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stars.cpp
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stars.cpp
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// $Revision: 1.3 $
// stars.cpp
// (c) 2004-2022 Matthew Arcus
// MIT License
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "utils.h"
#include "image.h"
#include "constants.h"
#include "transform.h"
#include "version.h"
#define LINESIZE 256
const double asecperyear = 2 * pi / 1296000.0;
double topmag = 1.0;
double magfact = 0.666;
bool dobv = false;
double bvfact = 4.0;
double year = 0.0;
// Map a magnitude to a linear level <= 1.0
double convertmag (double mag) {
mag -= topmag;
if (mag < 0) mag = 0;
return pow(magfact, mag);
}
void AddStars(const char* starlist, Image& image,
Transform& transform, const TransformParams& params)
{
int width = image.Width();
int height = image.Height();
FILE* starfile;
if (starlist == NULL) {
starfile = stdin;
} else {
starfile = fopen(starlist, "r");
if (starfile == NULL) {
syserror("Can't open starlist");
}
}
char linebuffer[LINESIZE];
int i = 0;
while (fgets(linebuffer, LINESIZE, starfile) != NULL) {
// Read the appropriate entry in the star list
double mag, bv, ra, dec, raproper, decproper;
if (sscanf (linebuffer, "%lf %lf %lf %lf %lf %lf",
&mag, &bv, &ra, &dec,
&raproper, &decproper) != 6) {
syserror("sscanf failure -bad input?");
}
// Change right ascension and declination to sensible units (radians)
ra = pi * ra / 12.0;
dec = pi * dec / 180.0;
// And put RA into to the expected range
if (ra > pi) { ra -= 2 * pi; }
// Apply proper motion, if required
if (year != 0.0) {
// Allegedly, both raproper and dec proper are in arcseconds per year
ra += year * raproper * asecperyear;
dec += year * decproper * asecperyear;
// And put back into range
if (dec > piovertwo) { dec = pi - dec; ra += pi; }
if (dec < -piovertwo) { dec = -pi + dec; ra += pi; }
if (ra > pi) { ra -= 2 * pi; }
if (ra < -pi) { ra += 2 * pi; }
}
double x,y;
bool show = transform.MapXY(image, params, dec, -ra, x, y);
if (show) {
int ix = int(floor(x));
int iy = int(floor(y));
if (0 <= ix && ix < width && 0 <= iy && iy < height) {
int index = iy * width + ix;
double value = 255 * convertmag(mag);
Rgb current;
image.GetRgb(index, current);
if (value > current.r || value > current.g || value > current.b) {
// Adjust for BV color index
double r = value;
double g = value;
double b = value;
if (dobv) {
if (bv > 0) {
if (bv > bvfact) { bv = bvfact; }
g *= (bvfact - bv)/bvfact;
b *= (bvfact - bv)/bvfact;
} else if (bv < 0) {
if (bv < -bvfact) { bv = -bvfact; }
r *= (bvfact + bv)/bvfact;
g *= (bvfact + bv)/bvfact;
}
}
image.SetRgb(index, Rgb(Color(r), Color(g), Color(b)));
}
}
}
i++;
}
fclose(starfile);
}
class SkyMapper : public MapFunction
{
public:
SkyMapper(Transform& transform_, TransformParams& params_, Rgb& sky_, Rgb& bg_)
: transform(transform_), params(params_), sky(sky_), bg(bg_) {};
double Scale(int width, int height)
{
return transform.BasicScale(width,height)/params.scale;
}
void InitY(double y) {
transform.SetY(y);
}
Rgb operator()(double x, double y) const {
double x0 = 0.0, y0 = 0.0, z0 = 0.0;
double phi = 0.0, lambda = 0.0;
if (transform.Project(params,x,y,x0,y0,z0,phi,lambda)) {
return bg;
} else {
return sky;
}
}
private:
Transform& transform;
TransformParams& params;
Rgb& sky;
Rgb& bg;
};
const char* usage =
"Usage: %s [-bg r:g:b][-w n][-h n][-adjust][-f filename][-out filename]\n"
" [-back filename][-year x][-magfact x][-topmag x][-bv][-bvfact x]\n"
" [-tilt x][-turn x][-dec x][-ra x]\n"
" [-scale x][-x x][-y x][-z x]\n"
" [-a x][-date x][-time x][-p x][-aw x]\n"
" [-conic x][-conicr x][-xoff x][-yoff x]\n"
" [-grid][-gridx x][-gridy y][-gridcolor r:g:b]\n"
" latlong|equalarea|sinusoidal|sinusoidal2|mollweide|mercator|azimuthal\n"
" rectilinear|stereographic|gnomonic|perspective|bonne|hammer|lambert <infile> [<outfile>]\n";
int main(int argc, char* argv[])
{
const char* outfilename = NULL;
const char* backfilename = NULL;
const char* starlist = NULL;
int width = 800;
int height = 600;
bool adjust = false;
bool addgrid = false;
TransformParams params;
params.gridcolor = Rgb(0,0,60);
Rgb bg(0,0,0);
const char* type = "perspective";
bool typeset = false;
// array of pointers. Dynamic allocation is less typing than
// stack allocating everything.
OptSpec *optspecs [] = {
// General options
new IntSpec ("-w", width),
new IntSpec ("-h", height),
new BoolSpec ("-adjust", adjust),
new StringSpec ("-f", starlist),
new StringSpec ("-out", outfilename),
new StringSpec ("-back", backfilename),
new RgbSpec ("-bg", bg),
new DoubleSpec("-year", year),
new DoubleSpec("-magfact", magfact),
new DoubleSpec("-topmag", topmag),
new BoolSpec("-bv", dobv),
new DoubleSpec("-bvfact", bvfact),
// First the params options
new DoubleSpec ("-tilt", params.tilt, 2 * pi / 360.0 ),
new DoubleSpec ("-turn", params.turn, 2 * pi / 360.0 ),
new DoubleSpec ("-dec", params.lat, 2 * pi / 360.0 ),
new DoubleSpec ("-ra", params.lon, -2 * pi / 24.0 ),
new DoubleSpec ("-scale", params.scale),
new DoubleSpec ("-x", params.x),
new DoubleSpec ("-y", params.y),
new DoubleSpec ("-z", params.z),
new DoubleSpec ("-a", params.a),
new DoubleSpec ("-date", params.date),
new DoubleSpec ("-time", params.time, 2 * pi / 24.0),
new DoubleSpec ("-p", params.p, 2 * pi / 360.0),
new DoubleSpec ("-aw", params.aw, 2 * pi / 360.0),
new DoubleSpec ("-conic", params.conic),
new DoubleSpec ("-conicr", params.conicr),
new DoubleSpec ("-xoff", params.xoff),
new DoubleSpec ("-yoff", params.yoff),
// Grid options
new BoolSpec ("-grid", addgrid),
new IntSpec ("-gridx", params.gridx),
new IntSpec ("-gridy", params.gridy),
new RgbSpec ("-gridcolor", params.gridcolor),
NULL // Finish up
};
char *progname = argv[0];
argc--;argv++;
if (argc == 1 && strcmp(argv[0],"-v") == 0) {
fprintf(stderr,"MMPS Version %s\n", VERSION);
exit(0);
}
while (argc > 0) {
int result = OptSpec::ReadOpts(argc, argv, optspecs);
if (result == -1) {
error(usage, progname);
} else if (result != 1) {
if (typeset) { error(usage, progname); };
type = argv[0];
typeset = true;
}
argc--; argv++;
}
Transform* transform = Transform::GetTransform(type);
if (transform == NULL) {
error(usage, progname);
}
if (adjust) {
transform->AdjustSize(width, height, params);
}
Image outImage(width,height);
transform->Init(params);
if (backfilename != NULL) {
Image backImage;
backImage.Read(backfilename);
outImage.Copy(backImage);
} else {
outImage.Fill(bg);
}
if (addgrid) {
transform->AddLines(outImage, params);
}
AddStars(starlist, outImage, *transform, params);
outImage.Write(outfilename);
return 0;
}