// Copyright 2017 Zack Guo . All rights reserved. // Use of this source code is governed by a MIT license that can // be found in the LICENSE file. package widgets import ( "image" . "github.com/gizak/termui" ) /*Table is like: ┌ Awesome Table ───────────────────────────────────────────────┐ │ Col0 | Col1 | Col2 | Col3 | Col4 | Col5 | Col6 | │──────────────────────────────────────────────────────────────│ │ Some Item #1 | AAA | 123 | CCCCC | EEEEE | GGGGG | IIIII | │──────────────────────────────────────────────────────────────│ │ Some Item #2 | BBB | 456 | DDDDD | FFFFF | HHHHH | JJJJJ | └──────────────────────────────────────────────────────────────┘ */ type Table struct { Block Rows [][]string ColumnWidths []int TextStyle Style RowSeparator bool TextAlign Alignment RowStyles map[int]Style FillRow bool } func NewTable() *Table { return &Table{ Block: *NewBlock(), TextStyle: Theme.Table.Text, RowSeparator: true, RowStyles: make(map[int]Style), } } func (self *Table) Draw(buf *Buffer) { self.Block.Draw(buf) columnWidths := self.ColumnWidths if len(columnWidths) == 0 { columnCount := len(self.Rows[0]) colWidth := self.Inner.Dx() / columnCount for i := 0; i < columnCount; i++ { columnWidths = append(columnWidths, colWidth) } } yCoordinate := self.Inner.Min.Y // draw rows for i := 0; i < len(self.Rows) && yCoordinate < self.Inner.Max.Y; i++ { row := self.Rows[i] colXCoordinate := self.Inner.Min.X rowStyle := self.TextStyle // get the row style if one exists if style, ok := self.RowStyles[i]; ok { rowStyle = style } if self.FillRow { blankCell := NewCell(' ', rowStyle) buf.Fill(blankCell, image.Rect(self.Inner.Min.X, yCoordinate, self.Inner.Max.X, yCoordinate+1)) } // draw row cells for j := 0; j < len(row); j++ { col := ParseText(row[j], rowStyle) // draw row cell if len(col) > columnWidths[j] || self.TextAlign == AlignLeft { for _, cx := range BuildCellWithXArray(col) { k, cell := cx.X, cx.Cell if k == columnWidths[j] || colXCoordinate+k == self.Inner.Max.X { cell.Rune = ELLIPSES buf.SetCell(cell, image.Pt(colXCoordinate+k-1, yCoordinate)) break } else { buf.SetCell(cell, image.Pt(colXCoordinate+k, yCoordinate)) } } } else if self.TextAlign == AlignCenter { xCoordinateOffset := (columnWidths[j] - len(col)) / 2 stringXCoordinate := xCoordinateOffset + colXCoordinate for _, cx := range BuildCellWithXArray(col) { k, cell := cx.X, cx.Cell buf.SetCell(cell, image.Pt(stringXCoordinate+k, yCoordinate)) } } else if self.TextAlign == AlignRight { stringXCoordinate := MinInt(colXCoordinate+columnWidths[j], self.Inner.Max.X) - len(col) for _, cx := range BuildCellWithXArray(col) { k, cell := cx.X, cx.Cell buf.SetCell(cell, image.Pt(stringXCoordinate+k, yCoordinate)) } } colXCoordinate += columnWidths[j] + 1 } // draw vertical separators separatorStyle := self.Block.BorderStyle separatorXCoordinate := self.Inner.Min.X verticalCell := NewCell(VERTICAL_LINE, separatorStyle) for i, width := range columnWidths { if self.FillRow && i < len(columnWidths)-1 { verticalCell.Style.Bg = rowStyle.Bg } else { verticalCell.Style.Bg = self.Block.BorderStyle.Bg } separatorXCoordinate += width buf.SetCell(verticalCell, image.Pt(separatorXCoordinate, yCoordinate)) separatorXCoordinate++ } yCoordinate++ // draw horizontal separator horizontalCell := NewCell(HORIZONTAL_LINE, separatorStyle) if self.RowSeparator && yCoordinate < self.Inner.Max.Y && i != len(self.Rows)-1 { buf.Fill(horizontalCell, image.Rect(self.Inner.Min.X, yCoordinate, self.Inner.Max.X, yCoordinate+1)) yCoordinate++ } } }