/********************************************************************** * 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 #include #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 // Setup for iterating over the pixels in a vector by the well-known // Bresenham rendering algorithm. // Starting with major/2 in the accumulator, on each step move by // major_step, and then add minor to the accumulator. When // accumulator >= major subtract major and also move by minor_step. void setup_render(ICOORD* major_step, ICOORD* minor_step, int* major, int* minor); 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) static ICOORDELT* deep_copy(const ICOORDELT* src) { ICOORDELT* elt = new ICOORDELT; *elt = *src; return elt; } 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