# RUN: llc -O0 -debugify-and-strip-all-safe -run-pass=regbankselect %s -o - -verify-machineinstrs | FileCheck %s --check-prefix=CHECK --check-prefix=FAST
# RUN: llc -O0 -debugify-and-strip-all-safe -run-pass=regbankselect %s -regbankselect-greedy -o - -verify-machineinstrs | FileCheck %s --check-prefix=CHECK --check-prefix=GREEDY
--- |
; ModuleID = 'generic-virtual-registers-type-error.mir'
target datalayout = "e-m:o-i64:64-i128:128-n32:64-S128"
target triple = "aarch64--"
define void @defaultMapping() {
entry:
ret void
}
define void @defaultMappingVector() {
entry:
ret void
}
define void @defaultMapping1Repair() {
entry:
ret void
}
define void @defaultMapping2Repairs() {
entry:
ret void
}
define void @defaultMappingDefRepair() {
entry:
ret void
}
define void @phiPropagation(ptr %src, ptr %dst, i1 %cond) {
entry:
%srcVal = load i32, ptr %src
br i1 %cond, label %end, label %then
then:
%res = add i32 %srcVal, 36
br label %end
end:
%toStore = phi i32 [ %srcVal, %entry ], [ %res, %then ]
store i32 %toStore, ptr %dst
ret void
}
define void @defaultMappingUseRepairPhysReg() {
entry:
ret void
}
define void @defaultMappingDefRepairPhysReg() {
entry:
ret void
}
define void @greedyMappingOr() {
entry:
ret void
}
define void @greedyMappingOrWithConstraints() {
entry:
ret void
}
define void @ignoreTargetSpecificInst() { ret void }
define void @regBankSelected_property() { ret void }
define void @bitcast_s32_gpr() { ret void }
define void @bitcast_s32_fpr() { ret void }
define void @bitcast_s32_gpr_fpr() { ret void }
define void @bitcast_s32_fpr_gpr() { ret void }
define void @bitcast_s64_gpr() { ret void }
define void @bitcast_s64_fpr() { ret void }
define void @bitcast_s64_gpr_fpr() { ret void }
define void @bitcast_s64_fpr_gpr() { ret void }
define void @bitcast_s128() { ret void }
define void @copy_s128() { ret void }
define void @copy_s128_from_load() { ret void }
define void @copy_fp16() { ret void }
define i64 @greedyWithChainOfComputation(i64 %arg1, ptr %addr) {
%varg1 = bitcast i64 %arg1 to <2 x i32>
%varg2 = load <2 x i32>, ptr %addr
%vres = or <2 x i32> %varg1, %varg2
%res = bitcast <2 x i32> %vres to i64
ret i64 %res
}
define i64 @floatingPointLoad(i64 %arg1, ptr %addr) {
%varg1 = bitcast i64 %arg1 to double
%varg2 = load double, ptr %addr
%vres = fadd double %varg1, %varg2
%res = bitcast double %vres to i64
ret i64 %res
}
define void @floatingPointStore(i64 %arg1, ptr %addr) {
%varg1 = bitcast i64 %arg1 to double
%vres = fadd double %varg1, %varg1
store double %vres, ptr %addr
ret void
}
define void @fp16Ext32() { ret void }
define void @fp16Ext64() { ret void }
define void @fp32Ext64() { ret void }
define half @passFp16(half %p) {
entry:
ret half %p
}
define half @passFp16ViaAllocas(half %p) {
entry:
%p.addr = alloca half, align 2
store half %p, ptr %p.addr, align 2
%0 = load half, ptr %p.addr, align 2
ret half %0
}
...
---
# Check that we assign a relevant register bank for %0.
# Based on the type i32, this should be gpr.
name: defaultMapping
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
body: |
bb.0.entry:
liveins: $x0
; CHECK-LABEL: name: defaultMapping
; CHECK: %1:gpr(s32) = G_ADD %0
%0(s32) = COPY $w0
%1(s32) = G_ADD %0, %0
...
---
# Check that we assign a relevant register bank for %0.
# Based on the type <2 x i32>, this should be fpr.
# FPR is used for both floating point and vector registers.
name: defaultMappingVector
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
body: |
bb.0.entry:
liveins: $d0
; CHECK-LABEL: name: defaultMappingVector
; CHECK: %0:fpr(<2 x s32>) = COPY $d0
; CHECK: %1:fpr(<2 x s32>) = G_ADD %0
%0(<2 x s32>) = COPY $d0
%1(<2 x s32>) = G_ADD %0, %0
...
---
# Check that we repair the assignment for %0.
# Indeed based on the source of the copy it should live
# in FPR, but at the use, it should be GPR.
name: defaultMapping1Repair
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
body: |
bb.0.entry:
liveins: $s0, $x0
; CHECK-LABEL: name: defaultMapping1Repair
; CHECK: %0:fpr(s32) = COPY $s0
; CHECK-NEXT: %1:gpr(s32) = COPY $w0
; CHECK-NEXT: %3:gpr(s32) = COPY %0
; CHECK-NEXT: %2:gpr(s32) = G_ADD %3, %1
%0(s32) = COPY $s0
%1(s32) = COPY $w0
%2(s32) = G_ADD %0, %1
...
# Check that we repair the assignment for %0 differently for both uses.
name: defaultMapping2Repairs
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
body: |
bb.0.entry:
liveins: $s0, $x0
; CHECK-LABEL: name: defaultMapping2Repairs
; CHECK: %0:fpr(s32) = COPY $s0
; CHECK-NEXT: %2:gpr(s32) = COPY %0
; CHECK-NEXT: %3:gpr(s32) = COPY %0
; CHECK-NEXT: %1:gpr(s32) = G_ADD %2, %3
%0(s32) = COPY $s0
%1(s32) = G_ADD %0, %0
...
---
# Check that we repair the definition of %1.
# %1 is forced to be into FPR, but its definition actually
# requires that it lives in GPR. Make sure regbankselect
# fixes that.
name: defaultMappingDefRepair
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: fpr }
body: |
bb.0.entry:
liveins: $w0
; CHECK-LABEL: name: defaultMappingDefRepair
; CHECK: %0:gpr(s32) = COPY $w0
; CHECK-NEXT: %2:gpr(s32) = G_ADD %0, %0
; CHECK-NEXT: %1:fpr(s32) = COPY %2
%0(s32) = COPY $w0
%1(s32) = G_ADD %0, %0
...
---
# Check that we are able to propagate register banks from phis.
name: phiPropagation
legalized: true
tracksRegLiveness: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr32, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: gpr64sp, preferred-register: '' }
# CHECK-NEXT: - { id: 2, class: gpr32, preferred-register: '' }
# CHECK-NEXT: - { id: 3, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 4, class: gpr, preferred-register: '' }
registers:
- { id: 0, class: gpr32 }
- { id: 1, class: gpr64sp }
- { id: 2, class: gpr32 }
- { id: 3, class: _ }
- { id: 4, class: _ }
- { id: 5, class: _ }
body: |
bb.0.entry:
successors: %bb.2.end, %bb.1.then
liveins: $x0, $x1, $w2
%0 = LDRWui killed $x0, 0 :: (load (s32) from %ir.src)
%5(s32) = COPY %0
%1(p0) = COPY $x1
%2 = COPY $w2
TBNZW killed %2, 0, %bb.2.end
bb.1.then:
successors: %bb.2.end
%3(s32) = G_ADD %5, %5
bb.2.end:
%4(s32) = PHI %0, %bb.0.entry, %3, %bb.1.then
G_STORE killed %4, killed %1 :: (store (s32) into %ir.dst)
RET_ReallyLR
...
---
# Make sure we can repair physical register uses as well.
name: defaultMappingUseRepairPhysReg
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
body: |
bb.0.entry:
liveins: $w0, $s0
; CHECK-LABEL: name: defaultMappingUseRepairPhysReg
; CHECK: %0:gpr(s32) = COPY $w0
; CHECK-NEXT: %1:fpr(s32) = COPY $s0
; CHECK-NEXT: %3:gpr(s32) = COPY %1
; CHECK-NEXT: %2:gpr(s32) = G_ADD %0, %3
%0(s32) = COPY $w0
%1(s32) = COPY $s0
%2(s32) = G_ADD %0, %1
...
---
# Make sure we can repair physical register defs.
name: defaultMappingDefRepairPhysReg
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
body: |
bb.0.entry:
liveins: $w0
; CHECK-LABEL: name: defaultMappingDefRepairPhysReg
; CHECK: %0:gpr(s32) = COPY $w0
; CHECK-NEXT: %1:gpr(s32) = G_ADD %0, %0
; CHECK-NEXT: $s0 = COPY %1
%0(s32) = COPY $w0
%1(s32) = G_ADD %0, %0
$s0 = COPY %1
...
---
# Check that the greedy mode is able to switch the
# G_OR instruction from fpr to gpr.
name: greedyMappingOr
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
body: |
bb.0.entry:
liveins: $x0, $x1
; CHECK: %0:gpr(<2 x s32>) = COPY $x0
; CHECK-NEXT: %1:gpr(<2 x s32>) = COPY $x1
; Fast mode tries to reuse the source of the copy for the destination.
; Now, the default mapping says that %0 and %1 need to be in FPR.
; The repairing code insert two copies to materialize that.
; FAST-NEXT: %3:fpr(<2 x s32>) = COPY %0
; FAST-NEXT: %4:fpr(<2 x s32>) = COPY %1
; The mapping of G_OR is on FPR.
; FAST-NEXT: %2:fpr(<2 x s32>) = G_OR %3, %4
; Greedy mode remapped the instruction on the GPR bank.
; GREEDY-NEXT: %2:gpr(<2 x s32>) = G_OR %0, %1
%0(<2 x s32>) = COPY $x0
%1(<2 x s32>) = COPY $x1
%2(<2 x s32>) = G_OR %0, %1
...
---
# Check that the greedy mode is able to switch the
# G_OR instruction from fpr to gpr, while still honoring
# %2 constraint.
name: greedyMappingOrWithConstraints
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: fpr }
body: |
bb.0.entry:
liveins: $x0, $x1
; CHECK-LABEL: name: greedyMappingOrWithConstraints
; CHECK: %0:gpr(<2 x s32>) = COPY $x0
; CHECK-NEXT: %1:gpr(<2 x s32>) = COPY $x1
; Fast mode tries to reuse the source of the copy for the destination.
; Now, the default mapping says that %0 and %1 need to be in FPR.
; The repairing code insert two copies to materialize that.
; FAST-NEXT: %3:fpr(<2 x s32>) = COPY %0
; FAST-NEXT: %4:fpr(<2 x s32>) = COPY %1
; The mapping of G_OR is on FPR.
; FAST-NEXT: %2:fpr(<2 x s32>) = G_OR %3, %4
; Greedy mode remapped the instruction on the GPR bank.
; GREEDY-NEXT: %3:gpr(<2 x s32>) = G_OR %0, %1
; We need to keep %2 into FPR because we do not know anything about it.
; GREEDY-NEXT: %2:fpr(<2 x s32>) = COPY %3
%0(<2 x s32>) = COPY $x0
%1(<2 x s32>) = COPY $x1
%2(<2 x s32>) = G_OR %0, %1
...
---
# CHECK-LABEL: name: ignoreTargetSpecificInst
name: ignoreTargetSpecificInst
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr64, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: gpr64, preferred-register: '' }
registers:
- { id: 0, class: gpr64 }
- { id: 1, class: gpr64 }
body: |
bb.0:
liveins: $x0
; CHECK: %0:gpr64 = COPY $x0
; CHECK-NEXT: %1:gpr64 = ADDXrr %0, %0
; CHECK-NEXT: $x0 = COPY %1
; CHECK-NEXT: RET_ReallyLR implicit $x0
%0 = COPY $x0
%1 = ADDXrr %0, %0
$x0 = COPY %1
RET_ReallyLR implicit $x0
...
---
# Check that we set the "regBankSelected" property.
# CHECK-LABEL: name: regBankSelected_property
# CHECK: legalized: true
# CHECK: regBankSelected: true
name: regBankSelected_property
legalized: true
regBankSelected: false
body: |
bb.0:
...
---
# CHECK-LABEL: name: bitcast_s32_gpr
name: bitcast_s32_gpr
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# FAST-NEXT: - { id: 1, class: fpr, preferred-register: '' }
# GREEDY-NEXT: - { id: 1, class: gpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:gpr(s32) = COPY $w0
# FAST-NEXT: %1:fpr(<4 x s8>) = G_BITCAST %0
# GREEDY-NEXT: %1:gpr(<4 x s8>) = G_BITCAST %0
# The greedy check is incorrect and should produce fpr.
body: |
bb.0:
liveins: $w0
%0(s32) = COPY $w0
%1(<4 x s8>) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s32_fpr
name: bitcast_s32_fpr
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: fpr, preferred-register: '' }
# FAST-NEXT: - { id: 1, class: gpr, preferred-register: '' }
# GREEDY-NEXT: - { id: 1, class: fpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:fpr(<2 x s16>) = COPY $s0
# FAST: %1:gpr(s32) = G_BITCAST %0
# GREEDY: %1:fpr(s32) = G_BITCAST %0
body: |
bb.0:
liveins: $s0
%0(<2 x s16>) = COPY $s0
%1(s32) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s32_gpr_fpr
name: bitcast_s32_gpr_fpr
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# FAST-NEXT: - { id: 1, class: fpr, preferred-register: '' }
# GREEDY-NEXT: - { id: 1, class: gpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:gpr(s32) = COPY $w0
# FAST: %1:fpr(<2 x s16>) = G_BITCAST %0
# GREEDY: %1:gpr(<2 x s16>) = G_BITCAST %0
body: |
bb.0:
liveins: $w0
%0(s32) = COPY $w0
%1(<2 x s16>) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s32_fpr_gpr
name: bitcast_s32_fpr_gpr
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:fpr(<2 x s16>) = COPY $s0
# FAST: %1:gpr(s32) = G_BITCAST %0
# GREEDY: %1:fpr(s32) = G_BITCAST %0
body: |
bb.0:
liveins: $s0
%0(<2 x s16>) = COPY $s0
%1(s32) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s64_gpr
name: bitcast_s64_gpr
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:gpr(s64) = COPY $x0
# FAST: %1:fpr(<2 x s32>) = G_BITCAST %0
# GREEDY: %1:gpr(<2 x s32>) = G_BITCAST %0
body: |
bb.0:
liveins: $x0
%0(s64) = COPY $x0
%1(<2 x s32>) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s64_fpr
name: bitcast_s64_fpr
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:fpr(<2 x s32>) = COPY $d0
# FAST: %1:gpr(s64) = G_BITCAST %0
# GREEDY: %1:fpr(s64) = G_BITCAST %0
body: |
bb.0:
liveins: $d0
%0(<2 x s32>) = COPY $d0
%1(s64) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s64_gpr_fpr
name: bitcast_s64_gpr_fpr
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:gpr(s64) = COPY $x0
# FAST: %1:fpr(<2 x s32>) = G_BITCAST %0
# GREEDY: %1:gpr(<2 x s32>) = G_BITCAST %0
body: |
bb.0:
liveins: $x0
%0(s64) = COPY $x0
%1(<2 x s32>) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s64_fpr_gpr
name: bitcast_s64_fpr_gpr
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: body:
# CHECK: %0:fpr(<2 x s32>) = COPY $d0
# FAST: %1:gpr(s64) = G_BITCAST %0
# GREEDY: %1:fpr(s64) = G_BITCAST %0
body: |
bb.0:
liveins: $d0
%0(<2 x s32>) = COPY $d0
%1(s64) = G_BITCAST %0
...
---
# CHECK-LABEL: name: bitcast_s128
name: bitcast_s128
legalized: true
tracksRegLiveness: true
registers:
- { id: 0, class: _}
- { id: 1, class: _}
- { id: 2, class: _}
- { id: 3, class: _}
# CHECK: %3:fpr(s128) = G_MERGE_VALUES
# CHECK: %2:fpr(<2 x s64>) = G_BITCAST %3(s128)
body: |
bb.1:
liveins: $x0, $x1
%0(s64) = COPY $x0
%1(s64) = COPY $x1
%3(s128) = G_MERGE_VALUES %0(s64), %1(s64)
%2(<2 x s64>) = G_BITCAST %3(s128)
$q0 = COPY %2(<2 x s64>)
RET_ReallyLR implicit $q0
...
---
# CHECK-LABEL: name: copy_s128
# This test checks that we issue the proper mapping
# for copy of size > 64.
# The mapping should be the same as G_BITCAST.
name: copy_s128
legalized: true
tracksRegLiveness: true
registers:
- { id: 0, class: _}
- { id: 1, class: _}
- { id: 2, class: _}
- { id: 3, class: _}
- { id: 4, class: _}
# CHECK: %3:fpr(s128) = G_MERGE_VALUES
# CHECK: %4:fpr(s128) = COPY %3(s128)
# CHECK-NEXT: %2:fpr(<2 x s64>) = G_BITCAST %4(s128)
body: |
bb.1:
liveins: $x0, $x1
%0(s64) = COPY $x0
%1(s64) = COPY $x1
%3(s128) = G_MERGE_VALUES %0(s64), %1(s64)
%4(s128) = COPY %3(s128)
%2(<2 x s64>) = G_BITCAST %4(s128)
$q0 = COPY %2(<2 x s64>)
RET_ReallyLR implicit $q0
...
---
# CHECK-LABEL: name: copy_s128_from_load
# This test checks that we issue the proper mapping
# for copy of size > 64 when the input is neither
# a physcal register nor a generic register.
# This used to crash when we moved to the statically
# computed mapping, because we were assuming non-physregs
# were generic registers and thus have a type, whereas
# it is not necessarily the case.
name: copy_s128_from_load
legalized: true
tracksRegLiveness: true
registers:
- { id: 0, class: fpr128}
- { id: 1, class: _}
# CHECK: registers:
# CHECK: - { id: 0, class: fpr128, preferred-register: '' }
# CHECK: - { id: 1, class: fpr, preferred-register: '' }
# CHECK: %1:fpr(s128) = COPY %0
body: |
bb.1:
liveins: $x0
%0 = LDRQui killed $x0, 0
%1(s128) = COPY %0
$q0 = COPY %1(s128)
RET_ReallyLR implicit $q0
...
---
# CHECK-LABEL: name: copy_fp16
# This test checks that we issue the proper mapping
# for copy of size == 16 when the destination is a fpr
# physical register and the source a gpr.
# We used to crash because we thought that mapping couldn't
# exist in a copy.
name: copy_fp16
legalized: true
tracksRegLiveness: true
registers:
- { id: 0, class: _}
- { id: 1, class: _}
# CHECK: registers:
# CHECK: - { id: 0, class: gpr, preferred-register: '' }
# CHECK: - { id: 1, class: gpr, preferred-register: '' }
# CHECK: %0:gpr(s32) = COPY $w0
# CHECK-NEXT: %1:gpr(s16) = G_TRUNC %0(s32)
body: |
bb.1:
liveins: $w0
%0(s32) = COPY $w0
%1(s16) = G_TRUNC %0(s32)
$h0 = COPY %1(s16)
RET_ReallyLR implicit $h0
...
---
# Make sure the greedy mode is able to take advantage of the
# alternative mappings of G_LOAD to coalesce the whole chain
# of computation on GPR.
# CHECK-LABEL: name: greedyWithChainOfComputation
name: greedyWithChainOfComputation
legalized: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
- { id: 3, class: _ }
- { id: 4, class: _ }
- { id: 5, class: _ }
# No repairing should be necessary for both modes.
# CHECK: %0:gpr(s64) = COPY $x0
# CHECK-NEXT: %1:gpr(p0) = COPY $x1
# FAST-NEXT: %2:fpr(<2 x s32>) = G_BITCAST %0(s64)
# FAST-NEXT: %3:fpr(<2 x s32>) = G_LOAD %1(p0) :: (load (<2 x s32>) from %ir.addr)
# FAST-NEXT: %4:fpr(<2 x s32>) = G_OR %2, %3
# GREEDY-NEXT: %2:gpr(<2 x s32>) = G_BITCAST %0(s64)
# GREEDY-NEXT: %3:gpr(<2 x s32>) = G_LOAD %1(p0) :: (load (<2 x s32>) from %ir.addr)
# GREEDY-NEXT: %4:gpr(<2 x s32>) = G_OR %2, %3
# CHECK-NEXT: %5:gpr(s64) = G_BITCAST %4(<2 x s32>)
# CHECK-NEXT: $x0 = COPY %5(s64)
# CHECK-NEXT: RET_ReallyLR implicit $x0
body: |
bb.0:
liveins: $x0, $x1
%0(s64) = COPY $x0
%1(p0) = COPY $x1
%2(<2 x s32>) = G_BITCAST %0(s64)
%3(<2 x s32>) = G_LOAD %1(p0) :: (load (<2 x s32>) from %ir.addr)
%4(<2 x s32>) = G_OR %2, %3
%5(s64) = G_BITCAST %4(<2 x s32>)
$x0 = COPY %5(s64)
RET_ReallyLR implicit $x0
...
---
# Make sure we map what looks like floating point
# loads to floating point register bank.
# CHECK-LABEL: name: floatingPointLoad
name: floatingPointLoad
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 2, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 3, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 4, class: fpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
- { id: 3, class: _ }
# No repairing should be necessary for both modes.
# CHECK: %0:gpr(s64) = COPY $x0
# CHECK-NEXT: %1:gpr(p0) = COPY $x1
# CHECK-NEXT: %2:fpr(s64) = G_LOAD %1(p0) :: (load (s64) from %ir.addr)
# %0 has been mapped to GPR, we need to repair to match FPR.
# CHECK-NEXT: %4:fpr(s64) = COPY %0
# CHECK-NEXT: %3:fpr(s64) = G_FADD %4, %2
# CHECK-NEXT: $x0 = COPY %3(s64)
# CHECK-NEXT: RET_ReallyLR implicit $x0
body: |
bb.0:
liveins: $x0, $x1
%0(s64) = COPY $x0
%1(p0) = COPY $x1
%2(s64) = G_LOAD %1(p0) :: (load (s64) from %ir.addr)
%3(s64) = G_FADD %0, %2
$x0 = COPY %3(s64)
RET_ReallyLR implicit $x0
...
---
# Make sure we map what looks like floating point
# stores to floating point register bank.
# CHECK-LABEL: name: floatingPointStore
name: floatingPointStore
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 2, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 3, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 4, class: fpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
# CHECK: %0:gpr(s64) = COPY $x0
# CHECK-NEXT: %1:gpr(p0) = COPY $x1
# %0 has been mapped to GPR, we need to repair to match FPR.
# CHECK-NEXT: %3:fpr(s64) = COPY %0
# CHECK-NEXT: %4:fpr(s64) = COPY %0
# CHECK-NEXT: %2:fpr(s64) = G_FADD %3, %4
# CHECK-NEXT: G_STORE %2(s64), %1(p0) :: (store (s64) into %ir.addr)
# CHECK-NEXT: RET_ReallyLR
body: |
bb.0:
liveins: $x0, $x1
%0(s64) = COPY $x0
%1(p0) = COPY $x1
%2(s64) = G_FADD %0, %0
G_STORE %2(s64), %1(p0) :: (store (s64) into %ir.addr)
RET_ReallyLR
...
---
# Make sure we map FPEXT on FPR register bank.
# CHECK-LABEL: name: fp16Ext32
name: fp16Ext32
alignment: 4
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 2, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 3, class: fpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
# CHECK: %1:gpr(s32) = COPY $w0
# CHECK-NEXT: %0:gpr(s16) = G_TRUNC %1
# %0 has been mapped to GPR, we need to repair to match FPR.
# CHECK-NEXT: %3:fpr(s16) = COPY %0
# CHECK-NEXT: %2:fpr(s32) = G_FPEXT %3
# CHECK-NEXT: $s0 = COPY %2
# CHECK-NEXT: RET_ReallyLR
body: |
bb.1:
liveins: $w0
%1(s32) = COPY $w0
%0(s16) = G_TRUNC %1(s32)
%2(s32) = G_FPEXT %0(s16)
$s0 = COPY %2(s32)
RET_ReallyLR implicit $s0
...
---
# Make sure we map FPEXT on FPR register bank.
# CHECK-LABEL: name: fp16Ext64
name: fp16Ext64
alignment: 4
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 2, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 3, class: fpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
# CHECK: %1:gpr(s32) = COPY $w0
# CHECK-NEXT: %0:gpr(s16) = G_TRUNC %1
# %0 has been mapped to GPR, we need to repair to match FPR.
# CHECK-NEXT: %3:fpr(s16) = COPY %0
# CHECK-NEXT: %2:fpr(s64) = G_FPEXT %3
# CHECK-NEXT: $d0 = COPY %2
# CHECK-NEXT: RET_ReallyLR
body: |
bb.1:
liveins: $w0
%1(s32) = COPY $w0
%0(s16) = G_TRUNC %1(s32)
%2(s64) = G_FPEXT %0(s16)
$d0 = COPY %2(s64)
RET_ReallyLR implicit $d0
...
---
# Make sure we map FPEXT on FPR register bank.
# CHECK-LABEL: name: fp32Ext64
name: fp32Ext64
alignment: 4
legalized: true
# CHECK: registers:
# CHECK-NEXT: - { id: 0, class: gpr, preferred-register: '' }
# CHECK-NEXT: - { id: 1, class: fpr, preferred-register: '' }
# CHECK-NEXT: - { id: 2, class: fpr, preferred-register: '' }
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
# CHECK: %0:gpr(s32) = COPY $w0
# %0 has been mapped to GPR, we need to repair to match FPR.
# CHECK-NEXT: %2:fpr(s32) = COPY %0
# CHECK-NEXT: %1:fpr(s64) = G_FPEXT %2
# CHECK-NEXT: $d0 = COPY %1
# CHECK-NEXT: RET_ReallyLR
body: |
bb.1:
liveins: $w0
%0(s32) = COPY $w0
%1(s64) = G_FPEXT %0(s32)
$d0 = COPY %1(s64)
RET_ReallyLR implicit $d0
...
---
# Make sure we map FP16 ABI on FPR register bank.
# CHECK-LABEL: name: passFp16
# CHECK: registers:
# CHECK: - { id: 0, class: fpr, preferred-register: '' }
# CHECK: %0:fpr(s16) = COPY $h0
# CHECK-NEXT: $h0 = COPY %0(s16)
name: passFp16
alignment: 4
legalized: true
registers:
- { id: 0, class: _ }
body: |
bb.1.entry:
liveins: $h0
%0(s16) = COPY $h0
$h0 = COPY %0(s16)
RET_ReallyLR implicit $h0
...
---
# Make sure we properly detect fp types through copies.
# In that example, the copy comes from an ABI lowering of a fp type.
# CHECK-LABEL: name: passFp16ViaAllocas
# CHECK: registers:
# CHECK: - { id: 0, class: fpr, preferred-register: '' }
# CHECK: - { id: 1, class: gpr, preferred-register: '' }
# CHECK: - { id: 2, class: fpr, preferred-register: '' }
#
# CHECK: %0:fpr(s16) = COPY $h0
# CHECK-NEXT: %1:gpr(p0) = G_FRAME_INDEX %stack.0.p.addr
# If we didn't look through the copy for %0, the default mapping
# would have been on GPR and we would have to insert a copy to move
# the value away from FPR (h0).
# CHECK-NEXT: G_STORE %0(s16), %1(p0) :: (store (s16) into %ir.p.addr)
# If we didn't look through the copy for %2, the default mapping
# would have been on GPR and we would have to insert a copy to move
# the value to FPR (h0).
# CHECK-NEXT: %2:fpr(s16) = G_LOAD %1(p0) :: (load (s16) from %ir.p.addr)
# CHECK-NEXT: $h0 = COPY %2(s16)
name: passFp16ViaAllocas
alignment: 4
legalized: true
tracksRegLiveness: true
registers:
- { id: 0, class: _ }
- { id: 1, class: _ }
- { id: 2, class: _ }
frameInfo:
maxAlignment: 2
stack:
- { id: 0, name: p.addr, size: 2, alignment: 2, stack-id: default }
body: |
bb.1.entry:
liveins: $h0
%0(s16) = COPY $h0
%1(p0) = G_FRAME_INDEX %stack.0.p.addr
G_STORE %0(s16), %1(p0) :: (store (s16) into %ir.p.addr)
%2(s16) = G_LOAD %1(p0) :: (load (s16) from %ir.p.addr)
$h0 = COPY %2(s16)
RET_ReallyLR implicit $h0
...