tesseract/classify/shapeclassifier.cpp

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// Copyright 2011 Google Inc. All Rights Reserved.
// Author: rays@google.com (Ray Smith)
///////////////////////////////////////////////////////////////////////
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// File: shapeclassifier.cpp
// Description: Base interface class for classifiers that return a
// shape index.
// Author: Ray Smith
// Created: Thu Dec 15 15:24:27 PST 2011
//
// (C) Copyright 2011, Google Inc.
// 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.
//
///////////////////////////////////////////////////////////////////////
#ifdef HAVE_CONFIG_H
#include "config_auto.h"
#endif
#include "shapeclassifier.h"
#include "genericvector.h"
#include "scrollview.h"
#include "shapetable.h"
#include "svmnode.h"
#include "trainingsample.h"
#include "tprintf.h"
namespace tesseract {
// Classifies the given [training] sample, writing to results.
// See shapeclassifier.h for a full description.
// Default implementation calls the ShapeRating version.
int ShapeClassifier::UnicharClassifySample(
const TrainingSample& sample, Pix* page_pix, int debug,
UNICHAR_ID keep_this, GenericVector<UnicharRating>* results) {
results->truncate(0);
GenericVector<ShapeRating> shape_results;
int num_shape_results = ClassifySample(sample, page_pix, debug, keep_this,
&shape_results);
const ShapeTable* shapes = GetShapeTable();
GenericVector<int> unichar_map;
unichar_map.init_to_size(shapes->unicharset().size(), -1);
for (int r = 0; r < num_shape_results; ++r) {
shapes->AddShapeToResults(shape_results[r], &unichar_map, results);
}
return results->size();
}
// Classifies the given [training] sample, writing to results.
// See shapeclassifier.h for a full description.
// Default implementation aborts.
int ShapeClassifier::ClassifySample(const TrainingSample& sample, Pix* page_pix,
int debug, int keep_this,
GenericVector<ShapeRating>* results) {
ASSERT_HOST("Must implement ClassifySample!" == nullptr);
return 0;
}
// Returns the shape that contains unichar_id that has the best result.
// If result is not nullptr, it is set with the shape_id and rating.
// Does not need to be overridden if ClassifySample respects the keep_this
// rule.
int ShapeClassifier::BestShapeForUnichar(const TrainingSample& sample,
Pix* page_pix, UNICHAR_ID unichar_id,
ShapeRating* result) {
GenericVector<ShapeRating> results;
const ShapeTable* shapes = GetShapeTable();
int num_results = ClassifySample(sample, page_pix, 0, unichar_id, &results);
for (int r = 0; r < num_results; ++r) {
if (shapes->GetShape(results[r].shape_id).ContainsUnichar(unichar_id)) {
if (result != nullptr)
*result = results[r];
return results[r].shape_id;
}
}
return -1;
}
// Provides access to the UNICHARSET that this classifier works with.
// Only needs to be overridden if GetShapeTable() can return nullptr.
const UNICHARSET& ShapeClassifier::GetUnicharset() const {
return GetShapeTable()->unicharset();
}
// Visual debugger classifies the given sample, displays the results and
// solicits user input to display other classifications. Returns when
// the user has finished with debugging the sample.
// Probably doesn't need to be overridden if the subclass provides
// DisplayClassifyAs.
void ShapeClassifier::DebugDisplay(const TrainingSample& sample,
Pix* page_pix,
UNICHAR_ID unichar_id) {
#ifndef GRAPHICS_DISABLED
static ScrollView* terminator = nullptr;
if (terminator == nullptr) {
terminator = new ScrollView("XIT", 0, 0, 50, 50, 50, 50, true);
}
ScrollView* debug_win = CreateFeatureSpaceWindow("ClassifierDebug", 0, 0);
// Provide a right-click menu to choose the class.
SVMenuNode* popup_menu = new SVMenuNode();
popup_menu->AddChild("Choose class to debug", 0, "x", "Class to debug");
popup_menu->BuildMenu(debug_win, false);
// Display the features in green.
const INT_FEATURE_STRUCT* features = sample.features();
int num_features = sample.num_features();
for (int f = 0; f < num_features; ++f) {
RenderIntFeature(debug_win, &features[f], ScrollView::GREEN);
}
debug_win->Update();
GenericVector<UnicharRating> results;
// Debug classification until the user quits.
const UNICHARSET& unicharset = GetUnicharset();
SVEvent* ev;
SVEventType ev_type;
do {
PointerVector<ScrollView> windows;
if (unichar_id >= 0) {
tprintf("Debugging class %d = %s\n",
unichar_id, unicharset.id_to_unichar(unichar_id));
UnicharClassifySample(sample, page_pix, 1, unichar_id, &results);
DisplayClassifyAs(sample, page_pix, unichar_id, 1, &windows);
} else {
tprintf("Invalid unichar_id: %d\n", unichar_id);
UnicharClassifySample(sample, page_pix, 1, -1, &results);
}
if (unichar_id >= 0) {
tprintf("Debugged class %d = %s\n",
unichar_id, unicharset.id_to_unichar(unichar_id));
}
tprintf("Right-click in ClassifierDebug window to choose debug class,");
tprintf(" Left-click or close window to quit...\n");
UNICHAR_ID old_unichar_id;
do {
old_unichar_id = unichar_id;
ev = debug_win->AwaitEvent(SVET_ANY);
ev_type = ev->type;
if (ev_type == SVET_POPUP) {
if (unicharset.contains_unichar(ev->parameter)) {
unichar_id = unicharset.unichar_to_id(ev->parameter);
} else {
tprintf("Char class '%s' not found in unicharset", ev->parameter);
}
}
delete ev;
} while (unichar_id == old_unichar_id &&
ev_type != SVET_CLICK && ev_type != SVET_DESTROY);
} while (ev_type != SVET_CLICK && ev_type != SVET_DESTROY);
delete debug_win;
#endif // GRAPHICS_DISABLED
}
// Displays classification as the given shape_id. Creates as many windows
// as it feels fit, using index as a guide for placement. Adds any created
// windows to the windows output and returns a new index that may be used
// by any subsequent classifiers. Caller waits for the user to view and
// then destroys the windows by clearing the vector.
int ShapeClassifier::DisplayClassifyAs(
const TrainingSample& sample, Pix* page_pix,
UNICHAR_ID unichar_id, int index,
PointerVector<ScrollView>* windows) {
// Does nothing in the default implementation.
return index;
}
// Prints debug information on the results.
void ShapeClassifier::UnicharPrintResults(
const char* context, const GenericVector<UnicharRating>& results) const {
tprintf("%s\n", context);
for (int i = 0; i < results.size(); ++i) {
tprintf("%g: c_id=%d=%s", results[i].rating, results[i].unichar_id,
GetUnicharset().id_to_unichar(results[i].unichar_id));
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if (!results[i].fonts.empty()) {
tprintf(" Font Vector:");
for (int f = 0; f < results[i].fonts.size(); ++f) {
tprintf(" %d", results[i].fonts[f].fontinfo_id);
}
}
tprintf("\n");
}
}
void ShapeClassifier::PrintResults(
const char* context, const GenericVector<ShapeRating>& results) const {
tprintf("%s\n", context);
for (int i = 0; i < results.size(); ++i) {
tprintf("%g:", results[i].rating);
if (results[i].joined)
tprintf("[J]");
if (results[i].broken)
tprintf("[B]");
tprintf(" %s\n", GetShapeTable()->DebugStr(results[i].shape_id).string());
}
}
// Removes any result that has all its unichars covered by a better choice,
// regardless of font.
void ShapeClassifier::FilterDuplicateUnichars(
GenericVector<ShapeRating>* results) const {
GenericVector<ShapeRating> filtered_results;
// Copy results to filtered results and knock out duplicate unichars.
const ShapeTable* shapes = GetShapeTable();
for (int r = 0; r < results->size(); ++r) {
if (r > 0) {
const Shape& shape_r = shapes->GetShape((*results)[r].shape_id);
int c;
for (c = 0; c < shape_r.size(); ++c) {
int unichar_id = shape_r[c].unichar_id;
int s;
for (s = 0; s < r; ++s) {
const Shape& shape_s = shapes->GetShape((*results)[s].shape_id);
if (shape_s.ContainsUnichar(unichar_id))
break; // We found unichar_id.
}
if (s == r)
break; // We didn't find unichar_id.
}
if (c == shape_r.size())
continue; // We found all the unichar ids in previous answers.
}
filtered_results.push_back((*results)[r]);
}
*results = filtered_results;
}
} // namespace tesseract.