view->base.format != PIPE_FORMAT_X32_S8X24_UINT)
v3d_update_shadow_texture(pctx, &view->base);
- v3d_flush_jobs_writing_resource(v3d, view->texture, false);
+ v3d_flush_jobs_writing_resource(v3d, view->texture,
+ V3D_FLUSH_DEFAULT);
}
/* Flush writes to UBOs. */
foreach_bit(i, v3d->constbuf[s].enabled_mask) {
struct pipe_constant_buffer *cb = &v3d->constbuf[s].cb[i];
- if (cb->buffer)
- v3d_flush_jobs_writing_resource(v3d, cb->buffer, false);
+ if (cb->buffer) {
+ v3d_flush_jobs_writing_resource(v3d, cb->buffer,
+ V3D_FLUSH_DEFAULT);
+ }
+ }
+
+ /* Flush reads/writes to our SSBOs */
+ foreach_bit(i, v3d->ssbo[s].enabled_mask) {
+ struct pipe_shader_buffer *sb = &v3d->ssbo[s].sb[i];
+ if (sb->buffer) {
+ v3d_flush_jobs_reading_resource(v3d, sb->buffer,
+ V3D_FLUSH_NOT_CURRENT_JOB);
+ }
}
- /* Flush writes to our image views */
+ /* Flush reads/writes to our image views */
foreach_bit(i, v3d->shaderimg[s].enabled_mask) {
struct v3d_image_view *view = &v3d->shaderimg[s].si[i];
- v3d_flush_jobs_writing_resource(v3d, view->base.resource,
- false);
+ v3d_flush_jobs_reading_resource(v3d, view->base.resource,
+ V3D_FLUSH_NOT_CURRENT_JOB);
}
/* Flush writes to our vertex buffers (i.e. from transform feedback) */
struct pipe_vertex_buffer *vb = &v3d->vertexbuf.vb[i];
v3d_flush_jobs_writing_resource(v3d, vb->buffer.resource,
- false);
+ V3D_FLUSH_DEFAULT);
}
}
}
const struct pipe_stream_output_target *target =
so->targets[i];
- v3d_flush_jobs_reading_resource(v3d, target->buffer);
+ v3d_flush_jobs_reading_resource(v3d, target->buffer,
+ V3D_FLUSH_DEFAULT);
}
}
}
v3d_write_uniforms(v3d, v3d->prog.cs,
PIPE_SHADER_VERTEX);
+ /* Update the cache dirty flag based on the shader progs data */
+ job->tmu_dirty_rcl |= v3d->prog.cs->prog_data.vs->base.tmu_dirty_rcl;
+ job->tmu_dirty_rcl |= v3d->prog.vs->prog_data.vs->base.tmu_dirty_rcl;
+ job->tmu_dirty_rcl |= v3d->prog.fs->prog_data.fs->base.tmu_dirty_rcl;
+
/* See GFXH-930 workaround below */
uint32_t num_elements_to_emit = MAX2(vtx->num_elements, 1);
uint32_t shader_rec_offset =
v3d_bo_unreference(&cs_uniforms.bo);
v3d_bo_unreference(&vs_uniforms.bo);
v3d_bo_unreference(&fs_uniforms.bo);
-
- job->shader_rec_count++;
}
/**
- * Computes the various transform feedback statistics, since they can't be
- * recorded by CL packets.
+ * Updates the number of primitvies generated from the number of vertices
+ * to draw. We do this here instead of using PRIMITIVE_COUNTS_FEEDBACK because
+ * using the GPU packet for this might require sync waits and this is trivial
+ * to handle in the CPU instead.
*/
static void
-v3d_tf_statistics_record(struct v3d_context *v3d,
- const struct pipe_draw_info *info)
+v3d_update_primitives_generated_counter(struct v3d_context *v3d,
+ const struct pipe_draw_info *info)
{
if (!v3d->active_queries)
return;
uint32_t prims = u_prims_for_vertices(info->mode, info->count);
v3d->prims_generated += prims;
-
- if (v3d->streamout.num_targets <= 0)
- return;
-
- /* XXX: Only count if we didn't overflow. */
- v3d->tf_prims_generated += prims;
- for (int i = 0; i < v3d->streamout.num_targets; i++) {
- struct v3d_stream_output_target *target =
- v3d_stream_output_target(v3d->streamout.targets[i]);
- target->recorded_vertex_count += info->count;
- }
}
static void
if (info->indirect) {
v3d_flush_jobs_writing_resource(v3d, info->indirect->buffer,
- false);
+ V3D_FLUSH_DEFAULT);
}
v3d_predraw_check_outputs(pctx);
+ /* If transform feedback is active and we are switching primitive type
+ * we need to submit the job before drawing and update the vertex count
+ * written to TF based on the primitive type since we will need to
+ * know the exact vertex count if the application decides to call
+ * glDrawTransformFeedback() later.
+ */
+ if (v3d->streamout.num_targets > 0 &&
+ u_base_prim_type(info->mode) != u_base_prim_type(v3d->prim_mode)) {
+ v3d_tf_update_counters(v3d);
+ }
+
struct v3d_job *job = v3d_get_job_for_fbo(v3d);
/* If vertex texturing depends on the output of rendering, we need to
job->submit.in_sync_bcl = v3d->out_sync;
}
- /* Mark SSBOs as being written. We don't actually know which ones are
- * read vs written, so just assume the worst
+ /* Mark SSBOs and images as being written. We don't actually know
+ * which ones are read vs written, so just assume the worst.
*/
for (int s = 0; s < PIPE_SHADER_COMPUTE; s++) {
foreach_bit(i, v3d->ssbo[s].enabled_mask) {
prim_tf_enable = (V3D_PRIM_POINTS_TF - V3D_PRIM_POINTS);
#endif
- v3d_tf_statistics_record(v3d, info);
+ v3d_update_primitives_generated_counter(v3d, info);
/* Note that the primitive type fields match with OpenGL/gallium
* definitions, up to but not including QUADS.
}
}
- job->draw_calls_queued++;
-
if (info->has_user_indices)
pipe_resource_reference(&prsc, NULL);
} else {
info->indirect->offset);
}
} else if (info->instance_count > 1) {
+ struct pipe_stream_output_target *so =
+ info->count_from_stream_output;
+ uint32_t vert_count = so ?
+ v3d_stream_output_target_get_vertex_count(so) :
+ info->count;
cl_emit(&job->bcl, VERTEX_ARRAY_INSTANCED_PRIMS, prim) {
prim.mode = info->mode | prim_tf_enable;
prim.index_of_first_vertex = info->start;
prim.number_of_instances = info->instance_count;
- prim.instance_length = info->count;
+ prim.instance_length = vert_count;
}
} else {
+ struct pipe_stream_output_target *so =
+ info->count_from_stream_output;
+ uint32_t vert_count = so ?
+ v3d_stream_output_target_get_vertex_count(so) :
+ info->count;
cl_emit(&job->bcl, VERTEX_ARRAY_PRIMS, prim) {
prim.mode = info->mode | prim_tf_enable;
- prim.length = info->count;
+ prim.length = vert_count;
prim.index_of_first_vertex = info->start;
}
}
cl_emit(&job->bcl, TRANSFORM_FEEDBACK_FLUSH_AND_COUNT, flush);
job->draw_calls_queued++;
+ if (v3d->streamout.num_targets)
+ job->tf_draw_calls_queued++;
/* Increment the TF offsets by how many verts we wrote. XXX: This
* needs some clamping to the buffer size.