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Bug 679527 - Avoid float operation in qcms transforms. r=jrmuizel

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This commit is contained in:
Benoit Girard 2012-10-19 18:23:07 -04:00
parent 690278f06b
commit 29cbfdf30a
1 changed files with 18 additions and 14 deletions
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32
gfx/qcms/transform.c
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@ -476,6 +476,10 @@ static void qcms_transform_data_clut(qcms_transform *transform, unsigned char *s
}
*/
static int int_div_ceil(int value, int div) {
return ((value + div - 1) / div);
}
// Using lcms' tetra interpolation algorithm.
static void qcms_transform_data_tetra_clut_rgba(qcms_transform *transform, unsigned char *src, unsigned char *dest, size_t length) {
unsigned int i;
@ -496,12 +500,12 @@ static void qcms_transform_data_tetra_clut_rgba(qcms_transform *transform, unsig
unsigned char in_a = *src++;
float linear_r = in_r/255.0f, linear_g=in_g/255.0f, linear_b = in_b/255.0f;
int x = floorf(linear_r * (transform->grid_size-1));
int y = floorf(linear_g * (transform->grid_size-1));
int z = floorf(linear_b * (transform->grid_size-1));
int x_n = ceilf(linear_r * (transform->grid_size-1));
int y_n = ceilf(linear_g * (transform->grid_size-1));
int z_n = ceilf(linear_b * (transform->grid_size-1));
int x = in_r * (transform->grid_size-1) / 255;
int y = in_g * (transform->grid_size-1) / 255;
int z = in_b * (transform->grid_size-1) / 255;
int x_n = int_div_ceil(in_r * (transform->grid_size-1), 255);
int y_n = int_div_ceil(in_g * (transform->grid_size-1), 255);
int z_n = int_div_ceil(in_b * (transform->grid_size-1), 255);
float rx = linear_r * (transform->grid_size-1) - x;
float ry = linear_g * (transform->grid_size-1) - y;
float rz = linear_b * (transform->grid_size-1) - z;
@ -611,15 +615,15 @@ static void qcms_transform_data_tetra_clut(qcms_transform *transform, unsigned c
unsigned char in_b = *src++;
float linear_r = in_r/255.0f, linear_g=in_g/255.0f, linear_b = in_b/255.0f;
int x = floorf(linear_r * (transform->grid_size-1));
int y = floorf(linear_g * (transform->grid_size-1));
int z = floorf(linear_b * (transform->grid_size-1));
int x_n = ceilf(linear_r * (transform->grid_size-1));
int y_n = ceilf(linear_g * (transform->grid_size-1));
int z_n = ceilf(linear_b * (transform->grid_size-1));
float rx = linear_r * (transform->grid_size-1) - x;
int x = in_r * (transform->grid_size-1) / 255;
int y = in_g * (transform->grid_size-1) / 255;
int z = in_b * (transform->grid_size-1) / 255;
int x_n = int_div_ceil(in_r * (transform->grid_size-1), 255);
int y_n = int_div_ceil(in_g * (transform->grid_size-1), 255);
int z_n = int_div_ceil(in_b * (transform->grid_size-1), 255);
float rx = linear_r * (transform->grid_size-1) - x;
float ry = linear_g * (transform->grid_size-1) - y;
float rz = linear_b * (transform->grid_size-1) - z;
float rz = linear_b * (transform->grid_size-1) - z;
c0_r = CLU(r_table, x, y, z);
c0_g = CLU(g_table, x, y, z);