kolibrios-gitea/programs/games/pig/trunk/engine.c
Yogev Ezra 7a91a704c5 Added sources of the following games: mario2, megamaze, MSquare, pig, soko.
git-svn-id: svn://kolibrios.org@1806 a494cfbc-eb01-0410-851d-a64ba20cac60
2011-01-30 11:17:50 +00:00

1157 lines
23 KiB
C

/*
------------------------------------------------------------
Fixed Rate Pig - a fixed logic frame rate demo
------------------------------------------------------------
* Copyright (C) 2004 David Olofson <david@olofson.net>
*
* This software is released under the terms of the GPL.
*
* Contact author for permission if you want to use this
* software, or work derived from it, under other terms.
*/
#include <stdlib.h>
#include <string.h>
#include "engine.h"
#include "SDL_image.h"
/* Size of sprite frame table */
#define PIG_MAX_SPRITES 1024
/*
* Actually remove an objects. Used internally,
* to remove objects that have been marked for
* destruction.
*/
static void close_object(PIG_object *po);
/*----------------------------------------------------------
Engine
----------------------------------------------------------*/
PIG_engine *pig_open(SDL_Surface *screen)
{
PIG_engine *pe = (PIG_engine *)calloc(1, sizeof(PIG_engine));
if(!pe)
return NULL;
pe->screen = screen;
if(!pe->screen)
{
pig_close(pe);
return NULL;
}
if((pe->screen->flags & SDL_HWSURFACE) == SDL_HWSURFACE)
{
pe->buffer = SDL_CreateRGBSurface(SDL_SWSURFACE,
screen->w, screen->h,
screen->format->BitsPerPixel,
screen->format->Rmask,
screen->format->Gmask,
screen->format->Bmask,
screen->format->Amask);
if(!pe->buffer)
{
pig_close(pe);
return NULL;
}
pe->surface = pe->buffer;
}
else
pe->surface = screen;
pe->pages = 1 + ((screen->flags & SDL_DOUBLEBUF) == SDL_DOUBLEBUF);
pe->interpolation = 1;
pe->time = 0.0;
pe->view.w = pe->surface->w;
pe->view.h = pe->surface->h;
pe->sprites = (PIG_sprite **)calloc(PIG_MAX_SPRITES,
sizeof(PIG_sprite *));
if(!pe->sprites)
{
pig_close(pe);
return NULL;
}
pe->pagedirty[0] = pig_dirty_open(128);
pe->workdirty = pig_dirty_open(256);
if(!pe->pagedirty[0] || !pe->workdirty)
{
pig_close(pe);
return NULL;
}
if(pe->pages > 1)
{
pe->pagedirty[1] = pig_dirty_open(128);
if(!pe->pagedirty[1])
{
pig_close(pe);
return NULL;
}
}
return pe;
}
void pig_close(PIG_engine *pe)
{
if(pe->sprites)
{
int i;
for(i = 0; i < pe->nsprites; ++i)
if(pe->sprites[i])
{
if(pe->sprites[i]->surface)
SDL_FreeSurface(pe->sprites[i]->surface);
free(pe->sprites[i]);
}
free(pe->sprites);
}
while(pe->objects)
close_object(pe->objects);
if(pe->map)
pig_map_close(pe->map);
if(pe->buffer)
SDL_FreeSurface(pe->buffer);
if(pe->pagedirty[0])
pig_dirty_close(pe->pagedirty[0]);
if(pe->pagedirty[1])
pig_dirty_close(pe->pagedirty[1]);
if(pe->workdirty)
pig_dirty_close(pe->workdirty);
free(pe);
}
void pig_viewport(PIG_engine *pe, int x, int y, int w, int h)
{
pe->view.x = x;
pe->view.y = y;
pe->view.w = w;
pe->view.h = h;
}
int pig_sprites(PIG_engine *pe, const char *filename, int sw, int sh)
{
int x, y, count, handle;
SDL_Surface *tmp = IMG_Load(filename);
if(!tmp)
{
fprintf(stderr, "Could not load '%s'!\n", filename);
return -1;
}
handle = pe->nsprites;
if(!sw)
sw = tmp->w;
if(!sh)
sh = tmp->h;
/* Disable blending, so we get the alpha channel COPIED! */
SDL_SetAlpha(tmp, 0, 0);
count = 0;
for(y = 0; y <= tmp->h - sh; y += sh)
for(x = 0; x <= tmp->w - sw; x += sw)
{
SDL_Rect r;
SDL_Surface *tmp2;
PIG_sprite *s;
if(pe->nsprites >= PIG_MAX_SPRITES)
{
fprintf(stderr, "Sprite bank full!\n");
return -1;
}
s = (PIG_sprite *)calloc(1, sizeof(PIG_sprite));
if(!s)
return -1;
s->w = sw;
s->h = sh;
s->hotx = sw / 2;
s->hoty = sh / 2;
s->radius = (sw + sh) / 5;
tmp2 = SDL_CreateRGBSurface(SDL_SWSURFACE,
sw, sh, 32,
0xff000000, 0x00ff0000,
0x0000ff00, 0x000000ff);
SDL_SetAlpha(tmp2, 0, 0);
r.x = x;
r.y = y;
r.w = sw;
r.h = sh;
SDL_BlitSurface(tmp, &r, tmp2, NULL);
SDL_SetAlpha(tmp2, SDL_SRCALPHA | SDL_RLEACCEL,
SDL_ALPHA_OPAQUE);
s->surface = SDL_DisplayFormatAlpha(tmp2);
if(!s->surface)
{
fprintf(stderr, "Could not convert sprite %d"
" of '%s'!\n",
count, filename);
return -1;
}
SDL_FreeSurface(tmp2);
pe->sprites[pe->nsprites] = s;
++pe->nsprites;
++count;
}
SDL_FreeSurface(tmp);
return handle;
}
int pig_hotspot(PIG_engine *pe, int frame, int hotx, int hoty)
{
if((frame < 0 ) || (frame >= pe->nsprites))
return -1;
switch(hotx)
{
case PIG_UNCHANGED:
break;
case PIG_MIN:
pe->sprites[frame]->hotx = 0;
break;
case PIG_CENTER:
pe->sprites[frame]->hotx = pe->sprites[frame]->w / 2;
break;
case PIG_MAX:
pe->sprites[frame]->hotx = pe->sprites[frame]->w;
break;
default:
pe->sprites[frame]->hotx = hotx;
break;
}
switch(hoty)
{
case PIG_UNCHANGED:
break;
case PIG_MIN:
pe->sprites[frame]->hoty = 0;
break;
case PIG_CENTER:
pe->sprites[frame]->hoty = pe->sprites[frame]->h / 2;
break;
case PIG_MAX:
pe->sprites[frame]->hoty = pe->sprites[frame]->h;
break;
default:
pe->sprites[frame]->hoty = hoty;
break;
}
return 0;
}
int pig_radius(PIG_engine *pe, int frame, int radius)
{
if((frame < 0 ) || (frame >= pe->nsprites))
return -1;
pe->sprites[frame]->radius = radius;
return 0;
}
void pig_start(PIG_engine *pe, int frame)
{
PIG_object *po = pe->objects;
pe->time = (double)frame;
pe->frame = frame;
while(po)
{
po->ip.gx = po->ip.ox = po->x;
po->ip.gy = po->ip.oy = po->y;
po->ip.gimage = po->ibase + po->image;
po = po->next;
}
}
static void run_timers(PIG_engine *pe, PIG_object *po)
{
int i;
for(i = 0; i < PIG_TIMERS; ++i)
if(po->timer[i])
{
--po->timer[i];
if(!po->timer[i])
{
PIG_event ev;
ev.type = PIG_TIMER0 + i;
po->handler(po, &ev);
if(!po->id)
return;
}
}
}
static void test_offscreen(PIG_engine *pe, PIG_object *po, PIG_sprite *s)
{
PIG_event ev;
int hx, hy, w, h;
if(s)
{
hx = s->hotx;
hy = s->hoty;
w = s->w;
h = s->h;
}
else
hx = hy = w = h = 0;
ev.cinfo.sides = (po->y - hy < -h) << PIG_TOP_B;
ev.cinfo.sides |= (po->y - hy >= pe->view.h) << PIG_BOTTOM_B;
ev.cinfo.sides |= (po->x - hx < -w) << PIG_LEFT_B;
ev.cinfo.sides |= (po->x - hx >= pe->view.w) << PIG_RIGHT_B;
if(ev.cinfo.sides)
{
float dx = po->x - po->ip.ox;
float dy = po->y - po->ip.oy;
if(ev.cinfo.sides & PIG_TOP)
{
ev.cinfo.y = 0;
if(dy)
ev.cinfo.x = po->ip.ox - dx * po->ip.oy / dy;
}
else if(ev.cinfo.sides & PIG_BOTTOM)
{
ev.cinfo.y = pe->view.h - 1;
if(dy)
ev.cinfo.x = po->ip.ox + dx *
(ev.cinfo.y - po->ip.oy) / dy;
}
if(ev.cinfo.sides & PIG_LEFT)
{
ev.cinfo.x = 0;
if(dx)
ev.cinfo.y = po->ip.oy - dy * po->ip.ox / dx;
}
else if(ev.cinfo.sides & PIG_RIGHT)
{
ev.cinfo.x = pe->view.w - 1;
if(dx)
ev.cinfo.y = po->ip.oy + dy *
(ev.cinfo.x - po->ip.ox) / dx;
}
ev.type = PIG_OFFSCREEN;
po->handler(po, &ev);
}
}
/* Test for stationary sprite/sprite collision */
static void sprite_sprite_one(PIG_object *po, PIG_object *po2, float t, float hitdist)
{
float dx, dy, dsquare;
PIG_event ev;
int sides;
float ix = po->ip.ox * (1 - t) + po->x * t;
float iy = po->ip.oy * (1 - t) + po->y * t;
float ix2 = po2->ip.ox * (1 - t) + po2->x * t;
float iy2 = po2->ip.oy * (1 - t) + po2->y * t;
dx = ix - ix2;
dy = iy - iy2;
dsquare = dx*dx + dy*dy;
if(dsquare >= hitdist*hitdist)
return; /* Nothing... --> */
if(fabs(dsquare) < 1)
sides = PIG_ALL;
else
{
float d = sqrt(dsquare);
dx /= d;
dy /= d;
if(dx < -0.707)
sides = PIG_LEFT;
else if((dx > 0.707))
sides = PIG_RIGHT;
else
sides = 0;
if(dy < -0.707)
sides |= PIG_TOP;
else if((dy > 0.707))
sides |= PIG_BOTTOM;
}
ev.type = PIG_HIT_OBJECT;
ev.cinfo.ff = 0.0;
ev.cinfo.x = ix;
ev.cinfo.y = iy;
ev.cinfo.sides = sides;
if(po->hitmask & po2->hitgroup)
{
ev.obj = po2;
po->handler(po, &ev);
}
if(po2->id && (po2->hitmask & po->hitgroup))
{
int s;
ev.cinfo.x = ix2;
ev.cinfo.y = iy2;
s = ((sides >> PIG_LEFT_B) & 1) << PIG_RIGHT_B;
s |= ((sides >> PIG_RIGHT_B) & 1) << PIG_LEFT_B;
s |= ((sides >> PIG_TOP_B) & 1) << PIG_BOTTOM_B;
s |= ((sides >> PIG_BOTTOM_B) & 1) << PIG_TOP_B;
ev.cinfo.sides = s;
ev.obj = po;
po2->handler(po2, &ev);
}
}
/*
* Check 'po' against all subsequent objects in the list.
* The testing is step size limited so that neither object
* moves more than 25% of the collision distance between tests.
* (25% should be sufficient for correct direction flags.)
*/
static void test_sprite_sprite(PIG_engine *pe, PIG_object *po, PIG_sprite *s)
{
int image;
PIG_object *po2, *next2;
for(po2 = po->next; po2; po2 = next2)
{
float hitdist, d, dmax, t, dt;
next2 = po2->next;
if(!po->id || !po2->id)
break;
/* Check collision groups and masks */
if(!(po->hitmask & po2->hitgroup) &&
!(po2->hitmask & po->hitgroup))
continue;
/* Calculate minimum distance */
hitdist = s ? s->radius : 0;
image = po2->ibase + po2->image;
if((image >= 0) && (image < pe->nsprites))
hitdist += pe->sprites[image]->radius;
if(hitdist < 1)
hitdist = 1;
/* Calculate number of testing steps */
dmax = fabs(po->ip.ox - po->x);
d = fabs(po->ip.oy - po->y);
dmax = d > dmax ? d : dmax;
d = fabs(po2->ip.ox - po2->x);
dmax = d > dmax ? d : dmax;
d = fabs(po2->ip.oy - po2->y);
dmax = d > dmax ? d : dmax;
if(dmax > 1)
dt = hitdist / (dmax * 4);
else
dt = 1;
/* Sweep test! */
for(t = 0; t < 1; t += dt)
sprite_sprite_one(po, po2, t, hitdist);
}
}
/*
* Returns a non-zero value if the tile at (x, y) is marked for
* collisions on the side indicated by 'mask'.
*/
static __inline__ int check_tile(PIG_map *m, int x, int y, int mask)
{
int mx, my;
/*
* Must check < 0 first! (Division rounds
* towards zero - not downwards.)
*/
if(x < 0 || y < 0)
return PIG_NONE;
mx = x / m->tw;
my = y / m->th;
if(mx >= m->w || my >= m->h)
return PIG_NONE;
return m->hit[my * m->w + mx] & mask;
}
int pig_test_map(PIG_engine *pe, int x, int y)
{
int mx, my;
if(x < 0 || y < 0)
return PIG_NONE;
mx = x / pe->map->tw;
my = y / pe->map->th;
if(mx >= pe->map->w || my >= pe->map->h)
return PIG_NONE;
return pe->map->hit[my * pe->map->w + mx];
}
/*
* Simple implementation that checks only for top edge collisions.
* (Full top/bottom/left/right checks with proper handling of
* corners and rows of tiles is a lot more complicated, so I'll
* leave that out for now, rather than hacking something simple
* but incorrect.)
*/
int pig_test_map_vector(PIG_engine *pe, int x1, int y1, int x2, int y2,
int mask, PIG_cinfo *ci)
{
PIG_cinfo lci;
PIG_map *m = pe->map;
int x, y;
int dist = 2000000000L;
if(!ci)
ci = &lci;
ci->sides = 0;
if((mask & PIG_TOP) && (y1 < y2))
{
/* Test for tiles that can be hit from the top */
for(y = y1 + m->th - y1 % m->th; y <= y2; y += m->th)
{
x = x1 + (x2 - x1) * (y - y1) / (y2 - y1);
if(check_tile(m, x, y + 1, PIG_TOP))
{
dist = (x-x1) * (x-x1) + (y-y1) * (y-y1);
ci->x = x;
ci->y = y - 1;
ci->sides |= PIG_TOP;
break;
}
}
}
if(ci->sides)
ci->ff = sqrt((x2 - x1) * (x2 - x1) +
(y2 - y1) * (y2 - y1) / dist);
return ci->sides;
}
static void test_sprite_map(PIG_engine *pe, PIG_object *po, PIG_sprite *s)
{
PIG_event ev;
if(pig_test_map_vector(pe, po->ip.ox, po->ip.oy, po->x, po->y,
po->tilemask, &ev.cinfo))
{
ev.type = PIG_HIT_TILE;
po->handler(po, &ev);
}
}
static void run_logic(PIG_engine *pe)
{
PIG_object *po, *next;
int image;
/* Shift logic coordinates */
for(po = pe->objects; po; po = po->next)
{
po->ip.ox = po->x;
po->ip.oy = po->y;
}
if(pe->before_objects)
pe->before_objects(pe);
for(po = pe->objects; po; po = next)
{
PIG_event ev;
/*
* We must grab the next pointer before
* we call any event handlers, as they
* may cause objects to remove themselves!
*/
next = po->next;
ev.type = PIG_PREFRAME;
po->handler(po, &ev);
}
for(po = pe->objects; po; po = next)
{
PIG_sprite *s;
next = po->next;
image = po->ibase + po->image;
if((image >= 0) && (image < pe->nsprites))
s = pe->sprites[image];
else
s = NULL;
/* Move! */
po->vx += po->ax;
po->vy += po->ay;
po->x += po->vx;
po->y += po->vy;
/* Check and handle events */
if(po->handler)
{
run_timers(pe, po);
if(po->id)
test_offscreen(pe, po, s);
if(po->id && (po->hitmask || po->hitgroup))
test_sprite_sprite(pe, po, s);
if(po->id && po->tilemask)
test_sprite_map(pe, po, s);
}
}
for(po = pe->objects; po; po = next)
{
next = po->next;
if(po->id)
{
PIG_event ev;
ev.type = PIG_POSTFRAME;
po->handler(po, &ev);
++po->age;
}
}
if(pe->after_objects)
pe->after_objects(pe);
}
void pig_animate(PIG_engine *pe, float frames)
{
/* Advance logic time */
int i = floor(pe->time + frames) - floor(pe->time);
while(i--)
{
run_logic(pe);
++pe->frame;
}
pe->time += frames;
}
void pig_dirty(PIG_engine *pe, SDL_Rect *dr)
{
SDL_Rect r;
r.x = 0;
r.y = 0;
r.w = pe->surface->w;
r.h = pe->surface->h;
if(dr)
pig_intersectrect(dr, &r);
if(r.w && r.h)
pig_dirty_add(pe->pagedirty[pe->page], &r);
}
static void tile_area(PIG_engine *pe, SDL_Rect *r)
{
SDL_Rect cr;
int x, y, startx, starty, maxx, maxy, tilesperrow;
cr = *r;
cr.x += pe->view.x;
cr.y += pe->view.y;
SDL_SetClipRect(pe->surface, &cr);
startx = r->x / pe->map->tw;
starty = r->y / pe->map->th;
maxx = (r->x + r->w + pe->map->tw - 1) / pe->map->tw;
maxy = (r->y + r->h + pe->map->th - 1) / pe->map->th;
if(maxx > pe->map->w - 1)
maxx = pe->map->w - 1;
if(maxy > pe->map->h - 1)
maxy = pe->map->h - 1;
tilesperrow = pe->map->tiles->w / pe->map->tw;
for(y = starty; y <= maxy; ++y)
for(x = startx; x <= maxx; ++x)
{
SDL_Rect from, to;
int c = pe->map->map[y * pe->map->w + x];
from.x = c % tilesperrow * pe->map->tw;
from.y = c / tilesperrow * pe->map->th;
from.w = pe->map->tw;
from.h = pe->map->th;
to.x = pe->view.x + x * pe->map->tw;
to.y = pe->view.y + y * pe->map->th;
SDL_BlitSurface(pe->map->tiles, &from,
pe->surface, &to);
}
}
void remove_sprites(PIG_engine *pe)
{
SDL_Rect r;
PIG_sprite *s;
PIG_object *po, *next;
/*
* Remove all objects, using the information that
* remains from the last frame. The actual removal
* is done by drawing over the sprites with tiles
* from the map.
*
* We assume that most objects don't overlap. If
* they do that a lot, we could use a "dirty map"
* to avoid rendering the same tiles multiple times
* in the overlapping areas.
*/
for(po = pe->objects; po; po = next)
{
next = po->next;
if((po->ip.gimage < 0) || (po->ip.gimage >= pe->nsprites))
continue;
s = pe->sprites[po->ip.gimage];
r.x = po->ip.gx - s->hotx;
r.y = po->ip.gy - s->hoty;
r.w = s->w;
r.h = s->h;
pig_intersectrect(&pe->view, &r);
if(r.w && r.h)
tile_area(pe, &r);
/*
* Delete dead objects *after* they've
* been removed from the rendering buffer!
*/
if(!po->id)
close_object(po);
}
}
void draw_sprites(PIG_engine *pe)
{
PIG_dirtytable *pdt;
PIG_sprite *s;
PIG_object *po;
float fframe = pe->time - floor(pe->time);
SDL_SetClipRect(pe->surface, &pe->view);
/* Swap the work and display/back page dirtytables */
pdt = pe->workdirty;
pe->workdirty = pe->pagedirty[pe->page];
pe->pagedirty[pe->page] = pdt;
/* Clear the display/back page dirtytable */
pdt->count = 0;
/* Update positions and render all objects */
po = pe->objects;
while(po)
{
/* Calculate graphic coordinates */
if(pe->interpolation)
{
po->ip.gx = po->ip.ox * (1 - fframe) + po->x * fframe;
po->ip.gy = po->ip.oy * (1 - fframe) + po->y * fframe;
}
else
{
po->ip.gx = po->x;
po->ip.gy = po->y;
}
po->ip.gimage = po->ibase + po->image;
/* Render the sprite! */
if((po->ip.gimage >= 0) && (po->ip.gimage < pe->nsprites))
{
SDL_Rect dr;
s = pe->sprites[po->ip.gimage];
dr.x = po->ip.gx - s->hotx + pe->view.x;
dr.y = po->ip.gy - s->hoty + pe->view.y;
SDL_BlitSurface(pe->sprites[po->ip.gimage]->surface,
NULL, pe->surface, &dr);
/*
* We use the clipped rect for the dirtyrect!
*/
if(dr.w && dr.h)
pig_dirty_add(pdt, &dr);
}
po = po->next;
}
/* Merge the display/back page table into the work table */
pig_dirty_merge(pe->workdirty, pdt);
}
void pig_refresh(PIG_engine *pe)
{
remove_sprites(pe);
draw_sprites(pe);
}
void pig_refresh_all(PIG_engine *pe)
{
tile_area(pe, &pe->view);
pig_dirty(pe, NULL);
draw_sprites(pe);
}
static void show_rects(PIG_engine *pe, PIG_dirtytable *pdt)
{
int i;
Uint32 color;
if(!pe->buffer)
{
pe->buffer = SDL_CreateRGBSurface(SDL_SWSURFACE,
pe->screen->w, pe->screen->h,
pe->screen->format->BitsPerPixel,
pe->screen->format->Rmask,
pe->screen->format->Gmask,
pe->screen->format->Bmask,
pe->screen->format->Amask);
if(!pe->buffer)
return;
pe->surface = pe->buffer;
tile_area(pe, &pe->view);
}
if(!pe->buffer)
return;
pe->direct = 0;
for(i = 0; i < pdt->count; ++i)
{
SDL_Rect r;
r = pdt->rects[i];
r.x -= 32;
r.y -= 32;
r.w += 64;
r.h += 64;
SDL_BlitSurface(pe->buffer, &r, pe->screen, &r);
}
color = SDL_MapRGB(pe->screen->format, 255, 0, 255);
for(i = 0; i < pdt->count; ++i)
{
SDL_Rect r;
r = pdt->rects[i];
r.h = 1;
SDL_FillRect(pe->screen, &r, color);
r.y += pdt->rects[i].h - 1;
SDL_FillRect(pe->screen, &r, color);
r = pdt->rects[i];
r.w = 1;
SDL_FillRect(pe->screen, &r, color);
r.x += pdt->rects[i].w - 1;
SDL_FillRect(pe->screen, &r, color);
}
}
void pig_flip(PIG_engine *pe)
{
PIG_dirtytable *pdt = pe->workdirty;
int i;
SDL_SetClipRect(pe->surface, NULL);
if(pe->show_dirtyrects)
{
show_rects(pe, pdt);
for(i = 0; i < pdt->count; ++i)
{
pdt->rects[i].x -= 32;
pdt->rects[i].y -= 32;
pdt->rects[i].w += 64;
pdt->rects[i].h += 64;
pig_intersectrect(&pe->buffer->clip_rect, &pdt->rects[i]);
}
}
else if(pe->surface == pe->buffer)
for(i = 0; i < pdt->count; ++i)
SDL_BlitSurface(pe->buffer, pdt->rects + i,
pe->screen, pdt->rects + i);
if((pe->screen->flags & SDL_HWSURFACE) == SDL_HWSURFACE)
{
SDL_Flip(pe->screen);
if(pe->pages > 1)
pe->page = 1 - pe->page;
}
else
SDL_UpdateRects(pe->screen, pdt->count, pdt->rects);
if(pe->direct)
pe->surface = pe->screen;
else
pe->surface = pe->buffer ? pe->buffer : pe->screen;
}
void pig_draw_sprite(PIG_engine *pe, int frame, int x, int y)
{
SDL_Rect dr;
if(frame >= pe->nsprites)
return;
dr.x = x - pe->sprites[frame]->hotx + pe->view.x;
dr.y = y - pe->sprites[frame]->hoty + pe->view.y;
SDL_BlitSurface(pe->sprites[frame]->surface, NULL,
pe->surface, &dr);
}
/*----------------------------------------------------------
Map
----------------------------------------------------------*/
PIG_map *pig_map_open(PIG_engine *pe, int w, int h)
{
if(pe->map)
pig_map_close(pe->map);
pe->map = (PIG_map *)calloc(1, sizeof(PIG_map));
if(!pe->map)
return NULL;
pe->map->owner = pe;
pe->map->w = w;
pe->map->h = h;
pe->map->hit = (unsigned char *)calloc(w, h);
if(!pe->map->hit)
{
pig_map_close(pe->map);
return NULL;
}
pe->map->map = (unsigned char *)calloc(w, h);
if(!pe->map->map)
{
pig_map_close(pe->map);
return NULL;
}
return pe->map;
}
void pig_map_close(PIG_map *pm)
{
PIG_engine *pe = pm->owner;
if(pm->tiles)
SDL_FreeSurface(pm->tiles);
free(pm->hit);
free(pm->map);
free(pe->map);
pe->map = NULL;
}
int pig_map_tiles(PIG_map *pm, const char *filename, int tw, int th)
{
SDL_Surface *tmp;
pm->tw = tw;
pm->th = th;
tmp = IMG_Load(filename);
if(!tmp)
{
fprintf(stderr, "Could not load '%s'!\n", filename);
return -1;
}
pm->tiles = SDL_DisplayFormat(tmp);
if(!pm->tiles)
{
fprintf(stderr, "Could not convert '%s'!\n", filename);
return -1;
}
SDL_FreeSurface(tmp);
return 0;
}
void pig_map_collisions(PIG_map *pm, unsigned first, unsigned count, PIG_sides sides)
{
int i;
if(first > 255)
return;
if(first + count > 255)
count = 255 - first;
for(i = first; i < first + count; ++i)
pm->hitinfo[i] = sides;
}
/*
* Load a map from a string (one byte/tile). 'trans'
* is a string used for translating 'data' into integer
* tile indices. Each position in 'trans' corresponds
* to one tile in the tile palette.
*/
int pig_map_from_string(PIG_map *pm, const char *trans, const char *data)
{
int x, y, z;
/* Load the map */
z = 0;
for(y = 0; y < pm->h; ++y)
for(x = 0; x < pm->w; ++x)
{
const char *f;
int c = data[z];
if(!c)
{
fprintf(stderr, "Map string too short!\n");
return -1;
}
f = strchr(trans, c);
if(!f)
{
fprintf(stderr, "Character '%c' not in"
" the translation string!\n",
c);
return -1;
}
pm->map[z] = f - trans;
++z;
}
/* Generate collision map */
for(y = 0; y < pm->h; ++y)
for(x = 0; x < pm->w; ++x)
pm->hit[y * pm->w + x] =
pm->hitinfo[pm->map[y * pm->w + x]];
return 0;
}
/*----------------------------------------------------------
Object
----------------------------------------------------------*/
static PIG_object *get_object(PIG_engine *pe)
{
PIG_object *po;
if(pe->object_pool)
{
po = pe->object_pool;
pe->object_pool = po->next;
memset(po, 0, sizeof(PIG_object));
}
else
{
po = (PIG_object *)calloc(1, sizeof(PIG_object));
if(!po)
return NULL;
}
po->id = ++pe->object_id_counter;
return po;
}
static void free_object(PIG_object *po)
{
po->prev = NULL;
po->next = po->owner->object_pool;
po->owner->object_pool = po;
po->id = 0;
}
PIG_object *pig_object_open(PIG_engine *pe, int x, int y, int last)
{
PIG_object *po = get_object(pe);
if(!po)
return NULL;
po->owner = pe;
po->tilemask = PIG_ALL;
po->hitmask = 0;
po->hitgroup = 0;
if(last && pe->objects)
{
PIG_object *lo = pe->objects;
while(lo->next)
lo = lo->next;
po->prev = lo;
po->next = NULL;
lo->next = po;
}
else
{
po->prev = NULL;
po->next = pe->objects;
if(po->next)
po->next->prev = po;
pe->objects = po;
}
po->x = x;
po->y = y;
po->ip.ox = x;
po->ip.oy = y;
return po;
}
static void close_object(PIG_object *po)
{
if(po == po->owner->objects)
po->owner->objects = po->next;
else if(po->prev)
po->prev->next = po->next;
if(po->next)
po->next->prev = po->prev;
free_object(po);
}
void pig_object_close(PIG_object *po)
{
if(!po->id)
fprintf(stderr, "Object %p closed more than once!\n", po);
po->id = 0; /* Mark for eventual removal and destruction */
}
void pig_object_close_all(PIG_engine *pe)
{
while(pe->objects)
close_object(pe->objects);
}
PIG_object *pig_object_find(PIG_object *start, int id)
{
PIG_object *pob, *pof;
if(start)
pob = pof = start;
else
{
pof = start->owner->objects;
while(pof)
{
if(pof->id == id)
return pof;
pof = pof->next;
}
return NULL;
}
while(1)
{
if(pob)
{
if(pob->id == id)
return pob;
pob = pob->prev;
}
if(pof)
{
if(pof->id == id)
return pof;
pof = pof->next;
}
else
if(!pob)
return NULL;
}
}