// Copyright 2015 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 termui import "image" // Hline is a horizontal line. type Hline struct { X int Y int Len int Fg Attribute Bg Attribute } // Vline is a vertical line. type Vline struct { X int Y int Len int Fg Attribute Bg Attribute } // Buffer draws a horizontal line. func (l Hline) Buffer() Buffer { if l.Len <= 0 { return NewBuffer() } return NewFilledBuffer(l.X, l.Y, l.X+l.Len, l.Y+1, HORIZONTAL_LINE, l.Fg, l.Bg) } // Buffer draws a vertical line. func (l Vline) Buffer() Buffer { if l.Len <= 0 { return NewBuffer() } return NewFilledBuffer(l.X, l.Y, l.X+1, l.Y+l.Len, VERTICAL_LINE, l.Fg, l.Bg) } // Buffer draws a box border. func (b Block) drawBorder(buf Buffer) { if !b.Border { return } min := b.area.Min max := b.area.Max x0 := min.X y0 := min.Y x1 := max.X - 1 y1 := max.Y - 1 // draw lines if b.BorderTop { buf.Merge(Hline{x0, y0, x1 - x0, b.BorderFg, b.BorderBg}.Buffer()) } if b.BorderBottom { buf.Merge(Hline{x0, y1, x1 - x0, b.BorderFg, b.BorderBg}.Buffer()) } if b.BorderLeft { buf.Merge(Vline{x0, y0, y1 - y0, b.BorderFg, b.BorderBg}.Buffer()) } if b.BorderRight { buf.Merge(Vline{x1, y0, y1 - y0, b.BorderFg, b.BorderBg}.Buffer()) } // draw corners if b.BorderTop && b.BorderLeft && b.area.Dx() > 0 && b.area.Dy() > 0 { buf.Set(x0, y0, Cell{TOP_LEFT, b.BorderFg, b.BorderBg}) } if b.BorderTop && b.BorderRight && b.area.Dx() > 1 && b.area.Dy() > 0 { buf.Set(x1, y0, Cell{TOP_RIGHT, b.BorderFg, b.BorderBg}) } if b.BorderBottom && b.BorderLeft && b.area.Dx() > 0 && b.area.Dy() > 1 { buf.Set(x0, y1, Cell{BOTTOM_LEFT, b.BorderFg, b.BorderBg}) } if b.BorderBottom && b.BorderRight && b.area.Dx() > 1 && b.area.Dy() > 1 { buf.Set(x1, y1, Cell{BOTTOM_RIGHT, b.BorderFg, b.BorderBg}) } } func (b Block) drawBorderLabel(buf Buffer) { maxTxtW := b.area.Dx() - 2 tx := DTrimTxCls(DefaultTxBuilder.Build(b.BorderLabel, b.BorderLabelFg, b.BorderLabelBg), maxTxtW) for i, w := 0, 0; i < len(tx); i++ { buf.Set(b.area.Min.X+1+w, b.area.Min.Y, tx[i]) w += tx[i].Width() } } // Block is a base struct for all other upper level widgets, // consider it as css: display:block. // Normally you do not need to create it manually. type Block struct { area image.Rectangle innerArea image.Rectangle X int Y int Border bool BorderFg Attribute BorderBg Attribute BorderLeft bool BorderRight bool BorderTop bool BorderBottom bool BorderLabel string BorderLabelFg Attribute BorderLabelBg Attribute Display bool Bg Attribute Width int Height int PaddingTop int PaddingBottom int PaddingLeft int PaddingRight int } // NewBlock returns a *Block which inherits styles from current theme. func NewBlock() *Block { b := Block{} b.Display = true b.Border = theme.HasBorder b.BorderLeft = true b.BorderRight = true b.BorderTop = true b.BorderBottom = true b.BorderBg = theme.BorderBg b.BorderFg = theme.BorderFg b.BorderLabelBg = theme.BorderLabelTextBg b.BorderLabelFg = theme.BorderLabelTextFg b.Bg = theme.BlockBg b.Width = 2 b.Height = 2 return &b } // Align computes box mob.l func (b *Block) Align() { b.area.Min.X = b.X b.area.Min.Y = b.Y b.area.Max.X = b.X + b.Width b.area.Max.Y = b.Y + b.Height b.innerArea.Min.X = b.X + b.PaddingLeft b.innerArea.Min.Y = b.Y + b.PaddingTop b.innerArea.Max.X = b.area.Max.X - b.PaddingRight b.innerArea.Max.Y = b.area.Max.Y - b.PaddingBottom if b.Border { if b.BorderLeft { b.innerArea.Min.X++ } if b.BorderRight { b.innerArea.Max.X-- } if b.BorderTop { b.innerArea.Min.Y++ } if b.BorderBottom { b.innerArea.Max.Y-- } } } // InnerBounds returns the internal bounds of the block after aligning and // calculating the padding and border, if any. func (b *Block) InnerBounds() image.Rectangle { b.Align() return b.innerArea } // Buffer implements Bufferer interface. // Draw background and border (if any). func (b *Block) Buffer() Buffer { b.Align() buf := NewBuffer() buf.SetArea(b.area) buf.Fill(' ', ColorDefault, b.Bg) b.drawBorder(buf) b.drawBorderLabel(buf) return buf } // GetHeight implements GridBufferer. // It returns current height of the block. func (b Block) GetHeight() int { return b.Height } // SetX implements GridBufferer interface, which sets block's x position. func (b *Block) SetX(x int) { b.X = x } // SetY implements GridBufferer interface, it sets y position for block. func (b *Block) SetY(y int) { b.Y = y } // SetWidth implements GridBuffer interface, it sets block's width. func (b *Block) SetWidth(w int) { b.Width = w }