Refine image classification prediction code.

ISSUE=4596311 git-svn-id: https://svn.baidu.com/idl/trunk/paddle@1431 1ad973e4-5ce8-4261-8a94-b56d1f490c56

Refine image classification prediction code.
ISSUE=4596311 git-svn-id: https://svn.baidu.com/idl/trunk/paddle@1431 1ad973e4-5ce8-4261-8a94-b56d1f490c56
13f46029 · dangqingqing · 5db9e590 · 5db9e590 · 5db9e590 · 13f46029
5 changed file
--- a/demo/image_classification/classify.py
+++ b/demo/image_classification/classify.py
-../model_zoo/resnet/classify.py
\ No newline at end of file
--- a/demo/image_classification/image_predictor.py
+++ b/demo/image_classification/image_predictor.py
-# Copyright (c) 2016 Baidu, Inc. 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.
-# You may obtain a copy of the License at
-#
-#     http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License 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.
-
-import os
-import numpy as np
-from optparse import OptionParser
-
-from py_paddle import swig_paddle, util, DataProviderWrapperConverter
-from paddle.trainer.PyDataProviderWrapper import DenseSlot
-from paddle.trainer.config_parser import parse_config
-
-
-
-"""
-Will merge predictor from Qingqing.
-"""
--- a/demo/image_classification/classify.sh
+++ b/demo/image_classification/classify.sh
@@ -14,9 +14,7 @@
 # limitations under the License.
 set -e

-python classify.py \
-     --job=predict \
-     --conf=vgg_16_cifar.py \
-     --model=./cifar_vgg_model/pass-00299 \
-     --multi_crop \
-     --data=./example/test.list
+model=cifar_vgg_model/pass-00299/
+image=data/cifar-out/test/airplane/seaplane_s_000978.png
+use_gpu=1
+python prediction.py $model $image $use_gpu
--- a/demo/image_classification/prediction.py
+++ b/demo/image_classification/prediction.py
+# Copyright (c) 2016 Baidu, Inc. 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.
+# You may obtain a copy of the License at
+#
+#     http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License 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.
+
+import os,sys
+import numpy as np
+import logging
+from PIL import Image
+from optparse import OptionParser
+
+import paddle.utils.image_util as image_util
+
+from py_paddle import swig_paddle, util
+from py_paddle import DataProviderWrapperConverter
+from paddle.trainer.PyDataProviderWrapper import DenseSlot
+from paddle.trainer.config_parser import parse_config
+
+logging.basicConfig(format='[%(levelname)s %(asctime)s %(filename)s:%(lineno)s] %(message)s')
+logging.getLogger().setLevel(logging.INFO)
+
+class ImageClassifier():
+    def __init__(self,
+                 train_conf,
+                 use_gpu=True,
+                 model_dir=None,
+                 resize_dim=None,
+                 crop_dim=None,
+                 mean_file=None,
+                 oversample=False,
+                 is_color=True):
+        """
+        train_conf: network configure.
+        model_dir: string, directory of model.
+        resize_dim: int, resized image size.
+        crop_dim: int, crop size.
+        mean_file: string, image mean file.
+        oversample: bool, oversample means multiple crops, namely five
+                    patches (the four corner patches and the center
+                    patch) as well as their horizontal reflections,
+                    ten crops in all.
+        """
+        self.train_conf = train_conf
+        self.model_dir = model_dir
+        if model_dir is None:
+            self.model_dir = os.path.dirname(train_conf)
+
+        self.resize_dim = resize_dim
+        self.crop_dims = [crop_dim, crop_dim]
+        self.oversample = oversample
+        self.is_color = is_color
+
+        self.transformer = image_util.ImageTransformer(is_color = is_color)
+        self.transformer.set_transpose((2,0,1))
+
+        self.mean_file = mean_file
+        mean = np.load(self.mean_file)['data_mean']
+        mean = mean.reshape(3, self.crop_dims[0], self.crop_dims[1])
+        self.transformer.set_mean(mean) # mean pixel
+        gpu = 1 if use_gpu else 0
+        conf_args = "is_test=1,use_gpu=%d,is_predict=1" % (gpu)
+        conf = parse_config(train_conf, conf_args)
+        swig_paddle.initPaddle("--use_gpu=%d" % (gpu))
+        self.network = swig_paddle.GradientMachine.createFromConfigProto(conf.model_config)
+        assert isinstance(self.network, swig_paddle.GradientMachine)
+        self.network.loadParameters(self.model_dir)
+
+        data_size = 3 * self.crop_dims[0] * self.crop_dims[1]
+        slots = [DenseSlot(data_size)]
+        self.converter = util.DataProviderWrapperConverter(False, slots)
+
+    def get_data(self, img_path):
+        """
+        1. load image from img_path.
+        2. resize or oversampling.
+        3. transformer data: transpose, sub mean.
+        return K x H x W ndarray.
+        img_path: image path.
+        """
+        image = image_util.load_image(img_path, self.is_color)
+        if self.oversample:
+            # image_util.resize_image: short side is self.resize_dim
+            image = image_util.resize_image(image, self.resize_dim)
+            image = np.array(image)
+            input = np.zeros((1, image.shape[0], image.shape[1], 3),
+                             dtype=np.float32)
+            input[0] = image.astype(np.float32)
+            input = image_util.oversample(input, self.crop_dims)
+        else:
+            image = image.resize(self.crop_dims, Image.ANTIALIAS)
+            input = np.zeros((1, self.crop_dims[0], self.crop_dims[1], 3),
+                             dtype=np.float32)
+            input[0] = np.array(image).astype(np.float32)
+
+        data_in = []
+        for img in input:
+            img = self.transformer.transformer(img).flatten()
+            data_in.append([img.tolist()])
+        return data_in
+
+    def forward(self, input_data):
+        in_arg = self.converter(input_data)
+        return self.network.forwardTest(in_arg)
+
+    def forward(self, data, output_layer):
+        """
+        input_data: py_paddle input data.
+        output_layer: specify the name of probability, namely the layer with
+                      softmax activation.
+        return: the predicting probability of each label.
+        """
+        input = self.converter(data)
+        self.network.forwardTest(input)
+        output = self.network.getLayerOutputs(output_layer)
+        # For oversampling, average predictions across crops.
+        # If not, the shape of output[name]: (1, class_number),
+        # the mean is also applicable.
+        return output[output_layer].mean(0)
+
+    def predict(self, image=None, output_layer=None):
+        assert isinstance(image, basestring)
+        assert isinstance(output_layer, basestring)
+        data = self.get_data(image)
+        prob = self.forward(data, output_layer)
+        lab = np.argsort(-prob)
+        logging.info("Label of %s is: %d", image, lab[0])
+
+if __name__ == '__main__':
+    image_size=32
+    crop_size=32
+    multi_crop=True
+    config="vgg_16_cifar.py"
+    output_layer="__fc_layer_1__"
+    mean_path="data/cifar-out/batches/batches.meta"
+    model_path=sys.argv[1]
+    image=sys.argv[2]
+    use_gpu=bool(int(sys.argv[3]))
+
+    obj = ImageClassifier(train_conf=config,
+                          model_dir=model_path,
+                          resize_dim=image_size,
+                          crop_dim=crop_size,
+                          mean_file=mean_path,
+                          use_gpu=use_gpu,
+                          oversample=multi_crop)
+    obj.predict(image, output_layer)
--- a/doc/demo/image_classification/image_classification.md
+++ b/doc/demo/image_classification/image_classification.md
@@ -170,8 +170,19 @@ After training finishes, the training and testing error curve will be saved to `
 ## Prediction
 After we train the model, the model file as well as the model parameters are stored in path `./cifar_vgg_model/pass-%05d`. For example, the model of the 300-th pass is stored at `./cifar_vgg_model/pass-00299`.

-To make a prediction for an image, such as `test.jpg`,  one can run `sh classify.sh ./cifar_vgg_model/pass-00299 test.jpg`. The script will output the label of the classfiication.
+To make a prediction for an image, one can run `predict.sh` as follows. The script will output the label of the classfiication.

+```
+sh predict.sh
+```
+
+predict.sh:
+```
+model=cifar_vgg_model/pass-00299/
+image=data/cifar-out/test/airplane/seaplane_s_000978.png
+use_gpu=1
+python prediction.py $model $image $use_gpu
+```

 ## Exercise
 Train a image classification of birds using VGG model and CUB-200 dataset. The birds dataset can be downloaded here. It contains an image dataset with photos of 200 bird species (mostly North American).