static void resetGpuState() {
if (NULL == gContext) {
SkDebugf("creating context for first time\n");
gContext = make_context();
} else {
SkDebugf("------ gContext refcnt=%d\n", gContext->refcnt());
gContext->abandonAllTextures();
gContext->unref();
gContext = make_context();
}
}
void scene9(void)
{
int width, height, scanline;
int i, formula = 1;
char *buffer1;
signal(SIGFPE, SIG_IGN);
width = aa_imgwidth(context);
height = aa_imgheight(context);
scanline = width;
buffer1 = context->imagebuffer;
params->bright = -255;
params->dither = AA_NONE;
zcontext = make_context(width, height, scanline, 0, 1, flip_buffers, ui_waitfunc, buffer1, buffer1, get_pixelwidth(width), get_pixelheight(height));
if (!zcontext) {
exit(-1);
}
set_formula(zcontext, formula);
for (i = 0; i < 255; i++) {
zcontext->colors[i] = (i * 15) % 255 + 1;
}
zcontext->colors[0] = 0;
zcontext->num_colors = 255;
tbreak = 2;
zcontext->maxiter = 255;
fastmode--;
zcontext->range = 8;
zcontext->incoloringmode = 0;
zcontext->coloringmode = 0;
zcontext->plane = 0;
starttime = endtime;
sef = 1;
eef = 0;
is = -1;
rs = -1;
ie = 2;
re = -2;
timestuff(0, NULL, juliov, ETIME2);
sef = 0;
eef = 0;
is = ie, rs = re;
ie = 2;
re = 2;
timestuff(0, NULL, juliov, ETIME2);
sef = 0;
eef = 0;
is = ie, rs = re;
ie = -2;
re = 2;
timestuff(0, NULL, juliov, ETIME2);
sef = 0;
eef = 1;
is = ie, rs = re;
ie = 2;
re = -2;
timestuff(0, NULL, juliov, ETIME2);
context->imagebuffer = buffer1;
params->bright = 0;
params->dither = AA_FLOYD_S;
}
auto process_format_aux(F f, Format, Pairs... pairs)
{
return apply_actions
(
make_actions<CTTE_MAKE_STRING(Format)>{},
make_context(pairs...),
std::move(f)
);
}
draw_context_t GSFrameBase::new_context()
{
if (void* context = make_context())
{
return std::shared_ptr<void>(context, [this](void* ctxt) { delete_context(ctxt); });
}
return nullptr;
}
int main(int argc, char *argv[])
{
filedb_top(".");
make_init();
context* ctx = make_context();
assert(lib_read(argv[1],strlen(argv[1]),ctx));
VipsImage* image = lib_thumbnail(ctx);
lib_write(image,argv[2],1,ctx);
return 0;
}
static void doDraw() {
if (NULL == gContext) {
gContext = make_context();
}
State* state = get_state();
SkBitmap viewport;
viewport.setConfig(SkBitmap::kARGB_8888_Config,
state->getWidth(), state->getHeight());
SkGpuCanvas canvas(gContext);
canvas.setBitmapDevice(viewport);
state->applyMatrix(&canvas);
drawIntoCanvas(state, &canvas);
GrGLCheckErr();
GrGLClearErr();
// gContext->checkError();
// gContext->clearError();
if (true) {
static const int FRAME_COUNT = 32;
static SkMSec gDuration;
static SkMSec gNow;
static int gFrameCounter;
if (++gFrameCounter == FRAME_COUNT) {
gFrameCounter = 0;
SkMSec now = SkTime::GetMSecs();
gDuration = now - gNow;
gNow = now;
}
int fps = (FRAME_COUNT * 1000) / gDuration;
SkString str;
str.printf("FPS=%3d MS=%3d", fps, gDuration / FRAME_COUNT);
SkGpuCanvas c(gContext);
c.setBitmapDevice(viewport);
SkPaint p;
p.setAntiAlias(true);
SkRect r = { 0, 0, 110, 16 };
p.setColor(SK_ColorWHITE);
c.drawRect(r, p);
p.setColor(SK_ColorBLACK);
c.drawText(str.c_str(), str.size(), 4, 12, p);
}
}
bool MediaPlayer::stop()
{
HRESULT hr;
bool success = true;
hr = m_context->spMediaControl->Stop();
if(FAILED(hr)) {
m_context->error = vfwErrorString("IMediaControl::Stop() failed", hr);
success = false;
}
m_context = make_context(m_context->hwnd);
return success;
}
MediaPlayer::MediaPlayer()
: m_context()
, m_version("")
, m_type("Mac")
{
try
{
m_context = make_context();
}
catch(const InitializationException& e)
{
m_context = PlayerContextPtr(new PlayerContext);
m_context->error = e.what();
throw;
}
}
Context(
const x11::Display& display,
const FBConfig& fbc,
int version_major,
int version_minor
): x11::DisplayObject< ::GLXContext, void(::Display*, ::GLXContext)>(
display,
make_context(
display,
fbc,
version_major,
version_minor
),
::glXDestroyContext,
"Error creating glX context"
){ }
void go_up_level(bool is_quote)
{
int col_tag;
lexical_stack_height++;
lexical_stack = realloc(lexical_stack,sizeof(void*)*lexical_stack_height);
/* This is where the tagging takes place: */
if(is_quote==true)
{
col_tag=QUOTE;
push(scope_stack,make_context(peek(scope_stack)));
}
else
col_tag=LIST;
ccell* new_cell = cons(NULL,NULL);
lexical_stack[lexical_stack_height-1] =make_cd(col_tag,peek(scope_stack),new_cell);
current_col_size = 0;
current_node = new_cell;
}
MediaPlayer::MediaPlayer()
: m_context()
, m_version("")
, m_type("DirectShow")
{
::CoInitializeEx(0, COINIT_MULTITHREADED);
try
{
m_context = make_context(0);
}
catch(const InitializationException& e)
{
if(!m_context)
m_context = PlayerContextPtr(new PlayerContext);
m_context->error = e.what();
throw;
}
}
bool MediaPlayer::play(const std::string& file_)
{
HRESULT hr;
CA2W fileConversion(file_.c_str());
CComBSTR file(fileConversion);
PlayerContextPtr context = make_context(m_context->hwnd);
hr = context->spGraph->RenderFile(file, 0);
if(FAILED(hr)) {
m_context->error = vfwErrorString("IGraphBuilder::RenderFile() failed", hr);
return false;
}
OAFilterState state;
hr = m_context->spMediaControl->GetState(50, &state);
if(FAILED(hr)) {
m_context->error = vfwErrorString("IMediaControl::GetState() failed", hr);
return false;
}
if(state == State_Running) {
hr = m_context->spMediaControl->Stop();
if(FAILED(hr)) {
m_context->error = vfwErrorString("IMediaControl::Stop() failed: ", hr);
return false;
}
}
std::swap(m_context, context);
activateVideo(m_context);
hr = m_context->spMediaControl->Run();
if(FAILED(hr)) {
m_context->error = vfwErrorString("IMediaControl::Run() failed", hr);
return false;
}
return true;
}
auto for_each_part_aux(Format, Pairs... pairs)
{
auto context = make_context(pairs...);
return for_each_part_aux_operator<decltype(context), Format>{std::move(context)};
}
void scene6(void)
{
int width, height, scanline;
int i, formula = 0;
char *buffer1, *buffer2;
displayed = 0;
incalculation = 0;
fastmode = 2;
interruptiblemode = 0;
autopilot = 0;
maxstep = MAXSTEP;
speedup = STEP;
step = 0;
tbreak = 0;
maintimer = tl_create_timer();
signal(SIGFPE, SIG_IGN);
width = aa_imgwidth(context);
height = aa_imgheight(context);
scanline = width;
buffer1 = context->imagebuffer;
buffer2 = malloc(width * height);
endtime = starttime + ETIME1;
params->bright = -255;
zcontext = make_context(width, height, scanline, 0, 1, flip_buffers, ui_waitfunc, buffer1, buffer2, get_pixelwidth(width), get_pixelheight(height));
if (!zcontext) {
exit(-1);
}
set_formula(zcontext, formula);
for (i = 0; i < 255; i++) {
/*zcontext->colors[i] = (i * 15) % 255 + 1; */
zcontext->colors[i] = (i * 8) % 255 + 1;
}
zcontext->colors[0] = 0;
zcontext->num_colors = 255;
tbreak = 2;
zcontext->maxiter = 150;
fastmode--;
zcontext->range = 8;
zcontext->incoloringmode = 0;
zcontext->coloringmode = 0;
zcontext->plane = 0;
ui_do_fractal(NEW_IMAGE);
ui_autopilot();
speedup = 1 * STEP;
maxstep *= 5;
step = -maxstep;
tl_process_group(syncgroup, NULL);
bbupdate();
tl_reset_timer(maintimer);
main_loop();
starttime = endtime;
context->imagebuffer = buffer1;
free(buffer2);
tl_free_timer(maintimer);
params->bright = 0;
params->randomval = 0;
initlepic();
drawptr = mydraw1;
timestuff(-60, ctrllepic, draw, 2000000);
drawptr = mydraw;
/*timestuff(60, NULL, draw, 4 * 1000000); */
/*timestuff(20, blur, draw, 4 * 1000000); */
timestuff(60, NULL, draw, 3 * 1000000);
}
INT32 os_create_process(char *name, void *test_name, INT32 initial_prriority,INT32 *pid_ptr,INT32 *p_error_prt, INT32 status)
{
S_PCB *PCB_PTR = NULL;
if(initial_prriority == ILLEGAL)
{
*p_error_prt = ERR_BAD_PARAM;
return -1;
}
if(readyHead != NULL)
{
S_PCB *temp =readyHead;
while(temp != NULL)
{
if(strcmp(temp->p_name, name) == 0)
{
printf("same name error");
(*p_error_prt) = ERR_BAD_PARAM;
return -1;
}
else
{
temp = temp->next;
}
}
}
if(timerHead != NULL)
{
S_PCB *temp =timerHead;
while(temp != NULL)
{
if(strcmp(temp->p_name, name) == 0)
{
printf("same name error");
(*p_error_prt) = ERR_BAD_PARAM;
return -1;
}
else
{
temp = temp->next;
}
}}
//check total pid
(*p_error_prt) = ERR_BAD_PARAM;
PCB_PTR = (S_PCB*)(malloc(sizeof(S_PCB)));
PCB_PTR-> p_time = 0;
PCB_PTR->p_status = status;
PCB_PTR->p_position = CREATE;
PCB_PTR->p_id = PCBSTRARTID;
(*pid_ptr) = PCBSTRARTID;
PCBSTRARTID++;
PCB_PTR->p_time = 0;
PCB_PTR->p_priority = initial_prriority;
strcpy(PCB_PTR->p_name, name);
if(PCBSTRARTID >MAXPROCESS)
{
*p_error_prt = TOOMUCHPROCESSES;
return -1;
}
make_context(PCB_PTR, test_name);
if(status == RUN)
{
addToReadyQ(PCB_PTR);
Dispatcher();
}
else
{
addToReadyQ(PCB_PTR);
*p_error_prt = ERR_SUCCESS;
}
return 0;
}
/* Accepts the mipmap dir, the output filename */
int
main(int argc, char *argv[])
{
/* Get arguments */
char * output_dir = argv[1];
char * filename = argv[2];
/* Create GLES2 context */
make_context();
/* List directories (adapted from scandir manpage) */
struct dirent **namelist;
int levels = scandir(output_dir, &namelist, no_dot_output_filter, alphasort);
if (levels < 0)
perror("scandir");
/* Structs used to write the final output */
KTX_texture_info tex_info;
KTX_image_info *img_info = (KTX_image_info*)malloc(levels * sizeof(KTX_image_info));
int cur_lev;
char cur_path[4096];
/* Write a file from Memory */
/* Write memory object to file */
strcpy(cur_path, output_dir);
strcat(cur_path, filename);
FILE* fileo = fopen(cur_path, "wb");
if (fileo == NULL)
printf("File not opened\n");
for (cur_lev = 0; cur_lev < levels; ++cur_lev) {
/* Create full file path */
char * cur_file = namelist[cur_lev]->d_name;
strcpy(cur_path, output_dir);
strcat(cur_path, cur_file);
//printf("%s\n", cur_path);
/* Read in the file from memory */
FILE* file = fopen(cur_path, "rb");
if (file == NULL)
printf("File not opened\n");
/* Read the identifier and endianness */
uint32_t header_top[4];
size_t size_read = fread(header_top, 1, 16, file);
if (size_read < 16)
printf("bad read 0\n");
/* Read the appropriate header bits */
KTX_texture_info ltex_info;
size_read = fread(<ex_info, 1, sizeof(ltex_info), file);
if (size_read < sizeof(ltex_info))
printf("bad read 1\n");
/* Skip the bytes of Key Value Data */
int error = fseek(file, 4, SEEK_CUR);
if (error)
printf("File seek bad\n");
/* Get the image size */
GLsizei *lsize = &img_info[cur_lev].size;
GLubyte **ldata = &img_info[cur_lev].data;
size_read = fread(lsize, 1, 4, file);
if (size_read < 4)
printf("bad read 2\n");
/* Get the image data */
*ldata = (GLubyte*) malloc(*lsize);
size_read = fread(*ldata, 1, *lsize, file);
if (size_read < *lsize)
printf("bad read 2\n");
/* Clean up */
free(namelist[cur_lev]);
/* Close the file */
if (file != NULL)
fclose(file);
/* Fill out final struct */
if (cur_lev == 0) {
memcpy(&tex_info, <ex_info, sizeof(ltex_info));
/* Update the mipmap section */
tex_info.numberOfMipmapLevels = levels;
/* Update the final file with this data */
uint32_t nokvdat = 0;
fwrite(header_top, 16, 1, fileo);
fwrite(&tex_info, sizeof(tex_info), 1, fileo);
fwrite(&nokvdat, sizeof(nokvdat), 1, fileo);
}
/* Update the final file with this data */
fwrite(lsize, sizeof(GLubyte), 1, fileo);
fwrite(*ldata, *lsize, 1, fileo);
/* mip padding */
error = fseek(fileo, 3-((*lsize+3) % 4), SEEK_CUR);
if (error)
printf("File seek bad\n");
}
///KTX_error_code kec;
///kec = ktxWriteKTXN(cur_path, &tex_info, 0, NULL, levels, img_info);
///printf("%s - %s\n", cur_path, ktxErrorString(kec));
/* Close the file */
if (fileo != NULL)
fclose(fileo);
/* Cleanup */
free(namelist);
for (cur_lev = 0; cur_lev < levels; ++cur_lev)
free(img_info[cur_lev].data);
free(img_info);
return 0;
}
