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|
/*
* Mesa 3-D graphics library
* Version: 6.1
*
* Copyright (C) 1999-2004 Brian Paul All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is 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 Software.
*
* THE SOFTWARE IS 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
* BRIAN PAUL 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 SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* Authors:
* Brian Paul
*/
/*
* The GL texture image functions in teximage.c basically just do
* error checking and data structure allocation. They in turn call
* device driver functions which actually copy/convert/store the user's
* texture image data.
*
* However, most device drivers will be able to use the fallback functions
* in this file. That is, most drivers will have the following bit of
* code:
* ctx->Driver.TexImage1D = _mesa_store_teximage1d;
* ctx->Driver.TexImage2D = _mesa_store_teximage2d;
* ctx->Driver.TexImage3D = _mesa_store_teximage3d;
* etc...
*
* Texture image processing is actually kind of complicated. We have to do:
* Format/type conversions
* pixel unpacking
* pixel transfer (scale, bais, lookup, convolution!, etc)
*
* These functions can handle most everything, including processing full
* images and sub-images.
*/
#include "glheader.h"
#include "colormac.h"
#include "context.h"
#include "convolve.h"
#include "image.h"
#include "macros.h"
#include "imports.h"
#include "texcompress.h"
#include "texformat.h"
#include "teximage.h"
#include "texstore.h"
#include "texutil.h"
/*
* Given an internal texture format enum or 1, 2, 3, 4 return the
* corresponding _base_ internal format: GL_ALPHA, GL_LUMINANCE,
* GL_LUMANCE_ALPHA, GL_INTENSITY, GL_RGB, or GL_RGBA. Return the
* number of components for the format. Return -1 if invalid enum.
*/
static GLint
components_in_intformat( GLint format )
{
switch (format) {
case GL_ALPHA:
case GL_ALPHA4:
case GL_ALPHA8:
case GL_ALPHA12:
case GL_ALPHA16:
return 1;
case 1:
case GL_LUMINANCE:
case GL_LUMINANCE4:
case GL_LUMINANCE8:
case GL_LUMINANCE12:
case GL_LUMINANCE16:
return 1;
case 2:
case GL_LUMINANCE_ALPHA:
case GL_LUMINANCE4_ALPHA4:
case GL_LUMINANCE6_ALPHA2:
case GL_LUMINANCE8_ALPHA8:
case GL_LUMINANCE12_ALPHA4:
case GL_LUMINANCE12_ALPHA12:
case GL_LUMINANCE16_ALPHA16:
return 2;
case GL_INTENSITY:
case GL_INTENSITY4:
case GL_INTENSITY8:
case GL_INTENSITY12:
case GL_INTENSITY16:
return 1;
case 3:
case GL_RGB:
case GL_R3_G3_B2:
case GL_RGB4:
case GL_RGB5:
case GL_RGB8:
case GL_RGB10:
case GL_RGB12:
case GL_RGB16:
return 3;
case 4:
case GL_RGBA:
case GL_RGBA2:
case GL_RGBA4:
case GL_RGB5_A1:
case GL_RGBA8:
case GL_RGB10_A2:
case GL_RGBA12:
case GL_RGBA16:
return 4;
case GL_COLOR_INDEX:
case GL_COLOR_INDEX1_EXT:
case GL_COLOR_INDEX2_EXT:
case GL_COLOR_INDEX4_EXT:
case GL_COLOR_INDEX8_EXT:
case GL_COLOR_INDEX12_EXT:
case GL_COLOR_INDEX16_EXT:
return 1;
case GL_DEPTH_COMPONENT:
case GL_DEPTH_COMPONENT16_SGIX:
case GL_DEPTH_COMPONENT24_SGIX:
case GL_DEPTH_COMPONENT32_SGIX:
return 1;
case GL_YCBCR_MESA:
return 2; /* Y + (Cb or Cr) */
default:
return -1; /* error */
}
}
/*
* This function is used to transfer the user's image data into a texture
* image buffer. We handle both full texture images and subtexture images.
* We also take care of all image transfer operations here, including
* convolution, scale/bias, colortables, etc.
*
* The destination texel type is always GLchan.
* The destination texel format is one of the 6 basic types.
*
* A hardware driver may use this as a helper routine to unpack and
* apply pixel transfer ops into a temporary image buffer. Then,
* convert the temporary image into the special hardware format.
*
* \param
* dimensions - 1, 2, or 3
* texDestFormat - GL_LUMINANCE, GL_INTENSITY, GL_LUMINANCE_ALPHA, GL_ALPHA,
* GL_RGB or GL_RGBA (the destination format)
* texDestAddr - destination image address
* srcWidth, srcHeight, srcDepth - size (in pixels) of src and dest images
* dstXoffset, dstYoffset, dstZoffset - position to store the image within
* the destination 3D texture
* dstRowStride, dstImageStride - dest image strides in bytes
* srcFormat - source image format (GL_ALPHA, GL_RED, GL_RGB, etc)
* srcType - GL_UNSIGNED_BYTE, GL_UNSIGNED_SHORT_5_6_5, GL_FLOAT, etc
* srcPacking - describes packing of incoming image.
* transferOps - mask of pixel transfer operations
*/
static void
transfer_teximage(GLcontext *ctx, GLuint dimensions,
GLenum texDestFormat, GLvoid *texDestAddr,
GLint srcWidth, GLint srcHeight, GLint srcDepth,
GLint dstXoffset, GLint dstYoffset, GLint dstZoffset,
GLint dstRowStride, GLint dstImageStride,
GLenum srcFormat, GLenum srcType,
const GLvoid *srcAddr,
const struct gl_pixelstore_attrib *srcPacking,
GLuint transferOps)
{
GLint texComponents;
ASSERT(ctx);
ASSERT(dimensions >= 1 && dimensions <= 3);
ASSERT(texDestFormat == GL_LUMINANCE ||
texDestFormat == GL_INTENSITY ||
texDestFormat == GL_LUMINANCE_ALPHA ||
texDestFormat == GL_ALPHA ||
texDestFormat == GL_RGB ||
texDestFormat == GL_RGBA ||
texDestFormat == GL_COLOR_INDEX ||
texDestFormat == GL_DEPTH_COMPONENT);
ASSERT(texDestAddr);
ASSERT(srcWidth >= 0);
ASSERT(srcHeight >= 0);
ASSERT(srcDepth >= 0);
ASSERT(dstXoffset >= 0);
ASSERT(dstYoffset >= 0);
ASSERT(dstZoffset >= 0);
ASSERT(dstRowStride >= 0);
ASSERT(dstImageStride >= 0);
ASSERT(srcAddr);
ASSERT(srcPacking);
texComponents = components_in_intformat(texDestFormat);
/* try common 2D texture cases first */
if (!transferOps && dimensions == 2 && srcType == CHAN_TYPE) {
if (srcFormat == texDestFormat) {
/* This will cover the common GL_RGB, GL_RGBA, GL_ALPHA,
* GL_LUMINANCE_ALPHA, etc. texture formats. Use memcpy().
*/
const GLchan *src = (const GLchan *) _mesa_image_address(
srcPacking, srcAddr, srcWidth, srcHeight,
srcFormat, srcType, 0, 0, 0);
const GLint srcRowStride = _mesa_image_row_stride(srcPacking,
srcWidth, srcFormat, srcType);
const GLint widthInBytes = srcWidth * texComponents * sizeof(GLchan);
GLchan *dst = (GLchan *) texDestAddr
+ dstYoffset * (dstRowStride / sizeof(GLchan))
+ dstXoffset * texComponents;
if (srcRowStride == widthInBytes && dstRowStride == widthInBytes) {
MEMCPY(dst, src, srcHeight * widthInBytes);
}
else {
GLint i;
for (i = 0; i < srcHeight; i++) {
MEMCPY(dst, src, widthInBytes);
src += (srcRowStride / sizeof(GLchan));
dst += (dstRowStride / sizeof(GLchan));
}
}
return; /* all done */
}
else if (srcFormat == GL_RGBA && texDestFormat == GL_RGB) {
/* commonly used by Quake */
const GLchan *src = (const GLchan *) _mesa_image_address(
srcPacking, srcAddr, srcWidth, srcHeight,
srcFormat, srcType, 0, 0, 0);
const GLint srcRowStride = _mesa_image_row_stride(srcPacking,
srcWidth, srcFormat, srcType);
GLchan *dst = (GLchan *) texDestAddr
+ dstYoffset * (dstRowStride / sizeof(GLchan))
+ dstXoffset * texComponents;
GLint i, j;
for (i = 0; i < srcHeight; i++) {
const GLchan *s = src;
GLchan *d = dst;
for (j = 0; j < srcWidth; j++) {
*d++ = *s++; /*red*/
*d++ = *s++; /*green*/
*d++ = *s++; /*blue*/
s++; /*alpha*/
}
src += (srcRowStride / sizeof(GLchan));
dst += (dstRowStride / sizeof(GLchan));
}
return; /* all done */
}
}
/*
* General case solutions
*/
if (texDestFormat == GL_COLOR_INDEX) {
/* color index texture */
const GLenum texType = CHAN_TYPE;
GLint img, row;
GLchan *dest = (GLchan *) texDestAddr
+ dstZoffset * (dstImageStride / sizeof(GLchan))
+ dstYoffset * (dstRowStride / sizeof(GLchan))
+ dstXoffset * texComponents;
for (img = 0; img < srcDepth; img++) {
GLchan *destRow = dest;
for (row = 0; row < srcHeight; row++) {
const GLvoid *src = _mesa_image_address(srcPacking,
srcAddr, srcWidth, srcHeight, srcFormat, srcType, img, row, 0);
_mesa_unpack_index_span(ctx, srcWidth, texType, destRow,
srcType, src, srcPacking, transferOps);
destRow += (dstRowStride / sizeof(GLchan));
}
dest += dstImageStride;
}
}
else if (texDestFormat == GL_YCBCR_MESA) {
/* YCbCr texture */
GLint img, row;
GLushort *dest = (GLushort *) texDestAddr
+ dstZoffset * (dstImageStride / sizeof(GLushort))
+ dstYoffset * (dstRowStride / sizeof(GLushort))
+ dstXoffset * texComponents;
ASSERT(ctx->Extensions.MESA_ycbcr_texture);
for (img = 0; img < srcDepth; img++) {
GLushort *destRow = dest;
for (row = 0; row < srcHeight; row++) {
const GLvoid *srcRow = _mesa_image_address(srcPacking,
srcAddr, srcWidth, srcHeight,
srcFormat, srcType, img, row, 0);
MEMCPY(destRow, srcRow, srcWidth * sizeof(GLushort));
destRow += (dstRowStride / sizeof(GLushort));
}
dest += dstImageStride / sizeof(GLushort);
}
}
else if (texDestFormat == GL_DEPTH_COMPONENT) {
/* Depth texture (shadow maps) */
GLint img, row;
GLubyte *dest = (GLubyte *) texDestAddr
+ dstZoffset * dstImageStride
+ dstYoffset * (dstRowStride / sizeof(GLchan))
+ dstXoffset * texComponents;
for (img = 0; img < srcDepth; img++) {
GLubyte *destRow = dest;
for (row = 0; row < srcHeight; row++) {
const GLvoid *src = _mesa_image_address(srcPacking,
srcAddr, srcWidth, srcHeight, srcFormat, srcType, img, row, 0);
_mesa_unpack_depth_span(ctx, srcWidth, (GLfloat *) destRow,
srcType, src, srcPacking);
destRow += (dstRowStride / sizeof(GLchan));
}
dest += dstImageStride;
}
}
else {
/* regular, color texture */
if ((dimensions == 1 && ctx->Pixel.Convolution1DEnabled) ||
(dimensions >= 2 && ctx->Pixel.Convolution2DEnabled) ||
(dimensions >= 2 && ctx->Pixel.Separable2DEnabled)) {
/*
* Fill texture image with convolution
*/
GLint img, row;
GLint convWidth = srcWidth, convHeight = srcHeight;
GLfloat *tmpImage, *convImage;
tmpImage = (GLfloat *) MALLOC(srcWidth * srcHeight * 4 * sizeof(GLfloat));
if (!tmpImage) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glTexImage");
return;
}
convImage = (GLfloat *) MALLOC(srcWidth * srcHeight * 4 * sizeof(GLfloat));
if (!convImage) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glTexImage");
FREE(tmpImage);
return;
}
for (img = 0; img < srcDepth; img++) {
const GLfloat *srcf;
GLfloat *dstf = tmpImage;
GLchan *dest;
/* unpack and do transfer ops up to convolution */
for (row = 0; row < srcHeight; row++) {
const GLvoid *src = _mesa_image_address(srcPacking,
srcAddr, srcWidth, srcHeight,
srcFormat, srcType, img, row, 0);
_mesa_unpack_color_span_float(ctx, srcWidth, GL_RGBA, dstf,
srcFormat, srcType, src, srcPacking,
transferOps & IMAGE_PRE_CONVOLUTION_BITS,
GL_TRUE);
dstf += srcWidth * 4;
}
/* convolve */
if (dimensions == 1) {
ASSERT(ctx->Pixel.Convolution1DEnabled);
_mesa_convolve_1d_image(ctx, &convWidth, tmpImage, convImage);
}
else {
if (ctx->Pixel.Convolution2DEnabled) {
_mesa_convolve_2d_image(ctx, &convWidth, &convHeight,
tmpImage, convImage);
}
else {
ASSERT(ctx->Pixel.Separable2DEnabled);
_mesa_convolve_sep_image(ctx, &convWidth, &convHeight,
tmpImage, convImage);
}
}
/* packing and transfer ops after convolution */
srcf = convImage;
dest = (GLchan *) texDestAddr
+ (dstZoffset + img) * (dstImageStride / sizeof(GLchan))
+ dstYoffset * (dstRowStride / sizeof(GLchan));
for (row = 0; row < convHeight; row++) {
_mesa_pack_rgba_span_float(ctx, convWidth,
(const GLfloat (*)[4]) srcf,
texDestFormat, CHAN_TYPE,
dest, &_mesa_native_packing,
transferOps
& IMAGE_POST_CONVOLUTION_BITS);
srcf += convWidth * 4;
dest += (dstRowStride / sizeof(GLchan));
}
}
FREE(convImage);
FREE(tmpImage);
}
else {
/*
* no convolution
*/
GLint img, row;
GLchan *dest = (GLchan *) texDestAddr
+ dstZoffset * (dstImageStride / sizeof(GLchan))
+ dstYoffset * (dstRowStride / sizeof(GLchan))
+ dstXoffset * texComponents;
for (img = 0; img < srcDepth; img++) {
GLchan *destRow = dest;
for (row = 0; row < srcHeight; row++) {
const GLvoid *srcRow = _mesa_image_address(srcPacking,
srcAddr, srcWidth, srcHeight,
srcFormat, srcType, img, row, 0);
_mesa_unpack_color_span_chan(ctx, srcWidth, texDestFormat,
destRow, srcFormat, srcType, srcRow,
srcPacking, transferOps);
destRow += (dstRowStride / sizeof(GLchan));
}
dest += dstImageStride / sizeof(GLchan);
}
}
}
}
/*
* Transfer a texture image from user space to <destAddr> applying all
* needed image transfer operations and storing the result in the format
* specified by <dstFormat>. <dstFormat> may be any format from texformat.h.
* \param
* dimensions - 1, 2 or 3
* baseInternalFormat - base format of the internal texture format
* specified by the user. This is very important, see below.
* dstFormat - destination image format
* dstAddr - destination address
* srcWidth, srcHeight, srcDepth - size of source iamge
* dstX/Y/Zoffset - as specified by glTexSubImage
* dstRowStride - stride between dest rows in bytes
* dstImageStride - stride between dest images in bytes
* srcFormat, srcType - incoming image format and data type
* srcAddr - source image address
* srcPacking - packing params of source image
*
* XXX this function is a bit more complicated than it should be. If
* _mesa_convert_texsubimage[123]d could handle any dest/source formats
* or if transfer_teximage() could store in any MESA_FORMAT_* format, we
* could simplify things here.
*/
void
_mesa_transfer_teximage(GLcontext *ctx, GLuint dimensions,
GLenum baseInternalFormat,
const struct gl_texture_format *dstFormat,
GLvoid *dstAddr,
GLint srcWidth, GLint srcHeight, GLint srcDepth,
GLint dstXoffset, GLint dstYoffset, GLint dstZoffset,
GLint dstRowStride, GLint dstImageStride,
GLenum srcFormat, GLenum srcType,
const GLvoid *srcAddr,
const struct gl_pixelstore_attrib *srcPacking)
{
const GLint dstRowStridePixels = dstRowStride / dstFormat->TexelBytes;
const GLint dstImageStridePixels = dstImageStride / dstFormat->TexelBytes;
GLboolean makeTemp;
GLuint transferOps = ctx->_ImageTransferState;
GLboolean freeSourceData = GL_FALSE;
GLint postConvWidth = srcWidth, postConvHeight = srcHeight;
assert(baseInternalFormat > 0);
ASSERT(baseInternalFormat == GL_LUMINANCE ||
baseInternalFormat == GL_INTENSITY ||
baseInternalFormat == GL_LUMINANCE_ALPHA ||
baseInternalFormat == GL_ALPHA ||
baseInternalFormat == GL_RGB ||
baseInternalFormat == GL_RGBA ||
baseInternalFormat == GL_YCBCR_MESA ||
baseInternalFormat == GL_COLOR_INDEX ||
baseInternalFormat == GL_DEPTH_COMPONENT);
if (transferOps & IMAGE_CONVOLUTION_BIT) {
_mesa_adjust_image_for_convolution(ctx, dimensions, &postConvWidth,
&postConvHeight);
}
/*
* Consider this scenario: The user's source image is GL_RGB and the
* requested internal format is GL_LUMINANCE. Now suppose the device
* driver doesn't support GL_LUMINANCE and instead uses RGB16 as the
* texture format. In that case we still need to do an intermediate
* conversion to luminance format so that the incoming red channel gets
* replicated into the dest red, green and blue channels. The following
* code takes care of that.
*/
if (dstFormat->BaseFormat != baseInternalFormat) {
/* Allocate storage for temporary image in the baseInternalFormat */
const GLint texelSize = _mesa_components_in_format(baseInternalFormat)
* sizeof(GLchan);
const GLint bytes = texelSize * postConvWidth * postConvHeight *srcDepth;
const GLint tmpRowStride = texelSize * postConvWidth;
const GLint tmpImgStride = texelSize * postConvWidth * postConvHeight;
GLvoid *tmpImage = MALLOC(bytes);
if (!tmpImage)
return;
transfer_teximage(ctx, dimensions, baseInternalFormat, tmpImage,
srcWidth, srcHeight, srcDepth,
0, 0, 0, /* x/y/zoffset */
tmpRowStride, tmpImgStride,
srcFormat, srcType, srcAddr, srcPacking, transferOps);
/* this is our new source image */
srcWidth = postConvWidth;
srcHeight = postConvHeight;
srcFormat = baseInternalFormat;
srcType = CHAN_TYPE;
srcAddr = tmpImage;
srcPacking = &_mesa_native_packing;
freeSourceData = GL_TRUE;
transferOps = 0; /* image transfer ops were completed */
}
/* Let the optimized tex conversion functions take a crack at the
* image conversion if the dest format is a h/w format.
*/
if (_mesa_is_hardware_tex_format(dstFormat)) {
if (transferOps) {
makeTemp = GL_TRUE;
}
else {
if (dimensions == 1) {
makeTemp = !_mesa_convert_texsubimage1d(dstFormat->MesaFormat,
dstXoffset,
srcWidth,
srcFormat, srcType,
srcPacking, srcAddr,
dstAddr);
}
else if (dimensions == 2) {
makeTemp = !_mesa_convert_texsubimage2d(dstFormat->MesaFormat,
dstXoffset, dstYoffset,
srcWidth, srcHeight,
dstRowStridePixels,
srcFormat, srcType,
srcPacking, srcAddr,
dstAddr);
}
else {
assert(dimensions == 3);
makeTemp = !_mesa_convert_texsubimage3d(dstFormat->MesaFormat,
dstXoffset, dstYoffset, dstZoffset,
srcWidth, srcHeight, srcDepth,
dstRowStridePixels, dstImageStridePixels,
srcFormat, srcType,
srcPacking, srcAddr, dstAddr);
}
if (!makeTemp) {
/* all done! */
if (freeSourceData)
FREE((void *) srcAddr);
return;
}
}
}
else {
/* software texture format */
makeTemp = GL_FALSE;
}
if (makeTemp) {
GLint postConvWidth = srcWidth, postConvHeight = srcHeight;
GLenum tmpFormat;
GLuint tmpComps, tmpTexelSize;
GLint tmpRowStride, tmpImageStride;
GLubyte *tmpImage;
if (transferOps & IMAGE_CONVOLUTION_BIT) {
_mesa_adjust_image_for_convolution(ctx, dimensions, &postConvWidth,
&postConvHeight);
}
tmpFormat = dstFormat->BaseFormat;
tmpComps = _mesa_components_in_format(tmpFormat);
tmpTexelSize = tmpComps * sizeof(GLchan);
tmpRowStride = postConvWidth * tmpTexelSize;
tmpImageStride = postConvWidth * postConvHeight * tmpTexelSize;
tmpImage = (GLubyte *) MALLOC(postConvWidth * postConvHeight *
srcDepth * tmpTexelSize);
if (!tmpImage) {
if (freeSourceData)
FREE((void *) srcAddr);
return;
}
transfer_teximage(ctx, dimensions, tmpFormat, tmpImage,
srcWidth, srcHeight, srcDepth,
0, 0, 0, /* x/y/zoffset */
tmpRowStride, tmpImageStride,
srcFormat, srcType, srcAddr, srcPacking, transferOps);
if (freeSourceData)
FREE((void *) srcAddr);
/* the temp image is our new source image */
srcWidth = postConvWidth;
srcHeight = postConvHeight;
srcFormat = tmpFormat;
srcType = CHAN_TYPE;
srcAddr = tmpImage;
srcPacking = &_mesa_native_packing;
freeSourceData = GL_TRUE;
}
if (_mesa_is_hardware_tex_format(dstFormat)) {
assert(makeTemp);
if (dimensions == 1) {
GLboolean b;
b = _mesa_convert_texsubimage1d(dstFormat->MesaFormat,
dstXoffset,
srcWidth,
srcFormat, srcType,
srcPacking, srcAddr,
dstAddr);
assert(b);
(void) b;
}
else if (dimensions == 2) {
GLboolean b;
b = _mesa_convert_texsubimage2d(dstFormat->MesaFormat,
dstXoffset, dstYoffset,
srcWidth, srcHeight,
dstRowStridePixels,
srcFormat, srcType,
srcPacking, srcAddr,
dstAddr);
assert(b);
(void) b;
}
else {
GLboolean b;
b = _mesa_convert_texsubimage3d(dstFormat->MesaFormat,
dstXoffset, dstYoffset, dstZoffset,
srcWidth, srcHeight, srcDepth,
dstRowStridePixels, dstImageStridePixels,
srcFormat, srcType,
srcPacking, srcAddr, dstAddr);
assert(b);
(void) b;
}
}
else {
/* software format */
assert(!makeTemp);
transfer_teximage(ctx, dimensions, dstFormat->BaseFormat, dstAddr,
srcWidth, srcHeight, srcDepth,
dstXoffset, dstYoffset, dstZoffset,
dstRowStride, dstImageStride,
srcFormat, srcType, srcAddr, srcPacking, transferOps);
}
if (freeSourceData)
FREE((void *) srcAddr); /* the temp image */
}
/**
* Given a user's uncompressed texture image, this function takes care of
* pixel unpacking, pixel transfer, format conversion and compression.
*/
static void
transfer_compressed_teximage(GLcontext *ctx, GLuint dimensions,
GLsizei width, GLsizei height, GLsizei depth,
GLenum srcFormat, GLenum srcType,
const struct gl_pixelstore_attrib *unpacking,
const GLvoid *source,
const struct gl_texture_format *dstFormat,
GLubyte *dest,
GLint dstRowStride)
{
GLchan *tempImage = NULL;
GLint srcRowStride;
GLenum baseFormat;
ASSERT(dimensions == 2);
/* TexelBytes is zero if and only if it's a compressed format */
ASSERT(dstFormat->TexelBytes == 0);
baseFormat = dstFormat->BaseFormat;
if (srcFormat != baseFormat || srcType != CHAN_TYPE ||
ctx->_ImageTransferState != 0 || unpacking->SwapBytes) {
/* need to convert user's image to texImage->Format, GLchan */
GLint comps = components_in_intformat(baseFormat);
GLint postConvWidth = width, postConvHeight = height;
/* XXX convolution untested */
if (ctx->_ImageTransferState & IMAGE_CONVOLUTION_BIT) {
_mesa_adjust_image_for_convolution(ctx, dimensions, &postConvWidth,
&postConvHeight);
}
tempImage = (GLchan*) MALLOC(width * height * comps * sizeof(GLchan));
if (!tempImage) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glTexImage2D");
return;
}
transfer_teximage(ctx, dimensions,
baseFormat, /* dest format */
tempImage, /* dst address */
width, height, depth, /* src size */
0, 0, 0, /* x/y/zoffset */
comps * width, /* dst row stride */
comps * width * height, /* dst image stride */
srcFormat, srcType, /* src format, type */
source, unpacking, /* src and src packing */
ctx->_ImageTransferState);
source = tempImage;
width = postConvWidth;
height = postConvHeight;
srcRowStride = width;
}
else {
if (unpacking->RowLength)
srcRowStride = unpacking->RowLength;
else
srcRowStride = width;
}
_mesa_compress_teximage(ctx, width, height, baseFormat,
(const GLchan *) source, srcRowStride,
dstFormat, dest, dstRowStride);
if (tempImage) {
FREE(tempImage);
}
}
/*
* This is the software fallback for Driver.TexImage1D()
* and Driver.CopyTexImage2D().
* The texture image type will be GLchan.
* The texture image format will be GL_COLOR_INDEX, GL_INTENSITY,
* GL_LUMINANCE, GL_LUMINANCE_ALPHA, GL_ALPHA, GL_RGB or GL_RGBA.
*/
void
_mesa_store_teximage1d(GLcontext *ctx, GLenum target, GLint level,
GLint internalFormat,
GLint width, GLint border,
GLenum format, GLenum type, const GLvoid *pixels,
const struct gl_pixelstore_attrib *packing,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
GLint postConvWidth = width;
GLint texelBytes, sizeInBytes;
if (ctx->_ImageTransferState & IMAGE_CONVOLUTION_BIT) {
_mesa_adjust_image_for_convolution(ctx, 1, &postConvWidth, NULL);
}
/* choose the texture format */
assert(ctx->Driver.ChooseTextureFormat);
texImage->TexFormat = (*ctx->Driver.ChooseTextureFormat)(ctx,
internalFormat, format, type);
assert(texImage->TexFormat);
texImage->FetchTexelc = texImage->TexFormat->FetchTexel1D;
texImage->FetchTexelf = texImage->TexFormat->FetchTexel1Df;
texelBytes = texImage->TexFormat->TexelBytes;
/* allocate memory */
if (texImage->IsCompressed)
sizeInBytes = texImage->CompressedSize;
else
sizeInBytes = postConvWidth * texelBytes;
texImage->Data = MESA_PBUFFER_ALLOC(sizeInBytes);
if (!texImage->Data) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glTexImage1D");
return;
}
if (!pixels)
return;
/* unpack image, apply transfer ops and store in texImage->Data */
if (texImage->IsCompressed) {
GLint dstRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
width);
transfer_compressed_teximage(ctx, 1, width, 1, 1,
format, type, packing,
pixels, texImage->TexFormat,
(GLubyte *) texImage->Data, dstRowStride);
}
else {
_mesa_transfer_teximage(ctx, 1,
texImage->Format, /* base format */
texImage->TexFormat, texImage->Data,
width, 1, 1, /* src size */
0, 0, 0, /* dstX/Y/Zoffset */
0, /* dstRowStride */
0, /* dstImageStride */
format, type, pixels, packing);
}
/* GL_SGIS_generate_mipmap */
if (level == texObj->BaseLevel && texObj->GenerateMipmap) {
_mesa_generate_mipmap(ctx, target,
&ctx->Texture.Unit[ctx->Texture.CurrentUnit],
texObj);
}
}
/*
* This is the software fallback for Driver.TexImage2D()
* and Driver.CopyTexImage2D().
* The texture image type will be GLchan.
* The texture image format will be GL_COLOR_INDEX, GL_INTENSITY,
* GL_LUMINANCE, GL_LUMINANCE_ALPHA, GL_ALPHA, GL_RGB or GL_RGBA.
*/
void
_mesa_store_teximage2d(GLcontext *ctx, GLenum target, GLint level,
GLint internalFormat,
GLint width, GLint height, GLint border,
GLenum format, GLenum type, const void *pixels,
const struct gl_pixelstore_attrib *packing,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
GLint postConvWidth = width, postConvHeight = height;
GLint texelBytes, sizeInBytes;
if (ctx->_ImageTransferState & IMAGE_CONVOLUTION_BIT) {
_mesa_adjust_image_for_convolution(ctx, 2, &postConvWidth,
&postConvHeight);
}
/* choose the texture format */
assert(ctx->Driver.ChooseTextureFormat);
texImage->TexFormat = (*ctx->Driver.ChooseTextureFormat)(ctx,
internalFormat, format, type);
assert(texImage->TexFormat);
texImage->FetchTexelc = texImage->TexFormat->FetchTexel2D;
texImage->FetchTexelf = texImage->TexFormat->FetchTexel2Df;
texelBytes = texImage->TexFormat->TexelBytes;
/* allocate memory */
if (texImage->IsCompressed)
sizeInBytes = texImage->CompressedSize;
else
sizeInBytes = postConvWidth * postConvHeight * texelBytes;
texImage->Data = MESA_PBUFFER_ALLOC(sizeInBytes);
if (!texImage->Data) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glTexImage2D");
return;
}
if (!pixels)
return;
/* unpack image, apply transfer ops and store in texImage->Data */
if (texImage->IsCompressed) {
GLint dstRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
width);
transfer_compressed_teximage(ctx, 2, width, height, 1,
format, type, packing,
pixels, texImage->TexFormat,
(GLubyte *) texImage->Data, dstRowStride);
}
else {
_mesa_transfer_teximage(ctx, 2,
texImage->Format,
texImage->TexFormat, texImage->Data,
width, height, 1, /* src size */
0, 0, 0, /* dstX/Y/Zoffset */
texImage->Width * texelBytes, /* dstRowStride */
0, /* dstImageStride */
format, type, pixels, packing);
}
/* GL_SGIS_generate_mipmap */
if (level == texObj->BaseLevel && texObj->GenerateMipmap) {
_mesa_generate_mipmap(ctx, target,
&ctx->Texture.Unit[ctx->Texture.CurrentUnit],
texObj);
}
}
/*
* This is the software fallback for Driver.TexImage3D()
* and Driver.CopyTexImage3D().
* The texture image type will be GLchan.
* The texture image format will be GL_COLOR_INDEX, GL_INTENSITY,
* GL_LUMINANCE, GL_LUMINANCE_ALPHA, GL_ALPHA, GL_RGB or GL_RGBA.
*/
void
_mesa_store_teximage3d(GLcontext *ctx, GLenum target, GLint level,
GLint internalFormat,
GLint width, GLint height, GLint depth, GLint border,
GLenum format, GLenum type, const void *pixels,
const struct gl_pixelstore_attrib *packing,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
GLint texelBytes, sizeInBytes;
/* choose the texture format */
assert(ctx->Driver.ChooseTextureFormat);
texImage->TexFormat = (*ctx->Driver.ChooseTextureFormat)(ctx,
internalFormat, format, type);
assert(texImage->TexFormat);
texImage->FetchTexelc = texImage->TexFormat->FetchTexel3D;
texImage->FetchTexelf = texImage->TexFormat->FetchTexel3Df;
texelBytes = texImage->TexFormat->TexelBytes;
/* allocate memory */
if (texImage->IsCompressed)
sizeInBytes = texImage->CompressedSize;
else
sizeInBytes = width * height * depth * texelBytes;
texImage->Data = MESA_PBUFFER_ALLOC(sizeInBytes);
if (!texImage->Data) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glTexImage3D");
return;
}
if (!pixels)
return;
/* unpack image, apply transfer ops and store in texImage->Data */
if (texImage->IsCompressed) {
GLint dstRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
width);
transfer_compressed_teximage(ctx, 3, width, height, depth,
format, type, packing,
pixels, texImage->TexFormat,
(GLubyte *) texImage->Data, dstRowStride);
}
else {
_mesa_transfer_teximage(ctx, 3,
texImage->Format,
texImage->TexFormat, texImage->Data,
width, height, depth, /* src size */
0, 0, 0, /* dstX/Y/Zoffset */
texImage->Width * texelBytes, /* dstRowStride */
texImage->Width * texImage->Height * texelBytes,
format, type, pixels, packing);
}
/* GL_SGIS_generate_mipmap */
if (level == texObj->BaseLevel && texObj->GenerateMipmap) {
_mesa_generate_mipmap(ctx, target,
&ctx->Texture.Unit[ctx->Texture.CurrentUnit],
texObj);
}
}
/*
* This is the software fallback for Driver.TexSubImage1D()
* and Driver.CopyTexSubImage1D().
*/
void
_mesa_store_texsubimage1d(GLcontext *ctx, GLenum target, GLint level,
GLint xoffset, GLint width,
GLenum format, GLenum type, const void *pixels,
const struct gl_pixelstore_attrib *packing,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
if (texImage->IsCompressed) {
GLint dstRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
texImage->Width);
GLubyte *dest = _mesa_compressed_image_address(xoffset, 0, 0,
texImage->IntFormat,
texImage->Width,
(GLubyte*) texImage->Data);
transfer_compressed_teximage(ctx, 1, /* dimensions */
width, 1, 1, /* size to replace */
format, type, /* source format/type */
packing, /* source packing */
pixels, /* source data */
texImage->TexFormat,/* dest format */
dest, dstRowStride);
}
else {
_mesa_transfer_teximage(ctx, 1,
texImage->Format,
texImage->TexFormat, texImage->Data,
width, 1, 1, /* src size */
xoffset, 0, 0, /* dest offsets */
0, /* dstRowStride */
0, /* dstImageStride */
format, type, pixels, packing);
}
/* GL_SGIS_generate_mipmap */
if (level == texObj->BaseLevel && texObj->GenerateMipmap) {
_mesa_generate_mipmap(ctx, target,
&ctx->Texture.Unit[ctx->Texture.CurrentUnit],
texObj);
}
}
/*
* This is the software fallback for Driver.TexSubImage2D()
* and Driver.CopyTexSubImage2D().
*/
void
_mesa_store_texsubimage2d(GLcontext *ctx, GLenum target, GLint level,
GLint xoffset, GLint yoffset,
GLint width, GLint height,
GLenum format, GLenum type, const void *pixels,
const struct gl_pixelstore_attrib *packing,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
if (texImage->IsCompressed) {
GLint dstRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
texImage->Width);
GLubyte *dest = _mesa_compressed_image_address(xoffset, yoffset, 0,
texImage->IntFormat,
texImage->Width,
(GLubyte*) texImage->Data);
transfer_compressed_teximage(ctx, 2, /* dimensions */
width, height, 1, /* size to replace */
format, type, /* source format/type */
packing, /* source packing */
pixels, /* source data */
texImage->TexFormat,/* dest format */
dest, dstRowStride);
}
else {
_mesa_transfer_teximage(ctx, 2,
texImage->Format,
texImage->TexFormat, texImage->Data,
width, height, 1, /* src size */
xoffset, yoffset, 0, /* dest offsets */
texImage->Width *texImage->TexFormat->TexelBytes,
0, /* dstImageStride */
format, type, pixels, packing);
}
/* GL_SGIS_generate_mipmap */
if (level == texObj->BaseLevel && texObj->GenerateMipmap) {
_mesa_generate_mipmap(ctx, target,
&ctx->Texture.Unit[ctx->Texture.CurrentUnit],
texObj);
}
}
/*
* This is the software fallback for Driver.TexSubImage3D().
* and Driver.CopyTexSubImage3D().
*/
void
_mesa_store_texsubimage3d(GLcontext *ctx, GLenum target, GLint level,
GLint xoffset, GLint yoffset, GLint zoffset,
GLint width, GLint height, GLint depth,
GLenum format, GLenum type, const void *pixels,
const struct gl_pixelstore_attrib *packing,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
if (texImage->IsCompressed) {
GLint dstRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
texImage->Width);
GLubyte *dest = _mesa_compressed_image_address(xoffset, yoffset, zoffset,
texImage->IntFormat,
texImage->Width,
(GLubyte*) texImage->Data);
transfer_compressed_teximage(ctx, 3, /* dimensions */
width, height, depth,/* size to replace */
format, type, /* source format/type */
packing, /* source packing */
pixels, /* source data */
texImage->TexFormat,/* dest format */
dest, dstRowStride);
}
else {
const GLint texelBytes = texImage->TexFormat->TexelBytes;
_mesa_transfer_teximage(ctx, 3,
texImage->Format,
texImage->TexFormat, texImage->Data,
width, height, depth, /* src size */
xoffset, yoffset, zoffset, /* dest offsets */
texImage->Width * texelBytes, /* dst row stride */
texImage->Width * texImage->Height * texelBytes,
format, type, pixels, packing);
}
/* GL_SGIS_generate_mipmap */
if (level == texObj->BaseLevel && texObj->GenerateMipmap) {
_mesa_generate_mipmap(ctx, target,
&ctx->Texture.Unit[ctx->Texture.CurrentUnit],
texObj);
}
}
/*
* Fallback for Driver.CompressedTexImage1D()
*/
void
_mesa_store_compressed_teximage1d(GLcontext *ctx, GLenum target, GLint level,
GLint internalFormat,
GLint width, GLint border,
GLsizei imageSize, const GLvoid *data,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
/* this space intentionally left blank */
}
/*
* Fallback for Driver.CompressedTexImage2D()
*/
void
_mesa_store_compressed_teximage2d(GLcontext *ctx, GLenum target, GLint level,
GLint internalFormat,
GLint width, GLint height, GLint border,
GLsizei imageSize, const GLvoid *data,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
/* This is pretty simple, basically just do a memcpy without worrying
* about the usual image unpacking or image transfer operations.
*/
ASSERT(texObj);
ASSERT(texImage);
ASSERT(texImage->Width > 0);
ASSERT(texImage->Height > 0);
ASSERT(texImage->Depth == 1);
ASSERT(texImage->Data == NULL); /* was freed in glCompressedTexImage2DARB */
/* choose the texture format */
assert(ctx->Driver.ChooseTextureFormat);
texImage->TexFormat = (*ctx->Driver.ChooseTextureFormat)(ctx,
internalFormat, 0, 0);
assert(texImage->TexFormat);
texImage->FetchTexelc = texImage->TexFormat->FetchTexel2D;
texImage->FetchTexelf = texImage->TexFormat->FetchTexel2Df;
/* allocate storage */
texImage->Data = MESA_PBUFFER_ALLOC(imageSize);
if (!texImage->Data) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "glCompressedTexImage2DARB");
return;
}
/* copy the data */
ASSERT(texImage->CompressedSize == (GLuint) imageSize);
MEMCPY(texImage->Data, data, imageSize);
}
/*
* Fallback for Driver.CompressedTexImage3D()
*/
void
_mesa_store_compressed_teximage3d(GLcontext *ctx, GLenum target, GLint level,
GLint internalFormat,
GLint width, GLint height, GLint depth,
GLint border,
GLsizei imageSize, const GLvoid *data,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
/* this space intentionally left blank */
}
/**
* Fallback for Driver.CompressedTexSubImage1D()
*/
void
_mesa_store_compressed_texsubimage1d(GLcontext *ctx, GLenum target,
GLint level,
GLint xoffset, GLsizei width,
GLenum format,
GLsizei imageSize, const GLvoid *data,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
/* this space intentionally left blank */
}
/**
* Fallback for Driver.CompressedTexSubImage2D()
*/
void
_mesa_store_compressed_texsubimage2d(GLcontext *ctx, GLenum target,
GLint level,
GLint xoffset, GLint yoffset,
GLsizei width, GLsizei height,
GLenum format,
GLsizei imageSize, const GLvoid *data,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
GLint bytesPerRow, destRowStride, srcRowStride;
GLint i, rows;
GLubyte *dest;
const GLubyte *src;
/* these should have been caught sooner */
ASSERT((width & 3) == 0 || width == 2 || width == 1);
ASSERT((height & 3) == 0 || height == 2 || height == 1);
ASSERT((xoffset & 3) == 0);
ASSERT((yoffset & 3) == 0);
srcRowStride = _mesa_compressed_row_stride(texImage->IntFormat, width);
src = (const GLubyte *) data;
destRowStride = _mesa_compressed_row_stride(texImage->IntFormat,
texImage->Width);
dest = _mesa_compressed_image_address(xoffset, yoffset, 0,
texImage->IntFormat,
texImage->Width,
(GLubyte*) texImage->Data);
bytesPerRow = srcRowStride;
rows = height / 4;
for (i = 0; i < rows; i++) {
MEMCPY(dest, src, bytesPerRow);
dest += destRowStride;
src += srcRowStride;
}
}
/**
* Fallback for Driver.CompressedTexSubImage3D()
*/
void
_mesa_store_compressed_texsubimage3d(GLcontext *ctx, GLenum target,
GLint level,
GLint xoffset, GLint yoffset, GLint zoffset,
GLsizei width, GLsizei height, GLsizei depth,
GLenum format,
GLsizei imageSize, const GLvoid *data,
struct gl_texture_object *texObj,
struct gl_texture_image *texImage)
{
/* this space intentionally left blank */
}
/*
* Average together two rows of a source image to produce a single new
* row in the dest image. It's legal for the two source rows to point
* to the same data. The source width must be equal to either the
* dest width or two times the dest width.
*/
static void
do_row(const struct gl_texture_format *format, GLint srcWidth,
const GLvoid *srcRowA, const GLvoid *srcRowB,
GLint dstWidth, GLvoid *dstRow)
{
const GLuint k0 = (srcWidth == dstWidth) ? 0 : 1;
const GLuint colStride = (srcWidth == dstWidth) ? 1 : 2;
/* This assertion is no longer valid with non-power-of-2 textures
assert(srcWidth == dstWidth || srcWidth == 2 * dstWidth);
*/
switch (format->MesaFormat) {
case MESA_FORMAT_RGBA:
{
GLuint i, j, k;
const GLchan (*rowA)[4] = (const GLchan (*)[4]) srcRowA;
const GLchan (*rowB)[4] = (const GLchan (*)[4]) srcRowB;
GLchan (*dst)[4] = (GLchan (*)[4]) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i][0] = (rowA[j][0] + rowA[k][0] +
rowB[j][0] + rowB[k][0]) / 4;
dst[i][1] = (rowA[j][1] + rowA[k][1] +
rowB[j][1] + rowB[k][1]) / 4;
dst[i][2] = (rowA[j][2] + rowA[k][2] +
rowB[j][2] + rowB[k][2]) / 4;
dst[i][3] = (rowA[j][3] + rowA[k][3] +
rowB[j][3] + rowB[k][3]) / 4;
}
}
return;
case MESA_FORMAT_RGB:
{
GLuint i, j, k;
const GLchan (*rowA)[3] = (const GLchan (*)[3]) srcRowA;
const GLchan (*rowB)[3] = (const GLchan (*)[3]) srcRowB;
GLchan (*dst)[3] = (GLchan (*)[3]) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i][0] = (rowA[j][0] + rowA[k][0] +
rowB[j][0] + rowB[k][0]) / 4;
dst[i][1] = (rowA[j][1] + rowA[k][1] +
rowB[j][1] + rowB[k][1]) / 4;
dst[i][2] = (rowA[j][2] + rowA[k][2] +
rowB[j][2] + rowB[k][2]) / 4;
}
}
return;
case MESA_FORMAT_ALPHA:
case MESA_FORMAT_LUMINANCE:
case MESA_FORMAT_INTENSITY:
case MESA_FORMAT_COLOR_INDEX:
{
GLuint i, j, k;
const GLchan *rowA = (const GLchan *) srcRowA;
const GLchan *rowB = (const GLchan *) srcRowB;
GLchan *dst = (GLchan *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i] = (rowA[j] + rowA[k] + rowB[j] + rowB[k]) / 4;
}
}
return;
case MESA_FORMAT_LUMINANCE_ALPHA:
{
GLuint i, j, k;
const GLchan (*rowA)[2] = (const GLchan (*)[2]) srcRowA;
const GLchan (*rowB)[2] = (const GLchan (*)[2]) srcRowB;
GLchan (*dst)[2] = (GLchan (*)[2]) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i][0] = (rowA[j][0] + rowA[k][0] +
rowB[j][0] + rowB[k][0]) / 4;
dst[i][1] = (rowA[j][1] + rowA[k][1] +
rowB[j][1] + rowB[k][1]) / 4;
}
}
return;
case MESA_FORMAT_DEPTH_COMPONENT:
{
GLuint i, j, k;
const GLfloat *rowA = (const GLfloat *) srcRowA;
const GLfloat *rowB = (const GLfloat *) srcRowB;
GLfloat *dst = (GLfloat *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i] = (rowA[j] + rowA[k] + rowB[j] + rowB[k]) * 0.25F;
}
}
return;
/* Begin hardware formats */
case MESA_FORMAT_RGBA8888:
case MESA_FORMAT_ARGB8888:
{
GLuint i, j, k;
const GLubyte (*rowA)[4] = (const GLubyte (*)[4]) srcRowA;
const GLubyte (*rowB)[4] = (const GLubyte (*)[4]) srcRowB;
GLubyte (*dst)[4] = (GLubyte (*)[4]) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i][0] = (rowA[j][0] + rowA[k][0] +
rowB[j][0] + rowB[k][0]) / 4;
dst[i][1] = (rowA[j][1] + rowA[k][1] +
rowB[j][1] + rowB[k][1]) / 4;
dst[i][2] = (rowA[j][2] + rowA[k][2] +
rowB[j][2] + rowB[k][2]) / 4;
dst[i][3] = (rowA[j][3] + rowA[k][3] +
rowB[j][3] + rowB[k][3]) / 4;
}
}
return;
case MESA_FORMAT_RGB888:
{
GLuint i, j, k;
const GLubyte (*rowA)[3] = (const GLubyte (*)[3]) srcRowA;
const GLubyte (*rowB)[3] = (const GLubyte (*)[3]) srcRowB;
GLubyte (*dst)[3] = (GLubyte (*)[3]) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i][0] = (rowA[j][0] + rowA[k][0] +
rowB[j][0] + rowB[k][0]) / 4;
dst[i][1] = (rowA[j][1] + rowA[k][1] +
rowB[j][1] + rowB[k][1]) / 4;
dst[i][2] = (rowA[j][2] + rowA[k][2] +
rowB[j][2] + rowB[k][2]) / 4;
}
}
return;
case MESA_FORMAT_RGB565:
{
GLuint i, j, k;
const GLushort *rowA = (const GLushort *) srcRowA;
const GLushort *rowB = (const GLushort *) srcRowB;
GLushort *dst = (GLushort *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
const GLint rowAr0 = rowA[j] & 0x1f;
const GLint rowAr1 = rowA[k] & 0x1f;
const GLint rowBr0 = rowB[j] & 0x1f;
const GLint rowBr1 = rowB[k] & 0x1f;
const GLint rowAg0 = (rowA[j] >> 5) & 0x3f;
const GLint rowAg1 = (rowA[k] >> 5) & 0x3f;
const GLint rowBg0 = (rowB[j] >> 5) & 0x3f;
const GLint rowBg1 = (rowB[k] >> 5) & 0x3f;
const GLint rowAb0 = (rowA[j] >> 11) & 0x1f;
const GLint rowAb1 = (rowA[k] >> 11) & 0x1f;
const GLint rowBb0 = (rowB[j] >> 11) & 0x1f;
const GLint rowBb1 = (rowB[k] >> 11) & 0x1f;
const GLint red = (rowAr0 + rowAr1 + rowBr0 + rowBr1) >> 2;
const GLint green = (rowAg0 + rowAg1 + rowBg0 + rowBg1) >> 2;
const GLint blue = (rowAb0 + rowAb1 + rowBb0 + rowBb1) >> 2;
dst[i] = (blue << 11) | (green << 5) | red;
}
}
return;
case MESA_FORMAT_ARGB4444:
{
GLuint i, j, k;
const GLushort *rowA = (const GLushort *) srcRowA;
const GLushort *rowB = (const GLushort *) srcRowB;
GLushort *dst = (GLushort *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
const GLint rowAr0 = rowA[j] & 0xf;
const GLint rowAr1 = rowA[k] & 0xf;
const GLint rowBr0 = rowB[j] & 0xf;
const GLint rowBr1 = rowB[k] & 0xf;
const GLint rowAg0 = (rowA[j] >> 4) & 0xf;
const GLint rowAg1 = (rowA[k] >> 4) & 0xf;
const GLint rowBg0 = (rowB[j] >> 4) & 0xf;
const GLint rowBg1 = (rowB[k] >> 4) & 0xf;
const GLint rowAb0 = (rowA[j] >> 8) & 0xf;
const GLint rowAb1 = (rowA[k] >> 8) & 0xf;
const GLint rowBb0 = (rowB[j] >> 8) & 0xf;
const GLint rowBb1 = (rowB[k] >> 8) & 0xf;
const GLint rowAa0 = (rowA[j] >> 12) & 0xf;
const GLint rowAa1 = (rowA[k] >> 12) & 0xf;
const GLint rowBa0 = (rowB[j] >> 12) & 0xf;
const GLint rowBa1 = (rowB[k] >> 12) & 0xf;
const GLint red = (rowAr0 + rowAr1 + rowBr0 + rowBr1) >> 2;
const GLint green = (rowAg0 + rowAg1 + rowBg0 + rowBg1) >> 2;
const GLint blue = (rowAb0 + rowAb1 + rowBb0 + rowBb1) >> 2;
const GLint alpha = (rowAa0 + rowAa1 + rowBa0 + rowBa1) >> 2;
dst[i] = (alpha << 12) | (blue << 8) | (green << 4) | red;
}
}
return;
case MESA_FORMAT_ARGB1555:
{
GLuint i, j, k;
const GLushort *rowA = (const GLushort *) srcRowA;
const GLushort *rowB = (const GLushort *) srcRowB;
GLushort *dst = (GLushort *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
const GLint rowAr0 = rowA[j] & 0x1f;
const GLint rowAr1 = rowA[k] & 0x1f;
const GLint rowBr0 = rowB[j] & 0x1f;
const GLint rowBr1 = rowB[k] & 0xf;
const GLint rowAg0 = (rowA[j] >> 5) & 0x1f;
const GLint rowAg1 = (rowA[k] >> 5) & 0x1f;
const GLint rowBg0 = (rowB[j] >> 5) & 0x1f;
const GLint rowBg1 = (rowB[k] >> 5) & 0x1f;
const GLint rowAb0 = (rowA[j] >> 10) & 0x1f;
const GLint rowAb1 = (rowA[k] >> 10) & 0x1f;
const GLint rowBb0 = (rowB[j] >> 10) & 0x1f;
const GLint rowBb1 = (rowB[k] >> 10) & 0x1f;
const GLint rowAa0 = (rowA[j] >> 15) & 0x1;
const GLint rowAa1 = (rowA[k] >> 15) & 0x1;
const GLint rowBa0 = (rowB[j] >> 15) & 0x1;
const GLint rowBa1 = (rowB[k] >> 15) & 0x1;
const GLint red = (rowAr0 + rowAr1 + rowBr0 + rowBr1) >> 2;
const GLint green = (rowAg0 + rowAg1 + rowBg0 + rowBg1) >> 2;
const GLint blue = (rowAb0 + rowAb1 + rowBb0 + rowBb1) >> 2;
const GLint alpha = (rowAa0 + rowAa1 + rowBa0 + rowBa1) >> 2;
dst[i] = (alpha << 15) | (blue << 10) | (green << 5) | red;
}
}
return;
case MESA_FORMAT_AL88:
{
GLuint i, j, k;
const GLubyte (*rowA)[2] = (const GLubyte (*)[2]) srcRowA;
const GLubyte (*rowB)[2] = (const GLubyte (*)[2]) srcRowB;
GLubyte (*dst)[2] = (GLubyte (*)[2]) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i][0] = (rowA[j][0] + rowA[k][0] +
rowB[j][0] + rowB[k][0]) >> 2;
dst[i][1] = (rowA[j][1] + rowA[k][1] +
rowB[j][1] + rowB[k][1]) >> 2;
}
}
return;
case MESA_FORMAT_RGB332:
{
GLuint i, j, k;
const GLubyte *rowA = (const GLubyte *) srcRowA;
const GLubyte *rowB = (const GLubyte *) srcRowB;
GLubyte *dst = (GLubyte *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
const GLint rowAr0 = rowA[j] & 0x3;
const GLint rowAr1 = rowA[k] & 0x3;
const GLint rowBr0 = rowB[j] & 0x3;
const GLint rowBr1 = rowB[k] & 0x3;
const GLint rowAg0 = (rowA[j] >> 2) & 0x7;
const GLint rowAg1 = (rowA[k] >> 2) & 0x7;
const GLint rowBg0 = (rowB[j] >> 2) & 0x7;
const GLint rowBg1 = (rowB[k] >> 2) & 0x7;
const GLint rowAb0 = (rowA[j] >> 5) & 0x7;
const GLint rowAb1 = (rowA[k] >> 5) & 0x7;
const GLint rowBb0 = (rowB[j] >> 5) & 0x7;
const GLint rowBb1 = (rowB[k] >> 5) & 0x7;
const GLint red = (rowAr0 + rowAr1 + rowBr0 + rowBr1) >> 2;
const GLint green = (rowAg0 + rowAg1 + rowBg0 + rowBg1) >> 2;
const GLint blue = (rowAb0 + rowAb1 + rowBb0 + rowBb1) >> 2;
dst[i] = (blue << 5) | (green << 2) | red;
}
}
return;
case MESA_FORMAT_A8:
case MESA_FORMAT_L8:
case MESA_FORMAT_I8:
case MESA_FORMAT_CI8:
{
GLuint i, j, k;
const GLubyte *rowA = (const GLubyte *) srcRowA;
const GLubyte *rowB = (const GLubyte *) srcRowB;
GLubyte *dst = (GLubyte *) dstRow;
for (i = j = 0, k = k0; i < (GLuint) dstWidth;
i++, j += colStride, k += colStride) {
dst[i] = (rowA[j] + rowA[k] + rowB[j] + rowB[k]) >> 2;
}
}
return;
default:
_mesa_problem(NULL, "bad format in do_row()");
}
}
/*
* These functions generate a 1/2-size mipmap image from a source image.
* Texture borders are handled by copying or averaging the source image's
* border texels, depending on the scale-down factor.
*/
static void
make_1d_mipmap(const struct gl_texture_format *format, GLint border,
GLint srcWidth, const GLubyte *srcPtr,
GLint dstWidth, GLubyte *dstPtr)
{
const GLint bpt = format->TexelBytes;
const GLubyte *src;
GLubyte *dst;
/* skip the border pixel, if any */
src = srcPtr + border * bpt;
dst = dstPtr + border * bpt;
/* we just duplicate the input row, kind of hack, saves code */
do_row(format, srcWidth - 2 * border, src, src,
dstWidth - 2 * border, dst);
if (border) {
/* copy left-most pixel from source */
MEMCPY(dstPtr, srcPtr, bpt);
/* copy right-most pixel from source */
MEMCPY(dstPtr + (dstWidth - 1) * bpt,
srcPtr + (srcWidth - 1) * bpt,
bpt);
}
}
static void
make_2d_mipmap(const struct gl_texture_format *format, GLint border,
GLint srcWidth, GLint srcHeight, const GLubyte *srcPtr,
GLint dstWidth, GLint dstHeight, GLubyte *dstPtr)
{
const GLint bpt = format->TexelBytes;
const GLint srcWidthNB = srcWidth - 2 * border; /* sizes w/out border */
const GLint dstWidthNB = dstWidth - 2 * border;
const GLint dstHeightNB = dstHeight - 2 * border;
const GLint srcRowStride = bpt * srcWidth;
const GLint dstRowStride = bpt * dstWidth;
const GLubyte *srcA, *srcB;
GLubyte *dst;
GLint row, colStride;
colStride = (srcWidth == dstWidth) ? 1 : 2;
/* Compute src and dst pointers, skipping any border */
srcA = srcPtr + border * ((srcWidth + 1) * bpt);
if (srcHeight > 1)
srcB = srcA + srcRowStride;
else
srcB = srcA;
dst = dstPtr + border * ((dstWidth + 1) * bpt);
for (row = 0; row < dstHeightNB; row++) {
do_row(format, srcWidthNB, srcA, srcB,
dstWidthNB, dst);
srcA += 2 * srcRowStride;
srcB += 2 * srcRowStride;
dst += dstRowStride;
}
/* This is ugly but probably won't be used much */
if (border > 0) {
/* fill in dest border */
/* lower-left border pixel */
MEMCPY(dstPtr, srcPtr, bpt);
/* lower-right border pixel */
MEMCPY(dstPtr + (dstWidth - 1) * bpt,
srcPtr + (srcWidth - 1) * bpt, bpt);
/* upper-left border pixel */
MEMCPY(dstPtr + dstWidth * (dstHeight - 1) * bpt,
srcPtr + srcWidth * (srcHeight - 1) * bpt, bpt);
/* upper-right border pixel */
MEMCPY(dstPtr + (dstWidth * dstHeight - 1) * bpt,
srcPtr + (srcWidth * srcHeight - 1) * bpt, bpt);
/* lower border */
do_row(format, srcWidthNB,
srcPtr + bpt,
srcPtr + bpt,
dstWidthNB, dstPtr + bpt);
/* upper border */
do_row(format, srcWidthNB,
srcPtr + (srcWidth * (srcHeight - 1) + 1) * bpt,
srcPtr + (srcWidth * (srcHeight - 1) + 1) * bpt,
dstWidthNB,
dstPtr + (dstWidth * (dstHeight - 1) + 1) * bpt);
/* left and right borders */
if (srcHeight == dstHeight) {
/* copy border pixel from src to dst */
for (row = 1; row < srcHeight; row++) {
MEMCPY(dstPtr + dstWidth * row * bpt,
srcPtr + srcWidth * row * bpt, bpt);
MEMCPY(dstPtr + (dstWidth * row + dstWidth - 1) * bpt,
srcPtr + (srcWidth * row + srcWidth - 1) * bpt, bpt);
}
}
else {
/* average two src pixels each dest pixel */
for (row = 0; row < dstHeightNB; row += 2) {
do_row(format, 1,
srcPtr + (srcWidth * (row * 2 + 1)) * bpt,
srcPtr + (srcWidth * (row * 2 + 2)) * bpt,
1, dstPtr + (dstWidth * row + 1) * bpt);
do_row(format, 1,
srcPtr + (srcWidth * (row * 2 + 1) + srcWidth - 1) * bpt,
srcPtr + (srcWidth * (row * 2 + 2) + srcWidth - 1) * bpt,
1, dstPtr + (dstWidth * row + 1 + dstWidth - 1) * bpt);
}
}
}
}
static void
make_3d_mipmap(const struct gl_texture_format *format, GLint border,
GLint srcWidth, GLint srcHeight, GLint srcDepth,
const GLubyte *srcPtr,
GLint dstWidth, GLint dstHeight, GLint dstDepth,
GLubyte *dstPtr)
{
const GLint bpt = format->TexelBytes;
const GLint srcWidthNB = srcWidth - 2 * border; /* sizes w/out border */
const GLint srcDepthNB = srcDepth - 2 * border;
const GLint dstWidthNB = dstWidth - 2 * border;
const GLint dstHeightNB = dstHeight - 2 * border;
const GLint dstDepthNB = dstDepth - 2 * border;
GLvoid *tmpRowA, *tmpRowB;
GLint img, row;
GLint bytesPerSrcImage, bytesPerDstImage;
GLint bytesPerSrcRow, bytesPerDstRow;
GLint srcImageOffset, srcRowOffset;
(void) srcDepthNB; /* silence warnings */
/* Need two temporary row buffers */
tmpRowA = MALLOC(srcWidth * bpt);
if (!tmpRowA)
return;
tmpRowB = MALLOC(srcWidth * bpt);
if (!tmpRowB) {
FREE(tmpRowA);
return;
}
bytesPerSrcImage = srcWidth * srcHeight * bpt;
bytesPerDstImage = dstWidth * dstHeight * bpt;
bytesPerSrcRow = srcWidth * bpt;
bytesPerDstRow = dstWidth * bpt;
/* Offset between adjacent src images to be averaged together */
srcImageOffset = (srcDepth == dstDepth) ? 0 : bytesPerSrcImage;
/* Offset between adjacent src rows to be averaged together */
srcRowOffset = (srcHeight == dstHeight) ? 0 : srcWidth * bpt;
/*
* Need to average together up to 8 src pixels for each dest pixel.
* Break that down into 3 operations:
* 1. take two rows from source image and average them together.
* 2. take two rows from next source image and average them together.
* 3. take the two averaged rows and average them for the final dst row.
*/
/*
_mesa_printf("mip3d %d x %d x %d -> %d x %d x %d\n",
srcWidth, srcHeight, srcDepth, dstWidth, dstHeight, dstDepth);
*/
for (img = 0; img < dstDepthNB; img++) {
/* first source image pointer, skipping border */
const GLubyte *imgSrcA = srcPtr
+ (bytesPerSrcImage + bytesPerSrcRow + border) * bpt * border
+ img * (bytesPerSrcImage + srcImageOffset);
/* second source image pointer, skipping border */
const GLubyte *imgSrcB = imgSrcA + srcImageOffset;
/* address of the dest image, skipping border */
GLubyte *imgDst = dstPtr
+ (bytesPerDstImage + bytesPerDstRow + border) * bpt * border
+ img * bytesPerDstImage;
/* setup the four source row pointers and the dest row pointer */
const GLubyte *srcImgARowA = imgSrcA;
const GLubyte *srcImgARowB = imgSrcA + srcRowOffset;
const GLubyte *srcImgBRowA = imgSrcB;
const GLubyte *srcImgBRowB = imgSrcB + srcRowOffset;
GLubyte *dstImgRow = imgDst;
for (row = 0; row < dstHeightNB; row++) {
/* Average together two rows from first src image */
do_row(format, srcWidthNB, srcImgARowA, srcImgARowB,
srcWidthNB, tmpRowA);
/* Average together two rows from second src image */
do_row(format, srcWidthNB, srcImgBRowA, srcImgBRowB,
srcWidthNB, tmpRowB);
/* Average together the temp rows to make the final row */
do_row(format, srcWidthNB, tmpRowA, tmpRowB,
dstWidthNB, dstImgRow);
/* advance to next rows */
srcImgARowA += bytesPerSrcRow + srcRowOffset;
srcImgARowB += bytesPerSrcRow + srcRowOffset;
srcImgBRowA += bytesPerSrcRow + srcRowOffset;
srcImgBRowB += bytesPerSrcRow + srcRowOffset;
dstImgRow += bytesPerDstRow;
}
}
FREE(tmpRowA);
FREE(tmpRowB);
/* Luckily we can leverage the make_2d_mipmap() function here! */
if (border > 0) {
/* do front border image */
make_2d_mipmap(format, 1, srcWidth, srcHeight, srcPtr,
dstWidth, dstHeight, dstPtr);
/* do back border image */
make_2d_mipmap(format, 1, srcWidth, srcHeight,
srcPtr + bytesPerSrcImage * (srcDepth - 1),
dstWidth, dstHeight,
dstPtr + bytesPerDstImage * (dstDepth - 1));
/* do four remaining border edges that span the image slices */
if (srcDepth == dstDepth) {
/* just copy border pixels from src to dst */
for (img = 0; img < dstDepthNB; img++) {
const GLubyte *src;
GLubyte *dst;
/* do border along [img][row=0][col=0] */
src = srcPtr + (img + 1) * bytesPerSrcImage;
dst = dstPtr + (img + 1) * bytesPerDstImage;
MEMCPY(dst, src, bpt);
/* do border along [img][row=dstHeight-1][col=0] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage
+ (srcHeight - 1) * bytesPerSrcRow;
dst = dstPtr + (img + 1) * bytesPerDstImage
+ (dstHeight - 1) * bytesPerDstRow;
MEMCPY(dst, src, bpt);
/* do border along [img][row=0][col=dstWidth-1] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage
+ (srcWidth - 1) * bpt;
dst = dstPtr + (img + 1) * bytesPerDstImage
+ (dstWidth - 1) * bpt;
MEMCPY(dst, src, bpt);
/* do border along [img][row=dstHeight-1][col=dstWidth-1] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage
+ (bytesPerSrcImage - bpt);
dst = dstPtr + (img + 1) * bytesPerDstImage
+ (bytesPerDstImage - bpt);
MEMCPY(dst, src, bpt);
}
}
else {
/* average border pixels from adjacent src image pairs */
ASSERT(srcDepthNB == 2 * dstDepthNB);
for (img = 0; img < dstDepthNB; img++) {
const GLubyte *src;
GLubyte *dst;
/* do border along [img][row=0][col=0] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage;
dst = dstPtr + (img + 1) * bytesPerDstImage;
do_row(format, 1, src, src + srcImageOffset, 1, dst);
/* do border along [img][row=dstHeight-1][col=0] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage
+ (srcHeight - 1) * bytesPerSrcRow;
dst = dstPtr + (img + 1) * bytesPerDstImage
+ (dstHeight - 1) * bytesPerDstRow;
do_row(format, 1, src, src + srcImageOffset, 1, dst);
/* do border along [img][row=0][col=dstWidth-1] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage
+ (srcWidth - 1) * bpt;
dst = dstPtr + (img + 1) * bytesPerDstImage
+ (dstWidth - 1) * bpt;
do_row(format, 1, src, src + srcImageOffset, 1, dst);
/* do border along [img][row=dstHeight-1][col=dstWidth-1] */
src = srcPtr + (img * 2 + 1) * bytesPerSrcImage
+ (bytesPerSrcImage - bpt);
dst = dstPtr + (img + 1) * bytesPerDstImage
+ (bytesPerDstImage - bpt);
do_row(format, 1, src, src + srcImageOffset, 1, dst);
}
}
}
}
/*
* For GL_SGIX_generate_mipmap:
* Generate a complete set of mipmaps from texObj's base-level image.
* Stop at texObj's MaxLevel or when we get to the 1x1 texture.
*/
void
_mesa_generate_mipmap(GLcontext *ctx, GLenum target,
const struct gl_texture_unit *texUnit,
struct gl_texture_object *texObj)
{
const struct gl_texture_image *srcImage;
const struct gl_texture_format *convertFormat;
const GLubyte *srcData = NULL;
GLubyte *dstData = NULL;
GLint level, maxLevels;
ASSERT(texObj);
srcImage = texObj->Image[0][texObj->BaseLevel];
ASSERT(srcImage);
maxLevels = _mesa_max_texture_levels(ctx, texObj->Target);
ASSERT(maxLevels > 0); /* bad target */
/* Find convertFormat - the format that do_row() will process */
if (srcImage->IsCompressed) {
/* setup for compressed textures */
GLuint row;
GLint components, size;
GLchan *dst;
assert(texObj->Target == GL_TEXTURE_2D);
if (srcImage->Format == GL_RGB) {
convertFormat = &_mesa_texformat_rgb;
components = 3;
}
else if (srcImage->Format == GL_RGBA) {
convertFormat = &_mesa_texformat_rgba;
components = 4;
}
else {
_mesa_problem(ctx, "bad srcImage->Format in _mesa_generate_mipmaps");
return;
}
/* allocate storage for uncompressed GL_RGB or GL_RGBA images */
size = _mesa_bytes_per_pixel(srcImage->Format, CHAN_TYPE)
* srcImage->Width * srcImage->Height * srcImage->Depth + 20;
/* 20 extra bytes, just be safe when calling last FetchTexel */
srcData = (GLubyte *) MALLOC(size);
if (!srcData) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "generate mipmaps");
return;
}
dstData = (GLubyte *) MALLOC(size / 2); /* 1/4 would probably be OK */
if (!dstData) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "generate mipmaps");
FREE((void *) srcData);
return;
}
/* decompress base image here */
dst = (GLchan *) srcData;
for (row = 0; row < srcImage->Height; row++) {
GLuint col;
for (col = 0; col < srcImage->Width; col++) {
srcImage->FetchTexelc(srcImage, col, row, 0, dst);
dst += components;
}
}
}
else {
/* uncompressed */
convertFormat = srcImage->TexFormat;
}
for (level = texObj->BaseLevel; level < texObj->MaxLevel
&& level < maxLevels - 1; level++) {
/* generate image[level+1] from image[level] */
const struct gl_texture_image *srcImage;
struct gl_texture_image *dstImage;
GLint srcWidth, srcHeight, srcDepth;
GLint dstWidth, dstHeight, dstDepth;
GLint border, bytesPerTexel;
/* get src image parameters */
srcImage = _mesa_select_tex_image(ctx, texUnit, target, level);
ASSERT(srcImage);
srcWidth = srcImage->Width;
srcHeight = srcImage->Height;
srcDepth = srcImage->Depth;
border = srcImage->Border;
/* compute next (level+1) image size */
if (srcWidth - 2 * border > 1) {
dstWidth = (srcWidth - 2 * border) / 2 + 2 * border;
}
else {
dstWidth = srcWidth; /* can't go smaller */
}
if (srcHeight - 2 * border > 1) {
dstHeight = (srcHeight - 2 * border) / 2 + 2 * border;
}
else {
dstHeight = srcHeight; /* can't go smaller */
}
if (srcDepth - 2 * border > 1) {
dstDepth = (srcDepth - 2 * border) / 2 + 2 * border;
}
else {
dstDepth = srcDepth; /* can't go smaller */
}
if (dstWidth == srcWidth &&
dstHeight == srcHeight &&
dstDepth == srcDepth) {
/* all done */
if (srcImage->IsCompressed) {
FREE((void *) srcData);
FREE(dstData);
}
return;
}
/* get dest gl_texture_image */
dstImage = _mesa_get_tex_image(ctx, texUnit, target, level + 1);
if (!dstImage) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "generating mipmaps");
return;
}
/* Free old image data */
if (dstImage->Data)
MESA_PBUFFER_FREE(dstImage->Data);
/* initialize new image */
_mesa_init_teximage_fields(ctx, target, dstImage, dstWidth, dstHeight,
dstDepth, border, srcImage->IntFormat);
dstImage->DriverData = NULL;
dstImage->TexFormat = srcImage->TexFormat;
dstImage->FetchTexelc = srcImage->FetchTexelc;
dstImage->FetchTexelf = srcImage->FetchTexelf;
ASSERT(dstImage->TexFormat);
ASSERT(dstImage->FetchTexelc);
ASSERT(dstImage->FetchTexelf);
/* Alloc new teximage data buffer.
* Setup src and dest data pointers.
*/
if (dstImage->IsCompressed) {
ASSERT(dstImage->CompressedSize > 0); /* set by init_teximage_fields*/
dstImage->Data = MESA_PBUFFER_ALLOC(dstImage->CompressedSize);
if (!dstImage->Data) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "generating mipmaps");
return;
}
/* srcData and dstData are already set */
ASSERT(srcData);
ASSERT(dstData);
}
else {
bytesPerTexel = srcImage->TexFormat->TexelBytes;
ASSERT(dstWidth * dstHeight * dstDepth * bytesPerTexel > 0);
dstImage->Data = MESA_PBUFFER_ALLOC(dstWidth * dstHeight * dstDepth
* bytesPerTexel);
if (!dstImage->Data) {
_mesa_error(ctx, GL_OUT_OF_MEMORY, "generating mipmaps");
return;
}
srcData = (const GLubyte *) srcImage->Data;
dstData = (GLubyte *) dstImage->Data;
}
/*
* We use simple 2x2 averaging to compute the next mipmap level.
*/
switch (target) {
case GL_TEXTURE_1D:
make_1d_mipmap(convertFormat, border,
srcWidth, srcData,
dstWidth, dstData);
break;
case GL_TEXTURE_2D:
case GL_TEXTURE_CUBE_MAP_POSITIVE_X_ARB:
case GL_TEXTURE_CUBE_MAP_NEGATIVE_X_ARB:
case GL_TEXTURE_CUBE_MAP_POSITIVE_Y_ARB:
case GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_ARB:
case GL_TEXTURE_CUBE_MAP_POSITIVE_Z_ARB:
case GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_ARB:
make_2d_mipmap(convertFormat, border,
srcWidth, srcHeight, srcData,
dstWidth, dstHeight, dstData);
break;
case GL_TEXTURE_3D:
make_3d_mipmap(convertFormat, border,
srcWidth, srcHeight, srcDepth, srcData,
dstWidth, dstHeight, dstDepth, dstData);
break;
case GL_TEXTURE_RECTANGLE_NV:
/* no mipmaps, do nothing */
break;
default:
_mesa_problem(ctx, "bad dimensions in _mesa_generate_mipmaps");
return;
}
if (dstImage->IsCompressed) {
GLubyte *temp;
/* compress image from dstData into dstImage->Data */
const GLenum srcFormat = convertFormat->BaseFormat;
GLint dstRowStride = _mesa_compressed_row_stride(srcImage->IntFormat,
dstWidth);
ASSERT(srcFormat == GL_RGB || srcFormat == GL_RGBA);
_mesa_compress_teximage(ctx,
dstWidth, dstHeight, /* size */
srcFormat, /* source format */
(const GLchan *) dstData, /* source buffer */
dstWidth, /* source row stride */
dstImage->TexFormat, /* dest format */
(GLubyte*) dstImage->Data, /* dest buffer */
dstRowStride ); /* dest row stride */
/* swap src and dest pointers */
temp = (GLubyte *) srcData;
srcData = dstData;
dstData = temp;
}
} /* loop over mipmap levels */
}
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