/* map_sendTileSignal
Sends a signal to an active tile.
*/
void
map_sendTileSignal(int z, int x, int y, Signal *s)
{
extern Map map;
if (TILE_AT(z, x, y)->active)
sig_push(&TILE_AT(z, x, y)->signals, s);
}
/* map_getTileGfx
Returns a pointer to an SDL_Surface of the currently displayed graphic of
a tile, or NULL if there is no tile.
*/
SDL_Surface *
map_getTileGfx(int z, int x, int y)
{
extern Tileset tileset;
extern Map map;
return (TILE_AT(z, x, y) == NULL) ? NULL : tileset.data[TILE_AT(z, x, y)->anim.anim_id].frames[TILE_AT(z, x, y)->anim.curr_frame].image;
}
/* map_getTileGfxOffset
Gets the offset
of the tile's current graphic.
*/
Point
map_getTileGfxOffset(int z, int x, int y)
{
extern Map map;
extern Tileset tileset;
Point p;
p.x = TILE_AT(z, x, y)->anim.offset.x + tileset.data[TILE_AT(z, x, y)->anim.anim_id].frames[TILE_AT(z, x, y)->anim.curr_frame].offset.x;
p.y = TILE_AT(z, x, y)->anim.offset.y + tileset.data[TILE_AT(z, x, y)->anim.anim_id].frames[TILE_AT(z, x, y)->anim.curr_frame].offset.y;
return p;
}
/* map_freeMap
Frees the loaded map.
*/
void
map_freeMap(void)
{
extern Map map;
int i;
/* Free it layer by layer */
for (i = 0; i < map.n_layers; i++)
{
int x, y;
/* Free all of the tiles in the layer */
for (x = 0; x < map.layers[i].w; x++)
{
for (y = 0; y < map.layers[i].h; y++)
{
/* Is there a tile here? */
if (TILE_AT(i, x, y) != NULL)
{
freeTile(i, x, y);
}
}
}
/* Free the array */
dyn_arrayFree((void **) map.layers[i].data, map.layers[i].w);
}
/* Free the array of layers */
dyn_1dArrayFree(map.layers);
}
/* event: pick one tile and randomize all its stats */
static void randomizeOneTile (struct state *st)
{
int c = RAND_FLOAT_01 * st->columns;
int r = RAND_FLOAT_01 * st->rows;
Tile *t = TILE_AT (c, r);
t->angle = RAND_ANGLE;
t->zoom = RAND_ZOOM;
t->vAngle = RAND_VANGLE;
t->vZoom = RAND_VZOOM;
}
/* map_runTiles
Has tiles which are within our specified range run and animate
*/
void
map_runTiles(void)
{
extern Map map;
extern Tileset tileset;
int l, x, y;
for (l = 0; l < map.n_layers; l++)
{
/* Get the range of real coordinates on this layer the camera can see */
Rect cam_range = cam_getViewRange(l);
/* Loop through all of the onscreen tiles, plus a certain range beyond
that */
for (x = (map_realToMapX(cam_range.p1.x) - TILE_X_RANGE) >= 0 ?
(map_realToMapX(cam_range.p1.x) - TILE_X_RANGE) : 0;
(x <= map_realToMapX(cam_range.p2.x) + TILE_X_RANGE)
&& (x < map_getLayerWidth(l));
x++)
{
for (y = (map_realToMapY(cam_range.p1.y) - TILE_Y_RANGE) >= 0 ?
(map_realToMapY(cam_range.p1.y) - TILE_Y_RANGE) : 0;
(y <= map_realToMapY(cam_range.p2.y) + TILE_Y_RANGE)
&& (y < map_getLayerHeight(l));
y++)
{
/* If there is a tile here */
if (TILE_AT(l, x, y) != NULL)
{
/* Have the tile do its go action if it's active */
if (TILE_AT(l, x, y)->active)
TILE_AT(l, x, y)->go(l, x, y);
/* Animate */
anim_animate(&TILE_AT(l, x, y)->anim, &tileset.data[TILE_AT(l, x, y)->anim.anim_id]);
}
}
}
}
}
/* set up the model */
static void setupModel (struct state *st)
{
int c;
int r;
int leftX; /* x of the center of the top-left tile */
int topY; /* y of the center of the top-left tile */
if (st->tileSize > (st->windowWidth / 2))
{
st->tileSize = st->windowWidth / 2;
}
if (st->tileSize > (st->windowHeight / 2))
{
st->tileSize = st->windowHeight / 2;
}
st->columns = st->tileSize ? st->windowWidth / st->tileSize : 0;
st->rows = st->tileSize ? st->windowHeight / st->tileSize : 0;
if ((st->maxColumns != 0) && (st->columns > st->maxColumns))
{
st->columns = st->maxColumns;
}
if ((st->maxRows != 0) && (st->rows > st->maxRows))
{
st->rows = st->maxRows;
}
st->tileCount = st->rows * st->columns;
leftX = (st->windowWidth - (st->columns * st->tileSize) + st->tileSize) / 2;
topY = (st->windowHeight - (st->rows * st->tileSize) + st->tileSize) / 2;
if (st->tileCount < 1) st->tileCount = 1;
st->tiles = calloc (st->tileCount, sizeof (Tile));
st->sortedTiles = calloc (st->tileCount, sizeof (Tile *));
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
Tile *t = TILE_AT (c, r);
t->x = leftX + c * st->tileSize;
t->y = topY + r * st->tileSize;
st->sortedTiles[c + r * st->columns] = t;
}
}
randomizeEverything (st);
}
/* event: randomize all the zoomular velocities */
static void randomizeAllZoomularVelocities (struct state *st)
{
int c;
int r;
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
TILE_AT (c, r)->vZoom = RAND_VZOOM;
}
}
}
/* event: randomize all the zoomular orientations */
static void randomizeAllZoomularOrientations (struct state *st)
{
int c;
int r;
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
TILE_AT (c, r)->zoom = RAND_ZOOM;
}
}
}
/* event: randomize all the angular orientations */
static void randomizeAllAngularOrientations (struct state *st)
{
int c;
int r;
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
TILE_AT (c, r)->angle = RAND_ANGLE;
}
}
}
/* event: randomize all the angular velocities */
static void randomizeAllAngularVelocities (struct state *st)
{
int c;
int r;
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
TILE_AT (c, r)->vAngle = RAND_VANGLE;
}
}
}
/* event: pick one column and randomize everything about each of its tiles */
static void randomizeOneColumn (struct state *st)
{
int c = RAND_FLOAT_01 * st->columns;
int r;
for (r = 0; r < st->rows; r++)
{
Tile *t = TILE_AT (c, r);
t->angle = RAND_ANGLE;
t->zoom = RAND_ZOOM;
t->vAngle = RAND_VANGLE;
t->vZoom = RAND_VZOOM;
}
}
/* event: pick one row and randomize everything about each of its tiles */
static void randomizeOneRow (struct state *st)
{
int c;
int r = RAND_FLOAT_01 * st->rows;
for (c = 0; c < st->columns; c++)
{
Tile *t = TILE_AT (c, r);
t->angle = RAND_ANGLE;
t->zoom = RAND_ZOOM;
t->vAngle = RAND_VANGLE;
t->vZoom = RAND_VZOOM;
}
}
/* freeTile
Frees a tile.
*/
void
freeTile(int l, int x, int y)
{
Tile *t = TILE_AT(l, x, y);
/* Free its boundaries */
Bound *b = t->bounds;
while (b != NULL)
{
Bound *next_bound = b->next;
free(b);
b = next_bound;
}
/* Flush the signal queue */
sig_flush(&t->signals);
/* If the object is active, it may have allocated its own type-specific
attributes which it will free itself: */
if (t->active) t->free_atts(l, x, y);
free(t);
TILE_AT(l, x, y) = NULL;
}
/* map_getTileBounds
Returns a pointer to the boundary list of a tile, or NULL
of there is no tile.
*/
Bound *
map_getTileBounds(int z, int x, int y)
{
extern Map map;
return (TILE_AT(z, x, y) == NULL) ? NULL : TILE_AT(z, x, y)->bounds;
}
/* map_tileIsSolid
Returns true if a tile is solid
*/
int map_tileIsSolid(int z, int x, int y)
{
extern Map map;
return (TILE_AT(z, x, y)->solid);
}
/* update the model for one iteration */
static void updateModel (struct state *st)
{
int r;
int c;
/* for each tile, decrease its velocities according to the friction,
* and increase them based on its current orientation and the orientations
* of its orthogonal neighbors */
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
Tile *t = TILE_AT (c, r);
FLOAT a = t->angle;
FLOAT z = t->zoom;
FLOAT va = t->vAngle;
FLOAT vz = t->vZoom;
va -= t->angle * st->springiness;
vz -= t->zoom * st->springiness;
if (c > 0)
{
Tile *t2 = TILE_AT (c - 1, r);
va += (t2->angle - a) * st->transference;
vz += (t2->zoom - z) * st->transference;
}
if (c < (st->columns - 1))
{
Tile *t2 = TILE_AT (c + 1, r);
va += (t2->angle - a) * st->transference;
vz += (t2->zoom - z) * st->transference;
}
if (r > 0)
{
Tile *t2 = TILE_AT (c, r - 1);
va += (t2->angle - a) * st->transference;
vz += (t2->zoom - z) * st->transference;
}
if (r < (st->rows - 1))
{
Tile *t2 = TILE_AT (c, r + 1);
va += (t2->angle - a) * st->transference;
vz += (t2->zoom - z) * st->transference;
}
va *= (1.0 - st->friction);
vz *= (1.0 - st->friction);
if (va > MAX_VANGLE) va = MAX_VANGLE;
else if (va < -MAX_VANGLE) va = -MAX_VANGLE;
t->vAngle = va;
if (vz > MAX_VZOOM) vz = MAX_VZOOM;
else if (vz < -MAX_VZOOM) vz = -MAX_VZOOM;
t->vZoom = vz;
}
}
/* for each tile, update its orientation based on its velocities */
for (r = 0; r < st->rows; r++)
{
for (c = 0; c < st->columns; c++)
{
Tile *t = TILE_AT (c, r);
FLOAT a = t->angle + t->vAngle;
FLOAT z = t->zoom + t->vZoom;
if (a > M_PI) a = M_PI;
else if (a < -M_PI) a = -M_PI;
t->angle = a;
if (z > 1.0) z = 1.0;
else if (z < -1.0) z = -1.0;
t->zoom = z;
}
}
}
/* map_getTileType
Returns a tile's type.
*/
int map_getTileType(int z, int x, int y)
{
extern Map map;
return (TILE_AT(z, x, y)->type);
}
/* map_loadMap
Loads the map for an area.
*/
void
map_loadMap(char *areafile)
{
extern Map map;
extern Tileset tileset;
extern struct tile_att_define *tile_defs[];
int i;
/* Open the area file */
file_openFile(areafile, 'r');
/* Get the background color */
map.bg_color = file_getAreaBackgroundColor(areafile);
/* Get the number of layers */
map.n_layers = file_getAreaNLayers(areafile);
/* Allocate the array of layers */
map.layers = (Layer *) dyn_1dArrayAlloc(map.n_layers, sizeof(Layer));
/* Create the layers */
for (i = 0; i < map.n_layers; i++)
{
int w, h;
/* Find the next layer in the area file */
file_nextLayer(areafile);
/* Get the layer's dimensions. */
file_getLayerDims(areafile, &w, &h);
map.layers[i].w = w;
map.layers[i].h = h;
/* Allocate the layer data array */
map.layers[i].data = (Tile ***) dyn_arrayAlloc(map.layers[i].w, map.layers[i].h, sizeof(Tile *));
/* Get all the tiles in the layer */
while (file_nextTile(areafile))
{
Bound *b;
int x, y, type;
char *anim_name;
/* Get the tile's attributes */
file_getTileAtts(areafile, &x, &y, &type, &anim_name);
/* Allocate the tile in the proper place in the array */
MALLOC(TILE_AT(i, x, y), sizeof(Tile));
/* Initialize the signal queue */
sig_initQ(&TILE_AT(i, x, y)->signals);
/* Set the tile's type: */
TILE_AT(i, x, y)->type = type;
/* Get tile-specific attributes from the definitions included in
tiledata.c */
TILE_AT(i, x, y)->elasticity = tile_defs[type]->elasticity;
TILE_AT(i, x, y)->solid = tile_defs[type]->solid;
TILE_AT(i, x, y)->friction = tile_defs[type]->friction;
if (TILE_AT(i, x, y)->active = tile_defs[type]->active)
{
/* Only assign the tile functions if it is active */
TILE_AT(i, x, y)->atts = tile_defs[type]->init_atts();
TILE_AT(i, x, y)->go = tile_defs[type]->go;
TILE_AT(i, x, y)->free_atts = tile_defs[type]->free_atts;
}
/* Set the tile's animation: */
TILE_AT(i, x, y)->anim.anim_id = animNameToID(anim_name);
free(anim_name);
TILE_AT(i, x, y)->anim.curr_frame = 0;
TILE_AT(i, x, y)->anim.play_dir = 0;
TILE_AT(i, x, y)->anim.offset.x = 0;
TILE_AT(i, x, y)->anim.offset.y = 0;
/* Get the animation speed from the animation's default: */
time_init(&TILE_AT(i, x, y)->anim.timer, tileset.data[TILE_AT(i, x, y)->anim.anim_id].def_delay);
/* Get all of the boundaries for this tile */
TILE_AT(i, x, y)->bounds = NULL;
while (file_nextTileBound(areafile))
{
/* If this is the head of the list: */
if (TILE_AT(i, x, y)->bounds == NULL)
{
MALLOC(TILE_AT(i, x, y)->bounds, sizeof(Bound));
b = TILE_AT(i, x, y)->bounds;
}
else
{
MALLOC(b->next, sizeof(Bound));
b = b->next;
}
/* Read the boundary in */
file_getTileBound(areafile, b);
b->next = NULL;
}
} /* Found all the tiles in the layer */
} /* Found all the layers */
file_closeFile(areafile);
}
