feat_py.cols != self.feat_dim:
raise ValueError(
"input_feat_py.cols={} is NOT consistent with self.feat_dim={}".format(
input_feat_py.cols, self.feat_dim
)
)
if not isinstance(label_keys, np.ndarray):
raise TypeError(f"type(label_keys) != np.array")
if not is_same_input and input_feat_py.rows != label_keys.shape[0]:
raise ValueError(f"input_feat_py.rows != label_keys.shape[0]")

batch_size = label_keys.shape[0]
pred_params = self.get_pred_params() if pred_params is None else pred_params
only_topk = pred_params.topk
cur_nnz = batch_size * only_topk
if batch_size > searchers.max_batch_size:
raise ValueError(f"cur_batch_size > searchers.max_batch_size")
if only_topk > searchers.max_only_topk:
raise ValueError(f"cur_only_topk > searchers.max_only_topk")

searchers.reset(cur_nnz)
self.fn_dict["predict"](
searchers.ctypes(),
batch_size,
only_topk,
input_feat_py,
label_keys.ctypes.data_as(POINTER(c_uint32)),
searchers.Imat.ctypes.data_as(POINTER(c_uint32)),
searchers.Mmat.ctypes.data_as(POINTER(c_uint32)),
searchers.Dmat.ctypes.data_as(POINTER(c_float)),
searchers.Vmat.ctypes.data_as(POINTER(c_float)),
c_bool(is_same_input),
)
Imat = searchers.Imat[:cur_nnz].reshape(batch_size, only_topk)
Mmat = searchers.Mmat[:cur_nnz].reshape(batch_size, only_topk)
Dmat = searchers.Dmat[:cur_nnz].reshape(batch_size, only_topk)
Vmat = searchers.Vmat[:cur_nnz].reshape(batch_size, only_topk)
return Imat, Mmat, Dmat, Vmat
9 changes: 7 additions & 2 deletions pecos/core/ann/distance.hpp
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Expand Up @@ -11,6 +11,9 @@
* and limitations under the License.
*/

#ifndef __DISTANCE_H__
#define __DISTANCE_H__

namespace pecos {

namespace ann {
Expand All @@ -23,6 +26,8 @@ namespace ann {
#include "distance_impl/default.hpp"
#endif

}
} // end of namespace ann
} // end of namespace pecos

#endif // end of __DISTANCE_H__

}
6 changes: 6 additions & 0 deletions pecos/core/ann/feat_vectors.hpp
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Expand Up @@ -11,6 +11,9 @@
* and limitations under the License.
*/

#ifndef __FEAT_VECTORS_H__
#define __FEAT_VECTORS_H__

#pragma once
#if defined(__GNUC__)
#define PORTABLE_ALIGN32 __attribute__((aligned(32)))
Expand Down Expand Up @@ -334,3 +337,6 @@ namespace ann {
} // end of namespace ann

} // end of namespace pecos

#endif // end of __FEAT_VECTORS_H__

6 changes: 6 additions & 0 deletions pecos/core/ann/hnsw.hpp
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Expand Up @@ -11,6 +11,9 @@
* and limitations under the License.
*/

#ifndef __HNSW_H__
#define __HNSW_H__

#include <sys/stat.h>
#include <algorithm>
#include <cmath>
Expand Down Expand Up @@ -1333,3 +1336,6 @@ namespace ann {

} // end of namespace ann
} // end of namespace pecos

#endif // end of __HNSW_H__

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