int geos_buffer(struct Map_info *In, struct Map_info *Out,
struct Map_info *Buf, int id, int type, double da,
struct spatial_index *si,
struct line_cats *Cats,
struct buf_contours **arr_bc,
int *buffers_count, int *arr_bc_alloc, int flat, int no_caps)
{
GEOSGeometry *IGeom = NULL;
GEOSGeometry *OGeom = NULL;
G_debug(3, "geos_buffer(): id=%d", id);
if (type == GV_AREA)
IGeom = Vect_read_area_geos(In, id);
else
IGeom = Vect_read_line_geos(In, id, &type);
/* GEOS code comment on the number of quadrant segments:
* A value of 8 gives less than 2% max error in the buffer distance.
* For a max error of < 1%, use QS = 12.
* For a max error of < 0.1%, use QS = 18. */
#ifdef GEOS_3_3
if (flat || no_caps) {
GEOSBufferParams* geos_params = GEOSBufferParams_create();
GEOSBufferParams_setEndCapStyle(geos_params,
no_caps ? GEOSBUF_CAP_FLAT : GEOSBUF_CAP_SQUARE);
OGeom = GEOSBufferWithParams(IGeom, geos_params, da);
GEOSBufferParams_destroy(geos_params);
}
else {
OGeom = GEOSBuffer(IGeom, da, 12);
}
#else
OGeom = GEOSBuffer(IGeom, da, 12);
#endif
if (!OGeom) {
G_fatal_error(_("Buffering failed (feature %d)"), id);
}
geom2ring(OGeom, Out, Buf, si, Cats, arr_bc, buffers_count, arr_bc_alloc);
if (IGeom)
GEOSGeom_destroy(IGeom);
if (OGeom)
GEOSGeom_destroy(OGeom);
return 1;
}
int main(int argc, char *argv[])
{
int i, iopt;
int operator;
int aline, nalines, nskipped;
int ltype, itype[2], ifield[2];
int **cats, *ncats, nfields, *fields;
char *mapset[2], *pre[2];
struct GModule *module;
struct GParm parm;
struct GFlag flag;
struct Map_info In[2], Out;
struct field_info *IFi, *OFi;
struct line_pnts *APoints, *BPoints;
struct line_cats *ACats, *BCats;
int *ALines; /* List of lines: 0 do not output, 1 - write to output */
struct ilist *List, *TmpList, *BoundList;
G_gisinit(argv[0]);
pre[0] = "a";
pre[1] = "b";
module = G_define_module();
module->keywords = _("vector, spatial query");
module->description =
_("Selects features from vector map (A) by features from other vector map (B).");
parse_options(&parm, &flag);
if (G_parser(argc, argv))
exit(EXIT_FAILURE);
if (parm.operator->answer[0] == 'e')
operator = OP_EQUALS;
else if (parm.operator->answer[0] == 'd') {
/* operator = OP_DISJOINT; */
operator = OP_INTERSECTS;
flag.reverse->answer = YES;
}
else if (parm.operator->answer[0] == 'i')
operator = OP_INTERSECTS;
else if (parm.operator->answer[0] == 't')
operator = OP_TOUCHES;
else if (parm.operator->answer[0] == 'c' && parm.operator->answer[1] == 'r')
operator = OP_CROSSES;
else if (parm.operator->answer[0] == 'w')
operator = OP_WITHIN;
else if (parm.operator->answer[0] == 'c' && parm.operator->answer[1] == 'o')
operator = OP_CONTAINS;
else if (parm.operator->answer[0] == 'o') {
if (strcmp(parm.operator->answer, "overlaps") == 0)
operator = OP_OVERLAPS;
else
operator = OP_OVERLAP;
}
else if (parm.operator->answer[0] == 'r')
operator = OP_RELATE;
else
G_fatal_error(_("Unknown operator"));
if (operator == OP_RELATE && !parm.relate->answer) {
G_fatal_error(_("Required parameter <%s> not set"),
parm.relate->key);
}
for (iopt = 0; iopt < 2; iopt++) {
itype[iopt] = Vect_option_to_types(parm.type[iopt]);
ifield[iopt] = atoi(parm.field[iopt]->answer);
Vect_check_input_output_name(parm.input[iopt]->answer, parm.output->answer,
GV_FATAL_EXIT);
if ((mapset[iopt] =
G_find_vector2(parm.input[iopt]->answer, NULL)) == NULL) {
G_fatal_error(_("Vector map <%s> not found"),
parm.input[iopt]->answer);
}
Vect_set_open_level(2);
Vect_open_old(&(In[iopt]), parm.input[iopt]->answer, mapset[iopt]);
}
/* Read field info */
IFi = Vect_get_field(&(In[0]), ifield[0]);
APoints = Vect_new_line_struct();
BPoints = Vect_new_line_struct();
ACats = Vect_new_cats_struct();
BCats = Vect_new_cats_struct();
List = Vect_new_list();
TmpList = Vect_new_list();
BoundList = Vect_new_list();
/* Open output */
Vect_open_new(&Out, parm.output->answer, Vect_is_3d(&(In[0])));
Vect_set_map_name(&Out, _("Output from v.select"));
Vect_set_person(&Out, G_whoami());
Vect_copy_head_data(&(In[0]), &Out);
Vect_hist_copy(&(In[0]), &Out);
Vect_hist_command(&Out);
nskipped = 0;
nalines = Vect_get_num_lines(&(In[0]));
#ifdef HAVE_GEOS
initGEOS(G_message, G_fatal_error);
GEOSGeometry *AGeom = NULL;
#else
void *AGeom = NULL;
#endif
/* Alloc space for input lines array */
ALines = (int *)G_calloc(nalines + 1, sizeof(int));
G_message(_("Building spatial index..."));
Vect_build_spatial_index(&In[0]);
Vect_build_spatial_index(&In[1]);
/* Lines in A. Go through all lines and mark those that meets condition */
if (itype[0] & (GV_POINTS | GV_LINES)) {
G_message(_("Processing features..."));
for (aline = 1; aline <= nalines; aline++) {
BOUND_BOX abox;
G_debug(3, "aline = %d", aline);
G_percent(aline, nalines, 2); /* must be before any continue */
/* Check category */
if (!flag.cat->answer && Vect_get_line_cat(&(In[0]), aline, ifield[0]) < 0) {
nskipped++;
continue;
}
/* Read line and check type */
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
AGeom = Vect_read_line_geos(&(In[0]), aline, <ype);
#endif
if (!(ltype & (GV_POINT | GV_LINE)))
continue;
if (!AGeom)
G_fatal_error(_("Unable to read line id %d from vector map <%s>"),
aline, Vect_get_full_name(&(In[0])));
}
else {
ltype = Vect_read_line(&(In[0]), APoints, NULL, aline);
}
if (!(ltype & itype[0]))
continue;
Vect_get_line_box(&(In[0]), aline, &abox);
abox.T = PORT_DOUBLE_MAX;
abox.B = -PORT_DOUBLE_MAX;
/* Check if this line overlaps any feature in B */
/* x Lines in B */
if (itype[1] & (GV_POINTS | GV_LINES)) {
int i;
int found = 0;
/* Lines */
Vect_select_lines_by_box(&(In[1]), &abox, itype[1], List);
for (i = 0; i < List->n_values; i++) {
int bline;
bline = List->value[i];
G_debug(3, " bline = %d", bline);
/* Check category */
if (!flag.cat->answer && Vect_get_line_cat(&(In[1]), bline, ifield[1]) < 0) {
nskipped++;
continue;
}
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
if(line_relate_geos(&(In[1]), AGeom,
bline, operator, parm.relate->answer)) {
found = 1;
break;
}
#endif
}
else {
Vect_read_line(&(In[1]), BPoints, NULL, bline);
if (Vect_line_check_intersection(APoints, BPoints, 0)) {
found = 1;
break;
}
}
}
if (found) {
ALines[aline] = 1;
continue; /* Go to next A line */
}
}
/* x Areas in B. */
if (itype[1] & GV_AREA) {
int i;
Vect_select_areas_by_box(&(In[1]), &abox, List);
for (i = 0; i < List->n_values; i++) {
int barea;
barea = List->value[i];
G_debug(3, " barea = %d", barea);
if (Vect_get_area_cat(&(In[1]), barea, ifield[1]) < 0) {
nskipped++;
continue;
}
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
if(area_relate_geos(&(In[1]), AGeom,
barea, operator, parm.relate->answer)) {
ALines[aline] = 1;
break;
}
#endif
}
else {
if (line_overlap_area(&(In[0]), aline, &(In[1]), barea)) {
ALines[aline] = 1;
break;
}
}
}
}
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
GEOSGeom_destroy(AGeom);
#endif
AGeom = NULL;
}
}
}
/* Areas in A. */
if (itype[0] & GV_AREA) {
int aarea, naareas;
G_message(_("Processing areas..."));
naareas = Vect_get_num_areas(&(In[0]));
for (aarea = 1; aarea <= naareas; aarea++) {
BOUND_BOX abox;
G_percent(aarea, naareas, 2); /* must be before any continue */
if (Vect_get_area_cat(&(In[0]), aarea, ifield[0]) < 0) {
nskipped++;
continue;
}
Vect_get_area_box(&(In[0]), aarea, &abox);
abox.T = PORT_DOUBLE_MAX;
abox.B = -PORT_DOUBLE_MAX;
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
AGeom = Vect_read_area_geos(&(In[0]), aarea);
#endif
if (!AGeom)
G_fatal_error(_("Unable to read area id %d from vector map <%s>"),
aline, Vect_get_full_name(&(In[0])));
}
/* x Lines in B */
if (itype[1] & (GV_POINTS | GV_LINES)) {
Vect_select_lines_by_box(&(In[1]), &abox, itype[1], List);
for (i = 0; i < List->n_values; i++) {
int bline;
bline = List->value[i];
if (!flag.cat->answer && Vect_get_line_cat(&(In[1]), bline, ifield[1]) < 0) {
nskipped++;
continue;
}
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
if(line_relate_geos(&(In[1]), AGeom,
bline, operator, parm.relate->answer)) {
add_aarea(&(In[0]), aarea, ALines);
break;
}
#endif
}
else {
if (line_overlap_area(&(In[1]), bline, &(In[0]), aarea)) {
add_aarea(&(In[0]), aarea, ALines);
continue;
}
}
}
}
/* x Areas in B */
if (itype[1] & GV_AREA) {
int naisles;
int found = 0;
/* List of areas B */
/* Make a list of features forming area A */
Vect_reset_list(List);
Vect_get_area_boundaries(&(In[0]), aarea, BoundList);
for (i = 0; i < BoundList->n_values; i++) {
Vect_list_append(List, abs(BoundList->value[i]));
}
naisles = Vect_get_area_num_isles(&(In[0]), aarea);
for (i = 0; i < naisles; i++) {
int j, aisle;
aisle = Vect_get_area_isle(&(In[0]), aarea, i);
Vect_get_isle_boundaries(&(In[0]), aisle, BoundList);
for (j = 0; j < BoundList->n_values; j++) {
Vect_list_append(List, BoundList->value[j]);
}
}
Vect_select_areas_by_box(&(In[1]), &abox, TmpList);
for (i = 0; i < List->n_values; i++) {
int j, aline;
aline = abs(List->value[i]);
for (j = 0; j < TmpList->n_values; j++) {
int barea, bcentroid;
barea = TmpList->value[j];
G_debug(3, " barea = %d", barea);
if (Vect_get_area_cat(&(In[1]), barea, ifield[1]) < 0) {
nskipped++;
continue;
}
/* Check if any centroid of area B is in area A.
* This test is important in if area B is completely within area A */
bcentroid = Vect_get_area_centroid(&(In[1]), barea);
Vect_read_line(&(In[1]), BPoints, NULL, bcentroid);
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
if(area_relate_geos(&(In[1]), AGeom,
barea, operator, parm.relate->answer)) {
found = 1;
break;
}
#endif
}
else {
if (Vect_point_in_area(&(In[0]), aarea,
BPoints->x[0], BPoints->y[0])) {
found = 1;
break;
}
/* Check intersectin of lines from List with area B */
if (line_overlap_area(&(In[0]), aline,
&(In[1]), barea)) {
found = 1;
break;
}
}
}
if (found) {
add_aarea(&(In[0]), aarea, ALines);
break;
}
}
}
if (operator != OP_OVERLAP) {
#ifdef HAVE_GEOS
GEOSGeom_destroy(AGeom);
#endif
AGeom = NULL;
}
}
}
Vect_close(&(In[1]));
#ifdef HAVE_GEOS
finishGEOS();
#endif
/* Write lines */
nfields = Vect_cidx_get_num_fields(&(In[0]));
cats = (int **)G_malloc(nfields * sizeof(int *));
ncats = (int *)G_malloc(nfields * sizeof(int));
fields = (int *)G_malloc(nfields * sizeof(int));
for (i = 0; i < nfields; i++) {
ncats[i] = 0;
cats[i] =
(int *)G_malloc(Vect_cidx_get_num_cats_by_index(&(In[0]), i) *
sizeof(int));
fields[i] = Vect_cidx_get_field_number(&(In[0]), i);
}
G_message(_("Writing selected features..."));
for (aline = 1; aline <= nalines; aline++) {
int atype;
G_debug(4, "aline = %d ALines[aline] = %d", aline, ALines[aline]);
G_percent(aline, nalines, 2);
if ((!flag.reverse->answer && !(ALines[aline])) ||
(flag.reverse->answer && ALines[aline]))
continue;
atype = Vect_read_line(&(In[0]), APoints, ACats, aline);
Vect_write_line(&Out, atype, APoints, ACats);
if (!(flag.table->answer) && (IFi != NULL)) {
for (i = 0; i < ACats->n_cats; i++) {
int f, j;
for (j = 0; j < nfields; j++) { /* find field */
if (fields[j] == ACats->field[i]) {
f = j;
break;
}
}
cats[f][ncats[f]] = ACats->cat[i];
ncats[f]++;
}
}
}
/* Copy tables */
if (!(flag.table->answer)) {
int ttype, ntabs = 0;
G_message(_("Writing attributes..."));
/* Number of output tabs */
for (i = 0; i < Vect_get_num_dblinks(&(In[0])); i++) {
int f, j;
IFi = Vect_get_dblink(&(In[0]), i);
for (j = 0; j < nfields; j++) { /* find field */
if (fields[j] == IFi->number) {
f = j;
break;
}
}
if (ncats[f] > 0)
ntabs++;
}
if (ntabs > 1)
ttype = GV_MTABLE;
else
ttype = GV_1TABLE;
for (i = 0; i < nfields; i++) {
int ret;
if (fields[i] == 0)
continue;
/* Make a list of categories */
IFi = Vect_get_field(&(In[0]), fields[i]);
if (!IFi) { /* no table */
G_warning(_("Layer %d - no table"), fields[i]);
continue;
}
OFi =
Vect_default_field_info(&Out, IFi->number, IFi->name, ttype);
ret =
db_copy_table_by_ints(IFi->driver, IFi->database, IFi->table,
OFi->driver,
Vect_subst_var(OFi->database, &Out),
OFi->table, IFi->key, cats[i],
ncats[i]);
if (ret == DB_FAILED) {
G_warning(_("Layer %d - unable to copy table"), fields[i]);
}
else {
Vect_map_add_dblink(&Out, OFi->number, OFi->name, OFi->table,
IFi->key, OFi->database, OFi->driver);
}
}
}
Vect_close(&(In[0]));
Vect_build(&Out);
Vect_close(&Out);
if (nskipped > 0) {
G_warning(_("%d features without category skipped"), nskipped);
}
G_done_msg(_("%d features written to output."), Vect_get_num_lines(&Out));
exit(EXIT_SUCCESS);
}
