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|
/*
* render_hkl.c
*
* Draw pretty renderings of reflection lists
*
* Copyright © 2012-2014 Deutsches Elektronen-Synchrotron DESY,
* a research centre of the Helmholtz Association.
*
* Authors:
* 2010-2014 Thomas White <taw@physics.org>
*
* This file is part of CrystFEL.
*
* CrystFEL is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* CrystFEL is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CrystFEL. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdarg.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <getopt.h>
#ifdef HAVE_CAIRO
#include <cairo.h>
#include <cairo-pdf.h>
#endif
#include <gsl/gsl_matrix.h>
#include <gsl/gsl_linalg.h>
#include <gsl/gsl_blas.h>
#include "version.h"
#include "utils.h"
#include "symmetry.h"
#include "render.h"
#include "render_hkl.h"
#include "reflist.h"
#include "reflist-utils.h"
#include "cell-utils.h"
#define KEY_FILENAME "key.pdf"
static void show_help(const char *s)
{
printf("Syntax: %s [options] <file.hkl>\n\n", s);
printf(
"Render intensity lists in 2D slices.\n"
"\n"
" -d, --down=<h>,<k>,<l> Indices for the axis in the downward direction.\n"
" Default: 1,0,0.\n"
" -r, --right=<h>,<k>,<l> Indices for the axis in the 'right' (roughly)\n"
" direction. Default: 0,1,0.\n"
" --zone=<z> Show the <z>th Laue zone.\n"
" -o, --output=<filename> Output filename. Default: za.pdf\n"
" --boost=<val> Squash colour scale by <val>.\n"
" -p, --pdb=<file> File from which to get the unit cell.\n"
" -y, --symmetry=<sym> Expand reflections according to point group <sym>.\n"
"\n"
" -c, --colscale=<scale> Use the given colour scale. Choose from:\n"
" mono : Greyscale, black is zero.\n"
" invmono : Greyscale, white is zero.\n"
" colour : Colour scale:\n"
" black-blue-pink-red-orange-yellow-white\n"
"\n"
" -w --weighting=<wght> Colour/shade the reciprocal lattice points\n"
" according to:\n"
" I : the intensity of the reflection.\n"
" sqrtI : the square root of the intensity.\n"
" count : the number of measurements for the\n"
" reflection (after correcting for\n"
" multiplicity 'epsilon').\n"
" rawcts : the raw number of measurements for the\n"
" reflection (no 'epsilon' correction).\n"
"\n"
" --res-ring=<r> Draw a resolution ring at <r> Angstroms.\n"
" --highres=<r> Render spots only up to <r> Angstroms.\n"
" --no-axes Do not draw reciprocal space axes.\n"
"\n"
" --colour-key Draw (only) the key for the current colour scale.\n"
" The key will be written to 'key.pdf' in the\n"
" current directory.\n"
"\n"
" -h, --help Display this help message.\n"
" --version Print CrystFEL version and exit.\n"
);
}
#ifdef HAVE_CAIRO
static double max_value(RefList *list, int wght, const SymOpList *sym)
{
Reflection *refl;
RefListIterator *iter;
double max = -INFINITY;
SymOpMask *m;
m = new_symopmask(sym);
for ( refl = first_refl(list, &iter);
refl != NULL;
refl = next_refl(refl, iter) )
{
double val;
int n;
signed int h, k, l;
get_indices(refl, &h, &k, &l);
special_position(sym, m, h, k, l);
n = num_equivs(sym, m);
switch ( wght ) {
case WGHT_I :
val = get_intensity(refl);
break;
case WGHT_SQRTI :
val = get_intensity(refl);
val = (val>0.0) ? sqrt(val) : 0.0;
break;
case WGHT_COUNTS :
val = get_redundancy(refl);
val /= (double)n;
break;
case WGHT_RAWCOUNTS :
val = get_redundancy(refl);
break;
default :
ERROR("Invalid weighting.\n");
abort();
}
if ( val > max ) max = val;
}
return max;
}
static void draw_circles(double xh, double xk, double xl,
double yh, double yk, double yl,
signed int zh, signed int zk, signed int zl,
RefList *list, const SymOpList *sym,
cairo_t *dctx, int wght, double boost, int colscale,
UnitCell *cell, double radius, double theta,
double as, double bs, double cx, double cy,
double scale, double max_val, signed int zone)
{
Reflection *refl;
RefListIterator *iter;
SymOpMask *m;
gsl_matrix *basis;
gsl_vector *ind;
gsl_permutation *p;
int signum;
double adx, ady, adz;
double bdx, bdy, bdz;
double cdx, cdy, cdz;
gsl_vector *za;
double asx, asy, asz;
double bsx, bsy, bsz;
double csx, csy, csz;
gsl_matrix *A;
double za_len;
m = new_symopmask(sym);
/* Get the zone axis direction in cartesian coordinates */
za = gsl_vector_alloc(3);
if ( za == NULL ) {
ERROR("Couldn't allocate za\n");
return;
}
if ( cell_get_cartesian(cell, &adx, &ady, &adz,
&bdx, &bdy, &bdz,
&cdx, &cdy, &cdz) ) {
ERROR("Couldn't get cartesian parameters\n");
return;
}
gsl_vector_set(za, 0, adx*zh + bdx*zk + cdx*zl);
gsl_vector_set(za, 1, ady*zh + bdy*zk + cdy*zl);
gsl_vector_set(za, 2, adz*zh + bdz*zk + cdz*zl);
/* Normalise it (to unit length), then set its length to the
* interplanar spacing in reciprocal space, which is 1/the length of
* the direct space ZA vector */
za_len = gsl_blas_dnrm2(za);
gsl_blas_dscal(1.0/za_len, za);
gsl_blas_dscal(1.0/za_len, za);
/* Express it in terms of the basis vectors of the reciprocal lattice */
if ( cell_get_reciprocal(cell, &asx, &asy, &asz,
&bsx, &bsy, &bsz,
&csx, &csy, &csz) ) {
ERROR("Couldn't get reciprocal parameters\n");
return;
}
A = gsl_matrix_alloc(3, 3);
if ( A == NULL ) {
ERROR("Couldn't allocate A\n");
return;
}
gsl_matrix_set(A, 0, 0, asx);
gsl_matrix_set(A, 1, 0, asy);
gsl_matrix_set(A, 2, 0, asz);
gsl_matrix_set(A, 0, 1, bsx);
gsl_matrix_set(A, 1, 1, bsy);
gsl_matrix_set(A, 2, 1, bsz);
gsl_matrix_set(A, 0, 2, csx);
gsl_matrix_set(A, 1, 2, csy);
gsl_matrix_set(A, 2, 2, csz);
p = gsl_permutation_alloc(3);
gsl_linalg_LU_decomp(A, p, &signum);
gsl_linalg_LU_svx(A, p, za);
STATUS("Zone axis along %5.2e %5.2e %5.2e in the reciprocal lattice\n",
gsl_vector_get(za, 0),
gsl_vector_get(za, 1),
gsl_vector_get(za, 2));
gsl_matrix_free(A);
basis = gsl_matrix_alloc(3, 3);
if ( basis == NULL ) return;
gsl_matrix_set(basis, 0, 0, xh);
gsl_matrix_set(basis, 1, 0, xk);
gsl_matrix_set(basis, 2, 0, xl);
gsl_matrix_set(basis, 0, 1, yh);
gsl_matrix_set(basis, 1, 1, yk);
gsl_matrix_set(basis, 2, 1, yl);
gsl_matrix_set(basis, 0, 2, gsl_vector_get(za, 0));
gsl_matrix_set(basis, 1, 2, gsl_vector_get(za, 1));
gsl_matrix_set(basis, 2, 2, gsl_vector_get(za, 2));
gsl_linalg_LU_decomp(basis, p, &signum);
gsl_vector_free(za);
ind = gsl_vector_alloc(3);
if ( ind == NULL ) return;
/* Iterate over all reflections */
for ( refl = first_refl(list, &iter);
refl != NULL;
refl = next_refl(refl, iter) )
{
double u, v, val;
signed int ha, ka, la;
int i, n;
double r, g, b;
get_indices(refl, &ha, &ka, &la);
special_position(sym, m, ha, ka, la);
n = num_equivs(sym, m);
for ( i=0; i<n; i++ ) {
signed int h, k, l;
double xi, yi;
get_equiv(sym, m, i, ha, ka, la, &h, &k, &l);
/* Is the reflection in the zone? */
if ( h*zh + k*zk + l*zl != zone) continue;
gsl_vector_set(ind, 0, h);
gsl_vector_set(ind, 1, k);
gsl_vector_set(ind, 2, l);
gsl_linalg_LU_svx(basis, p, ind);
xi = gsl_vector_get(ind, 0);
yi = gsl_vector_get(ind, 1);
switch ( wght) {
case WGHT_I :
val = get_intensity(refl);
break;
case WGHT_SQRTI :
val = get_intensity(refl);
val = (val>0.0) ? sqrt(val) : 0.0;
break;
case WGHT_COUNTS :
val = get_redundancy(refl);
val /= (double)n;
break;
case WGHT_RAWCOUNTS :
val = get_redundancy(refl);
break;
default :
ERROR("Invalid weighting.\n");
abort();
}
/* Absolute location in image based on 2D basis */
u = (double)xi*as*sin(theta);
v = (double)xi*as*cos(theta) + (double)yi*bs;
cairo_arc(dctx, ((double)cx)+u*scale,
((double)cy)+v*scale,
radius, 0.0, 2.0*M_PI);
render_scale(val, max_val/boost, colscale,
&r, &g, &b);
cairo_set_source_rgb(dctx, r, g, b);
cairo_fill(dctx);
}
}
gsl_matrix_free(basis);
gsl_vector_free(ind);
gsl_permutation_free(p);
free_symopmask(m);
}
static void render_overlined_indices(cairo_t *dctx,
signed int h, signed int k, signed int l)
{
char tmp[256];
cairo_text_extents_t size;
double x, y;
const double sh = 39.0;
cairo_get_current_point(dctx, &x, &y);
cairo_set_line_width(dctx, 4.0);
/* Draw 'h' */
snprintf(tmp, 255, "%i", abs(h));
cairo_text_extents(dctx, tmp, &size);
cairo_show_text(dctx, tmp);
cairo_fill(dctx);
if ( h < 0 ) {
cairo_move_to(dctx, x+size.x_bearing, y-sh);
cairo_rel_line_to(dctx, size.width, 0.0);
cairo_stroke(dctx);
}
x += size.x_advance;
/* Draw 'k' */
cairo_move_to(dctx, x, y);
snprintf(tmp, 255, "%i", abs(k));
cairo_text_extents(dctx, tmp, &size);
cairo_show_text(dctx, tmp);
cairo_fill(dctx);
if ( k < 0 ) {
cairo_move_to(dctx, x+size.x_bearing, y-sh);
cairo_rel_line_to(dctx, size.width, 0.0);
cairo_stroke(dctx);
}
x += size.x_advance;
/* Draw 'l' */
cairo_move_to(dctx, x, y);
snprintf(tmp, 255, "%i", abs(l));
cairo_text_extents(dctx, tmp, &size);
cairo_show_text(dctx, tmp);
cairo_fill(dctx);
if ( l < 0 ) {
cairo_move_to(dctx, x+size.x_bearing, y-sh);
cairo_rel_line_to(dctx, size.width, 0.0);
cairo_stroke(dctx);
}
}
struct resrings
{
double res[100];
int n_rings;
};
static void render_za(UnitCell *cell, RefList *list,
double boost, const SymOpList *sym, int wght,
int colscale,
signed int xh, signed int xk, signed int xl,
signed int yh, signed int yk, signed int yl,
const char *outfile, double scale_top, signed int zone,
struct resrings *rings, int noaxes)
{
cairo_surface_t *surface;
cairo_t *dctx;
double max_val;
double scale1, scale2, scale;
double sep_u, sep_v, max_r;
double u, v;
double as, bs, theta;
double asx, asy, asz;
double bsx, bsy, bsz;
double csx, csy, csz;
float wh, ht;
signed int zh, zk, zl;
double xx, xy, xz;
double yx, yy, yz;
char tmp[256];
cairo_text_extents_t size;
double cx, cy;
const double border = 200.0;
int png;
double rmin, rmax;
int i;
/* Vector product to determine the zone axis. */
zh = yk*xl - yl*xk;
zk = - yh*xl + yl*xh;
zl = yh*xk - yk*xh;
STATUS("Zone axis is [%i %i %i]\n", zh, zk, zl);
/* Size of output and centre definition */
wh = 1024;
ht = 1024;
/* Work out reciprocal lattice spacings and angles for this cut */
if ( cell_get_reciprocal(cell, &asx, &asy, &asz,
&bsx, &bsy, &bsz,
&csx, &csy, &csz) ) {
ERROR("Couldn't get reciprocal parameters\n");
return;
}
xx = xh*asx + xk*bsx + xl*csx;
xy = xh*asy + xk*bsy + xl*csy;
xz = xh*asz + xk*bsz + xl*csz;
yx = yh*asx + yk*bsx + yl*csx;
yy = yh*asy + yk*bsy + yl*csy;
yz = yh*asz + yk*bsz + yl*csz;
theta = angle_between(xx, xy, xz, yx, yy, yz);
as = modulus(xx, xy, xz);
bs = modulus(yx, yy, yz);
resolution_limits(list, cell, &rmin, &rmax);
printf("Resolution limits: 1/d = %.2f - %.2f nm^-1"
" (d = %.2f - %.2f A)\n",
rmin/1e9, rmax/1e9, (1.0/rmin)/1e-10, (1.0/rmax)/1e-10);
max_val = max_value(list, wght, sym);
if ( max_val <= 0.0 ) {
STATUS("Couldn't find max value.\n");
return;
}
/* Use manual scale top if specified */
if ( scale_top > 0.0 ) {
max_val = scale_top;
}
scale1 = ((double)wh-border) / (2.0*rmax);
scale2 = ((double)ht-border) / (2.0*rmax);
scale = (scale1 < scale2) ? scale1 : scale2;
/* Work out the spot radius */
sep_u = scale*as;
sep_v = scale*bs;
max_r = (sep_u < sep_v) ? sep_u : sep_v;
max_r /= 2.0; /* Max radius is half the separation */
max_r -= (max_r/10.0); /* Add a tiny separation between circles */
/* Create surface */
if ( strcmp(outfile+strlen(outfile)-4, ".png") == 0 ) {
png = 1;
surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32,
wh, ht);
} else {
png = 0;
surface = cairo_pdf_surface_create(outfile, wh, ht);
}
if ( cairo_surface_status(surface) != CAIRO_STATUS_SUCCESS ) {
ERROR("Couldn't create Cairo surface\n");
cairo_surface_destroy(surface);
return;
}
dctx = cairo_create(surface);
if ( cairo_status(dctx) != CAIRO_STATUS_SUCCESS ) {
ERROR("Couldn't create Cairo context\n");
cairo_surface_destroy(surface);
return;
}
/* Black background */
cairo_rectangle(dctx, 0.0, 0.0, wh, ht);
cairo_set_source_rgb(dctx, 0.0, 0.0, 0.0);
cairo_fill(dctx);
/* Test size of text that goes to the right(ish) */
cairo_set_font_size(dctx, 40.0);
snprintf(tmp, 255, "%i%i%i", abs(xh), abs(xk), abs(xl));
cairo_text_extents(dctx, tmp, &size);
cx = 532.0 - size.width;
cy = 512.0 - 20.0;
draw_circles(xh, xk, xl, yh, yk, yl, zh, zk, zl,
list, sym, dctx, wght, boost, colscale, cell,
max_r, theta, as, bs, cx, cy, scale,
max_val, zone);
/* Resolution rings */
for ( i=0; i<rings->n_rings; i++ ) {
char label[32];
double r = 1.0/(rings->res[i]*1e-10);
snprintf(label, 31, "%.1f A", rings->res[i]);
cairo_save(dctx);
cairo_arc(dctx, (double)cx, (double)cy, scale*r, 0, 2*M_PI);
cairo_set_source_rgb(dctx, 1.0, 0.0, 0.0);
cairo_stroke(dctx);
cairo_translate(dctx, cx, cy);
cairo_rotate(dctx, -M_PI/4.0);
cairo_translate(dctx, 0.0, scale*r);
cairo_set_font_size(dctx, 17.0);
cairo_text_extents(dctx, label, &size);
cairo_translate(dctx, -size.width/2.0, 5.0+size.height);
cairo_show_text(dctx, label);
cairo_fill(dctx);
cairo_restore(dctx);
}
if ( !noaxes ) {
/* Centre marker */
cairo_arc(dctx, (double)cx,
(double)cy, max_r, 0, 2*M_PI);
cairo_set_source_rgb(dctx, 1.0, 0.0, 0.0);
cairo_fill(dctx);
/* Draw indexing lines */
cairo_set_line_cap(dctx, CAIRO_LINE_CAP_ROUND);
cairo_set_line_width(dctx, 2.0);
cairo_move_to(dctx, (double)cx, (double)cy);
u = rmax*sin(theta);
v = rmax*cos(theta);
cairo_line_to(dctx, cx+u*scale, cy+v*scale);
cairo_set_source_rgb(dctx, 0.0, 1.0, 0.0);
cairo_stroke(dctx);
cairo_set_font_size(dctx, 40.0);
snprintf(tmp, 255, "%i%i%i", abs(xh), abs(xk), abs(xl));
cairo_text_extents(dctx, tmp, &size);
cairo_move_to(dctx, cx+u*scale + 20.0,
cy+v*scale + size.height/2.0);
render_overlined_indices(dctx, xh, xk, xl);
cairo_fill(dctx);
snprintf(tmp, 255, "%i%i%i", abs(yh), abs(yk), abs(yl));
cairo_text_extents(dctx, tmp, &size);
cairo_set_line_width(dctx, 2.0);
cairo_move_to(dctx, (double)cx, (double)cy);
cairo_line_to(dctx, cx, cy+rmax*scale);
cairo_set_source_rgb(dctx, 0.0, 1.0, 0.0);
cairo_stroke(dctx);
cairo_move_to(dctx, cx - size.width/2.0,
cy+rmax*scale + size.height + 20.0);
render_overlined_indices(dctx, yh, yk, yl);
cairo_fill(dctx);
}
if ( png ) {
int r = cairo_surface_write_to_png(surface, outfile);
if ( r != CAIRO_STATUS_SUCCESS ) {
ERROR("Failed to write PNG to '%s'\n", outfile);
}
}
cairo_surface_finish(surface);
cairo_destroy(dctx);
}
static int render_key(int colscale, double scale_top)
{
cairo_surface_t *surface;
cairo_t *dctx;
double top, wh, ht, y;
double slice;
wh = 128.0;
ht = 1024.0;
slice = 1.0;
if ( scale_top > 0.0 ) {
top = scale_top;
} else {
top = 1.0;
}
surface = cairo_pdf_surface_create(KEY_FILENAME, wh, ht);
if ( cairo_surface_status(surface) != CAIRO_STATUS_SUCCESS ) {
fprintf(stderr, "Couldn't create Cairo surface\n");
cairo_surface_destroy(surface);
return 1;
}
dctx = cairo_create(surface);
for ( y=0.0; y<ht; y+=slice ) {
double r, g, b;
double val;
double v = y;
cairo_rectangle(dctx, 0.0, ht-y, wh/2.0, slice);
if ( colscale == SCALE_RATIO ) {
if ( v < ht/2.0 ) {
val = v/(ht/2.0);
} else {
val = (((v-ht/2.0)/(ht/2.0))*(top-1.0))+1.0;
}
} else {
val = v/ht;
}
render_scale(val, top, colscale, &r, &g, &b);
cairo_set_source_rgb(dctx, r, g, b);
cairo_stroke_preserve(dctx);
cairo_fill(dctx);
}
if ( colscale == SCALE_RATIO ) {
cairo_text_extents_t size;
char tmp[32];
cairo_rectangle(dctx, 0.0, ht/2.0-2.0, wh/2.0, 4.0);
cairo_set_source_rgb(dctx, 0.0, 0.0, 0.0);
cairo_stroke_preserve(dctx);
cairo_fill(dctx);
cairo_set_font_size(dctx, 20.0);
cairo_text_extents(dctx, "1.0", &size);
cairo_move_to(dctx, wh/2.0+5.0, ht/2.0+size.height/2.0);
cairo_show_text(dctx, "1.0");
cairo_set_font_size(dctx, 20.0);
cairo_text_extents(dctx, "0.0", &size);
cairo_move_to(dctx, wh/2.0+5.0, ht-5.0);
cairo_show_text(dctx, "0.0");
cairo_set_font_size(dctx, 20.0);
snprintf(tmp, 31, "%.1f", top);
cairo_text_extents(dctx, tmp, &size);
cairo_move_to(dctx, wh/2.0+5.0, size.height+5.0);
cairo_show_text(dctx, tmp);
}
cairo_surface_finish(surface);
cairo_destroy(dctx);
STATUS("Colour key written to "KEY_FILENAME"\n");
return 0;
}
#else /* HAVE_CAIRO */
static int render_key(int colscale, double scale_top)
{
ERROR("This version of CrystFEL was compiled without Cairo");
ERROR(" support, which is required to draw the colour");
ERROR(" scale. Sorry!\n");
return 1;
}
static void render_za(UnitCell *cell, RefList *list,
double boost, const char *sym, int wght, int colscale,
signed int xh, signed int xk, signed int xl,
signed int yh, signed int yk, signed int yl,
const char *outfile, double scale_top)
{
ERROR("This version of CrystFEL was compiled without Cairo");
ERROR(" support, which is required to plot a zone axis");
ERROR(" pattern. Sorry!\n");
}
#endif /* HAVE_CAIRO */
static void add_ring(struct resrings *rings, double res)
{
if ( rings->n_rings == 100 ) {
ERROR("Too many resolution rings.\n");
return;
}
rings->res[rings->n_rings] = res;
rings->n_rings++;
}
int main(int argc, char *argv[])
{
int c;
UnitCell *cell;
RefList *list;
char *infile;
int config_sqrt = 0;
int config_colkey = 0;
int config_zawhinge = 0;
char *cellfile = NULL;
int r = 0;
double boost = 1.0;
char *sym_str = NULL;
SymOpList *sym;
char *weighting = NULL;
int wght;
int colscale;
char *cscale = NULL;
signed int dh=1, dk=0, dl=0;
signed int rh=0, rk=1, rl=0;
char *down = NULL;
char *right = NULL;
char *outfile = NULL;
double scale_top = -1.0;
char *endptr;
long int zone = 0;
double res;
struct resrings rings;
float highres = -1.0;
int config_noaxes = 0;
rings.n_rings = 0;
/* Long options */
const struct option longopts[] = {
{"help", 0, NULL, 'h'},
{"version", 0, NULL, 5 },
{"zone-axis", 0, &config_zawhinge, 1},
{"output", 1, NULL, 'o'},
{"pdb", 1, NULL, 'p'},
{"boost", 1, NULL, 'b'},
{"symmetry", 1, NULL, 'y'},
{"weighting", 1, NULL, 'w'},
{"colscale", 1, NULL, 'c'},
{"down", 1, NULL, 'd'},
{"right", 1, NULL, 'r'},
{"counts", 0, &config_sqrt, 1},
{"colour-key", 0, &config_colkey, 1},
{"no-axes", 0, &config_noaxes, 1},
{"scale-top", 1, NULL, 2},
{"zone", 1, NULL, 3},
{"res-ring", 1, NULL, 4},
{"highres", 1, NULL, 6},
{0, 0, NULL, 0}
};
/* Short options */
while ((c = getopt_long(argc, argv, "hp:w:c:y:d:r:o:",
longopts, NULL)) != -1) {
switch (c) {
case 'h' :
show_help(argv[0]);
return 0;
case 5 :
printf("CrystFEL: " CRYSTFEL_VERSIONSTRING "\n");
printf(CRYSTFEL_BOILERPLATE"\n");
return 0;
case 'p' :
cellfile = strdup(optarg);
break;
case 'b' :
boost = atof(optarg);
break;
case 'y' :
sym_str = strdup(optarg);
break;
case 'w' :
weighting = strdup(optarg);
break;
case 'c' :
cscale = strdup(optarg);
break;
case 'd' :
down = strdup(optarg);
break;
case 'r' :
right = strdup(optarg);
break;
case 'o' :
outfile = strdup(optarg);
break;
case 2 :
errno = 0;
scale_top = strtod(optarg, &endptr);
if ( !( (optarg[0] != '\0') && (endptr[0] == '\0') )
|| (errno != 0) )
{
ERROR("Invalid scale top ('%s')\n", optarg);
return 1;
}
if ( scale_top < 0.0 ) {
ERROR("Scale top must be positive.\n");
return 1;
}
break;
case 3 :
errno = 0;
zone = strtol(optarg, &endptr, 10);
if ( !( (optarg[0] != '\0') && (endptr[0] == '\0') )
|| (errno != 0) )
{
ERROR("Invalid zone number ('%s')\n", optarg);
return 1;
}
break;
case 4 :
errno = 0;
res = strtod(optarg, &endptr);
if ( !( (optarg[0] != '\0') && (endptr[0] == '\0') )
|| (errno != 0) )
{
ERROR("Invalid resolution ('%s')\n", optarg);
return 1;
}
add_ring(&rings, res);
break;
case 6 :
if ( sscanf(optarg, "%e", &highres) != 1 ) {
ERROR("Invalid value for --highres\n");
return 1;
}
break;
case 0 :
break;
case '?' :
break;
default :
ERROR("Unhandled option '%c'\n", c);
break;
}
}
if ( config_zawhinge ) {
ERROR("Friendly warning: The --zone-axis option isn't needed"
" any longer (I ignored it for you).\n");
}
if ( (cellfile == NULL) && !config_colkey ) {
ERROR("You must specify the unit cell.\n");
return 1;
}
if ( sym_str == NULL ) {
sym_str = strdup("1");
}
sym = get_pointgroup(sym_str);
free(sym_str);
if ( weighting == NULL ) {
weighting = strdup("I");
}
if ( outfile == NULL ) outfile = strdup("za.pdf");
if ( strcmp(weighting, "I") == 0 ) {
wght = WGHT_I;
} else if ( strcmp(weighting, "sqrtI") == 0 ) {
wght = WGHT_SQRTI;
} else if ( strcmp(weighting, "count") == 0 ) {
wght = WGHT_COUNTS;
} else if ( strcmp(weighting, "counts") == 0 ) {
wght = WGHT_COUNTS;
} else if ( strcmp(weighting, "rawcts") == 0 ) {
wght = WGHT_RAWCOUNTS;
} else if ( strcmp(weighting, "rawcount") == 0 ) {
wght = WGHT_RAWCOUNTS;
} else if ( strcmp(weighting, "rawcounts") == 0 ) {
wght = WGHT_RAWCOUNTS;
} else {
ERROR("Unrecognised weighting '%s'\n", weighting);
return 1;
}
free(weighting);
if ( cscale == NULL ) {
cscale = strdup("mono");
}
if ( strcmp(cscale, "mono") == 0 ) {
colscale = SCALE_MONO;
} else if ( strcmp(cscale, "invmono") == 0 ) {
colscale = SCALE_INVMONO;
} else if ( strcmp(cscale, "colour") == 0 ) {
colscale = SCALE_COLOUR;
} else if ( strcmp(cscale, "color") == 0 ) {
colscale = SCALE_COLOUR;
} else if ( strcmp(cscale, "ratio") == 0 ) {
colscale = SCALE_RATIO;
} else {
ERROR("Unrecognised colour scale '%s'\n", cscale);
return 1;
}
free(cscale);
if ( config_colkey ) {
return render_key(colscale, scale_top);
}
if ( (( down == NULL ) && ( right != NULL ))
|| (( down != NULL ) && ( right == NULL )) ) {
ERROR("Either specify both 'down' and 'right',"
" or neither.\n");
return 1;
}
if ( down != NULL ) {
int r;
r = sscanf(down, "%i,%i,%i", &dh, &dk, &dl);
if ( r != 3 ) {
ERROR("Invalid format for 'down'\n");
return 1;
}
}
if ( right != NULL ) {
int r;
r = sscanf(right, "%i,%i,%i", &rh, &rk, &rl);
if ( r != 3 ) {
ERROR("Invalid format for 'right'\n");
return 1;
}
}
infile = argv[optind];
cell = load_cell_from_file(cellfile);
if ( cell == NULL ) {
ERROR("Couldn't load unit cell from %s\n", cellfile);
return 1;
}
list = read_reflections(infile);
if ( list == NULL ) {
ERROR("Couldn't read file '%s'\n", infile);
return 1;
}
if ( check_list_symmetry(list, sym) ) {
ERROR("The input reflection list does not appear to"
" have symmetry %s\n", symmetry_name(sym));
return 1;
}
if ( highres > 0.0 ) {
list = res_cutoff(list, cell, 0.0, 1.0/(highres*1e-10));
}
render_za(cell, list, boost, sym, wght, colscale,
rh, rk, rl, dh, dk, dl, outfile, scale_top, zone, &rings,
config_noaxes);
free(cellfile);
free_symoplist(sym);
reflist_free(list);
if ( outfile != NULL ) free(outfile);
return r;
}
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