src/cmd/map/route.c - plan9 - Git at Google

 #include <u.h>
 #include <libc.h>
 #include "map.h"

 /* Given two lat-lon pairs, find an orientation for the
    -o option of "map" that will place those two points
    on the equator of a standard projection, equally spaced
    about the prime meridian.

    -w and -l options are suggested also.

    Option -t prints out a series of
    coordinates that follows the (great circle) track
    in the original coordinate system,
    followed by ".
    This data is just right for map -t.

    Option -i inverts the map top-to-bottom.
 */
 struct place pole;
 struct coord twist;
 int track;
 int inv = -1;

 extern void doroute(double, double, double, double, double);

 void
 dorot(double a, double b, double *x, double *y, void (*f)(struct place *))
 {
 	struct place g;
 	deg2rad(a,&g.nlat);
 	deg2rad(b,&g.wlon);
 	(*f)(&g);
 	*x = g.nlat.l/RAD;
 	*y = g.wlon.l/RAD;
 }

 void
 rotate(double a, double b, double *x, double *y)
 {
 	dorot(a,b,x,y,normalize);
 }

 void
 rinvert(double a, double b, double *x, double *y)
 {
 	dorot(a,b,x,y,invert);
 }

 main(int argc, char **argv)
 {
 #pragma ref argv
 	double an,aw,bn,bw;
 	ARGBEGIN {
 	case 't':
 		track = 1;
 		break;

 	case 'i':
 		inv = 1;
 		break;

 	default:
 		exits("route: bad option");
 	} ARGEND;
 	if (argc<4) {
 		print("use route [-t] [-i] lat lon lat lon\n");
 		exits("arg count");
 	}
 	an = atof(argv[0]);
 	aw = atof(argv[1]);
 	bn = atof(argv[2]);
 	bw = atof(argv[3]);
 	doroute(inv*90.,an,aw,bn,bw);
 	return 0;
 }

 void
 doroute(double dir, double an, double aw, double bn, double bw)
 {
 	double an1,aw1,bn1,bw1,pn,pw;
 	double theta;
 	double cn,cw,cn1,cw1;
 	int i,n;
 	orient(an,aw,0.);
 	rotate(bn,bw,&bn1,&bw1);
 /*	printf("b %f %f\n",bn1,bw1);*/
 	orient(an,aw,bw1);
 	rinvert(0.,dir,&pn,&pw);
 /*	printf("p %f %f\n",pn,pw);*/
 	orient(pn,pw,0.);
 	rotate(an,aw,&an1,&aw1);
 	rotate(bn,bw,&bn1,&bw1);
 	theta = (aw1+bw1)/2;
 /*	printf("a %f %f \n",an1,aw1);*/
 	orient(pn,pw,theta);
 	rotate(an,aw,&an1,&aw1);
 	rotate(bn,bw,&bn1,&bw1);
 	if(fabs(aw1-bw1)>180)
 		if(theta<0.) theta+=180;
 		else theta -= 180;
 	orient(pn,pw,theta);
 	rotate(an,aw,&an1,&aw1);
 	rotate(bn,bw,&bn1,&bw1);
 	if(!track) {
 		double dlat, dlon, t;
 		/* printf("A %.4f %.4f\n",an1,aw1); */
 		/* printf("B %.4f %.4f\n",bn1,bw1); */
 		cw1 = fabs(bw1-aw1);	/* angular difference for map margins */
 		/* while (aw<0.0)
 			aw += 360.;
 		while (bw<0.0)
 			bw += 360.; */
 		dlon = fabs(aw-bw);
 		if (dlon>180)
 			dlon = 360-dlon;
 		dlat = fabs(an-bn);
 		printf("-o %.4f %.4f %.4f -w %.2f %.2f %.2f %.2f \n",
 		  pn,pw,theta, -0.3*cw1, .3*cw1, -.6*cw1, .6*cw1);

 	} else {
 		cn1 = 0;
 		n = 1 + fabs(bw1-aw1)/.2;
 		for(i=0;i<=n;i++) {
 			cw1 = aw1 + i*(bw1-aw1)/n;
 			rinvert(cn1,cw1,&cn,&cw);
 			printf("%f %f\n",cn,cw);
 		}
 		printf("\"\n");
 	}
 }
	#include <u.h>
	#include <libc.h>
	#include "map.h"

	/* Given two lat-lon pairs, find an orientation for the
	-o option of "map" that will place those two points
	on the equator of a standard projection, equally spaced
	about the prime meridian.

	-w and -l options are suggested also.

	Option -t prints out a series of
	coordinates that follows the (great circle) track
	in the original coordinate system,
	followed by ".
	This data is just right for map -t.

	Option -i inverts the map top-to-bottom.
	*/
	struct place pole;
	struct coord twist;
	int track;
	int inv = -1;

	extern void doroute(double, double, double, double, double);

	void
	dorot(double a, double b, double x, double y, void (f)(struct place ))
	{
	struct place g;
	deg2rad(a,&g.nlat);
	deg2rad(b,&g.wlon);
	(*f)(&g);
	*x = g.nlat.l/RAD;
	*y = g.wlon.l/RAD;
	}

	void
	rotate(double a, double b, double x, double y)
	{
	dorot(a,b,x,y,normalize);
	}

	void
	rinvert(double a, double b, double x, double y)
	{
	dorot(a,b,x,y,invert);
	}

	main(int argc, char **argv)
	{
	#pragma ref argv
	double an,aw,bn,bw;
	ARGBEGIN {
	case 't':
	track = 1;
	break;

	case 'i':
	inv = 1;
	break;

	default:
	exits("route: bad option");
	} ARGEND;
	if (argc<4) {
	print("use route [-t] [-i] lat lon lat lon\n");
	exits("arg count");
	}
	an = atof(argv[0]);
	aw = atof(argv[1]);
	bn = atof(argv[2]);
	bw = atof(argv[3]);
	doroute(inv*90.,an,aw,bn,bw);
	return 0;
	}

	void
	doroute(double dir, double an, double aw, double bn, double bw)
	{
	double an1,aw1,bn1,bw1,pn,pw;
	double theta;
	double cn,cw,cn1,cw1;
	int i,n;
	orient(an,aw,0.);
	rotate(bn,bw,&bn1,&bw1);
	/* printf("b %f %f\n",bn1,bw1);*/
	orient(an,aw,bw1);
	rinvert(0.,dir,&pn,&pw);
	/* printf("p %f %f\n",pn,pw);*/
	orient(pn,pw,0.);
	rotate(an,aw,&an1,&aw1);
	rotate(bn,bw,&bn1,&bw1);
	theta = (aw1+bw1)/2;
	/* printf("a %f %f \n",an1,aw1);*/
	orient(pn,pw,theta);
	rotate(an,aw,&an1,&aw1);
	rotate(bn,bw,&bn1,&bw1);
	if(fabs(aw1-bw1)>180)
	if(theta<0.) theta+=180;
	else theta -= 180;
	orient(pn,pw,theta);
	rotate(an,aw,&an1,&aw1);
	rotate(bn,bw,&bn1,&bw1);
	if(!track) {
	double dlat, dlon, t;
	/* printf("A %.4f %.4f\n",an1,aw1); */
	/* printf("B %.4f %.4f\n",bn1,bw1); */
	cw1 = fabs(bw1-aw1); /* angular difference for map margins */
	/* while (aw<0.0)
	aw += 360.;
	while (bw<0.0)
	bw += 360.; */
	dlon = fabs(aw-bw);
	if (dlon>180)
	dlon = 360-dlon;
	dlat = fabs(an-bn);
	printf("-o %.4f %.4f %.4f -w %.2f %.2f %.2f %.2f \n",
	pn,pw,theta, -0.3cw1, .3cw1, -.6cw1, .6cw1);

	} else {
	cn1 = 0;
	n = 1 + fabs(bw1-aw1)/.2;
	for(i=0;i<=n;i++) {
	cw1 = aw1 + i*(bw1-aw1)/n;
	rinvert(cn1,cw1,&cn,&cw);
	printf("%f %f\n",cn,cw);
	}
	printf("\"\n");
	}
	}