| blob | 07d094604684d9bec922dad79463fdec510c2097 |
1 ; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
2 ; RUN: llc -O0 -mtriple=mipsel-linux-gnu -global-isel -verify-machineinstrs %s -o -| FileCheck %s -check-prefixes=MIPS32,FP32
3 ; RUN: llc -O0 -mtriple=mipsel-linux-gnu -mattr=+fp64,+mips32r2 -global-isel -verify-machineinstrs %s -o -| FileCheck %s -check-prefixes=MIPS32,FP64
5 define float @i64tof32(i64 signext %a) {
6 ; MIPS32-LABEL: i64tof32:
7 ; MIPS32: # %bb.0: # %entry
8 ; MIPS32-NEXT: addiu $sp, $sp, -24
9 ; MIPS32-NEXT: .cfi_def_cfa_offset 24
10 ; MIPS32-NEXT: sw $ra, 20($sp) # 4-byte Folded Spill
11 ; MIPS32-NEXT: .cfi_offset 31, -4
12 ; MIPS32-NEXT: jal __floatdisf
13 ; MIPS32-NEXT: nop
14 ; MIPS32-NEXT: lw $ra, 20($sp) # 4-byte Folded Reload
15 ; MIPS32-NEXT: addiu $sp, $sp, 24
16 ; MIPS32-NEXT: jr $ra
17 ; MIPS32-NEXT: nop
18 entry:
19 %conv = sitofp i64 %a to float
20 ret float %conv
21 }
23 define float @i32tof32(i32 signext %a) {
24 ; MIPS32-LABEL: i32tof32:
25 ; MIPS32: # %bb.0: # %entry
26 ; MIPS32-NEXT: mtc1 $4, $f0
27 ; MIPS32-NEXT: cvt.s.w $f0, $f0
28 ; MIPS32-NEXT: jr $ra
29 ; MIPS32-NEXT: nop
30 entry:
31 %conv = sitofp i32 %a to float
32 ret float %conv
33 }
35 define float @i16tof32(i16 signext %a) {
36 ; MIPS32-LABEL: i16tof32:
37 ; MIPS32: # %bb.0: # %entry
38 ; MIPS32-NEXT: sll $1, $4, 16
39 ; MIPS32-NEXT: sra $1, $1, 16
40 ; MIPS32-NEXT: mtc1 $1, $f0
41 ; MIPS32-NEXT: cvt.s.w $f0, $f0
42 ; MIPS32-NEXT: jr $ra
43 ; MIPS32-NEXT: nop
44 entry:
45 %conv = sitofp i16 %a to float
46 ret float %conv
47 }
49 define float @i8tof32(i8 signext %a) {
50 ; MIPS32-LABEL: i8tof32:
51 ; MIPS32: # %bb.0: # %entry
52 ; MIPS32-NEXT: sll $1, $4, 24
53 ; MIPS32-NEXT: sra $1, $1, 24
54 ; MIPS32-NEXT: mtc1 $1, $f0
55 ; MIPS32-NEXT: cvt.s.w $f0, $f0
56 ; MIPS32-NEXT: jr $ra
57 ; MIPS32-NEXT: nop
58 entry:
59 %conv = sitofp i8 %a to float
60 ret float %conv
61 }
63 define double @i64tof64(i64 signext %a) {
64 ; MIPS32-LABEL: i64tof64:
65 ; MIPS32: # %bb.0: # %entry
66 ; MIPS32-NEXT: addiu $sp, $sp, -24
67 ; MIPS32-NEXT: .cfi_def_cfa_offset 24
68 ; MIPS32-NEXT: sw $ra, 20($sp) # 4-byte Folded Spill
69 ; MIPS32-NEXT: .cfi_offset 31, -4
70 ; MIPS32-NEXT: jal __floatdidf
71 ; MIPS32-NEXT: nop
72 ; MIPS32-NEXT: lw $ra, 20($sp) # 4-byte Folded Reload
73 ; MIPS32-NEXT: addiu $sp, $sp, 24
74 ; MIPS32-NEXT: jr $ra
75 ; MIPS32-NEXT: nop
76 entry:
77 %conv = sitofp i64 %a to double
78 ret double %conv
79 }
81 define double @i32tof64(i32 signext %a) {
82 ; MIPS32-LABEL: i32tof64:
83 ; MIPS32: # %bb.0: # %entry
84 ; MIPS32-NEXT: mtc1 $4, $f0
85 ; MIPS32-NEXT: cvt.d.w $f0, $f0
86 ; MIPS32-NEXT: jr $ra
87 ; MIPS32-NEXT: nop
88 entry:
89 %conv = sitofp i32 %a to double
90 ret double %conv
91 }
93 define double @i16tof64(i16 signext %a) {
94 ; MIPS32-LABEL: i16tof64:
95 ; MIPS32: # %bb.0: # %entry
96 ; MIPS32-NEXT: sll $1, $4, 16
97 ; MIPS32-NEXT: sra $1, $1, 16
98 ; MIPS32-NEXT: mtc1 $1, $f0
99 ; MIPS32-NEXT: cvt.d.w $f0, $f0
100 ; MIPS32-NEXT: jr $ra
101 ; MIPS32-NEXT: nop
102 entry:
103 %conv = sitofp i16 %a to double
104 ret double %conv
105 }
107 define double @i8tof64(i8 signext %a) {
108 ; MIPS32-LABEL: i8tof64:
109 ; MIPS32: # %bb.0: # %entry
110 ; MIPS32-NEXT: sll $1, $4, 24
111 ; MIPS32-NEXT: sra $1, $1, 24
112 ; MIPS32-NEXT: mtc1 $1, $f0
113 ; MIPS32-NEXT: cvt.d.w $f0, $f0
114 ; MIPS32-NEXT: jr $ra
115 ; MIPS32-NEXT: nop
116 entry:
117 %conv = sitofp i8 %a to double
118 ret double %conv
119 }
121 define float @u64tof32(i64 zeroext %a) {
122 ; MIPS32-LABEL: u64tof32:
123 ; MIPS32: # %bb.0: # %entry
124 ; MIPS32-NEXT: addiu $sp, $sp, -24
125 ; MIPS32-NEXT: .cfi_def_cfa_offset 24
126 ; MIPS32-NEXT: sw $ra, 20($sp) # 4-byte Folded Spill
127 ; MIPS32-NEXT: .cfi_offset 31, -4
128 ; MIPS32-NEXT: jal __floatundisf
129 ; MIPS32-NEXT: nop
130 ; MIPS32-NEXT: lw $ra, 20($sp) # 4-byte Folded Reload
131 ; MIPS32-NEXT: addiu $sp, $sp, 24
132 ; MIPS32-NEXT: jr $ra
133 ; MIPS32-NEXT: nop
134 entry:
135 %conv = uitofp i64 %a to float
136 ret float %conv
137 }
140 define float @u32tof32(i32 zeroext %a) {
141 ; FP32-LABEL: u32tof32:
142 ; FP32: # %bb.0: # %entry
143 ; FP32-NEXT: lui $1, 17200
144 ; FP32-NEXT: mtc1 $4, $f0
145 ; FP32-NEXT: mtc1 $1, $f1
146 ; FP32-NEXT: lui $2, 17200
147 ; FP32-NEXT: ori $1, $zero, 0
148 ; FP32-NEXT: mtc1 $1, $f2
149 ; FP32-NEXT: mtc1 $2, $f3
150 ; FP32-NEXT: sub.d $f0, $f0, $f2
151 ; FP32-NEXT: cvt.s.d $f0, $f0
152 ; FP32-NEXT: jr $ra
153 ; FP32-NEXT: nop
154 ;
155 ; FP64-LABEL: u32tof32:
156 ; FP64: # %bb.0: # %entry
157 ; FP64-NEXT: lui $1, 17200
158 ; FP64-NEXT: mtc1 $4, $f0
159 ; FP64-NEXT: mthc1 $1, $f0
160 ; FP64-NEXT: lui $2, 17200
161 ; FP64-NEXT: ori $1, $zero, 0
162 ; FP64-NEXT: mtc1 $1, $f1
163 ; FP64-NEXT: mthc1 $2, $f1
164 ; FP64-NEXT: sub.d $f0, $f0, $f1
165 ; FP64-NEXT: cvt.s.d $f0, $f0
166 ; FP64-NEXT: jr $ra
167 ; FP64-NEXT: nop
168 entry:
169 %conv = uitofp i32 %a to float
170 ret float %conv
171 }
173 define float @u16tof32(i16 zeroext %a) {
174 ; FP32-LABEL: u16tof32:
175 ; FP32: # %bb.0: # %entry
176 ; FP32-NEXT: andi $1, $4, 65535
177 ; FP32-NEXT: lui $2, 17200
178 ; FP32-NEXT: mtc1 $1, $f0
179 ; FP32-NEXT: mtc1 $2, $f1
180 ; FP32-NEXT: lui $2, 17200
181 ; FP32-NEXT: ori $1, $zero, 0
182 ; FP32-NEXT: mtc1 $1, $f2
183 ; FP32-NEXT: mtc1 $2, $f3
184 ; FP32-NEXT: sub.d $f0, $f0, $f2
185 ; FP32-NEXT: cvt.s.d $f0, $f0
186 ; FP32-NEXT: jr $ra
187 ; FP32-NEXT: nop
188 ;
189 ; FP64-LABEL: u16tof32:
190 ; FP64: # %bb.0: # %entry
191 ; FP64-NEXT: andi $1, $4, 65535
192 ; FP64-NEXT: lui $2, 17200
193 ; FP64-NEXT: mtc1 $1, $f0
194 ; FP64-NEXT: mthc1 $2, $f0
195 ; FP64-NEXT: lui $2, 17200
196 ; FP64-NEXT: ori $1, $zero, 0
197 ; FP64-NEXT: mtc1 $1, $f1
198 ; FP64-NEXT: mthc1 $2, $f1
199 ; FP64-NEXT: sub.d $f0, $f0, $f1
200 ; FP64-NEXT: cvt.s.d $f0, $f0
201 ; FP64-NEXT: jr $ra
202 ; FP64-NEXT: nop
203 entry:
204 %conv = uitofp i16 %a to float
205 ret float %conv
206 }
208 define float @u8tof32(i8 zeroext %a) {
209 ; FP32-LABEL: u8tof32:
210 ; FP32: # %bb.0: # %entry
211 ; FP32-NEXT: andi $1, $4, 255
212 ; FP32-NEXT: lui $2, 17200
213 ; FP32-NEXT: mtc1 $1, $f0
214 ; FP32-NEXT: mtc1 $2, $f1
215 ; FP32-NEXT: lui $2, 17200
216 ; FP32-NEXT: ori $1, $zero, 0
217 ; FP32-NEXT: mtc1 $1, $f2
218 ; FP32-NEXT: mtc1 $2, $f3
219 ; FP32-NEXT: sub.d $f0, $f0, $f2
220 ; FP32-NEXT: cvt.s.d $f0, $f0
221 ; FP32-NEXT: jr $ra
222 ; FP32-NEXT: nop
223 ;
224 ; FP64-LABEL: u8tof32:
225 ; FP64: # %bb.0: # %entry
226 ; FP64-NEXT: andi $1, $4, 255
227 ; FP64-NEXT: lui $2, 17200
228 ; FP64-NEXT: mtc1 $1, $f0
229 ; FP64-NEXT: mthc1 $2, $f0
230 ; FP64-NEXT: lui $2, 17200
231 ; FP64-NEXT: ori $1, $zero, 0
232 ; FP64-NEXT: mtc1 $1, $f1
233 ; FP64-NEXT: mthc1 $2, $f1
234 ; FP64-NEXT: sub.d $f0, $f0, $f1
235 ; FP64-NEXT: cvt.s.d $f0, $f0
236 ; FP64-NEXT: jr $ra
237 ; FP64-NEXT: nop
238 entry:
239 %conv = uitofp i8 %a to float
240 ret float %conv
241 }
243 define double @u64tof64(i64 zeroext %a) {
244 ; MIPS32-LABEL: u64tof64:
245 ; MIPS32: # %bb.0: # %entry
246 ; MIPS32-NEXT: addiu $sp, $sp, -24
247 ; MIPS32-NEXT: .cfi_def_cfa_offset 24
248 ; MIPS32-NEXT: sw $ra, 20($sp) # 4-byte Folded Spill
249 ; MIPS32-NEXT: .cfi_offset 31, -4
250 ; MIPS32-NEXT: jal __floatundidf
251 ; MIPS32-NEXT: nop
252 ; MIPS32-NEXT: lw $ra, 20($sp) # 4-byte Folded Reload
253 ; MIPS32-NEXT: addiu $sp, $sp, 24
254 ; MIPS32-NEXT: jr $ra
255 ; MIPS32-NEXT: nop
256 entry:
257 %conv = uitofp i64 %a to double
258 ret double %conv
259 }
261 define double @u32tof64(i32 zeroext %a) {
262 ; FP32-LABEL: u32tof64:
263 ; FP32: # %bb.0: # %entry
264 ; FP32-NEXT: lui $1, 17200
265 ; FP32-NEXT: mtc1 $4, $f0
266 ; FP32-NEXT: mtc1 $1, $f1
267 ; FP32-NEXT: lui $2, 17200
268 ; FP32-NEXT: ori $1, $zero, 0
269 ; FP32-NEXT: mtc1 $1, $f2
270 ; FP32-NEXT: mtc1 $2, $f3
271 ; FP32-NEXT: sub.d $f0, $f0, $f2
272 ; FP32-NEXT: jr $ra
273 ; FP32-NEXT: nop
274 ;
275 ; FP64-LABEL: u32tof64:
276 ; FP64: # %bb.0: # %entry
277 ; FP64-NEXT: lui $1, 17200
278 ; FP64-NEXT: mtc1 $4, $f0
279 ; FP64-NEXT: mthc1 $1, $f0
280 ; FP64-NEXT: lui $2, 17200
281 ; FP64-NEXT: ori $1, $zero, 0
282 ; FP64-NEXT: mtc1 $1, $f1
283 ; FP64-NEXT: mthc1 $2, $f1
284 ; FP64-NEXT: sub.d $f0, $f0, $f1
285 ; FP64-NEXT: jr $ra
286 ; FP64-NEXT: nop
287 entry:
288 %conv = uitofp i32 %a to double
289 ret double %conv
290 }
292 define double @u16tof64(i16 zeroext %a) {
293 ; FP32-LABEL: u16tof64:
294 ; FP32: # %bb.0: # %entry
295 ; FP32-NEXT: andi $1, $4, 65535
296 ; FP32-NEXT: lui $2, 17200
297 ; FP32-NEXT: mtc1 $1, $f0
298 ; FP32-NEXT: mtc1 $2, $f1
299 ; FP32-NEXT: lui $2, 17200
300 ; FP32-NEXT: ori $1, $zero, 0
301 ; FP32-NEXT: mtc1 $1, $f2
302 ; FP32-NEXT: mtc1 $2, $f3
303 ; FP32-NEXT: sub.d $f0, $f0, $f2
304 ; FP32-NEXT: jr $ra
305 ; FP32-NEXT: nop
306 ;
307 ; FP64-LABEL: u16tof64:
308 ; FP64: # %bb.0: # %entry
309 ; FP64-NEXT: andi $1, $4, 65535
310 ; FP64-NEXT: lui $2, 17200
311 ; FP64-NEXT: mtc1 $1, $f0
312 ; FP64-NEXT: mthc1 $2, $f0
313 ; FP64-NEXT: lui $2, 17200
314 ; FP64-NEXT: ori $1, $zero, 0
315 ; FP64-NEXT: mtc1 $1, $f1
316 ; FP64-NEXT: mthc1 $2, $f1
317 ; FP64-NEXT: sub.d $f0, $f0, $f1
318 ; FP64-NEXT: jr $ra
319 ; FP64-NEXT: nop
320 entry:
321 %conv = uitofp i16 %a to double
322 ret double %conv
323 }
325 define double @u8tof64(i8 zeroext %a) {
326 ; FP32-LABEL: u8tof64:
327 ; FP32: # %bb.0: # %entry
328 ; FP32-NEXT: andi $1, $4, 255
329 ; FP32-NEXT: lui $2, 17200
330 ; FP32-NEXT: mtc1 $1, $f0
331 ; FP32-NEXT: mtc1 $2, $f1
332 ; FP32-NEXT: lui $2, 17200
333 ; FP32-NEXT: ori $1, $zero, 0
334 ; FP32-NEXT: mtc1 $1, $f2
335 ; FP32-NEXT: mtc1 $2, $f3
336 ; FP32-NEXT: sub.d $f0, $f0, $f2
337 ; FP32-NEXT: jr $ra
338 ; FP32-NEXT: nop
339 ;
340 ; FP64-LABEL: u8tof64:
341 ; FP64: # %bb.0: # %entry
342 ; FP64-NEXT: andi $1, $4, 255
343 ; FP64-NEXT: lui $2, 17200
344 ; FP64-NEXT: mtc1 $1, $f0
345 ; FP64-NEXT: mthc1 $2, $f0
346 ; FP64-NEXT: lui $2, 17200
347 ; FP64-NEXT: ori $1, $zero, 0
348 ; FP64-NEXT: mtc1 $1, $f1
349 ; FP64-NEXT: mthc1 $2, $f1
350 ; FP64-NEXT: sub.d $f0, $f0, $f1
351 ; FP64-NEXT: jr $ra
352 ; FP64-NEXT: nop
353 entry:
354 %conv = uitofp i8 %a to double
355 ret double %conv
356 }