static void vs_lower_opcode_tgsi_const_gen6(struct vs_compile_context *vcc, struct toy_dst dst, int dim, struct toy_src idx) { const struct toy_dst header = tdst_ud(tdst(TOY_FILE_MRF, vcc->first_free_mrf, 0)); const struct toy_dst block_offsets = tdst_ud(tdst(TOY_FILE_MRF, vcc->first_free_mrf + 1, 0)); const struct toy_src r0 = tsrc_ud(tsrc(TOY_FILE_GRF, 0, 0)); struct toy_compiler *tc = &vcc->tc; unsigned msg_type, msg_ctrl, msg_len; struct toy_inst *inst; struct toy_src desc; if (vs_lower_opcode_tgsi_const_pcb(vcc, dst, dim, idx)) return; /* set message header */ inst = tc_MOV(tc, header, r0); inst->mask_ctrl = GEN6_MASKCTRL_NOMASK; /* set block offsets */ tc_MOV(tc, block_offsets, idx); msg_type = GEN6_MSG_DP_OWORD_DUAL_BLOCK_READ; msg_ctrl = GEN6_MSG_DP_OWORD_DUAL_BLOCK_SIZE_1; msg_len = 2; desc = tsrc_imm_mdesc_data_port(tc, false, msg_len, 1, true, false, msg_type, msg_ctrl, vcc->shader->bt.const_base + dim); tc_SEND(tc, dst, tsrc_from(header), desc, vcc->const_cache); }
static void vs_lower_opcode_tgsi_const_gen7(struct vs_compile_context *vcc, struct toy_dst dst, int dim, struct toy_src idx) { struct toy_compiler *tc = &vcc->tc; const struct toy_dst offset = tdst_ud(tdst(TOY_FILE_MRF, vcc->first_free_mrf, 0)); struct toy_src desc; if (vs_lower_opcode_tgsi_const_pcb(vcc, dst, dim, idx)) return; /* * In 259b65e2e7938de4aab323033cfe2b33369ddb07, pull constant load was * changed from OWord Dual Block Read to ld to increase performance in the * classic driver. Since we use the constant cache instead of the data * cache, I wonder if we still want to follow the classic driver. */ /* set offset */ tc_MOV(tc, offset, idx); desc = tsrc_imm_mdesc_sampler(tc, 1, 1, false, GEN6_MSG_SAMPLER_SIMD4X2, GEN6_MSG_SAMPLER_LD, 0, vcc->shader->bt.const_base + dim); tc_SEND(tc, dst, tsrc_from(offset), desc, GEN6_SFID_SAMPLER); }
static void fs_lower_opcode_tgsi_const_gen6(struct fs_compile_context *fcc, struct toy_dst dst, int dim, struct toy_src idx) { const struct toy_dst header = tdst_ud(tdst(TOY_FILE_MRF, fcc->first_free_mrf, 0)); const struct toy_dst global_offset = tdst_ud(tdst(TOY_FILE_MRF, fcc->first_free_mrf, 2 * 4)); const struct toy_src r0 = tsrc_ud(tsrc(TOY_FILE_GRF, 0, 0)); struct toy_compiler *tc = &fcc->tc; unsigned msg_type, msg_ctrl, msg_len; struct toy_inst *inst; struct toy_src desc; struct toy_dst tmp, real_dst[4]; int i; /* set message header */ inst = tc_MOV(tc, header, r0); inst->mask_ctrl = BRW_MASK_DISABLE; /* set global offset */ inst = tc_MOV(tc, global_offset, idx); inst->mask_ctrl = BRW_MASK_DISABLE; inst->exec_size = BRW_EXECUTE_1; inst->src[0].rect = TOY_RECT_010; msg_type = BRW_DATAPORT_READ_MESSAGE_OWORD_BLOCK_READ; msg_ctrl = BRW_DATAPORT_OWORD_BLOCK_1_OWORDLOW << 8; msg_len = 1; desc = tsrc_imm_mdesc_data_port(tc, false, msg_len, 1, true, false, msg_type, msg_ctrl, ILO_WM_CONST_SURFACE(dim)); tmp = tc_alloc_tmp(tc); tc_SEND(tc, tmp, tsrc_from(header), desc, fcc->const_cache); tdst_transpose(dst, real_dst); for (i = 0; i < 4; i++) { const struct toy_src src = tsrc_offset(tsrc_rect(tsrc_from(tmp), TOY_RECT_010), 0, i); /* cast to type D to make sure these are raw moves */ tc_MOV(tc, tdst_d(real_dst[i]), tsrc_d(src)); } }
static void fs_lower_opcode_tgsi_imm(struct fs_compile_context *fcc, struct toy_dst dst, int idx) { const uint32_t *imm; struct toy_dst real_dst[4]; int ch; imm = toy_tgsi_get_imm(&fcc->tgsi, idx, NULL); tdst_transpose(dst, real_dst); /* raw moves */ for (ch = 0; ch < 4; ch++) tc_MOV(&fcc->tc, tdst_ud(real_dst[ch]), tsrc_imm_ud(imm[ch])); }
static void vs_lower_opcode_tgsi_imm(struct vs_compile_context *vcc, struct toy_dst dst, int idx) { const uint32_t *imm; int ch; imm = toy_tgsi_get_imm(&vcc->tgsi, idx, NULL); for (ch = 0; ch < 4; ch++) { /* raw moves */ tc_MOV(&vcc->tc, tdst_writemask(tdst_ud(dst), 1 << ch), tsrc_imm_ud(imm[ch])); } }
static void fs_lower_opcode_tgsi_const_gen7(struct fs_compile_context *fcc, struct toy_dst dst, int dim, struct toy_src idx) { struct toy_compiler *tc = &fcc->tc; const struct toy_dst offset = tdst_ud(tdst(TOY_FILE_MRF, fcc->first_free_mrf, 0)); struct toy_src desc; struct toy_inst *inst; struct toy_dst tmp, real_dst[4]; int i; /* * In 4c1fdae0a01b3f92ec03b61aac1d3df500d51fc6, pull constant load was * changed from OWord Block Read to ld to increase performance in the * classic driver. Since we use the constant cache instead of the data * cache, I wonder if we still want to follow the classic driver. */ /* set offset */ inst = tc_MOV(tc, offset, tsrc_rect(idx, TOY_RECT_010)); inst->exec_size = BRW_EXECUTE_8; inst->mask_ctrl = BRW_MASK_DISABLE; desc = tsrc_imm_mdesc_sampler(tc, 1, 1, false, BRW_SAMPLER_SIMD_MODE_SIMD4X2, GEN5_SAMPLER_MESSAGE_SAMPLE_LD, 0, ILO_WM_CONST_SURFACE(dim)); tmp = tc_alloc_tmp(tc); inst = tc_SEND(tc, tmp, tsrc_from(offset), desc, BRW_SFID_SAMPLER); inst->exec_size = BRW_EXECUTE_8; inst->mask_ctrl = BRW_MASK_DISABLE; tdst_transpose(dst, real_dst); for (i = 0; i < 4; i++) { const struct toy_src src = tsrc_offset(tsrc_rect(tsrc_from(tmp), TOY_RECT_010), 0, i); /* cast to type D to make sure these are raw moves */ tc_MOV(tc, tdst_d(real_dst[i]), tsrc_d(src)); } }
static void gs_lower_opcode_tgsi_imm(struct gs_compile_context *gcc, struct toy_dst dst, int idx) { const uint32_t *imm; int ch; imm = toy_tgsi_get_imm(&gcc->tgsi, idx, NULL); for (ch = 0; ch < 4; ch++) { struct toy_inst *inst; /* raw moves */ inst = tc_MOV(&gcc->tc, tdst_writemask(tdst_ud(dst), 1 << ch), tsrc_imm_ud(imm[ch])); inst->access_mode = GEN6_ALIGN_16; } }
static void cs_dummy(struct cs_compile_context *ccc) { struct toy_compiler *tc = &ccc->tc; struct toy_dst header; struct toy_src r0, desc; struct toy_inst *inst; header = tdst_ud(tdst(TOY_FILE_MRF, ccc->first_free_mrf, 0)); r0 = tsrc_ud(tsrc(TOY_FILE_GRF, 0, 0)); inst = tc_MOV(tc, header, r0); inst->exec_size = GEN6_EXECSIZE_8; inst->mask_ctrl = GEN6_MASKCTRL_NOMASK; desc = tsrc_imm_mdesc(tc, true, 1, 0, true, GEN6_MSG_TS_RESOURCE_SELECT_NO_DEREF | GEN6_MSG_TS_REQUESTER_TYPE_ROOT | GEN6_MSG_TS_OPCODE_DEREF); tc_SEND(tc, tdst_null(), tsrc_from(header), desc, GEN6_SFID_SPAWNER); }
/** * Emit instructions to write the VUE. */ static void vs_write_vue(struct vs_compile_context *vcc) { struct toy_compiler *tc = &vcc->tc; struct toy_src outs[PIPE_MAX_SHADER_OUTPUTS]; struct toy_dst header; struct toy_src r0; struct toy_inst *inst; int sent_attrs, total_attrs; header = tdst_ud(tdst(TOY_FILE_MRF, vcc->first_free_mrf, 0)); r0 = tsrc_ud(tsrc(TOY_FILE_GRF, 0, 0)); inst = tc_MOV(tc, header, r0); inst->mask_ctrl = GEN6_MASKCTRL_NOMASK; if (ilo_dev_gen(tc->dev) >= ILO_GEN(7)) { inst = tc_OR(tc, tdst_offset(header, 0, 5), tsrc_rect(tsrc_offset(r0, 0, 5), TOY_RECT_010), tsrc_rect(tsrc_imm_ud(0xff00), TOY_RECT_010)); inst->exec_size = GEN6_EXECSIZE_1; inst->access_mode = GEN6_ALIGN_1; inst->mask_ctrl = GEN6_MASKCTRL_NOMASK; } total_attrs = vs_collect_outputs(vcc, outs); sent_attrs = 0; while (sent_attrs < total_attrs) { struct toy_src desc; int mrf = vcc->first_free_mrf + 1, avail_mrf_for_attrs; int num_attrs, msg_len, i; bool eot; num_attrs = total_attrs - sent_attrs; eot = true; /* see if we need another message */ avail_mrf_for_attrs = vcc->last_free_mrf - mrf + 1; if (num_attrs > avail_mrf_for_attrs) { /* * From the Sandy Bridge PRM, volume 4 part 2, page 22: * * "Offset. This field specifies a destination offset (in 256-bit * units) from the start of the URB entry(s), as referenced by * URB Return Handle n, at which the data (if any) will be * written." * * As we need to offset the following messages, we must make sure * this one writes an even number of attributes. */ num_attrs = avail_mrf_for_attrs & ~1; eot = false; } if (ilo_dev_gen(tc->dev) >= ILO_GEN(7)) { /* do not forget about the header */ msg_len = 1 + num_attrs; } else { /* * From the Sandy Bridge PRM, volume 4 part 2, page 26: * * "At least 256 bits per vertex (512 bits total, M1 & M2) must * be written. Writing only 128 bits per vertex (256 bits * total, M1 only) results in UNDEFINED operation." * * "[DevSNB] Interleave writes must be in multiples of 256 per * vertex." * * That is, we must write or appear to write an even number of * attributes, starting from two. */ if (num_attrs % 2 && num_attrs == avail_mrf_for_attrs) { num_attrs--; eot = false; } msg_len = 1 + align(num_attrs, 2); } for (i = 0; i < num_attrs; i++) tc_MOV(tc, tdst(TOY_FILE_MRF, mrf++, 0), outs[sent_attrs + i]); assert(sent_attrs % 2 == 0); desc = tsrc_imm_mdesc_urb(tc, eot, msg_len, 0, eot, true, false, true, sent_attrs / 2, 0); tc_add2(tc, TOY_OPCODE_URB_WRITE, tdst_null(), tsrc_from(header), desc); sent_attrs += num_attrs; } }
/** * Emit instructions to write the color buffers (and the depth buffer). */ static void fs_write_fb(struct fs_compile_context *fcc) { struct toy_compiler *tc = &fcc->tc; int base_mrf = fcc->first_free_mrf; const struct toy_dst header = tdst_ud(tdst(TOY_FILE_MRF, base_mrf, 0)); bool header_present = false; struct toy_src desc; unsigned msg_type, ctrl; int color_slots[ILO_MAX_DRAW_BUFFERS], num_cbufs; int pos_slot = -1, cbuf, i; for (i = 0; i < Elements(color_slots); i++) color_slots[i] = -1; for (i = 0; i < fcc->tgsi.num_outputs; i++) { if (fcc->tgsi.outputs[i].semantic_name == TGSI_SEMANTIC_COLOR) { assert(fcc->tgsi.outputs[i].semantic_index < Elements(color_slots)); color_slots[fcc->tgsi.outputs[i].semantic_index] = i; } else if (fcc->tgsi.outputs[i].semantic_name == TGSI_SEMANTIC_POSITION) { pos_slot = i; } } num_cbufs = fcc->variant->u.fs.num_cbufs; /* still need to send EOT (and probably depth) */ if (!num_cbufs) num_cbufs = 1; /* we need the header to specify the pixel mask or render target */ if (fcc->tgsi.uses_kill || num_cbufs > 1) { const struct toy_src r0 = tsrc_ud(tsrc(TOY_FILE_GRF, 0, 0)); struct toy_inst *inst; inst = tc_MOV(tc, header, r0); inst->mask_ctrl = BRW_MASK_DISABLE; base_mrf += fcc->num_grf_per_vrf; /* this is a two-register header */ if (fcc->dispatch_mode == GEN6_WM_8_DISPATCH_ENABLE) { inst = tc_MOV(tc, tdst_offset(header, 1, 0), tsrc_offset(r0, 1, 0)); inst->mask_ctrl = BRW_MASK_DISABLE; base_mrf += fcc->num_grf_per_vrf; } header_present = true; } for (cbuf = 0; cbuf < num_cbufs; cbuf++) { const int slot = color_slots[(fcc->tgsi.props.fs_color0_writes_all_cbufs) ? 0 : cbuf]; int mrf = base_mrf, vrf; struct toy_src src[4]; if (slot >= 0) { const unsigned undefined_mask = fcc->tgsi.outputs[slot].undefined_mask; const int index = fcc->tgsi.outputs[slot].index; vrf = toy_tgsi_get_vrf(&fcc->tgsi, TGSI_FILE_OUTPUT, 0, index); if (vrf >= 0) { const struct toy_src tmp = tsrc(TOY_FILE_VRF, vrf, 0); tsrc_transpose(tmp, src); } else { /* use (0, 0, 0, 0) */ tsrc_transpose(tsrc_imm_f(0.0f), src); } for (i = 0; i < 4; i++) { const struct toy_dst dst = tdst(TOY_FILE_MRF, mrf, 0); if (undefined_mask & (1 << i)) src[i] = tsrc_imm_f(0.0f); tc_MOV(tc, dst, src[i]); mrf += fcc->num_grf_per_vrf; } } else { /* use (0, 0, 0, 0) */ for (i = 0; i < 4; i++) { const struct toy_dst dst = tdst(TOY_FILE_MRF, mrf, 0); tc_MOV(tc, dst, tsrc_imm_f(0.0f)); mrf += fcc->num_grf_per_vrf; } } /* select BLEND_STATE[rt] */ if (cbuf > 0) { struct toy_inst *inst; inst = tc_MOV(tc, tdst_offset(header, 0, 2), tsrc_imm_ud(cbuf)); inst->mask_ctrl = BRW_MASK_DISABLE; inst->exec_size = BRW_EXECUTE_1; inst->src[0].rect = TOY_RECT_010; } if (cbuf == 0 && pos_slot >= 0) { const int index = fcc->tgsi.outputs[pos_slot].index; const struct toy_dst dst = tdst(TOY_FILE_MRF, mrf, 0); struct toy_src src[4]; int vrf; vrf = toy_tgsi_get_vrf(&fcc->tgsi, TGSI_FILE_OUTPUT, 0, index); if (vrf >= 0) { const struct toy_src tmp = tsrc(TOY_FILE_VRF, vrf, 0); tsrc_transpose(tmp, src); } else { /* use (0, 0, 0, 0) */ tsrc_transpose(tsrc_imm_f(0.0f), src); } /* only Z */ tc_MOV(tc, dst, src[2]); mrf += fcc->num_grf_per_vrf; } msg_type = (fcc->dispatch_mode == GEN6_WM_16_DISPATCH_ENABLE) ? BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD16_SINGLE_SOURCE : BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD8_SINGLE_SOURCE_SUBSPAN01; ctrl = (cbuf == num_cbufs - 1) << 12 | msg_type << 8; desc = tsrc_imm_mdesc_data_port(tc, cbuf == num_cbufs - 1, mrf - fcc->first_free_mrf, 0, header_present, false, GEN6_DATAPORT_WRITE_MESSAGE_RENDER_TARGET_WRITE, ctrl, ILO_WM_DRAW_SURFACE(cbuf)); tc_add2(tc, TOY_OPCODE_FB_WRITE, tdst_null(), tsrc(TOY_FILE_MRF, fcc->first_free_mrf, 0), desc); } }