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crossxtex/DirectXTex/DirectXTexPMAlpha.cpp
Chuck Walbourn 1dec86435d Code review feedback
2016-09-14 00:21:44 -07:00

329 lines
11 KiB
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//-------------------------------------------------------------------------------------
// DirectXTexPMAlpha.cpp
//
// DirectX Texture Library - Premultiplied alpha operations
//
// THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF
// ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
// PARTICULAR PURPOSE.
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// http://go.microsoft.com/fwlink/?LinkId=248926
//-------------------------------------------------------------------------------------
#include "directxtexp.h"
using namespace DirectX;
namespace
{
//---------------------------------------------------------------------------------
// NonPremultiplied alpha -> Premultiplied alpha
HRESULT PremultiplyAlpha_(const Image& srcImage, const Image& destImage)
{
assert(srcImage.width == destImage.width);
assert(srcImage.height == destImage.height);
ScopedAlignedArrayXMVECTOR scanline(reinterpret_cast<XMVECTOR*>(_aligned_malloc((sizeof(XMVECTOR)*srcImage.width), 16)));
if (!scanline)
return E_OUTOFMEMORY;
const uint8_t *pSrc = srcImage.pixels;
uint8_t *pDest = destImage.pixels;
if (!pSrc || !pDest)
return E_POINTER;
for (size_t h = 0; h < srcImage.height; ++h)
{
if (!_LoadScanline(scanline.get(), srcImage.width, pSrc, srcImage.rowPitch, srcImage.format))
return E_FAIL;
XMVECTOR* ptr = scanline.get();
for (size_t w = 0; w < srcImage.width; ++w)
{
XMVECTOR v = *ptr;
XMVECTOR alpha = XMVectorSplatW(*ptr);
alpha = XMVectorMultiply(v, alpha);
*(ptr++) = XMVectorSelect(v, alpha, g_XMSelect1110);
}
if (!_StoreScanline(pDest, destImage.rowPitch, destImage.format, scanline.get(), srcImage.width))
return E_FAIL;
pSrc += srcImage.rowPitch;
pDest += destImage.rowPitch;
}
return S_OK;
}
HRESULT PremultiplyAlphaLinear(const Image& srcImage, DWORD flags, const Image& destImage)
{
assert(srcImage.width == destImage.width);
assert(srcImage.height == destImage.height);
static_assert(TEX_PMALPHA_SRGB_IN == TEX_FILTER_SRGB_IN, "TEX_PMALHPA_SRGB* should match TEX_FILTER_SRGB*");
static_assert(TEX_PMALPHA_SRGB_OUT == TEX_FILTER_SRGB_OUT, "TEX_PMALHPA_SRGB* should match TEX_FILTER_SRGB*");
static_assert(TEX_PMALPHA_SRGB == TEX_FILTER_SRGB, "TEX_PMALHPA_SRGB* should match TEX_FILTER_SRGB*");
flags &= TEX_PMALPHA_SRGB;
ScopedAlignedArrayXMVECTOR scanline(reinterpret_cast<XMVECTOR*>(_aligned_malloc((sizeof(XMVECTOR)*srcImage.width), 16)));
if (!scanline)
return E_OUTOFMEMORY;
const uint8_t *pSrc = srcImage.pixels;
uint8_t *pDest = destImage.pixels;
if (!pSrc || !pDest)
return E_POINTER;
for (size_t h = 0; h < srcImage.height; ++h)
{
if (!_LoadScanlineLinear(scanline.get(), srcImage.width, pSrc, srcImage.rowPitch, srcImage.format, flags))
return E_FAIL;
XMVECTOR* ptr = scanline.get();
for (size_t w = 0; w < srcImage.width; ++w)
{
XMVECTOR v = *ptr;
XMVECTOR alpha = XMVectorSplatW(*ptr);
alpha = XMVectorMultiply(v, alpha);
*(ptr++) = XMVectorSelect(v, alpha, g_XMSelect1110);
}
if (!_StoreScanlineLinear(pDest, destImage.rowPitch, destImage.format, scanline.get(), srcImage.width, flags))
return E_FAIL;
pSrc += srcImage.rowPitch;
pDest += destImage.rowPitch;
}
return S_OK;
}
//---------------------------------------------------------------------------------
// Premultiplied alpha -> NonPremultiplied alpha (a.k.a. Straight alpha)
HRESULT DemultiplyAlpha(const Image& srcImage, const Image& destImage)
{
assert(srcImage.width == destImage.width);
assert(srcImage.height == destImage.height);
ScopedAlignedArrayXMVECTOR scanline(reinterpret_cast<XMVECTOR*>(_aligned_malloc((sizeof(XMVECTOR)*srcImage.width), 16)));
if (!scanline)
return E_OUTOFMEMORY;
const uint8_t *pSrc = srcImage.pixels;
uint8_t *pDest = destImage.pixels;
if (!pSrc || !pDest)
return E_POINTER;
for (size_t h = 0; h < srcImage.height; ++h)
{
if (!_LoadScanline(scanline.get(), srcImage.width, pSrc, srcImage.rowPitch, srcImage.format))
return E_FAIL;
XMVECTOR* ptr = scanline.get();
for (size_t w = 0; w < srcImage.width; ++w)
{
XMVECTOR v = *ptr;
XMVECTOR alpha = XMVectorSplatW(*ptr);
alpha = XMVectorDivide(v, alpha);
*(ptr++) = XMVectorSelect(v, alpha, g_XMSelect1110);
}
if (!_StoreScanline(pDest, destImage.rowPitch, destImage.format, scanline.get(), srcImage.width))
return E_FAIL;
pSrc += srcImage.rowPitch;
pDest += destImage.rowPitch;
}
return S_OK;
}
HRESULT DemultiplyAlphaLinear(const Image& srcImage, DWORD flags, const Image& destImage)
{
assert(srcImage.width == destImage.width);
assert(srcImage.height == destImage.height);
static_assert(TEX_PMALPHA_SRGB_IN == TEX_FILTER_SRGB_IN, "TEX_PMALHPA_SRGB* should match TEX_FILTER_SRGB*");
static_assert(TEX_PMALPHA_SRGB_OUT == TEX_FILTER_SRGB_OUT, "TEX_PMALHPA_SRGB* should match TEX_FILTER_SRGB*");
static_assert(TEX_PMALPHA_SRGB == TEX_FILTER_SRGB, "TEX_PMALHPA_SRGB* should match TEX_FILTER_SRGB*");
flags &= TEX_PMALPHA_SRGB;
ScopedAlignedArrayXMVECTOR scanline(reinterpret_cast<XMVECTOR*>(_aligned_malloc((sizeof(XMVECTOR)*srcImage.width), 16)));
if (!scanline)
return E_OUTOFMEMORY;
const uint8_t *pSrc = srcImage.pixels;
uint8_t *pDest = destImage.pixels;
if (!pSrc || !pDest)
return E_POINTER;
for (size_t h = 0; h < srcImage.height; ++h)
{
if (!_LoadScanlineLinear(scanline.get(), srcImage.width, pSrc, srcImage.rowPitch, srcImage.format, flags))
return E_FAIL;
XMVECTOR* ptr = scanline.get();
for (size_t w = 0; w < srcImage.width; ++w)
{
XMVECTOR v = *ptr;
XMVECTOR alpha = XMVectorSplatW(*ptr);
alpha = XMVectorDivide(v, alpha);
*(ptr++) = XMVectorSelect(v, alpha, g_XMSelect1110);
}
if (!_StoreScanlineLinear(pDest, destImage.rowPitch, destImage.format, scanline.get(), srcImage.width, flags))
return E_FAIL;
pSrc += srcImage.rowPitch;
pDest += destImage.rowPitch;
}
return S_OK;
}
}
//=====================================================================================
// Entry-points
//=====================================================================================
//-------------------------------------------------------------------------------------
// Converts to/from a premultiplied alpha version of the texture
//-------------------------------------------------------------------------------------
_Use_decl_annotations_
HRESULT DirectX::PremultiplyAlpha(
const Image& srcImage,
DWORD flags,
ScratchImage& image)
{
if (!srcImage.pixels)
return E_POINTER;
if (IsCompressed(srcImage.format)
|| IsPlanar(srcImage.format)
|| IsPalettized(srcImage.format)
|| IsTypeless(srcImage.format)
|| !HasAlpha(srcImage.format))
return HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED);
if ((srcImage.width > UINT32_MAX) || (srcImage.height > UINT32_MAX))
return E_INVALIDARG;
HRESULT hr = image.Initialize2D(srcImage.format, srcImage.width, srcImage.height, 1, 1);
if (FAILED(hr))
return hr;
const Image *rimage = image.GetImage(0, 0, 0);
if (!rimage)
{
image.Release();
return E_POINTER;
}
if (flags & TEX_PMALPHA_REVERSE)
{
hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? DemultiplyAlpha(srcImage, *rimage) : DemultiplyAlphaLinear(srcImage, flags, *rimage);
}
else
{
hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? PremultiplyAlpha_(srcImage, *rimage) : PremultiplyAlphaLinear(srcImage, flags, *rimage);
}
if (FAILED(hr))
{
image.Release();
return hr;
}
return S_OK;
}
//-------------------------------------------------------------------------------------
// Converts to/from a premultiplied alpha version of the texture (complex)
//-------------------------------------------------------------------------------------
_Use_decl_annotations_
HRESULT DirectX::PremultiplyAlpha(
const Image* srcImages,
size_t nimages,
const TexMetadata& metadata,
DWORD flags,
ScratchImage& result)
{
if (!srcImages || !nimages)
return E_INVALIDARG;
if (IsCompressed(metadata.format)
|| IsPlanar(metadata.format)
|| IsPalettized(metadata.format)
|| IsTypeless(metadata.format)
|| !HasAlpha(metadata.format))
return HRESULT_FROM_WIN32(ERROR_NOT_SUPPORTED);
if ((metadata.width > UINT32_MAX) || (metadata.height > UINT32_MAX))
return E_INVALIDARG;
if (metadata.IsPMAlpha() != ((flags & TEX_PMALPHA_REVERSE) != 0))
return E_FAIL;
TexMetadata mdata2 = metadata;
mdata2.SetAlphaMode((flags & TEX_PMALPHA_REVERSE) ? TEX_ALPHA_MODE_STRAIGHT : TEX_ALPHA_MODE_PREMULTIPLIED);
HRESULT hr = result.Initialize(mdata2);
if (FAILED(hr))
return hr;
if (nimages != result.GetImageCount())
{
result.Release();
return E_FAIL;
}
const Image* dest = result.GetImages();
if (!dest)
{
result.Release();
return E_POINTER;
}
for (size_t index = 0; index < nimages; ++index)
{
const Image& src = srcImages[index];
if (src.format != metadata.format)
{
result.Release();
return E_FAIL;
}
if ((src.width > UINT32_MAX) || (src.height > UINT32_MAX))
return E_FAIL;
const Image& dst = dest[index];
assert(dst.format == metadata.format);
if (src.width != dst.width || src.height != dst.height)
{
result.Release();
return E_FAIL;
}
if (flags & TEX_PMALPHA_REVERSE)
{
hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? DemultiplyAlpha(src, dst) : DemultiplyAlphaLinear(src, flags, dst);
}
else
{
hr = (flags & TEX_PMALPHA_IGNORE_SRGB) ? PremultiplyAlpha_(src, dst) : PremultiplyAlphaLinear(src, flags, dst);
}
if (FAILED(hr))
{
result.Release();
return hr;
}
}
return S_OK;
}
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