ccstruct/points.h - platform/external/tesseract - Git at Google

 /**********************************************************************
  * File:        points.h  (Formerly coords.h)
  * Description: Coordinate class definitions.
  * Author:					Ray Smith
  * Created:					Fri Mar 15 08:32:45 GMT 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.
  *
  **********************************************************************/

 #ifndef           POINTS_H
 #define           POINTS_H

 #include          <stdio.h>
 #include          <math.h>
 #include          "elst.h"
 //#include                                      "ipeerr.h"

 class FCOORD;

 class DLLSYM ICOORD              //integer coordinate
 {
   friend class FCOORD;

   public:
     ICOORD() {  //empty constructor
       xcoord = ycoord = 0;       //default zero
     }
     ICOORD(              //constructor
            inT16 xin,    //x value
            inT16 yin) {  //y value
       xcoord = xin;
       ycoord = yin;
     }
     ~ICOORD () {                 //destructor
     }

                                  //access function
     NEWDELETE2 (ICOORD) inT16 x () const
     {
       return xcoord;
     }
     inT16 y() const {  //access_function
       return ycoord;
     }

     void set_x(  //rewrite function
                inT16 xin) {
       xcoord = xin;              //write new value
     }
     void set_y(              //rewrite function
                inT16 yin) {  //value to set
       ycoord = yin;
     }

     float sqlength() const {  //find sq length
       return (float) (xcoord * xcoord + ycoord * ycoord);
     }

     float length() const {  //find length
       return (float) sqrt (sqlength ());
     }

     float pt_to_pt_sqdist(  //sq dist between pts
                           const ICOORD &pt) const {
       ICOORD gap;

       gap.xcoord = xcoord - pt.xcoord;
       gap.ycoord = ycoord - pt.ycoord;
       return gap.sqlength ();
     }

     float pt_to_pt_dist(  //Distance between pts
                         const ICOORD &pt) const {
       return (float) sqrt (pt_to_pt_sqdist (pt));
     }

     float angle() const {  //find angle
       return (float) atan2 ((double) ycoord, (double) xcoord);
     }

     BOOL8 operator== (           //test equality
     const ICOORD & other) {
       return xcoord == other.xcoord && ycoord == other.ycoord;
     }
     BOOL8 operator!= (           //test inequality
     const ICOORD & other) {
       return xcoord != other.xcoord || ycoord != other.ycoord;
     }
     friend ICOORD operator! (    //rotate 90 deg anti
       const ICOORD &);
     friend ICOORD operator- (    //unary minus
       const ICOORD &);
     friend ICOORD operator+ (    //add
       const ICOORD &, const ICOORD &);
     friend ICOORD & operator+= ( //add
       ICOORD &, const ICOORD &);
     friend ICOORD operator- (    //subtract
       const ICOORD &, const ICOORD &);
     friend ICOORD & operator-= ( //subtract
       ICOORD &, const ICOORD &);
     friend inT32 operator% (     //scalar product
       const ICOORD &, const ICOORD &);
     friend inT32 operator *(  //cross product
                             const ICOORD &,
                             const ICOORD &);
     friend ICOORD operator *(  //multiply
                              const ICOORD &,
                              inT16);
     friend ICOORD operator *(  //multiply
                              inT16,
                              const ICOORD &);
     friend ICOORD & operator*= ( //multiply
       ICOORD &, inT16);
     friend ICOORD operator/ (    //divide
       const ICOORD &, inT16);
                                  //divide
     friend ICOORD & operator/= (ICOORD &, inT16);
     void rotate(                    //rotate
                 const FCOORD& vec);  //by vector

     void serialise_asc(  //serialise to ascii
                        FILE *f);
     void de_serialise_asc(  //serialise from ascii
                           FILE *f);

   protected:
     inT16 xcoord;                //x value
     inT16 ycoord;                //y value
 };

 class DLLSYM ICOORDELT:public ELIST_LINK, public ICOORD
                                  //embedded coord list
 {
   public:
     ICOORDELT() {  //empty constructor
     }
     ICOORDELT (                  //constructor
                                  //from ICOORD
     ICOORD icoord):ICOORD (icoord) {
     }
     ICOORDELT(              //constructor
               inT16 xin,    //x value
               inT16 yin) {  //y value
       xcoord = xin;
       ycoord = yin;
     }

     /* Note that prep_serialise() dump() and de_dump() dont need to do anything
     more than terminate recursion. */

     void prep_serialise() const {  //set ptrs to counts
     }

     void dump(  //write external bits
               FILE *) const {
     }

     void de_dump(  //read external bits
                  FILE *) {
     }

                                  //serialise to ascii
     make_serialise (ICOORDELT) void serialise_asc (
       FILE * f);
     void de_serialise_asc(  //serialise from ascii
                           FILE *f);

 };

 ELISTIZEH_S (ICOORDELT)
 class DLLSYM FCOORD
 {
   public:
     FCOORD() {
     }                            //empty constructor
     FCOORD(               //constructor
            float xvalue,  //coords to set
            float yvalue) {
       xcoord = xvalue;           //set coords
       ycoord = yvalue;
     }
     FCOORD(                  //make from ICOORD
            ICOORD icoord) {  //coords to set
       xcoord = icoord.xcoord;
       ycoord = icoord.ycoord;
     }

     float x() const {  //get coords
       return xcoord;
     }
     float y() const {
       return ycoord;
     }
     void set_x(  //rewrite function
                float xin) {
       xcoord = xin;              //write new value
     }
     void set_y(              //rewrite function
                float yin) {  //value to set
       ycoord = yin;
     }

     float sqlength() const {  //find sq length
       return xcoord * xcoord + ycoord * ycoord;
     }

     float length() const {  //find length
       return (float) sqrt (sqlength ());
     }

     float pt_to_pt_sqdist(  //sq dist between pts
                           const FCOORD &pt) const {
       FCOORD gap;

       gap.xcoord = xcoord - pt.xcoord;
       gap.ycoord = ycoord - pt.ycoord;
       return gap.sqlength ();
     }

     float pt_to_pt_dist(  //Distance between pts
                         const FCOORD &pt) const {
       return (float) sqrt (pt_to_pt_sqdist (pt));
     }

     float angle() const {  //find angle
       return (float) atan2 (ycoord, xcoord);
     }

     bool normalise();  //Convert to unit vec

     BOOL8 operator== (           //test equality
     const FCOORD & other) {
       return xcoord == other.xcoord && ycoord == other.ycoord;
     }
     BOOL8 operator!= (           //test inequality
     const FCOORD & other) {
       return xcoord != other.xcoord || ycoord != other.ycoord;
     }
                                  //rotate 90 deg anti
     friend FCOORD operator! (const FCOORD &);
                                  //unary minus
     friend FCOORD operator- (const FCOORD &);
                                  //add
     friend FCOORD operator+ (const FCOORD &, const FCOORD &);
                                  //add
     friend FCOORD & operator+= (FCOORD &, const FCOORD &);
                                  //subtract
     friend FCOORD operator- (const FCOORD &, const FCOORD &);
                                  //subtract
     friend FCOORD & operator-= (FCOORD &, const FCOORD &);
                                  //scalar product
     friend float operator% (const FCOORD &, const FCOORD &);
                                  //cross product
     friend float operator *(const FCOORD &, const FCOORD &);
     friend FCOORD operator *(const FCOORD &, float);
     //multiply
     friend FCOORD operator *(float, const FCOORD &);
     //multiply
                                  //multiply
     friend FCOORD & operator*= (FCOORD &, float);
     friend FCOORD operator/ (const FCOORD &, float);
     //divide
     void rotate(                    //rotate
                 const FCOORD vec);  //by vector
                                  //divide
     friend FCOORD & operator/= (FCOORD &, float);

   private:
     float xcoord;                //2 floating coords
     float ycoord;
 };

 #include          "ipoints.h"    /*do inline funcs */
 #endif
	/**********************************************************************
	* File: points.h (Formerly coords.h)
	* Description: Coordinate class definitions.
	* Author: Ray Smith
	* Created: Fri Mar 15 08:32:45 GMT 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.
	*
	**********************************************************************/

	#ifndef POINTS_H
	#define POINTS_H

	#include <stdio.h>
	#include <math.h>
	#include "elst.h"
	//#include "ipeerr.h"

	class FCOORD;

	class DLLSYM ICOORD //integer coordinate
	{
	friend class FCOORD;

	public:
	ICOORD() { //empty constructor
	xcoord = ycoord = 0; //default zero
	}
	ICOORD( //constructor
	inT16 xin, //x value
	inT16 yin) { //y value
	xcoord = xin;
	ycoord = yin;
	}
	~ICOORD () { //destructor
	}

	//access function
	NEWDELETE2 (ICOORD) inT16 x () const
	{
	return xcoord;
	}
	inT16 y() const { //access_function
	return ycoord;
	}

	void set_x( //rewrite function
	inT16 xin) {
	xcoord = xin; //write new value
	}
	void set_y( //rewrite function
	inT16 yin) { //value to set
	ycoord = yin;
	}

	float sqlength() const { //find sq length
	return (float) (xcoord * xcoord + ycoord * ycoord);
	}

	float length() const { //find length
	return (float) sqrt (sqlength ());
	}

	float pt_to_pt_sqdist( //sq dist between pts
	const ICOORD &pt) const {
	ICOORD gap;

	gap.xcoord = xcoord - pt.xcoord;
	gap.ycoord = ycoord - pt.ycoord;
	return gap.sqlength ();
	}

	float pt_to_pt_dist( //Distance between pts
	const ICOORD &pt) const {
	return (float) sqrt (pt_to_pt_sqdist (pt));
	}

	float angle() const { //find angle
	return (float) atan2 ((double) ycoord, (double) xcoord);
	}

	BOOL8 operator== ( //test equality
	const ICOORD & other) {
	return xcoord == other.xcoord && ycoord == other.ycoord;
	}
	BOOL8 operator!= ( //test inequality
	const ICOORD & other) {
	return xcoord != other.xcoord \|\| ycoord != other.ycoord;
	}
	friend ICOORD operator! ( //rotate 90 deg anti
	const ICOORD &);
	friend ICOORD operator- ( //unary minus
	const ICOORD &);
	friend ICOORD operator+ ( //add
	const ICOORD &, const ICOORD &);
	friend ICOORD & operator+= ( //add
	ICOORD &, const ICOORD &);
	friend ICOORD operator- ( //subtract
	const ICOORD &, const ICOORD &);
	friend ICOORD & operator-= ( //subtract
	ICOORD &, const ICOORD &);
	friend inT32 operator% ( //scalar product
	const ICOORD &, const ICOORD &);
	friend inT32 operator *( //cross product
	const ICOORD &,
	const ICOORD &);
	friend ICOORD operator *( //multiply
	const ICOORD &,
	inT16);
	friend ICOORD operator *( //multiply
	inT16,
	const ICOORD &);
	friend ICOORD & operator*= ( //multiply
	ICOORD &, inT16);
	friend ICOORD operator/ ( //divide
	const ICOORD &, inT16);
	//divide
	friend ICOORD & operator/= (ICOORD &, inT16);
	void rotate( //rotate
	const FCOORD& vec); //by vector

	void serialise_asc( //serialise to ascii
	FILE *f);
	void de_serialise_asc( //serialise from ascii
	FILE *f);

	protected:
	inT16 xcoord; //x value
	inT16 ycoord; //y value
	};

	class DLLSYM ICOORDELT:public ELIST_LINK, public ICOORD
	//embedded coord list
	{
	public:
	ICOORDELT() { //empty constructor
	}
	ICOORDELT ( //constructor
	//from ICOORD
	ICOORD icoord):ICOORD (icoord) {
	}
	ICOORDELT( //constructor
	inT16 xin, //x value
	inT16 yin) { //y value
	xcoord = xin;
	ycoord = yin;
	}

	/* Note that prep_serialise() dump() and de_dump() dont need to do anything
	more than terminate recursion. */

	void prep_serialise() const { //set ptrs to counts
	}

	void dump( //write external bits
	FILE *) const {
	}

	void de_dump( //read external bits
	FILE *) {
	}

	//serialise to ascii
	make_serialise (ICOORDELT) void serialise_asc (
	FILE * f);
	void de_serialise_asc( //serialise from ascii
	FILE *f);

	};

	ELISTIZEH_S (ICOORDELT)
	class DLLSYM FCOORD
	{
	public:
	FCOORD() {
	} //empty constructor
	FCOORD( //constructor
	float xvalue, //coords to set
	float yvalue) {
	xcoord = xvalue; //set coords
	ycoord = yvalue;
	}
	FCOORD( //make from ICOORD
	ICOORD icoord) { //coords to set
	xcoord = icoord.xcoord;
	ycoord = icoord.ycoord;
	}

	float x() const { //get coords
	return xcoord;
	}
	float y() const {
	return ycoord;
	}
	void set_x( //rewrite function
	float xin) {
	xcoord = xin; //write new value
	}
	void set_y( //rewrite function
	float yin) { //value to set
	ycoord = yin;
	}

	float sqlength() const { //find sq length
	return xcoord * xcoord + ycoord * ycoord;
	}

	float length() const { //find length
	return (float) sqrt (sqlength ());
	}

	float pt_to_pt_sqdist( //sq dist between pts
	const FCOORD &pt) const {
	FCOORD gap;

	gap.xcoord = xcoord - pt.xcoord;
	gap.ycoord = ycoord - pt.ycoord;
	return gap.sqlength ();
	}

	float pt_to_pt_dist( //Distance between pts
	const FCOORD &pt) const {
	return (float) sqrt (pt_to_pt_sqdist (pt));
	}

	float angle() const { //find angle
	return (float) atan2 (ycoord, xcoord);
	}

	bool normalise(); //Convert to unit vec

	BOOL8 operator== ( //test equality
	const FCOORD & other) {
	return xcoord == other.xcoord && ycoord == other.ycoord;
	}
	BOOL8 operator!= ( //test inequality
	const FCOORD & other) {
	return xcoord != other.xcoord \|\| ycoord != other.ycoord;
	}
	//rotate 90 deg anti
	friend FCOORD operator! (const FCOORD &);
	//unary minus
	friend FCOORD operator- (const FCOORD &);
	//add
	friend FCOORD operator+ (const FCOORD &, const FCOORD &);
	//add
	friend FCOORD & operator+= (FCOORD &, const FCOORD &);
	//subtract
	friend FCOORD operator- (const FCOORD &, const FCOORD &);
	//subtract
	friend FCOORD & operator-= (FCOORD &, const FCOORD &);
	//scalar product
	friend float operator% (const FCOORD &, const FCOORD &);
	//cross product
	friend float operator *(const FCOORD &, const FCOORD &);
	friend FCOORD operator *(const FCOORD &, float);
	//multiply
	friend FCOORD operator *(float, const FCOORD &);
	//multiply
	//multiply
	friend FCOORD & operator*= (FCOORD &, float);
	friend FCOORD operator/ (const FCOORD &, float);
	//divide
	void rotate( //rotate
	const FCOORD vec); //by vector
	//divide
	friend FCOORD & operator/= (FCOORD &, float);

	private:
	float xcoord; //2 floating coords
	float ycoord;
	};

	#include "ipoints.h" /do inline funcs /
	#endif