/**
* Build a path from #_path_builder xpos/ypos to the mouse cursor position.
* @param mousexy Mouse position.
*/
void PathBuildManager::ComputeNewLongPath(const Point32 &mousexy)
{
static const TrackSlope slope_prios_down[] = {TSL_DOWN, TSL_FLAT, TSL_UP, TSL_INVALID}; // Order of preference when going down.
static const TrackSlope slope_prios_flat[] = {TSL_FLAT, TSL_UP, TSL_DOWN, TSL_INVALID}; // Order of preference when at the right height.
static const TrackSlope slope_prios_up[] = {TSL_UP, TSL_FLAT, TSL_DOWN, TSL_INVALID}; // Order of preference when going up.
Viewport *vp = GetViewport();
if (vp == nullptr) return;
int c1, c2, c3;
switch (vp->orientation) {
case VOR_NORTH: c1 = 1; c2 = 2; c3 = 2; break;
case VOR_EAST: c1 = -1; c2 = -2; c3 = 2; break;
case VOR_SOUTH: c1 = 1; c2 = -2; c3 = -2; break;
case VOR_WEST: c1 = -1; c2 = 2; c3 = -2; break;
default: NOT_REACHED();
}
XYZPoint16 path_pos(0, 0, 0);
path_pos.y = this->pos.y * 256 + 128;
int32 lambda_y = path_pos.y - mousexy.y; // Distance to constant Y plane at current tile cursor.
path_pos.x = this->pos.x * 256 + 128;
int32 lambda_x = path_pos.x - mousexy.x; // Distance to constant X plane at current tile cursor.
if (abs(lambda_x) < abs(lambda_y)) {
/* X constant. */
path_pos.x /= 256;
path_pos.y = Clamp<int32>(mousexy.y + c1 * lambda_x, 0, _world.GetYSize() * 256 - 1) / 256;
path_pos.z = Clamp<int32>(vp->view_pos.z + c3 * lambda_x, 0, WORLD_Z_SIZE * 256 - 1) / 256;
} else {
/* Y constant. */
path_pos.x = Clamp<int32>(mousexy.x + c1 * lambda_y, 0, _world.GetXSize() * 256 - 1) / 256;
path_pos.y /= 256;
path_pos.z = Clamp<int32>(vp->view_pos.z + c2 * lambda_y, 0, WORLD_Z_SIZE * 256 - 1) / 256;
}
if (this->long_pos != path_pos) {
this->long_pos = path_pos;
_additions.Clear();
path_pos = this->pos;
/* Find the right direction from the selected tile to the current cursor location. */
TileEdge direction;
Point16 dxy;
for (direction = EDGE_BEGIN; direction < EDGE_COUNT; direction++) {
dxy = _tile_dxy[direction];
if (!GoodDirection(dxy.x, path_pos.x, this->long_pos.x) || !GoodDirection(dxy.y, path_pos.y, this->long_pos.y)) continue;
break;
}
if (direction == EDGE_COUNT) return;
/* 'Walk' to the cursor as long as possible. */
while (path_pos.x != this->long_pos.x || path_pos.y != this->long_pos.y) {
uint8 slopes = CanBuildPathFromEdge(path_pos, direction);
const TrackSlope *slope_prio;
/* Get order of slope preference. */
if (path_pos.z > this->long_pos.z) {
slope_prio = slope_prios_down;
} else if (path_pos.z == this->long_pos.z) {
slope_prio = slope_prios_flat;
} else {
slope_prio = slope_prios_up;
}
/* Find best slope, and take it. */
while (*slope_prio != TSL_INVALID && (slopes & (1 << *slope_prio)) == 0) slope_prio++;
if (*slope_prio == TSL_INVALID) break;
path_pos.x += dxy.x;
path_pos.y += dxy.y;
const Voxel *v = _world.GetVoxel(path_pos);
if (v != nullptr && HasValidPath(v)) {
if (!ChangePath(path_pos, this->path_type, false)) break;
if (*slope_prio == TSL_UP) path_pos.z++;
} else {
if (*slope_prio == TSL_UP) {
if (!BuildUpwardPath(path_pos, static_cast<TileEdge>((direction + 2) & 3), this->path_type, false)) break;
path_pos.z++;
} else if (*slope_prio == TSL_DOWN) {
v = _world.GetVoxel(path_pos + XYZPoint16(0, 0, -1));
if (v != nullptr && HasValidPath(v)) {
if (!ChangePath(path_pos + XYZPoint16(0, 0, -1), this->path_type, false)) break;
} else {
if (!BuildDownwardPath(path_pos, static_cast<TileEdge>((direction + 2) & 3), this->path_type, false)) break;
}
path_pos.z--;
} else {
if (!BuildFlatPath(path_pos, this->path_type, false)) break;
}
}
}
vp->EnableWorldAdditions();
vp->EnsureAdditionsAreVisible();
}
}
/** Update the state of the path build process. */
void PathBuildManager::UpdateState()
{
Viewport *vp = GetViewport();
if (this->state == PBS_IDLE || this->state == PBS_SINGLE) {
DisableWorldAdditions();
this->selected_arrow = INVALID_EDGE;
this->selected_slope = this->state == PBS_IDLE ? TSL_INVALID : TSL_FLAT;
}
/* The tile cursor is controlled by the viewport if waiting for a voxel or earlier. */
if (vp != nullptr && this->state > PBS_WAIT_VOXEL && this->state <= PBS_WAIT_BUY) {
vp->tile_cursor.SetCursor(this->pos, CUR_TYPE_TILE);
}
/* See whether the PBS_WAIT_ARROW state can be left automatically. */
if (this->state == PBS_WAIT_ARROW) {
this->allowed_arrows = GetPathAttachPoints(this->pos);
/* If a valid selection has been made, or if only one choice exists, take it. */
if (this->selected_arrow != INVALID_EDGE && ((0x11 << this->selected_arrow) & this->allowed_arrows) != 0) {
this->state = PBS_WAIT_SLOPE;
} else if (this->allowed_arrows == (1 << EDGE_NE) || this->allowed_arrows == (0x10 << EDGE_NE)) {
this->selected_arrow = EDGE_NE;
this->state = PBS_WAIT_SLOPE;
} else if (this->allowed_arrows == (1 << EDGE_NW) || this->allowed_arrows == (0x10 << EDGE_NW)) {
this->selected_arrow = EDGE_NW;
this->state = PBS_WAIT_SLOPE;
} else if (this->allowed_arrows == (1 << EDGE_SE) || this->allowed_arrows == (0x10 << EDGE_SE)) {
this->selected_arrow = EDGE_SE;
this->state = PBS_WAIT_SLOPE;
} else if (this->allowed_arrows == (1 << EDGE_SW) || this->allowed_arrows == (0x10 << EDGE_SW)) {
this->selected_arrow = EDGE_SW;
this->state = PBS_WAIT_SLOPE;
}
}
/* Set the arrow cursor. Note that display is controlled later. */
if (vp != nullptr) {
if (this->state > PBS_WAIT_ARROW && this->state <= PBS_WAIT_BUY) {
XYZPoint16 arrow_pos = this->ComputeArrowCursorPosition();
vp->arrow_cursor.SetCursor(arrow_pos, (CursorType)(CUR_TYPE_ARROW_NE + this->selected_arrow));
} else {
vp->arrow_cursor.SetInvalid();
}
}
/* See whether the PBS_WAIT_SLOPE state can be left automatically. */
if (this->state == PBS_WAIT_SLOPE) {
/* Compute allowed slopes. */
XYZPoint16 arrow_pos = this->ComputeArrowCursorPosition();
this->allowed_slopes = CanBuildPathFromEdge(arrow_pos, (TileEdge)((this->selected_arrow + 2) % 4));
/* If a valid selection has been made, or if only one choice exists, take it. */
if (this->selected_slope != TSL_INVALID && ((1 << this->selected_slope) & this->allowed_slopes) != 0) {
this->state = PBS_WAIT_BUY;
} else if (this->allowed_slopes == (1 << TSL_DOWN)) {
this->selected_slope = TSL_DOWN;
this->state = PBS_WAIT_BUY;
} else if (this->allowed_slopes == (1 << TSL_FLAT)) {
this->selected_slope = TSL_FLAT;
this->state = PBS_WAIT_BUY;
} else if (this->allowed_slopes == (1 << TSL_UP)) {
this->selected_slope = TSL_UP;
this->state = PBS_WAIT_BUY;
}
}
/* Handle _additions display. */
if (vp != nullptr) {
if (this->state == PBS_SINGLE || this->state == PBS_WAIT_SLOPE) {
_additions.Clear();
vp->EnableWorldAdditions();
} else if (this->state == PBS_WAIT_BUY) {
_additions.Clear();
this->ComputeWorldAdditions();
vp->EnableWorldAdditions();
vp->EnsureAdditionsAreVisible();
} else {
if (this->state != PBS_LONG_BUILD && this->state != PBS_LONG_BUY) vp->DisableWorldAdditions();
}
}
NotifyChange(WC_PATH_BUILDER, ALL_WINDOWS_OF_TYPE, CHG_UPDATE_BUTTONS, 0);
}
