/*
* grab the guid string from a mapping string
*/
static char *SDL_PrivateGetControllerGUIDFromMappingString(const char *pMapping)
{
const char *pFirstComma = SDL_strchr(pMapping, ',');
if (pFirstComma) {
char *pchGUID = SDL_malloc(pFirstComma - pMapping + 1);
if (!pchGUID) {
SDL_OutOfMemory();
return NULL;
}
SDL_memcpy(pchGUID, pMapping, pFirstComma - pMapping);
pchGUID[pFirstComma - pMapping] = '\0';
/* Convert old style GUIDs to the new style in 2.0.5 */
#if __WIN32__
if (SDL_strlen(pchGUID) == 32 &&
SDL_memcmp(&pchGUID[20], "504944564944", 12) == 0) {
SDL_memcpy(&pchGUID[20], "000000000000", 12);
SDL_memcpy(&pchGUID[16], &pchGUID[4], 4);
SDL_memcpy(&pchGUID[8], &pchGUID[0], 4);
SDL_memcpy(&pchGUID[0], "03000000", 8);
}
#elif __MACOSX__
if (SDL_strlen(pchGUID) == 32 &&
SDL_memcmp(&pchGUID[4], "000000000000", 12) == 0 &&
SDL_memcmp(&pchGUID[20], "000000000000", 12) == 0) {
SDL_memcpy(&pchGUID[20], "000000000000", 12);
SDL_memcpy(&pchGUID[8], &pchGUID[0], 4);
SDL_memcpy(&pchGUID[0], "03000000", 8);
}
#endif
return pchGUID;
}
return NULL;
}
static int get_header(SDL_RWops *src, int *w, int *h)
{
char line[1024];
*w = 0;
*h = 0;
/* Check the header magic */
if ( (get_line(src, line, sizeof(line)) < 0) ||
(SDL_memcmp(line, "P7 332", 6) != 0) ) {
return -1;
}
/* Read the header */
while ( get_line(src, line, sizeof(line)) == 0 ) {
if ( SDL_memcmp(line, "#BUILTIN:", 9) == 0 ) {
/* Builtin image, no data */
break;
}
if ( SDL_memcmp(line, "#END_OF_COMMENTS", 16) == 0 ) {
if ( get_line(src, line, sizeof(line)) == 0 ) {
SDL_sscanf(line, "%d %d", w, h);
if ( *w >= 0 && *h >= 0 ) {
return 0;
}
}
break;
}
}
/* No image data */
return -1;
}
static int
X11_SafetyNetErrHandler(Display * d, XErrorEvent * e)
{
SDL_VideoDevice *device = NULL;
/* if we trigger an error in our error handler, don't try again. */
if (!safety_net_triggered) {
safety_net_triggered = SDL_TRUE;
device = SDL_GetVideoDevice();
if (device != NULL) {
int i;
for (i = 0; i < device->num_displays; i++) {
SDL_VideoDisplay *display = &device->displays[i];
if (SDL_memcmp(&display->current_mode, &display->desktop_mode,
sizeof (SDL_DisplayMode)) != 0) {
X11_SetDisplayMode(device, display, &display->desktop_mode);
}
}
}
}
if (orig_x11_errhandler != NULL) {
return orig_x11_errhandler(d, e); /* probably terminate. */
}
return 0;
}
/* Determine the number of CPUs in the system */
static int num_CPU(void)
{
static int num_cpus = 0;
if(!num_cpus) {
#if defined(__LINUX__)
char line[BUFSIZ];
FILE *pstat = fopen("/proc/stat", "r");
if ( pstat ) {
while ( fgets(line, sizeof(line), pstat) ) {
if (SDL_memcmp(line, "cpu", 3) == 0 && line[3] != ' ') {
++num_cpus;
}
}
fclose(pstat);
}
#elif defined(__IRIX__)
num_cpus = sysconf(_SC_NPROC_ONLN);
#elif defined(_SC_NPROCESSORS_ONLN)
/* number of processors online (SVR4.0MP compliant machines) */
num_cpus = sysconf(_SC_NPROCESSORS_ONLN);
#elif defined(_SC_NPROCESSORS_CONF)
/* number of processors configured (SVR4.0MP compliant machines) */
num_cpus = sysconf(_SC_NPROCESSORS_CONF);
#endif
if ( num_cpus <= 0 ) {
num_cpus = 1;
}
}
return num_cpus;
}
/**
* @brief Does a generic rwops test.
*
* RWops should have "Hello World!" in it already if write is disabled.
*
* @param write Test writing also.
* @return 1 if an assert is failed.
*/
static int rwops_testGeneric( SDL_RWops *rw, int write )
{
char buf[sizeof(hello_world)];
int i;
/* Set to start. */
i = SDL_RWseek( rw, 0, RW_SEEK_SET );
if (SDL_ATvassert( i == 0,
"Seeking with SDL_RWseek (RW_SEEK_SET): got %d, expected %d",
i, 0 ))
return 1;
/* Test write. */
i = SDL_RWwrite( rw, hello_world, sizeof(hello_world)-1, 1 );
if (write) {
if (SDL_ATassert( "Writing with SDL_RWwrite (failed to write)", i == 1 ))
return 1;
}
else {
if (SDL_ATassert( "Writing with SDL_RWwrite (wrote when shouldn't have)", i <= 0 ))
return 1;
}
/* Test seek. */
i = SDL_RWseek( rw, 6, RW_SEEK_SET );
if (SDL_ATvassert( i == 6,
"Seeking with SDL_RWseek (RW_SEEK_SET): got %d, expected %d",
i, 0 ))
return 1;
/* Test seek. */
i = SDL_RWseek( rw, 0, RW_SEEK_SET );
if (SDL_ATvassert( i == 0,
"Seeking with SDL_RWseek (RW_SEEK_SET): got %d, expected %d",
i, 0 ))
return 1;
/* Test read. */
i = SDL_RWread( rw, buf, 1, sizeof(hello_world)-1 );
if (SDL_ATassert( "Reading with SDL_RWread", i == sizeof(hello_world)-1 ))
return 1;
if (SDL_ATassert( "Memory read does not match memory written",
SDL_memcmp( buf, hello_world, sizeof(hello_world)-1 ) == 0 ))
return 1;
/* More seek tests. */
i = SDL_RWseek( rw, -4, RW_SEEK_CUR );
if (SDL_ATvassert( i == sizeof(hello_world)-5,
"Seeking with SDL_RWseek (RW_SEEK_CUR): got %d, expected %d",
i, sizeof(hello_world)-5 ))
return 1;
i = SDL_RWseek( rw, -1, RW_SEEK_END );
if (SDL_ATvassert( i == sizeof(hello_world)-2,
"Seeking with SDL_RWseek (RW_SEEK_END): got %d, expected %d",
i, sizeof(hello_world)-2 ))
return 1;
return 0;
}
int
SDL_DINPUT_MaybeAddDevice(const DIDEVICEINSTANCE * pdidInstance)
{
HRESULT ret;
LPDIRECTINPUTDEVICE8 device;
const DWORD needflags = DIDC_ATTACHED | DIDC_FORCEFEEDBACK;
DIDEVCAPS capabilities;
SDL_hapticlist_item *item = NULL;
if (dinput == NULL) {
return -1; /* not initialized. We'll pick these up on enumeration if we init later. */
}
/* Make sure we don't already have it */
for (item = SDL_hapticlist; item; item = item->next) {
if ((!item->bXInputHaptic) && (SDL_memcmp(&item->instance, pdidInstance, sizeof(*pdidInstance)) == 0)) {
return -1; /* Already added */
}
}
/* Open the device */
ret = IDirectInput8_CreateDevice(dinput, &pdidInstance->guidInstance, &device, NULL);
if (FAILED(ret)) {
/* DI_SetError("Creating DirectInput device",ret); */
return -1;
}
/* Get capabilities. */
SDL_zero(capabilities);
capabilities.dwSize = sizeof(DIDEVCAPS);
ret = IDirectInputDevice8_GetCapabilities(device, &capabilities);
IDirectInputDevice8_Release(device);
if (FAILED(ret)) {
/* DI_SetError("Getting device capabilities",ret); */
return -1;
}
if ((capabilities.dwFlags & needflags) != needflags) {
return -1; /* not a device we can use. */
}
item = (SDL_hapticlist_item *)SDL_calloc(1, sizeof(SDL_hapticlist_item));
if (item == NULL) {
return SDL_OutOfMemory();
}
item->name = WIN_StringToUTF8(pdidInstance->tszProductName);
if (!item->name) {
SDL_free(item);
return -1;
}
/* Copy the instance over, useful for creating devices. */
SDL_memcpy(&item->instance, pdidInstance, sizeof(DIDEVICEINSTANCE));
SDL_memcpy(&item->capabilities, &capabilities, sizeof(capabilities));
return SDL_SYS_AddHapticDevice(item);
}
int main(int argc, char *argv[])
{
const char * formats[] = {
"UTF8",
"UTF-8",
"UTF16BE",
"UTF-16BE",
"UTF16LE",
"UTF-16LE",
"UTF32BE",
"UTF-32BE",
"UTF32LE",
"UTF-32LE",
"UCS4",
"UCS-4",
};
char buffer[BUFSIZ];
char *ucs4;
char *test[2];
int i, index = 0;
FILE *file;
int errors = 0;
if ( !argv[1] ) {
argv[1] = "utf8.txt";
}
file = fopen(argv[1], "rb");
if ( !file ) {
fprintf(stderr, "Unable to open %s\n", argv[1]);
return (1);
}
while ( fgets(buffer, sizeof(buffer), file) ) {
size_t len;
ucs4 = SDL_iconv_string("UCS-4", "UTF-8", buffer, SDL_strlen(buffer)+1);
len = (widelen(ucs4)+1)*4;
for ( i = 0; i < SDL_arraysize(formats); ++i ) {
test[0] = SDL_iconv_string(formats[i], "UCS-4", ucs4, len);
test[1] = SDL_iconv_string("UCS-4", formats[i], test[0], len);
if ( !test[1] || SDL_memcmp(test[1], ucs4, len) != 0 ) {
fprintf(stderr, "FAIL: %s\n", formats[i]);
++errors;
}
if ( test[0] ) {
SDL_free(test[0]);
}
if ( test[1] ) {
SDL_free(test[1]);
}
}
test[0] = SDL_iconv_string("UTF-8", "UCS-4", ucs4, len);
SDL_free(ucs4);
fputs(test[0], stdout);
SDL_free(test[0]);
}
return (errors ? errors + 1 : 0);
}
static Uint32 get_colorhash(struct color_hash *hash, const char *key, int cpp)
{
struct hash_entry *entry = hash->table[hash_key(key, cpp, hash->size)];
while (entry) {
if (SDL_memcmp(key, entry->key, cpp) == 0)
return entry->color;
entry = entry->next;
}
return 0; /* garbage in - garbage out */
}
/* helper function for direct input, gets called for each connected joystick */
static BOOL CALLBACK
EnumJoysticksCallback(const DIDEVICEINSTANCE * pdidInstance, VOID * pContext)
{
JoyStick_DeviceData *pNewJoystick;
JoyStick_DeviceData *pPrevJoystick = NULL;
const DWORD devtype = (pdidInstance->dwDevType & 0xFF);
if (devtype == DI8DEVTYPE_SUPPLEMENTAL) {
return DIENUM_CONTINUE; /* Ignore touchpads, etc. */
}
if (SDL_IsXInputDevice(&pdidInstance->guidProduct)) {
return DIENUM_CONTINUE; /* ignore XInput devices here, keep going. */
}
pNewJoystick = *(JoyStick_DeviceData **)pContext;
while (pNewJoystick) {
if (!SDL_memcmp(&pNewJoystick->dxdevice.guidInstance, &pdidInstance->guidInstance, sizeof(pNewJoystick->dxdevice.guidInstance))) {
/* if we are replacing the front of the list then update it */
if (pNewJoystick == *(JoyStick_DeviceData **)pContext) {
*(JoyStick_DeviceData **)pContext = pNewJoystick->pNext;
} else if (pPrevJoystick) {
pPrevJoystick->pNext = pNewJoystick->pNext;
}
pNewJoystick->pNext = SYS_Joystick;
SYS_Joystick = pNewJoystick;
return DIENUM_CONTINUE; /* already have this joystick loaded, just keep going */
}
pPrevJoystick = pNewJoystick;
pNewJoystick = pNewJoystick->pNext;
}
pNewJoystick = (JoyStick_DeviceData *)SDL_malloc(sizeof(JoyStick_DeviceData));
if (!pNewJoystick) {
return DIENUM_CONTINUE; /* better luck next time? */
}
SDL_zerop(pNewJoystick);
pNewJoystick->joystickname = WIN_StringToUTF8(pdidInstance->tszProductName);
if (!pNewJoystick->joystickname) {
SDL_free(pNewJoystick);
return DIENUM_CONTINUE; /* better luck next time? */
}
SDL_memcpy(&(pNewJoystick->dxdevice), pdidInstance,
sizeof(DIDEVICEINSTANCE));
SDL_memcpy(&pNewJoystick->guid, &pdidInstance->guidProduct, sizeof(pNewJoystick->guid));
SDL_SYS_AddJoystickDevice(pNewJoystick);
return DIENUM_CONTINUE; /* get next device, please */
}
/* See if an image is contained in a data source */
int IMG_isGIF(SDL_RWops *src)
{
Sint64 start;
int is_GIF;
char magic[6];
if ( !src )
return 0;
start = SDL_RWtell(src);
is_GIF = 0;
if ( SDL_RWread(src, magic, sizeof(magic), 1) ) {
if ( (SDL_strncmp(magic, "GIF", 3) == 0) &&
((SDL_memcmp(magic + 3, "87a", 3) == 0) ||
(SDL_memcmp(magic + 3, "89a", 3) == 0)) ) {
is_GIF = 1;
}
}
SDL_RWseek(src, start, RW_SEEK_SET);
return(is_GIF);
}
/*
* Helper function to scan the mappings database for a controller with the specified GUID
*/
ControllerMapping_t *SDL_PrivateGetControllerMappingForGUID(SDL_JoystickGUID *guid)
{
ControllerMapping_t *pSupportedController = s_pSupportedControllers;
while (pSupportedController) {
if (SDL_memcmp(guid, &pSupportedController->guid, sizeof(*guid)) == 0) {
return pSupportedController;
}
pSupportedController = pSupportedController->next;
}
return NULL;
}
int IMG_isLBM( SDL_RWops *src )
{
Sint64 start;
int is_LBM;
Uint8 magic[4+4+4];
if ( !src )
return 0;
start = SDL_RWtell(src);
is_LBM = 0;
if ( SDL_RWread( src, magic, sizeof(magic), 1 ) )
{
if ( !SDL_memcmp( magic, "FORM", 4 ) &&
( !SDL_memcmp( magic + 8, "PBM ", 4 ) ||
!SDL_memcmp( magic + 8, "ILBM", 4 ) ) )
{
is_LBM = 1;
}
}
SDL_RWseek(src, start, RW_SEEK_SET);
return( is_LBM );
}
void SDL_PrivateGameControllerRefreshMapping(ControllerMapping_t *pControllerMapping)
{
SDL_GameController *gamecontrollerlist = SDL_gamecontrollers;
while (gamecontrollerlist) {
if (!SDL_memcmp(&gamecontrollerlist->mapping.guid, &pControllerMapping->guid, sizeof(pControllerMapping->guid))) {
SDL_Event event;
event.type = SDL_CONTROLLERDEVICEREMAPPED;
event.cdevice.which = gamecontrollerlist->joystick->instance_id;
SDL_PushEvent(&event);
/* Not really threadsafe. Should this lock access within SDL_GameControllerEventWatcher? */
SDL_PrivateLoadButtonMapping(&gamecontrollerlist->mapping, pControllerMapping->guid, pControllerMapping->name, pControllerMapping->mapping);
}
gamecontrollerlist = gamecontrollerlist->next;
}
}
/* See if an image is contained in a data source */
int IMG_isXPM(SDL_RWops *src)
{
Sint64 start;
int is_XPM;
char magic[9];
if ( !src )
return 0;
start = SDL_RWtell(src);
is_XPM = 0;
if ( SDL_RWread(src, magic, sizeof(magic), 1) ) {
if ( SDL_memcmp(magic, "/* XPM */", sizeof(magic)) == 0 ) {
is_XPM = 1;
}
}
SDL_RWseek(src, start, RW_SEEK_SET);
return(is_XPM);
}
int
SDL_DINPUT_MaybeRemoveDevice(const DIDEVICEINSTANCE * pdidInstance)
{
SDL_hapticlist_item *item;
SDL_hapticlist_item *prev = NULL;
if (dinput == NULL) {
return -1; /* not initialized, ignore this. */
}
for (item = SDL_hapticlist; item != NULL; item = item->next) {
if (!item->bXInputHaptic && SDL_memcmp(&item->instance, pdidInstance, sizeof(*pdidInstance)) == 0) {
/* found it, remove it. */
return SDL_SYS_RemoveHapticDevice(prev, item);
}
prev = item;
}
return -1;
}
void
WIN_UpdateClipCursor(SDL_Window *window)
{
SDL_WindowData *data = (SDL_WindowData *) window->driverdata;
SDL_Mouse *mouse = SDL_GetMouse();
RECT rect;
if (data->focus_click_pending) {
return;
}
if ((mouse->relative_mode || (window->flags & SDL_WINDOW_INPUT_GRABBED)) &&
(window->flags & SDL_WINDOW_INPUT_FOCUS)) {
if (mouse->relative_mode && !mouse->relative_mode_warp) {
LONG cx, cy;
GetWindowRect(data->hwnd, &rect);
cx = (rect.left + rect.right) / 2;
cy = (rect.top + rect.bottom) / 2;
/* Make an absurdly small clip rect */
rect.left = cx - 1;
rect.right = cx + 1;
rect.top = cy - 1;
rect.bottom = cy + 1;
if (ClipCursor(&rect)) {
data->cursor_clipped_rect = rect;
}
} else {
if (GetClientRect(data->hwnd, &rect) && !IsRectEmpty(&rect)) {
ClientToScreen(data->hwnd, (LPPOINT) & rect);
ClientToScreen(data->hwnd, (LPPOINT) & rect + 1);
if (ClipCursor(&rect)) {
data->cursor_clipped_rect = rect;
}
}
}
} else if (GetClipCursor(&rect) && SDL_memcmp(&rect, &data->cursor_clipped_rect, sizeof(rect)) == 0) {
ClipCursor(NULL);
SDL_zero(data->cursor_clipped_rect);
}
}
int main(int argc, char *argv[])
{
SDL_RWops *rwops = NULL;
char test_buf[30];
cleanup();
rwops = SDL_RWFromFile(NULL,NULL);
if (rwops) RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(NULL,"ab+");
if (rwops) RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(NULL,"sldfkjsldkfj");
if (rwops) RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile("something","");
if (rwops) RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile("something",NULL);
if (rwops) RWOP_ERR_QUIT(rwops);
printf("test1 OK\n");
rwops = SDL_RWFromFile(FBASENAME2,"rb");
if (rwops) RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(FBASENAME2,"rb+");
if (rwops) RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(FBASENAME2,"wb");
if (!rwops) RWOP_ERR_QUIT(rwops);
rwops->close(rwops); unlink(FBASENAME2);
rwops = SDL_RWFromFile(FBASENAME2,"wb+");
if (!rwops) RWOP_ERR_QUIT(rwops);
rwops->close(rwops); unlink(FBASENAME2);
rwops = SDL_RWFromFile(FBASENAME2,"ab");
if (!rwops) RWOP_ERR_QUIT(rwops);
rwops->close(rwops); unlink(FBASENAME2);
rwops = SDL_RWFromFile(FBASENAME2,"ab+");
if (!rwops) RWOP_ERR_QUIT(rwops);
rwops->close(rwops); unlink(FBASENAME2);
printf("test2 OK\n");
rwops = SDL_RWFromFile(FBASENAME1,"wb");
if (!rwops) RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops,"1234567890",10,1) ) RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops,"1234567890",1,10) ) RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops,"1234567",1,7) ) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
rwops = SDL_RWFromFile(FBASENAME1,"rb");
if (!rwops) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (20!=rwops->seek(rwops,-7,RW_SEEK_END)) RWOP_ERR_QUIT(rwops);
if (7!=rwops->read(rwops,test_buf,1,7)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"1234567",7)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,10,100)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,-27,RW_SEEK_CUR)) RWOP_ERR_QUIT(rwops);
if (2!=rwops->read(rwops,test_buf,10,3)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"12345678901234567890",20)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->write(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
rwops = SDL_RWFromFile(FBASENAME1,"wb+");
if (!rwops) RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops,"1234567890",10,1) ) RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops,"1234567890",1,10) ) RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops,"1234567",1,7) ) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (1!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (20!=rwops->seek(rwops,-7,RW_SEEK_END)) RWOP_ERR_QUIT(rwops);
if (7!=rwops->read(rwops,test_buf,1,7)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"1234567",7)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,10,100)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,-27,RW_SEEK_CUR)) RWOP_ERR_QUIT(rwops);
if (2!=rwops->read(rwops,test_buf,10,3)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"12345678901234567890",20)) RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
printf("test3 OK\n");
rwops = SDL_RWFromFile(FBASENAME1,"rb+");
if (!rwops) RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops,"1234567890",10,1) ) RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops,"1234567890",1,10) ) RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops,"1234567",1,7) ) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (1!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (20!=rwops->seek(rwops,-7,RW_SEEK_END)) RWOP_ERR_QUIT(rwops);
if (7!=rwops->read(rwops,test_buf,1,7)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"1234567",7)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,10,100)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,-27,RW_SEEK_CUR)) RWOP_ERR_QUIT(rwops);
if (2!=rwops->read(rwops,test_buf,10,3)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"12345678901234567890",20)) RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
printf("test4 OK\n");
rwops = SDL_RWFromFile(FBASENAME1,"ab+");
if (!rwops) RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops,"1234567890",10,1) ) RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops,"1234567890",1,10) ) RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops,"1234567",1,7) ) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (1!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (20+27!=rwops->seek(rwops,-7,RW_SEEK_END)) RWOP_ERR_QUIT(rwops);
if (7!=rwops->read(rwops,test_buf,1,7)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"1234567",7)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,1,1)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->read(rwops,test_buf,10,100)) RWOP_ERR_QUIT(rwops);
if (27!=rwops->seek(rwops,-27,RW_SEEK_CUR)) RWOP_ERR_QUIT(rwops);
if (0!=rwops->seek(rwops,0L,RW_SEEK_SET)) RWOP_ERR_QUIT(rwops);
if (3!=rwops->read(rwops,test_buf,10,3)) RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf,"123456789012345678901234567123",30))
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
printf("test5 OK\n");
cleanup();
return 0;
}
int
main(int argc, char *argv[])
{
SDL_RWops *rwops = NULL;
char test_buf[30];
/* Enable standard application logging */
SDL_LogSetPriority(SDL_LOG_CATEGORY_APPLICATION, SDL_LOG_PRIORITY_INFO);
cleanup();
/* test 1 : basic argument test: all those calls to SDL_RWFromFile should fail */
rwops = SDL_RWFromFile(NULL, NULL);
if (rwops)
RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(NULL, "ab+");
if (rwops)
RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(NULL, "sldfkjsldkfj");
if (rwops)
RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile("something", "");
if (rwops)
RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile("something", NULL);
if (rwops)
RWOP_ERR_QUIT(rwops);
SDL_Log("test1 OK\n");
/* test 2 : check that inexistent file is not successfully opened/created when required */
/* modes : r, r+ imply that file MUST exist
modes : a, a+, w, w+ checks that it succeeds (file may not exists)
*/
rwops = SDL_RWFromFile(FBASENAME2, "rb"); /* this file doesn't exist that call must fail */
if (rwops)
RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(FBASENAME2, "rb+"); /* this file doesn't exist that call must fail */
if (rwops)
RWOP_ERR_QUIT(rwops);
rwops = SDL_RWFromFile(FBASENAME2, "wb");
if (!rwops)
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
unlink(FBASENAME2);
rwops = SDL_RWFromFile(FBASENAME2, "wb+");
if (!rwops)
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
unlink(FBASENAME2);
rwops = SDL_RWFromFile(FBASENAME2, "ab");
if (!rwops)
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
unlink(FBASENAME2);
rwops = SDL_RWFromFile(FBASENAME2, "ab+");
if (!rwops)
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
unlink(FBASENAME2);
SDL_Log("test2 OK\n");
/* test 3 : creation, writing , reading, seeking,
test : w mode, r mode, w+ mode
*/
rwops = SDL_RWFromFile(FBASENAME1, "wb"); /* write only */
if (!rwops)
RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops, "1234567890", 10, 1))
RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops, "1234567890", 1, 10))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops, "1234567", 1, 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops); /* we are in write only mode */
rwops->close(rwops);
rwops = SDL_RWFromFile(FBASENAME1, "rb"); /* read mode, file must exists */
if (!rwops)
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (20 != rwops->seek(rwops, -7, RW_SEEK_END))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->read(rwops, test_buf, 1, 7))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "1234567", 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 10, 100))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, -27, RW_SEEK_CUR))
RWOP_ERR_QUIT(rwops);
if (2 != rwops->read(rwops, test_buf, 10, 3))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "12345678901234567890", 20))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->write(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops); /* readonly mode */
rwops->close(rwops);
/* test 3: same with w+ mode */
rwops = SDL_RWFromFile(FBASENAME1, "wb+"); /* write + read + truncation */
if (!rwops)
RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops, "1234567890", 10, 1))
RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops, "1234567890", 1, 10))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops, "1234567", 1, 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (1 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops); /* we are in read/write mode */
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (20 != rwops->seek(rwops, -7, RW_SEEK_END))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->read(rwops, test_buf, 1, 7))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "1234567", 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 10, 100))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, -27, RW_SEEK_CUR))
RWOP_ERR_QUIT(rwops);
if (2 != rwops->read(rwops, test_buf, 10, 3))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "12345678901234567890", 20))
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
SDL_Log("test3 OK\n");
/* test 4: same in r+ mode */
rwops = SDL_RWFromFile(FBASENAME1, "rb+"); /* write + read + file must exists, no truncation */
if (!rwops)
RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops, "1234567890", 10, 1))
RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops, "1234567890", 1, 10))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops, "1234567", 1, 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (1 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops); /* we are in read/write mode */
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (20 != rwops->seek(rwops, -7, RW_SEEK_END))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->read(rwops, test_buf, 1, 7))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "1234567", 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 10, 100))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, -27, RW_SEEK_CUR))
RWOP_ERR_QUIT(rwops);
if (2 != rwops->read(rwops, test_buf, 10, 3))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "12345678901234567890", 20))
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
SDL_Log("test4 OK\n");
/* test5 : append mode */
rwops = SDL_RWFromFile(FBASENAME1, "ab+"); /* write + read + append */
if (!rwops)
RWOP_ERR_QUIT(rwops);
if (1 != rwops->write(rwops, "1234567890", 10, 1))
RWOP_ERR_QUIT(rwops);
if (10 != rwops->write(rwops, "1234567890", 1, 10))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->write(rwops, "1234567", 1, 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (1 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (20 + 27 != rwops->seek(rwops, -7, RW_SEEK_END))
RWOP_ERR_QUIT(rwops);
if (7 != rwops->read(rwops, test_buf, 1, 7))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "1234567", 7))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 1, 1))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->read(rwops, test_buf, 10, 100))
RWOP_ERR_QUIT(rwops);
if (27 != rwops->seek(rwops, -27, RW_SEEK_CUR))
RWOP_ERR_QUIT(rwops);
if (0 != rwops->seek(rwops, 0L, RW_SEEK_SET))
RWOP_ERR_QUIT(rwops);
if (3 != rwops->read(rwops, test_buf, 10, 3))
RWOP_ERR_QUIT(rwops);
if (SDL_memcmp(test_buf, "123456789012345678901234567123", 30))
RWOP_ERR_QUIT(rwops);
rwops->close(rwops);
SDL_Log("test5 OK\n");
cleanup();
return 0; /* all ok */
}
/**
* @brief Makes sure parameters work properly. Local helper function.
*
* \sa
* http://wiki.libsdl.org/moin.cgi/SDL_RWseek
* http://wiki.libsdl.org/moin.cgi/SDL_RWread
*/
void
_testGenericRWopsValidations(SDL_RWops *rw, int write)
{
char buf[sizeof(RWopsHelloWorldTestString)];
Sint64 i;
size_t s;
int seekPos = SDLTest_RandomIntegerInRange(4, 8);
/* Clear buffer */
SDL_zero(buf);
/* Set to start. */
i = SDL_RWseek(rw, 0, RW_SEEK_SET );
SDLTest_AssertPass("Call to SDL_RWseek succeeded");
SDLTest_AssertCheck(i == (Sint64)0, "Verify seek to 0 with SDL_RWseek (RW_SEEK_SET), expected 0, got %i", i);
/* Test write. */
s = SDL_RWwrite(rw, RWopsHelloWorldTestString, sizeof(RWopsHelloWorldTestString)-1, 1);
SDLTest_AssertPass("Call to SDL_RWwrite succeeded");
if (write) {
SDLTest_AssertCheck(s == (size_t)1, "Verify result of writing one byte with SDL_RWwrite, expected 1, got %i", s);
}
else {
SDLTest_AssertCheck(s == (size_t)0, "Verify result of writing with SDL_RWwrite, expected: 0, got %i", s);
}
/* Test seek to random position */
i = SDL_RWseek( rw, seekPos, RW_SEEK_SET );
SDLTest_AssertPass("Call to SDL_RWseek succeeded");
SDLTest_AssertCheck(i == (Sint64)seekPos, "Verify seek to %i with SDL_RWseek (RW_SEEK_SET), expected %i, got %i", seekPos, seekPos, i);
/* Test seek back to start */
i = SDL_RWseek(rw, 0, RW_SEEK_SET );
SDLTest_AssertPass("Call to SDL_RWseek succeeded");
SDLTest_AssertCheck(i == (Sint64)0, "Verify seek to 0 with SDL_RWseek (RW_SEEK_SET), expected 0, got %i", i);
/* Test read */
s = SDL_RWread( rw, buf, 1, sizeof(RWopsHelloWorldTestString)-1 );
SDLTest_AssertPass("Call to SDL_RWread succeeded");
SDLTest_AssertCheck(
s == (size_t)(sizeof(RWopsHelloWorldTestString)-1),
"Verify result from SDL_RWread, expected %i, got %i",
sizeof(RWopsHelloWorldTestString)-1,
s);
SDLTest_AssertCheck(
SDL_memcmp(buf, RWopsHelloWorldTestString, sizeof(RWopsHelloWorldTestString)-1 ) == 0,
"Verify read bytes match expected string, expected '%s', got '%s'", RWopsHelloWorldTestString, buf);
/* More seek tests. */
i = SDL_RWseek( rw, -4, RW_SEEK_CUR );
SDLTest_AssertPass("Call to SDL_RWseek(...,-4,RW_SEEK_CUR) succeeded");
SDLTest_AssertCheck(
i == (Sint64)(sizeof(RWopsHelloWorldTestString)-5),
"Verify seek to -4 with SDL_RWseek (RW_SEEK_CUR), expected %i, got %i",
sizeof(RWopsHelloWorldTestString)-5,
i);
i = SDL_RWseek( rw, -1, RW_SEEK_END );
SDLTest_AssertPass("Call to SDL_RWseek(...,-1,RW_SEEK_END) succeeded");
SDLTest_AssertCheck(
i == (Sint64)(sizeof(RWopsHelloWorldTestString)-2),
"Verify seek to -1 with SDL_RWseek (RW_SEEK_END), expected %i, got %i",
sizeof(RWopsHelloWorldTestString)-2,
i);
/* Invalid whence seek */
i = SDL_RWseek( rw, 0, 999 );
SDLTest_AssertPass("Call to SDL_RWseek(...,0,invalid_whence) succeeded");
SDLTest_AssertCheck(
i == (Sint64)(-1),
"Verify seek with SDL_RWseek (invalid_whence); expected: -1, got %i",
i);
}
SDL_Surface *IMG_LoadLBM_RW( SDL_RWops *src )
{
Sint64 start;
SDL_Surface *Image;
Uint8 id[4], pbm, colormap[MAXCOLORS*3], *MiniBuf, *ptr, count, color, msk;
Uint32 size, bytesloaded, nbcolors;
Uint32 i, j, bytesperline, nbplanes, stencil, plane, h;
Uint32 remainingbytes;
Uint32 width;
BMHD bmhd;
char *error;
Uint8 flagHAM,flagEHB;
Image = NULL;
error = NULL;
MiniBuf = NULL;
if ( !src ) {
/* The error message has been set in SDL_RWFromFile */
return NULL;
}
start = SDL_RWtell(src);
if ( !SDL_RWread( src, id, 4, 1 ) )
{
error="error reading IFF chunk";
goto done;
}
/* Should be the size of the file minus 4+4 ( 'FORM'+size ) */
if ( !SDL_RWread( src, &size, 4, 1 ) )
{
error="error reading IFF chunk size";
goto done;
}
/* As size is not used here, no need to swap it */
if ( memcmp( id, "FORM", 4 ) != 0 )
{
error="not a IFF file";
goto done;
}
if ( !SDL_RWread( src, id, 4, 1 ) )
{
error="error reading IFF chunk";
goto done;
}
pbm = 0;
/* File format : PBM=Packed Bitmap, ILBM=Interleaved Bitmap */
if ( !SDL_memcmp( id, "PBM ", 4 ) ) pbm = 1;
else if ( SDL_memcmp( id, "ILBM", 4 ) )
{
error="not a IFF picture";
goto done;
}
nbcolors = 0;
SDL_memset( &bmhd, 0, sizeof( BMHD ) );
flagHAM = 0;
flagEHB = 0;
while ( SDL_memcmp( id, "BODY", 4 ) != 0 )
{
if ( !SDL_RWread( src, id, 4, 1 ) )
{
error="error reading IFF chunk";
goto done;
}
if ( !SDL_RWread( src, &size, 4, 1 ) )
{
error="error reading IFF chunk size";
goto done;
}
bytesloaded = 0;
size = SDL_SwapBE32( size );
if ( !SDL_memcmp( id, "BMHD", 4 ) ) /* Bitmap header */
{
if ( !SDL_RWread( src, &bmhd, sizeof( BMHD ), 1 ) )
{
error="error reading BMHD chunk";
goto done;
}
bytesloaded = sizeof( BMHD );
bmhd.w = SDL_SwapBE16( bmhd.w );
bmhd.h = SDL_SwapBE16( bmhd.h );
bmhd.x = SDL_SwapBE16( bmhd.x );
bmhd.y = SDL_SwapBE16( bmhd.y );
bmhd.tcolor = SDL_SwapBE16( bmhd.tcolor );
bmhd.Lpage = SDL_SwapBE16( bmhd.Lpage );
bmhd.Hpage = SDL_SwapBE16( bmhd.Hpage );
}
if ( !SDL_memcmp( id, "CMAP", 4 ) ) /* palette ( Color Map ) */
{
if ( !SDL_RWread( src, &colormap, size, 1 ) )
{
error="error reading CMAP chunk";
goto done;
}
bytesloaded = size;
nbcolors = size / 3;
}
if ( !memcmp( id, "CAMG", 4 ) ) /* Amiga ViewMode */
{
Uint32 viewmodes;
if ( !SDL_RWread( src, &viewmodes, sizeof(viewmodes), 1 ) )
{
error="error reading CAMG chunk";
goto done;
}
bytesloaded = size;
viewmodes = SDL_SwapBE32( viewmodes );
if ( viewmodes & 0x0800 )
flagHAM = 1;
if ( viewmodes & 0x0080 )
flagEHB = 1;
}
if ( SDL_memcmp( id, "BODY", 4 ) )
{
if ( size & 1 ) ++size; /* padding ! */
size -= bytesloaded;
/* skip the remaining bytes of this chunk */
if ( size ) SDL_RWseek( src, size, RW_SEEK_CUR );
}
}
/* compute some usefull values, based on the bitmap header */
width = ( bmhd.w + 15 ) & 0xFFFFFFF0; /* Width in pixels modulo 16 */
bytesperline = ( ( bmhd.w + 15 ) / 16 ) * 2;
nbplanes = bmhd.planes;
if ( pbm ) /* File format : 'Packed Bitmap' */
{
bytesperline *= 8;
nbplanes = 1;
}
stencil = (bmhd.mask & 1); /* There is a mask ( 'stencil' ) */
/* Allocate memory for a temporary buffer ( used for
decompression/deinterleaving ) */
MiniBuf = (Uint8 *)SDL_malloc( bytesperline * (nbplanes + stencil) );
if ( MiniBuf == NULL )
{
error="no enough memory for temporary buffer";
goto done;
}
if ( ( Image = SDL_CreateRGBSurface( SDL_SWSURFACE, width, bmhd.h, (bmhd.planes==24 || flagHAM==1)?24:8, 0, 0, 0, 0 ) ) == NULL )
goto done;
if ( bmhd.mask & 2 ) /* There is a transparent color */
SDL_SetColorKey( Image, SDL_TRUE, bmhd.tcolor );
/* Update palette informations */
/* There is no palette in 24 bits ILBM file */
if ( nbcolors>0 && flagHAM==0 )
{
/* FIXME: Should this include the stencil? See comment below */
int nbrcolorsfinal = 1 << (nbplanes + stencil);
ptr = &colormap[0];
for ( i=0; i<nbcolors; i++ )
{
Image->format->palette->colors[i].r = *ptr++;
Image->format->palette->colors[i].g = *ptr++;
Image->format->palette->colors[i].b = *ptr++;
}
/* Amiga EHB mode (Extra-Half-Bright) */
/* 6 bitplanes mode with a 32 colors palette */
/* The 32 last colors are the same but divided by 2 */
/* Some Amiga pictures save 64 colors with 32 last wrong colors, */
/* they shouldn't !, and here we overwrite these 32 bad colors. */
if ( (nbcolors==32 || flagEHB ) && (1<<bmhd.planes)==64 )
{
nbcolors = 64;
ptr = &colormap[0];
for ( i=32; i<64; i++ )
{
Image->format->palette->colors[i].r = (*ptr++)/2;
Image->format->palette->colors[i].g = (*ptr++)/2;
Image->format->palette->colors[i].b = (*ptr++)/2;
}
}
/* If nbcolors < 2^nbplanes, repeat the colormap */
/* This happens when pictures have a stencil mask */
if ( nbrcolorsfinal > (1<<bmhd.planes) ) {
nbrcolorsfinal = (1<<bmhd.planes);
}
for ( i=nbcolors; i < (Uint32)nbrcolorsfinal; i++ )
{
Image->format->palette->colors[i].r = Image->format->palette->colors[i%nbcolors].r;
Image->format->palette->colors[i].g = Image->format->palette->colors[i%nbcolors].g;
Image->format->palette->colors[i].b = Image->format->palette->colors[i%nbcolors].b;
}
if ( !pbm )
Image->format->palette->ncolors = nbrcolorsfinal;
}
/* Get the bitmap */
for ( h=0; h < bmhd.h; h++ )
{
/* uncompress the datas of each planes */
for ( plane=0; plane < (nbplanes+stencil); plane++ )
{
ptr = MiniBuf + ( plane * bytesperline );
remainingbytes = bytesperline;
if ( bmhd.tcomp == 1 ) /* Datas are compressed */
{
do
{
if ( !SDL_RWread( src, &count, 1, 1 ) )
{
error="error reading BODY chunk";
goto done;
}
if ( count & 0x80 )
{
count ^= 0xFF;
count += 2; /* now it */
if ( ( count > remainingbytes ) || !SDL_RWread( src, &color, 1, 1 ) )
{
error="error reading BODY chunk";
goto done;
}
SDL_memset( ptr, color, count );
}
else
{
++count;
if ( ( count > remainingbytes ) || !SDL_RWread( src, ptr, count, 1 ) )
{
error="error reading BODY chunk";
goto done;
}
}
ptr += count;
remainingbytes -= count;
} while ( remainingbytes > 0 );
}
else
{
if ( !SDL_RWread( src, ptr, bytesperline, 1 ) )
{
error="error reading BODY chunk";
goto done;
}
}
}
/* One line has been read, store it ! */
ptr = (Uint8 *)Image->pixels;
if ( nbplanes==24 || flagHAM==1 )
ptr += h * width * 3;
else
ptr += h * width;
if ( pbm ) /* File format : 'Packed Bitmap' */
{
memcpy( ptr, MiniBuf, width );
}
else /* We have to un-interlace the bits ! */
{
if ( nbplanes!=24 && flagHAM==0 )
{
size = ( width + 7 ) / 8;
for ( i=0; i < size; i++ )
{
memset( ptr, 0, 8 );
for ( plane=0; plane < (nbplanes + stencil); plane++ )
{
color = *( MiniBuf + i + ( plane * bytesperline ) );
msk = 0x80;
for ( j=0; j<8; j++ )
{
if ( ( plane + j ) <= 7 ) ptr[j] |= (Uint8)( color & msk ) >> ( 7 - plane - j );
else ptr[j] |= (Uint8)( color & msk ) << ( plane + j - 7 );
msk >>= 1;
}
}
ptr += 8;
}
}
else
{
/* helper function for direct input, gets called for each connected joystick */
static BOOL CALLBACK
EnumJoysticksCallback(const DIDEVICEINSTANCE * pdidInstance, VOID * pContext)
{
const Uint16 BUS_USB = 0x03;
const Uint16 BUS_BLUETOOTH = 0x05;
JoyStick_DeviceData *pNewJoystick;
JoyStick_DeviceData *pPrevJoystick = NULL;
const DWORD devtype = (pdidInstance->dwDevType & 0xFF);
Uint16 *guid16;
if (devtype == DI8DEVTYPE_SUPPLEMENTAL) {
/* Add any supplemental devices that should be ignored here */
#define MAKE_TABLE_ENTRY(VID, PID) ((((DWORD)PID)<<16)|VID)
static DWORD ignored_devices[] = {
MAKE_TABLE_ENTRY(0, 0)
};
#undef MAKE_TABLE_ENTRY
unsigned int i;
for (i = 0; i < SDL_arraysize(ignored_devices); ++i) {
if (pdidInstance->guidProduct.Data1 == ignored_devices[i]) {
return DIENUM_CONTINUE;
}
}
}
if (SDL_IsXInputDevice(&pdidInstance->guidProduct)) {
return DIENUM_CONTINUE; /* ignore XInput devices here, keep going. */
}
pNewJoystick = *(JoyStick_DeviceData **)pContext;
while (pNewJoystick) {
if (!SDL_memcmp(&pNewJoystick->dxdevice.guidInstance, &pdidInstance->guidInstance, sizeof(pNewJoystick->dxdevice.guidInstance))) {
/* if we are replacing the front of the list then update it */
if (pNewJoystick == *(JoyStick_DeviceData **)pContext) {
*(JoyStick_DeviceData **)pContext = pNewJoystick->pNext;
} else if (pPrevJoystick) {
pPrevJoystick->pNext = pNewJoystick->pNext;
}
pNewJoystick->pNext = SYS_Joystick;
SYS_Joystick = pNewJoystick;
return DIENUM_CONTINUE; /* already have this joystick loaded, just keep going */
}
pPrevJoystick = pNewJoystick;
pNewJoystick = pNewJoystick->pNext;
}
pNewJoystick = (JoyStick_DeviceData *)SDL_malloc(sizeof(JoyStick_DeviceData));
if (!pNewJoystick) {
return DIENUM_CONTINUE; /* better luck next time? */
}
SDL_zerop(pNewJoystick);
pNewJoystick->joystickname = WIN_StringToUTF8(pdidInstance->tszProductName);
if (!pNewJoystick->joystickname) {
SDL_free(pNewJoystick);
return DIENUM_CONTINUE; /* better luck next time? */
}
SDL_memcpy(&(pNewJoystick->dxdevice), pdidInstance,
sizeof(DIDEVICEINSTANCE));
SDL_memset(pNewJoystick->guid.data, 0, sizeof(pNewJoystick->guid.data));
guid16 = (Uint16 *)pNewJoystick->guid.data;
if (SDL_memcmp(&pdidInstance->guidProduct.Data4[2], "PIDVID", 6) == 0) {
*guid16++ = SDL_SwapLE16(BUS_USB);
*guid16++ = 0;
*guid16++ = SDL_SwapLE16((Uint16)LOWORD(pdidInstance->guidProduct.Data1)); /* vendor */
*guid16++ = 0;
*guid16++ = SDL_SwapLE16((Uint16)HIWORD(pdidInstance->guidProduct.Data1)); /* product */
*guid16++ = 0;
*guid16++ = 0; /* version */
*guid16++ = 0;
} else {
*guid16++ = SDL_SwapLE16(BUS_BLUETOOTH);
*guid16++ = 0;
SDL_strlcpy((char*)guid16, pNewJoystick->joystickname, sizeof(pNewJoystick->guid.data) - 4);
}
if (SDL_IsGameControllerNameAndGUID(pNewJoystick->joystickname, pNewJoystick->guid) &&
SDL_ShouldIgnoreGameController(pNewJoystick->joystickname, pNewJoystick->guid)) {
SDL_free(pNewJoystick);
return DIENUM_CONTINUE;
}
SDL_SYS_AddJoystickDevice(pNewJoystick);
return DIENUM_CONTINUE; /* get next device, please */
}
static BOOL CALLBACK
EnumDevObjectsCallback(LPCDIDEVICEOBJECTINSTANCE dev, LPVOID pvRef)
{
SDL_Joystick *joystick = (SDL_Joystick *)pvRef;
HRESULT result;
input_t *in = &joystick->hwdata->Inputs[joystick->hwdata->NumInputs];
if (dev->dwType & DIDFT_BUTTON) {
in->type = BUTTON;
in->num = joystick->nbuttons;
in->ofs = DIJOFS_BUTTON(in->num);
joystick->nbuttons++;
} else if (dev->dwType & DIDFT_POV) {
in->type = HAT;
in->num = joystick->nhats;
in->ofs = DIJOFS_POV(in->num);
joystick->nhats++;
} else if (dev->dwType & DIDFT_AXIS) {
DIPROPRANGE diprg;
DIPROPDWORD dilong;
in->type = AXIS;
in->num = joystick->naxes;
if (!SDL_memcmp(&dev->guidType, &GUID_XAxis, sizeof(dev->guidType)))
in->ofs = DIJOFS_X;
else if (!SDL_memcmp(&dev->guidType, &GUID_YAxis, sizeof(dev->guidType)))
in->ofs = DIJOFS_Y;
else if (!SDL_memcmp(&dev->guidType, &GUID_ZAxis, sizeof(dev->guidType)))
in->ofs = DIJOFS_Z;
else if (!SDL_memcmp(&dev->guidType, &GUID_RxAxis, sizeof(dev->guidType)))
in->ofs = DIJOFS_RX;
else if (!SDL_memcmp(&dev->guidType, &GUID_RyAxis, sizeof(dev->guidType)))
in->ofs = DIJOFS_RY;
else if (!SDL_memcmp(&dev->guidType, &GUID_RzAxis, sizeof(dev->guidType)))
in->ofs = DIJOFS_RZ;
else if (!SDL_memcmp(&dev->guidType, &GUID_Slider, sizeof(dev->guidType))) {
in->ofs = DIJOFS_SLIDER(joystick->hwdata->NumSliders);
++joystick->hwdata->NumSliders;
} else {
return DIENUM_CONTINUE; /* not an axis we can grok */
}
diprg.diph.dwSize = sizeof(diprg);
diprg.diph.dwHeaderSize = sizeof(diprg.diph);
diprg.diph.dwObj = dev->dwType;
diprg.diph.dwHow = DIPH_BYID;
diprg.lMin = SDL_JOYSTICK_AXIS_MIN;
diprg.lMax = SDL_JOYSTICK_AXIS_MAX;
result =
IDirectInputDevice8_SetProperty(joystick->hwdata->InputDevice,
DIPROP_RANGE, &diprg.diph);
if (FAILED(result)) {
return DIENUM_CONTINUE; /* don't use this axis */
}
/* Set dead zone to 0. */
dilong.diph.dwSize = sizeof(dilong);
dilong.diph.dwHeaderSize = sizeof(dilong.diph);
dilong.diph.dwObj = dev->dwType;
dilong.diph.dwHow = DIPH_BYID;
dilong.dwData = 0;
result =
IDirectInputDevice8_SetProperty(joystick->hwdata->InputDevice,
DIPROP_DEADZONE, &dilong.diph);
if (FAILED(result)) {
return DIENUM_CONTINUE; /* don't use this axis */
}
joystick->naxes++;
} else {
/* not supported at this time */
return DIENUM_CONTINUE;
}
joystick->hwdata->NumInputs++;
if (joystick->hwdata->NumInputs == MAX_INPUTS) {
return DIENUM_STOP; /* too many */
}
return DIENUM_CONTINUE;
}
static SDL_bool
SDL_IsXInputDevice(const GUID* pGuidProductFromDirectInput)
{
static GUID IID_ValveStreamingGamepad = { MAKELONG(0x28DE, 0x11FF), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_X360WiredGamepad = { MAKELONG(0x045E, 0x02A1), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_X360WirelessGamepad = { MAKELONG(0x045E, 0x028E), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_XOneWiredGamepad = { MAKELONG(0x045E, 0x02FF), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_XOneWirelessGamepad = { MAKELONG(0x045E, 0x02DD), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_XOneNewWirelessGamepad = { MAKELONG(0x045E, 0x02D1), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_XOneSWirelessGamepad = { MAKELONG(0x045E, 0x02EA), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_XOneSBluetoothGamepad = { MAKELONG(0x045E, 0x02E0), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static GUID IID_XOneEliteWirelessGamepad = { MAKELONG(0x045E, 0x02E3), 0x0000, 0x0000, { 0x00, 0x00, 0x50, 0x49, 0x44, 0x56, 0x49, 0x44 } };
static const GUID *s_XInputProductGUID[] = {
&IID_ValveStreamingGamepad,
&IID_X360WiredGamepad, /* Microsoft's wired X360 controller for Windows. */
&IID_X360WirelessGamepad, /* Microsoft's wireless X360 controller for Windows. */
&IID_XOneWiredGamepad, /* Microsoft's wired Xbox One controller for Windows. */
&IID_XOneWirelessGamepad, /* Microsoft's wireless Xbox One controller for Windows. */
&IID_XOneNewWirelessGamepad, /* Microsoft's updated wireless Xbox One controller (w/ 3.5 mm jack) for Windows. */
&IID_XOneSWirelessGamepad, /* Microsoft's wireless Xbox One S controller for Windows. */
&IID_XOneSBluetoothGamepad, /* Microsoft's Bluetooth Xbox One S controller for Windows. */
&IID_XOneEliteWirelessGamepad /* Microsoft's wireless Xbox One Elite controller for Windows. */
};
size_t iDevice;
UINT i;
if (!SDL_XINPUT_Enabled()) {
return SDL_FALSE;
}
/* Check for well known XInput device GUIDs */
/* This lets us skip RAWINPUT for popular devices. Also, we need to do this for the Valve Streaming Gamepad because it's virtualized and doesn't show up in the device list. */
for (iDevice = 0; iDevice < SDL_arraysize(s_XInputProductGUID); ++iDevice) {
if (SDL_memcmp(pGuidProductFromDirectInput, s_XInputProductGUID[iDevice], sizeof(GUID)) == 0) {
return SDL_TRUE;
}
}
/* Go through RAWINPUT (WinXP and later) to find HID devices. */
/* Cache this if we end up using it. */
if (SDL_RawDevList == NULL) {
if ((GetRawInputDeviceList(NULL, &SDL_RawDevListCount, sizeof(RAWINPUTDEVICELIST)) == -1) || (!SDL_RawDevListCount)) {
return SDL_FALSE; /* oh well. */
}
SDL_RawDevList = (PRAWINPUTDEVICELIST)SDL_malloc(sizeof(RAWINPUTDEVICELIST) * SDL_RawDevListCount);
if (SDL_RawDevList == NULL) {
SDL_OutOfMemory();
return SDL_FALSE;
}
if (GetRawInputDeviceList(SDL_RawDevList, &SDL_RawDevListCount, sizeof(RAWINPUTDEVICELIST)) == -1) {
SDL_free(SDL_RawDevList);
SDL_RawDevList = NULL;
return SDL_FALSE; /* oh well. */
}
}
for (i = 0; i < SDL_RawDevListCount; i++) {
RID_DEVICE_INFO rdi;
char devName[128];
UINT rdiSize = sizeof(rdi);
UINT nameSize = SDL_arraysize(devName);
rdi.cbSize = sizeof(rdi);
if ((SDL_RawDevList[i].dwType == RIM_TYPEHID) &&
(GetRawInputDeviceInfoA(SDL_RawDevList[i].hDevice, RIDI_DEVICEINFO, &rdi, &rdiSize) != ((UINT)-1)) &&
(MAKELONG(rdi.hid.dwVendorId, rdi.hid.dwProductId) == ((LONG)pGuidProductFromDirectInput->Data1)) &&
(GetRawInputDeviceInfoA(SDL_RawDevList[i].hDevice, RIDI_DEVICENAME, devName, &nameSize) != ((UINT)-1)) &&
(SDL_strstr(devName, "IG_") != NULL)) {
return SDL_TRUE;
}
}
return SDL_FALSE;
}
/*
* Convert a surface into the specified pixel format.
*/
SDL_Surface *
SDL_ConvertSurface(SDL_Surface * surface, const SDL_PixelFormat * format,
Uint32 flags)
{
SDL_Surface *convert;
Uint32 copy_flags;
SDL_Color copy_color;
SDL_Rect bounds;
/* Check for empty destination palette! (results in empty image) */
if (format->palette != NULL) {
int i;
for (i = 0; i < format->palette->ncolors; ++i) {
if ((format->palette->colors[i].r != 0xFF) ||
(format->palette->colors[i].g != 0xFF) ||
(format->palette->colors[i].b != 0xFF))
break;
}
if (i == format->palette->ncolors) {
SDL_SetError("Empty destination palette");
return (NULL);
}
}
/* Create a new surface with the desired format */
convert = SDL_CreateRGBSurface(flags, surface->w, surface->h,
format->BitsPerPixel, format->Rmask,
format->Gmask, format->Bmask,
format->Amask);
if (convert == NULL) {
return (NULL);
}
/* Copy the palette if any */
if (format->palette && convert->format->palette) {
SDL_memcpy(convert->format->palette->colors,
format->palette->colors,
format->palette->ncolors * sizeof(SDL_Color));
convert->format->palette->ncolors = format->palette->ncolors;
}
/* Save the original copy flags */
copy_flags = surface->map->info.flags;
copy_color.r = surface->map->info.r;
copy_color.g = surface->map->info.g;
copy_color.b = surface->map->info.b;
copy_color.a = surface->map->info.a;
surface->map->info.r = 0xFF;
surface->map->info.g = 0xFF;
surface->map->info.b = 0xFF;
surface->map->info.a = 0xFF;
surface->map->info.flags = 0;
SDL_InvalidateMap(surface->map);
/* Copy over the image data */
bounds.x = 0;
bounds.y = 0;
bounds.w = surface->w;
bounds.h = surface->h;
SDL_LowerBlit(surface, &bounds, convert, &bounds);
/* Clean up the original surface, and update converted surface */
convert->map->info.r = copy_color.r;
convert->map->info.g = copy_color.g;
convert->map->info.b = copy_color.b;
convert->map->info.a = copy_color.a;
convert->map->info.flags =
(copy_flags &
~(SDL_COPY_COLORKEY | SDL_COPY_BLEND
| SDL_COPY_RLE_DESIRED | SDL_COPY_RLE_COLORKEY |
SDL_COPY_RLE_ALPHAKEY));
surface->map->info.r = copy_color.r;
surface->map->info.g = copy_color.g;
surface->map->info.b = copy_color.b;
surface->map->info.a = copy_color.a;
surface->map->info.flags = copy_flags;
SDL_InvalidateMap(surface->map);
if (copy_flags & SDL_COPY_COLORKEY) {
SDL_bool set_colorkey_by_color = SDL_FALSE;
if (surface->format->palette) {
if (format->palette &&
surface->format->palette->ncolors <= format->palette->ncolors &&
(SDL_memcmp(surface->format->palette->colors, format->palette->colors,
surface->format->palette->ncolors * sizeof(SDL_Color)) == 0)) {
/* The palette is identical, just set the same colorkey */
SDL_SetColorKey(convert, 1, surface->map->info.colorkey);
} else if (format->Amask) {
/* The alpha was set in the destination from the palette */
} else {
set_colorkey_by_color = SDL_TRUE;
}
} else {
set_colorkey_by_color = SDL_TRUE;
}
if (set_colorkey_by_color) {
/* Set the colorkey by color, which needs to be unique */
Uint8 keyR, keyG, keyB, keyA;
SDL_GetRGBA(surface->map->info.colorkey, surface->format, &keyR,
&keyG, &keyB, &keyA);
SDL_SetColorKey(convert, 1,
SDL_MapRGBA(convert->format, keyR, keyG, keyB, keyA));
/* This is needed when converting for 3D texture upload */
SDL_ConvertColorkeyToAlpha(convert);
}
}
SDL_SetClipRect(convert, &surface->clip_rect);
/* Enable alpha blending by default if the new surface has an
* alpha channel or alpha modulation */
if ((surface->format->Amask && format->Amask) ||
(copy_flags & (SDL_COPY_COLORKEY|SDL_COPY_MODULATE_ALPHA))) {
SDL_SetSurfaceBlendMode(convert, SDL_BLENDMODE_BLEND);
}
if ((copy_flags & SDL_COPY_RLE_DESIRED) || (flags & SDL_RLEACCEL)) {
SDL_SetSurfaceRLE(convert, SDL_RLEACCEL);
}
/* We're ready to go! */
return (convert);
}
/*
* Checks to see if two GUID are the same.
*/
static int
DI_GUIDIsSame(const GUID * a, const GUID * b)
{
return (SDL_memcmp(a, b, sizeof (GUID)) == 0);
}
/* helper function for direct input, gets called for each connected joystick */
static BOOL CALLBACK
EnumJoysticksCallback(const DIDEVICEINSTANCE * pdidInstance, VOID * pContext)
{
const Uint16 BUS_USB = 0x03;
const Uint16 BUS_BLUETOOTH = 0x05;
JoyStick_DeviceData *pNewJoystick;
JoyStick_DeviceData *pPrevJoystick = NULL;
const DWORD devtype = (pdidInstance->dwDevType & 0xFF);
Uint16 *guid16;
if (devtype == DI8DEVTYPE_SUPPLEMENTAL) {
return DIENUM_CONTINUE; /* Ignore touchpads, etc. */
}
if (SDL_IsXInputDevice(&pdidInstance->guidProduct)) {
return DIENUM_CONTINUE; /* ignore XInput devices here, keep going. */
}
pNewJoystick = *(JoyStick_DeviceData **)pContext;
while (pNewJoystick) {
if (!SDL_memcmp(&pNewJoystick->dxdevice.guidInstance, &pdidInstance->guidInstance, sizeof(pNewJoystick->dxdevice.guidInstance))) {
/* if we are replacing the front of the list then update it */
if (pNewJoystick == *(JoyStick_DeviceData **)pContext) {
*(JoyStick_DeviceData **)pContext = pNewJoystick->pNext;
} else if (pPrevJoystick) {
pPrevJoystick->pNext = pNewJoystick->pNext;
}
pNewJoystick->pNext = SYS_Joystick;
SYS_Joystick = pNewJoystick;
return DIENUM_CONTINUE; /* already have this joystick loaded, just keep going */
}
pPrevJoystick = pNewJoystick;
pNewJoystick = pNewJoystick->pNext;
}
pNewJoystick = (JoyStick_DeviceData *)SDL_malloc(sizeof(JoyStick_DeviceData));
if (!pNewJoystick) {
return DIENUM_CONTINUE; /* better luck next time? */
}
SDL_zerop(pNewJoystick);
pNewJoystick->joystickname = WIN_StringToUTF8(pdidInstance->tszProductName);
if (!pNewJoystick->joystickname) {
SDL_free(pNewJoystick);
return DIENUM_CONTINUE; /* better luck next time? */
}
SDL_memcpy(&(pNewJoystick->dxdevice), pdidInstance,
sizeof(DIDEVICEINSTANCE));
SDL_memset(pNewJoystick->guid.data, 0, sizeof(pNewJoystick->guid.data));
guid16 = (Uint16 *)pNewJoystick->guid.data;
if (SDL_memcmp(&pdidInstance->guidProduct.Data4[2], "PIDVID", 6) == 0) {
*guid16++ = SDL_SwapLE16(BUS_USB);
*guid16++ = 0;
*guid16++ = SDL_SwapLE16((Uint16)LOWORD(pdidInstance->guidProduct.Data1)); /* vendor */
*guid16++ = 0;
*guid16++ = SDL_SwapLE16((Uint16)HIWORD(pdidInstance->guidProduct.Data1)); /* product */
*guid16++ = 0;
*guid16++ = 0; /* version */
*guid16++ = 0;
} else {
*guid16++ = SDL_SwapLE16(BUS_BLUETOOTH);
*guid16++ = 0;
SDL_strlcpy((char*)guid16, pNewJoystick->joystickname, sizeof(pNewJoystick->guid.data) - 4);
}
SDL_SYS_AddJoystickDevice(pNewJoystick);
return DIENUM_CONTINUE; /* get next device, please */
}
int
main(int argc, char *argv[])
{
const char *formats[] = {
"UTF8",
"UTF-8",
"UTF16BE",
"UTF-16BE",
"UTF16LE",
"UTF-16LE",
"UTF32BE",
"UTF-32BE",
"UTF32LE",
"UTF-32LE",
"UCS4",
"UCS-4",
};
char buffer[BUFSIZ];
char *ucs4;
char *test[2];
int i;
FILE *file;
int errors = 0;
/* Enable standard application logging */
SDL_LogSetPriority(SDL_LOG_CATEGORY_APPLICATION, SDL_LOG_PRIORITY_INFO);
if (!argv[1]) {
argv[1] = "utf8.txt";
}
file = fopen(argv[1], "rb");
if (!file) {
SDL_LogError(SDL_LOG_CATEGORY_APPLICATION, "Unable to open %s\n", argv[1]);
return (1);
}
while (fgets(buffer, sizeof(buffer), file)) {
/* Convert to UCS-4 */
size_t len;
ucs4 =
SDL_iconv_string("UCS-4", "UTF-8", buffer,
SDL_strlen(buffer) + 1);
len = (widelen(ucs4) + 1) * 4;
for (i = 0; i < SDL_arraysize(formats); ++i) {
test[0] = SDL_iconv_string(formats[i], "UCS-4", ucs4, len);
test[1] = SDL_iconv_string("UCS-4", formats[i], test[0], len);
if (!test[1] || SDL_memcmp(test[1], ucs4, len) != 0) {
SDL_LogError(SDL_LOG_CATEGORY_APPLICATION, "FAIL: %s\n", formats[i]);
++errors;
}
SDL_free(test[0]);
SDL_free(test[1]);
}
test[0] = SDL_iconv_string("UTF-8", "UCS-4", ucs4, len);
SDL_free(ucs4);
fputs(test[0], stdout);
SDL_free(test[0]);
}
fclose(file);
return (errors ? errors + 1 : 0);
}
