Exemplo n.º 1
0
/*扫描模块的定义*/
void module_parse_def(int * pos)
{
	TokenInfo t_k;
	token_Get(pos,&t_k);
	/*更新模块名*/
	set_context(t_k.content);
	token_Get(pos,&t_k);
	int brace=-1;
	/*第二遍扫描,扫描所有函数以及类的定义*/
	{
		do
		{
			token_Get(pos,&t_k);
			switch(t_k.type)
			{
			case TOKEN_TYPE_EOF:
				break;
				/*发现函数的定义符号,定义函数*/
			case TOKEN_TYPE_FUNC_DEF:
				func_ParseDef(pos);
				break;
			case TOKEN_TYPE_USING:
				module_parse_using(pos);
				break;
				/*发现类的定义*/
			case TOKEN_TYPE_STRUCT:
				struct_ParseDefine(pos);/*解析类*/
				break;
			case TOKEN_TYPE_LEFT_BRACE:
				brace--;
				break;
			case TOKEN_TYPE_RIGHT_BRACE:
				brace++;
				if(brace==0)
				{
					t_k.type=TOKEN_TYPE_EOF;
				}
				break;
			default :
				printf("the token %d is unknown %s\n",t_k.type,t_k.content);
				printf("error !!\n");
				exit(0);
				break;
			}
		}
		while(t_k.type!=TOKEN_TYPE_EOF);
	}
	/*将当前模块重置为全局*/
	set_context("\0");
}
Exemplo n.º 2
0
static int vdadec_decode(AVCodecContext *avctx,
        void *data, int *got_frame, AVPacket *avpkt)
{
    VDADecoderContext *ctx = avctx->priv_data;
    AVFrame *pic = data;
    int ret;

    set_context(avctx);
    ret = ff_h264_decoder.decode(avctx, data, got_frame, avpkt);
    restore_context(avctx);
    if (*got_frame) {
        AVBufferRef *buffer = pic->buf[0];
        VDABufferContext *context = av_buffer_get_opaque(buffer);
        CVPixelBufferRef cv_buffer = (CVPixelBufferRef)pic->data[3];

        CVPixelBufferRetain(cv_buffer);
        CVPixelBufferLockBaseAddress(cv_buffer, 0);
        context->cv_buffer = cv_buffer;
        pic->format = ctx->pix_fmt;
        if (CVPixelBufferIsPlanar(cv_buffer)) {
            int i, count = CVPixelBufferGetPlaneCount(cv_buffer);
            av_assert0(count < 4);
            for (i = 0; i < count; i++) {
                pic->data[i] = CVPixelBufferGetBaseAddressOfPlane(cv_buffer, i);
                pic->linesize[i] = CVPixelBufferGetBytesPerRowOfPlane(cv_buffer, i);
            }
        } else {
            pic->data[0] = CVPixelBufferGetBaseAddress(cv_buffer);
            pic->linesize[0] = CVPixelBufferGetBytesPerRow(cv_buffer);
        }
    }
    avctx->pix_fmt = ctx->pix_fmt;

    return ret;
}
Exemplo n.º 3
0
int lib$show_timer (void * handle_address, int * code, int (*user_action_procedure)(), unsigned long user_argument_value) {
  long * context = handle_address;
  int status;
  long * mycontext = 0;
  if (*context == -1)
    mycontext = &timer_context[0];
  if (*context == 0)
    mycontext = *context = malloc (5 * sizeof(long));

  long new_context[5];
  memset (&new_context[0], 0, 5 * sizeof(long));

  set_context(&new_context[0]);

  char c[256];
  sprintf(c, "ELAPSED: %d CPU: %d BUFIO: %d  DIRIO: %d  FAULTS: %d", new_context[0]-mycontext[0], new_context[0]-mycontext[0], new_context[1]-mycontext[1], new_context[2]-mycontext[2], new_context[3]-mycontext[3], new_context[4]-mycontext[4]); // pretty-print later
  struct dsc$descriptor d;

  struct dsc$descriptor * out_str = &d;

  out_str->dsc$a_pointer = c;
  out_str->dsc$w_length = strlen(c);

  if (user_action_procedure)
    user_action_procedure (out_str, user_argument_value);
  else
    printf("%s\n", out_str->dsc$a_pointer);
  return SS$_NORMAL;
}
Exemplo n.º 4
0
/*扫描模块*/
void module_parse_declare(int * pos)
{
	TokenInfo t_k;
	token_Get(pos,&t_k);
	/*更新模块名*/
	set_context(t_k.content);
	/*跳过左边的花括号*/
	token_Get(pos,&t_k);
	int brace=-1;
	{
		/*扫描模块内部的声明*/
		do
		{
			token_Get(pos,&t_k);
			switch(t_k.type)
			{
			case TOKEN_TYPE_EOF:
				break;
			case TOKEN_TYPE_LEFT_BRACE:
				brace--;
				break;
			case TOKEN_TYPE_RIGHT_BRACE:
				brace++;
				if(brace==0)
				{
					t_k.type=TOKEN_TYPE_EOF;
				}
				break;
				/*发现函数的定义符号,声明函数*/
			case TOKEN_TYPE_FUNC_DEF:
				func_ParseDeclare(pos);
				break;
				/*发现类的定义,声明类*/
			case TOKEN_TYPE_STRUCT:
				struct_ParseDeclare(pos);
				token_SkipBlock(pos);/*略过类定义块*/
				break;
			default :
				break;
			}
		}
		while(t_k.type!=TOKEN_TYPE_EOF);
	}
	/*将当前模块重置为全局*/
	set_context("\0");
}
Exemplo n.º 5
0
/*!

\brief Constructor.
\param[in] Name String containing the name of the Plugin.
\param[in] DeleteMode PluginDeletModeEnum specifying the delete mode to be used for the
Plugin.
\param[in] context Pointer to the runtime context.
\param[in] lib Pointer to the DynamicLibrary used to load the Plugin.

*/
dmz::PluginInfo::PluginInfo (
      const String &Name,
      const PluginDeleteModeEnum DeleteMode,
      RuntimeContext *context,
      DynamicLibrary *lib) : _state (*(new State (Name, DeleteMode, context))) {

   set_context (context);
   set_dynamic_library (lib);
}
Exemplo n.º 6
0
int lib$init_timer (long * context) {
  long * mycontext = 0;
  if (*context == -1)
    mycontext = &timer_context[0];
  if (*context == 0)
    mycontext = *context = malloc (5 * sizeof(long));
  memset (mycontext, 0, 5 * sizeof(long));
  set_context (mycontext);
  return SS$_NORMAL;
}
Exemplo n.º 7
0
int main (int argc, char * argv[])
{
//#define CHECK_CDROM 1
#ifdef CHECK_CDROM
SDL_Init(SDL_INIT_CDROM);
std::cout << SDL_CDNumDrives() << " CD- / DVD-ROM drives available."  << std::endl;
    for (int i = 0; i < SDL_CDNumDrives(); i++ )
    {
    std::cout << i << ". " << SDL_CDName(i) << std::endl;
    }
#else
SDL_Init(0);
#endif

    while (!app_exit)
    {
    SDL_InitSubSystem(SDL_INIT_VIDEO);
    SDL_Surface * screen;
    screen = NULL;
    set_context(screen,
                context_config[0], // w
                context_config[1], // h
                context_config[2], // fullscreen
                context_config[3], // framebuffer size
                context_config[4], // multisamples
                context_config[5], // multisample buffer
                context_config[6], // bpp
                context_config[7]  // depthbuffer size
                );
    Application app;
    app.initialize(context_config);

        if (argc > 1)
        {
        app.load_scene(scene_config, argv[1]);
        }
        else
        {
        app.load_scene(scene_config, "testFile.bullet");
        }

    app.run(&app_exit);

    app.close_scene();
    app.close();

    SDL_FreeSurface(screen);
    screen = NULL;
    SDL_QuitSubSystem(SDL_INIT_VIDEO);
    }

SDL_Quit();
std::cout << "main() quit" << std::endl;
return 0;
}
Exemplo n.º 8
0
static int set_context_from_socket( const struct service_config *scp, int fd )
{
   security_context_t curr_context = NULL;
   security_context_t peer_context = NULL;
   security_context_t exec_context = NULL;
   context_t bcon = NULL;
   context_t pcon = NULL;
   security_context_t new_context = NULL;
   security_context_t new_exec_context = NULL;
   int retval = -1;
   const char *exepath = NULL;

   if (getcon(&curr_context) < 0)
     goto fail;
   
   if (getpeercon(fd, &peer_context) < 0)
     goto fail;

   exepath = SC_SERVER_ARGV( scp )[0];
   if (getfilecon(exepath, &exec_context) < 0)
     goto fail;

   if (!(bcon = context_new(curr_context)))
     goto fail;

   if (!(pcon = context_new(peer_context)))
     goto fail;

   if (!context_range_get(pcon))
     goto fail;
   
   if (context_range_set(bcon, context_range_get(pcon)))
     goto fail;

   if (!(new_context = context_str(bcon)))
     goto fail;
   
   if (security_compute_create(new_context, exec_context, SECCLASS_PROCESS,
                               &new_exec_context) < 0)
     goto fail;

   retval = set_context(new_exec_context);

   freecon(new_exec_context);

 fail:
   context_free(pcon);
   context_free(bcon);
   freecon(exec_context);   
   freecon(peer_context);
   freecon(curr_context);

   return retval;
}
Exemplo n.º 9
0
	void test_gzip()
	{
		std::cout << "- Page Gzip" << std::endl;
		set_context(true);
		cache().clear();
		TEST(request().getenv("HTTP_ACCEPT_ENCODING") == "gzip, deflate");
		cache().fetch_page("test");
		response().out() << "gzip";
		cache().store_page("test");
		TEST(str().substr(0,2)=="\x1f\x8b");
		TEST(gzip_);
		
		set_context(false);
	
		TEST(request().getenv("HTTP_ACCEPT_ENCODING") == "");
		TEST(cache_size() == 1);

		TEST(cache().fetch_page("test") ==false);
		response().out() << "gzip";
		cache().store_page("test");
		TEST(str() == "gzip");
		TEST(!gzip_);

		set_context(false);
		TEST(cache().fetch_page("test"));
		TEST(str()=="gzip");
		TEST(!gzip_);

		set_context(true);
		TEST(cache().fetch_page("test"));
		TEST(str().substr(0,2)=="\x1f\x8b");
		TEST(gzip_);

		set_context(false);
		TEST(cache_size()==2);
		cache().clear();
		TEST(cache_size()==0);
		release_context();
	}
Exemplo n.º 10
0
static av_cold int vdadec_close(AVCodecContext *avctx)
{
    VDADecoderContext *ctx = avctx->priv_data;
    /* release buffers and decoder */
    ff_vda_destroy_decoder(&ctx->vda_ctx);
    /* close H.264 decoder */
    if (ctx->h264_initialized) {
        set_context(avctx);
        ff_h264_decoder.close(avctx);
        restore_context(avctx);
    }
    return 0;
}
Exemplo n.º 11
0
Arquivo: acl.c Projeto: nicboul/xia
int acl_init(char *x509, char *addr, uint16_t port)
{
	journal_ftrace(__func__);

	acl_x509 = strdup(x509);
	set_context(acl_x509);

	acl_addr = strdup(addr);
	acl_port = port;

	event_register(EVENT_EXIT, "acl_fini", acl_fini, PRIO_AGNOSTIC);

	return 0;
}
Exemplo n.º 12
0
	void test_basic()
	{
		std::cout << "- Page Basic" << std::endl;
		
		set_context(false);
		TEST(cache().has_cache());
		TEST(!cache().fetch_page("test"));
		response().out() << "test";
		cache().add_trigger("x");
		cache().store_page("test");
		TEST(str()=="test");
		
		set_context(false);
		TEST(cache_size()==1);
		TEST(cache().fetch_page("test"));
		TEST(str()=="test");
		
		set_context(false);
		cache().rise("x");
		TEST(cache_size() == 0);
		TEST(!cache().fetch_page("test"));
		cache().add_trigger("x");
		response().out() << "test2";
		cache().reset(); // reset works
		cache().store_page("test",2);
		TEST(str()=="test2");
		set_context(false);
		cache().rise("x");
		TEST(cache_size() == 1);
		TEST(cache().fetch_page("test"));
		TEST(str() == "test2");
		booster::ptime::millisleep(3000);
		set_context(false);
		TEST(cache().fetch_page("test")==false);
		cache().clear();
		release_context();
	}
Exemplo n.º 13
0
void Planet::init() {
  set_context(&worker_);

  // build application methods
  //           /.inspect
  adopt(new TMethod<Planet, &Planet::inspect>(this, Url(INSPECT_URL).name(), StringIO("url", "Returns some information on the state of a node.")));
  //          /class
  classes_ = adopt(new ClassFinder(Url(CLASS_URL).name(), DEFAULT_OBJECTS_LIB_PATH));
  //          /rubyk
  Object *rubyk = adopt(new Object(Url(RUBYK_URL).name()));
  //          /rubyk/link [[["","source url"],["", "target url"]], "Create a link between two urls."]
  rubyk->adopt(new TMethod<Planet, &Planet::link>(this, Url(LINK_URL).name(), JsonValue("[['','', ''],'url','op','url','Update a link between the two provided urls. Operations are '=>' (link) '||' (unlink) or '?' (pending).']")));
  //          /rubyk/quit
  rubyk->adopt(new TMethod<Planet, &Planet::quit>(this, Url(QUIT_URL).name(), NilIO("Stop all operations and quit.")));
}
Exemplo n.º 14
0
Arquivo: bridge.c Projeto: nicboul/xia
int bridge_init(char *x509, char *addr, uint16_t port)
{
	journal_ftrace(__func__);

	bridge_x509 = strdup(x509);
	bridge_addr = strdup(addr);
	bridge_port = port;
	
	if (set_context(bridge_x509)) {
		journal_notice("bridge]> set_context failed :: %s:%i\n", __FILE__, __LINE__);
		return -1;
	}

	event_register(EVENT_EXIT, "bridge_fini", bridge_fini, PRIO_AGNOSTIC);

	return 0;
}
Exemplo n.º 15
0
enum thing layer_to_board_object_type(struct world *mzx_world)
{
  int dialog_result;
  struct element *elements[3];
  struct dialog di;
  int object_type = 0;
  const char *radio_button_strings[] =
  {
    "Custom Block",
    "Custom Floor",
    "Text"
  };

  // Prevent previous keys from carrying through.
  force_release_all_keys();

  set_context(CTX_BLOCK_TYPE);
  elements[0] = construct_radio_button(6, 4, radio_button_strings,
   3, 12, &object_type);
  elements[1] = construct_button(5, 11, "OK", 0);
  elements[2] = construct_button(15, 11, "Cancel", -1);

  construct_dialog(&di, "Object type", 26, 4, 28, 14,
   elements, 3, 0);

  dialog_result = run_dialog(mzx_world, &di);

  destruct_dialog(&di);
  pop_context();

  // Prevent UI keys from carrying through.
  force_release_all_keys();

  if(dialog_result)
    return NO_ID;

  switch(object_type)
  {
    case 0: return CUSTOM_BLOCK;
    case 1: return CUSTOM_FLOOR;
    case 2: return __TEXT;
  }

  return NO_ID;
}
Exemplo n.º 16
0
int lib$stat_timer (int * code, long * value_argument, void * handle_address) {
  long * context = handle_address;
  int status;
  long * mycontext = 0;
  if (*context == -1)
    mycontext = &timer_context[0];
  if (*context == 0)
    mycontext = *context = malloc (5 * sizeof(long));

  long new_context[5];
  memset (&new_context[0], 0, 5 * sizeof(long));

  set_context(&new_context[0]);

  *value_argument = new_context[*code - 1];

  return SS$_NORMAL;
}
Exemplo n.º 17
0
Audio :: Audio()
{
    auto l = lock();
    //alutInit(0, NULL);
    alutInitWithoutContext(0, NULL);
    m_pDevice = alcOpenDevice(NULL);
    if(not m_pDevice)
        throw std::runtime_error("failed to open OpenAL audio device");
    m_pContext = alcCreateContext(m_pDevice, NULL);
    if(not m_pContext)
        alcCloseDevice(m_pDevice);
    try {
        set_context();
    } catch(...) {
        alcDestroyContext(m_pContext);
        alcCloseDevice(m_pDevice);
        throw;
    }
}
Exemplo n.º 18
0
void switch_mm(struct mm_struct *prev, struct mm_struct *next,
	       struct task_struct *tsk)
{
	unsigned long flags;

	local_irq_save(flags);

	/* If the process context we are swapping in has a different context
	 * generation then we have it should get a new generation/pid */
	if (unlikely(CTX_VERSION(next->context) !=
		CTX_VERSION(next_mmu_context)))
		next->context = get_new_context();

	/* Save the current pgd so the fast tlb handler can find it */
	pgd_current = next->pgd;

	/* Set the current context */
	set_context(next->context);

	local_irq_restore(flags);
}
Exemplo n.º 19
0
PortImpl::PortImpl(BufferFactory&      bufs,
                   NodeImpl* const     node,
                   const Raul::Symbol& name,
                   uint32_t            index,
                   uint32_t            poly,
                   PortType            type,
                   const Atom&         value,
                   size_t              buffer_size)
	: GraphObjectImpl(bufs.uris(), node, name)
	, _bufs(bufs)
	, _index(index)
	, _poly(poly)
	, _buffer_size(buffer_size)
	, _buffer_type(type)
	, _value(value)
	, _broadcast(false)
	, _set_by_user(false)
	, _last_broadcasted_value(value)
	, _context(Context::AUDIO)
	, _buffers(new Array<BufferFactory::Ref>(static_cast<size_t>(poly)))
	, _prepared_buffers(NULL)
{
	_types.insert(type);
	assert(node != NULL);
	assert(_poly > 0);

	if (_buffer_size == 0)
		_buffer_size = bufs.default_buffer_size(type);

	const Ingen::Shared::LV2URIMap& uris = bufs.uris();
	add_property(uris.rdf_type,  type.uri());
	set_property(uris.lv2_index, Atom((int32_t)index));
	set_context(_context);

	if (type == PortType::EVENTS)
		_broadcast = true; // send activity blips
}
Exemplo n.º 20
0
image_node_renderer_t::image_node_renderer_t( const context_t& new_context) : render_done_( false)
{ 
	set_context( new_context);
}
Exemplo n.º 21
0
static void __check_for_updates(struct world *mzx_world, struct config_info *conf)
{
  int cur_host;
  char *update_host;
  bool try_next_host = true;
  bool ret = false;

  set_context(CTX_UPDATER);

  if(conf->update_host_count < 1)
  {
    error("No updater hosts defined! Aborting.", 1, 8, 0);
    goto err_out;
  }

  if(!swivel_current_dir(true))
    goto err_out;

  for(cur_host = 0; (cur_host < conf->update_host_count) && try_next_host; cur_host++)
  {
    char **list_entries, buffer[LINE_BUF_LEN], *url_base, *value;
    struct manifest_entry *removed, *replaced, *added, *e;
    int i = 0, entries = 0, buf_len, result;
    char update_branch[LINE_BUF_LEN];
    const char *version = VERSION;
    int list_entry_width = 0;
    enum host_status status;
    struct host *h = NULL;
    unsigned int retries;
    FILE *f;

    // Acid test: Can we write to this directory?
    f = fopen_unsafe(UPDATES_TXT, "w+b");
    if(!f)
    {
      error("Failed to create \"" UPDATES_TXT "\". Check permissions.", 1, 8, 0);
      goto err_chdir;
    }

    update_host = conf->update_hosts[cur_host];

    if(!reissue_connection(conf, &h, update_host))
      goto err_host_destroy;

    for(retries = 0; retries < MAX_RETRIES; retries++)
    {
      // Grab the file containing the names of the current Stable and Unstable
      status = host_recv_file(h, "/" UPDATES_TXT, f, "text/plain");
      rewind(f);

      if(status == HOST_SUCCESS)
        break;

      if(!reissue_connection(conf, &h, update_host))
        goto err_host_destroy;
    }

    if(retries == MAX_RETRIES)
    {
      snprintf(widget_buf, WIDGET_BUF_LEN, "Failed to download \""
       UPDATES_TXT "\" (err=%d).\n", status);
      widget_buf[WIDGET_BUF_LEN - 1] = 0;
      error(widget_buf, 1, 8, 0);
      goto err_host_destroy;
    }

    snprintf(update_branch, LINE_BUF_LEN, "Current-%s",
     conf->update_branch_pin);

    // Walk this list (of two, hopefully)
    while(true)
    {
      char *m = buffer, *key;
      value = NULL;

      // Grab a single line from the manifest
      if(!fgets(buffer, LINE_BUF_LEN, f))
        break;

      key = strsep(&m, ":\n");
      if(!key)
        break;

      value = strsep(&m, ":\n");
      if(!value)
        break;

      if(strcmp(key, update_branch) == 0)
        break;
    }

    fclose(f);
    unlink(UPDATES_TXT);

    /* There was no "Current-XXX: Version" found; we cannot proceed with the
     * update because we cannot compute an update URL below.
     */
    if(!value)
    {
      error("Failed to identify applicable update version.", 1, 8, 0);
      goto err_host_destroy;
    }

    /* There's likely to be a space prepended to the version number.
     * Skip it here.
     */
    if(value[0] == ' ')
      value++;

    /* We found the latest update version, but we should check to see if that
     * matches the version we're already using. The user may choose to receive
     * "stability" updates for their current major version, or upgrade to the
     * newest one.
     */
    if(strcmp(value, version) != 0)
    {
      struct element *elements[6];
      struct dialog di;

      buf_len = snprintf(widget_buf, WIDGET_BUF_LEN,
       "A new major version is available (%s)", value);
      widget_buf[WIDGET_BUF_LEN - 1] = 0;

      elements[0] = construct_label((55 - buf_len) >> 1, 2, widget_buf);

      elements[1] = construct_label(2, 4,
       "You can continue to receive updates for the version\n"
       "installed (if available), or you can upgrade to the\n"
       "newest major version (recommended).");

      elements[2] = construct_label(2, 8,
       "If you do not upgrade, this question will be asked\n"
       "again the next time you run the updater.\n");

      elements[3] = construct_button(9, 11, "Upgrade", 0);
      elements[4] = construct_button(21, 11, "Update Old", 1);
      elements[5] = construct_button(36, 11, "Cancel", 2);

      construct_dialog(&di, "New Major Version", 11, 6, 55, 14, elements, 6, 3);
      result = run_dialog(mzx_world, &di);
      destruct_dialog(&di);

      // User pressed Escape, abort all updates
      if(result < 0 || result == 2)
      {
        try_next_host = false;
        goto err_host_destroy;
      }

      // User pressed Upgrade, use new major
      if(result == 0)
        version = value;
    }

    /* We can now compute a unique URL base for the updater. This will
     * be composed of a user-selected version and a static platform-archicture
     * name.
     */
    url_base = cmalloc(LINE_BUF_LEN);
    snprintf(url_base, LINE_BUF_LEN, "/%s/" PLATFORM, version);
    debug("Update base URL: %s\n", url_base);

    /* The call to manifest_get_updates() destroys any existing manifest
     * file in this directory. Since we still allow user to abort after
     * this call, and downloading the updates may fail, we copy the
     * old manifest to a backup location and optionally restore it later.
     */
    if(!backup_original_manifest())
    {
      error("Failed to back up manifest. Check permissions.", 1, 8, 0);
      try_next_host = false;
      goto err_free_url_base;
    }

    for(retries = 0; retries < MAX_RETRIES; retries++)
    {
      bool m_ret;

      m_hide();

      draw_window_box(3, 11, 76, 13, DI_MAIN, DI_DARK, DI_CORNER, 1, 1);
      write_string("Computing manifest deltas (added, replaced, deleted)..",
       13, 12, DI_TEXT, 0);
      update_screen();

      m_ret = manifest_get_updates(h, url_base, &removed, &replaced, &added);

      clear_screen(32, 7);
      m_show();
      update_screen();

      if(m_ret)
        break;

      if(!reissue_connection(conf, &h, update_host))
        goto err_roll_back_manifest;
    }

    if(retries == MAX_RETRIES)
    {
      error("Failed to compute update manifests", 1, 8, 0);
      goto err_roll_back_manifest;
    }

    // At this point, we have a successful manifest, so we won't need another host
    try_next_host = false;

    if(!removed && !replaced && !added)
    {
      struct element *elements[3];
      struct dialog di;

      elements[0] = construct_label(2, 2, "This client is already current.");
      elements[1] = construct_button(7, 4, "OK", 0);
      elements[2] = construct_button(13, 4, "Try next host", 1);

      construct_dialog(&di, "No Updates", 22, 9, 35, 6, elements, 3, 1);
      result = run_dialog(mzx_world, &di);
      destruct_dialog(&di);

      if((result == 1) && (cur_host < conf->update_host_count))
        try_next_host = true;

      goto err_free_update_manifests;
    }

    for(e = removed; e; e = e->next, entries++)
      list_entry_width = MAX(list_entry_width, 2 + (int)strlen(e->name)+1+1);
    for(e = replaced; e; e = e->next, entries++)
      list_entry_width = MAX(list_entry_width, 2 + (int)strlen(e->name)+1+1);
    for(e = added; e; e = e->next, entries++)
      list_entry_width = MAX(list_entry_width, 2 + (int)strlen(e->name)+1+1);

    // We don't want the listbox to be too wide
    list_entry_width = MIN(list_entry_width, 60);

    list_entries = cmalloc(entries * sizeof(char *));

    for(e = removed; e; e = e->next, i++)
    {
      list_entries[i] = cmalloc(list_entry_width);
      snprintf(list_entries[i], list_entry_width, "- %s", e->name);
      list_entries[i][list_entry_width - 1] = 0;
    }

    for(e = replaced; e; e = e->next, i++)
    {
      list_entries[i] = cmalloc(list_entry_width);
      snprintf(list_entries[i], list_entry_width, "* %s", e->name);
      list_entries[i][list_entry_width - 1] = 0;
    }

    for(e = added; e; e = e->next, i++)
    {
      list_entries[i] = cmalloc(list_entry_width);
      snprintf(list_entries[i], list_entry_width, "+ %s", e->name);
      list_entries[i][list_entry_width - 1] = 0;
    }

    draw_window_box(19, 1, 59, 4, DI_MAIN, DI_DARK, DI_CORNER, 1, 1);
    write_string(" Task Summary ", 33, 1, DI_TITLE, 0);
    write_string("ESC   - Cancel   [+] Add   [-] Delete", 21, 2, DI_TEXT, 0);
    write_string("ENTER - Proceed  [*] Replace  ", 21, 3, DI_TEXT, 0);

    result = list_menu((const char **)list_entries, list_entry_width,
     NULL, 0, entries, ((80 - (list_entry_width + 9)) >> 1) + 1, 4);

    for(i = 0; i < entries; i++)
      free(list_entries[i]);
    free(list_entries);

    clear_screen(32, 7);
    update_screen();

    if(result < 0)
      goto err_free_update_manifests;

    /* Defer deletions until we restart; any of these files may still be
     * in use by this (old) process. Reduce the number of entries by the
     * number of removed items for the progress meter below.
     */
    for(e = removed; e; e = e->next, entries--)
      delete_hook(e->name);

    /* Since the operations for adding and replacing a file are identical,
     * we modify the replaced list and tack on the added list to the end.
     *
     * Either list may be NULL; in the case that `replaced' is NULL, simply
     * re-assign the `added' pointer. `added' being NULL has no effect.
     *
     * Later, we need only free the replaced list (see below).
     */
    if(replaced)
    {
      for(e = replaced; e->next; e = e->next)
        ;
      e->next = added;
    }
    else
      replaced = added;

    cancel_update = false;
    host_set_callbacks(h, NULL, recv_cb, cancel_cb);

    i = 1;
    for(e = replaced; e; e = e->next, i++)
    {
      for(retries = 0; retries < MAX_RETRIES; retries++)
      {
        char name[72];
        bool m_ret;

        if(!check_create_basedir(e->name))
          goto err_free_delete_list;

        final_size = (long)e->size;

        m_hide();
        snprintf(name, 72, "%s (%ldb) [%u/%u]", e->name, final_size, i, entries);
        meter(name, 0, final_size);
        update_screen();

        m_ret = manifest_entry_download_replace(h, url_base, e, delete_hook);

        clear_screen(32, 7);
        m_show();
        update_screen();

        if(m_ret)
          break;

        if(cancel_update)
        {
          error("Download was cancelled; update aborted.", 1, 8, 0);
          goto err_free_delete_list;
        }

        if(!reissue_connection(conf, &h, update_host))
          goto err_free_delete_list;
        host_set_callbacks(h, NULL, recv_cb, cancel_cb);
      }

      if(retries == MAX_RETRIES)
      {
        snprintf(widget_buf, WIDGET_BUF_LEN,
         "Failed to download \"%s\" (after %d attempts).", e->name, retries);
        widget_buf[WIDGET_BUF_LEN - 1] = 0;
        error(widget_buf, 1, 8, 0);
        goto err_free_delete_list;
      }
    }

    if(delete_list)
    {
      f = fopen_unsafe(DELETE_TXT, "wb");
      if(!f)
      {
        error("Failed to create \"" DELETE_TXT "\". Check permissions.", 1, 8, 0);
        goto err_free_delete_list;
      }

      for(e = delete_list; e; e = e->next)
      {
        fprintf(f, "%08x%08x%08x%08x%08x%08x%08x%08x %lu %s\n",
         e->sha256[0], e->sha256[1], e->sha256[2], e->sha256[3],
         e->sha256[4], e->sha256[5], e->sha256[6], e->sha256[7],
         e->size, e->name);
      }

      fclose(f);
    }

    try_next_host = false;
    ret = true;
err_free_delete_list:
    manifest_list_free(&delete_list);
    delete_list = delete_p = NULL;
err_free_update_manifests:
    manifest_list_free(&removed);
    manifest_list_free(&replaced);
err_roll_back_manifest:
    restore_original_manifest(ret);
err_free_url_base:
    free(url_base);
err_host_destroy:
    host_destroy(h);

    pop_context();
  } //end host for loop

err_chdir:
  swivel_current_dir_back(true);
err_out:

  /* At this point we found updates and we successfully updated
   * to them. Reload the program with the original argv.
   */
  if(ret)
  {
    const void *argv = process_argv;
    struct element *elements[2];
    struct dialog di;

    elements[0] = construct_label(2, 2,
     "This client will now attempt to restart itself.");
    elements[1] = construct_button(23, 4, "OK", 0);

    construct_dialog(&di, "Update Successful", 14, 9, 51, 6, elements, 2, 1);
    run_dialog(mzx_world, &di);
    destruct_dialog(&di);

    execv(process_argv[0], argv);
    perror("execv");

    error("Attempt to invoke self failed!", 1, 8, 0);
    return;
  }
}
Exemplo n.º 22
0
static void vdadec_flush(AVCodecContext *avctx)
{
    set_context(avctx);
    ff_h264_decoder.flush(avctx);
    restore_context(avctx);
}
Exemplo n.º 23
0
static void fill_context(struct boot_context *context, struct ofw_dev *ofwdev)
{
	int ndx;

	memset(context, 0, sizeof(*context));

	set_context(initiatorname, "NAME", OBP_PARAM_ITNAME);

	snprintf(context->mac, sizeof(context->mac),
		 "%02x:%02x:%02x:%02x:%02x:%02x",
		 ofwdev->mac[0], ofwdev->mac[1], ofwdev->mac[2],
		 ofwdev->mac[3], ofwdev->mac[4], ofwdev->mac[5]);

	/*
	 * nic parameters
	 */
	for (ndx = 0; ndx < nic_count; ndx++) {
		if (!strcmp(niclist[ndx], ofwdev->dev_path)) {
			snprintf(context->iface, sizeof(context->iface),
				 "eth%d", ndx);
			break;
		}
	}

	set_context(ipaddr, "IPADDR", OBP_PARAM_CIADDR);
	set_context(mask, "MASK", OBP_PARAM_SUBNET_MASK);

	/*
	 * target parameters
	 */
	set_context(target_ipaddr, "IPADDR", OBP_PARAM_SIADDR);
	set_int_context(target_port, "PORT", OBP_PARAM_IPORT);
	set_context(lun, "LUN", OBP_PARAM_ILUN);
	set_context(targetname, "NAME", OBP_PARAM_INAME);
	set_context(isid, "ISID", OBP_PARAM_ISID);

	/*
	 * chap stuff is always associated with the target
	 */
	set_context(chap_name, "CHAP_NAME", OBP_PARAM_ICHAPID);
	set_context(chap_password, "CHAP_PASSWORD", OBP_PARAM_ICHAPPW);
	set_context(chap_name_in, "CHAP_NAME_IN", OBP_PARAM_CHAPID);
	set_context(chap_password_in, "CHAP_PASSWORD_IN", OBP_PARAM_CHAPPW);

}
Exemplo n.º 24
0
void octree::load_kernels() {

  if (!devContext_flag) set_context();
  
  //If we arive here we have aquired a device, configure parts of the code
  
  //Get the number of multiprocessors and compute number of 
  //blocks to be used during the tree-walk
  nMultiProcessors      = devContext.multiProcessorCount;
  const int blocksPerSM = getTreeWalkBlocksPerSM(
                          this->getDevContext()->getComputeCapabilityMajor(),
                          this->getDevContext()->getComputeCapabilityMinor());
 
  nBlocksForTreeWalk = nMultiProcessors*blocksPerSM;
  

  std::string pathName;


  //AMUSE specific
  if(this->src_directory != NULL)
  {
    pathName.assign(this->src_directory);
  }
  else
  {  
    //Strip the executable name, to get the path name
    std::string temp(execPath);
    int idx = (int)temp.find_last_of("/\\");
    pathName.assign(temp.substr(0, idx+1));
  }
  

  // load scan & sort kernels

  compactCount.setContext(devContext);
  exScanBlock.setContext(devContext);
  compactMove.setContext(devContext);
  splitMove.setContext(devContext);
  sortCount.setContext(devContext);
  sortMove.setContext(devContext);
  extractInt.setContext(devContext);
  reOrderKeysValues.setContext(devContext);
  convertKey64to96.setContext(devContext);
  extractKeyAndPerm.setContext(devContext);
  dataReorderR4.setContext(devContext);
  dataReorderF2.setContext(devContext);
  dataReorderI1.setContext(devContext);
  dataReorderCombined.setContext(devContext);

#ifdef USE_CUDA
  compactCount.load_source("./scanKernels.ptx", pathName.c_str());
  compactCount.create("compact_count", (const void*)&compact_count);
  

  exScanBlock.load_source("./scanKernels.ptx", pathName.c_str());
  exScanBlock.create("exclusive_scan_block", (const void*)&exclusive_scan_block);
  
  compactMove.load_source("./scanKernels.ptx", pathName.c_str());
  compactMove.create("compact_move", (const void*)&compact_move);
  
  splitMove.load_source("./scanKernels.ptx", pathName.c_str());
  splitMove.create("split_move", (const void*)split_move);
  
  sortCount.load_source("./sortKernels.ptx", pathName.c_str());
  sortCount.create("sort_count", (const void*)sort_count);

  sortMove.load_source("./sortKernels.ptx", pathName.c_str());
  sortMove.create("sort_move_stage_key_value", (const void*)sort_move_stage_key_value);

  extractInt.load_source("./sortKernels.ptx", pathName.c_str());
  extractInt.create("extractInt", (const void*)extractInt_kernel);
  
  reOrderKeysValues.load_source("./sortKernels.ptx", pathName.c_str());
  reOrderKeysValues.create("reOrderKeysValues", (const void*)&reOrderKeysValues_kernel);
  
  extractKeyAndPerm.load_source("./sortKernels.ptx", pathName.c_str());
  extractKeyAndPerm.create("extractKeyAndPerm", (const void*)&gpu_extractKeyAndPerm);
  
  convertKey64to96.load_source("./sortKernels.ptx", pathName.c_str());
  convertKey64to96.create("convertKey64to96", (const void*)&gpu_convertKey64to96);
  
  dataReorderR4.load_source("./sortKernels.ptx", pathName.c_str());
//  dataReorderR4.create("dataReorderR4");  
  dataReorderR4.create("dataReorderCombined4", (const void*)&dataReorderCombined4);
  
  dataReorderF2.load_source("./sortKernels.ptx", pathName.c_str());
  dataReorderF2.create("dataReorderF2", (const void*)&gpu_dataReorderF2);

  dataReorderI1.load_source("./sortKernels.ptx", pathName.c_str());
  dataReorderI1.create("dataReorderI1", (const void*)&gpu_dataReorderI1);
  
  dataReorderCombined.load_source("./sortKernels.ptx", pathName.c_str());
  dataReorderCombined.create("dataReorderCombined", (const void*)&gpu_dataReorderCombined);

  
  
#else
  compactCount.load_source("scanKernels.cl", "OpenCLKernels");
  compactCount.create("compact_count");
  
  exScanBlock.load_source("scanKernels.cl", "OpenCLKernels");
  exScanBlock.create("exclusive_scan_block");
  
  compactMove.load_source("scanKernels.cl", "OpenCLKernels");
  compactMove.create("compact_move");
  
  splitMove.load_source("scanKernels.cl", "OpenCLKernels");
  splitMove.create("split_move");
#endif


  // load tree-build kernels
  
  /* set context */
  
  build_key_list.setContext(devContext);
  build_valid_list.setContext(devContext);
  build_nodes.setContext(devContext);
  link_tree.setContext(devContext);
  define_groups.setContext(devContext);
  build_level_list.setContext(devContext);
  boundaryReduction.setContext(devContext);
  boundaryReductionGroups.setContext(devContext);  
  build_body2group_list.setContext(devContext);
  store_groups.setContext(devContext);
  segmentedCoarseGroupBoundary.setContext(devContext);
  /* load kernels tree properties */
  
#ifdef USE_CUDA
  build_key_list.load_source("./build_tree.ptx", pathName.c_str());
  build_valid_list.load_source("./build_tree.ptx", pathName.c_str());
  build_nodes.load_source("./build_tree.ptx", pathName.c_str());
  link_tree.load_source("./build_tree.ptx", pathName.c_str());
  define_groups.load_source("./build_tree.ptx", pathName.c_str());
  build_level_list.load_source("./build_tree.ptx", pathName.c_str());
  boundaryReduction.load_source("./build_tree.ptx", pathName.c_str());
  boundaryReductionGroups.load_source("./build_tree.ptx", pathName.c_str());
  build_body2group_list.load_source("./build_tree.ptx", pathName.c_str());
  store_groups.load_source("./build_tree.ptx", pathName.c_str());
  segmentedCoarseGroupBoundary.load_source("./build_tree.ptx", pathName.c_str());
  
  /* create kernels */

  build_key_list.create("cl_build_key_list", (const void*)&cl_build_key_list);
  build_valid_list.create("cl_build_valid_list", (const void*)&cl_build_valid_list);
  build_nodes.create("cl_build_nodes", (const void*)&cl_build_nodes);
  link_tree.create("cl_link_tree", (const void*)&cl_link_tree);
  define_groups.create("build_group_list2", (const void*)&build_group_list2);
  build_level_list.create("build_level_list", (const void*)&gpu_build_level_list);
  boundaryReduction.create("boundaryReduction", (const void*)&gpu_boundaryReduction);
  boundaryReductionGroups.create("boundaryReductionGroups", (const void*)&gpu_boundaryReductionGroups);
//  build_body2group_list.create("build_body2group_list", (const void*)&gpu_build_body2group_list);
  store_groups.create("store_group_list", (const void*)&store_group_list);
  segmentedCoarseGroupBoundary.create("segmentedCoarseGroupBoundary", (const void*)&gpu_segmentedCoarseGroupBoundary);


#else
  build_key_list.load_source("build_tree.cl", "");
  build_valid_list.load_source("build_tree.cl", "");
  build_nodes.load_source("build_tree.cl", "");
  link_tree.load_source("build_tree.cl", "");
  
  /* create kernels */

  build_key_list.create("cl_build_key_list");
  build_valid_list.create("cl_build_valid_list");
  build_nodes.create("cl_build_nodes");
  link_tree.create("cl_link_tree");
#endif

  // load tree-props kernels
  propsNonLeafD.setContext(devContext);
  propsLeafD.setContext(devContext);
  propsScalingD.setContext(devContext);
  
  setPHGroupData.setContext(devContext);
  setPHGroupDataGetKey.setContext(devContext);
  setPHGroupDataGetKey2.setContext(devContext);
 
  /* load kernels */
  
#ifdef USE_CUDA

  propsNonLeafD.load_source("./compute_propertiesD.ptx", pathName.c_str(), "", -1);
  propsLeafD.load_source("./compute_propertiesD.ptx", pathName.c_str(), "", -1);
  propsScalingD.load_source("./compute_propertiesD.ptx", pathName.c_str(), "",-1);
  
  setPHGroupData.load_source("./compute_propertiesD.ptx", pathName.c_str());
  setPHGroupDataGetKey.load_source("./compute_propertiesD.ptx", pathName.c_str());
  setPHGroupDataGetKey2.load_source("./compute_propertiesD.ptx", pathName.c_str());
  /* create kernels */
  
  propsNonLeafD.create("compute_non_leaf", (const void*)&compute_non_leaf);
  propsLeafD.create("compute_leaf", (const void*)&compute_leaf);
  propsScalingD.create("compute_scaling", (const void*)&compute_scaling);

  setPHGroupData.create("setPHGroupData", (const void*)&gpu_setPHGroupData);
  setPHGroupDataGetKey.create("setPHGroupDataGetKey", (const void*)&gpu_setPHGroupDataGetKey);
  setPHGroupDataGetKey2.create("setPHGroupDataGetKey2", (const void*)&gpu_setPHGroupDataGetKey2);

  
#else
  propsNonLeaf.load_source("compProps.cl", "");
  propsLeaf.load_source("compProps.cl", "");
  propsScaling.load_source("compProps.cl", ""); 
  
  /* create kernels */

  propsNonLeaf.create("compute_non_leaf");
  propsLeaf.create("compute_leaf");
  propsScaling.create("compute_scaling");  
#endif

  /* Tree iteration */
  getTNext.setContext(devContext);
  predictParticles.setContext(devContext);
  getNActive.setContext(devContext);
  approxGrav.setContext(devContext);
  directGrav.setContext(devContext);
  correctParticles.setContext(devContext);
  computeDt.setContext(devContext);
  computeEnergy.setContext(devContext);
  setActiveGrps.setContext(devContext);
  distanceCheck.setContext(devContext);  


  approxGravLET.setContext(devContext);
  determineLET.setContext(devContext);

#ifdef USE_CUDA
  getTNext.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  predictParticles.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  getNActive.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  approxGrav.load_source("./dev_approximate_gravity.ptx", pathName.c_str(), "", 64);
  directGrav.load_source("./dev_direct_gravity.ptx", pathName.c_str(), "", 64);
  correctParticles.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  computeDt.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  computeEnergy.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  setActiveGrps.load_source("./timestep.ptx", pathName.c_str(), "", -1);
  distanceCheck.load_source("./timestep.ptx", pathName.c_str(), "", -1);  
  
  approxGravLET.load_source("./dev_approximate_gravity.ptx", pathName.c_str(), "", 64);  
  determineLET.load_source("./dev_approximate_gravity.ptx", pathName.c_str(), "", 64);
  /* create kernels */

  getTNext.create("get_Tnext", (const void*)&get_Tnext);
  predictParticles.create("predict_particles", (const void*)&predict_particles);
  getNActive.create("get_nactive", (const void*)&get_nactive);
  approxGrav.create("dev_approximate_gravity", (const void*)&dev_approximate_gravity);

#ifdef KEPLER /* preferL1 equal egaburov */
  cudaFuncSetCacheConfig((const void*)&dev_approximate_gravity, cudaFuncCachePreferL1);
  cudaFuncSetCacheConfig((const void*)&dev_approximate_gravity_let, cudaFuncCachePreferL1);
#if 0
#if 1
  cudaDeviceSetSharedMemConfig(cudaSharedMemBankSizeFourByte);
#else
  cudaDeviceSetSharedMemConfig(cudaSharedMemBankSizeEightByte);
#endif
#endif
#endif


  directGrav.create("dev_direct_gravity", (const void*)&dev_direct_gravity);
  correctParticles.create("correct_particles", (const void*)&correct_particles);
  computeDt.create("compute_dt", (const void*)&compute_dt);
  setActiveGrps.create("setActiveGroups", (const void*)&setActiveGroups);

  computeEnergy.create("compute_energy_double", (const void*)&compute_energy_double);
  distanceCheck.create("distanceCheck", (const void*)&distanceCheck);
  
  approxGravLET.create("dev_approximate_gravity_let", (const void*)&dev_approximate_gravity_let);
#if 0  /* egaburov, doesn't compile with this */
  determineLET.create("dev_determineLET", (const void*)&dev_determineLET);
#endif

#else
  getTNext.load_source("", "");
  
  /* create kernels */

  getTNext.create("");
  
#endif

  //Parallel kernels
  domainCheck.setContext(devContext);  
  extractSampleParticles.setContext(devContext);  
  extractOutOfDomainR4.setContext(devContext);  
  extractOutOfDomainBody.setContext(devContext);  
  insertNewParticles.setContext(devContext);  
  internalMove.setContext(devContext);  
  build_parallel_grps.setContext(devContext);
  segmentedSummaryBasic.setContext(devContext);
  domainCheckSFC.setContext(devContext);
  internalMoveSFC.setContext(devContext);
  internalMoveSFC2.setContext(devContext);
  extractOutOfDomainParticlesAdvancedSFC.setContext(devContext);
  extractOutOfDomainParticlesAdvancedSFC2.setContext(devContext);
  insertNewParticlesSFC.setContext(devContext);
  extractSampleParticlesSFC.setContext(devContext);
  domainCheckSFCAndAssign.setContext(devContext);



#ifdef USE_CUDA
  domainCheck.load_source("./parallel.ptx", pathName.c_str());
  extractSampleParticles.load_source("./parallel.ptx", pathName.c_str());
  extractOutOfDomainR4.load_source("./parallel.ptx", pathName.c_str());
  extractOutOfDomainBody.load_source("./parallel.ptx", pathName.c_str());
  insertNewParticles.load_source("./parallel.ptx", pathName.c_str());
  internalMove.load_source("./parallel.ptx", pathName.c_str());

  
  build_parallel_grps.load_source("./build_tree.ptx", pathName.c_str());
  segmentedSummaryBasic.load_source("./build_tree.ptx", pathName.c_str());
  domainCheckSFC.load_source("./parallel.ptx", pathName.c_str());
  internalMoveSFC.load_source("./parallel.ptx", pathName.c_str());
  internalMoveSFC2.load_source("./parallel.ptx", pathName.c_str());
  extractOutOfDomainParticlesAdvancedSFC.load_source("./parallel.ptx", pathName.c_str());
  extractOutOfDomainParticlesAdvancedSFC2.load_source("./parallel.ptx", pathName.c_str());
  insertNewParticlesSFC.load_source("./parallel.ptx", pathName.c_str());
  extractSampleParticlesSFC.load_source("./parallel.ptx", pathName.c_str());
  domainCheckSFCAndAssign.load_source("./parallel.ptx", pathName.c_str());

  domainCheck.create("doDomainCheck", (const void*)&doDomainCheck);
  extractSampleParticles.create("extractSampleParticles", (const void*)&gpu_extractSampleParticles);
  extractOutOfDomainR4.create("extractOutOfDomainParticlesR4", (const void*)&extractOutOfDomainParticlesR4);
  extractOutOfDomainBody.create("extractOutOfDomainParticlesAdvanced", (const void*)&extractOutOfDomainParticlesAdvanced);
  insertNewParticles.create("insertNewParticles", (const void*)&gpu_insertNewParticles);
  internalMove.create("internalMove", (const void*)&gpu_internalMove);

  extractSampleParticlesSFC.create("build_parallel_grps", (const void*)&gpu_extractSampleParticlesSFC);
  build_parallel_grps.create("build_parallel_grps", (const void*)&gpu_build_parallel_grps);
  segmentedSummaryBasic.create("segmentedSummaryBasic", (const void*)&gpu_segmentedSummaryBasic);
  domainCheckSFC.create("domainCheckSFC", (const void*)&gpu_domainCheckSFC);
  internalMoveSFC.create("internalMoveSFC", (const void*)&gpu_internalMoveSFC);
  internalMoveSFC2.create("internalMoveSFC2", (const void*)&gpu_internalMoveSFC2);
  extractOutOfDomainParticlesAdvancedSFC.create("extractOutOfDomainParticlesAdvancedSFC", (const void*)&gpu_extractOutOfDomainParticlesAdvancedSFC);
  extractOutOfDomainParticlesAdvancedSFC2.create("extractOutOfDomainParticlesAdvancedSFC2", (const void*)&gpu_extractOutOfDomainParticlesAdvancedSFC2);
  insertNewParticlesSFC.create("insertNewParticlesSFC", (const void*)&gpu_insertNewParticlesSFC);
  domainCheckSFCAndAssign.create("domainCheckSFCAndAssign", (const void*)&gpu_domainCheckSFCAndAssign);

#else


#endif
  
#ifdef USE_DUST
   define_dust_groups.setContext(devContext);
   define_dust_groups.load_source("./build_tree.ptx", pathName.c_str());
   define_dust_groups.create("define_dust_groups");
   
   store_dust_groups.setContext(devContext);
   store_dust_groups.load_source("./build_tree.ptx", pathName.c_str());
   store_dust_groups.create("store_dust_groups");
   
   predictDust.setContext(devContext);
   predictDust.load_source("./build_tree.ptx", pathName.c_str());
   predictDust.create("predict_dust_particles");   
   
   correctDust.setContext(devContext);
   correctDust.load_source("./build_tree.ptx", pathName.c_str());
   correctDust.create("correct_dust_particles");     
   
   
   
#endif  


}
Exemplo n.º 25
0
	void test_objects()
	{
		std::cout << "- Data Object" << std::endl;
		set_context(false);

		{
			std::cout << "-- With Triggers Full API" << std::endl;
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d(1,2);
				std::set<std::string> t1,t2;
				t1.insert("k1");
				t2.insert("k2");
				cache().store_frame("foo","bar",t1);
				cache().store_data("dat",d,t2);
				TEST(tr.detach().size()==4);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d;
				std::string tmp;
				TEST(cache().fetch_frame("foo",tmp));
				TEST(cache().fetch_data("dat",d));
				TEST(d.x==1  && d.y==2);
				TEST(tmp=="bar");
				std::set<std::string> tg=tr.detach();
				TEST(tg.size()==4);
				TEST(tg.count("foo")==1);
				TEST(tg.count("dat")==1);
				TEST(tg.count("k1")==1);
				TEST(tg.count("k2")==1);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d;
				std::string tmp;
				TEST(cache().fetch_frame("foo",tmp,true));
				TEST(cache().fetch_data("dat",d,true));
				TEST(d.x==1  && d.y==2);
				TEST(tmp=="bar");
				TEST(tr.detach().size()==0);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d(4,5);
				cache().store_frame("foo","baz",-1);
				cache().store_data("dat",d,-1);
				TEST(tr.detach().size()==2);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d;
				std::string tmp;
				TEST(cache().fetch_frame("foo",tmp));
				TEST(cache().fetch_data("dat",d));
				TEST(d.x==4  && d.y==5);
				TEST(tmp=="baz");
				std::set<std::string> tg=tr.detach();
				TEST(tg.size()==2);
				TEST(tg.count("foo")==1);
				TEST(tg.count("dat")==1);
			}
		}
		cache().clear();
		{
			std::cout << "-- Without Triggers" << std::endl;
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d(1,2);
				cache().store_frame("foo","bar",std::set<std::string>(),-1,true);
				cache().store_data("dat",d,std::set<std::string>(),-1,true);
				TEST(tr.detach().size()==0);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d;
				std::string tmp;
				TEST(cache().fetch_frame("foo",tmp,true));
				TEST(cache().fetch_data("dat",d,true));
				TEST(d.x==1  && d.y==2);
				TEST(tmp=="bar");
				TEST(tr.detach().size()==0);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d;
				std::string tmp;
				TEST(cache().fetch_frame("foo",tmp));
				TEST(cache().fetch_data("dat",d));
				TEST(d.x==1  && d.y==2);
				TEST(tmp=="bar");
				TEST(tr.detach().size()==2);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d(4,5);
				cache().store_frame("foo","baz",-1,true);
				cache().store_data("dat",d,-1,true);
				TEST(tr.detach().size()==0);
			}
			{
				cache().reset();
				cppcms::triggers_recorder tr(cache());
				mydata d;
				std::string tmp;
				TEST(cache().fetch_frame("foo",tmp,true));
				TEST(cache().fetch_data("dat",d,true));
				TEST(d.x==4  && d.y==5);
				TEST(tmp=="baz");
				TEST(tr.detach().size()==0);
			}
		}
		cache().clear();
		{
			std::cout << "-- Timeouts" << std::endl;
			{
				cache().reset();
				mydata d1(1,2);
				mydata d2(4,5);
				cache().store_frame("foo1","baz1",std::set<std::string>(),2,true);
				cache().store_data("dat1",d1,std::set<std::string>(),2,true);
				cache().store_frame("foo2","baz2",2,true);
				cache().store_data("dat2",d2,2,true);
			}
			{
				cache().reset();
				mydata d1,d2;
				std::string t1,t2;
				TEST(cache().fetch_frame("foo1",t1,true));
				TEST(cache().fetch_frame("foo2",t2,true));
				TEST(cache().fetch_data("dat1",d1,true));
				TEST(cache().fetch_data("dat2",d2,true));
				TEST(d1.x==1  && d1.y==2);
				TEST(d2.x==4  && d2.y==5);
				TEST(t1=="baz1");
				TEST(t2=="baz2");
			}
			booster::ptime::millisleep(3000);
			{
				cache().reset();
				mydata d1,d2;
				std::string t1,t2;
				TEST(!cache().fetch_frame("foo1",t1,true));
				TEST(!cache().fetch_frame("foo2",t2,true));
				TEST(!cache().fetch_data("dat1",d1,true));
				TEST(!cache().fetch_data("dat2",d2,true));
			}
		}


	}
Exemplo n.º 26
0
void switch_mmu_context(struct mm_struct *prev, struct mm_struct *next)
{
	unsigned int id, cpu = smp_processor_id();
	unsigned long *map;

	/* No lockless fast path .. yet */
	atomic_spin_lock(&context_lock);

#ifndef DEBUG_STEAL_ONLY
	pr_devel("[%d] activating context for mm @%p, active=%d, id=%d\n",
		 cpu, next, next->context.active, next->context.id);
#endif

#ifdef CONFIG_SMP
	/* Mark us active and the previous one not anymore */
	next->context.active++;
	if (prev) {
#ifndef DEBUG_STEAL_ONLY
		pr_devel(" old context %p active was: %d\n",
			 prev, prev->context.active);
#endif
		WARN_ON(prev->context.active < 1);
		prev->context.active--;
	}

 again:
#endif /* CONFIG_SMP */

	/* If we already have a valid assigned context, skip all that */
	id = next->context.id;
	if (likely(id != MMU_NO_CONTEXT))
		goto ctxt_ok;

	/* We really don't have a context, let's try to acquire one */
	id = next_context;
	if (id > last_context)
		id = first_context;
	map = context_map;

	/* No more free contexts, let's try to steal one */
	if (nr_free_contexts == 0) {
#ifdef CONFIG_SMP
		if (num_online_cpus() > 1) {
			id = steal_context_smp(id);
			if (id == MMU_NO_CONTEXT)
				goto again;
			goto stolen;
		}
#endif /* CONFIG_SMP */
		id = steal_context_up(id);
		goto stolen;
	}
	nr_free_contexts--;

	/* We know there's at least one free context, try to find it */
	while (__test_and_set_bit(id, map)) {
		id = find_next_zero_bit(map, last_context+1, id);
		if (id > last_context)
			id = first_context;
	}
 stolen:
	next_context = id + 1;
	context_mm[id] = next;
	next->context.id = id;

#ifndef DEBUG_STEAL_ONLY
	pr_devel("[%d] picked up new id %d, nrf is now %d\n",
		 cpu, id, nr_free_contexts);
#endif

	context_check_map();
 ctxt_ok:

	/* If that context got marked stale on this CPU, then flush the
	 * local TLB for it and unmark it before we use it
	 */
	if (test_bit(id, stale_map[cpu])) {
		pr_devel("[%d] flushing stale context %d for mm @%p !\n",
			 cpu, id, next);
		local_flush_tlb_mm(next);

		/* XXX This clear should ultimately be part of local_flush_tlb_mm */
		__clear_bit(id, stale_map[cpu]);
	}

	/* Flick the MMU and release lock */
	set_context(id, next->pgd);
	atomic_spin_unlock(&context_lock);
}
Exemplo n.º 27
0
	bool operator()(Context& ctx) {
		for(auto itFunc = functors_.begin(); itFunc != functors_.end(); itFunc++)
			itFunc->set_context(&ctx);
		return expression_.operator bool();
	}
Exemplo n.º 28
0
static av_cold int vdadec_init(AVCodecContext *avctx)
{
    VDADecoderContext *ctx = avctx->priv_data;
    struct vda_context *vda_ctx = &ctx->vda_ctx;
    OSStatus status;
    int ret, i;

    ctx->h264_initialized = 0;

    /* init pix_fmts of codec */
    if (!ff_h264_vda_decoder.pix_fmts) {
        if (kCFCoreFoundationVersionNumber < kCFCoreFoundationVersionNumber10_7)
            ff_h264_vda_decoder.pix_fmts = vda_pixfmts_prior_10_7;
        else
            ff_h264_vda_decoder.pix_fmts = vda_pixfmts;
    }

    /* init vda */
    memset(vda_ctx, 0, sizeof(struct vda_context));
    vda_ctx->width = avctx->width;
    vda_ctx->height = avctx->height;
    vda_ctx->format = 'avc1';
    vda_ctx->use_sync_decoding = 1;
    vda_ctx->use_ref_buffer = 1;
    ctx->pix_fmt = avctx->get_format(avctx, avctx->codec->pix_fmts);
    switch (ctx->pix_fmt) {
    case AV_PIX_FMT_UYVY422:
        vda_ctx->cv_pix_fmt_type = '2vuy';
        break;
    case AV_PIX_FMT_YUYV422:
        vda_ctx->cv_pix_fmt_type = 'yuvs';
        break;
    case AV_PIX_FMT_NV12:
        vda_ctx->cv_pix_fmt_type = '420v';
        break;
    case AV_PIX_FMT_YUV420P:
        vda_ctx->cv_pix_fmt_type = 'y420';
        break;
    default:
        av_log(avctx, AV_LOG_ERROR, "Unsupported pixel format: %d\n", avctx->pix_fmt);
        goto failed;
    }
    status = ff_vda_create_decoder(vda_ctx,
                                   avctx->extradata, avctx->extradata_size);
    if (status != kVDADecoderNoErr) {
        av_log(avctx, AV_LOG_ERROR,
                "Failed to init VDA decoder: %d.\n", status);
        goto failed;
    }

    /* init H.264 decoder */
    set_context(avctx);
    ret = ff_h264_decoder.init(avctx);
    restore_context(avctx);
    if (ret < 0) {
        av_log(avctx, AV_LOG_ERROR, "Failed to open H.264 decoder.\n");
        goto failed;
    }
    ctx->h264_initialized = 1;

    for (i = 0; i < MAX_SPS_COUNT; i++) {
        const SPS *sps = (const SPS*)ctx->h264ctx.ps.sps_list[i]->data;
        if (sps && (sps->bit_depth_luma != 8 ||
                sps->chroma_format_idc == 2 ||
                sps->chroma_format_idc == 3)) {
            av_log(avctx, AV_LOG_ERROR, "Format is not supported.\n");
            goto failed;
        }
    }

    return 0;

failed:
    vdadec_close(avctx);
    return -1;
}
Exemplo n.º 29
0
void switch_mmu_context(struct mm_struct *prev, struct mm_struct *next,
			struct task_struct *tsk)
{
	unsigned int i, id, cpu = smp_processor_id();
	unsigned long *map;

	/* No lockless fast path .. yet */
	raw_spin_lock(&context_lock);

	pr_hard("[%d] activating context for mm @%p, active=%d, id=%d",
		cpu, next, next->context.active, next->context.id);

#ifdef CONFIG_SMP
	/* Mark us active and the previous one not anymore */
	next->context.active++;
	if (prev) {
		pr_hardcont(" (old=0x%p a=%d)", prev, prev->context.active);
		WARN_ON(prev->context.active < 1);
		prev->context.active--;
	}

 again:
#endif /* CONFIG_SMP */

	/* If we already have a valid assigned context, skip all that */
	id = next->context.id;
	if (likely(id != MMU_NO_CONTEXT)) {
#ifdef DEBUG_MAP_CONSISTENCY
		if (context_mm[id] != next)
			pr_err("MMU: mm 0x%p has id %d but context_mm[%d] says 0x%p\n",
			       next, id, id, context_mm[id]);
#endif
		goto ctxt_ok;
	}

	/* We really don't have a context, let's try to acquire one */
	id = next_context;
	if (id > last_context)
		id = first_context;
	map = context_map;

	/* No more free contexts, let's try to steal one */
	if (nr_free_contexts == 0) {
#ifdef CONFIG_SMP
		if (num_online_cpus() > 1) {
			id = steal_context_smp(id);
			if (id == MMU_NO_CONTEXT)
				goto again;
			goto stolen;
		}
#endif /* CONFIG_SMP */
		if (no_selective_tlbil)
			id = steal_all_contexts();
		else
			id = steal_context_up(id);
		goto stolen;
	}
	nr_free_contexts--;

	/* We know there's at least one free context, try to find it */
	while (__test_and_set_bit(id, map)) {
		id = find_next_zero_bit(map, last_context+1, id);
		if (id > last_context)
			id = first_context;
	}
 stolen:
	next_context = id + 1;
	context_mm[id] = next;
	next->context.id = id;
	pr_hardcont(" | new id=%d,nrf=%d", id, nr_free_contexts);

	context_check_map();
 ctxt_ok:

	/* If that context got marked stale on this CPU, then flush the
	 * local TLB for it and unmark it before we use it
	 */
	if (test_bit(id, stale_map[cpu])) {
		pr_hardcont(" | stale flush %d [%d..%d]",
			    id, cpu_first_thread_sibling(cpu),
			    cpu_last_thread_sibling(cpu));

		local_flush_tlb_mm(next);

		/* XXX This clear should ultimately be part of local_flush_tlb_mm */
		for (i = cpu_first_thread_sibling(cpu);
		     i <= cpu_last_thread_sibling(cpu); i++) {
			if (stale_map[i])
				__clear_bit(id, stale_map[i]);
		}
	}

	/* Flick the MMU and release lock */
	pr_hardcont(" -> %d\n", id);
	set_context(id, next->pgd);
	raw_spin_unlock(&context_lock);
}
Exemplo n.º 30
0
	std::string operator()(Context& ctx) {
		for(auto itFunc = functors_.begin(); itFunc != functors_.end(); itFunc++)
			itFunc->set_context(&ctx);
		expression::result_type res = expression_.value();
		return boost::lexical_cast<std::string>(res);
	}