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5bce3f7d87
This fixes a compiler warning: classify/intfeaturemap.cpp:33:14: warning: unused variable 'kMinPCLengthIncrease' [-Wunused-const-variable] Signed-off-by: Stefan Weil <sw@weilnetz.de>
245 lines
9.1 KiB
C++
245 lines
9.1 KiB
C++
// Copyright 2010 Google Inc. All Rights Reserved.
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// Author: rays@google.com (Ray Smith)
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///////////////////////////////////////////////////////////////////////
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// File: intfeaturemap.cpp
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// Description: Encapsulation of IntFeatureSpace with IndexMapBiDi
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// to provide a subspace mapping and fast feature lookup.
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// Created: Tue Oct 26 08:58:30 PDT 2010
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//
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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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///////////////////////////////////////////////////////////////////////
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#include "intfeaturemap.h"
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#include "intfeaturespace.h"
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#include "intfx.h"
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// These includes do not exist yet, but will be coming soon.
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//#include "sampleiterator.h"
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//#include "trainingsample.h"
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//#include "trainingsampleset.h"
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namespace tesseract {
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const int kMaxOffsetDist = 32;
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IntFeatureMap::IntFeatureMap()
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: mapping_changed_(true), compact_size_(0) {
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for (int dir = 0; dir < kNumOffsetMaps; ++dir) {
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offset_plus_[dir] = NULL;
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offset_minus_[dir] = NULL;
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}
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}
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IntFeatureMap::~IntFeatureMap() {
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Clear();
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}
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// Pseudo-accessors.
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int IntFeatureMap::IndexFeature(const INT_FEATURE_STRUCT& f) const {
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return feature_space_.Index(f);
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}
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int IntFeatureMap::MapFeature(const INT_FEATURE_STRUCT& f) const {
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return feature_map_.SparseToCompact(feature_space_.Index(f));
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}
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int IntFeatureMap::MapIndexFeature(int index_feature) const {
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return feature_map_.SparseToCompact(index_feature);
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}
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INT_FEATURE_STRUCT IntFeatureMap::InverseIndexFeature(int index_feature) const {
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return feature_space_.PositionFromIndex(index_feature);
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}
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INT_FEATURE_STRUCT IntFeatureMap::InverseMapFeature(int map_feature) const {
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int index = feature_map_.CompactToSparse(map_feature);
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return feature_space_.PositionFromIndex(index);
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}
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void IntFeatureMap::DeleteMapFeature(int map_feature) {
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feature_map_.Merge(-1, map_feature);
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mapping_changed_ = true;
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}
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bool IntFeatureMap::IsMapFeatureDeleted(int map_feature) const {
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return feature_map_.IsCompactDeleted(map_feature);
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}
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// Copies the given feature_space and uses it as the index feature map
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// from INT_FEATURE_STRUCT.
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void IntFeatureMap::Init(const IntFeatureSpace& feature_space) {
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feature_space_ = feature_space;
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mapping_changed_ = false;
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int sparse_size = feature_space_.Size();
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feature_map_.Init(sparse_size, true);
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feature_map_.Setup();
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compact_size_ = feature_map_.CompactSize();
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// Initialize look-up tables if needed.
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FCOORD dir = FeatureDirection(0);
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if (dir.x() == 0.0f && dir.y() == 0.0f)
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InitIntegerFX();
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// Compute look-up tables to generate offset features.
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for (int dir = 0; dir < kNumOffsetMaps; ++dir) {
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delete [] offset_plus_[dir];
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delete [] offset_minus_[dir];
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offset_plus_[dir] = new int[sparse_size];
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offset_minus_[dir] = new int[sparse_size];
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}
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for (int dir = 1; dir <= kNumOffsetMaps; ++dir) {
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for (int i = 0; i < sparse_size; ++i) {
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int offset_index = ComputeOffsetFeature(i, dir);
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offset_plus_[dir - 1][i] = offset_index;
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offset_index = ComputeOffsetFeature(i, -dir);
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offset_minus_[dir - 1][i] = offset_index;
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}
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}
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}
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// Helper to return an offset index feature. In this context an offset
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// feature with a dir of +/-1 is a feature of a similar direction,
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// but shifted perpendicular to the direction of the feature. An offset
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// feature with a dir of +/-2 is feature at the same position, but rotated
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// by +/- one [compact] quantum. Returns the index of the generated offset
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// feature, or -1 if it doesn't exist. Dir should be in
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// [-kNumOffsetMaps, kNumOffsetMaps] to indicate the relative direction.
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// A dir of 0 is an identity transformation.
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// Both input and output are from the index(sparse) feature space, not
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// the mapped/compact feature space, but the offset feature is the minimum
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// distance moved from the input to guarantee that it maps to the next
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// available quantum in the mapped/compact space.
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int IntFeatureMap::OffsetFeature(int index_feature, int dir) const {
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if (dir > 0 && dir <= kNumOffsetMaps)
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return offset_plus_[dir - 1][index_feature];
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else if (dir < 0 && -dir <= kNumOffsetMaps)
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return offset_minus_[-dir - 1][index_feature];
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else if (dir == 0)
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return index_feature;
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else
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return -1;
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}
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//#define EXPERIMENT_ON
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#ifdef EXPERIMENT_ON // This code is commented out as SampleIterator and
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// TrainingSample are not reviewed/checked in yet, but these functions are a
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// useful indicator of how an IntFeatureMap is setup.
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// Computes the features used by the subset of samples defined by
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// the iterator and sets up the feature mapping.
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// Returns the size of the compacted feature space.
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int IntFeatureMap::FindNZFeatureMapping(SampleIterator* it) {
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feature_map_.Init(feature_space_.Size(), false);
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int total_samples = 0;
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for (it->Begin(); !it->AtEnd(); it->Next()) {
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const TrainingSample& sample = it->GetSample();
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GenericVector<int> features;
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feature_space_.IndexAndSortFeatures(sample.features(),
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sample.num_features(),
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&features);
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int num_features = features.size();
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for (int f = 0; f < num_features; ++f)
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feature_map_.SetMap(features[f], true);
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++total_samples;
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}
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feature_map_.Setup();
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compact_size_ = feature_map_.CompactSize();
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mapping_changed_ = true;
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FinalizeMapping(it);
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tprintf("%d non-zero features found in %d samples\n",
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compact_size_, total_samples);
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return compact_size_;
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}
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#endif
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// After deleting some features, finish setting up the mapping, and map
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// all the samples. Returns the size of the compacted feature space.
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int IntFeatureMap::FinalizeMapping(SampleIterator* it) {
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if (mapping_changed_) {
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feature_map_.CompleteMerges();
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compact_size_ = feature_map_.CompactSize();
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#ifdef EXPERIMENT_ON
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it->MapSampleFeatures(*this);
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#endif
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mapping_changed_ = false;
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}
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return compact_size_;
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}
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// Prints the map features from the set in human-readable form.
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void IntFeatureMap::DebugMapFeatures(
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const GenericVector<int>& map_features) const {
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for (int i = 0; i < map_features.size(); ++i) {
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INT_FEATURE_STRUCT f = InverseMapFeature(map_features[i]);
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f.print();
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}
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}
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void IntFeatureMap::Clear() {
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for (int dir = 0; dir < kNumOffsetMaps; ++dir) {
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delete [] offset_plus_[dir];
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delete [] offset_minus_[dir];
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offset_plus_[dir] = NULL;
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offset_minus_[dir] = NULL;
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}
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}
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// Helper to compute an offset index feature. In this context an offset
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// feature with a dir of +/-1 is a feature of a similar direction,
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// but shifted perpendicular to the direction of the feature. An offset
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// feature with a dir of +/-2 is feature at the same position, but rotated
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// by +/- one [compact] quantum. Returns the index of the generated offset
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// feature, or -1 if it doesn't exist. Dir should be in
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// [-kNumOffsetMaps, kNumOffsetMaps] to indicate the relative direction.
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// A dir of 0 is an identity transformation.
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// Both input and output are from the index(sparse) feature space, not
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// the mapped/compact feature space, but the offset feature is the minimum
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// distance moved from the input to guarantee that it maps to the next
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// available quantum in the mapped/compact space.
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int IntFeatureMap::ComputeOffsetFeature(int index_feature, int dir) const {
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INT_FEATURE_STRUCT f = InverseIndexFeature(index_feature);
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ASSERT_HOST(IndexFeature(f) == index_feature);
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if (dir == 0) {
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return index_feature;
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} else if (dir == 1 || dir == -1) {
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FCOORD feature_dir = FeatureDirection(f.Theta);
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FCOORD rotation90(0.0f, 1.0f);
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feature_dir.rotate(rotation90);
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// Find the nearest existing feature.
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for (int m = 1; m < kMaxOffsetDist; ++m) {
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double x_pos = f.X + feature_dir.x() * (m * dir);
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double y_pos = f.Y + feature_dir.y() * (m * dir);
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int x = IntCastRounded(x_pos);
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int y = IntCastRounded(y_pos);
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if (x >= 0 && x <= MAX_UINT8 && y >= 0 && y <= MAX_UINT8) {
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INT_FEATURE_STRUCT offset_f;
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offset_f.X = x;
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offset_f.Y = y;
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offset_f.Theta = f.Theta;
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int offset_index = IndexFeature(offset_f);
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if (offset_index != index_feature && offset_index >= 0)
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return offset_index; // Found one.
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} else {
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return -1; // Hit the edge of feature space.
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}
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}
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} else if (dir == 2 || dir == -2) {
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// Find the nearest existing index_feature.
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for (int m = 1; m < kMaxOffsetDist; ++m) {
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int theta = f.Theta + m * dir / 2;
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INT_FEATURE_STRUCT offset_f;
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offset_f.X = f.X;
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offset_f.Y = f.Y;
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offset_f.Theta = Modulo(theta, 256);
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int offset_index = IndexFeature(offset_f);
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if (offset_index != index_feature && offset_index >= 0)
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return offset_index; // Found one.
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}
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}
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return -1; // Nothing within the max distance.
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}
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} // namespace tesseract.
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