int main(int argc, char **argv)
{
int ret, level;
int stat, type, display;
int chcat;
int has_color, has_fcolor;
struct color_rgb color, fcolor;
double size;
int default_width;
double width_scale;
double minreg, maxreg, reg;
char map_name[GNAME_MAX];
struct GModule *module;
struct Option *map_opt;
struct Option *color_opt, *fcolor_opt, *rgbcol_opt, *zcol_opt;
struct Option *type_opt, *display_opt;
struct Option *icon_opt, *size_opt, *sizecolumn_opt, *rotcolumn_opt;
struct Option *where_opt;
struct Option *field_opt, *cat_opt, *lfield_opt;
struct Option *lcolor_opt, *bgcolor_opt, *bcolor_opt;
struct Option *lsize_opt, *font_opt, *enc_opt, *xref_opt, *yref_opt;
struct Option *attrcol_opt, *maxreg_opt, *minreg_opt;
struct Option *width_opt, *wcolumn_opt, *wscale_opt;
struct Option *leglab_opt;
struct Option *icon_line_opt, *icon_area_opt;
struct Flag *id_flag, *cats_acolors_flag, *sqrt_flag, *legend_flag;
char *desc;
struct cat_list *Clist;
LATTR lattr;
struct Map_info Map;
struct Cell_head window;
struct bound_box box;
double overlap;
stat = 0;
/* Initialize the GIS calls */
G_gisinit(argv[0]);
module = G_define_module();
G_add_keyword(_("display"));
G_add_keyword(_("graphics"));
G_add_keyword(_("vector"));
module->description = _("Displays user-specified vector map "
"in the active graphics frame.");
map_opt = G_define_standard_option(G_OPT_V_MAP);
field_opt = G_define_standard_option(G_OPT_V_FIELD_ALL);
field_opt->answer = "1";
field_opt->guisection = _("Selection");
display_opt = G_define_option();
display_opt->key = "display";
display_opt->type = TYPE_STRING;
display_opt->required = YES;
display_opt->multiple = YES;
display_opt->answer = "shape";
display_opt->options = "shape,cat,topo,vert,dir,zcoor";
display_opt->description = _("Display");
desc = NULL;
G_asprintf(&desc,
"shape;%s;cat;%s;topo;%s;vert;%s;dir;%s;zcoor;%s",
_("Display geometry of features"),
_("Display category numbers of features"),
_("Display topology information (nodes, edges)"),
_("Display vertices of features"),
_("Display direction of linear features"),
_("Display z-coordinate of features (only for 3D vector maps)"));
display_opt->descriptions = desc;
/* Query */
type_opt = G_define_standard_option(G_OPT_V_TYPE);
type_opt->answer = "point,line,area,face";
type_opt->options = "point,line,boundary,centroid,area,face";
type_opt->guisection = _("Selection");
cat_opt = G_define_standard_option(G_OPT_V_CATS);
cat_opt->guisection = _("Selection");
where_opt = G_define_standard_option(G_OPT_DB_WHERE);
where_opt->guisection = _("Selection");
/* Colors */
color_opt = G_define_standard_option(G_OPT_CN);
color_opt->label = _("Feature color");
color_opt->guisection = _("Colors");
fcolor_opt = G_define_standard_option(G_OPT_CN);
fcolor_opt->key = "fill_color";
fcolor_opt->answer = "200:200:200";
fcolor_opt->label = _("Area fill color");
fcolor_opt->guisection = _("Colors");
rgbcol_opt = G_define_standard_option(G_OPT_DB_COLUMN);
rgbcol_opt->key = "rgb_column";
rgbcol_opt->guisection = _("Colors");
rgbcol_opt->label = _("Colorize features according color definition column");
rgbcol_opt->description = _("Color definition in R:G:B form");
zcol_opt = G_define_standard_option(G_OPT_M_COLR);
zcol_opt->key = "zcolor";
zcol_opt->description = _("Colorize point or area features according to z-coordinate");
zcol_opt->guisection = _("Colors");
/* Lines */
width_opt = G_define_option();
width_opt->key = "width";
width_opt->type = TYPE_INTEGER;
width_opt->answer = "0";
width_opt->guisection = _("Lines");
width_opt->description = _("Line width");
wcolumn_opt = G_define_standard_option(G_OPT_DB_COLUMN);
wcolumn_opt->key = "width_column";
wcolumn_opt->guisection = _("Lines");
wcolumn_opt->label = _("Name of numeric column containing line width");
wcolumn_opt->description = _("These values will be scaled by width_scale");
wscale_opt = G_define_option();
wscale_opt->key = "width_scale";
wscale_opt->type = TYPE_DOUBLE;
wscale_opt->answer = "1";
wscale_opt->guisection = _("Lines");
wscale_opt->description = _("Scale factor for width_column");
/* Symbols */
icon_opt = G_define_option();
icon_opt->key = "icon";
icon_opt->type = TYPE_STRING;
icon_opt->required = NO;
icon_opt->multiple = NO;
icon_opt->guisection = _("Symbols");
icon_opt->answer = "basic/x";
/* This could also use ->gisprompt = "old,symbol,symbol" instead of ->options */
icon_opt->options = icon_files();
icon_opt->description = _("Point and centroid symbol");
size_opt = G_define_option();
size_opt->key = "size";
size_opt->type = TYPE_DOUBLE;
size_opt->answer = "5";
size_opt->guisection = _("Symbols");
size_opt->label = _("Symbol size");
size_opt->description =
_("When used with the size_column option this becomes the scale factor");
sizecolumn_opt = G_define_standard_option(G_OPT_DB_COLUMN);
sizecolumn_opt->key = "size_column";
sizecolumn_opt->guisection = _("Symbols");
sizecolumn_opt->description =
_("Name of numeric column containing symbol size");
rotcolumn_opt = G_define_standard_option(G_OPT_DB_COLUMN);
rotcolumn_opt->key = "rotation_column";
rotcolumn_opt->guisection = _("Symbols");
rotcolumn_opt->label =
_("Name of numeric column containing symbol rotation angle");
rotcolumn_opt->description =
_("Measured in degrees CCW from east");
icon_area_opt = G_define_option();
icon_area_opt->key = "icon_area";
icon_area_opt->type = TYPE_STRING;
icon_area_opt->required = NO;
icon_area_opt->multiple = NO;
icon_area_opt->guisection = _("Legend");
icon_area_opt->answer = "legend/area";
icon_area_opt->options = icon_files();
icon_area_opt->description = _("Area/boundary symbol for legend");
icon_line_opt = G_define_option();
icon_line_opt->key = "icon_line";
icon_line_opt->type = TYPE_STRING;
icon_line_opt->required = NO;
icon_line_opt->multiple = NO;
icon_line_opt->guisection = _("Legend");
icon_line_opt->answer = "legend/line";
icon_line_opt->options = icon_files();
icon_line_opt->description = _("Line symbol for legend");
leglab_opt = G_define_option();
leglab_opt->key = "legend_label";
leglab_opt->type = TYPE_STRING;
leglab_opt->guisection = _("Legend");
leglab_opt->description = _("Label to display after symbol in vector legend");
/* Labels */
lfield_opt = G_define_standard_option(G_OPT_V_FIELD);
lfield_opt->key = "label_layer";
lfield_opt->required = NO;
lfield_opt->guisection = _("Labels");
lfield_opt->label =
_("Layer number for labels (default: the given layer number)");
attrcol_opt = G_define_standard_option(G_OPT_DB_COLUMN);
attrcol_opt->key = "attribute_column";
attrcol_opt->multiple = NO; /* or fix attr.c, around line 102 */
attrcol_opt->guisection = _("Labels");
attrcol_opt->description = _("Name of column to be displayed as a label");
lcolor_opt = G_define_standard_option(G_OPT_C);
lcolor_opt->key = "label_color";
lcolor_opt->answer = "red";
lcolor_opt->label = _("Label color");
lcolor_opt->guisection = _("Labels");
bgcolor_opt = G_define_standard_option(G_OPT_CN);
bgcolor_opt->key = "label_bgcolor";
bgcolor_opt->answer = "none";
bgcolor_opt->guisection = _("Labels");
bgcolor_opt->label = _("Label background color");
bcolor_opt = G_define_standard_option(G_OPT_CN);
bcolor_opt->key = "label_bcolor";
bcolor_opt->type = TYPE_STRING;
bcolor_opt->answer = "none";
bcolor_opt->guisection = _("Labels");
bcolor_opt->label = _("Label border color");
lsize_opt = G_define_option();
lsize_opt->key = "label_size";
lsize_opt->type = TYPE_INTEGER;
lsize_opt->answer = "8";
lsize_opt->guisection = _("Labels");
lsize_opt->description = _("Label size (pixels)");
font_opt = G_define_option();
font_opt->key = "font";
font_opt->type = TYPE_STRING;
font_opt->guisection = _("Labels");
font_opt->description = _("Font name");
enc_opt = G_define_option();
enc_opt->key = "encoding";
enc_opt->type = TYPE_STRING;
enc_opt->guisection = _("Labels");
enc_opt->description = _("Text encoding");
xref_opt = G_define_option();
xref_opt->key = "xref";
xref_opt->type = TYPE_STRING;
xref_opt->guisection = _("Labels");
xref_opt->answer = "left";
xref_opt->options = "left,center,right";
xref_opt->description = _("Label horizontal justification");
yref_opt = G_define_option();
yref_opt->key = "yref";
yref_opt->type = TYPE_STRING;
yref_opt->guisection = _("Labels");
yref_opt->answer = "center";
yref_opt->options = "top,center,bottom";
yref_opt->description = _("Label vertical justification");
minreg_opt = G_define_option();
minreg_opt->key = "minreg";
minreg_opt->type = TYPE_DOUBLE;
minreg_opt->required = NO;
minreg_opt->description =
_("Minimum region size (average from height and width) "
"when map is displayed");
maxreg_opt = G_define_option();
maxreg_opt->key = "maxreg";
maxreg_opt->type = TYPE_DOUBLE;
maxreg_opt->required = NO;
maxreg_opt->description =
_("Maximum region size (average from height and width) "
"when map is displayed");
/* Colors */
cats_acolors_flag = G_define_flag();
cats_acolors_flag->key = 'c';
cats_acolors_flag->guisection = _("Colors");
cats_acolors_flag->description =
_("Random colors according to category number "
"(or layer number if 'layer=-1' is given)");
/* Query */
id_flag = G_define_flag();
id_flag->key = 'i';
id_flag->guisection = _("Selection");
id_flag->description = _("Use values from 'cats' option as feature id");
sqrt_flag = G_define_flag();
sqrt_flag->key = 'r';
sqrt_flag->label = _("Use square root of the value of size_column");
sqrt_flag->description =
_("This makes circle areas proportionate to the size_column values "
"instead of circle radius");
sqrt_flag->guisection = _("Symbols");
legend_flag = G_define_flag();
legend_flag->key = 's';
legend_flag->label = _("Do not show this layer in vector legend");
legend_flag->guisection = _("Legend");
/* Check command line */
if (G_parser(argc, argv))
exit(EXIT_FAILURE);
D_open_driver();
G_get_set_window(&window);
/* Check min/max region */
reg = ((window.east - window.west) + (window.north - window.south)) / 2;
if (minreg_opt->answer) {
minreg = atof(minreg_opt->answer);
if (reg < minreg) {
G_important_message(_("Region size is lower than minreg, nothing displayed"));
exit(EXIT_SUCCESS);
}
}
if (maxreg_opt->answer) {
maxreg = atof(maxreg_opt->answer);
if (reg > maxreg) {
G_important_message(_("Region size is greater than maxreg, nothing displayed"));
exit(EXIT_SUCCESS);
}
}
strcpy(map_name, map_opt->answer);
default_width = atoi(width_opt->answer);
if (default_width < 0)
default_width = 0;
width_scale = atof(wscale_opt->answer);
if (cats_acolors_flag->answer && rgbcol_opt->answer) {
G_warning(_("The -%c flag and <%s> option cannot be used together, "
"the -%c flag will be ignored!"),
cats_acolors_flag->key, rgbcol_opt->key, cats_acolors_flag->key);
cats_acolors_flag->answer = FALSE;
}
color = G_standard_color_rgb(WHITE);
has_color = option_to_color(&color, color_opt->answer);
fcolor = G_standard_color_rgb(WHITE);
has_fcolor = option_to_color(&fcolor, fcolor_opt->answer);
size = atof(size_opt->answer);
/* if where_opt was specified select categories from db
* otherwise parse cat_opt */
Clist = Vect_new_cat_list();
Clist->field = atoi(field_opt->answer);
/* open vector */
level = Vect_open_old2(&Map, map_name, "", field_opt->answer);
chcat = 0;
if (where_opt->answer) {
if (Clist->field < 1)
G_fatal_error(_("Option <%s> must be > 0"), field_opt->key);
chcat = 1;
option_to_where(&Map, Clist, where_opt->answer);
}
else if (cat_opt->answer) {
if (Clist->field < 1 && !id_flag->answer)
G_fatal_error(_("Option <%s> must be > 0"), field_opt->key);
chcat = 1;
ret = Vect_str_to_cat_list(cat_opt->answer, Clist);
if (ret > 0)
G_warning(n_("%d error in cat option", "%d errors in cat option", ret), ret);
}
type = Vect_option_to_types(type_opt);
display = option_to_display(display_opt);
/* labels */
options_to_lattr(&lattr, lfield_opt->answer,
lcolor_opt->answer, bgcolor_opt->answer, bcolor_opt->answer,
atoi(lsize_opt->answer), font_opt->answer, enc_opt->answer,
xref_opt->answer, yref_opt->answer);
D_setup(0);
D_set_reduction(1.0);
G_verbose_message(_("Plotting..."));
if (level >= 2)
Vect_get_map_box(&Map, &box);
if (level >= 2 && (window.north < box.S || window.south > box.N ||
window.east < box.W ||
window.west > G_adjust_easting(box.E, &window))) {
G_warning(_("The bounding box of the map is outside the current region, "
"nothing drawn"));
}
else {
overlap = G_window_percentage_overlap(&window, box.N, box.S,
box.E, box.W);
G_debug(1, "overlap = %f \n", overlap);
if (overlap < 1)
Vect_set_constraint_region(&Map, window.north, window.south,
window.east, window.west,
PORT_DOUBLE_MAX, -PORT_DOUBLE_MAX);
/* default line width */
if (!wcolumn_opt->answer)
D_line_width(default_width);
if (display & DISP_SHAPE) {
stat += display_shape(&Map, type, Clist, &window,
has_color ? &color : NULL, has_fcolor ? &fcolor : NULL, chcat,
icon_opt->answer, size, sizecolumn_opt->answer,
sqrt_flag->answer ? TRUE : FALSE, rotcolumn_opt->answer,
id_flag->answer ? TRUE : FALSE,
cats_acolors_flag->answer ? TRUE : FALSE, rgbcol_opt->answer,
default_width, wcolumn_opt->answer, width_scale,
zcol_opt->answer);
if (wcolumn_opt->answer)
D_line_width(default_width);
}
if (has_color) {
D_RGB_color(color.r, color.g, color.b);
if (display & DISP_DIR)
stat += display_dir(&Map, type, Clist, chcat, size);
}
if (!legend_flag->answer) {
write_into_legfile(&Map, type, leglab_opt->answer, map_name,
icon_opt->answer, size_opt->answer,
color_opt->answer, fcolor_opt->answer,
width_opt->answer, icon_area_opt->answer,
icon_line_opt->answer, sizecolumn_opt->answer);
}
/* reset line width: Do we need to get line width from display
* driver (not implemented)? It will help restore previous line
* width (not just 0) determined by another module (e.g.,
* d.linewidth). */
if (!wcolumn_opt->answer)
D_line_width(0);
if (display & DISP_CAT)
stat += display_label(&Map, type, Clist, &lattr, chcat);
if (attrcol_opt->answer)
stat += display_attr(&Map, type, attrcol_opt->answer, Clist, &lattr, chcat);
if (display & DISP_ZCOOR)
stat += display_zcoor(&Map, type, &lattr);
if (display & DISP_VERT)
stat += display_vert(&Map, type, &lattr, size);
if (display & DISP_TOPO)
stat += display_topo(&Map, type, &lattr, size);
}
D_save_command(G_recreate_command());
D_close_driver();
Vect_close(&Map);
Vect_destroy_cat_list(Clist);
if (stat != 0) {
G_fatal_error(_("Rendering failed"));
}
G_done_msg(" ");
exit(EXIT_SUCCESS);
}
/* useful to create randomised samples for statistical tests */
void do_split_sample ( char *input, char *output, int in_types, double percentage, char *map,
int all, int processing_mode, int quiet) {
CELL *cellbuf;
DCELL *dcellbuf;
GT_Row_cache_t *cache;
int fd;
int i,j,k,l;
int no_sites;
int sites_tried = 0;
struct Cell_head region;
int error;
char *mapset, errmsg [200];
unsigned int *taken; /* this is an array of 0/1 which signals, if
a certain site has already been 'drawn' */
long row_idx, col_idx;
struct Map_info in_vect_map;
struct Map_info out_vect_map;
struct line_pnts *vect_points;
struct line_cats *vect_cats;
double x,y,z;
int n_points = 1;
int cur_type;
cellbuf = NULL;
dcellbuf = NULL;
cache = NULL;
/* get current region */
G_get_window (®ion);
/* attempt to create new file for output */
Vect_set_open_level (2);
if (0 > Vect_open_new (&out_vect_map, output, 0) ) {
G_fatal_error ("Could not open output vector map.\n");
}
/* open input vector map */
if ((mapset = G_find_vector2 (input, "")) == NULL) {
sprintf (errmsg, "Could not find input %s\n", input);
G_fatal_error ("%s",errmsg);
}
if (1 > Vect_open_old (&in_vect_map, input, "")) {
sprintf (errmsg, "Could not open input map %s.\n", input);
G_fatal_error ("%s",errmsg);
}
vect_points = Vect_new_line_struct ();
vect_cats = Vect_new_cats_struct ();
/* set constraints specified */
if (in_types != 0) {
Vect_set_constraint_type (&in_vect_map, in_types);
}
if (all != 1) {
Vect_set_constraint_region (&in_vect_map, region.north, region.south,
region.east, region.west, 0.0, 0.0);
}
/* get total number of objects with constraints */
i = 0;
while ((cur_type = Vect_read_next_line (&in_vect_map, vect_points, vect_cats) > 0)) {
i ++;
}
k = ( ((float) i/100)) * percentage; /* k now has the number of objects wanted */
if ( quiet != 1 ) {
fprintf (stderr,"Creating randomised sample of size n = %i.\n",k);
}
/* now, we need to acquire exactly 'k' random objects that fall in NON-NULL */
/* coverage raster cells. */
taken = G_calloc (i, sizeof (unsigned int));
for ( l = 0; l < k; l ++ ) {
taken[l] = 0;
}
no_sites = i; /* store this for later use */
/* does user want to filter objects through a raster map? */
if ( map != NULL) {
/* open raster map */
fd = G_open_cell_old (map, G_find_cell (map, ""));
if (fd < 0)
{
G_fatal_error ("Could not open raster map for reading!\n");
}
/* allocate cache and buffer, according to type of coverage */
if ( processing_mode == CELL_TYPE) {
/* INT coverage */
cache = (GT_Row_cache_t *) G_malloc (sizeof (GT_Row_cache_t));
/* TODO: check error value */
error = GT_RC_open (cache, cachesize, fd, CELL_TYPE);
cellbuf = G_allocate_raster_buf (CELL_TYPE);
}
if ( (processing_mode == FCELL_TYPE) || (processing_mode == DCELL_TYPE) ) {
/* FP coverage */
cache = (GT_Row_cache_t *) G_malloc (sizeof (GT_Row_cache_t));
/* TODO: check error value */
error = GT_RC_open (cache, cachesize, fd, DCELL_TYPE);
dcellbuf = G_allocate_raster_buf (DCELL_TYPE);
}
}
srand ( ((unsigned int) time (NULL)) + getpid()); /* set seed for random number generator from system time and process ID*/
i = 0;
/* MAIN LOOP */
while ( i < k ) {
/* get a random index, but one that was not taken already */
l = 0;
while ( l == 0 ) {
j = rand () % ( no_sites - 1 + 1) + 1; /* j now has the random position to try */
if ( taken[j-1] == 0 ) {
l = 1; /* exit loop */
}
}
taken [j-1] = 1; /* mark this index as 'taken' */
sites_tried ++; /* keep track of this so we do not enter an infinite loop */
if ( sites_tried > no_sites ) {
/* could not create a large enough sample */
G_fatal_error ("Could not find enough objects for split sampling.\nDecrease split sample size.\n");
}
/* get next vector object */
cur_type = Vect_read_line (&in_vect_map, vect_points, vect_cats, j);
if (cur_type < 0 ) {
G_fatal_error ("Error reading vector map: premature EOF.\n");
}
/* now, check if coverage under site is NON-NULL and within region */
/* convert site northing to row! */
/* for this check, we use only the first pair of coordinates! */
Vect_copy_pnts_to_xyz (vect_points, &x, &y, &z, &n_points);
row_idx =
(long) G_northing_to_row (y,
®ion);
col_idx =
(long) G_easting_to_col (x,
®ion);
/* do region check, first... OBSOLETE */
/* read row from cache and check for NULL */
/* if required */
if ( map != NULL ) {
if ( processing_mode == CELL_TYPE ) {
cellbuf = GT_RC_get (cache, row_idx);
if (!G_is_c_null_value(&cellbuf[col_idx])) {
i ++;
Vect_write_line (&out_vect_map, cur_type,
vect_points, vect_cats );
fflush (stdout);
}
}
if ( (processing_mode == FCELL_TYPE) || (processing_mode == DCELL_TYPE) ) {
dcellbuf = GT_RC_get (cache, row_idx);
if (!G_is_d_null_value(&dcellbuf[col_idx])) {
i ++;
Vect_write_line (&out_vect_map, cur_type,
vect_points, vect_cats );
fflush (stdout);
}
}
} else {
i ++;
Vect_write_line (&out_vect_map, GV_POINT,
vect_points, vect_cats );
fflush (stdout);
}
/* disregard region setting and map, if -a flag is given */
if ( all == 1 ) {
i ++;
Vect_write_line (&out_vect_map, cur_type,
vect_points, vect_cats );
fflush (stdout);
}
if ( quiet != 1 ) {
G_percent(i,k,1);
}
}
/* END OF MAIN LOOP */
Vect_copy_head_data (&in_vect_map, &out_vect_map);
fprintf (stdout, "Building topology information for output map.\n");
Vect_build (&out_vect_map);
Vect_close (&in_vect_map);
Vect_close (&out_vect_map);
if ( map != NULL ) {
/* close cache, free buffers! */
GT_RC_close (cache);
if ( processing_mode == CELL_TYPE ) {
G_free (cellbuf);
}
if ( (processing_mode == FCELL_TYPE) || (processing_mode == DCELL_TYPE) ) {
G_free (dcellbuf);
}
G_free (cache);
}
}
/* create the actual report */
void do_report_CELL ( char *map, char *mapset, char *sites,
int precision, int null_flag, int uncat_flag,
int all_flag, int quiet_flag, int skip_flag,
char *logfile, int background, int gain, int show_progress) {
CELL *cellbuf;
struct Cell_head region;
GT_Row_cache_t *cache;
unsigned long row_idx, col_idx;
int fd;
unsigned long i,j,k;
unsigned long no_sites;
FILE *lp;
unsigned long nrows, ncols;
unsigned long *share_smp = NULL; /* array that keeps percentage of sites */
double total = 0;
double map_total = 0;
double kvamme_gain;
long null_count = 0; /* keeps count of sites on NULL cells */
long nocat_count = 0;
/* category counts and descriptions */
int cats;
char **cats_description; /* category labels */
long *cat_count; /* category counts */
long null_count_map; /* number of NULL cells in input map */
long nocat_count_map; /* number of cells that do not fall into the category range [0 .. n] */
int debug_mode = 0; /* 1 to enable writing additional output to logfile */
time_t systime;
char errmsg [200];
struct Map_info in_vect_map;
struct line_pnts *vect_points;
double x,y,z;
int n_points = 1;
int cur_type;
/* get current region */
G_get_window (®ion);
nrows = G_window_rows ();
ncols = G_window_cols ();
/* check logfile */
if (logfile != NULL) {
debug_mode = 1;
if ( !G_legal_filename (logfile) ) {
delete_tmpfile (map);
G_fatal_error ("Please specify a legal filename for the logfile.\n");
}
/* attempt to write to logfile */
if ( (lp = fopen ( logfile, "w+" ) ) == NULL ) {
delete_tmpfile (map);
G_fatal_error ("Could not create logfile.\n");
}
/* we want unbuffered output for the logfile */
setvbuf (lp,NULL,_IONBF,0);
fprintf (lp,"This is %s, version %.2f\n",PROGNAME, PROGVERSION);
systime = time (NULL);
fprintf (lp,"Started on %s",ctime(&systime));
fprintf (lp,"\tlocation = %s\n",G_location());
fprintf (lp,"\tmapset = %s\n",G_mapset());
fprintf (lp,"\tinput map = %s\n",map);
fprintf (lp,"\tsample file = %s\n",sites);
} else {
/* log output to stderr by default */
lp = stderr;
}
if (1 > Vect_open_old (&in_vect_map, sites, "")) {
delete_tmpfile (map);
sprintf (errmsg, "Could not open input map %s.\n", sites);
G_fatal_error (errmsg);
}
vect_points = Vect_new_line_struct ();
if (all_flag != 1) {
Vect_set_constraint_region (&in_vect_map, region.north, region.south,
region.east, region.west, 0.0, 0.0);
}
/* get total number of sampling points */
i = 0;
while ((cur_type = Vect_read_next_line (&in_vect_map, vect_points, NULL) > 0)) {
i ++;
}
no_sites = i; /* store this for later use */
/* open raster map */
fd = G_open_cell_old (map, G_find_cell (map, ""));
if (fd < 0)
{
delete_tmpfile (map);
G_fatal_error ("Could not open raster map for reading!\n");
}
/* allocate a cache and a raster buffer */
cache = (GT_Row_cache_t *) G_malloc (sizeof (GT_Row_cache_t));
GT_RC_open (cache, CACHESIZE, fd, CELL_TYPE);
cellbuf = G_allocate_raster_buf (CELL_TYPE);
cats = GT_get_stats (map,mapset,&null_count_map, &nocat_count_map, show_progress);
if ( cats < 2 ) {
delete_tmpfile (map);
G_fatal_error ("Input map must have at least two categories.");
}
/* get category labels and counts */
cats_description = GT_get_labels (map,mapset);
if (cats_description == NULL) {
delete_tmpfile (map);
G_fatal_error ("Could not read category labels from input map.");
}
cat_count = GT_get_c_counts (map,mapset, show_progress);
if (cat_count == NULL) {
delete_tmpfile (map);
G_fatal_error ("Could not count categories in input map.");
}
/* allocate a double array to hold statistics */
share_smp = (unsigned long *) G_malloc ((signed)(cats * sizeof (unsigned long)));
for (i = 0; i < cats; i++)
{
share_smp[i] = 0;
}
/* count raster values under sampling points */
i = 0;
k = 0; /* progress counter for status display */
Vect_rewind (&in_vect_map);
if ( !quiet_flag ) {
fprintf (stdout, "Counting sample: \n");
fflush (stdout);
}
/* we MUST not set constraints so that no raster values outside the current region are
accessed, which would give an "illegal cache request" error */
Vect_set_constraint_region (&in_vect_map, region.north, region.south,
region.east, region.west, 0.0, 0.0);
while ((cur_type = Vect_read_next_line (&in_vect_map, vect_points, NULL) > 0)) {
Vect_copy_pnts_to_xyz (vect_points, &x, &y, &z, &n_points);
k ++;
if ( !quiet_flag ) {
G_percent ((signed) k, (signed) no_sites, 1);
}
/* get raster row with same northing as sample and perform
quantification */
row_idx = (long) G_northing_to_row (y, ®ion);
col_idx = (long) G_easting_to_col (x, ®ion);
cellbuf = GT_RC_get (cache, (signed) row_idx);
/* now read the raster value under the current site */
if (G_is_c_null_value (&cellbuf[col_idx]) == 0) {
/* site on cell within category range [0..cats] ? */
if ( (cellbuf[col_idx] > -1) && (cellbuf[col_idx] <= cats) ) {
share_smp [cellbuf[col_idx] ] ++;
/* i keeps track of samples on non-null coverage only */
/* inside the current region */
i ++;
} else {
if ( uncat_flag ) {
/* also keep count of sites on uncategorised cells? */
i ++;
nocat_count++;
}
}
}
if (G_is_c_null_value (&cellbuf[col_idx]) == 1) {
/* got a NULL value under this site */
if (null_flag) { /* only count this, if null flag is set */
null_count ++;
i ++;
}
}
}
Vect_close (&in_vect_map);
fprintf (lp,"\n");
if ( background ) {
fprintf (lp,"Distribution of categories under %lu points (%lu in region) and in input map:\n",i,no_sites);
} else {
fprintf (lp,"Distribution of categories under %lu points (%lu in region):\n",i,no_sites);
}
/* determine starting value for total of sites analysed */
total = 0;
for ( j=0; j < cats; j ++) {
total = total + share_smp[j];
map_total = map_total + cat_count[j];
}
if (null_flag) { /* add NULL values to total */
total = total + null_count;
map_total = map_total + null_count_map;
}
if (uncat_flag) { /* add uncategorised cells to total */
total = total + nocat_count;
map_total = map_total + nocat_count_map;
}
/* Now display those values which the user has chosen */
if ( (background) && (gain) ) {
fprintf (lp,"Cat.\tPts.\t(%%)\tMap\t(%%)\tGain\tDescription\n");
}
if ( (background) && (!gain) ) {
fprintf (lp,"Cat.\tPts.\t(%%)\tMap\t(%%)\tDescription\n");
}
if ( (!background) && (gain) ) {
fprintf (lp,"Cat.\tPts.\t(%%)\tGain\tDescription\n");
}
if ( (!background) && (!gain) ) {
fprintf (lp,"Cat.\tPts.\t(%%)\tDescription\n");
}
for ( j = 0; j < cats; j ++) {
/* if skip_flag is not set: only show categories that have count > 0 */
if ((skip_flag == 1) || ((skip_flag == 0) && (share_smp[j] > 0))) {
if ( (background) && (gain) ) {
/* Kvamme's Gain = 1 - (%area/%sites) */
kvamme_gain = gstats_gain_K(((double) share_smp[j]*(100/total)),
((double) cat_count[j]*(100/map_total)));
fprintf (lp, "%lu\t%6lu\t%6.2f\t%8lu %6.2f\t%6.2f\t%s\n", j, share_smp[j], (float) share_smp[j]*(100/total),
cat_count[j], (float) cat_count[j]*(100/map_total),
kvamme_gain, cats_description[j]);
}
if ( (background) && (!gain) ) {
fprintf (lp, "%lu\t%6lu\t%6.2f\t%8lu %6.2f\t%s\n", j, share_smp[j], (float) share_smp[j]*(100/total),
cat_count[j], (float) cat_count[j]*(100/map_total),
cats_description[j]);
}
if ( (!background) && (gain) ) {
kvamme_gain = 1-( (float) cat_count[j]*(100/map_total) / (float) share_smp[j]*(100/total) );
fprintf (lp, "%lu\t%6lu\t%6.2f\t%6.2f\t%s\n", j, share_smp[j], (float) share_smp[j]*(100/total),
kvamme_gain, cats_description[j]);
}
if ( (!background) && (!gain) ) {
fprintf (lp, "%lu\t%6lu\t%6.2f\t%s\n", j, share_smp[j], (float) share_smp[j]*(100/total),
cats_description[j]);
}
}
}
if (null_flag) {
if ( background ) {
fprintf (lp,"NULL\t%6lu\t%6.2f\t%8lu %6.2f\n",null_count, (float) null_count * 100 / total
,null_count_map, (float) null_count_map * 100 / map_total);
} else {
fprintf (lp,"NULL\t%6lu\t%6.2f\n",null_count, (float) null_count * 100 / total);
}
}
if (uncat_flag) {
if ( background ) {
fprintf (lp,"NOCAT\t%6lu\t%6.2f\t%8lu %6.2f\n",nocat_count, (float) nocat_count * 100 / total
,nocat_count_map, (float) nocat_count_map * 100 / map_total);
} else {
fprintf (lp,"NOCAT\t%6lu\t%6.2f\n",nocat_count, (float) nocat_count * 100 / total);
}
}
if ( background) {
fprintf (lp,"TOTAL\t%6lu\t%6.2f\t%8lu %6.2f\n",(long) total, (float) 100, (long) map_total, (float) 100);
} else {
fprintf (lp,"TOTAL\t%6lu\t%6.2f\n",(long) total, (float) 100);
}
/* close cache and sites file; free buffers. */
GT_RC_close (cache);
G_free (cellbuf);
G_free (cache);
}
/*!
\brief Load vector map to memory
The other alternative may be to load to a tmp file
\param grassname vector map name
\param[out] number of loaded features
\return pointer to geoline struct
\return NULL on failure
*/
geoline *Gv_load_vect(const char *grassname, int *nlines)
{
struct Map_info map;
struct line_pnts *points;
struct line_cats *Cats = NULL;
geoline *top, *gln, *prev;
int np, i, n, nareas, nl = 0, area, type, is3d;
struct Cell_head wind;
float vect[2][3];
const char *mapset;
mapset = G_find_vector2(grassname, "");
if (!mapset) {
G_warning(_("Vector map <%s> not found"), grassname);
return NULL;
}
Vect_set_open_level(2);
if (Vect_open_old(&map, grassname, "") == -1) {
G_warning(_("Unable to open vector map <%s>"),
G_fully_qualified_name(grassname, mapset));
return NULL;
}
top = gln = (geoline *) G_malloc(sizeof(geoline)); /* G_fatal_error */
if (!top) {
return NULL;
}
prev = top;
#ifdef TRAK_MEM
Tot_mem += sizeof(geoline);
#endif
points = Vect_new_line_struct();
Cats = Vect_new_cats_struct();
G_get_set_window(&wind);
Vect_set_constraint_region(&map, wind.north, wind.south, wind.east,
wind.west, PORT_DOUBLE_MAX, -PORT_DOUBLE_MAX);
is3d = Vect_is_3d(&map);
/* Read areas */
n = Vect_get_num_areas(&map);
nareas = 0;
G_debug(3, "Reading vector areas (nareas = %d)", n);
for (area = 1; area <= n; area++) {
G_debug(3, " area %d", area);
Vect_get_area_points(&map, area, points);
if (points->n_points < 3)
continue;
/* initialize style */
gln->highlighted = 0;
gln->type = OGSF_POLYGON;
gln->npts = np = points->n_points;
G_debug(3, " np = %d", np);
if (is3d) {
gln->dims = 3;
gln->p3 = (Point3 *) G_calloc(np, sizeof(Point3)); /* G_fatal_error */
if (!gln->p3) {
return (NULL);
}
#ifdef TRAK_MEM
Tot_mem += (np * sizeof(Point3));
#endif
}
else {
gln->dims = 2;
gln->p2 = (Point2 *) G_calloc(np, sizeof(Point2)); /* G_fatal_error */
if (!gln->p2) {
return (NULL);
}
#ifdef TRAK_MEM
Tot_mem += (np * sizeof(Point2));
#endif
}
for (i = 0; i < np; i++) {
if (is3d) {
gln->p3[i][X] = points->x[i];
gln->p3[i][Y] = points->y[i];
gln->p3[i][Z] = points->z[i];
}
else {
gln->p2[i][X] = points->x[i];
gln->p2[i][Y] = points->y[i];
}
}
/* Calc normal (should be average) */
if (is3d) {
vect[0][X] = (float)(gln->p3[0][X] - gln->p3[1][X]);
vect[0][Y] = (float)(gln->p3[0][Y] - gln->p3[1][Y]);
vect[0][Z] = (float)(gln->p3[0][Z] - gln->p3[1][Z]);
vect[1][X] = (float)(gln->p3[2][X] - gln->p3[1][X]);
vect[1][Y] = (float)(gln->p3[2][Y] - gln->p3[1][Y]);
vect[1][Z] = (float)(gln->p3[2][Z] - gln->p3[1][Z]);
GS_v3cross(vect[1], vect[0], gln->norm);
}
gln->cats = NULL;
gln->next = (geoline *) G_malloc(sizeof(geoline)); /* G_fatal_error */
if (!gln->next) {
return (NULL);
}
#ifdef TRAK_MEM
Tot_mem += sizeof(geoline);
#endif
prev = gln;
gln = gln->next;
nareas++;
}
G_debug(3, "%d areas loaded", nareas);
/* Read all lines */
G_debug(3, "Reading vector lines ...");
while (-1 < (type = Vect_read_next_line(&map, points, Cats))) {
G_debug(3, "line type = %d", type);
if (type & (GV_LINES | GV_FACE)) {
if (type & (GV_LINES)) {
gln->type = OGSF_LINE;
}
else {
gln->type = OGSF_POLYGON;
/* Vect_append_point ( points, points->x[0], points->y[0], points->z[0] ); */
}
/* initialize style */
gln->highlighted = 0;
gln->npts = np = points->n_points;
G_debug(3, " np = %d", np);
if (is3d) {
gln->dims = 3;
gln->p3 = (Point3 *) G_calloc(np, sizeof(Point3)); /* G_fatal_error */
if (!gln->p3) {
return (NULL);
}
#ifdef TRAK_MEM
Tot_mem += (np * sizeof(Point3));
#endif
}
else {
gln->dims = 2;
gln->p2 = (Point2 *) G_calloc(np, sizeof(Point2)); /* G_fatal_error */
if (!gln->p2) {
return (NULL);
}
#ifdef TRAK_MEM
Tot_mem += (np * sizeof(Point2));
#endif
}
for (i = 0; i < np; i++) {
if (is3d) {
gln->p3[i][X] = points->x[i];
gln->p3[i][Y] = points->y[i];
gln->p3[i][Z] = points->z[i];
}
else {
gln->p2[i][X] = points->x[i];
gln->p2[i][Y] = points->y[i];
}
}
/* Calc normal (should be average) */
if (is3d && gln->type == OGSF_POLYGON) {
vect[0][X] = (float)(gln->p3[0][X] - gln->p3[1][X]);
vect[0][Y] = (float)(gln->p3[0][Y] - gln->p3[1][Y]);
vect[0][Z] = (float)(gln->p3[0][Z] - gln->p3[1][Z]);
vect[1][X] = (float)(gln->p3[2][X] - gln->p3[1][X]);
vect[1][Y] = (float)(gln->p3[2][Y] - gln->p3[1][Y]);
vect[1][Z] = (float)(gln->p3[2][Z] - gln->p3[1][Z]);
GS_v3cross(vect[1], vect[0], gln->norm);
G_debug(3, "norm %f %f %f", gln->norm[0], gln->norm[1],
gln->norm[2]);
}
/* Store category info for thematic display */
if (Cats->n_cats > 0) {
gln->cats = Cats;
Cats = Vect_new_cats_struct();
}
else {
gln->cats = NULL;
Vect_reset_cats(Cats);
}
gln->next = (geoline *) G_malloc(sizeof(geoline)); /* G_fatal_error */
if (!gln->next) {
return (NULL);
}
#ifdef TRAK_MEM
Tot_mem += sizeof(geoline);
#endif
prev = gln;
gln = gln->next;
nl++;
}
}
G_debug(3, "%d lines loaded", nl);
nl += nareas;
prev->next = NULL;
G_free(gln);
#ifdef TRAK_MEM
Tot_mem -= sizeof(geoline);
#endif
Vect_close(&map);
if (!nl) {
G_warning(_("No features from vector map <%s> fall within current region"),
G_fully_qualified_name(grassname, mapset));
return (NULL);
}
else {
G_message(_("Vector map <%s> loaded (%d features)"),
G_fully_qualified_name(grassname, mapset), nl);
}
*nlines = nl;
#ifdef TRAK_MEM
G_debug(3, "Total vect memory = %d Kbytes", Tot_mem / 1000);
#endif
return (top);
}
/*!
\brief Load to points to memory
The other alternative may be to load to a tmp file.
\param name name of vector map to be loaded
\param[out] nsites number of loaded points
\param[out] has_z 2D or 3D points data loaded?
\return pointer to geopoint struct (array)
\return NULL on failure
*/
geopoint *Gp_load_sites(const char *name, int *nsites, int *has_z)
{
struct Map_info map;
static struct line_pnts *Points = NULL;
struct line_cats *Cats = NULL;
geopoint *top, *gpt, *prev;
int np, ltype, eof;
struct Cell_head wind;
int ndim;
const char *mapset;
np = 0;
eof = 0;
mapset = G_find_vector2(name, "");
if (!mapset) {
G_warning(_("Vector map <%s> not found"), name);
return NULL;
}
Vect_set_open_level(1);
if (Vect_open_old(&map, name, "") == -1) {
G_fatal_error(_("Unable to open vector map <%s>"),
G_fully_qualified_name(name, mapset));
}
Points = Vect_new_line_struct();
Cats = Vect_new_cats_struct();
top = gpt = (geopoint *) G_malloc(sizeof(geopoint));
G_zero(gpt, sizeof(geopoint));
if (!top) {
return NULL;
}
G_get_set_window(&wind);
Vect_set_constraint_region(&map, wind.north, wind.south, wind.east,
wind.west, PORT_DOUBLE_MAX, -PORT_DOUBLE_MAX);
/* get ndim */
*has_z = 0;
ndim = 2;
if (Vect_is_3d(&map)) {
*has_z = 1;
ndim = 3;
}
while (eof == 0) {
ltype = Vect_read_next_line(&map, Points, Cats);
switch (ltype) {
case -1:
{
G_warning(_("Unable to read vector map <%s>"),
G_fully_qualified_name(name, mapset));
return NULL;
}
case -2: /* EOF */
{
eof = 1;
continue;
}
}
if ((ltype & GV_POINTS)) {
np++;
gpt->p3[X] = Points->x[0];
gpt->p3[Y] = Points->y[0];
if (ndim > 2) {
gpt->dims = 3;
gpt->p3[Z] = Points->z[0];
}
else {
gpt->dims = 2;
}
/* Store category info for thematic display */
if (Cats->n_cats > 0) {
gpt->cats = Cats;
Cats = Vect_new_cats_struct();
}
else {
Vect_reset_cats(Cats);
}
/* initialize style */
gpt->highlighted = 0;
G_debug(5, "loading vector point %d x=%f y=%f ncats=%d",
np, Points->x[0], Points->y[0], Cats->n_cats);
gpt->next = (geopoint *) G_malloc(sizeof(geopoint)); /* G_fatal_error */
G_zero(gpt->next, sizeof(geopoint));
if (!gpt->next) {
return NULL;
}
prev = gpt;
gpt = gpt->next;
}
}
if (np > 0) {
prev->next = NULL;
G_free(gpt);
}
Vect_close(&map);
if (!np) {
G_warning(_("No points from vector map <%s> fall within current region"),
G_fully_qualified_name(name, mapset));
return (NULL);
}
else {
G_message(_("Vector map <%s> loaded (%d points)"),
G_fully_qualified_name(name, mapset), np);
}
*nsites = np;
return top;
}
int main(int argc, char **argv)
{
char *mapset;
int ret, level;
int i, stat = 0, type, display;
int chcat = 0;
int r, g, b;
int has_color, has_fcolor;
struct color_rgb color, fcolor;
double size;
int default_width;
double width_scale;
int verbose = FALSE;
double minreg, maxreg, reg;
char map_name[128];
struct GModule *module;
struct Option *map_opt;
struct Option *color_opt, *fcolor_opt, *rgbcol_opt, *zcol_opt;
struct Option *type_opt, *display_opt;
struct Option *icon_opt, *size_opt, *sizecolumn_opt, *rotcolumn_opt;
struct Option *where_opt;
struct Option *field_opt, *cat_opt, *lfield_opt;
struct Option *lcolor_opt, *bgcolor_opt, *bcolor_opt;
struct Option *lsize_opt, *font_opt, *xref_opt, *yref_opt;
struct Option *attrcol_opt, *maxreg_opt, *minreg_opt;
struct Option *width_opt, *wcolumn_opt, *wscale_opt;
struct Option *render_opt;
struct Flag *verbose_flag; /* please remove before GRASS 7 released */
struct Flag *id_flag, *table_acolors_flag, *cats_acolors_flag, *x_flag,
*zcol_flag;
struct cat_list *Clist;
int *cats, ncat;
LATTR lattr;
struct Map_info Map;
struct field_info *fi;
dbDriver *driver;
dbHandle handle;
struct Cell_head window;
BOUND_BOX box;
double overlap;
/* Initialize the GIS calls */
G_gisinit(argv[0]);
module = G_define_module();
module->keywords = _("display, vector");
module->description = _("Displays user-specified vector map "
"in the active graphics frame.");
map_opt = G_define_standard_option(G_OPT_V_MAP);
display_opt = G_define_option();
display_opt->key = "display";
display_opt->type = TYPE_STRING;
display_opt->required = YES;
display_opt->multiple = YES;
display_opt->answer = "shape";
display_opt->options = "shape,cat,topo,dir,attr,zcoor";
display_opt->description = _("Display");
display_opt->descriptions = _("shape;Display geometry of features;"
"cat;Display category numbers of features;"
"topo;Display topology information (nodes, edges);"
"dir;Display direction of linear features;"
"attr;Display selected attribute based on 'attrcol';"
"zcoor;Display z-coordinate of features (only for 3D vector maps)");
/* Query */
type_opt = G_define_standard_option(G_OPT_V_TYPE);
type_opt->answer = "point,line,boundary,centroid,area,face";
type_opt->options = "point,line,boundary,centroid,area,face";
type_opt->guisection = _("Selection");
field_opt = G_define_standard_option(G_OPT_V_FIELD);
field_opt->label =
_("Layer number (if -1, all layers are displayed)");
field_opt->gisprompt = "old_layer,layer,layer_all";
field_opt->guisection = _("Selection");
cat_opt = G_define_standard_option(G_OPT_V_CATS);
cat_opt->guisection = _("Selection");
where_opt = G_define_standard_option(G_OPT_WHERE);
where_opt->guisection = _("Selection");
/* Colors */
color_opt = G_define_option();
color_opt->key = "color";
color_opt->type = TYPE_STRING;
color_opt->answer = DEFAULT_FG_COLOR;
color_opt->label = _("Feature color");
color_opt->guisection = _("Colors");
color_opt->gisprompt = "old_color,color,color_none";
color_opt->description =
_("Either a standard GRASS color, R:G:B triplet, or \"none\"");
fcolor_opt = G_define_option();
fcolor_opt->key = "fcolor";
fcolor_opt->type = TYPE_STRING;
fcolor_opt->answer = "200:200:200";
fcolor_opt->label = _("Area fill color");
fcolor_opt->guisection = _("Colors");
fcolor_opt->gisprompt = "old_color,color,color_none";
fcolor_opt->description =
_("Either a standard GRASS color, R:G:B triplet, or \"none\"");
rgbcol_opt = G_define_standard_option(G_OPT_COLUMN);
rgbcol_opt->key = "rgb_column";
rgbcol_opt->guisection = _("Colors");
rgbcol_opt->description = _("Name of color definition column (for use with -a flag)");
rgbcol_opt->answer = "GRASSRGB";
zcol_opt = G_define_option();
zcol_opt->key = "zcolor";
zcol_opt->key_desc = "style";
zcol_opt->type = TYPE_STRING;
zcol_opt->required = NO;
zcol_opt->description = _("Type of color table (for use with -z flag)");
zcol_opt->answer = "terrain";
zcol_opt->guisection = _("Colors");
/* Lines */
width_opt = G_define_option();
width_opt->key = "width";
width_opt->type = TYPE_INTEGER;
width_opt->answer = "0";
width_opt->guisection = _("Lines");
width_opt->description = _("Line width");
wcolumn_opt = G_define_standard_option(G_OPT_COLUMN);
wcolumn_opt->key = "wcolumn";
wcolumn_opt->guisection = _("Lines");
wcolumn_opt->description =
_("Name of column for line widths (these values will be scaled by wscale)");
wscale_opt = G_define_option();
wscale_opt->key = "wscale";
wscale_opt->type = TYPE_DOUBLE;
wscale_opt->answer = "1";
wscale_opt->guisection = _("Lines");
wscale_opt->description = _("Scale factor for wcolumn");
/* Symbols */
icon_opt = G_define_option();
icon_opt->key = "icon";
icon_opt->type = TYPE_STRING;
icon_opt->required = NO;
icon_opt->multiple = NO;
icon_opt->guisection = _("Symbols");
icon_opt->answer = "basic/x";
/* This could also use ->gisprompt = "old,symbol,symbol" instead of ->options */
icon_opt->options = icon_files();
icon_opt->description = _("Point and centroid symbol");
size_opt = G_define_option();
size_opt->key = "size";
size_opt->type = TYPE_DOUBLE;
size_opt->answer = "5";
size_opt->guisection = _("Symbols");
size_opt->label = _("Symbol size");
size_opt->description =
_("When used with the size_column option this becomes the scale factor");
sizecolumn_opt = G_define_standard_option(G_OPT_COLUMN);
sizecolumn_opt->key = "size_column";
sizecolumn_opt->guisection = _("Symbols");
sizecolumn_opt->description =
_("Name of numeric column containing symbol size");
rotcolumn_opt = G_define_standard_option(G_OPT_COLUMN);
rotcolumn_opt->key = "rot_column";
rotcolumn_opt->guisection = _("Symbols");
rotcolumn_opt->label =
_("Name of numeric column containing symbol rotation angle");
rotcolumn_opt->description =
_("Measured in degrees CCW from east");
/* Labels */
lfield_opt = G_define_standard_option(G_OPT_V_FIELD);
lfield_opt->key = "llayer";
lfield_opt->guisection = _("Labels");
lfield_opt->description =
_("Layer number for labels (default: the given layer number)");
attrcol_opt = G_define_standard_option(G_OPT_COLUMN);
attrcol_opt->key = "attrcol";
attrcol_opt->multiple = NO; /* or fix attr.c, around line 102 */
attrcol_opt->guisection = _("Labels");
attrcol_opt->description = _("Name of column to be displayed");
lcolor_opt = G_define_option();
lcolor_opt->key = "lcolor";
lcolor_opt->type = TYPE_STRING;
lcolor_opt->answer = "red";
lcolor_opt->label = _("Label color");
lcolor_opt->guisection = _("Labels");
lcolor_opt->gisprompt = "old_color,color,color";
lcolor_opt->description = _("Either a standard color name or R:G:B triplet");
bgcolor_opt = G_define_option();
bgcolor_opt->key = "bgcolor";
bgcolor_opt->type = TYPE_STRING;
bgcolor_opt->answer = "none";
bgcolor_opt->guisection = _("Labels");
bgcolor_opt->label = _("Label background color");
bgcolor_opt->gisprompt = "old_color,color,color_none";
bgcolor_opt->description =
_("Either a standard GRASS color, R:G:B triplet, or \"none\"");
bcolor_opt = G_define_option();
bcolor_opt->key = "bcolor";
bcolor_opt->type = TYPE_STRING;
bcolor_opt->answer = "none";
bcolor_opt->guisection = _("Labels");
bcolor_opt->label = _("Label border color");
bcolor_opt->gisprompt = "old_color,color,color_none";
bcolor_opt->description =
_("Either a standard GRASS color, R:G:B triplet, or \"none\"");
lsize_opt = G_define_option();
lsize_opt->key = "lsize";
lsize_opt->type = TYPE_INTEGER;
lsize_opt->answer = "8";
lsize_opt->guisection = _("Labels");
lsize_opt->description = _("Label size (pixels)");
font_opt = G_define_option();
font_opt->key = "font";
font_opt->type = TYPE_STRING;
font_opt->guisection = _("Labels");
font_opt->description = _("Font name");
xref_opt = G_define_option();
xref_opt->key = "xref";
xref_opt->type = TYPE_STRING;
xref_opt->guisection = _("Labels");
xref_opt->answer = "left";
xref_opt->options = "left,center,right";
xref_opt->description = _("Label horizontal justification");
yref_opt = G_define_option();
yref_opt->key = "yref";
yref_opt->type = TYPE_STRING;
yref_opt->guisection = _("Labels");
yref_opt->answer = "center";
yref_opt->options = "top,center,bottom";
yref_opt->description = _("Label vertical justification");
minreg_opt = G_define_option();
minreg_opt->key = "minreg";
minreg_opt->type = TYPE_DOUBLE;
minreg_opt->required = NO;
minreg_opt->description =
_("Minimum region size (average from height and width) "
"when map is displayed");
maxreg_opt = G_define_option();
maxreg_opt->key = "maxreg";
maxreg_opt->type = TYPE_DOUBLE;
maxreg_opt->required = NO;
maxreg_opt->description =
_("Maximum region size (average from height and width) "
"when map is displayed");
render_opt = G_define_option();
render_opt->key = "render";
render_opt->type = TYPE_STRING;
render_opt->required = NO;
render_opt->multiple = NO;
render_opt->answer = "c";
render_opt->options = "g,r,d,c,l";
render_opt->description = _("Rendering method for filled polygons");
render_opt->descriptions =
_("g;use the libgis render functions (features: clipping);"
"r;use the raster graphics library functions (features: polylines);"
"d;use the display library basic functions (features: polylines);"
"c;use the display library clipping functions (features: clipping);"
"l;use the display library culling functions (features: culling, polylines)");
/* please remove before GRASS 7 released */
verbose_flag = G_define_flag();
verbose_flag->key = 'v';
verbose_flag->description = _("Run verbosely");
/* Colors */
table_acolors_flag = G_define_flag();
table_acolors_flag->key = 'a';
table_acolors_flag->guisection = _("Colors");
table_acolors_flag->description =
_("Get colors from map table column (of form RRR:GGG:BBB)");
cats_acolors_flag = G_define_flag();
cats_acolors_flag->key = 'c';
cats_acolors_flag->guisection = _("Colors");
cats_acolors_flag->description =
_("Random colors according to category number "
"(or layer number if 'layer=-1' is given)");
/* Query */
id_flag = G_define_flag();
id_flag->key = 'i';
id_flag->guisection = _("Selection");
id_flag->description = _("Use values from 'cats' option as feature id");
x_flag = G_define_flag();
x_flag->key = 'x';
x_flag->description =
_("Don't add to list of vectors and commands in monitor "
"(it won't be drawn if the monitor is refreshed)");
zcol_flag = G_define_flag();
zcol_flag->key = 'z';
zcol_flag->description = _("Colorize polygons according to z height");
zcol_flag->guisection = _("Colors");
/* Check command line */
if (G_parser(argc, argv))
exit(EXIT_FAILURE);
if (G_strcasecmp(render_opt->answer, "g") == 0)
render = RENDER_GPP;
else if (G_strcasecmp(render_opt->answer, "r") == 0)
render = RENDER_RPA;
else if (G_strcasecmp(render_opt->answer, "d") == 0)
render = RENDER_DP;
else if (G_strcasecmp(render_opt->answer, "c") == 0)
render = RENDER_DPC;
else if (G_strcasecmp(render_opt->answer, "l") == 0)
render = RENDER_DPL;
else
render = RENDER_GPP;
/* please remove -v flag before GRASS 7 released */
if (verbose_flag->answer) {
G_putenv("GRASS_VERBOSE", "3");
G_warning(_("The '-v' flag is superseded and will be removed "
"in future. Please use '--verbose' instead."));
}
/* but keep this */
if (G_verbose() > G_verbose_std())
verbose = TRUE;
G_get_set_window(&window);
if (R_open_driver() != 0)
G_fatal_error(_("No graphics device selected"));
/* Read map options */
/* Check min/max region */
reg = ((window.east - window.west) + (window.north - window.south)) / 2;
if (minreg_opt->answer) {
minreg = atof(minreg_opt->answer);
if (reg < minreg) {
G_message(_("Region size is lower than minreg, nothing displayed."));
D_add_to_list(G_recreate_command());
exit(EXIT_SUCCESS);
}
}
if (maxreg_opt->answer) {
maxreg = atof(maxreg_opt->answer);
if (reg > maxreg) {
G_message(_("Region size is greater than maxreg, nothing displayed."));
D_add_to_list(G_recreate_command());
exit(EXIT_SUCCESS);
}
}
G_strcpy(map_name, map_opt->answer);
default_width = atoi(width_opt->answer);
if (default_width < 0)
default_width = 0;
width_scale = atof(wscale_opt->answer);
if (table_acolors_flag->answer && cats_acolors_flag->answer) {
cats_acolors_flag->answer = '\0';
G_warning(_("The '-c' and '-a' flags cannot be used together, "
"the '-c' flag will be ignored!"));
}
color = G_standard_color_rgb(WHITE);
ret = G_str_to_color(color_opt->answer, &r, &g, &b);
if (ret == 1) {
has_color = 1;
color.r = r;
color.g = g;
color.b = b;
}
else if (ret == 2) { /* none */
has_color = 0;
}
else if (ret == 0) { /* error */
G_fatal_error(_("Unknown color: [%s]"), color_opt->answer);
}
fcolor = G_standard_color_rgb(WHITE);
ret = G_str_to_color(fcolor_opt->answer, &r, &g, &b);
if (ret == 1) {
has_fcolor = 1;
fcolor.r = r;
fcolor.g = g;
fcolor.b = b;
}
else if (ret == 2) { /* none */
has_fcolor = 0;
}
else if (ret == 0) { /* error */
G_fatal_error(_("Unknown color: '%s'"), fcolor_opt->answer);
}
size = atof(size_opt->answer);
/* Make sure map is available */
mapset = G_find_vector2(map_name, "");
if (mapset == NULL)
G_fatal_error(_("Vector map <%s> not found"), map_name);
/* if where_opt was specified select categories from db
* otherwise parse cat_opt */
Clist = Vect_new_cat_list();
Clist->field = atoi(field_opt->answer);
/* open vector */
level = Vect_open_old(&Map, map_name, mapset);
if (where_opt->answer) {
if (Clist->field < 1)
G_fatal_error(_("'layer' must be > 0 for 'where'."));
chcat = 1;
if ((fi = Vect_get_field(&Map, Clist->field)) == NULL)
G_fatal_error(_("Database connection not defined"));
if (fi != NULL) {
driver = db_start_driver(fi->driver);
if (driver == NULL)
G_fatal_error(_("Unable to start driver <%s>"), fi->driver);
db_init_handle(&handle);
db_set_handle(&handle, fi->database, NULL);
if (db_open_database(driver, &handle) != DB_OK)
G_fatal_error(_("Unable to open database <%s>"),
fi->database);
ncat =
db_select_int(driver, fi->table, fi->key, where_opt->answer,
&cats);
db_close_database(driver);
db_shutdown_driver(driver);
Vect_array_to_cat_list(cats, ncat, Clist);
}
}
else if (cat_opt->answer) {
if (Clist->field < 1)
G_fatal_error(_("'layer' must be > 0 for 'cats'."));
chcat = 1;
ret = Vect_str_to_cat_list(cat_opt->answer, Clist);
if (ret > 0)
G_warning(_("%d errors in cat option"), ret);
}
type = Vect_option_to_types(type_opt);
i = 0;
display = 0;
while (display_opt->answers[i]) {
switch (display_opt->answers[i][0]) {
case 's':
display |= DISP_SHAPE;
break;
case 'c':
display |= DISP_CAT;
break;
case 't':
display |= DISP_TOPO;
break;
case 'd':
display |= DISP_DIR;
break;
case 'a':
display |= DISP_ATTR;
break;
case 'z':
display |= DISP_ZCOOR;
break;
}
i++;
}
/* Read label options */
if (lfield_opt->answer != NULL)
lattr.field = atoi(lfield_opt->answer);
else
lattr.field = Clist->field;
lattr.color.R = lattr.color.G = lattr.color.B = 255;
if (G_str_to_color(lcolor_opt->answer, &r, &g, &b)) {
lattr.color.R = r;
lattr.color.G = g;
lattr.color.B = b;
}
lattr.has_bgcolor = 0;
if (G_str_to_color(bgcolor_opt->answer, &r, &g, &b) == 1) {
lattr.has_bgcolor = 1;
lattr.bgcolor.R = r;
lattr.bgcolor.G = g;
lattr.bgcolor.B = b;
}
lattr.has_bcolor = 0;
if (G_str_to_color(bcolor_opt->answer, &r, &g, &b) == 1) {
lattr.has_bcolor = 1;
lattr.bcolor.R = r;
lattr.bcolor.G = g;
lattr.bcolor.B = b;
}
lattr.size = atoi(lsize_opt->answer);
lattr.font = font_opt->answer;
switch (xref_opt->answer[0]) {
case 'l':
lattr.xref = LLEFT;
break;
case 'c':
lattr.xref = LCENTER;
break;
case 'r':
lattr.xref = LRIGHT;
break;
}
switch (yref_opt->answer[0]) {
case 't':
lattr.yref = LTOP;
break;
case 'c':
lattr.yref = LCENTER;
break;
case 'b':
lattr.yref = LBOTTOM;
break;
}
D_setup(0);
G_setup_plot(D_get_d_north(), D_get_d_south(),
D_get_d_west(), D_get_d_east(), D_move_abs, D_cont_abs);
if (verbose)
G_message(_("Plotting ..."));
if (level >= 2)
Vect_get_map_box(&Map, &box);
if (level >= 2 && (window.north < box.S || window.south > box.N ||
window.east < box.W ||
window.west > G_adjust_easting(box.E, &window))) {
G_message(_("The bounding box of the map is outside the current region, "
"nothing drawn."));
stat = 0;
}
else {
overlap =
G_window_percentage_overlap(&window, box.N, box.S, box.E, box.W);
G_debug(1, "overlap = %f \n", overlap);
if (overlap < 1)
Vect_set_constraint_region(&Map, window.north, window.south,
window.east, window.west,
PORT_DOUBLE_MAX, -PORT_DOUBLE_MAX);
/* default line width */
if (!wcolumn_opt->answer)
D_line_width(default_width);
if (type & GV_AREA) {
if (level >= 2) {
if (display & DISP_SHAPE) {
stat = darea(&Map, Clist,
has_color ? &color : NULL,
has_fcolor ? &fcolor : NULL, chcat,
(int)id_flag->answer,
table_acolors_flag->answer,
cats_acolors_flag->answer, &window,
rgbcol_opt->answer, default_width,
wcolumn_opt->answer, width_scale,
zcol_flag->answer, zcol_opt->answer);
}
if (wcolumn_opt->answer)
D_line_width(default_width);
}
else
G_warning(_("Unable to display areas, topology not available"));
}
if (display & DISP_SHAPE) {
if (id_flag->answer && level < 2) {
G_warning(_("Unable to display lines by id, topology not available"));
}
else {
stat = plot1(&Map, type, Clist,
has_color ? &color : NULL,
has_fcolor ? &fcolor : NULL, chcat, icon_opt->answer,
size, sizecolumn_opt->answer, rotcolumn_opt->answer,
(int)id_flag->answer, table_acolors_flag->answer,
cats_acolors_flag->answer, rgbcol_opt->answer,
default_width, wcolumn_opt->answer, width_scale,
zcol_flag->answer, zcol_opt->answer);
if (wcolumn_opt->answer)
D_line_width(default_width);
}
}
if (has_color) {
R_RGB_color(color.r, color.g, color.b);
if (display & DISP_DIR)
stat = dir(&Map, type, Clist, chcat, size);
}
/* reset line width: Do we need to get line width from display
* driver (not implemented)? It will help restore previous line
* width (not just 0) determined by another module (e.g.,
* d.linewidth). */
if (!wcolumn_opt->answer)
R_line_width(0);
if (display & DISP_CAT)
stat = label(&Map, type, Clist, &lattr, chcat);
if (display & DISP_ATTR)
stat =
attr(&Map, type, attrcol_opt->answer, Clist, &lattr, chcat);
if (display & DISP_ZCOOR)
stat = zcoor(&Map, type, &lattr);
if (display & DISP_TOPO) {
if (level >= 2)
stat = topo(&Map, type, &lattr);
else
G_warning(_("Unable to display topology, not available"));
}
}
if (!x_flag->answer) {
D_add_to_list(G_recreate_command());
D_set_dig_name(G_fully_qualified_name(map_name, mapset));
D_add_to_dig_list(G_fully_qualified_name(map_name, mapset));
}
R_close_driver();
if (verbose)
G_done_msg(" ");
Vect_close(&Map);
Vect_destroy_cat_list(Clist);
exit(stat);
}
