unipdf/render/internal/context/imagerender/path.go

/*
 * This file is subject to the terms and conditions defined in
 * file 'LICENSE.md', which is part of this source code package.
 */

package imagerender

import (
	"math"

	"github.com/golang/freetype/raster"
	"golang.org/x/image/math/fixed"

	"github.com/unidoc/unipdf/v3/internal/transform"
)

func flattenPath(p raster.Path) [][]transform.Point {
	var result [][]transform.Point
	var path []transform.Point
	var cx, cy float64
	for i := 0; i < len(p); {
		switch p[i] {
		case 0:
			if len(path) > 0 {
				result = append(result, path)
				path = nil
			}
			x := unfix(p[i+1])
			y := unfix(p[i+2])
			path = append(path, transform.NewPoint(x, y))
			cx, cy = x, y
			i += 4
		case 1:
			x := unfix(p[i+1])
			y := unfix(p[i+2])
			path = append(path, transform.NewPoint(x, y))
			cx, cy = x, y
			i += 4
		case 2:
			x1 := unfix(p[i+1])
			y1 := unfix(p[i+2])
			x2 := unfix(p[i+3])
			y2 := unfix(p[i+4])
			points := quadraticBezier(cx, cy, x1, y1, x2, y2)
			path = append(path, points...)
			cx, cy = x2, y2
			i += 6
		case 3:
			x1 := unfix(p[i+1])
			y1 := unfix(p[i+2])
			x2 := unfix(p[i+3])
			y2 := unfix(p[i+4])
			x3 := unfix(p[i+5])
			y3 := unfix(p[i+6])
			points := cubicBezier(cx, cy, x1, y1, x2, y2, x3, y3)
			path = append(path, points...)
			cx, cy = x3, y3
			i += 8
		default:
			panic("bad path")
		}
	}
	if len(path) > 0 {
		result = append(result, path)
	}
	return result
}

func dashPath(paths [][]transform.Point, dashes []float64, offset float64) [][]transform.Point {
	var result [][]transform.Point
	if len(dashes) == 0 {
		return paths
	}
	if len(dashes) == 1 {
		dashes = append(dashes, dashes[0])
	}
	for _, path := range paths {
		if len(path) < 2 {
			continue
		}
		previous := path[0]
		pathIndex := 1
		dashIndex := 0
		segmentLength := 0.0

		// offset
		if offset != 0 {
			var totalLength float64
			for _, dashLength := range dashes {
				totalLength += dashLength
			}
			offset = math.Mod(offset, totalLength)
			if offset < 0 {
				offset += totalLength
			}
			for i, dashLength := range dashes {
				offset -= dashLength
				if offset < 0 {
					dashIndex = i
					segmentLength = dashLength + offset
					break
				}
			}
		}

		var segment []transform.Point
		segment = append(segment, previous)
		for pathIndex < len(path) {
			dashLength := dashes[dashIndex]
			point := path[pathIndex]
			d := previous.Distance(point)
			maxd := dashLength - segmentLength
			if d > maxd {
				t := maxd / d
				p := previous.Interpolate(point, t)
				segment = append(segment, p)
				if dashIndex%2 == 0 && len(segment) > 1 {
					result = append(result, segment)
				}
				segment = nil
				segment = append(segment, p)
				segmentLength = 0
				previous = p
				dashIndex = (dashIndex + 1) % len(dashes)
			} else {
				segment = append(segment, point)
				previous = point
				segmentLength += d
				pathIndex++
			}
		}
		if dashIndex%2 == 0 && len(segment) > 1 {
			result = append(result, segment)
		}
	}
	return result
}

func rasterPath(paths [][]transform.Point) raster.Path {
	var result raster.Path
	for _, path := range paths {
		var previous fixed.Point26_6
		for i, point := range path {
			f := fixedPoint(point)
			if i == 0 {
				result.Start(f)
			} else {
				dx := f.X - previous.X
				dy := f.Y - previous.Y
				if dx < 0 {
					dx = -dx
				}
				if dy < 0 {
					dy = -dy
				}
				if dx+dy > 8 {
					// TODO: this is a hack for cases where two points are
					// too close - causes rendering issues with joins / caps
					result.Add1(f)
				}
			}
			previous = f
		}
	}
	return result
}

func dashed(path raster.Path, dashes []float64, offset float64) raster.Path {
	return rasterPath(dashPath(flattenPath(path), dashes, offset))
}
Add basic image rendering support (#266) * Add render package * Add text state * Add more text operators * Remove unnecessary files * Add text font * Add custom text render method * Improve text rendering method * Rename text state methods * Refactor and document context interface * Refact text begin/end operators * Fix graphics state transformations * Keep original font when doing font substitution * Take page cropbox into account * Revert to substitution font if original font measurement is 0 * Add font substitution package * Implement addition transform.Point methods * Use transform.Point in the image context package * Remove unneeded functionality from the render image package * Fix golint notices in the image rendering package * Fix go vet notices in the render package * Fix golint notices in the top-level render package * Improve render context package documentation * Document context text state struct. * Document context text font struct. * Minor logging improvements * Add license disclaimer to the render package files * Avoid using package aliases where possible * Change style of section comments * Adapt render package import style to follow the developer guide * Improve documentation for the internal matrix implementation * Update render package dependency versions * Apply crop box post render * Account for offseted media boxes * Improve metrics of rendered characters * Fix text matrix translation * Change priority of fonts used for measuring rendered characters * Skip invalid m and l operators on image rendering * Small fix for v operator * Fix rendered characters spacing issues * Refactor naming of internal render packages 2020-03-02 23:22:54 +02:00			`/*`
			`* This file is subject to the terms and conditions defined in`
			`* file 'LICENSE.md', which is part of this source code package.`
			`*/`

			`package imagerender`

			`import (`
			`"math"`

			`"github.com/golang/freetype/raster"`
			`"golang.org/x/image/math/fixed"`

			`"github.com/unidoc/unipdf/v3/internal/transform"`
			`)`

			`func flattenPath(p raster.Path) [][]transform.Point {`
			`var result [][]transform.Point`
			`var path []transform.Point`
			`var cx, cy float64`
			`for i := 0; i < len(p); {`
			`switch p[i] {`
			`case 0:`
			`if len(path) > 0 {`
			`result = append(result, path)`
			`path = nil`
			`}`
			`x := unfix(p[i+1])`
			`y := unfix(p[i+2])`
			`path = append(path, transform.NewPoint(x, y))`
			`cx, cy = x, y`
			`i += 4`
			`case 1:`
			`x := unfix(p[i+1])`
			`y := unfix(p[i+2])`
			`path = append(path, transform.NewPoint(x, y))`
			`cx, cy = x, y`
			`i += 4`
			`case 2:`
			`x1 := unfix(p[i+1])`
			`y1 := unfix(p[i+2])`
			`x2 := unfix(p[i+3])`
			`y2 := unfix(p[i+4])`
			`points := quadraticBezier(cx, cy, x1, y1, x2, y2)`
			`path = append(path, points...)`
			`cx, cy = x2, y2`
			`i += 6`
			`case 3:`
			`x1 := unfix(p[i+1])`
			`y1 := unfix(p[i+2])`
			`x2 := unfix(p[i+3])`
			`y2 := unfix(p[i+4])`
			`x3 := unfix(p[i+5])`
			`y3 := unfix(p[i+6])`
			`points := cubicBezier(cx, cy, x1, y1, x2, y2, x3, y3)`
			`path = append(path, points...)`
			`cx, cy = x3, y3`
			`i += 8`
			`default:`
			`panic("bad path")`
			`}`
			`}`
			`if len(path) > 0 {`
			`result = append(result, path)`
			`}`
			`return result`
			`}`

			`func dashPath(paths [][]transform.Point, dashes []float64, offset float64) [][]transform.Point {`
			`var result [][]transform.Point`
			`if len(dashes) == 0 {`
			`return paths`
			`}`
			`if len(dashes) == 1 {`
			`dashes = append(dashes, dashes[0])`
			`}`
			`for _, path := range paths {`
			`if len(path) < 2 {`
			`continue`
			`}`
			`previous := path[0]`
			`pathIndex := 1`
			`dashIndex := 0`
			`segmentLength := 0.0`

			`// offset`
			`if offset != 0 {`
			`var totalLength float64`
			`for _, dashLength := range dashes {`
			`totalLength += dashLength`
			`}`
			`offset = math.Mod(offset, totalLength)`
			`if offset < 0 {`
			`offset += totalLength`
			`}`
			`for i, dashLength := range dashes {`
			`offset -= dashLength`
			`if offset < 0 {`
			`dashIndex = i`
			`segmentLength = dashLength + offset`
			`break`
			`}`
			`}`
			`}`

			`var segment []transform.Point`
			`segment = append(segment, previous)`
			`for pathIndex < len(path) {`
			`dashLength := dashes[dashIndex]`
			`point := path[pathIndex]`
			`d := previous.Distance(point)`
			`maxd := dashLength - segmentLength`
			`if d > maxd {`
			`t := maxd / d`
			`p := previous.Interpolate(point, t)`
			`segment = append(segment, p)`
			`if dashIndex%2 == 0 && len(segment) > 1 {`
			`result = append(result, segment)`
			`}`
			`segment = nil`
			`segment = append(segment, p)`
			`segmentLength = 0`
			`previous = p`
			`dashIndex = (dashIndex + 1) % len(dashes)`
			`} else {`
			`segment = append(segment, point)`
			`previous = point`
			`segmentLength += d`
			`pathIndex++`
			`}`
			`}`
			`if dashIndex%2 == 0 && len(segment) > 1 {`
			`result = append(result, segment)`
			`}`
			`}`
			`return result`
			`}`

			`func rasterPath(paths [][]transform.Point) raster.Path {`
			`var result raster.Path`
			`for _, path := range paths {`
			`var previous fixed.Point26_6`
			`for i, point := range path {`
			`f := fixedPoint(point)`
			`if i == 0 {`
			`result.Start(f)`
			`} else {`
			`dx := f.X - previous.X`
			`dy := f.Y - previous.Y`
			`if dx < 0 {`
			`dx = -dx`
			`}`
			`if dy < 0 {`
			`dy = -dy`
			`}`
			`if dx+dy > 8 {`
			`// TODO: this is a hack for cases where two points are`
			`// too close - causes rendering issues with joins / caps`
			`result.Add1(f)`
			`}`
			`}`
			`previous = f`
			`}`
			`}`
			`return result`
			`}`

			`func dashed(path raster.Path, dashes []float64, offset float64) raster.Path {`
			`return rasterPath(dashPath(flattenPath(path), dashes, offset))`
			`}`