+void waypoint_getSymmetricalAxis_cmd(entity caller, bool save, int arg_idx)
+{
+ vector v1 = stov(argv(arg_idx++));
+ vector v2 = stov(argv(arg_idx++));
+ vector mid = (v1 + v2) / 2;
+
+ float diffy = (v2.y - v1.y);
+ float diffx = (v2.x - v1.x);
+ if (v1.y == v2.y)
+ diffy = 0.000001;
+ if (v1.x == v2.x)
+ diffx = 0.000001;
+ float m = - diffx / diffy;
+ float q = - m * mid.x + mid.y;
+ if (fabs(m) <= 0.000001) m = 0;
+ if (fabs(q) <= 0.000001) q = 0;
+
+ string axis_str = strcat(ftos(m), " ", ftos(q));
+ if (save)
+ cvar_set("g_waypointeditor_symmetrical_axis", axis_str);
+ axis_str = strcat("\"", axis_str, "\"");
+ sprint(caller, strcat("Axis of symmetry based on input points: ", axis_str, "\n"));
+ if (save)
+ sprint(caller, sprintf(" ^3saved to %s\n", "g_waypointeditor_symmetrical_axis"));
+ if (save)
+ {
+ cvar_set("g_waypointeditor_symmetrical", "-2");
+ sprint(caller, strcat("g_waypointeditor_symmetrical", " has been set to ",
+ cvar_string("g_waypointeditor_symmetrical"), "\n"));
+ }
+}
+
+void waypoint_getSymmetricalOrigin_cmd(entity caller, bool save, int arg_idx)
+{
+ vector org = '0 0 0';
+ int ctf_flags = 0;
+ for (int i = 0; i < 6; i++)
+ {
+ if (argv(arg_idx + i) != "")
+ ctf_flags++;
+ }
+ if (ctf_flags < 2)
+ {
+ ctf_flags = 0;
+ org = vec2(havocbot_middlepoint);
+ if (argv(arg_idx) != "")
+ sprint(caller, "WARNING: Ignoring single input point\n");
+ if (havocbot_middlepoint_radius == 0)
+ {
+ sprint(caller, "Origin of symmetry can't be automatically determined\n");
+ return;
+ }
+ }
+ else
+ {
+ vector v1, v2, v3, v4, v5, v6;
+ for (int i = 1; i <= ctf_flags; i++)
+ {
+ if (i == 1) { v1 = stov(argv(arg_idx++)); org = v1 / ctf_flags; }
+ else if (i == 2) { v2 = stov(argv(arg_idx++)); org += v2 / ctf_flags; }
+ else if (i == 3) { v3 = stov(argv(arg_idx++)); org += v3 / ctf_flags; }
+ else if (i == 4) { v4 = stov(argv(arg_idx++)); org += v4 / ctf_flags; }
+ else if (i == 5) { v5 = stov(argv(arg_idx++)); org += v5 / ctf_flags; }
+ else if (i == 6) { v6 = stov(argv(arg_idx++)); org += v6 / ctf_flags; }
+ }
+ }
+
+ if (fabs(org.x) <= 0.000001) org.x = 0;
+ if (fabs(org.y) <= 0.000001) org.y = 0;
+ string org_str = strcat(ftos(org.x), " ", ftos(org.y));
+ if (save)
+ {
+ cvar_set("g_waypointeditor_symmetrical_origin", org_str);
+ cvar_set("g_waypointeditor_symmetrical_order", ftos(ctf_flags));
+ }
+ org_str = strcat("\"", org_str, "\"");
+
+ if (ctf_flags < 2)
+ sprint(caller, strcat("Origin of symmetry based on flag positions: ", org_str, "\n"));
+ else
+ sprint(caller, strcat("Origin of symmetry based on input points: ", org_str, "\n"));
+ if (save)
+ sprint(caller, sprintf(" ^3saved to %s\n", "g_waypointeditor_symmetrical_origin"));
+
+ if (ctf_flags < 2)
+ sprint(caller, "Order of symmetry: 0 (autodetected)\n");
+ else
+ sprint(caller, strcat("Order of symmetry: ", ftos(ctf_flags), "\n"));
+ if (save)
+ sprint(caller, sprintf(" ^3saved to %s\n", "g_waypointeditor_symmetrical_order"));
+
+ if (save)
+ {
+ if (ctf_flags < 2)
+ cvar_set("g_waypointeditor_symmetrical", "0");
+ else
+ cvar_set("g_waypointeditor_symmetrical", "-1");
+ sprint(caller, strcat("g_waypointeditor_symmetrical", " has been set to ",
+ cvar_string("g_waypointeditor_symmetrical"), "\n"));
+ }
+}
+