| //+build ignore |
| |
| package main |
| |
| // This file is the input to TestValueForExpr in source_test.go, which |
| // ensures that each expression e immediately following a /*@kind*/(x) |
| // annotation, when passed to Function.ValueForExpr(e), returns a |
| // non-nil Value of the same type as e and of kind 'kind'. |
| |
| func f(spilled, unspilled int) { |
| _ = /*@UnOp*/ (spilled) |
| _ = /*@Parameter*/ (unspilled) |
| _ = /*@<nil>*/ (1 + 2) // (constant) |
| i := 0 |
| |
| f := func() (int, int) { return 0, 0 } |
| |
| /*@Call*/ (print( /*@BinOp*/ (i + 1))) |
| _, _ = /*@Call*/ (f()) |
| ch := /*@MakeChan*/ (make(chan int)) |
| /*@UnOp*/ (<-ch) |
| x := /*@UnOp*/ (<-ch) |
| _ = x |
| select { |
| case /*@Extract*/ (<-ch): |
| case x := /*@Extract*/ (<-ch): |
| _ = x |
| } |
| defer /*@Function*/ (func() { |
| })() |
| go /*@Function*/ (func() { |
| })() |
| y := 0 |
| if true && /*@BinOp*/ (bool(y > 0)) { |
| y = 1 |
| } |
| _ = /*@Phi*/ (y) |
| map1 := /*@MakeMap*/ (make(map[string]string)) |
| _ = map1 |
| _ = /*@Slice*/ (make([]int, 0)) |
| _ = /*@MakeClosure*/ (func() { print(spilled) }) |
| |
| sl := []int{} |
| _ = /*@Slice*/ (sl[:0]) |
| |
| _ = /*@<nil>*/ (new(int)) // optimized away |
| tmp := /*@Alloc*/ (new(int)) |
| _ = tmp |
| var iface interface{} |
| _ = /*@TypeAssert*/ (iface.(int)) |
| _ = /*@UnOp*/ (sl[0]) |
| _ = /*@IndexAddr*/ (&sl[0]) |
| _ = /*@Index*/ ([2]int{}[0]) |
| var p *int |
| _ = /*@UnOp*/ (*p) |
| |
| _ = /*@UnOp*/ (global) |
| /*@UnOp*/ (global)[""] = "" |
| /*@Global*/ (global) = map[string]string{} |
| |
| var local t |
| /*UnOp*/ (local.x) = 1 |
| |
| // Exercise corner-cases of lvalues vs rvalues. |
| type N *N |
| var n N |
| /*@UnOp*/ (n) = /*@UnOp*/ (n) |
| /*@ChangeType*/ (n) = /*@Alloc*/ (&n) |
| /*@UnOp*/ (n) = /*@UnOp*/ (*n) |
| /*@UnOp*/ (n) = /*@UnOp*/ (**n) |
| } |
| |
| func complit() { |
| // Composite literals. |
| // We get different results for |
| // - composite literal as value (e.g. operand to print) |
| // - composite literal initializer for addressable value |
| // - composite literal value assigned to blank var |
| |
| // 1. Slices |
| print( /*@Slice*/ ([]int{})) |
| print( /*@Alloc*/ (&[]int{})) |
| print(& /*@Slice*/ ([]int{})) |
| |
| sl1 := /*@Slice*/ ([]int{}) |
| sl2 := /*@Alloc*/ (&[]int{}) |
| sl3 := & /*@Slice*/ ([]int{}) |
| _, _, _ = sl1, sl2, sl3 |
| |
| _ = /*@Slice*/ ([]int{}) |
| _ = /*@<nil>*/ (& /*@Slice*/ ([]int{})) // & optimized away |
| _ = & /*@Slice*/ ([]int{}) |
| |
| // 2. Arrays |
| print( /*@UnOp*/ ([1]int{})) |
| print( /*@Alloc*/ (&[1]int{})) |
| print(& /*@Alloc*/ ([1]int{})) |
| |
| arr1 := /*@Alloc*/ ([1]int{}) |
| arr2 := /*@Alloc*/ (&[1]int{}) |
| arr3 := & /*@Alloc*/ ([1]int{}) |
| _, _, _ = arr1, arr2, arr3 |
| |
| _ = /*@UnOp*/ ([1]int{}) |
| _ = /*@Alloc*/ (& /*@Alloc*/ ([1]int{})) |
| _ = & /*@Alloc*/ ([1]int{}) |
| |
| // 3. Maps |
| type M map[int]int |
| print( /*@MakeMap*/ (M{})) |
| print( /*@Alloc*/ (&M{})) |
| print(& /*@MakeMap*/ (M{})) |
| |
| m1 := /*@MakeMap*/ (M{}) |
| m2 := /*@Alloc*/ (&M{}) |
| m3 := & /*@MakeMap*/ (M{}) |
| _, _, _ = m1, m2, m3 |
| |
| _ = /*@MakeMap*/ (M{}) |
| _ = /*@<nil>*/ (& /*@MakeMap*/ (M{})) // & optimized away |
| _ = & /*@MakeMap*/ (M{}) |
| |
| // 4. Structs |
| print( /*@UnOp*/ (struct{}{})) |
| print( /*@Alloc*/ (&struct{}{})) |
| print(& /*@Alloc*/ (struct{}{})) |
| |
| s1 := /*@Alloc*/ (struct{}{}) |
| s2 := /*@Alloc*/ (&struct{}{}) |
| s3 := & /*@Alloc*/ (struct{}{}) |
| _, _, _ = s1, s2, s3 |
| |
| _ = /*@UnOp*/ (struct{}{}) |
| _ = /*@Alloc*/ (& /*@Alloc*/ (struct{}{})) |
| _ = & /*@Alloc*/ (struct{}{}) |
| } |
| |
| type t struct{ x int } |
| |
| // Ensure we can locate methods of named types. |
| func (t) f(param int) { |
| _ = /*@Parameter*/ (param) |
| } |
| |
| // Ensure we can locate init functions. |
| func init() { |
| m := /*@MakeMap*/ (make(map[string]string)) |
| _ = m |
| } |
| |
| // Ensure we can locate variables in initializer expressions. |
| var global = /*@MakeMap*/ (make(map[string]string)) |