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https://github.com/golang/go
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A DebugRef associates a source expression E with an ssa.Value V, but until now did not record whether V was the value or the address of E. So, we would guess from the "pointerness" of the Value, leading to confusion in some cases, e.g. type N *N var n N n = &n // lvalue and rvalue are both pointers Now we explicitly record 'IsAddress bool' in DebugRef, and plumb this everywhere: through (*Function).ValueForExpr and (*Program).VarValue, all the way to forming the pointer analysis query. Also: - VarValue now treats each reference to a global distinctly, just like it does for other vars. So: var g int func f() { g = 1 // VarValue(g) == Const(1:int), !isAddress print(g) // VarValue(g) == Global(g), isAddress } - DebugRefs are not emitted for references to predeclared identifiers (nil, built-in). - DebugRefs no longer prevent lifting of an Alloc var into a register; now we update or discard the debug info. - TestValueForExpr: improve coverage of ssa.EnclosingFunction by putting expectations in methods and init funcs, not just normal funcs. - oracle: fix golden file broken by recent (*types.Var).IsField change. R=gri CC=golang-dev https://golang.org/cl/16610045
161 lines
4.0 KiB
Go
161 lines
4.0 KiB
Go
//+build ignore
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package main
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// This file is the input to TestObjValueLookup in source_test.go,
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// which ensures that each occurrence of an ident defining or
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// referring to a func, var or const object can be mapped to its
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// corresponding SSA Value.
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//
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// For every reference to a var object, we use annotations in comments
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// to denote both the expected SSA Value kind, and whether to expect
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// its value (x) or its address (&x).
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//
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// For const and func objects, the results don't vary by reference and
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// are always values not addresses, so no annotations are needed. The
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// declaration is enough.
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import "fmt"
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import "os"
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type J int
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func (*J) method() {}
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const globalConst = 0
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var globalVar int // &globalVar::Global
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func globalFunc() {}
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type I interface {
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interfaceMethod()
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}
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type S struct {
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x int // x::nil
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}
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func main() {
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print(globalVar) // globalVar::UnOp
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globalVar = 1 // globalVar::Const
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var v0 int = 1 // v0::Const (simple local value spec)
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if v0 > 0 { // v0::Const
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v0 = 2 // v0::Const
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}
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print(v0) // v0::Phi
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// v1 is captured and thus implicitly address-taken.
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var v1 int = 1 // v1::Const
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v1 = 2 // v1::Const
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fmt.Println(v1) // v1::UnOp (load)
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f := func(param int) { // f::MakeClosure param::Parameter
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if y := 1; y > 0 { // y::Const
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print(v1, param) // v1::UnOp (load) param::Parameter
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}
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param = 2 // param::Const
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println(param) // param::Const
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}
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f(0) // f::MakeClosure
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var v2 int // v2::Const (implicitly zero-initialized local value spec)
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print(v2) // v2::Const
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m := make(map[string]int) // m::MakeMap
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// Local value spec with multi-valued RHS:
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var v3, v4 = m[""] // v3::Extract v4::Extract m::MakeMap
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print(v3) // v3::Extract
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print(v4) // v4::Extract
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v3++ // v3::BinOp (assign with op)
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v3 += 2 // v3::BinOp (assign with op)
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v5, v6 := false, "" // v5::Const v6::Const (defining assignment)
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print(v5) // v5::Const
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print(v6) // v6::Const
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var v7 S // &v7::Alloc
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v7.x = 1 // &v7::Alloc x::Const
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print(v7.x) // v7::UnOp x::Field
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var v8 [1]int // &v8::Alloc
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v8[0] = 0 // &v8::Alloc
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print(v8[:]) // &v8::Alloc
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_ = v8[0] // v8::UnOp (load from Alloc)
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_ = v8[:][0] // &v8::Alloc
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v8ptr := &v8 // v8ptr::Alloc &v8::Alloc
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_ = v8ptr[0] // v8ptr::Alloc
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_ = *v8ptr // v8ptr::Alloc
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v8a := make([]int, 1) // v8a::MakeSlice
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v8a[0] = 0 // v8a::MakeSlice
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print(v8a[:]) // v8a::MakeSlice
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v9 := S{} // &v9::Alloc
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v10 := &v9 // v10::Alloc &v9::Alloc
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_ = v10 // v10::Alloc
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var v11 *J = nil // v11::Const
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v11.method() // v11::Const
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var v12 J // &v12::Alloc
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v12.method() // &v12::Alloc (implicitly address-taken)
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// NB, in the following, 'method' resolves to the *types.Func
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// of (*J).method, so it doesn't help us locate the specific
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// ssa.Values here: a bound-method closure and a promotion
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// wrapper.
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_ = v11.method // v11::Const
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_ = (*struct{ J }).method
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// These vars are optimised away.
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if false {
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v13 := 0 // v13::nil
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println(v13) // v13::nil
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}
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switch x := 1; x { // x::Const
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case v0: // v0::Phi
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}
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for k, v := range m { // k::Extract v::Extract m::MakeMap
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_ = k // k::Extract
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v++ // v::BinOp
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}
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if y := 0; y > 1 { // y::Const y::Const
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}
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var i interface{} // i::Const (nil interface)
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i = 1 // i::MakeInterface
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switch i := i.(type) { // i::MakeInterface i::MakeInterface
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case int:
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println(i) // i::Extract
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}
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ch := make(chan int) // ch::MakeChan
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select {
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case x := <-ch: // x::UnOp (receive) ch::MakeChan
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_ = x // x::UnOp
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}
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// .Op is an inter-package FieldVal-selection.
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var err os.PathError // &err::Alloc
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_ = err.Op // err::UnOp Op::Field
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_ = &err.Op // &err::Alloc &Op::FieldAddr
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// Exercise corner-cases of lvalues vs rvalues.
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// (Guessing IsAddr from the 'pointerness' won't cut it here.)
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type N *N
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var n N // n::Const
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n1 := n // n1::Const n::Const
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n2 := &n1 // n2::Alloc &n1::Alloc
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n3 := *n2 // n3::UnOp n2::Alloc
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n4 := **n3 // n4::UnOp n3::UnOp
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_ = n4 // n4::UnOp
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}
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