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ec026cadfe
git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@876 d0cd1f9f-072b-0410-8dd7-cf729c803f20
547 lines
20 KiB
C++
547 lines
20 KiB
C++
/**********************************************************************
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* File: stepblob.cpp (Formerly cblob.c)
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* Description: Code for C_BLOB class.
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* Author: Ray Smith
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* Created: Tue Oct 08 10:41:13 BST 1991
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*
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* (C) Copyright 1991, Hewlett-Packard Ltd.
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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 "stepblob.h"
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#include "allheaders.h"
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// Include automatically generated configuration file if running autoconf.
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#ifdef HAVE_CONFIG_H
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#include "config_auto.h"
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#endif
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// Max perimeter to width ratio for a baseline position above box bottom.
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const double kMaxPerimeterWidthRatio = 8.0;
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ELISTIZE (C_BLOB)
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/**********************************************************************
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* position_outline
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*
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* Position the outline in the given list at the relevant place
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* according to its nesting.
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**********************************************************************/
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static void position_outline( //put in place
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C_OUTLINE *outline, //thing to place
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C_OUTLINE_LIST *destlist //desstination list
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) {
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C_OUTLINE *dest_outline; //outline from dest list
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C_OUTLINE_IT it = destlist; //iterator
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//iterator on children
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C_OUTLINE_IT child_it = outline->child ();
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if (!it.empty ()) {
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do {
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dest_outline = it.data (); //get destination
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//encloses dest
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if (*dest_outline < *outline) {
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//take off list
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dest_outline = it.extract ();
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//put this in place
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it.add_after_then_move (outline);
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//make it a child
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child_it.add_to_end (dest_outline);
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while (!it.at_last ()) {
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it.forward (); //do rest of list
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//check for other children
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dest_outline = it.data ();
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if (*dest_outline < *outline) {
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//take off list
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dest_outline = it.extract ();
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child_it.add_to_end (dest_outline);
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//make it a child
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if (it.empty ())
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break;
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}
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}
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return; //finished
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}
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//enclosed by dest
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else if (*outline < *dest_outline) {
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position_outline (outline, dest_outline->child ());
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//place in child list
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return; //finished
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}
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it.forward ();
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}
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while (!it.at_first ());
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}
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it.add_to_end (outline); //at outer level
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}
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/**********************************************************************
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* plot_outline_list
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*
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* Draw a list of outlines in the given colour and their children
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* in the child colour.
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**********************************************************************/
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#ifndef GRAPHICS_DISABLED
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static void plot_outline_list( //draw outlines
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C_OUTLINE_LIST *list, //outline to draw
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ScrollView* window, //window to draw in
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ScrollView::Color colour, //colour to use
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ScrollView::Color child_colour //colour of children
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) {
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C_OUTLINE *outline; //current outline
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C_OUTLINE_IT it = list; //iterator
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for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) {
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outline = it.data ();
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//draw it
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outline->plot (window, colour);
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if (!outline->child ()->empty ())
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plot_outline_list (outline->child (), window,
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child_colour, child_colour);
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}
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}
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// Draws the outlines in the given colour, and child_colour, normalized
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// using the given denorm, making use of sub-pixel accurate information
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// if available.
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static void plot_normed_outline_list(const DENORM& denorm,
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C_OUTLINE_LIST *list,
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ScrollView::Color colour,
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ScrollView::Color child_colour,
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ScrollView* window) {
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C_OUTLINE_IT it(list);
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for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
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C_OUTLINE* outline = it.data();
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outline->plot_normed(denorm, colour, window);
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if (!outline->child()->empty())
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plot_normed_outline_list(denorm, outline->child(), child_colour,
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child_colour, window);
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}
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}
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#endif
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/**********************************************************************
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* reverse_outline_list
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*
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* Reverse a list of outlines and their children.
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**********************************************************************/
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static void reverse_outline_list(C_OUTLINE_LIST *list) {
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C_OUTLINE_IT it = list; // iterator
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for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
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C_OUTLINE* outline = it.data();
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outline->reverse(); // reverse it
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outline->set_flag(COUT_INVERSE, TRUE);
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if (!outline->child()->empty())
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reverse_outline_list(outline->child());
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}
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}
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/**********************************************************************
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* C_BLOB::C_BLOB
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*
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* Constructor to build a C_BLOB from a list of C_OUTLINEs.
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* The C_OUTLINEs are not copied so the source list is emptied.
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* The C_OUTLINEs are nested correctly in the blob.
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**********************************************************************/
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C_BLOB::C_BLOB(C_OUTLINE_LIST *outline_list) {
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for (C_OUTLINE_IT ol_it(outline_list); !ol_it.empty(); ol_it.forward()) {
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C_OUTLINE* outline = ol_it.extract();
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// Position this outline in appropriate position in the hierarchy.
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position_outline(outline, &outlines);
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}
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CheckInverseFlagAndDirection();
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}
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// Simpler constructor to build a blob from a single outline that has
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// already been fully initialized.
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C_BLOB::C_BLOB(C_OUTLINE* outline) {
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C_OUTLINE_IT it(&outlines);
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it.add_to_end(outline);
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}
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// Builds a set of one or more blobs from a list of outlines.
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// Input: one outline on outline_list contains all the others, but the
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// nesting and order are undefined.
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// If good_blob is true, the blob is added to good_blobs_it, unless
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// an illegal (generation-skipping) parent-child relationship is found.
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// If so, the parent blob goes to bad_blobs_it, and the immediate children
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// are promoted to the top level, recursively being sent to good_blobs_it.
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// If good_blob is false, all created blobs will go to the bad_blobs_it.
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// Output: outline_list is empty. One or more blobs are added to
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// good_blobs_it and/or bad_blobs_it.
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void C_BLOB::ConstructBlobsFromOutlines(bool good_blob,
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C_OUTLINE_LIST* outline_list,
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C_BLOB_IT* good_blobs_it,
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C_BLOB_IT* bad_blobs_it) {
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// List of top-level outlines with correctly nested children.
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C_OUTLINE_LIST nested_outlines;
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for (C_OUTLINE_IT ol_it(outline_list); !ol_it.empty(); ol_it.forward()) {
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C_OUTLINE* outline = ol_it.extract();
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// Position this outline in appropriate position in the hierarchy.
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position_outline(outline, &nested_outlines);
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}
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// Check for legal nesting and reassign as required.
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for (C_OUTLINE_IT ol_it(&nested_outlines); !ol_it.empty(); ol_it.forward()) {
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C_OUTLINE* outline = ol_it.extract();
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bool blob_is_good = good_blob;
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if (!outline->IsLegallyNested()) {
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// The blob is illegally nested.
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// Mark it bad, and add all its children to the top-level list.
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blob_is_good = false;
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ol_it.add_list_after(outline->child());
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}
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C_BLOB* blob = new C_BLOB(outline);
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// Set inverse flag and reverse if needed.
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blob->CheckInverseFlagAndDirection();
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// Put on appropriate list.
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if (!blob_is_good && bad_blobs_it != NULL)
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bad_blobs_it->add_after_then_move(blob);
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else
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good_blobs_it->add_after_then_move(blob);
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}
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}
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// Sets the COUT_INVERSE flag appropriately on the outlines and their
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// children recursively, reversing the outlines if needed so that
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// everything has an anticlockwise top-level.
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void C_BLOB::CheckInverseFlagAndDirection() {
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C_OUTLINE_IT ol_it(&outlines);
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for (ol_it.mark_cycle_pt(); !ol_it.cycled_list(); ol_it.forward()) {
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C_OUTLINE* outline = ol_it.data();
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if (outline->turn_direction() < 0) {
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outline->reverse();
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reverse_outline_list(outline->child());
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outline->set_flag(COUT_INVERSE, TRUE);
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} else {
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outline->set_flag(COUT_INVERSE, FALSE);
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}
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}
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}
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// Build and return a fake blob containing a single fake outline with no
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// steps.
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C_BLOB* C_BLOB::FakeBlob(const TBOX& box) {
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C_OUTLINE_LIST outlines;
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C_OUTLINE::FakeOutline(box, &outlines);
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return new C_BLOB(&outlines);
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}
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/**********************************************************************
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* C_BLOB::bounding_box
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*
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* Return the bounding box of the blob.
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**********************************************************************/
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TBOX C_BLOB::bounding_box() { //bounding box
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C_OUTLINE *outline; //current outline
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C_OUTLINE_IT it = &outlines; //outlines of blob
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TBOX box; //bounding box
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for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) {
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outline = it.data ();
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box += outline->bounding_box ();
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}
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return box;
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}
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/**********************************************************************
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* C_BLOB::area
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*
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* Return the area of the blob.
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**********************************************************************/
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inT32 C_BLOB::area() { //area
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C_OUTLINE *outline; //current outline
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C_OUTLINE_IT it = &outlines; //outlines of blob
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inT32 total; //total area
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total = 0;
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for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) {
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outline = it.data ();
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total += outline->area ();
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}
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return total;
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}
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/**********************************************************************
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* C_BLOB::perimeter
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*
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* Return the perimeter of the top and 2nd level outlines.
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**********************************************************************/
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inT32 C_BLOB::perimeter() {
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C_OUTLINE *outline; // current outline
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C_OUTLINE_IT it = &outlines; // outlines of blob
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inT32 total; // total perimeter
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total = 0;
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for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
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outline = it.data();
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total += outline->perimeter();
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}
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return total;
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}
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/**********************************************************************
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* C_BLOB::outer_area
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*
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* Return the area of the blob.
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**********************************************************************/
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inT32 C_BLOB::outer_area() { //area
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C_OUTLINE *outline; //current outline
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C_OUTLINE_IT it = &outlines; //outlines of blob
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inT32 total; //total area
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total = 0;
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for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) {
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outline = it.data ();
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total += outline->outer_area ();
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}
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return total;
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}
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/**********************************************************************
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* C_BLOB::count_transitions
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*
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* Return the total x and y maxes and mins in the blob.
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* Chlid outlines are not counted.
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**********************************************************************/
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inT32 C_BLOB::count_transitions( //area
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inT32 threshold //on size
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) {
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C_OUTLINE *outline; //current outline
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C_OUTLINE_IT it = &outlines; //outlines of blob
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inT32 total; //total area
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total = 0;
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for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ()) {
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outline = it.data ();
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total += outline->count_transitions (threshold);
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}
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return total;
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}
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/**********************************************************************
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* C_BLOB::move
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*
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* Move C_BLOB by vector
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**********************************************************************/
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void C_BLOB::move( // reposition blob
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const ICOORD vec // by vector
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) {
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C_OUTLINE_IT it(&outlines); // iterator
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for (it.mark_cycle_pt (); !it.cycled_list (); it.forward ())
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it.data ()->move (vec); // move each outline
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}
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// Static helper for C_BLOB::rotate to allow recursion of child outlines.
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void RotateOutlineList(const FCOORD& rotation, C_OUTLINE_LIST* outlines) {
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C_OUTLINE_LIST new_outlines;
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C_OUTLINE_IT src_it(outlines);
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C_OUTLINE_IT dest_it(&new_outlines);
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while (!src_it.empty()) {
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C_OUTLINE* old_outline = src_it.extract();
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src_it.forward();
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C_OUTLINE* new_outline = new C_OUTLINE(old_outline, rotation);
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if (!old_outline->child()->empty()) {
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RotateOutlineList(rotation, old_outline->child());
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C_OUTLINE_IT child_it(new_outline->child());
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child_it.add_list_after(old_outline->child());
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}
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delete old_outline;
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dest_it.add_to_end(new_outline);
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}
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src_it.add_list_after(&new_outlines);
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}
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/**********************************************************************
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* C_BLOB::rotate
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*
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* Rotate C_BLOB by rotation.
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* Warning! has to rebuild all the C_OUTLINEs.
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**********************************************************************/
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void C_BLOB::rotate(const FCOORD& rotation) {
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RotateOutlineList(rotation, &outlines);
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}
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// Helper calls ComputeEdgeOffsets or ComputeBinaryOffsets recursively on the
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// outline list and its children.
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static void ComputeEdgeOffsetsOutlineList(int threshold, Pix* pix,
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C_OUTLINE_LIST *list) {
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C_OUTLINE_IT it(list);
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for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
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C_OUTLINE* outline = it.data();
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if (pix != NULL && pixGetDepth(pix) == 8)
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outline->ComputeEdgeOffsets(threshold, pix);
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else
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outline->ComputeBinaryOffsets();
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if (!outline->child()->empty())
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ComputeEdgeOffsetsOutlineList(threshold, pix, outline->child());
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}
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}
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// Adds sub-pixel resolution EdgeOffsets for the outlines using greyscale
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// if the supplied pix is 8-bit or the binary edges if NULL.
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void C_BLOB::ComputeEdgeOffsets(int threshold, Pix* pix) {
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ComputeEdgeOffsetsOutlineList(threshold, pix, &outlines);
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}
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// Estimates and returns the baseline position based on the shape of the
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// outlines.
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// We first find the minimum y-coord (y_mins) at each x-coord within the blob.
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// If there is a run of some y or y+1 in y_mins that is longer than the total
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// number of positions at bottom or bottom+1, subject to the additional
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// condition that at least one side of the y/y+1 run is higher than y+1, so it
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// is not a local minimum, then y, not the bottom, makes a good candidate
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// baseline position for this blob. Eg
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// | ---|
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// | |
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// |- -----------| <= Good candidate baseline position.
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// |- -|
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// | -|
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// |---| <= Bottom of blob
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inT16 C_BLOB::EstimateBaselinePosition() {
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TBOX box = bounding_box();
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int left = box.left();
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int width = box.width();
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int bottom = box.bottom();
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if (outlines.empty() || perimeter() > width * kMaxPerimeterWidthRatio)
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return bottom; // This is only for non-CJK blobs.
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// Get the minimum y coordinate at each x-coordinate.
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GenericVector<int> y_mins;
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y_mins.init_to_size(width + 1, box.top());
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C_OUTLINE_IT it(&outlines);
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for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
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C_OUTLINE* outline = it.data();
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ICOORD pos = outline->start_pos();
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for (int s = 0; s < outline->pathlength(); ++s) {
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if (pos.y() < y_mins[pos.x() - left])
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y_mins[pos.x() - left] = pos.y();
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pos += outline->step(s);
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}
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}
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// Find the total extent of the bottom or bottom + 1.
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int bottom_extent = 0;
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for (int x = 0; x <= width; ++x) {
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if (y_mins[x] == bottom || y_mins[x] == bottom + 1)
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++bottom_extent;
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}
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// Find the lowest run longer than the bottom extent that is not the bottom.
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int best_min = box.top();
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int prev_run = 0;
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int prev_y = box.top();
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int prev_prev_y = box.top();
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for (int x = 0; x < width; x += prev_run) {
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// Find the length of the current run.
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int y_at_x = y_mins[x];
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int run = 1;
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while (x + run <= width && y_mins[x + run] == y_at_x) ++run;
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if (y_at_x > bottom + 1) {
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// Possible contender.
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int total_run = run;
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// Find extent of current value or +1 to the right of x.
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while (x + total_run <= width &&
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(y_mins[x + total_run] == y_at_x ||
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y_mins[x + total_run] == y_at_x + 1)) ++total_run;
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// At least one end has to be higher so it is not a local max.
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if (prev_prev_y > y_at_x + 1 || x + total_run > width ||
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y_mins[x + total_run] > y_at_x + 1) {
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// If the prev_run is at y + 1, then we can add that too. There cannot
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// be a suitable run at y before that or we would have found it already.
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if (prev_run > 0 && prev_y == y_at_x + 1) total_run += prev_run;
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if (total_run > bottom_extent && y_at_x < best_min) {
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best_min = y_at_x;
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}
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}
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}
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prev_run = run;
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prev_prev_y = prev_y;
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|
prev_y = y_at_x;
|
|
}
|
|
return best_min == box.top() ? bottom : best_min;
|
|
}
|
|
|
|
static void render_outline_list(C_OUTLINE_LIST *list,
|
|
int left, int top, Pix* pix) {
|
|
C_OUTLINE_IT it(list);
|
|
for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
|
|
C_OUTLINE* outline = it.data();
|
|
outline->render(left, top, pix);
|
|
if (!outline->child()->empty())
|
|
render_outline_list(outline->child(), left, top, pix);
|
|
}
|
|
}
|
|
|
|
static void render_outline_list_outline(C_OUTLINE_LIST *list,
|
|
int left, int top, Pix* pix) {
|
|
C_OUTLINE_IT it(list);
|
|
for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
|
|
C_OUTLINE* outline = it.data();
|
|
outline->render_outline(left, top, pix);
|
|
}
|
|
}
|
|
|
|
// Returns a Pix rendering of the blob. pixDestroy after use.
|
|
Pix* C_BLOB::render() {
|
|
TBOX box = bounding_box();
|
|
Pix* pix = pixCreate(box.width(), box.height(), 1);
|
|
render_outline_list(&outlines, box.left(), box.top(), pix);
|
|
return pix;
|
|
}
|
|
|
|
// Returns a Pix rendering of the outline of the blob. (no fill).
|
|
// pixDestroy after use.
|
|
Pix* C_BLOB::render_outline() {
|
|
TBOX box = bounding_box();
|
|
Pix* pix = pixCreate(box.width(), box.height(), 1);
|
|
render_outline_list_outline(&outlines, box.left(), box.top(), pix);
|
|
return pix;
|
|
}
|
|
|
|
/**********************************************************************
|
|
* C_BLOB::plot
|
|
*
|
|
* Draw the C_BLOB in the given colour.
|
|
**********************************************************************/
|
|
|
|
#ifndef GRAPHICS_DISABLED
|
|
void C_BLOB::plot(ScrollView* window, // window to draw in
|
|
ScrollView::Color blob_colour, // main colour
|
|
ScrollView::Color child_colour) { // for holes
|
|
plot_outline_list(&outlines, window, blob_colour, child_colour);
|
|
}
|
|
// Draws the blob in the given colour, and child_colour, normalized
|
|
// using the given denorm, making use of sub-pixel accurate information
|
|
// if available.
|
|
void C_BLOB::plot_normed(const DENORM& denorm,
|
|
ScrollView::Color blob_colour,
|
|
ScrollView::Color child_colour,
|
|
ScrollView* window) {
|
|
plot_normed_outline_list(denorm, &outlines, blob_colour, child_colour,
|
|
window);
|
|
}
|
|
#endif
|