/**
* \brief Returns the subarea in which an entity tooking these stairs can be
* displayed.
* \param way The way you are taking these stairs.
* \return The subarea of the map where the entity displaying should be
* restricted to.
*/
Rectangle Stairs::get_clipping_rectangle(Way way) {
if (subtype == INSIDE_FLOOR || subtype == STRAIGHT_UPSTAIRS) {
return Rectangle(0, 0, 0, 0); // no restriction
}
Rectangle clipping_rectangle(0, 0, get_map().get_width(), get_map().get_height());
bool north = get_direction() == 1; // north or south
// Hide the hero after the north of south edge.
if (north) {
clipping_rectangle.set_y(get_top_left_y() - 8);
clipping_rectangle.set_height(48);
}
else { // south
clipping_rectangle.set_y(get_top_left_y() - 32);
clipping_rectangle.set_height(48);
}
// Spiral staircase: also hide a side.
if ((subtype == SPIRAL_DOWNSTAIRS && north)
|| (subtype == SPIRAL_UPSTAIRS && !north)) {
// north downstairs or south upstairs: hide the west side
clipping_rectangle.set_x(get_top_left_x());
clipping_rectangle.set_width(32);
}
else if ((subtype == SPIRAL_UPSTAIRS && north)
|| (subtype == SPIRAL_DOWNSTAIRS && !north)) {
// north downstairs or south upstairs: hide the east side
clipping_rectangle.set_x(get_top_left_x() - 16);
clipping_rectangle.set_width(32);
}
return clipping_rectangle;
}
/**
* @brief Displays the tile on the map.
*/
void DynamicTile::display_on_map() {
// FIXME this code is duplicated from Tile
Surface* map_surface = get_map().get_visible_surface();
const Rectangle& camera_position = get_map().get_camera_position();
Rectangle dst(0, 0);
int limit_x = get_top_left_x() - camera_position.get_x() + get_width();
int limit_y = get_top_left_y() - camera_position.get_y() + get_height();
for (int y = get_top_left_y() - camera_position.get_y();
y < limit_y;
y += tile_pattern->get_height()) {
if (y <= 240 && y + tile_pattern->get_height() > 0) {
dst.set_y(y);
for (int x = get_top_left_x() - camera_position.get_x();
x < limit_x;
x += tile_pattern->get_width()) {
if (x <= 320 && x + tile_pattern->get_width() > 0) {
dst.set_x(x);
tile_pattern->display(map_surface, dst, get_map().get_tileset(), get_map().get_camera_position());
}
}
}
}
}
/**
* \brief Returns whether a rectangle overlaps the active region of the jumper.
*
* For a horizontal or vertical jumper, the active region is the whole
* bounding box, that is, an 8-pixel thick horizontal or vertical strip.
* For a diagonal jumper, the active region is an 8-pixel thick diagonal strip.
*
* \param rectangle A rectangle.
* \param extended_region Whether you want to consider the extended jumper
* beyond its bounding box, or to keep it restricted to its bounding box.
* \return \c true if the rectangle overlaps the active region of the jumper.
*/
bool Jumper::overlaps_jumping_region(const Rectangle& rectangle, bool /* extended_region */) const {
if (!is_jump_diagonal()) {
return overlaps(rectangle);
}
// Check the 4 corners of the rectangle.
Point xy = rectangle.get_xy();
if (is_point_in_diagonal(xy)) {
return true;
}
xy.x += rectangle.get_width() - 1;
if (is_point_in_diagonal(xy)) {
return true;
}
xy.y += rectangle.get_height() - 1;
if (is_point_in_diagonal(xy)) {
return true;
}
xy.x = rectangle.get_x();
if (is_point_in_diagonal(xy)) {
return true;
}
// Check the two ends of the diagonal.
if (get_direction() == 1 || get_direction() == 5) {
if (rectangle.contains(get_top_left_x(), get_top_left_y())) {
return true;
}
if (rectangle.contains(
get_top_left_x() + get_width() - 1,
get_top_left_y() + get_height() - 1)) {
return true;
}
}
else {
if (rectangle.contains(
get_top_left_x() + get_width() - 1, get_top_left_y())) {
return true;
}
if (rectangle.contains(
get_top_left_x(), get_top_left_y() + get_height() - 1)) {
return true;
}
}
return false;
}
/**
* @brief Displays the entity on the map.
*
* This is a redefinition of MapEntity::display_on_map() to also display the twinkling star
* which has a special position.
*/
void CrystalSwitch::display_on_map() {
// display the crystal switch
MapEntity::display_on_map();
// display the star
get_map().display_sprite(*star_sprite, get_top_left_x() + star_xy.get_x(), get_top_left_y() + star_xy.get_y());
}
/**
* \brief Draws the tile on the specified surface.
* \param dst_surface the destination surface
* \param viewport coordinates of the top-left corner of dst_surface
* relative to the map
*/
void Tile::draw(Surface& dst_surface, const Rectangle& viewport) {
Rectangle dst_position(get_top_left_x() - viewport.get_x(),
get_top_left_y() - viewport.get_y(),
get_width(), get_height());
tile_pattern->fill_surface(dst_surface, dst_position,
get_map().get_tileset(), viewport);
}
/**
* \brief This function is called when another entity overlaps this crystal block.
* \param entity_overlapping the other entity
* \param collision_mode the collision mode that detected the collision
*/
void CrystalBlock::notify_collision(MapEntity& entity_overlapping, CollisionMode collision_mode) {
if (entity_overlapping.is_hero() && is_raised()) {
// see if we have to make fim fall
Hero& hero = static_cast<Hero&>(entity_overlapping);
if (hero.can_control_movement()) {
Rectangle collision_box = hero.get_bounding_box();
int x1 = get_top_left_x();
int x2 = x1 + get_width();
int y1 = get_top_left_y();
int y2 = y1 + get_height();
int jump_direction = 0;
int jump_length = 0;
bool jumped = false;
const Rectangle &hero_center = hero.get_center_point();
if (hero_center.get_y() < y1) {
// fall to the north
collision_box.set_y(y1 - 16);
jump_direction = 2;
jump_length = hero.get_top_left_y() + 16 - y1;
jumped = try_jump(hero, collision_box, jump_direction, jump_length);
}
else if (hero_center.get_y() >= y2) {
// fall to the south
collision_box.set_y(y2);
jump_direction = 6;
jump_length = y2 - hero.get_top_left_y();
jumped = try_jump(hero, collision_box, jump_direction, jump_length);
}
if (!jumped) {
if (hero_center.get_x() >= x2) {
// fall to the east
collision_box.set_x(x2);
jump_direction = 0;
jump_length = x2 - hero.get_top_left_x();
try_jump(hero, collision_box, jump_direction, jump_length);
}
else if (hero_center.get_x() < x1) {
// fall to the west
collision_box.set_x(x1 - 16);
jump_direction = 4;
jump_length = hero.get_top_left_x() + 16 - x1;
try_jump(hero, collision_box, jump_direction, jump_length);
}
}
}
}
}
/**
* \brief Draws the entity on the map.
*
* This is a redefinition of MapEntity::draw_on_map() to also draw the twinkling star
* which has a special position.
*/
void Crystal::draw_on_map() {
if (!is_drawn()) {
return;
}
// draw the crystal
MapEntity::draw_on_map();
// draw the star
if (is_drawn()) {
get_map().draw_sprite(*star_sprite, get_top_left_x() + star_xy.get_x(), get_top_left_y() + star_xy.get_y());
}
}
/**
* \brief Draws the tile on the map.
*/
void DynamicTile::draw_on_map() {
if (!is_drawn()) {
return;
}
const Rectangle& camera_position = get_map().get_camera_position();
Rectangle dst(0, 0);
Rectangle dst_position(get_top_left_x() - camera_position.get_x(),
get_top_left_y() - camera_position.get_y(),
get_width(), get_height());
tile_pattern.fill_surface(get_map().get_visible_surface(), dst_position,
get_map().get_tileset(), camera_position);
}
/**
* \brief Draws the tile on the specified surface.
* \param dst_surface the destination surface
* \param viewport coordinates of the top-left corner of dst_surface
* relative to the map
*/
void Tile::draw(const SurfacePtr& dst_surface, const Point& viewport) {
Rectangle dst_position(
get_top_left_x() - viewport.x,
get_top_left_y() - viewport.y,
get_width(),
get_height()
);
tile_pattern.fill_surface(
dst_surface,
dst_position,
get_map().get_tileset(),
viewport
);
}
/**
* \brief Draws the entity on the map.
*
* This is a redefinition of Entity::draw_on_map to repeat the block pattern.
*/
void CrystalBlock::draw_on_map() {
const SpritePtr& sprite = get_sprite();
if (sprite == nullptr) {
return;
}
int x1 = get_top_left_x();
int y1 = get_top_left_y();
int x2 = x1 + get_width();
int y2 = y1 + get_height();
for (int y = y1; y < y2; y += 16) {
for (int x = x1; x < x2; x += 16) {
get_map().draw_visual(*sprite, x, y);
}
}
}
/**
* \brief Draws the entity on the map.
*
* This is a redefinition of MapEntity::draw_on_map to repeat the block pattern.
*/
void CrystalBlock::draw_on_map() {
if (!is_drawn()) {
return;
}
Sprite& sprite = get_sprite();
int x1 = get_top_left_x();
int y1 = get_top_left_y();
int x2 = x1 + get_width();
int y2 = y1 + get_height();
for (int y = y1; y < y2; y += 16) {
for (int x = x1; x < x2; x += 16) {
get_map().draw_sprite(sprite, x, y);
}
}
}
/**
* \brief Draws the tile on the map.
*/
void DynamicTile::draw_on_map() {
const CameraPtr& camera = get_map().get_camera();
if (camera == nullptr) {
return;
}
const Rectangle& camera_position = camera->get_bounding_box();
Rectangle dst_position(get_top_left_x() - camera_position.get_x(),
get_top_left_y() - camera_position.get_y(),
get_width(), get_height());
tile_pattern.fill_surface(
get_map().get_camera_surface(),
dst_position,
get_map().get_tileset(),
camera_position.get_xy()
);
}
/**
* \brief Returns whether lava is currently considered as obstacle by this entity.
* \return true if lava is currently obstacle for this entity
*/
bool Enemy::is_lava_obstacle() const {
if (obstacle_behavior == OBSTACLE_BEHAVIOR_FLYING) {
return false;
}
if (is_being_hurt()) {
return false;
}
const Layer layer = get_layer();
const int x = get_top_left_x();
const int y = get_top_left_y();
if (get_map().get_ground(layer, x, y) == GROUND_LAVA
|| get_map().get_ground(layer, x + get_width() - 1, y) == GROUND_LAVA
|| get_map().get_ground(layer, x, y + get_height() - 1) == GROUND_LAVA
|| get_map().get_ground(layer, x + get_width() - 1, y + get_height() - 1) == GROUND_LAVA) {
return false;
}
return true;
}
/**
* \brief Updates the enemy.
*/
void Enemy::update() {
MapEntity::update();
if (is_suspended() || !is_enabled()) {
return;
}
uint32_t now = System::now();
if (being_hurt) {
// see if we should stop the animation "hurt"
if (now >= stop_hurt_date) {
being_hurt = false;
set_movement_events_enabled(true);
if (life <= 0) {
kill();
}
else if (is_immobilized()) {
clear_movement();
set_animation("immobilized");
notify_immobilized();
}
else {
clear_movement();
restart();
}
}
}
if (life > 0 && invulnerable && now >= vulnerable_again_date && !being_hurt) {
invulnerable = false;
}
if (life > 0 && !can_attack && !is_immobilized()
&& can_attack_again_date != 0 && now >= can_attack_again_date) {
can_attack = true;
}
if (is_immobilized() && !is_killed() && now >= end_shaking_date &&
get_sprite().get_current_animation() == "shaking") {
restart();
}
if (is_immobilized() && !is_killed() && !is_being_hurt() && now >= start_shaking_date &&
get_sprite().get_current_animation() != "shaking") {
end_shaking_date = now + 2000;
set_animation("shaking");
}
if (exploding) {
uint32_t now = System::now();
if (now >= next_explosion_date) {
// create an explosion
Rectangle xy;
xy.set_x(get_top_left_x() + Random::get_number(get_width()));
xy.set_y(get_top_left_y() + Random::get_number(get_height()));
get_entities().add_entity(new Explosion("", LAYER_HIGH, xy, false));
Sound::play("explosion");
next_explosion_date = now + 200;
nb_explosions++;
if (nb_explosions >= 15) {
exploding = false;
}
}
}
if (is_killed() && is_dying_animation_finished()) {
// Create the pickable treasure if any.
get_entities().add_entity(Pickable::create(get_game(),
"", get_layer(), get_x(), get_y(),
treasure, FALLING_HIGH, false));
// Remove the enemy.
remove_from_map();
// Notify Lua that this enemy is dead.
// We need to do this after remove_from_map() so that this enemy is
// considered dead in functions like map:has_entities(prefix).
notify_dead();
}
get_lua_context().enemy_on_update(*this);
}
/**
* \brief Returns whether the hero is correctly placed to
* start jumping with this jumper.
* \param hero The hero.
* \param candidate_position The candidate bounding box.
* \param extended_region Whether you want to consider the extended jumper
* beyond its bounding box, or to keep it restricted to its bounding box.
* \return \c true if the hero is correctly placed to start a jump.
*/
bool Jumper::is_in_jump_position(
const Hero& hero,
const Rectangle& candidate_position,
bool extended_region) const {
if (overlaps_jumping_region(candidate_position, extended_region)) {
// Overlapping the active region: cannot start a jump from there.
return false;
}
const int direction8 = get_direction();
const int expected_hero_direction4 = direction8 / 2;
if (is_jump_diagonal()) {
// Diagonal case: The sensor's shape is a diagonal bar.
// The player should move toward one of both directions.
if (!hero.is_moving_towards(expected_hero_direction4) &&
!hero.is_moving_towards((expected_hero_direction4 + 1) % 4)) {
return false;
}
// Test if the appropriate corner of the hero crosses the diagonal.
Point corner = {
candidate_position.get_x() - 1,
candidate_position.get_y() - 1
};
if (direction8 == 1 || direction8 == 7) {
// Right-up or right-down.
corner.x += candidate_position.get_width() + 1;
}
if (direction8 == 5 || direction8 == 7) {
// Left-down or right-down.
corner.y += candidate_position.get_height() + 1;
}
return extended_region ?
is_point_in_extended_diagonal(corner) :
is_point_in_diagonal(corner);
}
// Non-diagonal case: the sensor has one of the four main directions.
// Its shape is exactly its rectangle.
// The player should move toward the jumper's direction.
if (!hero.is_moving_towards(expected_hero_direction4)) {
return false;
}
Point facing_point;
switch (expected_hero_direction4) {
// right
case 0:
facing_point = {
candidate_position.get_x() + 16,
candidate_position.get_y() + 8
};
break;
// up
case 1:
facing_point = {
candidate_position.get_x() + 8,
candidate_position.get_y() - 1
};
break;
// left
case 2:
facing_point = {
candidate_position.get_x() - 1,
candidate_position.get_y() + 8
};
break;
// down
case 3:
facing_point = {
candidate_position.get_x() + 8,
candidate_position.get_y() + 16
};
break;
default:
Debug::die("Invalid direction");
}
if (is_jump_horizontal()) {
if (extended_region) {
// Are we inside the extended strip?
return facing_point.x >= get_top_left_x() &&
facing_point.x < get_top_left_x() + get_width();
}
else {
// Are we inside the strip and the bounding box?
return overlaps(facing_point.x, facing_point.y - 8)
&& overlaps(facing_point.x, facing_point.y + 7);
}
}
else {
// Same thing for a vertical jump.
if (extended_region) {
// Are we inside the extended strip?
return facing_point.y >= get_top_left_y() &&
facing_point.y < get_top_left_y() + get_height();
}
else {
return overlaps(facing_point.x - 8, facing_point.y) &&
overlaps(facing_point.x + 7, facing_point.y);
}
}
}
