new false color generation

vor 21 Jahren · e4e6229633
--- a/+ 4
+++ b/+ 4
@@ -1,17 +1,18 @@

 INCLUDES=-I.

 CFLAGS= -O4 $(INCLUDES)
 CFLAGS= -O3 $(INCLUDES)

 OBJS= main.o image.o dsp.o filter.o 
 OBJS= main.o image.o dsp.o filter.o reg.o fcolor.o

 atpdec:	$(OBJS)
 	$(CC) -o $@ $(OBJS) -lm -lsndfile -lpng

 main.o:	main.c cmap.h
 main.o:	main.c
 dsp.o:	dsp.c filtercoeff.h filter.h
 filter.o: filter.c filter.h
 image.o: image.c satcal.h
 fcolor.o : fcolor.c

 clean:
 	rm -f *.o atpdec
--- a/+ 45
+++ b/+ 45
@@ -22,10 +22,10 @@ and synchro pulses.
    3. Calibrated channel B image
    4. Temperature compensed I.R image
    5. False color image
    6. pixel distribution statistique (usefull for false color cmap debugging).
    6. pixel distribution statistique (usefull for false color parameter debugging).

 Input soundfiles must be mono signal sampled at 11025 Hz.
 Atpdec use libsnd to read soundfile, so any sound file format supported by libsnd
 Atpdec use libsndfile to read soundfile, so any sound file format supported by libsndfile
 could be read.(Only tested with .wav file).

 COMPILATION
@@ -40,4 +40,46 @@ If they are not on standard path, edit the include path in the Makefile.

 USAGE

 see atpdec.1 man page.
 atpdec [options] soundfiles ...

 OPTIONS

 	-i [r|a|b|c|t|d]
 	Toggle raw (r) , channel A (a) , channel B (b) , false color (c) ,
 	temperature (t) or pixel distrubution (d) output.
 	Default : "ac"

 	-d directory
 	Optional images destination directory.
 	Default : soundfile directory.

 	-s n
 	Satellite ident : n=0 :NOOA-15 n=1 :NOAA-17 
 	Used for Temperature compensation.
 	Default :  NOAA17

 	-c conf_file
 	Use configuration file for false color generation.
 	Default : Internal parameters.

 	-p 8|16
 	Output 16bits grayscale image for channel A|B and raw images.
 	Default  : 8bits images.

 OUTPUT

 Generated image are in png format, 16 or 8bits greyscale for raw and channel A|B images,
 24bits RVB for false color.

 Image names are soundfilename-x.png, where x is :
        -r for raw images
        -satellite instrument number (1,2,3A,3B,4,5) for channel A|B images
        -c for false colors.
 	-d for pixel distribution stats.

 EXAMPLE

 atpdec -d image -i ac *.wav

 Will process all .wav files in the current directory, generate only channel A and false color images and put them in the image directory.

--- a/atpdec.1
+++ b/atpdec.1
@@ -1,80 +0,0 @@
 .TH ATPDEC 1 "Atpdec ATP satellite image decoder"
 .SH NAME
 atpdec
 .SH OVERVIEW
 atpdec is a decoder for NOAA POES weather satellite images.
 It takes soundfiles recorded from a dedicated receiver and convert them into .png images.
 .SH SYNOPSIS
 .B atpdec
 .I "[options]" soundfiles ...
 .SH OPTIONS
 .TP
 .br
 .B \-c file.png
 Use a private colormap for false color generation. Default : Internal colormap.
 .TP
 .br
 .B \-i [r|a|b|c|t|d]
 Toggle raw (r) , channel A (a) , channel B (b) , false color (c) , temperatue (t) or pixel distrubution (d) output.
 Default : "ac"
 .TP
 .br
 .B \-d directory
 Optional images destination directory. Default : soundfile directory.
 .TP
 .br
 .B \-p
 Output 16bits grayscale image for channel A|B and raw images. Default  : 8bits images.
 .TP
 .br
 .B \-s n
 Satellite ident : n=0 :NOOA-15 n=1 :NOAA-17 (used by Temperature compensation step).Default :  NOAA17

 Generated image are in png format, 16 or 8bits greyscale for raw and channel A|B images,
 24bits RVB for false color.
 Image names are soundfilename-x.png, where x is :
        -r for raw images
        -satellite instrument number (1,2,3A,3B,4,5) for channel A|B images
        -c for false colors.
 	-d for pixel distribution stats.


 .SH DESCRIPTION
 Atpdec is a open source program that decode images transmitted by POES
 NOAA weather satellite serie.
 These satellites transmit continuously, among other things, medium resolution
 images of the earth on 137Mhz.
 These transmitions could be easely received with
 an inexpensive antenna and dedicated receiver.
 Output from such a receiver, is an audio signal that could be recorded
 into a soundfile with any soundcard.

 Atpdec will convert these sounfiles into .png images.

 For each soundfile up to 6 images could be generated :
 1) Raw image : contains the 2 transmitted channel images  + telemetry and synchro pulses.
        Raw image is not calibrated, so it could be too dark or too light depending of
        the recording level.

 2) Calibrated channel A image

 3) Calibrated channel B image

 4) Temperature compensed I.R  image

 5) False color image

 6) Pixel distribution statistique image (for cmap debugging only).

 Input soundfiles must be mono signal sampled at 11025 Hz.
 Atpdec use libsnd to read soundfile, so any sound file format supported by libsnd
 could be read.


 .SH EXAMPLE
 atpdec -d image -i ac *.wav

 .br
 Will process all .wav files in the current directory, generate only channel A and false color images and put them in the image directory.
 .SH AUTHOR
 Thierry Leconte (2003)
--- a/dsp.c
+++ b/dsp.c
@@ -20,8 +20,11 @@
 *
 */
 #include <math.h>
 #include <filter.h>
 #include <filtercoeff.h>
 #ifndef M_PI
 #define M_PI 3.14159265358979323846  /* for OS that don't know it */
 #endif
 #include "filter.h"
 #include "filtercoeff.h"

 #define Fe 11025
 #define PixelLine 2080
--- a/fcolor.c
+++ b/fcolor.c
@@ -3,7 +3,7 @@


 typedef struct {
 double h,s,v;
 float h,s,v;
 } hsvpix_t;

 static void HSVtoRGB( float *r, float *g, float *b, hsvpix_t pix )
@@ -48,8 +48,8 @@ static void HSVtoRGB( float *r, float *g, float *b, hsvpix_t pix )
 }

 static struct  {
 double Vthresold;
 double Tthresold;
 float Vthresold;
 float Tthresold;
 hsvpix_t CloudTop;
 hsvpix_t CloudBot;
 hsvpix_t SeaTop;
@@ -57,8 +57,8 @@ hsvpix_t SeaBot;
 hsvpix_t GroundTop;
 hsvpix_t GroundBot;
 } fcinfo= {
 	28.0,	
 	180.0,
 	30.0,	
 	170.0,
 	{0,0.0,0.3},{0,0.0,1.0},
 	{240.0,0.9,0.5},{220.0,0.8,0.8},
 	{90.0,0.8,0.3},{50.0,0.8,1.0}
--- a/filter.c
+++ b/filter.c
@@ -19,7 +19,7 @@
 *   Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 *
 */
 #include <filter.h>
 #include "filter.h"

 float fir( float *buff, const float *coeff, const int len)
 {
--- a/image.c
+++ b/image.c
@@ -34,7 +34,7 @@ static void rgcomp(double x[16], rgparam *rgpr)
 {
 /* 0.106,0.215,0.324,0.434,0.542,0.652,0.78,0.87 ,0.0 */
 const double y[9] = { 31.1,63.0,95.0,127.2,158.9,191.1,228.6,255.0, 0.0 }; 
 extern void polyreg(int m,int n,double x[],double y[],double c[]);
 extern void polyreg(const int m,const int n,const double x[],const double y[],double c[]);

 polyreg(REGORDER,9,x,y,rgpr->cf);
 }
--- a/main.c
+++ b/main.c
@@ -21,14 +21,21 @@
 */

 #include <stdio.h>
 #include <unistd.h>
 #include <string.h>
 #ifdef WIN32
 #include "w32util.h"
 #else
 #include <libgen.h>
 #endif
 #include <string.h>
 #include <sndfile.h>
 #include <png.h>

 extern getpixelrow(float *pixelv);

 #define CHA_OFFSET  86
 #define CHB_OFFSET  1126	 
 #define CH_WIDTH  909	 
 #define IMG_WIDTH  2080

 static SNDFILE *inwav;
 static int initsnd(char *filename)
@@ -65,7 +72,7 @@ png_text text_ptr[]={
 { PNG_TEXT_COMPRESSION_NONE, "Channel", NULL ,0 },
 { PNG_TEXT_COMPRESSION_NONE, "Description", "NOAA POES satellite Image" ,25 }
 };
 static int ImageOut(char *filename,const char* chid,float **prow,int nrow,int depth,int width,int offset)
 static int ImageOut(char *filename,char* chid,float **prow,int nrow,int depth,int width,int offset)
 {
 FILE *pngfile;
 png_infop info_ptr;
@@ -106,7 +113,7 @@ png_write_info(png_ptr,info_ptr);

 for(n=0;n<nrow;n++) {
 	float *pixelv;
 	png_byte pixel[2*2080];
 	png_byte pixel[2*IMG_WIDTH];
 	int	i;

 	pixelv=prow[n];
@@ -155,7 +162,7 @@ info_ptr = png_create_info_struct(png_ptr);
 	return(1);
    }

 png_set_IHDR(png_ptr, info_ptr, 909, nrow,
 png_set_IHDR(png_ptr, info_ptr, CH_WIDTH, nrow,
       8, PNG_COLOR_TYPE_RGB, PNG_INTERLACE_NONE,
       PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);

@@ -175,16 +182,16 @@ png_write_info(png_ptr,info_ptr);

 for(n=0;n<nrow;n++) {
 	float *pixelv;
 	png_color pixel[909];
 	png_color pixel[CH_WIDTH];
 	int	i;

 	pixelv=prow[n];
 	for(i=0;i<909;i++) {
 	for(i=0;i<CH_WIDTH;i++) {
 		double v,t;
 		float r,g,b;

 		v=pixelv[i+85];
 		t=pixelv[i+1125];
 		v=pixelv[i+CHA_OFFSET];
 		t=pixelv[i+CHB_OFFSET];
 		falsecolor(v,t,&r,&g,&b);
 		pixel[i].red=( unsigned int)(255.0*r);
 		pixel[i].green=( unsigned int)(255.0*g);
@@ -218,8 +225,8 @@ for(n=0;n<nrow;n++) {
        pixelv=prow[n];
        for(i=0;i<909;i++) {

                y=(int)(pixelv[i+85]);
                x=(int)(pixelv[i+1125]);
                y=(int)(pixelv[i+CHA_OFFSET]);
                x=(int)(pixelv[i+CHB_OFFSET]);
                distrib[y][x]+=1;
 		if(distrib[y][x]> max) max=distrib[y][x];
        }
@@ -256,7 +263,7 @@ char name[1024];
 char pngdirname[1024]="";
 char imgopt[20]="ac";
 float *prow[3000];
 const char *chid[6]={ "1","2","3A","4","5","3B"};
 char *chid[6]={ "1","2","3A","4","5","3B"};
 int depth=8;
 int n,nrow;
 int ch;
@@ -321,36 +328,36 @@ sf_close(inwav);
 /* raw image */
 if(strchr(imgopt,(int)'r')!=NULL){
 sprintf(pngfilename,"%s/%s-r.png",pngdirname,name);
 ImageOut(pngfilename,"raw",prow,nrow,depth,2080,0);
 ImageOut(pngfilename,"raw",prow,nrow,depth,IMG_WIDTH,0);
 }

 /* Channel A */
 if(((strchr(imgopt,(int)'a')!=NULL) || (strchr(imgopt,(int)'c')!=NULL) || (strchr(imgopt,(int)'d')!=NULL))) {
 	ch=Calibrate(prow,nrow,85);
 	ch=Calibrate(prow,nrow,CHA_OFFSET);
 	if(ch>0) {
 		a=1;
 		if(strchr(imgopt,(int)'a')!=NULL) {
 		sprintf(pngfilename,"%s/%s-%s.png",pngdirname,name,chid[ch]);
 		ImageOut(pngfilename,chid[ch],prow,nrow,depth,954,85);
 		ImageOut(pngfilename,chid[ch],prow,nrow,depth,CH_WIDTH,CHA_OFFSET);
 		}
 	}
 }

 /* Channel B */
 if((strchr(imgopt,(int)'b')!=NULL) || (strchr(imgopt,(int)'c')!=NULL) || (strchr(imgopt,(int)'t')!=NULL)) {
 	ch=Calibrate(prow,nrow,1125);
 	ch=Calibrate(prow,nrow,CHB_OFFSET);
 	if(ch>0) {
 		if(strchr(imgopt,(int)'b')!=NULL) {
 			sprintf(pngfilename,"%s/%s-%s.png",pngdirname,name,chid[ch]);
 			ImageOut(pngfilename,chid[ch],prow,nrow,depth,954,1125);
 			ImageOut(pngfilename,chid[ch],prow,nrow,depth,CH_WIDTH,CHB_OFFSET);
 		}
 	}
 	if(ch>2) {
 		b=1;
 		Temperature(prow,nrow,ch,1125);
 		Temperature(prow,nrow,ch,CHB_OFFSET);
 		if(strchr(imgopt,(int)'t')!=NULL) {
 			sprintf(pngfilename,"%s/%s-t.png",pngdirname,name);
 			ImageOut(pngfilename,"Temperature", prow,nrow,depth,954,1125);
 			ImageOut(pngfilename,"Temperature", prow,nrow,depth,CH_WIDTH,CHB_OFFSET);
 		}
 	}
 }
--- a/reg.c
+++ b/reg.c
@@ -17,7 +17,7 @@

 static void FactPiv(int N, double A[DMAX][DMAX], double B[], double Cf[]);

 void polyreg(int M, int N, double X[], double Y[], double C[])
 void polyreg(const int M, const int N, const double X[], const double Y[], double C[])
 {
    int R, K, J;                     /* Loop counters     */
    double A[DMAX][DMAX];            /* A                 */