/* * Copyright 2011 Joakim Sindholt * Copyright 2013 Christoph Bumiller * * 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 * on the rights to use, copy, modify, merge, publish, distribute, sub * license, 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 (including the next * paragraph) 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS 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 "nine_shader.h" #include "device9.h" #include "nine_debug.h" #include "nine_state.h" #include "vertexdeclaration9.h" #include "util/macros.h" #include "util/u_memory.h" #include "util/u_inlines.h" #include "pipe/p_shader_tokens.h" #include "tgsi/tgsi_ureg.h" #include "tgsi/tgsi_dump.h" #define DBG_CHANNEL DBG_SHADER #define DUMP(args...) _nine_debug_printf(DBG_CHANNEL, NULL, args) struct shader_translator; typedef HRESULT (*translate_instruction_func)(struct shader_translator *); static inline const char *d3dsio_to_string(unsigned opcode); #define NINED3D_SM1_VS 0xfffe #define NINED3D_SM1_PS 0xffff #define NINE_MAX_COND_DEPTH 64 #define NINE_MAX_LOOP_DEPTH 64 #define NINED3DSP_END 0x0000ffff #define NINED3DSPTYPE_FLOAT4 0 #define NINED3DSPTYPE_INT4 1 #define NINED3DSPTYPE_BOOL 2 #define NINED3DSPR_IMMEDIATE (D3DSPR_PREDICATE + 1) #define NINED3DSP_WRITEMASK_MASK D3DSP_WRITEMASK_ALL #define NINED3DSP_WRITEMASK_SHIFT 16 #define NINED3DSHADER_INST_PREDICATED (1 << 28) #define NINED3DSHADER_REL_OP_GT 1 #define NINED3DSHADER_REL_OP_EQ 2 #define NINED3DSHADER_REL_OP_GE 3 #define NINED3DSHADER_REL_OP_LT 4 #define NINED3DSHADER_REL_OP_NE 5 #define NINED3DSHADER_REL_OP_LE 6 #define NINED3DSIO_OPCODE_FLAGS_SHIFT 16 #define NINED3DSIO_OPCODE_FLAGS_MASK (0xff << NINED3DSIO_OPCODE_FLAGS_SHIFT) #define NINED3DSI_TEXLD_PROJECT 0x1 #define NINED3DSI_TEXLD_BIAS 0x2 #define NINED3DSP_WRITEMASK_0 0x1 #define NINED3DSP_WRITEMASK_1 0x2 #define NINED3DSP_WRITEMASK_2 0x4 #define NINED3DSP_WRITEMASK_3 0x8 #define NINED3DSP_WRITEMASK_ALL 0xf #define NINED3DSP_NOSWIZZLE ((0 << 0) | (1 << 2) | (2 << 4) | (3 << 6)) #define NINE_SWIZZLE4(x,y,z,w) \ TGSI_SWIZZLE_##x, TGSI_SWIZZLE_##y, TGSI_SWIZZLE_##z, TGSI_SWIZZLE_##w #define NINE_CONSTANT_SRC(index) \ ureg_src_dimension(ureg_src_register(TGSI_FILE_CONSTANT, index), 0) #define NINE_APPLY_SWIZZLE(src, s) \ ureg_swizzle(src, NINE_SWIZZLE4(s, s, s, s)) #define NINE_CONSTANT_SRC_SWIZZLE(index, s) \ NINE_APPLY_SWIZZLE(NINE_CONSTANT_SRC(index), s) #define NINED3DSPDM_SATURATE (D3DSPDM_SATURATE >> D3DSP_DSTMOD_SHIFT) #define NINED3DSPDM_PARTIALP (D3DSPDM_PARTIALPRECISION >> D3DSP_DSTMOD_SHIFT) #define NINED3DSPDM_CENTROID (D3DSPDM_MSAMPCENTROID >> D3DSP_DSTMOD_SHIFT) /* * NEG all, not ps: m3x2, m3x3, m3x4, m4x3, m4x4 * BIAS <= PS 1.4 (x-0.5) * BIASNEG <= PS 1.4 (-(x-0.5)) * SIGN <= PS 1.4 (2(x-0.5)) * SIGNNEG <= PS 1.4 (-2(x-0.5)) * COMP <= PS 1.4 (1-x) * X2 = PS 1.4 (2x) * X2NEG = PS 1.4 (-2x) * DZ <= PS 1.4, tex{ld,crd} (.xy/.z), z=0 => .11 * DW <= PS 1.4, tex{ld,crd} (.xy/.w), w=0 => .11 * ABS >= SM 3.0 (abs(x)) * ABSNEG >= SM 3.0 (-abs(x)) * NOT >= SM 2.0 pedication only */ #define NINED3DSPSM_NONE (D3DSPSM_NONE >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_NEG (D3DSPSM_NEG >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_BIAS (D3DSPSM_BIAS >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_BIASNEG (D3DSPSM_BIASNEG >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_SIGN (D3DSPSM_SIGN >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_SIGNNEG (D3DSPSM_SIGNNEG >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_COMP (D3DSPSM_COMP >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_X2 (D3DSPSM_X2 >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_X2NEG (D3DSPSM_X2NEG >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_DZ (D3DSPSM_DZ >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_DW (D3DSPSM_DW >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_ABS (D3DSPSM_ABS >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_ABSNEG (D3DSPSM_ABSNEG >> D3DSP_SRCMOD_SHIFT) #define NINED3DSPSM_NOT (D3DSPSM_NOT >> D3DSP_SRCMOD_SHIFT) static const char *sm1_mod_str[] = { [NINED3DSPSM_NONE] = "", [NINED3DSPSM_NEG] = "-", [NINED3DSPSM_BIAS] = "bias", [NINED3DSPSM_BIASNEG] = "biasneg", [NINED3DSPSM_SIGN] = "sign", [NINED3DSPSM_SIGNNEG] = "signneg", [NINED3DSPSM_COMP] = "comp", [NINED3DSPSM_X2] = "x2", [NINED3DSPSM_X2NEG] = "x2neg", [NINED3DSPSM_DZ] = "dz", [NINED3DSPSM_DW] = "dw", [NINED3DSPSM_ABS] = "abs", [NINED3DSPSM_ABSNEG] = "-abs", [NINED3DSPSM_NOT] = "not" }; static void sm1_dump_writemask(BYTE mask) { if (mask & 1) DUMP("x"); else DUMP("_"); if (mask & 2) DUMP("y"); else DUMP("_"); if (mask & 4) DUMP("z"); else DUMP("_"); if (mask & 8) DUMP("w"); else DUMP("_"); } static void sm1_dump_swizzle(BYTE s) { char c[4] = { 'x', 'y', 'z', 'w' }; DUMP("%c%c%c%c", c[(s >> 0) & 3], c[(s >> 2) & 3], c[(s >> 4) & 3], c[(s >> 6) & 3]); } static const char sm1_file_char[] = { [D3DSPR_TEMP] = 'r', [D3DSPR_INPUT] = 'v', [D3DSPR_CONST] = 'c', [D3DSPR_ADDR] = 'A', [D3DSPR_RASTOUT] = 'R', [D3DSPR_ATTROUT] = 'D', [D3DSPR_OUTPUT] = 'o', [D3DSPR_CONSTINT] = 'I', [D3DSPR_COLOROUT] = 'C', [D3DSPR_DEPTHOUT] = 'D', [D3DSPR_SAMPLER] = 's', [D3DSPR_CONST2] = 'c', [D3DSPR_CONST3] = 'c', [D3DSPR_CONST4] = 'c', [D3DSPR_CONSTBOOL] = 'B', [D3DSPR_LOOP] = 'L', [D3DSPR_TEMPFLOAT16] = 'h', [D3DSPR_MISCTYPE] = 'M', [D3DSPR_LABEL] = 'X', [D3DSPR_PREDICATE] = 'p' }; static void sm1_dump_reg(BYTE file, INT index) { switch (file) { case D3DSPR_LOOP: DUMP("aL"); break; case D3DSPR_COLOROUT: DUMP("oC%i", index); break; case D3DSPR_DEPTHOUT: DUMP("oDepth"); break; case D3DSPR_RASTOUT: DUMP("oRast%i", index); break; case D3DSPR_CONSTINT: DUMP("iconst[%i]", index); break; case D3DSPR_CONSTBOOL: DUMP("bconst[%i]", index); break; default: DUMP("%c%i", sm1_file_char[file], index); break; } } struct sm1_src_param { INT idx; struct sm1_src_param *rel; BYTE file; BYTE swizzle; BYTE mod; BYTE type; union { DWORD d[4]; float f[4]; int i[4]; BOOL b; } imm; }; static void sm1_parse_immediate(struct shader_translator *, struct sm1_src_param *); struct sm1_dst_param { INT idx; struct sm1_src_param *rel; BYTE file; BYTE mask; BYTE mod; int8_t shift; /* sint4 */ BYTE type; }; static inline void assert_replicate_swizzle(const struct ureg_src *reg) { assert(reg->SwizzleY == reg->SwizzleX && reg->SwizzleZ == reg->SwizzleX && reg->SwizzleW == reg->SwizzleX); } static void sm1_dump_immediate(const struct sm1_src_param *param) { switch (param->type) { case NINED3DSPTYPE_FLOAT4: DUMP("{ %f %f %f %f }", param->imm.f[0], param->imm.f[1], param->imm.f[2], param->imm.f[3]); break; case NINED3DSPTYPE_INT4: DUMP("{ %i %i %i %i }", param->imm.i[0], param->imm.i[1], param->imm.i[2], param->imm.i[3]); break; case NINED3DSPTYPE_BOOL: DUMP("%s", param->imm.b ? "TRUE" : "FALSE"); break; default: assert(0); break; } } static void sm1_dump_src_param(const struct sm1_src_param *param) { if (param->file == NINED3DSPR_IMMEDIATE) { assert(!param->mod && !param->rel && param->swizzle == NINED3DSP_NOSWIZZLE); sm1_dump_immediate(param); return; } if (param->mod) DUMP("%s(", sm1_mod_str[param->mod]); if (param->rel) { DUMP("%c[", sm1_file_char[param->file]); sm1_dump_src_param(param->rel); DUMP("+%i]", param->idx); } else { sm1_dump_reg(param->file, param->idx); } if (param->mod) DUMP(")"); if (param->swizzle != NINED3DSP_NOSWIZZLE) { DUMP("."); sm1_dump_swizzle(param->swizzle); } } static void sm1_dump_dst_param(const struct sm1_dst_param *param) { if (param->mod & NINED3DSPDM_SATURATE) DUMP("sat "); if (param->mod & NINED3DSPDM_PARTIALP) DUMP("pp "); if (param->mod & NINED3DSPDM_CENTROID) DUMP("centroid "); if (param->shift < 0) DUMP("/%u ", 1 << -param->shift); if (param->shift > 0) DUMP("*%u ", 1 << param->shift); if (param->rel) { DUMP("%c[", sm1_file_char[param->file]); sm1_dump_src_param(param->rel); DUMP("+%i]", param->idx); } else { sm1_dump_reg(param->file, param->idx); } if (param->mask != NINED3DSP_WRITEMASK_ALL) { DUMP("."); sm1_dump_writemask(param->mask); } } struct sm1_semantic { struct sm1_dst_param reg; BYTE sampler_type; D3DDECLUSAGE usage; BYTE usage_idx; }; struct sm1_op_info { /* NOTE: 0 is a valid TGSI opcode, but if handler is set, this parameter * should be ignored completely */ unsigned sio; unsigned opcode; /* TGSI_OPCODE_x */ /* versions are still set even handler is set */ struct { unsigned min; unsigned max; } vert_version, frag_version; /* number of regs parsed outside of special handler */ unsigned ndst; unsigned nsrc; /* some instructions don't map perfectly, so use a special handler */ translate_instruction_func handler; }; struct sm1_instruction { D3DSHADER_INSTRUCTION_OPCODE_TYPE opcode; BYTE flags; BOOL coissue; BOOL predicated; BYTE ndst; BYTE nsrc; struct sm1_src_param src[4]; struct sm1_src_param src_rel[4]; struct sm1_src_param pred; struct sm1_src_param dst_rel[1]; struct sm1_dst_param dst[1]; struct sm1_op_info *info; }; static void sm1_dump_instruction(struct sm1_instruction *insn, unsigned indent) { unsigned i; /* no info stored for these: */ if (insn->opcode == D3DSIO_DCL) return; for (i = 0; i < indent; ++i) DUMP(" "); if (insn->predicated) { DUMP("@"); sm1_dump_src_param(&insn->pred); DUMP(" "); } DUMP("%s", d3dsio_to_string(insn->opcode)); if (insn->flags) { switch (insn->opcode) { case D3DSIO_TEX: DUMP(insn->flags == NINED3DSI_TEXLD_PROJECT ? "p" : "b"); break; default: DUMP("_%x", insn->flags); break; } } if (insn->coissue) DUMP("_co"); DUMP(" "); for (i = 0; i < insn->ndst && i < ARRAY_SIZE(insn->dst); ++i) { sm1_dump_dst_param(&insn->dst[i]); DUMP(" "); } for (i = 0; i < insn->nsrc && i < ARRAY_SIZE(insn->src); ++i) { sm1_dump_src_param(&insn->src[i]); DUMP(" "); } if (insn->opcode == D3DSIO_DEF || insn->opcode == D3DSIO_DEFI || insn->opcode == D3DSIO_DEFB) sm1_dump_immediate(&insn->src[0]); DUMP("\n"); } struct sm1_local_const { INT idx; struct ureg_src reg; float f[4]; /* for indirect addressing of float constants */ }; struct shader_translator { const DWORD *byte_code; const DWORD *parse; const DWORD *parse_next; struct ureg_program *ureg; /* shader version */ struct { BYTE major; BYTE minor; } version; unsigned processor; /* PIPE_SHADER_VERTEX/FRAMGENT */ unsigned num_constf_allowed; unsigned num_consti_allowed; unsigned num_constb_allowed; boolean native_integers; boolean inline_subroutines; boolean want_texcoord; boolean shift_wpos; boolean wpos_is_sysval; boolean face_is_sysval_integer; unsigned texcoord_sn; struct sm1_instruction insn; /* current instruction */ struct { struct ureg_dst *r; struct ureg_dst oPos; struct ureg_dst oPos_out; /* the real output when doing streamout */ struct ureg_dst oFog; struct ureg_dst oPts; struct ureg_dst oCol[4]; struct ureg_dst o[PIPE_MAX_SHADER_OUTPUTS]; struct ureg_dst oDepth; struct ureg_src v[PIPE_MAX_SHADER_INPUTS]; struct ureg_src v_consecutive; /* copy in temp array of ps inputs for rel addressing */ struct ureg_src vPos; struct ureg_src vFace; struct ureg_src s; struct ureg_dst p; struct ureg_dst address; struct ureg_dst a0; struct ureg_dst tS[8]; /* texture stage registers */ struct ureg_dst tdst; /* scratch dst if we need extra modifiers */ struct ureg_dst t[5]; /* scratch TEMPs */ struct ureg_src vC[2]; /* PS color in */ struct ureg_src vT[8]; /* PS texcoord in */ struct ureg_dst rL[NINE_MAX_LOOP_DEPTH]; /* loop ctr */ } regs; unsigned num_temp; /* ARRAY_SIZE(regs.r) */ unsigned num_scratch; unsigned loop_depth; unsigned loop_depth_max; unsigned cond_depth; unsigned loop_labels[NINE_MAX_LOOP_DEPTH]; unsigned cond_labels[NINE_MAX_COND_DEPTH]; boolean loop_or_rep[NINE_MAX_LOOP_DEPTH]; /* true: loop, false: rep */ unsigned *inst_labels; /* LABEL op */ unsigned num_inst_labels; unsigned sampler_targets[NINE_MAX_SAMPLERS]; /* TGSI_TEXTURE_x */ struct sm1_local_const *lconstf; unsigned num_lconstf; struct sm1_local_const *lconsti; unsigned num_lconsti; struct sm1_local_const *lconstb; unsigned num_lconstb; boolean indirect_const_access; boolean failure; struct nine_vs_output_info output_info[16]; int num_outputs; struct nine_shader_info *info; int16_t op_info_map[D3DSIO_BREAKP + 1]; }; #define IS_VS (tx->processor == PIPE_SHADER_VERTEX) #define IS_PS (tx->processor == PIPE_SHADER_FRAGMENT) #define FAILURE_VOID(cond) if ((cond)) {tx->failure=1;return;} static void sm1_read_semantic(struct shader_translator *, struct sm1_semantic *); static void sm1_instruction_check(const struct sm1_instruction *insn) { if (insn->opcode == D3DSIO_CRS) { if (insn->dst[0].mask & NINED3DSP_WRITEMASK_3) { DBG("CRS.mask.w\n"); } } } static void nine_record_outputs(struct shader_translator *tx, BYTE Usage, BYTE UsageIndex, int mask, int output_index) { tx->output_info[tx->num_outputs].output_semantic = Usage; tx->output_info[tx->num_outputs].output_semantic_index = UsageIndex; tx->output_info[tx->num_outputs].mask = mask; tx->output_info[tx->num_outputs].output_index = output_index; tx->num_outputs++; } static boolean tx_lconstf(struct shader_translator *tx, struct ureg_src *src, INT index) { INT i; if (index < 0 || index >= tx->num_constf_allowed) { tx->failure = TRUE; return FALSE; } for (i = 0; i < tx->num_lconstf; ++i) { if (tx->lconstf[i].idx == index) { *src = tx->lconstf[i].reg; return TRUE; } } return FALSE; } static boolean tx_lconsti(struct shader_translator *tx, struct ureg_src *src, INT index) { int i; if (index < 0 || index >= tx->num_consti_allowed) { tx->failure = TRUE; return FALSE; } for (i = 0; i < tx->num_lconsti; ++i) { if (tx->lconsti[i].idx == index) { *src = tx->lconsti[i].reg; return TRUE; } } return FALSE; } static boolean tx_lconstb(struct shader_translator *tx, struct ureg_src *src, INT index) { int i; if (index < 0 || index >= tx->num_constb_allowed) { tx->failure = TRUE; return FALSE; } for (i = 0; i < tx->num_lconstb; ++i) { if (tx->lconstb[i].idx == index) { *src = tx->lconstb[i].reg; return TRUE; } } return FALSE; } static void tx_set_lconstf(struct shader_translator *tx, INT index, float f[4]) { unsigned n; FAILURE_VOID(index < 0 || index >= tx->num_constf_allowed) for (n = 0; n < tx->num_lconstf; ++n) if (tx->lconstf[n].idx == index) break; if (n == tx->num_lconstf) { if ((n % 8) == 0) { tx->lconstf = REALLOC(tx->lconstf, (n + 0) * sizeof(tx->lconstf[0]), (n + 8) * sizeof(tx->lconstf[0])); assert(tx->lconstf); } tx->num_lconstf++; } tx->lconstf[n].idx = index; tx->lconstf[n].reg = ureg_imm4f(tx->ureg, f[0], f[1], f[2], f[3]); memcpy(tx->lconstf[n].f, f, sizeof(tx->lconstf[n].f)); } static void tx_set_lconsti(struct shader_translator *tx, INT index, int i[4]) { unsigned n; FAILURE_VOID(index < 0 || index >= tx->num_consti_allowed) for (n = 0; n < tx->num_lconsti; ++n) if (tx->lconsti[n].idx == index) break; if (n == tx->num_lconsti) { if ((n % 8) == 0) { tx->lconsti = REALLOC(tx->lconsti, (n + 0) * sizeof(tx->lconsti[0]), (n + 8) * sizeof(tx->lconsti[0])); assert(tx->lconsti); } tx->num_lconsti++; } tx->lconsti[n].idx = index; tx->lconsti[n].reg = tx->native_integers ? ureg_imm4i(tx->ureg, i[0], i[1], i[2], i[3]) : ureg_imm4f(tx->ureg, i[0], i[1], i[2], i[3]); } static void tx_set_lconstb(struct shader_translator *tx, INT index, BOOL b) { unsigned n; FAILURE_VOID(index < 0 || index >= tx->num_constb_allowed) for (n = 0; n < tx->num_lconstb; ++n) if (tx->lconstb[n].idx == index) break; if (n == tx->num_lconstb) { if ((n % 8) == 0) { tx->lconstb = REALLOC(tx->lconstb, (n + 0) * sizeof(tx->lconstb[0]), (n + 8) * sizeof(tx->lconstb[0])); assert(tx->lconstb); } tx->num_lconstb++; } tx->lconstb[n].idx = index; tx->lconstb[n].reg = tx->native_integers ? ureg_imm1u(tx->ureg, b ? 0xffffffff : 0) : ureg_imm1f(tx->ureg, b ? 1.0f : 0.0f); } static inline struct ureg_dst tx_scratch(struct shader_translator *tx) { if (tx->num_scratch >= ARRAY_SIZE(tx->regs.t)) { tx->failure = TRUE; return tx->regs.t[0]; } if (ureg_dst_is_undef(tx->regs.t[tx->num_scratch])) tx->regs.t[tx->num_scratch] = ureg_DECL_local_temporary(tx->ureg); return tx->regs.t[tx->num_scratch++]; } static inline struct ureg_dst tx_scratch_scalar(struct shader_translator *tx) { return ureg_writemask(tx_scratch(tx), TGSI_WRITEMASK_X); } static inline struct ureg_src tx_src_scalar(struct ureg_dst dst) { struct ureg_src src = ureg_src(dst); int c = ffs(dst.WriteMask) - 1; if (dst.WriteMask == (1 << c)) src = ureg_scalar(src, c); return src; } static inline void tx_temp_alloc(struct shader_translator *tx, INT idx) { assert(idx >= 0); if (idx >= tx->num_temp) { unsigned k = tx->num_temp; unsigned n = idx + 1; tx->regs.r = REALLOC(tx->regs.r, k * sizeof(tx->regs.r[0]), n * sizeof(tx->regs.r[0])); for (; k < n; ++k) tx->regs.r[k] = ureg_dst_undef(); tx->num_temp = n; } if (ureg_dst_is_undef(tx->regs.r[idx])) tx->regs.r[idx] = ureg_DECL_temporary(tx->ureg); } static inline void tx_addr_alloc(struct shader_translator *tx, INT idx) { assert(idx == 0); if (ureg_dst_is_undef(tx->regs.address)) tx->regs.address = ureg_DECL_address(tx->ureg); if (ureg_dst_is_undef(tx->regs.a0)) tx->regs.a0 = ureg_DECL_temporary(tx->ureg); } /* NOTE: It's not very clear on which ps1.1-ps1.3 instructions * the projection should be applied on the texture. It doesn't * apply on texkill. * The doc is very imprecise here (it says the projection is done * before rasterization, thus in vs, which seems wrong since ps instructions * are affected differently) * For now we only apply to the ps TEX instruction and TEXBEM. * Perhaps some other instructions would need it */ static inline void apply_ps1x_projection(struct shader_translator *tx, struct ureg_dst dst, struct ureg_src src, INT idx) { struct ureg_dst tmp; unsigned dim = 1 + ((tx->info->projected >> (2 * idx)) & 3); /* no projection */ if (dim == 1) { ureg_MOV(tx->ureg, dst, src); } else { tmp = tx_scratch_scalar(tx); ureg_RCP(tx->ureg, tmp, ureg_scalar(src, dim-1)); ureg_MUL(tx->ureg, dst, tx_src_scalar(tmp), src); } } static inline void TEX_with_ps1x_projection(struct shader_translator *tx, struct ureg_dst dst, unsigned target, struct ureg_src src0, struct ureg_src src1, INT idx) { unsigned dim = 1 + ((tx->info->projected >> (2 * idx)) & 3); struct ureg_dst tmp; /* dim == 1: no projection * Looks like must be disabled when it makes no * sense according the texture dimensions */ if (dim == 1 || dim <= target) { ureg_TEX(tx->ureg, dst, target, src0, src1); } else if (dim == 4) { ureg_TXP(tx->ureg, dst, target, src0, src1); } else { tmp = tx_scratch(tx); apply_ps1x_projection(tx, tmp, src0, idx); ureg_TEX(tx->ureg, dst, target, ureg_src(tmp), src1); } } static inline void tx_texcoord_alloc(struct shader_translator *tx, INT idx) { assert(IS_PS); assert(idx >= 0 && idx < ARRAY_SIZE(tx->regs.vT)); if (ureg_src_is_undef(tx->regs.vT[idx])) tx->regs.vT[idx] = ureg_DECL_fs_input(tx->ureg, tx->texcoord_sn, idx, TGSI_INTERPOLATE_PERSPECTIVE); } static inline unsigned * tx_bgnloop(struct shader_translator *tx) { tx->loop_depth++; if (tx->loop_depth_max < tx->loop_depth) tx->loop_depth_max = tx->loop_depth; assert(tx->loop_depth < NINE_MAX_LOOP_DEPTH); return &tx->loop_labels[tx->loop_depth - 1]; } static inline unsigned * tx_endloop(struct shader_translator *tx) { assert(tx->loop_depth); tx->loop_depth--; ureg_fixup_label(tx->ureg, tx->loop_labels[tx->loop_depth], ureg_get_instruction_number(tx->ureg)); return &tx->loop_labels[tx->loop_depth]; } static struct ureg_dst tx_get_loopctr(struct shader_translator *tx, boolean loop_or_rep) { const unsigned l = tx->loop_depth - 1; if (!tx->loop_depth) { DBG("loop counter requested outside of loop\n"); return ureg_dst_undef(); } if (ureg_dst_is_undef(tx->regs.rL[l])) { /* loop or rep ctr creation */ tx->regs.rL[l] = ureg_DECL_local_temporary(tx->ureg); tx->loop_or_rep[l] = loop_or_rep; } /* loop - rep - endloop - endrep not allowed */ assert(tx->loop_or_rep[l] == loop_or_rep); return tx->regs.rL[l]; } static struct ureg_src tx_get_loopal(struct shader_translator *tx) { int loop_level = tx->loop_depth - 1; while (loop_level >= 0) { /* handle loop - rep - endrep - endloop case */ if (tx->loop_or_rep[loop_level]) /* the value is in the loop counter y component (nine implementation) */ return ureg_scalar(ureg_src(tx->regs.rL[loop_level]), TGSI_SWIZZLE_Y); loop_level--; } DBG("aL counter requested outside of loop\n"); return ureg_src_undef(); } static inline unsigned * tx_cond(struct shader_translator *tx) { assert(tx->cond_depth <= NINE_MAX_COND_DEPTH); tx->cond_depth++; return &tx->cond_labels[tx->cond_depth - 1]; } static inline unsigned * tx_elsecond(struct shader_translator *tx) { assert(tx->cond_depth); return &tx->cond_labels[tx->cond_depth - 1]; } static inline void tx_endcond(struct shader_translator *tx) { assert(tx->cond_depth); tx->cond_depth--; ureg_fixup_label(tx->ureg, tx->cond_labels[tx->cond_depth], ureg_get_instruction_number(tx->ureg)); } static inline struct ureg_dst nine_ureg_dst_register(unsigned file, int index) { return ureg_dst(ureg_src_register(file, index)); } static inline struct ureg_src nine_get_position_input(struct shader_translator *tx) { struct ureg_program *ureg = tx->ureg; if (tx->wpos_is_sysval) return ureg_DECL_system_value(ureg, TGSI_SEMANTIC_POSITION, 0); else return ureg_DECL_fs_input(ureg, TGSI_SEMANTIC_POSITION, 0, TGSI_INTERPOLATE_LINEAR); } static struct ureg_src tx_src_param(struct shader_translator *tx, const struct sm1_src_param *param) { struct ureg_program *ureg = tx->ureg; struct ureg_src src; struct ureg_dst tmp; switch (param->file) { case D3DSPR_TEMP: assert(!param->rel); tx_temp_alloc(tx, param->idx); src = ureg_src(tx->regs.r[param->idx]); break; /* case D3DSPR_TEXTURE: == D3DSPR_ADDR */ case D3DSPR_ADDR: assert(!param->rel); if (IS_VS) { assert(param->idx == 0); /* the address register (vs only) must be * assigned before use */ assert(!ureg_dst_is_undef(tx->regs.a0)); /* Round to lowest for vs1.1 (contrary to the doc), else * round to nearest */ if (tx->version.major < 2 && tx->version.minor < 2) ureg_ARL(ureg, tx->regs.address, ureg_src(tx->regs.a0)); else ureg_ARR(ureg, tx->regs.address, ureg_src(tx->regs.a0)); src = ureg_src(tx->regs.address); } else { if (tx->version.major < 2 && tx->version.minor < 4) { /* no subroutines, so should be defined */ src = ureg_src(tx->regs.tS[param->idx]); } else { tx_texcoord_alloc(tx, param->idx); src = tx->regs.vT[param->idx]; } } break; case D3DSPR_INPUT: if (IS_VS) { src = ureg_src_register(TGSI_FILE_INPUT, param->idx); } else { if (tx->version.major < 3) { assert(!param->rel); src = ureg_DECL_fs_input_cyl_centroid( ureg, TGSI_SEMANTIC_COLOR, param->idx, TGSI_INTERPOLATE_COLOR, 0, tx->info->force_color_in_centroid ? TGSI_INTERPOLATE_LOC_CENTROID : 0, 0, 1); } else { if(param->rel) { /* Copy all inputs (non consecutive) * to temp array (consecutive). * This is not good for performance. * A better way would be to have inputs * consecutive (would need implement alternative * way to match vs outputs and ps inputs). * However even with the better way, the temp array * copy would need to be used if some inputs * are not GENERIC or if they have different * interpolation flag. */ if (ureg_src_is_undef(tx->regs.v_consecutive)) { int i; tx->regs.v_consecutive = ureg_src(ureg_DECL_array_temporary(ureg, 10, 0)); for (i = 0; i < 10; i++) { if (!ureg_src_is_undef(tx->regs.v[i])) ureg_MOV(ureg, ureg_dst_array_offset(ureg_dst(tx->regs.v_consecutive), i), tx->regs.v[i]); else ureg_MOV(ureg, ureg_dst_array_offset(ureg_dst(tx->regs.v_consecutive), i), ureg_imm4f(ureg, 0.0f, 0.0f, 0.0f, 1.0f)); } } src = ureg_src_array_offset(tx->regs.v_consecutive, param->idx); } else { assert(param->idx < ARRAY_SIZE(tx->regs.v)); src = tx->regs.v[param->idx]; } } } break; case D3DSPR_PREDICATE: assert(!"D3DSPR_PREDICATE"); break; case D3DSPR_SAMPLER: assert(param->mod == NINED3DSPSM_NONE); assert(param->swizzle == NINED3DSP_NOSWIZZLE); assert(!param->rel); src = ureg_src_register(TGSI_FILE_SAMPLER, param->idx); break; case D3DSPR_CONST: assert(!param->rel || IS_VS); if (param->rel) tx->indirect_const_access = TRUE; if (param->rel || !tx_lconstf(tx, &src, param->idx)) { if (!param->rel) nine_info_mark_const_f_used(tx->info, param->idx); /* vswp constant handling: we use two buffers * to fit all the float constants. The special handling * doesn't need to be elsewhere, because all the instructions * accessing the constants directly are VS1, and swvp * is VS >= 2 */ if (IS_VS && tx->info->swvp_on) { if (!param->rel) { if (param->idx < 4096) { src = ureg_src_register(TGSI_FILE_CONSTANT, param->idx); src = ureg_src_dimension(src, 0); } else { src = ureg_src_register(TGSI_FILE_CONSTANT, param->idx - 4096); src = ureg_src_dimension(src, 1); } } else { src = ureg_src_register(TGSI_FILE_CONSTANT, param->idx); /* TODO: swvp rel > 4096 */ src = ureg_src_dimension(src, 0); } } else src = NINE_CONSTANT_SRC(param->idx); } if (!IS_VS && tx->version.major < 2) { /* ps 1.X clamps constants */ tmp = tx_scratch(tx); ureg_MIN(ureg, tmp, src, ureg_imm1f(ureg, 1.0f)); ureg_MAX(ureg, tmp, ureg_src(tmp), ureg_imm1f(ureg, -1.0f)); src = ureg_src(tmp); } break; case D3DSPR_CONST2: case D3DSPR_CONST3: case D3DSPR_CONST4: DBG("CONST2/3/4 should have been collapsed into D3DSPR_CONST !\n"); assert(!"CONST2/3/4"); src = ureg_imm1f(ureg, 0.0f); break; case D3DSPR_CONSTINT: /* relative adressing only possible for float constants in vs */ assert(!param->rel); if (!tx_lconsti(tx, &src, param->idx)) { nine_info_mark_const_i_used(tx->info, param->idx); if (IS_VS && tx->info->swvp_on) { src = ureg_src_register(TGSI_FILE_CONSTANT, param->idx); src = ureg_src_dimension(src, 2); } else src = NINE_CONSTANT_SRC(tx->info->const_i_base + param->idx); } break; case D3DSPR_CONSTBOOL: assert(!param->rel); if (!tx_lconstb(tx, &src, param->idx)) { char r = param->idx / 4; char s = param->idx & 3; nine_info_mark_const_b_used(tx->info, param->idx); if (IS_VS && tx->info->swvp_on) { src = ureg_src_register(TGSI_FILE_CONSTANT, r); src = ureg_src_dimension(src, 3); } else src = NINE_CONSTANT_SRC(tx->info->const_b_base + r); src = ureg_swizzle(src, s, s, s, s); } break; case D3DSPR_LOOP: if (ureg_dst_is_undef(tx->regs.address)) tx->regs.address = ureg_DECL_address(ureg); if (!tx->native_integers) ureg_ARR(ureg, tx->regs.address, tx_get_loopal(tx)); else ureg_UARL(ureg, tx->regs.address, tx_get_loopal(tx)); src = ureg_src(tx->regs.address); break; case D3DSPR_MISCTYPE: switch (param->idx) { case D3DSMO_POSITION: if (ureg_src_is_undef(tx->regs.vPos)) tx->regs.vPos = nine_get_position_input(tx); if (tx->shift_wpos) { /* TODO: do this only once */ struct ureg_dst wpos = tx_scratch(tx); ureg_ADD(ureg, wpos, tx->regs.vPos, ureg_imm4f(ureg, -0.5f, -0.5f, 0.0f, 0.0f)); src = ureg_src(wpos); } else { src = tx->regs.vPos; } break; case D3DSMO_FACE: if (ureg_src_is_undef(tx->regs.vFace)) { if (tx->face_is_sysval_integer) { tmp = tx_scratch(tx); tx->regs.vFace = ureg_DECL_system_value(ureg, TGSI_SEMANTIC_FACE, 0); /* convert bool to float */ ureg_UCMP(ureg, tmp, ureg_scalar(tx->regs.vFace, TGSI_SWIZZLE_X), ureg_imm1f(ureg, 1), ureg_imm1f(ureg, -1)); tx->regs.vFace = ureg_src(tmp); } else { tx->regs.vFace = ureg_DECL_fs_input(ureg, TGSI_SEMANTIC_FACE, 0, TGSI_INTERPOLATE_CONSTANT); } tx->regs.vFace = ureg_scalar(tx->regs.vFace, TGSI_SWIZZLE_X); } src = tx->regs.vFace; break; default: assert(!"invalid src D3DSMO"); break; } assert(!param->rel); break; case D3DSPR_TEMPFLOAT16: break; default: assert(!"invalid src D3DSPR"); } if (param->rel) src = ureg_src_indirect(src, tx_src_param(tx, param->rel)); switch (param->mod) { case NINED3DSPSM_DW: tmp = tx_scratch(tx); /* NOTE: app is not allowed to read w with this modifier */ ureg_RCP(ureg, ureg_writemask(tmp, NINED3DSP_WRITEMASK_3), ureg_scalar(src, TGSI_SWIZZLE_W)); ureg_MUL(ureg, tmp, src, ureg_swizzle(ureg_src(tmp), NINE_SWIZZLE4(W,W,W,W))); src = ureg_src(tmp); break; case NINED3DSPSM_DZ: tmp = tx_scratch(tx); /* NOTE: app is not allowed to read z with this modifier */ ureg_RCP(ureg, ureg_writemask(tmp, NINED3DSP_WRITEMASK_2), ureg_scalar(src, TGSI_SWIZZLE_Z)); ureg_MUL(ureg, tmp, src, ureg_swizzle(ureg_src(tmp), NINE_SWIZZLE4(Z,Z,Z,Z))); src = ureg_src(tmp); break; default: break; } if (param->swizzle != NINED3DSP_NOSWIZZLE) src = ureg_swizzle(src, (param->swizzle >> 0) & 0x3, (param->swizzle >> 2) & 0x3, (param->swizzle >> 4) & 0x3, (param->swizzle >> 6) & 0x3); switch (param->mod) { case NINED3DSPSM_ABS: src = ureg_abs(src); break; case NINED3DSPSM_ABSNEG: src = ureg_negate(ureg_abs(src)); break; case NINED3DSPSM_NEG: src = ureg_negate(src); break; case NINED3DSPSM_BIAS: tmp = tx_scratch(tx); ureg_ADD(ureg, tmp, src, ureg_imm1f(ureg, -0.5f)); src = ureg_src(tmp); break; case NINED3DSPSM_BIASNEG: tmp = tx_scratch(tx); ureg_ADD(ureg, tmp, ureg_imm1f(ureg, 0.5f), ureg_negate(src)); src = ureg_src(tmp); break; case NINED3DSPSM_NOT: if (tx->native_integers) { tmp = tx_scratch(tx); ureg_NOT(ureg, tmp, src); src = ureg_src(tmp); break; } /* fall through */ case NINED3DSPSM_COMP: tmp = tx_scratch(tx); ureg_ADD(ureg, tmp, ureg_imm1f(ureg, 1.0f), ureg_negate(src)); src = ureg_src(tmp); break; case NINED3DSPSM_DZ: case NINED3DSPSM_DW: /* Already handled*/ break; case NINED3DSPSM_SIGN: tmp = tx_scratch(tx); ureg_MAD(ureg, tmp, src, ureg_imm1f(ureg, 2.0f), ureg_imm1f(ureg, -1.0f)); src = ureg_src(tmp); break; case NINED3DSPSM_SIGNNEG: tmp = tx_scratch(tx); ureg_MAD(ureg, tmp, src, ureg_imm1f(ureg, -2.0f), ureg_imm1f(ureg, 1.0f)); src = ureg_src(tmp); break; case NINED3DSPSM_X2: tmp = tx_scratch(tx); ureg_ADD(ureg, tmp, src, src); src = ureg_src(tmp); break; case NINED3DSPSM_X2NEG: tmp = tx_scratch(tx); ureg_ADD(ureg, tmp, src, src); src = ureg_negate(ureg_src(tmp)); break; default: assert(param->mod == NINED3DSPSM_NONE); break; } return src; } static struct ureg_dst _tx_dst_param(struct shader_translator *tx, const struct sm1_dst_param *param) { struct ureg_dst dst; switch (param->file) { case D3DSPR_TEMP: assert(!param->rel); tx_temp_alloc(tx, param->idx); dst = tx->regs.r[param->idx]; break; /* case D3DSPR_TEXTURE: == D3DSPR_ADDR */ case D3DSPR_ADDR: assert(!param->rel); if (tx->version.major < 2 && !IS_VS) { if (ureg_dst_is_undef(tx->regs.tS[param->idx])) tx->regs.tS[param->idx] = ureg_DECL_temporary(tx->ureg); dst = tx->regs.tS[param->idx]; } else if (!IS_VS && tx->insn.opcode == D3DSIO_TEXKILL) { /* maybe others, too */ tx_texcoord_alloc(tx, param->idx); dst = ureg_dst(tx->regs.vT[param->idx]); } else { tx_addr_alloc(tx, param->idx); dst = tx->regs.a0; } break; case D3DSPR_RASTOUT: assert(!param->rel); switch (param->idx) { case 0: if (ureg_dst_is_undef(tx->regs.oPos)) tx->regs.oPos = ureg_DECL_output(tx->ureg, TGSI_SEMANTIC_POSITION, 0); dst = tx->regs.oPos; break; case 1: if (ureg_dst_is_undef(tx->regs.oFog)) tx->regs.oFog = ureg_saturate(ureg_DECL_output(tx->ureg, TGSI_SEMANTIC_FOG, 0)); dst = tx->regs.oFog; break; case 2: if (ureg_dst_is_undef(tx->regs.oPts)) tx->regs.oPts = ureg_DECL_temporary(tx->ureg); dst = tx->regs.oPts; break; default: assert(0); break; } break; /* case D3DSPR_TEXCRDOUT: == D3DSPR_OUTPUT */ case D3DSPR_OUTPUT: if (tx->version.major < 3) { assert(!param->rel); dst = ureg_DECL_output(tx->ureg, tx->texcoord_sn, param->idx); } else { assert(!param->rel); /* TODO */ assert(param->idx < ARRAY_SIZE(tx->regs.o)); dst = tx->regs.o[param->idx]; } break; case D3DSPR_ATTROUT: /* VS */ case D3DSPR_COLOROUT: /* PS */ assert(param->idx >= 0 && param->idx < 4); assert(!param->rel); tx->info->rt_mask |= 1 << param->idx; if (ureg_dst_is_undef(tx->regs.oCol[param->idx])) { /* ps < 3: oCol[0] will have fog blending afterward */ if (!IS_VS && tx->version.major < 3 && param->idx == 0) { tx->regs.oCol[0] = ureg_DECL_temporary(tx->ureg); } else { tx->regs.oCol[param->idx] = ureg_DECL_output(tx->ureg, TGSI_SEMANTIC_COLOR, param->idx); } } dst = tx->regs.oCol[param->idx]; if (IS_VS && tx->version.major < 3) dst = ureg_saturate(dst); break; case D3DSPR_DEPTHOUT: assert(!param->rel); if (ureg_dst_is_undef(tx->regs.oDepth)) tx->regs.oDepth = ureg_DECL_output_masked(tx->ureg, TGSI_SEMANTIC_POSITION, 0, TGSI_WRITEMASK_Z, 0, 1); dst = tx->regs.oDepth; /* XXX: must write .z component */ break; case D3DSPR_PREDICATE: assert(!"D3DSPR_PREDICATE"); break; case D3DSPR_TEMPFLOAT16: DBG("unhandled D3DSPR: %u\n", param->file); break; default: assert(!"invalid dst D3DSPR"); break; } if (param->rel) dst = ureg_dst_indirect(dst, tx_src_param(tx, param->rel)); if (param->mask != NINED3DSP_WRITEMASK_ALL) dst = ureg_writemask(dst, param->mask); if (param->mod & NINED3DSPDM_SATURATE) dst = ureg_saturate(dst); return dst; } static struct ureg_dst tx_dst_param(struct shader_translator *tx, const struct sm1_dst_param *param) { if (param->shift) { tx->regs.tdst = ureg_writemask(tx_scratch(tx), param->mask); return tx->regs.tdst; } return _tx_dst_param(tx, param); } static void tx_apply_dst0_modifiers(struct shader_translator *tx) { struct ureg_dst rdst; float f; if (!tx->insn.ndst || !tx->insn.dst[0].shift || tx->insn.opcode == D3DSIO_TEXKILL) return; rdst = _tx_dst_param(tx, &tx->insn.dst[0]); assert(rdst.File != TGSI_FILE_ADDRESS); /* this probably isn't possible */ if (tx->insn.dst[0].shift < 0) f = 1.0f / (1 << -tx->insn.dst[0].shift); else f = 1 << tx->insn.dst[0].shift; ureg_MUL(tx->ureg, rdst, ureg_src(tx->regs.tdst), ureg_imm1f(tx->ureg, f)); } static struct ureg_src tx_dst_param_as_src(struct shader_translator *tx, const struct sm1_dst_param *param) { struct ureg_src src; assert(!param->shift); assert(!(param->mod & NINED3DSPDM_SATURATE)); switch (param->file) { case D3DSPR_INPUT: if (IS_VS) { src = ureg_src_register(TGSI_FILE_INPUT, param->idx); } else { assert(!param->rel); assert(param->idx < ARRAY_SIZE(tx->regs.v)); src = tx->regs.v[param->idx]; } break; default: src = ureg_src(tx_dst_param(tx, param)); break; } if (param->rel) src = ureg_src_indirect(src, tx_src_param(tx, param->rel)); if (!param->mask) WARN("mask is 0, using identity swizzle\n"); if (param->mask && param->mask != NINED3DSP_WRITEMASK_ALL) { char s[4]; int n; int c; for (n = 0, c = 0; c < 4; ++c) if (param->mask & (1 << c)) s[n++] = c; assert(n); for (c = n; c < 4; ++c) s[c] = s[n - 1]; src = ureg_swizzle(src, s[0], s[1], s[2], s[3]); } return src; } static HRESULT NineTranslateInstruction_Mkxn(struct shader_translator *tx, const unsigned k, const unsigned n) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst; struct ureg_src src[2]; struct sm1_src_param *src_mat = &tx->insn.src[1]; unsigned i; dst = tx_dst_param(tx, &tx->insn.dst[0]); src[0] = tx_src_param(tx, &tx->insn.src[0]); for (i = 0; i < n; i++) { const unsigned m = (1 << i); src[1] = tx_src_param(tx, src_mat); src_mat->idx++; if (!(dst.WriteMask & m)) continue; /* XXX: src == dst case ? */ switch (k) { case 3: ureg_DP3(ureg, ureg_writemask(dst, m), src[0], src[1]); break; case 4: ureg_DP4(ureg, ureg_writemask(dst, m), src[0], src[1]); break; default: DBG("invalid operation: M%ux%u\n", m, n); break; } } return D3D_OK; } #define VNOTSUPPORTED 0, 0 #define V(maj, min) (((maj) << 8) | (min)) static inline const char * d3dsio_to_string( unsigned opcode ) { static const char *names[] = { "NOP", "MOV", "ADD", "SUB", "MAD", "MUL", "RCP", "RSQ", "DP3", "DP4", "MIN", "MAX", "SLT", "SGE", "EXP", "LOG", "LIT", "DST", "LRP", "FRC", "M4x4", "M4x3", "M3x4", "M3x3", "M3x2", "CALL", "CALLNZ", "LOOP", "RET", "ENDLOOP", "LABEL", "DCL", "POW", "CRS", "SGN", "ABS", "NRM", "SINCOS", "REP", "ENDREP", "IF", "IFC", "ELSE", "ENDIF", "BREAK", "BREAKC", "MOVA", "DEFB", "DEFI", NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, "TEXCOORD", "TEXKILL", "TEX", "TEXBEM", "TEXBEML", "TEXREG2AR", "TEXREG2GB", "TEXM3x2PAD", "TEXM3x2TEX", "TEXM3x3PAD", "TEXM3x3TEX", NULL, "TEXM3x3SPEC", "TEXM3x3VSPEC", "EXPP", "LOGP", "CND", "DEF", "TEXREG2RGB", "TEXDP3TEX", "TEXM3x2DEPTH", "TEXDP3", "TEXM3x3", "TEXDEPTH", "CMP", "BEM", "DP2ADD", "DSX", "DSY", "TEXLDD", "SETP", "TEXLDL", "BREAKP" }; if (opcode < ARRAY_SIZE(names)) return names[opcode]; switch (opcode) { case D3DSIO_PHASE: return "PHASE"; case D3DSIO_COMMENT: return "COMMENT"; case D3DSIO_END: return "END"; default: return NULL; } } #define NULL_INSTRUCTION { 0, { 0, 0 }, { 0, 0 }, 0, 0, NULL } #define IS_VALID_INSTRUCTION(inst) ((inst).vert_version.min | \ (inst).vert_version.max | \ (inst).frag_version.min | \ (inst).frag_version.max) #define SPECIAL(name) \ NineTranslateInstruction_##name #define DECL_SPECIAL(name) \ static HRESULT \ NineTranslateInstruction_##name( struct shader_translator *tx ) static HRESULT NineTranslateInstruction_Generic(struct shader_translator *); DECL_SPECIAL(NOP) { /* Nothing to do. NOP was used to avoid hangs * with very old d3d drivers. */ return D3D_OK; } DECL_SPECIAL(SUB) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src0 = tx_src_param(tx, &tx->insn.src[0]); struct ureg_src src1 = tx_src_param(tx, &tx->insn.src[1]); ureg_ADD(ureg, dst, src0, ureg_negate(src1)); return D3D_OK; } DECL_SPECIAL(ABS) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); ureg_MOV(ureg, dst, ureg_abs(src)); return D3D_OK; } DECL_SPECIAL(XPD) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src0 = tx_src_param(tx, &tx->insn.src[0]); struct ureg_src src1 = tx_src_param(tx, &tx->insn.src[1]); ureg_MUL(ureg, ureg_writemask(dst, TGSI_WRITEMASK_XYZ), ureg_swizzle(src0, TGSI_SWIZZLE_Y, TGSI_SWIZZLE_Z, TGSI_SWIZZLE_X, 0), ureg_swizzle(src1, TGSI_SWIZZLE_Z, TGSI_SWIZZLE_X, TGSI_SWIZZLE_Y, 0)); ureg_MAD(ureg, ureg_writemask(dst, TGSI_WRITEMASK_XYZ), ureg_swizzle(src0, TGSI_SWIZZLE_Z, TGSI_SWIZZLE_X, TGSI_SWIZZLE_Y, 0), ureg_negate(ureg_swizzle(src1, TGSI_SWIZZLE_Y, TGSI_SWIZZLE_Z, TGSI_SWIZZLE_X, 0)), ureg_src(dst)); ureg_MOV(ureg, ureg_writemask(dst, TGSI_WRITEMASK_W), ureg_imm1f(ureg, 1)); return D3D_OK; } DECL_SPECIAL(M4x4) { return NineTranslateInstruction_Mkxn(tx, 4, 4); } DECL_SPECIAL(M4x3) { return NineTranslateInstruction_Mkxn(tx, 4, 3); } DECL_SPECIAL(M3x4) { return NineTranslateInstruction_Mkxn(tx, 3, 4); } DECL_SPECIAL(M3x3) { return NineTranslateInstruction_Mkxn(tx, 3, 3); } DECL_SPECIAL(M3x2) { return NineTranslateInstruction_Mkxn(tx, 3, 2); } DECL_SPECIAL(CMP) { ureg_CMP(tx->ureg, tx_dst_param(tx, &tx->insn.dst[0]), tx_src_param(tx, &tx->insn.src[0]), tx_src_param(tx, &tx->insn.src[2]), tx_src_param(tx, &tx->insn.src[1])); return D3D_OK; } DECL_SPECIAL(CND) { struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_dst cgt; struct ureg_src cnd; /* the coissue flag was a tip for compilers to advise to * execute two operations at the same time, in cases * the two executions had same dst with different channels. * It has no effect on current hw. However it seems CND * is affected. The handling of this very specific case * handled below mimick wine behaviour */ if (tx->insn.coissue && tx->version.major == 1 && tx->version.minor < 4 && tx->insn.dst[0].mask != NINED3DSP_WRITEMASK_3) { ureg_MOV(tx->ureg, dst, tx_src_param(tx, &tx->insn.src[1])); return D3D_OK; } cnd = tx_src_param(tx, &tx->insn.src[0]); cgt = tx_scratch(tx); if (tx->version.major == 1 && tx->version.minor < 4) cnd = ureg_scalar(cnd, TGSI_SWIZZLE_W); ureg_SGT(tx->ureg, cgt, cnd, ureg_imm1f(tx->ureg, 0.5f)); ureg_CMP(tx->ureg, dst, ureg_negate(ureg_src(cgt)), tx_src_param(tx, &tx->insn.src[1]), tx_src_param(tx, &tx->insn.src[2])); return D3D_OK; } DECL_SPECIAL(CALL) { assert(tx->insn.src[0].idx < tx->num_inst_labels); ureg_CAL(tx->ureg, &tx->inst_labels[tx->insn.src[0].idx]); return D3D_OK; } DECL_SPECIAL(CALLNZ) { struct ureg_program *ureg = tx->ureg; struct ureg_src src = tx_src_param(tx, &tx->insn.src[1]); if (!tx->native_integers) ureg_IF(ureg, src, tx_cond(tx)); else ureg_UIF(ureg, src, tx_cond(tx)); ureg_CAL(ureg, &tx->inst_labels[tx->insn.src[0].idx]); tx_endcond(tx); ureg_ENDIF(ureg); return D3D_OK; } DECL_SPECIAL(LOOP) { struct ureg_program *ureg = tx->ureg; unsigned *label; struct ureg_src src = tx_src_param(tx, &tx->insn.src[1]); struct ureg_dst ctr; struct ureg_dst tmp; struct ureg_src ctrx; label = tx_bgnloop(tx); ctr = tx_get_loopctr(tx, TRUE); ctrx = ureg_scalar(ureg_src(ctr), TGSI_SWIZZLE_X); /* src: num_iterations - start_value of al - step for al - 0 */ ureg_MOV(ureg, ctr, src); ureg_BGNLOOP(tx->ureg, label); tmp = tx_scratch_scalar(tx); /* Initially ctr.x contains the number of iterations. * ctr.y will contain the updated value of al. * We decrease ctr.x at the end of every iteration, * and stop when it reaches 0. */ if (!tx->native_integers) { /* case src and ctr contain floats */ /* to avoid precision issue, we stop when ctr <= 0.5 */ ureg_SGE(ureg, tmp, ureg_imm1f(ureg, 0.5f), ctrx); ureg_IF(ureg, tx_src_scalar(tmp), tx_cond(tx)); } else { /* case src and ctr contain integers */ ureg_ISGE(ureg, tmp, ureg_imm1i(ureg, 0), ctrx); ureg_UIF(ureg, tx_src_scalar(tmp), tx_cond(tx)); } ureg_BRK(ureg); tx_endcond(tx); ureg_ENDIF(ureg); return D3D_OK; } DECL_SPECIAL(RET) { ureg_RET(tx->ureg); return D3D_OK; } DECL_SPECIAL(ENDLOOP) { struct ureg_program *ureg = tx->ureg; struct ureg_dst ctr = tx_get_loopctr(tx, TRUE); struct ureg_dst dst_ctrx, dst_al; struct ureg_src src_ctr, al_counter; dst_ctrx = ureg_writemask(ctr, NINED3DSP_WRITEMASK_0); dst_al = ureg_writemask(ctr, NINED3DSP_WRITEMASK_1); src_ctr = ureg_src(ctr); al_counter = ureg_scalar(src_ctr, TGSI_SWIZZLE_Z); /* ctr.x -= 1 * ctr.y (aL) += step */ if (!tx->native_integers) { ureg_ADD(ureg, dst_ctrx, src_ctr, ureg_imm1f(ureg, -1.0f)); ureg_ADD(ureg, dst_al, src_ctr, al_counter); } else { ureg_UADD(ureg, dst_ctrx, src_ctr, ureg_imm1i(ureg, -1)); ureg_UADD(ureg, dst_al, src_ctr, al_counter); } ureg_ENDLOOP(tx->ureg, tx_endloop(tx)); return D3D_OK; } DECL_SPECIAL(LABEL) { unsigned k = tx->num_inst_labels; unsigned n = tx->insn.src[0].idx; assert(n < 2048); if (n >= k) tx->inst_labels = REALLOC(tx->inst_labels, k * sizeof(tx->inst_labels[0]), n * sizeof(tx->inst_labels[0])); tx->inst_labels[n] = ureg_get_instruction_number(tx->ureg); return D3D_OK; } DECL_SPECIAL(SINCOS) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); assert(!(dst.WriteMask & 0xc)); /* z undefined, w untouched */ ureg_COS(ureg, ureg_writemask(dst, TGSI_WRITEMASK_X), ureg_scalar(src, TGSI_SWIZZLE_X)); ureg_SIN(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Y), ureg_scalar(src, TGSI_SWIZZLE_X)); return D3D_OK; } DECL_SPECIAL(SGN) { ureg_SSG(tx->ureg, tx_dst_param(tx, &tx->insn.dst[0]), tx_src_param(tx, &tx->insn.src[0])); return D3D_OK; } DECL_SPECIAL(REP) { struct ureg_program *ureg = tx->ureg; unsigned *label; struct ureg_src rep = tx_src_param(tx, &tx->insn.src[0]); struct ureg_dst ctr; struct ureg_dst tmp; struct ureg_src ctrx; label = tx_bgnloop(tx); ctr = ureg_writemask(tx_get_loopctr(tx, FALSE), NINED3DSP_WRITEMASK_0); ctrx = ureg_scalar(ureg_src(ctr), TGSI_SWIZZLE_X); /* NOTE: rep must be constant, so we don't have to save the count */ assert(rep.File == TGSI_FILE_CONSTANT || rep.File == TGSI_FILE_IMMEDIATE); /* rep: num_iterations - 0 - 0 - 0 */ ureg_MOV(ureg, ctr, rep); ureg_BGNLOOP(ureg, label); tmp = tx_scratch_scalar(tx); /* Initially ctr.x contains the number of iterations. * We decrease ctr.x at the end of every iteration, * and stop when it reaches 0. */ if (!tx->native_integers) { /* case src and ctr contain floats */ /* to avoid precision issue, we stop when ctr <= 0.5 */ ureg_SGE(ureg, tmp, ureg_imm1f(ureg, 0.5f), ctrx); ureg_IF(ureg, tx_src_scalar(tmp), tx_cond(tx)); } else { /* case src and ctr contain integers */ ureg_ISGE(ureg, tmp, ureg_imm1i(ureg, 0), ctrx); ureg_UIF(ureg, tx_src_scalar(tmp), tx_cond(tx)); } ureg_BRK(ureg); tx_endcond(tx); ureg_ENDIF(ureg); return D3D_OK; } DECL_SPECIAL(ENDREP) { struct ureg_program *ureg = tx->ureg; struct ureg_dst ctr = tx_get_loopctr(tx, FALSE); struct ureg_dst dst_ctrx = ureg_writemask(ctr, NINED3DSP_WRITEMASK_0); struct ureg_src src_ctr = ureg_src(ctr); /* ctr.x -= 1 */ if (!tx->native_integers) ureg_ADD(ureg, dst_ctrx, src_ctr, ureg_imm1f(ureg, -1.0f)); else ureg_UADD(ureg, dst_ctrx, src_ctr, ureg_imm1i(ureg, -1)); ureg_ENDLOOP(tx->ureg, tx_endloop(tx)); return D3D_OK; } DECL_SPECIAL(ENDIF) { tx_endcond(tx); ureg_ENDIF(tx->ureg); return D3D_OK; } DECL_SPECIAL(IF) { struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); if (tx->native_integers && tx->insn.src[0].file == D3DSPR_CONSTBOOL) ureg_UIF(tx->ureg, src, tx_cond(tx)); else ureg_IF(tx->ureg, src, tx_cond(tx)); return D3D_OK; } static inline unsigned sm1_insn_flags_to_tgsi_setop(BYTE flags) { switch (flags) { case NINED3DSHADER_REL_OP_GT: return TGSI_OPCODE_SGT; case NINED3DSHADER_REL_OP_EQ: return TGSI_OPCODE_SEQ; case NINED3DSHADER_REL_OP_GE: return TGSI_OPCODE_SGE; case NINED3DSHADER_REL_OP_LT: return TGSI_OPCODE_SLT; case NINED3DSHADER_REL_OP_NE: return TGSI_OPCODE_SNE; case NINED3DSHADER_REL_OP_LE: return TGSI_OPCODE_SLE; default: assert(!"invalid comparison flags"); return TGSI_OPCODE_SGT; } } DECL_SPECIAL(IFC) { const unsigned cmp_op = sm1_insn_flags_to_tgsi_setop(tx->insn.flags); struct ureg_src src[2]; struct ureg_dst tmp = ureg_writemask(tx_scratch(tx), TGSI_WRITEMASK_X); src[0] = tx_src_param(tx, &tx->insn.src[0]); src[1] = tx_src_param(tx, &tx->insn.src[1]); ureg_insn(tx->ureg, cmp_op, &tmp, 1, src, 2, 0); ureg_IF(tx->ureg, ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), tx_cond(tx)); return D3D_OK; } DECL_SPECIAL(ELSE) { ureg_ELSE(tx->ureg, tx_elsecond(tx)); return D3D_OK; } DECL_SPECIAL(BREAKC) { const unsigned cmp_op = sm1_insn_flags_to_tgsi_setop(tx->insn.flags); struct ureg_src src[2]; struct ureg_dst tmp = ureg_writemask(tx_scratch(tx), TGSI_WRITEMASK_X); src[0] = tx_src_param(tx, &tx->insn.src[0]); src[1] = tx_src_param(tx, &tx->insn.src[1]); ureg_insn(tx->ureg, cmp_op, &tmp, 1, src, 2, 0); ureg_IF(tx->ureg, ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), tx_cond(tx)); ureg_BRK(tx->ureg); tx_endcond(tx); ureg_ENDIF(tx->ureg); return D3D_OK; } static const char *sm1_declusage_names[] = { [D3DDECLUSAGE_POSITION] = "POSITION", [D3DDECLUSAGE_BLENDWEIGHT] = "BLENDWEIGHT", [D3DDECLUSAGE_BLENDINDICES] = "BLENDINDICES", [D3DDECLUSAGE_NORMAL] = "NORMAL", [D3DDECLUSAGE_PSIZE] = "PSIZE", [D3DDECLUSAGE_TEXCOORD] = "TEXCOORD", [D3DDECLUSAGE_TANGENT] = "TANGENT", [D3DDECLUSAGE_BINORMAL] = "BINORMAL", [D3DDECLUSAGE_TESSFACTOR] = "TESSFACTOR", [D3DDECLUSAGE_POSITIONT] = "POSITIONT", [D3DDECLUSAGE_COLOR] = "COLOR", [D3DDECLUSAGE_FOG] = "FOG", [D3DDECLUSAGE_DEPTH] = "DEPTH", [D3DDECLUSAGE_SAMPLE] = "SAMPLE" }; static inline unsigned sm1_to_nine_declusage(struct sm1_semantic *dcl) { return nine_d3d9_to_nine_declusage(dcl->usage, dcl->usage_idx); } static void sm1_declusage_to_tgsi(struct tgsi_declaration_semantic *sem, boolean tc, struct sm1_semantic *dcl) { BYTE index = dcl->usage_idx; /* For everything that is not matching to a TGSI_SEMANTIC_****, * we match to a TGSI_SEMANTIC_GENERIC with index. * * The index can be anything UINT16 and usage_idx is BYTE, * so we can fit everything. It doesn't matter if indices * are close together or low. * * * POSITION >= 1: 10 * index + 6 * COLOR >= 2: 10 * (index-1) + 7 * TEXCOORD[0..15]: index * BLENDWEIGHT: 10 * index + 18 * BLENDINDICES: 10 * index + 19 * NORMAL: 10 * index + 20 * TANGENT: 10 * index + 21 * BINORMAL: 10 * index + 22 * TESSFACTOR: 10 * index + 23 */ switch (dcl->usage) { case D3DDECLUSAGE_POSITION: case D3DDECLUSAGE_POSITIONT: case D3DDECLUSAGE_DEPTH: if (index == 0) { sem->Name = TGSI_SEMANTIC_POSITION; sem->Index = 0; } else { sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 6; } break; case D3DDECLUSAGE_COLOR: if (index < 2) { sem->Name = TGSI_SEMANTIC_COLOR; sem->Index = index; } else { sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * (index-1) + 7; } break; case D3DDECLUSAGE_FOG: assert(index == 0); sem->Name = TGSI_SEMANTIC_FOG; sem->Index = 0; break; case D3DDECLUSAGE_PSIZE: assert(index == 0); sem->Name = TGSI_SEMANTIC_PSIZE; sem->Index = 0; break; case D3DDECLUSAGE_TEXCOORD: assert(index < 16); if (index < 8 && tc) sem->Name = TGSI_SEMANTIC_TEXCOORD; else sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = index; break; case D3DDECLUSAGE_BLENDWEIGHT: sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 18; break; case D3DDECLUSAGE_BLENDINDICES: sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 19; break; case D3DDECLUSAGE_NORMAL: sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 20; break; case D3DDECLUSAGE_TANGENT: sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 21; break; case D3DDECLUSAGE_BINORMAL: sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 22; break; case D3DDECLUSAGE_TESSFACTOR: sem->Name = TGSI_SEMANTIC_GENERIC; sem->Index = 10 * index + 23; break; case D3DDECLUSAGE_SAMPLE: sem->Name = TGSI_SEMANTIC_COUNT; sem->Index = 0; break; default: unreachable("Invalid DECLUSAGE."); break; } } #define NINED3DSTT_1D (D3DSTT_1D >> D3DSP_TEXTURETYPE_SHIFT) #define NINED3DSTT_2D (D3DSTT_2D >> D3DSP_TEXTURETYPE_SHIFT) #define NINED3DSTT_VOLUME (D3DSTT_VOLUME >> D3DSP_TEXTURETYPE_SHIFT) #define NINED3DSTT_CUBE (D3DSTT_CUBE >> D3DSP_TEXTURETYPE_SHIFT) static inline unsigned d3dstt_to_tgsi_tex(BYTE sampler_type) { switch (sampler_type) { case NINED3DSTT_1D: return TGSI_TEXTURE_1D; case NINED3DSTT_2D: return TGSI_TEXTURE_2D; case NINED3DSTT_VOLUME: return TGSI_TEXTURE_3D; case NINED3DSTT_CUBE: return TGSI_TEXTURE_CUBE; default: assert(0); return TGSI_TEXTURE_UNKNOWN; } } static inline unsigned d3dstt_to_tgsi_tex_shadow(BYTE sampler_type) { switch (sampler_type) { case NINED3DSTT_1D: return TGSI_TEXTURE_SHADOW1D; case NINED3DSTT_2D: return TGSI_TEXTURE_SHADOW2D; case NINED3DSTT_VOLUME: case NINED3DSTT_CUBE: default: assert(0); return TGSI_TEXTURE_UNKNOWN; } } static inline unsigned ps1x_sampler_type(const struct nine_shader_info *info, unsigned stage) { switch ((info->sampler_ps1xtypes >> (stage * 2)) & 0x3) { case 1: return TGSI_TEXTURE_1D; case 0: return TGSI_TEXTURE_2D; case 3: return TGSI_TEXTURE_3D; default: return TGSI_TEXTURE_CUBE; } } static const char * sm1_sampler_type_name(BYTE sampler_type) { switch (sampler_type) { case NINED3DSTT_1D: return "1D"; case NINED3DSTT_2D: return "2D"; case NINED3DSTT_VOLUME: return "VOLUME"; case NINED3DSTT_CUBE: return "CUBE"; default: return "(D3DSTT_?)"; } } static inline unsigned nine_tgsi_to_interp_mode(struct tgsi_declaration_semantic *sem) { switch (sem->Name) { case TGSI_SEMANTIC_POSITION: case TGSI_SEMANTIC_NORMAL: return TGSI_INTERPOLATE_LINEAR; case TGSI_SEMANTIC_BCOLOR: case TGSI_SEMANTIC_COLOR: return TGSI_INTERPOLATE_COLOR; case TGSI_SEMANTIC_FOG: case TGSI_SEMANTIC_GENERIC: case TGSI_SEMANTIC_TEXCOORD: case TGSI_SEMANTIC_CLIPDIST: case TGSI_SEMANTIC_CLIPVERTEX: return TGSI_INTERPOLATE_PERSPECTIVE; case TGSI_SEMANTIC_EDGEFLAG: case TGSI_SEMANTIC_FACE: case TGSI_SEMANTIC_INSTANCEID: case TGSI_SEMANTIC_PCOORD: case TGSI_SEMANTIC_PRIMID: case TGSI_SEMANTIC_PSIZE: case TGSI_SEMANTIC_VERTEXID: return TGSI_INTERPOLATE_CONSTANT; default: assert(0); return TGSI_INTERPOLATE_CONSTANT; } } DECL_SPECIAL(DCL) { struct ureg_program *ureg = tx->ureg; boolean is_input; boolean is_sampler; struct tgsi_declaration_semantic tgsi; struct sm1_semantic sem; sm1_read_semantic(tx, &sem); is_input = sem.reg.file == D3DSPR_INPUT; is_sampler = sem.usage == D3DDECLUSAGE_SAMPLE || sem.reg.file == D3DSPR_SAMPLER; DUMP("DCL "); sm1_dump_dst_param(&sem.reg); if (is_sampler) DUMP(" %s\n", sm1_sampler_type_name(sem.sampler_type)); else if (tx->version.major >= 3) DUMP(" %s%i\n", sm1_declusage_names[sem.usage], sem.usage_idx); else if (sem.usage | sem.usage_idx) DUMP(" %u[%u]\n", sem.usage, sem.usage_idx); else DUMP("\n"); if (is_sampler) { const unsigned m = 1 << sem.reg.idx; ureg_DECL_sampler(ureg, sem.reg.idx); tx->info->sampler_mask |= m; tx->sampler_targets[sem.reg.idx] = (tx->info->sampler_mask_shadow & m) ? d3dstt_to_tgsi_tex_shadow(sem.sampler_type) : d3dstt_to_tgsi_tex(sem.sampler_type); return D3D_OK; } sm1_declusage_to_tgsi(&tgsi, tx->want_texcoord, &sem); if (IS_VS) { if (is_input) { /* linkage outside of shader with vertex declaration */ ureg_DECL_vs_input(ureg, sem.reg.idx); assert(sem.reg.idx < ARRAY_SIZE(tx->info->input_map)); tx->info->input_map[sem.reg.idx] = sm1_to_nine_declusage(&sem); tx->info->num_inputs = MAX2(tx->info->num_inputs, sem.reg.idx + 1); /* NOTE: preserving order in case of indirect access */ } else if (tx->version.major >= 3) { /* SM2 output semantic determined by file */ assert(sem.reg.mask != 0); if (sem.usage == D3DDECLUSAGE_POSITIONT) tx->info->position_t = TRUE; assert(sem.reg.idx < ARRAY_SIZE(tx->regs.o)); assert(ureg_dst_is_undef(tx->regs.o[sem.reg.idx]) && "Nine doesn't support yet packing"); tx->regs.o[sem.reg.idx] = ureg_DECL_output_masked( ureg, tgsi.Name, tgsi.Index, sem.reg.mask, 0, 1); nine_record_outputs(tx, sem.usage, sem.usage_idx, sem.reg.mask, sem.reg.idx); if (tx->info->process_vertices && sem.usage == D3DDECLUSAGE_POSITION && sem.usage_idx == 0) { tx->regs.oPos_out = tx->regs.o[sem.reg.idx]; tx->regs.o[sem.reg.idx] = ureg_DECL_temporary(ureg); tx->regs.oPos = tx->regs.o[sem.reg.idx]; } if (tgsi.Name == TGSI_SEMANTIC_PSIZE) { tx->regs.o[sem.reg.idx] = ureg_DECL_temporary(ureg); tx->regs.oPts = tx->regs.o[sem.reg.idx]; } } } else { if (is_input && tx->version.major >= 3) { unsigned interp_location = 0; /* SM3 only, SM2 input semantic determined by file */ assert(sem.reg.idx < ARRAY_SIZE(tx->regs.v)); assert(ureg_src_is_undef(tx->regs.v[sem.reg.idx]) && "Nine doesn't support yet packing"); /* PositionT and tessfactor forbidden */ if (sem.usage == D3DDECLUSAGE_POSITIONT || sem.usage == D3DDECLUSAGE_TESSFACTOR) return D3DERR_INVALIDCALL; if (tgsi.Name == TGSI_SEMANTIC_POSITION) { /* Position0 is forbidden (likely because vPos already does that) */ if (sem.usage == D3DDECLUSAGE_POSITION) return D3DERR_INVALIDCALL; /* Following code is for depth */ tx->regs.v[sem.reg.idx] = nine_get_position_input(tx); return D3D_OK; } if (sem.reg.mod & NINED3DSPDM_CENTROID || (tgsi.Name == TGSI_SEMANTIC_COLOR && tx->info->force_color_in_centroid)) interp_location = TGSI_INTERPOLATE_LOC_CENTROID; tx->regs.v[sem.reg.idx] = ureg_DECL_fs_input_cyl_centroid( ureg, tgsi.Name, tgsi.Index, nine_tgsi_to_interp_mode(&tgsi), 0, /* cylwrap */ interp_location, 0, 1); } else if (!is_input && 0) { /* declare in COLOROUT/DEPTHOUT case */ /* FragColor or FragDepth */ assert(sem.reg.mask != 0); ureg_DECL_output_masked(ureg, tgsi.Name, tgsi.Index, sem.reg.mask, 0, 1); } } return D3D_OK; } DECL_SPECIAL(DEF) { tx_set_lconstf(tx, tx->insn.dst[0].idx, tx->insn.src[0].imm.f); return D3D_OK; } DECL_SPECIAL(DEFB) { tx_set_lconstb(tx, tx->insn.dst[0].idx, tx->insn.src[0].imm.b); return D3D_OK; } DECL_SPECIAL(DEFI) { tx_set_lconsti(tx, tx->insn.dst[0].idx, tx->insn.src[0].imm.i); return D3D_OK; } DECL_SPECIAL(POW) { struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src[2] = { tx_src_param(tx, &tx->insn.src[0]), tx_src_param(tx, &tx->insn.src[1]) }; ureg_POW(tx->ureg, dst, ureg_abs(src[0]), src[1]); return D3D_OK; } DECL_SPECIAL(RSQ) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); struct ureg_dst tmp = tx_scratch(tx); ureg_RSQ(ureg, tmp, ureg_abs(src)); ureg_MIN(ureg, dst, ureg_imm1f(ureg, FLT_MAX), ureg_src(tmp)); return D3D_OK; } DECL_SPECIAL(LOG) { struct ureg_program *ureg = tx->ureg; struct ureg_dst tmp = tx_scratch_scalar(tx); struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); ureg_LG2(ureg, tmp, ureg_abs(src)); ureg_MAX(ureg, dst, ureg_imm1f(ureg, -FLT_MAX), tx_src_scalar(tmp)); return D3D_OK; } DECL_SPECIAL(LIT) { struct ureg_program *ureg = tx->ureg; struct ureg_dst tmp = tx_scratch(tx); struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); ureg_LIT(ureg, tmp, src); /* d3d9 LIT is the same than gallium LIT. One difference is that d3d9 * states that dst.z is 0 when src.y <= 0. Gallium definition can assign * it 0^0 if src.w=0, which value is driver dependent. */ ureg_CMP(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Z), ureg_negate(ureg_scalar(src, TGSI_SWIZZLE_Y)), ureg_src(tmp), ureg_imm1f(ureg, 0.0f)); ureg_MOV(ureg, ureg_writemask(dst, TGSI_WRITEMASK_XYW), ureg_src(tmp)); return D3D_OK; } DECL_SPECIAL(NRM) { struct ureg_program *ureg = tx->ureg; struct ureg_dst tmp = tx_scratch_scalar(tx); struct ureg_src nrm = tx_src_scalar(tmp); struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); ureg_DP3(ureg, tmp, src, src); ureg_RSQ(ureg, tmp, nrm); ureg_MIN(ureg, tmp, ureg_imm1f(ureg, FLT_MAX), nrm); ureg_MUL(ureg, dst, src, nrm); return D3D_OK; } DECL_SPECIAL(DP2ADD) { struct ureg_dst tmp = tx_scratch_scalar(tx); struct ureg_src dp2 = tx_src_scalar(tmp); struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src[3]; int i; for (i = 0; i < 3; ++i) src[i] = tx_src_param(tx, &tx->insn.src[i]); assert_replicate_swizzle(&src[2]); ureg_DP2(tx->ureg, tmp, src[0], src[1]); ureg_ADD(tx->ureg, dst, src[2], dp2); return D3D_OK; } DECL_SPECIAL(TEXCOORD) { struct ureg_program *ureg = tx->ureg; const unsigned s = tx->insn.dst[0].idx; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); tx_texcoord_alloc(tx, s); ureg_MOV(ureg, ureg_writemask(ureg_saturate(dst), TGSI_WRITEMASK_XYZ), tx->regs.vT[s]); ureg_MOV(ureg, ureg_writemask(dst, TGSI_WRITEMASK_W), ureg_imm1f(tx->ureg, 1.0f)); return D3D_OK; } DECL_SPECIAL(TEXCOORD_ps14) { struct ureg_program *ureg = tx->ureg; struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); assert(tx->insn.src[0].file == D3DSPR_TEXTURE); ureg_MOV(ureg, dst, src); return D3D_OK; } DECL_SPECIAL(TEXKILL) { struct ureg_src reg; if (tx->version.major > 1 || tx->version.minor > 3) { reg = tx_dst_param_as_src(tx, &tx->insn.dst[0]); } else { tx_texcoord_alloc(tx, tx->insn.dst[0].idx); reg = tx->regs.vT[tx->insn.dst[0].idx]; } if (tx->version.major < 2) reg = ureg_swizzle(reg, NINE_SWIZZLE4(X,Y,Z,Z)); ureg_KILL_IF(tx->ureg, reg); return D3D_OK; } DECL_SPECIAL(TEXBEM) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_dst tmp, tmp2, texcoord; struct ureg_src sample, m00, m01, m10, m11; struct ureg_src bumpenvlscale, bumpenvloffset; const int m = tx->insn.dst[0].idx; const int n = tx->insn.src[0].idx; assert(tx->version.major == 1); sample = ureg_DECL_sampler(ureg, m); tx->info->sampler_mask |= 1 << m; tx_texcoord_alloc(tx, m); tmp = tx_scratch(tx); tmp2 = tx_scratch(tx); texcoord = tx_scratch(tx); /* * Bump-env-matrix: * 00 is X * 01 is Y * 10 is Z * 11 is W */ nine_info_mark_const_f_used(tx->info, 8 + 8 + m/2); m00 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, X); m01 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, Y); m10 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, Z); m11 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, W); /* These two attributes are packed as X=scale0 Y=offset0 Z=scale1 W=offset1 etc */ if (m % 2 == 0) { bumpenvlscale = NINE_CONSTANT_SRC_SWIZZLE(8 + 8 + m / 2, X); bumpenvloffset = NINE_CONSTANT_SRC_SWIZZLE(8 + 8 + m / 2, Y); } else { bumpenvlscale = NINE_CONSTANT_SRC_SWIZZLE(8 + 8 + m / 2, Z); bumpenvloffset = NINE_CONSTANT_SRC_SWIZZLE(8 + 8 + m / 2, W); } apply_ps1x_projection(tx, texcoord, tx->regs.vT[m], m); /* u' = TextureCoordinates(stage m)u + D3DTSS_BUMPENVMAT00(stage m)*t(n)R */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), m00, NINE_APPLY_SWIZZLE(ureg_src(tx->regs.tS[n]), X), ureg_src(texcoord)); /* u' = u' + D3DTSS_BUMPENVMAT10(stage m)*t(n)G */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), m10, NINE_APPLY_SWIZZLE(ureg_src(tx->regs.tS[n]), Y), NINE_APPLY_SWIZZLE(ureg_src(tmp), X)); /* v' = TextureCoordinates(stage m)v + D3DTSS_BUMPENVMAT01(stage m)*t(n)R */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), m01, NINE_APPLY_SWIZZLE(ureg_src(tx->regs.tS[n]), X), ureg_src(texcoord)); /* v' = v' + D3DTSS_BUMPENVMAT11(stage m)*t(n)G*/ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), m11, NINE_APPLY_SWIZZLE(ureg_src(tx->regs.tS[n]), Y), NINE_APPLY_SWIZZLE(ureg_src(tmp), Y)); /* Now the texture coordinates are in tmp.xy */ if (tx->insn.opcode == D3DSIO_TEXBEM) { ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m), ureg_src(tmp), sample); } else if (tx->insn.opcode == D3DSIO_TEXBEML) { /* t(m)RGBA = t(m)RGBA * [(t(n)B * D3DTSS_BUMPENVLSCALE(stage m)) + D3DTSS_BUMPENVLOFFSET(stage m)] */ ureg_TEX(ureg, tmp, ps1x_sampler_type(tx->info, m), ureg_src(tmp), sample); ureg_MAD(ureg, tmp2, NINE_APPLY_SWIZZLE(ureg_src(tx->regs.tS[n]), Z), bumpenvlscale, bumpenvloffset); ureg_MUL(ureg, dst, ureg_src(tmp), ureg_src(tmp2)); } tx->info->bumpenvmat_needed = 1; return D3D_OK; } DECL_SPECIAL(TEXREG2AR) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src sample; const int m = tx->insn.dst[0].idx; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); sample = ureg_DECL_sampler(ureg, m); tx->info->sampler_mask |= 1 << m; ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m), ureg_swizzle(ureg_src(tx->regs.tS[n]), NINE_SWIZZLE4(W,X,X,X)), sample); return D3D_OK; } DECL_SPECIAL(TEXREG2GB) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src sample; const int m = tx->insn.dst[0].idx; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); sample = ureg_DECL_sampler(ureg, m); tx->info->sampler_mask |= 1 << m; ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m), ureg_swizzle(ureg_src(tx->regs.tS[n]), NINE_SWIZZLE4(Y,Z,Z,Z)), sample); return D3D_OK; } DECL_SPECIAL(TEXM3x2PAD) { return D3D_OK; /* this is just padding */ } DECL_SPECIAL(TEXM3x2TEX) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src sample; const int m = tx->insn.dst[0].idx - 1; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); tx_texcoord_alloc(tx, m); tx_texcoord_alloc(tx, m+1); /* performs the matrix multiplication */ ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_X), tx->regs.vT[m], ureg_src(tx->regs.tS[n])); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Y), tx->regs.vT[m+1], ureg_src(tx->regs.tS[n])); sample = ureg_DECL_sampler(ureg, m + 1); tx->info->sampler_mask |= 1 << (m + 1); ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m + 1), ureg_src(dst), sample); return D3D_OK; } DECL_SPECIAL(TEXM3x3PAD) { return D3D_OK; /* this is just padding */ } DECL_SPECIAL(TEXM3x3SPEC) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src E = tx_src_param(tx, &tx->insn.src[1]); struct ureg_src sample; struct ureg_dst tmp; const int m = tx->insn.dst[0].idx - 2; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); tx_texcoord_alloc(tx, m); tx_texcoord_alloc(tx, m+1); tx_texcoord_alloc(tx, m+2); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_X), tx->regs.vT[m], ureg_src(tx->regs.tS[n])); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Y), tx->regs.vT[m+1], ureg_src(tx->regs.tS[n])); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Z), tx->regs.vT[m+2], ureg_src(tx->regs.tS[n])); sample = ureg_DECL_sampler(ureg, m + 2); tx->info->sampler_mask |= 1 << (m + 2); tmp = ureg_writemask(tx_scratch(tx), TGSI_WRITEMASK_XYZ); /* At this step, dst = N = (u', w', z'). * We want dst to be the texture sampled at (u'', w'', z''), with * (u'', w'', z'') = 2 * (N.E / N.N) * N - E */ ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_src(dst), ureg_src(dst)); ureg_RCP(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X)); /* at this step tmp.x = 1/N.N */ ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), ureg_src(dst), E); /* at this step tmp.y = N.E */ ureg_MUL(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_Y)); /* at this step tmp.x = N.E/N.N */ ureg_MUL(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_imm1f(ureg, 2.0f)); ureg_MUL(ureg, tmp, ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_src(dst)); /* at this step tmp.xyz = 2 * (N.E / N.N) * N */ ureg_ADD(ureg, tmp, ureg_src(tmp), ureg_negate(E)); ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m + 2), ureg_src(tmp), sample); return D3D_OK; } DECL_SPECIAL(TEXREG2RGB) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src sample; const int m = tx->insn.dst[0].idx; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); sample = ureg_DECL_sampler(ureg, m); tx->info->sampler_mask |= 1 << m; ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m), ureg_src(tx->regs.tS[n]), sample); return D3D_OK; } DECL_SPECIAL(TEXDP3TEX) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_dst tmp; struct ureg_src sample; const int m = tx->insn.dst[0].idx; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); tx_texcoord_alloc(tx, m); tmp = tx_scratch(tx); ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), tx->regs.vT[m], ureg_src(tx->regs.tS[n])); ureg_MOV(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_YZ), ureg_imm1f(ureg, 0.0f)); sample = ureg_DECL_sampler(ureg, m); tx->info->sampler_mask |= 1 << m; ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m), ureg_src(tmp), sample); return D3D_OK; } DECL_SPECIAL(TEXM3x2DEPTH) { struct ureg_program *ureg = tx->ureg; struct ureg_dst tmp; const int m = tx->insn.dst[0].idx - 1; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); tx_texcoord_alloc(tx, m); tx_texcoord_alloc(tx, m+1); tmp = tx_scratch(tx); /* performs the matrix multiplication */ ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), tx->regs.vT[m], ureg_src(tx->regs.tS[n])); ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), tx->regs.vT[m+1], ureg_src(tx->regs.tS[n])); ureg_RCP(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Z), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_Y)); /* tmp.x = 'z', tmp.y = 'w', tmp.z = 1/'w'. */ ureg_MUL(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_Z)); /* res = 'w' == 0 ? 1.0 : z/w */ ureg_CMP(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_negate(ureg_abs(ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_Y))), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_imm1f(ureg, 1.0f)); /* replace the depth for depth testing with the result */ tx->regs.oDepth = ureg_DECL_output_masked(ureg, TGSI_SEMANTIC_POSITION, 0, TGSI_WRITEMASK_Z, 0, 1); ureg_MOV(ureg, tx->regs.oDepth, ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X)); /* note that we write nothing to the destination, since it's disallowed to use it afterward */ return D3D_OK; } DECL_SPECIAL(TEXDP3) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); const int m = tx->insn.dst[0].idx; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); tx_texcoord_alloc(tx, m); ureg_DP3(ureg, dst, tx->regs.vT[m], ureg_src(tx->regs.tS[n])); return D3D_OK; } DECL_SPECIAL(TEXM3x3) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src sample; struct ureg_dst E, tmp; const int m = tx->insn.dst[0].idx - 2; const int n = tx->insn.src[0].idx; assert(m >= 0 && m > n); tx_texcoord_alloc(tx, m); tx_texcoord_alloc(tx, m+1); tx_texcoord_alloc(tx, m+2); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_X), tx->regs.vT[m], ureg_src(tx->regs.tS[n])); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Y), tx->regs.vT[m+1], ureg_src(tx->regs.tS[n])); ureg_DP3(ureg, ureg_writemask(dst, TGSI_WRITEMASK_Z), tx->regs.vT[m+2], ureg_src(tx->regs.tS[n])); switch (tx->insn.opcode) { case D3DSIO_TEXM3x3: ureg_MOV(ureg, ureg_writemask(dst, TGSI_WRITEMASK_W), ureg_imm1f(ureg, 1.0f)); break; case D3DSIO_TEXM3x3TEX: sample = ureg_DECL_sampler(ureg, m + 2); tx->info->sampler_mask |= 1 << (m + 2); ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m + 2), ureg_src(dst), sample); break; case D3DSIO_TEXM3x3VSPEC: sample = ureg_DECL_sampler(ureg, m + 2); tx->info->sampler_mask |= 1 << (m + 2); E = tx_scratch(tx); tmp = ureg_writemask(tx_scratch(tx), TGSI_WRITEMASK_XYZ); ureg_MOV(ureg, ureg_writemask(E, TGSI_WRITEMASK_X), ureg_scalar(tx->regs.vT[m], TGSI_SWIZZLE_W)); ureg_MOV(ureg, ureg_writemask(E, TGSI_WRITEMASK_Y), ureg_scalar(tx->regs.vT[m+1], TGSI_SWIZZLE_W)); ureg_MOV(ureg, ureg_writemask(E, TGSI_WRITEMASK_Z), ureg_scalar(tx->regs.vT[m+2], TGSI_SWIZZLE_W)); /* At this step, dst = N = (u', w', z'). * We want dst to be the texture sampled at (u'', w'', z''), with * (u'', w'', z'') = 2 * (N.E / N.N) * N - E */ ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_src(dst), ureg_src(dst)); ureg_RCP(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X)); /* at this step tmp.x = 1/N.N */ ureg_DP3(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), ureg_src(dst), ureg_src(E)); /* at this step tmp.y = N.E */ ureg_MUL(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_Y)); /* at this step tmp.x = N.E/N.N */ ureg_MUL(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_imm1f(ureg, 2.0f)); ureg_MUL(ureg, tmp, ureg_scalar(ureg_src(tmp), TGSI_SWIZZLE_X), ureg_src(dst)); /* at this step tmp.xyz = 2 * (N.E / N.N) * N */ ureg_ADD(ureg, tmp, ureg_src(tmp), ureg_negate(ureg_src(E))); ureg_TEX(ureg, dst, ps1x_sampler_type(tx->info, m + 2), ureg_src(tmp), sample); break; default: return D3DERR_INVALIDCALL; } return D3D_OK; } DECL_SPECIAL(TEXDEPTH) { struct ureg_program *ureg = tx->ureg; struct ureg_dst r5; struct ureg_src r5r, r5g; assert(tx->insn.dst[0].idx == 5); /* instruction must get r5 here */ /* we must replace the depth by r5.g == 0 ? 1.0f : r5.r/r5.g. * r5 won't be used afterward, thus we can use r5.ba */ r5 = tx->regs.r[5]; r5r = ureg_scalar(ureg_src(r5), TGSI_SWIZZLE_X); r5g = ureg_scalar(ureg_src(r5), TGSI_SWIZZLE_Y); ureg_RCP(ureg, ureg_writemask(r5, TGSI_WRITEMASK_Z), r5g); ureg_MUL(ureg, ureg_writemask(r5, TGSI_WRITEMASK_X), r5r, ureg_scalar(ureg_src(r5), TGSI_SWIZZLE_Z)); /* r5.r = r/g */ ureg_CMP(ureg, ureg_writemask(r5, TGSI_WRITEMASK_X), ureg_negate(ureg_abs(r5g)), r5r, ureg_imm1f(ureg, 1.0f)); /* replace the depth for depth testing with the result */ tx->regs.oDepth = ureg_DECL_output_masked(ureg, TGSI_SEMANTIC_POSITION, 0, TGSI_WRITEMASK_Z, 0, 1); ureg_MOV(ureg, tx->regs.oDepth, r5r); return D3D_OK; } DECL_SPECIAL(BEM) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src0 = tx_src_param(tx, &tx->insn.src[0]); struct ureg_src src1 = tx_src_param(tx, &tx->insn.src[1]); struct ureg_src m00, m01, m10, m11; const int m = tx->insn.dst[0].idx; struct ureg_dst tmp; /* * Bump-env-matrix: * 00 is X * 01 is Y * 10 is Z * 11 is W */ nine_info_mark_const_f_used(tx->info, 8 + m); m00 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, X); m01 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, Y); m10 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, Z); m11 = NINE_CONSTANT_SRC_SWIZZLE(8 + m, W); /* dest.r = src0.r + D3DTSS_BUMPENVMAT00(stage n) * src1.r */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), m00, NINE_APPLY_SWIZZLE(src1, X), NINE_APPLY_SWIZZLE(src0, X)); /* dest.r = dest.r + D3DTSS_BUMPENVMAT10(stage n) * src1.g; */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_X), m10, NINE_APPLY_SWIZZLE(src1, Y), NINE_APPLY_SWIZZLE(ureg_src(tmp), X)); /* dest.g = src0.g + D3DTSS_BUMPENVMAT01(stage n) * src1.r */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), m01, NINE_APPLY_SWIZZLE(src1, X), src0); /* dest.g = dest.g + D3DTSS_BUMPENVMAT11(stage n) * src1.g */ ureg_MAD(ureg, ureg_writemask(tmp, TGSI_WRITEMASK_Y), m11, NINE_APPLY_SWIZZLE(src1, Y), NINE_APPLY_SWIZZLE(ureg_src(tmp), Y)); ureg_MOV(ureg, ureg_writemask(dst, TGSI_WRITEMASK_XY), ureg_src(tmp)); tx->info->bumpenvmat_needed = 1; return D3D_OK; } DECL_SPECIAL(TEXLD) { struct ureg_program *ureg = tx->ureg; unsigned target; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src[2] = { tx_src_param(tx, &tx->insn.src[0]), tx_src_param(tx, &tx->insn.src[1]) }; assert(tx->insn.src[1].idx >= 0 && tx->insn.src[1].idx < ARRAY_SIZE(tx->sampler_targets)); target = tx->sampler_targets[tx->insn.src[1].idx]; switch (tx->insn.flags) { case 0: ureg_TEX(ureg, dst, target, src[0], src[1]); break; case NINED3DSI_TEXLD_PROJECT: ureg_TXP(ureg, dst, target, src[0], src[1]); break; case NINED3DSI_TEXLD_BIAS: ureg_TXB(ureg, dst, target, src[0], src[1]); break; default: assert(0); return D3DERR_INVALIDCALL; } return D3D_OK; } DECL_SPECIAL(TEXLD_14) { struct ureg_program *ureg = tx->ureg; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src = tx_src_param(tx, &tx->insn.src[0]); const unsigned s = tx->insn.dst[0].idx; const unsigned t = ps1x_sampler_type(tx->info, s); tx->info->sampler_mask |= 1 << s; ureg_TEX(ureg, dst, t, src, ureg_DECL_sampler(ureg, s)); return D3D_OK; } DECL_SPECIAL(TEX) { struct ureg_program *ureg = tx->ureg; const unsigned s = tx->insn.dst[0].idx; const unsigned t = ps1x_sampler_type(tx->info, s); struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src[2]; tx_texcoord_alloc(tx, s); src[0] = tx->regs.vT[s]; src[1] = ureg_DECL_sampler(ureg, s); tx->info->sampler_mask |= 1 << s; TEX_with_ps1x_projection(tx, dst, t, src[0], src[1], s); return D3D_OK; } DECL_SPECIAL(TEXLDD) { unsigned target; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src[4] = { tx_src_param(tx, &tx->insn.src[0]), tx_src_param(tx, &tx->insn.src[1]), tx_src_param(tx, &tx->insn.src[2]), tx_src_param(tx, &tx->insn.src[3]) }; assert(tx->insn.src[1].idx >= 0 && tx->insn.src[1].idx < ARRAY_SIZE(tx->sampler_targets)); target = tx->sampler_targets[tx->insn.src[1].idx]; ureg_TXD(tx->ureg, dst, target, src[0], src[2], src[3], src[1]); return D3D_OK; } DECL_SPECIAL(TEXLDL) { unsigned target; struct ureg_dst dst = tx_dst_param(tx, &tx->insn.dst[0]); struct ureg_src src[2] = { tx_src_param(tx, &tx->insn.src[0]), tx_src_param(tx, &tx->insn.src[1]) }; assert(tx->insn.src[1].idx >= 0 && tx->insn.src[1].idx < ARRAY_SIZE(tx->sampler_targets)); target = tx->sampler_targets[tx->insn.src[1].idx]; ureg_TXL(tx->ureg, dst, target, src[0], src[1]); return D3D_OK; } DECL_SPECIAL(SETP) { STUB(D3DERR_INVALIDCALL); } DECL_SPECIAL(BREAKP) { STUB(D3DERR_INVALIDCALL); } DECL_SPECIAL(PHASE) { return D3D_OK; /* we don't care about phase */ } DECL_SPECIAL(COMMENT) { return D3D_OK; /* nothing to do */ } #define _OPI(o,t,vv1,vv2,pv1,pv2,d,s,h) \ { D3DSIO_##o, TGSI_OPCODE_##t, { vv1, vv2 }, { pv1, pv2, }, d, s, h } struct sm1_op_info inst_table[] = { _OPI(NOP, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 0, 0, SPECIAL(NOP)), /* 0 */ _OPI(MOV, MOV, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, NULL), _OPI(ADD, ADD, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 2 */ _OPI(SUB, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(SUB)), /* 3 */ _OPI(MAD, MAD, V(0,0), V(3,0), V(0,0), V(3,0), 1, 3, NULL), /* 4 */ _OPI(MUL, MUL, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 5 */ _OPI(RCP, RCP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, NULL), /* 6 */ _OPI(RSQ, RSQ, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, SPECIAL(RSQ)), /* 7 */ _OPI(DP3, DP3, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 8 */ _OPI(DP4, DP4, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 9 */ _OPI(MIN, MIN, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 10 */ _OPI(MAX, MAX, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 11 */ _OPI(SLT, SLT, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 12 */ _OPI(SGE, SGE, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 13 */ _OPI(EXP, EX2, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, NULL), /* 14 */ _OPI(LOG, LG2, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, SPECIAL(LOG)), /* 15 */ _OPI(LIT, LIT, V(0,0), V(3,0), V(0,0), V(0,0), 1, 1, SPECIAL(LIT)), /* 16 */ _OPI(DST, DST, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, NULL), /* 17 */ _OPI(LRP, LRP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 3, NULL), /* 18 */ _OPI(FRC, FRC, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, NULL), /* 19 */ _OPI(M4x4, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(M4x4)), _OPI(M4x3, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(M4x3)), _OPI(M3x4, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(M3x4)), _OPI(M3x3, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(M3x3)), _OPI(M3x2, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(M3x2)), _OPI(CALL, CAL, V(2,0), V(3,0), V(2,1), V(3,0), 0, 1, SPECIAL(CALL)), _OPI(CALLNZ, CAL, V(2,0), V(3,0), V(2,1), V(3,0), 0, 2, SPECIAL(CALLNZ)), _OPI(LOOP, BGNLOOP, V(2,0), V(3,0), V(3,0), V(3,0), 0, 2, SPECIAL(LOOP)), _OPI(RET, RET, V(2,0), V(3,0), V(2,1), V(3,0), 0, 0, SPECIAL(RET)), _OPI(ENDLOOP, ENDLOOP, V(2,0), V(3,0), V(3,0), V(3,0), 0, 0, SPECIAL(ENDLOOP)), _OPI(LABEL, NOP, V(2,0), V(3,0), V(2,1), V(3,0), 0, 1, SPECIAL(LABEL)), _OPI(DCL, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 0, 0, SPECIAL(DCL)), _OPI(POW, POW, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(POW)), _OPI(CRS, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 2, SPECIAL(XPD)), /* XXX: .w */ _OPI(SGN, SSG, V(2,0), V(3,0), V(0,0), V(0,0), 1, 3, SPECIAL(SGN)), /* ignore src1,2 */ _OPI(ABS, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, SPECIAL(ABS)), _OPI(NRM, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 1, SPECIAL(NRM)), /* NRM doesn't fit */ _OPI(SINCOS, NOP, V(2,0), V(2,1), V(2,0), V(2,1), 1, 3, SPECIAL(SINCOS)), _OPI(SINCOS, NOP, V(3,0), V(3,0), V(3,0), V(3,0), 1, 1, SPECIAL(SINCOS)), /* More flow control */ _OPI(REP, NOP, V(2,0), V(3,0), V(2,1), V(3,0), 0, 1, SPECIAL(REP)), _OPI(ENDREP, NOP, V(2,0), V(3,0), V(2,1), V(3,0), 0, 0, SPECIAL(ENDREP)), _OPI(IF, IF, V(2,0), V(3,0), V(2,1), V(3,0), 0, 1, SPECIAL(IF)), _OPI(IFC, IF, V(2,1), V(3,0), V(2,1), V(3,0), 0, 2, SPECIAL(IFC)), _OPI(ELSE, ELSE, V(2,0), V(3,0), V(2,1), V(3,0), 0, 0, SPECIAL(ELSE)), _OPI(ENDIF, ENDIF, V(2,0), V(3,0), V(2,1), V(3,0), 0, 0, SPECIAL(ENDIF)), _OPI(BREAK, BRK, V(2,1), V(3,0), V(2,1), V(3,0), 0, 0, NULL), _OPI(BREAKC, NOP, V(2,1), V(3,0), V(2,1), V(3,0), 0, 2, SPECIAL(BREAKC)), /* we don't write to the address register, but a normal register (copied * when needed to the address register), thus we don't use ARR */ _OPI(MOVA, MOV, V(2,0), V(3,0), V(0,0), V(0,0), 1, 1, NULL), _OPI(DEFB, NOP, V(0,0), V(3,0) , V(0,0), V(3,0) , 1, 0, SPECIAL(DEFB)), _OPI(DEFI, NOP, V(0,0), V(3,0) , V(0,0), V(3,0) , 1, 0, SPECIAL(DEFI)), _OPI(TEXCOORD, NOP, V(0,0), V(0,0), V(0,0), V(1,3), 1, 0, SPECIAL(TEXCOORD)), _OPI(TEXCOORD, MOV, V(0,0), V(0,0), V(1,4), V(1,4), 1, 1, SPECIAL(TEXCOORD_ps14)), _OPI(TEXKILL, KILL_IF, V(0,0), V(0,0), V(0,0), V(3,0), 1, 0, SPECIAL(TEXKILL)), _OPI(TEX, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 0, SPECIAL(TEX)), _OPI(TEX, TEX, V(0,0), V(0,0), V(1,4), V(1,4), 1, 1, SPECIAL(TEXLD_14)), _OPI(TEX, TEX, V(0,0), V(0,0), V(2,0), V(3,0), 1, 2, SPECIAL(TEXLD)), _OPI(TEXBEM, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXBEM)), _OPI(TEXBEML, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXBEM)), _OPI(TEXREG2AR, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXREG2AR)), _OPI(TEXREG2GB, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXREG2GB)), _OPI(TEXM3x2PAD, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXM3x2PAD)), _OPI(TEXM3x2TEX, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXM3x2TEX)), _OPI(TEXM3x3PAD, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXM3x3PAD)), _OPI(TEXM3x3TEX, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXM3x3)), _OPI(TEXM3x3SPEC, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 2, SPECIAL(TEXM3x3SPEC)), _OPI(TEXM3x3VSPEC, TEX, V(0,0), V(0,0), V(0,0), V(1,3), 1, 1, SPECIAL(TEXM3x3)), _OPI(EXPP, EXP, V(0,0), V(1,1), V(0,0), V(0,0), 1, 1, NULL), _OPI(EXPP, EX2, V(2,0), V(3,0), V(0,0), V(0,0), 1, 1, NULL), _OPI(LOGP, LG2, V(0,0), V(3,0), V(0,0), V(0,0), 1, 1, SPECIAL(LOG)), _OPI(CND, NOP, V(0,0), V(0,0), V(0,0), V(1,4), 1, 3, SPECIAL(CND)), _OPI(DEF, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 1, 0, SPECIAL(DEF)), /* More tex stuff */ _OPI(TEXREG2RGB, TEX, V(0,0), V(0,0), V(1,2), V(1,3), 1, 1, SPECIAL(TEXREG2RGB)), _OPI(TEXDP3TEX, TEX, V(0,0), V(0,0), V(1,2), V(1,3), 1, 1, SPECIAL(TEXDP3TEX)), _OPI(TEXM3x2DEPTH, TEX, V(0,0), V(0,0), V(1,3), V(1,3), 1, 1, SPECIAL(TEXM3x2DEPTH)), _OPI(TEXDP3, TEX, V(0,0), V(0,0), V(1,2), V(1,3), 1, 1, SPECIAL(TEXDP3)), _OPI(TEXM3x3, TEX, V(0,0), V(0,0), V(1,2), V(1,3), 1, 1, SPECIAL(TEXM3x3)), _OPI(TEXDEPTH, TEX, V(0,0), V(0,0), V(1,4), V(1,4), 1, 0, SPECIAL(TEXDEPTH)), /* Misc */ _OPI(CMP, CMP, V(0,0), V(0,0), V(1,2), V(3,0), 1, 3, SPECIAL(CMP)), /* reversed */ _OPI(BEM, NOP, V(0,0), V(0,0), V(1,4), V(1,4), 1, 2, SPECIAL(BEM)), _OPI(DP2ADD, NOP, V(0,0), V(0,0), V(2,0), V(3,0), 1, 3, SPECIAL(DP2ADD)), _OPI(DSX, DDX, V(0,0), V(0,0), V(2,1), V(3,0), 1, 1, NULL), _OPI(DSY, DDY, V(0,0), V(0,0), V(2,1), V(3,0), 1, 1, NULL), _OPI(TEXLDD, TXD, V(0,0), V(0,0), V(2,1), V(3,0), 1, 4, SPECIAL(TEXLDD)), _OPI(SETP, NOP, V(0,0), V(3,0), V(2,1), V(3,0), 1, 2, SPECIAL(SETP)), _OPI(TEXLDL, TXL, V(3,0), V(3,0), V(3,0), V(3,0), 1, 2, SPECIAL(TEXLDL)), _OPI(BREAKP, BRK, V(0,0), V(3,0), V(2,1), V(3,0), 0, 1, SPECIAL(BREAKP)) }; struct sm1_op_info inst_phase = _OPI(PHASE, NOP, V(0,0), V(0,0), V(1,4), V(1,4), 0, 0, SPECIAL(PHASE)); struct sm1_op_info inst_comment = _OPI(COMMENT, NOP, V(0,0), V(3,0), V(0,0), V(3,0), 0, 0, SPECIAL(COMMENT)); static void create_op_info_map(struct shader_translator *tx) { const unsigned version = (tx->version.major << 8) | tx->version.minor; unsigned i; for (i = 0; i < ARRAY_SIZE(tx->op_info_map); ++i) tx->op_info_map[i] = -1; if (tx->processor == PIPE_SHADER_VERTEX) { for (i = 0; i < ARRAY_SIZE(inst_table); ++i) { assert(inst_table[i].sio < ARRAY_SIZE(tx->op_info_map)); if (inst_table[i].vert_version.min <= version && inst_table[i].vert_version.max >= version) tx->op_info_map[inst_table[i].sio] = i; } } else { for (i = 0; i < ARRAY_SIZE(inst_table); ++i) { assert(inst_table[i].sio < ARRAY_SIZE(tx->op_info_map)); if (inst_table[i].frag_version.min <= version && inst_table[i].frag_version.max >= version) tx->op_info_map[inst_table[i].sio] = i; } } } static inline HRESULT NineTranslateInstruction_Generic(struct shader_translator *tx) { struct ureg_dst dst[1]; struct ureg_src src[4]; unsigned i; for (i = 0; i < tx->insn.ndst && i < ARRAY_SIZE(dst); ++i) dst[i] = tx_dst_param(tx, &tx->insn.dst[i]); for (i = 0; i < tx->insn.nsrc && i < ARRAY_SIZE(src); ++i) src[i] = tx_src_param(tx, &tx->insn.src[i]); ureg_insn(tx->ureg, tx->insn.info->opcode, dst, tx->insn.ndst, src, tx->insn.nsrc, 0); return D3D_OK; } static inline DWORD TOKEN_PEEK(struct shader_translator *tx) { return *(tx->parse); } static inline DWORD TOKEN_NEXT(struct shader_translator *tx) { return *(tx->parse)++; } static inline void TOKEN_JUMP(struct shader_translator *tx) { if (tx->parse_next && tx->parse != tx->parse_next) { WARN("parse(%p) != parse_next(%p) !\n", tx->parse, tx->parse_next); tx->parse = tx->parse_next; } } static inline boolean sm1_parse_eof(struct shader_translator *tx) { return TOKEN_PEEK(tx) == NINED3DSP_END; } static void sm1_read_version(struct shader_translator *tx) { const DWORD tok = TOKEN_NEXT(tx); tx->version.major = D3DSHADER_VERSION_MAJOR(tok); tx->version.minor = D3DSHADER_VERSION_MINOR(tok); switch (tok >> 16) { case NINED3D_SM1_VS: tx->processor = PIPE_SHADER_VERTEX; break; case NINED3D_SM1_PS: tx->processor = PIPE_SHADER_FRAGMENT; break; default: DBG("Invalid shader type: %x\n", tok); tx->processor = ~0; break; } } /* This is just to check if we parsed the instruction properly. */ static void sm1_parse_get_skip(struct shader_translator *tx) { const DWORD tok = TOKEN_PEEK(tx); if (tx->version.major >= 2) { tx->parse_next = tx->parse + 1 /* this */ + ((tok & D3DSI_INSTLENGTH_MASK) >> D3DSI_INSTLENGTH_SHIFT); } else { tx->parse_next = NULL; /* TODO: determine from param count */ } } static void sm1_print_comment(const char *comment, UINT size) { if (!size) return; /* TODO */ } static void sm1_parse_comments(struct shader_translator *tx, BOOL print) { DWORD tok = TOKEN_PEEK(tx); while ((tok & D3DSI_OPCODE_MASK) == D3DSIO_COMMENT) { const char *comment = ""; UINT size = (tok & D3DSI_COMMENTSIZE_MASK) >> D3DSI_COMMENTSIZE_SHIFT; tx->parse += size + 1; if (print) sm1_print_comment(comment, size); tok = TOKEN_PEEK(tx); } } static void sm1_parse_get_param(struct shader_translator *tx, DWORD *reg, DWORD *rel) { *reg = TOKEN_NEXT(tx); if (*reg & D3DSHADER_ADDRMODE_RELATIVE) { if (tx->version.major < 2) *rel = (1 << 31) | ((D3DSPR_ADDR << D3DSP_REGTYPE_SHIFT2) & D3DSP_REGTYPE_MASK2) | ((D3DSPR_ADDR << D3DSP_REGTYPE_SHIFT) & D3DSP_REGTYPE_MASK) | D3DSP_NOSWIZZLE; else *rel = TOKEN_NEXT(tx); } } static void sm1_parse_dst_param(struct sm1_dst_param *dst, DWORD tok) { int8_t shift; dst->file = (tok & D3DSP_REGTYPE_MASK) >> D3DSP_REGTYPE_SHIFT | (tok & D3DSP_REGTYPE_MASK2) >> D3DSP_REGTYPE_SHIFT2; dst->type = TGSI_RETURN_TYPE_FLOAT; dst->idx = tok & D3DSP_REGNUM_MASK; dst->rel = NULL; dst->mask = (tok & NINED3DSP_WRITEMASK_MASK) >> NINED3DSP_WRITEMASK_SHIFT; dst->mod = (tok & D3DSP_DSTMOD_MASK) >> D3DSP_DSTMOD_SHIFT; shift = (tok & D3DSP_DSTSHIFT_MASK) >> D3DSP_DSTSHIFT_SHIFT; dst->shift = (shift & 0x7) - (shift & 0x8); } static void sm1_parse_src_param(struct sm1_src_param *src, DWORD tok) { src->file = ((tok & D3DSP_REGTYPE_MASK) >> D3DSP_REGTYPE_SHIFT) | ((tok & D3DSP_REGTYPE_MASK2) >> D3DSP_REGTYPE_SHIFT2); src->type = TGSI_RETURN_TYPE_FLOAT; src->idx = tok & D3DSP_REGNUM_MASK; src->rel = NULL; src->swizzle = (tok & D3DSP_SWIZZLE_MASK) >> D3DSP_SWIZZLE_SHIFT; src->mod = (tok & D3DSP_SRCMOD_MASK) >> D3DSP_SRCMOD_SHIFT; switch (src->file) { case D3DSPR_CONST2: src->file = D3DSPR_CONST; src->idx += 2048; break; case D3DSPR_CONST3: src->file = D3DSPR_CONST; src->idx += 4096; break; case D3DSPR_CONST4: src->file = D3DSPR_CONST; src->idx += 6144; break; default: break; } } static void sm1_parse_immediate(struct shader_translator *tx, struct sm1_src_param *imm) { imm->file = NINED3DSPR_IMMEDIATE; imm->idx = INT_MIN; imm->rel = NULL; imm->swizzle = NINED3DSP_NOSWIZZLE; imm->mod = 0; switch (tx->insn.opcode) { case D3DSIO_DEF: imm->type = NINED3DSPTYPE_FLOAT4; memcpy(&imm->imm.d[0], tx->parse, 4 * sizeof(DWORD)); tx->parse += 4; break; case D3DSIO_DEFI: imm->type = NINED3DSPTYPE_INT4; memcpy(&imm->imm.d[0], tx->parse, 4 * sizeof(DWORD)); tx->parse += 4; break; case D3DSIO_DEFB: imm->type = NINED3DSPTYPE_BOOL; memcpy(&imm->imm.d[0], tx->parse, 1 * sizeof(DWORD)); tx->parse += 1; break; default: assert(0); break; } } static void sm1_read_dst_param(struct shader_translator *tx, struct sm1_dst_param *dst, struct sm1_src_param *rel) { DWORD tok_dst, tok_rel = 0; sm1_parse_get_param(tx, &tok_dst, &tok_rel); sm1_parse_dst_param(dst, tok_dst); if (tok_dst & D3DSHADER_ADDRMODE_RELATIVE) { sm1_parse_src_param(rel, tok_rel); dst->rel = rel; } } static void sm1_read_src_param(struct shader_translator *tx, struct sm1_src_param *src, struct sm1_src_param *rel) { DWORD tok_src, tok_rel = 0; sm1_parse_get_param(tx, &tok_src, &tok_rel); sm1_parse_src_param(src, tok_src); if (tok_src & D3DSHADER_ADDRMODE_RELATIVE) { assert(rel); sm1_parse_src_param(rel, tok_rel); src->rel = rel; } } static void sm1_read_semantic(struct shader_translator *tx, struct sm1_semantic *sem) { const DWORD tok_usg = TOKEN_NEXT(tx); const DWORD tok_dst = TOKEN_NEXT(tx); sem->sampler_type = (tok_usg & D3DSP_TEXTURETYPE_MASK) >> D3DSP_TEXTURETYPE_SHIFT; sem->usage = (tok_usg & D3DSP_DCL_USAGE_MASK) >> D3DSP_DCL_USAGE_SHIFT; sem->usage_idx = (tok_usg & D3DSP_DCL_USAGEINDEX_MASK) >> D3DSP_DCL_USAGEINDEX_SHIFT; sm1_parse_dst_param(&sem->reg, tok_dst); } static void sm1_parse_instruction(struct shader_translator *tx) { struct sm1_instruction *insn = &tx->insn; HRESULT hr; DWORD tok; struct sm1_op_info *info = NULL; unsigned i; sm1_parse_comments(tx, TRUE); sm1_parse_get_skip(tx); tok = TOKEN_NEXT(tx); insn->opcode = tok & D3DSI_OPCODE_MASK; insn->flags = (tok & NINED3DSIO_OPCODE_FLAGS_MASK) >> NINED3DSIO_OPCODE_FLAGS_SHIFT; insn->coissue = !!(tok & D3DSI_COISSUE); insn->predicated = !!(tok & NINED3DSHADER_INST_PREDICATED); if (insn->opcode < ARRAY_SIZE(tx->op_info_map)) { int k = tx->op_info_map[insn->opcode]; if (k >= 0) { assert(k < ARRAY_SIZE(inst_table)); info = &inst_table[k]; } } else { if (insn->opcode == D3DSIO_PHASE) info = &inst_phase; if (insn->opcode == D3DSIO_COMMENT) info = &inst_comment; } if (!info) { DBG("illegal or unhandled opcode: %08x\n", insn->opcode); TOKEN_JUMP(tx); return; } insn->info = info; insn->ndst = info->ndst; insn->nsrc = info->nsrc; assert(!insn->predicated && "TODO: predicated instructions"); /* check version */ { unsigned min = IS_VS ? info->vert_version.min : info->frag_version.min; unsigned max = IS_VS ? info->vert_version.max : info->frag_version.max; unsigned ver = (tx->version.major << 8) | tx->version.minor; if (ver < min || ver > max) { DBG("opcode not supported in this shader version: %x <= %x <= %x\n", min, ver, max); return; } } for (i = 0; i < insn->ndst; ++i) sm1_read_dst_param(tx, &insn->dst[i], &insn->dst_rel[i]); if (insn->predicated) sm1_read_src_param(tx, &insn->pred, NULL); for (i = 0; i < insn->nsrc; ++i) sm1_read_src_param(tx, &insn->src[i], &insn->src_rel[i]); /* parse here so we can dump them before processing */ if (insn->opcode == D3DSIO_DEF || insn->opcode == D3DSIO_DEFI || insn->opcode == D3DSIO_DEFB) sm1_parse_immediate(tx, &tx->insn.src[0]); sm1_dump_instruction(insn, tx->cond_depth + tx->loop_depth); sm1_instruction_check(insn); if (info->handler) hr = info->handler(tx); else hr = NineTranslateInstruction_Generic(tx); tx_apply_dst0_modifiers(tx); if (hr != D3D_OK) tx->failure = TRUE; tx->num_scratch = 0; /* reset */ TOKEN_JUMP(tx); } static void tx_ctor(struct shader_translator *tx, struct nine_shader_info *info) { unsigned i; tx->info = info; tx->byte_code = info->byte_code; tx->parse = info->byte_code; for (i = 0; i < ARRAY_SIZE(info->input_map); ++i) info->input_map[i] = NINE_DECLUSAGE_NONE; info->num_inputs = 0; info->position_t = FALSE; info->point_size = FALSE; tx->info->const_float_slots = 0; tx->info->const_int_slots = 0; tx->info->const_bool_slots = 0; info->sampler_mask = 0x0; info->rt_mask = 0x0; info->lconstf.data = NULL; info->lconstf.ranges = NULL; info->bumpenvmat_needed = 0; for (i = 0; i < ARRAY_SIZE(tx->regs.rL); ++i) { tx->regs.rL[i] = ureg_dst_undef(); } tx->regs.address = ureg_dst_undef(); tx->regs.a0 = ureg_dst_undef(); tx->regs.p = ureg_dst_undef(); tx->regs.oDepth = ureg_dst_undef(); tx->regs.vPos = ureg_src_undef(); tx->regs.vFace = ureg_src_undef(); for (i = 0; i < ARRAY_SIZE(tx->regs.o); ++i) tx->regs.o[i] = ureg_dst_undef(); for (i = 0; i < ARRAY_SIZE(tx->regs.oCol); ++i) tx->regs.oCol[i] = ureg_dst_undef(); for (i = 0; i < ARRAY_SIZE(tx->regs.vC); ++i) tx->regs.vC[i] = ureg_src_undef(); for (i = 0; i < ARRAY_SIZE(tx->regs.vT); ++i) tx->regs.vT[i] = ureg_src_undef(); sm1_read_version(tx); info->version = (tx->version.major << 4) | tx->version.minor; tx->num_outputs = 0; create_op_info_map(tx); } static void tx_dtor(struct shader_translator *tx) { if (tx->num_inst_labels) FREE(tx->inst_labels); FREE(tx->lconstf); FREE(tx->regs.r); FREE(tx); } /* CONST[0].xyz = width/2, -height/2, zmax-zmin * CONST[1].xyz = x+width/2, y+height/2, zmin */ static void shader_add_vs_viewport_transform(struct shader_translator *tx) { struct ureg_program *ureg = tx->ureg; struct ureg_src c0 = NINE_CONSTANT_SRC(0); struct ureg_src c1 = NINE_CONSTANT_SRC(1); /* struct ureg_dst pos_tmp = ureg_DECL_temporary(ureg);*/ c0 = ureg_src_dimension(c0, 4); c1 = ureg_src_dimension(c1, 4); /* TODO: find out when we need to apply the viewport transformation or not. * Likely will be XYZ vs XYZRHW in vdecl_out * ureg_MUL(ureg, ureg_writemask(pos_tmp, TGSI_WRITEMASK_XYZ), ureg_src(tx->regs.oPos), c0); * ureg_ADD(ureg, ureg_writemask(tx->regs.oPos_out, TGSI_WRITEMASK_XYZ), ureg_src(pos_tmp), c1); */ ureg_MOV(ureg, ureg_writemask(tx->regs.oPos_out, TGSI_WRITEMASK_XYZ), ureg_src(tx->regs.oPos)); } static void shader_add_ps_fog_stage(struct shader_translator *tx, struct ureg_src src_col) { struct ureg_program *ureg = tx->ureg; struct ureg_dst oCol0 = ureg_DECL_output(ureg, TGSI_SEMANTIC_COLOR, 0); struct ureg_src fog_end, fog_coeff, fog_density; struct ureg_src fog_vs, depth, fog_color; struct ureg_dst fog_factor; if (!tx->info->fog_enable) { ureg_MOV(ureg, oCol0, src_col); return; } if (tx->info->fog_mode != D3DFOG_NONE) { depth = nine_get_position_input(tx); depth = ureg_scalar(depth, TGSI_SWIZZLE_Z); } nine_info_mark_const_f_used(tx->info, 33); fog_color = NINE_CONSTANT_SRC(32); fog_factor = tx_scratch_scalar(tx); if (tx->info->fog_mode == D3DFOG_LINEAR) { fog_end = NINE_CONSTANT_SRC_SWIZZLE(33, X); fog_coeff = NINE_CONSTANT_SRC_SWIZZLE(33, Y); ureg_ADD(ureg, fog_factor, fog_end, ureg_negate(depth)); ureg_MUL(ureg, ureg_saturate(fog_factor), tx_src_scalar(fog_factor), fog_coeff); } else if (tx->info->fog_mode == D3DFOG_EXP) { fog_density = NINE_CONSTANT_SRC_SWIZZLE(33, X); ureg_MUL(ureg, fog_factor, depth, fog_density); ureg_MUL(ureg, fog_factor, tx_src_scalar(fog_factor), ureg_imm1f(ureg, -1.442695f)); ureg_EX2(ureg, fog_factor, tx_src_scalar(fog_factor)); } else if (tx->info->fog_mode == D3DFOG_EXP2) { fog_density = NINE_CONSTANT_SRC_SWIZZLE(33, X); ureg_MUL(ureg, fog_factor, depth, fog_density); ureg_MUL(ureg, fog_factor, tx_src_scalar(fog_factor), tx_src_scalar(fog_factor)); ureg_MUL(ureg, fog_factor, tx_src_scalar(fog_factor), ureg_imm1f(ureg, -1.442695f)); ureg_EX2(ureg, fog_factor, tx_src_scalar(fog_factor)); } else { fog_vs = ureg_scalar(ureg_DECL_fs_input(ureg, TGSI_SEMANTIC_FOG, 0, TGSI_INTERPOLATE_PERSPECTIVE), TGSI_SWIZZLE_X); ureg_MOV(ureg, fog_factor, fog_vs); } ureg_LRP(ureg, ureg_writemask(oCol0, TGSI_WRITEMASK_XYZ), tx_src_scalar(fog_factor), src_col, fog_color); ureg_MOV(ureg, ureg_writemask(oCol0, TGSI_WRITEMASK_W), src_col); } #define GET_CAP(n) screen->get_param( \ screen, PIPE_CAP_##n) #define GET_SHADER_CAP(n) screen->get_shader_param( \ screen, info->type, PIPE_SHADER_CAP_##n) HRESULT nine_translate_shader(struct NineDevice9 *device, struct nine_shader_info *info, struct pipe_context *pipe) { struct shader_translator *tx; HRESULT hr = D3D_OK; const unsigned processor = info->type; struct pipe_screen *screen = info->process_vertices ? device->screen_sw : device->screen; user_assert(processor != ~0, D3DERR_INVALIDCALL); tx = CALLOC_STRUCT(shader_translator); if (!tx) return E_OUTOFMEMORY; tx_ctor(tx, info); if (((tx->version.major << 16) | tx->version.minor) > 0x00030000) { hr = D3DERR_INVALIDCALL; DBG("Unsupported shader version: %u.%u !\n", tx->version.major, tx->version.minor); goto out; } if (tx->processor != processor) { hr = D3DERR_INVALIDCALL; DBG("Shader type mismatch: %u / %u !\n", tx->processor, processor); goto out; } DUMP("%s%u.%u\n", processor == PIPE_SHADER_VERTEX ? "VS" : "PS", tx->version.major, tx->version.minor); tx->ureg = ureg_create(processor); if (!tx->ureg) { hr = E_OUTOFMEMORY; goto out; } tx->native_integers = GET_SHADER_CAP(INTEGERS); tx->inline_subroutines = !GET_SHADER_CAP(SUBROUTINES); tx->want_texcoord = GET_CAP(TGSI_TEXCOORD); tx->shift_wpos = !GET_CAP(TGSI_FS_COORD_PIXEL_CENTER_INTEGER); tx->texcoord_sn = tx->want_texcoord ? TGSI_SEMANTIC_TEXCOORD : TGSI_SEMANTIC_GENERIC; tx->wpos_is_sysval = GET_CAP(TGSI_FS_POSITION_IS_SYSVAL); tx->face_is_sysval_integer = GET_CAP(TGSI_FS_FACE_IS_INTEGER_SYSVAL); if (IS_VS) { tx->num_constf_allowed = NINE_MAX_CONST_F; } else if (tx->version.major < 2) {/* IS_PS v1 */ tx->num_constf_allowed = 8; } else if (tx->version.major == 2) {/* IS_PS v2 */ tx->num_constf_allowed = 32; } else {/* IS_PS v3 */ tx->num_constf_allowed = NINE_MAX_CONST_F_PS3; } if (tx->version.major < 2) { tx->num_consti_allowed = 0; tx->num_constb_allowed = 0; } else { tx->num_consti_allowed = NINE_MAX_CONST_I; tx->num_constb_allowed = NINE_MAX_CONST_B; } if (IS_VS && tx->version.major >= 2 && info->swvp_on) { tx->num_constf_allowed = 8192; tx->num_consti_allowed = 2048; tx->num_constb_allowed = 2048; } /* VS must always write position. Declare it here to make it the 1st output. * (Some drivers like nv50 are buggy and rely on that.) */ if (IS_VS) { tx->regs.oPos = ureg_DECL_output(tx->ureg, TGSI_SEMANTIC_POSITION, 0); } else { ureg_property(tx->ureg, TGSI_PROPERTY_FS_COORD_ORIGIN, TGSI_FS_COORD_ORIGIN_UPPER_LEFT); if (!tx->shift_wpos) ureg_property(tx->ureg, TGSI_PROPERTY_FS_COORD_PIXEL_CENTER, TGSI_FS_COORD_PIXEL_CENTER_INTEGER); } if (GET_CAP(TGSI_MUL_ZERO_WINS)) ureg_property(tx->ureg, TGSI_PROPERTY_MUL_ZERO_WINS, 1); while (!sm1_parse_eof(tx) && !tx->failure) sm1_parse_instruction(tx); tx->parse++; /* for byte_size */ if (tx->failure) { /* For VS shaders, we print the warning later, * we first try with swvp. */ if (IS_PS) ERR("Encountered buggy shader\n"); ureg_destroy(tx->ureg); hr = D3DERR_INVALIDCALL; goto out; } if (IS_PS && tx->version.major < 3) { if (tx->version.major < 2) { assert(tx->num_temp); /* there must be color output */ info->rt_mask |= 0x1; shader_add_ps_fog_stage(tx, ureg_src(tx->regs.r[0])); } else { shader_add_ps_fog_stage(tx, ureg_src(tx->regs.oCol[0])); } } if (IS_VS && tx->version.major < 3 && ureg_dst_is_undef(tx->regs.oFog) && info->fog_enable) { tx->regs.oFog = ureg_DECL_output(tx->ureg, TGSI_SEMANTIC_FOG, 0); ureg_MOV(tx->ureg, ureg_writemask(tx->regs.oFog, TGSI_WRITEMASK_X), ureg_imm1f(tx->ureg, 0.0f)); } if (info->position_t) ureg_property(tx->ureg, TGSI_PROPERTY_VS_WINDOW_SPACE_POSITION, TRUE); if (IS_VS && !ureg_dst_is_undef(tx->regs.oPts)) { struct ureg_dst oPts = ureg_DECL_output(tx->ureg, TGSI_SEMANTIC_PSIZE, 0); ureg_MAX(tx->ureg, tx->regs.oPts, ureg_src(tx->regs.oPts), ureg_imm1f(tx->ureg, info->point_size_min)); ureg_MIN(tx->ureg, oPts, ureg_src(tx->regs.oPts), ureg_imm1f(tx->ureg, info->point_size_max)); info->point_size = TRUE; } if (info->process_vertices) shader_add_vs_viewport_transform(tx); ureg_END(tx->ureg); /* record local constants */ if (tx->num_lconstf && tx->indirect_const_access) { struct nine_range *ranges; float *data; int *indices; unsigned i, k, n; hr = E_OUTOFMEMORY; data = MALLOC(tx->num_lconstf * 4 * sizeof(float)); if (!data) goto out; info->lconstf.data = data; indices = MALLOC(tx->num_lconstf * sizeof(indices[0])); if (!indices) goto out; /* lazy sort, num_lconstf should be small */ for (n = 0; n < tx->num_lconstf; ++n) { for (k = 0, i = 0; i < tx->num_lconstf; ++i) { if (tx->lconstf[i].idx < tx->lconstf[k].idx) k = i; } indices[n] = tx->lconstf[k].idx; memcpy(&data[n * 4], &tx->lconstf[k].f[0], 4 * sizeof(float)); tx->lconstf[k].idx = INT_MAX; } /* count ranges */ for (n = 1, i = 1; i < tx->num_lconstf; ++i) if (indices[i] != indices[i - 1] + 1) ++n; ranges = MALLOC(n * sizeof(ranges[0])); if (!ranges) { FREE(indices); goto out; } info->lconstf.ranges = ranges; k = 0; ranges[k].bgn = indices[0]; for (i = 1; i < tx->num_lconstf; ++i) { if (indices[i] != indices[i - 1] + 1) { ranges[k].next = &ranges[k + 1]; ranges[k].end = indices[i - 1] + 1; ++k; ranges[k].bgn = indices[i]; } } ranges[k].end = indices[i - 1] + 1; ranges[k].next = NULL; assert(n == (k + 1)); FREE(indices); hr = D3D_OK; } /* r500 */ if (info->const_float_slots > device->max_vs_const_f && (info->const_int_slots || info->const_bool_slots) && (!IS_VS || !info->swvp_on)) ERR("Overlapping constant slots. The shader is likely to be buggy\n"); if (tx->indirect_const_access) /* vs only */ info->const_float_slots = device->max_vs_const_f; if (!IS_VS || !info->swvp_on) { unsigned s, slot_max; unsigned max_const_f = IS_VS ? device->max_vs_const_f : device->max_ps_const_f; slot_max = info->const_bool_slots > 0 ? max_const_f + NINE_MAX_CONST_I + DIV_ROUND_UP(info->const_bool_slots, 4) : info->const_int_slots > 0 ? max_const_f + info->const_int_slots : info->const_float_slots; info->const_used_size = sizeof(float[4]) * slot_max; /* slots start from 1 */ for (s = 0; s < slot_max; s++) ureg_DECL_constant(tx->ureg, s); } else { ureg_DECL_constant2D(tx->ureg, 0, 4095, 0); ureg_DECL_constant2D(tx->ureg, 0, 4095, 1); ureg_DECL_constant2D(tx->ureg, 0, 2047, 2); ureg_DECL_constant2D(tx->ureg, 0, 511, 3); } if (info->process_vertices) ureg_DECL_constant2D(tx->ureg, 0, 2, 4); /* Viewport data */ if (debug_get_bool_option("NINE_TGSI_DUMP", FALSE)) { const struct tgsi_token *toks = ureg_get_tokens(tx->ureg, NULL); tgsi_dump(toks, 0); ureg_free_tokens(toks); } if (info->process_vertices) { NineVertexDeclaration9_FillStreamOutputInfo(info->vdecl_out, tx->output_info, tx->num_outputs, &(info->so)); info->cso = ureg_create_shader_with_so_and_destroy(tx->ureg, pipe, &(info->so)); } else info->cso = ureg_create_shader_and_destroy(tx->ureg, pipe); if (!info->cso) { hr = D3DERR_DRIVERINTERNALERROR; FREE(info->lconstf.data); FREE(info->lconstf.ranges); goto out; } info->byte_size = (tx->parse - tx->byte_code) * sizeof(DWORD); out: tx_dtor(tx); return hr; }