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authorBrian <[email protected]>2008-11-29 16:03:40 -0700
committerBrian <[email protected]>2008-12-05 09:20:06 -0700
commit249e1e4d30759cd3c55cef0dba75f531cc7c6269 (patch)
tree0d13727148c7f1ce1f3ca6e87bfc192f1665c51d /src/mesa
parent39091cc6385e6253464900e436cd7e9c04409ce6 (diff)
mesa: replace large macros with inline functions
Diffstat (limited to 'src/mesa')
-rw-r--r--src/mesa/swrast/s_texfilter.c724
1 files changed, 338 insertions, 386 deletions
diff --git a/src/mesa/swrast/s_texfilter.c b/src/mesa/swrast/s_texfilter.c
index 352d496cec1..07353617655 100644
--- a/src/mesa/swrast/s_texfilter.c
+++ b/src/mesa/swrast/s_texfilter.c
@@ -1,8 +1,8 @@
/*
* Mesa 3-D graphics library
- * Version: 7.0.3
+ * Version: 7.3
*
- * Copyright (C) 1999-2007 Brian Paul All Rights Reserved.
+ * Copyright (C) 1999-2008 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"),
@@ -33,6 +33,16 @@
#include "s_texfilter.h"
+/*
+ * Note, the FRAC macro has to work perfectly. Otherwise you'll sometimes
+ * see 1-pixel bands of improperly weighted linear-filtered textures.
+ * The tests/texwrap.c demo is a good test.
+ * Also note, FRAC(x) doesn't truly return the fractional part of x for x < 0.
+ * Instead, if x < 0 then FRAC(x) = 1 - true_frac(x).
+ */
+#define FRAC(f) ((f) - IFLOOR(f))
+
+
/**
* Constants for integer linear interpolation.
*/
@@ -223,257 +233,271 @@ lerp_rgba_3d(GLchan result[4], GLfloat a, GLfloat b, GLfloat c,
* Used to compute texel locations for linear sampling.
* Input:
* wrapMode = GL_REPEAT, GL_CLAMP, GL_CLAMP_TO_EDGE, GL_CLAMP_TO_BORDER
- * S = texcoord in [0,1]
- * SIZE = width (or height or depth) of texture
+ * s = texcoord in [0,1]
+ * size = width (or height or depth) of texture
* Output:
- * U = texcoord in [0, width]
- * I0, I1 = two nearest texel indexes
+ * i0, i1 = returns two nearest texel indexes
+ * weight = returns blend factor between texels
*/
-#define COMPUTE_LINEAR_TEXEL_LOCATIONS(wrapMode, S, U, SIZE, I0, I1) \
-{ \
- switch (wrapMode) { \
- case GL_REPEAT: \
- U = S * SIZE - 0.5F; \
- if (img->_IsPowerOfTwo) { \
- I0 = IFLOOR(U) & (SIZE - 1); \
- I1 = (I0 + 1) & (SIZE - 1); \
- } \
- else { \
- I0 = REMAINDER(IFLOOR(U), SIZE); \
- I1 = REMAINDER(I0 + 1, SIZE); \
- } \
- break; \
- case GL_CLAMP_TO_EDGE: \
- if (S <= 0.0F) \
- U = 0.0F; \
- else if (S >= 1.0F) \
- U = (GLfloat) SIZE; \
- else \
- U = S * SIZE; \
- U -= 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- if (I0 < 0) \
- I0 = 0; \
- if (I1 >= (GLint) SIZE) \
- I1 = SIZE - 1; \
- break; \
- case GL_CLAMP_TO_BORDER: \
- { \
- const GLfloat min = -1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- if (S <= min) \
- U = min * SIZE; \
- else if (S >= max) \
- U = max * SIZE; \
- else \
- U = S * SIZE; \
- U -= 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- } \
- break; \
- case GL_MIRRORED_REPEAT: \
- { \
- const GLint flr = IFLOOR(S); \
- if (flr & 1) \
- U = 1.0F - (S - (GLfloat) flr); /* flr is odd */ \
- else \
- U = S - (GLfloat) flr; /* flr is even */ \
- U = (U * SIZE) - 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- if (I0 < 0) \
- I0 = 0; \
- if (I1 >= (GLint) SIZE) \
- I1 = SIZE - 1; \
- } \
- break; \
- case GL_MIRROR_CLAMP_EXT: \
- U = FABSF(S); \
- if (U >= 1.0F) \
- U = (GLfloat) SIZE; \
- else \
- U *= SIZE; \
- U -= 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- break; \
- case GL_MIRROR_CLAMP_TO_EDGE_EXT: \
- U = FABSF(S); \
- if (U >= 1.0F) \
- U = (GLfloat) SIZE; \
- else \
- U *= SIZE; \
- U -= 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- if (I0 < 0) \
- I0 = 0; \
- if (I1 >= (GLint) SIZE) \
- I1 = SIZE - 1; \
- break; \
- case GL_MIRROR_CLAMP_TO_BORDER_EXT: \
- { \
- const GLfloat min = -1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- U = FABSF(S); \
- if (U <= min) \
- U = min * SIZE; \
- else if (U >= max) \
- U = max * SIZE; \
- else \
- U *= SIZE; \
- U -= 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- } \
- break; \
- case GL_CLAMP: \
- if (S <= 0.0F) \
- U = 0.0F; \
- else if (S >= 1.0F) \
- U = (GLfloat) SIZE; \
- else \
- U = S * SIZE; \
- U -= 0.5F; \
- I0 = IFLOOR(U); \
- I1 = I0 + 1; \
- break; \
- default: \
- _mesa_problem(ctx, "Bad wrap mode"); \
- return; \
- } \
+static INLINE void
+linear_texel_locations(GLenum wrapMode,
+ const struct gl_texture_image *img,
+ GLint size, GLfloat s,
+ GLint *i0, GLint *i1, GLfloat *weight)
+{
+ GLfloat u;
+ switch (wrapMode) {
+ case GL_REPEAT:
+ u = s * size - 0.5F;
+ if (img->_IsPowerOfTwo) {
+ *i0 = IFLOOR(u) & (size - 1);
+ *i1 = (*i0 + 1) & (size - 1);
+ }
+ else {
+ *i0 = REMAINDER(IFLOOR(u), size);
+ *i1 = REMAINDER(*i0 + 1, size);
+ }
+ break;
+ case GL_CLAMP_TO_EDGE:
+ if (s <= 0.0F)
+ u = 0.0F;
+ else if (s >= 1.0F)
+ u = (GLfloat) size;
+ else
+ u = s * size;
+ u -= 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ if (*i0 < 0)
+ *i0 = 0;
+ if (*i1 >= (GLint) size)
+ *i1 = size - 1;
+ break;
+ case GL_CLAMP_TO_BORDER:
+ {
+ const GLfloat min = -1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ if (s <= min)
+ u = min * size;
+ else if (s >= max)
+ u = max * size;
+ else
+ u = s * size;
+ u -= 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ }
+ break;
+ case GL_MIRRORED_REPEAT:
+ {
+ const GLint flr = IFLOOR(s);
+ if (flr & 1)
+ u = 1.0F - (s - (GLfloat) flr);
+ else
+ u = s - (GLfloat) flr;
+ u = (u * size) - 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ if (*i0 < 0)
+ *i0 = 0;
+ if (*i1 >= (GLint) size)
+ *i1 = size - 1;
+ }
+ break;
+ case GL_MIRROR_CLAMP_EXT:
+ u = FABSF(s);
+ if (u >= 1.0F)
+ u = (GLfloat) size;
+ else
+ u *= size;
+ u -= 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ break;
+ case GL_MIRROR_CLAMP_TO_EDGE_EXT:
+ u = FABSF(s);
+ if (u >= 1.0F)
+ u = (GLfloat) size;
+ else
+ u *= size;
+ u -= 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ if (*i0 < 0)
+ *i0 = 0;
+ if (*i1 >= (GLint) size)
+ *i1 = size - 1;
+ break;
+ case GL_MIRROR_CLAMP_TO_BORDER_EXT:
+ {
+ const GLfloat min = -1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ u = FABSF(s);
+ if (u <= min)
+ u = min * size;
+ else if (u >= max)
+ u = max * size;
+ else
+ u *= size;
+ u -= 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ }
+ break;
+ case GL_CLAMP:
+ if (s <= 0.0F)
+ u = 0.0F;
+ else if (s >= 1.0F)
+ u = (GLfloat) size;
+ else
+ u = s * size;
+ u -= 0.5F;
+ *i0 = IFLOOR(u);
+ *i1 = *i0 + 1;
+ break;
+ default:
+ _mesa_problem(NULL, "Bad wrap mode");
+ u = 0.0F;
+ }
+ *weight = FRAC(u);
}
/**
* Used to compute texel location for nearest sampling.
*/
-#define COMPUTE_NEAREST_TEXEL_LOCATION(wrapMode, S, SIZE, I) \
-{ \
- switch (wrapMode) { \
- case GL_REPEAT: \
- /* s limited to [0,1) */ \
- /* i limited to [0,size-1] */ \
- I = IFLOOR(S * SIZE); \
- if (img->_IsPowerOfTwo) \
- I &= (SIZE - 1); \
- else \
- I = REMAINDER(I, SIZE); \
- break; \
- case GL_CLAMP_TO_EDGE: \
- { \
- /* s limited to [min,max] */ \
- /* i limited to [0, size-1] */ \
- const GLfloat min = 1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- if (S < min) \
- I = 0; \
- else if (S > max) \
- I = SIZE - 1; \
- else \
- I = IFLOOR(S * SIZE); \
- } \
- break; \
- case GL_CLAMP_TO_BORDER: \
- { \
- /* s limited to [min,max] */ \
- /* i limited to [-1, size] */ \
- const GLfloat min = -1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- if (S <= min) \
- I = -1; \
- else if (S >= max) \
- I = SIZE; \
- else \
- I = IFLOOR(S * SIZE); \
- } \
- break; \
- case GL_MIRRORED_REPEAT: \
- { \
- const GLfloat min = 1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- const GLint flr = IFLOOR(S); \
- GLfloat u; \
- if (flr & 1) \
- u = 1.0F - (S - (GLfloat) flr); /* flr is odd */ \
- else \
- u = S - (GLfloat) flr; /* flr is even */ \
- if (u < min) \
- I = 0; \
- else if (u > max) \
- I = SIZE - 1; \
- else \
- I = IFLOOR(u * SIZE); \
- } \
- break; \
- case GL_MIRROR_CLAMP_EXT: \
- { \
- /* s limited to [0,1] */ \
- /* i limited to [0,size-1] */ \
- const GLfloat u = FABSF(S); \
- if (u <= 0.0F) \
- I = 0; \
- else if (u >= 1.0F) \
- I = SIZE - 1; \
- else \
- I = IFLOOR(u * SIZE); \
- } \
- break; \
- case GL_MIRROR_CLAMP_TO_EDGE_EXT: \
- { \
- /* s limited to [min,max] */ \
- /* i limited to [0, size-1] */ \
- const GLfloat min = 1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- const GLfloat u = FABSF(S); \
- if (u < min) \
- I = 0; \
- else if (u > max) \
- I = SIZE - 1; \
- else \
- I = IFLOOR(u * SIZE); \
- } \
- break; \
- case GL_MIRROR_CLAMP_TO_BORDER_EXT: \
- { \
- /* s limited to [min,max] */ \
- /* i limited to [0, size-1] */ \
- const GLfloat min = -1.0F / (2.0F * SIZE); \
- const GLfloat max = 1.0F - min; \
- const GLfloat u = FABSF(S); \
- if (u < min) \
- I = -1; \
- else if (u > max) \
- I = SIZE; \
- else \
- I = IFLOOR(u * SIZE); \
- } \
- break; \
- case GL_CLAMP: \
- /* s limited to [0,1] */ \
- /* i limited to [0,size-1] */ \
- if (S <= 0.0F) \
- I = 0; \
- else if (S >= 1.0F) \
- I = SIZE - 1; \
- else \
- I = IFLOOR(S * SIZE); \
- break; \
- default: \
- _mesa_problem(ctx, "Bad wrap mode"); \
- return; \
- } \
+static INLINE GLint
+nearest_texel_location(GLenum wrapMode,
+ const struct gl_texture_image *img,
+ GLint size, GLfloat s)
+{
+ GLint i;
+
+ switch (wrapMode) {
+ case GL_REPEAT:
+ /* s limited to [0,1) */
+ /* i limited to [0,size-1] */
+ i = IFLOOR(s * size);
+ if (img->_IsPowerOfTwo)
+ i &= (size - 1);
+ else
+ i = REMAINDER(i, size);
+ return i;
+ case GL_CLAMP_TO_EDGE:
+ {
+ /* s limited to [min,max] */
+ /* i limited to [0, size-1] */
+ const GLfloat min = 1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ if (s < min)
+ i = 0;
+ else if (s > max)
+ i = size - 1;
+ else
+ i = IFLOOR(s * size);
+ }
+ return i;
+ case GL_CLAMP_TO_BORDER:
+ {
+ /* s limited to [min,max] */
+ /* i limited to [-1, size] */
+ const GLfloat min = -1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ if (s <= min)
+ i = -1;
+ else if (s >= max)
+ i = size;
+ else
+ i = IFLOOR(s * size);
+ }
+ return i;
+ case GL_MIRRORED_REPEAT:
+ {
+ const GLfloat min = 1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ const GLint flr = IFLOOR(s);
+ GLfloat u;
+ if (flr & 1)
+ u = 1.0F - (s - (GLfloat) flr);
+ else
+ u = s - (GLfloat) flr;
+ if (u < min)
+ i = 0;
+ else if (u > max)
+ i = size - 1;
+ else
+ i = IFLOOR(u * size);
+ }
+ return i;
+ case GL_MIRROR_CLAMP_EXT:
+ {
+ /* s limited to [0,1] */
+ /* i limited to [0,size-1] */
+ const GLfloat u = FABSF(s);
+ if (u <= 0.0F)
+ i = 0;
+ else if (u >= 1.0F)
+ i = size - 1;
+ else
+ i = IFLOOR(u * size);
+ }
+ return i;
+ case GL_MIRROR_CLAMP_TO_EDGE_EXT:
+ {
+ /* s limited to [min,max] */
+ /* i limited to [0, size-1] */
+ const GLfloat min = 1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ const GLfloat u = FABSF(s);
+ if (u < min)
+ i = 0;
+ else if (u > max)
+ i = size - 1;
+ else
+ i = IFLOOR(u * size);
+ }
+ return i;
+ case GL_MIRROR_CLAMP_TO_BORDER_EXT:
+ {
+ /* s limited to [min,max] */
+ /* i limited to [0, size-1] */
+ const GLfloat min = -1.0F / (2.0F * size);
+ const GLfloat max = 1.0F - min;
+ const GLfloat u = FABSF(s);
+ if (u < min)
+ i = -1;
+ else if (u > max)
+ i = size;
+ else
+ i = IFLOOR(u * size);
+ }
+ return i;
+ case GL_CLAMP:
+ /* s limited to [0,1] */
+ /* i limited to [0,size-1] */
+ if (s <= 0.0F)
+ i = 0;
+ else if (s >= 1.0F)
+ i = size - 1;
+ else
+ i = IFLOOR(s * size);
+ return i;
+ default:
+ _mesa_problem(NULL, "Bad wrap mode");
+ return 0;
+ }
}
/* Power of two image sizes only */
-#define COMPUTE_LINEAR_REPEAT_TEXEL_LOCATION(S, U, SIZE, I0, I1) \
-{ \
- U = S * SIZE - 0.5F; \
- I0 = IFLOOR(U) & (SIZE - 1); \
- I1 = (I0 + 1) & (SIZE - 1); \
+static INLINE void
+linear_repeat_texel_location(GLuint size, GLfloat s,
+ GLint *i0, GLint *i1, GLfloat *weight)
+{
+ GLfloat u = s * size - 0.5F;
+ *i0 = IFLOOR(u) & (size - 1);
+ *i1 = (*i0 + 1) & (size - 1);
+ *weight = FRAC(u);
}
@@ -516,17 +540,6 @@ nearest_mipmap_level(const struct gl_texture_object *tObj, GLfloat lambda)
/*
- * Note, the FRAC macro has to work perfectly. Otherwise you'll sometimes
- * see 1-pixel bands of improperly weighted linear-filtered textures.
- * The tests/texwrap.c demo is a good test.
- * Also note, FRAC(x) doesn't truly return the fractional part of x for x < 0.
- * Instead, if x < 0 then FRAC(x) = 1 - true_frac(x).
- */
-#define FRAC(f) ((f) - IFLOOR(f))
-
-
-
-/*
* Bitflags for texture border color sampling.
*/
#define I0BIT 1
@@ -662,7 +675,7 @@ sample_1d_nearest(GLcontext *ctx,
{
const GLint width = img->Width2; /* without border, power of two */
GLint i;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
+ i = nearest_texel_location(tObj->WrapS, img, width, texcoord[0]);
/* skip over the border, if any */
i += img->Border;
if (i < 0 || i >= (GLint) img->Width) {
@@ -686,12 +699,11 @@ sample_1d_linear(GLcontext *ctx,
{
const GLint width = img->Width2;
GLint i0, i1;
- GLfloat u;
GLbitfield useBorderColor = 0x0;
GLfloat a;
GLchan t0[4], t1[4]; /* texels */
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
+ linear_texel_locations(tObj->WrapS, img, width, texcoord[0], &i0, &i1, &a);
if (img->Border) {
i0 += img->Border;
@@ -716,7 +728,6 @@ sample_1d_linear(GLcontext *ctx,
img->FetchTexelc(img, i1, 0, 0, t1);
}
- a = FRAC(u);
lerp_rgba(rgba, a, t0, t1);
}
@@ -930,8 +941,8 @@ sample_2d_nearest(GLcontext *ctx,
GLint i, j;
(void) ctx;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, texcoord[1], height, j);
+ i = nearest_texel_location(tObj->WrapS, img, width, texcoord[0]);
+ j = nearest_texel_location(tObj->WrapT, img, height, texcoord[1]);
/* skip over the border, if any */
i += img->Border;
@@ -963,12 +974,11 @@ sample_2d_linear(GLcontext *ctx,
const GLint height = img->Height2;
GLint i0, j0, i1, j1;
GLbitfield useBorderColor = 0x0;
- GLfloat u, v;
GLfloat a, b;
GLchan t00[4], t10[4], t01[4], t11[4]; /* sampled texel colors */
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, texcoord[1], v, height, j0, j1);
+ linear_texel_locations(tObj->WrapS, img, width, texcoord[0], &i0, &i1, &a);
+ linear_texel_locations(tObj->WrapT, img, height, texcoord[1], &j0, &j1, &b);
if (img->Border) {
i0 += img->Border;
@@ -1009,8 +1019,6 @@ sample_2d_linear(GLcontext *ctx,
img->FetchTexelc(img, i1, j1, 0, t11);
}
- a = FRAC(u);
- b = FRAC(v);
lerp_rgba_2d(rgba, a, b, t00, t10, t01, t11);
}
@@ -1029,8 +1037,7 @@ sample_2d_linear_repeat(GLcontext *ctx,
const GLint width = img->Width2;
const GLint height = img->Height2;
GLint i0, j0, i1, j1;
- GLfloat u, v;
- GLfloat a, b;
+ GLfloat wi, wj;
GLchan t00[4], t10[4], t01[4], t11[4]; /* sampled texel colors */
(void) ctx;
@@ -1041,17 +1048,15 @@ sample_2d_linear_repeat(GLcontext *ctx,
ASSERT(img->TexFormat->BaseFormat != GL_COLOR_INDEX);
ASSERT(img->_IsPowerOfTwo);
- COMPUTE_LINEAR_REPEAT_TEXEL_LOCATION(texcoord[0], u, width, i0, i1);
- COMPUTE_LINEAR_REPEAT_TEXEL_LOCATION(texcoord[1], v, height, j0, j1);
+ linear_repeat_texel_location(width, texcoord[0], &i0, &i1, &wi);
+ linear_repeat_texel_location(height, texcoord[1], &j0, &j1, &wj);
img->FetchTexelc(img, i0, j0, 0, t00);
img->FetchTexelc(img, i1, j0, 0, t10);
img->FetchTexelc(img, i0, j1, 0, t01);
img->FetchTexelc(img, i1, j1, 0, t11);
- a = FRAC(u);
- b = FRAC(v);
- lerp_rgba_2d(rgba, a, b, t00, t10, t01, t11);
+ lerp_rgba_2d(rgba, wi, wj, t00, t10, t01, t11);
}
@@ -1425,9 +1430,9 @@ sample_3d_nearest(GLcontext *ctx,
GLint i, j, k;
(void) ctx;
- 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);
+ i = nearest_texel_location(tObj->WrapS, img, width, texcoord[0]);
+ j = nearest_texel_location(tObj->WrapT, img, height, texcoord[1]);
+ k = nearest_texel_location(tObj->WrapR, img, depth, texcoord[2]);
if (i < 0 || i >= (GLint) img->Width ||
j < 0 || j >= (GLint) img->Height ||
@@ -1457,14 +1462,13 @@ sample_3d_linear(GLcontext *ctx,
const GLint depth = img->Depth2;
GLint i0, j0, k0, i1, j1, k1;
GLbitfield useBorderColor = 0x0;
- GLfloat u, v, w;
GLfloat a, b, c;
GLchan t000[4], t010[4], t001[4], t011[4];
GLchan t100[4], t110[4], t101[4], t111[4];
- 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);
+ linear_texel_locations(tObj->WrapS, img, width, texcoord[0], &i0, &i1, &a);
+ linear_texel_locations(tObj->WrapT, img, height, texcoord[1], &j0, &j1, &b);
+ linear_texel_locations(tObj->WrapR, img, depth, texcoord[2], &k0, &k1, &c);
if (img->Border) {
i0 += img->Border;
@@ -1536,9 +1540,6 @@ sample_3d_linear(GLcontext *ctx,
}
/* trilinear interpolation of samples */
- a = FRAC(u);
- b = FRAC(v);
- c = FRAC(w);
lerp_rgba_3d(rgba, a, b, c, t000, t100, t010, t110, t001, t101, t011, t111);
}
@@ -2031,14 +2032,16 @@ sample_lambda_cube( GLcontext *ctx,
static INLINE GLint
clamp_rect_coord_nearest(GLenum wrapMode, GLfloat coord, GLint max)
{
- if (wrapMode == GL_CLAMP) {
+ switch (wrapMode) {
+ case GL_CLAMP:
return IFLOOR( CLAMP(coord, 0.0F, max - 1) );
- }
- else if (wrapMode == GL_CLAMP_TO_EDGE) {
+ case GL_CLAMP_TO_EDGE:
return IFLOOR( CLAMP(coord, 0.5F, max - 0.5F) );
- }
- else {
+ case GL_CLAMP_TO_BORDER:
return IFLOOR( CLAMP(coord, -0.5F, max + 0.5F) );
+ default:
+ _mesa_problem(NULL, "bad wrapMode in clamp_rect_coord_nearest");
+ return 0;
}
}
@@ -2048,33 +2051,37 @@ clamp_rect_coord_nearest(GLenum wrapMode, GLfloat coord, GLint max)
*/
static INLINE void
clamp_rect_coord_linear(GLenum wrapMode, GLfloat coord, GLint max,
- GLint *i0out, GLint *i1out)
+ GLint *i0out, GLint *i1out, GLfloat *weight)
{
GLfloat fcol;
GLint i0, i1;
- if (wrapMode == GL_CLAMP) {
+ switch (wrapMode) {
+ case GL_CLAMP:
/* Not exactly what the spec says, but it matches NVIDIA output */
fcol = CLAMP(coord - 0.5F, 0.0, max-1);
i0 = IFLOOR(fcol);
i1 = i0 + 1;
- }
- else if (wrapMode == GL_CLAMP_TO_EDGE) {
+ break;
+ case GL_CLAMP_TO_EDGE:
fcol = CLAMP(coord, 0.5F, max - 0.5F);
fcol -= 0.5F;
i0 = IFLOOR(fcol);
i1 = i0 + 1;
if (i1 > max - 1)
i1 = max - 1;
- }
- else {
- ASSERT(wrapMode == GL_CLAMP_TO_BORDER);
+ break;
+ case GL_CLAMP_TO_BORDER:
fcol = CLAMP(coord, -0.5F, max + 0.5F);
fcol -= 0.5F;
i0 = IFLOOR(fcol);
i1 = i0 + 1;
+ default:
+ _mesa_problem(NULL, "bad wrapMode in clamp_rect_coord_linear");
+ i0 = i1 = 0;
}
*i0out = i0;
*i1out = i1;
+ *weight = FRAC(fcol);
}
@@ -2138,58 +2145,16 @@ sample_linear_rect(GLcontext *ctx,
tObj->WrapT == GL_CLAMP_TO_BORDER);
ASSERT(img->TexFormat->BaseFormat != GL_COLOR_INDEX);
- /* XXX lots of opportunity for optimization in this loop */
for (i = 0; i < n; i++) {
- GLfloat frow, fcol;
GLint i0, j0, i1, j1;
GLchan t00[4], t01[4], t10[4], t11[4];
GLfloat a, b;
GLbitfield useBorderColor = 0x0;
- /* NOTE: we DO NOT use [0, 1] texture coordinates! */
- if (tObj->WrapS == GL_CLAMP) {
- /* Not exactly what the spec says, but it matches NVIDIA output */
- fcol = CLAMP(texcoords[i][0] - 0.5F, 0.0, width_minus_1);
- i0 = IFLOOR(fcol);
- i1 = i0 + 1;
- }
- else if (tObj->WrapS == GL_CLAMP_TO_EDGE) {
- fcol = CLAMP(texcoords[i][0], 0.5F, width - 0.5F);
- fcol -= 0.5F;
- i0 = IFLOOR(fcol);
- i1 = i0 + 1;
- if (i1 > width_minus_1)
- i1 = width_minus_1;
- }
- else {
- ASSERT(tObj->WrapS == GL_CLAMP_TO_BORDER);
- fcol = CLAMP(texcoords[i][0], -0.5F, width + 0.5F);
- fcol -= 0.5F;
- i0 = IFLOOR(fcol);
- i1 = i0 + 1;
- }
-
- if (tObj->WrapT == GL_CLAMP) {
- /* Not exactly what the spec says, but it matches NVIDIA output */
- frow = CLAMP(texcoords[i][1] - 0.5F, 0.0, width_minus_1);
- j0 = IFLOOR(frow);
- j1 = j0 + 1;
- }
- else if (tObj->WrapT == GL_CLAMP_TO_EDGE) {
- frow = CLAMP(texcoords[i][1], 0.5F, height - 0.5F);
- frow -= 0.5F;
- j0 = IFLOOR(frow);
- j1 = j0 + 1;
- if (j1 > height_minus_1)
- j1 = height_minus_1;
- }
- else {
- ASSERT(tObj->WrapT == GL_CLAMP_TO_BORDER);
- frow = CLAMP(texcoords[i][1], -0.5F, height + 0.5F);
- frow -= 0.5F;
- j0 = IFLOOR(frow);
- j1 = j0 + 1;
- }
+ clamp_rect_coord_linear(tObj->WrapS, texcoords[i][0], width,
+ &i0, &i1, &a);
+ clamp_rect_coord_linear(tObj->WrapT, texcoords[i][1], height,
+ &j0, &j1, &b);
/* compute integer rows/columns */
if (i0 < 0 || i0 > width_minus_1) useBorderColor |= I0BIT;
@@ -2218,10 +2183,6 @@ sample_linear_rect(GLcontext *ctx,
else
img->FetchTexelc(img, i1, j1, 0, t11);
- /* compute interpolants */
- a = FRAC(fcol);
- b = FRAC(frow);
-
lerp_rgba_2d(rgba[i], a, b, t00, t10, t01, t11);
}
}
@@ -2286,8 +2247,8 @@ sample_2d_array_nearest(GLcontext *ctx,
GLint array;
(void) ctx;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, texcoord[1], height, j);
+ i = nearest_texel_location(tObj->WrapS, img, width, texcoord[0]);
+ j = nearest_texel_location(tObj->WrapT, img, height, texcoord[1]);
array = clamp_rect_coord_nearest(tObj->WrapR, texcoord[2], depth);
if (i < 0 || i >= (GLint) img->Width ||
@@ -2319,12 +2280,11 @@ sample_2d_array_linear(GLcontext *ctx,
GLint i0, j0, i1, j1;
GLint array;
GLbitfield useBorderColor = 0x0;
- GLfloat u, v;
GLfloat a, b;
GLchan t00[4], t01[4], t10[4], t11[4];
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, texcoord[1], v, height, j0, j1);
+ linear_texel_locations(tObj->WrapS, img, width, texcoord[0], &i0, &i1, &a);
+ linear_texel_locations(tObj->WrapT, img, height, texcoord[1], &j0, &j1, &b);
array = clamp_rect_coord_nearest(tObj->WrapR, texcoord[2], depth);
if (array < 0 || array >= depth) {
@@ -2372,8 +2332,6 @@ sample_2d_array_linear(GLcontext *ctx,
}
/* trilinear interpolation of samples */
- a = FRAC(u);
- b = FRAC(v);
lerp_rgba_2d(rgba, a, b, t00, t10, t01, t11);
}
}
@@ -2593,7 +2551,7 @@ sample_1d_array_nearest(GLcontext *ctx,
GLint array;
(void) ctx;
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoord[0], width, i);
+ i = nearest_texel_location(tObj->WrapS, img, width, texcoord[0]);
array = clamp_rect_coord_nearest(tObj->WrapT, texcoord[1], height);
if (i < 0 || i >= (GLint) img->Width ||
@@ -2623,11 +2581,10 @@ sample_1d_array_linear(GLcontext *ctx,
GLint i0, i1;
GLint array;
GLbitfield useBorderColor = 0x0;
- GLfloat u;
GLfloat a;
GLchan t0[4], t1[4];
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoord[0], u, width, i0, i1);
+ linear_texel_locations(tObj->WrapS, img, width, texcoord[0], &i0, &i1, &a);
array = clamp_rect_coord_nearest(tObj->WrapT, texcoord[1], height);
if (img->Border) {
@@ -2657,7 +2614,6 @@ sample_1d_array_linear(GLcontext *ctx,
}
/* bilinear interpolation of samples */
- a = FRAC(u);
lerp_rgba(rgba, a, t0, t1);
}
@@ -2906,32 +2862,32 @@ sample_depth_texture( GLcontext *ctx,
break;
case GL_TEXTURE_1D:
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoords[i][0],
- width, col);
+ col = nearest_texel_location(tObj->WrapS, img, width,
+ texcoords[i][0]);
row = 0;
slice = 0;
break;
case GL_TEXTURE_2D:
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoords[i][0],
- width, col);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, texcoords[i][1],
- height, row);
+ col = nearest_texel_location(tObj->WrapS, img, width,
+ texcoords[i][0]);
+ row = nearest_texel_location(tObj->WrapT, img, height,
+ texcoords[i][1]);
slice = 0;
break;
case GL_TEXTURE_1D_ARRAY_EXT:
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoords[i][0],
- width, col);
+ col = nearest_texel_location(tObj->WrapS, img, width,
+ texcoords[i][0]);
row = clamp_rect_coord_nearest(tObj->WrapT, texcoords[i][1], height);
slice = 0;
break;
case GL_TEXTURE_2D_ARRAY_EXT:
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapS, texcoords[i][0],
- width, col);
- COMPUTE_NEAREST_TEXEL_LOCATION(tObj->WrapT, texcoords[i][1],
- height, row);
+ col = nearest_texel_location(tObj->WrapS, img, width,
+ texcoords[i][0]);
+ row = nearest_texel_location(tObj->WrapT, img, height,
+ texcoords[i][1]);
slice = clamp_rect_coord_nearest(tObj->WrapR, texcoords[i][2], depth);
break;
}
@@ -3008,40 +2964,40 @@ sample_depth_texture( GLcontext *ctx,
GLfloat depth00, depth01, depth10, depth11;
GLint i0, i1, j0, j1;
GLint slice;
- GLfloat u, v;
+ GLfloat a, b;
GLuint useBorderTexel;
switch (tObj->Target) {
case GL_TEXTURE_RECTANGLE_ARB:
clamp_rect_coord_linear(tObj->WrapS, texcoords[i][0],
- width, &i0, &i1);
+ width, &i0, &i1, &a);
clamp_rect_coord_linear(tObj->WrapT, texcoords[i][1],
- height, &j0, &j1);
+ height, &j0, &j1, &b);
slice = 0;
break;
case GL_TEXTURE_1D:
case GL_TEXTURE_2D:
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoords[i][0],
- u, width, i0, i1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, texcoords[i][1],
- v, height,j0, j1);
+ linear_texel_locations(tObj->WrapS, img, width,
+ texcoords[i][0], &i0, &i1, &a);
+ linear_texel_locations(tObj->WrapT, img, height,
+ texcoords[i][1], &j0, &j1, &b);
slice = 0;
break;
case GL_TEXTURE_1D_ARRAY_EXT:
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoords[i][0],
- u, width, i0, i1);
+ linear_texel_locations(tObj->WrapS, img, width,
+ texcoords[i][0], &i0, &i1, &a);
j0 = clamp_rect_coord_nearest(tObj->WrapT, texcoords[i][1], height);
j1 = j0;
slice = 0;
break;
case GL_TEXTURE_2D_ARRAY_EXT:
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapS, texcoords[i][0],
- u, width, i0, i1);
- COMPUTE_LINEAR_TEXEL_LOCATIONS(tObj->WrapT, texcoords[i][1],
- v, height,j0, j1);
+ linear_texel_locations(tObj->WrapS, img, width,
+ texcoords[i][0], &i0, &i1, &a);
+ linear_texel_locations(tObj->WrapT, img, height,
+ texcoords[i][1], &j0, &j1, &b);
slice = clamp_rect_coord_nearest(tObj->WrapR, texcoords[i][2], depth);
break;
}
@@ -3105,8 +3061,6 @@ sample_depth_texture( GLcontext *ctx,
if (0) {
/* compute a single weighted depth sample and do one comparison */
- const GLfloat a = FRAC(u + 1.0F);
- const GLfloat b = FRAC(v + 1.0F);
const GLfloat depthSample
= lerp_2d(a, b, depth00, depth10, depth01, depth11);
if ((depthSample <= texcoords[i][compare_coord] && function == GL_LEQUAL) ||
@@ -3177,8 +3131,6 @@ sample_depth_texture( GLcontext *ctx,
case GL_NONE:
/* ordinary bilinear filtering */
{
- const GLfloat a = FRAC(u + 1.0F);
- const GLfloat b = FRAC(v + 1.0F);
const GLfloat depthSample
= lerp_2d(a, b, depth00, depth10, depth01, depth11);
CLAMPED_FLOAT_TO_CHAN(result, depthSample);
@@ -3272,10 +3224,10 @@ sample_depth_texture2(const GLcontext *ctx,
GLint col, row, ii, jj, imin, imax, jmin, jmax, samples, count;
GLfloat w;
GLchan lum;
- COMPUTE_NEAREST_TEXEL_LOCATION(texObj->WrapS, texcoords[i][0],
- width, col);
- COMPUTE_NEAREST_TEXEL_LOCATION(texObj->WrapT, texcoords[i][1],
- height, row);
+ col = nearest_texel_location(texObj->WrapS, img, width,
+ texcoords[i][0]);
+ row = nearest_texel_location(texObj->WrapT, img, height,
+ texcoords[i][1]);
imin = col - K;
imax = col + K;