Also, explicit release-vertex-buffer command.
Lots of debug/stale code still in place...
#define CELL_CMD_FINISH 3
#define CELL_CMD_RENDER 4
#define CELL_CMD_BATCH 5
+#define CELL_CMD_RELEASE_VERTS 6
#define CELL_CMD_STATE_FRAMEBUFFER 10
#define CELL_CMD_STATE_DEPTH_STENCIL 11
#define CELL_CMD_STATE_SAMPLER 12
uint vertex_size; /**< bytes per vertex */
uint dummy; /* XXX this dummy field works around a compiler bug */
uint num_indexes;
+#if 0
const void *vertex_data;
+#else
+ uint vertex_buf; /**< which cell->buffer[] contains the vertex data */
+#endif
const ushort *index_data;
float xmin, ymin, xmax, ymax;
boolean inline_indexes;
} ALIGN16_ATTRIB;
+struct cell_command_release_verts
+{
+ int opcode; /**< CELL_CMD_RELEASE_VERTS */
+ uint vertex_buf; /**< in [0, CELL_NUM_BUFFERS-1] */
+};
+
+
/** XXX unions don't seem to work */
struct cell_command
{
/** Allow prim indexes, verts to be inlined after RENDER command */
-#define ALLOW_INLINE_INDEXES 1
-#define ALLOW_INLINE_VERTS 1
+#define ALLOW_INLINE_INDEXES 01
+#define ALLOW_INLINE_VERTS 0
/**
uint prim;
uint vertex_size;
void *vertex_buffer;
+#if 1
+ uint vertex_buf;
+#endif
};
{
struct cell_vbuf_render *cvbr = cell_vbuf_render(vbr);
/*printf("Alloc verts %u * %u\n", vertex_size, nr_vertices);*/
+#if 0
assert(!cvbr->vertex_buffer);
cvbr->vertex_buffer = align_malloc(vertex_size * nr_vertices, 16);
+#else
+ assert(cvbr->vertex_buf == ~0);
+ cvbr->vertex_buf = cell_get_empty_buffer(cvbr->cell);
+ cvbr->vertex_buffer = cvbr->cell->buffer[cvbr->vertex_buf];
+ printf("%s vertex_buf = %u\n", __FUNCTION__, cvbr->vertex_buf);
+#endif
cvbr->vertex_size = vertex_size;
return cvbr->vertex_buffer;
}
static void
+cell_vbuf_release_vertices(struct vbuf_render *vbr, void *vertices,
+ unsigned vertex_size, unsigned vertices_used)
+{
+ struct cell_vbuf_render *cvbr = cell_vbuf_render(vbr);
+ struct cell_context *cell = cvbr->cell;
+
+ /*printf("Free verts %u * %u\n", vertex_size, vertices_used);*/
+#if 0
+ align_free(vertices);
+#else
+ printf("%s vertex_buf = %u count = %u\n",
+ __FUNCTION__, cvbr->vertex_buf, vertices_used);
+
+ {
+ struct cell_command_release_verts *release
+ = (struct cell_command_release_verts *)
+ cell_batch_alloc(cell, sizeof(struct cell_command_release_verts));
+ release->opcode = CELL_CMD_RELEASE_VERTS;
+ release->vertex_buf = cvbr->vertex_buf;
+ }
+
+ cvbr->vertex_buf = ~0;
+ cell_flush_int(&cell->pipe, 0x0);/*NEW*/
+#endif
+
+ assert(vertices == cvbr->vertex_buffer);
+ cvbr->vertex_buffer = NULL;
+}
+
+
+
+static void
cell_vbuf_set_primitive(struct vbuf_render *vbr, unsigned prim)
{
struct cell_vbuf_render *cvbr = cell_vbuf_render(vbr);
printf("%u %u %u, ", indices[i+0], indices[i+1], indices[i+2]);
}
printf("\n");
-#elif 0
+#elif 01
printf("cell_vbuf_draw() nr_indices = %u nr_verts = %u indexes = [%u %u %u ...]\n",
nr_indices, nr_vertices,
indices[0], indices[1], indices[2]);
const uint index_bytes = ROUNDUP4(nr_indices * 2);
const uint vertex_bytes = nr_vertices * 4 * cell->vertex_info.size;
+ const uint batch_size = sizeof(struct cell_command_render)
+ + index_bytes;
+
struct cell_command_render *render
= (struct cell_command_render *)
- cell_batch_alloc(cell, sizeof(*render));
+ cell_batch_alloc(cell, batch_size);
+
render->opcode = CELL_CMD_RENDER;
render->prim_type = cvbr->prim;
render->num_indexes = nr_indices;
- if (ALLOW_INLINE_INDEXES &&
- index_bytes <= cell_batch_free_space(cell)) {
- /* indices inlined, right after render cmd */
- void *dst = cell_batch_alloc(cell, index_bytes);
- memcpy(dst, indices, nr_indices * 2);
- render->inline_indexes = TRUE;
- render->index_data = NULL;
- }
- else {
- /* indices in separate buffer */
- render->inline_indexes = FALSE;
- render->index_data = indices;
- ASSERT_ALIGN16(render->index_data);
- }
+ /* append indices after render command */
+ memcpy(render + 1, indices, nr_indices * 2);
+ render->inline_indexes = TRUE;
+ render->index_data = NULL;
+
+ /* if there's room, append vertices after the indices, else leave
+ * vertices in the original/separate buffer.
+ */
render->vertex_size = 4 * cell->vertex_info.size;
render->num_verts = nr_vertices;
if (ALLOW_INLINE_VERTS &&
void *dst = cell_batch_alloc(cell, vertex_bytes);
memcpy(dst, vertices, vertex_bytes);
render->inline_verts = TRUE;
+#if 0
render->vertex_data = NULL;
+#else
+ render->vertex_buf = ~0;
+#endif
}
else {
render->inline_verts = FALSE;
+#if 0
render->vertex_data = vertices;
ASSERT_ALIGN16(render->vertex_data);
+#else
+ ASSERT(cvbr->vertex_buf >= 0);
+ render->vertex_buf = cvbr->vertex_buf;
+#endif
}
render->ymax = ymax;
}
-#if 01
+#if 0
/* XXX this is temporary */
cell_flush_int(&cell->pipe, PIPE_FLUSH_WAIT);
#endif
static void
-cell_vbuf_release_vertices(struct vbuf_render *vbr, void *vertices,
- unsigned vertex_size, unsigned vertices_used)
-{
- struct cell_vbuf_render *cvbr = cell_vbuf_render(vbr);
-
- /*printf("Free verts %u * %u\n", vertex_size, vertices_used);*/
- align_free(vertices);
-
- assert(vertices == cvbr->vertex_buffer);
- cvbr->vertex_buffer = NULL;
-}
-
-
-static void
cell_vbuf_destroy(struct vbuf_render *vbr)
{
struct cell_vbuf_render *cvbr = cell_vbuf_render(vbr);
cell->vbuf_render = CALLOC_STRUCT(cell_vbuf_render);
+#if 0
cell->vbuf_render->base.max_indices = CELL_MAX_VBUF_INDEXES;
cell->vbuf_render->base.max_vertex_buffer_bytes = CELL_MAX_VBUF_SIZE;
+#else
+ cell->vbuf_render->base.max_indices
+ = (CELL_BUFFER_SIZE
+ - sizeof(struct cell_command_render)
+ - sizeof(struct cell_command_release_verts))
+ / sizeof(ushort);
+ cell->vbuf_render->base.max_vertex_buffer_bytes = CELL_BUFFER_SIZE;
+#endif
cell->vbuf_render->base.get_vertex_info = cell_vbuf_get_vertex_info;
cell->vbuf_render->base.allocate_vertices = cell_vbuf_allocate_vertices;
cell->vbuf_render->base.destroy = cell_vbuf_destroy;
cell->vbuf_render->cell = cell;
+#if 1
+ cell->vbuf_render->vertex_buf = ~0;
+#endif
cell->vbuf = draw_vbuf_stage(cell->draw, &cell->vbuf_render->base);
}
}
+/**
+ * Tell the PPU that this SPU has finished copying a buffer to
+ * local store and that it may be reused by the PPU.
+ * This is done by writting a 16-byte batch-buffer-status block back into
+ * main memory (in cell_context->buffer_status[]).
+ */
+static void
+release_buffer(uint buffer)
+{
+ /* Evidently, using less than a 16-byte status doesn't work reliably */
+ static const uint status[4] ALIGN16_ATTRIB
+ = {CELL_BUFFER_STATUS_FREE, 0, 0, 0};
+
+ const uint index = 4 * (spu.init.id * CELL_NUM_BUFFERS + buffer);
+ uint *dst = spu.init.buffer_status + index;
+
+ ASSERT(buffer < CELL_NUM_BUFFERS);
+
+ mfc_put((void *) &status, /* src in local memory */
+ (unsigned int) dst, /* dst in main memory */
+ sizeof(status), /* size */
+ TAG_MISC, /* tag is unimportant */
+ 0, /* tid */
+ 0 /* rid */);
+}
+
/**
* For tiles whose status is TILE_STATUS_CLEAR, write solid-filled
printf(" bound: %g, %g .. %g, %g\n",
render->xmin, render->ymin, render->xmax, render->ymax);
*/
+ /*
printf("SPU %u: indices at %p vertices at %p\n",
spu.init.id,
render->index_data, render->vertex_data);
+ */
}
ASSERT(sizeof(*render) % 4 == 0);
+#if 0
ASSERT_ALIGN16(render->vertex_data);
+#else
+#endif
ASSERT_ALIGN16(render->index_data);
** Get vertex, index buffers if not inlined
**/
if (!render->inline_verts) {
+ void *src;
ASSERT(total_vertex_bytes % 16 == 0);
+#if 0
+ src = render->vertex_data;
+#else
+ spu.cur_vertex_buf = render->vertex_buf;
+ src = spu.init.buffers[render->vertex_buf];
+#endif
+
mfc_get(vertex_data, /* dest */
- (unsigned int) render->vertex_data, /* src */
+ (unsigned int) src,
total_vertex_bytes, /* size */
TAG_VERTEX_BUFFER,
0, /* tid */
/* vertices are after indexes, if inlined */
vertices = (const ubyte *) (render + 1) + *pos_incr * 4;
*pos_incr = *pos_incr + total_vertex_bytes / 4;
+ spu.cur_vertex_buf = ~0;
}
}
mask |= (1 << TAG_INDEX_BUFFER);
wait_on_mask_all(mask);
+#if 0
+ if (!render->inline_verts) {
+ printf("SPU %u: release vbuf %u\n", spu.init.id, render->vertex_buf);
+ release_buffer(render->vertex_buf);
+ }
+#endif
/**
** find tiles which intersect the prim bounding box
for (j = 0; j < render->num_indexes; j += 3) {
const float *v0, *v1, *v2;
+ if (indexes[j] == 0xffff) {
+ printf("index[%u] = 0xffff\n", j);
+ }
+
+ ASSERT(indexes[j] != 0xffff);
+ ASSERT(indexes[j+1] != 0xffff);
+ ASSERT(indexes[j+2] != 0xffff);
+
v0 = (const float *) (vertices + indexes[j+0] * vertex_size);
v1 = (const float *) (vertices + indexes[j+1] * vertex_size);
v2 = (const float *) (vertices + indexes[j+2] * vertex_size);
static void
+cmd_release_verts(const struct cell_command_release_verts *release)
+{
+ if (Debug)
+ printf("SPU %u: RELEASE VERTS %u\n",
+ spu.init.id, spu.cur_vertex_buf);
+ ASSERT(spu.cur_vertex_buf == release->vertex_buf);
+ release_buffer(release->vertex_buf);
+}
+
+
+static void
cmd_state_framebuffer(const struct cell_command_framebuffer *cmd)
{
if (Debug)
/**
- * Tell the PPU that this SPU has finished copying a buffer to
- * local store and that it may be reused by the PPU.
- * This is done by writting a 16-byte batch-buffer-status block back into
- * main memory (in cell_context->buffer_status[]).
- */
-static void
-release_buffer(uint buffer)
-{
- /* Evidently, using less than a 16-byte status doesn't work reliably */
- static const uint status[4] ALIGN16_ATTRIB
- = {CELL_BUFFER_STATUS_FREE, 0, 0, 0};
-
- const uint index = 4 * (spu.init.id * CELL_NUM_BUFFERS + buffer);
- uint *dst = spu.init.buffer_status + index;
-
- ASSERT(buffer < CELL_NUM_BUFFERS);
-
- /*
- printf("SPU %u: Set batch status buf=%u, index %u, at %p to FREE\n",
- spu.init.id, buffer, index, dst);
- */
-
- mfc_put((void *) &status, /* src in local memory */
- (unsigned int) dst, /* dst in main memory */
- sizeof(status), /* size */
- TAG_MISC, /* tag is unimportant */
- 0, /* tid */
- 0 /* rid */);
-}
-
-
-/**
* Execute a batch of commands
* The opcode param encodes the location of the buffer and its size.
*/
wait_on_mask(1 << TAG_BATCH_BUFFER);
/* Tell PPU we're done copying the buffer to local store */
+ if (Debug)
+ printf("SPU %u: release batch buf %u\n", spu.init.id, buf);
release_buffer(buf);
for (pos = 0; pos < usize; /* no incr */) {
pos += sizeof(*render) / 4 + pos_incr;
}
break;
+ case CELL_CMD_RELEASE_VERTS:
+ {
+ struct cell_command_release_verts *release
+ = (struct cell_command_release_verts *) &buffer[pos];
+ cmd_release_verts(release);
+ ASSERT(sizeof(*release) == 8);
+ pos += sizeof(*release) / 4;
+ }
+ break;
case CELL_CMD_FINISH:
cmd_finish();
pos += 1;
/* XXX more state to come */
+ uint cur_vertex_buf;
+
} ALIGN16_ATTRIB;
projects / platform / upstream / mesa.git / commitdiff