public GLESHardwareVertexBuffer(HardwareBufferManagerBase manager, VertexDeclaration vertexDeclaration, int numVertices, BufferUsage usage, bool useShadowBuffer)
: base(manager, vertexDeclaration, numVertices, usage, false, useShadowBuffer)
{
if (!useShadowBuffer)
{
throw new AxiomException("Only supported with shadowBuffer");
}
var buffers = new int[1];
GL.GenBuffers(1, buffers);
GLESConfig.GlCheckError(this);
this._bufferID = buffers[0];
if (this._bufferID == 0)
{
throw new AxiomException("Cannot create GL ES vertex buffer");
}
(Root.Instance.RenderSystem as GLESRenderSystem).BindGLBuffer(GLenum.ArrayBuffer, this._bufferID);
GL.BufferData(GLenum.ArrayBuffer, new IntPtr(sizeInBytes), IntPtr.Zero, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
public GLESHardwareIndexBuffer(HardwareBufferManagerBase manager, IndexType type, int numIndices, BufferUsage usage, bool useShadowBuffer)
: base(manager, type, numIndices, usage, false, useShadowBuffer)
{
if (type == IndexType.Size32)
{
throw new AxiomException("32 bit hardware buffers are not allowed in OpenGL ES.");
}
if (!useShadowBuffer)
{
throw new AxiomException("Only support with shadowBuffer");
}
OpenGL.GenBuffers(1, ref this._bufferId);
GLESConfig.GlCheckError(this);
if (this._bufferId == 0)
{
throw new AxiomException("Cannot create GL index buffer");
}
OpenGL.BindBuffer(All.ElementArrayBuffer, this._bufferId);
GLESConfig.GlCheckError(this);
OpenGL.BufferData(All.ElementArrayBuffer, new IntPtr(sizeInBytes), IntPtr.Zero, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
/// <summary>
/// </summary>
protected override void UpdateFromShadow()
{
if (useShadowBuffer && shadowUpdated && !suppressHardwareUpdate)
{
var srcData = shadowBuffer.Lock(lockStart, lockSize, BufferLocking.ReadOnly);
OpenGL.BindBuffer(All.ElementArrayBuffer, this._bufferId);
GLESConfig.GlCheckError(this);
var srcPtr = new IntPtr(srcData.Ptr);
// Update whole buffer if possible, otherwise normal
if (lockStart == 0 && lockSize == sizeInBytes)
{
OpenGL.BufferData(All.ElementArrayBuffer, new IntPtr(sizeInBytes), srcPtr, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
else
{
OpenGL.BufferSubData(All.ElementArrayBuffer, new IntPtr(lockStart), new IntPtr(lockSize), srcPtr);
GLESConfig.GlCheckError(this);
}
shadowBuffer.Unlock();
shadowUpdated = false;
}
}
/// <summary>
/// </summary>
/// <param name="offset"> </param>
/// <param name="length"> </param>
/// <param name="src"> </param>
/// <param name="discardWholeBuffer"> </param>
public override void WriteData(int offset, int length, BufferBase src, bool discardWholeBuffer)
{
OpenGL.BindBuffer(All.ElementArrayBuffer, this._bufferId);
GLESConfig.GlCheckError(this);
// Update the shadow buffer
if (useShadowBuffer)
{
var destData = shadowBuffer.Lock(offset, length, discardWholeBuffer ? BufferLocking.Discard : BufferLocking.Normal);
Memory.Copy(src, destData, length);
shadowBuffer.Unlock();
}
var srcPtr = src.Ptr;
if (offset == 0 && length == sizeInBytes)
{
OpenGL.BufferData(All.ElementArrayBuffer, new IntPtr(sizeInBytes), ref srcPtr, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
else
{
if (discardWholeBuffer)
{
OpenGL.BufferData(All.ElementArrayBuffer, new IntPtr(sizeInBytes), IntPtr.Zero, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
// Now update the real buffer
OpenGL.BufferSubData(All.ElementArrayBuffer, new IntPtr(offset), new IntPtr(length), ref srcPtr);
GLESConfig.GlCheckError(this);
}
if (src.Ptr != srcPtr)
{
LogManager.Instance.Write("[GLES2] HardwareIndexBuffer.WriteData - buffer pointer modified by GL.BufferData.");
}
}
/// <summary>
/// </summary>
/// <param name="offset"> </param>
/// <param name="length"> </param>
/// <param name="locking"> </param>
/// <returns> </returns>
protected override BufferBase LockImpl(int offset, int length, BufferLocking locking)
{
All access = 0;
if (isLocked)
{
throw new AxiomException("Invalid attempt to lock an index buffer that has already been locked");
}
BufferBase retPtr = null;
if (length < MapBufferThreshold)
{
retPtr = ((GLESHardwareBufferManager)HardwareBufferManager.Instance).AllocateScratch(length);
if (retPtr != null)
{
this._lockedToScratch = true;
this._scratchOffset = offset;
this._scratchSize = length;
this._scratchPtr = retPtr;
this._scratchUploadOnUnlock = (locking != BufferLocking.ReadOnly);
if (locking != BufferLocking.Discard)
{
this.ReadData(offset, length, retPtr);
}
}
}
else
{
throw new AxiomException("Invalid Buffer lockSize");
}
if (retPtr == null)
{
OpenGL.BindBuffer(All.ElementArrayBuffer, this._bufferId);
GLESConfig.GlCheckError(this);
// Use glMapBuffer
if (locking == BufferLocking.Discard)
{
OpenGL.BufferData(All.ElementArrayBuffer, new IntPtr(sizeInBytes), IntPtr.Zero, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
if ((usage & BufferUsage.WriteOnly) != 0)
{
access = All.WriteOnlyOes;
}
IntPtr pBuffer = OpenGLOES.MapBuffer(All.ElementArrayBuffer, access);
GLESConfig.GlCheckError(this);
if (pBuffer == IntPtr.Zero)
{
throw new AxiomException("Index Buffer: Out of memory");
}
unsafe
{
// return offset
retPtr = BufferBase.Wrap(pBuffer, sizeInBytes);
}
this._lockedToScratch = false;
}
isLocked = true;
return(retPtr);
}
/// <summary>
///
/// </summary>
/// <param name="primary"></param>
private void CheckCaps( RenderTarget primary )
{
_rsCapabilities = new RenderSystemCapabilities();
_rsCapabilities.DeviceName = OpenTK.Graphics.ES11.GL.GetString( All.Renderer );
_rsCapabilities.VendorName = OpenTK.Graphics.ES11.GL.GetString( All.Vendor );
_rsCapabilities.RendersystemName = Name;
// GL ES 1.x is fixed function only
_rsCapabilities.SetCapability( Capabilities.FixedFunction );
// Multitexturing support and set number of texture units
int units = 0;
OpenGL.GetInteger( All.MaxTextureUnits, ref units );
_rsCapabilities.TextureUnitCount = units;
// Check for hardware stencil support and set bit depth
int stencil = 0;
OpenGL.GetInteger( All.StencilBits, ref stencil );
GLESConfig.GlCheckError( this );
if ( stencil != 0 )
{
_rsCapabilities.SetCapability( Capabilities.StencilBuffer );
_rsCapabilities.StencilBufferBitCount = stencil;
}
// Scissor test is standard
_rsCapabilities.SetCapability( Capabilities.ScissorTest );
// Vertex Buffer Objects are always supported by OpenGL ES
_rsCapabilities.SetCapability( Capabilities.VertexBuffer );
// OpenGL ES - Check for these extensions too
// For 1.1, http://www.khronos.org/registry/gles/api/1.1/glext.h
// For 2.0, http://www.khronos.org/registry/gles/api/2.0/gl2ext.h
if ( _glSupport.CheckExtension( "GL_IMG_texture_compression_pvrtc" ) ||
_glSupport.CheckExtension( "GL_AMD_compressed_3DC_texture" ) ||
_glSupport.CheckExtension( "GL_AMD_compressed_ATC_texture" ) ||
_glSupport.CheckExtension( "GL_OES_compressed_ETC1_RGB8_texture" ) ||
_glSupport.CheckExtension( "GL_OES_compressed_paletted_texture" ) )
{
// TODO: Add support for compression types other than pvrtc
_rsCapabilities.SetCapability( Capabilities.TextureCompression );
if ( _glSupport.CheckExtension( "GL_IMG_texture_compression_pvrtc" ) )
_rsCapabilities.SetCapability( Capabilities.TextureCompressionPVRTC );
}
if ( _glSupport.CheckExtension( "GL_EXT_texture_filter_anisotropic" ) )
_rsCapabilities.SetCapability( Capabilities.AnisotropicFiltering );
if ( _glSupport.CheckExtension( "GL_OES_framebuffer_object" ) )
{
LogManager.Instance.Write( "[GLES] Framebuffers are supported." );
_rsCapabilities.SetCapability( Capabilities.FrameBufferObjects );
_rsCapabilities.SetCapability( Capabilities.HardwareRenderToTexture );
}
else
{
_rsCapabilities.SetCapability( Capabilities.PBuffer );
_rsCapabilities.SetCapability( Capabilities.HardwareRenderToTexture );
}
// Cube map
if ( _glSupport.CheckExtension( "GL_OES_texture_cube_map" ) )
_rsCapabilities.SetCapability( Capabilities.CubeMapping );
if ( _glSupport.CheckExtension( "GL_OES_stencil_wrap" ) )
_rsCapabilities.SetCapability( Capabilities.StencilWrap );
if ( _glSupport.CheckExtension( "GL_OES_blend_subtract" ) )
_rsCapabilities.SetCapability( Capabilities.AdvancedBlendOperations );
if ( _glSupport.CheckExtension( "GL_ANDROID_user_clip_plane" ) )
_rsCapabilities.SetCapability( Capabilities.UserClipPlanes );
if ( _glSupport.CheckExtension( "GL_OES_texture3D" ) )
_rsCapabilities.SetCapability( Capabilities.Texture3D );
// GL always shares vertex and fragment texture units (for now?)
_rsCapabilities.VertexTextureUnitsShared = true;
// Hardware support mipmapping
_rsCapabilities.SetCapability( Capabilities.Automipmap );
if ( _glSupport.CheckExtension( "GL_EXT_texture_lod_bias" ) )
_rsCapabilities.SetCapability( Capabilities.MipmapLODBias );
//blending support
_rsCapabilities.SetCapability( Capabilities.TextureBlending );
// DOT3 support is standard
_rsCapabilities.SetCapability( Capabilities.Dot3 );
if ( _rsCapabilities.HasCapability( Capabilities.VertexBuffer ) )
{
hardwareBufferManager = new GLESHardwareBufferManager();
}
else
{
hardwareBufferManager = new GLESDefaultHardwareBufferManager();
}
/// Do this after extension function pointers are initialised as the extension
/// is used to probe further capabilities.
int rttMode = 0;
if ( ConfigOptions.ContainsKey( "RTT Preferred Mode" ) )
{
ConfigOption opt = ConfigOptions[ "RTT Preferred Mode" ];
// RTT Mode: 0 use whatever available, 1 use PBuffers, 2 force use copying
if ( opt.Value == "PBuffer" )
{
rttMode = 1;
}
else if ( opt.Value == "Copy" )
{
rttMode = 2;
}
}
LogManager.Instance.Write( "[GLES] 'RTT Preferred Mode' = {0}", rttMode );
// Check for framebuffer object extension
if ( _rsCapabilities.HasCapability( Capabilities.FrameBufferObjects ) && ( rttMode < 1 ) )
{
if ( _rsCapabilities.HasCapability( Capabilities.HardwareRenderToTexture ) )
{
// Create FBO manager
LogManager.Instance.Write( "[GLES] Using GL_OES_framebuffer_object for rendering to textures (best)" );
_rttManager = new GLESFBORTTManager();
}
}
else
{
// Check GLSupport for PBuffer support
if ( _rsCapabilities.HasCapability( Capabilities.PBuffer ) && rttMode < 2 )
{
if ( _rsCapabilities.HasCapability( Capabilities.HardwareRenderToTexture ) )
{
// Use PBuffers
_rttManager = new GLESPBRTTManager();
LogManager.Instance.Write( "[GLES] Using PBuffers for rendering to textures" );
}
}
else
{
// No pbuffer support either -- fallback to simplest copying from framebuffer
_rttManager = new GLESCopyingRTTManager();
LogManager.Instance.Write( "[GLES] Using framebuffer copy for rendering to textures (worst)" );
LogManager.Instance.Write( "[GLES] Warning: RenderTexture size is restricted to size of framebuffer." );
}
_rsCapabilities.MultiRenderTargetCount = 1;
}
// Point size
float ps = 0;
OpenGL.GetFloat( All.PointSizeMax, ref ps );
GLESConfig.GlCheckError( this );
_rsCapabilities.MaxPointSize = ps;
// Point sprites
if ( _glSupport.CheckExtension( "GL_OES_point_sprite" ) )
_rsCapabilities.SetCapability( Capabilities.PointSprites );
_rsCapabilities.SetCapability( Capabilities.PointExtendedParameters );
// UBYTE4 always supported
_rsCapabilities.SetCapability( Capabilities.VertexFormatUByte4 );
// Infinite far plane always supported
_rsCapabilities.SetCapability( Capabilities.InfiniteFarPlane );
// hardware occlusion support
_rsCapabilities.SetCapability( Capabilities.HardwareOcculusion );
//// Check for Float textures
if ( _glSupport.CheckExtension( "GL_OES_texture_half_float" ) )
_rsCapabilities.SetCapability( Capabilities.TextureFloat );
// Alpha to coverage always 'supported' when MSAA is available
// although card may ignore it if it doesn't specifically support A2C
_rsCapabilities.SetCapability( Capabilities.AlphaToCoverage );
}
/// <summary>
///
/// </summary>
/// <param name="primary"></param>
protected void InitializeContext( RenderTarget primary )
{
// Set main and current context
_mainContext = (GLESContext)primary[ "GLCONTEXT" ];
LogManager.Instance.Write( _mainContext == null ? "maincontext NULL" : "maincontext NOT NULL" );
_currentContext = _mainContext;
// Set primary context as active
if ( _currentContext != null )
_currentContext.SetCurrent();
// intialize GL extensions and check capabilites
_glSupport.InitializeExtensions();
LogManager.Instance.Write( "***************************" );
LogManager.Instance.Write( "*** GLES Renderer Started ***" );
LogManager.Instance.Write( "***************************" );
// log hardware info
LogManager.Instance.Write( "Vendor: {0}", _glSupport.Vendor );
LogManager.Instance.Write( "Video Board: {0}", _glSupport.VideoCard );
LogManager.Instance.Write( "Version: {0}", _glSupport.Version );
LogManager.Instance.Write( "Extensions supported: " );
foreach ( string ext in _glSupport.Extensions )
{
LogManager.Instance.Write( ext );
}
// create our special program manager
this._gpuProgramManager = new GLESGpuProgramManager();
// query hardware capabilites
CheckCaps( primary );
// create a specialized instance, which registers itself as the singleton instance of HardwareBufferManager
// use software buffers as a fallback, which operate as regular vertex arrays
if ( this._rsCapabilities.HasCapability( Capabilities.VertexBuffer ) )
{
hardwareBufferManager = new GLESHardwareBufferManager();
}
else
{
hardwareBufferManager = new GLESDefaultHardwareBufferManager();
}
// by creating our texture manager, singleton TextureManager will hold our implementation
textureManager = new GLESTextureManager( _glSupport );
_polygonMode = GLFill;
this._glInitialized = true;
}
protected override void UpdateFromShadow()
{
if (useShadowBuffer && shadowUpdated && !suppressHardwareUpdate)
{
var srcData = shadowBuffer.Lock(lockStart, lockSize, BufferLocking.ReadOnly);
(Root.Instance.RenderSystem as GLESRenderSystem).BindGLBuffer(GLenum.ArrayBuffer, this._bufferID);
//Update whole buffer if possible, otherwise normal
if (lockStart == 0 && lockSize == sizeInBytes)
{
GL.BufferData(GLenum.ArrayBuffer, new IntPtr(sizeInBytes), srcData.Pin(), GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
else
{
//Ogre FIXME: GPU frequently stalls here - DJR
GL.BufferSubData(GLenum.ArrayBuffer, new IntPtr(lockStart), new IntPtr(lockSize), srcData.Pin());
GLESConfig.GlCheckError(this);
}
shadowBuffer.Unlock();
shadowUpdated = false;
}
}
public override void WriteData(int offset, int length, BufferBase src, bool discardWholeBuffer)
{
//Update the shadow buffer
if (useShadowBuffer)
{
var destData = shadowBuffer.Lock(offset, length, discardWholeBuffer ? BufferLocking.Discard : BufferLocking.Normal);
src = destData;
shadowBuffer.Unlock();
}
if (offset == 0 && length == sizeInBytes)
{
GL.BufferData(GLenum.ArrayBuffer, new IntPtr(sizeInBytes), src.Pin(), GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
else
{
if (discardWholeBuffer)
{
GL.BufferData(GLenum.ArrayBuffer, new IntPtr(sizeInBytes), IntPtr.Zero, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
GL.BufferSubData(GLenum.ArrayBuffer, new IntPtr(offset), new IntPtr(length), src.Pin());
GLESConfig.GlCheckError(this);
}
}
protected override BufferBase LockImpl(int offset, int length, BufferLocking locking)
{
if (IsLocked)
{
throw new AxiomException("Invalid attempt to lock an index buffer that has already been locked.");
}
BufferBase retPtr;
var glBufManager = (HardwareBufferManager.Instance as GLESHardwareBufferManager);
//Try to use scratch buffers for smaller buffers
if (length < glBufManager.MapBufferThreshold)
{
retPtr = glBufManager.AllocateScratch(length);
if (retPtr != null)
{
this._lockedToScratch = true;
this._scratchOffset = offset;
this._scratchSize = length;
this._scratchPtr = retPtr;
this._scratchUploadOnUnlock = (locking != BufferLocking.ReadOnly);
if (locking != BufferLocking.Discard)
{
//have to read back the data before returning the pointer
this.ReadData(offset, length, retPtr);
}
}
}
else
{
throw new AxiomException("Invalid Buffer lockSize");
}
if (retPtr == null)
{
GLenum access = GLenum.Zero;
(Root.Instance.RenderSystem as GLESRenderSystem).BindGLBuffer(GLenum.ArrayBuffer, this._bufferID);
if (locking == BufferLocking.Discard)
{
//Discard the buffer
GL.BufferData(GLenum.ArrayBuffer, new IntPtr(sizeInBytes), IntPtr.Zero, GLESHardwareBufferManager.GetGLUsage(usage));
GLESConfig.GlCheckError(this);
}
if ((usage & BufferUsage.WriteOnly) == BufferUsage.WriteOnly)
{
access = GLenum.WriteOnlyOes;
}
var pbuffer = GL.Oes.MapBuffer(GLenum.ArrayBuffer, access);
GLESConfig.GlCheckError(this);
if (pbuffer == IntPtr.Zero)
{
throw new AxiomException("Vertex Buffer: Out of memory");
}
//return offsetted
retPtr = BufferBase.Wrap(pbuffer, sizeInBytes) + offset;
this._lockedToScratch = false;
}
isLocked = true;
return(retPtr);
}
