raze/polymer/build/src/sdlayer.c

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// SDL interface layer
// for the Build Engine
// by Jonathon Fowler (jonof@edgenetwk.com)
//
// Use SDL1.2 from http://www.libsdl.org
#include <stdlib.h>
#include <math.h>
#ifndef __APPLE__
# include "SDL.h"
#endif
#include "compat.h"
#include "sdlayer.h"
#include "cache1d.h"
#include "pragmas.h"
#include "a.h"
#include "build.h"
#include "osd.h"
#ifdef USE_OPENGL
# include "glbuild.h"
#endif
#if defined __APPLE__
# include <SDL/SDL.h>
# include "osxbits.h"
#elif defined HAVE_GTK2
# include "gtkbits.h"
#else
int startwin_open(void) { return 0; }
int startwin_close(void) { return 0; }
int startwin_puts(const char *s) { s=s; return 0; }
int startwin_idle(void *s) { return 0; }
int startwin_settitle(const char *s) { s=s; return 0; }
#endif
#define SURFACE_FLAGS (SDL_SWSURFACE|SDL_HWPALETTE|SDL_HWACCEL)
// undefine to restrict windowed resolutions to conventional sizes
#define ANY_WINDOWED_SIZE
// fix for mousewheel
#define MWHEELTICKS 10
static unsigned long mwheelup, mwheeldown;
int _buildargc = 1;
char **_buildargv = NULL;
extern long app_main(long argc, char *argv[]);
char quitevent=0, appactive=1;
// video
static SDL_Surface *sdl_surface;
long xres=-1, yres=-1, bpp=0, fullscreen=0, bytesperline, imageSize;
long frameplace=0, lockcount=0;
char modechange=1;
char offscreenrendering=0;
char videomodereset = 0;
char nofog=0;
static unsigned short sysgamma[3][256];
extern long curbrightness, gammabrightness;
#ifdef USE_OPENGL
// OpenGL stuff
static char nogl=0;
#endif
// input
char inputdevices=0;
char keystatus[256], keyfifo[KEYFIFOSIZ], keyfifoplc, keyfifoend;
unsigned char keyasciififo[KEYFIFOSIZ], keyasciififoplc, keyasciififoend;
static unsigned char keynames[256][24];
long mousex=0,mousey=0,mouseb=0;
long *joyaxis = NULL, joyb=0, *joyhat = NULL;
char joyisgamepad=0, joynumaxes=0, joynumbuttons=0, joynumhats=0;
long joyaxespresent=0;
void (*keypresscallback)(long,long) = 0;
void (*mousepresscallback)(long,long) = 0;
void (*joypresscallback)(long,long) = 0;
static unsigned char keytranslation[SDLK_LAST];
static int buildkeytranslationtable(void);
//static SDL_Surface * loadtarga(const char *fn); // for loading the icon
static SDL_Surface * loadappicon(void);
int wm_msgbox(char *name, char *fmt, ...)
{
char buf[2048];
va_list va;
va_start(va,fmt);
vsprintf(buf,fmt,va);
va_end(va);
#if defined(__APPLE__)
return osx_msgbox(name, buf);
#elif defined HAVE_GTK2
if (gtkbuild_msgbox(name, buf) >= 0) return 1;
#endif
puts(buf);
puts(" (press Return or Enter to continue)");
getchar();
return 0;
}
int wm_ynbox(char *name, char *fmt, ...)
{
char buf[2048];
char c;
va_list va;
int r;
va_start(va,fmt);
vsprintf(buf,fmt,va);
va_end(va);
#if defined __APPLE__
return osx_ynbox(name, buf);
#elif defined HAVE_GTK2
if ((r = gtkbuild_ynbox(name, buf)) >= 0) return r;
#endif
puts(buf);
puts(" (type 'Y' or 'N', and press Return or Enter to continue)");
do c = getchar(); while (c != 'Y' && c != 'y' && c != 'N' && c != 'n');
if (c == 'Y' || c == 'y') return 1;
return 0;
}
void wm_setapptitle(char *name)
{
if (name) {
Bstrncpy(apptitle, name, sizeof(apptitle)-1);
apptitle[ sizeof(apptitle)-1 ] = 0;
}
SDL_WM_SetCaption(apptitle, NULL);
startwin_settitle(apptitle);
}
//
//
// ---------------------------------------
//
// System
//
// ---------------------------------------
//
//
int main(int argc, char *argv[])
{
int r;
buildkeytranslationtable();
#ifdef HAVE_GTK2
gtkbuild_init(&argc, &argv);
#endif
startwin_open();
_buildargc = argc;
_buildargv = (char**)argv;
//_buildargv = (char**)malloc(argc * sizeof(char*));
//memcpy(_buildargv, argv, sizeof(char*)*argc);
baselayer_init();
r = app_main(argc, argv);
startwin_close();
#ifdef HAVE_GTK2
gtkbuild_exit(r);
#endif
return r;
}
//
// initsystem() -- init SDL systems
//
int initsystem(void)
{
const SDL_VideoInfo *vid;
const SDL_version *linked = SDL_Linked_Version();
SDL_version compiled;
char drvname[32];
SDL_VERSION(&compiled);
initprintf("Initialising SDL system interface "
"(compiled with SDL version %d.%d.%d, DLL version %d.%d.%d)\n",
linked->major, linked->minor, linked->patch,
compiled.major, compiled.minor, compiled.patch);
if (SDL_Init(SDL_INIT_VIDEO //| SDL_INIT_TIMER
#ifdef NOSDLPARACHUTE
| SDL_INIT_NOPARACHUTE
#endif
)) {
initprintf("Initialisation failed! (%s)\n", SDL_GetError());
return -1;
}
atexit(uninitsystem);
frameplace = 0;
lockcount = 0;
#ifdef USE_OPENGL
if (loadgldriver(getenv("BUILD_GLDRV"))) {
initprintf("Failed loading OpenGL driver. GL modes will be unavailable.\n");
nogl = 1;
}
#endif
#ifndef __APPLE__
{
SDL_Surface *icon;
//icon = loadtarga("icon.tga");
icon = loadappicon();
if (icon) {
SDL_WM_SetIcon(icon, 0);
SDL_FreeSurface(icon);
}
}
#endif
if (SDL_VideoDriverName(drvname, 32))
initprintf("Using \"%s\" video driver\n", drvname);
// dump a quick summary of the graphics hardware
#ifdef DEBUGGINGAIDS
vid = SDL_GetVideoInfo();
initprintf("Video device information:\n");
initprintf(" Can create hardware surfaces? %s\n", (vid->hw_available)?"Yes":"No");
initprintf(" Window manager available? %s\n", (vid->wm_available)?"Yes":"No");
initprintf(" Accelerated hardware blits? %s\n", (vid->blit_hw)?"Yes":"No");
initprintf(" Accelerated hardware colourkey blits? %s\n", (vid->blit_hw_CC)?"Yes":"No");
initprintf(" Accelerated hardware alpha blits? %s\n", (vid->blit_hw_A)?"Yes":"No");
initprintf(" Accelerated software blits? %s\n", (vid->blit_sw)?"Yes":"No");
initprintf(" Accelerated software colourkey blits? %s\n", (vid->blit_sw_CC)?"Yes":"No");
initprintf(" Accelerated software alpha blits? %s\n", (vid->blit_sw_A)?"Yes":"No");
initprintf(" Accelerated colour fills? %s\n", (vid->blit_fill)?"Yes":"No");
initprintf(" Total video memory: %dKB\n", vid->video_mem);
#endif
return 0;
}
//
// uninitsystem() -- uninit SDL systems
//
void uninitsystem(void)
{
uninitinput();
uninitmouse();
uninittimer();
SDL_Quit();
#ifdef USE_OPENGL
unloadgldriver();
#endif
}
//
// initprintf() -- prints a string to the intitialization window
//
void initprintf(const char *f, ...)
{
va_list va;
char buf[1024];
va_start(va, f);
vprintf(f,va);
va_end(va);
va_start(va, f);
Bvsnprintf(buf, 1024, f, va);
va_end(va);
OSD_Printf(buf);
startwin_puts(buf);
startwin_idle(NULL);
}
//
// debugprintf() -- prints a debug string to stderr
//
void debugprintf(const char *f, ...)
{
#ifdef DEBUGGINGAIDS
va_list va;
va_start(va,f);
Bvfprintf(stderr, f, va);
va_end(va);
#endif
}
//
//
// ---------------------------------------
//
// All things Input
//
// ---------------------------------------
//
//
static char mouseacquired=0,moustat=0;
static long joyblast=0;
static SDL_Joystick *joydev = NULL;
//
// initinput() -- init input system
//
int initinput(void)
{
int i,j;
#ifdef __APPLE__
// force OS X to operate in >1 button mouse mode so that LMB isn't adulterated
if (!getenv("SDL_HAS3BUTTONMOUSE")) putenv("SDL_HAS3BUTTONMOUSE=1");
#endif
if (SDL_EnableKeyRepeat(250, 30)) initprintf("Error enabling keyboard repeat.\n");
inputdevices = 1|2; // keyboard (1) and mouse (2)
mouseacquired = 0;
SDL_EnableUNICODE(1); // let's hope this doesn't hit us too hard
memset(keynames,0,sizeof(keynames));
for (i=0; i<SDLK_LAST; i++) {
if (!keytranslation[i]) continue;
strncpy((char *)keynames[ keytranslation[i] ], SDL_GetKeyName(i), sizeof(keynames[i])-1);
}
if (!SDL_InitSubSystem(SDL_INIT_JOYSTICK)) {
i = SDL_NumJoysticks();
initprintf("%d joystick(s) found\n",i);
for (j=0;j<i;j++) initprintf(" %d. %s\n", j+1, SDL_JoystickName(j));
joydev = SDL_JoystickOpen(0);
if (joydev) {
SDL_JoystickEventState(SDL_ENABLE);
inputdevices |= 4;
joynumaxes = SDL_JoystickNumAxes(joydev);
joynumbuttons = min(32,SDL_JoystickNumButtons(joydev));
joynumhats = SDL_JoystickNumHats(joydev);
initprintf("Joystick 1 has %d axes, %d buttons, and %d hat(s).\n",
joynumaxes,joynumbuttons,joynumhats);
joyaxis = (long *)Bcalloc(joynumaxes, sizeof(long));
joyhat = (long *)Bcalloc(joynumhats, sizeof(long));
}
}
return 0;
}
//
// uninitinput() -- uninit input system
//
void uninitinput(void)
{
uninitmouse();
if (joydev) {
SDL_JoystickClose(joydev);
joydev = NULL;
}
}
const unsigned char *getkeyname(int num)
{
if ((unsigned)num >= 256) return NULL;
return keynames[num];
}
const unsigned char *getjoyname(int what, int num)
{
static char tmp[64];
switch (what) {
case 0: // axis
if ((unsigned)num > (unsigned)joynumaxes) return NULL;
sprintf(tmp,"Axis %d",num);
return (unsigned char *)tmp;
case 1: // button
if ((unsigned)num > (unsigned)joynumbuttons) return NULL;
sprintf(tmp,"Button %d",num);
return (unsigned char *)tmp;
case 2: // hat
if ((unsigned)num > (unsigned)joynumhats) return NULL;
sprintf(tmp,"Hat %d",num);
return (unsigned char *)tmp;
default:
return NULL;
}
}
//
// bgetchar, bkbhit, bflushchars -- character-based input functions
//
unsigned char bgetchar(void)
{
unsigned char c;
if (keyasciififoplc == keyasciififoend) return 0;
c = keyasciififo[keyasciififoplc];
keyasciififoplc = ((keyasciififoplc+1)&(KEYFIFOSIZ-1));
return c;
}
int bkbhit(void)
{
return (keyasciififoplc != keyasciififoend);
}
void bflushchars(void)
{
keyasciififoplc = keyasciififoend = 0;
}
//
// set{key|mouse|joy}presscallback() -- sets a callback which gets notified when keys are pressed
//
void setkeypresscallback(void (*callback)(long, long)) { keypresscallback = callback; }
void setmousepresscallback(void (*callback)(long, long)) { mousepresscallback = callback; }
void setjoypresscallback(void (*callback)(long, long)) { joypresscallback = callback; }
//
// initmouse() -- init mouse input
//
int initmouse(void)
{
moustat=1;
grabmouse(1);
return 0;
}
//
// uninitmouse() -- uninit mouse input
//
void uninitmouse(void)
{
grabmouse(0);
moustat=0;
}
//
// grabmouse() -- show/hide mouse cursor
//
void grabmouse(char a)
{
if (appactive && moustat) {
if (a != mouseacquired) {
#ifndef DEBUGGINGAIDS
SDL_GrabMode g;
g = SDL_WM_GrabInput( a ? SDL_GRAB_ON : SDL_GRAB_OFF );
mouseacquired = (g == SDL_GRAB_ON);
SDL_ShowCursor(mouseacquired ? SDL_DISABLE : SDL_ENABLE);
#else
mouseacquired = a;
#endif
}
} else {
mouseacquired = a;
}
mousex = mousey = 0;
}
//
// readmousexy() -- return mouse motion information
//
void readmousexy(long *x, long *y)
{
if (!mouseacquired || !appactive || !moustat) { *x = *y = 0; return; }
*x = mousex;
*y = mousey;
mousex = mousey = 0;
}
//
// readmousebstatus() -- return mouse button information
//
void readmousebstatus(long *b)
{
if (!mouseacquired || !appactive || !moustat) *b = 0;
else *b = mouseb;
}
//
// setjoydeadzone() -- sets the dead and saturation zones for the joystick
//
void setjoydeadzone(int axis, unsigned short dead, unsigned short satur)
{
}
//
// getjoydeadzone() -- gets the dead and saturation zones for the joystick
//
void getjoydeadzone(int axis, unsigned short *dead, unsigned short *satur)
{
*dead = *satur = 0;
}
//
// releaseallbuttons()
//
void releaseallbuttons(void)
{
}
//
//
// ---------------------------------------
//
// All things Timer
// Ken did this
//
// ---------------------------------------
//
//
static Uint32 timerfreq=0;
static Uint32 timerlastsample=0;
Uint32 timerticspersec=0;
static void (*usertimercallback)(void) = NULL;
//
// inittimer() -- initialise timer
//
int inittimer(int tickspersecond)
{
if (timerfreq) return 0; // already installed
// initprintf("Initialising timer\n");
timerfreq = 1000;
timerticspersec = tickspersecond;
timerlastsample = SDL_GetTicks() * timerticspersec / timerfreq;
usertimercallback = NULL;
return 0;
}
//
// uninittimer() -- shut down timer
//
void uninittimer(void)
{
if (!timerfreq) return;
timerfreq=0;
}
//
// sampletimer() -- update totalclock
//
void sampletimer(void)
{
Uint32 i;
long n;
if (!timerfreq) return;
i = SDL_GetTicks();
n = (long)(i * timerticspersec / timerfreq) - timerlastsample;
if (n>0) {
totalclock += n;
timerlastsample += n;
}
if (usertimercallback) for (; n>0; n--) usertimercallback();
}
//
// getticks() -- returns the sdl ticks count
//
unsigned long getticks(void)
{
return (unsigned long)SDL_GetTicks();
}
//
// gettimerfreq() -- returns the number of ticks per second the timer is configured to generate
//
int gettimerfreq(void)
{
return timerticspersec;
}
//
// installusertimercallback() -- set up a callback function to be called when the timer is fired
//
void (*installusertimercallback(void (*callback)(void)))(void)
{
void (*oldtimercallback)(void);
oldtimercallback = usertimercallback;
usertimercallback = callback;
return oldtimercallback;
}
//
//
// ---------------------------------------
//
// All things Video
//
// ---------------------------------------
//
//
//
// getvalidmodes() -- figure out what video modes are available
//
static int sortmodes(const struct validmode_t *a, const struct validmode_t *b)
{
int x;
if ((x = a->fs - b->fs) != 0) return x;
if ((x = a->bpp - b->bpp) != 0) return x;
if ((x = a->xdim - b->xdim) != 0) return x;
if ((x = a->ydim - b->ydim) != 0) return x;
return 0;
}
static char modeschecked=0;
void getvalidmodes(void)
{
static int cdepths[] = {
8,
#ifdef USE_OPENGL
16,24,32,
#endif
0 };
static int defaultres[][2] = {
{1280,1024},{1280,960},{1152,864},{1024,768},{800,600},{640,480},
{640,400},{512,384},{480,360},{400,300},{320,240},{320,200},{0,0}
};
SDL_Rect **modes;
SDL_PixelFormat pf = { NULL, 8, 1, 0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0 };
int i, j, maxx=0, maxy=0;
if (modeschecked) return;
validmodecnt=0;
initprintf("Detecting video modes:\n");
#define ADDMODE(x,y,c,f) if (validmodecnt<MAXVALIDMODES) { \
int mn; \
for(mn=0;mn<validmodecnt;mn++) \
if (validmode[mn].xdim==x && validmode[mn].ydim==y && \
validmode[mn].bpp==c && validmode[mn].fs==f) break; \
if (mn==validmodecnt) { \
validmode[validmodecnt].xdim=x; \
validmode[validmodecnt].ydim=y; \
validmode[validmodecnt].bpp=c; \
validmode[validmodecnt].fs=f; \
validmodecnt++; \
initprintf(" - %dx%d %d-bit %s\n", x, y, c, (f&1)?"fullscreen":"windowed"); \
} \
}
#define CHECK(w,h) if ((w < maxx) && (h < maxy))
// do fullscreen modes first
for (j=0; cdepths[j]; j++) {
#ifdef USE_OPENGL
if (nogl && cdepths[j] > 8) continue;
#endif
pf.BitsPerPixel = cdepths[j];
pf.BytesPerPixel = cdepths[j] >> 3;
modes = SDL_ListModes(&pf, SURFACE_FLAGS | SDL_FULLSCREEN);
if (modes == (SDL_Rect **)0) {
if (cdepths[j] > 8) cdepths[j] = -1;
continue;
}
if (modes == (SDL_Rect **)-1) {
for (i=0; defaultres[i][0]; i++)
ADDMODE(defaultres[i][0],defaultres[i][1],cdepths[j],1)
} else {
for (i=0; modes[i]; i++) {
if ((modes[i]->w > MAXXDIM) || (modes[i]->h > MAXYDIM)) continue;
ADDMODE(modes[i]->w, modes[i]->h, cdepths[j], 1)
if ((modes[i]->w > maxx) && (modes[i]->h > maxy)) {
maxx = modes[i]->w;
maxy = modes[i]->h;
}
}
}
}
if (maxx == 0 && maxy == 0) {
initprintf("No fullscreen modes available!\n");
maxx = MAXXDIM; maxy = MAXYDIM;
}
// add windowed modes next
for (j=0; cdepths[j]; j++) {
#ifdef USE_OPENGL
if (nogl && cdepths[j] > 8) continue;
#endif
if (cdepths[j] < 0) continue;
for (i=0; defaultres[i][0]; i++)
CHECK(defaultres[i][0],defaultres[i][1])
ADDMODE(defaultres[i][0],defaultres[i][1],cdepths[j],0)
}
#undef CHECK
#undef ADDMODE
qsort((void*)validmode, validmodecnt, sizeof(struct validmode_t), (int(*)(const void*,const void*))sortmodes);
modeschecked=1;
}
//
// checkvideomode() -- makes sure the video mode passed is legal
//
int checkvideomode(int *x, int *y, int c, int fs, int forced)
{
int i, nearest=-1, dx, dy, odx=9999, ody=9999;
getvalidmodes();
if (c>8
#ifdef USE_OPENGL
&& nogl
#endif
) return -1;
// fix up the passed resolution values to be multiples of 8
// and at least 320x200 or at most MAXXDIMxMAXYDIM
if (*x < 320) *x = 320;
if (*y < 200) *y = 200;
if (*x > MAXXDIM) *x = MAXXDIM;
if (*y > MAXYDIM) *y = MAXYDIM;
*x &= 0xfffffff8l;
for (i=0; i<validmodecnt; i++) {
if (validmode[i].bpp != c) continue;
if (validmode[i].fs != fs) continue;
dx = klabs(validmode[i].xdim - *x);
dy = klabs(validmode[i].ydim - *y);
if (!(dx | dy)) { // perfect match
nearest = i;
break;
}
if ((dx <= odx) && (dy <= ody)) {
nearest = i;
odx = dx; ody = dy;
}
}
#ifdef ANY_WINDOWED_SIZE
if (!forced && (fs&1) == 0 && (nearest < 0 || (validmode[nearest].xdim!=*x || validmode[nearest].ydim!=*y)))
return 0x7fffffffl;
#endif
if (nearest < 0) {
// no mode that will match (eg. if no fullscreen modes)
return -1;
}
*x = validmode[nearest].xdim;
*y = validmode[nearest].ydim;
return nearest; // JBF 20031206: Returns the mode number
}
//
// setvideomode() -- set SDL video mode
//
int setvideomode(int x, int y, int c, int fs)
{
int modenum, regrab = 0;
static int warnonce = 0;
if ((fs == fullscreen) && (x == xres) && (y == yres) && (c == bpp) &&
!videomodereset) {
OSD_ResizeDisplay(xres,yres);
return 0;
}
if (checkvideomode(&x,&y,c,fs,0) < 0) return -1;
startwin_close();
if (mouseacquired) {
regrab = 1;
grabmouse(0);
}
if (lockcount) while (lockcount) enddrawing();
#if defined(USE_OPENGL)
if (bpp > 8 && sdl_surface) polymost_glreset();
#endif
// restore gamma before we change video modes if it was changed
if (sdl_surface && gammabrightness) {
SDL_SetGammaRamp(sysgamma[0], sysgamma[1], sysgamma[2]);
gammabrightness = 0; // redetect on next mode switch
}
#if defined(USE_OPENGL)
if (c > 8) {
int i, j, multisamplecheck = (glmultisample > 0);
struct {
SDL_GLattr attr;
int value;
} attributes[] = {
#if 0
{ SDL_GL_RED_SIZE, 8 },
{ SDL_GL_GREEN_SIZE, 8 },
{ SDL_GL_BLUE_SIZE, 8 },
{ SDL_GL_ALPHA_SIZE, 8 },
{ SDL_GL_BUFFER_SIZE, c },
{ SDL_GL_STENCIL_SIZE, 0 },
{ SDL_GL_ACCUM_RED_SIZE, 0 },
{ SDL_GL_ACCUM_GREEN_SIZE, 0 },
{ SDL_GL_ACCUM_BLUE_SIZE, 0 },
{ SDL_GL_ACCUM_ALPHA_SIZE, 0 },
{ SDL_GL_DEPTH_SIZE, 24 },
#endif
{ SDL_GL_DOUBLEBUFFER, 1 },
{ SDL_GL_MULTISAMPLEBUFFERS, glmultisample > 0 },
{ SDL_GL_MULTISAMPLESAMPLES, glmultisample },
};
if (nogl) return -1;
initprintf("Setting video mode %dx%d (%d-bpp %s)\n",
x,y,c, ((fs&1) ? "fullscreen" : "windowed"));
do {
for (i=0; i < (int)(sizeof(attributes)/sizeof(attributes[0])); i++) {
j = attributes[i].value;
if (!multisamplecheck &&
(attributes[i].attr == SDL_GL_MULTISAMPLEBUFFERS ||
attributes[i].attr == SDL_GL_MULTISAMPLESAMPLES)
) {
j = 0;
}
SDL_GL_SetAttribute(attributes[i].attr, j);
}
sdl_surface = SDL_SetVideoMode(x, y, c, SDL_OPENGL | ((fs&1)?SDL_FULLSCREEN:0));
if (!sdl_surface) {
if (multisamplecheck) {
initprintf("Multisample mode not possible. Retrying without multisampling.\n");
glmultisample = 0;
continue;
}
initprintf("Unable to set video mode!\n");
return -1;
}
} while (multisamplecheck--);
} else
#endif
{
initprintf("Setting video mode %dx%d (%d-bpp %s)\n",
x,y,c, ((fs&1) ? "fullscreen" : "windowed"));
sdl_surface = SDL_SetVideoMode(x, y, c, SURFACE_FLAGS | ((fs&1)?SDL_FULLSCREEN:0));
if (!sdl_surface) {
initprintf("Unable to set video mode!\n");
return -1;
}
}
#if 0
{
char flags[512] = "";
#define FLAG(x,y) if ((sdl_surface->flags & x) == x) { strcat(flags, y); strcat(flags, " "); }
FLAG(SDL_HWSURFACE, "HWSURFACE") else
FLAG(SDL_SWSURFACE, "SWSURFACE")
FLAG(SDL_ASYNCBLIT, "ASYNCBLIT")
FLAG(SDL_ANYFORMAT, "ANYFORMAT")
FLAG(SDL_HWPALETTE, "HWPALETTE")
FLAG(SDL_DOUBLEBUF, "DOUBLEBUF")
FLAG(SDL_FULLSCREEN, "FULLSCREEN")
FLAG(SDL_OPENGL, "OPENGL")
FLAG(SDL_OPENGLBLIT, "OPENGLBLIT")
FLAG(SDL_RESIZABLE, "RESIZABLE")
FLAG(SDL_HWACCEL, "HWACCEL")
FLAG(SDL_SRCCOLORKEY, "SRCCOLORKEY")
FLAG(SDL_RLEACCEL, "RLEACCEL")
FLAG(SDL_SRCALPHA, "SRCALPHA")
FLAG(SDL_PREALLOC, "PREALLOC")
#undef FLAG
initprintf("SDL Surface flags: %s\n", flags);
}
#endif
{
//static char t[384];
//sprintf(t, "%s (%dx%d %s)", apptitle, x, y, ((fs) ? "fullscreen" : "windowed"));
SDL_WM_SetCaption(apptitle, 0);
}
#ifdef USE_OPENGL
if (c > 8) {
char *p,*p2,*p3;
int i;
polymost_glreset();
bglEnable(GL_TEXTURE_2D);
bglShadeModel(GL_SMOOTH); //GL_FLAT
bglClearColor(0,0,0,0.5); //Black Background
bglHint(GL_PERSPECTIVE_CORRECTION_HINT,GL_NICEST); //Use FASTEST for ortho!
bglHint(GL_LINE_SMOOTH_HINT,GL_NICEST);
bglDisable(GL_DITHER);
glinfo.vendor = (const char *)bglGetString(GL_VENDOR);
glinfo.renderer = (const char *)bglGetString(GL_RENDERER);
glinfo.version = (const char *)bglGetString(GL_VERSION);
glinfo.extensions = (const char *)bglGetString(GL_EXTENSIONS);
glinfo.maxanisotropy = 1.0;
glinfo.bgra = 0;
glinfo.texcompr = 0;
// process the extensions string and flag stuff we recognize
p = Bstrdup(glinfo.extensions);
p3 = p;
while ((p2 = Bstrtoken(p3==p?p:NULL, " ", (char**)&p3, 1)) != NULL) {
if (!Bstrcmp(p2, "GL_EXT_texture_filter_anisotropic")) {
// supports anisotropy. get the maximum anisotropy level
bglGetFloatv(GL_MAX_TEXTURE_MAX_ANISOTROPY_EXT, &glinfo.maxanisotropy);
} else if (!Bstrcmp(p2, "GL_EXT_texture_edge_clamp") ||
!Bstrcmp(p2, "GL_SGIS_texture_edge_clamp")) {
// supports GL_CLAMP_TO_EDGE or GL_CLAMP_TO_EDGE_SGIS
glinfo.clamptoedge = 1;
} else if (!Bstrcmp(p2, "GL_EXT_bgra")) {
// support bgra textures
glinfo.bgra = 1;
} else if (!Bstrcmp(p2, "GL_ARB_texture_compression")) {
// support texture compression
glinfo.texcompr = 1;
} else if (!Bstrcmp(p2, "GL_ARB_texture_non_power_of_two")) {
// support non-power-of-two texture sizes
glinfo.texnpot = 1;
} else if (!Bstrcmp(p2, "WGL_3DFX_gamma_control")) {
// 3dfx cards have issues with fog
nofog = 1;
if (!(warnonce&1)) initprintf("3dfx card detected: OpenGL fog disabled\n");
warnonce |= 1;
} else if (!Bstrcmp(p2, "GL_ARB_multisample")) {
// supports multisampling
glinfo.multisample = 1;
} else if (!Bstrcmp(p2, "GL_NV_multisample_filter_hint")) {
// supports nvidia's multisample hint extension
glinfo.nvmultisamplehint = 1;
}
}
Bfree(p);
}
#endif
xres = x;
yres = y;
bpp = c;
fullscreen = fs;
//bytesperline = sdl_surface->pitch;
//imageSize = bytesperline*yres;
numpages = c>8?2:1;
frameplace = 0;
lockcount = 0;
modechange=1;
videomodereset = 0;
OSD_ResizeDisplay(xres,yres);
// save the current system gamma to determine if gamma is available
if (!gammabrightness) {
float f = 1.0 + ((float)curbrightness / 10.0);
if (SDL_GetGammaRamp(sysgamma[0], sysgamma[1], sysgamma[2]) >= 0)
gammabrightness = 1;
// see if gamma really is working by trying to set the brightness
if (gammabrightness && SDL_SetGamma(f,f,f) < 0)
gammabrightness = 0; // nope
}
// setpalettefade will set the palette according to whether gamma worked
setpalettefade(palfadergb.r, palfadergb.g, palfadergb.b, palfadedelta);
//if (c==8) setpalette(0,256,0);
//baselayer_onvideomodechange(c>8);
if (regrab) grabmouse(1);
return 0;
}
//
// resetvideomode() -- resets the video system
//
void resetvideomode(void)
{
videomodereset = 1;
modeschecked = 0;
}
//
// begindrawing() -- locks the framebuffer for drawing
//
void begindrawing(void)
{
long i,j;
if (bpp > 8) {
if (offscreenrendering) return;
frameplace = 0;
bytesperline = 0;
imageSize = 0;
modechange = 0;
return;
}
// lock the frame
if (lockcount++ > 0)
return;
if (offscreenrendering) return;
if (SDL_MUSTLOCK(sdl_surface)) SDL_LockSurface(sdl_surface);
frameplace = (long)sdl_surface->pixels;
if (sdl_surface->pitch != bytesperline || modechange) {
bytesperline = sdl_surface->pitch;
imageSize = bytesperline*yres;
setvlinebpl(bytesperline);
j = 0;
for(i=0;i<=ydim;i++) ylookup[i] = j, j += bytesperline;
modechange=0;
}
}
//
// enddrawing() -- unlocks the framebuffer
//
void enddrawing(void)
{
if (bpp > 8) {
if (!offscreenrendering) frameplace = 0;
return;
}
if (!frameplace) return;
if (lockcount > 1) { lockcount--; return; }
if (!offscreenrendering) frameplace = 0;
if (lockcount == 0) return;
lockcount = 0;
if (offscreenrendering) return;
if (SDL_MUSTLOCK(sdl_surface)) SDL_UnlockSurface(sdl_surface);
}
//
// showframe() -- update the display
//
void showframe(int w)
{
long i,j;
#ifdef USE_OPENGL
if (bpp > 8) {
if (palfadedelta) {
bglMatrixMode(GL_PROJECTION);
bglPushMatrix();
bglLoadIdentity();
bglMatrixMode(GL_MODELVIEW);
bglPushMatrix();
bglLoadIdentity();
bglDisable(GL_DEPTH_TEST);
bglDisable(GL_ALPHA_TEST);
bglDisable(GL_TEXTURE_2D);
bglEnable(GL_BLEND);
bglColor4ub(palfadergb.r, palfadergb.g, palfadergb.b, palfadedelta);
bglBegin(GL_QUADS);
bglVertex2i(-1, -1);
bglVertex2i(1, -1);
bglVertex2i(1, 1);
bglVertex2i(-1, 1);
bglEnd();
bglMatrixMode(GL_MODELVIEW);
bglPopMatrix();
bglMatrixMode(GL_PROJECTION);
bglPopMatrix();
}
SDL_GL_SwapBuffers();
return;
}
#endif
if (offscreenrendering) return;
if (lockcount) {
printf("Frame still locked %ld times when showframe() called.\n", lockcount);
while (lockcount) enddrawing();
}
SDL_Flip(sdl_surface);
}
//
// setpalette() -- set palette values
//
int setpalette(int start, int num, char *dapal)
{
SDL_Color pal[256];
int i,n;
if (bpp > 8) return 0; // no palette in opengl
copybuf(curpalettefaded, pal, 256);
for (i=start, n=num; n>0; i++, n--) {
/*
pal[i].b = dapal[0] << 2;
pal[i].g = dapal[1] << 2;
pal[i].r = dapal[2] << 2;
*/
curpalettefaded[i].f = pal[i].unused = 0;
dapal += 4;
}
//return SDL_SetPalette(sdl_surface, SDL_LOGPAL|SDL_PHYSPAL, pal, 0, 256);
return SDL_SetColors(sdl_surface, pal, 0, 256);
}
//
// getpalette() -- get palette values
//
/*
int getpalette(int start, int num, char *dapal)
{
int i;
SDL_Palette *pal;
// we shouldn't need to lock the surface to get the palette
pal = sdl_surface->format->palette;
for (i=num; i>0; i--, start++) {
dapal[0] = pal->colors[start].b >> 2;
dapal[1] = pal->colors[start].g >> 2;
dapal[2] = pal->colors[start].r >> 2;
dapal += 4;
}
return 1;
}
*/
//
// setgamma
//
int setgamma(float ro, float go, float bo)
{
return SDL_SetGamma(ro,go,bo);
}
#ifndef __APPLE__
extern struct sdlappicon sdlappicon;
static SDL_Surface * loadappicon(void)
{
SDL_Surface *surf;
surf = SDL_CreateRGBSurfaceFrom((void*)sdlappicon.pixels,
sdlappicon.width, sdlappicon.height, 32, sdlappicon.width*4,
0xffl,0xff00l,0xff0000l,0xff000000l);
return surf;
}
#endif
//
//
// ---------------------------------------
//
// Miscellany
//
// ---------------------------------------
//
//
//
// handleevents() -- process the SDL message queue
// returns !0 if there was an important event worth checking (like quitting)
//
int handleevents(void)
{
int code, rv=0, j;
SDL_Event ev;
#define SetKey(key,state) { \
keystatus[key] = state; \
if (state) { \
keyfifo[keyfifoend] = key; \
keyfifo[(keyfifoend+1)&(KEYFIFOSIZ-1)] = state; \
keyfifoend = ((keyfifoend+2)&(KEYFIFOSIZ-1)); \
} \
}
while (SDL_PollEvent(&ev)) {
switch (ev.type) {
case SDL_KEYDOWN:
case SDL_KEYUP:
code = keytranslation[ev.key.keysym.sym];
if (ev.key.keysym.unicode != 0 && ev.key.type == SDL_KEYDOWN &&
(ev.key.keysym.unicode & 0xff80) == 0 &&
((keyasciififoend+1)&(KEYFIFOSIZ-1)) != keyasciififoplc) {
keyasciififo[keyasciififoend] = ev.key.keysym.unicode & 0x7f;
keyasciififoend = ((keyasciififoend+1)&(KEYFIFOSIZ-1));
}
// hook in the osd
if (OSD_HandleKey(code, (ev.key.type == SDL_KEYDOWN)) == 0)
break;
if (ev.key.type == SDL_KEYDOWN) {
if (!keystatus[code]) {
SetKey(code, 1);
if (keypresscallback)
keypresscallback(code, 1);
}
} else {
SetKey(code, 0);
if (keypresscallback)
keypresscallback(code, 0);
}
break;
case SDL_ACTIVEEVENT:
if (ev.active.state & SDL_APPINPUTFOCUS) {
appactive = ev.active.gain;
if (mouseacquired && moustat) {
if (appactive) {
SDL_WM_GrabInput(SDL_GRAB_ON);
SDL_ShowCursor(SDL_DISABLE);
} else {
SDL_WM_GrabInput(SDL_GRAB_OFF);
SDL_ShowCursor(SDL_ENABLE);
}
}
rv=-1;
}
break;
case SDL_MOUSEBUTTONDOWN:
case SDL_MOUSEBUTTONUP:
switch (ev.button.button) {
case SDL_BUTTON_LEFT: j = 0; break;
case SDL_BUTTON_RIGHT: j = 1; break;
case SDL_BUTTON_MIDDLE: j = 2; break;
default: j = ev.button.button; break;
}
if (j<0) break;
if (ev.button.state == SDL_PRESSED) {
if (ev.button.button == SDL_BUTTON_WHEELUP) {
mwheelup = totalclock;
}
if (ev.button.button == SDL_BUTTON_WHEELDOWN) {
mwheeldown = totalclock;
}
mouseb |= (1<<j);
}
else {
if (j < 4) mouseb &= ~(1<<j);
}
if (mousepresscallback)
mousepresscallback(j+1, ev.button.state == SDL_PRESSED);
break;
case SDL_MOUSEMOTION:
if (appactive) {
mousex += ev.motion.xrel;
mousey += ev.motion.yrel;
}
break;
case SDL_JOYAXISMOTION:
if (appactive && ev.jaxis.axis < joynumaxes)
joyaxis[ ev.jaxis.axis ] = ev.jaxis.value * 10000 / 32767;
break;
case SDL_JOYHATMOTION: {
int hatvals[16] = {
-1, // centre
0, // up 1
9000, // right 2
4500, // up+right 3
18000, // down 4
-1, // down+up!! 5
13500, // down+right 6
-1, // down+right+up!! 7
27000, // left 8
27500, // left+up 9
-1, // left+right!! 10
-1, // left+right+up!! 11
22500, // left+down 12
-1, // left+down+up!! 13
-1, // left+down+right!! 14
-1, // left+down+right+up!! 15
};
if (appactive && ev.jhat.hat < joynumhats)
joyhat[ ev.jhat.hat ] = hatvals[ ev.jhat.value & 15 ];
break;
}
case SDL_JOYBUTTONDOWN:
case SDL_JOYBUTTONUP:
if (appactive && ev.jbutton.button < joynumbuttons) {
if (ev.jbutton.state == SDL_PRESSED)
joyb |= 1 << ev.jbutton.button;
else
joyb &= ~(1 << ev.jbutton.button);
}
break;
case SDL_QUIT:
quitevent = 1;
rv=-1;
break;
default:
//printOSD("Got event (%d)\n", ev.type);
break;
}
}
sampletimer();
if (moustat) {
if ((mwheelup) && (mwheelup <= (totalclock - MWHEELTICKS))) {
mouseb &= ~16;
mwheelup = 0;
}
if ((mwheeldown) && (mwheeldown <= (totalclock - MWHEELTICKS))) {
mouseb &= ~32;
mwheeldown = 0;
}
}
startwin_idle(NULL);
#undef SetKey
return rv;
}
static int buildkeytranslationtable(void)
{
memset(keytranslation,0,sizeof(keytranslation));
#define MAP(x,y) keytranslation[x] = y
MAP(SDLK_BACKSPACE, 0xe);
MAP(SDLK_TAB, 0xf);
MAP(SDLK_RETURN, 0x1c);
MAP(SDLK_PAUSE, 0x59); // 0x1d + 0x45 + 0x9d + 0xc5
MAP(SDLK_ESCAPE, 0x1);
MAP(SDLK_SPACE, 0x39);
MAP(SDLK_EXCLAIM, 0x2); // '1'
MAP(SDLK_QUOTEDBL, 0x28); // '''
MAP(SDLK_HASH, 0x4); // '3'
MAP(SDLK_DOLLAR, 0x5); // '4'
MAP(37, 0x6); // '5' <-- where's the keysym SDL guys?
MAP(SDLK_AMPERSAND, 0x8); // '7'
MAP(SDLK_QUOTE, 0x28); // '''
MAP(SDLK_LEFTPAREN, 0xa); // '9'
MAP(SDLK_RIGHTPAREN, 0xb); // '0'
MAP(SDLK_ASTERISK, 0x9); // '8'
MAP(SDLK_PLUS, 0xd); // '='
MAP(SDLK_COMMA, 0x33);
MAP(SDLK_MINUS, 0xc);
MAP(SDLK_PERIOD, 0x34);
MAP(SDLK_SLASH, 0x35);
MAP(SDLK_0, 0xb);
MAP(SDLK_1, 0x2);
MAP(SDLK_2, 0x3);
MAP(SDLK_3, 0x4);
MAP(SDLK_4, 0x5);
MAP(SDLK_5, 0x6);
MAP(SDLK_6, 0x7);
MAP(SDLK_7, 0x8);
MAP(SDLK_8, 0x9);
MAP(SDLK_9, 0xa);
MAP(SDLK_COLON, 0x27);
MAP(SDLK_SEMICOLON, 0x27);
MAP(SDLK_LESS, 0x33);
MAP(SDLK_EQUALS, 0xd);
MAP(SDLK_GREATER, 0x34);
MAP(SDLK_QUESTION, 0x35);
MAP(SDLK_AT, 0x3); // '2'
MAP(SDLK_LEFTBRACKET, 0x1a);
MAP(SDLK_BACKSLASH, 0x2b);
MAP(SDLK_RIGHTBRACKET, 0x1b);
MAP(SDLK_CARET, 0x7); // '7'
MAP(SDLK_UNDERSCORE, 0xc);
MAP(SDLK_BACKQUOTE, 0x29);
MAP(SDLK_a, 0x1e);
MAP(SDLK_b, 0x30);
MAP(SDLK_c, 0x2e);
MAP(SDLK_d, 0x20);
MAP(SDLK_e, 0x12);
MAP(SDLK_f, 0x21);
MAP(SDLK_g, 0x22);
MAP(SDLK_h, 0x23);
MAP(SDLK_i, 0x17);
MAP(SDLK_j, 0x24);
MAP(SDLK_k, 0x25);
MAP(SDLK_l, 0x26);
MAP(SDLK_m, 0x32);
MAP(SDLK_n, 0x31);
MAP(SDLK_o, 0x18);
MAP(SDLK_p, 0x19);
MAP(SDLK_q, 0x10);
MAP(SDLK_r, 0x13);
MAP(SDLK_s, 0x1f);
MAP(SDLK_t, 0x14);
MAP(SDLK_u, 0x16);
MAP(SDLK_v, 0x2f);
MAP(SDLK_w, 0x11);
MAP(SDLK_x, 0x2d);
MAP(SDLK_y, 0x15);
MAP(SDLK_z, 0x2c);
MAP(SDLK_DELETE, 0xd3);
MAP(SDLK_KP0, 0x52);
MAP(SDLK_KP1, 0x4f);
MAP(SDLK_KP2, 0x50);
MAP(SDLK_KP3, 0x51);
MAP(SDLK_KP4, 0x4b);
MAP(SDLK_KP5, 0x4c);
MAP(SDLK_KP6, 0x4d);
MAP(SDLK_KP7, 0x47);
MAP(SDLK_KP8, 0x48);
MAP(SDLK_KP9, 0x49);
MAP(SDLK_KP_PERIOD, 0x53);
MAP(SDLK_KP_DIVIDE, 0xb5);
MAP(SDLK_KP_MULTIPLY, 0x37);
MAP(SDLK_KP_MINUS, 0x4a);
MAP(SDLK_KP_PLUS, 0x4e);
MAP(SDLK_KP_ENTER, 0x9c);
//MAP(SDLK_KP_EQUALS, );
MAP(SDLK_UP, 0xc8);
MAP(SDLK_DOWN, 0xd0);
MAP(SDLK_RIGHT, 0xcd);
MAP(SDLK_LEFT, 0xcb);
MAP(SDLK_INSERT, 0xd2);
MAP(SDLK_HOME, 0xc7);
MAP(SDLK_END, 0xcf);
MAP(SDLK_PAGEUP, 0xc9);
MAP(SDLK_PAGEDOWN, 0xd1);
MAP(SDLK_F1, 0x3b);
MAP(SDLK_F2, 0x3c);
MAP(SDLK_F3, 0x3d);
MAP(SDLK_F4, 0x3e);
MAP(SDLK_F5, 0x3f);
MAP(SDLK_F6, 0x40);
MAP(SDLK_F7, 0x41);
MAP(SDLK_F8, 0x42);
MAP(SDLK_F9, 0x43);
MAP(SDLK_F10, 0x44);
MAP(SDLK_F11, 0x57);
MAP(SDLK_F12, 0x58);
MAP(SDLK_NUMLOCK, 0x45);
MAP(SDLK_CAPSLOCK, 0x3a);
MAP(SDLK_SCROLLOCK, 0x46);
MAP(SDLK_RSHIFT, 0x36);
MAP(SDLK_LSHIFT, 0x2a);
MAP(SDLK_RCTRL, 0x9d);
MAP(SDLK_LCTRL, 0x1d);
MAP(SDLK_RALT, 0xb8);
MAP(SDLK_LALT, 0x38);
MAP(SDLK_LSUPER, 0xdb); // win l
MAP(SDLK_RSUPER, 0xdc); // win r
MAP(SDLK_PRINT, -2); // 0xaa + 0xb7
MAP(SDLK_SYSREQ, 0x54); // alt+printscr
MAP(SDLK_BREAK, 0xb7); // ctrl+pause
MAP(SDLK_MENU, 0xdd); // win menu?
#undef MAP
return 0;
}