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

 /**********************************************************************
  * File:						coutln.c      (Formerly:  coutline.c)
  * Description: Code for the C_OUTLINE class.
  * Author:					Ray Smith
  * Created:					Mon Oct 07 16:01:57 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.
  *
  **********************************************************************/

 #ifndef           COUTLN_H
 #define           COUTLN_H

 #include          "crakedge.h"
 #include          "mod128.h"
 #include          "bits16.h"
 #include          "rect.h"
 #include          "blckerr.h"
 #ifndef GRAPHICS_DISABLED
 #include          "scrollview.h"
 #endif

 #define INTERSECTING    MAX_INT16//no winding number

                                  //mask to get step
 #define STEP_MASK       3

 enum C_OUTLINE_FLAGS
 {
   COUT_INVERSE                   //White on black blob
 };

 class DLLSYM C_OUTLINE;          //forward declaration

 ELISTIZEH_S (C_OUTLINE)
 class DLLSYM C_OUTLINE:public ELIST_LINK
 {
   public:
     C_OUTLINE() {  //empty constructor
       steps = NULL;
     }
     C_OUTLINE(                     //constructor
               CRACKEDGE *startpt,  //from edge detector
               ICOORD bot_left,     //bounding box //length of loop
               ICOORD top_right,
               inT16 length);
     C_OUTLINE(ICOORD startpt,    //start of loop
               DIR128 *new_steps,  //steps in loop
               inT16 length);     //length of loop
                                  //outline to copy
     C_OUTLINE(C_OUTLINE *srcline, FCOORD rotation);  //and rotate
     ~C_OUTLINE () {              //destructor
       if (steps != NULL)
         free_mem(steps);
       steps = NULL;
     }

     BOOL8 flag(                               //test flag
                C_OUTLINE_FLAGS mask) const {  //flag to test
       return flags.bit (mask);
     }
     void set_flag(                       //set flag value
                   C_OUTLINE_FLAGS mask,  //flag to test
                   BOOL8 value) {         //value to set
       flags.set_bit (mask, value);
     }

     C_OUTLINE_LIST *child() {  //get child list
       return &children;
     }

                                  //access function
     const TBOX &bounding_box() const {
       return box;
     }
     void set_step(                    //set a step
                   inT16 stepindex,    //index of step
                   inT8 stepdir) {     //chain code
       int shift = stepindex%4 * 2;
       uinT8 mask = 3 << shift;
       steps[stepindex/4] = ((stepdir << shift) & mask) |
                            (steps[stepindex/4] & ~mask);
       //squeeze 4 into byte
     }
     void set_step(                    //set a step
                   inT16 stepindex,    //index of step
                   DIR128 stepdir) {   //direction
                                  //clean it
       inT8 chaindir = stepdir.get_dir() >> (DIRBITS - 2);
                                  //difference
       set_step(stepindex, chaindir);
       //squeeze 4 into byte
     }

                                  //get start position
     const ICOORD &start_pos() const {
       return start;
     }
     inT32 pathlength() const {  //get path length
       return stepcount;
     }
     // Return step at a given index as a DIR128.
     DIR128 step_dir(inT16 index) const {
       return DIR128((inT16)(((steps[index/4] >> (index%4 * 2)) & STEP_MASK) <<
                       (DIRBITS - 2)));
     }
     // Return the step vector for the given outline position.
     ICOORD step(inT16 index) const { //index of step
       return step_coords[(steps[index/4] >> (index%4 * 2)) & STEP_MASK];
     }

     inT32 area();  //return area
     inT32 outer_area();  //return area
     inT32 count_transitions(                   //count maxima
                             inT32 threshold);  //size threshold

     BOOL8 operator< (            //containment test
       const C_OUTLINE & other) const;
     BOOL8 operator> (            //containment test
       C_OUTLINE & other) const
     {
       return other < *this;      //use the < to do it
     }
     inT16 winding_number(                       //get winding number
                          ICOORD testpt) const;  //around this point
                                  //get direction
     inT16 turn_direction() const;
     void reverse();  //reverse direction

     void move(                    // reposition outline
               const ICOORD vec);  // by vector

 #ifndef GRAPHICS_DISABLED
     void plot(                       //draw one
               ScrollView* window,         //window to draw in
               ScrollView::Color colour) const;  //colour to draw it
 #endif

     void prep_serialise() {  //set ptrs to counts
       children.prep_serialise ();
     }

     void dump(  //write external bits
               FILE *f) {
                                  //stepcount = # bytes
       serialise_bytes (f, (void *) steps, step_mem());
       children.dump (f);
     }

     void de_dump(  //read external bits
                  FILE *f) {
       steps = (uinT8 *) de_serialise_bytes (f, step_mem());
       children.de_dump (f);
     }

                                  //assignment
     make_serialise (C_OUTLINE) C_OUTLINE & operator= (
       const C_OUTLINE & source); //from this

   private:
     int step_mem() const { return (stepcount+3) / 4; }

     TBOX box;                     //boudning box
     ICOORD start;                //start coord
     uinT8 *steps;                //step array
     inT16 stepcount;             //no of steps
     BITS16 flags;                //flags about outline
     C_OUTLINE_LIST children;     //child elements
     static ICOORD step_coords[4];
 };
 #endif
	/**********************************************************************
	* File: coutln.c (Formerly: coutline.c)
	* Description: Code for the C_OUTLINE class.
	* Author: Ray Smith
	* Created: Mon Oct 07 16:01:57 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.
	*
	**********************************************************************/

	#ifndef COUTLN_H
	#define COUTLN_H

	#include "crakedge.h"
	#include "mod128.h"
	#include "bits16.h"
	#include "rect.h"
	#include "blckerr.h"
	#ifndef GRAPHICS_DISABLED
	#include "scrollview.h"
	#endif

	#define INTERSECTING MAX_INT16//no winding number

	//mask to get step
	#define STEP_MASK 3

	enum C_OUTLINE_FLAGS
	{
	COUT_INVERSE //White on black blob
	};

	class DLLSYM C_OUTLINE; //forward declaration

	ELISTIZEH_S (C_OUTLINE)
	class DLLSYM C_OUTLINE:public ELIST_LINK
	{
	public:
	C_OUTLINE() { //empty constructor
	steps = NULL;
	}
	C_OUTLINE( //constructor
	CRACKEDGE *startpt, //from edge detector
	ICOORD bot_left, //bounding box //length of loop
	ICOORD top_right,
	inT16 length);
	C_OUTLINE(ICOORD startpt, //start of loop
	DIR128 *new_steps, //steps in loop
	inT16 length); //length of loop
	//outline to copy
	C_OUTLINE(C_OUTLINE *srcline, FCOORD rotation); //and rotate
	~C_OUTLINE () { //destructor
	if (steps != NULL)
	free_mem(steps);
	steps = NULL;
	}

	BOOL8 flag( //test flag
	C_OUTLINE_FLAGS mask) const { //flag to test
	return flags.bit (mask);
	}
	void set_flag( //set flag value
	C_OUTLINE_FLAGS mask, //flag to test
	BOOL8 value) { //value to set
	flags.set_bit (mask, value);
	}

	C_OUTLINE_LIST *child() { //get child list
	return &children;
	}

	//access function
	const TBOX &bounding_box() const {
	return box;
	}
	void set_step( //set a step
	inT16 stepindex, //index of step
	inT8 stepdir) { //chain code
	int shift = stepindex%4 * 2;
	uinT8 mask = 3 << shift;
	steps[stepindex/4] = ((stepdir << shift) & mask) \|
	(steps[stepindex/4] & ~mask);
	//squeeze 4 into byte
	}
	void set_step( //set a step
	inT16 stepindex, //index of step
	DIR128 stepdir) { //direction
	//clean it
	inT8 chaindir = stepdir.get_dir() >> (DIRBITS - 2);
	//difference
	set_step(stepindex, chaindir);
	//squeeze 4 into byte
	}

	//get start position
	const ICOORD &start_pos() const {
	return start;
	}
	inT32 pathlength() const { //get path length
	return stepcount;
	}
	// Return step at a given index as a DIR128.
	DIR128 step_dir(inT16 index) const {
	return DIR128((inT16)(((steps[index/4] >> (index%4 * 2)) & STEP_MASK) <<
	(DIRBITS - 2)));
	}
	// Return the step vector for the given outline position.
	ICOORD step(inT16 index) const { //index of step
	return step_coords[(steps[index/4] >> (index%4 * 2)) & STEP_MASK];
	}

	inT32 area(); //return area
	inT32 outer_area(); //return area
	inT32 count_transitions( //count maxima
	inT32 threshold); //size threshold

	BOOL8 operator< ( //containment test
	const C_OUTLINE & other) const;
	BOOL8 operator> ( //containment test
	C_OUTLINE & other) const
	{
	return other < *this; //use the < to do it
	}
	inT16 winding_number( //get winding number
	ICOORD testpt) const; //around this point
	//get direction
	inT16 turn_direction() const;
	void reverse(); //reverse direction

	void move( // reposition outline
	const ICOORD vec); // by vector

	#ifndef GRAPHICS_DISABLED
	void plot( //draw one
	ScrollView* window, //window to draw in
	ScrollView::Color colour) const; //colour to draw it
	#endif

	void prep_serialise() { //set ptrs to counts
	children.prep_serialise ();
	}

	void dump( //write external bits
	FILE *f) {
	//stepcount = # bytes
	serialise_bytes (f, (void *) steps, step_mem());
	children.dump (f);
	}

	void de_dump( //read external bits
	FILE *f) {
	steps = (uinT8 *) de_serialise_bytes (f, step_mem());
	children.de_dump (f);
	}

	//assignment
	make_serialise (C_OUTLINE) C_OUTLINE & operator= (
	const C_OUTLINE & source); //from this

	private:
	int step_mem() const { return (stepcount+3) / 4; }

	TBOX box; //boudning box
	ICOORD start; //start coord
	uinT8 *steps; //step array
	inT16 stepcount; //no of steps
	BITS16 flags; //flags about outline
	C_OUTLINE_LIST children; //child elements
	static ICOORD step_coords[4];
	};
	#endif