Files
itgmania212121/stepmania/src/ScreenManager.cpp
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/*
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* We maintain a pool of "prepared" screens, which are screens previously loaded
* to be available on demand.
*
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* When a screen pops off the stack that's in g_setPersistantScreens, it goes to
* the prepared list. If that screen is used again before it's deleted, it'll be
* reused.
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*
* Typically, the first screen in a group will prepare all of the nearby screens it
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* may load. When it loads one, the prepared screen will be used.
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*
* A group of screens may only want to preload some screens, and not others,
* while still considering those screens part of the same group. For example,
* an attract loop typically has several very lightweight screens and a few
* expensive screens. Preloading the lightweight screens can improve responsiveness,
* but preloading the expensive screens may use too much memory and take too long
* to load all at once. By calling GroupScreen(), entering these screens will not
* trigger cleanup.
*
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* Example uses:
* - ScreenOptions1 preloads ScreenOptions2, and persists both. Moving from Options1
* and Options2 and back is instant and reuses both.
* - ScreenMenu groups and persists itself and ScreenSubmenu. ScreenSubmenu
* is not preloaded, so it will be loaded on demand the first time it's used,
* but will remain loaded if it returns to ScreenMenu.
* - ScreenSelectMusic groups itself and ScreenPlayerOptions, and persists only
* ScreenSelectMusic. This will cause SSMusic will be loaded once, and SPO to
* be loaded on demand.
* - ScreenAttract1 preloads and persists ScreenAttract1, 3, 5 and 7, and groups 1
* through 7. 1, 3, 5 and 7 will remain in memory; the rest will be loaded on
* demand.
*
* If a screen is added to the screen stack that isn't in the current screen group
* (added to by GroupScreen), the screen group is reset: all prepared screens are
* unloaded and the persistance list is cleared.
*
* (For persistance, concurrently preparing a screen is logically equivalent
* to SetNewScreen, since it's going to be set after it finishes loading.)
*
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* Note that not all screens yet support reuse in this way; proper use of BeginScreen
* is required. This will misbehave if a screen pushes another screen that's already
* in use lower on the stack, but that's not useful; it would allow infinite screen
* recursion.
*
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* SM_GainFocus/SM_LoseFocus: These are sent to screens when they become the
* topmost screen, or stop being the topmost screen.
*
* A few subtleties:
*
* With delayed screens (eg. ScreenGameplay being pre-loaded by ScreenStage), SM_GainFocus
* isn't sent until the loaded screen actually is activated (put on the stack).
*
* With normal screen loads, the new screen is loaded before the old screen is destroyed.
* This means that the old dtor is called *after* the new ctor. If some global properties
* (eg. GAMESTATE) are being unset by the old screen's destructor, and set by the new
* screen's constructor, they'll happen in the wrong order. Use SM_GainFocus and
* SM_LoseFocus, instead.
*
* SM_LoseFocus is always sent after SM_GainFocus, and vice-versa: you can't gain focus
* if you already have it, and you can't lose focus if you don't have it.
*/
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#include "global.h"
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#include "ScreenManager.h"
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#include "PrefsManager.h"
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#include "RageLog.h"
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#include "RageUtil.h"
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#include "GameSoundManager.h"
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#include "RageDisplay.h"
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#include "SongManager.h"
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#include "RageTextureManager.h"
#include "ThemeManager.h"
#include "Screen.h"
#include "ScreenDimensions.h"
#include "Foreach.h"
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#include "ActorUtil.h"
#include "GameLoop.h"
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ScreenManager* SCREENMAN = NULL; // global and accessable from anywhere in our program
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static Preference<bool> g_bConcurrentLoading( "ConcurrentLoading", false );
static Preference<bool> g_bDelayedScreenLoad( "DelayedScreenLoad", false );
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// Screen registration
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static map<RString,CreateScreenFn> *g_pmapRegistrees = NULL;
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namespace
{
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//
// in draw order first to last
//
struct LoadedScreen
{
Screen *m_pScreen;
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/* Normally true. If false, the screen is owned by another screen
* and was given to us for use, and it's not ours to free. */
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bool m_bDeleteWhenDone;
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ScreenMessage m_SendOnPop;
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LoadedScreen()
{
m_pScreen = NULL;
m_bDeleteWhenDone = true;
m_SendOnPop = SM_None;
}
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};
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Actor *g_pSharedBGA; // BGA object that's persistent between screens
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vector<LoadedScreen> g_ScreenStack; // bottommost to topmost
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vector<Screen*> g_OverlayScreens;
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set<RString> g_setGroupedScreens;
set<RString> g_setPersistantScreens;
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vector<LoadedScreen> g_vPreparedScreens;
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vector<Actor*> g_vPreparedBackgrounds;
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/* Add a screen to g_ScreenStack. This is the only function that adds to g_ScreenStack. */
void PushLoadedScreen( const LoadedScreen &ls )
{
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// Be sure to push the screen first, so GetTopScreen returns the screen
// during BeginScreen.
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g_ScreenStack.push_back( ls );
/* Set the name of the loading screen. */
ActorUtil::ActorParam LoadingScreen( "LoadingScreen", ls.m_pScreen->GetName() );
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ls.m_pScreen->BeginScreen();
LoadingScreen.Release();
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SCREENMAN->RefreshCreditsMessages();
SCREENMAN->PostMessageToTopScreen( SM_GainFocus, 0 );
}
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bool ScreenIsPrepped( const RString &sScreenName )
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{
FOREACH( LoadedScreen, g_vPreparedScreens, s )
{
if( s->m_pScreen->GetName() == sScreenName )
return true;
}
return false;
}
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/* If the named screen is loaded, remove it from the prepared list and
* return it in ls. */
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bool GetPreppedScreen( const RString &sScreenName, LoadedScreen &ls )
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{
FOREACH( LoadedScreen, g_vPreparedScreens, s )
{
if( s->m_pScreen->GetName() == sScreenName )
{
ls = *s;
g_vPreparedScreens.erase( s );
return true;
}
}
return false;
}
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void BeforeDeleteScreen()
{
/* Deleting a screen can take enough time to cause a frame skip. */
SCREENMAN->ZeroNextUpdate();
}
/* If we're deleting a screen, it's probably releasing texture and other
* resources, so trigger cleanups. */
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void AfterDeleteScreen()
{
/* Now that we've actually deleted a screen, it makes sense to clear out
* cached textures. */
TEXTUREMAN->DeleteCachedTextures();
/* Cleanup song data. This can free up a fair bit of memory, so do it after
* deleting screens. */
SONGMAN->Cleanup();
}
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/* Take ownership of all screens and backgrounds that are owned by
* us (this excludes screens where m_bDeleteWhenDone is false).
* Clear the prepared lists. The contents of apOut must be
* freed by the caller. */
void GrabPreparedActors( vector<Actor*> &apOut )
{
FOREACH( LoadedScreen, g_vPreparedScreens, s )
if( s->m_bDeleteWhenDone )
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apOut.push_back( s->m_pScreen );
g_vPreparedScreens.clear();
FOREACH( Actor*, g_vPreparedBackgrounds, a )
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apOut.push_back( *a );
g_vPreparedBackgrounds.clear();
g_setGroupedScreens.clear();
g_setPersistantScreens.clear();
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}
/* Called when changing screen groups. Delete all prepared screens,
* reset the screen group and list of persistant screens. */
void DeletePreparedScreens()
{
vector<Actor*> apActorsToDelete;
GrabPreparedActors( apActorsToDelete );
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BeforeDeleteScreen();
FOREACH( Actor*, apActorsToDelete, a )
SAFE_DELETE( *a );
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AfterDeleteScreen();
}
};
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void RegisterScreenClass( const RString& sClassName, CreateScreenFn pfn )
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{
if( g_pmapRegistrees == NULL )
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g_pmapRegistrees = new map<RString,CreateScreenFn>;
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map<RString,CreateScreenFn>::iterator iter = g_pmapRegistrees->find( sClassName );
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ASSERT_M( iter == g_pmapRegistrees->end(), ssprintf("Screen class '%s' already registered.", sClassName.c_str()) );
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(*g_pmapRegistrees)[sClassName] = pfn;
}
ScreenManager::ScreenManager()
{
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g_pSharedBGA = new Actor;
m_bZeroNextUpdate = false;
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m_PopTopScreen = SM_Invalid;
m_OnDonePreparingScreen = SM_Invalid;
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}
ScreenManager::~ScreenManager()
{
LOG->Trace( "ScreenManager::~ScreenManager()" );
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SAFE_DELETE( g_pSharedBGA );
for( unsigned i=0; i<g_ScreenStack.size(); i++ )
{
if( g_ScreenStack[i].m_bDeleteWhenDone )
SAFE_DELETE( g_ScreenStack[i].m_pScreen );
}
DeletePreparedScreens();
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for( unsigned i=0; i<g_OverlayScreens.size(); i++ )
SAFE_DELETE( g_OverlayScreens[i] );
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}
/* This is called when we start up, and when the theme changes or is reloaded. */
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void ScreenManager::ThemeChanged()
{
LOG->Trace( "ScreenManager::ThemeChanged" );
// reload common sounds
m_soundStart.Load( THEME->GetPathS("Common","start") );
m_soundCoin.Load( THEME->GetPathS("Common","coin"), true );
m_soundInvalid.Load( THEME->GetPathS("Common","invalid") );
m_soundScreenshot.Load( THEME->GetPathS("Common","screenshot") );
// reload overlay screens
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for( unsigned i=0; i<g_OverlayScreens.size(); i++ )
SAFE_DELETE( g_OverlayScreens[i] );
g_OverlayScreens.clear();
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RString sOverlays = THEME->GetMetric( "Common","OverlayScreens" );
vector<RString> asOverlays;
split( sOverlays, ",", asOverlays );
for( unsigned i=0; i<asOverlays.size(); i++ )
{
Screen *pScreen = MakeNewScreen( asOverlays[i] );
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g_OverlayScreens.push_back( pScreen );
}
this->RefreshCreditsMessages();
}
Screen *ScreenManager::GetTopScreen()
{
if( g_ScreenStack.empty() )
return NULL;
return g_ScreenStack[g_ScreenStack.size()-1].m_pScreen;
}
bool ScreenManager::IsStackedScreen( const Screen *pScreen ) const
{
/* True if the screen is in the screen stack, but not the first. */
for( unsigned i = 1; i < g_ScreenStack.size(); ++i )
if( g_ScreenStack[i].m_pScreen == pScreen )
return true;
return false;
}
static bool g_bIsConcurrentlyLoading = false;
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/* Pop the top screen off the stack, sending SM_LoseFocus messages and
* returning the message the popped screen wants sent to the new top
* screen. Does not send SM_GainFocus. */
ScreenMessage ScreenManager::PopTopScreenInternal( bool bSendLoseFocus )
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{
if( g_ScreenStack.empty() )
return SM_None;
LoadedScreen ls = g_ScreenStack.back();
g_ScreenStack.erase( g_ScreenStack.end()-1, g_ScreenStack.end() );
if( bSendLoseFocus )
ls.m_pScreen->HandleScreenMessage( SM_LoseFocus );
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if( g_setPersistantScreens.find(ls.m_pScreen->GetName()) != g_setPersistantScreens.end() )
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{
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/* Move the screen back to the prepared list. */
g_vPreparedScreens.push_back( ls );
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}
else
{
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if( ls.m_bDeleteWhenDone )
{
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BeforeDeleteScreen();
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SAFE_DELETE( ls.m_pScreen );
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AfterDeleteScreen();
}
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}
return ls.m_SendOnPop;
}
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void ScreenManager::Update( float fDeltaTime )
{
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//
// Pop the top screen, if PopTopScreen was called.
//
if( m_PopTopScreen != SM_Invalid )
{
ScreenMessage SM = m_PopTopScreen;
m_PopTopScreen = SM_Invalid;
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ScreenMessage SM2 = PopTopScreenInternal();
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SendMessageToTopScreen( SM_GainFocus );
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SendMessageToTopScreen( SM );
SendMessageToTopScreen( SM2 );
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}
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/*
* Screens take some time to load. If we don't do this, then screens
* receive an initial update that includes all of the time they spent
* loading, which will chop off their tweens.
*
* We don't want to simply cap update times; for example, the stage
* screen sets a 4 second timer, preps the gameplay screen, and then
* displays the prepped screen after the timer runs out; this lets the
* load time be masked (as long as the load takes less than 4 seconds).
* If we cap that large update delta from the screen load, the update
* to load the new screen will come after 4 seconds plus the load time.
*
* So, let's just zero the first update for every screen.
*/
ASSERT( !g_ScreenStack.empty() || m_sDelayedScreen != "" ); // Why play the game if there is nothing showing?
Screen* pScreen = g_ScreenStack.empty() ? NULL : GetTopScreen();
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bool bFirstUpdate = pScreen && pScreen->IsFirstUpdate();
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/* Loading a new screen can take seconds and cause a big jump on the new
* Screen's first update. Clamp the first update delta so that the
* animations don't jump. */
if( pScreen && m_bZeroNextUpdate )
{
LOG->Trace( "Zeroing this update. Was %f", fDeltaTime );
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fDeltaTime = 0;
m_bZeroNextUpdate = false;
}
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//
// Update screens.
//
{
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for( unsigned i=0; i<g_ScreenStack.size(); i++ )
g_ScreenStack[i].m_pScreen->Update( fDeltaTime );
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g_pSharedBGA->Update( fDeltaTime );
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for( unsigned i=0; i<g_OverlayScreens.size(); i++ )
g_OverlayScreens[i]->Update( fDeltaTime );
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}
//
// Handle messages after updating.
//
{
for( unsigned i=0; i<g_ScreenStack.size(); i++ )
g_ScreenStack[i].m_pScreen->ProcessMessages( fDeltaTime );
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g_pSharedBGA->ProcessMessages( fDeltaTime );
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for( unsigned i=0; i<g_OverlayScreens.size(); i++ )
g_OverlayScreens[i]->ProcessMessages( fDeltaTime );
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}
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/* The music may be started on the first update. If we're reading from a CD,
* it might not start immediately. Make sure we start playing the sound before
* continuing, since it's strange to start rendering before the music starts. */
if( bFirstUpdate )
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SOUND->Flush();
/* If we're currently inside a background screen load, and m_sDelayedScreen
* is set, then the screen called SetNewScreen before we finished preparing.
* Postpone it until we're finished loading. */
if( !IsConcurrentlyLoading() && m_sDelayedScreen.size() != 0 )
{
LoadDelayedScreen();
}
if( !m_sDelayedConcurrentPrepare.empty() )
{
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RunConcurrentlyPrepareScreen();
}
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}
bool ScreenManager::IsConcurrentlyLoading() const
{
return g_bIsConcurrentlyLoading;
}
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void ScreenManager::Draw()
{
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/* If it hasn't been updated yet, skip the render. We can't call Update(0), since
* that'll confuse the "zero out the next update after loading a screen logic.
* If we don't render, don't call BeginFrame or EndFrame. That way, we won't
* clear the buffer, and we won't wait for vsync. */
if( g_ScreenStack.size() && g_ScreenStack.back().m_pScreen->IsFirstUpdate() )
return;
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if( !DISPLAY->BeginFrame() )
return;
DISPLAY->CameraPushMatrix();
DISPLAY->LoadMenuPerspective( 0, SCREEN_WIDTH, SCREEN_HEIGHT, SCREEN_CENTER_X, SCREEN_CENTER_Y );
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g_pSharedBGA->Draw();
DISPLAY->CameraPopMatrix();
for( unsigned i=0; i<g_ScreenStack.size(); i++ ) // Draw all screens bottom to top
g_ScreenStack[i].m_pScreen->Draw();
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for( unsigned i=0; i<g_OverlayScreens.size(); i++ )
g_OverlayScreens[i]->Draw();
DISPLAY->EndFrame();
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}
void ScreenManager::Input( const InputEventPlus &input )
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{
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// LOG->Trace( "ScreenManager::Input( %d-%d, %d-%d, %d-%d, %d-%d )",
// DeviceI.device, DeviceI.button, GameI.controller, GameI.button, MenuI.player, MenuI.button, StyleI.player, StyleI.col );
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// First, give overlay screens a shot at the input. If OverlayInput returns
// true, it handled the input, so don't pass it further. OverlayInput could
// probably be merged with Input, but that would require changing all Input
// overloads, as well as all MenuLeft, etc. overloads.
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for( unsigned i = 0; i < g_OverlayScreens.size(); ++i )
{
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Screen *pScreen = g_OverlayScreens[i];
if( pScreen->OverlayInput(input) )
return;
}
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// Pass input to the topmost screen. If we have a new top screen pending, don't
// send to the old screen, but do send to overlay screens.
if( m_sDelayedScreen != "" )
return;
if( !g_ScreenStack.empty() )
g_ScreenStack.back().m_pScreen->Input( input );
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}
/* Just create a new screen; don't do any associated cleanup. */
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Screen* ScreenManager::MakeNewScreen( const RString &sScreenName )
{
RageTimer t;
LOG->Trace( "Loading screen name '%s'", sScreenName.c_str() );
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RString sClassName = THEME->GetMetric(sScreenName,"Class");
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map<RString,CreateScreenFn>::iterator iter = g_pmapRegistrees->find( sClassName );
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ASSERT_M( iter != g_pmapRegistrees->end(), ssprintf("Screen '%s' has an invalid class '%s'",sScreenName.c_str(),sClassName.c_str()) );
this->ZeroNextUpdate();
CreateScreenFn pfn = iter->second;
Screen* ret = pfn( sScreenName );
LOG->Trace( "Loaded '%s' ('%s') in %f", sScreenName.c_str(), sClassName.c_str(), t.GetDeltaTime());
return ret;
}
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void ScreenManager::PrepareScreen( const RString &sScreenName )
{
// If the screen is already prepared, stop.
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if( ScreenIsPrepped(sScreenName) )
return;
Screen* pNewScreen = MakeNewScreen(sScreenName);
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{
LoadedScreen ls;
ls.m_pScreen = pNewScreen;
g_vPreparedScreens.push_back( ls );
}
/* Don't delete previously prepared versions of the screen's background,
* and only prepare it if it's different than the current background
* and not already loaded. */
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RString sNewBGA;
if( pNewScreen->UsesBackground() )
sNewBGA = THEME->GetPathB(sScreenName,"background");
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if( !sNewBGA.empty() && sNewBGA != g_pSharedBGA->GetName() )
{
Actor *pNewBGA = NULL;
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FOREACH( Actor*, g_vPreparedBackgrounds, a )
{
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if( (*a)->GetName() == sNewBGA )
{
pNewBGA = *a;
break;
}
}
// Create the new background before deleting the previous so that we keep
// any common textures loaded.
if( pNewBGA == NULL )
{
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LOG->Trace( "Loading screen background \"%s\"", sNewBGA.c_str() );
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Actor *pActor = ActorUtil::MakeActor( sNewBGA );
pActor->SetName( sNewBGA );
g_vPreparedBackgrounds.push_back( pActor );
}
}
TEXTUREMAN->DiagnosticOutput();
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}
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void ScreenManager::GroupScreen( const RString &sScreenName )
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{
g_setGroupedScreens.insert( sScreenName );
}
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void ScreenManager::PersistantScreen( const RString &sScreenName )
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{
g_setPersistantScreens.insert( sScreenName );
}
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bool ScreenManager::ConcurrentlyPrepareScreen( const RString &sScreenName, ScreenMessage SM )
{
ASSERT_M( m_sDelayedConcurrentPrepare == "", m_sDelayedConcurrentPrepare );
if( !g_bConcurrentLoading || !DISPLAY->SupportsThreadedRendering() )
return false;
LOG->Trace( "ConcurrentlyPrepareScreen(%s)", sScreenName.c_str() );
ASSERT( !IsConcurrentlyLoading() );
m_sDelayedConcurrentPrepare = sScreenName;
m_OnDonePreparingScreen = SM;
return true;
}
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void ScreenManager::RunConcurrentlyPrepareScreen()
{
/* Don't call BackgroundPrepareScreen() from within another background load. */
ASSERT( !IsConcurrentlyLoading() );
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RString sScreenName = m_sDelayedConcurrentPrepare;
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m_sDelayedConcurrentPrepare = "";
ScreenMessage SM = m_OnDonePreparingScreen;
m_OnDonePreparingScreen = SM_None;
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/* If the screen is already prepared, we're all set. */
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if( !ScreenIsPrepped(sScreenName) )
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{
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g_bIsConcurrentlyLoading = true;
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GameLoop::StartConcurrentRendering();
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if( g_setGroupedScreens.find(sScreenName) == g_setGroupedScreens.end() )
DeletePreparedScreens();
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PrepareScreen( sScreenName );
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GameLoop::FinishConcurrentRendering();
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g_bIsConcurrentlyLoading = false;
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LOG->Trace( "Concurrent prepare of %s finished", sScreenName.c_str() );
}
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/* We're done. Send the message. The screen is allowed to start
* another concurrent prepare from this message. */
SendMessageToTopScreen( SM );
}
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void ScreenManager::SetNewScreen( const RString &sScreenName )
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{
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ASSERT( sScreenName != "" );
m_sDelayedScreen = sScreenName;
}
Screen *ScreenManager::ActivatePreparedScreenAndBackground( const RString &sScreenName )
{
//
// Find the prepped screen.
//
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LoadedScreen ls;
if( !GetPreppedScreen(sScreenName, ls) )
return NULL;
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// Screens may not call SetNewScreen from the ctor or Init().
ASSERT_M( m_sDelayedScreen.empty(), m_sDelayedScreen );
// Find the prepared shared background (if any), and activate it.
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RString sNewBGA;
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if( ls.m_pScreen->UsesBackground() )
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sNewBGA = THEME->GetPathB(sScreenName,"background");
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if( sNewBGA != g_pSharedBGA->GetName() )
{
Actor *pNewBGA = NULL;
if( sNewBGA.empty() )
pNewBGA = new Actor;
else
{
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FOREACH( Actor*, g_vPreparedBackgrounds, a )
{
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if( (*a)->GetName() == sNewBGA )
{
pNewBGA = *a;
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g_vPreparedBackgrounds.erase( a );
break;
}
}
}
ASSERT( pNewBGA != NULL );
/* Move the old background back to the prepared list, or delete it if
* it's a blank actor. */
if( g_pSharedBGA->GetName() == "" )
delete g_pSharedBGA;
else
g_vPreparedBackgrounds.push_back( g_pSharedBGA );
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g_pSharedBGA = pNewBGA;
g_pSharedBGA->PlayCommand( "On" );
}
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LOG->Trace("... PushScreen");
PushLoadedScreen( ls );
return ls.m_pScreen;
}
void ScreenManager::LoadDelayedScreen()
{
const bool bWasOnSystemMenu = !g_ScreenStack.empty() && g_ScreenStack.back().m_pScreen->GetScreenType() == system_menu;
RString sScreenName = m_sDelayedScreen;
m_sDelayedScreen = "";
// Pop the top screen, if any.
ScreenMessage SM = PopTopScreenInternal();
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/* If the screen is already prepared, activate it before performing any cleanup, so
* it doesn't get deleted by cleanup. */
Screen *pScreen = ActivatePreparedScreenAndBackground( sScreenName );
vector<Actor*> apActorsToDelete;
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if( g_setGroupedScreens.find(sScreenName) == g_setGroupedScreens.end() )
{
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/* It's time to delete all old prepared screens. Depending on DelayedScreenLoad,
* we can either delete the screens before or after we load the new screen. Either
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* way, we must remove them from the prepared list before we prepare new screens.
*
* If DelayedScreenLoad is true, delete them now; this lowers memory requirements,
* but results in redundant loads as we unload common data. */
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if( g_bDelayedScreenLoad )
DeletePreparedScreens();
else
GrabPreparedActors( apActorsToDelete );
}
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/* If the screen wasn't already prepared, load it. */
if( pScreen == NULL )
{
PrepareScreen( sScreenName );
pScreen = ActivatePreparedScreenAndBackground( sScreenName );
ASSERT( pScreen != NULL );
}
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bool bIsOnSystemMenu = pScreen->GetScreenType() == system_menu;
// If we're exiting a system menu, persist settings in case we don't exit normally
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if( bWasOnSystemMenu && !bIsOnSystemMenu )
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PREFSMAN->SavePrefsToDisk();
if( !apActorsToDelete.empty() )
{
BeforeDeleteScreen();
FOREACH( Actor*, apActorsToDelete, a )
SAFE_DELETE( *a );
AfterDeleteScreen();
}
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SendMessageToTopScreen( SM );
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}
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void ScreenManager::AddNewScreenToTop( const RString &sScreenName, ScreenMessage SendOnPop )
{
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// Load the screen, if it's not already prepared.
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PrepareScreen( sScreenName );
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// Find the prepped screen.
LoadedScreen ls;
bool b = GetPreppedScreen( sScreenName, ls );
ASSERT( b );
ls.m_SendOnPop = SendOnPop;
if( g_ScreenStack.size() )
g_ScreenStack.back().m_pScreen->HandleScreenMessage( SM_LoseFocus );
PushLoadedScreen( ls );
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}
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void ScreenManager::PopTopScreen( ScreenMessage SM )
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{
ASSERT( g_ScreenStack.size() > 0 );
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m_PopTopScreen = SM;
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}
/* Clear the screen stack; only used before major, unusual state changes,
* such as resetting the game or jumping to the service menu. Don't call
* from inside a screen. */
void ScreenManager::PopAllScreens()
{
if( g_ScreenStack.empty() )
return;
/* Make sure only the top screen receives LoseFocus. */
bool bFirst = true;
while( !g_ScreenStack.empty() )
{
PopTopScreenInternal( bFirst );
bFirst = false;
}
}
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void ScreenManager::PostMessageToTopScreen( ScreenMessage SM, float fDelay )
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{
Screen* pTopScreen = GetTopScreen();
if( pTopScreen != NULL )
pTopScreen->PostScreenMessage( SM, fDelay );
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}
void ScreenManager::SendMessageToTopScreen( ScreenMessage SM )
{
Screen* pTopScreen = GetTopScreen();
if( pTopScreen != NULL )
pTopScreen->HandleScreenMessage( SM );
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}
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void ScreenManager::SystemMessage( const RString &sMessage )
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{
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m_sSystemMessage = sMessage;
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LOG->Trace( "%s", sMessage.c_str() );
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MESSAGEMAN->Broadcast( "SystemMessage" );
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}
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void ScreenManager::SystemMessageNoAnimate( const RString &sMessage )
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{
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// LOG->Trace( "%s", sMessage.c_str() ); // don't log because the caller is likely calling us every frame
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m_sSystemMessage = sMessage;
MESSAGEMAN->Broadcast( "SystemMessageNoAnimate" );
}
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void ScreenManager::HideSystemMessage()
{
MESSAGEMAN->Broadcast( "HideSystemMessage" );
}
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void ScreenManager::RefreshCreditsMessages()
{
MESSAGEMAN->Broadcast( "RefreshCreditText" );
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/* This is called when GAMESTATE->m_bSideIsJoined changes. */
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RString joined;
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FOREACH_HumanPlayer( pn )
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{
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if( joined != "" )
joined += ", ";
joined += ssprintf( "P%i", pn+1 );
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}
if( joined == "" )
joined = "none";
LOG->MapLog( "JOINED", "Players joined: %s", joined.c_str() );
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}
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void ScreenManager::ZeroNextUpdate()
{
if( !IsConcurrentlyLoading() )
{
LOG->Trace("ScreenManager::ZeroNextUpdate");
m_bZeroNextUpdate = true;
/* Loading probably took a little while. Let's reset stats. This prevents us
* from displaying an unnaturally low FPS value, and the next FPS value we
* display will be accurate, which makes skips in the initial tween-ins more
* apparent. */
DISPLAY->ResetStats();
}
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}
void ScreenManager::PlayInvalidSound()
{
RageSoundParams p;
p.m_bIsCriticalSound = true;
m_soundInvalid.Play( &p );
}
/* Always play these sounds, even if we're in a silent attract loop. */
void ScreenManager::PlayStartSound()
{
RageSoundParams p;
p.m_bIsCriticalSound = true;
m_soundStart.Play( &p );
}
void ScreenManager::PlayCoinSound()
{
RageSoundParams p;
p.m_bIsCriticalSound = true;
m_soundCoin.Play( &p );
}
void ScreenManager::PlayScreenshotSound()
{
RageSoundParams p;
p.m_bIsCriticalSound = true;
m_soundScreenshot.Play( &p );
}
void ScreenManager::PlaySharedBackgroundOffCommand()
{
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g_pSharedBGA->PlayCommand("Off");
}
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// lua start
#include "LuaBinding.h"
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class LunaScreenManager: public Luna<ScreenManager>
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{
public:
LunaScreenManager() { LUA->Register( Register ); }
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// Note: PrepareScreen binding is not allowed; loading data inside
// Lua causes the Lua lock to be held for the duration of the load,
// which blocks concurrent rendering
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static int SetNewScreen( T* p, lua_State *L ) { p->SetNewScreen( SArg(1) ); return 0; }
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static int GetTopScreen( T* p, lua_State *L )
{
Actor *pScreen = p->GetTopScreen();
if( pScreen != NULL )
pScreen->PushSelf(L);
else
lua_pushnil( L );
return 1;
}
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static int SystemMessage( T* p, lua_State *L ) { p->SystemMessage( SArg(1) ); return 0; }
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static int ConcurrentlyPrepareScreen( T* p, lua_State *L ) { p->ConcurrentlyPrepareScreen( SArg(1) ); return 0; }
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static void Register(lua_State *L)
{
ADD_METHOD( SetNewScreen );
ADD_METHOD( GetTopScreen );
ADD_METHOD( SystemMessage );
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ADD_METHOD( ConcurrentlyPrepareScreen );
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Luna<T>::Register( L );
// Add global singleton if constructed already. If it's not constructed yet,
// then we'll register it later when we reinit Lua just before
// initializing the display.
if( SCREENMAN )
{
lua_pushstring(L, "SCREENMAN");
SCREENMAN->PushSelf( L );
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lua_settable(L, LUA_GLOBALSINDEX);
}
}
};
LUA_REGISTER_CLASS( ScreenManager )
// lua end
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/*
* (c) 2001-2003 Chris Danford, Glenn Maynard
* All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, and/or sell copies of the Software, and to permit persons to
* whom the Software is furnished to do so, provided that the above
* copyright notice(s) and this permission notice appear in all copies of
* the Software and that both the above copyright notice(s) and this
* permission notice appear in supporting documentation.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF
* THIRD PARTY RIGHTS. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS
* INCLUDED IN THIS NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT
* OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
* OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/