wordrec/makechop.cpp - platform/external/tesseract - Git at Google

 /* -*-C-*-
  ********************************************************************************
  *
  * File:        makechop.c  (Formerly makechop.c)
  * Description:
  * Author:   Mark Seaman, OCR Technology
  * Created:  Fri Oct 16 14:37:00 1987
  * Modified:     Mon Jul 29 15:50:42 1991 (Mark Seaman) marks@hpgrlt
  * Language: C
  * Package:  N/A
  * Status:   Reusable Software Component
  *
  * (c) Copyright 1987, Hewlett-Packard Company.
  ** 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.
  *
  *********************************************************************************/
 /*----------------------------------------------------------------------
       I n c l u d e s
 ----------------------------------------------------------------------*/
 #include "makechop.h"
 #include "render.h"
 #include "structures.h"
 #ifdef __UNIX__
 #include <assert.h>
 #include <unistd.h>
 #endif

 /*----------------------------------------------------------------------
         Public Function Code
 ----------------------------------------------------------------------*/
 /**********************************************************************
  * apply_seam
  *
  * Split this blob into two blobs by applying the splits included in
  * the seam description.
  **********************************************************************/
 void apply_seam(TBLOB *blob, TBLOB *other_blob, SEAM *seam) {
   check_outline_mem();
   if (seam->split1 == NULL) {
     divide_blobs (blob, other_blob, seam->location);
   }
   else if (seam->split2 == NULL) {
     make_split_blobs(blob, other_blob, seam);
   }
   else if (seam->split3 == NULL) {
     make_double_split(blob, other_blob, seam);
   }
   else {
     make_triple_split(blob, other_blob, seam);
   }

   check_outline_mem();
 }


 /**********************************************************************
  * divide_blobs
  *
  * Create two blobs by grouping the outlines in the appropriate blob.
  * The outlines that are beyond the location point are moved to the
  * other blob.  The ones whose x location is less than that point are
  * retained in the original blob.
  **********************************************************************/
 void divide_blobs(TBLOB *blob, TBLOB *other_blob, inT32 location) {
   TESSLINE *outline;
   TESSLINE *outline1 = NULL;
   TESSLINE *outline2 = NULL;

   outline = blob->outlines;
   blob->outlines = NULL;

   while (outline != NULL) {
     if ((outline->topleft.x + outline->botright.x) / 2 < location) {
       /* Outline is in 1st blob */
       if (outline1) {
         outline1->next = outline;
       }
       else {
         blob->outlines = outline;
       }
       outline1 = outline;
     }
     else {
       /* Outline is in 2nd blob */
       if (outline2) {
         outline2->next = outline;
       }
       else {
         other_blob->outlines = outline;
       }
       outline2 = outline;
     }

     outline = outline->next;
   }

   if (outline1)
     outline1->next = NULL;
   if (outline2)
     outline2->next = NULL;
 }


 /**********************************************************************
  * form_two_blobs
  *
  * Group the outlines from the first blob into both of them. Do so
  * according to the information about the split.
  **********************************************************************/
 void form_two_blobs(TBLOB *blob, TBLOB *other_blob, inT32 location) {
   setup_blob_outlines(blob);

   divide_blobs(blob, other_blob, location);

   eliminate_duplicate_outlines(blob);
   eliminate_duplicate_outlines(other_blob);

   correct_blob_order(blob, other_blob);

 #ifndef GRAPHICS_DISABLED
   if (chop_debug > 2) {
     display_blob(blob, Red);
     #ifdef __UNIX__
     sleep (1);
     #endif
     display_blob(other_blob, Cyan);
   }
 #endif
 }


 /**********************************************************************
  * make_double_split
  *
  * Create two blobs out of one by splitting the original one in half.
  * Return the resultant blobs for classification.
  **********************************************************************/
 void make_double_split(TBLOB *blob, TBLOB *other_blob, SEAM *seam) {
   make_single_split (blob->outlines, seam->split1);
   make_single_split (blob->outlines, seam->split2);
   form_two_blobs (blob, other_blob, seam->location);
 }


 /**********************************************************************
  * make_single_split
  *
  * Create two outlines out of one by splitting the original one in half.
  * Return the resultant outlines.
  **********************************************************************/
 void make_single_split(TESSLINE *outlines, SPLIT *split) {
   assert (outlines != NULL);

   split_outline (split->point1, split->point2);

   while (outlines->next != NULL)
     outlines = outlines->next;

   outlines->next = newoutline ();
   outlines->next->loop = split->point1;
   outlines->next->child = NULL;
   setup_outline (outlines->next);

   outlines = outlines->next;

   outlines->next = newoutline ();
   outlines->next->loop = split->point2;
   outlines->next->child = NULL;
   setup_outline (outlines->next);

   outlines->next->next = NULL;
 }


 /**********************************************************************
  * make_split_blobs
  *
  * Create two blobs out of one by splitting the original one in half.
  * Return the resultant blobs for classification.
  **********************************************************************/
 void make_split_blobs(TBLOB *blob, TBLOB *other_blob, SEAM *seam) {
   make_single_split (blob->outlines, seam->split1);

   form_two_blobs (blob, other_blob, seam->location);
 }


 /**********************************************************************
  * make_triple_split
  *
  * Create two blobs out of one by splitting the original one in half.
  * This splitting is accomplished by applying three separate splits on
  * the outlines. Three of the starting outlines will produce two ending
  * outlines. Return the resultant blobs for classification.
  **********************************************************************/
 void make_triple_split(TBLOB *blob, TBLOB *other_blob, SEAM *seam) {
   make_single_split (blob->outlines, seam->split1);
   make_single_split (blob->outlines, seam->split2);
   make_single_split (blob->outlines, seam->split3);

   form_two_blobs (blob, other_blob, seam->location);
 }


 /**********************************************************************
  * undo_seam
  *
  * Remove the seam between these two blobs.  Produce one blob as a
  * result.  The seam may consist of one, two, or three splits.  Each
  * of these split must be removed from the outlines.
  **********************************************************************/
 void undo_seam(TBLOB *blob, TBLOB *other_blob, SEAM *seam) {
   TESSLINE *outline;

   if (!seam)
     return;                      /* Append other blob outlines */
   if (blob->outlines == NULL) {
     blob->outlines = other_blob->outlines;
     other_blob->outlines = NULL;
   }

   outline = blob->outlines;
   while (outline->next)
     outline = outline->next;
   outline->next = other_blob->outlines;
   oldblob(other_blob);

   if (seam->split1 == NULL) {
   }
   else if (seam->split2 == NULL) {
     undo_single_split (blob, seam->split1);
   }
   else if (seam->split3 == NULL) {
     undo_single_split (blob, seam->split1);
     undo_single_split (blob, seam->split2);
   }
   else {
     undo_single_split (blob, seam->split3);
     undo_single_split (blob, seam->split2);
     undo_single_split (blob, seam->split1);
   }

   setup_blob_outlines(blob);
   eliminate_duplicate_outlines(blob);

   check_outline_mem();
 }


 /**********************************************************************
  * undo_single_split
  *
  * Undo a seam that is made by a single split.  Perform the correct
  * magic to reconstruct the appropriate set of outline data structures.
  **********************************************************************/
 void undo_single_split(TBLOB *blob, SPLIT *split) {
   TESSLINE *outline1;
   TESSLINE *outline2;
   /* Modify edge points */
   unsplit_outlines (split->point1, split->point2);

   outline1 = newoutline ();
   outline1->next = blob->outlines;
   blob->outlines = outline1;
   outline1->loop = split->point1;
   outline1->child = NULL;

   outline2 = newoutline ();
   outline2->next = blob->outlines;
   blob->outlines = outline2;
   outline2->loop = split->point2;
   outline2->child = NULL;
 }
	/* --C--
	********************************************************************************
	*
	* File: makechop.c (Formerly makechop.c)
	* Description:
	* Author: Mark Seaman, OCR Technology
	* Created: Fri Oct 16 14:37:00 1987
	* Modified: Mon Jul 29 15:50:42 1991 (Mark Seaman) marks@hpgrlt
	* Language: C
	* Package: N/A
	* Status: Reusable Software Component
	*
	* (c) Copyright 1987, Hewlett-Packard Company.
	** 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.
	*
	*********************************************************************************/
	/*----------------------------------------------------------------------
	I n c l u d e s
	----------------------------------------------------------------------*/
	#include "makechop.h"
	#include "render.h"
	#include "structures.h"
	#ifdef __UNIX__
	#include <assert.h>
	#include <unistd.h>
	#endif

	/*----------------------------------------------------------------------
	Public Function Code
	----------------------------------------------------------------------*/
	/**********************************************************************
	* apply_seam
	*
	* Split this blob into two blobs by applying the splits included in
	* the seam description.
	**********************************************************************/
	void apply_seam(TBLOB blob, TBLOB other_blob, SEAM *seam) {
	check_outline_mem();
	if (seam->split1 == NULL) {
	divide_blobs (blob, other_blob, seam->location);
	}
	else if (seam->split2 == NULL) {
	make_split_blobs(blob, other_blob, seam);
	}
	else if (seam->split3 == NULL) {
	make_double_split(blob, other_blob, seam);
	}
	else {
	make_triple_split(blob, other_blob, seam);
	}

	check_outline_mem();
	}


	/**********************************************************************
	* divide_blobs
	*
	* Create two blobs by grouping the outlines in the appropriate blob.
	* The outlines that are beyond the location point are moved to the
	* other blob. The ones whose x location is less than that point are
	* retained in the original blob.
	**********************************************************************/
	void divide_blobs(TBLOB blob, TBLOB other_blob, inT32 location) {
	TESSLINE *outline;
	TESSLINE *outline1 = NULL;
	TESSLINE *outline2 = NULL;

	outline = blob->outlines;
	blob->outlines = NULL;

	while (outline != NULL) {
	if ((outline->topleft.x + outline->botright.x) / 2 < location) {
	/* Outline is in 1st blob */
	if (outline1) {
	outline1->next = outline;
	}
	else {
	blob->outlines = outline;
	}
	outline1 = outline;
	}
	else {
	/* Outline is in 2nd blob */
	if (outline2) {
	outline2->next = outline;
	}
	else {
	other_blob->outlines = outline;
	}
	outline2 = outline;
	}

	outline = outline->next;
	}

	if (outline1)
	outline1->next = NULL;
	if (outline2)
	outline2->next = NULL;
	}


	/**********************************************************************
	* form_two_blobs
	*
	* Group the outlines from the first blob into both of them. Do so
	* according to the information about the split.
	**********************************************************************/
	void form_two_blobs(TBLOB blob, TBLOB other_blob, inT32 location) {
	setup_blob_outlines(blob);

	divide_blobs(blob, other_blob, location);

	eliminate_duplicate_outlines(blob);
	eliminate_duplicate_outlines(other_blob);

	correct_blob_order(blob, other_blob);

	#ifndef GRAPHICS_DISABLED
	if (chop_debug > 2) {
	display_blob(blob, Red);
	#ifdef __UNIX__
	sleep (1);
	#endif
	display_blob(other_blob, Cyan);
	}
	#endif
	}


	/**********************************************************************
	* make_double_split
	*
	* Create two blobs out of one by splitting the original one in half.
	* Return the resultant blobs for classification.
	**********************************************************************/
	void make_double_split(TBLOB blob, TBLOB other_blob, SEAM *seam) {
	make_single_split (blob->outlines, seam->split1);
	make_single_split (blob->outlines, seam->split2);
	form_two_blobs (blob, other_blob, seam->location);
	}


	/**********************************************************************
	* make_single_split
	*
	* Create two outlines out of one by splitting the original one in half.
	* Return the resultant outlines.
	**********************************************************************/
	void make_single_split(TESSLINE outlines, SPLIT split) {
	assert (outlines != NULL);

	split_outline (split->point1, split->point2);

	while (outlines->next != NULL)
	outlines = outlines->next;

	outlines->next = newoutline ();
	outlines->next->loop = split->point1;
	outlines->next->child = NULL;
	setup_outline (outlines->next);

	outlines = outlines->next;

	outlines->next = newoutline ();
	outlines->next->loop = split->point2;
	outlines->next->child = NULL;
	setup_outline (outlines->next);

	outlines->next->next = NULL;
	}


	/**********************************************************************
	* make_split_blobs
	*
	* Create two blobs out of one by splitting the original one in half.
	* Return the resultant blobs for classification.
	**********************************************************************/
	void make_split_blobs(TBLOB blob, TBLOB other_blob, SEAM *seam) {
	make_single_split (blob->outlines, seam->split1);

	form_two_blobs (blob, other_blob, seam->location);
	}


	/**********************************************************************
	* make_triple_split
	*
	* Create two blobs out of one by splitting the original one in half.
	* This splitting is accomplished by applying three separate splits on
	* the outlines. Three of the starting outlines will produce two ending
	* outlines. Return the resultant blobs for classification.
	**********************************************************************/
	void make_triple_split(TBLOB blob, TBLOB other_blob, SEAM *seam) {
	make_single_split (blob->outlines, seam->split1);
	make_single_split (blob->outlines, seam->split2);
	make_single_split (blob->outlines, seam->split3);

	form_two_blobs (blob, other_blob, seam->location);
	}


	/**********************************************************************
	* undo_seam
	*
	* Remove the seam between these two blobs. Produce one blob as a
	* result. The seam may consist of one, two, or three splits. Each
	* of these split must be removed from the outlines.
	**********************************************************************/
	void undo_seam(TBLOB blob, TBLOB other_blob, SEAM *seam) {
	TESSLINE *outline;

	if (!seam)
	return; /* Append other blob outlines */
	if (blob->outlines == NULL) {
	blob->outlines = other_blob->outlines;
	other_blob->outlines = NULL;
	}

	outline = blob->outlines;
	while (outline->next)
	outline = outline->next;
	outline->next = other_blob->outlines;
	oldblob(other_blob);

	if (seam->split1 == NULL) {
	}
	else if (seam->split2 == NULL) {
	undo_single_split (blob, seam->split1);
	}
	else if (seam->split3 == NULL) {
	undo_single_split (blob, seam->split1);
	undo_single_split (blob, seam->split2);
	}
	else {
	undo_single_split (blob, seam->split3);
	undo_single_split (blob, seam->split2);
	undo_single_split (blob, seam->split1);
	}

	setup_blob_outlines(blob);
	eliminate_duplicate_outlines(blob);

	check_outline_mem();
	}


	/**********************************************************************
	* undo_single_split
	*
	* Undo a seam that is made by a single split. Perform the correct
	* magic to reconstruct the appropriate set of outline data structures.
	**********************************************************************/
	void undo_single_split(TBLOB blob, SPLIT split) {
	TESSLINE *outline1;
	TESSLINE *outline2;
	/* Modify edge points */
	unsplit_outlines (split->point1, split->point2);

	outline1 = newoutline ();
	outline1->next = blob->outlines;
	blob->outlines = outline1;
	outline1->loop = split->point1;
	outline1->child = NULL;

	outline2 = newoutline ();
	outline2->next = blob->outlines;
	blob->outlines = outline2;
	outline2->loop = split->point2;
	outline2->child = NULL;
	}