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https://github.com/tesseract-ocr/tesseract.git
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149 lines
6.1 KiB
C++
149 lines
6.1 KiB
C++
///////////////////////////////////////////////////////////////////////
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// File: tfnetwork.cpp
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// Description: Encapsulation of an entire tensorflow graph as a
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// Tesseract Network.
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// Author: Ray Smith
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// Created: Fri Feb 26 09:35:29 PST 2016
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//
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// (C) Copyright 2016, Google Inc.
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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///////////////////////////////////////////////////////////////////////
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#ifdef INCLUDE_TENSORFLOW
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#include "tfnetwork.h"
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#include "allheaders.h"
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#include "input.h"
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#include "networkscratch.h"
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using tensorflow::Status;
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using tensorflow::Tensor;
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using tensorflow::TensorShape;
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namespace tesseract {
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TFNetwork::TFNetwork(const STRING& name) : Network(NT_TENSORFLOW, name, 0, 0) {}
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TFNetwork::~TFNetwork() {}
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int TFNetwork::InitFromProtoStr(const string& proto_str) {
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if (!model_proto_.ParseFromString(proto_str)) return 0;
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return InitFromProto();
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}
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// Writes to the given file. Returns false in case of error.
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// Should be overridden by subclasses, but called by their Serialize.
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bool TFNetwork::Serialize(TFile* fp) const {
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if (!Network::Serialize(fp)) return false;
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string proto_str;
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model_proto_.SerializeToString(&proto_str);
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GenericVector<char> data;
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data.resize_no_init(proto_str.size());
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memcpy(&data[0], proto_str.data(), proto_str.size());
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if (!data.Serialize(fp)) return false;
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return true;
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}
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// Reads from the given file. Returns false in case of error.
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// Should be overridden by subclasses, but NOT called by their DeSerialize.
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bool TFNetwork::DeSerialize(TFile* fp) {
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GenericVector<char> data;
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if (!data.DeSerialize(fp)) return false;
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if (!model_proto_.ParseFromArray(&data[0], data.size())) {
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return false;
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}
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return InitFromProto();
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}
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// Runs forward propagation of activations on the input line.
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// See Network for a detailed discussion of the arguments.
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void TFNetwork::Forward(bool debug, const NetworkIO& input,
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const TransposedArray* input_transpose,
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NetworkScratch* scratch, NetworkIO* output) {
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std::vector<std::pair<string, Tensor>> tf_inputs;
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int depth = input_shape_.depth();
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ASSERT_HOST(depth == input.NumFeatures());
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// TODO(rays) Allow batching. For now batch_size = 1.
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const StrideMap& stride_map = input.stride_map();
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// TF requires a tensor of shape float[batch, height, width, depth].
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TensorShape shape{1, stride_map.Size(FD_HEIGHT), stride_map.Size(FD_WIDTH),
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depth};
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Tensor input_tensor(tensorflow::DT_FLOAT, shape);
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// The flat() member gives a 1d array, with a data() member to get the data.
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auto eigen_tensor = input_tensor.flat<float>();
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memcpy(eigen_tensor.data(), input.f(0),
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input.Width() * depth * sizeof(input.f(0)[0]));
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// Add the tensor to the vector of inputs.
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tf_inputs.emplace_back(model_proto_.image_input(), input_tensor);
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// Provide tensors giving the width and/or height of the image if they are
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// required. Some tf ops require a separate tensor with knowledge of the
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// size of the input as they cannot obtain it from the input tensor. This is
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// usually true in the case of ops that process a batch of variable-sized
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// objects.
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if (!model_proto_.image_widths().empty()) {
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TensorShape size_shape{1};
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Tensor width_tensor(tensorflow::DT_INT64, size_shape);
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auto eigen_wtensor = width_tensor.flat<int64>();
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*eigen_wtensor.data() = stride_map.Size(FD_WIDTH);
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tf_inputs.emplace_back(model_proto_.image_widths(), width_tensor);
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}
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if (!model_proto_.image_heights().empty()) {
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TensorShape size_shape{1};
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Tensor height_tensor(tensorflow::DT_INT64, size_shape);
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auto eigen_htensor = height_tensor.flat<int64>();
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*eigen_htensor.data() = stride_map.Size(FD_HEIGHT);
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tf_inputs.emplace_back(model_proto_.image_heights(), height_tensor);
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}
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std::vector<string> target_layers = {model_proto_.output_layer()};
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std::vector<Tensor> outputs;
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Status s = session_->Run(tf_inputs, target_layers, {}, &outputs);
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if (!s.ok()) tprintf("session->Run failed:%s\n", s.error_message().c_str());
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ASSERT_HOST(s.ok());
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ASSERT_HOST(outputs.size() == 1);
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const Tensor& output_tensor = outputs[0];
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// Check the dimensions of the output.
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ASSERT_HOST(output_tensor.shape().dims() == 3);
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int output_batch = output_tensor.shape().dim_size(0);
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int output_steps = output_tensor.shape().dim_size(1);
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int output_depth = output_tensor.shape().dim_size(2);
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ASSERT_HOST(output_batch == 1);
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ASSERT_HOST(output_depth == output_shape_.depth());
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output->Resize2d(false, output_steps, output_depth);
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auto eigen_output = output_tensor.flat<float>();
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memcpy(output->f(0), eigen_output.data(),
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output_steps * output_depth * sizeof(output->f(0)[0]));
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}
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int TFNetwork::InitFromProto() {
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spec_ = model_proto_.spec();
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input_shape_.SetShape(
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model_proto_.batch_size(), std::max(0, model_proto_.y_size()),
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std::max(0, model_proto_.x_size()), model_proto_.depth());
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output_shape_.SetShape(model_proto_.batch_size(), 1, 0,
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model_proto_.num_classes());
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output_shape_.set_loss_type(model_proto_.using_ctc() ? LT_CTC : LT_SOFTMAX);
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ni_ = input_shape_.height();
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no_ = output_shape_.depth();
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// Initialize the session_ with the graph. Since we can't get the graph
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// back from the session_, we have to keep the proto as well
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tensorflow::SessionOptions options;
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session_.reset(NewSession(options));
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Status s = session_->Create(model_proto_.graph());
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if (s.ok()) return model_proto_.global_step();
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tprintf("Session_->Create returned '%s'\n", s.error_message().c_str());
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return 0;
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}
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} // namespace tesseract
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#endif // ifdef INCLUDE_TENSORFLOW
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