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textarea.go
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package tview
import (
"math"
"strings"
"unicode"
"unicode/utf8"
"github.com/gdamore/tcell/v2"
"github.com/rivo/uniseg"
)
const (
// The minimum capacity of the text area's piece chain slice.
pieceChainMinCap = 10
// The minimum capacity of the text area's edit buffer.
editBufferMinCap = 200
// The maximum number of bytes making up a grapheme cluster. In theory, this
// could be longer but it would be highly unusual.
maxGraphemeClusterSize = 40
// The default value for the [TextArea.minCursorPrefix] variable.
minCursorPrefixDefault = 5
// The default value for the [TextArea.minCursorSuffix] variable.
minCursorSuffixDefault = 3
)
// Types of user actions on a text area.
type taAction int
const (
taActionOther taAction = iota
taActionTypeSpace // Typing a space character.
taActionTypeNonSpace // Typing a non-space character.
taActionBackspace // Deleting the previous character.
taActionDelete // Deleting the next character.
)
// NewLine is the string sequence to be inserted when hitting the Enter key in a
// TextArea. The default is "\n" but you may change it to "\r\n" if required.
var NewLine = "\n"
// textAreaSpan represents a range of text in a text area. The text area widget
// roughly follows the concept of Piece Chains outlined in
// http://www.catch22.net/tuts/neatpad/piece-chains with some modifications.
// This type represents a "span" (or "piece") and thus refers to a subset of the
// text in the editor as part of a doubly-linked list.
//
// In most places where we reference a position in the text, we use a
// three-element int array. The first element is the index of the referenced
// span in the piece chain. The second element is the offset into the span's
// referenced text (relative to the span's start), its value is always >= 0 and
// < span.length. The third element is the state of the text parser at that
// position.
//
// A range of text is represented by a span range which is a starting position
// (3-int array) and an ending position (3-int array). The starting position
// references the first character of the range, the ending position references
// the position after the last character of the range. The end of the text is
// therefore always [3]int{1, 0, 0}, position 0 of the ending sentinel.
//
// Sentinel spans are dummy spans not referring to any text. There are always
// two sentinel spans: the starting span at index 0 of the [TextArea.spans]
// slice and the ending span at index 1.
type textAreaSpan struct {
// Links to the previous and next textAreaSpan objects as indices into the
// [TextArea.spans] slice. The sentinel spans (index 0 and 1) have -1 as
// their previous or next links, respectively.
previous, next int
// The start index and the length of the text segment this span represents.
// If "length" is negative, the span represents a substring of
// [TextArea.initialText] and the actual length is its absolute value. If it
// is positive, the span represents a substring of [TextArea.editText]. For
// the sentinel spans (index 0 and 1), both values will be 0. Others will
// never have a zero length.
offset, length int
}
// textAreaUndoItem represents an undoable edit to the text area. It describes
// the two spans wrapping a text change.
type textAreaUndoItem struct {
before, after int // The index of the copied "before" and "after" spans into the "spans" slice.
originalBefore, originalAfter int // The original indices of the "before" and "after" spans.
pos [3]int // The cursor position to be assumed after applying an undo.
length int // The total text length at the time the undo item was created.
continuation bool // If true, this item is a continuation of the previous undo item. It is handled together with all other undo items in the same continuation sequence.
}
// TextArea implements a simple text editor for multi-line text. Multi-color
// text is not supported. Word-wrapping is enabled by default but can be turned
// off or be changed to character-wrapping.
//
// At this point, a text area cannot be added to a [Form]. This will be added in
// the future.
//
// # Navigation and Editing
//
// A text area is always in editing mode and no other mode exists. The following
// keys can be used to move the cursor (subject to what the user's terminal
// supports and how it is configured):
//
// - Left arrow: Move left.
// - Right arrow: Move right.
// - Down arrow: Move down.
// - Up arrow: Move up.
// - Ctrl-A, Home: Move to the beginning of the current line.
// - Ctrl-E, End: Move to the end of the current line.
// - Ctrl-F, page down: Move down by one page.
// - Ctrl-B, page up: Move up by one page.
// - Alt-Up arrow: Scroll the page up, leaving the cursor in its position.
// - Alt-Down arrow: Scroll the page down, leaving the cursor in its position.
// - Alt-Left arrow: Scroll the page to the left, leaving the cursor in its
// position. Ignored if wrapping is enabled.
// - Alt-Right arrow: Scroll the page to the right, leaving the cursor in its
// position. Ignored if wrapping is enabled.
// - Alt-B, Ctrl-Left arrow: Jump to the beginning of the current or previous
// word.
// - Alt-F, Ctrl-Right arrow: Jump to the end of the current or next word.
//
// Words are defined according to [Unicode Standard Annex #29]. We skip any
// words that contain only spaces or punctuation.
//
// Entering a character will insert it at the current cursor location.
// Subsequent characters are shifted accordingly. If the cursor is outside the
// visible area, any changes to the text will move it into the visible area. The
// following keys can also be used to modify the text:
//
// - Enter: Insert a newline character (see [NewLine]).
// - Tab: Insert a tab character (\t). It will be rendered like [TabSize]
// spaces. (This may eventually be changed to behave like regular tabs.)
// - Ctrl-H, Backspace: Delete one character to the left of the cursor.
// - Ctrl-D, Delete: Delete the character under the cursor (or the first
// character on the next line if the cursor is at the end of a line).
// - Alt-Backspace: Delete the word to the left of the cursor.
// - Ctrl-K: Delete everything under and to the right of the cursor until the
// next newline character.
// - Ctrl-W: Delete from the start of the current word to the left of the
// cursor.
// - Ctrl-U: Delete the current line, i.e. everything after the last newline
// character before the cursor up until the next newline character. This may
// span multiple visible rows if wrapping is enabled.
//
// Text can be selected by moving the cursor while holding the Shift key, to the
// extent that this is supported by the user's terminal. The Ctrl-L key can be
// used to select the entire text. (Ctrl-A already binds to the "Home" key.)
//
// When text is selected:
//
// - Entering a character will replace the selected text with the new
// character.
// - Backspace, delete, Ctrl-H, Ctrl-D: Delete the selected text.
// - Ctrl-Q: Copy the selected text into the clipboard, unselect the text.
// - Ctrl-X: Copy the selected text into the clipboard and delete it.
// - Ctrl-V: Replace the selected text with the clipboard text. If no text is
// selected, the clipboard text will be inserted at the cursor location.
//
// The Ctrl-Q key was chosen for the "copy" function because the Ctrl-C key is
// the default key to stop the application. If your application frees up the
// global Ctrl-C key and you want to bind it to the "copy to clipboard"
// function, you may use [Box.SetInputCapture] to override the Ctrl-Q key to
// implement copying to the clipboard. Note that using your terminal's /
// operating system's key bindings for copy+paste functionality may not have the
// expected effect as tview will not be able to handle these keys. Pasting text
// using your operating system's or terminal's own methods may be very slow as
// each character will be pasted individually. However, some terminals support
// pasting text blocks which is supported by the text area, see
// [Application.EnablePaste] for details.
//
// The default clipboard is an internal text buffer local to this text area
// instance, i.e. the operating system's clipboard is not used. If you want to
// implement your own clipboard (or make use of your operating system's
// clipboard), you can use [TextArea.SetClipboard] which provides all the
// functionality needed to implement your own clipboard.
//
// The text area also supports Undo:
//
// - Ctrl-Z: Undo the last change.
// - Ctrl-Y: Redo the last Undo change.
//
// Undo does not affect the clipboard.
//
// If the mouse is enabled, the following actions are available:
//
// - Left click: Move the cursor to the clicked position or to the end of the
// line if past the last character.
// - Left double-click: Select the word under the cursor.
// - Left click while holding the Shift key: Select text.
// - Scroll wheel: Scroll the text.
//
// [Unicode Standard Annex #29]: https://unicode.org/reports/tr29/
type TextArea struct {
*Box
// Whether or not this text area is disabled/read-only.
disabled bool
// The size of the text area. If set to 0, the text area will use the entire
// available space.
width, height int
// The text to be shown in the text area when it is empty.
placeholder string
// The label text shown, usually when part of a form.
label string
// The width of the text area's label.
labelWidth int
// Styles:
// The label style.
labelStyle tcell.Style
// The style of the text. Background colors different from the Box's
// background color may lead to unwanted artefacts.
textStyle tcell.Style
// The style of the selected text.
selectedStyle tcell.Style
// The style of the placeholder text.
placeholderStyle tcell.Style
// Text manipulation related fields:
// The text area's text prior to any editing. It is referenced by spans with
// a negative length.
initialText string
// Any text that's been added by the user at some point. We only ever append
// to this buffer. It is referenced by spans with a positive length.
editText strings.Builder
// The total length of all text in the text area.
length int
// The maximum number of bytes allowed in the text area. If 0, there is no
// limit.
maxLength int
// The piece chain. The first two spans are sentinel spans which don't
// reference anything and always remain in the same place. Spans are never
// deleted from this slice.
spans []textAreaSpan
// An optional function which transforms grapheme clusters. This can be used
// to hide characters from the screen while preserving the original text.
transform func(cluster, rest string, boundaries int) (newCluster string, newBoundaries int)
// Display, navigation, and cursor related fields:
// If set to true, lines that are longer than the available width are
// wrapped onto the next line. If set to false, any characters beyond the
// available width are discarded.
wrap bool
// If set to true and if wrap is also true, lines are split at spaces or
// after punctuation characters.
wordWrap bool
// The index of the first line shown in the text area.
rowOffset int
// The number of cells to be skipped on each line (not used in wrap mode).
columnOffset int
// The inner height and width of the text area the last time it was drawn.
lastHeight, lastWidth int
// The width of the currently known widest line, as determined by
// [TextArea.extendLines].
widestLine int
// Text positions and states of the start of lines. Each element is a span
// position (see [textAreaSpan]). Not all lines of the text may be contained
// at any time, extend as needed with the [TextArea.extendLines] function.
lineStarts [][3]int
// The cursor always points to the next position where a new character would
// be placed. The selection start is the same as the cursor as long as there
// is no selection. When there is one, the selection is between
// selectionStart and cursor.
cursor, selectionStart struct {
// The row and column in screen space but relative to the start of the
// text which may be outside the text area's box. The column value may
// be larger than where the cursor actually is if the line the cursor
// is on is shorter. The actualColumn is the position as it is seen on
// screen. These three values may not be determined yet, in which case
// the row is negative.
row, column, actualColumn int
// The textAreaSpan position with state for the actual next character.
pos [3]int
}
// The minimum width of text (if available) to be shown left of the cursor.
minCursorPrefix int
// The minimum width of text (if available) to be shown right of the cursor.
minCursorSuffix int
// Set to true when the mouse is dragging to select text.
dragging bool
// Clipboard related fields:
// The internal clipboard.
clipboard string
// The function to call when the user copies/cuts a text selection to the
// clipboard.
copyToClipboard func(string)
// The function to call when the user pastes text from the clipboard.
pasteFromClipboard func() string
// Undo/redo related fields:
// The last action performed by the user.
lastAction taAction
// The undo stack's items. Each item is a copy of the span before the
// modified span range and a copy of the span after the modified span range.
// To undo an action, the two referenced spans are put back into their
// original place. Undos and redos decrease or increase the nextUndo value.
// Thus, the next undo action is not always the last item.
undoStack []textAreaUndoItem
// The current undo/redo position on the undo stack. If no undo or redo has
// been performed yet, this is the same as len(undoStack).
nextUndo int
// Event handlers:
// An optional function which is called when the input has changed.
changed func()
// An optional function which is called when the position of the cursor or
// the selection has changed.
moved func()
// A callback function set by the Form class and called when the user leaves
// this form item.
finished func(tcell.Key)
}
// NewTextArea returns a new text area. Use [TextArea.SetText] to set the
// initial text.
func NewTextArea() *TextArea {
t := &TextArea{
Box: NewBox(),
wrap: true,
wordWrap: true,
placeholderStyle: tcell.StyleDefault.Background(Styles.PrimitiveBackgroundColor).Foreground(Styles.TertiaryTextColor),
labelStyle: tcell.StyleDefault.Foreground(Styles.SecondaryTextColor),
textStyle: tcell.StyleDefault.Background(Styles.PrimitiveBackgroundColor).Foreground(Styles.PrimaryTextColor),
selectedStyle: tcell.StyleDefault.Background(Styles.PrimaryTextColor).Foreground(Styles.PrimitiveBackgroundColor),
spans: make([]textAreaSpan, 2, pieceChainMinCap), // We reserve some space to avoid reallocations right when editing starts.
lastAction: taActionOther,
minCursorPrefix: minCursorPrefixDefault,
minCursorSuffix: minCursorSuffixDefault,
lastWidth: math.MaxInt / 2, // We need this so some functions work before the first draw.
lastHeight: 1,
}
t.editText.Grow(editBufferMinCap)
t.spans[0] = textAreaSpan{previous: -1, next: 1}
t.spans[1] = textAreaSpan{previous: 0, next: -1}
t.cursor.pos = [3]int{1, 0, -1}
t.selectionStart = t.cursor
t.SetClipboard(nil, nil)
return t
}
// SetText sets the text of the text area. All existing text is deleted and
// replaced with the new text. Any edits are discarded, no undos are available.
// This function is typically only used to initialize the text area with a text
// after it has been created. To clear the text area's text (again, no undos),
// provide an empty string.
//
// If cursorAtTheEnd is false, the cursor is placed at the start of the text. If
// it is true, it is placed at the end of the text. For very long texts, placing
// the cursor at the end can be an expensive operation because the entire text
// needs to be parsed and laid out.
//
// If you want to set text and preserve undo functionality, use
// [TextArea.Replace] instead.
func (t *TextArea) SetText(text string, cursorAtTheEnd bool) *TextArea {
t.spans = t.spans[:2]
t.initialText = text
t.editText.Reset()
t.lineStarts = nil
t.length = len(text)
t.rowOffset = 0
t.columnOffset = 0
t.reset()
t.cursor.row, t.cursor.actualColumn, t.cursor.column = 0, 0, 0
t.cursor.pos = [3]int{1, 0, -1}
t.undoStack = t.undoStack[:0]
t.nextUndo = 0
if len(text) > 0 {
t.spans = append(t.spans, textAreaSpan{
previous: 0,
next: 1,
offset: 0,
length: -len(text),
})
t.spans[0].next = 2
t.spans[1].previous = 2
if cursorAtTheEnd {
t.cursor.row = -1
if t.lastWidth > 0 {
t.findCursor(true, 0)
}
} else {
t.cursor.pos = [3]int{2, 0, -1}
}
} else {
t.spans[0].next = 1
t.spans[1].previous = 0
}
t.selectionStart = t.cursor
if t.changed != nil {
t.changed()
}
if t.lastWidth > 0 && t.moved != nil {
t.moved()
}
return t
}
// GetText returns the entire text of the text area. Note that this will newly
// allocate the entire text.
func (t *TextArea) GetText() string {
if t.length == 0 {
return ""
}
var text strings.Builder
text.Grow(t.length)
spanIndex := t.spans[0].next
for spanIndex != 1 {
span := &t.spans[spanIndex]
if span.length < 0 {
text.WriteString(t.initialText[span.offset : span.offset-span.length])
} else {
text.WriteString(t.editText.String()[span.offset : span.offset+span.length])
}
spanIndex = t.spans[spanIndex].next
}
return text.String()
}
// getTextBeforeCursor returns the text of the text area up until the cursor.
// Note that this will result in a new allocation for the returned text.
func (t *TextArea) getTextBeforeCursor() string {
if t.length == 0 || t.cursor.pos[0] == t.spans[0].next && t.cursor.pos[1] == 0 {
return ""
}
var text strings.Builder
spanIndex := t.spans[0].next
for spanIndex != 1 {
span := &t.spans[spanIndex]
length := span.length
if length < 0 {
if t.cursor.pos[0] == spanIndex {
length = -t.cursor.pos[1]
}
text.WriteString(t.initialText[span.offset : span.offset-length])
} else {
if t.cursor.pos[0] == spanIndex {
length = t.cursor.pos[1]
}
text.WriteString(t.editText.String()[span.offset : span.offset+length])
}
if t.cursor.pos[0] == spanIndex {
break
}
spanIndex = t.spans[spanIndex].next
}
return text.String()
}
// getTextAfterCursor returns the text of the text area after the cursor. Note
// that this will result in a new allocation for the returned text.
func (t *TextArea) getTextAfterCursor() string {
if t.length == 0 || t.cursor.pos[0] == 1 {
return ""
}
var text strings.Builder
spanIndex := t.cursor.pos[0]
cursorOffset := t.cursor.pos[1]
for spanIndex != 1 {
span := &t.spans[spanIndex]
length := span.length
if length < 0 {
text.WriteString(t.initialText[span.offset+cursorOffset : span.offset-length])
} else {
text.WriteString(t.editText.String()[span.offset+cursorOffset : span.offset+length])
}
spanIndex = t.spans[spanIndex].next
cursorOffset = 0
}
return text.String()
}
// HasSelection returns whether the selected text is non-empty.
func (t *TextArea) HasSelection() bool {
return t.selectionStart != t.cursor
}
// GetSelection returns the currently selected text and its start and end
// positions within the entire text as a half-open interval. If the returned
// text is an empty string, the start and end positions are the same and can be
// interpreted as the cursor position.
//
// Calling this function will result in string allocations as well as a search
// for text positions. This is expensive if the text has been edited extensively
// already. Use [TextArea.HasSelection] first if you are only interested in
// selected text.
func (t *TextArea) GetSelection() (text string, start int, end int) {
from, to := t.selectionStart.pos, t.cursor.pos
if t.cursor.row < t.selectionStart.row || (t.cursor.row == t.selectionStart.row && t.cursor.actualColumn < t.selectionStart.actualColumn) {
from, to = to, from
}
if from[0] == 1 {
start = t.length
}
if to[0] == 1 {
end = t.length
}
var (
index int
selection strings.Builder
inside bool
)
for span := t.spans[0].next; span != 1; span = t.spans[span].next {
var spanText string
length := t.spans[span].length
if length < 0 {
length = -length
spanText = t.initialText
} else {
spanText = t.editText.String()
}
spanText = spanText[t.spans[span].offset : t.spans[span].offset+length]
if from[0] == span && to[0] == span {
if from != to {
selection.WriteString(spanText[from[1]:to[1]])
}
start = index + from[1]
end = index + to[1]
break
} else if from[0] == span {
if from != to {
selection.WriteString(spanText[from[1]:])
}
start = index + from[1]
inside = true
} else if to[0] == span {
if from != to {
selection.WriteString(spanText[:to[1]])
}
end = index + to[1]
break
} else if inside && from != to {
selection.WriteString(spanText)
}
index += length
}
if selection.Len() != 0 {
text = selection.String()
}
return
}
// GetCursor returns the current cursor position where the first character of
// the entire text is in row 0, column 0. If the user has selected text, the
// "from" values will refer to the beginning of the selection and the "to"
// values to the end of the selection (exclusive). They are the same if there
// is no selection.
func (t *TextArea) GetCursor() (fromRow, fromColumn, toRow, toColumn int) {
fromRow, fromColumn = t.selectionStart.row, t.selectionStart.actualColumn
toRow, toColumn = t.cursor.row, t.cursor.actualColumn
if toRow < fromRow || (toRow == fromRow && toColumn < fromColumn) {
fromRow, fromColumn, toRow, toColumn = toRow, toColumn, fromRow, fromColumn
}
if t.length > 0 && t.wrap && fromColumn >= t.lastWidth { // This happens when a row has text all the way until the end, pushing the cursor outside the viewport.
fromRow++
fromColumn = 0
}
if t.length > 0 && t.wrap && toColumn >= t.lastWidth {
toRow++
toColumn = 0
}
return
}
// GetTextLength returns the string length of the text in the text area.
func (t *TextArea) GetTextLength() int {
return t.length
}
// Replace replaces a section of the text with new text. The start and end
// positions refer to index positions within the entire text string (as a
// half-open interval). They may be the same, in which case text is inserted at
// the given position. If the text is an empty string, text between start and
// end is deleted. Index positions will be shifted to line up with character
// boundaries. A "changed" event will be triggered.
//
// Previous selections are cleared. The cursor will be located at the end of the
// replaced text. Scroll offsets will not be changed. A "moved" event will be
// triggered.
//
// The effects of this function can be undone (and redone) by the user.
func (t *TextArea) Replace(start, end int, text string) *TextArea {
t.Select(start, end)
row := t.selectionStart.row
t.cursor.pos = t.replace(t.selectionStart.pos, t.cursor.pos, text, false)
t.cursor.row = -1
t.truncateLines(row - 1)
t.findCursor(false, row)
t.selectionStart = t.cursor
if t.moved != nil {
t.moved()
}
// The "changed" event will have been triggered by the "replace" function.
return t
}
// Select selects a section of the text. The start and end positions refer to
// index positions within the entire text string (as a half-open interval). They
// may be the same, in which case the cursor is placed at the given position.
// Any previous selection is removed. Scroll offsets will be preserved.
//
// Index positions will be shifted to line up with character boundaries.
func (t *TextArea) Select(start, end int) *TextArea {
oldFrom, oldTo := t.selectionStart, t.cursor
defer func() {
if (oldFrom != t.selectionStart || oldTo != t.cursor) && t.moved != nil {
t.moved()
}
}()
// Clamp input values.
if start < 0 {
start = 0
}
if start > t.length {
start = t.length
}
if end < 0 {
end = 0
}
if end > t.length {
end = t.length
}
if end < start {
start, end = end, start
}
// Find the cursor positions.
var row, index int
t.cursor.row, t.cursor.pos = -1, [3]int{1, 0, -1}
t.selectionStart = t.cursor
RowLoop:
for {
if row >= len(t.lineStarts) {
t.extendLines(t.lastWidth, row)
if row >= len(t.lineStarts) {
break
}
}
// Check the spans of this row.
pos := t.lineStarts[row]
var (
next [3]int
lineIndex int
)
if row+1 < len(t.lineStarts) {
next = t.lineStarts[row+1]
} else {
next = [3]int{1, 0, -1}
}
for {
if pos[0] == next[0] {
if start >= index+lineIndex && start < index+lineIndex+next[1]-pos[1] ||
end >= index+lineIndex && end < index+lineIndex+next[1]-pos[1] ||
next[0] == 1 && (start == t.length || end == t.length) { // Special case for the end of the text.
break
}
index += lineIndex + next[1] - pos[1]
row++
continue RowLoop // Move on to the next row.
} else {
length := t.spans[pos[0]].length
if length < 0 {
length = -length
}
if start >= index+lineIndex && start < index+lineIndex+length-pos[1] ||
end >= index+lineIndex && end < index+lineIndex+length-pos[1] ||
next[0] == 1 && (start == t.length || end == t.length) { // Special case for the end of the text.
break
}
lineIndex += length - pos[1]
pos[0], pos[1] = t.spans[pos[0]].next, 0
}
}
// One of the indices is in this row. Step through it.
pos = t.lineStarts[row]
endPos := pos
var (
cluster, text string
column, width int
)
for pos != next {
if t.selectionStart.row < 0 && start <= index {
t.selectionStart.row, t.selectionStart.column, t.selectionStart.actualColumn = row, column, column
t.selectionStart.pos = pos
}
if t.cursor.row < 0 && end <= index {
t.cursor.row, t.cursor.column, t.cursor.actualColumn = row, column, column
t.cursor.pos = pos
break RowLoop
}
cluster, text, _, width, pos, endPos = t.step(text, pos, endPos)
index += len(cluster)
column += width
}
row++
}
if t.cursor.row < 0 {
t.findCursor(false, 0) // This only happens if we couldn't find the locations above.
t.selectionStart = t.cursor
}
return t
}
// SetWrap sets the flag that, if true, leads to lines that are longer than the
// available width being wrapped onto the next line. If false, any characters
// beyond the available width are not displayed.
func (t *TextArea) SetWrap(wrap bool) *TextArea {
if t.wrap != wrap {
t.wrap = wrap
t.reset()
}
return t
}
// SetWordWrap sets the flag that causes lines that are longer than the
// available width to be wrapped onto the next line at spaces or after
// punctuation marks (according to [Unicode Standard Annex #14]). This flag is
// ignored if the flag set with [TextArea.SetWrap] is false. The text area's
// default is word-wrapping.
//
// [Unicode Standard Annex #14]: https://www.unicode.org/reports/tr14/
func (t *TextArea) SetWordWrap(wrapOnWords bool) *TextArea {
if t.wordWrap != wrapOnWords {
t.wordWrap = wrapOnWords
t.reset()
}
return t
}
// SetPlaceholder sets the text to be displayed when the text area is empty.
func (t *TextArea) SetPlaceholder(placeholder string) *TextArea {
t.placeholder = placeholder
return t
}
// SetLabel sets the text to be displayed before the text area.
func (t *TextArea) SetLabel(label string) *TextArea {
t.label = label
return t
}
// GetLabel returns the text to be displayed before the text area.
func (t *TextArea) GetLabel() string {
return t.label
}
// SetLabelWidth sets the screen width of the label. A value of 0 will cause the
// primitive to use the width of the label string.
func (t *TextArea) SetLabelWidth(width int) *TextArea {
t.labelWidth = width
return t
}
// GetLabelWidth returns the screen width of the label.
func (t *TextArea) GetLabelWidth() int {
return t.labelWidth
}
// SetSize sets the screen size of the input element of the text area. The input
// element is always located next to the label which is always located in the
// top left corner. If any of the values are 0 or larger than the available
// space, the available space will be used.
func (t *TextArea) SetSize(rows, columns int) *TextArea {
t.width = columns
t.height = rows
return t
}
// GetFieldWidth returns this primitive's field width.
func (t *TextArea) GetFieldWidth() int {
return t.width
}
// GetFieldHeight returns this primitive's field height.
func (t *TextArea) GetFieldHeight() int {
return t.height
}
// SetDisabled sets whether or not the item is disabled / read-only.
func (t *TextArea) SetDisabled(disabled bool) FormItem {
t.disabled = disabled
if t.finished != nil {
t.finished(-1)
}
return t
}
// GetDisabled returns whether or not the item is disabled / read-only.
func (t *TextArea) GetDisabled() bool {
return t.disabled
}
// SetMaxLength sets the maximum number of bytes allowed in the text area. A
// value of 0 means there is no limit. If the text area currently contains more
// bytes than this, it may violate this constraint.
func (t *TextArea) SetMaxLength(maxLength int) *TextArea {
t.maxLength = maxLength
return t
}
// setMinCursorPadding sets a minimum width to be reserved left and right of the
// cursor. This is ignored if wrapping is enabled.
func (t *TextArea) setMinCursorPadding(prefix, suffix int) *TextArea {
t.minCursorPrefix = prefix
t.minCursorSuffix = suffix
return t
}
// SetLabelStyle sets the style of the label.
func (t *TextArea) SetLabelStyle(style tcell.Style) *TextArea {
t.labelStyle = style
return t
}
// GetLabelStyle returns the style of the label.
func (t *TextArea) GetLabelStyle() tcell.Style {
return t.labelStyle
}
// SetTextStyle sets the style of the text.
func (t *TextArea) SetTextStyle(style tcell.Style) *TextArea {
t.textStyle = style
return t
}
// GetTextStyle returns the style of the text.
func (t *TextArea) GetTextStyle() tcell.Style {
return t.textStyle
}
// SetSelectedStyle sets the style of the selected text.
func (t *TextArea) SetSelectedStyle(style tcell.Style) *TextArea {
t.selectedStyle = style
return t
}
// SetPlaceholderStyle sets the style of the placeholder text.
func (t *TextArea) SetPlaceholderStyle(style tcell.Style) *TextArea {
t.placeholderStyle = style
return t
}
// GetPlaceholderStyle returns the style of the placeholder text.
func (t *TextArea) GetPlaceholderStyle() tcell.Style {
return t.placeholderStyle
}
// GetOffset returns the text's offset, that is, the number of rows and columns
// skipped during drawing at the top or on the left, respectively. Note that the
// column offset is ignored if wrapping is enabled.
func (t *TextArea) GetOffset() (row, column int) {
return t.rowOffset, t.columnOffset
}
// SetOffset sets the text's offset, that is, the number of rows and columns
// skipped during drawing at the top or on the left, respectively. If wrapping
// is enabled, the column offset is ignored. These values may get adjusted
// automatically to ensure that some text is always visible.
func (t *TextArea) SetOffset(row, column int) *TextArea {
t.rowOffset, t.columnOffset = row, column
return t
}
// SetClipboard allows you to implement your own clipboard by providing a
// function that is called when the user wishes to store text in the clipboard
// (copyToClipboard) and a function that is called when the user wishes to
// retrieve text from the clipboard (pasteFromClipboard).
//
// Providing nil values will cause the default clipboard implementation to be
// used. Note that the default clipboard is local to this text area instance.
// Copying text to other widgets will not work.
func (t *TextArea) SetClipboard(copyToClipboard func(string), pasteFromClipboard func() string) *TextArea {
t.copyToClipboard = copyToClipboard
if t.copyToClipboard == nil {
t.copyToClipboard = func(text string) {
t.clipboard = text
}
}
t.pasteFromClipboard = pasteFromClipboard
if t.pasteFromClipboard == nil {
t.pasteFromClipboard = func() string {
return t.clipboard
}
}
return t
}
// GetClipboardText returns the current text of the clipboard by calling the
// pasteFromClipboard function set with [TextArea.SetClipboard].
func (t *TextArea) GetClipboardText() string {
return t.pasteFromClipboard()
}
// SetChangedFunc sets a handler which is called whenever the text of the text
// area has changed.
func (t *TextArea) SetChangedFunc(handler func()) *TextArea {
t.changed = handler
return t
}
// SetMovedFunc sets a handler which is called whenever the cursor position or
// the text selection has changed.
func (t *TextArea) SetMovedFunc(handler func()) *TextArea {
t.moved = handler
return t
}
// SetFinishedFunc sets a callback invoked when the user leaves this form item.
func (t *TextArea) SetFinishedFunc(handler func(key tcell.Key)) FormItem {
t.finished = handler
return t
}
// Focus is called when this primitive receives focus.
func (t *TextArea) Focus(delegate func(p Primitive)) {
// If we're part of a form and this item is disabled, there's nothing the
// user can do here so we're finished.
if t.finished != nil && t.disabled {
t.finished(-1)
return
}
t.Box.Focus(delegate)
}
// SetFormAttributes sets attributes shared by all form items.
func (t *TextArea) SetFormAttributes(labelWidth int, labelColor, bgColor, fieldTextColor, fieldBgColor tcell.Color) FormItem {
t.labelWidth = labelWidth
t.backgroundColor = bgColor
t.labelStyle = t.labelStyle.Foreground(labelColor)
t.textStyle = tcell.StyleDefault.Foreground(fieldTextColor).Background(fieldBgColor)
return t
}
// replace deletes a range of text and inserts the given text at that position.
// If the resulting text would exceed the maximum length, the function does not
// do anything. The function returns the end position of the deleted/inserted
// range.
//
// The function can hang if "deleteStart" is located after "deleteEnd".