X 140 modules/mappers/mod_imagemap.c if (coords[0][X] > coords[1][X]) {
X 141 modules/mappers/mod_imagemap.c max[0] = coords[0][X];
X 142 modules/mappers/mod_imagemap.c min[0] = coords[1][X];
X 145 modules/mappers/mod_imagemap.c max[0] = coords[1][X];
X 146 modules/mappers/mod_imagemap.c min[0] = coords[0][X];
X 158 modules/mappers/mod_imagemap.c return ((point[X] >= min[0] && point[X] <= max[0]) &&
X 167 modules/mappers/mod_imagemap.c + ((coords[0][X] - coords[1][X]) * (coords[0][X] - coords[1][X]));
X 170 modules/mappers/mod_imagemap.c + ((coords[0][X] - point[X]) * (coords[0][X] - point[X]));
X 181 modules/mappers/mod_imagemap.c double x = point[X], y = point[Y];
X 183 modules/mappers/mod_imagemap.c for (numverts = 0; pgon[numverts][X] != -1 && numverts < MAXVERTS;
X 189 modules/mappers/mod_imagemap.c double x1=pgon[i][X];
X 191 modules/mappers/mod_imagemap.c double x2=pgon[(i + 1) % numverts][X];
X 210 modules/mappers/mod_imagemap.c double dist_squared = ((point[X] - coords[0][X])
X 211 modules/mappers/mod_imagemap.c * (point[X] - coords[0][X]))
X 215 modules/mappers/mod_imagemap.c if (point[X] < 0 || point[Y] < 0) {
X 623 modules/mappers/mod_imagemap.c testpoint[X] = get_x_coord(r->args);
X 626 modules/mappers/mod_imagemap.c if ((testpoint[X] == -1 || testpoint[Y] == -1) ||
X 627 modules/mappers/mod_imagemap.c (testpoint[X] == 0 && testpoint[Y] == 0)) {
X 630 modules/mappers/mod_imagemap.c testpoint[X] = -1;
X 728 modules/mappers/mod_imagemap.c &pointarray[vertex][X], &pointarray[vertex][Y]) == 2) {
X 749 modules/mappers/mod_imagemap.c pointarray[vertex][X] = -1; /* signals the end of vertices */
X 766 modules/mappers/mod_imagemap.c if (testpoint[X] == -1 || pointarray[0][X] == -1) {