XNA Xbox 360 Content Manager Discussion gelée Dessiner la discussion
https://stackoverflow.com/questions/2650579
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27-09-2019 - |
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J'ai actuellement un jeu qui prend de grandes images, facilement supérieures à 1 Mo, pour servir d'arrière-plan.Je sais exactement quand cette transition est censée avoir lieu, j'ai donc créé une classe de chargement pour gérer le chargement de ces grandes images en arrière-plan, mais lorsque je charge les images, cela gèle toujours le thread principal où le dessin a lieu.Étant donné que ce code s'exécute sur le 360, j'ai déplacé le thread vers le 4ème thread matériel, mais cela ne semble pas aider.Vous trouverez ci-dessous la classe que j'utilise.Toute idée sur la raison pour laquelle mon nouveau gestionnaire de contenu, qui devrait être dans son propre fil de discussion, interrompt le tirage au sort dans mon fil de discussion principal, serait appréciée.
namespace FileSystem
{
/// <summary>
/// This is used to reference how many objects reference this texture.
/// Everytime someone references a texture we increase the iNumberOfReferences.
/// When a class calls remove on a specific texture we check to see if anything
/// else is referencing the class, if it is we don't remove it. If there isn't
/// anything referencing the texture its safe to dispose of.
/// </summary>
class TextureContainer
{
public uint uiNumberOfReferences = 0;
public Texture2D texture;
}
/// <summary>
/// This class loads all the files from the Content.
/// </summary>
static class FileManager
{
static Microsoft.Xna.Framework.Content.ContentManager Content;
static EventWaitHandle wh = new AutoResetEvent(false);
static Dictionary<string, TextureContainer> Texture2DResourceDictionary;
static List<Texture2D> TexturesToDispose;
static List<String> TexturesToLoad;
static int iProcessor = 4;
private static object threadMutex = new object();
private static object Texture2DMutex = new object();
private static object loadingMutex = new object();
private static bool bLoadingTextures = false;
/// <summary>
/// Returns if we are loading textures or not.
/// </summary>
public static bool LoadingTexture
{
get {
lock (loadingMutex)
{
return bLoadingTextures;
}
}
}
/// <summary>
/// Since this is an static class. This is the constructor for the file loadeder. This is the version
/// for the Xbox 360.
/// </summary>
/// <param name="_Content"></param>
public static void Initalize(IServiceProvider serviceProvider, string rootDirectory, int _iProcessor )
{
Content = new Microsoft.Xna.Framework.Content.ContentManager(serviceProvider, rootDirectory);
Texture2DResourceDictionary = new Dictionary<string, TextureContainer>();
TexturesToDispose = new List<Texture2D>();
iProcessor = _iProcessor;
CreateThread();
}
/// <summary>
/// Since this is an static class. This is the constructor for the file loadeder.
/// </summary>
/// <param name="_Content"></param>
public static void Initalize(IServiceProvider serviceProvider, string rootDirectory)
{
Content = new Microsoft.Xna.Framework.Content.ContentManager(serviceProvider, rootDirectory);
Texture2DResourceDictionary = new Dictionary<string, TextureContainer>();
TexturesToDispose = new List<Texture2D>();
CreateThread();
}
/// <summary>
/// Creates the thread incase we wanted to set up some parameters
/// Outside of the constructor.
/// </summary>
static public void CreateThread()
{
Thread t = new Thread(new ThreadStart(StartThread));
t.Start();
}
// This is the function that we thread.
static public void StartThread()
{
//BBSThreadClass BBSTC = (BBSThreadClass)_oData;
FileManager.Execute();
}
/// <summary>
/// This thread shouldn't be called by the outside world.
/// It allows the File Manager to loop.
/// </summary>
static private void Execute()
{
// Make sure our thread is on the correct processor on the XBox 360.
#if WINDOWS
#else
Thread.CurrentThread.SetProcessorAffinity(new int[] { iProcessor });
Thread.CurrentThread.IsBackground = true;
#endif
// This loop will load textures into ram for us away from the main thread.
while (true)
{
wh.WaitOne();
// Locking down our data while we process it.
lock (threadMutex)
{
lock (loadingMutex)
{
bLoadingTextures = true;
}
bool bContainsKey = false;
for (int con = 0; con < TexturesToLoad.Count; con++)
{
// If we have already loaded the texture into memory reference
// the one in the dictionary.
lock (Texture2DMutex)
{
bContainsKey = Texture2DResourceDictionary.ContainsKey(TexturesToLoad[con]);
}
if (bContainsKey)
{
// Do nothing
}
// Otherwise load it into the dictionary and then reference the
// copy in the dictionary
else
{
TextureContainer TC = new TextureContainer();
TC.uiNumberOfReferences = 1; // We start out with 1 referece.
// Loading the texture into memory.
try
{
TC.texture = Content.Load<Texture2D>(TexturesToLoad[con]);
// This is passed into the dictionary, thus there is only one copy of
// the texture in memory.
// There is an issue with Sprite Batch and disposing textures.
// This will have to wait until its figured out.
lock (Texture2DMutex)
{
bContainsKey = Texture2DResourceDictionary.ContainsKey(TexturesToLoad[con]);
Texture2DResourceDictionary.Add(TexturesToLoad[con], TC);
}
// We don't have the find the reference to the container since we
// already have it.
}
// Occasionally our texture will already by loaded by another thread while
// this thread is operating. This mainly happens on the first level.
catch (Exception e)
{
// If this happens we don't worry about it since this thread only loads
// texture data and if its already there we don't need to load it.
}
}
Thread.Sleep(100);
}
}
lock (loadingMutex)
{
bLoadingTextures = false;
}
}
}
static public void LoadTextureList(List<string> _textureList)
{
// Ensuring that we can't creating threading problems.
lock (threadMutex)
{
TexturesToLoad = _textureList;
}
wh.Set();
}
/// <summary>
/// This loads a 2D texture which represents a 2D grid of Texels.
/// </summary>
/// <param name="_textureName">The name of the picture you wish to load.</param>
/// <returns>Holds the image data.</returns>
public static Texture2D LoadTexture2D( string _textureName )
{
TextureContainer temp;
lock (Texture2DMutex)
{
bool bContainsKey = false;
// If we have already loaded the texture into memory reference
// the one in the dictionary.
lock (Texture2DMutex)
{
bContainsKey = Texture2DResourceDictionary.ContainsKey(_textureName);
if (bContainsKey)
{
temp = Texture2DResourceDictionary[_textureName];
temp.uiNumberOfReferences++; // Incrementing the number of references
}
// Otherwise load it into the dictionary and then reference the
// copy in the dictionary
else
{
TextureContainer TC = new TextureContainer();
TC.uiNumberOfReferences = 1; // We start out with 1 referece.
// Loading the texture into memory.
try
{
TC.texture = Content.Load<Texture2D>(_textureName);
// This is passed into the dictionary, thus there is only one copy of
// the texture in memory.
}
// Occasionally our texture will already by loaded by another thread while
// this thread is operating. This mainly happens on the first level.
catch(Exception e)
{
temp = Texture2DResourceDictionary[_textureName];
temp.uiNumberOfReferences++; // Incrementing the number of references
}
// There is an issue with Sprite Batch and disposing textures.
// This will have to wait until its figured out.
Texture2DResourceDictionary.Add(_textureName, TC);
// We don't have the find the reference to the container since we
// already have it.
temp = TC;
}
}
}
// Return a reference to the texture
return temp.texture;
}
/// <summary>
/// Go through our dictionary and remove any references to the
/// texture passed in.
/// </summary>
/// <param name="texture">Texture to remove from texture dictionary.</param>
public static void RemoveTexture2D(Texture2D texture)
{
foreach (KeyValuePair<string, TextureContainer> pair in Texture2DResourceDictionary)
{
// Do our references match?
if (pair.Value.texture == texture)
{
// Only one object or less holds a reference to the
// texture. Logically it should be safe to remove.
if (pair.Value.uiNumberOfReferences <= 1)
{
// Grabing referenc to texture
TexturesToDispose.Add(pair.Value.texture);
// We are about to release the memory of the texture,
// thus we make sure no one else can call this member
// in the dictionary.
Texture2DResourceDictionary.Remove(pair.Key);
// Once we have removed the texture we don't want to create an exception.
// So we will stop looking in the list since it has changed.
break;
}
// More than one Object has a reference to this texture.
// So we will not be removing it from memory and instead
// simply marking down the number of references by 1.
else
{
pair.Value.uiNumberOfReferences--;
}
}
}
}
/*public static void DisposeTextures()
{
int Count = TexturesToDispose.Count;
// If there are any textures to dispose of.
if (Count > 0)
{
for (int con = 0; con < TexturesToDispose.Count; con++)
{
// =!THIS REMOVES THE TEXTURE FROM MEMORY!=
// This is not like a normal dispose. This will actually
// remove the object from memory. Texture2D is inherited
// from GraphicsResource which removes it self from
// memory on dispose. Very nice for game efficency,
// but "dangerous" in managed land.
Texture2D Temp = TexturesToDispose[con];
Temp.Dispose();
}
// Remove textures we've already disposed of.
TexturesToDispose.Clear();
}
}*/
/// <summary>
/// This loads a 2D texture which represnets a font.
/// </summary>
/// <param name="_textureName">The name of the font you wish to load.</param>
/// <returns>Holds the font data.</returns>
public static SpriteFont LoadFont( string _fontName )
{
SpriteFont temp = Content.Load<SpriteFont>( _fontName );
return temp;
}
/// <summary>
/// This loads an XML document.
/// </summary>
/// <param name="_textureName">The name of the XML document you wish to load.</param>
/// <returns>Holds the XML data.</returns>
public static XmlDocument LoadXML( string _fileName )
{
XmlDocument temp = Content.Load<XmlDocument>( _fileName );
return temp;
}
/// <summary>
/// This loads a sound file.
/// </summary>
/// <param name="_fileName"></param>
/// <returns></returns>
public static SoundEffect LoadSound( string _fileName )
{
SoundEffect temp = Content.Load<SoundEffect>(_fileName);
return temp;
}
}
}
La solution
Extrait du billet de blog : Verrouiller les conflits pendant les animations de l'écran de chargement par Shawn Hargreaves
Voilà des dragons!Le code ci-dessus travail, mais est susceptible de rendre votre chargement des centaines de fois plus lent.
La raison en est que chaque fois que vous Touchez le périphérique graphique à partir d’un fil différent, le cadre prend une section critique, afin de Évitez HeisenBadness.Si l’animation est constamment redessiné, l’animation thread possédera à peu près toujours ce verrou, donc chaque fois que votre charge veut créer un graphique ressource telle qu’une texture, un sommet buffer, ou shader, il doit attendre jusqu’à ce que Le thread d’animation le libère.Ceci peut prendre un certain temps si l’animation Le fil est juste en boucle constante le même morceau de code de tirage !
La solution est de Ralentissez votre thread d’animation en insérant un thread de sommeil appeler, ce qui l’empêche d’accaparer le périphérique graphique.
Dans votre cas cependant, comme vous chargez de très grandes textures contiguës, vous devrez peut-être simplement repenser votre fonction de chargement pour qu'elle se produise lorsque l'utilisateur n'a pas besoin de voir d'animations, car vous vous attendez à ce qu'il y ait un verrou.
Autres conseils
Sans voir le reste du code, c'est difficile à dire, mais je suppose que vous avez un conflit de verrouillage quelque part.J'ai fait un test rapide de chargement de 10 modèles massifs (environ un temps de chargement de 5 secondes) et j'ai pu les charger sur un thread séparé sans mettre en pause le thread principal.
Le problème était que je chargeais une grande quantité de graphiques plus petits dans le thread principal.Je les ai ajoutés à la liste pour les charger dans le fil de discussion et les problèmes ont disparu.
Donc vos réponses précédentes étaient correctes.Je n’utilisais tout simplement pas les choses correctement.
