/** * Generate texel lookup instruction. */ static void emit_tex(struct i915_fp_compile *p, const struct i915_full_instruction *inst, uint opcode, struct i915_fragment_shader* fs) { uint texture = inst->Texture.Texture; uint unit = inst->Src[1].Register.Index; uint tex = translate_tex_src_target( p, texture ); uint sampler = i915_emit_decl(p, REG_TYPE_S, unit, tex); uint coord = src_vector( p, &inst->Src[0], fs); i915_emit_texld( p, get_result_vector( p, &inst->Dst[0] ), get_result_flags( inst ), sampler, coord, opcode, i915_num_coords(texture) ); }
/** * Generate a simple arithmetic instruction * \param opcode the i915 opcode * \param numArgs the number of input/src arguments */ static void emit_simple_arith(struct i915_fp_compile *p, const struct i915_full_instruction *inst, uint opcode, uint numArgs, struct i915_fragment_shader *fs) { uint arg1, arg2, arg3; assert(numArgs <= 3); arg1 = (numArgs < 1) ? 0 : src_vector( p, &inst->Src[0], fs ); arg2 = (numArgs < 2) ? 0 : src_vector( p, &inst->Src[1], fs ); arg3 = (numArgs < 3) ? 0 : src_vector( p, &inst->Src[2], fs ); i915_emit_arith( p, opcode, get_result_vector( p, &inst->Dst[0]), get_result_flags( inst ), 0, arg1, arg2, arg3 ); }
/* Possible concerns: * * SIN, COS -- could use another taylor step? * LIT -- results seem a little different to sw mesa * LOG -- different to mesa on negative numbers, but this is conformant. * * Parse failures -- Mesa doesn't currently give a good indication * internally whether a particular program string parsed or not. This * can lead to confusion -- hopefully we cope with it ok now. * */ static void upload_program(struct i915_fragment_program *p) { const struct gl_fragment_program *program = p->ctx->FragmentProgram._Current; const struct prog_instruction *inst = program->Base.Instructions; /* _mesa_debug_fp_inst(program->Base.NumInstructions, inst); */ /* Is this a parse-failed program? Ensure a valid program is * loaded, as the flagging of an error isn't sufficient to stop * this being uploaded to hardware. */ if (inst[0].Opcode == OPCODE_END) { GLuint tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MOV, UREG(REG_TYPE_OC, 0), A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, ONE, ZERO, ONE, ONE), 0, 0); return; } if (program->Base.NumInstructions > I915_MAX_INSN) { i915_program_error( p, "Exceeded max instructions" ); return; } /* Not always needed: */ calc_live_regs(p); while (1) { GLuint src0, src1, src2, flags; GLuint tmp = 0, consts0 = 0, consts1 = 0; switch (inst->Opcode) { case OPCODE_ABS: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_MAX, get_result_vector(p, inst), get_result_flags(inst), 0, src0, negate(src0, 1, 1, 1, 1), 0); break; case OPCODE_ADD: EMIT_2ARG_ARITH(A0_ADD); break; case OPCODE_CMP: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); src2 = src_vector(p, &inst->SrcReg[2], program); i915_emit_arith(p, A0_CMP, get_result_vector(p, inst), get_result_flags(inst), 0, src0, src2, src1); /* NOTE: order of src2, src1 */ break; case OPCODE_COS: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); consts0 = i915_emit_const4fv(p, sin_quad_constants[0]); consts1 = i915_emit_const4fv(p, sin_quad_constants[1]); /* Reduce range from repeating about [-pi,pi] to [-1,1] */ i915_emit_arith(p, A0_MAD, tmp, A0_DEST_CHANNEL_X, 0, src0, swizzle(consts1, Z, ZERO, ZERO, ZERO), /* 1/(2pi) */ swizzle(consts0, W, ZERO, ZERO, ZERO)); /* .75 */ i915_emit_arith(p, A0_FRC, tmp, A0_DEST_CHANNEL_X, 0, tmp, 0, 0); i915_emit_arith(p, A0_MAD, tmp, A0_DEST_CHANNEL_X, 0, tmp, swizzle(consts0, X, ZERO, ZERO, ZERO), /* 2 */ swizzle(consts0, Y, ZERO, ZERO, ZERO)); /* -1 */ /* Compute COS with the same calculation used for SIN, but a * different source range has been mapped to [-1,1] this time. */ /* tmp.y = abs(tmp.x); {x, abs(x), 0, 0} */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), negate(swizzle(tmp, ZERO, X, ZERO, ZERO), 0, 1, 0, 0), 0); /* tmp.y = tmp.y * tmp.x; {x, x * abs(x), 0, 0} */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), tmp, 0); /* tmp.x = tmp.xy DP sin_quad_constants[2].xy */ i915_emit_arith(p, A0_DP3, tmp, A0_DEST_CHANNEL_X, 0, tmp, swizzle(consts1, X, Y, ZERO, ZERO), 0); /* tmp.x now contains a first approximation (y). Now, weight it * against tmp.y**2 to get closer. */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), negate(swizzle(tmp, ZERO, X, ZERO, ZERO), 0, 1, 0, 0), 0); /* tmp.y = tmp.x * tmp.y - tmp.x; {y, y * abs(y) - y, 0, 0} */ i915_emit_arith(p, A0_MAD, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), swizzle(tmp, ZERO, Y, ZERO, ZERO), negate(swizzle(tmp, ZERO, X, ZERO, ZERO), 0, 1, 0, 0)); /* result = .2225 * tmp.y + tmp.x =.2225(y * abs(y) - y) + y= */ i915_emit_arith(p, A0_MAD, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(consts1, W, W, W, W), swizzle(tmp, Y, Y, Y, Y), swizzle(tmp, X, X, X, X)); break; case OPCODE_DP3: EMIT_2ARG_ARITH(A0_DP3); break; case OPCODE_DP4: EMIT_2ARG_ARITH(A0_DP4); break; case OPCODE_DPH: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, Y, Z, ONE), src1, 0); break; case OPCODE_DST: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); /* result[0] = 1 * 1; * result[1] = a[1] * b[1]; * result[2] = a[2] * 1; * result[3] = 1 * b[3]; */ i915_emit_arith(p, A0_MUL, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, ONE, Y, Z, ONE), swizzle(src1, ONE, Y, ONE, W), 0); break; case OPCODE_EX2: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_EXP, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_FLR: EMIT_1ARG_ARITH(A0_FLR); break; case OPCODE_FRC: EMIT_1ARG_ARITH(A0_FRC); break; case OPCODE_KIL: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); i915_emit_texld(p, get_live_regs(p, inst), tmp, A0_DEST_CHANNEL_ALL, /* use a dummy dest reg */ 0, src0, T0_TEXKILL); break; case OPCODE_LG2: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_LOG, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_LIT: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); /* tmp = max( a.xyzw, a.00zw ) * XXX: Clamp tmp.w to -128..128 * tmp.y = log(tmp.y) * tmp.y = tmp.w * tmp.y * tmp.y = exp(tmp.y) * result = cmp (a.11-x1, a.1x01, a.1xy1 ) */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_ALL, 0, src0, swizzle(src0, ZERO, ZERO, Z, W), 0); i915_emit_arith(p, A0_LOG, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, Y, Y, Y, Y), 0, 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, Y, ZERO, ZERO), swizzle(tmp, ZERO, W, ZERO, ZERO), 0); i915_emit_arith(p, A0_EXP, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, Y, Y, Y, Y), 0, 0); i915_emit_arith(p, A0_CMP, get_result_vector(p, inst), get_result_flags(inst), 0, negate(swizzle(tmp, ONE, ONE, X, ONE), 0, 0, 1, 0), swizzle(tmp, ONE, X, ZERO, ONE), swizzle(tmp, ONE, X, Y, ONE)); break; case OPCODE_LRP: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); src2 = src_vector(p, &inst->SrcReg[2], program); flags = get_result_flags(inst); tmp = i915_get_utemp(p); /* b*a + c*(1-a) * * b*a + c - ca * * tmp = b*a + c, * result = (-c)*a + tmp */ i915_emit_arith(p, A0_MAD, tmp, flags & A0_DEST_CHANNEL_ALL, 0, src1, src0, src2); i915_emit_arith(p, A0_MAD, get_result_vector(p, inst), flags, 0, negate(src2, 1, 1, 1, 1), src0, tmp); break; case OPCODE_MAD: EMIT_3ARG_ARITH(A0_MAD); break; case OPCODE_MAX: EMIT_2ARG_ARITH(A0_MAX); break; case OPCODE_MIN: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); tmp = i915_get_utemp(p); flags = get_result_flags(inst); i915_emit_arith(p, A0_MAX, tmp, flags & A0_DEST_CHANNEL_ALL, 0, negate(src0, 1, 1, 1, 1), negate(src1, 1, 1, 1, 1), 0); i915_emit_arith(p, A0_MOV, get_result_vector(p, inst), flags, 0, negate(tmp, 1, 1, 1, 1), 0, 0); break; case OPCODE_MOV: EMIT_1ARG_ARITH(A0_MOV); break; case OPCODE_MUL: EMIT_2ARG_ARITH(A0_MUL); break; case OPCODE_POW: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); tmp = i915_get_utemp(p); flags = get_result_flags(inst); /* XXX: masking on intermediate values, here and elsewhere. */ i915_emit_arith(p, A0_LOG, tmp, A0_DEST_CHANNEL_X, 0, swizzle(src0, X, X, X, X), 0, 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, tmp, src1, 0); i915_emit_arith(p, A0_EXP, get_result_vector(p, inst), flags, 0, swizzle(tmp, X, X, X, X), 0, 0); break; case OPCODE_RCP: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_RCP, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_RSQ: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_RSQ, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_SCS: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); /* * t0.xy = MUL x.xx11, x.x1111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, x * t1 = MUL t0.xyyw t0.yz11 ; x^7 x^5 x^3 x * scs.x = DP4 t1, sin_constants * t1 = MUL t0.xxz1 t0.z111 ; x^6 x^4 x^2 1 * scs.y = DP4 t1, cos_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(src0, X, X, ONE, ONE), swizzle(src0, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, X, Y), swizzle(tmp, X, X, ONE, ONE), 0); if (inst->DstReg.WriteMask & WRITEMASK_Y) { GLuint tmp1; if (inst->DstReg.WriteMask & WRITEMASK_X) tmp1 = i915_get_utemp(p); else tmp1 = tmp; i915_emit_arith(p, A0_MUL, tmp1, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, Y, W), swizzle(tmp, X, Z, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), A0_DEST_CHANNEL_Y, 0, swizzle(tmp1, W, Z, Y, X), i915_emit_const4fv(p, sin_constants), 0); } if (inst->DstReg.WriteMask & WRITEMASK_X) { i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, X, Z, ONE), swizzle(tmp, Z, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), A0_DEST_CHANNEL_X, 0, swizzle(tmp, ONE, Z, Y, X), i915_emit_const4fv(p, cos_constants), 0); } break; case OPCODE_SGE: EMIT_2ARG_ARITH(A0_SGE); break; case OPCODE_SIN: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); consts0 = i915_emit_const4fv(p, sin_quad_constants[0]); consts1 = i915_emit_const4fv(p, sin_quad_constants[1]); /* Reduce range from repeating about [-pi,pi] to [-1,1] */ i915_emit_arith(p, A0_MAD, tmp, A0_DEST_CHANNEL_X, 0, src0, swizzle(consts1, Z, ZERO, ZERO, ZERO), /* 1/(2pi) */ swizzle(consts0, Z, ZERO, ZERO, ZERO)); /* .5 */ i915_emit_arith(p, A0_FRC, tmp, A0_DEST_CHANNEL_X, 0, tmp, 0, 0); i915_emit_arith(p, A0_MAD, tmp, A0_DEST_CHANNEL_X, 0, tmp, swizzle(consts0, X, ZERO, ZERO, ZERO), /* 2 */ swizzle(consts0, Y, ZERO, ZERO, ZERO)); /* -1 */ /* Compute sin using a quadratic and quartic. It gives continuity * that repeating the Taylor series lacks every 2*pi, and has * reduced error. * * The idea was described at: * http://www.devmaster.net/forums/showthread.php?t=5784 */ /* tmp.y = abs(tmp.x); {x, abs(x), 0, 0} */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), negate(swizzle(tmp, ZERO, X, ZERO, ZERO), 0, 1, 0, 0), 0); /* tmp.y = tmp.y * tmp.x; {x, x * abs(x), 0, 0} */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), tmp, 0); /* tmp.x = tmp.xy DP sin_quad_constants[2].xy */ i915_emit_arith(p, A0_DP3, tmp, A0_DEST_CHANNEL_X, 0, tmp, swizzle(consts1, X, Y, ZERO, ZERO), 0); /* tmp.x now contains a first approximation (y). Now, weight it * against tmp.y**2 to get closer. */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), negate(swizzle(tmp, ZERO, X, ZERO, ZERO), 0, 1, 0, 0), 0); /* tmp.y = tmp.x * tmp.y - tmp.x; {y, y * abs(y) - y, 0, 0} */ i915_emit_arith(p, A0_MAD, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, X, ZERO, ZERO), swizzle(tmp, ZERO, Y, ZERO, ZERO), negate(swizzle(tmp, ZERO, X, ZERO, ZERO), 0, 1, 0, 0)); /* result = .2225 * tmp.y + tmp.x =.2225(y * abs(y) - y) + y= */ i915_emit_arith(p, A0_MAD, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(consts1, W, W, W, W), swizzle(tmp, Y, Y, Y, Y), swizzle(tmp, X, X, X, X)); break; case OPCODE_SLT: EMIT_2ARG_ARITH(A0_SLT); break; case OPCODE_SUB: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); i915_emit_arith(p, A0_ADD, get_result_vector(p, inst), get_result_flags(inst), 0, src0, negate(src1, 1, 1, 1, 1), 0); break; case OPCODE_SWZ: EMIT_1ARG_ARITH(A0_MOV); /* extended swizzle handled natively */ break; case OPCODE_TEX: EMIT_TEX(T0_TEXLD); break; case OPCODE_TXB: EMIT_TEX(T0_TEXLDB); break; case OPCODE_TXP: EMIT_TEX(T0_TEXLDP); break; case OPCODE_XPD: /* Cross product: * result.x = src0.y * src1.z - src0.z * src1.y; * result.y = src0.z * src1.x - src0.x * src1.z; * result.z = src0.x * src1.y - src0.y * src1.x; * result.w = undef; */ src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(src0, Z, X, Y, ONE), swizzle(src1, Y, Z, X, ONE), 0); i915_emit_arith(p, A0_MAD, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, Y, Z, X, ONE), swizzle(src1, Z, X, Y, ONE), negate(tmp, 1, 1, 1, 0)); break; case OPCODE_END: return; default: i915_program_error(p, "bad opcode"); return; } inst++; i915_release_utemps(p); } }
/* Possible concerns: * * SIN, COS -- could use another taylor step? * LIT -- results seem a little different to sw mesa * LOG -- different to mesa on negative numbers, but this is conformant. * * Parse failures -- Mesa doesn't currently give a good indication * internally whether a particular program string parsed or not. This * can lead to confusion -- hopefully we cope with it ok now. * */ static void upload_program(struct i915_fragment_program *p) { const struct gl_fragment_program *program = p->ctx->FragmentProgram._Current; const struct prog_instruction *inst = program->Base.Instructions; /* _mesa_debug_fp_inst(program->Base.NumInstructions, inst); */ /* Is this a parse-failed program? Ensure a valid program is * loaded, as the flagging of an error isn't sufficient to stop * this being uploaded to hardware. */ if (inst[0].Opcode == OPCODE_END) { GLuint tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MOV, UREG(REG_TYPE_OC, 0), A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, ONE, ZERO, ONE, ONE), 0, 0); return; } while (1) { GLuint src0, src1, src2, flags; GLuint tmp = 0; switch (inst->Opcode) { case OPCODE_ABS: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_MAX, get_result_vector(p, inst), get_result_flags(inst), 0, src0, negate(src0, 1, 1, 1, 1), 0); break; case OPCODE_ADD: EMIT_2ARG_ARITH(A0_ADD); break; case OPCODE_CMP: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); src2 = src_vector(p, &inst->SrcReg[2], program); i915_emit_arith(p, A0_CMP, get_result_vector(p, inst), get_result_flags(inst), 0, src0, src2, src1); /* NOTE: order of src2, src1 */ break; case OPCODE_COS: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, src0, i915_emit_const1f(p, 1.0 / (M_PI)), 0); i915_emit_arith(p, A0_MOD, tmp, A0_DEST_CHANNEL_X, 0, tmp, 0, 0); /* By choosing different taylor constants, could get rid of this mul: */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, tmp, i915_emit_const1f(p, (M_PI)), 0); /* * t0.xy = MUL x.xx11, x.x1111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, 1 * t0 = MUL t0.xxz1 t0.z111 ; x^6 x^4 x^2 1 * result = DP4 t0, cos_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(tmp, X, X, ONE, ONE), swizzle(tmp, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, Y, X, ONE), swizzle(tmp, X, X, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, X, Z, ONE), swizzle(tmp, Z, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(tmp, ONE, Z, Y, X), i915_emit_const4fv(p, cos_constants), 0); break; case OPCODE_DP3: EMIT_2ARG_ARITH(A0_DP3); break; case OPCODE_DP4: EMIT_2ARG_ARITH(A0_DP4); break; case OPCODE_DPH: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, Y, Z, ONE), src1, 0); break; case OPCODE_DST: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); /* result[0] = 1 * 1; * result[1] = a[1] * b[1]; * result[2] = a[2] * 1; * result[3] = 1 * b[3]; */ i915_emit_arith(p, A0_MUL, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, ONE, Y, Z, ONE), swizzle(src1, ONE, Y, ONE, W), 0); break; case OPCODE_EX2: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_EXP, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_FLR: EMIT_1ARG_ARITH(A0_FLR); break; case OPCODE_FRC: EMIT_1ARG_ARITH(A0_FRC); break; case OPCODE_KIL: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); i915_emit_texld(p, tmp, A0_DEST_CHANNEL_ALL, /* use a dummy dest reg */ 0, src0, T0_TEXKILL); break; case OPCODE_LG2: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_LOG, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_LIT: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); /* tmp = max( a.xyzw, a.00zw ) * XXX: Clamp tmp.w to -128..128 * tmp.y = log(tmp.y) * tmp.y = tmp.w * tmp.y * tmp.y = exp(tmp.y) * result = cmp (a.11-x1, a.1x01, a.1xy1 ) */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_ALL, 0, src0, swizzle(src0, ZERO, ZERO, Z, W), 0); i915_emit_arith(p, A0_LOG, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, Y, Y, Y, Y), 0, 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, Y, ZERO, ZERO), swizzle(tmp, ZERO, W, ZERO, ZERO), 0); i915_emit_arith(p, A0_EXP, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, Y, Y, Y, Y), 0, 0); i915_emit_arith(p, A0_CMP, get_result_vector(p, inst), get_result_flags(inst), 0, negate(swizzle(tmp, ONE, ONE, X, ONE), 0, 0, 1, 0), swizzle(tmp, ONE, X, ZERO, ONE), swizzle(tmp, ONE, X, Y, ONE)); break; case OPCODE_LRP: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); src2 = src_vector(p, &inst->SrcReg[2], program); flags = get_result_flags(inst); tmp = i915_get_utemp(p); /* b*a + c*(1-a) * * b*a + c - ca * * tmp = b*a + c, * result = (-c)*a + tmp */ i915_emit_arith(p, A0_MAD, tmp, flags & A0_DEST_CHANNEL_ALL, 0, src1, src0, src2); i915_emit_arith(p, A0_MAD, get_result_vector(p, inst), flags, 0, negate(src2, 1, 1, 1, 1), src0, tmp); break; case OPCODE_MAD: EMIT_3ARG_ARITH(A0_MAD); break; case OPCODE_MAX: EMIT_2ARG_ARITH(A0_MAX); break; case OPCODE_MIN: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); tmp = i915_get_utemp(p); flags = get_result_flags(inst); i915_emit_arith(p, A0_MAX, tmp, flags & A0_DEST_CHANNEL_ALL, 0, negate(src0, 1, 1, 1, 1), negate(src1, 1, 1, 1, 1), 0); i915_emit_arith(p, A0_MOV, get_result_vector(p, inst), flags, 0, negate(tmp, 1, 1, 1, 1), 0, 0); break; case OPCODE_MOV: EMIT_1ARG_ARITH(A0_MOV); break; case OPCODE_MUL: EMIT_2ARG_ARITH(A0_MUL); break; case OPCODE_POW: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); tmp = i915_get_utemp(p); flags = get_result_flags(inst); /* XXX: masking on intermediate values, here and elsewhere. */ i915_emit_arith(p, A0_LOG, tmp, A0_DEST_CHANNEL_X, 0, swizzle(src0, X, X, X, X), 0, 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, tmp, src1, 0); i915_emit_arith(p, A0_EXP, get_result_vector(p, inst), flags, 0, swizzle(tmp, X, X, X, X), 0, 0); break; case OPCODE_RCP: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_RCP, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_RSQ: src0 = src_vector(p, &inst->SrcReg[0], program); i915_emit_arith(p, A0_RSQ, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case OPCODE_SCS: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); /* * t0.xy = MUL x.xx11, x.x1111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, x * t1 = MUL t0.xyyw t0.yz11 ; x^7 x^5 x^3 x * scs.x = DP4 t1, sin_constants * t1 = MUL t0.xxz1 t0.z111 ; x^6 x^4 x^2 1 * scs.y = DP4 t1, cos_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(src0, X, X, ONE, ONE), swizzle(src0, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, X, Y), swizzle(tmp, X, X, ONE, ONE), 0); if (inst->DstReg.WriteMask & WRITEMASK_Y) { GLuint tmp1; if (inst->DstReg.WriteMask & WRITEMASK_X) tmp1 = i915_get_utemp(p); else tmp1 = tmp; i915_emit_arith(p, A0_MUL, tmp1, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, Y, W), swizzle(tmp, X, Z, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), A0_DEST_CHANNEL_Y, 0, swizzle(tmp1, W, Z, Y, X), i915_emit_const4fv(p, sin_constants), 0); } if (inst->DstReg.WriteMask & WRITEMASK_X) { i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, X, Z, ONE), swizzle(tmp, Z, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), A0_DEST_CHANNEL_X, 0, swizzle(tmp, ONE, Z, Y, X), i915_emit_const4fv(p, cos_constants), 0); } break; case OPCODE_SGE: EMIT_2ARG_ARITH(A0_SGE); break; case OPCODE_SIN: src0 = src_vector(p, &inst->SrcReg[0], program); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, src0, i915_emit_const1f(p, 1.0 / (M_PI)), 0); i915_emit_arith(p, A0_MOD, tmp, A0_DEST_CHANNEL_X, 0, tmp, 0, 0); /* By choosing different taylor constants, could get rid of this mul: */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, tmp, i915_emit_const1f(p, (M_PI)), 0); /* * t0.xy = MUL x.xx11, x.x1111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, x * t1 = MUL t0.xyyw t0.yz11 ; x^7 x^5 x^3 x * result = DP4 t1.wzyx, sin_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(tmp, X, X, ONE, ONE), swizzle(tmp, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, X, Y), swizzle(tmp, X, X, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, Y, W), swizzle(tmp, X, Z, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(tmp, W, Z, Y, X), i915_emit_const4fv(p, sin_constants), 0); break; case OPCODE_SLT: EMIT_2ARG_ARITH(A0_SLT); break; case OPCODE_SUB: src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); i915_emit_arith(p, A0_ADD, get_result_vector(p, inst), get_result_flags(inst), 0, src0, negate(src1, 1, 1, 1, 1), 0); break; case OPCODE_SWZ: EMIT_1ARG_ARITH(A0_MOV); /* extended swizzle handled natively */ break; case OPCODE_TEX: EMIT_TEX(T0_TEXLD); break; case OPCODE_TXB: EMIT_TEX(T0_TEXLDB); break; case OPCODE_TXP: EMIT_TEX(T0_TEXLDP); break; case OPCODE_XPD: /* Cross product: * result.x = src0.y * src1.z - src0.z * src1.y; * result.y = src0.z * src1.x - src0.x * src1.z; * result.z = src0.x * src1.y - src0.y * src1.x; * result.w = undef; */ src0 = src_vector(p, &inst->SrcReg[0], program); src1 = src_vector(p, &inst->SrcReg[1], program); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(src0, Z, X, Y, ONE), swizzle(src1, Y, Z, X, ONE), 0); i915_emit_arith(p, A0_MAD, get_result_vector(p, inst), get_result_flags(inst), 0, swizzle(src0, Y, Z, X, ONE), swizzle(src1, Z, X, Y, ONE), negate(tmp, 1, 1, 1, 0)); break; case OPCODE_END: return; default: i915_program_error(p, "bad opcode"); return; } inst++; i915_release_utemps(p); } }
/* * Translate TGSI instruction to i915 instruction. * * Possible concerns: * * DDX, DDY -- return 0 * SIN, COS -- could use another taylor step? * LIT -- results seem a little different to sw mesa * LOG -- different to mesa on negative numbers, but this is conformant. */ static void i915_translate_instruction(struct i915_fp_compile *p, const struct i915_full_instruction *inst, struct i915_fragment_shader *fs) { uint writemask; uint src0, src1, src2, flags; uint tmp = 0; switch (inst->Instruction.Opcode) { case TGSI_OPCODE_ABS: src0 = src_vector(p, &inst->Src[0], fs); i915_emit_arith(p, A0_MAX, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, src0, negate(src0, 1, 1, 1, 1), 0); break; case TGSI_OPCODE_ADD: emit_simple_arith(p, inst, A0_ADD, 2, fs); break; case TGSI_OPCODE_CEIL: src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); flags = get_result_flags(inst); i915_emit_arith(p, A0_FLR, tmp, flags & A0_DEST_CHANNEL_ALL, 0, negate(src0, 1, 1, 1, 1), 0, 0); i915_emit_arith(p, A0_MOV, get_result_vector(p, &inst->Dst[0]), flags, 0, negate(tmp, 1, 1, 1, 1), 0, 0); break; case TGSI_OPCODE_CMP: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); src2 = src_vector(p, &inst->Src[2], fs); i915_emit_arith(p, A0_CMP, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, src0, src2, src1); /* NOTE: order of src2, src1 */ break; case TGSI_OPCODE_COS: src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, src0, i915_emit_const1f(p, 1.0f / (float) (M_PI * 2.0)), 0); i915_emit_arith(p, A0_MOD, tmp, A0_DEST_CHANNEL_X, 0, tmp, 0, 0); /* * t0.xy = MUL x.xx11, x.x111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, 1 * t0 = MUL t0.xxz1 t0.z111 ; x^6 x^4 x^2 1 * result = DP4 t0, cos_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(tmp, X, X, ONE, ONE), swizzle(tmp, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, Y, X, ONE), swizzle(tmp, X, X, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, X, Z, ONE), swizzle(tmp, Z, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(tmp, ONE, Z, Y, X), i915_emit_const4fv(p, cos_constants), 0); break; case TGSI_OPCODE_DDX: case TGSI_OPCODE_DDY: /* XXX We just output 0 here */ debug_printf("Punting DDX/DDX\n"); src0 = get_result_vector(p, &inst->Dst[0]); i915_emit_arith(p, A0_MOV, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, ZERO, ZERO, ZERO, ZERO), 0, 0); break; case TGSI_OPCODE_DP2: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); i915_emit_arith(p, A0_DP3, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, X, Y, ZERO, ZERO), src1, 0); break; case TGSI_OPCODE_DP3: emit_simple_arith(p, inst, A0_DP3, 2, fs); break; case TGSI_OPCODE_DP4: emit_simple_arith(p, inst, A0_DP4, 2, fs); break; case TGSI_OPCODE_DPH: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); i915_emit_arith(p, A0_DP4, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, X, Y, Z, ONE), src1, 0); break; case TGSI_OPCODE_DST: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); /* result[0] = 1 * 1; * result[1] = a[1] * b[1]; * result[2] = a[2] * 1; * result[3] = 1 * b[3]; */ i915_emit_arith(p, A0_MUL, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, ONE, Y, Z, ONE), swizzle(src1, ONE, Y, ONE, W), 0); break; case TGSI_OPCODE_END: /* no-op */ break; case TGSI_OPCODE_EX2: src0 = src_vector(p, &inst->Src[0], fs); i915_emit_arith(p, A0_EXP, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case TGSI_OPCODE_FLR: emit_simple_arith(p, inst, A0_FLR, 1, fs); break; case TGSI_OPCODE_FRC: emit_simple_arith(p, inst, A0_FRC, 1, fs); break; case TGSI_OPCODE_KILL_IF: /* kill if src[0].x < 0 || src[0].y < 0 ... */ src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); i915_emit_texld(p, tmp, /* dest reg: a dummy reg */ A0_DEST_CHANNEL_ALL, /* dest writemask */ 0, /* sampler */ src0, /* coord*/ T0_TEXKILL, /* opcode */ 1); /* num_coord */ break; case TGSI_OPCODE_KILL: /* unconditional kill */ tmp = i915_get_utemp(p); i915_emit_texld(p, tmp, /* dest reg: a dummy reg */ A0_DEST_CHANNEL_ALL, /* dest writemask */ 0, /* sampler */ negate(swizzle(0, ONE, ONE, ONE, ONE), 1, 1, 1, 1), /* coord */ T0_TEXKILL, /* opcode */ 1); /* num_coord */ break; case TGSI_OPCODE_LG2: src0 = src_vector(p, &inst->Src[0], fs); i915_emit_arith(p, A0_LOG, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case TGSI_OPCODE_LIT: src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); /* tmp = max( a.xyzw, a.00zw ) * XXX: Clamp tmp.w to -128..128 * tmp.y = log(tmp.y) * tmp.y = tmp.w * tmp.y * tmp.y = exp(tmp.y) * result = cmp (a.11-x1, a.1x01, a.1xy1 ) */ i915_emit_arith(p, A0_MAX, tmp, A0_DEST_CHANNEL_ALL, 0, src0, swizzle(src0, ZERO, ZERO, Z, W), 0); i915_emit_arith(p, A0_LOG, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, Y, Y, Y, Y), 0, 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, ZERO, Y, ZERO, ZERO), swizzle(tmp, ZERO, W, ZERO, ZERO), 0); i915_emit_arith(p, A0_EXP, tmp, A0_DEST_CHANNEL_Y, 0, swizzle(tmp, Y, Y, Y, Y), 0, 0); i915_emit_arith(p, A0_CMP, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, negate(swizzle(tmp, ONE, ONE, X, ONE), 0, 0, 1, 0), swizzle(tmp, ONE, X, ZERO, ONE), swizzle(tmp, ONE, X, Y, ONE)); break; case TGSI_OPCODE_LRP: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); src2 = src_vector(p, &inst->Src[2], fs); flags = get_result_flags(inst); tmp = i915_get_utemp(p); /* b*a + c*(1-a) * * b*a + c - ca * * tmp = b*a + c, * result = (-c)*a + tmp */ i915_emit_arith(p, A0_MAD, tmp, flags & A0_DEST_CHANNEL_ALL, 0, src1, src0, src2); i915_emit_arith(p, A0_MAD, get_result_vector(p, &inst->Dst[0]), flags, 0, negate(src2, 1, 1, 1, 1), src0, tmp); break; case TGSI_OPCODE_MAD: emit_simple_arith(p, inst, A0_MAD, 3, fs); break; case TGSI_OPCODE_MAX: emit_simple_arith(p, inst, A0_MAX, 2, fs); break; case TGSI_OPCODE_MIN: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); tmp = i915_get_utemp(p); flags = get_result_flags(inst); i915_emit_arith(p, A0_MAX, tmp, flags & A0_DEST_CHANNEL_ALL, 0, negate(src0, 1, 1, 1, 1), negate(src1, 1, 1, 1, 1), 0); i915_emit_arith(p, A0_MOV, get_result_vector(p, &inst->Dst[0]), flags, 0, negate(tmp, 1, 1, 1, 1), 0, 0); break; case TGSI_OPCODE_MOV: emit_simple_arith(p, inst, A0_MOV, 1, fs); break; case TGSI_OPCODE_MUL: emit_simple_arith(p, inst, A0_MUL, 2, fs); break; case TGSI_OPCODE_NOP: break; case TGSI_OPCODE_POW: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); tmp = i915_get_utemp(p); flags = get_result_flags(inst); /* XXX: masking on intermediate values, here and elsewhere. */ i915_emit_arith(p, A0_LOG, tmp, A0_DEST_CHANNEL_X, 0, swizzle(src0, X, X, X, X), 0, 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, tmp, src1, 0); i915_emit_arith(p, A0_EXP, get_result_vector(p, &inst->Dst[0]), flags, 0, swizzle(tmp, X, X, X, X), 0, 0); break; case TGSI_OPCODE_RET: /* XXX: no-op? */ break; case TGSI_OPCODE_RCP: src0 = src_vector(p, &inst->Src[0], fs); i915_emit_arith(p, A0_RCP, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case TGSI_OPCODE_RSQ: src0 = src_vector(p, &inst->Src[0], fs); i915_emit_arith(p, A0_RSQ, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, X, X, X, X), 0, 0); break; case TGSI_OPCODE_SCS: src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); /* * t0.xy = MUL x.xx11, x.x1111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, x * t1 = MUL t0.xyyw t0.yz11 ; x^7 x^5 x^3 x * scs.x = DP4 t1, scs_sin_constants * t1 = MUL t0.xxz1 t0.z111 ; x^6 x^4 x^2 1 * scs.y = DP4 t1, scs_cos_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(src0, X, X, ONE, ONE), swizzle(src0, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, X, Y), swizzle(tmp, X, X, ONE, ONE), 0); writemask = inst->Dst[0].Register.WriteMask; if (writemask & TGSI_WRITEMASK_Y) { uint tmp1; if (writemask & TGSI_WRITEMASK_X) tmp1 = i915_get_utemp(p); else tmp1 = tmp; i915_emit_arith(p, A0_MUL, tmp1, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, Y, W), swizzle(tmp, X, Z, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_Y, 0, swizzle(tmp1, W, Z, Y, X), i915_emit_const4fv(p, scs_sin_constants), 0); } if (writemask & TGSI_WRITEMASK_X) { i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XYZ, 0, swizzle(tmp, X, X, Z, ONE), swizzle(tmp, Z, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_X, 0, swizzle(tmp, ONE, Z, Y, X), i915_emit_const4fv(p, scs_cos_constants), 0); } break; case TGSI_OPCODE_SEQ: /* if we're both >= and <= then we're == */ src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_SGE, tmp, A0_DEST_CHANNEL_ALL, 0, src0, src1, 0); i915_emit_arith(p, A0_SGE, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_ALL, 0, src1, src0, 0); i915_emit_arith(p, A0_MUL, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_ALL, 0, get_result_vector(p, &inst->Dst[0]), tmp, 0); break; case TGSI_OPCODE_SGE: emit_simple_arith(p, inst, A0_SGE, 2, fs); break; case TGSI_OPCODE_SIN: src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_X, 0, src0, i915_emit_const1f(p, 1.0f / (float) (M_PI * 2.0)), 0); i915_emit_arith(p, A0_MOD, tmp, A0_DEST_CHANNEL_X, 0, tmp, 0, 0); /* * t0.xy = MUL x.xx11, x.x1111 ; x^2, x, 1, 1 * t0 = MUL t0.xyxy t0.xx11 ; x^4, x^3, x^2, x * t1 = MUL t0.xyyw t0.yz11 ; x^7 x^5 x^3 x * result = DP4 t1.wzyx, sin_constants */ i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_XY, 0, swizzle(tmp, X, X, ONE, ONE), swizzle(tmp, X, ONE, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, X, Y), swizzle(tmp, X, X, ONE, ONE), 0); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(tmp, X, Y, Y, W), swizzle(tmp, X, Z, ONE, ONE), 0); i915_emit_arith(p, A0_DP4, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(tmp, W, Z, Y, X), i915_emit_const4fv(p, sin_constants), 0); break; case TGSI_OPCODE_SLE: /* like SGE, but swap reg0, reg1 */ emit_simple_arith_swap2(p, inst, A0_SGE, 2, fs); break; case TGSI_OPCODE_SLT: emit_simple_arith(p, inst, A0_SLT, 2, fs); break; case TGSI_OPCODE_SGT: /* like SLT, but swap reg0, reg1 */ emit_simple_arith_swap2(p, inst, A0_SLT, 2, fs); break; case TGSI_OPCODE_SNE: /* if we're < or > then we're != */ src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_SLT, tmp, A0_DEST_CHANNEL_ALL, 0, src0, src1, 0); i915_emit_arith(p, A0_SLT, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_ALL, 0, src1, src0, 0); i915_emit_arith(p, A0_ADD, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_ALL, 0, get_result_vector(p, &inst->Dst[0]), tmp, 0); break; case TGSI_OPCODE_SSG: /* compute (src>0) - (src<0) */ src0 = src_vector(p, &inst->Src[0], fs); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_SLT, tmp, A0_DEST_CHANNEL_ALL, 0, src0, swizzle(src0, ZERO, ZERO, ZERO, ZERO), 0); i915_emit_arith(p, A0_SLT, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_ALL, 0, swizzle(src0, ZERO, ZERO, ZERO, ZERO), src0, 0); i915_emit_arith(p, A0_ADD, get_result_vector(p, &inst->Dst[0]), A0_DEST_CHANNEL_ALL, 0, get_result_vector(p, &inst->Dst[0]), negate(tmp, 1, 1, 1, 1), 0); break; case TGSI_OPCODE_SUB: src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); i915_emit_arith(p, A0_ADD, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, src0, negate(src1, 1, 1, 1, 1), 0); break; case TGSI_OPCODE_TEX: emit_tex(p, inst, T0_TEXLD, fs); break; case TGSI_OPCODE_TRUNC: emit_simple_arith(p, inst, A0_TRC, 1, fs); break; case TGSI_OPCODE_TXB: emit_tex(p, inst, T0_TEXLDB, fs); break; case TGSI_OPCODE_TXP: emit_tex(p, inst, T0_TEXLDP, fs); break; case TGSI_OPCODE_XPD: /* Cross product: * result.x = src0.y * src1.z - src0.z * src1.y; * result.y = src0.z * src1.x - src0.x * src1.z; * result.z = src0.x * src1.y - src0.y * src1.x; * result.w = undef; */ src0 = src_vector(p, &inst->Src[0], fs); src1 = src_vector(p, &inst->Src[1], fs); tmp = i915_get_utemp(p); i915_emit_arith(p, A0_MUL, tmp, A0_DEST_CHANNEL_ALL, 0, swizzle(src0, Z, X, Y, ONE), swizzle(src1, Y, Z, X, ONE), 0); i915_emit_arith(p, A0_MAD, get_result_vector(p, &inst->Dst[0]), get_result_flags(inst), 0, swizzle(src0, Y, Z, X, ONE), swizzle(src1, Z, X, Y, ONE), negate(tmp, 1, 1, 1, 0)); break; default: i915_program_error(p, "bad opcode %d", inst->Instruction.Opcode); p->error = 1; return; } i915_release_utemps(p); }