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authorJames Benton <[email protected]>2012-05-14 16:00:06 +0100
committerJosé Fonseca <[email protected]>2012-05-14 16:07:49 +0100
commit24678700edaf5bb9da9be93a1367f1a24cfaa471 (patch)
treeabfdbde1dde39504eafab8313579d389a937808e /src/gallium
parentec201667bf201ba9549059697f687b830bdeb6b3 (diff)
llvmpipe: Calculate fixed point coordinates for triangle setup earlier.
This allows us to calculate the triangle's area using fixed point, previously it was cacluated in floating point space. It was possible that a triangle which had negative area in floating point space had a positive area in fixed point space. Fixes fdo 40920. Reviewed-by: Jose Fonseca <[email protected]> Reviewed-by: Brian Paul <[email protected]>
Diffstat (limited to 'src/gallium')
-rw-r--r--src/gallium/drivers/llvmpipe/lp_setup_tri.c162
1 files changed, 106 insertions, 56 deletions
diff --git a/src/gallium/drivers/llvmpipe/lp_setup_tri.c b/src/gallium/drivers/llvmpipe/lp_setup_tri.c
index 26d35debdaf..9916101734f 100644
--- a/src/gallium/drivers/llvmpipe/lp_setup_tri.c
+++ b/src/gallium/drivers/llvmpipe/lp_setup_tri.c
@@ -58,9 +58,16 @@ fixed_to_float(int a)
}
-
-
-
+/* Position and area in fixed point coordinates */
+struct fixed_position {
+ int x[4];
+ int y[4];
+ int area;
+ int dx01;
+ int dy01;
+ int dx20;
+ int dy20;
+};
/**
@@ -226,21 +233,23 @@ lp_setup_whole_tile(struct lp_setup_context *setup,
*/
static boolean
do_triangle_ccw(struct lp_setup_context *setup,
- const float (*v0)[4],
- const float (*v1)[4],
- const float (*v2)[4],
- boolean frontfacing )
+ struct fixed_position* position,
+ const float (*v0)[4],
+ const float (*v1)[4],
+ const float (*v2)[4],
+ boolean frontfacing )
{
struct lp_scene *scene = setup->scene;
const struct lp_setup_variant_key *key = &setup->setup.variant->key;
struct lp_rast_triangle *tri;
struct lp_rast_plane *plane;
- int x[4];
- int y[4];
struct u_rect bbox;
unsigned tri_bytes;
int nr_planes = 3;
+ /* Area should always be positive here */
+ assert(position->area > 0);
+
if (0)
lp_setup_print_triangle(setup, v0, v1, v2);
@@ -251,17 +260,6 @@ do_triangle_ccw(struct lp_setup_context *setup,
nr_planes = 3;
}
- /* x/y positions in fixed point */
- x[0] = subpixel_snap(v0[0][0] - setup->pixel_offset);
- x[1] = subpixel_snap(v1[0][0] - setup->pixel_offset);
- x[2] = subpixel_snap(v2[0][0] - setup->pixel_offset);
- x[3] = 0;
- y[0] = subpixel_snap(v0[0][1] - setup->pixel_offset);
- y[1] = subpixel_snap(v1[0][1] - setup->pixel_offset);
- y[2] = subpixel_snap(v2[0][1] - setup->pixel_offset);
- y[3] = 0;
-
-
/* Bounding rectangle (in pixels) */
{
/* Yes this is necessary to accurately calculate bounding boxes
@@ -272,12 +270,12 @@ do_triangle_ccw(struct lp_setup_context *setup,
int adj = (setup->pixel_offset != 0) ? 1 : 0;
/* Inclusive x0, exclusive x1 */
- bbox.x0 = MIN3(x[0], x[1], x[2]) >> FIXED_ORDER;
- bbox.x1 = (MAX3(x[0], x[1], x[2]) - 1) >> FIXED_ORDER;
+ bbox.x0 = MIN3(position->x[0], position->x[1], position->x[2]) >> FIXED_ORDER;
+ bbox.x1 = (MAX3(position->x[0], position->x[1], position->x[2]) - 1) >> FIXED_ORDER;
/* Inclusive / exclusive depending upon adj (bottom-left or top-right) */
- bbox.y0 = (MIN3(y[0], y[1], y[2]) + adj) >> FIXED_ORDER;
- bbox.y1 = (MAX3(y[0], y[1], y[2]) - 1 + adj) >> FIXED_ORDER;
+ bbox.y0 = (MIN3(position->y[0], position->y[1], position->y[2]) + adj) >> FIXED_ORDER;
+ bbox.y1 = (MAX3(position->y[0], position->y[1], position->y[2]) - 1 + adj) >> FIXED_ORDER;
}
if (bbox.x1 < bbox.x0 ||
@@ -354,8 +352,8 @@ do_triangle_ccw(struct lp_setup_context *setup,
__m128i eo, p0, p1, p2;
__m128i zero = _mm_setzero_si128();
- vertx = _mm_loadu_si128((__m128i *)x); /* vertex x coords */
- verty = _mm_loadu_si128((__m128i *)y); /* vertex y coords */
+ vertx = _mm_loadu_si128((__m128i *)position->x); /* vertex x coords */
+ verty = _mm_loadu_si128((__m128i *)position->y); /* vertex y coords */
shufx = _mm_shuffle_epi32(vertx, _MM_SHUFFLE(3,0,2,1));
shufy = _mm_shuffle_epi32(verty, _MM_SHUFFLE(3,0,2,1));
@@ -406,18 +404,18 @@ do_triangle_ccw(struct lp_setup_context *setup,
#else
{
int i;
- plane[0].dcdy = x[0] - x[1];
- plane[1].dcdy = x[1] - x[2];
- plane[2].dcdy = x[2] - x[0];
- plane[0].dcdx = y[0] - y[1];
- plane[1].dcdx = y[1] - y[2];
- plane[2].dcdx = y[2] - y[0];
+ plane[0].dcdy = position->dx01;
+ plane[1].dcdy = position->x[1] - position->x[2];
+ plane[2].dcdy = position->dx20;
+ plane[0].dcdx = position->dy01;
+ plane[1].dcdx = position->y[1] - position->y[2];
+ plane[2].dcdx = position->dy20;
for (i = 0; i < 3; i++) {
/* half-edge constants, will be interated over the whole render
* target.
*/
- plane[i].c = plane[i].dcdx * x[i] - plane[i].dcdy * y[i];
+ plane[i].c = plane[i].dcdx * position->x[i] - plane[i].dcdy * position->y[i];
/* correct for top-left vs. bottom-left fill convention.
*
@@ -768,31 +766,77 @@ fail:
* Try to draw the triangle, restart the scene on failure.
*/
static void retry_triangle_ccw( struct lp_setup_context *setup,
+ struct fixed_position* position,
const float (*v0)[4],
const float (*v1)[4],
const float (*v2)[4],
boolean front)
{
- if (!do_triangle_ccw( setup, v0, v1, v2, front ))
+ if (!do_triangle_ccw( setup, position, v0, v1, v2, front ))
{
if (!lp_setup_flush_and_restart(setup))
return;
- if (!do_triangle_ccw( setup, v0, v1, v2, front ))
+ if (!do_triangle_ccw( setup, position, v0, v1, v2, front ))
return;
}
}
-static INLINE float
-calc_area(const float (*v0)[4],
- const float (*v1)[4],
- const float (*v2)[4])
+
+/**
+ * Calculate fixed position data for a triangle
+ */
+static INLINE void
+calc_fixed_position( struct lp_setup_context *setup,
+ struct fixed_position* position,
+ const float (*v0)[4],
+ const float (*v1)[4],
+ const float (*v2)[4])
{
- float dx01 = v0[0][0] - v1[0][0];
- float dy01 = v0[0][1] - v1[0][1];
- float dx20 = v2[0][0] - v0[0][0];
- float dy20 = v2[0][1] - v0[0][1];
- return dx01 * dy20 - dx20 * dy01;
+ position->x[0] = subpixel_snap(v0[0][0] - setup->pixel_offset);
+ position->x[1] = subpixel_snap(v1[0][0] - setup->pixel_offset);
+ position->x[2] = subpixel_snap(v2[0][0] - setup->pixel_offset);
+ position->x[3] = 0;
+
+ position->y[0] = subpixel_snap(v0[0][1] - setup->pixel_offset);
+ position->y[1] = subpixel_snap(v1[0][1] - setup->pixel_offset);
+ position->y[2] = subpixel_snap(v2[0][1] - setup->pixel_offset);
+ position->y[3] = 0;
+
+ position->dx01 = position->x[0] - position->x[1];
+ position->dy01 = position->y[0] - position->y[1];
+
+ position->dx20 = position->x[2] - position->x[0];
+ position->dy20 = position->y[2] - position->y[0];
+
+ position->area = position->dx01 * position->dy20 - position->dx20 * position->dy01;
+}
+
+
+/**
+ * Rotate a triangle, flipping its clockwise direction,
+ * Swaps values for xy[1] and xy[2]
+ */
+static INLINE void
+rotate_fixed_position( struct fixed_position* position )
+{
+ int x, y;
+
+ x = position->x[2];
+ y = position->y[2];
+ position->x[2] = position->x[1];
+ position->y[2] = position->y[1];
+ position->x[1] = x;
+ position->y[1] = y;
+
+ x = position->dx01;
+ y = position->dy01;
+ position->dx01 = -position->dx20;
+ position->dy01 = -position->dy20;
+ position->dx20 = -x;
+ position->dy20 = -y;
+
+ position->area = -position->area;
}
@@ -804,10 +848,13 @@ static void triangle_cw( struct lp_setup_context *setup,
const float (*v1)[4],
const float (*v2)[4] )
{
- float area = calc_area(v0, v1, v2);
+ struct fixed_position position;
+ calc_fixed_position(setup, &position, v0, v1, v2);
- if (area < 0.0f)
- retry_triangle_ccw(setup, v0, v2, v1, !setup->ccw_is_frontface);
+ if (position.area < 0) {
+ rotate_fixed_position(&position);
+ retry_triangle_ccw(setup, &position, v0, v2, v1, !setup->ccw_is_frontface);
+ }
}
@@ -816,10 +863,11 @@ static void triangle_ccw( struct lp_setup_context *setup,
const float (*v1)[4],
const float (*v2)[4])
{
- float area = calc_area(v0, v1, v2);
+ struct fixed_position position;
+ calc_fixed_position(setup, &position, v0, v1, v2);
- if (area > 0.0f)
- retry_triangle_ccw(setup, v0, v1, v2, setup->ccw_is_frontface);
+ if (position.area > 0)
+ retry_triangle_ccw(setup, &position, v0, v1, v2, setup->ccw_is_frontface);
}
/**
@@ -830,7 +878,8 @@ static void triangle_both( struct lp_setup_context *setup,
const float (*v1)[4],
const float (*v2)[4] )
{
- float area = calc_area(v0, v1, v2);
+ struct fixed_position position;
+ calc_fixed_position(setup, &position, v0, v1, v2);
if (0) {
assert(!util_is_inf_or_nan(v0[0][0]));
@@ -839,13 +888,14 @@ static void triangle_both( struct lp_setup_context *setup,
assert(!util_is_inf_or_nan(v1[0][1]));
assert(!util_is_inf_or_nan(v2[0][0]));
assert(!util_is_inf_or_nan(v2[0][1]));
- assert(!util_is_inf_or_nan(area));
}
- if (area > 0.0f)
- retry_triangle_ccw( setup, v0, v1, v2, setup->ccw_is_frontface );
- else if (area < 0.0f)
- retry_triangle_ccw( setup, v0, v2, v1, !setup->ccw_is_frontface );
+ if (position.area > 0)
+ retry_triangle_ccw( setup, &position, v0, v1, v2, setup->ccw_is_frontface );
+ else if (position.area < 0) {
+ rotate_fixed_position( &position );
+ retry_triangle_ccw( setup, &position, v0, v2, v1, !setup->ccw_is_frontface );
+ }
}