Apply Faisal's first patch from Bug 2354
- First resolve some the the bit rot in graphics MCL to get it to compile, then fix some performance issues in OpenWF
/* Copyright (c) 2009 The Khronos Group Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and/or associated documentation files (the
* "Materials"), to deal in the Materials without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Materials, and to
* permit persons to whom the Materials are furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Materials.
*
* THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* MATERIALS OR THE USE OR OTHER DEALINGS IN THE MATERIALS.
*/
#ifdef __cplusplus
extern "C"
{
#endif
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include "owfobject.h"
#include "owfimage.h"
#include "owfutils.h"
#include "owfmemory.h"
#include "owfdebug.h"
#include "owfdisplaycontextgeneral.h"
#ifdef OWF_IMAGE_INTERNAL_PIXEL_IS_FLOAT
#define roundSubPixel(p) ((OWFuint32)((p) + 0.5f))
#else
#define roundSubPixel(p) (p)
#endif
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_IMAGE_Ctor(void* self)
{
self = self;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_IMAGE_Dtor(void* self)
{
OWF_IMAGE* image;
image = (OWF_IMAGE*)self;
if (image && image->data)
{
if (!image->foreign)
{
OWF_Image_FreeData(0, &image->data);
}
}
if (image)
{
memset(image, 0, sizeof(OWF_IMAGE));
}
}
/*----------------------------------------------------------------------------*/
static OWFfloat
NonLinear(OWFfloat x)
{
if (x <= 0.00304f)
{
return 12.92f * x;
}
return 1.0556f * pow(x, 1.f/2.4f) - 0.0556f;
}
/*----------------------------------------------------------------------------*/
static OWFfloat
Linear(OWFfloat x)
{
if (x <= 0.03928)
{
return x / 12.92f;
}
return pow((x + 0.0556f) / 1.0556f, 2.4f);
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_NonLinearizeData(OWF_IMAGE* image)\
{
OWFpixel* ptr;
OWFint count;
OWF_ASSERT(image != NULL && image->data != NULL);
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if (!image->format.linear)
{
return;
}
ptr = (OWFpixel*) image->data;
count = image->width * image->height;
while (count > 0)
{
ptr->color.red = (OWFsubpixel) NonLinear(ptr->color.red /
OWF_RED_MAX_VALUE) * OWF_RED_MAX_VALUE;
ptr->color.green = (OWFsubpixel) NonLinear(ptr->color.green /
OWF_GREEN_MAX_VALUE) * OWF_GREEN_MAX_VALUE;
ptr->color.blue = (OWFsubpixel) NonLinear(ptr->color.blue /
OWF_BLUE_MAX_VALUE) * OWF_BLUE_MAX_VALUE;
--count;
ptr++;
}
image->format.linear = OWF_FALSE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_LinearizeData(OWF_IMAGE* image)
{
OWFpixel* ptr;
OWFuint count;
OWF_ASSERT(image != NULL && image->data != NULL);
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if (image->format.linear)
{
return;
}
ptr = (OWFpixel*) image->data;
count = image->width * image->height;
while (count > 0)
{
ptr->color.red = (OWFsubpixel) Linear(ptr->color.red /
OWF_RED_MAX_VALUE) * OWF_RED_MAX_VALUE;
ptr->color.green = (OWFsubpixel) Linear(ptr->color.green /
OWF_GREEN_MAX_VALUE) * OWF_GREEN_MAX_VALUE;
ptr->color.blue = (OWFsubpixel) Linear(ptr->color.blue /
OWF_BLUE_MAX_VALUE) * OWF_BLUE_MAX_VALUE;
--count;
ptr += image->pixelSize;
}
image->format.linear = OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
#define GAMMA(color, max, gamma) (max * pow(color/max, gamma))
OWF_API_CALL void
OWF_Image_Gamma(OWF_IMAGE* image, OWFfloat gamma)
{
OWFpixel* ptr;
OWFint count;
OWF_ASSERT(image != NULL && image->data != NULL);
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if (gamma == 1.0f)
{
return;
}
ptr = (OWFpixel*) image->data;
count = image->width * image->height;
while (count > 0)
{
ptr->color.red =
(OWFsubpixel) GAMMA(ptr->color.red, OWF_RED_MAX_VALUE, gamma);
ptr->color.green =
(OWFsubpixel) GAMMA(ptr->color.green, OWF_GREEN_MAX_VALUE, gamma);
ptr->color.blue =
(OWFsubpixel) GAMMA(ptr->color.blue, OWF_BLUE_MAX_VALUE, gamma);
--count;
ptr++;
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_EdgeReplication(OWF_IMAGE* image)
{
OWFint y;
OWFint copyStride;
OWFuint8* srcPtr = NULL;
OWFuint8* dstPtr = NULL;
OWF_ASSERT(image);
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
OWF_ASSERT(image->width >= 3 && image->height >= 3);
copyStride = image->width * image->pixelSize;
/* top side replication */
srcPtr = (OWFuint8*) image->data;
srcPtr += 1 * image->stride + 0 * image->pixelSize;
dstPtr = (OWFuint8*) image->data;
memcpy(dstPtr, srcPtr, copyStride);
/* bottom side replication */
srcPtr = (OWFuint8*) image->data;
srcPtr += (image->height-2) * image->stride + 0 * image->pixelSize;
dstPtr = (OWFuint8*) image->data;
dstPtr += (image->height-1) * image->stride + 0 * image->pixelSize;
memcpy(dstPtr, srcPtr, copyStride);
/* left side replication */
for (y = 0; y < image->height; y++)
{
OWF_Image_SetPixel(image, 0, y, OWF_Image_GetPixelPtr(image, 1, y));
}
/* right side replication */
for (y = 0; y < image->height; y++)
{
OWF_Image_SetPixel(image, image->width-1, y, OWF_Image_GetPixelPtr(image,
image->width-2,
y));
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_SourceFormatConversion(OWF_IMAGE* dst, OWF_IMAGE* src)
{
OWFint countY, widthDiff, heightDiff;
void* srcLinePtr;
OWFpixel* dstLinePtr;
OWFboolean replicateEdges = OWF_FALSE;
OWF_ASSERT(dst != 0 && dst->data != NULL);
OWF_ASSERT(src != 0 && src->data != NULL);
OWF_ASSERT(dst->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
srcLinePtr = src->data;
dstLinePtr = (OWFpixel*) dst->data;
/* dst image must either be the same size as the src image or 2 pixels
bigger (enough space to perform edge replication) */
if (dst->width != src->width || dst->height != src->height)
{
widthDiff = dst->width - src->width;
heightDiff = dst->height - src->height;
if (widthDiff == 2 && heightDiff == 2)
{
replicateEdges = OWF_TRUE;
/* start of the destination buffer should have a 1 pixel offset */
dstLinePtr = (OWFpixel*) dst->data + 1 * dst->width + 1;
}
else
{
return OWF_FALSE;
}
}
if (dst->format.pixelFormat != OWF_IMAGE_ARGB_INTERNAL)
{
return OWF_FALSE;
}
for (countY = src->height; countY; countY--)
{
OWFint count = src->width;
OWFpixel* dstPtr = dstLinePtr;
switch (src->format.pixelFormat)
{
case OWF_IMAGE_ARGB8888:
{
#ifdef USE_FLOAT_PIXEL
OWFuint32* srcPtr = (OWFuint32*) srcLinePtr;
while (count > 0)
{
dstPtr->color.alpha = (OWFsubpixel)
OWF_ALPHA_MAX_VALUE * ((*srcPtr & ARGB8888_ALPHA_MASK) >> ARGB8888_ALPHA_SHIFT) / OWF_BYTE_MAX_VALUE;
dstPtr->color.red = (OWFsubpixel)
OWF_RED_MAX_VALUE * ((*srcPtr & ARGB8888_RED_MASK) >> ARGB8888_RED_SHIFT) / OWF_BYTE_MAX_VALUE;
dstPtr->color.green = (OWFsubpixel)
OWF_GREEN_MAX_VALUE * ((*srcPtr & ARGB8888_GREEN_MASK)>> ARGB8888_GREEN_SHIFT) / OWF_BYTE_MAX_VALUE;
dstPtr->color.blue = (OWFsubpixel)
OWF_BLUE_MAX_VALUE * ((*srcPtr & ARGB8888_BLUE_MASK) >> ARGB8888_BLUE_SHIFT) / OWF_BYTE_MAX_VALUE;
dstPtr ++;
srcPtr ++;
count--;
}
#else
memcpy(dstLinePtr, srcLinePtr, src->stride);
#endif
break;
}
case OWF_IMAGE_XRGB8888:
{
OWFuint32* srcPtr = (OWFuint32*) srcLinePtr;
while (count > 0)
{
#ifdef USE_FLOAT_PIXEL
dstPtr->color.alpha = OWF_FULLY_OPAQUE;
dstPtr->color.red = (OWFsubpixel)
OWF_RED_MAX_VALUE * ((*srcPtr & ARGB8888_RED_MASK) >> ARGB8888_RED_SHIFT) / OWF_BYTE_MAX_VALUE;
dstPtr->color.green = (OWFsubpixel)
OWF_GREEN_MAX_VALUE * ((*srcPtr & ARGB8888_GREEN_MASK) >> ARGB8888_GREEN_SHIFT) / OWF_BYTE_MAX_VALUE;
dstPtr->color.blue = (OWFsubpixel)
OWF_BLUE_MAX_VALUE * ((*srcPtr & ARGB8888_BLUE_MASK) >> ARGB8888_BLUE_SHIFT) / OWF_BYTE_MAX_VALUE;
#else
*(OWFuint32*)dstPtr = *srcPtr | ARGB8888_ALPHA_MASK;
#endif
dstPtr ++;
srcPtr ++;
count--;
}
break;
}
case OWF_IMAGE_RGB565:
{
OWFfloat tmp;
OWFuint16* srcPtr = (OWFuint16*) srcLinePtr;
while (count > 0)
{
/*
* Formula for converting channel value is:
* Each channel is multiplied by (2^d - 1)/(2^s -1)
* where d is dest channel bits and s is source channel bits.
*/
dstPtr->color.alpha = (OWFsubpixel) OWF_FULLY_OPAQUE;
tmp = (OWFfloat)((*srcPtr & RGB565_RED_MASK) >> RGB565_RED_SHIFT);
dstPtr->color.red = (OWFsubpixel)OWF_RED_MAX_VALUE * tmp / 31.0f + OWF_SOURCE_CONVERSION_ROUNDING_VALUE;
tmp = (OWFfloat)((*srcPtr & RGB565_GREEN_MASK) >> RGB565_GREEN_SHIFT);
dstPtr->color.green = (OWFsubpixel)OWF_GREEN_MAX_VALUE * tmp / 63.0f + OWF_SOURCE_CONVERSION_ROUNDING_VALUE;
tmp = (OWFfloat)(*srcPtr & RGB565_BLUE_MASK);
dstPtr->color.blue = (OWFsubpixel)OWF_BLUE_MAX_VALUE * tmp / 31.0f + OWF_SOURCE_CONVERSION_ROUNDING_VALUE;
dstPtr ++;
srcPtr ++;
count--;
}
break;
}
default:
{
return OWF_FALSE; /* source format not supported */
}
}
dstLinePtr+=dst->width;
srcLinePtr=(OWFuint8*)srcLinePtr+src->stride;
}
if (replicateEdges)
{
OWF_Image_EdgeReplication(dst);
}
return OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_PUBLIC OWFint
OWF_Image_GetStride(OWFint width, const OWF_IMAGE_FORMAT* format, OWFint minimumStride)
{
OWFint size;
OWFint pixelSize;
OWF_ASSERT(format);
pixelSize = OWF_Image_GetFormatPixelSize(format->pixelFormat);
if (pixelSize < 0)
{
/* negative pixelSize means that pixel size is a fraction
* (1/-pixelSize) of a byte, e.g. -8 means pixel has size
* of one bit. */
size = (width + 1) / -pixelSize;
}
else
{
size = width * pixelSize;
}
if (size<minimumStride)
{
size=minimumStride;
}
if (format->rowPadding)
{
size += format->rowPadding - 1;
size -= size % format->rowPadding;
}
return size;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_IsValidDestinationFormat(OWF_IMAGE_FORMAT* format)
{
switch (format->pixelFormat)
{
case OWF_IMAGE_ARGB8888:
{
return OWF_TRUE;
}
case OWF_IMAGE_XRGB8888:
{
return OWF_TRUE;
}
#ifdef SUPPORT_565_OUTPUT
case OWF_IMAGE_RGB565:
{
return OWF_TRUE;
}
#endif
default:
{
return OWF_FALSE; /* destination format not supported */
}
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_DestinationFormatConversion(OWF_IMAGE* dst, OWF_IMAGE* src)
{
OWFint countY;
OWFuint32* dstPtr;
OWFpixel* srcPtr;
OWFuint8* destination;
OWF_ASSERT(dst != 0 && dst->data != NULL);
OWF_ASSERT(src != 0 && src->data != NULL);
OWF_ASSERT(src->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if (src->format.pixelFormat != OWF_IMAGE_ARGB_INTERNAL)
{
return OWF_FALSE;
}
/* src and data must have equal amount of pixels */
if (dst->width != src->width || dst->height != src->height)
{
return OWF_FALSE;
}
dstPtr = (OWFuint32*) dst->data;
srcPtr = (OWFpixel*) src->data;
if (dst->format.premultiplied && !src->format.premultiplied)
{
OWF_Image_PremultiplyAlpha(src);
}
else if (!dst->format.premultiplied && src->format.premultiplied)
{
OWF_Image_UnpremultiplyAlpha(src);
}
destination = (OWFuint8*) dst->data;
for (countY = 0; countY < src->height; countY++)
{
dstPtr = (OWFuint32*) destination;
destination += dst->stride;
switch (dst->format.pixelFormat)
{
case OWF_IMAGE_ARGB8888:
{
#ifdef USE_FLOAT_PIXEL
OWFint countX;
OWFuint32 dstPixel = 0;
for (countX = 0; countX < src->width; countX++)
{
dstPixel = ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.alpha / OWF_ALPHA_MAX_VALUE)) <<
ARGB8888_ALPHA_SHIFT);
dstPixel |= ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.red / OWF_RED_MAX_VALUE)) <<
ARGB8888_RED_SHIFT);
dstPixel |= ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.green / OWF_GREEN_MAX_VALUE)) <<
ARGB8888_GREEN_SHIFT);
dstPixel |= ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.blue / OWF_BLUE_MAX_VALUE)) <<
ARGB8888_BLUE_SHIFT);
*dstPtr = dstPixel;
dstPtr ++;
srcPtr ++;
}
#else
memcpy(dstPtr, srcPtr, src->stride);
srcPtr = (OWFpixel*)((OWFuint8*)srcPtr + src->stride);
#endif
break;
}
case OWF_IMAGE_XRGB8888:
{
#ifdef USE_FLOAT_PIXEL
OWFint countX;
OWFuint32 dstPixel = 0;
for (countX = 0; countX < src->width; countX++)
{
dstPixel = ARGB8888_ALPHA_MASK;
dstPixel |= ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.red / OWF_RED_MAX_VALUE)) <<
ARGB8888_RED_SHIFT);
dstPixel |= ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.green / OWF_GREEN_MAX_VALUE)) <<
ARGB8888_GREEN_SHIFT);
dstPixel |= ((OWFuint8)(roundSubPixel(OWF_BYTE_MAX_VALUE * srcPtr->color.blue / OWF_BLUE_MAX_VALUE)) <<
ARGB8888_BLUE_SHIFT);
*dstPtr = dstPixel;
dstPtr ++;
srcPtr ++;
}
#else
memcpy(dstPtr, srcPtr, src->stride);
srcPtr = (OWFpixel*)((OWFuint8*)srcPtr + src->stride);
#endif
break;
}
default:
{
return OWF_FALSE; /* destination format not supported */
}
}
}
return OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_Init(OWF_IMAGE* image)
{
OWF_ASSERT(NULL != image);
memset(image, 0, sizeof(OWF_IMAGE));
}
/*----------------------------------------------------------------------------*/
OWF_PUBLIC OWF_IMAGE*
OWF_Image_Create(OWFint width,
OWFint height,
const OWF_IMAGE_FORMAT* format,
void* buffer,
OWFint minimumStride
)
{
OWF_IMAGE* image;
image = CREATE(OWF_IMAGE);
if (image)
{
image->format.pixelFormat = format->pixelFormat;
image->format.linear = format->linear;
image->format.premultiplied = format->premultiplied;
image->format.rowPadding = format->rowPadding;
image->pixelSize = OWF_Image_GetFormatPixelSize(format->pixelFormat);
image->width = width;
image->height = height;
/* stride is row length in bytes (aligned according to image format) */
image->stride = OWF_Image_GetStride(width, &image->format, minimumStride);
image->foreign = (buffer) ? OWF_TRUE : OWF_FALSE;
image->dataMax = image->stride * height;
DPRINT(("OWF_Image_Create:"));
DPRINT((" Pixel format = %x", format->pixelFormat));
DPRINT((" Linear = %d", format->linear));
DPRINT((" Premultiplied = %d", format->premultiplied));
DPRINT((" Row alignment = %d bytes", format->rowPadding));
DPRINT((" Pixel size = %d", image->pixelSize));
DPRINT((" Width = %d", image->width));
DPRINT((" Height = %d", image->height));
DPRINT((" Stride = %d", image->stride));
DPRINT((" Foreign data = %d", image->foreign));
DPRINT((" Data size = %d", image->dataMax));
if (image->dataMax > 0)
{
image->data = (image->foreign) ? (buffer) :
OWF_Image_AllocData(0, width, height, format->pixelFormat);
}
else
{
/* either overflow occured or width/height is zero */
if (width && height)
{
DPRINT(("OWF_Image_Create: Overflow in image size calculation."));
}
else
{
DPRINT(("OWF_Image_Create: width or height is zero."));
}
}
}
if (!(image && image->data && (image->dataMax > 0)))
{
DPRINT(("OWF_Image_Create: Image creation failed (image = %p, "
"data = %p, dataSize = %d)",
image, image ? (void*)(image->data) : (void*)NULL, image?image->dataMax:-1));
DESTROY(image);
return NULL;
}
return image;
}
/*----------------------------------------------------------------------------*/
OWF_PUBLIC void OWF_Image_Destroy(OWF_IMAGE* image)
{
if (image)
{
DESTROY(image);
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWF_IMAGE*
OWF_Image_Copy(const OWF_IMAGE* image)
{
OWF_IMAGE* newImage = NULL;
OWF_ASSERT(image);
newImage = CREATE(OWF_IMAGE);
if (newImage)
{
memcpy(newImage, image, sizeof(*newImage));
if (!image->foreign)
{
newImage->data = xalloc(1, image->dataMax);
if (newImage->data)
{
memcpy(newImage->data,
image->data,
image->height*image->stride);
}
}
}
return newImage;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_SetSize(OWF_IMAGE* image,
OWFint width,
OWFint height)
{
OWFint size;
OWFint stride;
OWF_ASSERT(image);
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL ||
image->format.pixelFormat==OWF_IMAGE_L32);
/** note that this setsize ignores any specialised stride **/
stride = OWF_Image_GetStride(width, &image->format, 0);
size = height * stride;
/* change source size if buffer have enough space */
if (size > 0 && size <= image->dataMax)
{
image->height = height;
image->width = width;
image->stride = stride;
return OWF_TRUE;
}
return OWF_FALSE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_SetFlags(OWF_IMAGE* image,
OWFboolean premultiply,
OWFboolean linear)
{
OWF_ASSERT(image);
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL ||
image->format.pixelFormat==OWF_IMAGE_L32);
image->format.linear=linear;
image->format.premultiplied=premultiply;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_SetPixelBuffer(OWF_IMAGE* image, void* buffer)
{
OWF_ASSERT(image);
OWF_ASSERT(buffer);
OWF_ASSERT(image->foreign);
if (image->foreign)
{
image->data=buffer;
}
}
/*----------------------------------------------------------------------------*/
/* NEVER USED
OWF_API_CALL OWFboolean
OWF_Image_SetPixelData(OWF_IMAGE* image,
OWFint width,
OWFint height,
const OWF_IMAGE_FORMAT* format,
void* buffer)
{
OWFint size = 0,
stride = 0;
OWF_ASSERT(image && format);
stride = OWF_Image_GetStride(width, format);
size = height * stride;
if (size <= 0)
{
return OWF_FALSE;
}
if (!image->foreign)
{
OWF_Image_FreeData(0, &image->data);
}
image->format.pixelFormat = format->pixelFormat;
image->format.linear = format->linear;
image->format.premultiplied = format->premultiplied;
image->format.rowPadding = format->rowPadding;
image->pixelSize = OWF_Image_GetFormatPixelSize(format->pixelFormat);
image->width = width;
image->height = height;
image->stride = stride;
image->foreign = OWF_TRUE;
image->dataMax = size;
image->data = buffer;
return OWF_TRUE;
}
*/
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_Blit(OWF_IMAGE* dst,
OWF_RECTANGLE const* dstRect,
OWF_IMAGE const* src,
OWF_RECTANGLE const* srcRect)
{
OWF_RECTANGLE bounds, rect, drect, srect;
OWFint lineCount = 0;
OWFint copyStride = 0;
OWFuint8* srcPtr = NULL;
OWFuint8* dstPtr = NULL;
OWF_ASSERT(dst != 0 && dst->data != NULL);
OWF_ASSERT(src != 0 && src->data != NULL);
OWF_ASSERT(dst->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
OWF_ASSERT(src->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
OWF_Rect_Set(&bounds, 0, 0, dst->width, dst->height);
OWF_Rect_Set(&rect,
dstRect->x, dstRect->y,
srcRect->width, srcRect->height);
OWF_Rect_Set(&srect,
srcRect->x, srcRect->y,
srcRect->width, srcRect->height);
/* clip destination rectangle against bounds */
if (!OWF_Rect_Clip(&drect, &rect, &bounds))
{
return OWF_FALSE;
}
if (src->pixelSize != dst->pixelSize)
{
DPRINT(("OWF_Image_Blit(): pixels sizes differ\n"));
return OWF_FALSE;
}
lineCount = srect.height;
copyStride = srect.width * src->pixelSize;
/* use bytepointers in copy - generic */
srcPtr = (OWFuint8*) src->data;
srcPtr += srect.y * src->stride + srect.x * src->pixelSize;
dstPtr = (OWFuint8*)dst->data;
dstPtr += drect.y * dst->stride + drect.x * src->pixelSize;
while (lineCount > 0)
{
--lineCount;
memcpy(dstPtr, srcPtr, copyStride);
srcPtr += src->stride;
dstPtr += dst->stride;
}
return OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFpixel*
OWF_Image_GetPixelPtr(OWF_IMAGE* image,
OWFint x,
OWFint y)
{
OWF_ASSERT(image && image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if (!(image && image->data))
{
return 0;
}
x = CLAMP(x, 0, image->width-1);
y = CLAMP(y, 0, image->height-1);
return (OWFpixel*)image->data + y * image->width + x ;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_GetPixel(OWF_IMAGE* image,
OWFint x,
OWFint y,
OWFpixel* pixel)
{
OWFpixel* temp = NULL;
OWF_ASSERT(pixel);
if (!(image && image->data))
{
return;
}
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
pixel->color.alpha = 0;
pixel->color.red = 0;
pixel->color.green = 0;
pixel->color.blue = 0;
if (x < 0 || y < 0 || x >= image->width || y >= image->height)
{
return;
}
temp = (OWFpixel*)image->data + y * image->width + x;
pixel->color.alpha = temp->color.alpha;
pixel->color.red = temp->color.red;
pixel->color.green = temp->color.green;
pixel->color.blue = temp->color.blue;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_SetPixel(OWF_IMAGE* image,
OWFint x,
OWFint y,
OWFpixel const* pixel)
{
OWFpixel* data = NULL;
if (!(image && image->data))
{
return;
}
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if(x < 0 || y < 0 || x >= image->width || y >= image->height)
{
return;
}
data = (OWFpixel*)image->data + y * image->width + x;
data->color.red = pixel->color.red;
data->color.green = pixel->color.green;
data->color.blue = pixel->color.blue;
data->color.alpha = pixel->color.alpha;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_PointSamplingStretchBlit(OWF_IMAGE* dst,
OWF_RECTANGLE* dstRect,
OWF_IMAGE* src,
OWFfloat* srcRect)
{
OWFint ox = 0, oy = 0;
OWFfloat dx = 0.f, dy = 0.f;
OWFint x, y;
/* images must be valid */
if (!((src != NULL) && (src->data != NULL) &&
(dst != NULL) && (dst->data != NULL)))
{
return OWF_FALSE;
}
OWF_ASSERT(src->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
OWF_ASSERT(dst->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
/* ditto with rectangles, too */
if (!((dstRect != NULL) && (dstRect->width && dstRect->height) &&
(srcRect != NULL) && (srcRect[2] && srcRect[3])))
{
return OWF_FALSE;
}
/* Note: bounds check missing */
if (src->pixelSize != dst->pixelSize)
{
return OWF_FALSE;
}
/* solve scaling ratios for image */
dx = (OWFfloat) srcRect[2] / (OWFfloat) dstRect->width;
dy = (OWFfloat) srcRect[3] / (OWFfloat) dstRect->height;
for (y = 0; y < dstRect->height; y++)
{
for (x = 0; x < dstRect->width; x++)
{
OWFpixel* pixel;
/* NOTE This code uses pixel center points to calculate distances
and factors. Results can differ slightly when pixel corner
coordinates are used */
/* coordinates of nearest pixel in original image */
ox = (int) floor((((OWFfloat) x + 0.5) * dx) + srcRect[0]);
oy = (int) floor((((OWFfloat) y + 0.5) * dy) + srcRect[1]);
pixel = OWF_Image_GetPixelPtr(src,
ox,
oy);
OWF_Image_SetPixel(dst,
dstRect->x + x,
dstRect->y + y,
pixel);
}
}
return OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_BilinearStretchBlit(OWF_IMAGE* dst,
OWF_RECTANGLE* dstRect,
OWF_IMAGE* src,
OWFfloat* srcRect)
{
OWFint x = 0, y = 0;
OWFint ox = 0, oy = 0;
OWFfloat dx = 0.f, dy = 0.f, wx = 0.f, wy = 0.f;
OWFfloat w[2 * 2];
OWFpixel* sample[4];
OWFpixel* pixel = NULL;
/* images must be valid */
if (!((src != NULL) && (src->data != NULL) &&
(dst != NULL) && (dst->data != NULL)))
{
return OWF_FALSE;
}
OWF_ASSERT(src->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
OWF_ASSERT(dst->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
/* ditto with rectangles, too */
if (!((dstRect != NULL) && (dstRect->width && dstRect->height) &&
(srcRect != NULL) && (srcRect[2] && srcRect[3])))
{
return OWF_FALSE;
}
if (src->pixelSize != dst->pixelSize)
{
return OWF_FALSE;
}
/* solve scaling ratios for image */
dx = (OWFfloat) srcRect[2] / (OWFfloat) dstRect->width;
dy = (OWFfloat) srcRect[3] / (OWFfloat) dstRect->height;
for (y = 0; y < dstRect->height; y++)
{
for (x = 0; x < dstRect->width; x++)
{
OWFfloat tempOx, tempOy;
/* NOTE This code uses pixel center points to calculate distances
and factors. Results can differ slightly when pixel corner
coordinates are used */
/* coordinates of nearest pixel in original image */
tempOx = (((OWFfloat) x + 0.5) * dx) + srcRect[0];
tempOy = (((OWFfloat) y + 0.5) * dy) + srcRect[1];
ox = (int) floor((((OWFfloat) x + 0.5) * dx) + srcRect[0]);
oy = (int) floor((((OWFfloat) y + 0.5) * dy) + srcRect[1]);
/* Distances to nearest pixel, eg. fractional part of coordinate */
wx = (OWFfloat) ox + 0.5 - tempOx;
wy = (OWFfloat) oy + 0.5 - tempOy;
/* If distance is positive, we should use left or upper pixel for
* second nearest pixel. */
if (wx > 0.0)
{
ox--;
wx = 1.0 - wx;
}
else
{
wx = -wx; /* abs */
}
if (wy > 0.0)
{
oy--;
wy = 1.0 - wy;
}
else
{
wy = -wy;
}
/* Calculate weights for samples */
w[0] = (1.0 - wx) * (1.0 - wy);
w[1] = wx * (1.0 - wy);
w[2] = (1.0 - wx) * wy;
w[3] = wx * wy;
/* get sample */
sample[0] = OWF_Image_GetPixelPtr(src, ox + 0, oy + 0);
sample[1] = OWF_Image_GetPixelPtr(src, ox + 1, oy + 0);
sample[2] = OWF_Image_GetPixelPtr(src, ox + 0, oy + 1);
sample[3] = OWF_Image_GetPixelPtr(src, ox + 1, oy + 1);
/* get result pixel */
pixel = OWF_Image_GetPixelPtr(dst, x, y);
/* calculate final color */
pixel->color.red =
sample[0]->color.red * w[0] + sample[1]->color.red * w[1] +
sample[2]->color.red * w[2] + sample[3]->color.red * w[3] + OWF_BILINEAR_ROUNDING_VALUE;
pixel->color.green =
sample[0]->color.green * w[0] + sample[1]->color.green * w[1] +
sample[2]->color.green * w[2] + sample[3]->color.green * w[3] + OWF_BILINEAR_ROUNDING_VALUE;
pixel->color.blue =
sample[0]->color.blue * w[0] + sample[1]->color.blue * w[1] +
sample[2]->color.blue * w[2] + sample[3]->color.blue * w[3] + OWF_BILINEAR_ROUNDING_VALUE;
pixel->color.alpha =
sample[0]->color.alpha * w[0] + sample[1]->color.alpha * w[1] +
sample[2]->color.alpha * w[2] + sample[3]->color.alpha * w[3] + OWF_BILINEAR_ROUNDING_VALUE;
}
}
return OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_Stretch(OWF_IMAGE* dst,
OWF_RECTANGLE* dstRect,
OWF_IMAGE* src,
OWFfloat* srcRect,
OWF_FILTERING filter)
{
OWFboolean result = OWF_FALSE;
switch (filter)
{
case OWF_FILTER_POINT_SAMPLING:
{
result = OWF_Image_PointSamplingStretchBlit(dst, dstRect, src,
srcRect);
break;
}
case OWF_FILTER_BILINEAR:
{
result = OWF_Image_BilinearStretchBlit(dst, dstRect, src, srcRect);
break;
}
}
return result;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_Clear(OWF_IMAGE* image,
OWFsubpixel red,
OWFsubpixel green,
OWFsubpixel blue,
OWFsubpixel alpha)
{
OWFint i, numPixels;
OWFpixel* pixels;
OWF_ASSERT(image != 0);
OWF_ASSERT(image->data != 0);
OWF_ASSERT(image->format.pixelFormat == OWF_IMAGE_ARGB_INTERNAL);
numPixels = image->width * image->height;
pixels = (OWFpixel*) image->data;
for (i = 0; i < numPixels; i++)
{
pixels[i].color.red = (OWFsubpixel) red;
pixels[i].color.green = (OWFsubpixel) green;
pixels[i].color.blue = (OWFsubpixel) blue;
pixels[i].color.alpha = (OWFsubpixel) alpha;
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_PremultiplyAlpha(OWF_IMAGE* image)
{
OWFint x, y;
OWF_ASSERT(image != 0);
if (image->format.premultiplied)
{
return;
}
/* only for internal format */
if (image->format.pixelFormat != OWF_IMAGE_ARGB_INTERNAL)
{
return;
}
for (y = 0; y < image->height; y++)
{
for (x = 0; x < image->width; x++)
{
OWFpixel* pixel;
OWFsubpixel alpha;
pixel = OWF_Image_GetPixelPtr(image, x, y);
alpha = pixel->color.alpha;
if (0 == alpha)
{
pixel->color.red =
pixel->color.green =
pixel->color.blue = 0;
}
else
{
pixel->color.red = (pixel->color.red * alpha + OWF_PREMUL_ROUNDING_FACTOR ) /
OWF_ALPHA_MAX_VALUE;
pixel->color.green = (pixel->color.green * alpha + OWF_PREMUL_ROUNDING_FACTOR ) /
OWF_ALPHA_MAX_VALUE;
pixel->color.blue = (pixel->color.blue * alpha + OWF_PREMUL_ROUNDING_FACTOR ) /
OWF_ALPHA_MAX_VALUE;
}
}
}
image->format.premultiplied = OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_UnpremultiplyAlpha(OWF_IMAGE* image)
{
OWFint count;
OWFpixel* pixelPtr;
OWF_ASSERT(image != 0);
if (!image->format.premultiplied)
{
return;
}
/* only for internal format */
if (image->format.pixelFormat != OWF_IMAGE_ARGB_INTERNAL)
{
return;
}
count = image->width * image->height;
pixelPtr = (OWFpixel*)image->data;
while (count > 0)
{
OWFsubpixel a = pixelPtr->color.alpha;
#ifdef OWF_IMAGE_INTERNAL_PIXEL_IS_FLOAT
OWF_ASSERT(a <= OWF_ALPHA_MAX_VALUE && a >= OWF_ALPHA_MIN_VALUE);
#endif
if (a > OWF_ALPHA_MIN_VALUE)
{
OWFsubpixel r = pixelPtr->color.red * OWF_RED_MAX_VALUE / a;
OWFsubpixel g = pixelPtr->color.green * OWF_GREEN_MAX_VALUE / a;
OWFsubpixel b = pixelPtr->color.blue * OWF_BLUE_MAX_VALUE / a;
pixelPtr->color.red = r;
pixelPtr->color.green = g;
pixelPtr->color.blue = b;
--count;
pixelPtr++;
}
}
image->format.premultiplied = OWF_TRUE;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_Rotate(OWF_IMAGE* dst,
OWF_IMAGE* src,
OWF_ROTATION rotation)
{
OWFint ox = 0, oy = 0,
w = 0, h = 0,
x = 0, y = 0;
OWFint xx = 0, xy = 0,
yx = 0, yy = 0;
OWF_ASSERT(src && src->data);
OWF_ASSERT(dst && dst->data);
OWF_ASSERT(src->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
OWF_ASSERT(dst->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
w = src->width;
h = src->height;
switch (rotation)
{
case OWF_ROTATION_0:
{
/*
* origin: (0, 0)
* x-axis: (1, 0)
* y-axis: (0, 1)
*/
ox = 0;
oy = 0;
xx = 1;
xy = 0;
yx = 0;
yy = 1;
break;
}
case OWF_ROTATION_90:
{
/*
* origin: (height-1, 0)
* x-axis: (0, 1)
* y-axis: (-1, 0)
*/
ox = h - 1;
oy = 0;
xx = 0;
xy = 1;
yx = -1;
yy = 0;
break;
}
case OWF_ROTATION_180:
{
/*
* origin: (width-1, height-1)
* x-axis: (-1, 0)
* y-axis: (0, -1)
*/
ox = w - 1;
oy = h - 1;
xx = -1;
xy = 0;
yx = 0;
yy = -1;
break;
}
case OWF_ROTATION_270:
{
/*
* origin: (0, height-1)
* x-axis: (0, -1)
* y-axis: (1, 0)
*/
ox = 0;
oy = w - 1;
xx = 0;
xy = -1;
yx = 1;
yy = 0;
break;
}
}
for (y = 0; y < h; y++)
{
for (x = 0; x < w; x++)
{
/*
* O = [ox oy]' X = [xx xy]' Y = [yx yy]'
*
* p_dst(x_src,y_src) = O + x_src*X + y_src*Y
*/
OWF_Image_SetPixel(dst,
ox + x * xx + y * yx,
oy + x * xy + y * yy,
OWF_Image_GetPixelPtr(src, x, y));
}
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_Flip(OWF_IMAGE* image,
OWF_FLIP_DIRECTION dir)
{
OWFint x, y;
if (!image)
{
return;
}
OWF_ASSERT(image->format.pixelFormat==OWF_IMAGE_ARGB_INTERNAL);
if (dir & OWF_FLIP_VERTICALLY)
{
OWFint h = image->height/2;
for (y = 0; y < h; y++)
{
for (x = 0; x < image->width; x++)
{
OWFpixel pix;
OWF_Image_GetPixel(image, x, y, &pix);
OWF_Image_SetPixel(image, x, y,
OWF_Image_GetPixelPtr(image,
x,
image->height - 1 - y
));
OWF_Image_SetPixel(image, x, image->height - 1 - y, &pix);
}
}
}
if (dir & OWF_FLIP_HORIZONTALLY)
{
OWFint w = image->width/2;
for (y = 0; y < image->height; y++)
{
for (x = 0; x < w; x++)
{
OWFpixel pix;
OWF_Image_GetPixel(image, x, y, &pix);
OWF_Image_SetPixel(image, x, y,
OWF_Image_GetPixelPtr(image,
image->width - 1 - x,
y
));
OWF_Image_SetPixel(image, image->width - 1 - x, y, &pix);
}
}
}
}
/*----------------------------------------------------------------------------*/
#define BLENDER_INNER_LOOP_BEGIN \
OWFint rowCount = drect.height; \
while (rowCount > 0) { \
OWFint colCount = drect.width; \
while (colCount > 0) { \
if (!(blend->tsColor && COLOR_MATCH(SC, TSC))) \
{ \
#define BLENDER_INNER_LOOP_END \
DA = blend->destinationFullyOpaque ? OWF_FULLY_OPAQUE : DA; \
} /* end tsColor check */ \
srcPtr ++; \
dstPtr ++; \
--colCount; \
} \
srcPtr += srcLineDelta; \
dstPtr += dstLineDelta; \
--rowCount; \
}
#define BLENDER_INNER_LOOP_END_WITH_MASK \
DA = blend->destinationFullyOpaque ? OWF_FULLY_OPAQUE : DA; \
} /* end tsColor check */ \
srcPtr ++; \
dstPtr ++; \
maskPtr++; \
--colCount; \
} \
srcPtr += srcLineDelta; \
dstPtr += dstLineDelta; \
maskPtr += maskLineDelta; \
--rowCount; \
}
#define TSC blend->tsColor->color
#define SC srcPtr->color
/* Note: actually would be better to compare integer values
* for TSC match -> eliminate float arithmetic pitfalls
*/
#define COLOR_MATCH(x, y) (x.red==y.red && x.green==y.green && x.blue==y.blue)
#define SA srcPtr->color.alpha
#define SR srcPtr->color.red
#define SG srcPtr->color.green
#define SB srcPtr->color.blue
#define DA dstPtr->color.alpha
#define DR dstPtr->color.red
#define DG dstPtr->color.green
#define DB dstPtr->color.blue
#define MA *maskPtr
#define GA blend->globalAlpha
OWF_API_CALL void
OWF_Image_Blend(OWF_BLEND_INFO* blend,
OWF_TRANSPARENCY transparency)
{
OWF_IMAGE* dst;
OWF_IMAGE* src;
OWF_IMAGE* mask;
OWF_RECTANGLE* srcRect;
OWF_RECTANGLE* dstRect;
OWF_RECTANGLE bounds, srect, drect, rect;
OWFint srcLineDelta, dstLineDelta, maskLineDelta;
OWFpixel* srcPtr;
OWFpixel* dstPtr;
OWFsubpixel* maskPtr;
/* preparation */
OWF_ASSERT(blend);
DPRINT(("OWF_Image_Blend: transparency = %d", transparency));
/* Mask must be set if mask-transparency is used */
OWF_ASSERT(((transparency & OWF_TRANSPARENCY_MASK) && blend->mask) ||
!(transparency & OWF_TRANSPARENCY_MASK));
OWF_ASSERT(blend->source.image->format.pixelFormat == OWF_IMAGE_ARGB_INTERNAL);
OWF_ASSERT(blend->destination.image->format.pixelFormat == OWF_IMAGE_ARGB_INTERNAL);
if (blend->mask)
{
OWF_ASSERT(blend->mask->format.pixelFormat == OWF_IMAGE_L32);
}
dst = blend->destination.image;
src = blend->source.image;
mask = blend->mask;
dstRect = blend->destination.rectangle;
srcRect = blend->source.rectangle;
/* this is actually asserted above */
if (OWF_TRANSPARENCY_MASK == (transparency & OWF_TRANSPARENCY_MASK) &&
NULL == mask)
{
return;
}
OWF_Rect_Set(&bounds, 0, 0, dst->width, dst->height);
/* NOTE: src and dst rects should be of same size!!! */
OWF_Rect_Set(&rect,
dstRect->x, dstRect->y,
dstRect->width, dstRect->height);
OWF_Rect_Set(&srect,
srcRect->x, srcRect->y,
srcRect->width, srcRect->height);
/* clip destination rectangle against bounds */
if (!OWF_Rect_Clip(&drect, &rect, &bounds))
{
return;
}
/* adjust source rectangle if needed */
if (drect.x > rect.x)
{
OWFint dx = drect.x - rect.x;
srect.x += dx;
srect.width -= dx;
}
if (drect.y > rect.y)
{
OWFint dy = drect.y - rect.y;
srect.y += dy;
srect.height -= dy;
}
if (drect.width < srect.width)
{
srect.width = drect.width;
}
if (drect.height < srect.height)
{
srect.height = drect.height;
}
srcPtr = (OWFpixel*) src->data;
srcPtr += srect.y * src->width + srect.x;
dstPtr = (OWFpixel*) dst->data;
dstPtr += drect.y * dst->width + drect.x;
if (mask)
{
maskPtr = (OWFsubpixel*) mask->data + srect.y * mask->width + srect.x;
maskLineDelta = mask->width - drect.width;
}
else
{
maskPtr = 0;
maskLineDelta = 0;
}
srcLineDelta = src->width - srect.width;
dstLineDelta = dst->width - drect.width;
if ((transparency & OWF_TRANSPARENCY_GLOBAL_ALPHA) && (GA > (OWF_ALPHA_MAX_VALUE - OWF_ALPHA_MIN_STEP_VALUE)))
{
/* Fully opaque, so ignore global alpha */
transparency &= ~OWF_TRANSPARENCY_GLOBAL_ALPHA;
}
/* inner loops */
switch (transparency)
{
case OWF_TRANSPARENCY_NONE:
{
#ifdef SLOW_CODE
/*
rgb = src.rgb
alpha = 1
*/
BLENDER_INNER_LOOP_BEGIN;
DR = SR;
DG = SG;
DB = SB;
DA = OWF_FULLY_OPAQUE;
BLENDER_INNER_LOOP_END;
#else
memcpy(dstPtr, srcPtr, drect.height*drect.width*4);
#endif
break;
}
case OWF_TRANSPARENCY_GLOBAL_ALPHA:
{
/*
rgb = src.rgb * elem.alpha + dst.rgb * (1 - elem.alpha)
alpha = elem.alpha + dst.alpha * (1 - elem.alpha)
*/
BLENDER_INNER_LOOP_BEGIN;
DR = (SR * GA + DR * (OWF_FULLY_OPAQUE - GA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DG = (SG * GA + DG * (OWF_FULLY_OPAQUE - GA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DB = (SB * GA + DB * (OWF_FULLY_OPAQUE - GA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DA = GA + (DA * (OWF_FULLY_OPAQUE - GA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
BLENDER_INNER_LOOP_END;
break;
}
case OWF_TRANSPARENCY_SOURCE_ALPHA:
{
/*
rgb = src.rgb + dst.rgb * (1 - src.alpha)
alpha = src.alpha + dst.alpha * (1 - src.alpha)
*/
BLENDER_INNER_LOOP_BEGIN;
if (SA > (OWF_ALPHA_MAX_VALUE - OWF_ALPHA_MIN_STEP_VALUE))
{
/* Fully opaque source pixel */
DR = SR;
DG = SG;
DB = SB;
DA = OWF_FULLY_OPAQUE;
}
else
{
if (SA >= OWF_ALPHA_MIN_STEP_VALUE)
{
/* Not fully transparent source pixel */
/*
* DR = SR + (DR * (OWF_FULLY_OPAQUE - SA) + OWF_BLEND_ROUNDING_VALUE) / OWF_ALPHA_MAX_VALUE;
*/
DR = SR + (DR * (OWF_FULLY_OPAQUE - SA) + OWF_BLEND_ROUNDING_VALUE) >> 8;
DG = SG + (DG * (OWF_FULLY_OPAQUE - SA) + OWF_BLEND_ROUNDING_VALUE) >> 8;
DB = SB + (DB * (OWF_FULLY_OPAQUE - SA) + OWF_BLEND_ROUNDING_VALUE) >> 8;
DA = SA + (DA * (OWF_FULLY_OPAQUE - SA) + OWF_BLEND_ROUNDING_VALUE) >> 8;
}
}
BLENDER_INNER_LOOP_END;
break;
}
case OWF_TRANSPARENCY_MASK:
{
/*
rgb = src.rgb * mask.alpha + dst.rgb * (1 - mask.alpha)
alpha = mask.alpha + dst.alpha * (1 - mask.alpha)
*/
BLENDER_INNER_LOOP_BEGIN;
DR = (SR * MA + DR * (OWF_FULLY_OPAQUE - MA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DG = (SG * MA + DG * (OWF_FULLY_OPAQUE - MA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DB = (SB * MA + DB * (OWF_FULLY_OPAQUE - MA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DA = MA + (DA * (OWF_FULLY_OPAQUE - MA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
BLENDER_INNER_LOOP_END_WITH_MASK;
break;
}
case OWF_TRANSPARENCY_GLOBAL_ALPHA | OWF_TRANSPARENCY_SOURCE_ALPHA:
{
/*
rgb = src.rgb * elem.a + dst.rgb * (1 - src.a * elem.a)
a = src.a * elem.a + dst.a * (1 - src.a * elem.a)
*/
OWFsubpixel SAEA;
BLENDER_INNER_LOOP_BEGIN;
SAEA = SA * GA / OWF_ALPHA_MAX_VALUE;
DR = (SR * GA + DR * (OWF_FULLY_OPAQUE - SAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DG = (SG * GA + DG * (OWF_FULLY_OPAQUE - SAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DB = (SB * GA + DB * (OWF_FULLY_OPAQUE - SAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DA = SAEA + (DA * (OWF_FULLY_OPAQUE - SAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
BLENDER_INNER_LOOP_END;
break;
}
case OWF_TRANSPARENCY_GLOBAL_ALPHA | OWF_TRANSPARENCY_MASK:
{
/*
rgb = src.rgb * mask.a * elem.a + dst.rgb * (1 - mask.a * elem.a)
a = mask.a * elem.a + dest.a * (1 - mask.a * elem.a)
*/
OWFsubpixel MAEA;
BLENDER_INNER_LOOP_BEGIN;
MAEA = MA * GA / OWF_ALPHA_MAX_VALUE;
DR = (SR * MAEA + DR * (OWF_FULLY_OPAQUE - MAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DG = (SG * MAEA + DG * (OWF_FULLY_OPAQUE - MAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DB = (SB * MAEA + DB * (OWF_FULLY_OPAQUE - MAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
DA = MAEA + (DA * (OWF_FULLY_OPAQUE - MAEA) + OWF_BLEND_ROUNDING_VALUE) /
OWF_ALPHA_MAX_VALUE;
//No need to check with OWF_ALPHA_MIN_VALUE as it is zero
OWF_ASSERT(GA <= OWF_ALPHA_MAX_VALUE);
BLENDER_INNER_LOOP_END_WITH_MASK;
break;
}
default:
{
DPRINT(("OWF_Image_Blend: whooops. invalid blending mode\n"));
abort();
break;
}
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void*
OWF_Image_AllocData(OWF_DISPCTX dc, OWFint width, OWFint height, OWF_PIXEL_FORMAT pixelFormat)
{
OWF_IMAGE_FORMAT imgf;
OWFint stride;
/* kludge. GetStride need pixelFormat. */
imgf.pixelFormat = pixelFormat;
imgf.rowPadding = OWF_Image_GetFormatPadding(pixelFormat);
stride = OWF_Image_GetStride(width, &imgf, 0);
OWF_ASSERT (width > 0 && height > 0);
if (stride == 0)
{
return NULL;
}
if (dc)
{
return OWF_DisplayContext_ScratchBuffer_Allocate(dc, height * stride);
}
return xalloc(1, height * stride);
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_FreeData(OWF_DISPCTX dc, void** data)
{
if (*data)
{
if (dc)
{
OWF_DisplayContext_ScratchBuffer_Destroy(dc, *data);
}
else
{
xfree(*data);
}
}
*data = NULL;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFint
OWF_Image_GetFormatPixelSize(OWF_PIXEL_FORMAT format)
{
switch (format)
{
case OWF_IMAGE_ARGB_INTERNAL:
{
return sizeof(OWFpixel);
}
case OWF_IMAGE_ARGB8888:
case OWF_IMAGE_XRGB8888:
case OWF_IMAGE_L32:
{
return 4;
}
case OWF_IMAGE_RGB888:
{
return 3;
}
case OWF_IMAGE_RGB565:
case OWF_IMAGE_L16:
{
return 2;
}
case OWF_IMAGE_L8:
{
return 1;
}
case OWF_IMAGE_L1:
{
/* Use negative numbers for divisor, e.g., -8 = 1/8. */
/* L1 is 1 bit alpha, LSB->MSB, each row padded to 32-bit
* boundary. */
return -8;
}
default:
{
return 0;
}
}
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFint
OWF_Image_GetFormatPadding(OWF_PIXEL_FORMAT format)
{
OWFint padding = 1;
switch (format)
{
case OWF_IMAGE_ARGB_INTERNAL:
{
padding = sizeof(OWFpixel);
break;
}
case OWF_IMAGE_ARGB8888:
case OWF_IMAGE_XRGB8888:
case OWF_IMAGE_L32:
{
padding = 4;
break;
}
/*
case OWF_IMAGE_RGB888:
{
return 3;
}
*/
case OWF_IMAGE_RGB565:
case OWF_IMAGE_L16:
{
padding = 2;
break;
}
case OWF_IMAGE_L8:
{
padding = 1;
break;
}
case OWF_IMAGE_L1:
{
/* Use negative numbers for divisor, e.g., -8 = 1/8. */
/* L1 is 1 bit alpha, LSB->MSB, each row padded to 32-bit
* boundary. */
padding = 4;
break;
}
default:
{
break;
}
}
OWF_ASSERT(padding);
return padding;
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL void
OWF_Image_SwapWidthAndHeight(OWF_IMAGE* image)
{
/* swap w & h. Note that original stride is not restored if swap back. */
image->width ^= image->height;
image->height ^= image->width;
image->width ^= image->height;
image->stride = OWF_Image_GetStride(image->width, &image->format, 0);
}
/*----------------------------------------------------------------------------*/
OWF_API_CALL OWFboolean
OWF_Image_ConvertMask(OWF_IMAGE* output, OWF_IMAGE* input)
{
OWFboolean result = OWF_TRUE;
void* srcLinePtr;
OWFsubpixel* dstLinePtr;
OWFint countY;
DPRINT(("OWF_Image_ConvertMask:"));
DPRINT((" Converting mask from stream format to internal 8-bit"));
OWF_ASSERT(input);
OWF_ASSERT(output);
srcLinePtr = input->data;
dstLinePtr = (OWFsubpixel*) output->data;
for (countY = input->height; countY; countY--)
{
OWFsubpixel* dstData = dstLinePtr;
switch (input->format.pixelFormat)
{
case OWF_IMAGE_L1:
{
OWFint countX;
OWFuint8* srcData = (OWFuint8*) srcLinePtr;
DPRINT(("1-bit alpha, width = %d, height = %d",
input->width, input->height));
for (countX = 0; countX < input->width; countX++)
{
/*
* alpha pixel ordering is LSB -> MSB
*
* byte# |----- byte 0 ----|----- byte 1-----|--
* bit# | 7 6 5 4 3 2 1 0 | 7 6 5 4 3 2 1 0 |
* pix# | 7 6 5 4 3 2 1 0 | f e d c b a 9 8 | ...
*/
if (srcData[countX >> 3] & (1 << (countX & 7)))
{
dstData[countX] = OWF_FULLY_OPAQUE;
}
else
{
dstData[countX] = OWF_FULLY_TRANSPARENT;
}
}
break;
}
case OWF_IMAGE_L8:
{
OWFint countX;
OWFuint8* srcData = (OWFuint8*) srcLinePtr;
DPRINT(("8-bit alpha, width = %d, height = %d",
input->width, input->height));
for (countX = 0; countX < input->width; countX++)
{
dstData[countX] = srcData[countX] * OWF_FULLY_OPAQUE /
(OWFfloat) OWF_BYTE_MAX_VALUE;
}
break;
}
case OWF_IMAGE_ARGB8888:
{
/* ARGB image - take the alpha channel and discard
* everything else */
OWFint countX;
OWFuint32* srcData = (OWFuint32*) srcLinePtr;
DPRINT(("32-bit ARGB, width = %d, height = %d",
input->width, input->height));
for (countX = 0; countX < input->width; countX++)
{
dstData[countX] = (srcData[countX] >> 24) * OWF_FULLY_OPAQUE /
(OWFfloat) OWF_BYTE_MAX_VALUE;
}
break;
}
default:
{
DPRINT(("Unsupported alpha format, ignoring mask"));
result = OWF_FALSE;
break;
}
}
dstLinePtr+=output->width;
/* Presumes that the stride is always whole bytes - eg. a 2x2-pixel mono
* image takes at least 2 bytes */
srcLinePtr=(OWFuint8*)srcLinePtr+input->stride;
}
return result;
}
#ifdef __cplusplus
}
#endif