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-rw-r--r--src/anal_process.c239
-rw-r--r--src/big_anal_process.c270
-rw-r--r--src/cen_anal_process.c269
-rw-r--r--src/corr_test.c30
-rw-r--r--src/fracture.c1017
-rw-r--r--src/fracture.h73
-rw-r--r--src/long_anal_process.c270
7 files changed, 1091 insertions, 1077 deletions
diff --git a/src/anal_process.c b/src/anal_process.c
index 0ebec84..de27571 100644
--- a/src/anal_process.c
+++ b/src/anal_process.c
@@ -1,134 +1,135 @@
#include "fracture.h"
+#include <gsl/gsl_blas.h>
+#include <gsl/gsl_matrix.h>
#include <gsl/gsl_sf_erf.h>
#include <gsl/gsl_sf_laguerre.h>
-#include <gsl/gsl_matrix.h>
#include <gsl/gsl_vector.h>
-#include <gsl/gsl_blas.h>
void mom(uint_t len, uint_t n, uint32_t *data, double result[2]) {
- uint_t total = 0;
- double mom = 0;
- double mom_err = 0;
+ uint_t total = 0;
+ double mom = 0;
+ double mom_err = 0;
- for (uint_t i = 0; i < len; i++) {
- uint32_t datai = data[i];
- double in = pow(i, n);
+ for (uint_t i = 0; i < len; i++) {
+ uint32_t datai = data[i];
+ double in = pow(i, n);
- total += datai;
- mom += in * datai;
- mom_err += gsl_pow_2(in) * datai;
- }
+ total += datai;
+ mom += in * datai;
+ mom_err += gsl_pow_2(in) * datai;
+ }
- double momf = mom / total;
- double momf_err = momf * sqrt(mom_err / gsl_pow_2(mom) + 1 / total);
+ double momf = mom / total;
+ double momf_err = momf * sqrt(mom_err / gsl_pow_2(mom) + 1 / total);
- result[0] = momf;
- result[1] = momf_err;
+ result[0] = momf;
+ result[1] = momf_err;
}
int main(int argc, char *argv[]) {
- uint_t nc = argc - 1;
- uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
- double *betas_c = (double *)malloc(nc * sizeof(double));
- double *vals_c1 = (double *)malloc(nc * sizeof(double));
- double *errors_c1 = (double *)malloc(nc * sizeof(double));
- double *vals_c2 = (double *)malloc(nc * sizeof(double));
- double *errors_c2 = (double *)malloc(nc * sizeof(double));
- double *vals_c3 = (double *)malloc(nc * sizeof(double));
- double *errors_c3 = (double *)malloc(nc * sizeof(double));
- double *vals_c4 = (double *)malloc(nc * sizeof(double));
- double *errors_c4 = (double *)malloc(nc * sizeof(double));
-
- char *out_filename = (char *)malloc(100 * sizeof(char));
- uint_t out_filename_len = 0;
-
- for (uint_t i = 0; i < nc; i++) {
- char *fn = argv[1 + i];
- char *buff = (char *)malloc(20 * sizeof(char));
- uint_t pos = 0; uint_t c = 0;
- while (c < 5) {
- if (fn[pos] == '_') {
- c++;
- }
- if (i == 0) {
- out_filename[pos] = fn[pos];
- out_filename_len++;
- }
- pos++;
- }
- c = 0;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- Ls_c[i] = atoi(buff);
- c = 0;
- pos++;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- betas_c[i] = atof(buff);
- free(buff);
-
- uint_t dist_len = 4 * pow(Ls_c[i], 2);
- uint32_t *dist = malloc(dist_len * sizeof(uint32_t));
- FILE *dist_file = fopen(fn, "rb");
- fread(dist, sizeof(uint32_t), dist_len, dist_file);
- fclose(dist_file);
- {
- double mom1[2];
- mom(dist_len, 1, dist, mom1);
- vals_c1[i] = mom1[0];
- errors_c1[i] = mom1[1];
-
- double mom2[2];
- mom(dist_len, 2, dist, mom2);
- vals_c2[i] = mom2[0];
- errors_c2[i] = mom2[1];
-
- double mom3[2];
- mom(dist_len, 3, dist, mom3);
- vals_c3[i] = mom3[0];
- errors_c3[i] = mom3[1];
-
- double mom4[2];
- mom(dist_len, 4, dist, mom4);
- vals_c4[i] = mom4[0];
- errors_c4[i] = mom4[1];
- }
- free(dist);
- }
-
- out_filename[out_filename_len-1] = '.';
- out_filename[out_filename_len] = 't';
- out_filename[out_filename_len+1] = 'x';
- out_filename[out_filename_len+2] = 't';
- out_filename[out_filename_len+3] = '\0';
-
- FILE *out_file = fopen(out_filename, "w");
-
- for (uint_t i = 0; i < nc; i++) {
- fprintf(out_file, "%u %g %g %g %g %g %g %g %g %g\n", Ls_c[i], betas_c[i], vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i], errors_c3[i], vals_c4[i], errors_c4[i]);
- }
-
- fclose(out_file);
-
-
- free(Ls_c);
- free(betas_c);
- free(vals_c1);
- free(errors_c1);
- free(vals_c2);
- free(errors_c2);
- free(vals_c3);
- free(errors_c3);
-
- return 0;
+ uint_t nc = argc - 1;
+ uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
+ double *betas_c = (double *)malloc(nc * sizeof(double));
+ double *vals_c1 = (double *)malloc(nc * sizeof(double));
+ double *errors_c1 = (double *)malloc(nc * sizeof(double));
+ double *vals_c2 = (double *)malloc(nc * sizeof(double));
+ double *errors_c2 = (double *)malloc(nc * sizeof(double));
+ double *vals_c3 = (double *)malloc(nc * sizeof(double));
+ double *errors_c3 = (double *)malloc(nc * sizeof(double));
+ double *vals_c4 = (double *)malloc(nc * sizeof(double));
+ double *errors_c4 = (double *)malloc(nc * sizeof(double));
+
+ char *out_filename = (char *)malloc(100 * sizeof(char));
+ uint_t out_filename_len = 0;
+
+ for (uint_t i = 0; i < nc; i++) {
+ char *fn = argv[1 + i];
+ char *buff = (char *)malloc(20 * sizeof(char));
+ uint_t pos = 0;
+ uint_t c = 0;
+ while (c < 5) {
+ if (fn[pos] == '_') {
+ c++;
+ }
+ if (i == 0) {
+ out_filename[pos] = fn[pos];
+ out_filename_len++;
+ }
+ pos++;
+ }
+ c = 0;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ Ls_c[i] = atoi(buff);
+ c = 0;
+ pos++;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ betas_c[i] = atof(buff);
+ free(buff);
+
+ uint_t dist_len = 4 * pow(Ls_c[i], 2);
+ uint32_t *dist = malloc(dist_len * sizeof(uint32_t));
+ FILE *dist_file = fopen(fn, "rb");
+ fread(dist, sizeof(uint32_t), dist_len, dist_file);
+ fclose(dist_file);
+ {
+ double mom1[2];
+ mom(dist_len, 1, dist, mom1);
+ vals_c1[i] = mom1[0];
+ errors_c1[i] = mom1[1];
+
+ double mom2[2];
+ mom(dist_len, 2, dist, mom2);
+ vals_c2[i] = mom2[0];
+ errors_c2[i] = mom2[1];
+
+ double mom3[2];
+ mom(dist_len, 3, dist, mom3);
+ vals_c3[i] = mom3[0];
+ errors_c3[i] = mom3[1];
+
+ double mom4[2];
+ mom(dist_len, 4, dist, mom4);
+ vals_c4[i] = mom4[0];
+ errors_c4[i] = mom4[1];
+ }
+ free(dist);
+ }
+
+ out_filename[out_filename_len - 1] = '.';
+ out_filename[out_filename_len] = 't';
+ out_filename[out_filename_len + 1] = 'x';
+ out_filename[out_filename_len + 2] = 't';
+ out_filename[out_filename_len + 3] = '\0';
+
+ FILE *out_file = fopen(out_filename, "w");
+
+ for (uint_t i = 0; i < nc; i++) {
+ fprintf(out_file, "%u %g %g %g %g %g %g %g %g %g\n", Ls_c[i], betas_c[i],
+ vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i],
+ errors_c3[i], vals_c4[i], errors_c4[i]);
+ }
+
+ fclose(out_file);
+
+ free(Ls_c);
+ free(betas_c);
+ free(vals_c1);
+ free(errors_c1);
+ free(vals_c2);
+ free(errors_c2);
+ free(vals_c3);
+ free(errors_c3);
+
+ return 0;
}
-
diff --git a/src/big_anal_process.c b/src/big_anal_process.c
index 0f7106f..8c1d8ba 100644
--- a/src/big_anal_process.c
+++ b/src/big_anal_process.c
@@ -1,156 +1,158 @@
#include "fracture.h"
+#include <gsl/gsl_blas.h>
+#include <gsl/gsl_matrix.h>
#include <gsl/gsl_sf_erf.h>
#include <gsl/gsl_sf_laguerre.h>
-#include <gsl/gsl_matrix.h>
#include <gsl/gsl_vector.h>
-#include <gsl/gsl_blas.h>
#include <sys/stat.h>
void get_mean(uint_t len, double *data, double result[2]) {
- double total = 0;
+ double total = 0;
- for (uint_t i = 0; i < len; i++) {
- total += data[i];
- }
+ for (uint_t i = 0; i < len; i++) {
+ total += data[i];
+ }
- double mean = total / len;
- double total_sq_diff = 0;
+ double mean = total / len;
+ double total_sq_diff = 0;
- for (uint_t i = 0; i < len; i++) {
- total_sq_diff += pow(mean - data[i], 2);
- }
+ for (uint_t i = 0; i < len; i++) {
+ total_sq_diff += pow(mean - data[i], 2);
+ }
- double mean_err = sqrt(total_sq_diff) / len;
+ double mean_err = sqrt(total_sq_diff) / len;
- result[0] = mean;
- result[1] = mean_err;
+ result[0] = mean;
+ result[1] = mean_err;
}
-void get_mom(uint_t len, uint_t n, double *data, double mean[2], double result[2]) {
- double total_n_diff = 0;
- double total_n2_diff = 0;
+void get_mom(uint_t len, uint_t n, double *data, double mean[2],
+ double result[2]) {
+ double total_n_diff = 0;
+ double total_n2_diff = 0;
- for (uint_t i = 0; i < len; i++) {
- total_n_diff += pow(fabs(mean[0] - data[i]), n);
- total_n2_diff += pow(fabs(mean[0] - data[i]), 2 * n);
- }
+ for (uint_t i = 0; i < len; i++) {
+ total_n_diff += pow(fabs(mean[0] - data[i]), n);
+ total_n2_diff += pow(fabs(mean[0] - data[i]), 2 * n);
+ }
- double mom = total_n_diff / len;
- double mom_err = sqrt(total_n2_diff) / len;
+ double mom = total_n_diff / len;
+ double mom_err = sqrt(total_n2_diff) / len;
- result[0] = mom;
- result[1] = mom_err;
+ result[0] = mom;
+ result[1] = mom_err;
}
int main(int argc, char *argv[]) {
- uint_t nc = argc - 1;
- uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
- double *betas_c = (double *)malloc(nc * sizeof(double));
- double *vals_c1 = (double *)malloc(nc * sizeof(double));
- double *errors_c1 = (double *)malloc(nc * sizeof(double));
- double *vals_c2 = (double *)malloc(nc * sizeof(double));
- double *errors_c2 = (double *)malloc(nc * sizeof(double));
- double *vals_c3 = (double *)malloc(nc * sizeof(double));
- double *errors_c3 = (double *)malloc(nc * sizeof(double));
- double *vals_c4 = (double *)malloc(nc * sizeof(double));
- double *errors_c4 = (double *)malloc(nc * sizeof(double));
-
- char *out_filename = (char *)malloc(100 * sizeof(char));
- uint_t out_filename_len = 0;
-
- for (uint_t i = 0; i < nc; i++) {
- char *fn = argv[1 + i];
- char *buff = (char *)malloc(20 * sizeof(char));
- uint_t pos = 0; uint_t c = 0;
- while (c < 5) {
- if (fn[pos] == '_') {
- c++;
- }
- if (i == 0) {
- out_filename[pos] = fn[pos];
- out_filename_len++;
- }
- pos++;
- }
- c = 0;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- Ls_c[i] = atoi(buff);
- c = 0;
- pos++;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- betas_c[i] = atof(buff);
- free(buff);
-
- struct stat info;
- stat(fn, &info);
- uint_t num_bytes = info.st_size;
- uint_t dist_len = (num_bytes * sizeof(char)) / sizeof(double);
-
- double *dist = malloc(dist_len * sizeof(double));
- FILE *dist_file = fopen(fn, "rb");
- fread(dist, sizeof(double), dist_len, dist_file);
- fclose(dist_file);
- {
- double mom1[2];
- get_mean(dist_len, dist, mom1);
- vals_c1[i] = mom1[0];
- errors_c1[i] = mom1[1];
-
- double mom2[2];
- get_mom(dist_len, 2, dist, mom1, mom2);
- vals_c2[i] = mom2[0];
- errors_c2[i] = mom2[1];
-
- double mom3[2];
- get_mom(dist_len, 3, dist, mom1, mom3);
- vals_c3[i] = mom3[0];
- errors_c3[i] = mom3[1];
-
- double mom4[2];
- get_mom(dist_len, 4, dist, mom1, mom4);
- vals_c4[i] = mom4[0];
- errors_c4[i] = mom4[1];
- }
- free(dist);
- }
-
- out_filename[out_filename_len-1] = '.';
- out_filename[out_filename_len] = 't';
- out_filename[out_filename_len+1] = 'x';
- out_filename[out_filename_len+2] = 't';
- out_filename[out_filename_len+3] = '\0';
-
- FILE *out_file = fopen(out_filename, "w");
-
- for (uint_t i = 0; i < nc; i++) {
- fprintf(out_file, "%u %g %g %g %g %g %g %g %g %g\n", Ls_c[i], betas_c[i], vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i], errors_c3[i], vals_c4[i], errors_c4[i]);
- }
-
- fclose(out_file);
-
-
- free(Ls_c);
- free(betas_c);
- free(vals_c1);
- free(errors_c1);
- free(vals_c2);
- free(errors_c2);
- free(vals_c3);
- free(errors_c3);
- free(vals_c4);
- free(errors_c4);
-
- return 0;
+ uint_t nc = argc - 1;
+ uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
+ double *betas_c = (double *)malloc(nc * sizeof(double));
+ double *vals_c1 = (double *)malloc(nc * sizeof(double));
+ double *errors_c1 = (double *)malloc(nc * sizeof(double));
+ double *vals_c2 = (double *)malloc(nc * sizeof(double));
+ double *errors_c2 = (double *)malloc(nc * sizeof(double));
+ double *vals_c3 = (double *)malloc(nc * sizeof(double));
+ double *errors_c3 = (double *)malloc(nc * sizeof(double));
+ double *vals_c4 = (double *)malloc(nc * sizeof(double));
+ double *errors_c4 = (double *)malloc(nc * sizeof(double));
+
+ char *out_filename = (char *)malloc(100 * sizeof(char));
+ uint_t out_filename_len = 0;
+
+ for (uint_t i = 0; i < nc; i++) {
+ char *fn = argv[1 + i];
+ char *buff = (char *)malloc(20 * sizeof(char));
+ uint_t pos = 0;
+ uint_t c = 0;
+ while (c < 5) {
+ if (fn[pos] == '_') {
+ c++;
+ }
+ if (i == 0) {
+ out_filename[pos] = fn[pos];
+ out_filename_len++;
+ }
+ pos++;
+ }
+ c = 0;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ Ls_c[i] = atoi(buff);
+ c = 0;
+ pos++;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ betas_c[i] = atof(buff);
+ free(buff);
+
+ struct stat info;
+ stat(fn, &info);
+ uint_t num_bytes = info.st_size;
+ uint_t dist_len = (num_bytes * sizeof(char)) / sizeof(double);
+
+ double *dist = malloc(dist_len * sizeof(double));
+ FILE *dist_file = fopen(fn, "rb");
+ fread(dist, sizeof(double), dist_len, dist_file);
+ fclose(dist_file);
+ {
+ double mom1[2];
+ get_mean(dist_len, dist, mom1);
+ vals_c1[i] = mom1[0];
+ errors_c1[i] = mom1[1];
+
+ double mom2[2];
+ get_mom(dist_len, 2, dist, mom1, mom2);
+ vals_c2[i] = mom2[0];
+ errors_c2[i] = mom2[1];
+
+ double mom3[2];
+ get_mom(dist_len, 3, dist, mom1, mom3);
+ vals_c3[i] = mom3[0];
+ errors_c3[i] = mom3[1];
+
+ double mom4[2];
+ get_mom(dist_len, 4, dist, mom1, mom4);
+ vals_c4[i] = mom4[0];
+ errors_c4[i] = mom4[1];
+ }
+ free(dist);
+ }
+
+ out_filename[out_filename_len - 1] = '.';
+ out_filename[out_filename_len] = 't';
+ out_filename[out_filename_len + 1] = 'x';
+ out_filename[out_filename_len + 2] = 't';
+ out_filename[out_filename_len + 3] = '\0';
+
+ FILE *out_file = fopen(out_filename, "w");
+
+ for (uint_t i = 0; i < nc; i++) {
+ fprintf(out_file, "%u %g %g %g %g %g %g %g %g %g\n", Ls_c[i], betas_c[i],
+ vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i],
+ errors_c3[i], vals_c4[i], errors_c4[i]);
+ }
+
+ fclose(out_file);
+
+ free(Ls_c);
+ free(betas_c);
+ free(vals_c1);
+ free(errors_c1);
+ free(vals_c2);
+ free(errors_c2);
+ free(vals_c3);
+ free(errors_c3);
+ free(vals_c4);
+ free(errors_c4);
+
+ return 0;
}
-
diff --git a/src/cen_anal_process.c b/src/cen_anal_process.c
index 3bf388c..ee2b029 100644
--- a/src/cen_anal_process.c
+++ b/src/cen_anal_process.c
@@ -1,154 +1,157 @@
#include "fracture.h"
+#include <gsl/gsl_blas.h>
+#include <gsl/gsl_matrix.h>
#include <gsl/gsl_sf_erf.h>
#include <gsl/gsl_sf_laguerre.h>
-#include <gsl/gsl_matrix.h>
#include <gsl/gsl_vector.h>
-#include <gsl/gsl_blas.h>
void get_mean(uint_t len, uint32_t *data, double result[2]) {
- uint_t total = 0;
- double mean = 0;
- double mean_err = 0;
+ uint_t total = 0;
+ double mean = 0;
+ double mean_err = 0;
- for (uint_t i = 0; i < len; i++) {
- uint32_t datai = data[i];
+ for (uint_t i = 0; i < len; i++) {
+ uint32_t datai = data[i];
- total += datai;
- mean += i * datai;
- mean_err += gsl_pow_2(i) * datai;
- }
+ total += datai;
+ mean += i * datai;
+ mean_err += gsl_pow_2(i) * datai;
+ }
- double meanf = mean / total;
- double meanf_err = meanf * sqrt(mean_err / gsl_pow_2(mean) + 1 / total);
+ double meanf = mean / total;
+ double meanf_err = meanf * sqrt(mean_err / gsl_pow_2(mean) + 1 / total);
- result[0] = meanf;
- result[1] = meanf_err;
+ result[0] = meanf;
+ result[1] = meanf_err;
}
-void get_mom(uint_t len, uint_t n, uint32_t *data, double mean[2], double result[2]) {
- uint_t total = 0;
- double mom = 0;
- double mom_err = 0;
+void get_mom(uint_t len, uint_t n, uint32_t *data, double mean[2],
+ double result[2]) {
+ uint_t total = 0;
+ double mom = 0;
+ double mom_err = 0;
- for (uint_t i = 0; i < len; i++) {
- uint32_t datai = data[i];
- double in = pow(fabs(((double)i) - mean[0]), n);
+ for (uint_t i = 0; i < len; i++) {
+ uint32_t datai = data[i];
+ double in = pow(fabs(((double)i) - mean[0]), n);
- total += datai;
- mom += in * datai;
- mom_err += gsl_pow_2(in) * datai; // + gsl_pow_2(n * mean[1] / (((double)i) - mean[0])));
- }
+ total += datai;
+ mom += in * datai;
+ mom_err += gsl_pow_2(in) *
+ datai; // + gsl_pow_2(n * mean[1] / (((double)i) - mean[0])));
+ }
- double momf = mom / total;
- double momf_err = momf * sqrt(mom_err / gsl_pow_2(mom) + 1 / total);
+ double momf = mom / total;
+ double momf_err = momf * sqrt(mom_err / gsl_pow_2(mom) + 1 / total);
- result[0] = momf;
- result[1] = momf_err;
+ result[0] = momf;
+ result[1] = momf_err;
}
int main(int argc, char *argv[]) {
- uint_t nc = argc - 1;
- uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
- double *betas_c = (double *)malloc(nc * sizeof(double));
- double *vals_c1 = (double *)malloc(nc * sizeof(double));
- double *errors_c1 = (double *)malloc(nc * sizeof(double));
- double *vals_c2 = (double *)malloc(nc * sizeof(double));
- double *errors_c2 = (double *)malloc(nc * sizeof(double));
- double *vals_c3 = (double *)malloc(nc * sizeof(double));
- double *errors_c3 = (double *)malloc(nc * sizeof(double));
- double *vals_c4 = (double *)malloc(nc * sizeof(double));
- double *errors_c4 = (double *)malloc(nc * sizeof(double));
-
- char *out_filename = (char *)malloc(100 * sizeof(char));
- uint_t out_filename_len = 0;
-
- for (uint_t i = 0; i < nc; i++) {
- char *fn = argv[1 + i];
- char *buff = (char *)malloc(20 * sizeof(char));
- uint_t pos = 0; uint_t c = 0;
- while (c < 5) {
- if (fn[pos] == '_') {
- c++;
- }
- if (i == 0) {
- out_filename[pos] = fn[pos];
- out_filename_len++;
- }
- pos++;
- }
- c = 0;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- Ls_c[i] = atoi(buff);
- c = 0;
- pos++;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- betas_c[i] = atof(buff);
- free(buff);
-
- uint_t dist_len = 4 * pow(Ls_c[i], 2);
- uint32_t *dist = malloc(dist_len * sizeof(uint32_t));
- FILE *dist_file = fopen(fn, "rb");
- fread(dist, sizeof(uint32_t), dist_len, dist_file);
- fclose(dist_file);
- {
- double mom1[2];
- get_mean(dist_len, dist, mom1);
- vals_c1[i] = mom1[0];
- errors_c1[i] = mom1[1];
-
- double mom2[2];
- get_mom(dist_len, 2, dist, mom1, mom2);
- vals_c2[i] = mom2[0];
- errors_c2[i] = mom2[1];
-
- double mom3[2];
- get_mom(dist_len, 3, dist, mom1, mom3);
- vals_c3[i] = mom3[0];
- errors_c3[i] = mom3[1];
-
- double mom4[2];
- get_mom(dist_len, 4, dist, mom1, mom4);
- vals_c4[i] = mom4[0];
- errors_c4[i] = mom4[1];
- }
- free(dist);
- }
-
- out_filename[out_filename_len-1] = '.';
- out_filename[out_filename_len] = 't';
- out_filename[out_filename_len+1] = 'x';
- out_filename[out_filename_len+2] = 't';
- out_filename[out_filename_len+3] = '\0';
-
- FILE *out_file = fopen(out_filename, "w");
-
- for (uint_t i = 0; i < nc; i++) {
- fprintf(out_file, "%u %g %g %g %g %g %g %g %g %g\n", Ls_c[i], betas_c[i], vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i], errors_c3[i], vals_c4[i], errors_c4[i]);
- }
-
- fclose(out_file);
-
-
- free(Ls_c);
- free(betas_c);
- free(vals_c1);
- free(errors_c1);
- free(vals_c2);
- free(errors_c2);
- free(vals_c3);
- free(errors_c3);
-
- return 0;
+ uint_t nc = argc - 1;
+ uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
+ double *betas_c = (double *)malloc(nc * sizeof(double));
+ double *vals_c1 = (double *)malloc(nc * sizeof(double));
+ double *errors_c1 = (double *)malloc(nc * sizeof(double));
+ double *vals_c2 = (double *)malloc(nc * sizeof(double));
+ double *errors_c2 = (double *)malloc(nc * sizeof(double));
+ double *vals_c3 = (double *)malloc(nc * sizeof(double));
+ double *errors_c3 = (double *)malloc(nc * sizeof(double));
+ double *vals_c4 = (double *)malloc(nc * sizeof(double));
+ double *errors_c4 = (double *)malloc(nc * sizeof(double));
+
+ char *out_filename = (char *)malloc(100 * sizeof(char));
+ uint_t out_filename_len = 0;
+
+ for (uint_t i = 0; i < nc; i++) {
+ char *fn = argv[1 + i];
+ char *buff = (char *)malloc(20 * sizeof(char));
+ uint_t pos = 0;
+ uint_t c = 0;
+ while (c < 5) {
+ if (fn[pos] == '_') {
+ c++;
+ }
+ if (i == 0) {
+ out_filename[pos] = fn[pos];
+ out_filename_len++;
+ }
+ pos++;
+ }
+ c = 0;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ Ls_c[i] = atoi(buff);
+ c = 0;
+ pos++;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ betas_c[i] = atof(buff);
+ free(buff);
+
+ uint_t dist_len = 4 * pow(Ls_c[i], 2);
+ uint32_t *dist = malloc(dist_len * sizeof(uint32_t));
+ FILE *dist_file = fopen(fn, "rb");
+ fread(dist, sizeof(uint32_t), dist_len, dist_file);
+ fclose(dist_file);
+ {
+ double mom1[2];
+ get_mean(dist_len, dist, mom1);
+ vals_c1[i] = mom1[0];
+ errors_c1[i] = mom1[1];
+
+ double mom2[2];
+ get_mom(dist_len, 2, dist, mom1, mom2);
+ vals_c2[i] = mom2[0];
+ errors_c2[i] = mom2[1];
+
+ double mom3[2];
+ get_mom(dist_len, 3, dist, mom1, mom3);
+ vals_c3[i] = mom3[0];
+ errors_c3[i] = mom3[1];
+
+ double mom4[2];
+ get_mom(dist_len, 4, dist, mom1, mom4);
+ vals_c4[i] = mom4[0];
+ errors_c4[i] = mom4[1];
+ }
+ free(dist);
+ }
+
+ out_filename[out_filename_len - 1] = '.';
+ out_filename[out_filename_len] = 't';
+ out_filename[out_filename_len + 1] = 'x';
+ out_filename[out_filename_len + 2] = 't';
+ out_filename[out_filename_len + 3] = '\0';
+
+ FILE *out_file = fopen(out_filename, "w");
+
+ for (uint_t i = 0; i < nc; i++) {
+ fprintf(out_file, "%u %g %g %g %g %g %g %g %g %g\n", Ls_c[i], betas_c[i],
+ vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i],
+ errors_c3[i], vals_c4[i], errors_c4[i]);
+ }
+
+ fclose(out_file);
+
+ free(Ls_c);
+ free(betas_c);
+ free(vals_c1);
+ free(errors_c1);
+ free(vals_c2);
+ free(errors_c2);
+ free(vals_c3);
+ free(errors_c3);
+
+ return 0;
}
-
diff --git a/src/corr_test.c b/src/corr_test.c
index 01b3e11..cb00212 100644
--- a/src/corr_test.c
+++ b/src/corr_test.c
@@ -2,26 +2,26 @@
#include "fracture.h"
int main() {
- cholmod_common c;
- CHOL_F(start)(&c);
+ cholmod_common c;
+ CHOL_F(start)(&c);
- unsigned int width = 64;
+ unsigned int width = 64;
- graph_t *network = graph_create(VORONOI_LATTICE, TORUS_BOUND, 128, false);
- net_t *instance = net_create(network, 1e-14, 3, 0, true, &c);
- net_fracture(instance, &c, 1e-10);
+ graph_t *network = graph_create(VORONOI_LATTICE, TORUS_BOUND, 128, false);
+ net_t *instance = net_create(network, 1e-14, 3, 0, true, &c);
+ net_fracture(instance, &c, 1e-10);
- double *corr = get_corr(instance, NULL, &c);
+ double *corr = get_corr(instance, NULL, &c);
- for (int i = 0; i < 2 * width; i++) {
- printf("%g ", corr[i]);
- }
- printf("\n");
+ for (int i = 0; i < 2 * width; i++) {
+ printf("%g ", corr[i]);
+ }
+ printf("\n");
- net_free(instance, &c);
- graph_free(network);
+ net_free(instance, &c);
+ graph_free(network);
- CHOL_F(finish)(&c);
+ CHOL_F(finish)(&c);
- return 0;
+ return 0;
}
diff --git a/src/fracture.c b/src/fracture.c
index 73059ff..ede7a24 100644
--- a/src/fracture.c
+++ b/src/fracture.c
@@ -3,510 +3,515 @@
#include "fracture.h"
int main(int argc, char *argv[]) {
- int opt;
-
- // defining variables to be (potentially) set by command line flags
- uint8_t filename_len;
- uint32_t N;
- uint_t L;
- double beta, inf, cutoff, crack_len;
- bool save_data, save_cluster_dist, use_voltage_boundaries, use_dual, save_network,
- save_crit_stress, save_energy, save_conductivity,
- save_damage, save_threshold, save_current_load;
- bound_t boundary;
- lattice_t lattice;
-
-
- // assume filenames will be less than 100 characters
-
- filename_len = 100;
-
-
- // set default values
-
- N = 100;
- L = 16;
- crack_len = 0.;
- beta = .3;
- inf = 1e10;
- cutoff = 1e-9;
- boundary = FREE_BOUND;
- lattice = VORONOI_LATTICE;
- save_data = false;
- save_cluster_dist = false;
- use_voltage_boundaries = false;
- use_dual = false;
- save_network = false;
- save_crit_stress = false;
- save_damage = false;
- save_conductivity = false;
- save_energy = false;
- save_threshold = false;
- save_current_load = false;
-
-
- uint8_t bound_i;
- char boundc2 = 'f';
- uint8_t lattice_i;
- char lattice_c = 'v';
- char dual_c = 'o';
-
-
- // get commandline options
-
- while ((opt = getopt(argc, argv, "n:L:b:B:q:dVcoNsCrDl:TE")) != -1) {
- switch (opt) {
- case 'n':
- N = atoi(optarg);
- break;
- case 'L':
- L = atoi(optarg);
- break;
- case 'b':
- beta = atof(optarg);
- break;
- case 'l':
- crack_len = atof(optarg);
- break;
- case 'B':
- bound_i = atoi(optarg);
- switch (bound_i) {
- case 0:
- boundary = FREE_BOUND;
- boundc2 = 'f';
- break;
- case 1:
- boundary = CYLINDER_BOUND;
- boundc2 = 'c';
- break;
- case 2:
- boundary = TORUS_BOUND;
- use_voltage_boundaries = true;
- boundc2 = 't';
- break;
- case 3:
- boundary = EMBEDDED_BOUND;
- boundc2 = 'e';
- use_dual = true;
- use_voltage_boundaries = true;
- break;
- default:
- printf("boundary specifier must be 0 (FREE_BOUND), 1 (CYLINDER_BOUND), or 2 (TORUS_BOUND).\n");
- exit(EXIT_FAILURE);
- }
- break;
- case 'q':
- lattice_i = atoi(optarg);
- switch (lattice_i) {
- case 0:
- lattice = VORONOI_LATTICE;
- lattice_c = 'v';
- break;
- case 1:
- lattice = DIAGONAL_LATTICE;
- lattice_c = 'd';
- break;
- case 2:
- lattice = VORONOI_HYPERUNIFORM_LATTICE;
- lattice_c = 'h';
- break;
- case 3:
- lattice = TRIANGULAR_LATTICE;
- lattice_c = 't';
- break;
- case 4:
- lattice = SQUARE_LATTICE;
- lattice_c = 's';
- break;
- default:
- printf("lattice specifier must be 0 (VORONOI_LATTICE), 1 (DIAGONAL_LATTICE), or 2 (VORONOI_HYPERUNIFORM_LATTICE).\n");
- exit(EXIT_FAILURE);
- }
- break;
- case 'd':
- save_damage = true;
- break;
- case 'V':
- use_voltage_boundaries = true;
- break;
- case 'D':
- use_dual = true;
- dual_c = 'd';
- break;
- case 'c':
- save_cluster_dist = true;
- break;
- case 'o':
- save_data = true;
- break;
- case 'N':
- save_network = true;
- break;
- case 's':
- save_crit_stress = true;
- break;
- case 'r':
- save_conductivity = true;
- break;
- case 'E':
- save_energy = true;
- break;
- case 'T':
- save_threshold = true;
- break;
- case 'C':
- save_current_load = true;
- break;
- default: /* '?' */
- exit(EXIT_FAILURE);
- }
- }
-
-
- char boundc;
- if (use_voltage_boundaries) boundc = 'v';
- else boundc = 'c';
-
- FILE *data_out;
- if (save_data) {
- char *data_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(data_filename, filename_len, "data_%c_%c_%c_%c_%u_%g_%g.txt", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- data_out = fopen(data_filename, "a");
- free(data_filename);
- }
-
- uint_t max_verts, max_edges;
-
- // these are very liberal estimates
- max_verts = 4 * pow(L, 2);
- max_edges = 4 * pow(L, 2);
-
- if (max_verts > CINT_MAX) {
- exit(EXIT_FAILURE);
- }
-
- // define arrays for saving cluster and avalanche distributions
- uint32_t *cluster_size_dist;
- uint32_t *avalanche_size_dist;
- char *c_filename;
- char *a_filename;
- if (save_cluster_dist) {
- cluster_size_dist =
- (uint32_t *)calloc(max_verts, sizeof(uint32_t));
- avalanche_size_dist =
- (uint32_t *)calloc(max_edges, sizeof(uint32_t));
-
- c_filename = (char *)malloc(filename_len * sizeof(char));
- a_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(c_filename, filename_len, "cstr_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- snprintf(a_filename, filename_len, "avln_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
-
- FILE *cluster_out = fopen(c_filename, "rb");
- FILE *avalanche_out = fopen(a_filename, "rb");
-
- if (cluster_out != NULL) {
- fread(cluster_size_dist, sizeof(uint32_t), max_verts, cluster_out);
- fclose(cluster_out);
- }
- if (avalanche_out != NULL) {
- fread(avalanche_size_dist, sizeof(uint32_t), max_edges, avalanche_out);
- fclose(avalanche_out);
- }
- }
-
- long double *crit_stress;
- if (save_crit_stress) {
- crit_stress = (long double *)malloc(N * sizeof(long double));
- }
-
- double *conductivity;
- if (save_conductivity) {
- conductivity = (double *)malloc(N * sizeof(double));
- }
-
- // define arrays for saving damage distributions
- uint32_t *damage;
- char *d_filename;
- if (save_damage) {
- damage =
- (uint32_t *)calloc(max_edges, sizeof(uint32_t));
-
- d_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(d_filename, filename_len, "damg_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
-
- FILE *damage_out = fopen(d_filename, "rb");
-
- if (damage_out != NULL) {
- fread(damage, sizeof(uint32_t), max_edges, damage_out);
- fclose(damage_out);
- }
- }
-
- long double *energy;
- if (save_energy) {
- energy = (long double *)malloc(N * sizeof(long double));
- }
-
- long double *thresholds;
- if (save_threshold) {
- thresholds = (long double *)malloc(N * sizeof(long double));
- }
-
- long double *loads;
- if (save_current_load) {
- loads = (long double *)malloc(N * sizeof(long double));
- }
-
-
- // start cholmod
- cholmod_common c;
- CHOL_F(start)(&c);
-
- /* if we use voltage boundary conditions, the laplacian matrix is positive
- * definite and we can use a supernodal LL decomposition. otherwise we need
- * to use the simplicial LDL decomposition
- */
- if (use_voltage_boundaries) {
- //(&c)->supernodal = CHOLMOD_SUPERNODAL;
- (&c)->supernodal = CHOLMOD_SIMPLICIAL;
- } else {
- (&c)->supernodal = CHOLMOD_SIMPLICIAL;
- }
-
-
- printf("\n");
- for (uint32_t i = 0; i < N; i++) {
- printf("\033[F\033[JFRACTURE: %0*d / %d\n", (uint8_t)log10(N) + 1, i + 1, N);
-
- graph_t *g = graph_create(lattice, boundary, L, use_dual);
- net_t *net = net_create(g, inf, beta, crack_len, use_voltage_boundaries, &c);
- net_t *tmp_net = net_copy(net, &c);
- data_t *data = net_fracture(tmp_net, &c, cutoff);
- net_free(tmp_net, &c);
-
- uint_t max_pos = 0;
- long double max_val = 0;
-
- double cond0;
- {
- double *tmp_voltages = net_voltages(net, &c);
- cond0 = net_conductivity(net, tmp_voltages);
- free(tmp_voltages);
- }
-
- for (uint_t j = 0; j < data->num_broken; j++) {
- long double val = data->extern_field[j];
-
- if (val > max_val) {
- max_pos = j;
- max_val = val;
- }
- }
-
- uint_t av_size = 0;
- long double cur_val = 0;
-
- for (uint_t j = 0; j < max_pos; j++) {
- uint_t next_broken = data->break_list[j];
-
- break_edge(net, next_broken, &c);
-
- long double val = data->extern_field[j];
- if (save_cluster_dist) {
- if (val < cur_val) {
- av_size++;
- }
-
- if (val > cur_val) {
- avalanche_size_dist[av_size]++;
- av_size = 0;
- cur_val = val;
- }
- }
- }
-
- if (save_crit_stress) crit_stress[i] = data->extern_field[max_pos];
-
- if (save_conductivity) {
- if (max_pos > 0) {
- conductivity[i] = data->conductivity[max_pos - 1];
- } else {
- conductivity[i] = cond0;
- }
- }
-
- if (save_damage) {
- uint_t would_break = 0;
- double *tmp_voltage = net_voltages(net, &c);
- double *tmp_current = net_currents(net, tmp_voltage, &c);
- free(tmp_voltage);
- for (uint_t j = 0; j < g->ne; j++) {
- bool broken = net->fuses[j];
- bool under_thres = net->thres[j] < net->thres[data->break_list[max_pos]];
- bool zero_field = fabs(tmp_current[j]) < cutoff;
- if (!broken && under_thres && zero_field) {
- break_edge(net, j, &c);
- }
- }
- damage[net->num_broken]++;
- free(tmp_current);
- }
-
- if (save_energy) {
- long double tmp_energy = 0;
- if (max_pos > 0) {
- long double sigma1 = data->extern_field[0];
- double cond1 = cond0;
- for (uint_t j = 0; j < max_pos - 1; j++) {
- long double sigma2 = data->extern_field[j+1];
- double cond2 = data->conductivity[j];
- if (sigma2 > sigma1) {
- tmp_energy += 0.5 * gsl_pow_2(sigma1) * (1 - cond2 / cond1) / cond1;
- sigma1 = sigma2;
- cond1 = cond2;
- }
- }
- }
- energy[i] = tmp_energy;
- }
-
- if (save_threshold) {
- thresholds[i] = net->thres[data->break_list[max_pos]];
- }
-
- if (save_current_load) {
- loads[i] = data->extern_field[max_pos] / net->thres[data->break_list[max_pos]];
- }
-
- if (save_data) {
- for (uint_t j = 0; j < data->num_broken; j++) {
- fprintf(data_out, "%u %Lg %g ", data->break_list[j],
- data->extern_field[j], data->conductivity[j]);
- }
- fprintf(data_out, "\n");
- }
-
- data_free(data);
- if (save_network) {
- FILE *net_out = fopen("network.txt", "w");
- for (uint_t j = 0; j < g->nv; j++) {
- fprintf(net_out, "%f %f ", g->vx[2 * j],
- g->vx[2 * j + 1]);
- }
- fprintf(net_out, "\n");
- for (uint_t j = 0; j < g->ne; j++) {
- fprintf(net_out, "%u %u ", g->ev[2 * j], g->ev[2 * j + 1]);
- }
- fprintf(net_out, "\n");
- for (uint_t j = 0; j < g->dnv; j++) {
- fprintf(net_out, "%f %f ", g->dvx[2 * j],
- g->dvx[2 * j + 1]);
- }
- fprintf(net_out, "\n");
- for (uint_t j = 0; j < g->ne; j++) {
- fprintf(net_out, "%u %u ", g->dev[2 * j], g->dev[2 * j + 1]);
- }
- fprintf(net_out, "\n");
- for (uint_t j = 0; j < g->ne; j++) {
- fprintf(net_out, "%d ", net->fuses[j]);
- }
- fclose(net_out);
- }
-
- if (save_cluster_dist) {
- uint_t *tmp_cluster_dist = get_cluster_dist(net);
- for (uint_t j = 0; j < g->dnv; j++) {
- cluster_size_dist[j] += tmp_cluster_dist[j];
- }
- free(tmp_cluster_dist);
- }
-
-
- net_free(net, &c);
- graph_free(g);
- }
-
- printf("\033[F\033[JFRACTURE: COMPLETE\n");
-
- if (save_cluster_dist) {
- FILE *cluster_out = fopen(c_filename, "wb");
- FILE *avalanche_out = fopen(a_filename, "wb");
-
- fwrite(cluster_size_dist, sizeof(uint32_t), max_verts, cluster_out);
- fwrite(avalanche_size_dist, sizeof(uint32_t), max_edges, avalanche_out);
-
- fclose(cluster_out);
- fclose(avalanche_out);
-
- free(c_filename);
- free(a_filename);
- free(cluster_size_dist);
- free(avalanche_size_dist);
- }
-
- if (save_conductivity) {
- char *cond_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(cond_filename, filename_len, "cond_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- FILE *cond_file = fopen(cond_filename, "ab");
- fwrite(conductivity, sizeof(double), N, cond_file);
- fclose(cond_file);
- free(cond_filename);
- free(conductivity);
- }
-
- if (save_energy) {
- char *tough_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(tough_filename, filename_len, "enrg_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- FILE *tough_file = fopen(tough_filename, "ab");
- fwrite(energy, sizeof(long double), N, tough_file);
- fclose(tough_file);
- free(tough_filename);
- free(energy);
- }
-
- if (save_threshold) {
- char *thres_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(thres_filename, filename_len, "thrs_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- FILE *thres_file = fopen(thres_filename, "ab");
- fwrite(thresholds, sizeof(long double), N, thres_file);
- fclose(thres_file);
- free(thres_filename);
- free(thresholds);
- }
-
- if (save_current_load) {
- char *load_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(load_filename, filename_len, "load_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- FILE *load_file = fopen(load_filename, "ab");
- fwrite(loads, sizeof(long double), N, load_file);
- fclose(load_file);
- free(load_filename);
- free(loads);
- }
-
- if (save_damage) {
- FILE *hdam_file = fopen(d_filename, "wb");
- fwrite(damage, sizeof(uint32_t), max_edges, hdam_file);
- fclose(hdam_file);
- free(d_filename);
- free(damage);
- }
-
- if (save_data) {
- fclose(data_out);
- }
-
- if (save_crit_stress) {
- char *str_filename = (char *)malloc(filename_len * sizeof(char));
- snprintf(str_filename, filename_len, "strs_%c_%c_%c_%c_%d_%g_%g.dat", lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
- FILE *str_file = fopen(str_filename, "ab");
- fwrite(crit_stress, sizeof(long double), N, str_file);
- fclose(str_file);
- free(str_filename);
- free(crit_stress);
- }
-
- CHOL_F(finish)(&c);
-
- return 0;
+ int opt;
+
+ // defining variables to be (potentially) set by command line flags
+ uint8_t filename_len;
+ uint32_t N;
+ uint_t L;
+ double beta, inf, cutoff, crack_len;
+ bool save_data, save_cluster_dist, use_voltage_boundaries, use_dual,
+ save_network, save_crit_stress, save_energy, save_conductivity,
+ save_damage, save_threshold, save_current_load;
+ bound_t boundary;
+ lattice_t lattice;
+
+ // assume filenames will be less than 100 characters
+
+ filename_len = 100;
+
+ // set default values
+
+ N = 100;
+ L = 16;
+ crack_len = 0.;
+ beta = .3;
+ inf = 1e10;
+ cutoff = 1e-9;
+ boundary = FREE_BOUND;
+ lattice = VORONOI_LATTICE;
+ save_data = false;
+ save_cluster_dist = false;
+ use_voltage_boundaries = false;
+ use_dual = false;
+ save_network = false;
+ save_crit_stress = false;
+ save_damage = false;
+ save_conductivity = false;
+ save_energy = false;
+ save_threshold = false;
+ save_current_load = false;
+
+ uint8_t bound_i;
+ char boundc2 = 'f';
+ uint8_t lattice_i;
+ char lattice_c = 'v';
+ char dual_c = 'o';
+
+ // get commandline options
+
+ while ((opt = getopt(argc, argv, "n:L:b:B:q:dVcoNsCrDl:TE")) != -1) {
+ switch (opt) {
+ case 'n':
+ N = atoi(optarg);
+ break;
+ case 'L':
+ L = atoi(optarg);
+ break;
+ case 'b':
+ beta = atof(optarg);
+ break;
+ case 'l':
+ crack_len = atof(optarg);
+ break;
+ case 'B':
+ bound_i = atoi(optarg);
+ switch (bound_i) {
+ case 0:
+ boundary = FREE_BOUND;
+ boundc2 = 'f';
+ break;
+ case 1:
+ boundary = CYLINDER_BOUND;
+ boundc2 = 'c';
+ break;
+ case 2:
+ boundary = TORUS_BOUND;
+ use_voltage_boundaries = true;
+ boundc2 = 't';
+ break;
+ case 3:
+ boundary = EMBEDDED_BOUND;
+ boundc2 = 'e';
+ use_dual = true;
+ use_voltage_boundaries = true;
+ break;
+ default:
+ printf("boundary specifier must be 0 (FREE_BOUND), 1 (CYLINDER_BOUND), "
+ "or 2 (TORUS_BOUND).\n");
+ exit(EXIT_FAILURE);
+ }
+ break;
+ case 'q':
+ lattice_i = atoi(optarg);
+ switch (lattice_i) {
+ case 0:
+ lattice = VORONOI_LATTICE;
+ lattice_c = 'v';
+ break;
+ case 1:
+ lattice = DIAGONAL_LATTICE;
+ lattice_c = 'd';
+ break;
+ case 2:
+ lattice = VORONOI_HYPERUNIFORM_LATTICE;
+ lattice_c = 'h';
+ break;
+ case 3:
+ lattice = TRIANGULAR_LATTICE;
+ lattice_c = 't';
+ break;
+ case 4:
+ lattice = SQUARE_LATTICE;
+ lattice_c = 's';
+ break;
+ default:
+ printf("lattice specifier must be 0 (VORONOI_LATTICE), 1 "
+ "(DIAGONAL_LATTICE), or 2 (VORONOI_HYPERUNIFORM_LATTICE).\n");
+ exit(EXIT_FAILURE);
+ }
+ break;
+ case 'd':
+ save_damage = true;
+ break;
+ case 'V':
+ use_voltage_boundaries = true;
+ break;
+ case 'D':
+ use_dual = true;
+ dual_c = 'd';
+ break;
+ case 'c':
+ save_cluster_dist = true;
+ break;
+ case 'o':
+ save_data = true;
+ break;
+ case 'N':
+ save_network = true;
+ break;
+ case 's':
+ save_crit_stress = true;
+ break;
+ case 'r':
+ save_conductivity = true;
+ break;
+ case 'E':
+ save_energy = true;
+ break;
+ case 'T':
+ save_threshold = true;
+ break;
+ case 'C':
+ save_current_load = true;
+ break;
+ default: /* '?' */
+ exit(EXIT_FAILURE);
+ }
+ }
+
+ char boundc;
+ if (use_voltage_boundaries)
+ boundc = 'v';
+ else
+ boundc = 'c';
+
+ FILE *data_out;
+ if (save_data) {
+ char *data_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(data_filename, filename_len, "data_%c_%c_%c_%c_%u_%g_%g.txt",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ data_out = fopen(data_filename, "a");
+ free(data_filename);
+ }
+
+ uint_t max_verts, max_edges;
+
+ // these are very liberal estimates
+ max_verts = 4 * pow(L, 2);
+ max_edges = 4 * pow(L, 2);
+
+ if (max_verts > CINT_MAX) {
+ exit(EXIT_FAILURE);
+ }
+
+ // define arrays for saving cluster and avalanche distributions
+ uint32_t *cluster_size_dist;
+ uint32_t *avalanche_size_dist;
+ char *c_filename;
+ char *a_filename;
+ if (save_cluster_dist) {
+ cluster_size_dist = (uint32_t *)calloc(max_verts, sizeof(uint32_t));
+ avalanche_size_dist = (uint32_t *)calloc(max_edges, sizeof(uint32_t));
+
+ c_filename = (char *)malloc(filename_len * sizeof(char));
+ a_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(c_filename, filename_len, "cstr_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ snprintf(a_filename, filename_len, "avln_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+
+ FILE *cluster_out = fopen(c_filename, "rb");
+ FILE *avalanche_out = fopen(a_filename, "rb");
+
+ if (cluster_out != NULL) {
+ fread(cluster_size_dist, sizeof(uint32_t), max_verts, cluster_out);
+ fclose(cluster_out);
+ }
+ if (avalanche_out != NULL) {
+ fread(avalanche_size_dist, sizeof(uint32_t), max_edges, avalanche_out);
+ fclose(avalanche_out);
+ }
+ }
+
+ long double *crit_stress;
+ if (save_crit_stress) {
+ crit_stress = (long double *)malloc(N * sizeof(long double));
+ }
+
+ double *conductivity;
+ if (save_conductivity) {
+ conductivity = (double *)malloc(N * sizeof(double));
+ }
+
+ // define arrays for saving damage distributions
+ uint32_t *damage;
+ char *d_filename;
+ if (save_damage) {
+ damage = (uint32_t *)calloc(max_edges, sizeof(uint32_t));
+
+ d_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(d_filename, filename_len, "damg_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+
+ FILE *damage_out = fopen(d_filename, "rb");
+
+ if (damage_out != NULL) {
+ fread(damage, sizeof(uint32_t), max_edges, damage_out);
+ fclose(damage_out);
+ }
+ }
+
+ long double *energy;
+ if (save_energy) {
+ energy = (long double *)malloc(N * sizeof(long double));
+ }
+
+ long double *thresholds;
+ if (save_threshold) {
+ thresholds = (long double *)malloc(N * sizeof(long double));
+ }
+
+ long double *loads;
+ if (save_current_load) {
+ loads = (long double *)malloc(N * sizeof(long double));
+ }
+
+ // start cholmod
+ cholmod_common c;
+ CHOL_F(start)(&c);
+
+ /* if we use voltage boundary conditions, the laplacian matrix is positive
+ * definite and we can use a supernodal LL decomposition. otherwise we need
+ * to use the simplicial LDL decomposition
+ */
+ if (use_voltage_boundaries) {
+ //(&c)->supernodal = CHOLMOD_SUPERNODAL;
+ (&c)->supernodal = CHOLMOD_SIMPLICIAL;
+ } else {
+ (&c)->supernodal = CHOLMOD_SIMPLICIAL;
+ }
+
+ printf("\n");
+ for (uint32_t i = 0; i < N; i++) {
+ printf("\033[F\033[JFRACTURE: %0*d / %d\n", (uint8_t)log10(N) + 1, i + 1,
+ N);
+
+ graph_t *g = graph_create(lattice, boundary, L, use_dual);
+ net_t *net =
+ net_create(g, inf, beta, crack_len, use_voltage_boundaries, &c);
+ net_t *tmp_net = net_copy(net, &c);
+ data_t *data = net_fracture(tmp_net, &c, cutoff);
+ net_free(tmp_net, &c);
+
+ uint_t max_pos = 0;
+ long double max_val = 0;
+
+ double cond0;
+ {
+ double *tmp_voltages = net_voltages(net, &c);
+ cond0 = net_conductivity(net, tmp_voltages);
+ free(tmp_voltages);
+ }
+
+ for (uint_t j = 0; j < data->num_broken; j++) {
+ long double val = data->extern_field[j];
+
+ if (val > max_val) {
+ max_pos = j;
+ max_val = val;
+ }
+ }
+
+ uint_t av_size = 0;
+ long double cur_val = 0;
+
+ for (uint_t j = 0; j < max_pos; j++) {
+ uint_t next_broken = data->break_list[j];
+
+ break_edge(net, next_broken, &c);
+
+ long double val = data->extern_field[j];
+ if (save_cluster_dist) {
+ if (val < cur_val) {
+ av_size++;
+ }
+
+ if (val > cur_val) {
+ avalanche_size_dist[av_size]++;
+ av_size = 0;
+ cur_val = val;
+ }
+ }
+ }
+
+ if (save_crit_stress)
+ crit_stress[i] = data->extern_field[max_pos];
+
+ if (save_conductivity) {
+ if (max_pos > 0) {
+ conductivity[i] = data->conductivity[max_pos - 1];
+ } else {
+ conductivity[i] = cond0;
+ }
+ }
+
+ if (save_damage) {
+ uint_t would_break = 0;
+ double *tmp_voltage = net_voltages(net, &c);
+ double *tmp_current = net_currents(net, tmp_voltage, &c);
+ free(tmp_voltage);
+ for (uint_t j = 0; j < g->ne; j++) {
+ bool broken = net->fuses[j];
+ bool under_thres =
+ net->thres[j] < net->thres[data->break_list[max_pos]];
+ bool zero_field = fabs(tmp_current[j]) < cutoff;
+ if (!broken && under_thres && zero_field) {
+ break_edge(net, j, &c);
+ }
+ }
+ damage[net->num_broken]++;
+ free(tmp_current);
+ }
+
+ if (save_energy) {
+ long double tmp_energy = 0;
+ if (max_pos > 0) {
+ long double sigma1 = data->extern_field[0];
+ double cond1 = cond0;
+ for (uint_t j = 0; j < max_pos - 1; j++) {
+ long double sigma2 = data->extern_field[j + 1];
+ double cond2 = data->conductivity[j];
+ if (sigma2 > sigma1) {
+ tmp_energy += 0.5 * gsl_pow_2(sigma1) * (1 - cond2 / cond1) / cond1;
+ sigma1 = sigma2;
+ cond1 = cond2;
+ }
+ }
+ }
+ energy[i] = tmp_energy;
+ }
+
+ if (save_threshold) {
+ thresholds[i] = net->thres[data->break_list[max_pos]];
+ }
+
+ if (save_current_load) {
+ loads[i] =
+ data->extern_field[max_pos] / net->thres[data->break_list[max_pos]];
+ }
+
+ if (save_data) {
+ for (uint_t j = 0; j < data->num_broken; j++) {
+ fprintf(data_out, "%u %Lg %g ", data->break_list[j],
+ data->extern_field[j], data->conductivity[j]);
+ }
+ fprintf(data_out, "\n");
+ }
+
+ data_free(data);
+ if (save_network) {
+ FILE *net_out = fopen("network.txt", "w");
+ for (uint_t j = 0; j < g->nv; j++) {
+ fprintf(net_out, "%f %f ", g->vx[2 * j], g->vx[2 * j + 1]);
+ }
+ fprintf(net_out, "\n");
+ for (uint_t j = 0; j < g->ne; j++) {
+ fprintf(net_out, "%u %u ", g->ev[2 * j], g->ev[2 * j + 1]);
+ }
+ fprintf(net_out, "\n");
+ for (uint_t j = 0; j < g->dnv; j++) {
+ fprintf(net_out, "%f %f ", g->dvx[2 * j], g->dvx[2 * j + 1]);
+ }
+ fprintf(net_out, "\n");
+ for (uint_t j = 0; j < g->ne; j++) {
+ fprintf(net_out, "%u %u ", g->dev[2 * j], g->dev[2 * j + 1]);
+ }
+ fprintf(net_out, "\n");
+ for (uint_t j = 0; j < g->ne; j++) {
+ fprintf(net_out, "%d ", net->fuses[j]);
+ }
+ fclose(net_out);
+ }
+
+ if (save_cluster_dist) {
+ uint_t *tmp_cluster_dist = get_cluster_dist(net);
+ for (uint_t j = 0; j < g->dnv; j++) {
+ cluster_size_dist[j] += tmp_cluster_dist[j];
+ }
+ free(tmp_cluster_dist);
+ }
+
+ net_free(net, &c);
+ graph_free(g);
+ }
+
+ printf("\033[F\033[JFRACTURE: COMPLETE\n");
+
+ if (save_cluster_dist) {
+ FILE *cluster_out = fopen(c_filename, "wb");
+ FILE *avalanche_out = fopen(a_filename, "wb");
+
+ fwrite(cluster_size_dist, sizeof(uint32_t), max_verts, cluster_out);
+ fwrite(avalanche_size_dist, sizeof(uint32_t), max_edges, avalanche_out);
+
+ fclose(cluster_out);
+ fclose(avalanche_out);
+
+ free(c_filename);
+ free(a_filename);
+ free(cluster_size_dist);
+ free(avalanche_size_dist);
+ }
+
+ if (save_conductivity) {
+ char *cond_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(cond_filename, filename_len, "cond_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ FILE *cond_file = fopen(cond_filename, "ab");
+ fwrite(conductivity, sizeof(double), N, cond_file);
+ fclose(cond_file);
+ free(cond_filename);
+ free(conductivity);
+ }
+
+ if (save_energy) {
+ char *tough_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(tough_filename, filename_len, "enrg_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ FILE *tough_file = fopen(tough_filename, "ab");
+ fwrite(energy, sizeof(long double), N, tough_file);
+ fclose(tough_file);
+ free(tough_filename);
+ free(energy);
+ }
+
+ if (save_threshold) {
+ char *thres_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(thres_filename, filename_len, "thrs_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ FILE *thres_file = fopen(thres_filename, "ab");
+ fwrite(thresholds, sizeof(long double), N, thres_file);
+ fclose(thres_file);
+ free(thres_filename);
+ free(thresholds);
+ }
+
+ if (save_current_load) {
+ char *load_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(load_filename, filename_len, "load_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ FILE *load_file = fopen(load_filename, "ab");
+ fwrite(loads, sizeof(long double), N, load_file);
+ fclose(load_file);
+ free(load_filename);
+ free(loads);
+ }
+
+ if (save_damage) {
+ FILE *hdam_file = fopen(d_filename, "wb");
+ fwrite(damage, sizeof(uint32_t), max_edges, hdam_file);
+ fclose(hdam_file);
+ free(d_filename);
+ free(damage);
+ }
+
+ if (save_data) {
+ fclose(data_out);
+ }
+
+ if (save_crit_stress) {
+ char *str_filename = (char *)malloc(filename_len * sizeof(char));
+ snprintf(str_filename, filename_len, "strs_%c_%c_%c_%c_%d_%g_%g.dat",
+ lattice_c, dual_c, boundc, boundc2, L, beta, crack_len);
+ FILE *str_file = fopen(str_filename, "ab");
+ fwrite(crit_stress, sizeof(long double), N, str_file);
+ fclose(str_file);
+ free(str_filename);
+ free(crit_stress);
+ }
+
+ CHOL_F(finish)(&c);
+
+ return 0;
}
diff --git a/src/fracture.h b/src/fracture.h
index f56e14a..5eb0a1d 100644
--- a/src/fracture.h
+++ b/src/fracture.h
@@ -16,7 +16,6 @@
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
-#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
@@ -25,7 +24,6 @@
#include <jst/graph.h>
#include <jst/rand.h>
-
// these defs allow me to switch to long int cholmod in a sitch
#define int_t int
#define uint_t unsigned int
@@ -35,68 +33,69 @@
#define GSL_RAND_GEN gsl_rng_mt19937
typedef struct {
- const graph_t *graph;
- bool *fuses;
- long double *thres;
- double inf;
- cholmod_dense *boundary_cond;
- cholmod_factor *factor;
- bool voltage_bound;
- uint_t num_broken;
- uint_t dim;
- uint_t nep;
- uint_t *evp;
- cholmod_sparse *voltcurmat;
+ const graph_t *graph;
+ bool *fuses;
+ long double *thres;
+ double inf;
+ cholmod_dense *boundary_cond;
+ cholmod_factor *factor;
+ bool voltage_bound;
+ uint_t num_broken;
+ uint_t dim;
+ uint_t nep;
+ uint_t *evp;
+ cholmod_sparse *voltcurmat;
} net_t;
typedef struct {
- uint_t num_broken;
- uint_t *break_list;
- double *conductivity;
- long double *extern_field;
+ uint_t num_broken;
+ uint_t *break_list;
+ double *conductivity;
+ long double *extern_field;
} data_t;
-intptr_t *run_voronoi(uint_t num_coords, double *coords, bool periodic, double xmin, double xmax, double ymin, double ymax);
+intptr_t *run_voronoi(uint_t num_coords, double *coords, bool periodic,
+ double xmin, double xmax, double ymin, double ymax);
-cholmod_sparse *gen_adjacency(const net_t *net, bool dual, bool use_gp, bool symmetric, cholmod_common *c);
+cholmod_sparse *gen_adjacency(const net_t *net, bool dual, bool use_gp,
+ bool symmetric, cholmod_common *c);
cholmod_sparse *gen_laplacian(const net_t *net, cholmod_common *c);
-int edge_to_verts(uint_t width, bool periodic, uint_t edge,
- bool index);
+int edge_to_verts(uint_t width, bool periodic, uint_t edge, bool index);
-int dual_edge_to_verts(uint_t width, bool periodic, uint_t edge,
- bool index);
+int dual_edge_to_verts(uint_t width, bool periodic, uint_t edge, bool index);
-double dual_vert_to_coord(uint_t width, bool periodic, uint_t vert,
- bool index);
+double dual_vert_to_coord(uint_t width, bool periodic, uint_t vert, bool index);
-void factor_update(cholmod_factor *factor, uint_t v1, uint_t v2, cholmod_common *c);
+void factor_update(cholmod_factor *factor, uint_t v1, uint_t v2,
+ cholmod_common *c);
void factor_update2(cholmod_factor *factor, uint_t v1, cholmod_common *c);
void net_notch(net_t *net, double notch_len, cholmod_common *c);
data_t *net_fracture(net_t *net, cholmod_common *c, double cutoff);
double *net_voltages(const net_t *net, cholmod_common *c);
-double *net_currents(const net_t *net, const double *voltages, cholmod_common *c);
+double *net_currents(const net_t *net, const double *voltages,
+ cholmod_common *c);
double net_conductivity(const net_t *net, const double *voltages);
void update_boundary(net_t *instance, const double *avg_field);
-FILE *get_file(const char *prefix, uint_t width, uint_t crack,
- double beta, uint_t iter, uint_t num_iter,
- uint_t num, bool read);
+FILE *get_file(const char *prefix, uint_t width, uint_t crack, double beta,
+ uint_t iter, uint_t num_iter, uint_t num, bool read);
double update_beta(double beta, uint_t width, const double *stress,
- const double *damage, double bound_total);
+ const double *damage, double bound_total);
cholmod_sparse *gen_voltcurmat(uint_t num_edges, uint_t num_verts,
- uint_t *edges_to_verts, cholmod_common *c);
+ uint_t *edges_to_verts, cholmod_common *c);
net_t *net_copy(const net_t *net, cholmod_common *c);
void net_free(net_t *instance, cholmod_common *c);
-net_t *net_create(const graph_t *g, double inf, double beta, double notch_len, bool vb, cholmod_common *c);
+net_t *net_create(const graph_t *g, double inf, double beta, double notch_len,
+ bool vb, cholmod_common *c);
bool break_edge(net_t *instance, uint_t edge, cholmod_common *c);
@@ -111,11 +110,13 @@ double *get_corr(net_t *instance, uint_t **dists, cholmod_common *c);
double *bin_values(graph_t *network, uint_t width, double *values);
-cholmod_dense *bound_set(const graph_t *g, bool vb, double notch_len, cholmod_common *c);
+cholmod_dense *bound_set(const graph_t *g, bool vb, double notch_len,
+ cholmod_common *c);
data_t *data_create(uint_t num_edges);
void data_free(data_t *data);
-void data_update(data_t *data, uint_t last_broke, long double strength, double conductivity);
+void data_update(data_t *data, uint_t last_broke, long double strength,
+ double conductivity);
long double rand_dist_pow(const gsl_rng *r, double beta);
diff --git a/src/long_anal_process.c b/src/long_anal_process.c
index ba29152..d4ec4e0 100644
--- a/src/long_anal_process.c
+++ b/src/long_anal_process.c
@@ -1,156 +1,158 @@
#include "fracture.h"
+#include <gsl/gsl_blas.h>
+#include <gsl/gsl_matrix.h>
#include <gsl/gsl_sf_erf.h>
#include <gsl/gsl_sf_laguerre.h>
-#include <gsl/gsl_matrix.h>
#include <gsl/gsl_vector.h>
-#include <gsl/gsl_blas.h>
#include <sys/stat.h>
void get_mean(uint_t len, long double *data, long double result[2]) {
- long double total = 0;
+ long double total = 0;
- for (uint_t i = 0; i < len; i++) {
- total += data[i];
- }
+ for (uint_t i = 0; i < len; i++) {
+ total += data[i];
+ }
- long double mean = total / len;
- long double total_sq_diff = 0;
+ long double mean = total / len;
+ long double total_sq_diff = 0;
- for (uint_t i = 0; i < len; i++) {
- total_sq_diff += pow(mean - data[i], 2);
- }
+ for (uint_t i = 0; i < len; i++) {
+ total_sq_diff += pow(mean - data[i], 2);
+ }
- long double mean_err = sqrt(total_sq_diff) / len;
+ long double mean_err = sqrt(total_sq_diff) / len;
- result[0] = mean;
- result[1] = mean_err;
+ result[0] = mean;
+ result[1] = mean_err;
}
-void get_mom(uint_t len, uint_t n, long double *data, long double mean[2], long double result[2]) {
- long double total_n_diff = 0;
- long double total_n2_diff = 0;
+void get_mom(uint_t len, uint_t n, long double *data, long double mean[2],
+ long double result[2]) {
+ long double total_n_diff = 0;
+ long double total_n2_diff = 0;
- for (uint_t i = 0; i < len; i++) {
- total_n_diff += pow(fabsl(mean[0] - data[i]), n);
- total_n2_diff += pow(fabsl(mean[0] - data[i]), 2 * n);
- }
+ for (uint_t i = 0; i < len; i++) {
+ total_n_diff += pow(fabsl(mean[0] - data[i]), n);
+ total_n2_diff += pow(fabsl(mean[0] - data[i]), 2 * n);
+ }
- long double mom = total_n_diff / len;
- long double mom_err = sqrt(total_n2_diff) / len;
+ long double mom = total_n_diff / len;
+ long double mom_err = sqrt(total_n2_diff) / len;
- result[0] = mom;
- result[1] = mom_err;
+ result[0] = mom;
+ result[1] = mom_err;
}
int main(int argc, char *argv[]) {
- uint_t nc = argc - 1;
- uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
- double *betas_c = (double *)malloc(nc * sizeof(double));
- long double *vals_c1 = (long double *)malloc(nc * sizeof(long double));
- long double *errors_c1 = (long double *)malloc(nc * sizeof(long double));
- long double *vals_c2 = (long double *)malloc(nc * sizeof(long double));
- long double *errors_c2 = (long double *)malloc(nc * sizeof(long double));
- long double *vals_c3 = (long double *)malloc(nc * sizeof(long double));
- long double *errors_c3 = (long double *)malloc(nc * sizeof(long double));
- long double *vals_c4 = (long double *)malloc(nc * sizeof(long double));
- long double *errors_c4 = (long double *)malloc(nc * sizeof(long double));
-
- char *out_filename = (char *)malloc(100 * sizeof(char));
- uint_t out_filename_len = 0;
-
- for (uint_t i = 0; i < nc; i++) {
- char *fn = argv[1 + i];
- char *buff = (char *)malloc(20 * sizeof(char));
- uint_t pos = 0; uint_t c = 0;
- while (c < 5) {
- if (fn[pos] == '_') {
- c++;
- }
- if (i == 0) {
- out_filename[pos] = fn[pos];
- out_filename_len++;
- }
- pos++;
- }
- c = 0;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- Ls_c[i] = atoi(buff);
- c = 0;
- pos++;
- while (fn[pos] != '_') {
- buff[c] = fn[pos];
- pos++;
- c++;
- }
- buff[c] = '\0';
- betas_c[i] = atof(buff);
- free(buff);
-
- struct stat info;
- stat(fn, &info);
- uint_t num_bytes = info.st_size;
- uint_t dist_len = (num_bytes * sizeof(char)) / sizeof(long double);
-
- long double *dist = malloc(dist_len * sizeof(long double));
- FILE *dist_file = fopen(fn, "rb");
- fread(dist, sizeof(long double), dist_len, dist_file);
- fclose(dist_file);
- {
- long double mom1[2];
- get_mean(dist_len, dist, mom1);
- vals_c1[i] = mom1[0];
- errors_c1[i] = mom1[1];
-
- long double mom2[2];
- get_mom(dist_len, 2, dist, mom1, mom2);
- vals_c2[i] = mom2[0];
- errors_c2[i] = mom2[1];
-
- long double mom3[2];
- get_mom(dist_len, 3, dist, mom1, mom3);
- vals_c3[i] = mom3[0];
- errors_c3[i] = mom3[1];
-
- long double mom4[2];
- get_mom(dist_len, 4, dist, mom1, mom4);
- vals_c4[i] = mom4[0];
- errors_c4[i] = mom4[1];
- }
- free(dist);
- }
-
- out_filename[out_filename_len-1] = '.';
- out_filename[out_filename_len] = 't';
- out_filename[out_filename_len+1] = 'x';
- out_filename[out_filename_len+2] = 't';
- out_filename[out_filename_len+3] = '\0';
-
- FILE *out_file = fopen(out_filename, "w");
-
- for (uint_t i = 0; i < nc; i++) {
- fprintf(out_file, "%u %g %Lg %Lg %Lg %Lg %Lg %Lg %Lg %Lg\n", Ls_c[i], betas_c[i], vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i], vals_c3[i], errors_c3[i], vals_c4[i], errors_c4[i]);
- }
-
- fclose(out_file);
-
-
- free(Ls_c);
- free(betas_c);
- free(vals_c1);
- free(errors_c1);
- free(vals_c2);
- free(errors_c2);
- free(vals_c3);
- free(errors_c3);
- free(vals_c4);
- free(errors_c4);
-
- return 0;
+ uint_t nc = argc - 1;
+ uint_t *Ls_c = (uint_t *)malloc(nc * sizeof(uint_t));
+ double *betas_c = (double *)malloc(nc * sizeof(double));
+ long double *vals_c1 = (long double *)malloc(nc * sizeof(long double));
+ long double *errors_c1 = (long double *)malloc(nc * sizeof(long double));
+ long double *vals_c2 = (long double *)malloc(nc * sizeof(long double));
+ long double *errors_c2 = (long double *)malloc(nc * sizeof(long double));
+ long double *vals_c3 = (long double *)malloc(nc * sizeof(long double));
+ long double *errors_c3 = (long double *)malloc(nc * sizeof(long double));
+ long double *vals_c4 = (long double *)malloc(nc * sizeof(long double));
+ long double *errors_c4 = (long double *)malloc(nc * sizeof(long double));
+
+ char *out_filename = (char *)malloc(100 * sizeof(char));
+ uint_t out_filename_len = 0;
+
+ for (uint_t i = 0; i < nc; i++) {
+ char *fn = argv[1 + i];
+ char *buff = (char *)malloc(20 * sizeof(char));
+ uint_t pos = 0;
+ uint_t c = 0;
+ while (c < 5) {
+ if (fn[pos] == '_') {
+ c++;
+ }
+ if (i == 0) {
+ out_filename[pos] = fn[pos];
+ out_filename_len++;
+ }
+ pos++;
+ }
+ c = 0;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ Ls_c[i] = atoi(buff);
+ c = 0;
+ pos++;
+ while (fn[pos] != '_') {
+ buff[c] = fn[pos];
+ pos++;
+ c++;
+ }
+ buff[c] = '\0';
+ betas_c[i] = atof(buff);
+ free(buff);
+
+ struct stat info;
+ stat(fn, &info);
+ uint_t num_bytes = info.st_size;
+ uint_t dist_len = (num_bytes * sizeof(char)) / sizeof(long double);
+
+ long double *dist = malloc(dist_len * sizeof(long double));
+ FILE *dist_file = fopen(fn, "rb");
+ fread(dist, sizeof(long double), dist_len, dist_file);
+ fclose(dist_file);
+ {
+ long double mom1[2];
+ get_mean(dist_len, dist, mom1);
+ vals_c1[i] = mom1[0];
+ errors_c1[i] = mom1[1];
+
+ long double mom2[2];
+ get_mom(dist_len, 2, dist, mom1, mom2);
+ vals_c2[i] = mom2[0];
+ errors_c2[i] = mom2[1];
+
+ long double mom3[2];
+ get_mom(dist_len, 3, dist, mom1, mom3);
+ vals_c3[i] = mom3[0];
+ errors_c3[i] = mom3[1];
+
+ long double mom4[2];
+ get_mom(dist_len, 4, dist, mom1, mom4);
+ vals_c4[i] = mom4[0];
+ errors_c4[i] = mom4[1];
+ }
+ free(dist);
+ }
+
+ out_filename[out_filename_len - 1] = '.';
+ out_filename[out_filename_len] = 't';
+ out_filename[out_filename_len + 1] = 'x';
+ out_filename[out_filename_len + 2] = 't';
+ out_filename[out_filename_len + 3] = '\0';
+
+ FILE *out_file = fopen(out_filename, "w");
+
+ for (uint_t i = 0; i < nc; i++) {
+ fprintf(out_file, "%u %g %Lg %Lg %Lg %Lg %Lg %Lg %Lg %Lg\n", Ls_c[i],
+ betas_c[i], vals_c1[i], errors_c1[i], vals_c2[i], errors_c2[i],
+ vals_c3[i], errors_c3[i], vals_c4[i], errors_c4[i]);
+ }
+
+ fclose(out_file);
+
+ free(Ls_c);
+ free(betas_c);
+ free(vals_c1);
+ free(errors_c1);
+ free(vals_c2);
+ free(errors_c2);
+ free(vals_c3);
+ free(errors_c3);
+ free(vals_c4);
+ free(errors_c4);
+
+ return 0;
}
-