| public static GetClosestGLInternalFormat ( PixelFormat mFormat, bool hwGamma = false ) : OpenTK.Graphics.ES11.All | ||
| mFormat | PixelFormat | mFormat The pixel format |
| hwGamma | bool | hwGamma Whether a hardware gamma-corrected version is requested |
| return | OpenTK.Graphics.ES11.All | |
/// <summary>
/// </summary>
/// <param name="data"> </param>
/// <param name="dest"> </param>
protected override void Upload(PixelBox data, BasicBox dest)
{
OpenGL.BindTexture(this._target, this._textureId);
GLESConfig.GlCheckError(this);
if (PixelUtil.IsCompressed(data.Format))
{
if (data.Format != Format || !data.IsConsecutive)
{
throw new AxiomException("Compressed images must be consecutive, in the source format");
}
if (data.Format != Format || !data.IsConsecutive)
{
throw new AxiomException("Compressed images must be consecutive, in the source format.");
}
All format = GLESPixelUtil.GetClosestGLInternalFormat(Format);
// Data must be consecutive and at beginning of buffer as PixelStorei not allowed
// for compressed formats
if (dest.Left == 0 && dest.Top == 0)
{
OpenGL.CompressedTexImage2D(All.Texture2D, this._level, format, dest.Width, dest.Height, 0, data.ConsecutiveSize, data.Data);
}
else
{
OpenGL.CompressedTexSubImage2D(All.Texture2D, this._level, dest.Left, dest.Top, dest.Width, dest.Height, format, data.ConsecutiveSize, data.Data);
}
GLESConfig.GlCheckError(this);
}
else if (this._softwareMipmap)
{
if (data.Width != data.RowPitch)
{
//TODO
throw new AxiomException("Unsupported Texture format!");
}
if (data.Height * data.Width != data.SlicePitch)
{
//TODO
throw new AxiomException("Unsupported Texture format!");
}
OpenGL.PixelStore(All.UnpackAlignment, 1);
GLESConfig.GlCheckError(this);
BuildMipmaps(data);
}
else
{
if (data.Width != data.RowPitch)
{
//TODO
throw new AxiomException("Unsupported Texture format!");
}
if (data.Height * data.Width != data.SlicePitch)
{
//TODO
throw new AxiomException("Unsupported Texture format!");
}
if (((data.Width * PixelUtil.GetNumElemBytes(data.Format)) & 3) != 0)
{
// Standard alignment of 4 is not right
OpenGL.PixelStore(All.UnpackAlignment, 1);
GLESConfig.GlCheckError(this);
}
All form = GLESPixelUtil.GetGLOriginFormat(data.Format);
All pix = GLESPixelUtil.GetGLOriginDataType(data.Format);
GLESConfig.GlCheckError(this);
GL.TexSubImage2D(this._faceTarget, this._level, dest.Left, dest.Top, dest.Width, dest.Height, GLESPixelUtil.GetGLOriginFormat(data.Format), GLESPixelUtil.GetGLOriginDataType(data.Format), data.Data);
GLESConfig.GlCheckError(this);
}
OpenGL.PixelStore(All.UnpackAlignment, 4);
GLESConfig.GlCheckError(this);
}
/// <summary>
/// </summary>
protected void CreateSurfaceList()
{
this._surfaceList.Clear();
// For all faces and mipmaps, store surfaces as HardwarePixelBufferSharedPtr
bool wantGenerateMips = (Usage & TextureUsage.AutoMipMap) == TextureUsage.AutoMipMap;
// Do mipmapping in software? (uses GLU) For some cards, this is still needed. Of course,
// only when mipmap generation is desired.
bool doSoftware = wantGenerateMips && !MipmapsHardwareGenerated && MipmapCount > 0;
for (int face = 0; face < faceCount; face++)
{
int width = Width;
int height = Height;
for (int mip = 0; mip <= MipmapCount; mip++)
{
HardwarePixelBuffer buf = new GLESTextureBuffer(Name, GLESTextureTarget, this._textureID, width, height, (int)GLESPixelUtil.GetClosestGLInternalFormat(Format, HardwareGammaEnabled), face, mip, (BufferUsage)Usage, doSoftware && mip == 0, HardwareGammaEnabled, FSAA);
this._surfaceList.Add(buf);
// If format is PVRTC then every mipmap is a custom one so to allow the upload of the compressed data
// provided by the file we need to adjust the current mip level's dimention
#warning Compressed Textures are not yet supported by axiom
/*
* if (mFormat == PF_PVRTC_RGB2 || mFormat == PF_PVRTC_RGBA2 ||
* mFormat == PF_PVRTC_RGB4 || mFormat == PF_PVRTC_RGBA4)
* {
* if (width > 1)
* {
* width = width / 2;
* }
* if (height > 1)
* {
* height = height / 2;
* }
* }*/
/// Check for error
if (buf.Width == 0 || buf.Height == 0 || buf.Depth == 0)
{
throw new AxiomException(string.Format("Zero sized texture surface on texture: {0} face: {1} mipmap : {2}. The GL driver probably refused to create the texture.", Name, face, mip));
}
}
}
}
/// <summary>
/// </summary>
protected override void createInternalResources()
{
// Convert to nearest power-of-two size if required
Width = GLESPixelUtil.OptionalPO2(Width);
Height = GLESPixelUtil.OptionalPO2(Height);
Depth = GLESPixelUtil.OptionalPO2(Depth);
//adjust format if required
Format = TextureManager.Instance.GetNativeFormat(Graphics.TextureType.TwoD, Format, Usage);
// Check requested number of mipmaps
int maxMips = GLESPixelUtil.GetMaxMipmaps(Width, Height, Depth, Format);
if (PixelUtil.IsCompressed(Format) && _mipmapCount == 0)
{
RequestedMipmapCount = 0;
}
_mipmapCount = RequestedMipmapCount;
if (_mipmapCount > maxMips)
{
_mipmapCount = maxMips;
}
// Generate texture name
OpenGL.GenTextures(1, ref this._textureID);
GLESConfig.GlCheckError(this);
// Set texture type
OpenGL.BindTexture(All.Texture2D, this._textureID);
GLESConfig.GlCheckError(this);
// Set some misc default parameters, these can of course be changed later
OpenGL.TexParameter(All.Texture2D, All.TextureMinFilter, (int)All.LinearMipmapNearest);
GLESConfig.GlCheckError(this);
OpenGL.TexParameter(All.Texture2D, All.TextureMagFilter, (int)All.Nearest);
GLESConfig.GlCheckError(this);
OpenGL.TexParameter(All.Texture2D, All.TextureWrapS, (int)All.ClampToEdge);
GLESConfig.GlCheckError(this);
OpenGL.TexParameter(All.Texture2D, All.TextureWrapT, (int)All.ClampToEdge);
GLESConfig.GlCheckError(this);
// If we can do automip generation and the user desires this, do so
MipmapsHardwareGenerated = Root.Instance.RenderSystem.HardwareCapabilities.HasCapability(Capabilities.HardwareMipMaps) && !PixelUtil.IsCompressed(Format);
if ((Usage & TextureUsage.AutoMipMap) == TextureUsage.AutoMipMap && RequestedMipmapCount > 0 && MipmapsHardwareGenerated)
{
OpenGL.TexParameter(All.Texture2D, All.GenerateMipmap, (int)All.True);
GLESConfig.GlCheckError(this);
}
// Allocate internal buffer so that TexSubImageXD can be used
// Internal format
All format = GLESPixelUtil.GetClosestGLInternalFormat(Format, HardwareGammaEnabled);
int width = Width;
int height = Height;
int depth = Depth;
if (PixelUtil.IsCompressed(Format))
{
// Compressed formats
int size = PixelUtil.GetMemorySize(Width, Height, Depth, Format);
// Provide temporary buffer filled with zeroes as glCompressedTexImageXD does not
// accept a 0 pointer like normal glTexImageXD
// Run through this process for every mipmap to pregenerate mipmap pyramid
var tmpData = new byte[size];
IntPtr tmpDataptr = Memory.PinObject(tmpData);
for (int mip = 0; mip <= MipmapCount; mip++)
{
size = PixelUtil.GetMemorySize(Width, Height, Depth, Format);
OpenGL.CompressedTexImage2D(All.Texture2D, mip, format, width, height, 0, size, tmpDataptr);
GLESConfig.GlCheckError(this);
if (width > 1)
{
width = width / 2;
}
if (height > 1)
{
height = height / 2;
}
if (depth > 1)
{
depth = depth / 2;
}
}
Memory.UnpinObject(tmpData);
}
else
{
// Run through this process to pregenerate mipmap pyramid
for (int mip = 0; mip <= MipmapCount; mip++)
{
OpenGL.TexImage2D(All.Texture2D, mip, (int)format, width, height, 0, format, All.UnsignedByte, IntPtr.Zero);
GLESConfig.GlCheckError(this);
if (width > 1)
{
width = width / 2;
}
if (height > 1)
{
height = height / 2;
}
}
}
CreateSurfaceList();
// Get final internal format
Format = GetBuffer(0, 0).Format;
}
/// <summary>
/// Detect which internal formats are allowed as RTT Also detect what combinations of stencil and depth are allowed with this internal format.
/// </summary>
private void DetectFBOFormats()
{
// Try all formats, and report which ones work as target
int fb = 0, tid = 0;
All target = All.Texture2D;
for (int x = 0; x < (int)Media.PixelFormat.Count; x++)
{
LogManager.Instance.Write("[GLES] [DEBUG] testing PixelFormat : {0}", (Media.PixelFormat)x);
this._props[x] = new FormatProperties();
this._props[x].Modes = new List <FormatProperties.Mode>();
this._props[x].IsValid = false;
// Fetch GL format token
All fmt = GLESPixelUtil.GetClosestGLInternalFormat((Media.PixelFormat)x);
LogManager.Instance.Write("[GLES] [DEBUG] fmt={0}", fmt);
if (fmt == All.Zero && x != 0)
{
continue;
}
// No test for compressed formats
if (PixelUtil.IsCompressed((Media.PixelFormat)x))
{
continue;
}
// Create and attach framebuffer
OpenGLOES.GenRenderbuffers(1, ref fb);
GLESConfig.GlCheckError(this);
OpenGLOES.BindFramebuffer(All.FramebufferOes, fb);
GLESConfig.GlCheckError(this);
if (fmt != All.Zero)
{
// Create and attach texture
OpenGL.GenTextures(1, ref tid);
GLESConfig.GlCheckError(this);
OpenGL.BindTexture(target, tid);
GLESConfig.GlCheckError(this);
// Set some default parameters
OpenGL.TexParameterx(target, All.TextureMinFilter, (int)All.LinearMipmapNearest);
GLESConfig.GlCheckError(this);
OpenGL.TexParameterx(target, All.TextureMagFilter, (int)All.Nearest);
GLESConfig.GlCheckError(this);
OpenGL.TexParameterx(target, All.TextureWrapS, (int)All.ClampToEdge);
GLESConfig.GlCheckError(this);
OpenGL.TexParameterx(target, All.TextureWrapT, (int)All.ClampToEdge);
GLESConfig.GlCheckError(this);
OpenGL.TexImage2D(target, 0, (int)fmt, ProbeSize, ProbeSize, 0, fmt, All.UnsignedByte, IntPtr.Zero);
GLESConfig.GlCheckError(this);
OpenGLOES.FramebufferTexture2D(All.FramebufferOes, All.ColorAttachment0Oes, target, tid, 0);
GLESConfig.GlCheckError(this);
}
// Check status
All status = OpenGLOES.CheckFramebufferStatus(All.FramebufferOes);
GLESConfig.GlCheckError(this);
LogManager.Instance.Write("[GLES] [DEBUG] status={0}", status);
// Ignore status in case of fmt==GL_NONE, because no implementation will accept
// a buffer without *any* attachment. Buffers with only stencil and depth attachment
// might still be supported, so we must continue probing.
if (fmt == 0 || status == All.FramebufferCompleteOes)
{
this._props[x].IsValid = true;
var str = new StringBuilder();
str.Append("FBO " + PixelUtil.GetFormatName((Media.PixelFormat)x) + " depth/stencil support: ");
// For each depth/stencil formats
for (int depth = 0; depth < DepthFormats.Length; ++depth)
{
if (DepthFormats[depth] != All.Depth24Stencil8Oes)
{
// General depth/stencil combination
for (int stencil = 0; stencil < StencilFormats.Length; ++stencil)
{
if (TryFormat(DepthFormats[depth], StencilFormats[stencil]))
{
/// Add mode to allowed modes
str.Append("D" + DepthBits[depth] + "S" + StencilBits[stencil] + " ");
var mode = new FormatProperties.Mode();
mode.Depth = depth;
mode.Stencil = stencil;
this._props[x].Modes.Add(mode);
}
} //end for stencil
} //end if
else
{
// Packed depth/stencil format
if (TryPacketFormat(DepthFormats[depth]))
{
/// Add mode to allowed modes
str.Append("Packed-D" + DepthBits[depth] + "S8" + " ");
var mode = new FormatProperties.Mode();
mode.Depth = depth;
mode.Stencil = 0; //unused
this._props[x].Modes.Add(mode);
}
}
} //end for depth
LogManager.Instance.Write(str.ToString());
} //end if
// Delete texture and framebuffer
#if AXIOM_PLATFORM_IPHONE
// The screen buffer is 1 on iPhone
OpenGLOES.BindFramebuffer(All.FramebufferOes, 1);
#else
OpenGLOES.BindFramebuffer(All.FramebufferOes, 0);
#endif
GLESConfig.GlCheckError(this);
OpenGLOES.DeleteFramebuffers(1, ref fb);
GLESConfig.GlCheckError(this);
if (fmt != 0)
{
OpenGL.DeleteTextures(1, ref tid);
}
} //end for pixelformat count
string fmtstring = string.Empty;
for (int x = 0; x < (int)Media.PixelFormat.Count; x++)
{
if (this._props[x].IsValid)
{
fmtstring += PixelUtil.GetFormatName((Media.PixelFormat)x);
}
}
LogManager.Instance.Write("[GLES] : Valid FBO targets " + fmtstring);
}