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213 lines
7.0 KiB
C++
213 lines
7.0 KiB
C++
// Copyright 2008 Google Inc. All Rights Reserved.
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// Author: shobhitsaxena@google.com (Shobhit Saxena)
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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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#ifndef TESSERACT_TEXTORD_DEVNAGARI_PROCESSING_H_
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#define TESSERACT_TEXTORD_DEVNAGARI_PROCESSING_H_
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#include "allheaders.h"
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#include "debugpixa.h"
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#include "ocrblock.h"
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#include "params.h"
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struct Pix;
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struct Box;
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struct Boxa;
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extern
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INT_VAR_H(devanagari_split_debuglevel, 0,
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"Debug level for split shiro-rekha process.");
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extern
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BOOL_VAR_H(devanagari_split_debugimage, 0,
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"Whether to create a debug image for split shiro-rekha process.");
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class TBOX;
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namespace tesseract {
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class PixelHistogram {
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public:
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PixelHistogram() {
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hist_ = NULL;
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length_ = 0;
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}
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~PixelHistogram() {
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Clear();
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}
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void Clear() {
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if (hist_) {
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delete[] hist_;
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}
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length_ = 0;
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}
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int* hist() const { return hist_; }
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int length() const {
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return length_;
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}
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// Methods to construct histograms from images. These clear any existing data.
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void ConstructVerticalCountHist(Pix* pix);
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void ConstructHorizontalCountHist(Pix* pix);
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// This method returns the global-maxima for the histogram. The frequency of
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// the global maxima is returned in count, if specified.
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int GetHistogramMaximum(int* count) const;
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private:
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int* hist_;
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int length_;
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};
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class ShiroRekhaSplitter {
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public:
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enum SplitStrategy {
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NO_SPLIT = 0, // No splitting is performed for the phase.
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MINIMAL_SPLIT, // Blobs are split minimally.
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MAXIMAL_SPLIT // Blobs are split maximally.
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};
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ShiroRekhaSplitter();
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virtual ~ShiroRekhaSplitter();
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// Top-level method to perform splitting based on current settings.
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// Returns true if a split was actually performed.
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// If split_for_pageseg is true, the pageseg_split_strategy_ is used for
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// splitting. If false, the ocr_split_strategy_ is used.
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bool Split(bool split_for_pageseg, DebugPixa* pixa_debug);
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// Clears the memory held by this object.
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void Clear();
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// Refreshes the words in the segmentation block list by using blobs in the
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// input blob list.
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// The segmentation block list must be set.
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void RefreshSegmentationWithNewBlobs(C_BLOB_LIST* new_blobs);
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// Returns true if the split strategies for pageseg and ocr are different.
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bool HasDifferentSplitStrategies() const {
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return pageseg_split_strategy_ != ocr_split_strategy_;
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}
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// This only keeps a copy of the block list pointer. At split call, the list
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// object should still be alive. This block list is used as a golden
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// segmentation when performing splitting.
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void set_segmentation_block_list(BLOCK_LIST* block_list) {
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segmentation_block_list_ = block_list;
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}
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static const int kUnspecifiedXheight = -1;
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void set_global_xheight(int xheight) {
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global_xheight_ = xheight;
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}
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void set_perform_close(bool perform) {
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perform_close_ = perform;
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}
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// Returns the image obtained from shiro-rekha splitting. The returned object
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// is owned by this class. Callers may want to clone the returned pix to keep
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// it alive beyond the life of ShiroRekhaSplitter object.
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Pix* splitted_image() {
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return splitted_image_;
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}
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// On setting the input image, a clone of it is owned by this class.
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void set_orig_pix(Pix* pix);
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// Returns the input image provided to the object. This object is owned by
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// this class. Callers may want to clone the returned pix to work with it.
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Pix* orig_pix() {
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return orig_pix_;
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}
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SplitStrategy ocr_split_strategy() const {
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return ocr_split_strategy_;
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}
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void set_ocr_split_strategy(SplitStrategy strategy) {
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ocr_split_strategy_ = strategy;
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}
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SplitStrategy pageseg_split_strategy() const {
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return pageseg_split_strategy_;
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}
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void set_pageseg_split_strategy(SplitStrategy strategy) {
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pageseg_split_strategy_ = strategy;
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}
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BLOCK_LIST* segmentation_block_list() {
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return segmentation_block_list_;
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}
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// This method returns the computed mode-height of blobs in the pix.
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// It also prunes very small blobs from calculation. Could be used to provide
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// a global xheight estimate for images which have the same point-size text.
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static int GetModeHeight(Pix* pix);
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private:
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// Method to perform a close operation on the input image. The xheight
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// estimate decides the size of sel used.
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static void PerformClose(Pix* pix, int xheight_estimate);
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// This method resolves the cc bbox to a particular row and returns the row's
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// xheight. This uses block_list_ if available, else just returns the
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// global_xheight_ estimate currently set in the object.
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int GetXheightForCC(Box* cc_bbox);
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// Returns a list of regions (boxes) which should be cleared in the original
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// image so as to perform shiro-rekha splitting. Pix is assumed to carry one
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// (or less) word only. Xheight measure could be the global estimate, the row
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// estimate, or unspecified. If unspecified, over splitting may occur, since a
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// conservative estimate of stroke width along with an associated multiplier
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// is used in its place. It is advisable to have a specified xheight when
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// splitting for classification/training.
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void SplitWordShiroRekha(SplitStrategy split_strategy,
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Pix* pix,
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int xheight,
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int word_left,
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int word_top,
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Boxa* regions_to_clear);
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// Returns a new box object for the corresponding TBOX, based on the original
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// image's coordinate system.
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Box* GetBoxForTBOX(const TBOX& tbox) const;
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// This method returns y-extents of the shiro-rekha computed from the input
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// word image.
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static void GetShiroRekhaYExtents(Pix* word_pix,
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int* shirorekha_top,
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int* shirorekha_bottom,
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int* shirorekha_ylevel);
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Pix* orig_pix_; // Just a clone of the input image passed.
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Pix* splitted_image_; // Image produced after the last splitting round. The
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// object is owned by this class.
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SplitStrategy pageseg_split_strategy_;
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SplitStrategy ocr_split_strategy_;
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Pix* debug_image_;
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// This block list is used as a golden segmentation when performing splitting.
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BLOCK_LIST* segmentation_block_list_;
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int global_xheight_;
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bool perform_close_; // Whether a morphological close operation should be
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// performed before CCs are run through splitting.
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};
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} // namespace tesseract.
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#endif // TESSERACT_TEXTORD_DEVNAGARI_PROCESSING_H_
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