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pdfdeck.go
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pdfdeck.go
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// pdfdeck: make PDF slide decks
package main
import (
"flag"
"fmt"
"io/ioutil"
"os"
"path/filepath"
"strconv"
"strings"
"github.com/ajstarks/deck"
"github.com/jung-kurt/gofpdf"
)
const (
mm2pt = 2.83464 // mm to pt conversion
linespacing = 1.4
listspacing = 2.0
fontfactor = 1.0
listwrap = 95.0
)
// PageDimen describes page dimensions
// the unit field is used to convert to pt.
type PageDimen struct {
width, height, unit float64
}
// fontmap maps generic font names to specific implementation names
var fontmap = map[string]string{}
// pagemap defines page dimensions
var pagemap = map[string]PageDimen{
"Letter": {792, 612, 1},
"Legal": {1008, 612, 1},
"Tabloid": {1224, 792, 1},
"ArchA": {864, 648, 1},
"Widescreen": {1152, 648, 1},
"4R": {432, 288, 1},
"Index": {360, 216, 1},
"A2": {420, 594, mm2pt},
"A3": {420, 297, mm2pt},
"A4": {297, 210, mm2pt},
"A5": {210, 148, mm2pt},
}
var codemap = strings.NewReplacer("\t", " ")
// translate is the function that does unicode character replacement
var translate func(string) string
// pct converts percentages to canvas measures
func pct(p, m float64) float64 {
return (p / 100.0) * m
}
// dimen returns canvas dimensions from percentages
func dimen(w, h, xp, yp, sp float64) (float64, float64, float64) {
return pct(xp, w), pct(100-yp, h), pct(sp, w) * fontfactor
}
// setopacity sets the alpha value:
// 0 == default value (opaque)
// -1 == fully transparent
// > 0 set opacity percent
func setopacity(doc *gofpdf.Fpdf, v float64) {
switch {
case v < 0:
doc.SetAlpha(0, "Normal")
case v > 0:
doc.SetAlpha(v/100, "Normal")
case v == 0:
doc.SetAlpha(1, "Normal")
}
}
// whitespace determines if a rune is whitespace
func whitespace(r rune) bool {
return r == ' ' || r == '\n' || r == '\t'
}
// fontlookup maps font aliases to implementation font names
func fontlookup(s string) string {
font, ok := fontmap[s]
if ok {
return font
}
return "sans"
}
// grid makes a percentage scale
func grid(doc *gofpdf.Fpdf, w, h float64, color string, percent float64) {
pw := w * (percent / 100)
ph := h * (percent / 100)
doc.SetLineWidth(0.5)
r, g, b := colorlookup(color)
doc.SetDrawColor(r, g, b)
doc.SetTextColor(r, g, b)
fs := pct(1, w)
for x, pl := 0.0, 0.0; x <= w; x += pw {
doc.Line(x, 0, x, h)
if pl > 0 {
showtext(doc, x, h-fs, fmt.Sprintf("%.0f", pl), fs, "sans", "center", "")
}
pl += percent
}
for y, pl := 0.0, 0.0; y <= h; y += ph {
doc.Line(0, y, w, y)
if pl < 100 {
showtext(doc, fs, y+(fs/3), fmt.Sprintf("%.0f", 100-pl), fs, "sans", "center", "")
}
pl += percent
}
}
// bullet draws a bullet
func bullet(doc *gofpdf.Fpdf, x, y, size float64, color string) {
rs := size / 2
r, g, b := colorlookup(color)
doc.SetFillColor(r, g, b)
doc.Circle(x-size*2, y-rs, rs, "F")
//dorect(doc, x-size, y-rs, rs, rs, color)
}
// background places a colored rectangle
func background(doc *gofpdf.Fpdf, w, h float64, color string) {
dorect(doc, 0, 0, w, h, color)
}
// gradient sets the background color gradient
func gradient(doc *gofpdf.Fpdf, w, h float64, gc1, gc2 string, gp float64) {
r1, g1, b1 := colorlookup(gc1)
r2, g2, b2 := colorlookup(gc2)
gp /= 100.0
doc.LinearGradient(0, 0, w, h, r1, g1, b1, r2, g2, b2, 0, gp, 0, 0)
}
// doline draws a line
func doline(doc *gofpdf.Fpdf, xp1, yp1, xp2, yp2, sw float64, color string) {
r, g, b := colorlookup(color)
doc.SetLineWidth(sw)
doc.SetDrawColor(r, g, b)
doc.Line(xp1, yp1, xp2, yp2)
}
// doarc draws a line
func doarc(doc *gofpdf.Fpdf, x, y, w, h, a1, a2, sw float64, color string) {
r, g, b := colorlookup(color)
doc.SetLineWidth(sw)
doc.SetDrawColor(r, g, b)
doc.Arc(x, y, w, h, 0, a1, a2, "D")
}
// docurve draws a bezier curve
func docurve(doc *gofpdf.Fpdf, xp1, yp1, xp2, yp2, xp3, yp3, sw float64, color string) {
r, g, b := colorlookup(color)
doc.SetLineWidth(sw)
doc.SetDrawColor(r, g, b)
doc.Curve(xp1, yp1, xp2, yp2, xp3, yp3, "D")
}
// dorect draws a rectangle
func dorect(doc *gofpdf.Fpdf, x, y, w, h float64, color string) {
r, g, b := colorlookup(color)
doc.SetFillColor(r, g, b)
doc.Rect(x, y, w, h, "F")
}
// doellipse draws a rectangle
func doellipse(doc *gofpdf.Fpdf, x, y, w, h float64, color string) {
r, g, b := colorlookup(color)
doc.SetFillColor(r, g, b)
doc.Ellipse(x, y, w, h, 0, "F")
}
// dopoly draws a polygon
func dopoly(doc *gofpdf.Fpdf, xc, yc, color string, cw, ch float64) {
xs := strings.Split(xc, " ")
ys := strings.Split(yc, " ")
if len(xs) != len(ys) {
return
}
if len(xs) < 3 || len(ys) < 3 {
return
}
poly := make([]gofpdf.PointType, len(xs))
for i := 0; i < len(xs); i++ {
x, err := strconv.ParseFloat(xs[i], 64)
if err != nil {
poly[i].X = 0
} else {
poly[i].X = pct(x, cw)
}
y, err := strconv.ParseFloat(ys[i], 64)
if err != nil {
poly[i].Y = 0
} else {
poly[i].Y = pct(100-y, ch)
}
}
r, g, b := colorlookup(color)
doc.SetFillColor(r, g, b)
doc.Polygon(poly, "F")
}
// dotext places text elements on the canvas according to type
func dotext(doc *gofpdf.Fpdf, cw, x, y, fs, wp, spacing float64, tdata, font, color, align, ttype, tlink string) {
var tw float64
td := strings.Split(tdata, "\n")
red, green, blue := colorlookup(color)
doc.SetTextColor(red, green, blue)
if ttype == "code" {
font = "mono"
ch := float64(len(td)) * spacing * fs
tw = deck.Pwidth(wp, cw, cw-x-20)
dorect(doc, x-fs, y-fs, tw, ch, "rgb(240,240,240)")
}
if ttype == "block" {
tw = deck.Pwidth(wp, cw, cw/2)
textwrap(doc, x, y, tw, fs, fs*spacing, translate(tdata), font, tlink)
} else {
ls := spacing * fs
for _, t := range td {
showtext(doc, x, y, t, fs, font, align, tlink)
y += ls
}
}
}
// showtext places fully attributed text at the specified location
func showtext(doc *gofpdf.Fpdf, x, y float64, s string, fs float64, font, align, link string) {
offset := 0.0
doc.SetFont(fontlookup(font), "", fs)
t := translate(s)
tw := doc.GetStringWidth(t)
switch align {
case "center", "middle", "mid", "c":
offset = (tw / 2)
case "right", "end", "e":
offset = tw
}
doc.Text(x-offset, y, t)
if len(link) > 0 {
doc.LinkString(x-offset, y-fs, tw, fs, link)
}
}
// dolists places lists on the canvas
// dolist(doc, cw, x, y, fs, l.Lp, l.Wp, l.Li, l.Font, l.Color, l.Type)
func dolist(doc *gofpdf.Fpdf, cw, x, y, fs, lwidth, spacing float64, list []deck.ListItem, font, color, ltype string) {
if font == "" {
font = "sans"
}
red, green, blue := colorlookup(color)
if ltype == "bullet" {
x += fs * 1.2
}
ls := spacing * fs
tw := deck.Pwidth(lwidth, cw, cw/2)
var t string
for i, tl := range list {
doc.SetFont(fontlookup(font), "", fs)
doc.SetTextColor(red, green, blue)
if ltype == "number" {
t = fmt.Sprintf("%d. ", i+1) + tl.ListText
} else {
t = tl.ListText
}
if ltype == "bullet" {
bullet(doc, x, y, fs/2, color)
}
if len(tl.Color) > 0 {
tlred, tlgreen, tlblue := colorlookup(tl.Color)
doc.SetTextColor(tlred, tlgreen, tlblue)
}
if len(tl.Font) > 0 {
doc.SetFont(fontlookup(tl.Font), "", fs)
}
//doc.Text(x, y, translate(t))
yw := textwrap(doc, x, y, tw, fs, ls, translate(t), font, "")
y += ls
if yw >= 1 {
y += ls * float64(yw)
}
}
}
// textwrap draws text at location, wrapping at the specified width
func textwrap(doc *gofpdf.Fpdf, x, y, w, fs, leading float64, s, font, link string) int {
var factor = 0.3
if font == "mono" {
factor = 1.0
}
nbreak := 0
doc.SetFont(fontlookup(font), "", fs)
wordspacing := doc.GetStringWidth("M")
words := strings.FieldsFunc(s, whitespace)
xp := x
yp := y
edge := x + w
for _, s := range words {
tw := doc.GetStringWidth(s)
doc.Text(xp, yp, s)
xp += tw + (wordspacing * factor)
if xp > edge {
xp = x
yp += leading
nbreak++
}
}
if len(link) > 0 {
doc.LinkString(x, y-fs, edge, (yp-y)+fs, link)
}
return nbreak
}
// pdfslide makes a slide, one slide per PDF page
func pdfslide(doc *gofpdf.Fpdf, d deck.Deck, n int, gp float64) {
if n < 0 || n > len(d.Slide)-1 {
return
}
var x, y, fs float64
doc.AddPage()
cw := float64(d.Canvas.Width)
ch := float64(d.Canvas.Height)
slide := d.Slide[n]
// set default background
if slide.Bg == "" {
slide.Bg = "white"
}
background(doc, cw, ch, slide.Bg)
if slide.GradPercent <= 0 || slide.GradPercent > 100 {
slide.GradPercent = 100
}
// set gradient background, if specified. You need both colors
if len(slide.Gradcolor1) > 0 && len(slide.Gradcolor2) > 0 {
gradient(doc, cw, ch, slide.Gradcolor1, slide.Gradcolor2, slide.GradPercent)
}
// set the default foreground
if slide.Fg == "" {
slide.Fg = "black"
}
// for every image on the slide...
for _, im := range slide.Image {
x, y, _ = dimen(cw, ch, im.Xp, im.Yp, 0)
fw, fh := float64(im.Width), float64(im.Height)
// scale the image by the specified percentage
if im.Scale > 0 {
fw *= (im.Scale / 100)
fh *= (im.Scale / 100)
}
// scale the image to fit the canvas width
if im.Autoscale == "on" && fw > cw {
fh *= (cw / fw)
fw = cw
}
midx := fw / 2
midy := fh / 2
doc.Image(im.Name, x-midx, y-midy, fw, fh, false, "", 0, "")
if len(im.Caption) > 0 {
capsize := deck.Pwidth(im.Sp, cw, pct(2, cw))
if im.Font == "" {
im.Font = "sans"
}
if im.Color == "" {
im.Color = slide.Fg
}
if im.Align == "" {
im.Align = "center"
}
switch im.Align {
case "left", "start":
x -= midx
case "right", "end":
x += midx
}
capr, capg, capb := colorlookup(im.Color)
doc.SetTextColor(capr, capg, capb)
showtext(doc, x, y+(midy)+(capsize*1.5), im.Caption, capsize, im.Font, im.Align, "")
}
}
// every graphic on the slide
const defaultColor = "rgb(127,127,127)"
// rect
for _, rect := range slide.Rect {
x, y, _ := dimen(cw, ch, rect.Xp, rect.Yp, 0)
var w, h float64
w = pct(rect.Wp, cw)
if rect.Hr == 0 {
h = pct(rect.Hp, ch)
} else {
h = pct(rect.Hr, w)
}
if rect.Color == "" {
rect.Color = defaultColor
}
setopacity(doc, rect.Opacity)
dorect(doc, x-(w/2), y-(h/2), w, h, rect.Color)
}
// ellipse
for _, ellipse := range slide.Ellipse {
x, y, _ := dimen(cw, ch, ellipse.Xp, ellipse.Yp, 0)
var w, h float64
w = pct(ellipse.Wp, cw)
if ellipse.Hr == 0 {
h = pct(ellipse.Hp, ch)
} else {
h = pct(ellipse.Hr, w)
}
if ellipse.Color == "" {
ellipse.Color = defaultColor
}
setopacity(doc, ellipse.Opacity)
doellipse(doc, x, y, w/2, h/2, ellipse.Color)
}
// curve
for _, curve := range slide.Curve {
if curve.Color == "" {
curve.Color = defaultColor
}
setopacity(doc, curve.Opacity)
x1, y1, sw := dimen(cw, ch, curve.Xp1, curve.Yp1, curve.Sp)
x2, y2, _ := dimen(cw, ch, curve.Xp2, curve.Yp2, 0)
x3, y3, _ := dimen(cw, ch, curve.Xp3, curve.Yp3, 0)
if sw == 0 {
sw = 2.0
}
docurve(doc, x1, y1, x2, y2, x3, y3, sw, curve.Color)
}
// arc
for _, arc := range slide.Arc {
if arc.Color == "" {
arc.Color = defaultColor
}
setopacity(doc, arc.Opacity)
x, y, sw := dimen(cw, ch, arc.Xp, arc.Yp, arc.Sp)
w := pct(arc.Wp, cw)
h := pct(arc.Hp, cw)
if sw == 0 {
sw = 2.0
}
doarc(doc, x, y, w/2, h/2, arc.A1, arc.A2, sw, arc.Color)
}
// line
for _, line := range slide.Line {
if line.Color == "" {
line.Color = defaultColor
}
setopacity(doc, line.Opacity)
x1, y1, sw := dimen(cw, ch, line.Xp1, line.Yp1, line.Sp)
x2, y2, _ := dimen(cw, ch, line.Xp2, line.Yp2, 0)
if sw == 0 {
sw = 2.0
}
doline(doc, x1, y1, x2, y2, sw, line.Color)
}
// polygon
for _, poly := range slide.Polygon {
if poly.Color == "" {
poly.Color = defaultColor
}
setopacity(doc, poly.Opacity)
dopoly(doc, poly.XC, poly.YC, poly.Color, cw, ch)
}
// for every text element...
var tdata string
for _, t := range slide.Text {
if t.Color == "" {
t.Color = slide.Fg
}
if t.Font == "" {
t.Font = "sans"
}
setopacity(doc, t.Opacity)
x, y, fs = dimen(cw, ch, t.Xp, t.Yp, t.Sp)
if t.File != "" {
tdata = includefile(t.File)
} else {
tdata = t.Tdata
}
if t.Lp == 0 {
t.Lp = linespacing
}
dotext(doc, cw, x, y, fs, t.Wp, t.Lp, tdata, t.Font, t.Color, t.Align, t.Type, t.Link)
}
// for every list element...
for _, l := range slide.List {
if l.Color == "" {
l.Color = slide.Fg
}
if l.Lp == 0 {
l.Lp = listspacing
}
if l.Wp == 0 {
l.Wp = listwrap
}
setopacity(doc, l.Opacity)
x, y, fs = dimen(cw, ch, l.Xp, l.Yp, l.Sp)
dolist(doc, cw, x, y, fs, l.Wp, l.Lp, l.Li, l.Font, l.Color, l.Type)
}
// add a grid, if specified
if gp > 0 {
grid(doc, cw, ch, slide.Fg, gp)
}
}
// doslides reads the deck file, making the PDF version
func doslides(doc *gofpdf.Fpdf, pc gofpdf.InitType, filename, author, title string, gp float64) {
var d deck.Deck
var err error
translate = doc.UnicodeTranslatorFromDescriptor("")
w := int(pc.Size.Wd)
h := int(pc.Size.Ht)
for _, v := range fontmap {
doc.AddFont(v, "", v+".json")
}
d, err = deck.Read(filename, w, h)
if err != nil {
fmt.Fprintf(os.Stderr, "pdfdeck: %v\n", err)
return
}
if pc.OrientationStr == "L" {
w, h = h, w
}
d.Canvas.Width = w
d.Canvas.Height = h
doc.SetDisplayMode("fullpage", "single") // optimal set for presentations
doc.SetCreator("pdfdeck", true)
// Document-supplied overrides command-line specified metadata
if len(d.Creator) > 0 {
author = d.Creator
}
if len(d.Title) > 0 {
title = d.Title
}
if len(title) > 0 {
doc.SetTitle(title, true)
}
if len(author) > 0 {
doc.SetAuthor(author, true)
}
if len(d.Subject) > 0 {
doc.SetSubject(d.Subject, true)
}
for i := 0; i < len(d.Slide); i++ {
pdfslide(doc, d, i, gp)
}
}
// dodeck turns deck input files into PDFs
// if the sflag is set, all output goes to the standard output file,
// otherwise, PDFs are written the destination directory, to filenames based on the input name.
func dodeck(files []string, pageconfig gofpdf.InitType, w, h float64, sflag bool, outdir, author, title string, gp float64) {
pc := &pageconfig
if sflag { // combined output to standard output
doc := gofpdf.NewCustom(pc)
for _, filename := range files {
doslides(doc, pageconfig, filename, author, title, gp)
}
err := doc.Output(os.Stdout)
if err != nil {
fmt.Fprintf(os.Stderr, "%v\n", err)
}
} else { // output to individual files
for _, filename := range files {
base := strings.Split(filepath.Base(filename), ".xml")
out, err := os.Create(filepath.Join(outdir, base[0]+".pdf"))
if err != nil {
fmt.Fprintf(os.Stderr, "pdfdeck: %v\n", err)
continue
}
doc := gofpdf.NewCustom(pc)
doslides(doc, pageconfig, filename, author, title, gp)
err = doc.Output(out)
if err != nil {
fmt.Fprintf(os.Stderr, "pdfdeck: %v\n", err)
continue
}
out.Close()
}
}
}
// includefile returns the contents of a file as string
func includefile(filename string) string {
data, err := ioutil.ReadFile(filename)
if err != nil {
fmt.Fprintf(os.Stderr, "%v\n", err)
return ""
}
return codemap.Replace(string(data))
}
// for every file, make a deck
func main() {
var (
sansfont = flag.String("sans", "helvetica", "sans font")
serifont = flag.String("serif", "times", "serif font")
monofont = flag.String("mono", "courier", "mono font")
symbolfont = flag.String("symbol", "zapfdingbats", "symbol font")
pagesize = flag.String("pagesize", "Letter", "pagesize: w,h, or one of: Letter, Legal, Tabloid, A3, A4, A5, ArchA, 4R, Index, Widescreen")
fontdir = flag.String("fontdir", os.Getenv("DECKFONTS"), "directory for fonts (defaults to DECKFONTS environment variable)")
outdir = flag.String("outdir", ".", "output directory")
title = flag.String("title", "", "document title")
author = flag.String("author", "", "document author")
gridpct = flag.Float64("grid", 0, "draw a percentage grid on each slide")
stdout = flag.Bool("stdout", false, "output to standard output")
)
flag.Parse()
var pw, ph float64
nd, err := fmt.Sscanf(*pagesize, "%g,%g", &pw, &ph)
if nd != 2 || err != nil {
pw, ph = 0.0, 0.0
}
if pw == 0 && ph == 0 {
p, ok := pagemap[*pagesize]
if !ok {
p = pagemap["Letter"]
}
pw = p.width * p.unit
ph = p.height * p.unit
}
pageconfig := gofpdf.InitType{
UnitStr: "pt",
SizeStr: *pagesize,
Size: gofpdf.SizeType{Wd: pw, Ht: ph},
FontDirStr: *fontdir,
}
fontmap["sans"] = *sansfont
fontmap["serif"] = *serifont
fontmap["mono"] = *monofont
fontmap["symbol"] = *symbolfont
dodeck(flag.Args(), pageconfig, pw, ph, *stdout, *outdir, *author, *title, *gridpct)
}