未验证 提交 1a9d6229 编写于 作者: G gaotingquan

support clas, rec, search

上级 e0572d85
Global:
Engine: POPEngine
infer_imgs: "../../images/wangzai.jpg"
Modules:
- name:
type: AlgoMod
processors:
- name: ImageProcessor
type: preprocessor
ops:
- ResizeImage:
resize_short: 256
- CropImage:
size: 224
- NormalizeImage:
scale: 0.00392157
mean: [0.485, 0.456, 0.406]
std: [0.229, 0.224, 0.225]
order: hwc
- ToCHWImage:
- GetShapeInfo:
configs:
order: chw
- ToBatch:
- name: PaddlePredictor
type: predictor
inference_model_dir: "./MobileNetV2_infer"
input_names:
inputs: image
output_names:
save_infer_model/scale_0.tmp_1: logits
- name: TopK
type: postprocessor
k: 10
class_id_map_file: "../ppcls/utils/imagenet1k_label_list.txt"
save_dir: None
\ No newline at end of file
Global:
Engine: POPEngine
infer_imgs: "../../images/wangzai.jpg"
Modules:
- name:
type: AlgoMod
processors:
- name: ImageProcessor
type: preprocessor
ops:
- ResizeImage:
size: [640, 640]
interpolation: 2
- NormalizeImage:
scale: 0.00392157
mean: [0.485, 0.456, 0.406]
std: [0.229, 0.224, 0.225]
order: hwc
- ToCHWImage:
- GetShapeInfo:
configs:
order: chw
- ToBatch:
- name: PaddlePredictor
type: predictor
inference_model_dir: ./models/ppyolov2_r50vd_dcn_mainbody_v1.0_infer/
- name: DetPostPro
type: postprocessor
threshold: 0.2
max_det_results: 1
label_list:
- foreground
\ No newline at end of file
Global:
Engine: POPEngine
infer_imgs: "../../images/wangzai.jpg"
Modules:
- name:
type: AlgoMod
processors:
- name: ImageProcessor
type: preprocessor
ops:
- ResizeImage:
resize_short: 256
- CropImage:
size: 224
- NormalizeImage:
scale: 0.00392157
mean: [0.485, 0.456, 0.406]
std: [0.229, 0.224, 0.225]
order: hwc
- ToCHWImage:
- GetShapeInfo:
configs:
order: chw
- ToBatch:
- name: PaddlePredictor
type: predictor
inference_model_dir: models/product_ResNet50_vd_aliproduct_v1.0_infer
input_names:
x: image
output_names:
save_infer_model/scale_0.tmp_1: features
- name: FeatureNormalizer
type: postprocessor
\ No newline at end of file
Global:
Engine: POPEngine
infer_imgs: "./vector.npy"
Modules:
- name:
type: AlgoMod
processors:
- name: Searcher
type: searcher
index_dir: "./index"
dist_type: "IP"
embedding_size: 512
batch_size: 32
return_k: 5
score_thres: 0.5
\ No newline at end of file
......@@ -18,8 +18,16 @@ def main():
image_file = "../../images/wangzai.jpg"
img = cv2.imread(image_file)[:, :, ::-1]
input_data = {"input_image": img}
output = engine.process(input_data)
print(output)
data = engine.process(input_data)
# for det, cls
# print(data)
# for rec
# features = data["pred"]["features"]
# print(features)
# print(features.shape)
# print(type(features))
if __name__ == '__main__':
......
import os
import sys
__dir__ = os.path.dirname(os.path.abspath(__file__))
sys.path.append(os.path.abspath(os.path.join(__dir__, '../')))
import cv2
from engine import build_engine
from utils import config
from utils.get_image_list import get_image_list
import numpy as np
def load_vector(path):
return np.load(path)
def main():
args = config.parse_args()
config_dict = config.get_config(
args.config, overrides=args.override, show=False)
config_dict.profiler_options = args.profiler_options
engine = build_engine(config_dict)
vector = load_vector(config_dict["Global"]["infer_imgs"])
output = engine.process({"features": vector})
print(output["search_res"])
if __name__ == '__main__':
main()
from .postprocessor import build_postprocessor
from .preprocessor import build_preprocessor
from .predictor import build_predictor
# from .postprocessor import build_postprocessor
# from .preprocessor import build_preprocessor
# from .predictor import build_predictor
import importlib
from processor.algo_mod import preprocessor
from processor.algo_mod import predictor
from processor.algo_mod import postprocessor
from processor.algo_mod import searcher
from ..base_processor import BaseProcessor
......@@ -10,14 +17,20 @@ class AlgoMod(BaseProcessor):
self.processors = []
for processor_config in config["processors"]:
processor_type = processor_config.get("type")
if processor_type == "preprocessor":
processor = build_preprocessor(processor_config)
elif processor_type == "predictor":
processor = build_predictor(processor_config)
elif processor_type == "postprocessor":
processor = build_postprocessor(processor_config)
else:
raise NotImplemented("processor type {} unknown.".format(processor_type))
processor_name = processor_config.get("name")
_mod = importlib.import_module(__name__)
processor = getattr(
getattr(_mod, processor_type),
processor_name)(processor_config)
# if processor_type == "preprocessor":
# processor = build_preprocessor(processor_config)
# elif processor_type == "predictor":
# processor = build_predictor(processor_config)
# elif processor_type == "postprocessor":
# processor = build_postprocessor(processor_config)
# else:
# raise NotImplemented("processor type {} unknown.".format(processor_type))
self.processors.append(processor)
def process(self, input_data):
......
import importlib
from .classification import TopK
from .det import DetPostPro
from .rec import FeatureNormalizer
def build_postprocessor(config):
processor_mod = importlib.import_module(__name__)
processor_name = config.get("name")
return getattr(processor_mod, processor_name)(config)
# def build_postprocessor(config):
# processor_mod = importlib.import_module(__name__)
# processor_name = config.get("name")
# return getattr(processor_mod, processor_name)(config)
import os
import numpy as np
from ...base_processor import BaseProcessor
class TopK(BaseProcessor):
def __init__(self, config):
self.topk = config["k"]
assert isinstance(self.topk, (int, ))
class_id_map_file = config["class_id_map_file"]
self.class_id_map = self.parse_class_id_map(class_id_map_file)
self.multilabel = config.get("multilabel", False)
def parse_class_id_map(self, class_id_map_file):
if class_id_map_file is None:
return None
if not os.path.exists(class_id_map_file):
print(
"Warning: If want to use your own label_dict, please input legal path!\nOtherwise label_names will be empty!"
)
return None
try:
class_id_map = {}
with open(class_id_map_file, "r") as fin:
lines = fin.readlines()
for line in lines:
partition = line.split("\n")[0].partition(" ")
class_id_map[int(partition[0])] = str(partition[-1])
except Exception as ex:
print(ex)
class_id_map = None
return class_id_map
def process(self, data):
x = data["pred"]["logits"]
# TODO(gaotingquan): support file_name
# if file_names is not None:
# assert x.shape[0] == len(file_names)
y = []
for idx, probs in enumerate(x):
index = probs.argsort(axis=0)[-self.topk:][::-1].astype(
"int32") if not self.multilabel else np.where(
probs >= 0.5)[0].astype("int32")
clas_id_list = []
score_list = []
label_name_list = []
for i in index:
clas_id_list.append(i.item())
score_list.append(probs[i].item())
if self.class_id_map is not None:
label_name_list.append(self.class_id_map[i.item()])
result = {
"class_ids": clas_id_list,
"scores": np.around(
score_list, decimals=5).tolist(),
}
# if file_names is not None:
# result["file_name"] = file_names[idx]
if label_name_list is not None:
result["label_names"] = label_name_list
y.append(result)
return y
import numpy as np
from ...base_processor import BaseProcessor
class FeatureNormalizer(BaseProcessor):
def __init__(self, config=None):
pass
def process(self, data):
batch_output = data["pred"]["features"]
feas_norm = np.sqrt(
np.sum(np.square(batch_output), axis=1, keepdims=True))
batch_output = np.divide(batch_output, feas_norm)
data["pred"]["features"] = batch_output
return data
......@@ -3,8 +3,7 @@ import importlib
from processor.algo_mod.predictor.paddle_predictor import PaddlePredictor
from processor.algo_mod.predictor.onnx_predictor import ONNXPredictor
def build_predictor(config):
processor_mod = importlib.import_module(__name__)
processor_name = config.get("name")
return getattr(processor_mod, processor_name)(config)
# def build_predictor(config):
# processor_mod = importlib.import_module(__name__)
# processor_name = config.get("name")
# return getattr(processor_mod, processor_name)(config)
......@@ -48,17 +48,30 @@ class PaddlePredictor(BaseProcessor):
paddle_config.switch_use_feed_fetch_ops(False)
self.predictor = create_predictor(paddle_config)
def process(self, input_data):
if "input_names" in config and config["input_names"]:
self.input_name_mapping = config["input_names"]
else:
self.input_name_mapping = []
if "output_names" in config and config["output_names"]:
self.output_name_mapping = config["output_names"]
else:
self.output_name_mapping = []
def process(self, data):
input_names = self.predictor.get_input_names()
for input_name in input_names:
input_tensor = self.predictor.get_input_handle(input_name)
input_tensor.copy_from_cpu(input_data[input_name])
name = self.input_name_mapping[
input_name] if input_name in self.input_name_mapping else input_name
input_tensor.copy_from_cpu(data[name])
self.predictor.run()
output_data = {}
output_names = self.predictor.get_output_names()
for output_name in output_names:
output = self.predictor.get_output_handle(output_name)
output_data[output_name] = output.copy_to_cpu()
input_data["pred"] = output_data
return input_data
name = self.output_name_mapping[
output_name] if output_name in self.output_name_mapping else output_name
output_data[name] = output.copy_to_cpu()
data["pred"] = output_data
return data
......@@ -2,8 +2,7 @@ import importlib
from processor.algo_mod.preprocessor.image_processor import ImageProcessor
def build_preprocessor(config):
processor_mod = importlib.import_module(__name__)
processor_name = config.get("name")
return getattr(processor_mod, processor_name)(config)
# def build_preprocessor(config):
# processor_mod = importlib.import_module(__name__)
# processor_name = config.get("name")
# return getattr(processor_mod, processor_name)(config)
import os
import pickle
import faiss
def build_searcher(config):
pass
class Searcher:
def __init__(self, config):
super().__init__()
self.Searcher = faiss.read_index(
os.path.join(config["index_dir"], "vector.index"))
with open(os.path.join(config["index_dir"], "id_map.pkl"), "rb") as fd:
self.id_map = pickle.load(fd)
self.return_k = config["return_k"]
def process(self, data):
features = data["features"]
scores, docs = self.Searcher.search(features, self.return_k)
data["search_res"] = (scores, docs)
return data
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