// Copyright 2015 The draw2d Authors. All rights reserved. // created: 26/06/2015 by Stani Michiels package draw2dpdf import ( "math" "gopkg.in/llgcode/draw2d.v1" ) const deg = 180 / math.Pi // PathConverter converts the paths to the pdf api type PathConverter struct { pdf Vectorizer } // NewPathConverter constructs a PathConverter from a pdf vectorizer func NewPathConverter(pdf Vectorizer) *PathConverter { return &PathConverter{pdf: pdf} } // Convert converts the paths to the pdf api func (c *PathConverter) Convert(paths ...*draw2d.PathStorage) { for _, path := range paths { j := 0 for _, cmd := range path.Commands { j = j + c.ConvertCommand(cmd, path.Vertices[j:]...) } } } // ConvertCommand converts a single path segment to the pdf api func (c *PathConverter) ConvertCommand(cmd draw2d.PathCmd, vertices ...float64) int { switch cmd { case draw2d.MoveTo: c.pdf.MoveTo(vertices[0], vertices[1]) return 2 case draw2d.LineTo: c.pdf.LineTo(vertices[0], vertices[1]) return 2 case draw2d.QuadCurveTo: c.pdf.CurveTo(vertices[0], vertices[1], vertices[2], vertices[3]) return 4 case draw2d.CubicCurveTo: c.pdf.CurveBezierCubicTo(vertices[0], vertices[1], vertices[2], vertices[3], vertices[4], vertices[5]) return 6 case draw2d.ArcTo: // draw2d: angles clockwise, fpdf angles counter clockwise c.pdf.ArcTo(vertices[0], vertices[1], vertices[2], vertices[3], 0, // degRotate -vertices[4]*deg, // degStart = -startAngle (-vertices[4]-vertices[5])*deg) // degEnd = -startAngle-angle return 6 default: // case draw2d.Close: c.pdf.ClosePath() return 0 } }