diff options
| author | Alexandra Tolstikova <alexandra.tolstikova@desy.de> | 2015-06-16 15:16:42 +0200 |
|---|---|---|
| committer | Alexandra Tolstikova <alexandra.tolstikova@desy.de> | 2015-06-16 15:16:42 +0200 |
| commit | 067842bd0480ad7f4e5680158e80c40d23d08041 (patch) | |
| tree | 27c2763dc42d85127ee5b1af784480badd8c9232 /libcrystfel | |
| parent | a2367c209492e8b91b21f435ea1b3cb99fc69cc7 (diff) | |
Check malloc return values
Diffstat (limited to 'libcrystfel')
| -rw-r--r-- | libcrystfel/src/asdf.c | 129 |
1 files changed, 81 insertions, 48 deletions
diff --git a/libcrystfel/src/asdf.c b/libcrystfel/src/asdf.c index 427b6e52..fb2f8279 100644 --- a/libcrystfel/src/asdf.c +++ b/libcrystfel/src/asdf.c @@ -112,46 +112,52 @@ static int tvector_memcpy(struct tvector *dest, struct tvector *src, int n) } -static int asdf_cell_free(struct asdf_cell c) +static int asdf_cell_free(struct asdf_cell *c) { int i; for ( i = 0; i < 3; i++ ) { - gsl_vector_free(c.axes[i]); - gsl_vector_free(c.reciprocal[i]); + gsl_vector_free(c->axes[i]); + gsl_vector_free(c->reciprocal[i]); } - free(c.reflections); - for ( i = 0; i < c.N_refls; i++ ) { - free(c.indices[i]); + free(c->reflections); + for ( i = 0; i < c->N_refls; i++ ) { + free(c->indices[i]); } - free(c.indices); + free(c->indices); + free(c); return 1; } -static struct asdf_cell asdf_cell_new(int n) +static struct asdf_cell *asdf_cell_new(int n) { - struct asdf_cell c; + struct asdf_cell *c; + c = malloc(sizeof(struct asdf_cell)); int i; for ( i = 0; i < 3; i++ ) { - c.axes[i] = gsl_vector_alloc(3); - c.reciprocal[i] = gsl_vector_alloc(3); + c->axes[i] = gsl_vector_alloc(3); + c->reciprocal[i] = gsl_vector_alloc(3); } - c.N_refls = n; - c.reflections = malloc(sizeof(int) * n); + c->N_refls = n; + c->reflections = malloc(sizeof(int) * n); + if (c->reflections == NULL) return NULL; + + c->indices = malloc(sizeof(double *) * n); + if (c->indices == NULL) return NULL; - c.indices = malloc(sizeof(double *) * n); for ( i = 0; i < n; i++ ) { - c.indices[i] = malloc(sizeof(double) * 3); + c->indices[i] = malloc(sizeof(double) * 3); + if (c->indices[i] == NULL) return NULL; } - c.n = 0; + c->n = 0; - c.acl = 0; - c.n_max = 0; + c->acl = 0; + c->n_max = 0; return c; } @@ -495,17 +501,17 @@ static int check_refl_fitting_cell(struct asdf_cell *c, } -static void print_asdf_cell(struct asdf_cell cc) +static void print_asdf_cell(struct asdf_cell *cc) { double a, b, c, alpha, beta, gamma, ab, bc, ca; - a = gsl_blas_dnrm2(cc.axes[0]); - b = gsl_blas_dnrm2(cc.axes[1]); - c = gsl_blas_dnrm2(cc.axes[2]); + a = gsl_blas_dnrm2(cc->axes[0]); + b = gsl_blas_dnrm2(cc->axes[1]); + c = gsl_blas_dnrm2(cc->axes[2]); - gsl_blas_ddot(cc.axes[0], cc.axes[1], &ab); - gsl_blas_ddot(cc.axes[1], cc.axes[2], &bc); - gsl_blas_ddot(cc.axes[0], cc.axes[2], &ca); + gsl_blas_ddot(cc->axes[0], cc->axes[1], &ab); + gsl_blas_ddot(cc->axes[1], cc->axes[2], &bc); + gsl_blas_ddot(cc->axes[0], cc->axes[2], &ca); alpha = acos(bc/b/c)/M_PI*180; beta = acos(ca/a/c)/M_PI*180; @@ -521,7 +527,7 @@ static void print_asdf_cell(struct asdf_cell cc) printf("%.2f %.2f %.2f %.2f %.2f %.2f %.0f %d \n", a, b, c, alpha, beta, gamma, - cc.volume, cc.n); + cc->volume, cc->n); } @@ -534,8 +540,8 @@ static int refine_asdf_cell(struct asdf_cell *c, gsl_vector **reflections, gsl_matrix *X = gsl_matrix_alloc(c->n, 3); gsl_vector *r[] = {gsl_vector_alloc(c->n), - gsl_vector_alloc(c->n), - gsl_vector_alloc(c->n)}; + gsl_vector_alloc(c->n), + gsl_vector_alloc(c->n)}; gsl_vector *res = gsl_vector_alloc(3); gsl_matrix *cov = gsl_matrix_alloc (3, 3); @@ -725,7 +731,7 @@ static int check_cell_angles(gsl_vector *va, gsl_vector *vb, gsl_vector *vc, cosg = ab/a/b; if ( fabs(cosa) > max_cos || fabs(cosb) > max_cos || - fabs(cosg) > max_cos ) { + fabs(cosg) > max_cos ) { return 0; } @@ -797,7 +803,11 @@ static int find_cell(struct tvector *tvectors, int N_tvectors, double IndexFit, * considered */ int acl = N_reflections < 18 ? 6 : N_reflections/3; - struct asdf_cell c = asdf_cell_new(N_reflections); + struct asdf_cell *c = asdf_cell_new(N_reflections); + if (c == NULL) { + ERROR("Failed to allocate asdf_cell in find_cell!\n"); + return 0; + } /* Traversing a 3d array in slices perpendicular to the main diagonal */ int sl; @@ -827,7 +837,7 @@ static int find_cell(struct tvector *tvectors, int N_tvectors, double IndexFit, if ( !create_cell(tvectors[i], tvectors[j], tvectors[k], - &c, IndexFit, + c, IndexFit, volume_min, volume_max, reflections, @@ -839,15 +849,15 @@ static int find_cell(struct tvector *tvectors, int N_tvectors, double IndexFit, acl = find_acl(tvectors[i], tvectors[j], tvectors[k]); - c.acl = acl; - c.n_max = n_max; + c->acl = acl; + c->n_max = n_max; - reduce_asdf_cell(&c); + reduce_asdf_cell(c); /* If the new cell has more fitting * reflections save it to result */ - if ( result->n < c.n ) { - asdf_cell_memcpy(result, &c); + if ( result->n < c->n ) { + asdf_cell_memcpy(result, c); } acl++; @@ -903,12 +913,22 @@ static int index_refls(gsl_vector **reflections, int N_reflections, (N_reflections - 2) / 6; int **triplets = malloc(N_triplets * sizeof(int *)); + if (triplets == NULL) { + ERROR("Failed to allocate triplets in index_refls!\n"); + return 0; + } + l = 0; for ( i = 0; i < N_reflections; i++ ) { for ( j = i + 1; j < N_reflections; j++ ) { for ( k = j + 1; k < N_reflections; k++ ) { triplets[l] = malloc(3 * sizeof(int)); - + if (triplets[l] == NULL) { + ERROR("Failed to allocate triplets " + " in index_refls!\n"); + return 0; + } + triplets[l][0] = i; triplets[l][1] = j; triplets[l][2] = k; @@ -926,10 +946,19 @@ static int index_refls(gsl_vector **reflections, int N_reflections, double ds; int *fits = malloc(N_reflections * sizeof(int)); + if (fits == NULL) { + ERROR("Failed to allocate fits in index_refls!\n"); + return 0; + } if ( i_max > N_triplets ) i_max = N_triplets; struct tvector *tvectors = malloc(i_max * sizeof(struct tvector)); + if (tvectors == NULL) { + ERROR("Failed to allocate tvectors in index_refls!\n"); + return 0; + } + int N_tvectors = 0; int n_max = 0; // maximum number of reflections fitting one of tvectors @@ -1057,12 +1086,16 @@ int run_asdf(struct image *image, IndexingPrivate *ipriv) gsl_vector_set(reflections[i], 2, f->rz/1e10); } - struct asdf_cell c = asdf_cell_new(N_reflections); + struct asdf_cell *c = asdf_cell_new(N_reflections); + if (c == NULL) { + ERROR("Failed to allocate asdf_cell in run_asdf!\n"); + return 0; + } if ( N_reflections == 0 ) return 0; j = index_refls(reflections, N_reflections, d_max, volume_min, - volume_max, LevelFit, IndexFit, i_max, &c, dp->fftw); + volume_max, LevelFit, IndexFit, i_max, c, dp->fftw); for ( i = 0; i < N_reflections; i++ ) { gsl_vector_free(reflections[i]); @@ -1072,15 +1105,15 @@ int run_asdf(struct image *image, IndexingPrivate *ipriv) UnitCell *uc; uc = cell_new(); - cell_set_cartesian(uc, gsl_vector_get(c.axes[0], 0) * 1e-10, - gsl_vector_get(c.axes[0], 1) * 1e-10, - gsl_vector_get(c.axes[0], 2) * 1e-10, - gsl_vector_get(c.axes[1], 0) * 1e-10, - gsl_vector_get(c.axes[1], 1) * 1e-10, - gsl_vector_get(c.axes[1], 2) * 1e-10, - gsl_vector_get(c.axes[2], 0) * 1e-10, - gsl_vector_get(c.axes[2], 1) * 1e-10, - gsl_vector_get(c.axes[2], 2) * 1e-10); + cell_set_cartesian(uc, gsl_vector_get(c->axes[0], 0) * 1e-10, + gsl_vector_get(c->axes[0], 1) * 1e-10, + gsl_vector_get(c->axes[0], 2) * 1e-10, + gsl_vector_get(c->axes[1], 0) * 1e-10, + gsl_vector_get(c->axes[1], 1) * 1e-10, + gsl_vector_get(c->axes[1], 2) * 1e-10, + gsl_vector_get(c->axes[2], 0) * 1e-10, + gsl_vector_get(c->axes[2], 1) * 1e-10, + gsl_vector_get(c->axes[2], 2) * 1e-10); if ( check_cell(dp, image, uc) ) { asdf_cell_free(c); |