// build -goexperiment regabi,regabiargs // Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package main import ( "fmt" "os" "reflect" ) func main() { // Only print if there is a problem Caller2() if FailCount != 0 { fmt.Fprintf(os.Stderr, "FAILURES: %d\n", FailCount) os.Exit(2) } } var ParamFailCount int var ReturnFailCount int var FailCount int var Mode string type UtilsType int //go:noinline func NoteFailure(cm int, pidx int, fidx int, pkg string, pref string, parmNo int, isret bool, _ uint64) { if isret { if ParamFailCount != 0 { return } ReturnFailCount++ } else { ParamFailCount++ } fmt.Fprintf(os.Stderr, "Error: fail %s |%d|%d|%d| =%s.Test%d= %s %d\n", Mode, cm, pidx, fidx, pkg, fidx, pref, parmNo) if ParamFailCount+FailCount+ReturnFailCount > 9999 { os.Exit(1) } } //go:noinline func NoteFailureElem(cm int, pidx int, fidx int, pkg string, pref string, parmNo int, elem int, isret bool, _ uint64) { if isret { if ParamFailCount != 0 { return } ReturnFailCount++ } else { ParamFailCount++ } fmt.Fprintf(os.Stderr, "Error: fail %s |%d|%d|%d| =%s.Test%d= %s %d elem %d\n", Mode, cm, pidx, fidx, pkg, fidx, pref, parmNo, elem) if ParamFailCount+FailCount+ReturnFailCount > 9999 { os.Exit(1) } } func BeginFcn() { ParamFailCount = 0 ReturnFailCount = 0 } func EndFcn() { FailCount += ParamFailCount FailCount += ReturnFailCount } func Caller2() { BeginFcn() c0 := StructF2S0{F0: ArrayF2S1E1{New_3(float64(-0.4418990509835844))}} c1 := ArrayF2S2E1{StructF2S1{ /* _: "񊶿(z̽|" */ F1: "􂊇񊶿"}} c2 := int16(4162) c3 := float32(-7.667096e+37) c4 := int64(3202175648847048679) var p0 ArrayF2S0E0 p0 = ArrayF2S0E0{} var p1 uint8 p1 = uint8(57) var p2 uint16 p2 = uint16(10920) var p3 float64 p3 = float64(-1.597256501942112) Mode = "" // 5 returns 4 params r0, r1, r2, r3, r4 := Test2(p0, p1, p2, p3) if !EqualStructF2S0(r0, c0) { NoteFailure(9, 42, 2, "genChecker42", "return", 0, true, uint64(0)) } if r1 != c1 { NoteFailure(9, 42, 2, "genChecker42", "return", 1, true, uint64(0)) } if r2 != c2 { NoteFailure(9, 42, 2, "genChecker42", "return", 2, true, uint64(0)) } if r3 != c3 { NoteFailure(9, 42, 2, "genChecker42", "return", 3, true, uint64(0)) } if r4 != c4 { NoteFailure(9, 42, 2, "genChecker42", "return", 4, true, uint64(0)) } // same call via reflection Mode = "reflect" rc := reflect.ValueOf(Test2) rvslice := rc.Call([]reflect.Value{reflect.ValueOf(p0), reflect.ValueOf(p1), reflect.ValueOf(p2), reflect.ValueOf(p3)}) rr0i := rvslice[0].Interface() rr0v := rr0i.(StructF2S0) if !EqualStructF2S0(rr0v, c0) { NoteFailure(9, 42, 2, "genChecker42", "return", 0, true, uint64(0)) } rr1i := rvslice[1].Interface() rr1v := rr1i.(ArrayF2S2E1) if rr1v != c1 { NoteFailure(9, 42, 2, "genChecker42", "return", 1, true, uint64(0)) } rr2i := rvslice[2].Interface() rr2v := rr2i.(int16) if rr2v != c2 { NoteFailure(9, 42, 2, "genChecker42", "return", 2, true, uint64(0)) } rr3i := rvslice[3].Interface() rr3v := rr3i.(float32) if rr3v != c3 { NoteFailure(9, 42, 2, "genChecker42", "return", 3, true, uint64(0)) } rr4i := rvslice[4].Interface() rr4v := rr4i.(int64) if rr4v != c4 { NoteFailure(9, 42, 2, "genChecker42", "return", 4, true, uint64(0)) } EndFcn() } type StructF0S0 struct { } type ArrayF0S0E2 [2]int16 type ArrayF0S1E1 [1]StructF0S0 type StructF1S0 struct { F0 StructF1S1 _ ArrayF1S0E4 } type StructF1S1 struct { } type StructF1S2 struct { F0 uint32 F1 uint8 F2 string F3 string F4 ArrayF1S1E1 } type StructF1S3 struct { F0 float64 } type StructF1S4 struct { _ int32 F1 float32 } type StructF1S5 struct { F0 uint16 } type StructF1S6 struct { F0 uint8 F1 uint32 } type ArrayF1S0E4 [4]float64 type ArrayF1S1E1 [1]StructF1S3 type ArrayF1S2E2 [2]StructF1S4 type ArrayF1S3E2 [2]StructF1S5 type ArrayF1S4E4 [4]ArrayF1S5E3 type ArrayF1S5E3 [3]string type ArrayF1S6E1 [1]float64 type StructF2S0 struct { F0 ArrayF2S1E1 } // equal func for StructF2S0 //go:noinline func EqualStructF2S0(left StructF2S0, right StructF2S0) bool { return EqualArrayF2S1E1(left.F0, right.F0) } type StructF2S1 struct { _ string F1 string } type ArrayF2S0E0 [0]int8 type ArrayF2S1E1 [1]*float64 // equal func for ArrayF2S1E1 //go:noinline func EqualArrayF2S1E1(left ArrayF2S1E1, right ArrayF2S1E1) bool { return *left[0] == *right[0] } type ArrayF2S2E1 [1]StructF2S1 // 5 returns 4 params //go:registerparams //go:noinline func Test2(p0 ArrayF2S0E0, p1 uint8, _ uint16, p3 float64) (r0 StructF2S0, r1 ArrayF2S2E1, r2 int16, r3 float32, r4 int64) { // consume some stack space, so as to trigger morestack var pad [16]uint64 pad[FailCount&0x1]++ rc0 := StructF2S0{F0: ArrayF2S1E1{New_3(float64(-0.4418990509835844))}} rc1 := ArrayF2S2E1{StructF2S1{ /* _: "񊶿(z̽|" */ F1: "􂊇񊶿"}} rc2 := int16(4162) rc3 := float32(-7.667096e+37) rc4 := int64(3202175648847048679) p1f0c := uint8(57) if p1 != p1f0c { NoteFailureElem(9, 42, 2, "genChecker42", "parm", 1, 0, false, pad[0]) return } _ = uint16(10920) p3f0c := float64(-1.597256501942112) if p3 != p3f0c { NoteFailureElem(9, 42, 2, "genChecker42", "parm", 3, 0, false, pad[0]) return } defer func(p0 ArrayF2S0E0, p1 uint8) { // check parm passed // check parm passed if p1 != p1f0c { NoteFailureElem(9, 42, 2, "genChecker42", "parm", 1, 0, false, pad[0]) return } // check parm captured if p3 != p3f0c { NoteFailureElem(9, 42, 2, "genChecker42", "parm", 3, 0, false, pad[0]) return } }(p0, p1) return rc0, rc1, rc2, rc3, rc4 // 0 addr-taken params, 0 addr-taken returns } //go:noinline func New_3(i float64) *float64 { x := new(float64) *x = i return x }