setAction({G_BRCOND, S1}, Legal);
- setAction({G_ASHR, S32}, Legal);
- setAction({G_ASHR, 1, S32}, Legal);
-
getActionDefinitionsBuilder({G_ADD, G_SUB, G_MUL, G_UMULH, G_SMULH})
.legalFor({S32})
.scalarize(0);
setAction({G_GEP, 1, IdxTy}, Legal);
}
+ // FIXME: When RegBankSelect inserts copies, it will only create new registers
+ // with scalar types. This means we can end up with G_LOAD/G_STORE/G_GEP
+ // instruction with scalar types for their pointer operands. In assert builds,
+ // the instruction selector will assert if it sees a generic instruction which
+ // isn't legal, so we need to tell it that scalar types are legal for pointer
+ // operands
+ setAction({G_GEP, S64}, Legal);
+
setAction({G_BLOCK_ADDR, CodePtr}, Legal);
getActionDefinitionsBuilder({G_ICMP, G_FCMP})
Shifts.clampScalar(0, S32, S64);
Shifts.clampScalar(1, S32, S32);
- // FIXME: When RegBankSelect inserts copies, it will only create new
- // registers with scalar types. This means we can end up with
- // G_LOAD/G_STORE/G_GEP instruction with scalar types for their pointer
- // operands. In assert builds, the instruction selector will assert
- // if it sees a generic instruction which isn't legal, so we need to
- // tell it that scalar types are legal for pointer operands
- setAction({G_GEP, S64}, Legal);
-
for (unsigned Op : {G_EXTRACT_VECTOR_ELT, G_INSERT_VECTOR_ELT}) {
unsigned VecTypeIdx = Op == G_EXTRACT_VECTOR_ELT ? 1 : 0;
unsigned EltTypeIdx = Op == G_EXTRACT_VECTOR_ELT ? 0 : 1;
projects / llvm / commitdiff