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authorBrian Paul <[email protected]>2002-02-15 03:41:47 +0000
committerBrian Paul <[email protected]>2002-02-15 03:41:47 +0000
commitce57201825e661800ce39e98eeae090ac118cdcf (patch)
tree78aed550a58d3800f695b63b1b6c56ca55444785
parent09700ee358cd07634161ac7802e97ddbe6c075bf (diff)
uniformly pass texcoords as GLfloat [4]
-rw-r--r--src/mesa/swrast/s_texture.c316
1 files changed, 139 insertions, 177 deletions
diff --git a/src/mesa/swrast/s_texture.c b/src/mesa/swrast/s_texture.c
index 882a6ad1789..206508559f0 100644
--- a/src/mesa/swrast/s_texture.c
+++ b/src/mesa/swrast/s_texture.c
@@ -1,4 +1,4 @@
-/* $Id: s_texture.c,v 1.49 2002/02/02 21:40:34 brianp Exp $ */
+/* $Id: s_texture.c,v 1.50 2002/02/15 03:41:47 brianp Exp $ */
/*
* Mesa 3-D graphics library
@@ -299,12 +299,12 @@ static void
sample_1d_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
const struct gl_texture_image *img,
- GLfloat s, GLchan rgba[4])
+ const GLfloat texcoord[4], GLchan rgba[4])
{
const GLint width = img->Width2; /* without border, power of two */
GLint i;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, s, width, i);
+ COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
/* skip over the border, if any */
i += img->Border;
@@ -330,14 +330,14 @@ static void
sample_1d_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
const struct gl_texture_image *img,
- GLfloat s, GLchan rgba[4])
+ const GLfloat texcoord[4], GLchan rgba[4])
{
const GLint width = img->Width2;
GLint i0, i1;
GLfloat u;
GLuint useBorderColor;
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, s, u, width, i0, i1);
+ COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
useBorderColor = 0;
if (img->Border) {
@@ -405,24 +405,24 @@ sample_1d_linear(GLcontext *ctx,
static void
sample_1d_nearest_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- sample_1d_nearest(ctx, tObj, tObj->Image[level], s, rgba);
+ sample_1d_nearest(ctx, tObj, tObj->Image[level], texcoord, rgba);
}
static void
sample_1d_linear_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- sample_1d_linear(ctx, tObj, tObj->Image[level], s, rgba);
+ sample_1d_linear(ctx, tObj, tObj->Image[level], texcoord, rgba);
}
@@ -440,7 +440,7 @@ sample_1d_linear_mipmap_nearest(GLcontext *ctx,
static void
sample_1d_nearest_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
@@ -448,13 +448,13 @@ sample_1d_nearest_mipmap_linear(GLcontext *ctx,
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
if (level >= tObj->_MaxLevel) {
- sample_1d_nearest(ctx, tObj, tObj->Image[tObj->_MaxLevel], s, rgba);
+ sample_1d_nearest(ctx, tObj, tObj->Image[tObj->_MaxLevel], texcoord, rgba);
}
else {
GLchan t0[4], t1[4];
const GLfloat f = FRAC(lambda);
- sample_1d_nearest(ctx, tObj, tObj->Image[level ], s, t0);
- sample_1d_nearest(ctx, tObj, tObj->Image[level+1], s, t1);
+ sample_1d_nearest(ctx, tObj, tObj->Image[level ], texcoord, t0);
+ sample_1d_nearest(ctx, tObj, tObj->Image[level+1], texcoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -467,7 +467,7 @@ sample_1d_nearest_mipmap_linear(GLcontext *ctx,
static void
sample_1d_linear_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
@@ -475,13 +475,13 @@ sample_1d_linear_mipmap_linear(GLcontext *ctx,
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
if (level >= tObj->_MaxLevel) {
- sample_1d_linear(ctx, tObj, tObj->Image[tObj->_MaxLevel], s, rgba);
+ sample_1d_linear(ctx, tObj, tObj->Image[tObj->_MaxLevel], texcoord, rgba);
}
else {
GLchan t0[4], t1[4];
const GLfloat f = FRAC(lambda);
- sample_1d_linear(ctx, tObj, tObj->Image[level ], s, t0);
- sample_1d_linear(ctx, tObj, tObj->Image[level+1], s, t1);
+ sample_1d_linear(ctx, tObj, tObj->Image[level ], texcoord, t0);
+ sample_1d_linear(ctx, tObj, tObj->Image[level+1], texcoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -501,7 +501,7 @@ sample_nearest_1d( GLcontext *ctx, GLuint texUnit,
struct gl_texture_image *image = tObj->Image[tObj->BaseLevel];
(void) lambda;
for (i=0;i<n;i++) {
- sample_1d_nearest(ctx, tObj, image, texcoords[i][0], rgba[i]);
+ sample_1d_nearest(ctx, tObj, image, texcoords[i], rgba[i]);
}
}
@@ -517,7 +517,7 @@ sample_linear_1d( GLcontext *ctx, GLuint texUnit,
struct gl_texture_image *image = tObj->Image[tObj->BaseLevel];
(void) lambda;
for (i=0;i<n;i++) {
- sample_1d_linear(ctx, tObj, image, texcoords[i][0], rgba[i]);
+ sample_1d_linear(ctx, tObj, image, texcoords[i], rgba[i]);
}
}
@@ -542,27 +542,27 @@ sample_lambda_1d( GLcontext *ctx, GLuint texUnit,
switch (tObj->MinFilter) {
case GL_NEAREST:
sample_1d_nearest(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], rgba[i]);
+ texcoords[i], rgba[i]);
break;
case GL_LINEAR:
sample_1d_linear(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], rgba[i]);
+ texcoords[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_NEAREST:
- sample_1d_nearest_mipmap_nearest(ctx, tObj, lambda[i], texcoords[i][0],
- rgba[i]);
+ sample_1d_nearest_mipmap_nearest(ctx, tObj, texcoords[i],
+ lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_NEAREST:
- sample_1d_linear_mipmap_nearest(ctx, tObj, texcoords[i][0], lambda[i],
- rgba[i]);
+ sample_1d_linear_mipmap_nearest(ctx, tObj, texcoords[i],
+ lambda[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_LINEAR:
- sample_1d_nearest_mipmap_linear(ctx, tObj, texcoords[i][0], lambda[i],
- rgba[i]);
+ sample_1d_nearest_mipmap_linear(ctx, tObj, texcoords[i],
+ lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_LINEAR:
- sample_1d_linear_mipmap_linear(ctx, tObj, texcoords[i][0], lambda[i],
- rgba[i]);
+ sample_1d_linear_mipmap_linear(ctx, tObj, texcoords[i],
+ lambda[i], rgba[i]);
break;
default:
_mesa_problem(NULL, "Bad min filter in sample_1d_texture");
@@ -574,11 +574,11 @@ sample_lambda_1d( GLcontext *ctx, GLuint texUnit,
switch (tObj->MagFilter) {
case GL_NEAREST:
sample_1d_nearest(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], rgba[i]);
+ texcoords[i], rgba[i]);
break;
case GL_LINEAR:
sample_1d_linear(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], rgba[i]);
+ texcoords[i], rgba[i]);
break;
default:
_mesa_problem(NULL, "Bad mag filter in sample_1d_texture");
@@ -603,15 +603,15 @@ static void
sample_2d_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
const struct gl_texture_image *img,
- GLfloat s, GLfloat t,
+ const GLfloat texcoord[4],
GLchan rgba[])
{
const GLint width = img->Width2; /* without border, power of two */
const GLint height = img->Height2; /* without border, power of two */
GLint i, j;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, s, width, i);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, t, height, j);
+ COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
+ COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, texcoord[1], height, j);
/* skip over the border, if any */
i += img->Border;
@@ -639,7 +639,7 @@ static void
sample_2d_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
const struct gl_texture_image *img,
- GLfloat s, GLfloat t,
+ const GLfloat texcoord[4],
GLchan rgba[])
{
const GLint width = img->Width2;
@@ -648,8 +648,8 @@ sample_2d_linear(GLcontext *ctx,
GLuint useBorderColor;
GLfloat u, v;
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, s, u, width, i0, i1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, t, v, height, j0, j1);
+ COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
+ COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, texcoord[1], v, height, j0, j1);
useBorderColor = 0;
if (img->Border) {
@@ -756,12 +756,12 @@ sample_2d_linear(GLcontext *ctx,
static void
sample_2d_nearest_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- sample_2d_nearest(ctx, tObj, tObj->Image[level], s, t, rgba);
+ sample_2d_nearest(ctx, tObj, tObj->Image[level], texcoord, rgba);
}
@@ -769,12 +769,12 @@ sample_2d_nearest_mipmap_nearest(GLcontext *ctx,
static void
sample_2d_linear_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- sample_2d_linear(ctx, tObj, tObj->Image[level], s, t, rgba);
+ sample_2d_linear(ctx, tObj, tObj->Image[level], texcoord, rgba);
}
@@ -782,7 +782,7 @@ sample_2d_linear_mipmap_nearest(GLcontext *ctx,
static void
sample_2d_nearest_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
@@ -790,13 +790,13 @@ sample_2d_nearest_mipmap_linear(GLcontext *ctx,
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
if (level >= tObj->_MaxLevel) {
- sample_2d_nearest(ctx, tObj, tObj->Image[tObj->_MaxLevel], s, t, rgba);
+ sample_2d_nearest(ctx, tObj, tObj->Image[tObj->_MaxLevel], texcoord, rgba);
}
else {
GLchan t0[4], t1[4]; /* texels */
const GLfloat f = FRAC(lambda);
- sample_2d_nearest(ctx, tObj, tObj->Image[level ], s, t, t0);
- sample_2d_nearest(ctx, tObj, tObj->Image[level+1], s, t, t1);
+ sample_2d_nearest(ctx, tObj, tObj->Image[level ], texcoord, t0);
+ sample_2d_nearest(ctx, tObj, tObj->Image[level+1], texcoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -809,7 +809,7 @@ sample_2d_nearest_mipmap_linear(GLcontext *ctx,
static void
sample_2d_linear_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat lambda,
+ const GLfloat texcoord[4], GLfloat lambda,
GLchan rgba[4])
{
GLint level;
@@ -817,13 +817,13 @@ sample_2d_linear_mipmap_linear(GLcontext *ctx,
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
if (level >= tObj->_MaxLevel) {
- sample_2d_linear(ctx, tObj, tObj->Image[tObj->_MaxLevel], s, t, rgba);
+ sample_2d_linear(ctx, tObj, tObj->Image[tObj->_MaxLevel], texcoord, rgba);
}
else {
GLchan t0[4], t1[4]; /* texels */
const GLfloat f = FRAC(lambda);
- sample_2d_linear(ctx, tObj, tObj->Image[level ], s, t, t0);
- sample_2d_linear(ctx, tObj, tObj->Image[level+1], s, t, t1);
+ sample_2d_linear(ctx, tObj, tObj->Image[level ], texcoord, t0);
+ sample_2d_linear(ctx, tObj, tObj->Image[level+1], texcoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -843,8 +843,7 @@ sample_nearest_2d( GLcontext *ctx, GLuint texUnit,
struct gl_texture_image *image = tObj->Image[tObj->BaseLevel];
(void) lambda;
for (i=0;i<n;i++) {
- sample_2d_nearest(ctx, tObj, image, texcoords[i][0],
- texcoords[i][1], rgba[i]);
+ sample_2d_nearest(ctx, tObj, image, texcoords[i], rgba[i]);
}
}
@@ -860,8 +859,7 @@ sample_linear_2d( GLcontext *ctx, GLuint texUnit,
struct gl_texture_image *image = tObj->Image[tObj->BaseLevel];
(void) lambda;
for (i=0;i<n;i++) {
- sample_2d_linear(ctx, tObj, image, texcoords[i][0],
- texcoords[i][1], rgba[i]);
+ sample_2d_linear(ctx, tObj, image, texcoords[i], rgba[i]);
}
}
@@ -877,8 +875,7 @@ static void
opt_sample_rgb_2d( GLcontext *ctx, GLuint texUnit,
const struct gl_texture_object *tObj,
GLuint n, GLfloat texcoords[][4],
- const GLfloat lambda[],
- GLchan rgba[][4] )
+ const GLfloat lambda[], GLchan rgba[][4] )
{
const struct gl_texture_image *img = tObj->Image[tObj->BaseLevel];
const GLfloat width = (GLfloat) img->Width;
@@ -916,8 +913,7 @@ static void
opt_sample_rgba_2d( GLcontext *ctx, GLuint texUnit,
const struct gl_texture_object *tObj,
GLuint n, GLfloat texcoords[][4],
- const GLfloat lambda[],
- GLchan rgba[][4] )
+ const GLfloat lambda[], GLchan rgba[][4] )
{
const struct gl_texture_image *img = tObj->Image[tObj->BaseLevel];
const GLfloat width = (GLfloat) img->Width;
@@ -972,8 +968,7 @@ static void
sample_lambda_2d( GLcontext *ctx, GLuint texUnit,
const struct gl_texture_object *tObj,
GLuint n, GLfloat texcoords[][4],
- const GLfloat lambda[],
- GLchan rgba[][4] )
+ const GLfloat lambda[], GLchan rgba[][4] )
{
const GLfloat minMagThresh = SWRAST_CONTEXT(ctx)->_MinMagThresh[texUnit];
GLuint i;
@@ -1018,40 +1013,31 @@ sample_lambda_2d( GLcontext *ctx, GLuint texUnit,
}
}
else {
+ const struct gl_texture_image *tImg = tObj->Image[tObj->BaseLevel];
for (i = 0; i < n; i++) {
if (lambda[i] > minMagThresh) {
/* minification */
switch (tObj->MinFilter) {
case GL_NEAREST:
- sample_2d_nearest(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1], rgba[i]);
+ sample_2d_nearest(ctx, tObj, tImg, texcoords[i], rgba[i]);
break;
case GL_LINEAR:
- sample_2d_linear(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1], rgba[i]);
+ sample_2d_linear(ctx, tObj, tImg, texcoords[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_NEAREST:
- sample_2d_nearest_mipmap_nearest(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
+ sample_2d_nearest_mipmap_nearest(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_NEAREST:
- sample_2d_linear_mipmap_nearest(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
+ sample_2d_linear_mipmap_nearest(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_LINEAR:
- sample_2d_nearest_mipmap_linear(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
+ sample_2d_nearest_mipmap_linear(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_LINEAR:
- sample_2d_linear_mipmap_linear(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
+ sample_2d_linear_mipmap_linear(ctx, tObj, texcoords[i],
lambda[i], rgba[i] );
break;
default:
@@ -1063,12 +1049,10 @@ sample_lambda_2d( GLcontext *ctx, GLuint texUnit,
/* magnification */
switch (tObj->MagFilter) {
case GL_NEAREST:
- sample_2d_nearest(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1], rgba[i]);
+ sample_2d_nearest(ctx, tObj, tImg, texcoords[i], rgba[i]);
break;
case GL_LINEAR:
- sample_2d_linear(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1], rgba[i] );
+ sample_2d_linear(ctx, tObj, tImg, texcoords[i], rgba[i] );
break;
default:
_mesa_problem(NULL, "Bad mag filter in sample_2d_texture");
@@ -1091,7 +1075,7 @@ static void
sample_3d_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
const struct gl_texture_image *img,
- GLfloat s, GLfloat t, GLfloat r,
+ const GLfloat texcoord[4],
GLchan rgba[4])
{
const GLint width = img->Width2; /* without border, power of two */
@@ -1099,9 +1083,9 @@ sample_3d_nearest(GLcontext *ctx,
const GLint depth = img->Depth2; /* without border, power of two */
GLint i, j, k;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, s, width, i);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, t, height, j);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapR, r, depth, k);
+ COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
+ COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, texcoord[1], height, j);
+ COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapR, texcoord[2], depth, k);
if (i < 0 || i >= (GLint) img->Width ||
j < 0 || j >= (GLint) img->Height ||
@@ -1126,7 +1110,7 @@ static void
sample_3d_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
const struct gl_texture_image *img,
- GLfloat s, GLfloat t, GLfloat r,
+ const GLfloat texcoord[4],
GLchan rgba[4])
{
const GLint width = img->Width2;
@@ -1136,9 +1120,9 @@ sample_3d_linear(GLcontext *ctx,
GLuint useBorderColor;
GLfloat u, v, w;
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, s, u, width, i0, i1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, t, v, height, j0, j1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapR, r, w, depth, k0, k1);
+ COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
+ COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, texcoord[1], v, height, j0, j1);
+ COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapR, texcoord[2], w, depth, k0, k1);
useBorderColor = 0;
if (img->Border) {
@@ -1316,31 +1300,31 @@ sample_3d_linear(GLcontext *ctx,
static void
sample_3d_nearest_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat r,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4] )
{
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- sample_3d_nearest(ctx, tObj, tObj->Image[level], s, t, r, rgba);
+ sample_3d_nearest(ctx, tObj, tObj->Image[level], texcoord, rgba);
}
static void
sample_3d_linear_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat r,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4])
{
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- sample_3d_linear(ctx, tObj, tObj->Image[level], s, t, r, rgba);
+ sample_3d_linear(ctx, tObj, tObj->Image[level], texcoord, rgba);
}
static void
sample_3d_nearest_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat r,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4])
{
GLint level;
@@ -1349,13 +1333,13 @@ sample_3d_nearest_mipmap_linear(GLcontext *ctx,
if (level >= tObj->_MaxLevel) {
sample_3d_nearest(ctx, tObj, tObj->Image[tObj->_MaxLevel],
- s, t, r, rgba);
+ texcoord, rgba);
}
else {
GLchan t0[4], t1[4]; /* texels */
const GLfloat f = FRAC(lambda);
- sample_3d_nearest(ctx, tObj, tObj->Image[level ], s, t, r, t0);
- sample_3d_nearest(ctx, tObj, tObj->Image[level+1], s, t, r, t1);
+ sample_3d_nearest(ctx, tObj, tObj->Image[level ], texcoord, t0);
+ sample_3d_nearest(ctx, tObj, tObj->Image[level+1], texcoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -1367,7 +1351,7 @@ sample_3d_nearest_mipmap_linear(GLcontext *ctx,
static void
sample_3d_linear_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat r,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4] )
{
GLint level;
@@ -1375,13 +1359,13 @@ sample_3d_linear_mipmap_linear(GLcontext *ctx,
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
if (level >= tObj->_MaxLevel) {
- sample_3d_linear(ctx, tObj, tObj->Image[tObj->_MaxLevel], s, t, r, rgba);
+ sample_3d_linear(ctx, tObj, tObj->Image[tObj->_MaxLevel], texcoord, rgba);
}
else {
GLchan t0[4], t1[4]; /* texels */
const GLfloat f = FRAC(lambda);
- sample_3d_linear(ctx, tObj, tObj->Image[level ], s, t, r, t0);
- sample_3d_linear(ctx, tObj, tObj->Image[level+1], s, t, r, t1);
+ sample_3d_linear(ctx, tObj, tObj->Image[level ], texcoord, t0);
+ sample_3d_linear(ctx, tObj, tObj->Image[level+1], texcoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -1400,9 +1384,7 @@ sample_nearest_3d(GLcontext *ctx, GLuint texUnit,
struct gl_texture_image *image = tObj->Image[tObj->BaseLevel];
(void) lambda;
for (i=0;i<n;i++) {
- sample_3d_nearest(ctx, tObj, image,
- texcoords[i][0], texcoords[i][1], texcoords[i][2],
- rgba[i]);
+ sample_3d_nearest(ctx, tObj, image, texcoords[i], rgba[i]);
}
}
@@ -1418,9 +1400,7 @@ sample_linear_3d( GLcontext *ctx, GLuint texUnit,
struct gl_texture_image *image = tObj->Image[tObj->BaseLevel];
(void) lambda;
for (i=0;i<n;i++) {
- sample_3d_linear(ctx, tObj, image,
- texcoords[i][0], texcoords[i][1], texcoords[i][2],
- rgba[i]);
+ sample_3d_linear(ctx, tObj, image, texcoords[i], rgba[i]);
}
}
@@ -1445,40 +1425,26 @@ sample_lambda_3d( GLcontext *ctx, GLuint texUnit,
switch (tObj->MinFilter) {
case GL_NEAREST:
sample_3d_nearest(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1],
- texcoords[i][2], rgba[i]);
+ texcoords[i], rgba[i]);
break;
case GL_LINEAR:
sample_3d_linear(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1],
- texcoords[i][2], rgba[i]);
+ texcoords[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_NEAREST:
- sample_3d_nearest_mipmap_nearest(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
- texcoords[i][2],
+ sample_3d_nearest_mipmap_nearest(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_NEAREST:
- sample_3d_linear_mipmap_nearest(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
- texcoords[i][2],
+ sample_3d_linear_mipmap_nearest(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_LINEAR:
- sample_3d_nearest_mipmap_linear(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
- texcoords[i][2],
+ sample_3d_nearest_mipmap_linear(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_LINEAR:
- sample_3d_linear_mipmap_linear(ctx, tObj,
- texcoords[i][0],
- texcoords[i][1],
- texcoords[i][2],
+ sample_3d_linear_mipmap_linear(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
default:
@@ -1490,13 +1456,11 @@ sample_lambda_3d( GLcontext *ctx, GLuint texUnit,
switch (tObj->MagFilter) {
case GL_NEAREST:
sample_3d_nearest(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1],
- texcoords[i][2], rgba[i]);
+ texcoords[i], rgba[i]);
break;
case GL_LINEAR:
sample_3d_linear(ctx, tObj, tObj->Image[tObj->BaseLevel],
- texcoords[i][0], texcoords[i][1],
- texcoords[i][2], rgba[i]);
+ texcoords[i], rgba[i]);
break;
default:
_mesa_problem(NULL, "Bad mag filter in sample_3d_texture");
@@ -1517,8 +1481,7 @@ sample_lambda_3d( GLcontext *ctx, GLuint texUnit,
*/
static const struct gl_texture_image **
choose_cube_face(const struct gl_texture_object *texObj,
- GLfloat rx, GLfloat ry, GLfloat rz,
- GLfloat *newS, GLfloat *newT)
+ const GLfloat texcoord[4], GLfloat newCoord[4])
{
/*
major axis
@@ -1531,6 +1494,9 @@ choose_cube_face(const struct gl_texture_object *texObj,
+rz TEXTURE_CUBE_MAP_POSITIVE_Z_EXT +rx -ry rz
-rz TEXTURE_CUBE_MAP_NEGATIVE_Z_EXT -rx -ry rz
*/
+ const GLfloat rx = texcoord[0];
+ const GLfloat ry = texcoord[1];
+ const GLfloat rz = texcoord[2];
const struct gl_texture_image **imgArray;
const GLfloat arx = ABSF(rx), ary = ABSF(ry), arz = ABSF(rz);
GLfloat sc, tc, ma;
@@ -1578,8 +1544,8 @@ choose_cube_face(const struct gl_texture_object *texObj,
}
}
- *newS = ( sc / ma + 1.0F ) * 0.5F;
- *newT = ( tc / ma + 1.0F ) * 0.5F;
+ newCoord[0] = ( sc / ma + 1.0F ) * 0.5F;
+ newCoord[1] = ( tc / ma + 1.0F ) * 0.5F;
return imgArray;
}
@@ -1594,10 +1560,10 @@ sample_nearest_cube(GLcontext *ctx, GLuint texUnit,
(void) lambda;
for (i = 0; i < n; i++) {
const struct gl_texture_image **images;
- GLfloat newS, newT;
- images = choose_cube_face(tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2], &newS, &newT);
+ GLfloat newCoord[4];
+ images = choose_cube_face(tObj, texcoords[i], newCoord);
sample_2d_nearest(ctx, tObj, images[tObj->BaseLevel],
- newS, newT, rgba[i]);
+ newCoord, rgba[i]);
}
}
@@ -1612,10 +1578,10 @@ sample_linear_cube(GLcontext *ctx, GLuint texUnit,
(void) lambda;
for (i = 0; i < n; i++) {
const struct gl_texture_image **images;
- GLfloat newS, newT;
- images = choose_cube_face(tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2], &newS, &newT);
+ GLfloat newCoord[4];
+ images = choose_cube_face(tObj, texcoords[i], newCoord);
sample_2d_linear(ctx, tObj, images[tObj->BaseLevel],
- newS, newT, rgba[i]);
+ newCoord, rgba[i]);
}
}
@@ -1623,59 +1589,59 @@ sample_linear_cube(GLcontext *ctx, GLuint texUnit,
static void
sample_cube_nearest_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat u,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4])
{
const struct gl_texture_image **images;
- GLfloat newS, newT;
+ GLfloat newCoord[4];
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- images = choose_cube_face(tObj, s, t, u, &newS, &newT);
- sample_2d_nearest(ctx, tObj, images[level], newS, newT, rgba);
+ images = choose_cube_face(tObj, texcoord, newCoord);
+ sample_2d_nearest(ctx, tObj, images[level], newCoord, rgba);
}
static void
sample_cube_linear_mipmap_nearest(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat u,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4])
{
const struct gl_texture_image **images;
- GLfloat newS, newT;
+ GLfloat newCoord[4];
GLint level;
COMPUTE_NEAREST_MIPMAP_LEVEL(tObj, lambda, level);
- images = choose_cube_face(tObj, s, t, u, &newS, &newT);
- sample_2d_linear(ctx, tObj, images[level], newS, newT, rgba);
+ images = choose_cube_face(tObj, texcoord, newCoord);
+ sample_2d_linear(ctx, tObj, images[level], newCoord, rgba);
}
static void
sample_cube_nearest_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat u,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4])
{
const struct gl_texture_image **images;
- GLfloat newS, newT;
+ GLfloat newCoord[4];
GLint level;
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
- images = choose_cube_face(tObj, s, t, u, &newS, &newT);
+ images = choose_cube_face(tObj, texcoord, newCoord);
if (level >= tObj->_MaxLevel) {
- sample_2d_nearest(ctx, tObj, images[tObj->_MaxLevel], newS, newT, rgba);
+ sample_2d_nearest(ctx, tObj, images[tObj->_MaxLevel], newCoord, rgba);
}
else {
GLchan t0[4], t1[4]; /* texels */
const GLfloat f = FRAC(lambda);
- sample_2d_nearest(ctx, tObj, images[level ], newS, newT, t0);
- sample_2d_nearest(ctx, tObj, images[level+1], newS, newT, t1);
+ sample_2d_nearest(ctx, tObj, images[level ], newCoord, t0);
+ sample_2d_nearest(ctx, tObj, images[level+1], newCoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -1687,25 +1653,25 @@ sample_cube_nearest_mipmap_linear(GLcontext *ctx,
static void
sample_cube_linear_mipmap_linear(GLcontext *ctx,
const struct gl_texture_object *tObj,
- GLfloat s, GLfloat t, GLfloat u,
+ const GLfloat texcoord[4],
GLfloat lambda, GLchan rgba[4])
{
const struct gl_texture_image **images;
- GLfloat newS, newT;
+ GLfloat newCoord[4];
GLint level;
COMPUTE_LINEAR_MIPMAP_LEVEL(tObj, lambda, level);
- images = choose_cube_face(tObj, s, t, u, &newS, &newT);
+ images = choose_cube_face(tObj, texcoord, newCoord);
if (level >= tObj->_MaxLevel) {
- sample_2d_linear(ctx, tObj, images[tObj->_MaxLevel], newS, newT, rgba);
+ sample_2d_linear(ctx, tObj, images[tObj->_MaxLevel], newCoord, rgba);
}
else {
GLchan t0[4], t1[4];
const GLfloat f = FRAC(lambda);
- sample_2d_linear(ctx, tObj, images[level ], newS, newT, t0);
- sample_2d_linear(ctx, tObj, images[level+1], newS, newT, t1);
+ sample_2d_linear(ctx, tObj, images[level ], newCoord, t0);
+ sample_2d_linear(ctx, tObj, images[level+1], newCoord, t1);
rgba[RCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[RCOMP] + f * t1[RCOMP]);
rgba[GCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[GCOMP] + f * t1[GCOMP]);
rgba[BCOMP] = (GLchan) INTCAST ((1.0F-f) * t0[BCOMP] + f * t1[BCOMP]);
@@ -1730,38 +1696,35 @@ sample_lambda_cube( GLcontext *ctx, GLuint texUnit,
case GL_NEAREST:
{
const struct gl_texture_image **images;
- GLfloat newS, newT;
- images = choose_cube_face(tObj, texcoords[i][0],
- texcoords[i][1], texcoords[i][2],
- &newS, &newT);
+ GLfloat newCoord[4];
+ images = choose_cube_face(tObj, texcoords[i], newCoord);
sample_2d_nearest(ctx, tObj, images[tObj->BaseLevel],
- newS, newT, rgba[i]);
+ newCoord, rgba[i]);
}
break;
case GL_LINEAR:
{
const struct gl_texture_image **images;
- GLfloat newS, newT;
- images = choose_cube_face(tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2],
- &newS, &newT);
+ GLfloat newCoord[4];
+ images = choose_cube_face(tObj, texcoords[i], newCoord);
sample_2d_linear(ctx, tObj, images[tObj->BaseLevel],
- newS, newT, rgba[i]);
+ newCoord, rgba[i]);
}
break;
case GL_NEAREST_MIPMAP_NEAREST:
- sample_cube_nearest_mipmap_nearest(ctx, tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2],
+ sample_cube_nearest_mipmap_nearest(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_NEAREST:
- sample_cube_linear_mipmap_nearest(ctx, tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2],
+ sample_cube_linear_mipmap_nearest(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_NEAREST_MIPMAP_LINEAR:
- sample_cube_nearest_mipmap_linear(ctx, tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2],
+ sample_cube_nearest_mipmap_linear(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
case GL_LINEAR_MIPMAP_LINEAR:
- sample_cube_linear_mipmap_linear(ctx, tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2],
+ sample_cube_linear_mipmap_linear(ctx, tObj, texcoords[i],
lambda[i], rgba[i]);
break;
default:
@@ -1771,17 +1734,16 @@ sample_lambda_cube( GLcontext *ctx, GLuint texUnit,
else {
/* magnification */
const struct gl_texture_image **images;
- GLfloat newS, newT;
- images = choose_cube_face(tObj, texcoords[i][0], texcoords[i][1], texcoords[i][2],
- &newS, &newT);
+ GLfloat newCoord[4];
+ images = choose_cube_face(tObj, texcoords[i], newCoord);
switch (tObj->MagFilter) {
case GL_NEAREST:
sample_2d_nearest(ctx, tObj, images[tObj->BaseLevel],
- newS, newT, rgba[i]);
+ newCoord, rgba[i]);
break;
case GL_LINEAR:
sample_2d_linear(ctx, tObj, images[tObj->BaseLevel],
- newS, newT, rgba[i]);
+ newCoord, rgba[i]);
break;
default:
_mesa_problem(NULL, "Bad mag filter in sample_lambda_cube");