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gui.go
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gui.go
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// Copyright 2014 The gocui Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gocui
import (
"context"
standardErrors "errors"
"log"
"runtime"
"strings"
"sync"
"time"
"github.com/gdamore/tcell/v2"
"github.com/go-errors/errors"
"github.com/mattn/go-runewidth"
)
// OutputMode represents an output mode, which determines how colors
// are used.
type OutputMode int
var (
// ErrAlreadyBlacklisted is returned when the keybinding is already blacklisted.
ErrAlreadyBlacklisted = standardErrors.New("keybind already blacklisted")
// ErrBlacklisted is returned when the keybinding being parsed / used is blacklisted.
ErrBlacklisted = standardErrors.New("keybind blacklisted")
// ErrNotBlacklisted is returned when a keybinding being whitelisted is not blacklisted.
ErrNotBlacklisted = standardErrors.New("keybind not blacklisted")
// ErrNoSuchKeybind is returned when the keybinding being parsed does not exist.
ErrNoSuchKeybind = standardErrors.New("no such keybind")
// ErrUnknownView allows to assert if a View must be initialized.
ErrUnknownView = standardErrors.New("unknown view")
// ErrQuit is used to decide if the MainLoop finished successfully.
ErrQuit = standardErrors.New("quit")
)
const (
// OutputNormal provides 8-colors terminal mode.
OutputNormal OutputMode = iota
// Output256 provides 256-colors terminal mode.
Output256
// Output216 provides 216 ansi color terminal mode.
Output216
// OutputGrayscale provides greyscale terminal mode.
OutputGrayscale
// OutputTrue provides 24bit color terminal mode.
// This mode is recommended even if your terminal doesn't support
// such mode. The colors are represented exactly as you
// write them (no clamping or truncating). `tcell` should take care
// of what your terminal can do.
OutputTrue
)
type tabClickHandler func(int) error
type tabClickBinding struct {
viewName string
handler tabClickHandler
}
// TODO: would be good to define inbound and outbound click handlers e.g.
// clicking on a file is an inbound thing where we don't care what context you're
// in when it happens, whereas clicking on the main view from the files view is an
// outbound click with a specific handler. But this requires more thinking about
// where handlers should live.
type ViewMouseBinding struct {
// the view that is clicked
ViewName string
// the view that has focus when the click occurs.
FocusedView string
Handler func(ViewMouseBindingOpts) error
Modifier Modifier
// must be a mouse key
Key Key
}
type ViewMouseBindingOpts struct {
X int // i.e. origin x + cursor x
Y int // i.e. origin y + cursor y
}
type GuiMutexes struct {
// tickingMutex ensures we don't have two loops ticking. The point of 'ticking'
// is to refresh the gui rapidly so that loader characters can be animated.
tickingMutex sync.Mutex
ViewsMutex sync.Mutex
}
type PlayMode int
const (
NORMAL PlayMode = iota
RECORDING
REPLAYING
// for the new form of integration tests
REPLAYING_NEW
)
type Recording struct {
KeyEvents []*TcellKeyEventWrapper
ResizeEvents []*TcellResizeEventWrapper
}
type replayedEvents struct {
Keys chan *TcellKeyEventWrapper
Resizes chan *TcellResizeEventWrapper
}
type RecordingConfig struct {
Speed float64
Leeway int
}
// Gui represents the whole User Interface, including the views, layouts
// and keybindings.
type Gui struct {
RecordingConfig
Recording *Recording
// ReplayedEvents is for passing pre-recorded input events, for the purposes of testing
ReplayedEvents replayedEvents
PlayMode PlayMode
StartTime time.Time
tabClickBindings []*tabClickBinding
viewMouseBindings []*ViewMouseBinding
gEvents chan GocuiEvent
userEvents chan userEvent
views []*View
currentView *View
managers []Manager
keybindings []*keybinding
maxX, maxY int
outputMode OutputMode
stop chan struct{}
blacklist []Key
// BgColor and FgColor allow to configure the background and foreground
// colors of the GUI.
BgColor, FgColor, FrameColor Attribute
// SelBgColor and SelFgColor allow to configure the background and
// foreground colors of the frame of the current view.
SelBgColor, SelFgColor, SelFrameColor Attribute
// If Highlight is true, Sel{Bg,Fg}Colors will be used to draw the
// frame of the current view.
Highlight bool
// If ShowListFooter is true then show list footer (i.e. the part that says we're at item 5 out of 10)
ShowListFooter bool
// If Cursor is true then the cursor is enabled.
Cursor bool
// If Mouse is true then mouse events will be enabled.
Mouse bool
// If InputEsc is true, when ESC sequence is in the buffer and it doesn't
// match any known sequence, ESC means KeyEsc.
InputEsc bool
// SupportOverlaps is true when we allow for view edges to overlap with other
// view edges
SupportOverlaps bool
Mutexes GuiMutexes
OnSearchEscape func() error
// these keys must either be of type Key of rune
SearchEscapeKey interface{}
NextSearchMatchKey interface{}
PrevSearchMatchKey interface{}
screen tcell.Screen
suspendedMutex sync.Mutex
suspended bool
}
// NewGui returns a new Gui object with a given output mode.
func NewGui(mode OutputMode, supportOverlaps bool, playMode PlayMode, headless bool, runeReplacements map[rune]string) (*Gui, error) {
g := &Gui{}
var err error
if headless {
err = g.tcellInitSimulation()
} else {
err = g.tcellInit(runeReplacements)
}
if err != nil {
return nil, err
}
if headless || runtime.GOOS == "windows" {
g.maxX, g.maxY = g.screen.Size()
} else {
// TODO: find out if we actually need this bespoke logic for linux
g.maxX, g.maxY, err = g.getTermWindowSize()
if err != nil {
return nil, err
}
}
g.outputMode = mode
g.stop = make(chan struct{})
g.gEvents = make(chan GocuiEvent, 20)
g.userEvents = make(chan userEvent, 20)
if playMode == RECORDING {
g.Recording = &Recording{
KeyEvents: []*TcellKeyEventWrapper{},
ResizeEvents: []*TcellResizeEventWrapper{},
}
} else if playMode == REPLAYING || playMode == REPLAYING_NEW {
g.ReplayedEvents = replayedEvents{
Keys: make(chan *TcellKeyEventWrapper),
Resizes: make(chan *TcellResizeEventWrapper),
}
}
g.BgColor, g.FgColor, g.FrameColor = ColorDefault, ColorDefault, ColorDefault
g.SelBgColor, g.SelFgColor, g.SelFrameColor = ColorDefault, ColorDefault, ColorDefault
// SupportOverlaps is true when we allow for view edges to overlap with other
// view edges
g.SupportOverlaps = supportOverlaps
// default keys for when searching strings in a view
g.SearchEscapeKey = KeyEsc
g.NextSearchMatchKey = 'n'
g.PrevSearchMatchKey = 'N'
g.PlayMode = playMode
return g, nil
}
// Close finalizes the library. It should be called after a successful
// initialization and when gocui is not needed anymore.
func (g *Gui) Close() {
close(g.stop)
Screen.Fini()
}
// Size returns the terminal's size.
func (g *Gui) Size() (x, y int) {
return g.maxX, g.maxY
}
// SetRune writes a rune at the given point, relative to the top-left
// corner of the terminal. It checks if the position is valid and applies
// the given colors.
func (g *Gui) SetRune(v *View, x, y int, ch rune, fgColor, bgColor Attribute) error {
if x < 0 || y < 0 || x >= g.maxX || y >= g.maxY {
// swallowing error because it's not that big of a deal
return nil
}
if v.ConstrainContentsToParent && v.ParentView != nil {
parentX0, parentY0, parentX1, parentY1 := v.ParentView.Dimensions()
if (x <= parentX0) || (x >= parentX1) || (y <= parentY0) || (y >= parentY1) {
return nil
}
}
tcellSetCell(x, y, ch, fgColor, bgColor, g.outputMode)
return nil
}
// Rune returns the rune contained in the cell at the given position.
// It checks if the position is valid.
func (g *Gui) Rune(x, y int) (rune, error) {
if x < 0 || y < 0 || x >= g.maxX || y >= g.maxY {
return ' ', errors.New("invalid point")
}
c, _, _, _ := Screen.GetContent(x, y)
return c, nil
}
// SetView creates a new view with its top-left corner at (x0, y0)
// and the bottom-right one at (x1, y1). If a view with the same name
// already exists, its dimensions are updated; otherwise, the error
// ErrUnknownView is returned, which allows to assert if the View must
// be initialized. It checks if the position is valid.
func (g *Gui) SetView(name string, x0, y0, x1, y1 int, overlaps byte) (*View, error) {
if name == "" {
return nil, errors.New("invalid name")
}
if v, err := g.View(name); err == nil {
if v.x0 != x0 || v.x1 != x1 || v.y0 != y0 || v.y1 != y1 {
v.clearViewLines()
}
v.x0 = x0
v.y0 = y0
v.x1 = x1
v.y1 = y1
return v, nil
}
g.Mutexes.ViewsMutex.Lock()
v := newView(name, x0, y0, x1, y1, g.outputMode)
v.BgColor, v.FgColor = g.BgColor, g.FgColor
v.SelBgColor, v.SelFgColor = g.SelBgColor, g.SelFgColor
v.Overlaps = overlaps
g.views = append(g.views, v)
g.Mutexes.ViewsMutex.Unlock()
return v, errors.Wrap(ErrUnknownView, 0)
}
// SetViewBeneath sets a view stacked beneath another view
func (g *Gui) SetViewBeneath(name string, aboveViewName string, height int) (*View, error) {
aboveView, err := g.View(aboveViewName)
if err != nil {
return nil, err
}
viewTop := aboveView.y1 + 1
return g.SetView(name, aboveView.x0, viewTop, aboveView.x1, viewTop+height-1, 0)
}
// SetViewOnTop sets the given view on top of the existing ones.
func (g *Gui) SetViewOnTop(name string) (*View, error) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
for i, v := range g.views {
if v.name == name {
s := append(g.views[:i], g.views[i+1:]...)
g.views = append(s, v)
return v, nil
}
}
return nil, errors.Wrap(ErrUnknownView, 0)
}
// SetViewOnBottom sets the given view on bottom of the existing ones.
func (g *Gui) SetViewOnBottom(name string) (*View, error) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
for i, v := range g.views {
if v.name == name {
s := append(g.views[:i], g.views[i+1:]...)
g.views = append([]*View{v}, s...)
return v, nil
}
}
return nil, errors.Wrap(ErrUnknownView, 0)
}
func (g *Gui) SetViewOnTopOf(toMove string, other string) error {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
if toMove == other {
return nil
}
// need to find the two current positions and then move toMove before other in the list.
toMoveIndex := -1
otherIndex := -1
for i, v := range g.views {
if v.name == toMove {
toMoveIndex = i
}
if v.name == other {
otherIndex = i
}
}
if toMoveIndex == -1 || otherIndex == -1 {
return errors.Wrap(ErrUnknownView, 0)
}
// already on top
if toMoveIndex > otherIndex {
return nil
}
// need to actually do it the other way around. Last is highest
viewToMove := g.views[toMoveIndex]
g.views = append(g.views[:toMoveIndex], g.views[toMoveIndex+1:]...)
g.views = append(g.views[:otherIndex], append([]*View{viewToMove}, g.views[otherIndex:]...)...)
return nil
}
// replaces the content in toView with the content in fromView
func (g *Gui) CopyContent(fromView *View, toView *View) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
toView.clear()
toView.lines = fromView.lines
toView.viewLines = fromView.viewLines
toView.ox = fromView.ox
toView.oy = fromView.oy
toView.cx = fromView.cx
toView.cy = fromView.cy
}
// Views returns all the views in the GUI.
func (g *Gui) Views() []*View {
return g.views
}
// View returns a pointer to the view with the given name, or error
// ErrUnknownView if a view with that name does not exist.
func (g *Gui) View(name string) (*View, error) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
for _, v := range g.views {
if v.name == name {
return v, nil
}
}
return nil, errors.Wrap(ErrUnknownView, 0)
}
// VisibleViewByPosition returns a pointer to a view matching the given position, or
// error ErrUnknownView if a view in that position does not exist.
func (g *Gui) VisibleViewByPosition(x, y int) (*View, error) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
// traverse views in reverse order checking top views first
for i := len(g.views); i > 0; i-- {
v := g.views[i-1]
if !v.Visible {
continue
}
frameOffset := 0
if v.Frame {
frameOffset = 1
}
if x > v.x0-frameOffset && x < v.x1+frameOffset && y > v.y0-frameOffset && y < v.y1+frameOffset {
return v, nil
}
}
return nil, errors.Wrap(ErrUnknownView, 0)
}
// ViewPosition returns the coordinates of the view with the given name, or
// error ErrUnknownView if a view with that name does not exist.
func (g *Gui) ViewPosition(name string) (x0, y0, x1, y1 int, err error) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
for _, v := range g.views {
if v.name == name {
return v.x0, v.y0, v.x1, v.y1, nil
}
}
return 0, 0, 0, 0, errors.Wrap(ErrUnknownView, 0)
}
// DeleteView deletes a view by name.
func (g *Gui) DeleteView(name string) error {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
for i, v := range g.views {
if v.name == name {
g.views = append(g.views[:i], g.views[i+1:]...)
return nil
}
}
return errors.Wrap(ErrUnknownView, 0)
}
// SetCurrentView gives the focus to a given view.
func (g *Gui) SetCurrentView(name string) (*View, error) {
g.Mutexes.ViewsMutex.Lock()
defer g.Mutexes.ViewsMutex.Unlock()
for _, v := range g.views {
if v.name == name {
g.currentView = v
return v, nil
}
}
return nil, errors.Wrap(ErrUnknownView, 0)
}
// CurrentView returns the currently focused view, or nil if no view
// owns the focus.
func (g *Gui) CurrentView() *View {
return g.currentView
}
// SetKeybinding creates a new keybinding. If viewname equals to ""
// (empty string) then the keybinding will apply to all views. key must
// be a rune or a Key.
//
// When mouse keys are used (MouseLeft, MouseRight, ...), modifier might not work correctly.
// It behaves differently on different platforms. Somewhere it doesn't register Alt key press,
// on others it might report Ctrl as Alt. It's not consistent and therefore it's not recommended
// to use with mouse keys.
func (g *Gui) SetKeybinding(viewname string, key interface{}, mod Modifier, handler func(*Gui, *View) error) error {
var kb *keybinding
k, ch, err := getKey(key)
if err != nil {
return err
}
if g.isBlacklisted(k) {
return ErrBlacklisted
}
kb = newKeybinding(viewname, k, ch, mod, handler)
g.keybindings = append(g.keybindings, kb)
return nil
}
// DeleteKeybinding deletes a keybinding.
func (g *Gui) DeleteKeybinding(viewname string, key interface{}, mod Modifier) error {
k, ch, err := getKey(key)
if err != nil {
return err
}
for i, kb := range g.keybindings {
if kb.viewName == viewname && kb.ch == ch && kb.key == k && kb.mod == mod {
g.keybindings = append(g.keybindings[:i], g.keybindings[i+1:]...)
return nil
}
}
return errors.New("keybinding not found")
}
// DeleteKeybindings deletes all keybindings of view.
func (g *Gui) DeleteAllKeybindings() {
g.keybindings = []*keybinding{}
g.tabClickBindings = []*tabClickBinding{}
g.viewMouseBindings = []*ViewMouseBinding{}
}
// DeleteKeybindings deletes all keybindings of view.
func (g *Gui) DeleteViewKeybindings(viewname string) {
var s []*keybinding
for _, kb := range g.keybindings {
if kb.viewName != viewname {
s = append(s, kb)
}
}
g.keybindings = s
}
// SetTabClickBinding sets a binding for a tab click event
func (g *Gui) SetTabClickBinding(viewName string, handler tabClickHandler) error {
g.tabClickBindings = append(g.tabClickBindings, &tabClickBinding{
viewName: viewName,
handler: handler,
})
return nil
}
func (g *Gui) SetViewClickBinding(binding *ViewMouseBinding) error {
g.viewMouseBindings = append(g.viewMouseBindings, binding)
return nil
}
// BlackListKeybinding adds a keybinding to the blacklist
func (g *Gui) BlacklistKeybinding(k Key) error {
for _, j := range g.blacklist {
if j == k {
return ErrAlreadyBlacklisted
}
}
g.blacklist = append(g.blacklist, k)
return nil
}
// WhiteListKeybinding removes a keybinding from the blacklist
func (g *Gui) WhitelistKeybinding(k Key) error {
for i, j := range g.blacklist {
if j == k {
g.blacklist = append(g.blacklist[:i], g.blacklist[i+1:]...)
return nil
}
}
return ErrNotBlacklisted
}
// getKey takes an empty interface with a key and returns the corresponding
// typed Key or rune.
func getKey(key interface{}) (Key, rune, error) {
switch t := key.(type) {
case nil: // Ignore keybinding if `nil`
return 0, 0, nil
case Key:
return t, 0, nil
case rune:
return 0, t, nil
default:
return 0, 0, errors.New("unknown type")
}
}
// userEvent represents an event triggered by the user.
type userEvent struct {
f func(*Gui) error
}
// Update executes the passed function. This method can be called safely from a
// goroutine in order to update the GUI. It is important to note that the
// passed function won't be executed immediately, instead it will be added to
// the user events queue. Given that Update spawns a goroutine, the order in
// which the user events will be handled is not guaranteed.
func (g *Gui) Update(f func(*Gui) error) {
go g.UpdateAsync(f)
}
// UpdateAsync is a version of Update that does not spawn a go routine, it can
// be a bit more efficient in cases where Update is called many times like when
// tailing a file. In general you should use Update()
func (g *Gui) UpdateAsync(f func(*Gui) error) {
g.userEvents <- userEvent{f: f}
}
// A Manager is in charge of GUI's layout and can be used to build widgets.
type Manager interface {
// Layout is called every time the GUI is redrawn, it must contain the
// base views and its initializations.
Layout(*Gui) error
}
// The ManagerFunc type is an adapter to allow the use of ordinary functions as
// Managers. If f is a function with the appropriate signature, ManagerFunc(f)
// is an Manager object that calls f.
type ManagerFunc func(*Gui) error
// Layout calls f(g)
func (f ManagerFunc) Layout(g *Gui) error {
return f(g)
}
// SetManager sets the given GUI managers. It deletes all views and
// keybindings.
func (g *Gui) SetManager(managers ...Manager) {
g.managers = managers
g.currentView = nil
g.views = nil
g.keybindings = nil
g.tabClickBindings = nil
go func() { g.gEvents <- GocuiEvent{Type: eventResize} }()
}
// SetManagerFunc sets the given manager function. It deletes all views and
// keybindings.
func (g *Gui) SetManagerFunc(manager func(*Gui) error) {
g.SetManager(ManagerFunc(manager))
}
// MainLoop runs the main loop until an error is returned. A successful
// finish should return ErrQuit.
func (g *Gui) MainLoop() error {
g.StartTime = time.Now()
if g.PlayMode == REPLAYING {
go g.replayRecording()
}
go func() {
for {
select {
case <-g.stop:
return
default:
g.gEvents <- g.pollEvent()
}
}
}()
if g.Mouse {
Screen.EnableMouse()
}
for {
select {
case ev := <-g.gEvents:
if err := g.handleEvent(&ev); err != nil {
return err
}
case ev := <-g.userEvents:
if err := ev.f(g); err != nil {
return err
}
}
if err := g.consumeevents(); err != nil {
return err
}
if err := g.flush(); err != nil {
return err
}
}
}
// consumeevents handles the remaining events in the events pool.
func (g *Gui) consumeevents() error {
for {
select {
case ev := <-g.gEvents:
if err := g.handleEvent(&ev); err != nil {
return err
}
case ev := <-g.userEvents:
if err := ev.f(g); err != nil {
return err
}
default:
return nil
}
}
}
// handleEvent handles an event, based on its type (key-press, error,
// etc.)
func (g *Gui) handleEvent(ev *GocuiEvent) error {
switch ev.Type {
case eventKey, eventMouse:
return g.onKey(ev)
case eventError:
return ev.Err
case eventResize:
g.onResize()
return nil
default:
return nil
}
}
func (g *Gui) onResize() {
// not sure if we actually need this
// g.screen.Sync()
}
func (g *Gui) clear(fg, bg Attribute) (int, int) {
st := getTcellStyle(oldStyle{fg: fg, bg: bg, outputMode: g.outputMode})
w, h := Screen.Size()
for row := 0; row < h; row++ {
for col := 0; col < w; col++ {
Screen.SetContent(col, row, ' ', nil, st)
}
}
return w, h
}
// drawFrameEdges draws the horizontal and vertical edges of a view.
func (g *Gui) drawFrameEdges(v *View, fgColor, bgColor Attribute) error {
runeH, runeV := '─', '│'
if len(v.FrameRunes) >= 2 {
runeH, runeV = v.FrameRunes[0], v.FrameRunes[1]
}
for x := v.x0 + 1; x < v.x1 && x < g.maxX; x++ {
if x < 0 {
continue
}
if v.y0 > -1 && v.y0 < g.maxY {
if err := g.SetRune(v, x, v.y0, runeH, fgColor, bgColor); err != nil {
return err
}
}
if v.y1 > -1 && v.y1 < g.maxY {
if err := g.SetRune(v, x, v.y1, runeH, fgColor, bgColor); err != nil {
return err
}
}
}
for y := v.y0 + 1; y < v.y1 && y < g.maxY; y++ {
if y < 0 {
continue
}
if v.x0 > -1 && v.x0 < g.maxX {
if err := g.SetRune(v, v.x0, y, runeV, fgColor, bgColor); err != nil {
return err
}
}
if v.x1 > -1 && v.x1 < g.maxX {
if err := g.SetRune(v, v.x1, y, runeV, fgColor, bgColor); err != nil {
return err
}
}
}
return nil
}
func cornerRune(index byte) rune {
return []rune{' ', '│', '│', '│', '─', '┘', '┐', '┤', '─', '└', '┌', '├', '├', '┴', '┬', '┼'}[index]
}
// cornerCustomRune returns rune from `v.FrameRunes` slice. If the length of slice is less than 11
// all the missing runes will be translated to the default `cornerRune()`
func cornerCustomRune(v *View, index byte) rune {
// Translate `cornerRune()` index
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
// ' ', '│', '│', '│', '─', '┘', '┐', '┤', '─', '└', '┌', '├', '├', '┴', '┬', '┼'
// into `FrameRunes` index
// 0 1 2 3 4 5 6 7 8 9 10
// '─', '│', '┌', '┐', '└', '┘', '├', '┤', '┬', '┴', '┼'
switch index {
case 1, 2, 3:
return v.FrameRunes[1]
case 4, 8:
return v.FrameRunes[0]
case 5:
return v.FrameRunes[5]
case 6:
return v.FrameRunes[3]
case 7:
if len(v.FrameRunes) < 8 {
break
}
return v.FrameRunes[7]
case 9:
return v.FrameRunes[4]
case 10:
return v.FrameRunes[2]
case 11, 12:
if len(v.FrameRunes) < 7 {
break
}
return v.FrameRunes[6]
case 13:
if len(v.FrameRunes) < 10 {
break
}
return v.FrameRunes[9]
case 14:
if len(v.FrameRunes) < 9 {
break
}
return v.FrameRunes[8]
case 15:
if len(v.FrameRunes) < 11 {
break
}
return v.FrameRunes[10]
default:
return ' ' // cornerRune(0)
}
return cornerRune(index)
}
func corner(v *View, directions byte) rune {
index := v.Overlaps | directions
if len(v.FrameRunes) >= 6 {
return cornerCustomRune(v, index)
}
return cornerRune(index)
}
// drawFrameCorners draws the corners of the view.
func (g *Gui) drawFrameCorners(v *View, fgColor, bgColor Attribute) error {
if v.y0 == v.y1 {
if !g.SupportOverlaps && v.x0 >= 0 && v.x1 >= 0 && v.y0 >= 0 && v.x0 < g.maxX && v.x1 < g.maxX && v.y0 < g.maxY {
if err := g.SetRune(v, v.x0, v.y0, '╶', fgColor, bgColor); err != nil {
return err
}
if err := g.SetRune(v, v.x1, v.y0, '╴', fgColor, bgColor); err != nil {
return err
}
}
return nil
}
runeTL, runeTR, runeBL, runeBR := '┌', '┐', '└', '┘'
if len(v.FrameRunes) >= 6 {
runeTL, runeTR, runeBL, runeBR = v.FrameRunes[2], v.FrameRunes[3], v.FrameRunes[4], v.FrameRunes[5]
}
if g.SupportOverlaps {
runeTL = corner(v, BOTTOM|RIGHT)
runeTR = corner(v, BOTTOM|LEFT)
runeBL = corner(v, TOP|RIGHT)
runeBR = corner(v, TOP|LEFT)
}
corners := []struct {
x, y int
ch rune
}{{v.x0, v.y0, runeTL}, {v.x1, v.y0, runeTR}, {v.x0, v.y1, runeBL}, {v.x1, v.y1, runeBR}}
for _, c := range corners {
if c.x >= 0 && c.y >= 0 && c.x < g.maxX && c.y < g.maxY {
if err := g.SetRune(v, c.x, c.y, c.ch, fgColor, bgColor); err != nil {
return err
}
}
}
return nil
}
// drawTitle draws the title of the view.
func (g *Gui) drawTitle(v *View, fgColor, bgColor Attribute) error {
if v.y0 < 0 || v.y0 >= g.maxY {
return nil
}
tabs := v.Tabs
separator := " - "
charIndex := 0
currentTabStart := -1
currentTabEnd := -1
if len(tabs) == 0 {
tabs = []string{v.Title}
} else {
for i, tab := range tabs {
if i == v.TabIndex {
currentTabStart = charIndex
currentTabEnd = charIndex + len(tab)
break
}
charIndex += len(tab)
if i < len(tabs)-1 {
charIndex += len(separator)
}
}
}
str := strings.Join(tabs, separator)
x := v.x0 + 2
for i, ch := range str {
if x < 0 {
continue
} else if x > v.x1-2 || x >= g.maxX {
break
}
currentFgColor := fgColor
currentBgColor := bgColor
// if you are the current view and you have multiple tabs, de-highlight the non-selected tabs
if v == g.currentView && len(v.Tabs) > 0 {
currentFgColor = v.FgColor
currentBgColor = v.BgColor
}
if i >= currentTabStart && i <= currentTabEnd {
currentFgColor = v.SelFgColor
if v != g.currentView {
currentFgColor -= AttrBold
}
}
if err := g.SetRune(v, x, v.y0, ch, currentFgColor, currentBgColor); err != nil {
return err
}
x += runewidth.RuneWidth(ch)
}
return nil
}
// drawSubtitle draws the subtitle of the view.
func (g *Gui) drawSubtitle(v *View, fgColor, bgColor Attribute) error {
if v.y0 < 0 || v.y0 >= g.maxY {
return nil
}
start := v.x1 - 5 - runewidth.StringWidth(v.Subtitle)
if start < v.x0 {
return nil
}
x := start
for _, ch := range v.Subtitle {
if x >= v.x1 {
break
}
if err := g.SetRune(v, x, v.y0, ch, fgColor, bgColor); err != nil {