func (r *reader) value(b *block, x, y ast.Expr, set bool, s ast.Stmt) {
if x2, ok := x.(*ast.UnaryExpr); ok {
x = x2.X
}
var obj types.Object
if _, ok := x.(*ast.StarExpr); !ok { // StarExpr indicates an assignment (*x = y), for which obj must be nil
obj = r.obj(x)
if u, ok := obj.(unknownObject); ok {
if _, ok := s.(*ast.DeclStmt); ok {
obj = types.NewConst(0, u.pkg, u.name, nil, nil)
} else {
var t types.Type
if set {
t = r.scope.Lookup(name(y)).(*types.Var).Type
}
addr := false
if s, ok := s.(*ast.AssignStmt); ok {
if s.Tok == token.DEFINE {
_, addr = s.Rhs[0].(*ast.UnaryExpr)
}
}
if u.recv != nil {
obj = field{types.NewVar(0, u.pkg, u.name, t), u.recv, addr} // it may be a method val, but a non-addressable field is close enough
} else {
if addr {
obj = types.NewVar(0, u.pkg, u.name, t)
} else {
obj = types.NewFunc(0, u.pkg, u.name, types.NewSignature(nil, newVar("", u.recv), nil, nil, false))
}
}
}
//unknown(obj) == true
}
}
n := newValueNode(obj, r.pkg, set)
b.addNode(n)
switch x := x.(type) {
case *ast.SelectorExpr:
r.in(x.X, n.x)
case *ast.StarExpr:
r.in(x.X, n.x)
}
if set {
r.in(y, n.y)
} else {
r.out(y, n.y)
}
r.seq(n, s)
}
func (v *typeView) insertMethod(m *[]*types.Func, elems *[]*typeView, before bool, i int, success, fail func()) {
if !before {
i++
}
sig := &types.Signature{Recv: types.NewVar(0, v.currentPkg, "", *v.typ)}
*m = append((*m)[:i], append([]*types.Func{types.NewFunc(0, v.currentPkg, "", sig)}, (*m)[i:]...)...)
v.refresh()
t := (*elems)[i]
t.edit(func() {
if *t.typ == nil || len(t.name.Text()) == 0 {
*m = append((*m)[:i], (*m)[i+1:]...)
v.refresh()
if fail != nil {
fail()
} else {
if !before {
i--
}
SetKeyFocus((*elems)[i])
}
} else {
if success != nil {
success()
} else {
SetKeyFocus(t)
}
}
})
}
func (v *typeView) insertVar(vs *[]*types.Var, elems *[]*typeView, before bool, i int, success, fail func()) {
if !before {
i++
}
*vs = append((*vs)[:i], append([]*types.Var{types.NewVar(0, v.currentPkg, "", nil)}, (*vs)[i:]...)...)
v.refresh()
t := (*elems)[i]
t.edit(func() {
if *t.typ == nil {
*vs = append((*vs)[:i], (*vs)[i+1:]...)
v.refresh()
if fail != nil {
fail()
} else {
if !before {
i--
}
SetKeyFocus((*elems)[i])
}
} else {
if success != nil {
success()
} else {
SetKeyFocus(t)
}
}
})
}
func (b *browser) KeyPress(event KeyEvent) {
if b.options.canFuncAsVal && event.Shift != b.funcAsVal {
b.funcAsVal = event.Shift
b.refresh()
}
switch event.Key {
case KeyUp:
if b.newObj == nil {
b.i--
if b.i < 0 {
b.i += len(b.objs)
}
b.refresh()
}
case KeyDown:
if b.newObj == nil {
b.i++
if b.i >= len(b.objs) {
b.i -= len(b.objs)
}
b.refresh()
}
case KeyLeft:
if len(b.path) > 0 && b.newObj == nil {
parent := b.path[0]
b.path = b.path[1:]
i := len(b.pathTexts) - 1
b.pathTexts[i].Close()
b.pathTexts = b.pathTexts[:i]
b.clearText()
b.makeCurrent(parent)
}
case KeyEnter:
obj := b.currentObj()
if obj == nil {
return
}
if pkg, ok := obj.(*pkgObject); ok && event.Shift && b.options.mutable && b.newObj == nil {
Show(b.pkgName)
b.pkgName.Accept = func(name string) {
if pkg.pkgName != name {
pkg.pkgName = name
savePackageName(pkg.importPath, name)
}
b.refresh()
SetKeyFocus(b)
}
b.pkgName.Reject = func() {
b.refresh()
SetKeyFocus(b)
}
SetKeyFocus(b.pkgName)
return
}
if event.Command && b.options.mutable && b.newObj == nil {
b.newObj = obj
b.oldName = obj.GetName()
if p, ok := obj.(*pkgObject); ok {
delete(pkgs, p.importPath)
delete(pkgObjects, p.importPath)
} else {
if objs := obj.GetPkg().Scope().Objects; objs[obj.GetName()] == obj {
delete(objs, obj.GetName())
} else {
t, _ := indirect(obj.(*types.Func).Type.(*types.Signature).Recv.Type)
n := t.(*types.Named)
for i, f2 := range n.Methods {
if f2 == obj {
n.Methods = append(n.Methods[:i], n.Methods[i+1:]...)
break
}
}
}
}
b.text.SetText(obj.GetName())
return
}
if obj := b.newObj; obj != nil {
if !b.unique(obj.GetName()) {
return
}
b.newObj = nil
if p, ok := obj.(*pkgObject); ok {
oldImportPath := p.importPath
if len(b.path) > 0 {
parent := b.path[0].(*pkgObject)
p.srcDir = parent.srcDir
p.importPath = path.Join(parent.importPath, p.name)
} else {
dirs := build.Default.SrcDirs()
p.srcDir = dirs[len(dirs)-1]
p.importPath = p.name
}
pkgObjects[p.importPath] = p
if b.oldName != "" {
b.oldName = ""
if err := refactor.MovePackage(oldImportPath, p.importPath); err != nil {
fmt.Printf("error moving package %s: %s\n", oldImportPath, err)
}
b.clearText()
return
}
p.pkgName = p.name
path := p.fullPath()
if err := os.Mkdir(path, 0777); err != nil {
fmt.Printf("error creating %s: %s\n", path, err)
b.clearText()
return
}
} else {
if isMethod(obj) {
recv := b.path[0].(*types.TypeName).Type.(*types.Named)
recv.Methods = append(recv.Methods, obj.(*types.Func))
} else {
pkgs[b.path[0].(*pkgObject).importPath].Scope().Insert(obj)
}
if b.oldName != "" {
newName := obj.GetName()
setObjectName(obj, b.oldName)
oldPaths := []string{fluxPath(obj)}
if t, ok := obj.(*types.TypeName); ok {
for _, m := range t.Type.(*types.Named).Methods {
oldPaths = append(oldPaths, fluxPath(m))
}
}
recv := ""
if isMethod(obj) {
t, _ := indirect(obj.(*types.Func).Type.(*types.Signature).Recv.Type)
recv = t.(*types.Named).Obj.Name
}
if err := refactor.Rename(obj.GetPkg().Path, recv, b.oldName, newName); err != nil {
fmt.Printf("error renaming %v to %v: %v\n", b.oldName, newName, err)
b.oldName = ""
b.clearText()
return
}
setObjectName(obj, newName)
newPaths := []string{fluxPath(obj)}
if t, ok := obj.(*types.TypeName); ok {
for _, m := range t.Type.(*types.Named).Methods {
newPaths = append(newPaths, fluxPath(m))
}
}
for i := range oldPaths {
if err := os.Rename(oldPaths[i], newPaths[i]); err != nil {
fmt.Println("error renaming files: ", err)
}
}
b.oldName = ""
b.clearText()
return
}
}
b.makeCurrent(obj)
}
_, isPkg := obj.(*pkgObject)
_, isType := obj.(*types.TypeName)
if !(isPkg || isType && !b.options.acceptTypes) {
b.finished = true
b.accepted(obj)
return
}
fallthrough
case KeyRight:
if b.newObj == nil {
switch obj := b.currentObj().(type) {
case *pkgObject, *types.TypeName:
if t, ok := obj.(*types.TypeName); ok {
if _, ok = t.Type.(*types.Basic); ok || t.Type == nil || !b.options.enterTypes {
break
}
}
b.path = append(objects{obj}, b.path...)
sep := "."
if _, ok := obj.(*pkgObject); ok {
sep = "/"
}
t := NewText(obj.GetName() + sep)
t.SetTextColor(color(obj, true, b.funcAsVal))
t.SetBackgroundColor(Color{0, 0, 0, .7})
b.Add(t)
x := 0.0
if t, ok := b.lastPathText(); ok {
x = Pos(t).X + Width(t)
}
t.Move(Pt(x, 0))
b.pathTexts = append(b.pathTexts, t)
b.clearText()
}
}
case KeyEscape:
if b.newObj != nil {
if b.oldName != "" {
setObjectName(b.newObj, b.oldName)
b.oldName = ""
if isMethod(b.newObj) {
recv := b.path[0].(*types.TypeName).Type.(*types.Named)
recv.Methods = append(recv.Methods, b.newObj.(*types.Func))
} else {
pkgs[b.path[0].(*pkgObject).importPath].Scope().Insert(b.newObj)
}
} else if b.i < len(b.objs)-1 {
b.i++
}
b.newObj = nil
b.clearText()
} else {
b.cancel()
}
case KeyBackspace:
if !event.Command && len(b.text.Text()) > 0 {
b.text.KeyPress(event)
break
}
fallthrough
case KeyDelete:
if event.Command && b.options.mutable && b.newObj == nil {
b.clearText()
if deleteObj(b.currentObj()) {
if b.i > 0 {
b.i--
}
b.clearText()
}
}
default:
if event.Command && (event.Key == KeyN || event.Key == KeyW || event.Key == KeyQ) {
b.ViewBase.KeyPress(event)
return
}
if !b.options.mutable {
b.text.KeyPress(event)
return
}
makeInPkg := false
var pkg *types.Package
var recv *types.TypeName
if len(b.path) > 0 {
switch obj := b.path[0].(type) {
case *pkgObject:
makeInPkg = true
pkg = pkgs[obj.importPath]
case *types.TypeName:
recv = obj
pkg = obj.Pkg
}
}
makePkgInRoot := len(b.path) == 0 && event.Text == "1"
makeMethod := recv != nil && event.Text == "3"
if b.newObj == nil && event.Command && (makePkgInRoot || makeInPkg || makeMethod) {
switch event.Text {
case "1":
b.newObj = &pkgObject{}
case "2":
t := types.NewTypeName(0, pkg, "", nil)
t.Type = &types.Named{Obj: t}
b.newObj = t
case "3":
sig := &types.Signature{}
if recv != nil {
sig.Recv = newVar("", &types.Pointer{Elem: recv.Type})
}
b.newObj = types.NewFunc(0, pkg, "", sig)
case "4":
b.newObj = types.NewVar(0, pkg, "", nil)
case "5":
b.newObj = types.NewConst(0, pkg, "", nil, nil)
default:
b.text.KeyPress(event)
return
}
b.clearText()
} else {
b.text.KeyPress(event)
}
}
}
func newVar(name string, typ types.Type) *types.Var {
return types.NewVar(0, nil, name, typ)
}
func (n *portsNode) KeyPress(event KeyEvent) {
if f, ok := n.blk.node.(*funcNode); ok && f.literal && event.Key == KeyDown && n.out {
SetKeyFocus(f)
} else if l, ok := n.blk.node.(*loopNode); ok && event.Key == KeyUp {
SetKeyFocus(l)
} else if s, ok := n.blk.node.(*selectNode); ok && event.Key == KeyUp {
s.focusFrom(n)
} else if n.editable && event.Text == "," {
f := n.blk.node.(*funcNode)
sig := f.sig()
newPort := newOutput
ports := &n.outs
vars := &sig.Params
if n.out {
newPort = newInput
ports = &n.ins
vars = &sig.Results
}
v := types.NewVar(0, n.blk.func_().pkg(), "", nil)
p := newPort(n, v)
i := len(*ports)
if focus, ok := KeyFocus(n).(*port); ok {
for j, p := range *ports {
if p == focus {
i = j
break
}
}
if !event.Shift || i == 0 && p.out && sig.Recv != nil {
i++
}
}
n.Add(p)
*ports = append((*ports)[:i], append([]*port{p}, (*ports)[i:]...)...)
n.reform()
Show(p.valView)
p.valView.edit(func() {
if v.Type != nil {
if p.out && sig.Recv != nil {
i--
}
*vars = append((*vars)[:i], append([]*types.Var{v}, (*vars)[i:]...)...)
if i == len(*vars)-1 {
sig.IsVariadic = false
}
n.blk.func_().addPkgRef(v.Type)
SetKeyFocus(p)
} else {
n.removePortBase(p)
}
if f.obj == nil {
f.output.setType(sig)
}
})
} else if n.editable && !n.out && event.Key == KeyPeriod && event.Ctrl {
f := n.blk.node.(*funcNode)
sig := f.sig()
len := len(n.outs)
if len > 0 && (sig.Recv == nil || len > 1) {
p := n.outs[len-1]
if KeyFocus(n) != p {
return
}
sig.IsVariadic = !sig.IsVariadic
p.valView.ellipsis = sig.IsVariadic
if sig.IsVariadic {
p.setType(&types.Slice{p.obj.Type})
} else {
p.setType(p.obj.Type.(*types.Slice).Elem)
}
if f.obj == nil {
f.output.setType(sig)
}
}
} else {
n.nodeBase.KeyPress(event)
}
}
