gecko/gfx/cairo/clip-invariant.patch
Jeff Muizelaar 1ff50fe646 Bug 542605. Update cairo to 12d521df8acc483b2daa844d4f05dc2fe2765ba6. r=vlad,jwatt,bas
Reland after fixing quartz related clipping bug and a bunch of other ones
2010-04-05 22:28:54 -04:00

1256 lines
37 KiB
Diff

diff --git a/src/cairo-gl-surface.c b/src/cairo-gl-surface.c
index 2acc8b5..019249e 100644
--- a/src/cairo-gl-surface.c
+++ b/src/cairo-gl-surface.c
@@ -2012,13 +2012,14 @@ typedef struct _cairo_gl_surface_span_renderer {
cairo_gl_composite_setup_t setup;
+ int xmin, xmax;
+
cairo_operator_t op;
cairo_antialias_t antialias;
cairo_gl_surface_t *dst;
cairo_region_t *clip;
- cairo_composite_rectangles_t composite_rectangles;
GLuint vbo;
void *vbo_base;
unsigned int vbo_size;
@@ -2049,11 +2050,11 @@ _cairo_gl_span_renderer_flush (cairo_gl_surface_span_renderer_t *renderer)
cairo_region_get_rectangle (renderer->clip, i, &rect);
glScissor (rect.x, rect.y, rect.width, rect.height);
- glDrawArrays (GL_LINES, 0, count);
+ glDrawArrays (GL_QUADS, 0, count);
}
glDisable (GL_SCISSOR_TEST);
} else {
- glDrawArrays (GL_LINES, 0, count);
+ glDrawArrays (GL_QUADS, 0, count);
}
}
@@ -2134,72 +2135,87 @@ _cairo_gl_emit_span_vertex (cairo_gl_surface_span_renderer_t *renderer,
static void
_cairo_gl_emit_span (cairo_gl_surface_span_renderer_t *renderer,
- int x1, int x2, int y, uint8_t alpha)
+ int x, int y1, int y2,
+ uint8_t alpha)
{
float *vertices = _cairo_gl_span_renderer_get_vbo (renderer, 2);
- _cairo_gl_emit_span_vertex (renderer, x1, y, alpha, vertices);
- _cairo_gl_emit_span_vertex (renderer, x2, y, alpha,
+ _cairo_gl_emit_span_vertex (renderer, x, y1, alpha, vertices);
+ _cairo_gl_emit_span_vertex (renderer, x, y2, alpha,
vertices + renderer->vertex_size / 4);
}
-/* Emits the contents of the span renderer rows as GL_LINES with the span's
- * alpha.
- *
- * Unlike the image surface, which is compositing into a temporary, we emit
- * coverage even for alpha == 0, in case we're using an unbounded operator.
- * But it means we avoid having to do the fixup.
- */
+static void
+_cairo_gl_emit_rectangle (cairo_gl_surface_span_renderer_t *renderer,
+ int x1, int y1,
+ int x2, int y2,
+ int coverage)
+{
+ _cairo_gl_emit_span (renderer, x1, y1, y2, coverage);
+ _cairo_gl_emit_span (renderer, x2, y2, y1, coverage);
+}
+
static cairo_status_t
-_cairo_gl_surface_span_renderer_render_row (
- void *abstract_renderer,
- int y,
- const cairo_half_open_span_t *spans,
- unsigned num_spans)
+_cairo_gl_render_bounded_spans (void *abstract_renderer,
+ int y, int height,
+ const cairo_half_open_span_t *spans,
+ unsigned num_spans)
{
cairo_gl_surface_span_renderer_t *renderer = abstract_renderer;
- int xmin = renderer->composite_rectangles.mask.x;
- int xmax = xmin + renderer->composite_rectangles.width;
- int prev_x = xmin;
- int prev_alpha = 0;
- unsigned i;
- int x_translate;
-
- /* Make sure we're within y-range. */
- if (y < renderer->composite_rectangles.mask.y ||
- y >= renderer->composite_rectangles.mask.y +
- renderer->composite_rectangles.height)
+
+ if (num_spans == 0)
return CAIRO_STATUS_SUCCESS;
- x_translate = renderer->composite_rectangles.dst.x -
- renderer->composite_rectangles.mask.x;
- y += renderer->composite_rectangles.dst.y -
- renderer->composite_rectangles.mask.y;
+ do {
+ if (spans[0].coverage) {
+ _cairo_gl_emit_rectangle (renderer,
+ spans[0].x, y,
+ spans[1].x, y + height,
+ spans[0].coverage);
+ }
- /* Find the first span within x-range. */
- for (i=0; i < num_spans && spans[i].x < xmin; i++) {}
- if (i>0)
- prev_alpha = spans[i-1].coverage;
+ spans++;
+ } while (--num_spans > 1);
- /* Set the intermediate spans. */
- for (; i < num_spans; i++) {
- int x = spans[i].x;
+ return CAIRO_STATUS_SUCCESS;
+}
- if (x >= xmax)
- break;
+static cairo_status_t
+_cairo_gl_render_unbounded_spans (void *abstract_renderer,
+ int y, int height,
+ const cairo_half_open_span_t *spans,
+ unsigned num_spans)
+{
+ cairo_gl_surface_span_renderer_t *renderer = abstract_renderer;
- _cairo_gl_emit_span (renderer,
- prev_x + x_translate, x + x_translate, y,
- prev_alpha);
+ if (num_spans == 0) {
+ _cairo_gl_emit_rectangle (renderer,
+ renderer->xmin, y,
+ renderer->xmax, y + height,
+ 0);
+ return CAIRO_STATUS_SUCCESS;
+ }
- prev_x = x;
- prev_alpha = spans[i].coverage;
+ if (spans[0].x != renderer->xmin) {
+ _cairo_gl_emit_rectangle (renderer,
+ renderer->xmin, y,
+ spans[0].x, y + height,
+ 0);
}
- if (prev_x < xmax) {
- _cairo_gl_emit_span (renderer,
- prev_x + x_translate, xmax + x_translate, y,
- prev_alpha);
+ do {
+ _cairo_gl_emit_rectangle (renderer,
+ spans[0].x, y,
+ spans[1].x, y + height,
+ spans[0].coverage);
+ spans++;
+ } while (--num_spans > 1);
+
+ if (spans[0].x != renderer->xmax) {
+ _cairo_gl_emit_rectangle (renderer,
+ spans[0].x, y,
+ renderer->xmax, y + height,
+ 0);
}
return CAIRO_STATUS_SUCCESS;
@@ -2274,8 +2290,6 @@ _cairo_gl_surface_create_span_renderer (cairo_operator_t op,
cairo_gl_surface_t *dst = abstract_dst;
cairo_gl_surface_span_renderer_t *renderer;
cairo_status_t status;
- int width = rects->width;
- int height = rects->height;
cairo_surface_attributes_t *src_attributes;
GLenum err;
diff --git a/src/cairo-image-surface.c b/src/cairo-image-surface.c
index 48d8013..d52979d 100644
--- a/src/cairo-image-surface.c
+++ b/src/cairo-image-surface.c
@@ -1390,11 +1390,13 @@ typedef struct _cairo_image_surface_span_renderer {
const cairo_pattern_t *pattern;
cairo_antialias_t antialias;
+ uint8_t *mask_data;
+ uint32_t mask_stride;
+
cairo_image_surface_t *src;
cairo_surface_attributes_t src_attributes;
cairo_image_surface_t *mask;
cairo_image_surface_t *dst;
-
cairo_composite_rectangles_t composite_rectangles;
} cairo_image_surface_span_renderer_t;
@@ -1403,66 +1405,46 @@ _cairo_image_surface_span_render_row (
int y,
const cairo_half_open_span_t *spans,
unsigned num_spans,
- cairo_image_surface_t *mask,
- const cairo_composite_rectangles_t *rects)
+ uint8_t *data,
+ uint32_t stride)
{
- int xmin = rects->mask.x;
- int xmax = xmin + rects->width;
uint8_t *row;
- int prev_x = xmin;
- int prev_alpha = 0;
unsigned i;
- /* Make sure we're within y-range. */
- y -= rects->mask.y;
- if (y < 0 || y >= rects->height)
+ if (num_spans == 0)
return;
- row = (uint8_t*)(mask->data) + y*(size_t)mask->stride - xmin;
-
- /* Find the first span within x-range. */
- for (i=0; i < num_spans && spans[i].x < xmin; i++) {}
- if (i>0)
- prev_alpha = spans[i-1].coverage;
-
- /* Set the intermediate spans. */
- for (; i < num_spans; i++) {
- int x = spans[i].x;
-
- if (x >= xmax)
- break;
-
- if (prev_alpha != 0) {
- /* We implement setting rendering the most common single
- * pixel wide span case to avoid the overhead of a memset
- * call. Open coding setting longer spans didn't show a
- * noticeable improvement over memset. */
- if (x == prev_x + 1) {
- row[prev_x] = prev_alpha;
- }
- else {
- memset(row + prev_x, prev_alpha, x - prev_x);
- }
+ row = data + y * stride;
+ for (i = 0; i < num_spans - 1; i++) {
+ if (! spans[i].coverage)
+ continue;
+
+ /* We implement setting the most common single pixel wide
+ * span case to avoid the overhead of a memset call.
+ * Open coding setting longer spans didn't show a
+ * noticeable improvement over memset.
+ */
+ if (spans[i+1].x == spans[i].x + 1) {
+ row[spans[i].x] = spans[i].coverage;
+ } else {
+ memset (row + spans[i].x,
+ spans[i].coverage,
+ spans[i+1].x - spans[i].x);
}
-
- prev_x = x;
- prev_alpha = spans[i].coverage;
- }
-
- if (prev_alpha != 0 && prev_x < xmax) {
- memset(row + prev_x, prev_alpha, xmax - prev_x);
}
}
static cairo_status_t
-_cairo_image_surface_span_renderer_render_row (
+_cairo_image_surface_span_renderer_render_rows (
void *abstract_renderer,
int y,
+ int height,
const cairo_half_open_span_t *spans,
unsigned num_spans)
{
cairo_image_surface_span_renderer_t *renderer = abstract_renderer;
- _cairo_image_surface_span_render_row (y, spans, num_spans, renderer->mask, &renderer->composite_rectangles);
+ while (height--)
+ _cairo_image_surface_span_render_row (y++, spans, num_spans, renderer->mask_data, renderer->mask_stride);
return CAIRO_STATUS_SUCCESS;
}
@@ -1517,11 +1499,11 @@ _cairo_image_surface_span_renderer_finish (void *abstract_renderer)
&dst->base,
src_attributes,
src->width, src->height,
- rects->width, rects->height,
+ width, height,
rects->src.x, rects->src.y,
0, 0, /* mask.x, mask.y */
rects->dst.x, rects->dst.y,
- rects->width, rects->height,
+ width, height,
dst->clip_region);
}
}
@@ -1567,7 +1549,7 @@ _cairo_image_surface_create_span_renderer (cairo_operator_t op,
renderer->base.destroy = _cairo_image_surface_span_renderer_destroy;
renderer->base.finish = _cairo_image_surface_span_renderer_finish;
- renderer->base.render_row = _cairo_image_surface_span_renderer_render_row;
+ renderer->base.render_rows = _cairo_image_surface_span_renderer_render_rows;
renderer->op = op;
renderer->pattern = pattern;
renderer->antialias = antialias;
@@ -1604,6 +1586,9 @@ _cairo_image_surface_create_span_renderer (cairo_operator_t op,
_cairo_image_surface_span_renderer_destroy (renderer);
return _cairo_span_renderer_create_in_error (status);
}
+
+ renderer->mask_data = renderer->mask->data - rects->mask.x - rects->mask.y * renderer->mask->stride;
+ renderer->mask_stride = renderer->mask->stride;
return &renderer->base;
}
diff --git a/src/cairo-spans-private.h b/src/cairo-spans-private.h
index e29a567..af3b38c 100644
--- a/src/cairo-spans-private.h
+++ b/src/cairo-spans-private.h
@@ -47,26 +47,24 @@ typedef struct _cairo_half_open_span {
* surfaces if they want to composite spans instead of trapezoids. */
typedef struct _cairo_span_renderer cairo_span_renderer_t;
struct _cairo_span_renderer {
+ /* Private status variable. */
+ cairo_status_t status;
+
/* Called to destroy the renderer. */
cairo_destroy_func_t destroy;
- /* Render the spans on row y of the source by whatever compositing
- * method is required. The function should ignore spans outside
- * the bounding box set by the init() function. */
- cairo_status_t (*render_row)(
- void *abstract_renderer,
- int y,
- const cairo_half_open_span_t *coverages,
- unsigned num_coverages);
+ /* Render the spans on row y of the destination by whatever compositing
+ * method is required. */
+ cairo_warn cairo_status_t
+ (*render_rows) (void *abstract_renderer,
+ int y, int height,
+ const cairo_half_open_span_t *coverages,
+ unsigned num_coverages);
/* Called after all rows have been rendered to perform whatever
* final rendering step is required. This function is called just
* once before the renderer is destroyed. */
- cairo_status_t (*finish)(
- void *abstract_renderer);
-
- /* Private status variable. */
- cairo_status_t status;
+ cairo_status_t (*finish) (void *abstract_renderer);
};
/* Scan converter interface. */
diff --git a/src/cairo-spans.c b/src/cairo-spans.c
index af3b85f..69894c1 100644
--- a/src/cairo-spans.c
+++ b/src/cairo-spans.c
@@ -275,13 +275,15 @@ _cairo_scan_converter_create_in_error (cairo_status_t status)
}
static cairo_status_t
-_cairo_nil_span_renderer_render_row (
+_cairo_nil_span_renderer_render_rows (
void *abstract_renderer,
int y,
+ int height,
const cairo_half_open_span_t *coverages,
unsigned num_coverages)
{
(void) y;
+ (void) height;
(void) coverages;
(void) num_coverages;
return _cairo_span_renderer_status (abstract_renderer);
@@ -310,7 +312,7 @@ _cairo_span_renderer_set_error (
ASSERT_NOT_REACHED;
}
if (renderer->status == CAIRO_STATUS_SUCCESS) {
- renderer->render_row = _cairo_nil_span_renderer_render_row;
+ renderer->render_rows = _cairo_nil_span_renderer_render_rows;
renderer->finish = _cairo_nil_span_renderer_finish;
renderer->status = error;
}
diff --git a/src/cairo-tor-scan-converter.c b/src/cairo-tor-scan-converter.c
index 29262c2..2b9fb1b 100644
--- a/src/cairo-tor-scan-converter.c
+++ b/src/cairo-tor-scan-converter.c
@@ -128,27 +128,29 @@ blit_with_span_renderer(
cairo_span_renderer_t *span_renderer,
struct pool *span_pool,
int y,
+ int height,
int xmin,
int xmax);
static glitter_status_t
-blit_empty_with_span_renderer (cairo_span_renderer_t *renderer, int y);
+blit_empty_with_span_renderer (cairo_span_renderer_t *renderer, int y, int height);
#define GLITTER_BLIT_COVERAGES_ARGS \
cairo_span_renderer_t *span_renderer, \
struct pool *span_pool
-#define GLITTER_BLIT_COVERAGES(cells, y, xmin, xmax) do { \
+#define GLITTER_BLIT_COVERAGES(cells, y, height,xmin, xmax) do { \
cairo_status_t status = blit_with_span_renderer (cells, \
span_renderer, \
span_pool, \
- y, xmin, xmax); \
+ y, height, \
+ xmin, xmax); \
if (unlikely (status)) \
return status; \
} while (0)
-#define GLITTER_BLIT_COVERAGES_EMPTY(y, xmin, xmax) do { \
- cairo_status_t status = blit_empty_with_span_renderer (span_renderer, y); \
+#define GLITTER_BLIT_COVERAGES_EMPTY(y, height, xmin, xmax) do { \
+ cairo_status_t status = blit_empty_with_span_renderer (span_renderer, y, height); \
if (unlikely (status)) \
return status; \
} while (0)
@@ -309,8 +311,8 @@ typedef int grid_area_t;
#define UNROLL3(x) x x x
struct quorem {
- int quo;
- int rem;
+ int32_t quo;
+ int32_t rem;
};
/* Header for a chunk of memory in a memory pool. */
@@ -382,6 +384,7 @@ struct edge {
/* Original sign of the edge: +1 for downwards, -1 for upwards
* edges. */
int dir;
+ int vertical;
};
/* Number of subsample rows per y-bucket. Must be GRID_Y. */
@@ -389,18 +392,28 @@ struct edge {
#define EDGE_Y_BUCKET_INDEX(y, ymin) (((y) - (ymin))/EDGE_Y_BUCKET_HEIGHT)
+struct bucket {
+ /* Unsorted list of edges starting within this bucket. */
+ struct edge *edges;
+
+ /* Set to non-zero if there are edges starting strictly within the
+ * bucket. */
+ unsigned have_inside_edges;
+};
+
/* A collection of sorted and vertically clipped edges of the polygon.
* Edges are moved from the polygon to an active list while scan
* converting. */
struct polygon {
- /* The vertical clip extents. */
+ /* The clip extents. */
+ grid_scaled_x_t xmin, xmax;
grid_scaled_y_t ymin, ymax;
/* Array of edges all starting in the same bucket. An edge is put
* into bucket EDGE_BUCKET_INDEX(edge->ytop, polygon->ymin) when
* it is added to the polygon. */
- struct edge **y_buckets;
- struct edge *y_buckets_embedded[64];
+ struct bucket *y_buckets;
+ struct bucket y_buckets_embedded[64];
struct {
struct pool base[1];
@@ -702,7 +715,6 @@ static void
cell_list_fini(struct cell_list *cells)
{
pool_fini (cells->cell_pool.base);
- cell_list_init (cells);
}
/* Empty the cell list. This is called at the start of every pixel
@@ -715,6 +727,26 @@ cell_list_reset (struct cell_list *cells)
pool_reset (cells->cell_pool.base);
}
+static struct cell *
+cell_list_alloc (struct cell_list *cells,
+ struct cell **cursor,
+ struct cell *tail,
+ int x)
+{
+ struct cell *cell;
+
+ cell = pool_alloc (cells->cell_pool.base, sizeof (struct cell));
+ if (unlikely (NULL == cell))
+ return NULL;
+
+ *cursor = cell;
+ cell->next = tail;
+ cell->x = x;
+ cell->uncovered_area = 0;
+ cell->covered_height = 0;
+ return cell;
+}
+
/* Find a cell at the given x-coordinate. Returns %NULL if a new cell
* needed to be allocated but couldn't be. Cells must be found with
* non-decreasing x-coordinate until the cell list is rewound using
@@ -737,22 +769,10 @@ cell_list_find (struct cell_list *cells, int x)
}
cells->cursor = cursor;
- if (tail->x == x) {
+ if (tail->x == x)
return tail;
- } else {
- struct cell *cell;
-
- cell = pool_alloc (cells->cell_pool.base, sizeof (struct cell));
- if (unlikely (NULL == cell))
- return NULL;
- *cursor = cell;
- cell->next = tail;
- cell->x = x;
- cell->uncovered_area = 0;
- cell->covered_height = 0;
- return cell;
- }
+ return cell_list_alloc (cells, cursor, tail, x);
}
/* Find two cells at x1 and x2. This is exactly equivalent
@@ -832,9 +852,8 @@ cell_list_find_pair(struct cell_list *cells, int x1, int x2)
/* Add an unbounded subpixel span covering subpixels >= x to the
* coverage cells. */
static glitter_status_t
-cell_list_add_unbounded_subspan(
- struct cell_list *cells,
- grid_scaled_x_t x)
+cell_list_add_unbounded_subspan (struct cell_list *cells,
+ grid_scaled_x_t x)
{
struct cell *cell;
int ix, fx;
@@ -907,20 +926,24 @@ cell_list_render_edge(
struct edge *edge,
int sign)
{
- struct quorem x1 = edge->x;
- struct quorem x2 = x1;
grid_scaled_y_t y1, y2, dy;
grid_scaled_x_t dx;
int ix1, ix2;
grid_scaled_x_t fx1, fx2;
- x2.quo += edge->dxdy_full.quo;
- x2.rem += edge->dxdy_full.rem;
- if (x2.rem >= 0) {
- ++x2.quo;
- x2.rem -= edge->dy;
+ struct quorem x1 = edge->x;
+ struct quorem x2 = x1;
+
+ if (! edge->vertical) {
+ x2.quo += edge->dxdy_full.quo;
+ x2.rem += edge->dxdy_full.rem;
+ if (x2.rem >= 0) {
+ ++x2.quo;
+ x2.rem -= edge->dy;
+ }
+
+ edge->x = x2;
}
- edge->x = x2;
GRID_X_TO_INT_FRAC(x1.quo, ix1, fx1);
GRID_X_TO_INT_FRAC(x2.quo, ix2, fx2);
@@ -1026,6 +1049,7 @@ static void
polygon_init (struct polygon *polygon)
{
polygon->ymin = polygon->ymax = 0;
+ polygon->xmin = polygon->xmax = 0;
polygon->y_buckets = polygon->y_buckets_embedded;
pool_init (polygon->edge_pool.base,
8192 - sizeof (struct _pool_chunk),
@@ -1045,10 +1069,11 @@ polygon_fini (struct polygon *polygon)
* receive new edges and clip them to the vertical range
* [ymin,ymax). */
static glitter_status_t
-polygon_reset(
- struct polygon *polygon,
- grid_scaled_y_t ymin,
- grid_scaled_y_t ymax)
+polygon_reset (struct polygon *polygon,
+ grid_scaled_x_t xmin,
+ grid_scaled_x_t xmax,
+ grid_scaled_y_t ymin,
+ grid_scaled_y_t ymax)
{
unsigned h = ymax - ymin;
unsigned num_buckets = EDGE_Y_BUCKET_INDEX(ymax + EDGE_Y_BUCKET_HEIGHT-1,
@@ -1065,14 +1090,16 @@ polygon_reset(
polygon->y_buckets = polygon->y_buckets_embedded;
if (num_buckets > ARRAY_LENGTH (polygon->y_buckets_embedded)) {
polygon->y_buckets = _cairo_malloc_ab (num_buckets,
- sizeof (struct edge *));
+ sizeof (struct bucket));
if (unlikely (NULL == polygon->y_buckets))
goto bail_no_mem;
}
- memset (polygon->y_buckets, 0, num_buckets * sizeof (struct edge *));
+ memset (polygon->y_buckets, 0, num_buckets * sizeof (struct bucket));
polygon->ymin = ymin;
polygon->ymax = ymax;
+ polygon->xmin = xmin;
+ polygon->xmax = xmax;
return GLITTER_STATUS_SUCCESS;
bail_no_mem:
@@ -1086,10 +1113,13 @@ _polygon_insert_edge_into_its_y_bucket(
struct polygon *polygon,
struct edge *e)
{
- unsigned ix = EDGE_Y_BUCKET_INDEX(e->ytop, polygon->ymin);
- struct edge **ptail = &polygon->y_buckets[ix];
+ unsigned j = e->ytop - polygon->ymin;
+ unsigned ix = j / EDGE_Y_BUCKET_HEIGHT;
+ unsigned offset = j % EDGE_Y_BUCKET_HEIGHT;
+ struct edge **ptail = &polygon->y_buckets[ix].edges;
e->next = *ptail;
*ptail = e;
+ polygon->y_buckets[ix].have_inside_edges |= offset;
}
inline static glitter_status_t
@@ -1115,30 +1145,53 @@ polygon_add_edge (struct polygon *polygon,
dx = edge->line.p2.x - edge->line.p1.x;
dy = edge->line.p2.y - edge->line.p1.y;
e->dy = dy;
- e->dxdy = floored_divrem (dx, dy);
-
- if (ymin <= edge->top)
- ytop = edge->top;
- else
- ytop = ymin;
- if (ytop == edge->line.p1.y) {
- e->x.quo = edge->line.p1.x;
- e->x.rem = 0;
- } else {
- e->x = floored_muldivrem (ytop - edge->line.p1.y, dx, dy);
- e->x.quo += edge->line.p1.x;
- }
-
e->dir = edge->dir;
+
+ ytop = edge->top >= ymin ? edge->top : ymin;
+ ybot = edge->bottom <= ymax ? edge->bottom : ymax;
e->ytop = ytop;
- ybot = edge->bottom < ymax ? edge->bottom : ymax;
e->height_left = ybot - ytop;
- if (e->height_left >= GRID_Y) {
- e->dxdy_full = floored_muldivrem (GRID_Y, dx, dy);
- } else {
+ if (dx == 0) {
+ e->vertical = TRUE;
+ e->x.quo = edge->line.p1.x;
+ e->x.rem = 0;
+ e->dxdy.quo = 0;
+ e->dxdy.rem = 0;
e->dxdy_full.quo = 0;
e->dxdy_full.rem = 0;
+
+ /* Drop edges to the right of the clip extents. */
+ if (e->x.quo >= polygon->xmax)
+ return GLITTER_STATUS_SUCCESS;
+
+ /* Offset vertical edges at the left side of the clip extents
+ * to just shy of the left side. We depend on this when
+ * checking for possible intersections within the clip
+ * rectangle. */
+ if (e->x.quo <= polygon->xmin) {
+ e->x.quo = polygon->xmin - 1;
+ }
+ } else {
+ e->vertical = FALSE;
+ e->dxdy = floored_divrem (dx, dy);
+ if (ytop == edge->line.p1.y) {
+ e->x.quo = edge->line.p1.x;
+ e->x.rem = 0;
+ } else {
+ e->x = floored_muldivrem (ytop - edge->line.p1.y, dx, dy);
+ e->x.quo += edge->line.p1.x;
+ }
+
+ if (e->x.quo >= polygon->xmax && e->dxdy.quo >= 0)
+ return GLITTER_STATUS_SUCCESS;
+
+ if (e->height_left >= GRID_Y) {
+ e->dxdy_full = floored_muldivrem (GRID_Y, dx, dy);
+ } else {
+ e->dxdy_full.quo = 0;
+ e->dxdy_full.rem = 0;
+ }
}
_polygon_insert_edge_into_its_y_bucket (polygon, e);
@@ -1161,31 +1214,30 @@ active_list_init(struct active_list *active)
active_list_reset(active);
}
-static void
-active_list_fini(
- struct active_list *active)
-{
- active_list_reset(active);
-}
-
/* Merge the edges in an unsorted list of edges into a sorted
* list. The sort order is edges ascending by edge->x.quo. Returns
* the new head of the sorted list. */
static struct edge *
merge_unsorted_edges(struct edge *sorted_head, struct edge *unsorted_head)
{
- struct edge *head = unsorted_head;
struct edge **cursor = &sorted_head;
int x;
- while (NULL != head) {
+ if (sorted_head == NULL) {
+ sorted_head = unsorted_head;
+ unsorted_head = unsorted_head->next;
+ sorted_head->next = NULL;
+ if (unsorted_head == NULL)
+ return sorted_head;
+ }
+
+ do {
+ struct edge *next = unsorted_head->next;
struct edge *prev = *cursor;
- struct edge *next = head->next;
- x = head->x.quo;
- if (NULL == prev || x < prev->x.quo) {
+ x = unsorted_head->x.quo;
+ if (x < prev->x.quo)
cursor = &sorted_head;
- }
while (1) {
UNROLL3({
@@ -1196,26 +1248,29 @@ merge_unsorted_edges(struct edge *sorted_head, struct edge *unsorted_head)
});
}
- head->next = *cursor;
- *cursor = head;
+ unsorted_head->next = *cursor;
+ *cursor = unsorted_head;
+ unsorted_head = next;
+ } while (unsorted_head != NULL);
- head = next;
- }
return sorted_head;
}
/* Test if the edges on the active list can be safely advanced by a
* full row without intersections or any edges ending. */
inline static int
-active_list_can_step_full_row(
- struct active_list *active)
+active_list_can_step_full_row (struct active_list *active,
+ grid_scaled_x_t xmin)
{
+ const struct edge *e;
+ grid_scaled_x_t prev_x = INT_MIN;
+
/* Recomputes the minimum height of all edges on the active
* list if we have been dropping edges. */
if (active->min_height <= 0) {
- struct edge *e = active->head;
int min_height = INT_MAX;
+ e = active->head;
while (NULL != e) {
if (e->height_left < min_height)
min_height = e->height_left;
@@ -1225,27 +1280,38 @@ active_list_can_step_full_row(
active->min_height = min_height;
}
- /* Check for intersections only if no edges end during the next
- * row. */
- if (active->min_height >= GRID_Y) {
- grid_scaled_x_t prev_x = INT_MIN;
- struct edge *e = active->head;
- while (NULL != e) {
- struct quorem x = e->x;
+ if (active->min_height < GRID_Y)
+ return 0;
+ /* Check for intersections as no edges end during the next row. */
+ e = active->head;
+ while (NULL != e) {
+ struct quorem x = e->x;
+
+ if (! e->vertical) {
x.quo += e->dxdy_full.quo;
x.rem += e->dxdy_full.rem;
if (x.rem >= 0)
++x.quo;
+ }
- if (x.quo <= prev_x)
+ /* There's may be an intersection if the edge sort order might
+ * change. */
+ if (x.quo <= prev_x) {
+ /* Ignore intersections to the left of the clip extents.
+ * This assumes that all vertical edges on or at the left
+ * side of the clip rectangle have been shifted slightly
+ * to the left in polygon_add_edge(). */
+ if (prev_x >= xmin || x.quo >= xmin || e->x.quo >= xmin)
return 0;
+ }
+ else {
prev_x = x.quo;
- e = e->next;
}
- return 1;
+ e = e->next;
}
- return 0;
+
+ return 1;
}
/* Merges edges on the given subpixel row from the polygon to the
@@ -1261,7 +1327,7 @@ active_list_merge_edges_from_polygon(
unsigned ix = EDGE_Y_BUCKET_INDEX(y, polygon->ymin);
int min_height = active->min_height;
struct edge *subrow_edges = NULL;
- struct edge **ptail = &polygon->y_buckets[ix];
+ struct edge **ptail = &polygon->y_buckets[ix].edges;
while (1) {
struct edge *tail = *ptail;
@@ -1277,8 +1343,10 @@ active_list_merge_edges_from_polygon(
ptail = &tail->next;
}
}
- active->head = merge_unsorted_edges(active->head, subrow_edges);
- active->min_height = min_height;
+ if (subrow_edges) {
+ active->head = merge_unsorted_edges(active->head, subrow_edges);
+ active->min_height = min_height;
+ }
}
/* Advance the edges on the active list by one subsample row by
@@ -1439,11 +1507,13 @@ apply_nonzero_fill_rule_and_step_edges (struct active_list *active,
}
}
- right_edge->x.quo += right_edge->dxdy_full.quo;
- right_edge->x.rem += right_edge->dxdy_full.rem;
- if (right_edge->x.rem >= 0) {
- ++right_edge->x.quo;
- right_edge->x.rem -= right_edge->dy;
+ if (! right_edge->vertical) {
+ right_edge->x.quo += right_edge->dxdy_full.quo;
+ right_edge->x.rem += right_edge->dxdy_full.rem;
+ if (right_edge->x.rem >= 0) {
+ ++right_edge->x.quo;
+ right_edge->x.rem -= right_edge->dy;
+ }
}
}
@@ -1472,6 +1542,7 @@ apply_evenodd_fill_rule_and_step_edges (struct active_list *active,
left_edge = *cursor;
while (NULL != left_edge) {
struct edge *right_edge;
+ int winding = left_edge->dir;
left_edge->height_left -= GRID_Y;
if (left_edge->height_left)
@@ -1490,17 +1561,22 @@ apply_evenodd_fill_rule_and_step_edges (struct active_list *active,
else
*cursor = right_edge->next;
+ winding += right_edge->dir;
+ if ((winding & 1) == 0) {
if (right_edge->next == NULL ||
right_edge->next->x.quo != right_edge->x.quo)
{
break;
}
+ }
- right_edge->x.quo += right_edge->dxdy_full.quo;
- right_edge->x.rem += right_edge->dxdy_full.rem;
- if (right_edge->x.rem >= 0) {
- ++right_edge->x.quo;
- right_edge->x.rem -= right_edge->dy;
+ if (! right_edge->vertical) {
+ right_edge->x.quo += right_edge->dxdy_full.quo;
+ right_edge->x.rem += right_edge->dxdy_full.rem;
+ if (right_edge->x.rem >= 0) {
+ ++right_edge->x.quo;
+ right_edge->x.rem -= right_edge->dy;
+ }
}
}
@@ -1537,8 +1613,14 @@ blit_span(
}
}
-#define GLITTER_BLIT_COVERAGES(coverages, y, xmin, xmax) \
- blit_cells(coverages, raster_pixels + (y)*raster_stride, xmin, xmax)
+#define GLITTER_BLIT_COVERAGES(coverages, y, height, xmin, xmax) \
+ do { \
+ int __y = y; \
+ int __h = height; \
+ do { \
+ blit_cells(coverages, raster_pixels + (__y)*raster_stride, xmin, xmax); \
+ } while (--__h); \
+ } while (0)
static void
blit_cells(
@@ -1597,7 +1679,6 @@ static void
_glitter_scan_converter_fini(glitter_scan_converter_t *converter)
{
polygon_fini(converter->polygon);
- active_list_fini(converter->active);
cell_list_fini(converter->coverages);
converter->xmin=0;
converter->ymin=0;
@@ -1641,7 +1722,7 @@ glitter_scan_converter_reset(
active_list_reset(converter->active);
cell_list_reset(converter->coverages);
- status = polygon_reset(converter->polygon, ymin, ymax);
+ status = polygon_reset(converter->polygon, xmin, xmax, ymin, ymax);
if (status)
return status;
@@ -1711,19 +1792,48 @@ glitter_scan_converter_add_edge (glitter_scan_converter_t *converter,
#endif
#ifndef GLITTER_BLIT_COVERAGES_EMPTY
-# define GLITTER_BLIT_COVERAGES_EMPTY(y, xmin, xmax)
+# define GLITTER_BLIT_COVERAGES_EMPTY(y0, y1, xmin, xmax)
#endif
+static cairo_bool_t
+active_list_is_vertical (struct active_list *active)
+{
+ struct edge *e;
+
+ for (e = active->head; e != NULL; e = e->next) {
+ if (! e->vertical)
+ return FALSE;
+ }
+
+ return TRUE;
+}
+
+static void
+step_edges (struct active_list *active, int count)
+{
+ struct edge **cursor = &active->head;
+ struct edge *edge;
+
+ for (edge = *cursor; edge != NULL; edge = *cursor) {
+ edge->height_left -= GRID_Y * count;
+ if (edge->height_left)
+ cursor = &edge->next;
+ else
+ *cursor = edge->next;
+ }
+}
+
I glitter_status_t
glitter_scan_converter_render(
glitter_scan_converter_t *converter,
int nonzero_fill,
GLITTER_BLIT_COVERAGES_ARGS)
{
- int i;
+ int i, j;
int ymax_i = converter->ymax / GRID_Y;
int ymin_i = converter->ymin / GRID_Y;
int xmin_i, xmax_i;
+ grid_scaled_x_t xmin = converter->xmin;
int h = ymax_i - ymin_i;
struct polygon *polygon = converter->polygon;
struct cell_list *coverages = converter->coverages;
@@ -1738,22 +1848,28 @@ glitter_scan_converter_render(
GLITTER_BLIT_COVERAGES_BEGIN;
/* Render each pixel row. */
- for (i=0; i<h; i++) {
+ for (i = 0; i < h; i = j) {
int do_full_step = 0;
glitter_status_t status = 0;
+ j = i + 1;
+
/* Determine if we can ignore this row or use the full pixel
* stepper. */
- if (GRID_Y == EDGE_Y_BUCKET_HEIGHT && ! polygon->y_buckets[i]) {
+ if (polygon->y_buckets[i].edges == NULL) {
if (! active->head) {
- GLITTER_BLIT_COVERAGES_EMPTY (i+ymin_i, xmin_i, xmax_i);
+ for (; j < h && ! polygon->y_buckets[j].edges; j++)
+ ;
+ GLITTER_BLIT_COVERAGES_EMPTY (i+ymin_i, j-i, xmin_i, xmax_i);
continue;
}
-
- do_full_step = active_list_can_step_full_row (active);
+ do_full_step = active_list_can_step_full_row (active, xmin);
+ }
+ else if (! polygon->y_buckets[i].have_inside_edges) {
+ grid_scaled_y_t y = (i+ymin_i)*GRID_Y;
+ active_list_merge_edges_from_polygon (active, y, polygon);
+ do_full_step = active_list_can_step_full_row (active, xmin);
}
-
- cell_list_reset (coverages);
if (do_full_step) {
/* Step by a full pixel row's worth. */
@@ -1764,8 +1880,20 @@ glitter_scan_converter_render(
status = apply_evenodd_fill_rule_and_step_edges (active,
coverages);
}
+
+ if (active_list_is_vertical (active)) {
+ while (j < h &&
+ polygon->y_buckets[j].edges == NULL &&
+ active->min_height >= 2*GRID_Y)
+ {
+ active->min_height -= GRID_Y;
+ j++;
+ }
+ if (j != i + 1)
+ step_edges (active, j - (i + 1));
+ }
} else {
- /* Subsample this row. */
+ /* Supersample this row. */
grid_scaled_y_t suby;
for (suby = 0; suby < GRID_Y; suby++) {
grid_scaled_y_t y = (i+ymin_i)*GRID_Y + suby;
@@ -1787,13 +1915,13 @@ glitter_scan_converter_render(
if (unlikely (status))
return status;
- GLITTER_BLIT_COVERAGES(coverages, i+ymin_i, xmin_i, xmax_i);
+ GLITTER_BLIT_COVERAGES(coverages, i+ymin_i, j-i, xmin_i, xmax_i);
+ cell_list_reset (coverages);
- if (! active->head) {
+ if (! active->head)
active->min_height = INT_MAX;
- } else {
+ else
active->min_height -= GRID_Y;
- }
}
/* Clean up the coverage blitter. */
@@ -1807,21 +1935,20 @@ glitter_scan_converter_render(
* scan converter subclass. */
static glitter_status_t
-blit_with_span_renderer(
- struct cell_list *cells,
- cairo_span_renderer_t *renderer,
- struct pool *span_pool,
- int y,
- int xmin,
- int xmax)
+blit_with_span_renderer (struct cell_list *cells,
+ cairo_span_renderer_t *renderer,
+ struct pool *span_pool,
+ int y, int height,
+ int xmin, int xmax)
{
struct cell *cell = cells->head;
int prev_x = xmin;
int cover = 0;
cairo_half_open_span_t *spans;
unsigned num_spans;
+
if (cell == NULL)
- return CAIRO_STATUS_SUCCESS;
+ return blit_empty_with_span_renderer (renderer, y, height);
/* Skip cells to the left of the clip region. */
while (cell != NULL && cell->x < xmin) {
@@ -1833,12 +1960,12 @@ blit_with_span_renderer(
/* Count number of cells remaining. */
{
struct cell *next = cell;
- num_spans = 0;
- while (next) {
+ num_spans = 1;
+ while (next != NULL) {
next = next->next;
++num_spans;
}
- num_spans = 2*num_spans + 1;
+ num_spans = 2*num_spans;
}
/* Allocate enough spans for the row. */
@@ -1853,6 +1980,7 @@ blit_with_span_renderer(
for (; cell != NULL; cell = cell->next) {
int x = cell->x;
int area;
+
if (x >= xmax)
break;
@@ -1872,20 +2000,26 @@ blit_with_span_renderer(
prev_x = x+1;
}
- if (prev_x < xmax) {
+ if (prev_x <= xmax) {
spans[num_spans].x = prev_x;
spans[num_spans].coverage = GRID_AREA_TO_ALPHA (cover);
++num_spans;
}
+ if (prev_x < xmax && cover) {
+ spans[num_spans].x = xmax;
+ spans[num_spans].coverage = 0;
+ ++num_spans;
+ }
+
/* Dump them into the renderer. */
- return renderer->render_row (renderer, y, spans, num_spans);
+ return renderer->render_rows (renderer, y, height, spans, num_spans);
}
static glitter_status_t
-blit_empty_with_span_renderer (cairo_span_renderer_t *renderer, int y)
+blit_empty_with_span_renderer (cairo_span_renderer_t *renderer, int y, int height)
{
- return renderer->render_row (renderer, y, NULL, 0);
+ return renderer->render_rows (renderer, y, height, NULL, 0);
}
struct _cairo_tor_scan_converter {
diff --git a/src/cairo-win32-surface.c b/src/cairo-win32-surface.c
index 82d1cf5..d4575a3 100644
--- a/src/cairo-win32-surface.c
+++ b/src/cairo-win32-surface.c
@@ -1954,6 +1954,9 @@ typedef struct _cairo_win32_surface_span_renderer {
const cairo_pattern_t *pattern;
cairo_antialias_t antialias;
+ uint8_t *mask_data;
+ uint32_t mask_stride;
+
cairo_image_surface_t *mask;
cairo_win32_surface_t *dst;
cairo_region_t *clip_region;
@@ -1962,14 +1965,16 @@ typedef struct _cairo_win32_surface_span_renderer {
} cairo_win32_surface_span_renderer_t;
static cairo_status_t
-_cairo_win32_surface_span_renderer_render_row (
+_cairo_win32_surface_span_renderer_render_rows (
void *abstract_renderer,
int y,
+ int height,
const cairo_half_open_span_t *spans,
unsigned num_spans)
{
cairo_win32_surface_span_renderer_t *renderer = abstract_renderer;
- _cairo_image_surface_span_render_row (y, spans, num_spans, renderer->mask, &renderer->composite_rectangles);
+ while (height--)
+ _cairo_image_surface_span_render_row (y++, spans, num_spans, renderer->mask_data, renderer->mask_stride);
return CAIRO_STATUS_SUCCESS;
}
@@ -2066,8 +2071,7 @@ _cairo_win32_surface_create_span_renderer (cairo_operator_t op,
renderer->base.destroy = _cairo_win32_surface_span_renderer_destroy;
renderer->base.finish = _cairo_win32_surface_span_renderer_finish;
- renderer->base.render_row =
- _cairo_win32_surface_span_renderer_render_row;
+ renderer->base.render_rows = _cairo_win32_surface_span_renderer_render_rows;
renderer->op = op;
renderer->pattern = pattern;
renderer->antialias = antialias;
@@ -2088,6 +2092,9 @@ _cairo_win32_surface_create_span_renderer (cairo_operator_t op,
_cairo_win32_surface_span_renderer_destroy (renderer);
return _cairo_span_renderer_create_in_error (status);
}
+
+ renderer->mask_data = renderer->mask->data - rects->mask.x - rects->mask.y * renderer->mask->stride;
+ renderer->mask_stride = renderer->mask->stride;
return &renderer->base;
}
diff --git a/src/cairo-xlib-display.c b/src/cairo-xlib-display.c
index a7a40b8..566d9fb 100644
--- a/src/cairo-xlib-display.c
+++ b/src/cairo-xlib-display.c
@@ -407,6 +407,10 @@ _cairo_xlib_display_get (Display *dpy,
display->buggy_pad_reflect = TRUE;
}
+ /* gradients don't seem to work */
+ display->buggy_gradients = TRUE;
+
+
/* XXX workaround; see https://bugzilla.mozilla.org/show_bug.cgi?id=413583 */
/* If buggy_repeat_force == -1, then initialize.
* - set to -2, meaning "nothing was specified", and we trust the above detection.
diff --git a/src/cairoint.h b/src/cairoint.h
index 58850ab..1cdf6ff 100644
--- a/src/cairoint.h
+++ b/src/cairoint.h
@@ -2257,8 +2257,8 @@ cairo_private void
_cairo_image_surface_span_render_row (int y,
const cairo_half_open_span_t *spans,
unsigned num_spans,
- cairo_image_surface_t *mask,
- const cairo_composite_rectangles_t *rects);
+ uint8_t *data,
+ uint32_t stride);
cairo_private cairo_image_transparency_t
_cairo_image_analyze_transparency (cairo_image_surface_t *image);