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path: root/src/gallium/drivers/nvc0/nvc0_push.c
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#include "pipe/p_context.h"
#include "pipe/p_state.h"
#include "util/u_inlines.h"
#include "util/u_format.h"
#include "translate/translate.h"

#include "nvc0_context.h"
#include "nvc0_resource.h"

#include "nvc0_3d.xml.h"

struct push_context {
   struct nouveau_pushbuf *push;

   void *idxbuf;

   uint32_t vertex_words;
   uint32_t packet_vertex_limit;

   struct translate *translate;

   boolean primitive_restart;
   boolean need_vertex_id;
   uint32_t prim;
   uint32_t restart_index;
   uint32_t instance_id;

   struct {
      int buffer;
      float value;
      uint8_t *data;
      unsigned offset;
      unsigned stride;
   } edgeflag;
};

static void
init_push_context(struct nvc0_context *nvc0, struct push_context *ctx)
{
   struct pipe_vertex_element *ve;

   ctx->push = nvc0->base.pushbuf;
   ctx->translate = nvc0->vertex->translate;

   if (likely(nvc0->vertex->num_elements < 32))
      ctx->need_vertex_id = nvc0->vertprog->vp.need_vertex_id;
   else
      ctx->need_vertex_id = FALSE;

   ctx->edgeflag.buffer = -1;
   ctx->edgeflag.value = 0.5f;

   if (unlikely(nvc0->vertprog->vp.edgeflag < PIPE_MAX_ATTRIBS)) {
      ve = &nvc0->vertex->element[nvc0->vertprog->vp.edgeflag].pipe;
      ctx->edgeflag.buffer = ve->vertex_buffer_index;
      ctx->edgeflag.offset = ve->src_offset;
      ctx->packet_vertex_limit = 1;
   } else {
      ctx->packet_vertex_limit = nvc0->vertex->vtx_per_packet_max;
      if (unlikely(ctx->need_vertex_id))
         ctx->packet_vertex_limit = 1;
   }

   ctx->vertex_words = nvc0->vertex->vtx_size;
}

static INLINE void
set_edgeflag(struct push_context *ctx, unsigned vtx_id)
{
   float f = *(float *)(ctx->edgeflag.data + vtx_id * ctx->edgeflag.stride);

   if (ctx->edgeflag.value != f) {
      ctx->edgeflag.value = f;
      IMMED_NVC0(ctx->push, NVC0_3D(EDGEFLAG), f ? 1 : 0);
   }
}

static INLINE void
set_vertexid(struct push_context *ctx, uint32_t vtx_id)
{
#if 0
   BEGIN_NVC0(ctx->push, NVC0_3D(VERTEX_ID), 1); /* broken on nvc0 */
#else
   BEGIN_NVC0(ctx->push, NVC0_3D(VERTEX_DATA), 1); /* as last attribute */
#endif
   PUSH_DATA (ctx->push, vtx_id);
}

static INLINE unsigned
prim_restart_search_i08(uint8_t *elts, unsigned push, uint8_t index)
{
   unsigned i;
   for (i = 0; i < push; ++i)
      if (elts[i] == index)
         break;
   return i;
}

static INLINE unsigned
prim_restart_search_i16(uint16_t *elts, unsigned push, uint16_t index)
{
   unsigned i;
   for (i = 0; i < push; ++i)
      if (elts[i] == index)
         break;
   return i;
}

static INLINE unsigned
prim_restart_search_i32(uint32_t *elts, unsigned push, uint32_t index)
{
   unsigned i;
   for (i = 0; i < push; ++i)
      if (elts[i] == index)
         break;
   return i;
}

static void
emit_vertices_i08(struct push_context *ctx, unsigned start, unsigned count)
{
   uint8_t *restrict elts = (uint8_t *)ctx->idxbuf + start;

   while (count) {
      unsigned push = MIN2(count, ctx->packet_vertex_limit);
      unsigned size, nr;

      nr = push;
      if (ctx->primitive_restart)
         nr = prim_restart_search_i08(elts, push, ctx->restart_index);

      if (unlikely(ctx->edgeflag.buffer >= 0) && likely(nr))
         set_edgeflag(ctx, elts[0]);

      size = ctx->vertex_words * nr;

      BEGIN_NIC0(ctx->push, NVC0_3D(VERTEX_DATA), size);

      ctx->translate->run_elts8(ctx->translate, elts, nr, 0, ctx->instance_id,
                                ctx->push->cur);
      ctx->push->cur += size;

      if (unlikely(ctx->need_vertex_id) && likely(size))
         set_vertexid(ctx, elts[0]);

      count -= nr;
      elts += nr;

      if (nr != push) {
         count--;
         elts++;
         BEGIN_NVC0(ctx->push, NVC0_3D(VERTEX_END_GL), 2);
         PUSH_DATA (ctx->push, 0);
         PUSH_DATA (ctx->push, NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_CONT |
                    (ctx->prim & ~NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_NEXT));
      }
   }
}

static void
emit_vertices_i16(struct push_context *ctx, unsigned start, unsigned count)
{
   uint16_t *restrict elts = (uint16_t *)ctx->idxbuf + start;

   while (count) {
      unsigned push = MIN2(count, ctx->packet_vertex_limit);
      unsigned size, nr;

      nr = push;
      if (ctx->primitive_restart)
         nr = prim_restart_search_i16(elts, push, ctx->restart_index);

      if (unlikely(ctx->edgeflag.buffer >= 0) && likely(nr))
         set_edgeflag(ctx, elts[0]);

      size = ctx->vertex_words * nr;

      BEGIN_NIC0(ctx->push, NVC0_3D(VERTEX_DATA), size);

      ctx->translate->run_elts16(ctx->translate, elts, nr, 0, ctx->instance_id,
                                 ctx->push->cur);
      ctx->push->cur += size;

      if (unlikely(ctx->need_vertex_id))
         set_vertexid(ctx, elts[0]);

      count -= nr;
      elts += nr;

      if (nr != push) {
         count--;
         elts++;
         BEGIN_NVC0(ctx->push, NVC0_3D(VERTEX_END_GL), 2);
         PUSH_DATA (ctx->push, 0);
         PUSH_DATA (ctx->push, NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_CONT |
                    (ctx->prim & ~NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_NEXT));
      }
   }
}

static void
emit_vertices_i32(struct push_context *ctx, unsigned start, unsigned count)
{
   uint32_t *restrict elts = (uint32_t *)ctx->idxbuf + start;

   while (count) {
      unsigned push = MIN2(count, ctx->packet_vertex_limit);
      unsigned size, nr;

      nr = push;
      if (ctx->primitive_restart)
         nr = prim_restart_search_i32(elts, push, ctx->restart_index);

      if (unlikely(ctx->edgeflag.buffer >= 0) && likely(nr))
         set_edgeflag(ctx, elts[0]);

      size = ctx->vertex_words * nr;

      BEGIN_NIC0(ctx->push, NVC0_3D(VERTEX_DATA), size);

      ctx->translate->run_elts(ctx->translate, elts, nr, 0, ctx->instance_id,
                               ctx->push->cur);
      ctx->push->cur += size;

      if (unlikely(ctx->need_vertex_id))
         set_vertexid(ctx, elts[0]);

      count -= nr;
      elts += nr;

      if (nr != push) {
         count--;
         elts++;
         BEGIN_NVC0(ctx->push, NVC0_3D(VERTEX_END_GL), 2);
         PUSH_DATA (ctx->push, 0);
         PUSH_DATA (ctx->push, NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_CONT |
                    (ctx->prim & ~NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_NEXT));
      }
   }
}

static void
emit_vertices_seq(struct push_context *ctx, unsigned start, unsigned count)
{
   while (count) {
      unsigned push = MIN2(count, ctx->packet_vertex_limit);
      unsigned size = ctx->vertex_words * push;

      if (unlikely(ctx->edgeflag.buffer >= 0))
         set_edgeflag(ctx, start);

      BEGIN_NIC0(ctx->push, NVC0_3D(VERTEX_DATA), size);

      ctx->translate->run(ctx->translate, start, push, 0, ctx->instance_id,
                          ctx->push->cur);
      ctx->push->cur += size;

      if (unlikely(ctx->need_vertex_id))
         set_vertexid(ctx, start);

      count -= push;
      start += push;
   }
}


#define NVC0_PRIM_GL_CASE(n) \
   case PIPE_PRIM_##n: return NVC0_3D_VERTEX_BEGIN_GL_PRIMITIVE_##n

static INLINE unsigned
nvc0_prim_gl(unsigned prim)
{
   switch (prim) {
   NVC0_PRIM_GL_CASE(POINTS);
   NVC0_PRIM_GL_CASE(LINES);
   NVC0_PRIM_GL_CASE(LINE_LOOP);
   NVC0_PRIM_GL_CASE(LINE_STRIP);
   NVC0_PRIM_GL_CASE(TRIANGLES);
   NVC0_PRIM_GL_CASE(TRIANGLE_STRIP);
   NVC0_PRIM_GL_CASE(TRIANGLE_FAN);
   NVC0_PRIM_GL_CASE(QUADS);
   NVC0_PRIM_GL_CASE(QUAD_STRIP);
   NVC0_PRIM_GL_CASE(POLYGON);
   NVC0_PRIM_GL_CASE(LINES_ADJACENCY);
   NVC0_PRIM_GL_CASE(LINE_STRIP_ADJACENCY);
   NVC0_PRIM_GL_CASE(TRIANGLES_ADJACENCY);
   NVC0_PRIM_GL_CASE(TRIANGLE_STRIP_ADJACENCY);
   /*
   NVC0_PRIM_GL_CASE(PATCHES); */
   default:
      return NVC0_3D_VERTEX_BEGIN_GL_PRIMITIVE_POINTS;
      break;
   }
}

void
nvc0_push_vbo(struct nvc0_context *nvc0, const struct pipe_draw_info *info)
{
   struct push_context ctx;
   unsigned i, index_size;
   unsigned inst_count = info->instance_count;
   unsigned vert_count = info->count;
   boolean apply_bias = info->indexed && info->index_bias;

   init_push_context(nvc0, &ctx);

   for (i = 0; i < nvc0->num_vtxbufs; ++i) {
      uint8_t *data;
      struct pipe_vertex_buffer *vb = &nvc0->vtxbuf[i];
      struct nv04_resource *res = nv04_resource(vb->buffer);

      data = nouveau_resource_map_offset(&nvc0->base, res,
                                         vb->buffer_offset, NOUVEAU_BO_RD);

      if (apply_bias && likely(!(nvc0->vertex->instance_bufs & (1 << i))))
         data += info->index_bias * vb->stride;

      ctx.translate->set_buffer(ctx.translate, i, data, vb->stride, ~0);

      if (unlikely(i == ctx.edgeflag.buffer)) {
         ctx.edgeflag.data = data + ctx.edgeflag.offset;
         ctx.edgeflag.stride = vb->stride;
      }
   }

   if (info->indexed) {
      ctx.idxbuf =
         nouveau_resource_map_offset(&nvc0->base,
                                     nv04_resource(nvc0->idxbuf.buffer),
                                     nvc0->idxbuf.offset, NOUVEAU_BO_RD);
      if (!ctx.idxbuf)
         return;
      index_size = nvc0->idxbuf.index_size;
      ctx.primitive_restart = info->primitive_restart;
      ctx.restart_index = info->restart_index;
   } else {
      ctx.idxbuf = NULL;
      index_size = 0;
      ctx.primitive_restart = FALSE;
      ctx.restart_index = 0;

      if (info->count_from_stream_output) {
         struct pipe_context *pipe = &nvc0->base.pipe;
         struct nvc0_so_target *targ;
         targ = nvc0_so_target(info->count_from_stream_output);
         pipe->get_query_result(pipe, targ->pq, TRUE, (void*)&vert_count);
         vert_count /= targ->stride;
      }
   }

   ctx.instance_id = info->start_instance;
   ctx.prim = nvc0_prim_gl(info->mode);

   if (unlikely(ctx.need_vertex_id)) {
      const unsigned a = nvc0->vertex->num_elements;
      BEGIN_NVC0(ctx.push, NVC0_3D(VERTEX_ATTRIB_FORMAT(a)), 1);
      PUSH_DATA (ctx.push, (a << NVC0_3D_VERTEX_ATTRIB_FORMAT_BUFFER__SHIFT) |
                 NVC0_3D_VERTEX_ATTRIB_FORMAT_TYPE_FLOAT |
                 NVC0_3D_VERTEX_ATTRIB_FORMAT_SIZE_32);
      BEGIN_NVC0(ctx.push, NVC0_3D(VERTEX_ID_REPLACE), 1);
      PUSH_DATA (ctx.push, (((0x80 + a * 0x10) / 4) << 4) | 1);
   }

   while (inst_count--) {
      BEGIN_NVC0(ctx.push, NVC0_3D(VERTEX_BEGIN_GL), 1);
      PUSH_DATA (ctx.push, ctx.prim);
      switch (index_size) {
      case 0:
         emit_vertices_seq(&ctx, info->start, vert_count);
         break;
      case 1:
         emit_vertices_i08(&ctx, info->start, vert_count);
         break;
      case 2:
         emit_vertices_i16(&ctx, info->start, vert_count);
         break;
      case 4:
         emit_vertices_i32(&ctx, info->start, vert_count);
         break;
      default:
         assert(0);
         break;
      }
      IMMED_NVC0(ctx.push, NVC0_3D(VERTEX_END_GL), 0);

      ctx.instance_id++;
      ctx.prim |= NVC0_3D_VERTEX_BEGIN_GL_INSTANCE_NEXT;
   }

   if (unlikely(ctx.edgeflag.value == 0.0f))
      IMMED_NVC0(ctx.push, NVC0_3D(EDGEFLAG), 1);

   if (unlikely(ctx.need_vertex_id)) {
      const unsigned a = nvc0->vertex->num_elements;
      IMMED_NVC0(ctx.push, NVC0_3D(VERTEX_ID_REPLACE), 0);
      BEGIN_NVC0(ctx.push, NVC0_3D(VERTEX_ATTRIB_FORMAT(a)), 1);
      PUSH_DATA (ctx.push,
                 NVC0_3D_VERTEX_ATTRIB_FORMAT_CONST |
                 NVC0_3D_VERTEX_ATTRIB_FORMAT_TYPE_FLOAT |
                 NVC0_3D_VERTEX_ATTRIB_FORMAT_SIZE_32);
   }

   if (info->indexed)
      nouveau_resource_unmap(nv04_resource(nvc0->idxbuf.buffer));

   for (i = 0; i < nvc0->num_vtxbufs; ++i)
      nouveau_resource_unmap(nv04_resource(nvc0->vtxbuf[i].buffer));
}