#include <fstream>
#include <sstream>
#include <stdexcept>
-#include <cfloat>
-#include <cmath>
+#include <float.h>
+#include <math.h>
#include <limits>
#include <physfs.h>
#include "lisp/writer.hpp"
#include "lisp/list_iterator.hpp"
#include "tile.hpp"
+#include "file_system.hpp"
+#include "physfs/physfs_stream.hpp"
#include "audio/sound_manager.hpp"
#include "game_session.hpp"
+#include "constants.hpp"
#include "resources.hpp"
#include "statistics.hpp"
#include "object_factory.hpp"
#include "object/bullet.hpp"
#include "object/text_object.hpp"
#include "object/portable.hpp"
+#include "object/display_effect.hpp"
#include "badguy/jumpy.hpp"
#include "trigger/sequence_trigger.hpp"
#include "player_status.hpp"
#include "script_interface.hpp"
#include "log.hpp"
#include "main.hpp"
+#include "level.hpp"
Sector* Sector::_current = 0;
Sector::Sector(Level* parent)
: level(parent), currentmusic(LEVEL_MUSIC),
- ambient_light( 1.0f, 1.0f, 1.0f, 1.0f ), gravity(10.0), player(0), camera(0)
+ ambient_light( 1.0f, 1.0f, 1.0f, 1.0f ), gravity(10.0), player(0), camera(0), effect(0)
{
add_object(new Player(player_status, "Tux"));
add_object(new DisplayEffect("Effect"));
add_object(new TextObject("Text"));
+ sound_manager->preload("sounds/shoot.wav");
+
// create a new squirrel table for the sector
using namespace Scripting;
void
Sector::parse(const lisp::Lisp& sector)
{
+ bool has_background = false;
lisp::ListIterator iter(§or);
while(iter.next()) {
const std::string& token = iter.item();
iter.value()->get(init_script);
} else if(token == "ambient-light") {
std::vector<float> vColor;
- sector.get_vector( "ambient-light", vColor );
+ sector.get( "ambient-light", vColor );
if(vColor.size() < 3) {
log_warning << "(ambient-light) requires a color as argument" << std::endl;
} else {
} else {
GameObject* object = parse_object(token, *(iter.lisp()));
if(object) {
+ if(dynamic_cast<Background *>(object)) {
+ has_background = true;
+ } else if(dynamic_cast<Gradient *>(object)) {
+ has_background = true;
+ }
add_object(object);
}
}
}
+ if(!has_background) {
+ Gradient* gradient = new Gradient();
+ gradient->set_gradient(Color(0.3, 0.4, 0.75), Color(1, 1, 1));
+ add_object(gradient);
+ }
+
update_game_objects();
if(solid_tilemaps.size() < 1) log_warning << "sector '" << name << "' does not contain a solid tile layer." << std::endl;
reader.get("height", height);
std::vector<unsigned int> tiles;
- if(reader.get_vector("interactive-tm", tiles)
- || reader.get_vector("tilemap", tiles)) {
- TileMap* tilemap = new TileMap();
+ if(reader.get("interactive-tm", tiles)
+ || reader.get("tilemap", tiles)) {
+ TileMap* tilemap = new TileMap(level->get_tileset());
tilemap->set(width, height, tiles, LAYER_TILES, true);
// replace tile id 112 (old invisible tile) with 1311 (new invisible tile)
for(size_t x=0; x < tilemap->get_width(); ++x) {
for(size_t y=0; y < tilemap->get_height(); ++y) {
- const Tile* tile = tilemap->get_tile(x, y);
- if(tile->getID() == 112) tilemap->change(x, y, 1311);
+ uint32_t id = tilemap->get_tile_id(x, y);
+ if(id == 112)
+ tilemap->change(x, y, 1311);
}
}
add_object(tilemap);
}
- if(reader.get_vector("background-tm", tiles)) {
- TileMap* tilemap = new TileMap();
+ if(reader.get("background-tm", tiles)) {
+ TileMap* tilemap = new TileMap(level->get_tileset());
tilemap->set(width, height, tiles, LAYER_BACKGROUNDTILES, false);
if (height < 19) tilemap->resize(width, 19);
add_object(tilemap);
}
- if(reader.get_vector("foreground-tm", tiles)) {
- TileMap* tilemap = new TileMap();
+ if(reader.get("foreground-tm", tiles)) {
+ TileMap* tilemap = new TileMap(level->get_tileset());
tilemap->set(width, height, tiles, LAYER_FOREGROUNDTILES, false);
// fill additional space in foreground with tiles of ID 2035 (lightmap/black)
TileMap* solids = *i;
for(size_t x=0; x < solids->get_width(); ++x) {
for(size_t y=0; y < solids->get_height(); ++y) {
- const Tile* tile = solids->get_tile(x, y);
- Vector pos(solids->get_x_offset() + x*32, solids->get_y_offset() + y*32);
-
- if(tile->getID() == 112) {
- add_object(new InvisibleBlock(pos));
- solids->change(x, y, 0);
- } else if(tile->getAttributes() & Tile::COIN) {
- add_object(new Coin(pos));
- solids->change(x, y, 0);
- } else if(tile->getAttributes() & Tile::FULLBOX) {
- add_object(new BonusBlock(pos, tile->getData()));
- solids->change(x, y, 0);
- } else if(tile->getAttributes() & Tile::BRICK) {
- add_object(new Brick(pos, tile->getData()));
- solids->change(x, y, 0);
- } else if(tile->getAttributes() & Tile::GOAL) {
- std::string sequence = tile->getData() == 0 ? "endsequence" : "stoptux";
- add_object(new SequenceTrigger(pos, sequence));
- solids->change(x, y, 0);
- }
+ uint32_t id = solids->get_tile_id(x, y);
+ const Tile *tile = solids->get_tile(x, y);
+ Vector pos(solids->get_x_offset() + x*32, solids->get_y_offset() + y*32);
+
+ if(id == 112) {
+ add_object(new InvisibleBlock(pos));
+ solids->change(x, y, 0);
+ } else if(tile->getAttributes() & Tile::COIN) {
+ add_object(new Coin(pos));
+ solids->change(x, y, 0);
+ } else if(tile->getAttributes() & Tile::FULLBOX) {
+ add_object(new BonusBlock(pos, tile->getData()));
+ solids->change(x, y, 0);
+ } else if(tile->getAttributes() & Tile::BRICK) {
+ add_object(new Brick(pos, tile->getData()));
+ solids->change(x, y, 0);
+ } else if(tile->getAttributes() & Tile::GOAL) {
+ std::string sequence = tile->getData() == 0 ? "endsequence" : "stoptux";
+ add_object(new SequenceTrigger(pos, sequence));
+ solids->change(x, y, 0);
+ }
}
}
}
if (!tm) continue;
for(size_t x=0; x < tm->get_width(); ++x) {
for(size_t y=0; y < tm->get_height(); ++y) {
- const Tile* tile = tm->get_tile(x, y);
- Vector pos(tm->get_x_offset() + x*32, tm->get_y_offset() + y*32);
- Vector center(pos.x + 16, pos.y + 16);
-
- // torch
- if (tile->getID() == 1517) {
- float pseudo_rnd = (float)((int)pos.x % 10) / 10;
- add_object(new PulsingLight(center, 1.0f + pseudo_rnd, 0.9f, 1.0f, Color(1.0f, 1.0f, 0.6f, 1.0f)));
- }
- // lava or lavaflow
- if ((tile->getID() == 173) || (tile->getID() == 1700) || (tile->getID() == 1705) || (tile->getID() == 1706)) {
- // space lights a bit
- if (((tm->get_tile(x-1, y)->getID() != tm->get_tile(x,y)->getID())
- && (tm->get_tile(x, y-1)->getID() != tm->get_tile(x,y)->getID()))
- || ((x % 3 == 0) && (y % 3 == 0))) {
- float pseudo_rnd = (float)((int)pos.x % 10) / 10;
- add_object(new PulsingLight(center, 1.0f + pseudo_rnd, 0.8f, 1.0f, Color(1.0f, 0.3f, 0.0f, 1.0f)));
- }
- }
+ uint32_t id = tm->get_tile_id(x, y);
+ Vector pos(tm->get_x_offset() + x*32, tm->get_y_offset() + y*32);
+ Vector center(pos.x + 16, pos.y + 16);
+
+ // torch
+ if (id == 1517) {
+ float pseudo_rnd = (float)((int)pos.x % 10) / 10;
+ add_object(new PulsingLight(center, 1.0f + pseudo_rnd, 0.9f, 1.0f, Color(1.0f, 1.0f, 0.6f, 1.0f)));
+ }
+ // lava or lavaflow
+ if ((id == 173) || (id == 1700) || (id == 1705) || (id == 1706)) {
+ // space lights a bit
+ if ((((tm->get_tile_id(x-1, y)) != tm->get_tile_id(x,y))
+ && (tm->get_tile_id(x, y-1) != tm->get_tile_id(x,y)))
+ || ((x % 3 == 0) && (y % 3 == 0))) {
+ float pseudo_rnd = (float)((int)pos.x % 10) / 10;
+ add_object(new PulsingLight(center, 1.0f + pseudo_rnd, 0.8f, 1.0f, Color(1.0f, 0.3f, 0.0f, 1.0f)));
+ }
+ }
}
}
void
Sector::write(lisp::Writer& writer)
{
- writer.write_string("name", name);
- writer.write_float("gravity", gravity);
- writer.write_string("music", music);
+ writer.write("name", name);
+ writer.write("gravity", gravity);
+ writer.write("music", music);
// write spawnpoints
for(SpawnPoints::iterator i = spawnpoints.begin(); i != spawnpoints.end();
++i) {
SpawnPoint* spawn = *i;
writer.start_list("spawn-points");
- writer.write_string("name", spawn->name);
- writer.write_float("x", spawn->pos.x);
- writer.write_float("y", spawn->pos.y);
+ writer.write("name", spawn->name);
+ writer.write("x", spawn->pos.x);
+ writer.write("y", spawn->pos.y);
writer.end_list("spawn-points");
}
sq_pushobject(vm, sector_table);
sq_setroottable(vm);
- compile_and_run(vm, in, sourcename);
+ try {
+ compile_and_run(vm, in, "Sector " + name + " - " + sourcename);
+ } catch(std::exception& e) {
+ log_warning << "Error running script: " << e.what() << std::endl;
+ }
return vm;
}
camera->reset(player->get_pos());
update_game_objects();
+ //Run default.nut just before init script
+ //Check to see if it's in a levelset (info file)
+ std::string basedir = FileSystem::dirname(get_level()->filename);
+ if(PHYSFS_exists((basedir + "/info").c_str())) {
+ try {
+ IFileStream in(basedir + "/default.nut");
+ run_script(in, "default.nut");
+ } catch(std::exception& ) {
+ // doesn't exist or erroneous; do nothing
+ }
+ }
+
// Run init script
if(init_script != "") {
std::istringstream in(init_script);
- run_script(in, std::string("Sector(") + name + ") - init");
+ run_script(in, "init-script");
}
}
gameobjects.push_back(object);
}
gameobjects_new.clear();
+
+ /* update solid_tilemaps list */
+ //FIXME: this could be more efficient
+ solid_tilemaps.clear();
+ for(std::vector<GameObject*>::iterator i = gameobjects.begin();
+ i != gameobjects.end(); ++i)
+ {
+ TileMap* tm = dynamic_cast<TileMap*>(*i);
+ if (!tm) continue;
+ if (tm->is_solid()) solid_tilemaps.push_back(tm);
+ }
+
}
bool
this->player = player;
}
+ DisplayEffect* effect = dynamic_cast<DisplayEffect*> (object);
+ if(effect != NULL) {
+ if(this->effect != 0) {
+ log_warning << "Multiple DisplayEffects added. Ignoring" << std::endl;
+ return false;
+ }
+ this->effect = effect;
+ }
+
UsesPhysic *physic_object = dynamic_cast<UsesPhysic *>(object);
if(physic_object)
{
* Collision Detection
*-------------------------------------------------------------------------*/
-static const float SHIFT_DELTA = 7.0f;
-
/** r1 is supposed to be moving, r2 a solid object */
void check_collisions(collision::Constraints* constraints,
const Vector& movement, const Rect& r1, const Rect& r2,
- GameObject* object = NULL, MovingObject* other = NULL)
+ GameObject* object = NULL, MovingObject* other = NULL, const Vector& addl_ground_movement = Vector(0,0))
{
if(!collision::intersects(r1, r2))
return;
+ MovingObject *moving_object = dynamic_cast<MovingObject*> (object);
+ CollisionHit dummy;
+ if(other != NULL && !other->collides(*object, dummy))
+ return;
+ if(moving_object != NULL && !moving_object->collides(*other, dummy))
+ return;
+
// calculate intersection
- float itop = r1.get_bottom() - r2.get_top();
+ float itop = r1.get_bottom() - r2.get_top();
float ibottom = r2.get_bottom() - r1.get_top();
- float ileft = r1.get_right() - r2.get_left();
- float iright = r2.get_right() - r1.get_left();
+ float ileft = r1.get_right() - r2.get_left();
+ float iright = r2.get_right() - r1.get_left();
if(fabsf(movement.y) > fabsf(movement.x)) {
if(ileft < SHIFT_DELTA) {
}
}
+ constraints->ground_movement += addl_ground_movement;
if(other != NULL) {
- CollisionHit dummy;
HitResponse response = other->collision(*object, dummy);
if(response == PASSTHROUGH)
return;
+
if(other->get_movement() != Vector(0, 0)) {
// TODO what todo when we collide with 2 moving objects?!?
constraints->ground_movement = other->get_movement();
}
}
-static const float DELTA = .001f;
-
void
Sector::collision_tilemap(collision::Constraints* constraints,
const Vector& movement, const Rect& dest) const
for(int x = starttilex; x*32 < max_x; ++x) {
for(int y = starttiley; y*32 < max_y; ++y) {
- const Tile* tile = solids->get_tile(x, y);
- if(!tile)
- continue;
- // skip non-solid tiles
- if((tile->getAttributes() & Tile::SOLID) == 0)
- continue;
- // only handle unisolid when the player is falling down and when he was
- // above the tile before
- if(tile->getAttributes() & Tile::UNISOLID) {
- if(movement.y <= 0 || dest.get_bottom() - movement.y - SHIFT_DELTA > y*32)
- continue;
- }
-
- if(tile->getAttributes() & Tile::SLOPE) { // slope tile
- AATriangle triangle;
- Vector p1(x*32 + solids->get_x_offset(), y*32 + solids->get_y_offset());
- Vector p2((x+1)*32 + solids->get_x_offset(), (y+1)*32 + solids->get_y_offset());
- triangle = AATriangle(p1, p2, tile->getData());
-
- collision::rectangle_aatriangle(constraints, dest, triangle);
- } else { // normal rectangular tile
- Rect rect(x*32 + solids->get_x_offset(), y*32 + solids->get_y_offset(), (x+1)*32 + solids->get_x_offset(), (y+1)*32 + solids->get_y_offset());
- check_collisions(constraints, movement, dest, rect);
- }
+ const Tile* tile = solids->get_tile(x, y);
+ if(!tile)
+ continue;
+ // skip non-solid tiles
+ if((tile->getAttributes() & Tile::SOLID) == 0)
+ continue;
+ // only handle unisolid when the player is falling down and when he was
+ // above the tile before
+ if(tile->getAttributes() & Tile::UNISOLID) {
+ if(movement.y <= 0 || dest.get_bottom() - movement.y - SHIFT_DELTA > y*32)
+ continue;
+ }
+
+ if(tile->getAttributes() & Tile::SLOPE) { // slope tile
+ AATriangle triangle;
+ Vector p1(x*32 + solids->get_x_offset(), y*32 + solids->get_y_offset());
+ Vector p2((x+1)*32 + solids->get_x_offset(), (y+1)*32 + solids->get_y_offset());
+ triangle = AATriangle(p1, p2, tile->getData());
+
+ collision::rectangle_aatriangle(constraints, dest, triangle, solids->get_movement());
+ } else { // normal rectangular tile
+ Rect rect(x*32 + solids->get_x_offset(), y*32 + solids->get_y_offset(), (x+1)*32 + solids->get_x_offset(), (y+1)*32 + solids->get_y_offset());
+ check_collisions(constraints, movement, dest, rect, NULL, NULL, solids->get_movement());
+ }
}
}
}
float x1 = dest.p1.x;
float y1 = dest.p1.y;
float x2 = dest.p2.x;
- float y2 = dest.p2.y;
+ float y2 = dest.p2.y + SHIFT_DELTA;
uint32_t result = 0;
for(std::list<TileMap*>::const_iterator i = solid_tilemaps.begin(); i != solid_tilemaps.end(); i++) {
for(int x = starttilex; x*32 < max_x; ++x) {
for(int y = starttiley; y*32 < max_y; ++y) {
- const Tile* tile = solids->get_tile(x, y);
- if(!tile)
- continue;
- result |= tile->getAttributes();
+ const Tile* tile = solids->get_tile(x, y);
+ if(!tile)
+ continue;
+ result |= tile->getAttributes();
}
}
}
Vector normal;
get_hit_normal(r1, r2, hit, normal);
+ if(!object1->collides(*object2, hit))
+ return;
+ std::swap(hit.left, hit.right);
+ std::swap(hit.top, hit.bottom);
+ if(!object2->collides(*object1, hit))
+ return;
+ std::swap(hit.left, hit.right);
+ std::swap(hit.top, hit.bottom);
+
HitResponse response1 = object1->collision(*object2, hit);
std::swap(hit.left, hit.right);
std::swap(hit.top, hit.bottom);
HitResponse response2 = object2->collision(*object1, hit);
- assert( response1 != SOLID && response1 != PASSTHROUGH );
- assert( response2 != SOLID && response2 != PASSTHROUGH );
if(response1 == CONTINUE && response2 == CONTINUE) {
normal *= (0.5 + DELTA);
object1->dest.move(-normal);
if(constraints.right < infinity) {
float width = constraints.right - constraints.left;
if(width + SHIFT_DELTA < owidth) {
+#if 0
printf("Object %p crushed horizontally... L:%f R:%f\n", &object,
constraints.left, constraints.right);
+#endif
CollisionHit h;
h.left = true;
h.right = true;
if(constraints.bottom < infinity) {
float height = constraints.bottom - constraints.top;
if(height + SHIFT_DELTA < oheight) {
+#if 0
printf("Object %p crushed vertically...\n", &object);
+#endif
CollisionHit h;
h.top = true;
h.bottom = true;
CollisionHit hit;
get_hit_normal(moving_object->dest, moving_object_2->dest,
hit, normal);
+ if(!moving_object->collides(*moving_object_2, hit))
+ continue;
+ if(!moving_object_2->collides(*moving_object, hit))
+ continue;
+
moving_object->collision(*moving_object_2, hit);
moving_object_2->collision(*moving_object, hit);
}
for(int x = starttilex; x*32 <= max_x; ++x) {
for(int y = starttiley; y*32 <= max_y; ++y) {
- const Tile* tile = solids->get_tile(x, y);
- if(!tile) continue;
- if(tile->getAttributes() & Tile::SLOPE) {
- AATriangle triangle;
- Vector p1(x*32 + solids->get_x_offset(), y*32 + solids->get_y_offset());
- Vector p2((x+1)*32 + solids->get_x_offset(), (y+1)*32 + solids->get_y_offset());
- triangle = AATriangle(p1, p2, tile->getData());
- Constraints constraints;
- return collision::rectangle_aatriangle(&constraints, rect, triangle);
- }
- if((tile->getAttributes() & Tile::SOLID) && !ignoreUnisolid) return false;
- if((tile->getAttributes() & Tile::SOLID) && !(tile->getAttributes() & Tile::UNISOLID)) return false;
+ const Tile* tile = solids->get_tile(x, y);
+ if(!tile) continue;
+ if(tile->getAttributes() & Tile::SLOPE) {
+ AATriangle triangle;
+ Vector p1(x*32 + solids->get_x_offset(), y*32 + solids->get_y_offset());
+ Vector p2((x+1)*32 + solids->get_x_offset(), (y+1)*32 + solids->get_y_offset());
+ triangle = AATriangle(p1, p2, tile->getData());
+ Constraints constraints;
+ if(collision::rectangle_aatriangle(&constraints, rect, triangle) && (!ignoreUnisolid || !(tile->getAttributes() & Tile::UNISOLID))) return false;
+ }
+ if((tile->getAttributes() & Tile::SOLID) && (!ignoreUnisolid || !(tile->getAttributes() & Tile::UNISOLID))) return false;
}
}
}
sound_manager->play_music(music);
break;
case HERRING_MUSIC:
- sound_manager->play_music("music/salcon.ogg");
+ sound_manager->play_music("music/invincible.music");
break;
case HERRING_WARNING_MUSIC:
sound_manager->stop_music(TUX_INVINCIBLE_TIME_WARNING);
TileMap* solids = *i;
bool horizontally = ((rect.p2.x >= 0 + solids->get_x_offset()) && (rect.p1.x <= solids->get_width() * 32 + solids->get_x_offset()));
bool vertically = (rect.p1.y <= solids->get_height() * 32 + solids->get_y_offset());
- if (horizontally && vertically) return true;
+
+ if (horizontally && vertically)
+ return true;
}
return false;
}
Sector::get_width() const
{
float width = 0;
- for(std::list<TileMap*>::const_iterator i = solid_tilemaps.begin(); i != solid_tilemaps.end(); i++) {
+ for(std::list<TileMap*>::const_iterator i = solid_tilemaps.begin();
+ i != solid_tilemaps.end(); i++) {
TileMap* solids = *i;
- if ((solids->get_width() * 32 + solids->get_x_offset()) > width) width = (solids->get_width() * 32 + solids->get_x_offset());
+ if ((solids->get_width() * 32 + solids->get_x_offset()) > width) {
+ width = solids->get_width() * 32 + solids->get_x_offset();
+ }
}
+
return width;
}
Sector::get_height() const
{
float height = 0;
- for(std::list<TileMap*>::const_iterator i = solid_tilemaps.begin(); i != solid_tilemaps.end(); i++) {
+ for(std::list<TileMap*>::const_iterator i = solid_tilemaps.begin();
+ i != solid_tilemaps.end(); i++) {
TileMap* solids = *i;
- if ((solids->get_height() * 32 + solids->get_y_offset()) > height) height = (solids->get_height() * 32 + solids->get_y_offset());
+ if ((solids->get_height() * 32 + solids->get_y_offset()) > height) {
+ height = solids->get_height() * 32 + solids->get_y_offset();
+ }
}
+
return height;
}
{
return ambient_light.blue;
}
+
+void
+Sector::set_gravity(float gravity)
+{
+ log_warning << "Changing a Sector's gravitational constant might have unforeseen side-effects" << std::endl;
+
+ this->gravity = gravity;
+
+ for(GameObjects::iterator i = gameobjects.begin(); i != gameobjects.end(); ++i) {
+ GameObject* game_object = *i;
+ if(!game_object) continue;
+ if(!game_object->is_valid()) continue;
+ UsesPhysic *physics_object = dynamic_cast<UsesPhysic*>(game_object);
+ if (!physics_object) continue;
+
+ physics_object->physic.set_gravity(gravity);
+ }
+}
+