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-rw-r--r--src/gallium/drivers/softpipe/sp_tex_sample.c30
1 files changed, 15 insertions, 15 deletions
diff --git a/src/gallium/drivers/softpipe/sp_tex_sample.c b/src/gallium/drivers/softpipe/sp_tex_sample.c
index 90766f4119c..f7309480bb9 100644
--- a/src/gallium/drivers/softpipe/sp_tex_sample.c
+++ b/src/gallium/drivers/softpipe/sp_tex_sample.c
@@ -1662,7 +1662,7 @@ mip_filter_nearest(struct tgsi_sampler *tgsi_sampler,
samp->mag_img_filter(tgsi_sampler, s, t, p, NULL, tgsi_sampler_lod_bias, rgba);
}
else {
- samp->level = samp->view->u.tex.first_level + (int)(lambda + 0.5) ;
+ samp->level = samp->view->u.tex.first_level + (int)(lambda + 0.5F) ;
samp->level = MIN2(samp->level, (int)texture->last_level);
samp->min_img_filter(tgsi_sampler, s, t, p, NULL, tgsi_sampler_lod_bias, rgba);
}
@@ -1815,13 +1815,13 @@ img_filter_2d_ewa(struct tgsi_sampler *tgsi_sampler,
* and incrementally update the value of Ax^2+Bxy*Cy^2; when this
* value, q, is less than F, we're inside the ellipse
*/
- float tex_u=-0.5 + s[j] * texture->width0 * scaling;
- float tex_v=-0.5 + t[j] * texture->height0 * scaling;
+ float tex_u = -0.5F + s[j] * texture->width0 * scaling;
+ float tex_v = -0.5F + t[j] * texture->height0 * scaling;
- int u0 = floor(tex_u - box_u);
- int u1 = ceil (tex_u + box_u);
- int v0 = floor(tex_v - box_v);
- int v1 = ceil (tex_v + box_v);
+ int u0 = (int) floorf(tex_u - box_u);
+ int u1 = (int) ceilf(tex_u + box_u);
+ int v0 = (int) floorf(tex_v - box_v);
+ int v1 = (int) ceilf(tex_v + box_v);
float num[4] = {0.0F, 0.0F, 0.0F, 0.0F};
buffer_next = 0;
@@ -1849,7 +1849,7 @@ img_filter_2d_ewa(struct tgsi_sampler *tgsi_sampler,
buffer_next++;
if (buffer_next == QUAD_SIZE) {
/* 4 texel coords are in the buffer -> read it now */
- int jj;
+ unsigned jj;
/* it is assumed that samp->min_img_filter is set to
* img_filter_2d_nearest or one of the
* accelerated img_filter_2d_nearest_XXX functions.
@@ -1879,7 +1879,7 @@ img_filter_2d_ewa(struct tgsi_sampler *tgsi_sampler,
* parameter, we need to read the whole quad and ignore the unused values
*/
if (buffer_next > 0) {
- int jj;
+ unsigned jj;
/* it is assumed that samp->min_img_filter is set to
* img_filter_2d_nearest or one of the
* accelerated img_filter_2d_nearest_XXX functions.
@@ -1984,7 +1984,7 @@ mip_filter_linear_aniso(struct tgsi_sampler *tgsi_sampler,
/* note: we need to have Pmin=sqrt(Pmin2) here, but we can avoid
* this since 0.5*log(x) = log(sqrt(x))
*/
- lambda = 0.5 * util_fast_log2(Pmin2) + samp->sampler->lod_bias;
+ lambda = 0.5F * util_fast_log2(Pmin2) + samp->sampler->lod_bias;
compute_lod(samp->sampler, lambda, c0, lod);
}
else {
@@ -2001,7 +2001,7 @@ mip_filter_linear_aniso(struct tgsi_sampler *tgsi_sampler,
/* If the ellipse covers the whole image, we can
* simply return the average of the whole image.
*/
- if (level0 >= texture->last_level) {
+ if (level0 >= (int) texture->last_level) {
samp->level = texture->last_level;
samp->min_img_filter(tgsi_sampler, s, t, p, NULL, tgsi_sampler_lod_bias, rgba);
}
@@ -2226,9 +2226,9 @@ sample_cube(struct tgsi_sampler *tgsi_sampler,
*/
{
/* use the average of the four pixel's texcoords to choose the face */
- const float rx = 0.25 * (s[0] + s[1] + s[2] + s[3]);
- const float ry = 0.25 * (t[0] + t[1] + t[2] + t[3]);
- const float rz = 0.25 * (p[0] + p[1] + p[2] + p[3]);
+ const float rx = 0.25F * (s[0] + s[1] + s[2] + s[3]);
+ const float ry = 0.25F * (t[0] + t[1] + t[2] + t[3]);
+ const float rz = 0.25F * (p[0] + p[1] + p[2] + p[3]);
const float arx = fabsf(rx), ary = fabsf(ry), arz = fabsf(rz);
if (arx >= ary && arx >= arz) {
@@ -2255,7 +2255,7 @@ sample_cube(struct tgsi_sampler *tgsi_sampler,
float sign = (rz >= 0.0F) ? 1.0F : -1.0F;
uint face = (rz >= 0.0F) ? PIPE_TEX_FACE_POS_Z : PIPE_TEX_FACE_NEG_Z;
for (j = 0; j < QUAD_SIZE; j++) {
- const float ima = -0.5 / fabsf(p[j]);
+ const float ima = -0.5F / fabsf(p[j]);
ssss[j] = sign * -s[j] * ima + 0.5F;
tttt[j] = t[j] * ima + 0.5F;
samp->faces[j] = face;