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authorThomas White <taw@physics.org>2011-06-01 18:24:30 +0200
committerThomas White <taw@physics.org>2012-02-22 15:27:27 +0100
commitacf2a729772050849cff0f2e1bba8bfa64096a05 (patch)
tree8a30e38af7f8ddd6f50a26a2f6d500fa78401c11 /tests
parente0c2ff59af7421d2ef10ffc02978ff0964b5daff (diff)
Tidy up peak integration and update unit test
Diffstat (limited to 'tests')
-rw-r--r--tests/integration_check.c327
1 files changed, 270 insertions, 57 deletions
diff --git a/tests/integration_check.c b/tests/integration_check.c
index 82278fdc..d6577032 100644
--- a/tests/integration_check.c
+++ b/tests/integration_check.c
@@ -25,11 +25,261 @@
#include "../src/beam-parameters.h"
+/* The third integration check draws a Poisson background and checks that, on
+ * average, it gets subtracted by the background subtraction. */
+static void third_integration_check(struct image *image, int n_trials,
+ int *fail)
+{
+ double mean_intensity = 0.0;
+ double mean_bg = 0.0;
+ double mean_max = 0.0;
+ double mean_sigma = 0.0;
+ int i;
+ int fs, ss;
+
+ for ( i=0; i<n_trials; i++ ) {
+
+ double intensity, bg, max, sigma;
+ double fsp, ssp;
+
+ for ( fs=0; fs<image->width; fs++ ) {
+ for ( ss=0; ss<image->height; ss++ ) {
+ image->data[fs+image->width*ss] = poisson_noise(10.0);
+ }
+ }
+ integrate_peak(image, 64, 64, &fsp, &ssp, &intensity,
+ &bg, &max, &sigma, 0, 1, 1);
+
+ mean_intensity += intensity;
+ mean_bg += bg;
+ mean_max += max;
+ mean_sigma += sigma;
+
+ }
+ mean_intensity /= n_trials;
+ mean_bg /= n_trials;
+ mean_max /= n_trials;
+ mean_sigma /= n_trials;
+
+ STATUS(" Third check (mean values): intensity = %.2f, bg = %.2f,"
+ " max = %.2f, sigma = %.2f\n",
+ mean_intensity, mean_bg, mean_max, mean_sigma);
+ if ( fabs(mean_intensity) > 5.0 ) {
+ ERROR("Mean intensity should be close to zero.\n");
+ *fail = 1;
+ }
+ if ( fabs(mean_bg-10.0) > 0.3 ) {
+ ERROR("Mean background should be close to ten.\n");
+ *fail = 1;
+ }
+ if ( fabs(mean_intensity) > mean_sigma ) {
+ ERROR("Mean intensity should be less than mean sigma.\n");
+ *fail = 1;
+ }
+}
+
+
+/* The fourth integration check draws a Poisson background and draws a peak on
+ * top of it, then checks that the intensity of the peak is correctly recovered
+ * accounting for the background. */
+static void fourth_integration_check(struct image *image, int n_trials,
+ int *fail)
+{
+ double mean_intensity = 0.0;
+ double mean_bg = 0.0;
+ double mean_max = 0.0;
+ double mean_sigma = 0.0;
+ int i;
+ int fs, ss;
+ int pcount = 0;
+
+ for ( i=0; i<n_trials; i++ ) {
+
+ double intensity, bg, max, sigma;
+ double fsp, ssp;
+
+ for ( fs=0; fs<image->width; fs++ ) {
+ for ( ss=0; ss<image->height; ss++ ) {
+ int idx = fs+image->width*ss;
+ image->data[idx] = 0.0;
+ if ( (fs-64)*(fs-64) + (ss-64)*(ss-64) > 9*9 ) {
+ image->data[idx] = poisson_noise(10.0);
+ } else {
+ image->data[idx] += 1000.0;
+ pcount++;
+ }
+ }
+ }
+ integrate_peak(image, 64, 64, &fsp, &ssp, &intensity,
+ &bg, &max, &sigma, 0, 1, 1);
+
+ mean_intensity += intensity;
+ mean_bg += bg;
+ mean_max += max;
+ mean_sigma += sigma;
+
+ }
+ mean_intensity /= n_trials;
+ mean_bg /= n_trials;
+ mean_max /= n_trials;
+ mean_sigma /= n_trials;
+ pcount /= n_trials;
+
+ STATUS(" Fourth check (mean values): intensity = %.2f, bg = %.2f,"
+ " max = %.2f, sigma = %.2f\n",
+ mean_intensity, mean_bg, mean_max, mean_sigma);
+ if ( fabs(mean_intensity - pcount*1000.0) > 4000.0 ) {
+ ERROR("Mean intensity should be close to %f\n", pcount*1000.0);
+ *fail = 1;
+ }
+ if ( fabs(mean_bg-10.0) > 0.3 ) {
+ ERROR("Mean background should be close to ten.\n");
+ *fail = 1;
+ }
+ if ( fabs(mean_intensity) < mean_sigma ) {
+ ERROR("Mean intensity should be greater than mean sigma.\n");
+ *fail = 1;
+ }
+}
+
+
+/* The fifth check integrates a Poisson background with background subtraction
+ * switched off, and checks that the result is what would be expected. */
+static void fifth_integration_check(struct image *image, int n_trials,
+ int *fail)
+{
+ double mean_intensity = 0.0;
+ double mean_bg = 0.0;
+ double mean_max = 0.0;
+ double mean_sigma = 0.0;
+ int i;
+ int fs, ss;
+ int pcount = 0;
+
+ for ( i=0; i<n_trials; i++ ) {
+
+ double intensity, bg, max, sigma;
+ double fsp, ssp;
+
+ for ( fs=0; fs<image->width; fs++ ) {
+ for ( ss=0; ss<image->height; ss++ ) {
+ int idx = fs+image->width*ss;
+ image->data[idx] = poisson_noise(10.0);
+ if ( (fs-64)*(fs-64) + (ss-64)*(ss-64) <= 10*10 ) {
+ pcount++;
+ }
+ }
+ }
+ integrate_peak(image, 64, 64, &fsp, &ssp, &intensity,
+ &bg, &max, &sigma, 0, 1, 0);
+
+ mean_intensity += intensity;
+ mean_bg += bg;
+ mean_max += max;
+ mean_sigma += sigma;
+
+ }
+ mean_intensity /= n_trials;
+ mean_bg /= n_trials;
+ mean_max /= n_trials;
+ mean_sigma /= n_trials;
+ pcount /= n_trials;
+
+ STATUS(" Fifth check (mean values): intensity = %.2f, bg = %.2f,"
+ " max = %.2f, sigma = %.2f\n",
+ mean_intensity, mean_bg, mean_max, mean_sigma);
+ double s = pcount*10.0;
+ if ( fabs(mean_intensity - s) > 1.0 ) {
+ ERROR("Mean intensity should be close to %f.\n", pcount*10.0);
+ *fail = 1;
+ }
+ if ( fabs(mean_bg-10.0) > 0.3 ) {
+ ERROR("Mean background should be close to ten.\n");
+ *fail = 1;
+ }
+}
+
+
+/* The sixth check is like the fourth check, except that the background
+ * subtraction is switched off */
+static void sixth_integration_check(struct image *image, int n_trials,
+ int *fail)
+{
+ double mean_intensity = 0.0;
+ double mean_bg = 0.0;
+ double mean_max = 0.0;
+ double mean_sigma = 0.0;
+ int i;
+ int fs, ss;
+ int pcount = 0;
+ int npcount = 0;
+
+ for ( i=0; i<n_trials; i++ ) {
+
+ double intensity, bg, max, sigma;
+ double fsp, ssp;
+
+ for ( fs=0; fs<image->width; fs++ ) {
+ for ( ss=0; ss<image->height; ss++ ) {
+ int idx = fs+image->width*ss;
+ double r = (fs-64)*(fs-64) + (ss-64)*(ss-64);
+ image->data[idx] = poisson_noise(10.0);
+ if ( r < 9*9 ) {
+ image->data[idx] += 1000.0;
+ pcount++;
+ } else if ( r <= 10*10 ) {
+ npcount++;
+ }
+ }
+ }
+ integrate_peak(image, 64, 64, &fsp, &ssp, &intensity,
+ &bg, &max, &sigma, 0, 1, 0);
+
+ mean_intensity += intensity;
+ mean_bg += bg;
+ mean_max += max;
+ mean_sigma += sigma;
+
+ }
+ mean_intensity /= n_trials;
+ mean_bg /= n_trials;
+ mean_max /= n_trials;
+ mean_sigma /= n_trials;
+ pcount /= n_trials;
+ npcount /= n_trials;
+
+ STATUS(" Sixth check (mean values): intensity = %.2f, bg = %.2f,"
+ " max = %.2f, sigma = %.2f\n",
+ mean_intensity, mean_bg, mean_max, mean_sigma);
+
+ double s = pcount*1010.0 + npcount*10.0;
+ if ( fabs(mean_intensity - s) > 4000.0 ) {
+ ERROR("Mean intensity should be close to %f.\n", s);
+ *fail = 1;
+ }
+ if ( fabs(mean_bg-10.0) > 0.3 ) {
+ ERROR("Mean background should be close to ten.\n");
+ *fail = 1;
+ }
+
+ STATUS(" (Absolute value of mean sigma not (yet) tested)\n");
+}
+
+
int main(int argc, char *argv[])
{
struct image image;
double fsp, ssp, intensity, bg, max, sigma;
int fs, ss;
+ FILE *fh;
+ unsigned int seed;
+ int fail = 0;
+ const int n_trials = 1000;
+
+ fh = fopen("/dev/urandom", "r");
+ fread(&seed, sizeof(seed), 1, fh);
+ fclose(fh);
+ srand(seed);
image.data = malloc(128*128*sizeof(float));
image.flags = NULL;
@@ -65,16 +315,16 @@ int main(int argc, char *argv[])
/* First check: no intensity -> zero intensity and bg */
integrate_peak(&image, 64, 64, &fsp, &ssp, &intensity,
- &bg, &max, &sigma, 0, 1);
- STATUS(" First check: intensity = %.2f, bg = %.2f, max = %.2f,"
+ &bg, &max, &sigma, 0, 1, 1);
+ STATUS(" First check: intensity = %.2f, bg = %.2f, max = %.2f,"
" sigma = %.2f\n", intensity, bg, max, sigma);
if ( intensity != 0.0 ) {
ERROR("Intensity should be zero.\n");
- return 1;
+ fail = 1;
}
if ( bg != 0.0 ) {
ERROR("Background should be zero.\n");
- return 1;
+ fail = 1;
}
/* Second check: uniform peak gives correct value and no bg */
@@ -85,81 +335,44 @@ int main(int argc, char *argv[])
}
}
integrate_peak(&image, 64, 64, &fsp, &ssp, &intensity,
- &bg, &max, &sigma, 0, 1);
- STATUS("Second check: intensity = %.2f, bg = %.2f, max = %.2f,"
+ &bg, &max, &sigma, 0, 1, 1);
+ STATUS(" Second check: intensity = %.2f, bg = %.2f, max = %.2f,"
" sigma = %.2f\n", intensity, bg, max, sigma);
if ( fabs(intensity - M_PI*9.0*9.0*1000.0) > 4000.0 ) {
ERROR("Intensity should be close to 1000*pi*integr_r^2\n");
- return 1;
+ fail = 1;
}
if ( bg != 0.0 ) {
ERROR("Background should be zero.\n");
- return 1;
+ fail = 1;
}
if ( max != 1000.0 ) {
ERROR("Max should be 1000.\n");
- return 1;
+ fail = 1;
}
if ( sigma != 0.0 ) {
ERROR("Sigma should be zero.\n");
- return 1;
+ fail = 1;
}
/* Third check: Poisson background should get mostly subtracted */
- for ( fs=0; fs<image.width; fs++ ) {
- for ( ss=0; ss<image.height; ss++ ) {
- image.data[fs+image.width*ss] = poisson_noise(10.0);
- }
- }
- integrate_peak(&image, 64, 64, &fsp, &ssp, &intensity,
- &bg, &max, &sigma, 0, 1);
- STATUS(" Third check: intensity = %.2f, bg = %.2f, max = %.2f,"
- " sigma = %.2f\n", intensity, bg, max, sigma);
- if ( fabs(intensity) > 100.0 ) {
- ERROR("Intensity should be close to zero.\n");
- return 1;
- }
- if ( fabs(bg-10.0) > 10.0 ) {
- ERROR("Background should be close to ten.\n");
- return 1;
- }
- if ( fabs(intensity) > sigma ) {
- ERROR("Intensity should be less than sigma.\n");
- return 1;
- }
- if ( fabs(sigma-71.0) > 10.0 ) {
- ERROR("Sigma should be close to 71.\n");
- return 1;
- }
+ third_integration_check(&image, n_trials, &fail);
/* Fourth check: peak on Poisson background */
- for ( fs=0; fs<image.width; fs++ ) {
- for ( ss=0; ss<image.height; ss++ ) {
- if ( (fs-64)*(fs-64) + (ss-64)*(ss-64) > 9*9 ) continue;
- image.data[fs+image.width*ss] = 1000.0;
- }
- }
- integrate_peak(&image, 64, 64, &fsp, &ssp, &intensity,
- &bg, &max, &sigma, 0, 1);
- STATUS("Fourth check: intensity = %.2f, bg = %.2f, max = %.2f,"
- " sigma = %.2f\n", intensity, bg, max, sigma);
- if ( fabs(intensity - M_PI*9.0*9.0*1000.0) > 10000.0 ) {
- ERROR("Intensity should be close to 1000*pi*integr_r^2.\n");
- return 1;
- }
- if ( fabs(bg - 10.0) > 1.0 ) {
- ERROR("Background should be close to 10.\n");
- return 1;
- }
- if ( fabs(sigma-71.0) > 10.0 ) {
- ERROR("Sigma should be close to 71.\n");
- return 1;
- }
+ fourth_integration_check(&image, n_trials, &fail);
+
+ /* Fifth check: Like third check but without background subtraction */
+ fifth_integration_check(&image, n_trials, &fail);
+
+ /* Sixth check: Like fourth check but without background subtraction */
+ sixth_integration_check(&image, n_trials, &fail);
free(image.beam);
free(image.det->panels);
free(image.det);
free(image.data);
+ if ( fail ) return 1;
+
return 0;
}