OGRE 2.1
Object-Oriented Graphics Rendering Engine
Loading...
Searching...
No Matches
Ogre::MeshManager Class Reference

Handles the management of mesh resources. More...

#include <OgreMeshManager2.h>

+ Inheritance diagram for Ogre::MeshManager:

Public Types

typedef std::pair< ResourcePtr, boolResourceCreateOrRetrieveResult
 
typedef map< ResourceHandle, ResourcePtr >::type ResourceHandleMap
 
typedef unordered_map< String, ResourcePtr >::type ResourceMap
 
typedef MapIterator< ResourceHandleMapResourceMapIterator
 
typedef unordered_map< String, ResourceMap >::type ResourceWithGroupMap
 

Public Member Functions

 MeshManager ()
 
 ~MeshManager ()
 
void _initialise (void)
 Initialises the manager, only to be called by OGRE internally.
 
virtual void _notifyResourceLoaded (Resource *res)
 Notify this manager that a resource which it manages has been loaded.
 
virtual void _notifyResourceTouched (Resource *res)
 Notify this manager that a resource which it manages has been 'touched', i.e.
 
virtual void _notifyResourceUnloaded (Resource *res)
 Notify this manager that a resource which it manages has been unloaded.
 
void _setVaoManager (VaoManager *vaoManager)
 
MeshPtr create (const String &name, const String &group, bool isManual=false, ManualResourceLoader *loader=0, const NameValuePairList *createParams=0)
 Create a new mesh.
 
MeshPtr createManual (const String &name, const String &groupName, ManualResourceLoader *loader=0)
 Creates a new Mesh specifically for manual definition rather than loading from an object file.
 
virtual ResourceCreateOrRetrieveResult createOrRetrieve (const String &name, const String &group, bool isManual=false, ManualResourceLoader *loader=0, const NameValuePairList *createParams=0)
 Create a new resource, or retrieve an existing one with the same name if it already exists.
 
ResourceCreateOrRetrieveResult createOrRetrieve (const String &name, const String &group, bool isManual=false, ManualResourceLoader *loader=0, const NameValuePairList *params=0, BufferType vertexBufferType=BT_IMMUTABLE, BufferType indexBufferType=BT_IMMUTABLE, bool vertexBufferShadowed=true, bool indexBufferShadowed=true)
 Create a new mesh, or retrieve an existing one with the same name if it already exists.
 
virtual ResourcePtr createResource (const String &name, const String &group, bool isManual=false, ManualResourceLoader *loader=0, const NameValuePairList *createParams=0)
 Creates a new blank resource, but does not immediately load it.
 
void destroyAllResourcePools ()
 destroy all pools
 
void destroyResourcePool (const String &name)
 Destroy a resource pool.
 
void destroyResourcePool (ResourcePool *pool)
 Destroy a resource pool.
 
Real getBoundsPaddingFactor (void)
 Gets the factor by which the bounding box of an entity is padded.
 
virtual ResourcePtr getByHandle (ResourceHandle handle)
 Retrieves a pointer to a resource by handle, or null if the resource does not exist.
 
MeshPtr getByName (const String &name, const String &groupName=ResourceGroupManager::AUTODETECT_RESOURCE_GROUP_NAME)
 Get a resource by name.
 
virtual Real getLoadingOrder (void) const
 Gets the relative loading order of resources of this type.
 
virtual size_t getMemoryBudget (void) const
 Get the limit on the amount of memory this resource handler may use.
 
virtual size_t getMemoryUsage (void) const
 Gets the current memory usage, in bytes.
 
virtual ResourcePtr getResourceByName (const String &name, const String &groupName=ResourceGroupManager::AUTODETECT_RESOURCE_GROUP_NAME)
 Retrieves a pointer to a resource by name, or null if the resource does not exist.
 
ResourceMapIterator getResourceIterator (void)
 Returns an iterator over all resources in this manager.
 
ResourcePoolgetResourcePool (const String &name)
 Create a resource pool, or reuse one that already exists.
 
const StringgetResourceType (void) const
 Gets a string identifying the type of resource this manager handles.
 
virtual const StringVectorgetScriptPatterns (void) const
 Gets the file patterns which should be used to find scripts for this ResourceManager.
 
virtual bool getVerbose (void)
 Gets whether this manager and its resources habitually produce log output.
 
MeshPtr load (const String &filename, const String &groupName, BufferType vertexBufferType=BT_IMMUTABLE, BufferType indexBufferType=BT_IMMUTABLE, bool vertexBufferShadowed=true, bool indexBufferShadowed=true)
 Loads a mesh from a file, making it immediately available for use.
 
virtual ResourcePtr load (const String &name, const String &group, bool isManual=false, ManualResourceLoader *loader=0, const NameValuePairList *loadParams=0, bool backgroundThread=false)
 Generic load method, used to create a Resource specific to this ResourceManager without using one of the specialised 'load' methods (containing per-Resource-type parameters).
 
void operator delete (void *ptr)
 
void operator delete (void *ptr, const char *, int, const char *)
 
void operator delete (void *ptr, void *)
 
void operator delete[] (void *ptr)
 
void operator delete[] (void *ptr, const char *, int, const char *)
 
voidoperator new (size_t sz)
 
voidoperator new (size_t sz, const char *file, int line, const char *func)
 operator new, with debug line info
 
voidoperator new (size_t sz, void *ptr)
 placement operator new
 
voidoperator new[] (size_t sz)
 
voidoperator new[] (size_t sz, const char *file, int line, const char *func)
 array operator new, with debug line info
 
virtual void parseScript (DataStreamPtr &stream, const String &groupName)
 Parse the definition of a set of resources from a script file.
 
MeshPtr prepare (const String &filename, const String &groupName, BufferType vertexBufferType=BT_IMMUTABLE, BufferType indexBufferType=BT_IMMUTABLE, bool vertexBufferShadowed=true, bool indexBufferShadowed=true)
 Prepares a mesh for loading from a file.
 
virtual ResourcePtr prepare (const String &name, const String &group, bool isManual=false, ManualResourceLoader *loader=0, const NameValuePairList *loadParams=0, bool backgroundThread=false)
 Generic prepare method, used to create a Resource specific to this ResourceManager without using one of the specialised 'prepare' methods (containing per-Resource-type parameters).
 
void reloadAll (bool reloadableOnly=true)
 Caused all currently loaded resources to be reloaded.
 
virtual void reloadAll (Resource::LoadingFlags flags)
 Caused all currently loaded resources to be reloaded.
 
void reloadUnreferencedResources (bool reloadableOnly=true)
 Caused all currently loaded but not referenced by any other object resources to be reloaded.
 
virtual void remove (const ResourcePtr &r)
 Remove a single resource.
 
virtual void remove (const String &name)
 Remove a single resource by name.
 
virtual void remove (ResourceHandle handle)
 Remove a single resource by handle.
 
virtual void removeAll (void)
 Removes all resources.
 
virtual void removeUnreferencedResources (bool reloadableOnly=true)
 Remove all resources which are not referenced by any other object.
 
virtual bool resourceExists (const String &name)
 Returns whether the named resource exists in this manager.
 
virtual bool resourceExists (ResourceHandle handle)
 Returns whether a resource with the given handle exists in this manager.
 
void setBoundsPaddingFactor (Real paddingFactor)
 Sets the factor by which the bounding box of an entity is padded.
 
virtual void setMemoryBudget (size_t bytes)
 Set a limit on the amount of memory this resource handler may use.
 
virtual void setVerbose (bool v)
 Sets whether this manager and its resources habitually produce log output.
 
virtual void unload (const String &name)
 Unloads a single resource by name.
 
virtual void unload (ResourceHandle handle)
 Unloads a single resource by handle.
 
void unloadAll (bool reloadableOnly=true)
 Unloads all resources.
 
virtual void unloadAll (Resource::LoadingFlags flags)
 Unloads all resources.
 
void unloadUnreferencedResources (bool reloadableOnly=true)
 Unload all resources which are not referenced by any other object.
 

Static Public Member Functions

static MeshManagergetSingleton (void)
 Override standard Singleton retrieval.
 
static MeshManagergetSingletonPtr (void)
 Override standard Singleton retrieval.
 

Public Attributes

 OGRE_AUTO_MUTEX
 

Detailed Description

Handles the management of mesh resources.

Remarks
This class deals with the runtime management of mesh data; like other resource managers it handles the creation of resources (in this case mesh data), working within a fixed memory budget.

Member Typedef Documentation

◆ ResourceCreateOrRetrieveResult

◆ ResourceHandleMap

◆ ResourceMap

◆ ResourceMapIterator

◆ ResourceWithGroupMap

Constructor & Destructor Documentation

◆ MeshManager()

Ogre::MeshManager::MeshManager ( )

◆ ~MeshManager()

Ogre::MeshManager::~MeshManager ( )

Member Function Documentation

◆ _initialise()

void Ogre::MeshManager::_initialise ( void  )

Initialises the manager, only to be called by OGRE internally.

◆ _notifyResourceLoaded()

virtual void Ogre::ResourceManager::_notifyResourceLoaded ( Resource res)
virtualinherited

Notify this manager that a resource which it manages has been loaded.

◆ _notifyResourceTouched()

virtual void Ogre::ResourceManager::_notifyResourceTouched ( Resource res)
virtualinherited

Notify this manager that a resource which it manages has been 'touched', i.e.

used.

◆ _notifyResourceUnloaded()

virtual void Ogre::ResourceManager::_notifyResourceUnloaded ( Resource res)
virtualinherited

Notify this manager that a resource which it manages has been unloaded.

◆ _setVaoManager()

void Ogre::MeshManager::_setVaoManager ( VaoManager vaoManager)

◆ create()

MeshPtr Ogre::MeshManager::create ( const String name,
const String group,
bool  isManual = false,
ManualResourceLoader loader = 0,
const NameValuePairList createParams = 0 
)

Create a new mesh.

See also
ResourceManager::createResource

◆ createManual()

MeshPtr Ogre::MeshManager::createManual ( const String name,
const String groupName,
ManualResourceLoader loader = 0 
)

Creates a new Mesh specifically for manual definition rather than loading from an object file.

Remarks
Note that once you've defined your mesh, you must call Mesh::_setBounds and Mesh::_setBoundingRadius in order to define the bounds of your mesh. In previous versions of OGRE you could call Mesh::_updateBounds, but OGRE's support of write-only vertex buffers makes this no longer appropriate.
Parameters
nameThe name to give the new mesh
groupNameThe name of the resource group to assign the mesh to
loaderManualResourceLoader which will be called to load this mesh when the time comes. It is recommended that you populate this field in order that the mesh can be rebuilt should the need arise

◆ createOrRetrieve() [1/2]

virtual ResourceCreateOrRetrieveResult Ogre::ResourceManager::createOrRetrieve ( const String name,
const String group,
bool  isManual = false,
ManualResourceLoader loader = 0,
const NameValuePairList createParams = 0 
)
virtualinherited

Create a new resource, or retrieve an existing one with the same name if it already exists.

Remarks
This method performs the same task as calling getByName() followed by create() if that returns null. The advantage is that it does it in one call so there are no race conditions if using multiple threads that could cause getByName() to return null, but create() to fail because another thread created a resource in between.
See also
ResourceManager::createResource
ResourceManager::getResourceByName
Returns
A pair, the first element being the pointer, and the second being an indicator specifying whether the resource was newly created.

◆ createOrRetrieve() [2/2]

ResourceCreateOrRetrieveResult Ogre::MeshManager::createOrRetrieve ( const String name,
const String group,
bool  isManual = false,
ManualResourceLoader loader = 0,
const NameValuePairList params = 0,
BufferType  vertexBufferType = BT_IMMUTABLE,
BufferType  indexBufferType = BT_IMMUTABLE,
bool  vertexBufferShadowed = true,
bool  indexBufferShadowed = true 
)

Create a new mesh, or retrieve an existing one with the same name if it already exists.

Parameters
vertexBufferUsageThe usage flags with which the vertex buffer(s) will be created
indexBufferUsageThe usage flags with which the index buffer(s) created for this mesh will be created with.
vertexBufferShadowedIf true, the vertex buffers will be shadowed by system memory copies for faster read access
indexBufferShadowedIf true, the index buffers will be shadowed by system memory copies for faster read access
See also
ResourceManager::createOrRetrieve

◆ createResource()

virtual ResourcePtr Ogre::ResourceManager::createResource ( const String name,
const String group,
bool  isManual = false,
ManualResourceLoader loader = 0,
const NameValuePairList createParams = 0 
)
virtualinherited

Creates a new blank resource, but does not immediately load it.

Remarks
Resource managers handle disparate types of resources, so if you want to get at the detailed interface of this resource, you'll have to cast the result to the subclass you know you're creating.
Parameters
nameThe unique name of the resource
groupThe name of the resource group to attach this new resource to
isManualIs this resource manually loaded? If so, you should really populate the loader parameter in order that the load process can call the loader back when loading is required.
loaderPointer to a ManualLoader implementation which will be called when the Resource wishes to load (should be supplied if you set isManual to true). You can in fact leave this parameter null if you wish, but the Resource will never be able to reload if anything ever causes it to unload. Therefore provision of a proper ManualLoader instance is strongly recommended.
createParamsIf any parameters are required to create an instance, they should be supplied here as name / value pairs

◆ destroyAllResourcePools()

void Ogre::ResourceManager::destroyAllResourcePools ( )
inherited

destroy all pools

◆ destroyResourcePool() [1/2]

void Ogre::ResourceManager::destroyResourcePool ( const String name)
inherited

Destroy a resource pool.

◆ destroyResourcePool() [2/2]

void Ogre::ResourceManager::destroyResourcePool ( ResourcePool pool)
inherited

Destroy a resource pool.

◆ getBoundsPaddingFactor()

Real Ogre::MeshManager::getBoundsPaddingFactor ( void  )

Gets the factor by which the bounding box of an entity is padded.

Default is 0.01

◆ getByHandle()

virtual ResourcePtr Ogre::ResourceManager::getByHandle ( ResourceHandle  handle)
virtualinherited

Retrieves a pointer to a resource by handle, or null if the resource does not exist.

◆ getByName()

MeshPtr Ogre::MeshManager::getByName ( const String name,
const String groupName = ResourceGroupManager::AUTODETECT_RESOURCE_GROUP_NAME 
)

Get a resource by name.

See also
ResourceManager::getResourceByName

◆ getLoadingOrder()

virtual Real Ogre::ResourceManager::getLoadingOrder ( void  ) const
inlinevirtualinherited

Gets the relative loading order of resources of this type.

Remarks
There are dependencies between some kinds of resource in terms of loading order, and this value enumerates that. Higher values load later during bulk loading tasks.

Implements Ogre::ScriptLoader.

◆ getMemoryBudget()

virtual size_t Ogre::ResourceManager::getMemoryBudget ( void  ) const
virtualinherited

Get the limit on the amount of memory this resource handler may use.

◆ getMemoryUsage()

virtual size_t Ogre::ResourceManager::getMemoryUsage ( void  ) const
inlinevirtualinherited

Gets the current memory usage, in bytes.

◆ getResourceByName()

virtual ResourcePtr Ogre::ResourceManager::getResourceByName ( const String name,
const String groupName = ResourceGroupManager::AUTODETECT_RESOURCE_GROUP_NAME 
)
virtualinherited

Retrieves a pointer to a resource by name, or null if the resource does not exist.

◆ getResourceIterator()

ResourceMapIterator Ogre::ResourceManager::getResourceIterator ( void  )
inlineinherited

Returns an iterator over all resources in this manager.

Note
Use of this iterator is NOT thread safe!

◆ getResourcePool()

ResourcePool * Ogre::ResourceManager::getResourcePool ( const String name)
inherited

Create a resource pool, or reuse one that already exists.

◆ getResourceType()

const String & Ogre::ResourceManager::getResourceType ( void  ) const
inlineinherited

Gets a string identifying the type of resource this manager handles.

◆ getScriptPatterns()

virtual const StringVector & Ogre::ResourceManager::getScriptPatterns ( void  ) const
inlinevirtualinherited

Gets the file patterns which should be used to find scripts for this ResourceManager.

Remarks
Some resource managers can read script files in order to define resources ahead of time. These resources are added to the available list inside the manager, but none are loaded initially. This allows you to load the items that are used on demand, or to load them all as a group if you wish (through ResourceGroupManager).
This method lets you determine the file pattern which will be used to identify scripts intended for this manager.
Returns
A list of file patterns, in the order they should be searched in.
See also
isScriptingSupported, parseScript

Implements Ogre::ScriptLoader.

◆ getSingleton()

static MeshManager & Ogre::MeshManager::getSingleton ( void  )
static

Override standard Singleton retrieval.

Remarks
Why do we do this? Well, it's because the Singleton implementation is in a .h file, which means it gets compiled into anybody who includes it. This is needed for the Singleton template to work, but we actually only want it compiled into the implementation of the class based on the Singleton, not all of them. If we don't change this, we get link errors when trying to use the Singleton-based class from an outside dll.
This method just delegates to the template version anyway, but the implementation stays in this single compilation unit, preventing link errors.

◆ getSingletonPtr()

static MeshManager * Ogre::MeshManager::getSingletonPtr ( void  )
static

Override standard Singleton retrieval.

Remarks
Why do we do this? Well, it's because the Singleton implementation is in a .h file, which means it gets compiled into anybody who includes it. This is needed for the Singleton template to work, but we actually only want it compiled into the implementation of the class based on the Singleton, not all of them. If we don't change this, we get link errors when trying to use the Singleton-based class from an outside dll.
This method just delegates to the template version anyway, but the implementation stays in this single compilation unit, preventing link errors.

◆ getVerbose()

virtual bool Ogre::ResourceManager::getVerbose ( void  )
inlinevirtualinherited

Gets whether this manager and its resources habitually produce log output.

◆ load() [1/2]

MeshPtr Ogre::MeshManager::load ( const String filename,
const String groupName,
BufferType  vertexBufferType = BT_IMMUTABLE,
BufferType  indexBufferType = BT_IMMUTABLE,
bool  vertexBufferShadowed = true,
bool  indexBufferShadowed = true 
)

Loads a mesh from a file, making it immediately available for use.

Note
If the model has already been created (prepared or loaded), the existing instance will be returned.
Remarks
Ogre loads model files from it's own proprietary format called .mesh. This is because having a single file format is better for runtime performance, and we also have control over pre-processed data (such as collision boxes, LOD reductions etc).
Parameters
filenameThe name of the .mesh file
groupNameThe name of the resource group to assign the mesh to
vertexBufferUsageThe usage flags with which the vertex buffer(s) will be created
indexBufferUsageThe usage flags with which the index buffer(s) created for this mesh will be created with.
vertexBufferShadowedIf true, the vertex buffers will be shadowed by system memory copies for faster read access
indexBufferShadowedIf true, the index buffers will be shadowed by system memory copies for faster read access

◆ load() [2/2]

virtual ResourcePtr Ogre::ResourceManager::load ( const String name,
const String group,
bool  isManual = false,
ManualResourceLoader loader = 0,
const NameValuePairList loadParams = 0,
bool  backgroundThread = false 
)
virtualinherited

Generic load method, used to create a Resource specific to this ResourceManager without using one of the specialised 'load' methods (containing per-Resource-type parameters).

Parameters
nameThe name of the Resource
groupThe resource group to which this resource will belong
isManualIs the resource to be manually loaded? If so, you should provide a value for the loader parameter
loaderThe manual loader which is to perform the required actions when this resource is loaded; only applicable when you specify true for the previous parameter
loadParamsOptional pointer to a list of name/value pairs containing loading parameters for this type of resource.
backgroundThreadOptional boolean which lets the load routine know if it is being run on the background resource loading thread

◆ operator delete() [1/3]

template<class Alloc >
void Ogre::AllocatedObject< Alloc >::operator delete ( void ptr)
inlineinherited

◆ operator delete() [2/3]

template<class Alloc >
void Ogre::AllocatedObject< Alloc >::operator delete ( void ptr,
const char ,
int  ,
const char  
)
inlineinherited

◆ operator delete() [3/3]

template<class Alloc >
void Ogre::AllocatedObject< Alloc >::operator delete ( void ptr,
void  
)
inlineinherited

◆ operator delete[]() [1/2]

template<class Alloc >
void Ogre::AllocatedObject< Alloc >::operator delete[] ( void ptr)
inlineinherited

◆ operator delete[]() [2/2]

template<class Alloc >
void Ogre::AllocatedObject< Alloc >::operator delete[] ( void ptr,
const char ,
int  ,
const char  
)
inlineinherited

◆ operator new() [1/3]

template<class Alloc >
void * Ogre::AllocatedObject< Alloc >::operator new ( size_t  sz)
inlineinherited

◆ operator new() [2/3]

template<class Alloc >
void * Ogre::AllocatedObject< Alloc >::operator new ( size_t  sz,
const char file,
int  line,
const char func 
)
inlineinherited

operator new, with debug line info

◆ operator new() [3/3]

template<class Alloc >
void * Ogre::AllocatedObject< Alloc >::operator new ( size_t  sz,
void ptr 
)
inlineinherited

placement operator new

◆ operator new[]() [1/2]

template<class Alloc >
void * Ogre::AllocatedObject< Alloc >::operator new[] ( size_t  sz)
inlineinherited

◆ operator new[]() [2/2]

template<class Alloc >
void * Ogre::AllocatedObject< Alloc >::operator new[] ( size_t  sz,
const char file,
int  line,
const char func 
)
inlineinherited

array operator new, with debug line info

◆ parseScript()

virtual void Ogre::ResourceManager::parseScript ( DataStreamPtr stream,
const String groupName 
)
inlinevirtualinherited

Parse the definition of a set of resources from a script file.

Remarks
Some resource managers can read script files in order to define resources ahead of time. These resources are added to the available list inside the manager, but none are loaded initially. This allows you to load the items that are used on demand, or to load them all as a group if you wish (through ResourceGroupManager).
Parameters
streamWeak reference to a data stream which is the source of the script
groupNameThe name of the resource group that resources which are parsed are to become a member of. If this group is loaded or unloaded, then the resources discovered in this script will be loaded / unloaded with it.

Implements Ogre::ScriptLoader.

Reimplemented in Ogre::FontManager, and Ogre::MaterialManager.

◆ prepare() [1/2]

MeshPtr Ogre::MeshManager::prepare ( const String filename,
const String groupName,
BufferType  vertexBufferType = BT_IMMUTABLE,
BufferType  indexBufferType = BT_IMMUTABLE,
bool  vertexBufferShadowed = true,
bool  indexBufferShadowed = true 
)

Prepares a mesh for loading from a file.

This does the IO in advance of the call to load().

Note
If the model has already been created (prepared or loaded), the existing instance will be returned.
Remarks
Ogre loads model files from it's own proprietary format called .mesh. This is because having a single file format is better for runtime performance, and we also have control over pre-processed data (such as collision boxes, LOD reductions etc).
Parameters
filenameThe name of the .mesh file
groupNameThe name of the resource group to assign the mesh to
vertexBufferUsageThe usage flags with which the vertex buffer(s) will be created
indexBufferUsageThe usage flags with which the index buffer(s) created for this mesh will be created with.
vertexBufferShadowedIf true, the vertex buffers will be shadowed by system memory copies for faster read access
indexBufferShadowedIf true, the index buffers will be shadowed by system memory copies for faster read access

◆ prepare() [2/2]

virtual ResourcePtr Ogre::ResourceManager::prepare ( const String name,
const String group,
bool  isManual = false,
ManualResourceLoader loader = 0,
const NameValuePairList loadParams = 0,
bool  backgroundThread = false 
)
virtualinherited

Generic prepare method, used to create a Resource specific to this ResourceManager without using one of the specialised 'prepare' methods (containing per-Resource-type parameters).

Parameters
nameThe name of the Resource
groupThe resource group to which this resource will belong
isManualIs the resource to be manually loaded? If so, you should provide a value for the loader parameter
loaderThe manual loader which is to perform the required actions when this resource is loaded; only applicable when you specify true for the previous parameter
loadParamsOptional pointer to a list of name/value pairs containing loading parameters for this type of resource.
backgroundThreadOptional boolean which lets the load routine know if it is being run on the background resource loading thread

◆ reloadAll() [1/2]

void Ogre::ResourceManager::reloadAll ( bool  reloadableOnly = true)
inlineinherited

Caused all currently loaded resources to be reloaded.

Remarks
All resources currently being held in this manager which are also marked as currently loaded will be unloaded, then loaded again.
Parameters
reloadableOnlyIf true (the default), only reload the resource that is reloadable. Because some resources isn't reloadable, they will be unloaded but can't loaded again. Thus, you might not want to them unloaded. Or, you might unload all of them, and then populate them manually later.
See also
Resource::isReloadable for resource is reloadable.

References Ogre::Resource::LF_DEFAULT, and Ogre::Resource::LF_INCLUDE_NON_RELOADABLE.

◆ reloadAll() [2/2]

virtual void Ogre::ResourceManager::reloadAll ( Resource::LoadingFlags  flags)
virtualinherited

Caused all currently loaded resources to be reloaded.

Remarks
All resources currently being held in this manager which are also marked as currently loaded will be unloaded, then loaded again.
Parameters
flagsAllow to restrict processing to only reloadable and/or unreferenced resources. Additionally, reloading could be done with preserving some selected resource states that could be used elsewhere.
See also
Resource::LoadingFlags for additional information.

◆ reloadUnreferencedResources()

void Ogre::ResourceManager::reloadUnreferencedResources ( bool  reloadableOnly = true)
inlineinherited

Caused all currently loaded but not referenced by any other object resources to be reloaded.

Remarks
This method behaves like reloadAll, except that it only reloads resources which are not in use, i.e. not referenced by other objects.
Some referenced resource may exists 'weak' pointer to their sub-components (e.g. Entity held pointer to SubMesh), in this case, unload or reload that resource will cause dangerous pointer access. Use this function instead of reloadAll allows you avoid fail in those situations.
Parameters
reloadableOnlyIf true (the default), only reloads resources which can be subsequently automatically reloaded.

References Ogre::Resource::LF_ONLY_UNREFERENCED, and Ogre::Resource::LF_ONLY_UNREFERENCED_INCLUDE_NON_RELOADABLE.

◆ remove() [1/3]

virtual void Ogre::ResourceManager::remove ( const ResourcePtr r)
virtualinherited

Remove a single resource.

Remarks
Removes a single resource, meaning it will be removed from the list of valid resources in this manager, also causing it to be unloaded.
Note
The word 'Destroy' is not used here, since if any other pointers are referring to this resource, it will persist until they have finished with it; however to all intents and purposes it no longer exists and will likely get destroyed imminently.
If you do have shared pointers to resources hanging around after the ResourceManager is destroyed, you may get problems on destruction of these resources if they were relying on the manager (especially if it is a plugin). If you find you get problems on shutdown in the destruction of resources, try making sure you release all your shared pointers before you shutdown OGRE.

◆ remove() [2/3]

virtual void Ogre::ResourceManager::remove ( const String name)
virtualinherited

Remove a single resource by name.

Remarks
Removes a single resource, meaning it will be removed from the list of valid resources in this manager, also causing it to be unloaded.
Note
The word 'Destroy' is not used here, since if any other pointers are referring to this resource, it will persist until they have finished with it; however to all intents and purposes it no longer exists and will likely get destroyed imminently.
If you do have shared pointers to resources hanging around after the ResourceManager is destroyed, you may get problems on destruction of these resources if they were relying on the manager (especially if it is a plugin). If you find you get problems on shutdown in the destruction of resources, try making sure you release all your shared pointers before you shutdown OGRE.

◆ remove() [3/3]

virtual void Ogre::ResourceManager::remove ( ResourceHandle  handle)
virtualinherited

Remove a single resource by handle.

Remarks
Removes a single resource, meaning it will be removed from the list of valid resources in this manager, also causing it to be unloaded.
Note
The word 'Destroy' is not used here, since if any other pointers are referring to this resource, it will persist until they have finished with it; however to all intents and purposes it no longer exists and will likely get destroyed imminently.
If you do have shared pointers to resources hanging around after the ResourceManager is destroyed, you may get problems on destruction of these resources if they were relying on the manager (especially if it is a plugin). If you find you get problems on shutdown in the destruction of resources, try making sure you release all your shared pointers before you shutdown OGRE.

◆ removeAll()

virtual void Ogre::ResourceManager::removeAll ( void  )
virtualinherited

Removes all resources.

Note
The word 'Destroy' is not used here, since if any other pointers are referring to these resources, they will persist until they have been finished with; however to all intents and purposes the resources no longer exist and will get destroyed imminently.
If you do have shared pointers to resources hanging around after the ResourceManager is destroyed, you may get problems on destruction of these resources if they were relying on the manager (especially if it is a plugin). If you find you get problems on shutdown in the destruction of resources, try making sure you release all your shared pointers before you shutdown OGRE.

◆ removeUnreferencedResources()

virtual void Ogre::ResourceManager::removeUnreferencedResources ( bool  reloadableOnly = true)
virtualinherited

Remove all resources which are not referenced by any other object.

Remarks
This method behaves like removeAll, except that it only removes resources which are not in use, ie not referenced by other objects. This allows you to free up some memory selectively whilst still keeping the group around (and the resources present, just not using much memory).
Some referenced resource may exists 'weak' pointer to their sub-components (e.g. Entity held pointer to SubMesh), in this case, remove or reload that resource will cause dangerous pointer access. Use this function instead of removeAll allows you avoid fail in those situations.
Parameters
reloadableOnlyIf true (the default), only removes resources which can be subsequently automatically reloaded.

◆ resourceExists() [1/2]

virtual bool Ogre::ResourceManager::resourceExists ( const String name)
inlinevirtualinherited

Returns whether the named resource exists in this manager.

◆ resourceExists() [2/2]

virtual bool Ogre::ResourceManager::resourceExists ( ResourceHandle  handle)
inlinevirtualinherited

Returns whether a resource with the given handle exists in this manager.

◆ setBoundsPaddingFactor()

void Ogre::MeshManager::setBoundsPaddingFactor ( Real  paddingFactor)

Sets the factor by which the bounding box of an entity is padded.

◆ setMemoryBudget()

virtual void Ogre::ResourceManager::setMemoryBudget ( size_t  bytes)
virtualinherited

Set a limit on the amount of memory this resource handler may use.

Remarks
If, when asked to load a new resource, the manager believes it will exceed this memory budget, it will temporarily unload a resource to make room for the new one. This unloading is not permanent and the Resource is not destroyed; it simply needs to be reloaded when next used.

◆ setVerbose()

virtual void Ogre::ResourceManager::setVerbose ( bool  v)
inlinevirtualinherited

Sets whether this manager and its resources habitually produce log output.

◆ unload() [1/2]

virtual void Ogre::ResourceManager::unload ( const String name)
virtualinherited

Unloads a single resource by name.

Remarks
Unloaded resources are not removed, they simply free up their memory as much as they can and wait to be reloaded.
See also
ResourceGroupManager for unloading of resource groups.

◆ unload() [2/2]

virtual void Ogre::ResourceManager::unload ( ResourceHandle  handle)
virtualinherited

Unloads a single resource by handle.

Remarks
Unloaded resources are not removed, they simply free up their memory as much as they can and wait to be reloaded.
See also
ResourceGroupManager for unloading of resource groups.

◆ unloadAll() [1/2]

void Ogre::ResourceManager::unloadAll ( bool  reloadableOnly = true)
inlineinherited

Unloads all resources.

Remarks
Unloaded resources are not removed, they simply free up their memory as much as they can and wait to be reloaded.
See also
ResourceGroupManager for unloading of resource groups.
Parameters
reloadableOnlyIf true (the default), only unload the resource that is reloadable. Because some resources isn't reloadable, they will be unloaded but can't load them later. Thus, you might not want to them unloaded. Or, you might unload all of them, and then populate them manually later.
See also
Resource::isReloadable for resource is reloadable.

References Ogre::Resource::LF_DEFAULT, and Ogre::Resource::LF_INCLUDE_NON_RELOADABLE.

◆ unloadAll() [2/2]

virtual void Ogre::ResourceManager::unloadAll ( Resource::LoadingFlags  flags)
virtualinherited

Unloads all resources.

Remarks
Unloaded resources are not removed, they simply free up their memory as much as they can and wait to be reloaded.
See also
ResourceGroupManager for unloading of resource groups.
Parameters
flagsAllow to restrict processing to only reloadable and/or unreferenced resources.
See also
Resource::LoadingFlags for additional information.

◆ unloadUnreferencedResources()

void Ogre::ResourceManager::unloadUnreferencedResources ( bool  reloadableOnly = true)
inlineinherited

Unload all resources which are not referenced by any other object.

Remarks
This method behaves like unloadAll, except that it only unloads resources which are not in use, ie not referenced by other objects. This allows you to free up some memory selectively whilst still keeping the group around (and the resources present, just not using much memory).
Some referenced resource may exists 'weak' pointer to their sub-components (e.g. Entity held pointer to SubMesh), in this case, unload or reload that resource will cause dangerous pointer access. Use this function instead of unloadAll allows you avoid fail in those situations.
Parameters
reloadableOnlyIf true (the default), only unloads resources which can be subsequently automatically reloaded.

References Ogre::Resource::LF_ONLY_UNREFERENCED, and Ogre::Resource::LF_ONLY_UNREFERENCED_INCLUDE_NON_RELOADABLE.

Member Data Documentation

◆ OGRE_AUTO_MUTEX

Ogre::ResourceManager::OGRE_AUTO_MUTEX
inherited

The documentation for this class was generated from the following file: