/* * Copyright 2008 Ben Skeggs * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF * OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "pipe/p_context.h" #include "pipe/p_state.h" #include "util/u_inlines.h" #include "util/u_format.h" #include "nv50_context.h" static boolean nv50_push_elements_u08(struct nv50_context *, uint8_t *, unsigned); static boolean nv50_push_elements_u16(struct nv50_context *, uint16_t *, unsigned); static boolean nv50_push_elements_u32(struct nv50_context *, uint32_t *, unsigned); static boolean nv50_push_arrays(struct nv50_context *, unsigned, unsigned); #define NV50_USING_LOATHED_EDGEFLAG(ctx) ((ctx)->vertprog->cfg.edgeflag_in < 16) static INLINE unsigned nv50_prim(unsigned mode) { switch (mode) { case PIPE_PRIM_POINTS: return NV50TCL_VERTEX_BEGIN_POINTS; case PIPE_PRIM_LINES: return NV50TCL_VERTEX_BEGIN_LINES; case PIPE_PRIM_LINE_LOOP: return NV50TCL_VERTEX_BEGIN_LINE_LOOP; case PIPE_PRIM_LINE_STRIP: return NV50TCL_VERTEX_BEGIN_LINE_STRIP; case PIPE_PRIM_TRIANGLES: return NV50TCL_VERTEX_BEGIN_TRIANGLES; case PIPE_PRIM_TRIANGLE_STRIP: return NV50TCL_VERTEX_BEGIN_TRIANGLE_STRIP; case PIPE_PRIM_TRIANGLE_FAN: return NV50TCL_VERTEX_BEGIN_TRIANGLE_FAN; case PIPE_PRIM_QUADS: return NV50TCL_VERTEX_BEGIN_QUADS; case PIPE_PRIM_QUAD_STRIP: return NV50TCL_VERTEX_BEGIN_QUAD_STRIP; case PIPE_PRIM_POLYGON: return NV50TCL_VERTEX_BEGIN_POLYGON; case PIPE_PRIM_LINES_ADJACENCY: return NV50TCL_VERTEX_BEGIN_LINES_ADJACENCY; case PIPE_PRIM_LINE_STRIP_ADJACENCY: return NV50TCL_VERTEX_BEGIN_LINE_STRIP_ADJACENCY; case PIPE_PRIM_TRIANGLES_ADJACENCY: return NV50TCL_VERTEX_BEGIN_TRIANGLES_ADJACENCY; case PIPE_PRIM_TRIANGLE_STRIP_ADJACENCY: return NV50TCL_VERTEX_BEGIN_TRIANGLE_STRIP_ADJACENCY; default: break; } NOUVEAU_ERR("invalid primitive type %d\n", mode); return NV50TCL_VERTEX_BEGIN_POINTS; } static INLINE uint32_t nv50_vbo_type_to_hw(enum pipe_format format) { const struct util_format_description *desc; desc = util_format_description(format); assert(desc); switch (desc->channel[0].type) { case UTIL_FORMAT_TYPE_FLOAT: return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_FLOAT; case UTIL_FORMAT_TYPE_UNSIGNED: if (desc->channel[0].normalized) { return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_UNORM; } return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_USCALED; case UTIL_FORMAT_TYPE_SIGNED: if (desc->channel[0].normalized) { return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_SNORM; } return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_SSCALED; /* case PIPE_FORMAT_TYPE_UINT: return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_UINT; case PIPE_FORMAT_TYPE_SINT: return NV50TCL_VERTEX_ARRAY_ATTRIB_TYPE_SINT; */ default: return 0; } } static INLINE uint32_t nv50_vbo_size_to_hw(unsigned size, unsigned nr_c) { static const uint32_t hw_values[] = { 0, 0, 0, 0, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_8, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_8_8, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_8_8_8, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_8_8_8_8, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_16, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_16_16, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_16_16_16, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_16_16_16_16, 0, 0, 0, 0, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_32, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_32_32, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_32_32_32, NV50TCL_VERTEX_ARRAY_ATTRIB_FORMAT_32_32_32_32 }; /* we'd also have R11G11B10 and R10G10B10A2 */ assert(nr_c > 0 && nr_c <= 4); if (size > 32) return 0; size >>= (3 - 2); return hw_values[size + (nr_c - 1)]; } static INLINE uint32_t nv50_vbo_vtxelt_to_hw(struct pipe_vertex_element *ve) { uint32_t hw_type, hw_size; enum pipe_format pf = ve->src_format; const struct util_format_description *desc; unsigned size, nr_components; desc = util_format_description(pf); assert(desc); size = util_format_get_component_bits(pf, UTIL_FORMAT_COLORSPACE_RGB, 0); nr_components = util_format_get_nr_components(pf); hw_type = nv50_vbo_type_to_hw(pf); hw_size = nv50_vbo_size_to_hw(size, nr_components); if (!hw_type || !hw_size) { NOUVEAU_ERR("unsupported vbo format: %s\n", util_format_name(pf)); abort(); return 0x24e80000; } if (desc->swizzle[0] == UTIL_FORMAT_SWIZZLE_Z) /* BGRA */ hw_size |= (1 << 31); /* no real swizzle bits :-( */ return (hw_type | hw_size); } /* For instanced drawing from user buffers, hitting the FIFO repeatedly * with the same vertex data is probably worse than uploading all data. */ static boolean nv50_upload_vtxbuf(struct nv50_context *nv50, unsigned i) { struct nv50_screen *nscreen = nv50->screen; struct pipe_screen *pscreen = &nscreen->base.base; struct pipe_buffer *buf = nscreen->strm_vbuf[i]; struct pipe_vertex_buffer *vb = &nv50->vtxbuf[i]; uint8_t *src; unsigned size = align(vb->buffer->size, 4096); if (buf && buf->size < size) pipe_buffer_reference(&nscreen->strm_vbuf[i], NULL); if (!nscreen->strm_vbuf[i]) { nscreen->strm_vbuf[i] = pipe_buffer_create( pscreen, 0, PIPE_BUFFER_USAGE_VERTEX, size); buf = nscreen->strm_vbuf[i]; } src = pipe_buffer_map(pscreen, vb->buffer, PIPE_BUFFER_USAGE_CPU_READ); if (!src) return FALSE; src += vb->buffer_offset; size = (vb->max_index + 1) * vb->stride + 16; /* + 16 is for stride 0 */ if (vb->buffer_offset + size > vb->buffer->size) size = vb->buffer->size - vb->buffer_offset; pipe_buffer_write(pscreen, buf, vb->buffer_offset, size, src); pipe_buffer_unmap(pscreen, vb->buffer); vb->buffer = buf; /* don't pipe_reference, this is a private copy */ return TRUE; } static void nv50_upload_user_vbufs(struct nv50_context *nv50) { unsigned i; if (nv50->vbo_fifo) nv50->dirty |= NV50_NEW_ARRAYS; if (!(nv50->dirty & NV50_NEW_ARRAYS)) return; for (i = 0; i < nv50->vtxbuf_nr; ++i) { if (nv50->vtxbuf[i].buffer->usage & PIPE_BUFFER_USAGE_VERTEX) continue; nv50_upload_vtxbuf(nv50, i); } } static void nv50_set_static_vtxattr(struct nv50_context *nv50, unsigned i, void *data) { struct nouveau_grobj *tesla = nv50->screen->tesla; struct nouveau_channel *chan = tesla->channel; float v[4]; unsigned nr_components = util_format_get_nr_components(nv50->vtxelt[i].src_format); util_format_read_4f(nv50->vtxelt[i].src_format, v, 0, data, 0, 0, 0, 1, 1); switch (nr_components) { case 4: BEGIN_RING(chan, tesla, NV50TCL_VTX_ATTR_4F_X(i), 4); OUT_RINGf (chan, v[0]); OUT_RINGf (chan, v[1]); OUT_RINGf (chan, v[2]); OUT_RINGf (chan, v[3]); break; case 3: BEGIN_RING(chan, tesla, NV50TCL_VTX_ATTR_3F_X(i), 3); OUT_RINGf (chan, v[0]); OUT_RINGf (chan, v[1]); OUT_RINGf (chan, v[2]); break; case 2: BEGIN_RING(chan, tesla, NV50TCL_VTX_ATTR_2F_X(i), 2); OUT_RINGf (chan, v[0]); OUT_RINGf (chan, v[1]); break; case 1: BEGIN_RING(chan, tesla, NV50TCL_VTX_ATTR_1F(i), 1); OUT_RINGf (chan, v[0]); break; default: assert(0); break; } } static unsigned init_per_instance_arrays_immd(struct nv50_context *nv50, unsigned startInstance, unsigned pos[16], unsigned step[16]) { struct nouveau_bo *bo; unsigned i, b, count = 0; for (i = 0; i < nv50->vtxelt_nr; ++i) { if (!nv50->vtxelt[i].instance_divisor) continue; ++count; b = nv50->vtxelt[i].vertex_buffer_index; pos[i] = nv50->vtxelt[i].src_offset + nv50->vtxbuf[b].buffer_offset + startInstance * nv50->vtxbuf[b].stride; step[i] = startInstance % nv50->vtxelt[i].instance_divisor; bo = nouveau_bo(nv50->vtxbuf[b].buffer); if (!bo->map) nouveau_bo_map(bo, NOUVEAU_BO_RD); nv50_set_static_vtxattr(nv50, i, (uint8_t *)bo->map + pos[i]); } return count; } static unsigned init_per_instance_arrays(struct nv50_context *nv50, unsigned startInstance, unsigned pos[16], unsigned step[16]) { struct nouveau_grobj *tesla = nv50->screen->tesla; struct nouveau_channel *chan = tesla->channel; struct nouveau_bo *bo; struct nouveau_stateobj *so; unsigned i, b, count = 0; const uint32_t rl = NOUVEAU_BO_VRAM | NOUVEAU_BO_GART | NOUVEAU_BO_RD; if (nv50->vbo_fifo) return init_per_instance_arrays_immd(nv50, startInstance, pos, step); so = so_new(nv50->vtxelt_nr, nv50->vtxelt_nr * 2, nv50->vtxelt_nr * 2); for (i = 0; i < nv50->vtxelt_nr; ++i) { if (!nv50->vtxelt[i].instance_divisor) continue; ++count; b = nv50->vtxelt[i].vertex_buffer_index; pos[i] = nv50->vtxelt[i].src_offset + nv50->vtxbuf[b].buffer_offset + startInstance * nv50->vtxbuf[b].stride; if (!startInstance) { step[i] = 0; continue; } step[i] = startInstance % nv50->vtxelt[i].instance_divisor; bo = nouveau_bo(nv50->vtxbuf[b].buffer); so_method(so, tesla, NV50TCL_VERTEX_ARRAY_START_HIGH(i), 2); so_reloc (so, bo, pos[i], rl | NOUVEAU_BO_HIGH, 0, 0); so_reloc (so, bo, pos[i], rl | NOUVEAU_BO_LOW, 0, 0); } if (count && startInstance) { so_ref (so, &nv50->state.instbuf); /* for flush notify */ so_emit(chan, nv50->state.instbuf); } so_ref (NULL, &so); return count; } static void step_per_instance_arrays_immd(struct nv50_context *nv50, unsigned pos[16], unsigned step[16]) { struct nouveau_bo *bo; unsigned i, b; for (i = 0; i < nv50->vtxelt_nr; ++i) { if (!nv50->vtxelt[i].instance_divisor) continue; if (++step[i] != nv50->vtxelt[i].instance_divisor) continue; b = nv50->vtxelt[i].vertex_buffer_index; bo = nouveau_bo(nv50->vtxbuf[b].buffer); step[i] = 0; pos[i] += nv50->vtxbuf[b].stride; nv50_set_static_vtxattr(nv50, i, (uint8_t *)bo->map + pos[i]); } } static void step_per_instance_arrays(struct nv50_context *nv50, unsigned pos[16], unsigned step[16]) { struct nouveau_grobj *tesla = nv50->screen->tesla; struct nouveau_channel *chan = tesla->channel; struct nouveau_bo *bo; struct nouveau_stateobj *so; unsigned i, b; const uint32_t rl = NOUVEAU_BO_VRAM | NOUVEAU_BO_GART | NOUVEAU_BO_RD; if (nv50->vbo_fifo) { step_per_instance_arrays_immd(nv50, pos, step); return; } so = so_new(nv50->vtxelt_nr, nv50->vtxelt_nr * 2, nv50->vtxelt_nr * 2); for (i = 0; i < nv50->vtxelt_nr; ++i) { if (!nv50->vtxelt[i].instance_divisor) continue; b = nv50->vtxelt[i].vertex_buffer_index; if (++step[i] == nv50->vtxelt[i].instance_divisor) { step[i] = 0; pos[i] += nv50->vtxbuf[b].stride; } bo = nouveau_bo(nv50->vtxbuf[b].buffer); so_method(so, tesla, NV50TCL_VERTEX_ARRAY_START_HIGH(i), 2); so_reloc (so, bo, pos[i], rl | NOUVEAU_BO_HIGH, 0, 0); so_reloc (so, bo, pos[i], rl | NOUVEAU_BO_LOW, 0, 0); } so_ref (so, &nv50->state.instbuf); /* for flush notify */ so_ref (NULL, &so); so_emit(chan, nv50->state.instbuf); } static INLINE void nv50_unmap_vbufs(struct nv50_context *nv50) { unsigned i; for (i = 0; i < nv50->vtxbuf_nr; ++i) if (nouveau_bo(nv50->vtxbuf[i].buffer)->map) nouveau_bo_unmap(nouveau_bo(nv50->vtxbuf[i].buffer)); } void nv50_draw_arrays_instanced(struct pipe_context *pipe, unsigned mode, unsigned start, unsigned count, unsigned startInstance, unsigned instanceCount) { struct nv50_context *nv50 = nv50_context(pipe); struct nouveau_channel *chan = nv50->screen->tesla->channel; struct nouveau_grobj *tesla = nv50->screen->tesla; unsigned i, nz_divisors; unsigned step[16], pos[16]; if (!NV50_USING_LOATHED_EDGEFLAG(nv50)) nv50_upload_user_vbufs(nv50); nv50_state_validate(nv50); nz_divisors = init_per_instance_arrays(nv50, startInstance, pos, step); BEGIN_RING(chan, tesla, NV50TCL_CB_ADDR, 2); OUT_RING (chan, NV50_CB_AUX | (24 << 8)); OUT_RING (chan, startInstance); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BEGIN, 1); OUT_RING (chan, nv50_prim(mode)); if (nv50->vbo_fifo) nv50_push_arrays(nv50, start, count); else { BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BUFFER_FIRST, 2); OUT_RING (chan, start); OUT_RING (chan, count); } BEGIN_RING(chan, tesla, NV50TCL_VERTEX_END, 1); OUT_RING (chan, 0); for (i = 1; i < instanceCount; i++) { if (nz_divisors) /* any non-zero array divisors ? */ step_per_instance_arrays(nv50, pos, step); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BEGIN, 1); OUT_RING (chan, nv50_prim(mode) | (1 << 28)); if (nv50->vbo_fifo) nv50_push_arrays(nv50, start, count); else { BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BUFFER_FIRST, 2); OUT_RING (chan, start); OUT_RING (chan, count); } BEGIN_RING(chan, tesla, NV50TCL_VERTEX_END, 1); OUT_RING (chan, 0); } nv50_unmap_vbufs(nv50); so_ref(NULL, &nv50->state.instbuf); } void nv50_draw_arrays(struct pipe_context *pipe, unsigned mode, unsigned start, unsigned count) { struct nv50_context *nv50 = nv50_context(pipe); struct nouveau_channel *chan = nv50->screen->tesla->channel; struct nouveau_grobj *tesla = nv50->screen->tesla; boolean ret; nv50_state_validate(nv50); BEGIN_RING(chan, tesla, 0x142c, 1); OUT_RING (chan, 0); BEGIN_RING(chan, tesla, 0x142c, 1); OUT_RING (chan, 0); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BEGIN, 1); OUT_RING (chan, nv50_prim(mode)); if (nv50->vbo_fifo) ret = nv50_push_arrays(nv50, start, count); else { BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BUFFER_FIRST, 2); OUT_RING (chan, start); OUT_RING (chan, count); ret = TRUE; } BEGIN_RING(chan, tesla, NV50TCL_VERTEX_END, 1); OUT_RING (chan, 0); nv50_unmap_vbufs(nv50); /* XXX: not sure what to do if ret != TRUE: flush and retry? */ assert(ret); } static INLINE boolean nv50_draw_elements_inline_u08(struct nv50_context *nv50, uint8_t *map, unsigned start, unsigned count) { struct nouveau_channel *chan = nv50->screen->tesla->channel; struct nouveau_grobj *tesla = nv50->screen->tesla; map += start; if (nv50->vbo_fifo) return nv50_push_elements_u08(nv50, map, count); if (count & 1) { BEGIN_RING(chan, tesla, NV50TCL_VB_ELEMENT_U32, 1); OUT_RING (chan, map[0]); map++; count--; } while (count) { unsigned nr = count > 2046 ? 2046 : count; int i; BEGIN_RING_NI(chan, tesla, NV50TCL_VB_ELEMENT_U16, nr >> 1); for (i = 0; i < nr; i += 2) OUT_RING (chan, (map[i + 1] << 16) | map[i]); count -= nr; map += nr; } return TRUE; } static INLINE boolean nv50_draw_elements_inline_u16(struct nv50_context *nv50, uint16_t *map, unsigned start, unsigned count) { struct nouveau_channel *chan = nv50->screen->tesla->channel; struct nouveau_grobj *tesla = nv50->screen->tesla; map += start; if (nv50->vbo_fifo) return nv50_push_elements_u16(nv50, map, count); if (count & 1) { BEGIN_RING(chan, tesla, NV50TCL_VB_ELEMENT_U32, 1); OUT_RING (chan, map[0]); map++; count--; } while (count) { unsigned nr = count > 2046 ? 2046 : count; int i; BEGIN_RING_NI(chan, tesla, NV50TCL_VB_ELEMENT_U16, nr >> 1); for (i = 0; i < nr; i += 2) OUT_RING (chan, (map[i + 1] << 16) | map[i]); count -= nr; map += nr; } return TRUE; } static INLINE boolean nv50_draw_elements_inline_u32(struct nv50_context *nv50, uint32_t *map, unsigned start, unsigned count) { struct nouveau_channel *chan = nv50->screen->tesla->channel; struct nouveau_grobj *tesla = nv50->screen->tesla; map += start; if (nv50->vbo_fifo) return nv50_push_elements_u32(nv50, map, count); while (count) { unsigned nr = count > 2047 ? 2047 : count; BEGIN_RING_NI(chan, tesla, NV50TCL_VB_ELEMENT_U32, nr); OUT_RINGp (chan, map, nr); count -= nr; map += nr; } return TRUE; } static INLINE void nv50_draw_elements_inline(struct nv50_context *nv50, void *map, unsigned indexSize, unsigned start, unsigned count) { switch (indexSize) { case 1: nv50_draw_elements_inline_u08(nv50, map, start, count); break; case 2: nv50_draw_elements_inline_u16(nv50, map, start, count); break; case 4: nv50_draw_elements_inline_u32(nv50, map, start, count); break; } } void nv50_draw_elements_instanced(struct pipe_context *pipe, struct pipe_buffer *indexBuffer, unsigned indexSize, unsigned mode, unsigned start, unsigned count, unsigned startInstance, unsigned instanceCount) { struct nv50_context *nv50 = nv50_context(pipe); struct nouveau_grobj *tesla = nv50->screen->tesla; struct nouveau_channel *chan = tesla->channel; struct pipe_screen *pscreen = pipe->screen; void *map; unsigned i, nz_divisors; unsigned step[16], pos[16]; map = pipe_buffer_map(pscreen, indexBuffer, PIPE_BUFFER_USAGE_CPU_READ); if (!NV50_USING_LOATHED_EDGEFLAG(nv50)) nv50_upload_user_vbufs(nv50); nv50_state_validate(nv50); nz_divisors = init_per_instance_arrays(nv50, startInstance, pos, step); BEGIN_RING(chan, tesla, NV50TCL_CB_ADDR, 2); OUT_RING (chan, NV50_CB_AUX | (24 << 8)); OUT_RING (chan, startInstance); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BEGIN, 1); OUT_RING (chan, nv50_prim(mode)); nv50_draw_elements_inline(nv50, map, indexSize, start, count); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_END, 1); OUT_RING (chan, 0); for (i = 1; i < instanceCount; ++i) { if (nz_divisors) /* any non-zero array divisors ? */ step_per_instance_arrays(nv50, pos, step); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BEGIN, 1); OUT_RING (chan, nv50_prim(mode) | (1 << 28)); nv50_draw_elements_inline(nv50, map, indexSize, start, count); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_END, 1); OUT_RING (chan, 0); } nv50_unmap_vbufs(nv50); so_ref(NULL, &nv50->state.instbuf); } void nv50_draw_elements(struct pipe_context *pipe, struct pipe_buffer *indexBuffer, unsigned indexSize, unsigned mode, unsigned start, unsigned count) { struct nv50_context *nv50 = nv50_context(pipe); struct nouveau_channel *chan = nv50->screen->tesla->channel; struct nouveau_grobj *tesla = nv50->screen->tesla; struct pipe_screen *pscreen = pipe->screen; void *map; nv50_state_validate(nv50); BEGIN_RING(chan, tesla, 0x142c, 1); OUT_RING (chan, 0); BEGIN_RING(chan, tesla, 0x142c, 1); OUT_RING (chan, 0); BEGIN_RING(chan, tesla, NV50TCL_VERTEX_BEGIN, 1); OUT_RING (chan, nv50_prim(mode)); if (!nv50->vbo_fifo && indexSize == 4) { BEGIN_RING(chan, tesla, NV50TCL_VB_ELEMENT_U32 | 0x30000, 0); OUT_RING (chan, count); nouveau_pushbuf_submit(chan, nouveau_bo(indexBuffer), start << 2, count << 2); } else if (!nv50->vbo_fifo && indexSize == 2) { unsigned vb_start = (start & ~1); unsigned vb_end = (start + count + 1) & ~1; unsigned dwords = (vb_end - vb_start) >> 1; BEGIN_RING(chan, tesla, NV50TCL_VB_ELEMENT_U16_SETUP, 1); OUT_RING (chan, ((start & 1) << 31) | count); BEGIN_RING(chan, tesla, NV50TCL_VB_ELEMENT_U16 | 0x30000, 0); OUT_RING (chan, dwords); nouveau_pushbuf_submit(chan, nouveau_bo(indexBuffer), vb_start << 1, dwords << 2); BEGIN_RING(chan, tesla, NV50TCL_VB_ELEMENT_U16_SETUP, 1); OUT_RING (chan, 0); } else { map = pipe_buffer_map(pscreen, indexBuffer, PIPE_BUFFER_USAGE_CPU_READ); nv50_draw_elements_inline(nv50, map, indexSize, start, count); nv50_unmap_vbufs(nv50); pipe_buffer_unmap(pscreen, indexBuffer); } BEGIN_RING(chan, tesla, NV50TCL_VERTEX_END, 1); OUT_RING (chan, 0); } static INLINE boolean nv50_vbo_static_attrib(struct nv50_context *nv50, unsigned attrib, struct nouveau_stateobj **pso, struct pipe_vertex_element *ve, struct pipe_vertex_buffer *vb) { struct nouveau_stateobj *so; struct nouveau_grobj *tesla = nv50->screen->tesla; struct nouveau_bo *bo = nouveau_bo(vb->buffer); float v[4]; int ret; unsigned nr_components = util_format_get_nr_components(ve->src_format); ret = nouveau_bo_map(bo, NOUVEAU_BO_RD); if (ret) return FALSE; util_format_read_4f(ve->src_format, v, 0, (uint8_t *)bo->map + (vb->buffer_offset + ve->src_offset), 0, 0, 0, 1, 1); so = *pso; if (!so) *pso = so = so_new(nv50->vtxelt_nr, nv50->vtxelt_nr * 4, 0); switch (nr_components) { case 4: so_method(so, tesla, NV50TCL_VTX_ATTR_4F_X(attrib), 4); so_data (so, fui(v[0])); so_data (so, fui(v[1])); so_data (so, fui(v[2])); so_data (so, fui(v[3])); break; case 3: so_method(so, tesla, NV50TCL_VTX_ATTR_3F_X(attrib), 3); so_data (so, fui(v[0])); so_data (so, fui(v[1])); so_data (so, fui(v[2])); break; case 2: so_method(so, tesla, NV50TCL_VTX_ATTR_2F_X(attrib), 2); so_data (so, fui(v[0])); so_data (so, fui(v[1])); break; case 1: if (attrib == nv50->vertprog->cfg.edgeflag_in) { so_method(so, tesla, NV50TCL_EDGEFLAG_ENABLE, 1); so_data (so, v[0] ? 1 : 0); } so_method(so, tesla, NV50TCL_VTX_ATTR_1F(attrib), 1); so_data (so, fui(v[0])); break; default: nouveau_bo_unmap(bo); return FALSE; } nouveau_bo_unmap(bo); return TRUE; } void nv50_vbo_validate(struct nv50_context *nv50) { struct nouveau_grobj *tesla = nv50->screen->tesla; struct nouveau_stateobj *vtxbuf, *vtxfmt, *vtxattr; unsigned i, n_ve; /* don't validate if Gallium took away our buffers */ if (nv50->vtxbuf_nr == 0) return; nv50->vbo_fifo = 0; for (i = 0; i < nv50->vtxbuf_nr; ++i) if (nv50->vtxbuf[i].stride && !(nv50->vtxbuf[i].buffer->usage & PIPE_BUFFER_USAGE_VERTEX)) nv50->vbo_fifo = 0xffff; if (NV50_USING_LOATHED_EDGEFLAG(nv50)) nv50->vbo_fifo = 0xffff; /* vertprog can't set edgeflag */ n_ve = MAX2(nv50->vtxelt_nr, nv50->state.vtxelt_nr); vtxattr = NULL; vtxbuf = so_new(n_ve * 2, n_ve * 5, nv50->vtxelt_nr * 4); vtxfmt = so_new(1, n_ve, 0); so_method(vtxfmt, tesla, NV50TCL_VERTEX_ARRAY_ATTRIB(0), n_ve); for (i = 0; i < nv50->vtxelt_nr; i++) { struct pipe_vertex_element *ve = &nv50->vtxelt[i]; struct pipe_vertex_buffer *vb = &nv50->vtxbuf[ve->vertex_buffer_index]; struct nouveau_bo *bo = nouveau_bo(vb->buffer); uint32_t hw = nv50_vbo_vtxelt_to_hw(ve); if (!vb->stride && nv50_vbo_static_attrib(nv50, i, &vtxattr, ve, vb)) { so_data(vtxfmt, hw | (1 << 4)); so_method(vtxbuf, tesla, NV50TCL_VERTEX_ARRAY_FORMAT(i), 1); so_data (vtxbuf, 0); nv50->vbo_fifo &= ~(1 << i); continue; } if (nv50->vbo_fifo) { so_data (vtxfmt, hw | (ve->instance_divisor ? (1 << 4) : i)); so_method(vtxbuf, tesla, NV50TCL_VERTEX_ARRAY_FORMAT(i), 1); so_data (vtxbuf, 0); continue; } so_data(vtxfmt, hw | i); so_method(vtxbuf, tesla, NV50TCL_VERTEX_ARRAY_FORMAT(i), 3); so_data (vtxbuf, 0x20000000 | (ve->instance_divisor ? 0 : vb->stride)); so_reloc (vtxbuf, bo, vb->buffer_offset + ve->src_offset, NOUVEAU_BO_VRAM | NOUVEAU_BO_GART | NOUVEAU_BO_RD | NOUVEAU_BO_HIGH, 0, 0); so_reloc (vtxbuf, bo, vb->buffer_offset + ve->src_offset, NOUVEAU_BO_VRAM | NOUVEAU_BO_GART | NOUVEAU_BO_RD | NOUVEAU_BO_LOW, 0, 0); /* vertex array limits */ so_method(vtxbuf, tesla, NV50TCL_VERTEX_ARRAY_LIMIT_HIGH(i), 2); so_reloc (vtxbuf, bo, vb->buffer->size - 1, NOUVEAU_BO_VRAM | NOUVEAU_BO_GART | NOUVEAU_BO_RD | NOUVEAU_BO_HIGH, 0, 0); so_reloc (vtxbuf, bo, vb->buffer->size - 1, NOUVEAU_BO_VRAM | NOUVEAU_BO_GART | NOUVEAU_BO_RD | NOUVEAU_BO_LOW, 0, 0); } for (; i < n_ve; ++i) { so_data (vtxfmt, 0x7e080010); so_method(vtxbuf, tesla, NV50TCL_VERTEX_ARRAY_FORMAT(i), 1); so_data (vtxbuf, 0); } nv50->state.vtxelt_nr = nv50->vtxelt_nr; so_ref (vtxfmt, &nv50->state.vtxfmt); so_ref (vtxbuf, &nv50->state.vtxbuf); so_ref (vtxattr, &nv50->state.vtxattr); so_ref (NULL, &vtxbuf); so_ref (NULL, &vtxfmt); so_ref (NULL, &vtxattr); } typedef void (*pfn_push)(struct nouveau_channel *, void *); struct nv50_vbo_emitctx { pfn_push push[16]; uint8_t *map[16]; unsigned stride[16]; unsigned nr_ve; unsigned vtx_dwords; unsigned vtx_max; float edgeflag; unsigned ve_edgeflag; }; static INLINE void emit_vtx_next(struct nouveau_channel *chan, struct nv50_vbo_emitctx *emit) { unsigned i; for (i = 0; i < emit->nr_ve; ++i) { emit->push[i](chan, emit->map[i]); emit->map[i] += emit->stride[i]; } } static INLINE void emit_vtx(struct nouveau_channel *chan, struct nv50_vbo_emitctx *emit, uint32_t vi) { unsigned i; for (i = 0; i < emit->nr_ve; ++i) emit->push[i](chan, emit->map[i] + emit->stride[i] * vi); } static INLINE boolean nv50_map_vbufs(struct nv50_context *nv50) { int i; for (i = 0; i < nv50->vtxbuf_nr; ++i) { struct pipe_vertex_buffer *vb = &nv50->vtxbuf[i]; unsigned size = vb->stride * (vb->max_index + 1) + 16; if (nouveau_bo(vb->buffer)->map) continue; size = vb->stride * (vb->max_index + 1) + 16; size = MIN2(size, vb->buffer->size); if (!size) size = vb->buffer->size; if (nouveau_bo_map_range(nouveau_bo(vb->buffer), 0, size, NOUVEAU_BO_RD)) break; } if (i == nv50->vtxbuf_nr) return TRUE; for (; i >= 0; --i) nouveau_bo_unmap(nouveau_bo(nv50->vtxbuf[i].buffer)); return FALSE; } static void emit_b32_1(struct nouveau_channel *chan, void *data) { uint32_t *v = data; OUT_RING(chan, v[0]); } static void emit_b32_2(struct nouveau_channel *chan, void *data) { uint32_t *v = data; OUT_RING(chan, v[0]); OUT_RING(chan, v[1]); } static void emit_b32_3(struct nouveau_channel *chan, void *data) { uint32_t *v = data; OUT_RING(chan, v[0]); OUT_RING(chan, v[1]); OUT_RING(chan, v[2]); } static void emit_b32_4(struct nouveau_channel *chan, void *data) { uint32_t *v = data; OUT_RING(chan, v[0]); OUT_RING(chan, v[1]); OUT_RING(chan, v[2]); OUT_RING(chan, v[3]); } static void emit_b16_1(struct nouveau_channel *chan, void *data) { uint16_t *v = data; OUT_RING(chan, v[0]); } static void emit_b16_3(struct nouveau_channel *chan, void *data) { uint16_t *v = data; OUT_RING(chan, (v[1] << 16) | v[0]); OUT_RING(chan, v[2]); } static void emit_b08_1(struct nouveau_channel *chan, void *data) { uint8_t *v = data; OUT_RING(chan, v[0]); } static void emit_b08_3(struct nouveau_channel *chan, void *data) { uint8_t *v = data; OUT_RING(chan, (v[2] << 16) | (v[1] << 8) | v[0]); } static boolean emit_prepare(struct nv50_context *nv50, struct nv50_vbo_emitctx *emit, unsigned start) { unsigned i; if (nv50_map_vbufs(nv50) == FALSE) return FALSE; emit->ve_edgeflag = nv50->vertprog->cfg.edgeflag_in; emit->edgeflag = 0.5f; emit->nr_ve = 0; emit->vtx_dwords = 0; for (i = 0; i < nv50->vtxelt_nr; ++i) { struct pipe_vertex_element *ve; struct pipe_vertex_buffer *vb; unsigned n, size, nr_components; const struct util_format_description *desc; ve = &nv50->vtxelt[i]; vb = &nv50->vtxbuf[ve->vertex_buffer_index]; if (!(nv50->vbo_fifo & (1 << i)) || ve->instance_divisor) continue; n = emit->nr_ve++; emit->stride[n] = vb->stride; emit->map[n] = (uint8_t *)nouveau_bo(vb->buffer)->map + vb->buffer_offset + (start * vb->stride + ve->src_offset); desc = util_format_description(ve->src_format); assert(desc); size = util_format_get_component_bits( ve->src_format, UTIL_FORMAT_COLORSPACE_RGB, 0); nr_components = util_format_get_nr_components(ve->src_format); assert(nr_components > 0 && nr_components <= 4); /* It shouldn't be necessary to push the implicit 1s * for case 3 and size 8 cases 1, 2, 3. */ switch (size) { default: NOUVEAU_ERR("unsupported vtxelt size: %u\n", size); return FALSE; case 32: switch (nr_components) { case 1: emit->push[n] = emit_b32_1; break; case 2: emit->push[n] = emit_b32_2; break; case 3: emit->push[n] = emit_b32_3; break; case 4: emit->push[n] = emit_b32_4; break; } emit->vtx_dwords += nr_components; break; case 16: switch (nr_components) { case 1: emit->push[n] = emit_b16_1; break; case 2: emit->push[n] = emit_b32_1; break; case 3: emit->push[n] = emit_b16_3; break; case 4: emit->push[n] = emit_b32_2; break; } emit->vtx_dwords += (nr_components + 1) >> 1; break; case 8: switch (nr_components) { case 1: emit->push[n] = emit_b08_1; break; case 2: emit->push[n] = emit_b16_1; break; case 3: emit->push[n] = emit_b08_3; break; case 4: emit->push[n] = emit_b32_1; break; } emit->vtx_dwords += 1; break; } } emit->vtx_max = 512 / emit->vtx_dwords; if (emit->ve_edgeflag < 16) emit->vtx_max = 1; return TRUE; } static INLINE void set_edgeflag(struct nouveau_channel *chan, struct nouveau_grobj *tesla, struct nv50_vbo_emitctx *emit, uint32_t index) { unsigned i = emit->ve_edgeflag; if (i < 16) { float f = *((float *)(emit->map[i] + index * emit->stride[i])); if (emit->edgeflag != f) { emit->edgeflag = f; BEGIN_RING(chan, tesla, 0x15e4, 1); OUT_RING (chan, f ? 1 : 0); } } } static boolean nv50_push_arrays(struct nv50_context *nv50, unsigned start, unsigned count) { struct nouveau_channel *chan = nv50->screen->base.channel; struct nouveau_grobj *tesla = nv50->screen->tesla; struct nv50_vbo_emitctx emit; if (emit_prepare(nv50, &emit, start) == FALSE) return FALSE; while (count) { unsigned i, dw, nr = MIN2(count, emit.vtx_max); dw = nr * emit.vtx_dwords; set_edgeflag(chan, tesla, &emit, 0); /* nr will be 1 */ BEGIN_RING_NI(chan, tesla, NV50TCL_VERTEX_DATA, dw); for (i = 0; i < nr; ++i) emit_vtx_next(chan, &emit); count -= nr; } return TRUE; } static boolean nv50_push_elements_u32(struct nv50_context *nv50, uint32_t *map, unsigned count) { struct nouveau_channel *chan = nv50->screen->base.channel; struct nouveau_grobj *tesla = nv50->screen->tesla; struct nv50_vbo_emitctx emit; if (emit_prepare(nv50, &emit, 0) == FALSE) return FALSE; while (count) { unsigned i, dw, nr = MIN2(count, emit.vtx_max); dw = nr * emit.vtx_dwords; set_edgeflag(chan, tesla, &emit, *map); BEGIN_RING_NI(chan, tesla, NV50TCL_VERTEX_DATA, dw); for (i = 0; i < nr; ++i) emit_vtx(chan, &emit, *map++); count -= nr; } return TRUE; } static boolean nv50_push_elements_u16(struct nv50_context *nv50, uint16_t *map, unsigned count) { struct nouveau_channel *chan = nv50->screen->base.channel; struct nouveau_grobj *tesla = nv50->screen->tesla; struct nv50_vbo_emitctx emit; if (emit_prepare(nv50, &emit, 0) == FALSE) return FALSE; while (count) { unsigned i, dw, nr = MIN2(count, emit.vtx_max); dw = nr * emit.vtx_dwords; set_edgeflag(chan, tesla, &emit, *map); BEGIN_RING_NI(chan, tesla, NV50TCL_VERTEX_DATA, dw); for (i = 0; i < nr; ++i) emit_vtx(chan, &emit, *map++); count -= nr; } return TRUE; } static boolean nv50_push_elements_u08(struct nv50_context *nv50, uint8_t *map, unsigned count) { struct nouveau_channel *chan = nv50->screen->base.channel; struct nouveau_grobj *tesla = nv50->screen->tesla; struct nv50_vbo_emitctx emit; if (emit_prepare(nv50, &emit, 0) == FALSE) return FALSE; while (count) { unsigned i, dw, nr = MIN2(count, emit.vtx_max); dw = nr * emit.vtx_dwords; set_edgeflag(chan, tesla, &emit, *map); BEGIN_RING_NI(chan, tesla, NV50TCL_VERTEX_DATA, dw); for (i = 0; i < nr; ++i) emit_vtx(chan, &emit, *map++); count -= nr; } return TRUE; }