// Copyright 2015 The Tcell Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use file except in compliance with the License. // You may obtain a copy of the license at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package views import ( "github.com/gdamore/tcell" ) // BoxLayout is a container Widget that lays out its child widgets in // either a horizontal row or a vertical column. type BoxLayout struct { view View orient Orientation style tcell.Style // backing style cells []*boxLayoutCell width int height int changed bool WidgetWatchers } type boxLayoutCell struct { widget Widget fill float64 // fill factor - 0.0 means no expansion pad int // count of padding spaces (stretch) frac float64 // calculated residual spacing, used internally view *ViewPort } func (b *BoxLayout) hLayout() { w, h := b.view.Size() totf := 0.0 for _, c := range b.cells { x, y := c.widget.Size() totf += c.fill b.width += x if y > b.height { b.height = y } c.pad = 0 c.frac = 0 } extra := w - b.width if extra < 0 { extra = 0 } resid := extra if totf == 0 { resid = 0 } for _, c := range b.cells { if c.fill > 0 { c.frac = float64(extra) * c.fill / totf c.pad = int(c.frac) c.frac -= float64(c.pad) resid -= c.pad } } // Distribute any left over padding. We try to give it to the // the cells with the highest residual fraction. It should be // the case that no single cell gets more than one more cell. for resid > 0 { var best *boxLayoutCell for _, c := range b.cells { if c.fill == 0 { continue } if best == nil || c.frac > best.frac { best = c } } best.pad++ best.frac = 0 resid-- } x, y, xinc := 0, 0, 0 for _, c := range b.cells { cw, _ := c.widget.Size() xinc = cw + c.pad cw += c.pad c.view.Resize(x, y, cw, h) x += xinc } } func (b *BoxLayout) vLayout() { w, h := b.view.Size() totf := 0.0 for _, c := range b.cells { x, y := c.widget.Size() b.height += y totf += c.fill if x > b.width { b.width = x } c.pad = 0 c.frac = 0 } extra := h - b.height if extra < 0 { extra = 0 } resid := extra if totf == 0 { resid = 0 } for _, c := range b.cells { if c.fill > 0 { c.frac = float64(extra) * c.fill / totf c.pad = int(c.frac) c.frac -= float64(c.pad) resid -= c.pad } } // Distribute any left over padding. We try to give it to the // the cells with the highest residual fraction. It should be // the case that no single cell gets more than one more cell. for resid > 0 { var best *boxLayoutCell for _, c := range b.cells { if c.fill == 0 { continue } if best == nil || c.frac > best.frac { best = c } } best.pad++ best.frac = 0 resid-- } x, y, yinc := 0, 0, 0 for _, c := range b.cells { _, ch := c.widget.Size() yinc = ch + c.pad ch += c.pad c.view.Resize(x, y, w, ch) y += yinc } } func (b *BoxLayout) layout() { if b.view == nil { return } b.width, b.height = 0, 0 switch b.orient { case Horizontal: b.hLayout() case Vertical: b.vLayout() default: panic("Bad orientation") } b.changed = false } // Resize adjusts the layout when the underlying View changes size. func (b *BoxLayout) Resize() { b.layout() // Now also let the children know we resized. for i := range b.cells { b.cells[i].widget.Resize() } b.PostEventWidgetResize(b) } // Draw is called to update the displayed content. func (b *BoxLayout) Draw() { if b.view == nil { return } if b.changed { b.layout() } b.view.Clear() w, h := b.view.Size() for y := 0; y < h; y++ { for x := 0; x < w; x++ { b.view.SetContent(x, y, ' ', nil, b.style) } } for i := range b.cells { b.cells[i].widget.Draw() } } // Size returns the preferred size in character cells (width, height). func (b *BoxLayout) Size() (int, int) { return b.width, b.height } // SetView sets the View object used for the text bar. func (b *BoxLayout) SetView(view View) { b.changed = true b.view = view for _, c := range b.cells { c.view.SetView(view) } } // HandleEvent implements a tcell.EventHandler. The only events // we care about are Widget change events from our children. We // watch for those so that if the child changes, we can arrange // to update our layout. func (b *BoxLayout) HandleEvent(ev tcell.Event) bool { switch ev.(type) { case *EventWidgetContent: // This can only have come from one of our children. b.changed = true return true } for _, c := range b.cells { if c.widget.HandleEvent(ev) { return true } } return false } // AddWidget adds a widget to the end of the BoxLayout. func (b *BoxLayout) AddWidget(widget Widget, fill float64) { c := &boxLayoutCell{ widget: widget, fill: fill, view: NewViewPort(b.view, 0, 0, 0, 0), } c.widget.SetView(c.view) b.cells = append(b.cells, c) b.changed = true widget.Watch(b) b.layout() b.PostEventWidgetContent(b) } // InsertWidget inserts a widget at the given offset. Offset 0 is the // front. If the index is longer than the number of widgets, then it // just gets appended to the end. func (b *BoxLayout) InsertWidget(index int, widget Widget, fill float64) { c := &boxLayoutCell{ widget: widget, fill: fill, view: NewViewPort(b.view, 0, 0, 0, 0), } c.widget.SetView(c.view) if index < 0 { index = 0 } if index > len(b.cells) { index = len(b.cells) } b.cells = append(b.cells, c) copy(b.cells[index+1:], b.cells[index:]) b.cells[index] = c widget.Watch(b) b.layout() b.PostEventWidgetContent(b) } // RemoveWidget removes a Widget from the layout. func (b *BoxLayout) RemoveWidget(widget Widget) { for i := 0; i < len(b.cells); i++ { if b.cells[i].widget == widget { b.cells = append(b.cells[:i], b.cells[i+1:]...) return } } b.changed = true widget.Unwatch(b) b.layout() b.PostEventWidgetContent(b) } // Widgets returns the list of Widgets for this BoxLayout. func (b *BoxLayout) Widgets() []Widget { w := make([]Widget, 0, len(b.cells)) for _, c := range b.cells { w = append(w, c.widget) } return w } // SetOrientation sets the orientation as either Horizontal or Vertical. func (b *BoxLayout) SetOrientation(orient Orientation) { if b.orient != orient { b.orient = orient b.changed = true b.PostEventWidgetContent(b) } } // SetStyle sets the style used. func (b *BoxLayout) SetStyle(style tcell.Style) { b.style = style b.PostEventWidgetContent(b) } // NewBoxLayout creates an empty BoxLayout. func NewBoxLayout(orient Orientation) *BoxLayout { return &BoxLayout{orient: orient} }