diff options
| author | Thomas White <taw@physics.org> | 2015-10-05 15:47:20 +0200 |
|---|---|---|
| committer | Thomas White <taw@physics.org> | 2015-10-05 18:03:18 +0200 |
| commit | 02d635bc0fdedf315e032b9356971bd7e4941158 (patch) | |
| tree | b69d5901e1fb0e3ae2011a1d029238652c86544b /src | |
| parent | 71dd3502f03a4ac8037be3c00f7b84d70176b01b (diff) | |
pattern_sim: Remove image->data (CPU only)
Diffstat (limited to 'src')
| -rw-r--r-- | src/diffraction.c | 62 | ||||
| -rw-r--r-- | src/pattern_sim.c | 84 |
2 files changed, 89 insertions, 57 deletions
diff --git a/src/diffraction.c b/src/diffraction.c index 5a936809..93674f52 100644 --- a/src/diffraction.c +++ b/src/diffraction.c @@ -361,31 +361,30 @@ static double molecule_factor(const double *intensities, const double *phases, } - -static void diffraction_at_k(struct image *image, const double *intensities, - const double *phases, const unsigned char *flags, - UnitCell *cell, GradientMethod m, - const SymOpList *sym, double k, - double ax, double ay, double az, - double bx, double by, double bz, - double cx, double cy, double cz, - double *lut_a, double *lut_b, double *lut_c, - double weight) +static void diffraction_panel(struct image *image, const double *intensities, + const double *phases, const unsigned char *flags, + UnitCell *cell, GradientMethod m, + const SymOpList *sym, double k, + double ax, double ay, double az, + double bx, double by, double bz, + double cx, double cy, double cz, + double *lut_a, double *lut_b, double *lut_c, + int pn, double weight) { - unsigned int fs, ss; + int fs, ss; const int nxs = 4; const int nys = 4; + struct panel *p = &image->det->panels[pn]; weight /= nxs*nys; - for ( fs=0; fs<image->width; fs++ ) { - for ( ss=0; ss<image->height; ss++ ) { + for ( ss=0; ss<p->h; ss++ ) { + for ( fs=0; fs<p->w; fs++ ) { int idx; double f_lattice, I_lattice; double I_molecule; struct rvec q; - double twotheta; int xs, ys; float xo, yo; @@ -395,7 +394,7 @@ static void diffraction_at_k(struct image *image, const double *intensities, xo = (1.0/nxs) * xs; yo = (1.0/nys) * ys; - q = get_q(image, fs+xo, ss+yo, &twotheta, k); + q = get_q_for_panel(p, fs+xo, ss+yo, NULL, k); f_lattice = lattice_factor(q, ax, ay, az, bx, by, bz, @@ -411,14 +410,33 @@ static void diffraction_at_k(struct image *image, const double *intensities, I_lattice = pow(f_lattice, 2.0); - idx = fs + image->width*ss; - image->data[idx] += I_lattice * I_molecule * weight; - image->twotheta[idx] = twotheta; + idx = fs + p->w*ss; + image->dp[pn][idx] += I_lattice * I_molecule * weight; } } } - progress_bar(fs, image->width-1, "Calculating diffraction"); + progress_bar(ss, p->h-1, "Calculating diffraction"); + } +} + + +static void diffraction_at_k(struct image *image, const double *intensities, + const double *phases, const unsigned char *flags, + UnitCell *cell, GradientMethod m, + const SymOpList *sym, double k, + double ax, double ay, double az, + double bx, double by, double bz, + double cx, double cy, double cz, + double *lut_a, double *lut_b, double *lut_c, + double weight) +{ + int i; + + for ( i=0; i<image->det->n_panels; i++ ) { + diffraction_panel(image, intensities, phases, flags, cell, m, + sym, k, ax, ay, az, bx, by, bz, cx, cy, cz, + lut_a, lut_b, lut_c, i, weight); } } @@ -710,12 +728,6 @@ void get_diffraction(struct image *image, int na, int nb, int nc, cell_get_cartesian(cell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); - /* Allocate (and zero) the "diffraction array" */ - image->data = calloc(image->width * image->height, sizeof(float)); - - /* Needed later for Lorentz calculation */ - image->twotheta = malloc(image->width * image->height * sizeof(double)); - lut_a = get_sinc_lut(na, no_fringes); lut_b = get_sinc_lut(nb, no_fringes); lut_c = get_sinc_lut(nc, no_fringes); diff --git a/src/pattern_sim.c b/src/pattern_sim.c index bd97ead7..f724057e 100644 --- a/src/pattern_sim.c +++ b/src/pattern_sim.c @@ -249,8 +249,7 @@ int main(int argc, char *argv[]) int c; struct image image; struct gpu_context *gctx = NULL; - struct image *powder; - float *powder_data; + struct image powder; char *intfile = NULL; double *intensities; char *rval; @@ -293,6 +292,7 @@ int main(int argc, char *argv[]) double bandwidth = 0.01; double photon_energy = 9000.0; struct beam_params beam; + int i; /* Long options */ const struct option longopts[] = { @@ -667,7 +667,21 @@ int main(int argc, char *argv[]) /* Initialise stuff */ image.filename = NULL; image.features = NULL; - image.flags = NULL; + image.bad = NULL; + image.dp = malloc(image.det->n_panels*sizeof(float *)); + if ( image.dp == NULL ) { + ERROR("Failed to allocate data\n"); + return 1; + } + for ( i=0; i<image.det->n_panels; i++ ) { + image.dp[i] = calloc(image.det->panels[i].w * + image.det->panels[i].h, + sizeof(float)); + if ( image.dp[i] == NULL ) { + ERROR("Failed to allocate data\n"); + return 1; + } + } rng = gsl_rng_alloc(gsl_rng_mt19937); if ( config_random ) { @@ -679,12 +693,23 @@ int main(int argc, char *argv[]) gsl_rng_set(rng, seed); } - powder = calloc(1, sizeof(struct image)); - powder->width = image.width; - powder->height = image.height; - powder->det = image.det; - powder_data = calloc(image.width*image.height, sizeof(float)); - powder->data = powder_data; + powder.width = image.width; + powder.height = image.height; + powder.det = image.det; + powder.dp = malloc(image.det->n_panels*sizeof(float *)); + if ( powder.dp == NULL ) { + ERROR("Failed to allocate powder data\n"); + return 1; + } + for ( i=0; i<image.det->n_panels; i++ ) { + powder.dp[i] = calloc(image.det->panels[i].w * + image.det->panels[i].h, + sizeof(float)); + if ( powder.dp[i] == NULL ) { + ERROR("Failed to allocate powder data\n"); + return 1; + } + } /* Splurge a few useful numbers */ STATUS("Simulation parameters:\n"); @@ -732,6 +757,7 @@ int main(int argc, char *argv[]) int na, nb, nc; double a, b, c, d; UnitCell *cell; + int err = 0; if ( random_size ) { @@ -825,10 +851,6 @@ int main(int argc, char *argv[]) } - /* Ensure no residual information */ - image.data = NULL; - image.twotheta = NULL; - cell_get_parameters(cell, &a, &b, &c, &d, &d, &d); STATUS("Particle size = %i x %i x %i" " ( = %5.2f x %5.2f x %5.2f nm)\n", @@ -836,8 +858,6 @@ int main(int argc, char *argv[]) if ( config_gpu ) { - int err; - if ( gctx == NULL ) { gctx = setup_gpu(config_nosfac, intensities, flags, sym_str, @@ -845,13 +865,12 @@ int main(int argc, char *argv[]) } err = get_diffraction_gpu(gctx, &image, na, nb, nc, cell, no_fringes); - if ( err ) image.data = NULL; } else { get_diffraction(&image, na, nb, nc, intensities, phases, flags, cell, grad, sym, no_fringes); } - if ( image.data == NULL ) { + if ( err ) { ERROR("Diffraction calculation failed.\n"); done = 1; goto skip; @@ -862,18 +881,23 @@ int main(int argc, char *argv[]) if ( powder_fn != NULL ) { - int x, y, w; + int pn; - w = image.width; + for ( pn=0; pn<image.det->n_panels; pn++ ) { + + size_t w, i; + + w = image.det->panels[pn].w + * image.det->panels[pn].h; + + for ( i=0; i<w; i++ ) { + powder.dp[pn][i] += (double)image.dp[pn][i]; + } - for ( x=0; x<image.width; x++ ) { - for ( y=0; y<image.height; y++ ) { - powder->data[x+w*y] += (double)image.data[x+w*y]; - } } if ( !(ndone % 10) ) { - hdf5_write_image(powder_fn, powder, NULL); + hdf5_write_image(powder_fn, &powder, NULL); } } @@ -895,10 +919,6 @@ int main(int argc, char *argv[]) } - /* Clean up */ - free(image.data); - free(image.twotheta); - cell_free(cell); skip: @@ -909,18 +929,18 @@ skip: } while ( !done ); if ( powder_fn != NULL ) { - hdf5_write_image(powder_fn, powder, NULL); + hdf5_write_image(powder_fn, &powder, NULL); } if ( gctx != NULL ) { cleanup_gpu(gctx); } - free(image.det->panels); + for ( i=0; i<image.det->n_panels; i++ ) { + free(powder.dp[i]); + } free(intfile); free(image.det); - free(powder->data); - free(powder); cell_free(input_cell); free(intensities); free(outfile); |