ccstruct/rect.cpp - platform/external/tesseract - Git at Google

 /**********************************************************************
  * File:        rect.c  (Formerly box.c)
  * Description: Bounding box class definition.
  * Author:					Phil Cheatle
  * Created:					Wed Oct 16 15:18:45 BST 1991
  *
  * (C) Copyright 1991, Hewlett-Packard Ltd.
  ** 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.
  *
  **********************************************************************/

 #include          "mfcpch.h"     //precompiled headers
 #include          "rect.h"

 /**********************************************************************
  * TBOX::TBOX()  Constructor from 2 ICOORDS
  *
  **********************************************************************/

 TBOX::TBOX(                   //construtor
          const ICOORD pt1,  //one corner
          const ICOORD pt2   //the other corner
         ) {
   if (pt1.x () <= pt2.x ()) {
     if (pt1.y () <= pt2.y ()) {
       bot_left = pt1;
       top_right = pt2;
     }
     else {
       bot_left = ICOORD (pt1.x (), pt2.y ());
       top_right = ICOORD (pt2.x (), pt1.y ());
     }
   }
   else {
     if (pt1.y () <= pt2.y ()) {
       bot_left = ICOORD (pt2.x (), pt1.y ());
       top_right = ICOORD (pt1.x (), pt2.y ());
     }
     else {
       bot_left = pt2;
       top_right = pt1;
     }
   }
 }


 /**********************************************************************
  * TBOX::intersection()  Build the largest box contained in both boxes
  *
  **********************************************************************/

 TBOX TBOX::intersection(  //shared area box
                       const TBOX &box) const {
   ICOORD bl;                     //bottom left
   ICOORD tr;                     //top right

   if (overlap (box)) {
     if (box.bot_left.x () > bot_left.x ())
       bl.set_x (box.bot_left.x ());
     else
       bl.set_x (bot_left.x ());

     if (box.top_right.x () < top_right.x ())
       tr.set_x (box.top_right.x ());
     else
       tr.set_x (top_right.x ());

     if (box.bot_left.y () > bot_left.y ())
       bl.set_y (box.bot_left.y ());
     else
       bl.set_y (bot_left.y ());

     if (box.top_right.y () < top_right.y ())
       tr.set_y (box.top_right.y ());
     else
       tr.set_y (top_right.y ());
   }
   else {
     bl.set_x (MAX_INT16);
     bl.set_y (MAX_INT16);
     tr.set_x (-MAX_INT16);
     tr.set_y (-MAX_INT16);
   }
   return TBOX (bl, tr);
 }


 /**********************************************************************
  * TBOX::bounding_union()  Build the smallest box containing both boxes
  *
  **********************************************************************/

 TBOX TBOX::bounding_union(  //box enclosing both
                         const TBOX &box) const {
   ICOORD bl;                     //bottom left
   ICOORD tr;                     //top right

   if (box.bot_left.x () < bot_left.x ())
     bl.set_x (box.bot_left.x ());
   else
     bl.set_x (bot_left.x ());

   if (box.top_right.x () > top_right.x ())
     tr.set_x (box.top_right.x ());
   else
     tr.set_x (top_right.x ());

   if (box.bot_left.y () < bot_left.y ())
     bl.set_y (box.bot_left.y ());
   else
     bl.set_y (bot_left.y ());

   if (box.top_right.y () > top_right.y ())
     tr.set_y (box.top_right.y ());
   else
     tr.set_y (top_right.y ());
   return TBOX (bl, tr);
 }


 /**********************************************************************
  * TBOX::plot()  Paint a box using specified settings
  *
  **********************************************************************/

 #ifndef GRAPHICS_DISABLED
 void TBOX::plot(                      //paint box
                ScrollView* fd,       //where to paint
                ScrollView::Color fill_colour,   //colour for inside
                ScrollView::Color border_colour  //colour for border
               ) const {
   fd->Brush(fill_colour);
   fd->Pen(border_colour);
   plot(fd);
 }
 #endif


 /**********************************************************************
  * operator+=
  *
  * Extend one box to include the other  (In place union)
  **********************************************************************/

 DLLSYM TBOX &
 operator+= (                     //bounding bounding bx
 TBOX & op1,                       //operands
 const TBOX & op2) {
   if (op2.bot_left.x () < op1.bot_left.x ())
     op1.bot_left.set_x (op2.bot_left.x ());

   if (op2.top_right.x () > op1.top_right.x ())
     op1.top_right.set_x (op2.top_right.x ());

   if (op2.bot_left.y () < op1.bot_left.y ())
     op1.bot_left.set_y (op2.bot_left.y ());

   if (op2.top_right.y () > op1.top_right.y ())
     op1.top_right.set_y (op2.top_right.y ());

   return op1;
 }


 /**********************************************************************
  * operator-=
  *
  * Reduce one box to intersection with the other  (In place intersection)
  **********************************************************************/

 DLLSYM TBOX &
 operator-= (                     //inplace intersection
 TBOX & op1,                       //operands
 const TBOX & op2) {
   if (op1.overlap (op2)) {
     if (op2.bot_left.x () > op1.bot_left.x ())
       op1.bot_left.set_x (op2.bot_left.x ());

     if (op2.top_right.x () < op1.top_right.x ())
       op1.top_right.set_x (op2.top_right.x ());

     if (op2.bot_left.y () > op1.bot_left.y ())
       op1.bot_left.set_y (op2.bot_left.y ());

     if (op2.top_right.y () < op1.top_right.y ())
       op1.top_right.set_y (op2.top_right.y ());
   }
   else {
     op1.bot_left.set_x (MAX_INT16);
     op1.bot_left.set_y (MAX_INT16);
     op1.top_right.set_x (-MAX_INT16);
     op1.top_right.set_y (-MAX_INT16);
   }
   return op1;
 }


 /**********************************************************************
  * TBOX::serialise_asc()  Convert to ascii file.
  *
  **********************************************************************/

 void TBOX::serialise_asc(         //convert to ascii
                         FILE *f  //file to use
                        ) {
   bot_left.serialise_asc (f);
   top_right.serialise_asc (f);
 }


 /**********************************************************************
  * TBOX::de_serialise_asc()  Convert from ascii file.
  *
  **********************************************************************/

 void TBOX::de_serialise_asc(         //convert from ascii
                            FILE *f  //file to use
                           ) {
   bot_left.de_serialise_asc (f);
   top_right.de_serialise_asc (f);
 }
	/**********************************************************************
	* File: rect.c (Formerly box.c)
	* Description: Bounding box class definition.
	* Author: Phil Cheatle
	* Created: Wed Oct 16 15:18:45 BST 1991
	*
	* (C) Copyright 1991, Hewlett-Packard Ltd.
	** 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.
	*
	**********************************************************************/

	#include "mfcpch.h" //precompiled headers
	#include "rect.h"

	/**********************************************************************
	* TBOX::TBOX() Constructor from 2 ICOORDS
	*
	**********************************************************************/

	TBOX::TBOX( //construtor
	const ICOORD pt1, //one corner
	const ICOORD pt2 //the other corner
	) {
	if (pt1.x () <= pt2.x ()) {
	if (pt1.y () <= pt2.y ()) {
	bot_left = pt1;
	top_right = pt2;
	}
	else {
	bot_left = ICOORD (pt1.x (), pt2.y ());
	top_right = ICOORD (pt2.x (), pt1.y ());
	}
	}
	else {
	if (pt1.y () <= pt2.y ()) {
	bot_left = ICOORD (pt2.x (), pt1.y ());
	top_right = ICOORD (pt1.x (), pt2.y ());
	}
	else {
	bot_left = pt2;
	top_right = pt1;
	}
	}
	}


	/**********************************************************************
	* TBOX::intersection() Build the largest box contained in both boxes
	*
	**********************************************************************/

	TBOX TBOX::intersection( //shared area box
	const TBOX &box) const {
	ICOORD bl; //bottom left
	ICOORD tr; //top right

	if (overlap (box)) {
	if (box.bot_left.x () > bot_left.x ())
	bl.set_x (box.bot_left.x ());
	else
	bl.set_x (bot_left.x ());

	if (box.top_right.x () < top_right.x ())
	tr.set_x (box.top_right.x ());
	else
	tr.set_x (top_right.x ());

	if (box.bot_left.y () > bot_left.y ())
	bl.set_y (box.bot_left.y ());
	else
	bl.set_y (bot_left.y ());

	if (box.top_right.y () < top_right.y ())
	tr.set_y (box.top_right.y ());
	else
	tr.set_y (top_right.y ());
	}
	else {
	bl.set_x (MAX_INT16);
	bl.set_y (MAX_INT16);
	tr.set_x (-MAX_INT16);
	tr.set_y (-MAX_INT16);
	}
	return TBOX (bl, tr);
	}


	/**********************************************************************
	* TBOX::bounding_union() Build the smallest box containing both boxes
	*
	**********************************************************************/

	TBOX TBOX::bounding_union( //box enclosing both
	const TBOX &box) const {
	ICOORD bl; //bottom left
	ICOORD tr; //top right

	if (box.bot_left.x () < bot_left.x ())
	bl.set_x (box.bot_left.x ());
	else
	bl.set_x (bot_left.x ());

	if (box.top_right.x () > top_right.x ())
	tr.set_x (box.top_right.x ());
	else
	tr.set_x (top_right.x ());

	if (box.bot_left.y () < bot_left.y ())
	bl.set_y (box.bot_left.y ());
	else
	bl.set_y (bot_left.y ());

	if (box.top_right.y () > top_right.y ())
	tr.set_y (box.top_right.y ());
	else
	tr.set_y (top_right.y ());
	return TBOX (bl, tr);
	}


	/**********************************************************************
	* TBOX::plot() Paint a box using specified settings
	*
	**********************************************************************/

	#ifndef GRAPHICS_DISABLED
	void TBOX::plot( //paint box
	ScrollView* fd, //where to paint
	ScrollView::Color fill_colour, //colour for inside
	ScrollView::Color border_colour //colour for border
	) const {
	fd->Brush(fill_colour);
	fd->Pen(border_colour);
	plot(fd);
	}
	#endif


	/**********************************************************************
	* operator+=
	*
	* Extend one box to include the other (In place union)
	**********************************************************************/

	DLLSYM TBOX &
	operator+= ( //bounding bounding bx
	TBOX & op1, //operands
	const TBOX & op2) {
	if (op2.bot_left.x () < op1.bot_left.x ())
	op1.bot_left.set_x (op2.bot_left.x ());

	if (op2.top_right.x () > op1.top_right.x ())
	op1.top_right.set_x (op2.top_right.x ());

	if (op2.bot_left.y () < op1.bot_left.y ())
	op1.bot_left.set_y (op2.bot_left.y ());

	if (op2.top_right.y () > op1.top_right.y ())
	op1.top_right.set_y (op2.top_right.y ());

	return op1;
	}


	/**********************************************************************
	* operator-=
	*
	* Reduce one box to intersection with the other (In place intersection)
	**********************************************************************/

	DLLSYM TBOX &
	operator-= ( //inplace intersection
	TBOX & op1, //operands
	const TBOX & op2) {
	if (op1.overlap (op2)) {
	if (op2.bot_left.x () > op1.bot_left.x ())
	op1.bot_left.set_x (op2.bot_left.x ());

	if (op2.top_right.x () < op1.top_right.x ())
	op1.top_right.set_x (op2.top_right.x ());

	if (op2.bot_left.y () > op1.bot_left.y ())
	op1.bot_left.set_y (op2.bot_left.y ());

	if (op2.top_right.y () < op1.top_right.y ())
	op1.top_right.set_y (op2.top_right.y ());
	}
	else {
	op1.bot_left.set_x (MAX_INT16);
	op1.bot_left.set_y (MAX_INT16);
	op1.top_right.set_x (-MAX_INT16);
	op1.top_right.set_y (-MAX_INT16);
	}
	return op1;
	}


	/**********************************************************************
	* TBOX::serialise_asc() Convert to ascii file.
	*
	**********************************************************************/

	void TBOX::serialise_asc( //convert to ascii
	FILE *f //file to use
	) {
	bot_left.serialise_asc (f);
	top_right.serialise_asc (f);
	}


	/**********************************************************************
	* TBOX::de_serialise_asc() Convert from ascii file.
	*
	**********************************************************************/

	void TBOX::de_serialise_asc( //convert from ascii
	FILE *f //file to use
	) {
	bot_left.de_serialise_asc (f);
	top_right.de_serialise_asc (f);
	}