mirror of
https://github.com/tesseract-ocr/tesseract.git
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489 lines
16 KiB
C++
489 lines
16 KiB
C++
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///////////////////////////////////////////////////////////////////////
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// File: networkbuilder.h
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// Description: Class to parse the network description language and
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// build a corresponding network.
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// Author: Ray Smith
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// Created: Wed Jul 16 18:35:38 PST 2014
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//
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// (C) Copyright 2014, 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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#include "networkbuilder.h"
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#include "convolve.h"
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#include "fullyconnected.h"
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#include "input.h"
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#include "lstm.h"
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#include "maxpool.h"
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#include "network.h"
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#include "parallel.h"
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#include "reconfig.h"
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#include "reversed.h"
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#include "series.h"
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#include "unicharset.h"
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namespace tesseract {
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// Builds a network with a network_spec in the network description
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// language, to recognize a character set of num_outputs size.
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// If append_index is non-negative, then *network must be non-null and the
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// given network_spec will be appended to *network AFTER append_index, with
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// the top of the input *network discarded.
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// Note that network_spec is call by value to allow a non-const char* pointer
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// into the string for BuildFromString.
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// net_flags control network behavior according to the NetworkFlags enum.
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// The resulting network is returned via **network.
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// Returns false if something failed.
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bool NetworkBuilder::InitNetwork(int num_outputs, STRING network_spec,
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int append_index, int net_flags,
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float weight_range, TRand* randomizer,
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Network** network) {
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NetworkBuilder builder(num_outputs);
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Series* bottom_series = NULL;
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StaticShape input_shape;
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if (append_index >= 0) {
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// Split the current network after the given append_index.
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ASSERT_HOST(*network != NULL && (*network)->type() == NT_SERIES);
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Series* series = reinterpret_cast<Series*>(*network);
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Series* top_series = NULL;
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series->SplitAt(append_index, &bottom_series, &top_series);
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if (bottom_series == NULL || top_series == NULL) {
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tprintf("Yikes! Splitting current network failed!!\n");
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return false;
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}
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input_shape = bottom_series->OutputShape(input_shape);
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delete top_series;
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}
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char* str_ptr = &network_spec[0];
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*network = builder.BuildFromString(input_shape, &str_ptr);
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if (*network == NULL) return false;
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(*network)->SetNetworkFlags(net_flags);
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(*network)->InitWeights(weight_range, randomizer);
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(*network)->SetupNeedsBackprop(false);
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if (bottom_series != NULL) {
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bottom_series->AppendSeries(*network);
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*network = bottom_series;
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}
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(*network)->CacheXScaleFactor((*network)->XScaleFactor());
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return true;
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}
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// Helper skips whitespace.
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static void SkipWhitespace(char** str) {
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while (**str == ' ' || **str == '\t' || **str == '\n') ++*str;
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}
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// Parses the given string and returns a network according to the network
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// description language in networkbuilder.h
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Network* NetworkBuilder::BuildFromString(const StaticShape& input_shape,
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char** str) {
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SkipWhitespace(str);
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char code_ch = **str;
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if (code_ch == '[') {
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return ParseSeries(input_shape, nullptr, str);
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}
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if (input_shape.depth() == 0) {
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// There must be an input at this point.
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return ParseInput(str);
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}
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switch (code_ch) {
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case '(':
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return ParseParallel(input_shape, str);
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case 'R':
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return ParseR(input_shape, str);
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case 'S':
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return ParseS(input_shape, str);
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case 'C':
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return ParseC(input_shape, str);
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case 'M':
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return ParseM(input_shape, str);
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case 'L':
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return ParseLSTM(input_shape, str);
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case 'F':
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return ParseFullyConnected(input_shape, str);
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case 'O':
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return ParseOutput(input_shape, str);
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default:
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tprintf("Invalid network spec:%s\n", *str);
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return nullptr;
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}
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return nullptr;
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}
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// Parses an input specification and returns the result, which may include a
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// series.
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Network* NetworkBuilder::ParseInput(char** str) {
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// There must be an input at this point.
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int length = 0;
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int batch, height, width, depth;
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int num_converted =
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sscanf(*str, "%d,%d,%d,%d%n", &batch, &height, &width, &depth, &length);
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StaticShape shape;
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shape.SetShape(batch, height, width, depth);
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// num_converted may or may not include the length.
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if (num_converted != 4 && num_converted != 5) {
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tprintf("Must specify an input layer as the first layer, not %s!!\n", *str);
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return nullptr;
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}
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*str += length;
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Input* input = new Input("Input", shape);
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// We want to allow [<input>rest of net... or <input>[rest of net... so we
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// have to check explicitly for '[' here.
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SkipWhitespace(str);
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if (**str == '[') return ParseSeries(shape, input, str);
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return input;
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}
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// Parses a sequential series of networks, defined by [<net><net>...].
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Network* NetworkBuilder::ParseSeries(const StaticShape& input_shape,
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Input* input_layer, char** str) {
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StaticShape shape = input_shape;
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Series* series = new Series("Series");
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++*str;
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if (input_layer != nullptr) {
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series->AddToStack(input_layer);
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shape = input_layer->OutputShape(shape);
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}
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Network* network = NULL;
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while (**str != '\0' && **str != ']' &&
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(network = BuildFromString(shape, str)) != NULL) {
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shape = network->OutputShape(shape);
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series->AddToStack(network);
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}
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if (**str != ']') {
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tprintf("Missing ] at end of [Series]!\n");
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delete series;
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return NULL;
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}
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++*str;
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return series;
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}
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// Parses a parallel set of networks, defined by (<net><net>...).
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Network* NetworkBuilder::ParseParallel(const StaticShape& input_shape,
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char** str) {
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Parallel* parallel = new Parallel("Parallel", NT_PARALLEL);
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++*str;
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Network* network = NULL;
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while (**str != '\0' && **str != ')' &&
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(network = BuildFromString(input_shape, str)) != NULL) {
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parallel->AddToStack(network);
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}
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if (**str != ')') {
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tprintf("Missing ) at end of (Parallel)!\n");
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delete parallel;
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return nullptr;
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}
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++*str;
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return parallel;
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}
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// Parses a network that begins with 'R'.
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Network* NetworkBuilder::ParseR(const StaticShape& input_shape, char** str) {
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char dir = (*str)[1];
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if (dir == 'x' || dir == 'y') {
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STRING name = "Reverse";
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name += dir;
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*str += 2;
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Network* network = BuildFromString(input_shape, str);
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if (network == nullptr) return nullptr;
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Reversed* rev =
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new Reversed(name, dir == 'y' ? NT_YREVERSED : NT_XREVERSED);
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rev->SetNetwork(network);
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return rev;
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}
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int replicas = strtol(*str + 1, str, 10);
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if (replicas <= 0) {
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tprintf("Invalid R spec!:%s\n", *str);
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return nullptr;
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}
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Parallel* parallel = new Parallel("Replicated", NT_REPLICATED);
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char* str_copy = *str;
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for (int i = 0; i < replicas; ++i) {
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str_copy = *str;
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Network* network = BuildFromString(input_shape, &str_copy);
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if (network == NULL) {
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tprintf("Invalid replicated network!\n");
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delete parallel;
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return nullptr;
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}
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parallel->AddToStack(network);
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}
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*str = str_copy;
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return parallel;
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}
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// Parses a network that begins with 'S'.
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Network* NetworkBuilder::ParseS(const StaticShape& input_shape, char** str) {
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int y = strtol(*str + 1, str, 10);
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if (**str == ',') {
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int x = strtol(*str + 1, str, 10);
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if (y <= 0 || x <= 0) {
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tprintf("Invalid S spec!:%s\n", *str);
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return nullptr;
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}
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return new Reconfig("Reconfig", input_shape.depth(), x, y);
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} else if (**str == '(') {
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// TODO(rays) Add Generic reshape.
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tprintf("Generic reshape not yet implemented!!\n");
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return nullptr;
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}
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tprintf("Invalid S spec!:%s\n", *str);
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return nullptr;
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}
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// Helper returns the fully-connected type for the character code.
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static NetworkType NonLinearity(char func) {
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switch (func) {
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case 's':
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return NT_LOGISTIC;
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case 't':
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return NT_TANH;
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case 'r':
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return NT_RELU;
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case 'l':
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return NT_LINEAR;
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case 'm':
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return NT_SOFTMAX;
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case 'p':
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return NT_POSCLIP;
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case 'n':
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return NT_SYMCLIP;
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default:
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return NT_NONE;
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}
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}
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// Parses a network that begins with 'C'.
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Network* NetworkBuilder::ParseC(const StaticShape& input_shape, char** str) {
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NetworkType type = NonLinearity((*str)[1]);
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if (type == NT_NONE) {
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tprintf("Invalid nonlinearity on C-spec!: %s\n", *str);
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return nullptr;
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}
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int y = 0, x = 0, d = 0;
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if ((y = strtol(*str + 2, str, 10)) <= 0 || **str != ',' ||
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(x = strtol(*str + 1, str, 10)) <= 0 || **str != ',' ||
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(d = strtol(*str + 1, str, 10)) <= 0) {
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tprintf("Invalid C spec!:%s\n", *str);
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return nullptr;
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}
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if (x == 1 && y == 1) {
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// No actual convolution. Just a FullyConnected on the current depth, to
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// be slid over all batch,y,x.
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return new FullyConnected("Conv1x1", input_shape.depth(), d, type);
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}
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Series* series = new Series("ConvSeries");
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Convolve* convolve =
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new Convolve("Convolve", input_shape.depth(), x / 2, y / 2);
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series->AddToStack(convolve);
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StaticShape fc_input = convolve->OutputShape(input_shape);
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series->AddToStack(new FullyConnected("ConvNL", fc_input.depth(), d, type));
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return series;
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}
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// Parses a network that begins with 'M'.
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Network* NetworkBuilder::ParseM(const StaticShape& input_shape, char** str) {
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int y = 0, x = 0;
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if ((*str)[1] != 'p' || (y = strtol(*str + 2, str, 10)) <= 0 ||
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**str != ',' || (x = strtol(*str + 1, str, 10)) <= 0) {
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tprintf("Invalid Mp spec!:%s\n", *str);
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return nullptr;
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}
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return new Maxpool("Maxpool", input_shape.depth(), x, y);
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}
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// Parses an LSTM network, either individual, bi- or quad-directional.
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Network* NetworkBuilder::ParseLSTM(const StaticShape& input_shape, char** str) {
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bool two_d = false;
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NetworkType type = NT_LSTM;
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char* spec_start = *str;
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int chars_consumed = 1;
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int num_outputs = 0;
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char key = (*str)[chars_consumed], dir = 'f', dim = 'x';
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if (key == 'S') {
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type = NT_LSTM_SOFTMAX;
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num_outputs = num_softmax_outputs_;
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++chars_consumed;
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} else if (key == 'E') {
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type = NT_LSTM_SOFTMAX_ENCODED;
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num_outputs = num_softmax_outputs_;
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++chars_consumed;
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} else if (key == '2' && (((*str)[2] == 'x' && (*str)[3] == 'y') ||
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((*str)[2] == 'y' && (*str)[3] == 'x'))) {
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chars_consumed = 4;
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dim = (*str)[3];
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two_d = true;
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} else if (key == 'f' || key == 'r' || key == 'b') {
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dir = key;
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dim = (*str)[2];
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if (dim != 'x' && dim != 'y') {
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tprintf("Invalid dimension (x|y) in L Spec!:%s\n", *str);
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return nullptr;
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}
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chars_consumed = 3;
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if ((*str)[chars_consumed] == 's') {
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++chars_consumed;
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type = NT_LSTM_SUMMARY;
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}
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} else {
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tprintf("Invalid direction (f|r|b) in L Spec!:%s\n", *str);
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return nullptr;
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}
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int num_states = strtol(*str + chars_consumed, str, 10);
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if (num_states <= 0) {
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tprintf("Invalid number of states in L Spec!:%s\n", *str);
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return nullptr;
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}
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Network* lstm = nullptr;
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if (two_d) {
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lstm = BuildLSTMXYQuad(input_shape.depth(), num_states);
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} else {
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if (num_outputs == 0) num_outputs = num_states;
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STRING name(spec_start, *str - spec_start);
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lstm = new LSTM(name, input_shape.depth(), num_states, num_outputs, false,
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type);
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if (dir != 'f') {
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Reversed* rev = new Reversed("RevLSTM", NT_XREVERSED);
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rev->SetNetwork(lstm);
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lstm = rev;
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}
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if (dir == 'b') {
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name += "LTR";
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Parallel* parallel = new Parallel("BidiLSTM", NT_PAR_RL_LSTM);
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parallel->AddToStack(new LSTM(name, input_shape.depth(), num_states,
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num_outputs, false, type));
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parallel->AddToStack(lstm);
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lstm = parallel;
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}
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}
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if (dim == 'y') {
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Reversed* rev = new Reversed("XYTransLSTM", NT_XYTRANSPOSE);
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rev->SetNetwork(lstm);
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lstm = rev;
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}
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return lstm;
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}
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// Builds a set of 4 lstms with x and y reversal, running in true parallel.
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Network* NetworkBuilder::BuildLSTMXYQuad(int num_inputs, int num_states) {
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Parallel* parallel = new Parallel("2DLSTMQuad", NT_PAR_2D_LSTM);
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parallel->AddToStack(new LSTM("L2DLTRDown", num_inputs, num_states,
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num_states, true, NT_LSTM));
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Reversed* rev = new Reversed("L2DLTRXRev", NT_XREVERSED);
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rev->SetNetwork(new LSTM("L2DRTLDown", num_inputs, num_states, num_states,
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true, NT_LSTM));
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parallel->AddToStack(rev);
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rev = new Reversed("L2DRTLYRev", NT_YREVERSED);
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rev->SetNetwork(
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new LSTM("L2DRTLUp", num_inputs, num_states, num_states, true, NT_LSTM));
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Reversed* rev2 = new Reversed("L2DXRevU", NT_XREVERSED);
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rev2->SetNetwork(rev);
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parallel->AddToStack(rev2);
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rev = new Reversed("L2DXRevY", NT_YREVERSED);
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rev->SetNetwork(new LSTM("L2DLTRDown", num_inputs, num_states, num_states,
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true, NT_LSTM));
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parallel->AddToStack(rev);
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return parallel;
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}
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// Helper builds a truly (0-d) fully connected layer of the given type.
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static Network* BuildFullyConnected(const StaticShape& input_shape,
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NetworkType type, const STRING& name,
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int depth) {
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||
|
if (input_shape.height() == 0 || input_shape.width() == 0) {
|
||
|
tprintf("Fully connected requires positive height and width, had %d,%d\n",
|
||
|
input_shape.height(), input_shape.width());
|
||
|
return nullptr;
|
||
|
}
|
||
|
int input_size = input_shape.height() * input_shape.width();
|
||
|
int input_depth = input_size * input_shape.depth();
|
||
|
Network* fc = new FullyConnected(name, input_depth, depth, type);
|
||
|
if (input_size > 1) {
|
||
|
Series* series = new Series("FCSeries");
|
||
|
series->AddToStack(new Reconfig("FCReconfig", input_shape.depth(),
|
||
|
input_shape.width(), input_shape.height()));
|
||
|
series->AddToStack(fc);
|
||
|
fc = series;
|
||
|
}
|
||
|
return fc;
|
||
|
}
|
||
|
|
||
|
// Parses a Fully connected network.
|
||
|
Network* NetworkBuilder::ParseFullyConnected(const StaticShape& input_shape,
|
||
|
char** str) {
|
||
|
char* spec_start = *str;
|
||
|
NetworkType type = NonLinearity((*str)[1]);
|
||
|
if (type == NT_NONE) {
|
||
|
tprintf("Invalid nonlinearity on F-spec!: %s\n", *str);
|
||
|
return nullptr;
|
||
|
}
|
||
|
int depth = strtol(*str + 1, str, 10);
|
||
|
if (depth <= 0) {
|
||
|
tprintf("Invalid F spec!:%s\n", *str);
|
||
|
return nullptr;
|
||
|
}
|
||
|
STRING name(spec_start, *str - spec_start);
|
||
|
return BuildFullyConnected(input_shape, type, name, depth);
|
||
|
}
|
||
|
|
||
|
// Parses an Output spec.
|
||
|
Network* NetworkBuilder::ParseOutput(const StaticShape& input_shape,
|
||
|
char** str) {
|
||
|
char dims_ch = (*str)[1];
|
||
|
if (dims_ch != '0' && dims_ch != '1' && dims_ch != '2') {
|
||
|
tprintf("Invalid dims (2|1|0) in output spec!:%s\n", *str);
|
||
|
return nullptr;
|
||
|
}
|
||
|
char type_ch = (*str)[2];
|
||
|
if (type_ch != 'l' && type_ch != 's' && type_ch != 'c') {
|
||
|
tprintf("Invalid output type (l|s|c) in output spec!:%s\n", *str);
|
||
|
return nullptr;
|
||
|
}
|
||
|
int depth = strtol(*str + 3, str, 10);
|
||
|
if (depth != num_softmax_outputs_) {
|
||
|
tprintf("Warning: given outputs %d not equal to unicharset of %d.\n", depth,
|
||
|
num_softmax_outputs_);
|
||
|
depth = num_softmax_outputs_;
|
||
|
}
|
||
|
NetworkType type = NT_SOFTMAX;
|
||
|
if (type_ch == 'l')
|
||
|
type = NT_LOGISTIC;
|
||
|
else if (type_ch == 's')
|
||
|
type = NT_SOFTMAX_NO_CTC;
|
||
|
if (dims_ch == '0') {
|
||
|
// Same as standard fully connected.
|
||
|
return BuildFullyConnected(input_shape, type, "Output", depth);
|
||
|
} else if (dims_ch == '2') {
|
||
|
// We don't care if x and/or y are variable.
|
||
|
return new FullyConnected("Output2d", input_shape.depth(), depth, type);
|
||
|
}
|
||
|
// For 1-d y has to be fixed, and if not 1, moved to depth.
|
||
|
if (input_shape.height() == 0) {
|
||
|
tprintf("Fully connected requires fixed height!\n");
|
||
|
return nullptr;
|
||
|
}
|
||
|
int input_size = input_shape.height();
|
||
|
int input_depth = input_size * input_shape.depth();
|
||
|
Network* fc = new FullyConnected("Output", input_depth, depth, type);
|
||
|
if (input_size > 1) {
|
||
|
Series* series = new Series("FCSeries");
|
||
|
series->AddToStack(new Reconfig("FCReconfig", input_shape.depth(), 1,
|
||
|
input_shape.height()));
|
||
|
series->AddToStack(fc);
|
||
|
fc = series;
|
||
|
}
|
||
|
return fc;
|
||
|
}
|
||
|
|
||
|
} // namespace tesseract.
|
||
|
|