1 //===- NVPTXIntrinsics.td - PTX Intrinsics Instructions -------*- tblgen -*-==//
3 // The LLVM Compiler Infrastructure
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
8 //===----------------------------------------------------------------------===//
10 def immFloat0 : PatLeaf<(fpimm), [{
11 float f = (float)N->getValueAPF().convertToFloat();
15 def immFloat1 : PatLeaf<(fpimm), [{
16 float f = (float)N->getValueAPF().convertToFloat();
20 def immDouble0 : PatLeaf<(fpimm), [{
21 double d = (double)N->getValueAPF().convertToDouble();
25 def immDouble1 : PatLeaf<(fpimm), [{
26 double d = (double)N->getValueAPF().convertToDouble();
32 //-----------------------------------
33 // Synchronization Functions
34 //-----------------------------------
35 def INT_CUDA_SYNCTHREADS : NVPTXInst<(outs), (ins),
37 [(int_cuda_syncthreads)]>;
38 def INT_BARRIER0 : NVPTXInst<(outs), (ins),
40 [(int_nvvm_barrier0)]>;
41 def INT_BARRIER0_POPC : NVPTXInst<(outs Int32Regs:$dst), (ins Int32Regs:$pred),
43 !strconcat(".reg .pred \t%p1; \n\t",
44 !strconcat("setp.ne.u32 \t%p1, $pred, 0; \n\t",
45 !strconcat("bar.red.popc.u32 \t$dst, 0, %p1; \n\t",
46 !strconcat("}}", ""))))),
47 [(set Int32Regs:$dst, (int_nvvm_barrier0_popc Int32Regs:$pred))]>;
48 def INT_BARRIER0_AND : NVPTXInst<(outs Int32Regs:$dst), (ins Int32Regs:$pred),
50 !strconcat(".reg .pred \t%p1; \n\t",
51 !strconcat(".reg .pred \t%p2; \n\t",
52 !strconcat("setp.ne.u32 \t%p1, $pred, 0; \n\t",
53 !strconcat("bar.red.and.pred \t%p2, 0, %p1; \n\t",
54 !strconcat("selp.u32 \t$dst, 1, 0, %p2; \n\t",
55 !strconcat("}}", ""))))))),
56 [(set Int32Regs:$dst, (int_nvvm_barrier0_and Int32Regs:$pred))]>;
57 def INT_BARRIER0_OR : NVPTXInst<(outs Int32Regs:$dst), (ins Int32Regs:$pred),
59 !strconcat(".reg .pred \t%p1; \n\t",
60 !strconcat(".reg .pred \t%p2; \n\t",
61 !strconcat("setp.ne.u32 \t%p1, $pred, 0; \n\t",
62 !strconcat("bar.red.or.pred \t%p2, 0, %p1; \n\t",
63 !strconcat("selp.u32 \t$dst, 1, 0, %p2; \n\t",
64 !strconcat("}}", ""))))))),
65 [(set Int32Regs:$dst, (int_nvvm_barrier0_or Int32Regs:$pred))]>;
68 //-----------------------------------
69 // Explicit Memory Fence Functions
70 //-----------------------------------
71 class MEMBAR<string StrOp, Intrinsic IntOP> :
72 NVPTXInst<(outs), (ins),
75 def INT_MEMBAR_CTA : MEMBAR<"membar.cta;", int_nvvm_membar_cta>;
76 def INT_MEMBAR_GL : MEMBAR<"membar.gl;", int_nvvm_membar_gl>;
77 def INT_MEMBAR_SYS : MEMBAR<"membar.sys;", int_nvvm_membar_sys>;
80 //-----------------------------------
82 //-----------------------------------
84 // Map min(1.0, max(0.0, x)) to sat(x)
85 // Note that max(0.0, min(x, 1.0)) cannot be mapped to sat(x) because when x is
87 // max(0.0, min(x, 1.0)) is 1.0 while sat(x) is 0.
88 // Same story for fmax, fmin.
90 def : Pat<(int_nvvm_fmin_f immFloat1,
91 (int_nvvm_fmax_f immFloat0, Float32Regs:$a)),
92 (CVT_f32_f32 Float32Regs:$a, CvtSAT)>;
93 def : Pat<(int_nvvm_fmin_f immFloat1,
94 (int_nvvm_fmax_f Float32Regs:$a, immFloat0)),
95 (CVT_f32_f32 Float32Regs:$a, CvtSAT)>;
96 def : Pat<(int_nvvm_fmin_f
97 (int_nvvm_fmax_f immFloat0, Float32Regs:$a), immFloat1),
98 (CVT_f32_f32 Float32Regs:$a, CvtSAT)>;
99 def : Pat<(int_nvvm_fmin_f
100 (int_nvvm_fmax_f Float32Regs:$a, immFloat0), immFloat1),
101 (CVT_f32_f32 Float32Regs:$a, CvtSAT)>;
103 def : Pat<(int_nvvm_fmin_d immDouble1,
104 (int_nvvm_fmax_d immDouble0, Float64Regs:$a)),
105 (CVT_f64_f64 Float64Regs:$a, CvtSAT)>;
106 def : Pat<(int_nvvm_fmin_d immDouble1,
107 (int_nvvm_fmax_d Float64Regs:$a, immDouble0)),
108 (CVT_f64_f64 Float64Regs:$a, CvtSAT)>;
109 def : Pat<(int_nvvm_fmin_d
110 (int_nvvm_fmax_d immDouble0, Float64Regs:$a), immDouble1),
111 (CVT_f64_f64 Float64Regs:$a, CvtSAT)>;
112 def : Pat<(int_nvvm_fmin_d
113 (int_nvvm_fmax_d Float64Regs:$a, immDouble0), immDouble1),
114 (CVT_f64_f64 Float64Regs:$a, CvtSAT)>;
117 // We need a full string for OpcStr here because we need to deal with case like
119 class F_MATH_1<string OpcStr, NVPTXRegClass target_regclass,
120 NVPTXRegClass src_regclass, Intrinsic IntOP>
121 : NVPTXInst<(outs target_regclass:$dst), (ins src_regclass:$src0),
123 [(set target_regclass:$dst, (IntOP src_regclass:$src0))]>;
125 // We need a full string for OpcStr here because we need to deal with the case
126 // like INT_PTX_NATIVE_POWR_F.
127 class F_MATH_2<string OpcStr, NVPTXRegClass t_regclass,
128 NVPTXRegClass s0_regclass, NVPTXRegClass s1_regclass, Intrinsic IntOP>
129 : NVPTXInst<(outs t_regclass:$dst),
130 (ins s0_regclass:$src0, s1_regclass:$src1),
132 [(set t_regclass:$dst, (IntOP s0_regclass:$src0, s1_regclass:$src1))]>;
134 class F_MATH_3<string OpcStr, NVPTXRegClass t_regclass,
135 NVPTXRegClass s0_regclass, NVPTXRegClass s1_regclass,
136 NVPTXRegClass s2_regclass, Intrinsic IntOP>
137 : NVPTXInst<(outs t_regclass:$dst),
138 (ins s0_regclass:$src0, s1_regclass:$src1, s2_regclass:$src2),
140 [(set t_regclass:$dst,
141 (IntOP s0_regclass:$src0, s1_regclass:$src1, s2_regclass:$src2))]>;
147 def INT_NVVM_CLZ_I : F_MATH_1<"clz.b32 \t$dst, $src0;", Int32Regs, Int32Regs,
149 def INT_NVVM_CLZ_LL : F_MATH_1<"clz.b64 \t$dst, $src0;", Int32Regs, Int64Regs,
152 def INT_NVVM_POPC_I : F_MATH_1<"popc.b32 \t$dst, $src0;", Int32Regs, Int32Regs,
154 def INT_NVVM_POPC_LL : F_MATH_1<"popc.b64 \t$dst, $src0;", Int32Regs, Int64Regs,
157 def INT_NVVM_PRMT : F_MATH_3<"prmt.b32 \t$dst, $src0, $src1, $src2;", Int32Regs,
158 Int32Regs, Int32Regs, Int32Regs, int_nvvm_prmt>;
164 def INT_NVVM_MIN_I : F_MATH_2<"min.s32 \t$dst, $src0, $src1;", Int32Regs,
165 Int32Regs, Int32Regs, int_nvvm_min_i>;
166 def INT_NVVM_MIN_UI : F_MATH_2<"min.u32 \t$dst, $src0, $src1;", Int32Regs,
167 Int32Regs, Int32Regs, int_nvvm_min_ui>;
169 def INT_NVVM_MIN_LL : F_MATH_2<"min.s64 \t$dst, $src0, $src1;", Int64Regs,
170 Int64Regs, Int64Regs, int_nvvm_min_ll>;
171 def INT_NVVM_MIN_ULL : F_MATH_2<"min.u64 \t$dst, $src0, $src1;", Int64Regs,
172 Int64Regs, Int64Regs, int_nvvm_min_ull>;
174 def INT_NVVM_MAX_I : F_MATH_2<"max.s32 \t$dst, $src0, $src1;", Int32Regs,
175 Int32Regs, Int32Regs, int_nvvm_max_i>;
176 def INT_NVVM_MAX_UI : F_MATH_2<"max.u32 \t$dst, $src0, $src1;", Int32Regs,
177 Int32Regs, Int32Regs, int_nvvm_max_ui>;
179 def INT_NVVM_MAX_LL : F_MATH_2<"max.s64 \t$dst, $src0, $src1;", Int64Regs,
180 Int64Regs, Int64Regs, int_nvvm_max_ll>;
181 def INT_NVVM_MAX_ULL : F_MATH_2<"max.u64 \t$dst, $src0, $src1;", Int64Regs,
182 Int64Regs, Int64Regs, int_nvvm_max_ull>;
184 def INT_NVVM_FMIN_F : F_MATH_2<"min.f32 \t$dst, $src0, $src1;", Float32Regs,
185 Float32Regs, Float32Regs, int_nvvm_fmin_f>;
186 def INT_NVVM_FMIN_FTZ_F : F_MATH_2<"min.ftz.f32 \t$dst, $src0, $src1;",
187 Float32Regs, Float32Regs, Float32Regs, int_nvvm_fmin_ftz_f>;
189 def INT_NVVM_FMAX_F : F_MATH_2<"max.f32 \t$dst, $src0, $src1;", Float32Regs,
190 Float32Regs, Float32Regs, int_nvvm_fmax_f>;
191 def INT_NVVM_FMAX_FTZ_F : F_MATH_2<"max.ftz.f32 \t$dst, $src0, $src1;",
192 Float32Regs, Float32Regs, Float32Regs, int_nvvm_fmax_ftz_f>;
194 def INT_NVVM_FMIN_D : F_MATH_2<"min.f64 \t$dst, $src0, $src1;", Float64Regs,
195 Float64Regs, Float64Regs, int_nvvm_fmin_d>;
196 def INT_NVVM_FMAX_D : F_MATH_2<"max.f64 \t$dst, $src0, $src1;", Float64Regs,
197 Float64Regs, Float64Regs, int_nvvm_fmax_d>;
203 def INT_NVVM_MULHI_I : F_MATH_2<"mul.hi.s32 \t$dst, $src0, $src1;", Int32Regs,
204 Int32Regs, Int32Regs, int_nvvm_mulhi_i>;
205 def INT_NVVM_MULHI_UI : F_MATH_2<"mul.hi.u32 \t$dst, $src0, $src1;", Int32Regs,
206 Int32Regs, Int32Regs, int_nvvm_mulhi_ui>;
208 def INT_NVVM_MULHI_LL : F_MATH_2<"mul.hi.s64 \t$dst, $src0, $src1;", Int64Regs,
209 Int64Regs, Int64Regs, int_nvvm_mulhi_ll>;
210 def INT_NVVM_MULHI_ULL : F_MATH_2<"mul.hi.u64 \t$dst, $src0, $src1;", Int64Regs,
211 Int64Regs, Int64Regs, int_nvvm_mulhi_ull>;
213 def INT_NVVM_MUL_RN_FTZ_F : F_MATH_2<"mul.rn.ftz.f32 \t$dst, $src0, $src1;",
214 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rn_ftz_f>;
215 def INT_NVVM_MUL_RN_F : F_MATH_2<"mul.rn.f32 \t$dst, $src0, $src1;",
216 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rn_f>;
217 def INT_NVVM_MUL_RZ_FTZ_F : F_MATH_2<"mul.rz.ftz.f32 \t$dst, $src0, $src1;",
218 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rz_ftz_f>;
219 def INT_NVVM_MUL_RZ_F : F_MATH_2<"mul.rz.f32 \t$dst, $src0, $src1;",
220 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rz_f>;
221 def INT_NVVM_MUL_RM_FTZ_F : F_MATH_2<"mul.rm.ftz.f32 \t$dst, $src0, $src1;",
222 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rm_ftz_f>;
223 def INT_NVVM_MUL_RM_F : F_MATH_2<"mul.rm.f32 \t$dst, $src0, $src1;",
224 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rm_f>;
225 def INT_NVVM_MUL_RP_FTZ_F : F_MATH_2<"mul.rp.ftz.f32 \t$dst, $src0, $src1;",
226 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rp_ftz_f>;
227 def INT_NVVM_MUL_RP_F : F_MATH_2<"mul.rp.f32 \t$dst, $src0, $src1;",
228 Float32Regs, Float32Regs, Float32Regs, int_nvvm_mul_rp_f>;
230 def INT_NVVM_MUL_RN_D : F_MATH_2<"mul.rn.f64 \t$dst, $src0, $src1;",
231 Float64Regs, Float64Regs, Float64Regs, int_nvvm_mul_rn_d>;
232 def INT_NVVM_MUL_RZ_D : F_MATH_2<"mul.rz.f64 \t$dst, $src0, $src1;",
233 Float64Regs, Float64Regs, Float64Regs, int_nvvm_mul_rz_d>;
234 def INT_NVVM_MUL_RM_D : F_MATH_2<"mul.rm.f64 \t$dst, $src0, $src1;",
235 Float64Regs, Float64Regs, Float64Regs, int_nvvm_mul_rm_d>;
236 def INT_NVVM_MUL_RP_D : F_MATH_2<"mul.rp.f64 \t$dst, $src0, $src1;",
237 Float64Regs, Float64Regs, Float64Regs, int_nvvm_mul_rp_d>;
239 def INT_NVVM_MUL24_I : F_MATH_2<"mul24.lo.s32 \t$dst, $src0, $src1;",
240 Int32Regs, Int32Regs, Int32Regs, int_nvvm_mul24_i>;
241 def INT_NVVM_MUL24_UI : F_MATH_2<"mul24.lo.u32 \t$dst, $src0, $src1;",
242 Int32Regs, Int32Regs, Int32Regs, int_nvvm_mul24_ui>;
248 def INT_NVVM_DIV_APPROX_FTZ_F
249 : F_MATH_2<"div.approx.ftz.f32 \t$dst, $src0, $src1;", Float32Regs,
250 Float32Regs, Float32Regs, int_nvvm_div_approx_ftz_f>;
251 def INT_NVVM_DIV_APPROX_F : F_MATH_2<"div.approx.f32 \t$dst, $src0, $src1;",
252 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_approx_f>;
254 def INT_NVVM_DIV_RN_FTZ_F : F_MATH_2<"div.rn.ftz.f32 \t$dst, $src0, $src1;",
255 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rn_ftz_f>;
256 def INT_NVVM_DIV_RN_F : F_MATH_2<"div.rn.f32 \t$dst, $src0, $src1;",
257 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rn_f>;
258 def INT_NVVM_DIV_RZ_FTZ_F : F_MATH_2<"div.rz.ftz.f32 \t$dst, $src0, $src1;",
259 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rz_ftz_f>;
260 def INT_NVVM_DIV_RZ_F : F_MATH_2<"div.rz.f32 \t$dst, $src0, $src1;",
261 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rz_f>;
262 def INT_NVVM_DIV_RM_FTZ_F : F_MATH_2<"div.rm.ftz.f32 \t$dst, $src0, $src1;",
263 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rm_ftz_f>;
264 def INT_NVVM_DIV_RM_F : F_MATH_2<"div.rm.f32 \t$dst, $src0, $src1;",
265 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rm_f>;
266 def INT_NVVM_DIV_RP_FTZ_F : F_MATH_2<"div.rp.ftz.f32 \t$dst, $src0, $src1;",
267 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rp_ftz_f>;
268 def INT_NVVM_DIV_RP_F : F_MATH_2<"div.rp.f32 \t$dst, $src0, $src1;",
269 Float32Regs, Float32Regs, Float32Regs, int_nvvm_div_rp_f>;
271 def INT_NVVM_DIV_RN_D : F_MATH_2<"div.rn.f64 \t$dst, $src0, $src1;",
272 Float64Regs, Float64Regs, Float64Regs, int_nvvm_div_rn_d>;
273 def INT_NVVM_DIV_RZ_D : F_MATH_2<"div.rz.f64 \t$dst, $src0, $src1;",
274 Float64Regs, Float64Regs, Float64Regs, int_nvvm_div_rz_d>;
275 def INT_NVVM_DIV_RM_D : F_MATH_2<"div.rm.f64 \t$dst, $src0, $src1;",
276 Float64Regs, Float64Regs, Float64Regs, int_nvvm_div_rm_d>;
277 def INT_NVVM_DIV_RP_D : F_MATH_2<"div.rp.f64 \t$dst, $src0, $src1;",
278 Float64Regs, Float64Regs, Float64Regs, int_nvvm_div_rp_d>;
284 def INT_NVVM_BREV32 : F_MATH_1<"brev.b32 \t$dst, $src0;", Int32Regs, Int32Regs,
286 def INT_NVVM_BREV64 : F_MATH_1<"brev.b64 \t$dst, $src0;", Int64Regs, Int64Regs,
293 def INT_NVVM_SAD_I : F_MATH_3<"sad.s32 \t$dst, $src0, $src1, $src2;",
294 Int32Regs, Int32Regs, Int32Regs, Int32Regs, int_nvvm_sad_i>;
295 def INT_NVVM_SAD_UI : F_MATH_3<"sad.u32 \t$dst, $src0, $src1, $src2;",
296 Int32Regs, Int32Regs, Int32Regs, Int32Regs, int_nvvm_sad_ui>;
302 def : Pat<(int_nvvm_floor_ftz_f Float32Regs:$a),
303 (CVT_f32_f32 Float32Regs:$a, CvtRMI_FTZ)>;
304 def : Pat<(int_nvvm_floor_f Float32Regs:$a),
305 (CVT_f32_f32 Float32Regs:$a, CvtRMI)>;
306 def : Pat<(int_nvvm_floor_d Float64Regs:$a),
307 (CVT_f64_f64 Float64Regs:$a, CvtRMI)>;
309 def : Pat<(int_nvvm_ceil_ftz_f Float32Regs:$a),
310 (CVT_f32_f32 Float32Regs:$a, CvtRPI_FTZ)>;
311 def : Pat<(int_nvvm_ceil_f Float32Regs:$a),
312 (CVT_f32_f32 Float32Regs:$a, CvtRPI)>;
313 def : Pat<(int_nvvm_ceil_d Float64Regs:$a),
314 (CVT_f64_f64 Float64Regs:$a, CvtRPI)>;
320 def INT_NVVM_ABS_I : F_MATH_1<"abs.s32 \t$dst, $src0;", Int32Regs, Int32Regs,
322 def INT_NVVM_ABS_LL : F_MATH_1<"abs.s64 \t$dst, $src0;", Int64Regs, Int64Regs,
325 def INT_NVVM_FABS_FTZ_F : F_MATH_1<"abs.ftz.f32 \t$dst, $src0;", Float32Regs,
326 Float32Regs, int_nvvm_fabs_ftz_f>;
327 def INT_NVVM_FABS_F : F_MATH_1<"abs.f32 \t$dst, $src0;", Float32Regs,
328 Float32Regs, int_nvvm_fabs_f>;
330 def INT_NVVM_FABS_D : F_MATH_1<"abs.f64 \t$dst, $src0;", Float64Regs,
331 Float64Regs, int_nvvm_fabs_d>;
337 def : Pat<(int_nvvm_round_ftz_f Float32Regs:$a),
338 (CVT_f32_f32 Float32Regs:$a, CvtRNI_FTZ)>;
339 def : Pat<(int_nvvm_round_f Float32Regs:$a),
340 (CVT_f32_f32 Float32Regs:$a, CvtRNI)>;
341 def : Pat<(int_nvvm_round_d Float64Regs:$a),
342 (CVT_f64_f64 Float64Regs:$a, CvtRNI)>;
348 def : Pat<(int_nvvm_trunc_ftz_f Float32Regs:$a),
349 (CVT_f32_f32 Float32Regs:$a, CvtRZI_FTZ)>;
350 def : Pat<(int_nvvm_trunc_f Float32Regs:$a),
351 (CVT_f32_f32 Float32Regs:$a, CvtRZI)>;
352 def : Pat<(int_nvvm_trunc_d Float64Regs:$a),
353 (CVT_f64_f64 Float64Regs:$a, CvtRZI)>;
359 def : Pat<(int_nvvm_saturate_ftz_f Float32Regs:$a),
360 (CVT_f32_f32 Float32Regs:$a, CvtSAT_FTZ)>;
361 def : Pat<(int_nvvm_saturate_f Float32Regs:$a),
362 (CVT_f32_f32 Float32Regs:$a, CvtSAT)>;
363 def : Pat<(int_nvvm_saturate_d Float64Regs:$a),
364 (CVT_f64_f64 Float64Regs:$a, CvtSAT)>;
370 def INT_NVVM_EX2_APPROX_FTZ_F : F_MATH_1<"ex2.approx.ftz.f32 \t$dst, $src0;",
371 Float32Regs, Float32Regs, int_nvvm_ex2_approx_ftz_f>;
372 def INT_NVVM_EX2_APPROX_F : F_MATH_1<"ex2.approx.f32 \t$dst, $src0;",
373 Float32Regs, Float32Regs, int_nvvm_ex2_approx_f>;
374 def INT_NVVM_EX2_APPROX_D : F_MATH_1<"ex2.approx.f64 \t$dst, $src0;",
375 Float64Regs, Float64Regs, int_nvvm_ex2_approx_d>;
377 def INT_NVVM_LG2_APPROX_FTZ_F : F_MATH_1<"lg2.approx.ftz.f32 \t$dst, $src0;",
378 Float32Regs, Float32Regs, int_nvvm_lg2_approx_ftz_f>;
379 def INT_NVVM_LG2_APPROX_F : F_MATH_1<"lg2.approx.f32 \t$dst, $src0;",
380 Float32Regs, Float32Regs, int_nvvm_lg2_approx_f>;
381 def INT_NVVM_LG2_APPROX_D : F_MATH_1<"lg2.approx.f64 \t$dst, $src0;",
382 Float64Regs, Float64Regs, int_nvvm_lg2_approx_d>;
388 def INT_NVVM_SIN_APPROX_FTZ_F : F_MATH_1<"sin.approx.ftz.f32 \t$dst, $src0;",
389 Float32Regs, Float32Regs, int_nvvm_sin_approx_ftz_f>;
390 def INT_NVVM_SIN_APPROX_F : F_MATH_1<"sin.approx.f32 \t$dst, $src0;",
391 Float32Regs, Float32Regs, int_nvvm_sin_approx_f>;
393 def INT_NVVM_COS_APPROX_FTZ_F : F_MATH_1<"cos.approx.ftz.f32 \t$dst, $src0;",
394 Float32Regs, Float32Regs, int_nvvm_cos_approx_ftz_f>;
395 def INT_NVVM_COS_APPROX_F : F_MATH_1<"cos.approx.f32 \t$dst, $src0;",
396 Float32Regs, Float32Regs, int_nvvm_cos_approx_f>;
402 def INT_NVVM_FMA_RN_FTZ_F
403 : F_MATH_3<"fma.rn.ftz.f32 \t$dst, $src0, $src1, $src2;", Float32Regs,
404 Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rn_ftz_f>;
405 def INT_NVVM_FMA_RN_F : F_MATH_3<"fma.rn.f32 \t$dst, $src0, $src1, $src2;",
406 Float32Regs, Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rn_f>;
407 def INT_NVVM_FMA_RZ_FTZ_F
408 : F_MATH_3<"fma.rz.ftz.f32 \t$dst, $src0, $src1, $src2;", Float32Regs,
409 Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rz_ftz_f>;
410 def INT_NVVM_FMA_RZ_F : F_MATH_3<"fma.rz.f32 \t$dst, $src0, $src1, $src2;",
411 Float32Regs, Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rz_f>;
412 def INT_NVVM_FMA_RM_FTZ_F
413 : F_MATH_3<"fma.rm.ftz.f32 \t$dst, $src0, $src1, $src2;", Float32Regs,
414 Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rm_ftz_f>;
415 def INT_NVVM_FMA_RM_F : F_MATH_3<"fma.rm.f32 \t$dst, $src0, $src1, $src2;",
416 Float32Regs, Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rm_f>;
417 def INT_NVVM_FMA_RP_FTZ_F
418 : F_MATH_3<"fma.rp.ftz.f32 \t$dst, $src0, $src1, $src2;", Float32Regs,
419 Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rp_ftz_f>;
420 def INT_NVVM_FMA_RP_F : F_MATH_3<"fma.rp.f32 \t$dst, $src0, $src1, $src2;",
421 Float32Regs, Float32Regs, Float32Regs, Float32Regs, int_nvvm_fma_rp_f>;
423 def INT_NVVM_FMA_RN_D : F_MATH_3<"fma.rn.f64 \t$dst, $src0, $src1, $src2;",
424 Float64Regs, Float64Regs, Float64Regs, Float64Regs, int_nvvm_fma_rn_d>;
425 def INT_NVVM_FMA_RZ_D : F_MATH_3<"fma.rz.f64 \t$dst, $src0, $src1, $src2;",
426 Float64Regs, Float64Regs, Float64Regs, Float64Regs, int_nvvm_fma_rz_d>;
427 def INT_NVVM_FMA_RM_D : F_MATH_3<"fma.rm.f64 \t$dst, $src0, $src1, $src2;",
428 Float64Regs, Float64Regs, Float64Regs, Float64Regs, int_nvvm_fma_rm_d>;
429 def INT_NVVM_FMA_RP_D : F_MATH_3<"fma.rp.f64 \t$dst, $src0, $src1, $src2;",
430 Float64Regs, Float64Regs, Float64Regs, Float64Regs, int_nvvm_fma_rp_d>;
436 def INT_NVVM_RCP_RN_FTZ_F : F_MATH_1<"rcp.rn.ftz.f32 \t$dst, $src0;",
437 Float32Regs, Float32Regs, int_nvvm_rcp_rn_ftz_f>;
438 def INT_NVVM_RCP_RN_F : F_MATH_1<"rcp.rn.f32 \t$dst, $src0;",
439 Float32Regs, Float32Regs, int_nvvm_rcp_rn_f>;
440 def INT_NVVM_RCP_RZ_FTZ_F : F_MATH_1<"rcp.rz.ftz.f32 \t$dst, $src0;",
441 Float32Regs, Float32Regs, int_nvvm_rcp_rz_ftz_f>;
442 def INT_NVVM_RCP_RZ_F : F_MATH_1<"rcp.rz.f32 \t$dst, $src0;",
443 Float32Regs, Float32Regs, int_nvvm_rcp_rz_f>;
444 def INT_NVVM_RCP_RM_FTZ_F : F_MATH_1<"rcp.rm.ftz.f32 \t$dst, $src0;",
445 Float32Regs, Float32Regs, int_nvvm_rcp_rm_ftz_f>;
446 def INT_NVVM_RCP_RM_F : F_MATH_1<"rcp.rm.f32 \t$dst, $src0;",
447 Float32Regs, Float32Regs, int_nvvm_rcp_rm_f>;
448 def INT_NVVM_RCP_RP_FTZ_F : F_MATH_1<"rcp.rp.ftz.f32 \t$dst, $src0;",
449 Float32Regs, Float32Regs, int_nvvm_rcp_rp_ftz_f>;
450 def INT_NVVM_RCP_RP_F : F_MATH_1<"rcp.rp.f32 \t$dst, $src0;",
451 Float32Regs, Float32Regs, int_nvvm_rcp_rp_f>;
453 def INT_NVVM_RCP_RN_D : F_MATH_1<"rcp.rn.f64 \t$dst, $src0;", Float64Regs,
454 Float64Regs, int_nvvm_rcp_rn_d>;
455 def INT_NVVM_RCP_RZ_D : F_MATH_1<"rcp.rz.f64 \t$dst, $src0;", Float64Regs,
456 Float64Regs, int_nvvm_rcp_rz_d>;
457 def INT_NVVM_RCP_RM_D : F_MATH_1<"rcp.rm.f64 \t$dst, $src0;", Float64Regs,
458 Float64Regs, int_nvvm_rcp_rm_d>;
459 def INT_NVVM_RCP_RP_D : F_MATH_1<"rcp.rp.f64 \t$dst, $src0;", Float64Regs,
460 Float64Regs, int_nvvm_rcp_rp_d>;
462 def INT_NVVM_RCP_APPROX_FTZ_D : F_MATH_1<"rcp.approx.ftz.f64 \t$dst, $src0;",
463 Float64Regs, Float64Regs, int_nvvm_rcp_approx_ftz_d>;
469 def INT_NVVM_SQRT_RN_FTZ_F : F_MATH_1<"sqrt.rn.ftz.f32 \t$dst, $src0;",
470 Float32Regs, Float32Regs, int_nvvm_sqrt_rn_ftz_f>;
471 def INT_NVVM_SQRT_RN_F : F_MATH_1<"sqrt.rn.f32 \t$dst, $src0;", Float32Regs,
472 Float32Regs, int_nvvm_sqrt_rn_f>;
473 def INT_NVVM_SQRT_RZ_FTZ_F : F_MATH_1<"sqrt.rz.ftz.f32 \t$dst, $src0;",
474 Float32Regs, Float32Regs, int_nvvm_sqrt_rz_ftz_f>;
475 def INT_NVVM_SQRT_RZ_F : F_MATH_1<"sqrt.rz.f32 \t$dst, $src0;", Float32Regs,
476 Float32Regs, int_nvvm_sqrt_rz_f>;
477 def INT_NVVM_SQRT_RM_FTZ_F : F_MATH_1<"sqrt.rm.ftz.f32 \t$dst, $src0;",
478 Float32Regs, Float32Regs, int_nvvm_sqrt_rm_ftz_f>;
479 def INT_NVVM_SQRT_RM_F : F_MATH_1<"sqrt.rm.f32 \t$dst, $src0;", Float32Regs,
480 Float32Regs, int_nvvm_sqrt_rm_f>;
481 def INT_NVVM_SQRT_RP_FTZ_F : F_MATH_1<"sqrt.rp.ftz.f32 \t$dst, $src0;",
482 Float32Regs, Float32Regs, int_nvvm_sqrt_rp_ftz_f>;
483 def INT_NVVM_SQRT_RP_F : F_MATH_1<"sqrt.rp.f32 \t$dst, $src0;", Float32Regs,
484 Float32Regs, int_nvvm_sqrt_rp_f>;
485 def INT_NVVM_SQRT_APPROX_FTZ_F : F_MATH_1<"sqrt.approx.ftz.f32 \t$dst, $src0;",
486 Float32Regs, Float32Regs, int_nvvm_sqrt_approx_ftz_f>;
487 def INT_NVVM_SQRT_APPROX_F : F_MATH_1<"sqrt.approx.f32 \t$dst, $src0;",
488 Float32Regs, Float32Regs, int_nvvm_sqrt_approx_f>;
490 def INT_NVVM_SQRT_RN_D : F_MATH_1<"sqrt.rn.f64 \t$dst, $src0;", Float64Regs,
491 Float64Regs, int_nvvm_sqrt_rn_d>;
492 def INT_NVVM_SQRT_RZ_D : F_MATH_1<"sqrt.rz.f64 \t$dst, $src0;", Float64Regs,
493 Float64Regs, int_nvvm_sqrt_rz_d>;
494 def INT_NVVM_SQRT_RM_D : F_MATH_1<"sqrt.rm.f64 \t$dst, $src0;", Float64Regs,
495 Float64Regs, int_nvvm_sqrt_rm_d>;
496 def INT_NVVM_SQRT_RP_D : F_MATH_1<"sqrt.rp.f64 \t$dst, $src0;", Float64Regs,
497 Float64Regs, int_nvvm_sqrt_rp_d>;
499 // nvvm_sqrt intrinsic
500 def : Pat<(int_nvvm_sqrt_f Float32Regs:$a),
501 (INT_NVVM_SQRT_RN_FTZ_F Float32Regs:$a)>, Requires<[doF32FTZ, do_SQRTF32_RN]>;
502 def : Pat<(int_nvvm_sqrt_f Float32Regs:$a),
503 (INT_NVVM_SQRT_RN_F Float32Regs:$a)>, Requires<[do_SQRTF32_RN]>;
504 def : Pat<(int_nvvm_sqrt_f Float32Regs:$a),
505 (INT_NVVM_SQRT_APPROX_FTZ_F Float32Regs:$a)>, Requires<[doF32FTZ]>;
506 def : Pat<(int_nvvm_sqrt_f Float32Regs:$a),
507 (INT_NVVM_SQRT_APPROX_F Float32Regs:$a)>;
513 def INT_NVVM_RSQRT_APPROX_FTZ_F
514 : F_MATH_1<"rsqrt.approx.ftz.f32 \t$dst, $src0;", Float32Regs, Float32Regs,
515 int_nvvm_rsqrt_approx_ftz_f>;
516 def INT_NVVM_RSQRT_APPROX_F : F_MATH_1<"rsqrt.approx.f32 \t$dst, $src0;",
517 Float32Regs, Float32Regs, int_nvvm_rsqrt_approx_f>;
518 def INT_NVVM_RSQRT_APPROX_D : F_MATH_1<"rsqrt.approx.f64 \t$dst, $src0;",
519 Float64Regs, Float64Regs, int_nvvm_rsqrt_approx_d>;
525 def INT_NVVM_ADD_RN_FTZ_F : F_MATH_2<"add.rn.ftz.f32 \t$dst, $src0, $src1;",
526 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rn_ftz_f>;
527 def INT_NVVM_ADD_RN_F : F_MATH_2<"add.rn.f32 \t$dst, $src0, $src1;",
528 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rn_f>;
529 def INT_NVVM_ADD_RZ_FTZ_F : F_MATH_2<"add.rz.ftz.f32 \t$dst, $src0, $src1;",
530 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rz_ftz_f>;
531 def INT_NVVM_ADD_RZ_F : F_MATH_2<"add.rz.f32 \t$dst, $src0, $src1;",
532 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rz_f>;
533 def INT_NVVM_ADD_RM_FTZ_F : F_MATH_2<"add.rm.ftz.f32 \t$dst, $src0, $src1;",
534 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rm_ftz_f>;
535 def INT_NVVM_ADD_RM_F : F_MATH_2<"add.rm.f32 \t$dst, $src0, $src1;",
536 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rm_f>;
537 def INT_NVVM_ADD_RP_FTZ_F : F_MATH_2<"add.rp.ftz.f32 \t$dst, $src0, $src1;",
538 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rp_ftz_f>;
539 def INT_NVVM_ADD_RP_F : F_MATH_2<"add.rp.f32 \t$dst, $src0, $src1;",
540 Float32Regs, Float32Regs, Float32Regs, int_nvvm_add_rp_f>;
542 def INT_NVVM_ADD_RN_D : F_MATH_2<"add.rn.f64 \t$dst, $src0, $src1;",
543 Float64Regs, Float64Regs, Float64Regs, int_nvvm_add_rn_d>;
544 def INT_NVVM_ADD_RZ_D : F_MATH_2<"add.rz.f64 \t$dst, $src0, $src1;",
545 Float64Regs, Float64Regs, Float64Regs, int_nvvm_add_rz_d>;
546 def INT_NVVM_ADD_RM_D : F_MATH_2<"add.rm.f64 \t$dst, $src0, $src1;",
547 Float64Regs, Float64Regs, Float64Regs, int_nvvm_add_rm_d>;
548 def INT_NVVM_ADD_RP_D : F_MATH_2<"add.rp.f64 \t$dst, $src0, $src1;",
549 Float64Regs, Float64Regs, Float64Regs, int_nvvm_add_rp_d>;
555 def : Pat<(int_nvvm_d2f_rn_ftz Float64Regs:$a),
556 (CVT_f32_f64 Float64Regs:$a, CvtRN_FTZ)>;
557 def : Pat<(int_nvvm_d2f_rn Float64Regs:$a),
558 (CVT_f32_f64 Float64Regs:$a, CvtRN)>;
559 def : Pat<(int_nvvm_d2f_rz_ftz Float64Regs:$a),
560 (CVT_f32_f64 Float64Regs:$a, CvtRZ_FTZ)>;
561 def : Pat<(int_nvvm_d2f_rz Float64Regs:$a),
562 (CVT_f32_f64 Float64Regs:$a, CvtRZ)>;
563 def : Pat<(int_nvvm_d2f_rm_ftz Float64Regs:$a),
564 (CVT_f32_f64 Float64Regs:$a, CvtRM_FTZ)>;
565 def : Pat<(int_nvvm_d2f_rm Float64Regs:$a),
566 (CVT_f32_f64 Float64Regs:$a, CvtRM)>;
567 def : Pat<(int_nvvm_d2f_rp_ftz Float64Regs:$a),
568 (CVT_f32_f64 Float64Regs:$a, CvtRP_FTZ)>;
569 def : Pat<(int_nvvm_d2f_rp Float64Regs:$a),
570 (CVT_f32_f64 Float64Regs:$a, CvtRP)>;
572 def : Pat<(int_nvvm_d2i_rn Float64Regs:$a),
573 (CVT_s32_f64 Float64Regs:$a, CvtRNI)>;
574 def : Pat<(int_nvvm_d2i_rz Float64Regs:$a),
575 (CVT_s32_f64 Float64Regs:$a, CvtRZI)>;
576 def : Pat<(int_nvvm_d2i_rm Float64Regs:$a),
577 (CVT_s32_f64 Float64Regs:$a, CvtRMI)>;
578 def : Pat<(int_nvvm_d2i_rp Float64Regs:$a),
579 (CVT_s32_f64 Float64Regs:$a, CvtRPI)>;
581 def : Pat<(int_nvvm_d2ui_rn Float64Regs:$a),
582 (CVT_u32_f64 Float64Regs:$a, CvtRNI)>;
583 def : Pat<(int_nvvm_d2ui_rz Float64Regs:$a),
584 (CVT_u32_f64 Float64Regs:$a, CvtRZI)>;
585 def : Pat<(int_nvvm_d2ui_rm Float64Regs:$a),
586 (CVT_u32_f64 Float64Regs:$a, CvtRMI)>;
587 def : Pat<(int_nvvm_d2ui_rp Float64Regs:$a),
588 (CVT_u32_f64 Float64Regs:$a, CvtRPI)>;
590 def : Pat<(int_nvvm_i2d_rn Int32Regs:$a),
591 (CVT_f64_s32 Int32Regs:$a, CvtRN)>;
592 def : Pat<(int_nvvm_i2d_rz Int32Regs:$a),
593 (CVT_f64_s32 Int32Regs:$a, CvtRZ)>;
594 def : Pat<(int_nvvm_i2d_rm Int32Regs:$a),
595 (CVT_f64_s32 Int32Regs:$a, CvtRM)>;
596 def : Pat<(int_nvvm_i2d_rp Int32Regs:$a),
597 (CVT_f64_s32 Int32Regs:$a, CvtRP)>;
599 def : Pat<(int_nvvm_ui2d_rn Int32Regs:$a),
600 (CVT_f64_u32 Int32Regs:$a, CvtRN)>;
601 def : Pat<(int_nvvm_ui2d_rz Int32Regs:$a),
602 (CVT_f64_u32 Int32Regs:$a, CvtRZ)>;
603 def : Pat<(int_nvvm_ui2d_rm Int32Regs:$a),
604 (CVT_f64_u32 Int32Regs:$a, CvtRM)>;
605 def : Pat<(int_nvvm_ui2d_rp Int32Regs:$a),
606 (CVT_f64_u32 Int32Regs:$a, CvtRP)>;
608 def : Pat<(int_nvvm_f2i_rn_ftz Float32Regs:$a),
609 (CVT_s32_f32 Float32Regs:$a, CvtRNI_FTZ)>;
610 def : Pat<(int_nvvm_f2i_rn Float32Regs:$a),
611 (CVT_s32_f32 Float32Regs:$a, CvtRNI)>;
612 def : Pat<(int_nvvm_f2i_rz_ftz Float32Regs:$a),
613 (CVT_s32_f32 Float32Regs:$a, CvtRZI_FTZ)>;
614 def : Pat<(int_nvvm_f2i_rz Float32Regs:$a),
615 (CVT_s32_f32 Float32Regs:$a, CvtRZI)>;
616 def : Pat<(int_nvvm_f2i_rm_ftz Float32Regs:$a),
617 (CVT_s32_f32 Float32Regs:$a, CvtRMI_FTZ)>;
618 def : Pat<(int_nvvm_f2i_rm Float32Regs:$a),
619 (CVT_s32_f32 Float32Regs:$a, CvtRMI)>;
620 def : Pat<(int_nvvm_f2i_rp_ftz Float32Regs:$a),
621 (CVT_s32_f32 Float32Regs:$a, CvtRPI_FTZ)>;
622 def : Pat<(int_nvvm_f2i_rp Float32Regs:$a),
623 (CVT_s32_f32 Float32Regs:$a, CvtRPI)>;
625 def : Pat<(int_nvvm_f2ui_rn_ftz Float32Regs:$a),
626 (CVT_u32_f32 Float32Regs:$a, CvtRNI_FTZ)>;
627 def : Pat<(int_nvvm_f2ui_rn Float32Regs:$a),
628 (CVT_u32_f32 Float32Regs:$a, CvtRNI)>;
629 def : Pat<(int_nvvm_f2ui_rz_ftz Float32Regs:$a),
630 (CVT_u32_f32 Float32Regs:$a, CvtRZI_FTZ)>;
631 def : Pat<(int_nvvm_f2ui_rz Float32Regs:$a),
632 (CVT_u32_f32 Float32Regs:$a, CvtRZI)>;
633 def : Pat<(int_nvvm_f2ui_rm_ftz Float32Regs:$a),
634 (CVT_u32_f32 Float32Regs:$a, CvtRMI_FTZ)>;
635 def : Pat<(int_nvvm_f2ui_rm Float32Regs:$a),
636 (CVT_u32_f32 Float32Regs:$a, CvtRMI)>;
637 def : Pat<(int_nvvm_f2ui_rp_ftz Float32Regs:$a),
638 (CVT_u32_f32 Float32Regs:$a, CvtRPI_FTZ)>;
639 def : Pat<(int_nvvm_f2ui_rp Float32Regs:$a),
640 (CVT_u32_f32 Float32Regs:$a, CvtRPI)>;
642 def : Pat<(int_nvvm_i2f_rn Int32Regs:$a),
643 (CVT_f32_s32 Int32Regs:$a, CvtRN)>;
644 def : Pat<(int_nvvm_i2f_rz Int32Regs:$a),
645 (CVT_f32_s32 Int32Regs:$a, CvtRZ)>;
646 def : Pat<(int_nvvm_i2f_rm Int32Regs:$a),
647 (CVT_f32_s32 Int32Regs:$a, CvtRM)>;
648 def : Pat<(int_nvvm_i2f_rp Int32Regs:$a),
649 (CVT_f32_s32 Int32Regs:$a, CvtRP)>;
651 def : Pat<(int_nvvm_ui2f_rn Int32Regs:$a),
652 (CVT_f32_u32 Int32Regs:$a, CvtRN)>;
653 def : Pat<(int_nvvm_ui2f_rz Int32Regs:$a),
654 (CVT_f32_u32 Int32Regs:$a, CvtRZ)>;
655 def : Pat<(int_nvvm_ui2f_rm Int32Regs:$a),
656 (CVT_f32_u32 Int32Regs:$a, CvtRM)>;
657 def : Pat<(int_nvvm_ui2f_rp Int32Regs:$a),
658 (CVT_f32_u32 Int32Regs:$a, CvtRP)>;
660 def INT_NVVM_LOHI_I2D : F_MATH_2<"mov.b64 \t$dst, {{$src0, $src1}};",
661 Float64Regs, Int32Regs, Int32Regs, int_nvvm_lohi_i2d>;
663 def INT_NVVM_D2I_LO : F_MATH_1<!strconcat("{{\n\t",
664 !strconcat(".reg .b32 %temp; \n\t",
665 !strconcat("mov.b64 \t{$dst, %temp}, $src0;\n\t",
667 Int32Regs, Float64Regs, int_nvvm_d2i_lo>;
668 def INT_NVVM_D2I_HI : F_MATH_1<!strconcat("{{\n\t",
669 !strconcat(".reg .b32 %temp; \n\t",
670 !strconcat("mov.b64 \t{%temp, $dst}, $src0;\n\t",
672 Int32Regs, Float64Regs, int_nvvm_d2i_hi>;
674 def : Pat<(int_nvvm_f2ll_rn_ftz Float32Regs:$a),
675 (CVT_s64_f32 Float32Regs:$a, CvtRNI_FTZ)>;
676 def : Pat<(int_nvvm_f2ll_rn Float32Regs:$a),
677 (CVT_s64_f32 Float32Regs:$a, CvtRNI)>;
678 def : Pat<(int_nvvm_f2ll_rz_ftz Float32Regs:$a),
679 (CVT_s64_f32 Float32Regs:$a, CvtRZI_FTZ)>;
680 def : Pat<(int_nvvm_f2ll_rz Float32Regs:$a),
681 (CVT_s64_f32 Float32Regs:$a, CvtRZI)>;
682 def : Pat<(int_nvvm_f2ll_rm_ftz Float32Regs:$a),
683 (CVT_s64_f32 Float32Regs:$a, CvtRMI_FTZ)>;
684 def : Pat<(int_nvvm_f2ll_rm Float32Regs:$a),
685 (CVT_s64_f32 Float32Regs:$a, CvtRMI)>;
686 def : Pat<(int_nvvm_f2ll_rp_ftz Float32Regs:$a),
687 (CVT_s64_f32 Float32Regs:$a, CvtRPI_FTZ)>;
688 def : Pat<(int_nvvm_f2ll_rp Float32Regs:$a),
689 (CVT_s64_f32 Float32Regs:$a, CvtRPI)>;
691 def : Pat<(int_nvvm_f2ull_rn_ftz Float32Regs:$a),
692 (CVT_u64_f32 Float32Regs:$a, CvtRNI_FTZ)>;
693 def : Pat<(int_nvvm_f2ull_rn Float32Regs:$a),
694 (CVT_u64_f32 Float32Regs:$a, CvtRNI)>;
695 def : Pat<(int_nvvm_f2ull_rz_ftz Float32Regs:$a),
696 (CVT_u64_f32 Float32Regs:$a, CvtRZI_FTZ)>;
697 def : Pat<(int_nvvm_f2ull_rz Float32Regs:$a),
698 (CVT_u64_f32 Float32Regs:$a, CvtRZI)>;
699 def : Pat<(int_nvvm_f2ull_rm_ftz Float32Regs:$a),
700 (CVT_u64_f32 Float32Regs:$a, CvtRMI_FTZ)>;
701 def : Pat<(int_nvvm_f2ull_rm Float32Regs:$a),
702 (CVT_u64_f32 Float32Regs:$a, CvtRMI)>;
703 def : Pat<(int_nvvm_f2ull_rp_ftz Float32Regs:$a),
704 (CVT_u64_f32 Float32Regs:$a, CvtRPI_FTZ)>;
705 def : Pat<(int_nvvm_f2ull_rp Float32Regs:$a),
706 (CVT_u64_f32 Float32Regs:$a, CvtRPI)>;
708 def : Pat<(int_nvvm_d2ll_rn Float64Regs:$a),
709 (CVT_s64_f64 Float64Regs:$a, CvtRNI)>;
710 def : Pat<(int_nvvm_d2ll_rz Float64Regs:$a),
711 (CVT_s64_f64 Float64Regs:$a, CvtRZI)>;
712 def : Pat<(int_nvvm_d2ll_rm Float64Regs:$a),
713 (CVT_s64_f64 Float64Regs:$a, CvtRMI)>;
714 def : Pat<(int_nvvm_d2ll_rp Float64Regs:$a),
715 (CVT_s64_f64 Float64Regs:$a, CvtRPI)>;
717 def : Pat<(int_nvvm_d2ull_rn Float64Regs:$a),
718 (CVT_u64_f64 Float64Regs:$a, CvtRNI)>;
719 def : Pat<(int_nvvm_d2ull_rz Float64Regs:$a),
720 (CVT_u64_f64 Float64Regs:$a, CvtRZI)>;
721 def : Pat<(int_nvvm_d2ull_rm Float64Regs:$a),
722 (CVT_u64_f64 Float64Regs:$a, CvtRMI)>;
723 def : Pat<(int_nvvm_d2ull_rp Float64Regs:$a),
724 (CVT_u64_f64 Float64Regs:$a, CvtRPI)>;
726 def : Pat<(int_nvvm_ll2f_rn Int64Regs:$a),
727 (CVT_f32_s64 Int64Regs:$a, CvtRN)>;
728 def : Pat<(int_nvvm_ll2f_rz Int64Regs:$a),
729 (CVT_f32_s64 Int64Regs:$a, CvtRZ)>;
730 def : Pat<(int_nvvm_ll2f_rm Int64Regs:$a),
731 (CVT_f32_s64 Int64Regs:$a, CvtRM)>;
732 def : Pat<(int_nvvm_ll2f_rp Int64Regs:$a),
733 (CVT_f32_s64 Int64Regs:$a, CvtRP)>;
735 def : Pat<(int_nvvm_ull2f_rn Int64Regs:$a),
736 (CVT_f32_u64 Int64Regs:$a, CvtRN)>;
737 def : Pat<(int_nvvm_ull2f_rz Int64Regs:$a),
738 (CVT_f32_u64 Int64Regs:$a, CvtRZ)>;
739 def : Pat<(int_nvvm_ull2f_rm Int64Regs:$a),
740 (CVT_f32_u64 Int64Regs:$a, CvtRM)>;
741 def : Pat<(int_nvvm_ull2f_rp Int64Regs:$a),
742 (CVT_f32_u64 Int64Regs:$a, CvtRP)>;
744 def : Pat<(int_nvvm_ll2d_rn Int64Regs:$a),
745 (CVT_f64_s64 Int64Regs:$a, CvtRN)>;
746 def : Pat<(int_nvvm_ll2d_rz Int64Regs:$a),
747 (CVT_f64_s64 Int64Regs:$a, CvtRZ)>;
748 def : Pat<(int_nvvm_ll2d_rm Int64Regs:$a),
749 (CVT_f64_s64 Int64Regs:$a, CvtRM)>;
750 def : Pat<(int_nvvm_ll2d_rp Int64Regs:$a),
751 (CVT_f64_s64 Int64Regs:$a, CvtRP)>;
753 def : Pat<(int_nvvm_ull2d_rn Int64Regs:$a),
754 (CVT_f64_u64 Int64Regs:$a, CvtRN)>;
755 def : Pat<(int_nvvm_ull2d_rz Int64Regs:$a),
756 (CVT_f64_u64 Int64Regs:$a, CvtRZ)>;
757 def : Pat<(int_nvvm_ull2d_rm Int64Regs:$a),
758 (CVT_f64_u64 Int64Regs:$a, CvtRM)>;
759 def : Pat<(int_nvvm_ull2d_rp Int64Regs:$a),
760 (CVT_f64_u64 Int64Regs:$a, CvtRP)>;
763 // FIXME: Ideally, we could use these patterns instead of the scope-creating
764 // patterns, but ptxas does not like these since .s16 is not compatible with
765 // .f16. The solution is to use .bXX for all integer register types, but we
766 // are not there yet.
767 //def : Pat<(int_nvvm_f2h_rn_ftz Float32Regs:$a),
768 // (CVT_f16_f32 Float32Regs:$a, CvtRN_FTZ)>;
769 //def : Pat<(int_nvvm_f2h_rn Float32Regs:$a),
770 // (CVT_f16_f32 Float32Regs:$a, CvtRN)>;
772 //def : Pat<(int_nvvm_h2f Int16Regs:$a),
773 // (CVT_f32_f16 Int16Regs:$a, CvtNONE)>;
775 def INT_NVVM_F2H_RN_FTZ : F_MATH_1<!strconcat("{{\n\t",
776 !strconcat(".reg .b16 %temp;\n\t",
777 !strconcat("cvt.rn.ftz.f16.f32 \t%temp, $src0;\n\t",
778 !strconcat("mov.b16 \t$dst, %temp;\n",
780 Int16Regs, Float32Regs, int_nvvm_f2h_rn_ftz>;
781 def INT_NVVM_F2H_RN : F_MATH_1<!strconcat("{{\n\t",
782 !strconcat(".reg .b16 %temp;\n\t",
783 !strconcat("cvt.rn.f16.f32 \t%temp, $src0;\n\t",
784 !strconcat("mov.b16 \t$dst, %temp;\n",
786 Int16Regs, Float32Regs, int_nvvm_f2h_rn>;
788 def INT_NVVM_H2F : F_MATH_1<!strconcat("{{\n\t",
789 !strconcat(".reg .b16 %temp;\n\t",
790 !strconcat("mov.b16 \t%temp, $src0;\n\t",
791 !strconcat("cvt.f32.f16 \t$dst, %temp;\n\t",
793 Float32Regs, Int16Regs, int_nvvm_h2f>;
795 def : Pat<(f32 (f16_to_f32 Int16Regs:$a)),
796 (CVT_f32_f16 Int16Regs:$a, CvtNONE)>;
797 def : Pat<(i16 (f32_to_f16 Float32Regs:$a)),
798 (CVT_f16_f32 Float32Regs:$a, CvtRN_FTZ)>, Requires<[doF32FTZ]>;
799 def : Pat<(i16 (f32_to_f16 Float32Regs:$a)),
800 (CVT_f16_f32 Float32Regs:$a, CvtRN)>;
806 def INT_NVVM_BITCAST_F2I : F_MATH_1<"mov.b32 \t$dst, $src0;", Int32Regs,
807 Float32Regs, int_nvvm_bitcast_f2i>;
808 def INT_NVVM_BITCAST_I2F : F_MATH_1<"mov.b32 \t$dst, $src0;", Float32Regs,
809 Int32Regs, int_nvvm_bitcast_i2f>;
811 def INT_NVVM_BITCAST_LL2D : F_MATH_1<"mov.b64 \t$dst, $src0;", Float64Regs,
812 Int64Regs, int_nvvm_bitcast_ll2d>;
813 def INT_NVVM_BITCAST_D2LL : F_MATH_1<"mov.b64 \t$dst, $src0;", Int64Regs,
814 Float64Regs, int_nvvm_bitcast_d2ll>;
816 //-----------------------------------
818 //-----------------------------------
820 class ATOMIC_GLOBAL_CHK <dag ops, dag frag>
821 : PatFrag<ops, frag, [{
822 return ChkMemSDNodeAddressSpace(N, llvm::ADDRESS_SPACE_GLOBAL);
824 class ATOMIC_SHARED_CHK <dag ops, dag frag>
825 : PatFrag<ops, frag, [{
826 return ChkMemSDNodeAddressSpace(N, llvm::ADDRESS_SPACE_SHARED);
828 class ATOMIC_GENERIC_CHK <dag ops, dag frag>
829 : PatFrag<ops, frag, [{
830 return ChkMemSDNodeAddressSpace(N, llvm::ADDRESS_SPACE_GENERIC);
833 multiclass F_ATOMIC_2_imp<NVPTXRegClass ptrclass, NVPTXRegClass regclass,
834 string SpaceStr, string TypeStr, string OpcStr, PatFrag IntOp,
835 Operand IMMType, SDNode IMM, Predicate Pred> {
836 def reg : NVPTXInst<(outs regclass:$dst), (ins ptrclass:$addr, regclass:$b),
841 !strconcat(" \t$dst, [$addr], $b;", ""))))),
842 [(set regclass:$dst, (IntOp ptrclass:$addr, regclass:$b))]>,
844 def imm : NVPTXInst<(outs regclass:$dst), (ins ptrclass:$addr, IMMType:$b),
849 !strconcat(" \t$dst, [$addr], $b;", ""))))),
850 [(set regclass:$dst, (IntOp ptrclass:$addr, IMM:$b))]>,
853 multiclass F_ATOMIC_2<NVPTXRegClass regclass, string SpaceStr, string TypeStr,
854 string OpcStr, PatFrag IntOp, Operand IMMType, SDNode IMM, Predicate Pred> {
855 defm p32 : F_ATOMIC_2_imp<Int32Regs, regclass, SpaceStr, TypeStr, OpcStr,
856 IntOp, IMMType, IMM, Pred>;
857 defm p64 : F_ATOMIC_2_imp<Int64Regs, regclass, SpaceStr, TypeStr, OpcStr,
858 IntOp, IMMType, IMM, Pred>;
861 // has 2 operands, neg the second one
862 multiclass F_ATOMIC_2_NEG_imp<NVPTXRegClass ptrclass, NVPTXRegClass regclass,
863 string SpaceStr, string TypeStr, string OpcStr, PatFrag IntOp,
864 Operand IMMType, Predicate Pred> {
865 def reg : NVPTXInst<(outs regclass:$dst), (ins ptrclass:$addr, regclass:$b),
866 !strconcat("{{ \n\t",
867 !strconcat(".reg \t.s",
869 !strconcat(" temp; \n\t",
872 !strconcat(" \ttemp, $b; \n\t",
878 !strconcat(" \t$dst, [$addr], temp; \n\t",
879 !strconcat("}}", "")))))))))))))),
880 [(set regclass:$dst, (IntOp ptrclass:$addr, regclass:$b))]>,
883 multiclass F_ATOMIC_2_NEG<NVPTXRegClass regclass, string SpaceStr,
884 string TypeStr, string OpcStr, PatFrag IntOp, Operand IMMType,
886 defm p32: F_ATOMIC_2_NEG_imp<Int32Regs, regclass, SpaceStr, TypeStr, OpcStr,
887 IntOp, IMMType, Pred> ;
888 defm p64: F_ATOMIC_2_NEG_imp<Int64Regs, regclass, SpaceStr, TypeStr, OpcStr,
889 IntOp, IMMType, Pred> ;
893 multiclass F_ATOMIC_3_imp<NVPTXRegClass ptrclass, NVPTXRegClass regclass,
894 string SpaceStr, string TypeStr, string OpcStr, PatFrag IntOp,
895 Operand IMMType, Predicate Pred> {
896 def reg : NVPTXInst<(outs regclass:$dst),
897 (ins ptrclass:$addr, regclass:$b, regclass:$c),
902 !strconcat(" \t$dst, [$addr], $b, $c;", ""))))),
904 (IntOp ptrclass:$addr, regclass:$b, regclass:$c))]>,
906 def imm1 : NVPTXInst<(outs regclass:$dst),
907 (ins ptrclass:$addr, IMMType:$b, regclass:$c),
912 !strconcat(" \t$dst, [$addr], $b, $c;", ""))))),
913 [(set regclass:$dst, (IntOp ptrclass:$addr, imm:$b, regclass:$c))]>,
915 def imm2 : NVPTXInst<(outs regclass:$dst),
916 (ins ptrclass:$addr, regclass:$b, IMMType:$c),
921 !strconcat(" \t$dst, [$addr], $b, $c;", ""))))),
922 [(set regclass:$dst, (IntOp ptrclass:$addr, regclass:$b, imm:$c))]>,
924 def imm3 : NVPTXInst<(outs regclass:$dst),
925 (ins ptrclass:$addr, IMMType:$b, IMMType:$c),
930 !strconcat(" \t$dst, [$addr], $b, $c;", ""))))),
931 [(set regclass:$dst, (IntOp ptrclass:$addr, imm:$b, imm:$c))]>,
934 multiclass F_ATOMIC_3<NVPTXRegClass regclass, string SpaceStr, string TypeStr,
935 string OpcStr, PatFrag IntOp, Operand IMMType, Predicate Pred> {
936 defm p32 : F_ATOMIC_3_imp<Int32Regs, regclass, SpaceStr, TypeStr, OpcStr,
937 IntOp, IMMType, Pred>;
938 defm p64 : F_ATOMIC_3_imp<Int64Regs, regclass, SpaceStr, TypeStr, OpcStr,
939 IntOp, IMMType, Pred>;
944 def atomic_load_add_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
945 (atomic_load_add_32 node:$a, node:$b)>;
946 def atomic_load_add_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
947 (atomic_load_add_32 node:$a, node:$b)>;
948 def atomic_load_add_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
949 (atomic_load_add_32 node:$a, node:$b)>;
950 def atomic_load_add_64_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
951 (atomic_load_add_64 node:$a, node:$b)>;
952 def atomic_load_add_64_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
953 (atomic_load_add_64 node:$a, node:$b)>;
954 def atomic_load_add_64_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
955 (atomic_load_add_64 node:$a, node:$b)>;
956 def atomic_load_add_f32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
957 (int_nvvm_atomic_load_add_f32 node:$a, node:$b)>;
958 def atomic_load_add_f32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
959 (int_nvvm_atomic_load_add_f32 node:$a, node:$b)>;
960 def atomic_load_add_f32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
961 (int_nvvm_atomic_load_add_f32 node:$a, node:$b)>;
963 defm INT_PTX_ATOM_ADD_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".u32", ".add",
964 atomic_load_add_32_g, i32imm, imm, hasAtomRedG32>;
965 defm INT_PTX_ATOM_ADD_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".u32", ".add",
966 atomic_load_add_32_s, i32imm, imm, hasAtomRedS32>;
967 defm INT_PTX_ATOM_ADD_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".u32", ".add",
968 atomic_load_add_32_gen, i32imm, imm, hasAtomRedGen32>;
969 defm INT_PTX_ATOM_ADD_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".u32",
970 ".add", atomic_load_add_32_gen, i32imm, imm, useAtomRedG32forGen32>;
972 defm INT_PTX_ATOM_ADD_G_64 : F_ATOMIC_2<Int64Regs, ".global", ".u64", ".add",
973 atomic_load_add_64_g, i64imm, imm, hasAtomRedG64>;
974 defm INT_PTX_ATOM_ADD_S_64 : F_ATOMIC_2<Int64Regs, ".shared", ".u64", ".add",
975 atomic_load_add_64_s, i64imm, imm, hasAtomRedS64>;
976 defm INT_PTX_ATOM_ADD_GEN_64 : F_ATOMIC_2<Int64Regs, "", ".u64", ".add",
977 atomic_load_add_64_gen, i64imm, imm, hasAtomRedGen64>;
978 defm INT_PTX_ATOM_ADD_GEN_64_USE_G : F_ATOMIC_2<Int64Regs, ".global", ".u64",
979 ".add", atomic_load_add_64_gen, i64imm, imm, useAtomRedG64forGen64>;
981 defm INT_PTX_ATOM_ADD_G_F32 : F_ATOMIC_2<Float32Regs, ".global", ".f32", ".add",
982 atomic_load_add_f32_g, f32imm, fpimm, hasAtomAddF32>;
983 defm INT_PTX_ATOM_ADD_S_F32 : F_ATOMIC_2<Float32Regs, ".shared", ".f32", ".add",
984 atomic_load_add_f32_s, f32imm, fpimm, hasAtomAddF32>;
985 defm INT_PTX_ATOM_ADD_GEN_F32 : F_ATOMIC_2<Float32Regs, "", ".f32", ".add",
986 atomic_load_add_f32_gen, f32imm, fpimm, hasAtomAddF32>;
990 def atomic_load_sub_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
991 (atomic_load_sub_32 node:$a, node:$b)>;
992 def atomic_load_sub_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
993 (atomic_load_sub_32 node:$a, node:$b)>;
994 def atomic_load_sub_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
995 (atomic_load_sub_32 node:$a, node:$b)>;
996 def atomic_load_sub_64_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
997 (atomic_load_sub_64 node:$a, node:$b)>;
998 def atomic_load_sub_64_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
999 (atomic_load_sub_64 node:$a, node:$b)>;
1000 def atomic_load_sub_64_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1001 (atomic_load_sub_64 node:$a, node:$b)>;
1003 defm INT_PTX_ATOM_SUB_G_32 : F_ATOMIC_2_NEG<Int32Regs, ".global", "32", ".add",
1004 atomic_load_sub_32_g, i32imm, hasAtomRedG32>;
1005 defm INT_PTX_ATOM_SUB_G_64 : F_ATOMIC_2_NEG<Int64Regs, ".global", "64", ".add",
1006 atomic_load_sub_64_g, i64imm, hasAtomRedG64>;
1007 defm INT_PTX_ATOM_SUB_GEN_32 : F_ATOMIC_2_NEG<Int32Regs, "", "32", ".add",
1008 atomic_load_sub_32_gen, i32imm, hasAtomRedGen32>;
1009 defm INT_PTX_ATOM_SUB_GEN_32_USE_G : F_ATOMIC_2_NEG<Int32Regs, ".global", "32",
1010 ".add", atomic_load_sub_32_gen, i32imm, useAtomRedG32forGen32>;
1011 defm INT_PTX_ATOM_SUB_S_32 : F_ATOMIC_2_NEG<Int32Regs, ".shared", "32", ".add",
1012 atomic_load_sub_32_s, i32imm, hasAtomRedS32>;
1013 defm INT_PTX_ATOM_SUB_S_64 : F_ATOMIC_2_NEG<Int64Regs, ".shared", "64", ".add",
1014 atomic_load_sub_64_s, i64imm, hasAtomRedS64>;
1015 defm INT_PTX_ATOM_SUB_GEN_64 : F_ATOMIC_2_NEG<Int64Regs, "", "64", ".add",
1016 atomic_load_sub_64_gen, i64imm, hasAtomRedGen64>;
1017 defm INT_PTX_ATOM_SUB_GEN_64_USE_G : F_ATOMIC_2_NEG<Int64Regs, ".global", "64",
1018 ".add", atomic_load_sub_64_gen, i64imm, useAtomRedG64forGen64>;
1022 def atomic_swap_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1023 (atomic_swap_32 node:$a, node:$b)>;
1024 def atomic_swap_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1025 (atomic_swap_32 node:$a, node:$b)>;
1026 def atomic_swap_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1027 (atomic_swap_32 node:$a, node:$b)>;
1028 def atomic_swap_64_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1029 (atomic_swap_64 node:$a, node:$b)>;
1030 def atomic_swap_64_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1031 (atomic_swap_64 node:$a, node:$b)>;
1032 def atomic_swap_64_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1033 (atomic_swap_64 node:$a, node:$b)>;
1035 defm INT_PTX_ATOM_SWAP_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".b32", ".exch",
1036 atomic_swap_32_g, i32imm, imm, hasAtomRedG32>;
1037 defm INT_PTX_ATOM_SWAP_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".b32", ".exch",
1038 atomic_swap_32_s, i32imm, imm, hasAtomRedS32>;
1039 defm INT_PTX_ATOM_SWAP_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".b32", ".exch",
1040 atomic_swap_32_gen, i32imm, imm, hasAtomRedGen32>;
1041 defm INT_PTX_ATOM_SWAP_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".b32",
1042 ".exch", atomic_swap_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1043 defm INT_PTX_ATOM_SWAP_G_64 : F_ATOMIC_2<Int64Regs, ".global", ".b64", ".exch",
1044 atomic_swap_64_g, i64imm, imm, hasAtomRedG64>;
1045 defm INT_PTX_ATOM_SWAP_S_64 : F_ATOMIC_2<Int64Regs, ".shared", ".b64", ".exch",
1046 atomic_swap_64_s, i64imm, imm, hasAtomRedS64>;
1047 defm INT_PTX_ATOM_SWAP_GEN_64 : F_ATOMIC_2<Int64Regs, "", ".b64", ".exch",
1048 atomic_swap_64_gen, i64imm, imm, hasAtomRedGen64>;
1049 defm INT_PTX_ATOM_SWAP_GEN_64_USE_G : F_ATOMIC_2<Int64Regs, ".global", ".b64",
1050 ".exch", atomic_swap_64_gen, i64imm, imm, useAtomRedG64forGen64>;
1054 def atomic_load_max_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b)
1055 , (atomic_load_max_32 node:$a, node:$b)>;
1056 def atomic_load_max_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1057 (atomic_load_max_32 node:$a, node:$b)>;
1058 def atomic_load_max_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1059 (atomic_load_max_32 node:$a, node:$b)>;
1060 def atomic_load_umax_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1061 (atomic_load_umax_32 node:$a, node:$b)>;
1062 def atomic_load_umax_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1063 (atomic_load_umax_32 node:$a, node:$b)>;
1064 def atomic_load_umax_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1065 (atomic_load_umax_32 node:$a, node:$b)>;
1067 defm INT_PTX_ATOM_LOAD_MAX_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".s32",
1068 ".max", atomic_load_max_32_g, i32imm, imm, hasAtomRedG32>;
1069 defm INT_PTX_ATOM_LOAD_MAX_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".s32",
1070 ".max", atomic_load_max_32_s, i32imm, imm, hasAtomRedS32>;
1071 defm INT_PTX_ATOM_LOAD_MAX_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".s32", ".max",
1072 atomic_load_max_32_gen, i32imm, imm, hasAtomRedGen32>;
1073 defm INT_PTX_ATOM_LOAD_MAX_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global",
1074 ".s32", ".max", atomic_load_max_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1075 defm INT_PTX_ATOM_LOAD_UMAX_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".u32",
1076 ".max", atomic_load_umax_32_g, i32imm, imm, hasAtomRedG32>;
1077 defm INT_PTX_ATOM_LOAD_UMAX_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".u32",
1078 ".max", atomic_load_umax_32_s, i32imm, imm, hasAtomRedS32>;
1079 defm INT_PTX_ATOM_LOAD_UMAX_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".u32", ".max",
1080 atomic_load_umax_32_gen, i32imm, imm, hasAtomRedGen32>;
1081 defm INT_PTX_ATOM_LOAD_UMAX_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global",
1082 ".u32", ".max", atomic_load_umax_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1086 def atomic_load_min_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1087 (atomic_load_min_32 node:$a, node:$b)>;
1088 def atomic_load_min_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1089 (atomic_load_min_32 node:$a, node:$b)>;
1090 def atomic_load_min_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1091 (atomic_load_min_32 node:$a, node:$b)>;
1092 def atomic_load_umin_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1093 (atomic_load_umin_32 node:$a, node:$b)>;
1094 def atomic_load_umin_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1095 (atomic_load_umin_32 node:$a, node:$b)>;
1096 def atomic_load_umin_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1097 (atomic_load_umin_32 node:$a, node:$b)>;
1099 defm INT_PTX_ATOM_LOAD_MIN_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".s32",
1100 ".min", atomic_load_min_32_g, i32imm, imm, hasAtomRedG32>;
1101 defm INT_PTX_ATOM_LOAD_MIN_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".s32",
1102 ".min", atomic_load_min_32_s, i32imm, imm, hasAtomRedS32>;
1103 defm INT_PTX_ATOM_LOAD_MIN_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".s32", ".min",
1104 atomic_load_min_32_gen, i32imm, imm, hasAtomRedGen32>;
1105 defm INT_PTX_ATOM_LOAD_MIN_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global",
1106 ".s32", ".min", atomic_load_min_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1107 defm INT_PTX_ATOM_LOAD_UMIN_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".u32",
1108 ".min", atomic_load_umin_32_g, i32imm, imm, hasAtomRedG32>;
1109 defm INT_PTX_ATOM_LOAD_UMIN_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".u32",
1110 ".min", atomic_load_umin_32_s, i32imm, imm, hasAtomRedS32>;
1111 defm INT_PTX_ATOM_LOAD_UMIN_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".u32", ".min",
1112 atomic_load_umin_32_gen, i32imm, imm, hasAtomRedGen32>;
1113 defm INT_PTX_ATOM_LOAD_UMIN_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global",
1114 ".u32", ".min", atomic_load_umin_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1116 // atom_inc atom_dec
1118 def atomic_load_inc_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1119 (int_nvvm_atomic_load_inc_32 node:$a, node:$b)>;
1120 def atomic_load_inc_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1121 (int_nvvm_atomic_load_inc_32 node:$a, node:$b)>;
1122 def atomic_load_inc_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1123 (int_nvvm_atomic_load_inc_32 node:$a, node:$b)>;
1124 def atomic_load_dec_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1125 (int_nvvm_atomic_load_dec_32 node:$a, node:$b)>;
1126 def atomic_load_dec_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1127 (int_nvvm_atomic_load_dec_32 node:$a, node:$b)>;
1128 def atomic_load_dec_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1129 (int_nvvm_atomic_load_dec_32 node:$a, node:$b)>;
1131 defm INT_PTX_ATOM_INC_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".u32", ".inc",
1132 atomic_load_inc_32_g, i32imm, imm, hasAtomRedG32>;
1133 defm INT_PTX_ATOM_INC_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".u32", ".inc",
1134 atomic_load_inc_32_s, i32imm, imm, hasAtomRedS32>;
1135 defm INT_PTX_ATOM_INC_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".u32", ".inc",
1136 atomic_load_inc_32_gen, i32imm, imm, hasAtomRedGen32>;
1137 defm INT_PTX_ATOM_INC_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".u32",
1138 ".inc", atomic_load_inc_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1139 defm INT_PTX_ATOM_DEC_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".u32", ".dec",
1140 atomic_load_dec_32_g, i32imm, imm, hasAtomRedG32>;
1141 defm INT_PTX_ATOM_DEC_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".u32", ".dec",
1142 atomic_load_dec_32_s, i32imm, imm, hasAtomRedS32>;
1143 defm INT_PTX_ATOM_DEC_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".u32", ".dec",
1144 atomic_load_dec_32_gen, i32imm, imm, hasAtomRedGen32>;
1145 defm INT_PTX_ATOM_DEC_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".u32",
1146 ".dec", atomic_load_dec_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1150 def atomic_load_and_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1151 (atomic_load_and_32 node:$a, node:$b)>;
1152 def atomic_load_and_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1153 (atomic_load_and_32 node:$a, node:$b)>;
1154 def atomic_load_and_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1155 (atomic_load_and_32 node:$a, node:$b)>;
1157 defm INT_PTX_ATOM_AND_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".b32", ".and",
1158 atomic_load_and_32_g, i32imm, imm, hasAtomRedG32>;
1159 defm INT_PTX_ATOM_AND_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".b32", ".and",
1160 atomic_load_and_32_s, i32imm, imm, hasAtomRedS32>;
1161 defm INT_PTX_ATOM_AND_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".b32", ".and",
1162 atomic_load_and_32_gen, i32imm, imm, hasAtomRedGen32>;
1163 defm INT_PTX_ATOM_AND_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".b32",
1164 ".and", atomic_load_and_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1168 def atomic_load_or_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1169 (atomic_load_or_32 node:$a, node:$b)>;
1170 def atomic_load_or_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1171 (atomic_load_or_32 node:$a, node:$b)>;
1172 def atomic_load_or_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1173 (atomic_load_or_32 node:$a, node:$b)>;
1175 defm INT_PTX_ATOM_OR_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".b32", ".or",
1176 atomic_load_or_32_g, i32imm, imm, hasAtomRedG32>;
1177 defm INT_PTX_ATOM_OR_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".b32", ".or",
1178 atomic_load_or_32_gen, i32imm, imm, hasAtomRedGen32>;
1179 defm INT_PTX_ATOM_OR_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".b32",
1180 ".or", atomic_load_or_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1181 defm INT_PTX_ATOM_OR_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".b32", ".or",
1182 atomic_load_or_32_s, i32imm, imm, hasAtomRedS32>;
1186 def atomic_load_xor_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b),
1187 (atomic_load_xor_32 node:$a, node:$b)>;
1188 def atomic_load_xor_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b),
1189 (atomic_load_xor_32 node:$a, node:$b)>;
1190 def atomic_load_xor_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b),
1191 (atomic_load_xor_32 node:$a, node:$b)>;
1193 defm INT_PTX_ATOM_XOR_G_32 : F_ATOMIC_2<Int32Regs, ".global", ".b32", ".xor",
1194 atomic_load_xor_32_g, i32imm, imm, hasAtomRedG32>;
1195 defm INT_PTX_ATOM_XOR_S_32 : F_ATOMIC_2<Int32Regs, ".shared", ".b32", ".xor",
1196 atomic_load_xor_32_s, i32imm, imm, hasAtomRedS32>;
1197 defm INT_PTX_ATOM_XOR_GEN_32 : F_ATOMIC_2<Int32Regs, "", ".b32", ".xor",
1198 atomic_load_xor_32_gen, i32imm, imm, hasAtomRedGen32>;
1199 defm INT_PTX_ATOM_XOR_GEN_32_USE_G : F_ATOMIC_2<Int32Regs, ".global", ".b32",
1200 ".xor", atomic_load_xor_32_gen, i32imm, imm, useAtomRedG32forGen32>;
1204 def atomic_cmp_swap_32_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b, node:$c),
1205 (atomic_cmp_swap_32 node:$a, node:$b, node:$c)>;
1206 def atomic_cmp_swap_32_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b, node:$c),
1207 (atomic_cmp_swap_32 node:$a, node:$b, node:$c)>;
1208 def atomic_cmp_swap_32_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b, node:$c),
1209 (atomic_cmp_swap_32 node:$a, node:$b, node:$c)>;
1210 def atomic_cmp_swap_64_g: ATOMIC_GLOBAL_CHK<(ops node:$a, node:$b, node:$c),
1211 (atomic_cmp_swap_64 node:$a, node:$b, node:$c)>;
1212 def atomic_cmp_swap_64_s: ATOMIC_SHARED_CHK<(ops node:$a, node:$b, node:$c),
1213 (atomic_cmp_swap_64 node:$a, node:$b, node:$c)>;
1214 def atomic_cmp_swap_64_gen: ATOMIC_GENERIC_CHK<(ops node:$a, node:$b, node:$c),
1215 (atomic_cmp_swap_64 node:$a, node:$b, node:$c)>;
1217 defm INT_PTX_ATOM_CAS_G_32 : F_ATOMIC_3<Int32Regs, ".global", ".b32", ".cas",
1218 atomic_cmp_swap_32_g, i32imm, hasAtomRedG32>;
1219 defm INT_PTX_ATOM_CAS_S_32 : F_ATOMIC_3<Int32Regs, ".shared", ".b32", ".cas",
1220 atomic_cmp_swap_32_s, i32imm, hasAtomRedS32>;
1221 defm INT_PTX_ATOM_CAS_GEN_32 : F_ATOMIC_3<Int32Regs, "", ".b32", ".cas",
1222 atomic_cmp_swap_32_gen, i32imm, hasAtomRedGen32>;
1223 defm INT_PTX_ATOM_CAS_GEN_32_USE_G : F_ATOMIC_3<Int32Regs, ".global", ".b32",
1224 ".cas", atomic_cmp_swap_32_gen, i32imm, useAtomRedG32forGen32>;
1225 defm INT_PTX_ATOM_CAS_G_64 : F_ATOMIC_3<Int64Regs, ".global", ".b64", ".cas",
1226 atomic_cmp_swap_64_g, i64imm, hasAtomRedG64>;
1227 defm INT_PTX_ATOM_CAS_S_64 : F_ATOMIC_3<Int64Regs, ".shared", ".b64", ".cas",
1228 atomic_cmp_swap_64_s, i64imm, hasAtomRedS64>;
1229 defm INT_PTX_ATOM_CAS_GEN_64 : F_ATOMIC_3<Int64Regs, "", ".b64", ".cas",
1230 atomic_cmp_swap_64_gen, i64imm, hasAtomRedGen64>;
1231 defm INT_PTX_ATOM_CAS_GEN_64_USE_G : F_ATOMIC_3<Int64Regs, ".global", ".b64",
1232 ".cas", atomic_cmp_swap_64_gen, i64imm, useAtomRedG64forGen64>;
1235 //-----------------------------------
1236 // Read Special Registers
1237 //-----------------------------------
1238 class F_SREG<string OpStr, NVPTXRegClass regclassOut, Intrinsic IntOp> :
1239 NVPTXInst<(outs regclassOut:$dst), (ins),
1241 [(set regclassOut:$dst, (IntOp))]>;
1243 def INT_PTX_SREG_TID_X : F_SREG<"mov.u32 \t$dst, %tid.x;", Int32Regs,
1244 int_nvvm_read_ptx_sreg_tid_x>;
1245 def INT_PTX_SREG_TID_Y : F_SREG<"mov.u32 \t$dst, %tid.y;", Int32Regs,
1246 int_nvvm_read_ptx_sreg_tid_y>;
1247 def INT_PTX_SREG_TID_Z : F_SREG<"mov.u32 \t$dst, %tid.z;", Int32Regs,
1248 int_nvvm_read_ptx_sreg_tid_z>;
1250 def INT_PTX_SREG_NTID_X : F_SREG<"mov.u32 \t$dst, %ntid.x;", Int32Regs,
1251 int_nvvm_read_ptx_sreg_ntid_x>;
1252 def INT_PTX_SREG_NTID_Y : F_SREG<"mov.u32 \t$dst, %ntid.y;", Int32Regs,
1253 int_nvvm_read_ptx_sreg_ntid_y>;
1254 def INT_PTX_SREG_NTID_Z : F_SREG<"mov.u32 \t$dst, %ntid.z;", Int32Regs,
1255 int_nvvm_read_ptx_sreg_ntid_z>;
1257 def INT_PTX_SREG_CTAID_X : F_SREG<"mov.u32 \t$dst, %ctaid.x;", Int32Regs,
1258 int_nvvm_read_ptx_sreg_ctaid_x>;
1259 def INT_PTX_SREG_CTAID_Y : F_SREG<"mov.u32 \t$dst, %ctaid.y;", Int32Regs,
1260 int_nvvm_read_ptx_sreg_ctaid_y>;
1261 def INT_PTX_SREG_CTAID_Z : F_SREG<"mov.u32 \t$dst, %ctaid.z;", Int32Regs,
1262 int_nvvm_read_ptx_sreg_ctaid_z>;
1264 def INT_PTX_SREG_NCTAID_X : F_SREG<"mov.u32 \t$dst, %nctaid.x;", Int32Regs,
1265 int_nvvm_read_ptx_sreg_nctaid_x>;
1266 def INT_PTX_SREG_NCTAID_Y : F_SREG<"mov.u32 \t$dst, %nctaid.y;", Int32Regs,
1267 int_nvvm_read_ptx_sreg_nctaid_y>;
1268 def INT_PTX_SREG_NCTAID_Z : F_SREG<"mov.u32 \t$dst, %nctaid.z;", Int32Regs,
1269 int_nvvm_read_ptx_sreg_nctaid_z>;
1271 def INT_PTX_SREG_WARPSIZE : F_SREG<"mov.u32 \t$dst, WARP_SZ;", Int32Regs,
1272 int_nvvm_read_ptx_sreg_warpsize>;
1275 //-----------------------------------
1276 // Support for ldu on sm_20 or later
1277 //-----------------------------------
1279 def ldu_i8 : PatFrag<(ops node:$ptr), (int_nvvm_ldu_global_i node:$ptr), [{
1280 MemIntrinsicSDNode *M = cast<MemIntrinsicSDNode>(N);
1281 return M->getMemoryVT() == MVT::i8;
1285 // @TODO: Revisit this, Changed imemAny to imem
1286 multiclass LDU_G<string TyStr, NVPTXRegClass regclass, Intrinsic IntOp> {
1287 def areg: NVPTXInst<(outs regclass:$result), (ins Int32Regs:$src),
1288 !strconcat("ldu.global.", TyStr),
1289 [(set regclass:$result, (IntOp Int32Regs:$src))]>, Requires<[hasLDU]>;
1290 def areg64: NVPTXInst<(outs regclass:$result), (ins Int64Regs:$src),
1291 !strconcat("ldu.global.", TyStr),
1292 [(set regclass:$result, (IntOp Int64Regs:$src))]>, Requires<[hasLDU]>;
1293 def avar: NVPTXInst<(outs regclass:$result), (ins imem:$src),
1294 !strconcat("ldu.global.", TyStr),
1295 [(set regclass:$result, (IntOp (Wrapper tglobaladdr:$src)))]>,
1297 def ari : NVPTXInst<(outs regclass:$result), (ins MEMri:$src),
1298 !strconcat("ldu.global.", TyStr),
1299 [(set regclass:$result, (IntOp ADDRri:$src))]>, Requires<[hasLDU]>;
1300 def ari64 : NVPTXInst<(outs regclass:$result), (ins MEMri64:$src),
1301 !strconcat("ldu.global.", TyStr),
1302 [(set regclass:$result, (IntOp ADDRri64:$src))]>, Requires<[hasLDU]>;
1305 multiclass LDU_G_NOINTRIN<string TyStr, NVPTXRegClass regclass, PatFrag IntOp> {
1306 def areg: NVPTXInst<(outs regclass:$result), (ins Int32Regs:$src),
1307 !strconcat("ldu.global.", TyStr),
1308 [(set regclass:$result, (IntOp Int32Regs:$src))]>, Requires<[hasLDU]>;
1309 def areg64: NVPTXInst<(outs regclass:$result), (ins Int64Regs:$src),
1310 !strconcat("ldu.global.", TyStr),
1311 [(set regclass:$result, (IntOp Int64Regs:$src))]>, Requires<[hasLDU]>;
1312 def avar: NVPTXInst<(outs regclass:$result), (ins imem:$src),
1313 !strconcat("ldu.global.", TyStr),
1314 [(set regclass:$result, (IntOp (Wrapper tglobaladdr:$src)))]>,
1316 def ari : NVPTXInst<(outs regclass:$result), (ins MEMri:$src),
1317 !strconcat("ldu.global.", TyStr),
1318 [(set regclass:$result, (IntOp ADDRri:$src))]>, Requires<[hasLDU]>;
1319 def ari64 : NVPTXInst<(outs regclass:$result), (ins MEMri64:$src),
1320 !strconcat("ldu.global.", TyStr),
1321 [(set regclass:$result, (IntOp ADDRri64:$src))]>, Requires<[hasLDU]>;
1324 defm INT_PTX_LDU_GLOBAL_i8 : LDU_G_NOINTRIN<"u8 \t$result, [$src];", Int16Regs,
1326 defm INT_PTX_LDU_GLOBAL_i16 : LDU_G<"u16 \t$result, [$src];", Int16Regs,
1327 int_nvvm_ldu_global_i>;
1328 defm INT_PTX_LDU_GLOBAL_i32 : LDU_G<"u32 \t$result, [$src];", Int32Regs,
1329 int_nvvm_ldu_global_i>;
1330 defm INT_PTX_LDU_GLOBAL_i64 : LDU_G<"u64 \t$result, [$src];", Int64Regs,
1331 int_nvvm_ldu_global_i>;
1332 defm INT_PTX_LDU_GLOBAL_f32 : LDU_G<"f32 \t$result, [$src];", Float32Regs,
1333 int_nvvm_ldu_global_f>;
1334 defm INT_PTX_LDU_GLOBAL_f64 : LDU_G<"f64 \t$result, [$src];", Float64Regs,
1335 int_nvvm_ldu_global_f>;
1336 defm INT_PTX_LDU_GLOBAL_p32 : LDU_G<"u32 \t$result, [$src];", Int32Regs,
1337 int_nvvm_ldu_global_p>;
1338 defm INT_PTX_LDU_GLOBAL_p64 : LDU_G<"u64 \t$result, [$src];", Int64Regs,
1339 int_nvvm_ldu_global_p>;
1343 // Elementized vector ldu
1344 multiclass VLDU_G_ELE_V2<string TyStr, NVPTXRegClass regclass> {
1345 def _areg32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1346 (ins Int32Regs:$src),
1347 !strconcat("ldu.global.", TyStr), []>;
1348 def _areg64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1349 (ins Int64Regs:$src),
1350 !strconcat("ldu.global.", TyStr), []>;
1351 def _ari32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1353 !strconcat("ldu.global.", TyStr), []>;
1354 def _ari64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1356 !strconcat("ldu.global.", TyStr), []>;
1357 def _avar: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1359 !strconcat("ldu.global.", TyStr), []>;
1362 multiclass VLDU_G_ELE_V4<string TyStr, NVPTXRegClass regclass> {
1363 def _areg32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1364 regclass:$dst4), (ins Int32Regs:$src),
1365 !strconcat("ldu.global.", TyStr), []>;
1366 def _areg64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1367 regclass:$dst4), (ins Int64Regs:$src),
1368 !strconcat("ldu.global.", TyStr), []>;
1369 def _ari32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1370 regclass:$dst4), (ins MEMri:$src),
1371 !strconcat("ldu.global.", TyStr), []>;
1372 def _ari64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1373 regclass:$dst4), (ins MEMri64:$src),
1374 !strconcat("ldu.global.", TyStr), []>;
1375 def _avar: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1376 regclass:$dst4), (ins imemAny:$src),
1377 !strconcat("ldu.global.", TyStr), []>;
1380 defm INT_PTX_LDU_G_v2i8_ELE
1381 : VLDU_G_ELE_V2<"v2.u8 \t{{$dst1, $dst2}}, [$src];", Int16Regs>;
1382 defm INT_PTX_LDU_G_v2i16_ELE
1383 : VLDU_G_ELE_V2<"v2.u16 \t{{$dst1, $dst2}}, [$src];", Int16Regs>;
1384 defm INT_PTX_LDU_G_v2i32_ELE
1385 : VLDU_G_ELE_V2<"v2.u32 \t{{$dst1, $dst2}}, [$src];", Int32Regs>;
1386 defm INT_PTX_LDU_G_v2f32_ELE
1387 : VLDU_G_ELE_V2<"v2.f32 \t{{$dst1, $dst2}}, [$src];", Float32Regs>;
1388 defm INT_PTX_LDU_G_v2i64_ELE
1389 : VLDU_G_ELE_V2<"v2.u64 \t{{$dst1, $dst2}}, [$src];", Int64Regs>;
1390 defm INT_PTX_LDU_G_v2f64_ELE
1391 : VLDU_G_ELE_V2<"v2.f64 \t{{$dst1, $dst2}}, [$src];", Float64Regs>;
1392 defm INT_PTX_LDU_G_v4i8_ELE
1393 : VLDU_G_ELE_V4<"v4.u8 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];", Int16Regs>;
1394 defm INT_PTX_LDU_G_v4i16_ELE
1395 : VLDU_G_ELE_V4<"v4.u16 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];",
1397 defm INT_PTX_LDU_G_v4i32_ELE
1398 : VLDU_G_ELE_V4<"v4.u32 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];",
1400 defm INT_PTX_LDU_G_v4f32_ELE
1401 : VLDU_G_ELE_V4<"v4.f32 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];",
1405 //-----------------------------------
1406 // Support for ldg on sm_35 or later
1407 //-----------------------------------
1409 def ldg_i8 : PatFrag<(ops node:$ptr), (int_nvvm_ldg_global_i node:$ptr), [{
1410 MemIntrinsicSDNode *M = cast<MemIntrinsicSDNode>(N);
1411 return M->getMemoryVT() == MVT::i8;
1414 multiclass LDG_G<string TyStr, NVPTXRegClass regclass, Intrinsic IntOp> {
1415 def areg: NVPTXInst<(outs regclass:$result), (ins Int32Regs:$src),
1416 !strconcat("ld.global.nc.", TyStr),
1417 [(set regclass:$result, (IntOp Int32Regs:$src))]>, Requires<[hasLDG]>;
1418 def areg64: NVPTXInst<(outs regclass:$result), (ins Int64Regs:$src),
1419 !strconcat("ld.global.nc.", TyStr),
1420 [(set regclass:$result, (IntOp Int64Regs:$src))]>, Requires<[hasLDG]>;
1421 def avar: NVPTXInst<(outs regclass:$result), (ins imem:$src),
1422 !strconcat("ld.global.nc.", TyStr),
1423 [(set regclass:$result, (IntOp (Wrapper tglobaladdr:$src)))]>,
1425 def ari : NVPTXInst<(outs regclass:$result), (ins MEMri:$src),
1426 !strconcat("ld.global.nc.", TyStr),
1427 [(set regclass:$result, (IntOp ADDRri:$src))]>, Requires<[hasLDG]>;
1428 def ari64 : NVPTXInst<(outs regclass:$result), (ins MEMri64:$src),
1429 !strconcat("ld.global.nc.", TyStr),
1430 [(set regclass:$result, (IntOp ADDRri64:$src))]>, Requires<[hasLDG]>;
1433 multiclass LDG_G_NOINTRIN<string TyStr, NVPTXRegClass regclass, PatFrag IntOp> {
1434 def areg: NVPTXInst<(outs regclass:$result), (ins Int32Regs:$src),
1435 !strconcat("ld.global.nc.", TyStr),
1436 [(set regclass:$result, (IntOp Int32Regs:$src))]>, Requires<[hasLDG]>;
1437 def areg64: NVPTXInst<(outs regclass:$result), (ins Int64Regs:$src),
1438 !strconcat("ld.global.nc.", TyStr),
1439 [(set regclass:$result, (IntOp Int64Regs:$src))]>, Requires<[hasLDG]>;
1440 def avar: NVPTXInst<(outs regclass:$result), (ins imem:$src),
1441 !strconcat("ld.global.nc.", TyStr),
1442 [(set regclass:$result, (IntOp (Wrapper tglobaladdr:$src)))]>,
1444 def ari : NVPTXInst<(outs regclass:$result), (ins MEMri:$src),
1445 !strconcat("ld.global.nc.", TyStr),
1446 [(set regclass:$result, (IntOp ADDRri:$src))]>, Requires<[hasLDG]>;
1447 def ari64 : NVPTXInst<(outs regclass:$result), (ins MEMri64:$src),
1448 !strconcat("ld.global.nc.", TyStr),
1449 [(set regclass:$result, (IntOp ADDRri64:$src))]>, Requires<[hasLDG]>;
1452 defm INT_PTX_LDG_GLOBAL_i8
1453 : LDG_G_NOINTRIN<"u8 \t$result, [$src];", Int16Regs, ldg_i8>;
1454 defm INT_PTX_LDG_GLOBAL_i16
1455 : LDG_G<"u16 \t$result, [$src];", Int16Regs, int_nvvm_ldg_global_i>;
1456 defm INT_PTX_LDG_GLOBAL_i32
1457 : LDG_G<"u32 \t$result, [$src];", Int32Regs, int_nvvm_ldg_global_i>;
1458 defm INT_PTX_LDG_GLOBAL_i64
1459 : LDG_G<"u64 \t$result, [$src];", Int64Regs, int_nvvm_ldg_global_i>;
1460 defm INT_PTX_LDG_GLOBAL_f32
1461 : LDG_G<"f32 \t$result, [$src];", Float32Regs, int_nvvm_ldg_global_f>;
1462 defm INT_PTX_LDG_GLOBAL_f64
1463 : LDG_G<"f64 \t$result, [$src];", Float64Regs, int_nvvm_ldg_global_f>;
1464 defm INT_PTX_LDG_GLOBAL_p32
1465 : LDG_G<"u32 \t$result, [$src];", Int32Regs, int_nvvm_ldg_global_p>;
1466 defm INT_PTX_LDG_GLOBAL_p64
1467 : LDG_G<"u64 \t$result, [$src];", Int64Regs, int_nvvm_ldg_global_p>;
1471 // Elementized vector ldg
1472 multiclass VLDG_G_ELE_V2<string TyStr, NVPTXRegClass regclass> {
1473 def _areg32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1474 (ins Int32Regs:$src),
1475 !strconcat("ld.global.nc.", TyStr), []>;
1476 def _areg64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1477 (ins Int64Regs:$src),
1478 !strconcat("ld.global.nc.", TyStr), []>;
1479 def _ari32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1481 !strconcat("ld.global.nc.", TyStr), []>;
1482 def _ari64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1484 !strconcat("ld.global.nc.", TyStr), []>;
1485 def _avar: NVPTXInst<(outs regclass:$dst1, regclass:$dst2),
1487 !strconcat("ld.global.nc.", TyStr), []>;
1490 multiclass VLDG_G_ELE_V4<string TyStr, NVPTXRegClass regclass> {
1491 def _areg32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1492 regclass:$dst4), (ins Int32Regs:$src),
1493 !strconcat("ld.global.nc.", TyStr), []>;
1494 def _areg64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1495 regclass:$dst4), (ins Int64Regs:$src),
1496 !strconcat("ld.global.nc.", TyStr), []>;
1497 def _ari32: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1498 regclass:$dst4), (ins MEMri:$src),
1499 !strconcat("ld.global.nc.", TyStr), []>;
1500 def _ari64: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1501 regclass:$dst4), (ins MEMri64:$src),
1502 !strconcat("ld.global.nc.", TyStr), []>;
1503 def _avar: NVPTXInst<(outs regclass:$dst1, regclass:$dst2, regclass:$dst3,
1504 regclass:$dst4), (ins imemAny:$src),
1505 !strconcat("ld.global.nc.", TyStr), []>;
1508 // FIXME: 8-bit LDG should be fixed once LDG/LDU nodes are made into proper loads.
1509 defm INT_PTX_LDG_G_v2i8_ELE
1510 : VLDG_G_ELE_V2<"v2.u8 \t{{$dst1, $dst2}}, [$src];", Int16Regs>;
1511 defm INT_PTX_LDG_G_v2i16_ELE
1512 : VLDG_G_ELE_V2<"v2.u16 \t{{$dst1, $dst2}}, [$src];", Int16Regs>;
1513 defm INT_PTX_LDG_G_v2i32_ELE
1514 : VLDG_G_ELE_V2<"v2.u32 \t{{$dst1, $dst2}}, [$src];", Int32Regs>;
1515 defm INT_PTX_LDG_G_v2f32_ELE
1516 : VLDG_G_ELE_V2<"v2.f32 \t{{$dst1, $dst2}}, [$src];", Float32Regs>;
1517 defm INT_PTX_LDG_G_v2i64_ELE
1518 : VLDG_G_ELE_V2<"v2.u64 \t{{$dst1, $dst2}}, [$src];", Int64Regs>;
1519 defm INT_PTX_LDG_G_v2f64_ELE
1520 : VLDG_G_ELE_V2<"v2.f64 \t{{$dst1, $dst2}}, [$src];", Float64Regs>;
1521 defm INT_PTX_LDG_G_v4i8_ELE
1522 : VLDG_G_ELE_V4<"v4.u8 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];", Int16Regs>;
1523 defm INT_PTX_LDG_G_v4i16_ELE
1524 : VLDG_G_ELE_V4<"v4.u16 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];", Int16Regs>;
1525 defm INT_PTX_LDG_G_v4i32_ELE
1526 : VLDG_G_ELE_V4<"v4.u32 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];", Int32Regs>;
1527 defm INT_PTX_LDG_G_v4f32_ELE
1528 : VLDG_G_ELE_V4<"v4.f32 \t{{$dst1, $dst2, $dst3, $dst4}}, [$src];", Float32Regs>;
1531 multiclass NG_TO_G<string Str, Intrinsic Intrin> {
1532 def _yes : NVPTXInst<(outs Int32Regs:$result), (ins Int32Regs:$src),
1533 !strconcat("cvta.", !strconcat(Str, ".u32 \t$result, $src;")),
1534 [(set Int32Regs:$result, (Intrin Int32Regs:$src))]>,
1535 Requires<[hasGenericLdSt]>;
1536 def _yes_64 : NVPTXInst<(outs Int64Regs:$result), (ins Int64Regs:$src),
1537 !strconcat("cvta.", !strconcat(Str, ".u64 \t$result, $src;")),
1538 [(set Int64Regs:$result, (Intrin Int64Regs:$src))]>,
1539 Requires<[hasGenericLdSt]>;
1541 // @TODO: Are these actually needed? I believe global addresses will be copied
1542 // to register values anyway.
1543 /*def __addr_yes : NVPTXInst<(outs Int32Regs:$result), (ins imemAny:$src),
1544 !strconcat("cvta.", !strconcat(Str, ".u32 \t$result, $src;")),
1545 [(set Int32Regs:$result, (Intrin (Wrapper tglobaladdr:$src)))]>,
1546 Requires<[hasGenericLdSt]>;
1547 def __addr_yes_64 : NVPTXInst<(outs Int64Regs:$result), (ins imemAny:$src),
1548 !strconcat("cvta.", !strconcat(Str, ".u64 \t$result, $src;")),
1549 [(set Int64Regs:$result, (Intrin (Wrapper tglobaladdr:$src)))]>,
1550 Requires<[hasGenericLdSt]>;*/
1552 def _no : NVPTXInst<(outs Int32Regs:$result), (ins Int32Regs:$src),
1553 "mov.u32 \t$result, $src;",
1554 [(set Int32Regs:$result, (Intrin Int32Regs:$src))]>;
1555 def _no_64 : NVPTXInst<(outs Int64Regs:$result), (ins Int64Regs:$src),
1556 "mov.u64 \t$result, $src;",
1557 [(set Int64Regs:$result, (Intrin Int64Regs:$src))]>;
1559 // @TODO: Are these actually needed? I believe global addresses will be copied
1560 // to register values anyway.
1561 /*def _addr_no : NVPTXInst<(outs Int32Regs:$result), (ins imem:$src),
1562 "mov.u32 \t$result, $src;",
1563 [(set Int32Regs:$result, (Intrin (Wrapper tglobaladdr:$src)))]>;
1564 def _addr_no_64 : NVPTXInst<(outs Int64Regs:$result), (ins imem:$src),
1565 "mov.u64 \t$result, $src;",
1566 [(set Int64Regs:$result, (Intrin (Wrapper tglobaladdr:$src)))]>;*/
1569 multiclass G_TO_NG<string Str, Intrinsic Intrin> {
1570 def _yes : NVPTXInst<(outs Int32Regs:$result), (ins Int32Regs:$src),
1571 !strconcat("cvta.to.", !strconcat(Str, ".u32 \t$result, $src;")),
1572 [(set Int32Regs:$result, (Intrin Int32Regs:$src))]>,
1573 Requires<[hasGenericLdSt]>;
1574 def _yes_64 : NVPTXInst<(outs Int64Regs:$result), (ins Int64Regs:$src),
1575 !strconcat("cvta.to.", !strconcat(Str, ".u64 \t$result, $src;")),
1576 [(set Int64Regs:$result, (Intrin Int64Regs:$src))]>,
1577 Requires<[hasGenericLdSt]>;
1578 def _no : NVPTXInst<(outs Int32Regs:$result), (ins Int32Regs:$src),
1579 "mov.u32 \t$result, $src;",
1580 [(set Int32Regs:$result, (Intrin Int32Regs:$src))]>;
1581 def _no_64 : NVPTXInst<(outs Int64Regs:$result), (ins Int64Regs:$src),
1582 "mov.u64 \t$result, $src;",
1583 [(set Int64Regs:$result, (Intrin Int64Regs:$src))]>;
1586 defm cvta_local : NG_TO_G<"local", int_nvvm_ptr_local_to_gen>;
1587 defm cvta_shared : NG_TO_G<"shared", int_nvvm_ptr_shared_to_gen>;
1588 defm cvta_global : NG_TO_G<"global", int_nvvm_ptr_global_to_gen>;
1589 defm cvta_const : NG_TO_G<"const", int_nvvm_ptr_constant_to_gen>;
1591 defm cvta_to_local : G_TO_NG<"local", int_nvvm_ptr_gen_to_local>;
1592 defm cvta_to_shared : G_TO_NG<"shared", int_nvvm_ptr_gen_to_shared>;
1593 defm cvta_to_global : G_TO_NG<"global", int_nvvm_ptr_gen_to_global>;
1594 defm cvta_to_const : G_TO_NG<"const", int_nvvm_ptr_gen_to_constant>;
1597 // nvvm.ptr.gen.to.param
1598 def nvvm_ptr_gen_to_param : NVPTXInst<(outs Int32Regs:$result),
1599 (ins Int32Regs:$src),
1600 "mov.u32 \t$result, $src;",
1601 [(set Int32Regs:$result,
1602 (int_nvvm_ptr_gen_to_param Int32Regs:$src))]>;
1603 def nvvm_ptr_gen_to_param_64 : NVPTXInst<(outs Int64Regs:$result),
1604 (ins Int64Regs:$src),
1605 "mov.u64 \t$result, $src;",
1606 [(set Int64Regs:$result,
1607 (int_nvvm_ptr_gen_to_param Int64Regs:$src))]>;
1610 // nvvm.move intrinsicc
1611 def nvvm_move_i16 : NVPTXInst<(outs Int16Regs:$r), (ins Int16Regs:$s),
1612 "mov.b16 \t$r, $s;",
1614 (int_nvvm_move_i16 Int16Regs:$s))]>;
1615 def nvvm_move_i32 : NVPTXInst<(outs Int32Regs:$r), (ins Int32Regs:$s),
1616 "mov.b32 \t$r, $s;",
1618 (int_nvvm_move_i32 Int32Regs:$s))]>;
1619 def nvvm_move_i64 : NVPTXInst<(outs Int64Regs:$r), (ins Int64Regs:$s),
1620 "mov.b64 \t$r, $s;",
1622 (int_nvvm_move_i64 Int64Regs:$s))]>;
1623 def nvvm_move_float : NVPTXInst<(outs Float32Regs:$r), (ins Float32Regs:$s),
1624 "mov.f32 \t$r, $s;",
1625 [(set Float32Regs:$r,
1626 (int_nvvm_move_float Float32Regs:$s))]>;
1627 def nvvm_move_double : NVPTXInst<(outs Float64Regs:$r), (ins Float64Regs:$s),
1628 "mov.f64 \t$r, $s;",
1629 [(set Float64Regs:$r,
1630 (int_nvvm_move_double Float64Regs:$s))]>;
1631 def nvvm_move_ptr32 : NVPTXInst<(outs Int32Regs:$r), (ins Int32Regs:$s),
1632 "mov.u32 \t$r, $s;",
1634 (int_nvvm_move_ptr Int32Regs:$s))]>;
1635 def nvvm_move_ptr64 : NVPTXInst<(outs Int64Regs:$r), (ins Int64Regs:$s),
1636 "mov.u64 \t$r, $s;",
1638 (int_nvvm_move_ptr Int64Regs:$s))]>;
1640 // @TODO: Are these actually needed, or will we always just see symbols
1641 // copied to registers first?
1642 /*def nvvm_move_sym32 : NVPTXInst<(outs Int32Regs:$r), (ins imem:$s),
1643 "mov.u32 \t$r, $s;",
1645 (int_nvvm_move_ptr texternalsym:$s))]>;
1646 def nvvm_move_sym64 : NVPTXInst<(outs Int64Regs:$r), (ins imem:$s),
1647 "mov.u64 \t$r, $s;",
1649 (int_nvvm_move_ptr texternalsym:$s))]>;*/
1652 // MoveParam %r1, param
1653 // ptr_local_to_gen %r2, %r1
1654 // ptr_gen_to_local %r3, %r2
1658 // @TODO: Revisit this. There is a type
1659 // contradiction between iPTRAny and iPTR for the addr defs, so the move_sym
1660 // instructions are not currently defined. However, we can use the ptr
1661 // variants and the asm printer will do the right thing.
1662 def : Pat<(i64 (int_nvvm_ptr_gen_to_local (int_nvvm_ptr_local_to_gen
1663 (MoveParam texternalsym:$src)))),
1664 (nvvm_move_ptr64 texternalsym:$src)>;
1665 def : Pat<(i32 (int_nvvm_ptr_gen_to_local (int_nvvm_ptr_local_to_gen
1666 (MoveParam texternalsym:$src)))),
1667 (nvvm_move_ptr32 texternalsym:$src)>;
1670 : NVPTXInst<(outs Int64Regs:$result), (ins imem:$src),
1671 "mov.u64 \t$result, $src;", []>;
1673 //-----------------------------------
1674 // Compiler Error Warn
1675 // - Just ignore them in codegen
1676 //-----------------------------------
1678 def INT_NVVM_COMPILER_WARN_32 : NVPTXInst<(outs), (ins Int32Regs:$a),
1679 "// llvm.nvvm.compiler.warn()",
1680 [(int_nvvm_compiler_warn Int32Regs:$a)]>;
1681 def INT_NVVM_COMPILER_WARN_64 : NVPTXInst<(outs), (ins Int64Regs:$a),
1682 "// llvm.nvvm.compiler.warn()",
1683 [(int_nvvm_compiler_warn Int64Regs:$a)]>;
1684 def INT_NVVM_COMPILER_ERROR_32 : NVPTXInst<(outs), (ins Int32Regs:$a),
1685 "// llvm.nvvm.compiler.error()",
1686 [(int_nvvm_compiler_error Int32Regs:$a)]>;
1687 def INT_NVVM_COMPILER_ERROR_64 : NVPTXInst<(outs), (ins Int64Regs:$a),
1688 "// llvm.nvvm.compiler.error()",
1689 [(int_nvvm_compiler_error Int64Regs:$a)]>;
1692 //-----------------------------------
1693 // Texture Intrinsics
1694 //-----------------------------------
1696 // NOTE: For Fermi support, any new texture/surface/sampler intrinsics must be
1697 // also defined in NVPTXReplaceImageHandles.cpp
1700 // Texture fetch instructions using handles
1702 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1703 Float32Regs:$b, Float32Regs:$a),
1704 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$x),
1705 "tex.1d.v4.f32.s32\t\\{$r, $g, $b, $a\\}, [$t, $s, \\{$x\\}];",
1708 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1709 Float32Regs:$b, Float32Regs:$a),
1710 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x),
1711 "tex.1d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, [$t, $s, \\{$x\\}];",
1713 def TEX_1D_F32_F32_LEVEL
1714 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1715 Float32Regs:$b, Float32Regs:$a),
1716 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$lod),
1717 "tex.level.1d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1718 "[$t, $s, \\{$x\\}], $lod;",
1720 def TEX_1D_F32_F32_GRAD
1721 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1722 Float32Regs:$b, Float32Regs:$a),
1723 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x,
1724 Float32Regs:$gradx, Float32Regs:$grady),
1725 "tex.grad.1d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1726 "[$t, $s, \\{$x\\}], \\{$gradx\\}, \\{$grady\\};",
1729 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1730 Int32Regs:$b, Int32Regs:$a),
1731 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$x),
1732 "tex.1d.v4.s32.s32\t\\{$r, $g, $b, $a\\}, [$t, $s, \\{$x\\}];",
1735 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1736 Int32Regs:$b, Int32Regs:$a),
1737 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x),
1738 "tex.1d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, [$t, $s, \\{$x\\}];",
1740 def TEX_1D_I32_F32_LEVEL
1741 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1742 Int32Regs:$b, Int32Regs:$a),
1743 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x,
1745 "tex.level.1d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1746 "[$t, $s, \\{$x\\}], $lod;",
1748 def TEX_1D_I32_F32_GRAD
1749 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1750 Int32Regs:$b, Int32Regs:$a),
1751 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x,
1752 Float32Regs:$gradx, Float32Regs:$grady),
1753 "tex.grad.1d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1754 "[$t, $s, \\{$x\\}], \\{$gradx\\}, \\{$grady\\};",
1757 def TEX_1D_ARRAY_F32_I32
1758 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1759 Float32Regs:$b, Float32Regs:$a),
1760 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
1761 "tex.a1d.v4.f32.s32\t\\{$r, $g, $b, $a\\}, "
1762 "[$t, $s, \\{$l, $x\\}];",
1764 def TEX_1D_ARRAY_F32_F32
1765 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1766 Float32Regs:$b, Float32Regs:$a),
1767 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x),
1768 "tex.a1d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1769 "[$t, $s, \\{$l, $x\\}];",
1771 def TEX_1D_ARRAY_F32_F32_LEVEL
1772 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1773 Float32Regs:$b, Float32Regs:$a),
1774 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1776 "tex.level.a1d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1777 "[$t, $s, \\{$l, $x\\}], $lod;",
1779 def TEX_1D_ARRAY_F32_F32_GRAD
1780 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1781 Float32Regs:$b, Float32Regs:$a),
1782 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1783 Float32Regs:$gradx, Float32Regs:$grady),
1784 "tex.grad.a1d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1785 "[$t, $s, \\{$l, $x\\}], \\{$gradx\\}, \\{$grady\\};",
1787 def TEX_1D_ARRAY_I32_I32
1788 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1789 Int32Regs:$b, Int32Regs:$a),
1790 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
1791 "tex.a1d.v4.s32.s32\t\\{$r, $g, $b, $a\\}, "
1792 "[$t, $s, \\{$l, $x\\}];",
1794 def TEX_1D_ARRAY_I32_F32
1795 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1796 Int32Regs:$b, Int32Regs:$a),
1797 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x),
1798 "tex.a1d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1799 "[$t, $s, \\{$l, $x\\}];",
1801 def TEX_1D_ARRAY_I32_F32_LEVEL
1802 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1803 Int32Regs:$b, Int32Regs:$a),
1804 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1806 "tex.level.a1d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1807 "[$t, $s, \\{$l, $x\\}], $lod;",
1809 def TEX_1D_ARRAY_I32_F32_GRAD
1810 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1811 Int32Regs:$b, Int32Regs:$a),
1812 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1813 Float32Regs:$gradx, Float32Regs:$grady),
1814 "tex.grad.a1d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1815 "[$t, $s, \\{$l, $x\\}], \\{$gradx\\}, \\{$grady\\};",
1819 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1820 Float32Regs:$b, Float32Regs:$a),
1821 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
1822 "tex.2d.v4.f32.s32\t\\{$r, $g, $b, $a\\}, "
1823 "[$t, $s, \\{$x, $y\\}];",
1826 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1827 Float32Regs:$b, Float32Regs:$a),
1828 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y),
1829 "tex.2d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1830 "[$t, $s, \\{$x, $y\\}];",
1832 def TEX_2D_F32_F32_LEVEL
1833 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1834 Float32Regs:$b, Float32Regs:$a),
1835 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1837 "tex.level.2d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1838 "[$t, $s, \\{$x, $y\\}], $lod;",
1840 def TEX_2D_F32_F32_GRAD
1841 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1842 Float32Regs:$b, Float32Regs:$a),
1843 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1844 Float32Regs:$gradx0, Float32Regs:$gradx1,
1845 Float32Regs:$grady0, Float32Regs:$grady1),
1846 "tex.grad.2d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1847 "[$t, $s, \\{$x, $y\\}], \\{$gradx0, $gradx1\\}, "
1848 "\\{$grady0, $grady1\\};",
1851 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1852 Int32Regs:$b, Int32Regs:$a),
1853 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
1854 "tex.2d.v4.s32.s32\t\\{$r, $g, $b, $a\\}, "
1855 "[$t, $s, \\{$x, $y\\}];",
1858 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1859 Int32Regs:$b, Int32Regs:$a),
1860 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y),
1861 "tex.2d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1862 "[$t, $s, \\{$x, $y\\}];",
1864 def TEX_2D_I32_F32_LEVEL
1865 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1866 Int32Regs:$b, Int32Regs:$a),
1867 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1869 "tex.level.2d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1870 "[$t, $s, \\{$x, $y\\}], $lod;",
1872 def TEX_2D_I32_F32_GRAD
1873 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1874 Int32Regs:$b, Int32Regs:$a),
1875 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1876 Float32Regs:$gradx0, Float32Regs:$gradx1,
1877 Float32Regs:$grady0, Float32Regs:$grady1),
1878 "tex.grad.2d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1879 "[$t, $s, \\{$x, $y\\}], \\{$gradx0, $gradx1\\}, "
1880 "\\{$grady0, $grady1\\};",
1883 def TEX_2D_ARRAY_F32_I32
1884 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1885 Float32Regs:$b, Float32Regs:$a),
1886 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
1888 "tex.a2d.v4.f32.s32\t\\{$r, $g, $b, $a\\}, "
1889 "[$t, $s, \\{$l, $x, $y, $y\\}];",
1891 def TEX_2D_ARRAY_F32_F32
1892 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1893 Float32Regs:$b, Float32Regs:$a),
1894 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1896 "tex.a2d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1897 "[$t, $s, \\{$l, $x, $y, $y\\}];",
1899 def TEX_2D_ARRAY_F32_F32_LEVEL
1900 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1901 Float32Regs:$b, Float32Regs:$a),
1902 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1903 Float32Regs:$y, Float32Regs:$lod),
1904 "tex.level.a2d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1905 "[$t, $s, \\{$l, $x, $y, $y\\}], $lod;",
1907 def TEX_2D_ARRAY_F32_F32_GRAD
1908 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1909 Float32Regs:$b, Float32Regs:$a),
1910 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1911 Float32Regs:$y, Float32Regs:$gradx0, Float32Regs:$gradx1,
1912 Float32Regs:$grady0, Float32Regs:$grady1),
1913 "tex.grad.a2d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1914 "[$t, $s, \\{$l, $x, $y, $y\\}], \\{$gradx0, $gradx1\\}, "
1915 "\\{$grady0, $grady1\\};",
1917 def TEX_2D_ARRAY_I32_I32
1918 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1919 Int32Regs:$b, Int32Regs:$a),
1920 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
1922 "tex.a2d.v4.s32.s32\t\\{$r, $g, $b, $a\\}, "
1923 "[$t, $s, \\{$l, $x, $y, $y\\}];",
1925 def TEX_2D_ARRAY_I32_F32
1926 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1927 Int32Regs:$b, Int32Regs:$a),
1928 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1930 "tex.a2d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1931 "[$t, $s, \\{$l, $x, $y, $y\\}];",
1933 def TEX_2D_ARRAY_I32_F32_LEVEL
1934 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1935 Int32Regs:$b, Int32Regs:$a),
1936 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1937 Float32Regs:$y, Float32Regs:$lod),
1938 "tex.level.a2d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1939 "[$t, $s, \\{$l, $x, $y, $y\\}], $lod;",
1941 def TEX_2D_ARRAY_I32_F32_GRAD
1942 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1943 Int32Regs:$b, Int32Regs:$a),
1944 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$l, Float32Regs:$x,
1946 Float32Regs:$gradx0, Float32Regs:$gradx1,
1947 Float32Regs:$grady0, Float32Regs:$grady1),
1948 "tex.grad.a2d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
1949 "[$t, $s, \\{$l, $x, $y, $y\\}], \\{$gradx0, $gradx1\\}, "
1950 "\\{$grady0, $grady1\\};",
1954 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1955 Float32Regs:$b, Float32Regs:$a),
1956 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
1958 "tex.3d.v4.f32.s32\t\\{$r, $g, $b, $a\\}, "
1959 "[$t, $s, \\{$x, $y, $z, $z\\}];",
1962 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1963 Float32Regs:$b, Float32Regs:$a),
1964 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1966 "tex.3d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1967 "[$t, $s, \\{$x, $y, $z, $z\\}];",
1969 def TEX_3D_F32_F32_LEVEL
1970 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1971 Float32Regs:$b, Float32Regs:$a),
1972 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1973 Float32Regs:$z, Float32Regs:$lod),
1974 "tex.level.3d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1975 "[$t, $s, \\{$x, $y, $z, $z\\}], $lod;",
1977 def TEX_3D_F32_F32_GRAD
1978 : NVPTXInst<(outs Float32Regs:$r, Float32Regs:$g,
1979 Float32Regs:$b, Float32Regs:$a),
1980 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
1982 Float32Regs:$gradx0, Float32Regs:$gradx1,
1983 Float32Regs:$gradx2, Float32Regs:$grady0,
1984 Float32Regs:$grady1, Float32Regs:$grady2),
1985 "tex.grad.3d.v4.f32.f32\t\\{$r, $g, $b, $a\\}, "
1986 "[$t, $s, \\{$x, $y, $z, $z\\}], "
1987 "\\{$gradx0, $gradx1, $gradx2, $gradx2\\}, "
1988 "\\{$grady0, $grady1, $grady2, $grady2\\};",
1991 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
1992 Int32Regs:$b, Int32Regs:$a),
1993 (ins Int64Regs:$t, Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
1995 "tex.3d.v4.s32.s32\t\\{$r, $g, $b, $a\\}, "
1996 "[$t, $s, \\{$x, $y, $z, $z\\}];",
1999 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
2000 Int32Regs:$b, Int32Regs:$a),
2001 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
2003 "tex.3d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
2004 "[$t, $s, \\{$x, $y, $z, $z\\}];",
2006 def TEX_3D_I32_F32_LEVEL
2007 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
2008 Int32Regs:$b, Int32Regs:$a),
2009 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
2010 Float32Regs:$z, Float32Regs:$lod),
2011 "tex.level.3d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
2012 "[$t, $s, \\{$x, $y, $z, $z\\}], $lod;",
2014 def TEX_3D_I32_F32_GRAD
2015 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g,
2016 Int32Regs:$b, Int32Regs:$a),
2017 (ins Int64Regs:$t, Int64Regs:$s, Float32Regs:$x, Float32Regs:$y,
2019 Float32Regs:$gradx0, Float32Regs:$gradx1,
2020 Float32Regs:$gradx2, Float32Regs:$grady0,
2021 Float32Regs:$grady1, Float32Regs:$grady2),
2022 "tex.grad.3d.v4.s32.f32\t\\{$r, $g, $b, $a\\}, "
2023 "[$t, $s, \\{$x, $y, $z, $z\\}], "
2024 "\\{$gradx0, $gradx1, $gradx2, $gradx2\\}, "
2025 "\\{$grady0, $grady1, $grady2, $grady2\\};",
2029 // Surface load instructions
2031 : NVPTXInst<(outs Int16Regs:$r),
2032 (ins Int64Regs:$s, Int32Regs:$x),
2033 "suld.b.1d.b8.trap \\{$r\\}, [$s, \\{$x\\}];",
2035 def SULD_1D_I16_TRAP
2036 : NVPTXInst<(outs Int16Regs:$r),
2037 (ins Int64Regs:$s, Int32Regs:$x),
2038 "suld.b.1d.b16.trap \\{$r\\}, [$s, \\{$x\\}];",
2040 def SULD_1D_I32_TRAP
2041 : NVPTXInst<(outs Int32Regs:$r),
2042 (ins Int64Regs:$s, Int32Regs:$x),
2043 "suld.b.1d.b32.trap \\{$r\\}, [$s, \\{$x\\}];",
2045 def SULD_1D_V2I8_TRAP
2046 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2047 (ins Int64Regs:$s, Int32Regs:$x),
2048 "suld.b.1d.v2.b8.trap \\{$r, $g\\}, [$s, \\{$x\\}];",
2050 def SULD_1D_V2I16_TRAP
2051 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2052 (ins Int64Regs:$s, Int32Regs:$x),
2053 "suld.b.1d.v2.b16.trap \\{$r, $g\\}, [$s, \\{$x\\}];",
2055 def SULD_1D_V2I32_TRAP
2056 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g),
2057 (ins Int64Regs:$s, Int32Regs:$x),
2058 "suld.b.1d.v2.b32.trap \\{$r, $g\\}, [$s, \\{$x\\}];",
2060 def SULD_1D_V4I8_TRAP
2061 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2062 (ins Int64Regs:$s, Int32Regs:$x),
2063 "suld.b.1d.v4.b8.trap \\{$r, $g, $b, $a\\}, [$s, \\{$x\\}];",
2065 def SULD_1D_V4I16_TRAP
2066 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2067 (ins Int64Regs:$s, Int32Regs:$x),
2068 "suld.b.1d.v4.b16.trap \\{$r, $g, $b, $a\\}, [$s, \\{$x\\}];",
2070 def SULD_1D_V4I32_TRAP
2071 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2072 (ins Int64Regs:$s, Int32Regs:$x),
2073 "suld.b.1d.v4.b32.trap \\{$r, $g, $b, $a\\}, [$s, \\{$x\\}];",
2076 def SULD_1D_ARRAY_I8_TRAP
2077 : NVPTXInst<(outs Int16Regs:$r),
2078 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2079 "suld.b.a1d.b8.trap \\{$r\\}, [$s, \\{$l, $x\\}];",
2081 def SULD_1D_ARRAY_I16_TRAP
2082 : NVPTXInst<(outs Int16Regs:$r),
2083 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2084 "suld.b.a1d.b16.trap \\{$r\\}, [$s, \\{$l, $x\\}];",
2086 def SULD_1D_ARRAY_I32_TRAP
2087 : NVPTXInst<(outs Int32Regs:$r),
2088 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2089 "suld.b.a1d.b32.trap \\{$r\\}, [$s, \\{$l, $x\\}];",
2091 def SULD_1D_ARRAY_V2I8_TRAP
2092 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2093 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2094 "suld.b.a1d.v2.b8.trap \\{$r, $g\\}, [$s, \\{$l, $x\\}];",
2096 def SULD_1D_ARRAY_V2I16_TRAP
2097 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2098 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2099 "suld.b.a1d.v2.b16.trap \\{$r, $g\\}, [$s, \\{$l, $x\\}];",
2101 def SULD_1D_ARRAY_V2I32_TRAP
2102 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g),
2103 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2104 "suld.b.a1d.v2.b32.trap \\{$r, $g\\}, [$s, \\{$l, $x\\}];",
2106 def SULD_1D_ARRAY_V4I8_TRAP
2107 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2108 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2109 "suld.b.a1d.v4.b8.trap \\{$r, $g, $b, $a\\}, "
2110 "[$s, \\{$l, $x\\}];",
2112 def SULD_1D_ARRAY_V4I16_TRAP
2113 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2114 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2115 "suld.b.a1d.v4.b16.trap \\{$r, $g, $b, $a\\}, "
2116 "[$s, \\{$l, $x\\}];",
2118 def SULD_1D_ARRAY_V4I32_TRAP
2119 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2120 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x),
2121 "suld.b.a1d.v4.b32.trap \\{$r, $g, $b, $a\\}, "
2122 "[$s, \\{$l, $x\\}];",
2126 : NVPTXInst<(outs Int16Regs:$r),
2127 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2128 "suld.b.2d.b8.trap \\{$r\\}, [$s, \\{$x, $y\\}];",
2130 def SULD_2D_I16_TRAP
2131 : NVPTXInst<(outs Int16Regs:$r),
2132 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2133 "suld.b.2d.b16.trap \\{$r\\}, [$s, \\{$x, $y\\}];",
2135 def SULD_2D_I32_TRAP
2136 : NVPTXInst<(outs Int32Regs:$r),
2137 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2138 "suld.b.2d.b32.trap \\{$r\\}, [$s, \\{$x, $y\\}];",
2140 def SULD_2D_V2I8_TRAP
2141 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2142 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2143 "suld.b.2d.v2.b8.trap \\{$r, $g\\}, [$s, \\{$x, $y\\}];",
2145 def SULD_2D_V2I16_TRAP
2146 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2147 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2148 "suld.b.2d.v2.b16.trap \\{$r, $g\\}, [$s, \\{$x, $y\\}];",
2150 def SULD_2D_V2I32_TRAP
2151 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g),
2152 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2153 "suld.b.2d.v2.b32.trap \\{$r, $g\\}, [$s, \\{$x, $y\\}];",
2155 def SULD_2D_V4I8_TRAP
2156 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2157 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2158 "suld.b.2d.v4.b8.trap \\{$r, $g, $b, $a\\}, [$s, \\{$x, $y\\}];",
2160 def SULD_2D_V4I16_TRAP
2161 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2162 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2163 "suld.b.2d.v4.b16.trap \\{$r, $g, $b, $a\\}, [$s, \\{$x, $y\\}];",
2165 def SULD_2D_V4I32_TRAP
2166 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2167 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y),
2168 "suld.b.2d.v4.b32.trap \\{$r, $g, $b, $a\\}, [$s, \\{$x, $y\\}];",
2171 def SULD_2D_ARRAY_I8_TRAP
2172 : NVPTXInst<(outs Int16Regs:$r),
2173 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2174 "suld.b.a2d.b8.trap \\{$r\\}, [$s, \\{$l, $x, $y, $y\\}];",
2176 def SULD_2D_ARRAY_I16_TRAP
2177 : NVPTXInst<(outs Int16Regs:$r),
2178 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2179 "suld.b.a2d.b16.trap \\{$r\\}, [$s, \\{$l, $x, $y, $y\\}];",
2181 def SULD_2D_ARRAY_I32_TRAP
2182 : NVPTXInst<(outs Int32Regs:$r),
2183 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2184 "suld.b.a2d.b32.trap \\{$r\\}, [$s, \\{$l, $x, $y, $y\\}];",
2186 def SULD_2D_ARRAY_V2I8_TRAP
2187 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2188 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2189 "suld.b.a2d.v2.b8.trap \\{$r, $g\\}, "
2190 "[$s, \\{$l, $x, $y, $y\\}];",
2192 def SULD_2D_ARRAY_V2I16_TRAP
2193 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2194 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2195 "suld.b.a2d.v2.b16.trap \\{$r, $g\\}, "
2196 "[$s, \\{$l, $x, $y, $y\\}];",
2198 def SULD_2D_ARRAY_V2I32_TRAP
2199 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g),
2200 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2201 "suld.b.a2d.v2.b32.trap \\{$r, $g\\}, "
2202 "[$s, \\{$l, $x, $y, $y\\}];",
2204 def SULD_2D_ARRAY_V4I8_TRAP
2205 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2206 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2207 "suld.b.a2d.v4.b8.trap \\{$r, $g, $b, $a\\}, "
2208 "[$s, \\{$l, $x, $y, $y\\}];",
2210 def SULD_2D_ARRAY_V4I16_TRAP
2211 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2212 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2213 "suld.b.a2d.v4.b16.trap \\{$r, $g, $b, $a\\}, "
2214 "[$s, \\{$l, $x, $y, $y\\}];",
2216 def SULD_2D_ARRAY_V4I32_TRAP
2217 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2218 (ins Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y),
2219 "suld.b.a2d.v4.b32.trap \\{$r, $g, $b, $a\\}, "
2220 "[$s, \\{$l, $x, $y, $y\\}];",
2224 : NVPTXInst<(outs Int16Regs:$r),
2225 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2226 "suld.b.3d.b8.trap \\{$r\\}, [$s, \\{$x, $y, $z, $z\\}];",
2228 def SULD_3D_I16_TRAP
2229 : NVPTXInst<(outs Int16Regs:$r),
2230 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2231 "suld.b.3d.b16.trap \\{$r\\}, [$s, \\{$x, $y, $z, $z\\}];",
2233 def SULD_3D_I32_TRAP
2234 : NVPTXInst<(outs Int32Regs:$r),
2235 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2236 "suld.b.3d.b32.trap \\{$r\\}, [$s, \\{$x, $y, $z, $z\\}];",
2238 def SULD_3D_V2I8_TRAP
2239 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2240 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2241 "suld.b.3d.v2.b8.trap \\{$r, $g\\}, [$s, \\{$x, $y, $z, $z\\}];",
2243 def SULD_3D_V2I16_TRAP
2244 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g),
2245 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2246 "suld.b.3d.v2.b16.trap \\{$r, $g\\}, [$s, \\{$x, $y, $z, $z\\}];",
2248 def SULD_3D_V2I32_TRAP
2249 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g),
2250 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2251 "suld.b.3d.v2.b32.trap \\{$r, $g\\}, [$s, \\{$x, $y, $z, $z\\}];",
2253 def SULD_3D_V4I8_TRAP
2254 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2255 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2256 "suld.b.3d.v4.b8.trap \\{$r, $g, $b, $a\\}, "
2257 "[$s, \\{$x, $y, $z, $z\\}];",
2259 def SULD_3D_V4I16_TRAP
2260 : NVPTXInst<(outs Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2261 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2262 "suld.b.3d.v4.b16.trap \\{$r, $g, $b, $a\\}, "
2263 "[$s, \\{$x, $y, $z, $z\\}];",
2265 def SULD_3D_V4I32_TRAP
2266 : NVPTXInst<(outs Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2267 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z),
2268 "suld.b.3d.v4.b32.trap \\{$r, $g, $b, $a\\}, "
2269 "[$s, \\{$x, $y, $z, $z\\}];",
2273 //-----------------------------------
2274 // Texture Query Intrinsics
2275 //-----------------------------------
2276 def TXQ_CHANNEL_ORDER
2277 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2278 "txq.channel_order.b32 \t$d, [$a];",
2280 def TXQ_CHANNEL_DATA_TYPE
2281 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2282 "txq.channel_data_type.b32 \t$d, [$a];",
2285 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2286 "txq.width.b32 \t$d, [$a];",
2289 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2290 "txq.height.b32 \t$d, [$a];",
2293 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2294 "txq.depth.b32 \t$d, [$a];",
2297 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2298 "txq.array_size.b32 \t$d, [$a];",
2301 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2302 "txq.num_samples.b32 \t$d, [$a];",
2304 def TXQ_NUM_MIPMAP_LEVELS
2305 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2306 "txq.num_mipmap_levels.b32 \t$d, [$a];",
2309 def : Pat<(int_nvvm_txq_channel_order Int64Regs:$a),
2310 (TXQ_CHANNEL_ORDER Int64Regs:$a)>;
2311 def : Pat<(int_nvvm_txq_channel_data_type Int64Regs:$a),
2312 (TXQ_CHANNEL_DATA_TYPE Int64Regs:$a)>;
2313 def : Pat<(int_nvvm_txq_width Int64Regs:$a),
2314 (TXQ_WIDTH Int64Regs:$a)>;
2315 def : Pat<(int_nvvm_txq_height Int64Regs:$a),
2316 (TXQ_HEIGHT Int64Regs:$a)>;
2317 def : Pat<(int_nvvm_txq_depth Int64Regs:$a),
2318 (TXQ_DEPTH Int64Regs:$a)>;
2319 def : Pat<(int_nvvm_txq_array_size Int64Regs:$a),
2320 (TXQ_ARRAY_SIZE Int64Regs:$a)>;
2321 def : Pat<(int_nvvm_txq_num_samples Int64Regs:$a),
2322 (TXQ_NUM_SAMPLES Int64Regs:$a)>;
2323 def : Pat<(int_nvvm_txq_num_mipmap_levels Int64Regs:$a),
2324 (TXQ_NUM_MIPMAP_LEVELS Int64Regs:$a)>;
2327 //-----------------------------------
2328 // Surface Query Intrinsics
2329 //-----------------------------------
2330 def SUQ_CHANNEL_ORDER
2331 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2332 "suq.channel_order.b32 \t$d, [$a];",
2334 def SUQ_CHANNEL_DATA_TYPE
2335 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2336 "suq.channel_data_type.b32 \t$d, [$a];",
2339 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2340 "suq.width.b32 \t$d, [$a];",
2343 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2344 "suq.height.b32 \t$d, [$a];",
2347 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2348 "suq.depth.b32 \t$d, [$a];",
2351 : NVPTXInst<(outs Int32Regs:$d), (ins Int64Regs:$a),
2352 "suq.array_size.b32 \t$d, [$a];",
2355 def : Pat<(int_nvvm_suq_channel_order Int64Regs:$a),
2356 (SUQ_CHANNEL_ORDER Int64Regs:$a)>;
2357 def : Pat<(int_nvvm_suq_channel_data_type Int64Regs:$a),
2358 (SUQ_CHANNEL_DATA_TYPE Int64Regs:$a)>;
2359 def : Pat<(int_nvvm_suq_width Int64Regs:$a),
2360 (SUQ_WIDTH Int64Regs:$a)>;
2361 def : Pat<(int_nvvm_suq_height Int64Regs:$a),
2362 (SUQ_HEIGHT Int64Regs:$a)>;
2363 def : Pat<(int_nvvm_suq_depth Int64Regs:$a),
2364 (SUQ_DEPTH Int64Regs:$a)>;
2365 def : Pat<(int_nvvm_suq_array_size Int64Regs:$a),
2366 (SUQ_ARRAY_SIZE Int64Regs:$a)>;
2369 //===- Handle Query -------------------------------------------------------===//
2371 // TODO: These intrinsics are not yet finalized, pending PTX ISA design work
2373 : NVPTXInst<(outs Int1Regs:$d), (ins Int64Regs:$a),
2374 "istypep.samplerref \t$d, $a;",
2375 [(set Int1Regs:$d, (int_nvvm_istypep_sampler Int64Regs:$a))]>;
2377 : NVPTXInst<(outs Int1Regs:$d), (ins Int64Regs:$a),
2378 "istypep.surfref \t$d, $a;",
2379 [(set Int1Regs:$d, (int_nvvm_istypep_surface Int64Regs:$a))]>;
2381 : NVPTXInst<(outs Int1Regs:$d), (ins Int64Regs:$a),
2382 "istypep.texref \t$d, $a;",
2383 [(set Int1Regs:$d, (int_nvvm_istypep_texture Int64Regs:$a))]>;
2385 //===- Surface Stores -----------------------------------------------------===//
2389 def SUST_B_1D_B8_TRAP
2391 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
2392 "sust.b.1d.b8.trap \t[$s, \\{$x\\}], \\{$r\\};",
2394 def SUST_B_1D_B16_TRAP
2396 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
2397 "sust.b.1d.b16.trap \t[$s, \\{$x\\}], \\{$r\\};",
2399 def SUST_B_1D_B32_TRAP
2401 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$r),
2402 "sust.b.1d.b32.trap \t[$s, \\{$x\\}], \\{$r\\};",
2404 def SUST_B_1D_V2B8_TRAP
2406 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
2407 "sust.b.1d.v2.b8.trap \t[$s, \\{$x\\}], \\{$r, $g\\};",
2409 def SUST_B_1D_V2B16_TRAP
2411 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
2412 "sust.b.1d.v2.b16.trap \t[$s, \\{$x\\}], \\{$r, $g\\};",
2414 def SUST_B_1D_V2B32_TRAP
2416 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g),
2417 "sust.b.1d.v2.b32.trap \t[$s, \\{$x\\}], \\{$r, $g\\};",
2419 def SUST_B_1D_V4B8_TRAP
2421 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g,
2422 Int16Regs:$b, Int16Regs:$a),
2423 "sust.b.1d.v4.b8.trap \t[$s, \\{$x\\}], \\{$r, $g, $b, $a\\};",
2425 def SUST_B_1D_V4B16_TRAP
2427 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g,
2428 Int16Regs:$b, Int16Regs:$a),
2429 "sust.b.1d.v4.b16.trap \t[$s, \\{$x\\}], \\{$r, $g, $b, $a\\};",
2431 def SUST_B_1D_V4B32_TRAP
2433 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g,
2434 Int32Regs:$b, Int32Regs:$a),
2435 "sust.b.1d.v4.b32.trap \t[$s, \\{$x\\}], \\{$r, $g, $b, $a\\};",
2439 def SUST_B_1D_ARRAY_B8_TRAP
2441 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r),
2442 "sust.b.a1d.b8.trap \t[$s, \\{$idx, $x\\}], \\{$r\\};",
2444 def SUST_B_1D_ARRAY_B16_TRAP
2446 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r),
2447 "sust.b.a1d.b16.trap \t[$s, \\{$idx, $x\\}], \\{$r\\};",
2449 def SUST_B_1D_ARRAY_B32_TRAP
2451 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$r),
2452 "sust.b.a1d.b32.trap \t[$s, \\{$idx, $x\\}], \\{$r\\};",
2454 def SUST_B_1D_ARRAY_V2B8_TRAP
2456 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2458 "sust.b.a1d.v2.b8.trap \t[$s, \\{$idx, $x\\}], \\{$r, $g\\};",
2460 def SUST_B_1D_ARRAY_V2B16_TRAP
2462 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2464 "sust.b.a1d.v2.b16.trap \t[$s, \\{$idx, $x\\}], \\{$r, $g\\};",
2466 def SUST_B_1D_ARRAY_V2B32_TRAP
2468 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$r,
2470 "sust.b.a1d.v2.b32.trap \t[$s, \\{$idx, $x\\}], \\{$r, $g\\};",
2472 def SUST_B_1D_ARRAY_V4B8_TRAP
2474 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2475 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2476 "sust.b.a1d.v4.b8.trap \t[$s, \\{$idx, $x\\}], "
2477 "\\{$r, $g, $b, $a\\};",
2479 def SUST_B_1D_ARRAY_V4B16_TRAP
2481 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2482 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2483 "sust.b.a1d.v4.b16.trap \t[$s, \\{$idx, $x\\}], "
2484 "\\{$r, $g, $b, $a\\};",
2486 def SUST_B_1D_ARRAY_V4B32_TRAP
2488 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$r,
2489 Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2490 "sust.b.a1d.v4.b32.trap \t[$s, \\{$idx, $x\\}], "
2491 "\\{$r, $g, $b, $a\\};",
2495 def SUST_B_2D_B8_TRAP
2497 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
2498 "sust.b.2d.b8.trap \t[$s, \\{$x, $y\\}], \\{$r\\};",
2500 def SUST_B_2D_B16_TRAP
2502 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
2503 "sust.b.2d.b16.trap \t[$s, \\{$x, $y\\}], \\{$r\\};",
2505 def SUST_B_2D_B32_TRAP
2507 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r),
2508 "sust.b.2d.b32.trap \t[$s, \\{$x, $y\\}], \\{$r\\};",
2510 def SUST_B_2D_V2B8_TRAP
2512 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2514 "sust.b.2d.v2.b8.trap \t[$s, \\{$x, $y\\}], \\{$r, $g\\};",
2516 def SUST_B_2D_V2B16_TRAP
2518 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2520 "sust.b.2d.v2.b16.trap \t[$s, \\{$x, $y\\}], \\{$r, $g\\};",
2522 def SUST_B_2D_V2B32_TRAP
2524 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r,
2526 "sust.b.2d.v2.b32.trap \t[$s, \\{$x, $y\\}], \\{$r, $g\\};",
2528 def SUST_B_2D_V4B8_TRAP
2530 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2531 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2532 "sust.b.2d.v4.b8.trap \t[$s, \\{$x, $y\\}], "
2533 "\\{$r, $g, $b, $a\\};",
2535 def SUST_B_2D_V4B16_TRAP
2537 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2538 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2539 "sust.b.2d.v4.b16.trap \t[$s, \\{$x, $y\\}], "
2540 "\\{$r, $g, $b, $a\\};",
2542 def SUST_B_2D_V4B32_TRAP
2544 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r,
2545 Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2546 "sust.b.2d.v4.b32.trap \t[$s, \\{$x, $y\\}], "
2547 "\\{$r, $g, $b, $a\\};",
2551 def SUST_B_2D_ARRAY_B8_TRAP
2553 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2555 "sust.b.a2d.b8.trap \t[$s, \\{$idx, $x, $y, $y\\}], \\{$r\\};",
2557 def SUST_B_2D_ARRAY_B16_TRAP
2559 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2561 "sust.b.a2d.b16.trap \t[$s, \\{$idx, $x, $y, $y\\}], \\{$r\\};",
2563 def SUST_B_2D_ARRAY_B32_TRAP
2565 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2567 "sust.b.a2d.b32.trap \t[$s, \\{$idx, $x, $y, $y\\}], \\{$r\\};",
2569 def SUST_B_2D_ARRAY_V2B8_TRAP
2571 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2572 Int16Regs:$r, Int16Regs:$g),
2573 "sust.b.a2d.v2.b8.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2576 def SUST_B_2D_ARRAY_V2B16_TRAP
2578 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2579 Int16Regs:$r, Int16Regs:$g),
2580 "sust.b.a2d.v2.b16.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2583 def SUST_B_2D_ARRAY_V2B32_TRAP
2585 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2586 Int32Regs:$r, Int32Regs:$g),
2587 "sust.b.a2d.v2.b32.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2590 def SUST_B_2D_ARRAY_V4B8_TRAP
2592 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2593 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2594 "sust.b.a2d.v4.b8.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2595 "\\{$r, $g, $b, $a\\};",
2597 def SUST_B_2D_ARRAY_V4B16_TRAP
2599 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2600 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2601 "sust.b.a2d.v4.b16.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2602 "\\{$r, $g, $b, $a\\};",
2604 def SUST_B_2D_ARRAY_V4B32_TRAP
2606 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2607 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2608 "sust.b.a2d.v4.b32.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2609 "\\{$r, $g, $b, $a\\};",
2613 def SUST_B_3D_B8_TRAP
2615 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2617 "sust.b.3d.b8.trap \t[$s, \\{$x, $y, $z, $z\\}], \\{$r\\};",
2619 def SUST_B_3D_B16_TRAP
2621 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2623 "sust.b.3d.b16.trap \t[$s, \\{$x, $y, $z, $z\\}], \\{$r\\};",
2625 def SUST_B_3D_B32_TRAP
2627 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2629 "sust.b.3d.b32.trap \t[$s, \\{$x, $y, $z, $z\\}], \\{$r\\};",
2631 def SUST_B_3D_V2B8_TRAP
2633 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2634 Int16Regs:$r, Int16Regs:$g),
2635 "sust.b.3d.v2.b8.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2638 def SUST_B_3D_V2B16_TRAP
2640 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2641 Int16Regs:$r, Int16Regs:$g),
2642 "sust.b.3d.v2.b16.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2645 def SUST_B_3D_V2B32_TRAP
2647 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2648 Int32Regs:$r, Int32Regs:$g),
2649 "sust.b.3d.v2.b32.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2652 def SUST_B_3D_V4B8_TRAP
2654 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2655 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2656 "sust.b.3d.v4.b8.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2657 "\\{$r, $g, $b, $a\\};",
2659 def SUST_B_3D_V4B16_TRAP
2661 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2662 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2663 "sust.b.3d.v4.b16.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2664 "\\{$r, $g, $b, $a\\};",
2666 def SUST_B_3D_V4B32_TRAP
2668 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2669 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2670 "sust.b.3d.v4.b32.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2671 "\\{$r, $g, $b, $a\\};",
2676 def SUST_P_1D_B8_TRAP
2678 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
2679 "sust.p.1d.b8.trap \t[$s, \\{$x\\}], \\{$r\\};",
2681 def SUST_P_1D_B16_TRAP
2683 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
2684 "sust.p.1d.b16.trap \t[$s, \\{$x\\}], \\{$r\\};",
2686 def SUST_P_1D_B32_TRAP
2688 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$r),
2689 "sust.p.1d.b32.trap \t[$s, \\{$x\\}], \\{$r\\};",
2691 def SUST_P_1D_V2B8_TRAP
2693 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
2694 "sust.p.1d.v2.b8.trap \t[$s, \\{$x\\}], \\{$r, $g\\};",
2696 def SUST_P_1D_V2B16_TRAP
2698 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
2699 "sust.p.1d.v2.b16.trap \t[$s, \\{$x\\}], \\{$r, $g\\};",
2701 def SUST_P_1D_V2B32_TRAP
2703 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g),
2704 "sust.p.1d.v2.b32.trap \t[$s, \\{$x\\}], \\{$r, $g\\};",
2706 def SUST_P_1D_V4B8_TRAP
2708 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g,
2709 Int16Regs:$b, Int16Regs:$a),
2710 "sust.p.1d.v4.b8.trap \t[$s, \\{$x\\}], \\{$r, $g, $b, $a\\};",
2712 def SUST_P_1D_V4B16_TRAP
2714 (ins Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g,
2715 Int16Regs:$b, Int16Regs:$a),
2716 "sust.p.1d.v4.b16.trap \t[$s, \\{$x\\}], \\{$r, $g, $b, $a\\};",
2718 def SUST_P_1D_V4B32_TRAP
2720 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g,
2721 Int32Regs:$b, Int32Regs:$a),
2722 "sust.p.1d.v4.b32.trap \t[$s, \\{$x\\}], \\{$r, $g, $b, $a\\};",
2726 def SUST_P_1D_ARRAY_B8_TRAP
2728 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r),
2729 "sust.p.a1d.b8.trap \t[$s, \\{$idx, $x\\}], \\{$r\\};",
2731 def SUST_P_1D_ARRAY_B16_TRAP
2733 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r),
2734 "sust.p.a1d.b16.trap \t[$s, \\{$idx, $x\\}], \\{$r\\};",
2736 def SUST_P_1D_ARRAY_B32_TRAP
2738 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$r),
2739 "sust.p.a1d.b32.trap \t[$s, \\{$idx, $x\\}], \\{$r\\};",
2741 def SUST_P_1D_ARRAY_V2B8_TRAP
2743 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2745 "sust.p.a1d.v2.b8.trap \t[$s, \\{$idx, $x\\}], \\{$r, $g\\};",
2747 def SUST_P_1D_ARRAY_V2B16_TRAP
2749 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2751 "sust.p.a1d.v2.b16.trap \t[$s, \\{$idx, $x\\}], \\{$r, $g\\};",
2753 def SUST_P_1D_ARRAY_V2B32_TRAP
2755 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$r,
2757 "sust.p.a1d.v2.b32.trap \t[$s, \\{$idx, $x\\}], \\{$r, $g\\};",
2759 def SUST_P_1D_ARRAY_V4B8_TRAP
2761 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2762 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2763 "sust.p.a1d.v4.b8.trap \t[$s, \\{$idx, $x\\}], "
2764 "\\{$r, $g, $b, $a\\};",
2766 def SUST_P_1D_ARRAY_V4B16_TRAP
2768 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int16Regs:$r,
2769 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2770 "sust.p.a1d.v4.b16.trap \t[$s, \\{$idx, $x\\}], "
2771 "\\{$r, $g, $b, $a\\};",
2773 def SUST_P_1D_ARRAY_V4B32_TRAP
2775 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$r,
2776 Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2777 "sust.p.a1d.v4.b32.trap \t[$s, \\{$idx, $x\\}], "
2778 "\\{$r, $g, $b, $a\\};",
2782 def SUST_P_2D_B8_TRAP
2784 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
2785 "sust.p.2d.b8.trap \t[$s, \\{$x, $y\\}], \\{$r\\};",
2787 def SUST_P_2D_B16_TRAP
2789 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
2790 "sust.p.2d.b16.trap \t[$s, \\{$x, $y\\}], \\{$r\\};",
2792 def SUST_P_2D_B32_TRAP
2794 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r),
2795 "sust.p.2d.b32.trap \t[$s, \\{$x, $y\\}], \\{$r\\};",
2797 def SUST_P_2D_V2B8_TRAP
2799 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2801 "sust.p.2d.v2.b8.trap \t[$s, \\{$x, $y\\}], \\{$r, $g\\};",
2803 def SUST_P_2D_V2B16_TRAP
2805 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2807 "sust.p.2d.v2.b16.trap \t[$s, \\{$x, $y\\}], \\{$r, $g\\};",
2809 def SUST_P_2D_V2B32_TRAP
2811 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r,
2813 "sust.p.2d.v2.b32.trap \t[$s, \\{$x, $y\\}], \\{$r, $g\\};",
2815 def SUST_P_2D_V4B8_TRAP
2817 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2818 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2819 "sust.p.2d.v4.b8.trap \t[$s, \\{$x, $y\\}], "
2820 "\\{$r, $g, $b, $a\\};",
2822 def SUST_P_2D_V4B16_TRAP
2824 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r,
2825 Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2826 "sust.p.2d.v4.b16.trap \t[$s, \\{$x, $y\\}], "
2827 "\\{$r, $g, $b, $a\\};",
2829 def SUST_P_2D_V4B32_TRAP
2831 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r,
2832 Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2833 "sust.p.2d.v4.b32.trap \t[$s, \\{$x, $y\\}], "
2834 "\\{$r, $g, $b, $a\\};",
2838 def SUST_P_2D_ARRAY_B8_TRAP
2840 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2842 "sust.p.a2d.b8.trap \t[$s, \\{$idx, $x, $y, $y\\}], \\{$r\\};",
2844 def SUST_P_2D_ARRAY_B16_TRAP
2846 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2848 "sust.p.a2d.b16.trap \t[$s, \\{$idx, $x, $y, $y\\}], \\{$r\\};",
2850 def SUST_P_2D_ARRAY_B32_TRAP
2852 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2854 "sust.p.a2d.b32.trap \t[$s, \\{$idx, $x, $y, $y\\}], \\{$r\\};",
2856 def SUST_P_2D_ARRAY_V2B8_TRAP
2858 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2859 Int16Regs:$r, Int16Regs:$g),
2860 "sust.p.a2d.v2.b8.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2863 def SUST_P_2D_ARRAY_V2B16_TRAP
2865 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2866 Int16Regs:$r, Int16Regs:$g),
2867 "sust.p.a2d.v2.b16.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2870 def SUST_P_2D_ARRAY_V2B32_TRAP
2872 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2873 Int32Regs:$r, Int32Regs:$g),
2874 "sust.p.a2d.v2.b32.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2877 def SUST_P_2D_ARRAY_V4B8_TRAP
2879 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2880 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2881 "sust.p.a2d.v4.b8.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2882 "\\{$r, $g, $b, $a\\};",
2884 def SUST_P_2D_ARRAY_V4B16_TRAP
2886 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2887 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2888 "sust.p.a2d.v4.b16.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2889 "\\{$r, $g, $b, $a\\};",
2891 def SUST_P_2D_ARRAY_V4B32_TRAP
2893 (ins Int64Regs:$s, Int32Regs:$idx, Int32Regs:$x, Int32Regs:$y,
2894 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2895 "sust.p.a2d.v4.b32.trap \t[$s, \\{$idx, $x, $y, $y\\}], "
2896 "\\{$r, $g, $b, $a\\};",
2900 def SUST_P_3D_B8_TRAP
2902 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2904 "sust.p.3d.b8.trap \t[$s, \\{$x, $y, $z, $z\\}], \\{$r\\};",
2906 def SUST_P_3D_B16_TRAP
2908 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2910 "sust.p.3d.b16.trap \t[$s, \\{$x, $y, $z, $z\\}], \\{$r\\};",
2912 def SUST_P_3D_B32_TRAP
2914 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2916 "sust.p.3d.b32.trap \t[$s, \\{$x, $y, $z, $z\\}], \\{$r\\};",
2918 def SUST_P_3D_V2B8_TRAP
2920 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2921 Int16Regs:$r, Int16Regs:$g),
2922 "sust.p.3d.v2.b8.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2925 def SUST_P_3D_V2B16_TRAP
2927 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2928 Int16Regs:$r, Int16Regs:$g),
2929 "sust.p.3d.v2.b16.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2932 def SUST_P_3D_V2B32_TRAP
2934 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2935 Int32Regs:$r, Int32Regs:$g),
2936 "sust.p.3d.v2.b32.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2939 def SUST_P_3D_V4B8_TRAP
2941 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2942 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2943 "sust.p.3d.v4.b8.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2944 "\\{$r, $g, $b, $a\\};",
2946 def SUST_P_3D_V4B16_TRAP
2948 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2949 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2950 "sust.p.3d.v4.b16.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2951 "\\{$r, $g, $b, $a\\};",
2953 def SUST_P_3D_V4B32_TRAP
2955 (ins Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
2956 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
2957 "sust.p.3d.v4.b32.trap \t[$s, \\{$x, $y, $z, $z\\}], "
2958 "\\{$r, $g, $b, $a\\};",
2962 // Surface store instruction patterns
2963 // I'm not sure why we can't just include these in the instruction definitions,
2964 // but TableGen complains of type errors :(
2966 def : Pat<(int_nvvm_sust_b_1d_i8_trap
2967 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
2968 (SUST_B_1D_B8_TRAP Int64Regs:$s, Int32Regs:$x, Int16Regs:$r)>;
2970 def : Pat<(int_nvvm_sust_b_1d_i16_trap
2971 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
2972 (SUST_B_1D_B16_TRAP Int64Regs:$s, Int32Regs:$x, Int16Regs:$r)>;
2974 def : Pat<(int_nvvm_sust_b_1d_i32_trap
2975 Int64Regs:$s, Int32Regs:$x, Int32Regs:$r),
2976 (SUST_B_1D_B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$r)>;
2978 def : Pat<(int_nvvm_sust_b_1d_v2i8_trap
2979 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
2980 (SUST_B_1D_V2B8_TRAP Int64Regs:$s, Int32Regs:$x,
2981 Int16Regs:$r, Int16Regs:$g)>;
2983 def : Pat<(int_nvvm_sust_b_1d_v2i16_trap
2984 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
2985 (SUST_B_1D_V2B16_TRAP Int64Regs:$s, Int32Regs:$x,
2986 Int16Regs:$r, Int16Regs:$g)>;
2988 def : Pat<(int_nvvm_sust_b_1d_v2i32_trap
2989 Int64Regs:$s, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g),
2990 (SUST_B_1D_V2B32_TRAP Int64Regs:$s, Int32Regs:$x,
2991 Int32Regs:$r, Int32Regs:$g)>;
2993 def : Pat<(int_nvvm_sust_b_1d_v4i8_trap
2994 Int64Regs:$s, Int32Regs:$x,
2995 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
2996 (SUST_B_1D_V4B8_TRAP Int64Regs:$s, Int32Regs:$x,
2997 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
2999 def : Pat<(int_nvvm_sust_b_1d_v4i16_trap
3000 Int64Regs:$s, Int32Regs:$x,
3001 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3002 (SUST_B_1D_V4B16_TRAP Int64Regs:$s, Int32Regs:$x,
3003 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3005 def : Pat<(int_nvvm_sust_b_1d_v4i32_trap
3006 Int64Regs:$s, Int32Regs:$x,
3007 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3008 (SUST_B_1D_V4B32_TRAP Int64Regs:$s, Int32Regs:$x,
3009 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3013 def : Pat<(int_nvvm_sust_b_1d_array_i8_trap
3014 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r),
3015 (SUST_B_1D_ARRAY_B8_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3018 def : Pat<(int_nvvm_sust_b_1d_array_i16_trap
3019 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r),
3020 (SUST_B_1D_ARRAY_B16_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3023 def : Pat<(int_nvvm_sust_b_1d_array_i32_trap
3024 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$r),
3025 (SUST_B_1D_ARRAY_B32_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3028 def : Pat<(int_nvvm_sust_b_1d_array_v2i8_trap
3029 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
3030 (SUST_B_1D_ARRAY_V2B8_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3031 Int16Regs:$r, Int16Regs:$g)>;
3033 def : Pat<(int_nvvm_sust_b_1d_array_v2i16_trap
3034 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
3035 (SUST_B_1D_ARRAY_V2B16_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3036 Int16Regs:$r, Int16Regs:$g)>;
3038 def : Pat<(int_nvvm_sust_b_1d_array_v2i32_trap
3039 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g),
3040 (SUST_B_1D_ARRAY_V2B32_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3041 Int32Regs:$r, Int32Regs:$g)>;
3043 def : Pat<(int_nvvm_sust_b_1d_array_v4i8_trap
3044 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3045 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3046 (SUST_B_1D_ARRAY_V4B8_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3047 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3049 def : Pat<(int_nvvm_sust_b_1d_array_v4i16_trap
3050 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3051 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3052 (SUST_B_1D_ARRAY_V4B16_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3053 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3055 def : Pat<(int_nvvm_sust_b_1d_array_v4i32_trap
3056 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3057 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3058 (SUST_B_1D_ARRAY_V4B32_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3059 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3063 def : Pat<(int_nvvm_sust_b_2d_i8_trap
3064 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3065 (SUST_B_2D_B8_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3068 def : Pat<(int_nvvm_sust_b_2d_i16_trap
3069 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3070 (SUST_B_2D_B16_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3073 def : Pat<(int_nvvm_sust_b_2d_i32_trap
3074 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r),
3075 (SUST_B_2D_B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3078 def : Pat<(int_nvvm_sust_b_2d_v2i8_trap
3079 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r, Int16Regs:$g),
3080 (SUST_B_2D_V2B8_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3081 Int16Regs:$r, Int16Regs:$g)>;
3083 def : Pat<(int_nvvm_sust_b_2d_v2i16_trap
3084 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r, Int16Regs:$g),
3085 (SUST_B_2D_V2B16_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3086 Int16Regs:$r, Int16Regs:$g)>;
3088 def : Pat<(int_nvvm_sust_b_2d_v2i32_trap
3089 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r, Int32Regs:$g),
3090 (SUST_B_2D_V2B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3091 Int32Regs:$r, Int32Regs:$g)>;
3093 def : Pat<(int_nvvm_sust_b_2d_v4i8_trap
3094 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3095 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3096 (SUST_B_2D_V4B8_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3097 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3099 def : Pat<(int_nvvm_sust_b_2d_v4i16_trap
3100 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3101 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3102 (SUST_B_2D_V4B16_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3103 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3105 def : Pat<(int_nvvm_sust_b_2d_v4i32_trap
3106 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3107 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3108 (SUST_B_2D_V4B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3109 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3113 def : Pat<(int_nvvm_sust_b_2d_array_i8_trap
3114 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3115 (SUST_B_2D_ARRAY_B8_TRAP Int64Regs:$s,
3116 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3119 def : Pat<(int_nvvm_sust_b_2d_array_i16_trap
3120 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3121 (SUST_B_2D_ARRAY_B16_TRAP Int64Regs:$s,
3122 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3125 def : Pat<(int_nvvm_sust_b_2d_array_i32_trap
3126 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r),
3127 (SUST_B_2D_ARRAY_B32_TRAP Int64Regs:$s,
3128 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3131 def : Pat<(int_nvvm_sust_b_2d_array_v2i8_trap
3132 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3133 Int16Regs:$r, Int16Regs:$g),
3134 (SUST_B_2D_ARRAY_V2B8_TRAP Int64Regs:$s, Int32Regs:$l,
3135 Int32Regs:$x, Int32Regs:$y,
3136 Int16Regs:$r, Int16Regs:$g)>;
3138 def : Pat<(int_nvvm_sust_b_2d_array_v2i16_trap
3139 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3140 Int16Regs:$r, Int16Regs:$g),
3141 (SUST_B_2D_ARRAY_V2B16_TRAP Int64Regs:$s, Int32Regs:$l,
3142 Int32Regs:$x, Int32Regs:$y,
3143 Int16Regs:$r, Int16Regs:$g)>;
3145 def : Pat<(int_nvvm_sust_b_2d_array_v2i32_trap
3146 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r,
3148 (SUST_B_2D_ARRAY_V2B32_TRAP Int64Regs:$s, Int32Regs:$l,
3149 Int32Regs:$x, Int32Regs:$y, Int32Regs:$r, Int32Regs:$g)>;
3151 def : Pat<(int_nvvm_sust_b_2d_array_v4i8_trap
3152 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3153 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3154 (SUST_B_2D_ARRAY_V4B8_TRAP Int64Regs:$s,
3155 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3156 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3158 def : Pat<(int_nvvm_sust_b_2d_array_v4i16_trap
3159 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3160 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3161 (SUST_B_2D_ARRAY_V4B16_TRAP Int64Regs:$s,
3162 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3163 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3165 def : Pat<(int_nvvm_sust_b_2d_array_v4i32_trap
3166 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3167 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3168 (SUST_B_2D_ARRAY_V4B32_TRAP Int64Regs:$s, Int32Regs:$l,
3169 Int32Regs:$x, Int32Regs:$y,
3170 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3174 def : Pat<(int_nvvm_sust_b_3d_i8_trap
3175 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3177 (SUST_B_3D_B8_TRAP Int64Regs:$s,
3178 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3181 def : Pat<(int_nvvm_sust_b_3d_i16_trap
3182 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3184 (SUST_B_3D_B16_TRAP Int64Regs:$s,
3185 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3188 def : Pat<(int_nvvm_sust_b_3d_i32_trap
3189 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3191 (SUST_B_3D_B32_TRAP Int64Regs:$s,
3192 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3195 def : Pat<(int_nvvm_sust_b_3d_v2i8_trap
3196 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3197 Int16Regs:$r, Int16Regs:$g),
3198 (SUST_B_3D_V2B8_TRAP Int64Regs:$s,
3199 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3200 Int16Regs:$r, Int16Regs:$g)>;
3202 def : Pat<(int_nvvm_sust_b_3d_v2i16_trap
3203 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3204 Int16Regs:$r, Int16Regs:$g),
3205 (SUST_B_3D_V2B16_TRAP Int64Regs:$s,
3206 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3207 Int16Regs:$r, Int16Regs:$g)>;
3209 def : Pat<(int_nvvm_sust_b_3d_v2i32_trap
3210 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3211 Int32Regs:$r, Int32Regs:$g),
3212 (SUST_B_3D_V2B32_TRAP Int64Regs:$s,
3213 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3214 Int32Regs:$r, Int32Regs:$g)>;
3216 def : Pat<(int_nvvm_sust_b_3d_v4i8_trap
3217 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3218 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3219 (SUST_B_3D_V4B8_TRAP Int64Regs:$s,
3220 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3221 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3223 def : Pat<(int_nvvm_sust_b_3d_v4i16_trap
3224 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3225 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3226 (SUST_B_3D_V4B16_TRAP Int64Regs:$s,
3227 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3228 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3230 def : Pat<(int_nvvm_sust_b_3d_v4i32_trap
3231 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3232 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3233 (SUST_B_3D_V4B32_TRAP Int64Regs:$s,
3234 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3235 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3240 def : Pat<(int_nvvm_sust_p_1d_i8_trap
3241 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
3242 (SUST_P_1D_B8_TRAP Int64Regs:$s, Int32Regs:$x, Int16Regs:$r)>;
3244 def : Pat<(int_nvvm_sust_p_1d_i16_trap
3245 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r),
3246 (SUST_P_1D_B16_TRAP Int64Regs:$s, Int32Regs:$x, Int16Regs:$r)>;
3248 def : Pat<(int_nvvm_sust_p_1d_i32_trap
3249 Int64Regs:$s, Int32Regs:$x, Int32Regs:$r),
3250 (SUST_P_1D_B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$r)>;
3252 def : Pat<(int_nvvm_sust_p_1d_v2i8_trap
3253 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
3254 (SUST_P_1D_V2B8_TRAP Int64Regs:$s, Int32Regs:$x,
3255 Int16Regs:$r, Int16Regs:$g)>;
3257 def : Pat<(int_nvvm_sust_p_1d_v2i16_trap
3258 Int64Regs:$s, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
3259 (SUST_P_1D_V2B16_TRAP Int64Regs:$s, Int32Regs:$x,
3260 Int16Regs:$r, Int16Regs:$g)>;
3262 def : Pat<(int_nvvm_sust_p_1d_v2i32_trap
3263 Int64Regs:$s, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g),
3264 (SUST_P_1D_V2B32_TRAP Int64Regs:$s, Int32Regs:$x,
3265 Int32Regs:$r, Int32Regs:$g)>;
3267 def : Pat<(int_nvvm_sust_p_1d_v4i8_trap
3268 Int64Regs:$s, Int32Regs:$x,
3269 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3270 (SUST_P_1D_V4B8_TRAP Int64Regs:$s, Int32Regs:$x,
3271 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3273 def : Pat<(int_nvvm_sust_p_1d_v4i16_trap
3274 Int64Regs:$s, Int32Regs:$x,
3275 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3276 (SUST_P_1D_V4B16_TRAP Int64Regs:$s, Int32Regs:$x,
3277 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3279 def : Pat<(int_nvvm_sust_p_1d_v4i32_trap
3280 Int64Regs:$s, Int32Regs:$x,
3281 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3282 (SUST_P_1D_V4B32_TRAP Int64Regs:$s, Int32Regs:$x,
3283 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3287 def : Pat<(int_nvvm_sust_p_1d_array_i8_trap
3288 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r),
3289 (SUST_P_1D_ARRAY_B8_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3292 def : Pat<(int_nvvm_sust_p_1d_array_i16_trap
3293 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r),
3294 (SUST_P_1D_ARRAY_B16_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3297 def : Pat<(int_nvvm_sust_p_1d_array_i32_trap
3298 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$r),
3299 (SUST_P_1D_ARRAY_B32_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3302 def : Pat<(int_nvvm_sust_p_1d_array_v2i8_trap
3303 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
3304 (SUST_P_1D_ARRAY_V2B8_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3305 Int16Regs:$r, Int16Regs:$g)>;
3307 def : Pat<(int_nvvm_sust_p_1d_array_v2i16_trap
3308 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int16Regs:$r, Int16Regs:$g),
3309 (SUST_P_1D_ARRAY_V2B16_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3310 Int16Regs:$r, Int16Regs:$g)>;
3312 def : Pat<(int_nvvm_sust_p_1d_array_v2i32_trap
3313 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$r, Int32Regs:$g),
3314 (SUST_P_1D_ARRAY_V2B32_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3315 Int32Regs:$r, Int32Regs:$g)>;
3317 def : Pat<(int_nvvm_sust_p_1d_array_v4i8_trap
3318 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3319 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3320 (SUST_P_1D_ARRAY_V4B8_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3321 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3323 def : Pat<(int_nvvm_sust_p_1d_array_v4i16_trap
3324 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3325 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3326 (SUST_P_1D_ARRAY_V4B16_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3327 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3329 def : Pat<(int_nvvm_sust_p_1d_array_v4i32_trap
3330 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3331 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3332 (SUST_P_1D_ARRAY_V4B32_TRAP Int64Regs:$s, Int32Regs:$l, Int32Regs:$x,
3333 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3337 def : Pat<(int_nvvm_sust_p_2d_i8_trap
3338 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3339 (SUST_P_2D_B8_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3342 def : Pat<(int_nvvm_sust_p_2d_i16_trap
3343 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3344 (SUST_P_2D_B16_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3347 def : Pat<(int_nvvm_sust_p_2d_i32_trap
3348 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r),
3349 (SUST_P_2D_B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3352 def : Pat<(int_nvvm_sust_p_2d_v2i8_trap
3353 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r, Int16Regs:$g),
3354 (SUST_P_2D_V2B8_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3355 Int16Regs:$r, Int16Regs:$g)>;
3357 def : Pat<(int_nvvm_sust_p_2d_v2i16_trap
3358 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r, Int16Regs:$g),
3359 (SUST_P_2D_V2B16_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3360 Int16Regs:$r, Int16Regs:$g)>;
3362 def : Pat<(int_nvvm_sust_p_2d_v2i32_trap
3363 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r, Int32Regs:$g),
3364 (SUST_P_2D_V2B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3365 Int32Regs:$r, Int32Regs:$g)>;
3367 def : Pat<(int_nvvm_sust_p_2d_v4i8_trap
3368 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3369 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3370 (SUST_P_2D_V4B8_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3371 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3373 def : Pat<(int_nvvm_sust_p_2d_v4i16_trap
3374 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3375 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3376 (SUST_P_2D_V4B16_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3377 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3379 def : Pat<(int_nvvm_sust_p_2d_v4i32_trap
3380 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3381 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3382 (SUST_P_2D_V4B32_TRAP Int64Regs:$s, Int32Regs:$x, Int32Regs:$y,
3383 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3387 def : Pat<(int_nvvm_sust_p_2d_array_i8_trap
3388 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3389 (SUST_P_2D_ARRAY_B8_TRAP Int64Regs:$s,
3390 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3393 def : Pat<(int_nvvm_sust_p_2d_array_i16_trap
3394 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int16Regs:$r),
3395 (SUST_P_2D_ARRAY_B16_TRAP Int64Regs:$s,
3396 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3399 def : Pat<(int_nvvm_sust_p_2d_array_i32_trap
3400 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r),
3401 (SUST_P_2D_ARRAY_B32_TRAP Int64Regs:$s,
3402 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3405 def : Pat<(int_nvvm_sust_p_2d_array_v2i8_trap
3406 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3407 Int16Regs:$r, Int16Regs:$g),
3408 (SUST_P_2D_ARRAY_V2B8_TRAP Int64Regs:$s, Int32Regs:$l,
3409 Int32Regs:$x, Int32Regs:$y,
3410 Int16Regs:$r, Int16Regs:$g)>;
3412 def : Pat<(int_nvvm_sust_p_2d_array_v2i16_trap
3413 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3414 Int16Regs:$r, Int16Regs:$g),
3415 (SUST_P_2D_ARRAY_V2B16_TRAP Int64Regs:$s, Int32Regs:$l,
3416 Int32Regs:$x, Int32Regs:$y,
3417 Int16Regs:$r, Int16Regs:$g)>;
3419 def : Pat<(int_nvvm_sust_p_2d_array_v2i32_trap
3420 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y, Int32Regs:$r,
3422 (SUST_P_2D_ARRAY_V2B32_TRAP Int64Regs:$s, Int32Regs:$l,
3423 Int32Regs:$x, Int32Regs:$y, Int32Regs:$r, Int32Regs:$g)>;
3425 def : Pat<(int_nvvm_sust_p_2d_array_v4i8_trap
3426 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3427 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3428 (SUST_P_2D_ARRAY_V4B8_TRAP Int64Regs:$s,
3429 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3430 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3432 def : Pat<(int_nvvm_sust_p_2d_array_v4i16_trap
3433 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3434 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3435 (SUST_P_2D_ARRAY_V4B16_TRAP Int64Regs:$s,
3436 Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3437 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3439 def : Pat<(int_nvvm_sust_p_2d_array_v4i32_trap
3440 Int64Regs:$s, Int32Regs:$l, Int32Regs:$x, Int32Regs:$y,
3441 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3442 (SUST_P_2D_ARRAY_V4B32_TRAP Int64Regs:$s, Int32Regs:$l,
3443 Int32Regs:$x, Int32Regs:$y,
3444 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3448 def : Pat<(int_nvvm_sust_p_3d_i8_trap
3449 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3451 (SUST_P_3D_B8_TRAP Int64Regs:$s,
3452 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3455 def : Pat<(int_nvvm_sust_p_3d_i16_trap
3456 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3458 (SUST_P_3D_B16_TRAP Int64Regs:$s,
3459 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3462 def : Pat<(int_nvvm_sust_p_3d_i32_trap
3463 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3465 (SUST_P_3D_B32_TRAP Int64Regs:$s,
3466 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3469 def : Pat<(int_nvvm_sust_p_3d_v2i8_trap
3470 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3471 Int16Regs:$r, Int16Regs:$g),
3472 (SUST_P_3D_V2B8_TRAP Int64Regs:$s,
3473 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3474 Int16Regs:$r, Int16Regs:$g)>;
3476 def : Pat<(int_nvvm_sust_p_3d_v2i16_trap
3477 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3478 Int16Regs:$r, Int16Regs:$g),
3479 (SUST_P_3D_V2B16_TRAP Int64Regs:$s,
3480 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3481 Int16Regs:$r, Int16Regs:$g)>;
3483 def : Pat<(int_nvvm_sust_p_3d_v2i32_trap
3484 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3485 Int32Regs:$r, Int32Regs:$g),
3486 (SUST_P_3D_V2B32_TRAP Int64Regs:$s,
3487 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3488 Int32Regs:$r, Int32Regs:$g)>;
3490 def : Pat<(int_nvvm_sust_p_3d_v4i8_trap
3491 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3492 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3493 (SUST_P_3D_V4B8_TRAP Int64Regs:$s,
3494 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3495 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3497 def : Pat<(int_nvvm_sust_p_3d_v4i16_trap
3498 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3499 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a),
3500 (SUST_P_3D_V4B16_TRAP Int64Regs:$s,
3501 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3502 Int16Regs:$r, Int16Regs:$g, Int16Regs:$b, Int16Regs:$a)>;
3504 def : Pat<(int_nvvm_sust_p_3d_v4i32_trap
3505 Int64Regs:$s, Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3506 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a),
3507 (SUST_P_3D_V4B32_TRAP Int64Regs:$s,
3508 Int32Regs:$x, Int32Regs:$y, Int32Regs:$z,
3509 Int32Regs:$r, Int32Regs:$g, Int32Regs:$b, Int32Regs:$a)>;
3513 //===-- Old PTX Back-end Intrinsics ---------------------------------------===//
3515 // These intrinsics are handled to retain compatibility with the old backend.
3517 // PTX Special Purpose Register Accessor Intrinsics
3519 class PTX_READ_SPECIAL_REGISTER_R64<string regname, Intrinsic intop>
3520 : NVPTXInst<(outs Int64Regs:$d), (ins),
3521 !strconcat(!strconcat("mov.u64\t$d, %", regname), ";"),
3522 [(set Int64Regs:$d, (intop))]>;
3524 class PTX_READ_SPECIAL_REGISTER_R32<string regname, Intrinsic intop>
3525 : NVPTXInst<(outs Int32Regs:$d), (ins),
3526 !strconcat(!strconcat("mov.u32\t$d, %", regname), ";"),
3527 [(set Int32Regs:$d, (intop))]>;
3529 // TODO Add read vector-version of special registers
3531 def PTX_READ_TID_X : PTX_READ_SPECIAL_REGISTER_R32<"tid.x",
3532 int_ptx_read_tid_x>;
3533 def PTX_READ_TID_Y : PTX_READ_SPECIAL_REGISTER_R32<"tid.y",
3534 int_ptx_read_tid_y>;
3535 def PTX_READ_TID_Z : PTX_READ_SPECIAL_REGISTER_R32<"tid.z",
3536 int_ptx_read_tid_z>;
3537 def PTX_READ_TID_W : PTX_READ_SPECIAL_REGISTER_R32<"tid.w",
3538 int_ptx_read_tid_w>;
3540 def PTX_READ_NTID_X : PTX_READ_SPECIAL_REGISTER_R32<"ntid.x",
3541 int_ptx_read_ntid_x>;
3542 def PTX_READ_NTID_Y : PTX_READ_SPECIAL_REGISTER_R32<"ntid.y",
3543 int_ptx_read_ntid_y>;
3544 def PTX_READ_NTID_Z : PTX_READ_SPECIAL_REGISTER_R32<"ntid.z",
3545 int_ptx_read_ntid_z>;
3546 def PTX_READ_NTID_W : PTX_READ_SPECIAL_REGISTER_R32<"ntid.w",
3547 int_ptx_read_ntid_w>;
3549 def PTX_READ_LANEID : PTX_READ_SPECIAL_REGISTER_R32<"laneid",
3550 int_ptx_read_laneid>;
3551 def PTX_READ_WARPID : PTX_READ_SPECIAL_REGISTER_R32<"warpid",
3552 int_ptx_read_warpid>;
3553 def PTX_READ_NWARPID : PTX_READ_SPECIAL_REGISTER_R32<"nwarpid",
3554 int_ptx_read_nwarpid>;
3556 def PTX_READ_CTAID_X : PTX_READ_SPECIAL_REGISTER_R32<"ctaid.x",
3557 int_ptx_read_ctaid_x>;
3558 def PTX_READ_CTAID_Y : PTX_READ_SPECIAL_REGISTER_R32<"ctaid.y",
3559 int_ptx_read_ctaid_y>;
3560 def PTX_READ_CTAID_Z : PTX_READ_SPECIAL_REGISTER_R32<"ctaid.z",
3561 int_ptx_read_ctaid_z>;
3562 def PTX_READ_CTAID_W : PTX_READ_SPECIAL_REGISTER_R32<"ctaid.w",
3563 int_ptx_read_ctaid_w>;
3565 def PTX_READ_NCTAID_X : PTX_READ_SPECIAL_REGISTER_R32<"nctaid.x",
3566 int_ptx_read_nctaid_x>;
3567 def PTX_READ_NCTAID_Y : PTX_READ_SPECIAL_REGISTER_R32<"nctaid.y",
3568 int_ptx_read_nctaid_y>;
3569 def PTX_READ_NCTAID_Z : PTX_READ_SPECIAL_REGISTER_R32<"nctaid.z",
3570 int_ptx_read_nctaid_z>;
3571 def PTX_READ_NCTAID_W : PTX_READ_SPECIAL_REGISTER_R32<"nctaid.w",
3572 int_ptx_read_nctaid_w>;
3574 def PTX_READ_SMID : PTX_READ_SPECIAL_REGISTER_R32<"smid",
3576 def PTX_READ_NSMID : PTX_READ_SPECIAL_REGISTER_R32<"nsmid",
3577 int_ptx_read_nsmid>;
3578 def PTX_READ_GRIDID : PTX_READ_SPECIAL_REGISTER_R32<"gridid",
3579 int_ptx_read_gridid>;
3581 def PTX_READ_LANEMASK_EQ
3582 : PTX_READ_SPECIAL_REGISTER_R32<"lanemask_eq", int_ptx_read_lanemask_eq>;
3583 def PTX_READ_LANEMASK_LE
3584 : PTX_READ_SPECIAL_REGISTER_R32<"lanemask_le", int_ptx_read_lanemask_le>;
3585 def PTX_READ_LANEMASK_LT
3586 : PTX_READ_SPECIAL_REGISTER_R32<"lanemask_lt", int_ptx_read_lanemask_lt>;
3587 def PTX_READ_LANEMASK_GE
3588 : PTX_READ_SPECIAL_REGISTER_R32<"lanemask_ge", int_ptx_read_lanemask_ge>;
3589 def PTX_READ_LANEMASK_GT
3590 : PTX_READ_SPECIAL_REGISTER_R32<"lanemask_gt", int_ptx_read_lanemask_gt>;
3593 : PTX_READ_SPECIAL_REGISTER_R32<"clock", int_ptx_read_clock>;
3594 def PTX_READ_CLOCK64
3595 : PTX_READ_SPECIAL_REGISTER_R64<"clock64", int_ptx_read_clock64>;
3597 def PTX_READ_PM0 : PTX_READ_SPECIAL_REGISTER_R32<"pm0", int_ptx_read_pm0>;
3598 def PTX_READ_PM1 : PTX_READ_SPECIAL_REGISTER_R32<"pm1", int_ptx_read_pm1>;
3599 def PTX_READ_PM2 : PTX_READ_SPECIAL_REGISTER_R32<"pm2", int_ptx_read_pm2>;
3600 def PTX_READ_PM3 : PTX_READ_SPECIAL_REGISTER_R32<"pm3", int_ptx_read_pm3>;
3602 // PTX Parallel Synchronization and Communication Intrinsics
3604 def PTX_BAR_SYNC : NVPTXInst<(outs), (ins i32imm:$i), "bar.sync\t$i;",
3605 [(int_ptx_bar_sync imm:$i)]>;