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768 lines
20 KiB
Go
768 lines
20 KiB
Go
// Package gg provides a simple API for rendering 2D graphics in pure Go.
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package gg
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import (
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"image"
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"image/color"
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"image/draw"
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"image/png"
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"io"
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"math"
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"github.com/golang/freetype/raster"
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"golang.org/x/image/font"
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"golang.org/x/image/font/basicfont"
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)
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type LineCap int
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const (
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LineCapRound LineCap = iota
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LineCapButt
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LineCapSquare
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)
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type LineJoin int
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const (
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LineJoinRound LineJoin = iota
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LineJoinBevel
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)
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type FillRule int
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const (
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FillRuleWinding FillRule = iota
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FillRuleEvenOdd
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)
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type Align int
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const (
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AlignLeft Align = iota
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AlignCenter
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AlignRight
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)
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var (
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defaultFillStyle = NewSolidPattern(color.White)
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defaultStrokeStyle = NewSolidPattern(color.Black)
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)
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type Context struct {
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width int
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height int
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im *image.RGBA
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mask *image.Alpha
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color color.Color
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fillPattern Pattern
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strokePattern Pattern
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strokePath raster.Path
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fillPath raster.Path
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start Point
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current Point
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hasCurrent bool
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dashes []float64
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lineWidth float64
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lineCap LineCap
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lineJoin LineJoin
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fillRule FillRule
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fontFace font.Face
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fontHeight float64
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matrix Matrix
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stack []*Context
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}
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// NewContext creates a new image.RGBA with the specified width and height
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// and prepares a context for rendering onto that image.
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func NewContext(width, height int) *Context {
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return NewContextForRGBA(image.NewRGBA(image.Rect(0, 0, width, height)))
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}
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// NewContextForImage copies the specified image into a new image.RGBA
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// and prepares a context for rendering onto that image.
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func NewContextForImage(im image.Image) *Context {
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return NewContextForRGBA(imageToRGBA(im))
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}
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// NewContextForRGBA prepares a context for rendering onto the specified image.
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// No copy is made.
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func NewContextForRGBA(im *image.RGBA) *Context {
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return &Context{
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width: im.Bounds().Size().X,
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height: im.Bounds().Size().Y,
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im: im,
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color: color.Transparent,
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fillPattern: defaultFillStyle,
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strokePattern: defaultStrokeStyle,
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lineWidth: 1,
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fillRule: FillRuleWinding,
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fontFace: basicfont.Face7x13,
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fontHeight: 13,
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matrix: Identity(),
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}
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}
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// Image returns the image that has been drawn by this context.
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func (dc *Context) Image() image.Image {
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return dc.im
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}
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// Width returns the width of the image in pixels.
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func (dc *Context) Width() int {
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return dc.width
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}
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// Height returns the height of the image in pixels.
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func (dc *Context) Height() int {
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return dc.height
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}
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// SavePNG encodes the image as a PNG and writes it to disk.
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func (dc *Context) SavePNG(path string) error {
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return SavePNG(path, dc.im)
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}
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// EncodePNG encodes the image as a PNG and writes it to the provided io.Writer.
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func (dc *Context) EncodePNG(w io.Writer) error {
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return png.Encode(w, dc.im)
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}
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// SetDash sets the current dash pattern to use. Call with zero arguments to
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// disable dashes. The values specify the lengths of each dash, with
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// alternating on and off lengths.
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func (dc *Context) SetDash(dashes ...float64) {
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dc.dashes = dashes
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}
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func (dc *Context) SetLineWidth(lineWidth float64) {
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dc.lineWidth = lineWidth
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}
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func (dc *Context) SetLineCap(lineCap LineCap) {
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dc.lineCap = lineCap
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}
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func (dc *Context) SetLineCapRound() {
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dc.lineCap = LineCapRound
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}
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func (dc *Context) SetLineCapButt() {
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dc.lineCap = LineCapButt
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}
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func (dc *Context) SetLineCapSquare() {
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dc.lineCap = LineCapSquare
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}
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func (dc *Context) SetLineJoin(lineJoin LineJoin) {
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dc.lineJoin = lineJoin
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}
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func (dc *Context) SetLineJoinRound() {
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dc.lineJoin = LineJoinRound
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}
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func (dc *Context) SetLineJoinBevel() {
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dc.lineJoin = LineJoinBevel
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}
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func (dc *Context) SetFillRule(fillRule FillRule) {
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dc.fillRule = fillRule
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}
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func (dc *Context) SetFillRuleWinding() {
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dc.fillRule = FillRuleWinding
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}
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func (dc *Context) SetFillRuleEvenOdd() {
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dc.fillRule = FillRuleEvenOdd
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}
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// Color Setters
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func (dc *Context) setFillAndStrokeColor(c color.Color) {
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dc.color = c
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dc.fillPattern = NewSolidPattern(c)
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dc.strokePattern = NewSolidPattern(c)
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}
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// SetFillStyle sets current fill style
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func (dc *Context) SetFillStyle(pattern Pattern) {
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// if pattern is SolidPattern, also change dc.color(for dc.Clear, dc.drawString)
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if fillStyle, ok := pattern.(*solidPattern); ok {
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dc.color = fillStyle.color
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}
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dc.fillPattern = pattern
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}
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// SetStrokeStyle sets current stroke style
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func (dc *Context) SetStrokeStyle(pattern Pattern) {
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dc.strokePattern = pattern
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}
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// SetColor sets the current color(for both fill and stroke).
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func (dc *Context) SetColor(c color.Color) {
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dc.setFillAndStrokeColor(c)
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}
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// SetHexColor sets the current color using a hex string. The leading pound
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// sign (#) is optional. Both 3- and 6-digit variations are supported. 8 digits
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// may be provided to set the alpha value as well.
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func (dc *Context) SetHexColor(x string) {
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r, g, b, a := parseHexColor(x)
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dc.SetRGBA255(r, g, b, a)
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}
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// SetRGBA255 sets the current color. r, g, b, a values should be between 0 and
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// 255, inclusive.
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func (dc *Context) SetRGBA255(r, g, b, a int) {
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dc.color = color.NRGBA{uint8(r), uint8(g), uint8(b), uint8(a)}
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dc.setFillAndStrokeColor(dc.color)
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}
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// SetRGB255 sets the current color. r, g, b values should be between 0 and 255,
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// inclusive. Alpha will be set to 255 (fully opaque).
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func (dc *Context) SetRGB255(r, g, b int) {
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dc.SetRGBA255(r, g, b, 255)
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}
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// SetRGBA sets the current color. r, g, b, a values should be between 0 and 1,
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// inclusive.
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func (dc *Context) SetRGBA(r, g, b, a float64) {
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dc.color = color.NRGBA{
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uint8(r * 255),
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uint8(g * 255),
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uint8(b * 255),
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uint8(a * 255),
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}
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dc.setFillAndStrokeColor(dc.color)
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}
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// SetRGB sets the current color. r, g, b values should be between 0 and 1,
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// inclusive. Alpha will be set to 1 (fully opaque).
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func (dc *Context) SetRGB(r, g, b float64) {
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dc.SetRGBA(r, g, b, 1)
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}
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// Path Manipulation
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// MoveTo starts a new subpath within the current path starting at the
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// specified point.
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func (dc *Context) MoveTo(x, y float64) {
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if dc.hasCurrent {
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dc.fillPath.Add1(dc.start.Fixed())
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}
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x, y = dc.TransformPoint(x, y)
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p := Point{x, y}
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dc.strokePath.Start(p.Fixed())
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dc.fillPath.Start(p.Fixed())
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dc.start = p
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dc.current = p
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dc.hasCurrent = true
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}
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// LineTo adds a line segment to the current path starting at the current
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// point. If there is no current point, it is equivalent to MoveTo(x, y)
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func (dc *Context) LineTo(x, y float64) {
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if !dc.hasCurrent {
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dc.MoveTo(x, y)
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} else {
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x, y = dc.TransformPoint(x, y)
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p := Point{x, y}
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dc.strokePath.Add1(p.Fixed())
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dc.fillPath.Add1(p.Fixed())
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dc.current = p
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}
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}
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// QuadraticTo adds a quadratic bezier curve to the current path starting at
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// the current point. If there is no current point, it first performs
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// MoveTo(x1, y1)
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func (dc *Context) QuadraticTo(x1, y1, x2, y2 float64) {
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if !dc.hasCurrent {
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dc.MoveTo(x1, y1)
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}
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x1, y1 = dc.TransformPoint(x1, y1)
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x2, y2 = dc.TransformPoint(x2, y2)
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p1 := Point{x1, y1}
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p2 := Point{x2, y2}
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dc.strokePath.Add2(p1.Fixed(), p2.Fixed())
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dc.fillPath.Add2(p1.Fixed(), p2.Fixed())
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dc.current = p2
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}
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// CubicTo adds a cubic bezier curve to the current path starting at the
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// current point. If there is no current point, it first performs
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// MoveTo(x1, y1). Because freetype/raster does not support cubic beziers,
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// this is emulated with many small line segments.
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func (dc *Context) CubicTo(x1, y1, x2, y2, x3, y3 float64) {
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if !dc.hasCurrent {
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dc.MoveTo(x1, y1)
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}
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x0, y0 := dc.current.X, dc.current.Y
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x1, y1 = dc.TransformPoint(x1, y1)
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x2, y2 = dc.TransformPoint(x2, y2)
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x3, y3 = dc.TransformPoint(x3, y3)
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points := CubicBezier(x0, y0, x1, y1, x2, y2, x3, y3)
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previous := dc.current.Fixed()
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for _, p := range points[1:] {
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f := p.Fixed()
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if f == previous {
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// TODO: this fixes some rendering issues but not all
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continue
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}
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previous = f
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dc.strokePath.Add1(f)
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dc.fillPath.Add1(f)
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dc.current = p
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}
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}
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// ClosePath adds a line segment from the current point to the beginning
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// of the current subpath. If there is no current point, this is a no-op.
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func (dc *Context) ClosePath() {
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if dc.hasCurrent {
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dc.strokePath.Add1(dc.start.Fixed())
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dc.fillPath.Add1(dc.start.Fixed())
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dc.current = dc.start
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}
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}
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// ClearPath clears the current path. There is no current point after this
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// operation.
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func (dc *Context) ClearPath() {
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dc.strokePath.Clear()
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dc.fillPath.Clear()
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dc.hasCurrent = false
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}
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// NewSubPath starts a new subpath within the current path. There is no current
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// point after this operation.
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func (dc *Context) NewSubPath() {
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if dc.hasCurrent {
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dc.fillPath.Add1(dc.start.Fixed())
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}
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dc.hasCurrent = false
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}
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// Path Drawing
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func (dc *Context) capper() raster.Capper {
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switch dc.lineCap {
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case LineCapButt:
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return raster.ButtCapper
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case LineCapRound:
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return raster.RoundCapper
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case LineCapSquare:
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return raster.SquareCapper
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}
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return nil
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}
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func (dc *Context) joiner() raster.Joiner {
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switch dc.lineJoin {
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case LineJoinBevel:
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return raster.BevelJoiner
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case LineJoinRound:
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return raster.RoundJoiner
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}
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return nil
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}
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func (dc *Context) stroke(painter raster.Painter) {
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path := dc.strokePath
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if len(dc.dashes) > 0 {
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path = dashed(path, dc.dashes)
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} else {
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// TODO: this is a temporary workaround to remove tiny segments
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// that result in rendering issues
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path = rasterPath(flattenPath(path))
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}
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r := raster.NewRasterizer(dc.width, dc.height)
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r.UseNonZeroWinding = true
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r.AddStroke(path, fix(dc.lineWidth), dc.capper(), dc.joiner())
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r.Rasterize(painter)
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}
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func (dc *Context) fill(painter raster.Painter) {
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path := dc.fillPath
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if dc.hasCurrent {
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path = make(raster.Path, len(dc.fillPath))
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copy(path, dc.fillPath)
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path.Add1(dc.start.Fixed())
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}
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r := raster.NewRasterizer(dc.width, dc.height)
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r.UseNonZeroWinding = dc.fillRule == FillRuleWinding
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r.AddPath(path)
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r.Rasterize(painter)
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}
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// StrokePreserve strokes the current path with the current color, line width,
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// line cap, line join and dash settings. The path is preserved after this
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// operation.
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func (dc *Context) StrokePreserve() {
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painter := newPatternPainter(dc.im, dc.mask, dc.strokePattern)
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dc.stroke(painter)
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}
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// Stroke strokes the current path with the current color, line width,
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// line cap, line join and dash settings. The path is cleared after this
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// operation.
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func (dc *Context) Stroke() {
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dc.StrokePreserve()
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dc.ClearPath()
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}
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// FillPreserve fills the current path with the current color. Open subpaths
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// are implicity closed. The path is preserved after this operation.
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func (dc *Context) FillPreserve() {
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painter := newPatternPainter(dc.im, dc.mask, dc.fillPattern)
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dc.fill(painter)
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}
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// Fill fills the current path with the current color. Open subpaths
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// are implicity closed. The path is cleared after this operation.
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func (dc *Context) Fill() {
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dc.FillPreserve()
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dc.ClearPath()
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}
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// ClipPreserve updates the clipping region by intersecting the current
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// clipping region with the current path as it would be filled by dc.Fill().
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// The path is preserved after this operation.
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func (dc *Context) ClipPreserve() {
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clip := image.NewAlpha(image.Rect(0, 0, dc.width, dc.height))
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painter := raster.NewAlphaOverPainter(clip)
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dc.fill(painter)
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if dc.mask == nil {
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dc.mask = clip
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} else {
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mask := image.NewAlpha(image.Rect(0, 0, dc.width, dc.height))
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draw.DrawMask(mask, mask.Bounds(), clip, image.ZP, dc.mask, image.ZP, draw.Over)
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dc.mask = mask
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}
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}
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// Clip updates the clipping region by intersecting the current
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// clipping region with the current path as it would be filled by dc.Fill().
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// The path is cleared after this operation.
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func (dc *Context) Clip() {
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dc.ClipPreserve()
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dc.ClearPath()
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}
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// ResetClip clears the clipping region.
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func (dc *Context) ResetClip() {
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dc.mask = nil
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}
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// Convenient Drawing Functions
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// Clear fills the entire image with the current color.
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func (dc *Context) Clear() {
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src := image.NewUniform(dc.color)
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draw.Draw(dc.im, dc.im.Bounds(), src, image.ZP, draw.Src)
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}
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// SetPixel sets the color of the specified pixel using the current color.
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func (dc *Context) SetPixel(x, y int) {
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dc.im.Set(x, y, dc.color)
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}
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// DrawPoint is like DrawCircle but ensures that a circle of the specified
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// size is drawn regardless of the current transformation matrix. The position
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// is still transformed, but not the shape of the point.
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func (dc *Context) DrawPoint(x, y, r float64) {
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dc.Push()
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tx, ty := dc.TransformPoint(x, y)
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dc.Identity()
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dc.DrawCircle(tx, ty, r)
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dc.Pop()
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}
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func (dc *Context) DrawLine(x1, y1, x2, y2 float64) {
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dc.MoveTo(x1, y1)
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dc.LineTo(x2, y2)
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}
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func (dc *Context) DrawRectangle(x, y, w, h float64) {
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dc.NewSubPath()
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dc.MoveTo(x, y)
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dc.LineTo(x+w, y)
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dc.LineTo(x+w, y+h)
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dc.LineTo(x, y+h)
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dc.ClosePath()
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}
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func (dc *Context) DrawRoundedRectangle(x, y, w, h, r float64) {
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x0, x1, x2, x3 := x, x+r, x+w-r, x+w
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y0, y1, y2, y3 := y, y+r, y+h-r, y+h
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dc.NewSubPath()
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dc.MoveTo(x1, y0)
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dc.LineTo(x2, y0)
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dc.DrawArc(x2, y1, r, Radians(270), Radians(360))
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dc.LineTo(x3, y2)
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dc.DrawArc(x2, y2, r, Radians(0), Radians(90))
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dc.LineTo(x1, y3)
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dc.DrawArc(x1, y2, r, Radians(90), Radians(180))
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dc.LineTo(x0, y1)
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dc.DrawArc(x1, y1, r, Radians(180), Radians(270))
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dc.ClosePath()
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}
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func (dc *Context) DrawEllipticalArc(x, y, rx, ry, angle1, angle2 float64) {
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const n = 16
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for i := 0; i < n; i++ {
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p1 := float64(i+0) / n
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p2 := float64(i+1) / n
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a1 := angle1 + (angle2-angle1)*p1
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a2 := angle1 + (angle2-angle1)*p2
|
|
x0 := x + rx*math.Cos(a1)
|
|
y0 := y + ry*math.Sin(a1)
|
|
x1 := x + rx*math.Cos(a1+(a2-a1)/2)
|
|
y1 := y + ry*math.Sin(a1+(a2-a1)/2)
|
|
x2 := x + rx*math.Cos(a2)
|
|
y2 := y + ry*math.Sin(a2)
|
|
cx := 2*x1 - x0/2 - x2/2
|
|
cy := 2*y1 - y0/2 - y2/2
|
|
if i == 0 && !dc.hasCurrent {
|
|
dc.MoveTo(x0, y0)
|
|
}
|
|
dc.QuadraticTo(cx, cy, x2, y2)
|
|
}
|
|
}
|
|
|
|
func (dc *Context) DrawEllipse(x, y, rx, ry float64) {
|
|
dc.NewSubPath()
|
|
dc.DrawEllipticalArc(x, y, rx, ry, 0, 2*math.Pi)
|
|
dc.ClosePath()
|
|
}
|
|
|
|
func (dc *Context) DrawArc(x, y, r, angle1, angle2 float64) {
|
|
dc.DrawEllipticalArc(x, y, r, r, angle1, angle2)
|
|
}
|
|
|
|
func (dc *Context) DrawCircle(x, y, r float64) {
|
|
dc.NewSubPath()
|
|
dc.DrawEllipticalArc(x, y, r, r, 0, 2*math.Pi)
|
|
dc.ClosePath()
|
|
}
|
|
|
|
func (dc *Context) DrawRegularPolygon(n int, x, y, r, rotation float64) {
|
|
angle := 2 * math.Pi / float64(n)
|
|
rotation -= math.Pi / 2
|
|
if n%2 == 0 {
|
|
rotation += angle / 2
|
|
}
|
|
dc.NewSubPath()
|
|
for i := 0; i < n; i++ {
|
|
a := rotation + angle*float64(i)
|
|
dc.LineTo(x+r*math.Cos(a), y+r*math.Sin(a))
|
|
}
|
|
dc.ClosePath()
|
|
}
|
|
|
|
// DrawImage draws the specified image at the specified point.
|
|
// Currently, rotation and scaling transforms are not supported.
|
|
func (dc *Context) DrawImage(im image.Image, x, y int) {
|
|
dc.DrawImageAnchored(im, x, y, 0, 0)
|
|
}
|
|
|
|
// DrawImageAnchored draws the specified image at the specified anchor point.
|
|
// The anchor point is x - w * ax, y - h * ay, where w, h is the size of the
|
|
// image. Use ax=0.5, ay=0.5 to center the image at the specified point.
|
|
func (dc *Context) DrawImageAnchored(im image.Image, x, y int, ax, ay float64) {
|
|
s := im.Bounds().Size()
|
|
x -= int(ax * float64(s.X))
|
|
y -= int(ay * float64(s.Y))
|
|
p := image.Pt(x, y)
|
|
r := image.Rectangle{p, p.Add(s)}
|
|
if dc.mask == nil {
|
|
draw.Draw(dc.im, r, im, image.ZP, draw.Over)
|
|
} else {
|
|
draw.DrawMask(dc.im, r, im, image.ZP, dc.mask, p, draw.Over)
|
|
}
|
|
}
|
|
|
|
// Text Functions
|
|
|
|
func (dc *Context) SetFontFace(fontFace font.Face) {
|
|
dc.fontFace = fontFace
|
|
dc.fontHeight = float64(fontFace.Metrics().Height) / 64
|
|
}
|
|
|
|
func (dc *Context) LoadFontFace(path string, points float64) error {
|
|
face, err := LoadFontFace(path, points)
|
|
if err == nil {
|
|
dc.fontFace = face
|
|
dc.fontHeight = points * 72 / 96
|
|
}
|
|
return err
|
|
}
|
|
|
|
func (dc *Context) drawString(im *image.RGBA, s string, x, y float64) {
|
|
d := &font.Drawer{
|
|
Dst: im,
|
|
Src: image.NewUniform(dc.color),
|
|
Face: dc.fontFace,
|
|
Dot: fixp(x, y),
|
|
}
|
|
d.DrawString(s)
|
|
}
|
|
|
|
// DrawString draws the specified text at the specified point.
|
|
// Currently, rotation and scaling transforms are not supported.
|
|
func (dc *Context) DrawString(s string, x, y float64) {
|
|
dc.DrawStringAnchored(s, x, y, 0, 0)
|
|
}
|
|
|
|
// DrawStringAnchored draws the specified text at the specified anchor point.
|
|
// The anchor point is x - w * ax, y - h * ay, where w, h is the size of the
|
|
// text. Use ax=0.5, ay=0.5 to center the text at the specified point.
|
|
func (dc *Context) DrawStringAnchored(s string, x, y, ax, ay float64) {
|
|
w, h := dc.MeasureString(s)
|
|
x, y = dc.TransformPoint(x, y)
|
|
x -= ax * w
|
|
y += ay * h
|
|
if dc.mask == nil {
|
|
dc.drawString(dc.im, s, x, y)
|
|
} else {
|
|
im := image.NewRGBA(image.Rect(0, 0, dc.width, dc.height))
|
|
dc.drawString(im, s, x, y)
|
|
draw.DrawMask(dc.im, dc.im.Bounds(), im, image.ZP, dc.mask, image.ZP, draw.Over)
|
|
}
|
|
}
|
|
|
|
// DrawStringWrapped word-wraps the specified string to the given max width
|
|
// and then draws it at the specified anchor point using the given line
|
|
// spacing and text alignment.
|
|
func (dc *Context) DrawStringWrapped(s string, x, y, ax, ay, width, lineSpacing float64, align Align) {
|
|
lines := dc.WordWrap(s, width)
|
|
h := float64(len(lines)) * dc.fontHeight * lineSpacing
|
|
h -= (lineSpacing - 1) * dc.fontHeight
|
|
x -= ax * width
|
|
y -= ay * h
|
|
switch align {
|
|
case AlignLeft:
|
|
ax = 0
|
|
case AlignCenter:
|
|
ax = 0.5
|
|
x += width / 2
|
|
case AlignRight:
|
|
ax = 1
|
|
x += width
|
|
}
|
|
ay = 1
|
|
for _, line := range lines {
|
|
dc.DrawStringAnchored(line, x, y, ax, ay)
|
|
y += dc.fontHeight * lineSpacing
|
|
}
|
|
}
|
|
|
|
// MeasureString returns the rendered width and height of the specified text
|
|
// given the current font face.
|
|
func (dc *Context) MeasureString(s string) (w, h float64) {
|
|
d := &font.Drawer{
|
|
Face: dc.fontFace,
|
|
}
|
|
a := d.MeasureString(s)
|
|
return float64(a >> 6), dc.fontHeight
|
|
}
|
|
|
|
// WordWrap wraps the specified string to the given max width and current
|
|
// font face.
|
|
func (dc *Context) WordWrap(s string, w float64) []string {
|
|
return wordWrap(dc, s, w)
|
|
}
|
|
|
|
// Transformation Matrix Operations
|
|
|
|
// Identity resets the current transformation matrix to the identity matrix.
|
|
// This results in no translating, scaling, rotating, or shearing.
|
|
func (dc *Context) Identity() {
|
|
dc.matrix = Identity()
|
|
}
|
|
|
|
// Translate updates the current matrix with a translation.
|
|
func (dc *Context) Translate(x, y float64) {
|
|
dc.matrix = dc.matrix.Translate(x, y)
|
|
}
|
|
|
|
// Scale updates the current matrix with a scaling factor.
|
|
// Scaling occurs about the origin.
|
|
func (dc *Context) Scale(x, y float64) {
|
|
dc.matrix = dc.matrix.Scale(x, y)
|
|
}
|
|
|
|
// ScaleAbout updates the current matrix with a scaling factor.
|
|
// Scaling occurs about the specified point.
|
|
func (dc *Context) ScaleAbout(sx, sy, x, y float64) {
|
|
dc.Translate(x, y)
|
|
dc.Scale(sx, sy)
|
|
dc.Translate(-x, -y)
|
|
}
|
|
|
|
// Rotate updates the current matrix with a clockwise rotation.
|
|
// Rotation occurs about the origin. Angle is specified in radians.
|
|
func (dc *Context) Rotate(angle float64) {
|
|
dc.matrix = dc.matrix.Rotate(angle)
|
|
}
|
|
|
|
// RotateAbout updates the current matrix with a clockwise rotation.
|
|
// Rotation occurs about the specified point. Angle is specified in radians.
|
|
func (dc *Context) RotateAbout(angle, x, y float64) {
|
|
dc.Translate(x, y)
|
|
dc.Rotate(angle)
|
|
dc.Translate(-x, -y)
|
|
}
|
|
|
|
// Shear updates the current matrix with a shearing angle.
|
|
// Shearing occurs about the origin.
|
|
func (dc *Context) Shear(x, y float64) {
|
|
dc.matrix = dc.matrix.Shear(x, y)
|
|
}
|
|
|
|
// ShearAbout updates the current matrix with a shearing angle.
|
|
// Shearing occurs about the specified point.
|
|
func (dc *Context) ShearAbout(sx, sy, x, y float64) {
|
|
dc.Translate(x, y)
|
|
dc.Shear(sx, sy)
|
|
dc.Translate(-x, -y)
|
|
}
|
|
|
|
// TransformPoint multiplies the specified point by the current matrix,
|
|
// returning a transformed position.
|
|
func (dc *Context) TransformPoint(x, y float64) (tx, ty float64) {
|
|
return dc.matrix.TransformPoint(x, y)
|
|
}
|
|
|
|
// InvertY flips the Y axis so that Y grows from bottom to top and Y=0 is at
|
|
// the bottom of the image.
|
|
func (dc *Context) InvertY() {
|
|
dc.Translate(0, float64(dc.height))
|
|
dc.Scale(1, -1)
|
|
}
|
|
|
|
// Stack
|
|
|
|
// Push saves the current state of the context for later retrieval. These
|
|
// can be nested.
|
|
func (dc *Context) Push() {
|
|
x := *dc
|
|
dc.stack = append(dc.stack, &x)
|
|
}
|
|
|
|
// Pop restores the last saved context state from the stack.
|
|
func (dc *Context) Pop() {
|
|
before := *dc
|
|
s := dc.stack
|
|
x, s := s[len(s)-1], s[:len(s)-1]
|
|
*dc = *x
|
|
dc.mask = before.mask
|
|
dc.strokePath = before.strokePath
|
|
dc.fillPath = before.fillPath
|
|
dc.start = before.start
|
|
dc.current = before.current
|
|
dc.hasCurrent = before.hasCurrent
|
|
}
|