mirror of
https://github.com/charmbracelet/lipgloss.git
synced 2024-10-26 22:57:49 +03:00
f6f93348b0
* feat: switch to term/ansi for text manipulation Use ANSI aware, wide characters support, uniseg backed term/ansi package to calculate string widths, truncate, and wrap strings. Related: https://github.com/muesli/reflow/pull/71 Fixes: https://github.com/charmbracelet/lipgloss/issues/258 Fixes: https://github.com/charmbracelet/lipgloss/issues/220 * Update get.go
522 lines
14 KiB
Go
522 lines
14 KiB
Go
package table
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import (
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"strings"
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"github.com/charmbracelet/lipgloss"
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"github.com/charmbracelet/x/exp/term/ansi"
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)
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// StyleFunc is the style function that determines the style of a Cell.
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//
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// It takes the row and column of the cell as an input and determines the
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// lipgloss Style to use for that cell position.
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//
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// Example:
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//
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// t := table.New().
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// Headers("Name", "Age").
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// Row("Kini", 4).
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// Row("Eli", 1).
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// Row("Iris", 102).
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// StyleFunc(func(row, col int) lipgloss.Style {
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// switch {
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// case row == 0:
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// return HeaderStyle
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// case row%2 == 0:
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// return EvenRowStyle
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// default:
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// return OddRowStyle
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// }
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// })
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type StyleFunc func(row, col int) lipgloss.Style
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// DefaultStyles is a TableStyleFunc that returns a new Style with no attributes.
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func DefaultStyles(_, _ int) lipgloss.Style {
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return lipgloss.NewStyle()
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}
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// Table is a type for rendering tables.
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type Table struct {
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styleFunc StyleFunc
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border lipgloss.Border
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borderTop bool
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borderBottom bool
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borderLeft bool
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borderRight bool
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borderHeader bool
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borderColumn bool
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borderRow bool
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borderStyle lipgloss.Style
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headers []string
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data Data
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width int
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height int
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offset int
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// widths tracks the width of each column.
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widths []int
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// heights tracks the height of each row.
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heights []int
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}
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// New returns a new Table that can be modified through different
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// attributes.
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//
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// By default, a table has no border, no styling, and no rows.
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func New() *Table {
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return &Table{
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styleFunc: DefaultStyles,
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border: lipgloss.RoundedBorder(),
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borderBottom: true,
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borderColumn: true,
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borderHeader: true,
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borderLeft: true,
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borderRight: true,
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borderTop: true,
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data: NewStringData(),
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}
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}
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// ClearRows clears the table rows.
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func (t *Table) ClearRows() *Table {
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t.data = nil
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return t
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}
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// StyleFunc sets the style for a cell based on it's position (row, column).
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func (t *Table) StyleFunc(style StyleFunc) *Table {
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t.styleFunc = style
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return t
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}
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// style returns the style for a cell based on it's position (row, column).
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func (t *Table) style(row, col int) lipgloss.Style {
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if t.styleFunc == nil {
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return lipgloss.NewStyle()
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}
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return t.styleFunc(row, col)
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}
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// Data sets the table data.
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func (t *Table) Data(data Data) *Table {
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t.data = data
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return t
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}
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// Rows appends rows to the table data.
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func (t *Table) Rows(rows ...[]string) *Table {
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for _, row := range rows {
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switch t.data.(type) {
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case *StringData:
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t.data.(*StringData).Append(row)
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}
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}
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return t
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}
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// Row appends a row to the table data.
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func (t *Table) Row(row ...string) *Table {
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switch t.data.(type) {
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case *StringData:
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t.data.(*StringData).Append(row)
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}
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return t
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}
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// Headers sets the table headers.
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func (t *Table) Headers(headers ...string) *Table {
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t.headers = headers
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return t
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}
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// Border sets the table border.
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func (t *Table) Border(border lipgloss.Border) *Table {
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t.border = border
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return t
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}
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// BorderTop sets the top border.
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func (t *Table) BorderTop(v bool) *Table {
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t.borderTop = v
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return t
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}
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// BorderBottom sets the bottom border.
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func (t *Table) BorderBottom(v bool) *Table {
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t.borderBottom = v
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return t
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}
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// BorderLeft sets the left border.
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func (t *Table) BorderLeft(v bool) *Table {
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t.borderLeft = v
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return t
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}
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// BorderRight sets the right border.
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func (t *Table) BorderRight(v bool) *Table {
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t.borderRight = v
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return t
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}
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// BorderHeader sets the header separator border.
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func (t *Table) BorderHeader(v bool) *Table {
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t.borderHeader = v
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return t
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}
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// BorderColumn sets the column border separator.
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func (t *Table) BorderColumn(v bool) *Table {
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t.borderColumn = v
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return t
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}
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// BorderRow sets the row border separator.
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func (t *Table) BorderRow(v bool) *Table {
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t.borderRow = v
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return t
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}
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// BorderStyle sets the style for the table border.
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func (t *Table) BorderStyle(style lipgloss.Style) *Table {
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t.borderStyle = style
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return t
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}
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// Width sets the table width, this auto-sizes the columns to fit the width by
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// either expanding or contracting the widths of each column as a best effort
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// approach.
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func (t *Table) Width(w int) *Table {
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t.width = w
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return t
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}
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// Height sets the table height.
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func (t *Table) Height(h int) *Table {
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t.height = h
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return t
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}
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// Offset sets the table rendering offset.
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func (t *Table) Offset(o int) *Table {
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t.offset = o
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return t
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}
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// String returns the table as a string.
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func (t *Table) String() string {
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hasHeaders := t.headers != nil && len(t.headers) > 0
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hasRows := t.data != nil && t.data.Rows() > 0
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if !hasHeaders && !hasRows {
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return ""
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}
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var s strings.Builder
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// Add empty cells to the headers, until it's the same length as the longest
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// row (only if there are at headers in the first place).
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if hasHeaders {
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for i := len(t.headers); i < t.data.Columns(); i++ {
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t.headers = append(t.headers, "")
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}
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}
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// Initialize the widths.
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t.widths = make([]int, max(len(t.headers), t.data.Columns()))
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t.heights = make([]int, btoi(hasHeaders)+t.data.Rows())
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// The style function may affect width of the table. It's possible to set
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// the StyleFunc after the headers and rows. Update the widths for a final
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// time.
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for i, cell := range t.headers {
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t.widths[i] = max(t.widths[i], lipgloss.Width(t.style(0, i).Render(cell)))
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t.heights[0] = max(t.heights[0], lipgloss.Height(t.style(0, i).Render(cell)))
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}
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for r := 0; r < t.data.Rows(); r++ {
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for i := 0; i < t.data.Columns(); i++ {
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cell := t.data.At(r, i)
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rendered := t.style(r+1, i).Render(cell)
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t.heights[r+btoi(hasHeaders)] = max(t.heights[r+btoi(hasHeaders)], lipgloss.Height(rendered))
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t.widths[i] = max(t.widths[i], lipgloss.Width(rendered))
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}
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}
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// Table Resizing Logic.
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//
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// Given a user defined table width, we must ensure the table is exactly that
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// width. This must account for all borders, column, separators, and column
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// data.
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//
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// In the case where the table is narrower than the specified table width,
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// we simply expand the columns evenly to fit the width.
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// For example, a table with 3 columns takes up 50 characters total, and the
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// width specified is 80, we expand each column by 10 characters, adding 30
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// to the total width.
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//
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// In the case where the table is wider than the specified table width, we
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// _could_ simply shrink the columns evenly but this would result in data
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// being truncated (perhaps unnecessarily). The naive approach could result
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// in very poor cropping of the table data. So, instead of shrinking columns
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// evenly, we calculate the median non-whitespace length of each column, and
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// shrink the columns based on the largest median.
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//
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// For example,
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// ┌──────┬───────────────┬──────────┐
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// │ Name │ Age of Person │ Location │
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// ├──────┼───────────────┼──────────┤
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// │ Kini │ 40 │ New York │
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// │ Eli │ 30 │ London │
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// │ Iris │ 20 │ Paris │
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// └──────┴───────────────┴──────────┘
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//
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// Median non-whitespace length vs column width of each column:
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//
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// Name: 4 / 5
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// Age of Person: 2 / 15
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// Location: 6 / 10
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//
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// The biggest difference is 15 - 2, so we can shrink the 2nd column by 13.
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width := t.computeWidth()
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if width < t.width && t.width > 0 {
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// Table is too narrow, expand the columns evenly until it reaches the
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// desired width.
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var i int
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for width < t.width {
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t.widths[i]++
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width++
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i = (i + 1) % len(t.widths)
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}
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} else if width > t.width && t.width > 0 {
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// Table is too wide, calculate the median non-whitespace length of each
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// column, and shrink the columns based on the largest difference.
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columnMedians := make([]int, len(t.widths))
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for c := range t.widths {
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trimmedWidth := make([]int, t.data.Rows())
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for r := 0; r < t.data.Rows(); r++ {
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renderedCell := t.style(r+btoi(hasHeaders), c).Render(t.data.At(r, c))
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nonWhitespaceChars := lipgloss.Width(strings.TrimRight(renderedCell, " "))
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trimmedWidth[r] = nonWhitespaceChars + 1
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}
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columnMedians[c] = median(trimmedWidth)
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}
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// Find the biggest differences between the median and the column width.
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// Shrink the columns based on the largest difference.
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differences := make([]int, len(t.widths))
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for i := range t.widths {
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differences[i] = t.widths[i] - columnMedians[i]
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}
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for width > t.width {
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index, _ := largest(differences)
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if differences[index] < 1 {
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break
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}
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shrink := min(differences[index], width-t.width)
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t.widths[index] -= shrink
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width -= shrink
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differences[index] = 0
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}
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// Table is still too wide, begin shrinking the columns based on the
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// largest column.
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for width > t.width {
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index, _ := largest(t.widths)
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if t.widths[index] < 1 {
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break
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}
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t.widths[index]--
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width--
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}
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}
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if t.borderTop {
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s.WriteString(t.constructTopBorder())
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s.WriteString("\n")
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}
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if hasHeaders {
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s.WriteString(t.constructHeaders())
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s.WriteString("\n")
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}
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for r := t.offset; r < t.data.Rows(); r++ {
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s.WriteString(t.constructRow(r))
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}
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if t.borderBottom {
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s.WriteString(t.constructBottomBorder())
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}
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return lipgloss.NewStyle().
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MaxHeight(t.computeHeight()).
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MaxWidth(t.width).Render(s.String())
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}
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// computeWidth computes the width of the table in it's current configuration.
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func (t *Table) computeWidth() int {
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width := sum(t.widths) + btoi(t.borderLeft) + btoi(t.borderRight)
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if t.borderColumn {
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width += len(t.widths) - 1
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}
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return width
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}
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// computeHeight computes the height of the table in it's current configuration.
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func (t *Table) computeHeight() int {
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hasHeaders := t.headers != nil && len(t.headers) > 0
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return sum(t.heights) - 1 + btoi(hasHeaders) +
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btoi(t.borderTop) + btoi(t.borderBottom) +
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btoi(t.borderHeader) + t.data.Rows()*btoi(t.borderRow)
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}
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// Render returns the table as a string.
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func (t *Table) Render() string {
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return t.String()
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}
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// constructTopBorder constructs the top border for the table given it's current
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// border configuration and data.
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func (t *Table) constructTopBorder() string {
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var s strings.Builder
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if t.borderLeft {
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s.WriteString(t.borderStyle.Render(t.border.TopLeft))
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}
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for i := 0; i < len(t.widths); i++ {
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s.WriteString(t.borderStyle.Render(strings.Repeat(t.border.Top, t.widths[i])))
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if i < len(t.widths)-1 && t.borderColumn {
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s.WriteString(t.borderStyle.Render(t.border.MiddleTop))
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}
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}
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if t.borderRight {
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s.WriteString(t.borderStyle.Render(t.border.TopRight))
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}
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return s.String()
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}
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// constructBottomBorder constructs the bottom border for the table given it's current
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// border configuration and data.
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func (t *Table) constructBottomBorder() string {
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var s strings.Builder
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if t.borderLeft {
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s.WriteString(t.borderStyle.Render(t.border.BottomLeft))
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}
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for i := 0; i < len(t.widths); i++ {
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s.WriteString(t.borderStyle.Render(strings.Repeat(t.border.Bottom, t.widths[i])))
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if i < len(t.widths)-1 && t.borderColumn {
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s.WriteString(t.borderStyle.Render(t.border.MiddleBottom))
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}
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}
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if t.borderRight {
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s.WriteString(t.borderStyle.Render(t.border.BottomRight))
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}
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return s.String()
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}
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// constructHeaders constructs the headers for the table given it's current
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// header configuration and data.
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func (t *Table) constructHeaders() string {
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var s strings.Builder
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if t.borderLeft {
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s.WriteString(t.borderStyle.Render(t.border.Left))
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}
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for i, header := range t.headers {
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s.WriteString(t.style(0, i).
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MaxHeight(1).
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Width(t.widths[i]).
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MaxWidth(t.widths[i]).
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Render(ansi.Truncate(header, t.widths[i], "…")))
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if i < len(t.headers)-1 && t.borderColumn {
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s.WriteString(t.borderStyle.Render(t.border.Left))
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}
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}
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if t.borderHeader {
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if t.borderRight {
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s.WriteString(t.borderStyle.Render(t.border.Right))
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}
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s.WriteString("\n")
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if t.borderLeft {
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s.WriteString(t.borderStyle.Render(t.border.MiddleLeft))
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}
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for i := 0; i < len(t.headers); i++ {
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s.WriteString(t.borderStyle.Render(strings.Repeat(t.border.Top, t.widths[i])))
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if i < len(t.headers)-1 && t.borderColumn {
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s.WriteString(t.borderStyle.Render(t.border.Middle))
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}
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}
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if t.borderRight {
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s.WriteString(t.borderStyle.Render(t.border.MiddleRight))
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}
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}
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if t.borderRight && !t.borderHeader {
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s.WriteString(t.borderStyle.Render(t.border.Right))
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}
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return s.String()
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}
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// constructRow constructs the row for the table given an index and row data
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// based on the current configuration.
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func (t *Table) constructRow(index int) string {
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var s strings.Builder
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hasHeaders := t.headers != nil && len(t.headers) > 0
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height := t.heights[index+btoi(hasHeaders)]
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var cells []string
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left := strings.Repeat(t.borderStyle.Render(t.border.Left)+"\n", height)
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if t.borderLeft {
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cells = append(cells, left)
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}
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for c := 0; c < t.data.Columns(); c++ {
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cell := t.data.At(index, c)
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cells = append(cells, t.style(index+1, c).
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Height(height).
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MaxHeight(height).
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Width(t.widths[c]).
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MaxWidth(t.widths[c]).
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Render(ansi.Truncate(cell, t.widths[c]*height, "…")))
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if c < t.data.Columns()-1 && t.borderColumn {
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cells = append(cells, left)
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}
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}
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if t.borderRight {
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right := strings.Repeat(t.borderStyle.Render(t.border.Right)+"\n", height)
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cells = append(cells, right)
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}
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for i, cell := range cells {
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cells[i] = strings.TrimRight(cell, "\n")
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}
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s.WriteString(lipgloss.JoinHorizontal(lipgloss.Top, cells...) + "\n")
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if t.borderRow && index < t.data.Rows()-1 {
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s.WriteString(t.borderStyle.Render(t.border.MiddleLeft))
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for i := 0; i < len(t.widths); i++ {
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s.WriteString(t.borderStyle.Render(strings.Repeat(t.border.Bottom, t.widths[i])))
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if i < len(t.widths)-1 && t.borderColumn {
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s.WriteString(t.borderStyle.Render(t.border.Middle))
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}
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}
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s.WriteString(t.borderStyle.Render(t.border.MiddleRight) + "\n")
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}
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return s.String()
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}
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