Exemplo n.º 1
0
// If this PointsToSet came from a Pointer of interface kind
// or a reflect.Value, DynamicTypes returns the set of dynamic
// types that it may contain.  (For an interface, they will
// always be concrete types.)
//
// The result is a mapping whose keys are the dynamic types to
// which it may point.  For each pointer-like key type, the
// corresponding map value is a set of pointer abstractions of
// that dynamic type, represented as a []Pointer slice.  Use
// PointsToCombined to merge them.
//
// The result is empty unless CanHaveDynamicTypes(T).
//
func (s PointsToSet) DynamicTypes() *typemap.M {
	var tmap typemap.M
	tmap.SetHasher(s.a.hasher)
	for ifaceObjId := range s.pts {
		if !s.a.isTaggedObject(ifaceObjId) {
			continue // !CanHaveDynamicTypes(tDyn)
		}
		tDyn, v, indirect := s.a.taggedValue(ifaceObjId)
		if indirect {
			panic("indirect tagged object") // implement later
		}
		prev, _ := tmap.At(tDyn).([]Pointer)
		tmap.Set(tDyn, append(prev, Pointer{s.a, nil, v}))
	}
	return &tmap
}
Exemplo n.º 2
0
func checkTypesExpectation(e *expectation, pr *probe) bool {
	var expected typemap.M
	var surplus typemap.M
	exact := true
	for _, g := range e.types {
		if g == types.Typ[types.Invalid] {
			exact = false
			continue
		}
		expected.Set(g, struct{}{})
	}

	if t := pr.instr.Args[0].Type(); !pointer.CanHaveDynamicTypes(t) {
		e.errorf("@types expectation requires an interface- or reflect.Value-typed operand, got %s", t)
		return false
	}

	// Find the set of types that the probe's
	// argument (x in print(x)) may contain.
	for _, T := range pr.arg0.PointsTo().DynamicTypes().Keys() {
		if expected.At(T) != nil {
			expected.Delete(T)
		} else if exact {
			surplus.Set(T, struct{}{})
		}
	}
	// Report set difference:
	ok := true
	if expected.Len() > 0 {
		ok = false
		e.errorf("interface cannot contain these types: %s", expected.KeysString())
	}
	if surplus.Len() > 0 {
		ok = false
		e.errorf("interface may additionally contain these types: %s", surplus.KeysString())
	}
	return ok
}
Exemplo n.º 3
0
func TestTypeMap(t *testing.T) {
	var tmap *typemap.M

	// All methods but Set are safe on on (*T)(nil).
	tmap.Len()
	tmap.At(tPStr1)
	tmap.Delete(tPStr1)
	tmap.KeysString()
	tmap.String()

	tmap = new(typemap.M)

	// Length of empty map.
	if l := tmap.Len(); l != 0 {
		t.Errorf("Len() on empty typemap: got %d, want 0", l)
	}
	// At of missing key.
	if v := tmap.At(tPStr1); v != nil {
		t.Errorf("At() on empty typemap: got %v, want nil", v)
	}
	// Deletion of missing key.
	if tmap.Delete(tPStr1) {
		t.Errorf("Delete() on empty typemap: got true, want false")
	}
	// Set of new key.
	if prev := tmap.Set(tPStr1, "*string"); prev != nil {
		t.Errorf("Set() on empty map returned non-nil previous value %s", prev)
	}

	// Now: {*string: "*string"}

	// Length of non-empty map.
	if l := tmap.Len(); l != 1 {
		t.Errorf("Len(): got %d, want 1", l)
	}
	// At via insertion key.
	if v := tmap.At(tPStr1); v != "*string" {
		t.Errorf("At(): got %q, want \"*string\"", v)
	}
	// At via equal key.
	if v := tmap.At(tPStr2); v != "*string" {
		t.Errorf("At(): got %q, want \"*string\"", v)
	}
	// Iteration over sole entry.
	tmap.Iterate(func(key types.Type, value interface{}) {
		if key != tPStr1 {
			t.Errorf("Iterate: key: got %s, want %s", key, tPStr1)
		}
		if want := "*string"; value != want {
			t.Errorf("Iterate: value: got %s, want %s", value, want)
		}
	})

	// Setion with key equal to present one.
	if prev := tmap.Set(tPStr2, "*string again"); prev != "*string" {
		t.Errorf("Set() previous value: got %s, want \"*string\"", prev)
	}

	// Setion of another association.
	if prev := tmap.Set(tChanInt1, "<-chan int"); prev != nil {
		t.Errorf("Set() previous value: got %s, want nil", prev)
	}

	// Now: {*string: "*string again", <-chan int: "<-chan int"}

	want1 := "{*string: \"*string again\", <-chan int: \"<-chan int\"}"
	want2 := "{<-chan int: \"<-chan int\", *string: \"*string again\"}"
	if s := tmap.String(); s != want1 && s != want2 {
		t.Errorf("String(): got %s, want %s", s, want1)
	}

	want1 = "{*string, <-chan int}"
	want2 = "{<-chan int, *string}"
	if s := tmap.KeysString(); s != want1 && s != want2 {
		t.Errorf("KeysString(): got %s, want %s", s, want1)
	}

	// Keys().
	I := types.IsIdentical
	switch k := tmap.Keys(); {
	case I(k[0], tChanInt1) && I(k[1], tPStr1): // ok
	case I(k[1], tChanInt1) && I(k[0], tPStr1): // ok
	default:
		t.Errorf("Keys(): got %v, want %s", k, want2)
	}

	if l := tmap.Len(); l != 2 {
		t.Errorf("Len(): got %d, want 1", l)
	}
	// At via original key.
	if v := tmap.At(tPStr1); v != "*string again" {
		t.Errorf("At(): got %q, want \"*string again\"", v)
	}
	hamming := 1
	tmap.Iterate(func(key types.Type, value interface{}) {
		switch {
		case I(key, tChanInt1):
			hamming *= 2 // ok
		case I(key, tPStr1):
			hamming *= 3 // ok
		}
	})
	if hamming != 6 {
		t.Errorf("Iterate: hamming: got %d, want %d", hamming, 6)
	}

	if v := tmap.At(tChanInt2); v != "<-chan int" {
		t.Errorf("At(): got %q, want \"<-chan int\"", v)
	}
	// Deletion with key equal to present one.
	if !tmap.Delete(tChanInt2) {
		t.Errorf("Delete() of existing key: got false, want true")
	}

	// Now: {*string: "*string again"}

	if l := tmap.Len(); l != 1 {
		t.Errorf("Len(): got %d, want 1", l)
	}
	// Deletion again.
	if !tmap.Delete(tPStr2) {
		t.Errorf("Delete() of existing key: got false, want true")
	}

	// Now: {}

	if l := tmap.Len(); l != 0 {
		t.Errorf("Len(): got %d, want %d", l, 0)
	}
	if s := tmap.String(); s != "{}" {
		t.Errorf("Len(): got %q, want %q", s, "")
	}
}