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Diffstat (limited to 'fpdf.go')
-rw-r--r--fpdf.go823
1 files changed, 695 insertions, 128 deletions
diff --git a/fpdf.go b/fpdf.go
index 4053802..47a95e2 100644
--- a/fpdf.go
+++ b/fpdf.go
@@ -618,6 +618,16 @@ func (f *Fpdf) AliasNbPages(aliasStr string) {
f.aliasNbPagesStr = aliasStr
}
+// enable right to left mode
+func (f *Fpdf) RTL() {
+ f.isRTL = true
+}
+
+// disable right to left mode
+func (f *Fpdf) LTR() {
+ f.isRTL = false
+}
+
// open begins a document
func (f *Fpdf) open() {
f.state = 1
@@ -915,14 +925,40 @@ func (f *Fpdf) GetStringWidth(s string) float64 {
if f.err != nil {
return 0
}
+ w := f.GetStringSymbolWidth(s)
+ return float64(w) * f.fontSize / 1000
+}
+
+// GetStringSymbolWidth returns the length of a string in glyf units. A font must be
+// currently selected.
+func (f *Fpdf) GetStringSymbolWidth(s string) int {
+ if f.err != nil {
+ return 0
+ }
w := 0
- for _, ch := range []byte(s) {
- if ch == 0 {
- break
+ if f.isCurrentUTF8 {
+ unicode := []rune(s)
+ for _, char := range unicode {
+ intChar := int(char)
+ if len(f.currentFont.Cw) >= intChar && f.currentFont.Cw[intChar] > 0 {
+ if f.currentFont.Cw[intChar] != 65535 {
+ w += f.currentFont.Cw[intChar]
+ }
+ } else if f.currentFont.Desc.MissingWidth != 0 {
+ w += f.currentFont.Desc.MissingWidth
+ } else {
+ w += 500
+ }
+ }
+ } else {
+ for _, ch := range []byte(s) {
+ if ch == 0 {
+ break
+ }
+ w += f.currentFont.Cw[ch]
}
- w += f.currentFont.Cw[ch]
}
- return float64(w) * f.fontSize / 1000
+ return w
}
// SetLineWidth defines the line width. By default, the value equals 0.2 mm.
@@ -1522,30 +1558,128 @@ func (f *Fpdf) ClipEnd() {
// definition file to be added. The file will be loaded from the font directory
// specified in the call to New() or SetFontLocation().
func (f *Fpdf) AddFont(familyStr, styleStr, fileStr string) {
+ f.addFont(familyStr, styleStr, fileStr, false)
+}
+
+// AddUTF8Font imports a TrueType font with utf-8 symbols and makes it available.
+// It is necessary to generate a font definition file first with the makefont
+// utility. It is not necessary to call this function for the core PDF fonts
+// (courier, helvetica, times, zapfdingbats).
+//
+// The JSON definition file (and the font file itself when embedding) must be
+// present in the font directory. If it is not found, the error "Could not
+// include font definition file" is set.
+//
+// family specifies the font family. The name can be chosen arbitrarily. If it
+// is a standard family name, it will override the corresponding font. This
+// string is used to subsequently set the font with the SetFont method.
+//
+// style specifies the font style. Acceptable values are (case insensitive) the
+// empty string for regular style, "B" for bold, "I" for italic, or "BI" or
+// "IB" for bold and italic combined.
+//
+// fileStr specifies the base name with ".json" extension of the font
+// definition file to be added. The file will be loaded from the font directory
+// specified in the call to New() or SetFontLocation().
+func (f *Fpdf) AddUTF8Font(familyStr, styleStr, fileStr string) {
+ f.addFont(familyStr, styleStr, fileStr, true)
+}
+
+func (f *Fpdf) addFont(familyStr, styleStr, fileStr string, isUTF8 bool) {
if fileStr == "" {
- fileStr = strings.Replace(familyStr, " ", "", -1) + strings.ToLower(styleStr) + ".json"
+ if isUTF8 {
+ fileStr = strings.Replace(familyStr, " ", "", -1) + strings.ToLower(styleStr) + ".ttf"
+ } else {
+ fileStr = strings.Replace(familyStr, " ", "", -1) + strings.ToLower(styleStr) + ".json"
+ }
}
+ if isUTF8 {
+ fontKey := getFontKey(familyStr, styleStr)
+ _, ok := f.fonts[fontKey]
+ if ok {
+ return
+ }
+ ttfStat, _ := os.Stat(fileStr)
+ originalSize := ttfStat.Size()
+ Type := "UTF8"
- if f.fontLoader != nil {
- reader, err := f.fontLoader.Open(fileStr)
- if err == nil {
- f.AddFontFromReader(familyStr, styleStr, reader)
- if closer, ok := reader.(io.Closer); ok {
- closer.Close()
+ utf8Bytes, _ := ioutil.ReadFile(fileStr)
+ reader := fileReader{readerPosition: 0, array: utf8Bytes}
+ utf8File := newUTF8Font(&reader)
+
+ err := utf8File.parseFile()
+ if err != nil {
+ fmt.Printf("get metrics Error: %e\n", err)
+ return
+ }
+
+ desc := FontDescType{
+ Ascent: int(utf8File.Ascent),
+ Descent: int(utf8File.Descent),
+ CapHeight: utf8File.CapHeight,
+ Flags: utf8File.Flags,
+ FontBBox: utf8File.Bbox,
+ ItalicAngle: utf8File.ItalicAngle,
+ StemV: utf8File.StemV,
+ MissingWidth: round(utf8File.DefaultWidth),
+ }
+
+ var sbarr map[int]int
+ if f.aliasNbPagesStr == "" {
+ sbarr = makeSubsetRange(57)
+ } else {
+ sbarr = makeSubsetRange(32)
+ }
+ def := fontDefType{
+ Tp: Type,
+ Name: fontKey,
+ Desc: desc,
+ Up: int(round(utf8File.UnderlinePosition)),
+ Ut: round(utf8File.UnderlineThickness),
+ Cw: utf8File.CharWidths,
+ usedRunes: sbarr,
+ File: fileStr,
+ utf8File: utf8File,
+ }
+ def.i, _ = generateFontID(def)
+ f.fonts[fontKey] = def
+ f.fontFiles[fontKey] = fontFileType{
+ length1: originalSize,
+ fontType: "UTF8",
+ }
+ f.fontFiles[fileStr] = fontFileType{
+ fontType: "UTF8",
+ }
+ } else {
+ if f.fontLoader != nil {
+ reader, err := f.fontLoader.Open(fileStr)
+ if err == nil {
+ f.AddFontFromReader(familyStr, styleStr, reader)
+ if closer, ok := reader.(io.Closer); ok {
+ closer.Close()
+ }
+ return
}
+ }
+
+ fileStr = path.Join(f.fontpath, fileStr)
+ file, err := os.Open(fileStr)
+ if err != nil {
+ f.err = err
return
}
- }
+ defer file.Close()
- fileStr = path.Join(f.fontpath, fileStr)
- file, err := os.Open(fileStr)
- if err != nil {
- f.err = err
- return
+ f.AddFontFromReader(familyStr, styleStr, file)
}
- defer file.Close()
+}
- f.AddFontFromReader(familyStr, styleStr, file)
+func makeSubsetRange(end int) map[int]int {
+ answer := make(map[int]int)
+ for i := 0; i < end; i++ {
+ answer[i] = 0
+ }
+ return answer
}
// AddFontFromBytes imports a TrueType, OpenType or Type1 font from static
@@ -1564,6 +1698,29 @@ func (f *Fpdf) AddFont(familyStr, styleStr, fileStr string) {
//
// zFileBytes contain all bytes of Z file.
func (f *Fpdf) AddFontFromBytes(familyStr, styleStr string, jsonFileBytes, zFileBytes []byte) {
+ f.addFontFromBytes(familyStr, styleStr, jsonFileBytes, zFileBytes, nil)
+}
+
+// AddUTF8FontFromBytes imports a TrueType font with utf-8 symbols from static
+// bytes within the executable and makes it available for use in the generated
+// document.
+//
+// family specifies the font family. The name can be chosen arbitrarily. If it
+// is a standard family name, it will override the corresponding font. This
+// string is used to subsequently set the font with the SetFont method.
+//
+// style specifies the font style. Acceptable values are (case insensitive) the
+// empty string for regular style, "B" for bold, "I" for italic, or "BI" or
+// "IB" for bold and italic combined.
+//
+// jsonFileBytes contain all bytes of JSON file.
+//
+// zFileBytes contain all bytes of Z file.
+func (f *Fpdf) AddUTF8FontFromBytes(familyStr, styleStr string, utf8Bytes []byte) {
+ f.addFontFromBytes(familyStr, styleStr, nil, nil, utf8Bytes)
+}
+
+func (f *Fpdf) addFontFromBytes(familyStr, styleStr string, jsonFileBytes, zFileBytes, utf8Bytes []byte) {
if f.err != nil {
return
}
@@ -1577,61 +1734,108 @@ func (f *Fpdf) AddFontFromBytes(familyStr, styleStr string, jsonFileBytes, zFile
return
}
- // load font definitions
- var info fontDefType
- err := json.Unmarshal(jsonFileBytes, &info)
+ if utf8Bytes != nil {
- if err != nil {
- f.err = err
- }
+ if styleStr == "IB" {
+ styleStr = "BI"
+ }
- if f.err != nil {
- return
- }
+ Type := "UTF8"
+ reader := fileReader{readerPosition: 0, array: utf8Bytes}
- if info.i, err = generateFontID(info); err != nil {
- f.err = err
- return
- }
+ utf8File := newUTF8Font(&reader)
- // search existing encodings
- if len(info.Diff) > 0 {
- n := -1
+ err := utf8File.parseFile()
+ if err != nil {
+ fmt.Printf("get metrics Error: %e\n", err)
+ return
+ }
+ desc := FontDescType{
+ Ascent: int(utf8File.Ascent),
+ Descent: int(utf8File.Descent),
+ CapHeight: utf8File.CapHeight,
+ Flags: utf8File.Flags,
+ FontBBox: utf8File.Bbox,
+ ItalicAngle: utf8File.ItalicAngle,
+ StemV: utf8File.StemV,
+ MissingWidth: round(utf8File.DefaultWidth),
+ }
- for j, str := range f.diffs {
- if str == info.Diff {
- n = j + 1
- break
- }
+ var sbarr map[int]int
+ if f.aliasNbPagesStr == "" {
+ sbarr = makeSubsetRange(57)
+ } else {
+ sbarr = makeSubsetRange(32)
}
+ def := fontDefType{
+ Tp: Type,
+ Name: fontkey,
+ Desc: desc,
+ Up: int(round(utf8File.UnderlinePosition)),
+ Ut: round(utf8File.UnderlineThickness),
+ Cw: utf8File.CharWidths,
+ utf8File: utf8File,
+ usedRunes: sbarr,
+ }
+ def.i, _ = generateFontID(def)
+ f.fonts[fontkey] = def
+ } else {
+ // load font definitions
+ var info fontDefType
+ err := json.Unmarshal(jsonFileBytes, &info)
- if n < 0 {
- f.diffs = append(f.diffs, info.Diff)
- n = len(f.diffs)
+ if err != nil {
+ f.err = err
}
- info.DiffN = n
- }
+ if f.err != nil {
+ return
+ }
- // embed font
- if len(info.File) > 0 {
- if info.Tp == "TrueType" {
- f.fontFiles[info.File] = fontFileType{
- length1: int64(info.OriginalSize),
- embedded: true,
- content: zFileBytes,
+ if info.i, err = generateFontID(info); err != nil {
+ f.err = err
+ return
+ }
+
+ // search existing encodings
+ if len(info.Diff) > 0 {
+ n := -1
+
+ for j, str := range f.diffs {
+ if str == info.Diff {
+ n = j + 1
+ break
+ }
}
- } else {
- f.fontFiles[info.File] = fontFileType{
- length1: int64(info.Size1),
- length2: int64(info.Size2),
- embedded: true,
- content: zFileBytes,
+
+ if n < 0 {
+ f.diffs = append(f.diffs, info.Diff)
+ n = len(f.diffs)
}
+
+ info.DiffN = n
}
- }
- f.fonts[fontkey] = info
+ // embed font
+ if len(info.File) > 0 {
+ if info.Tp == "TrueType" {
+ f.fontFiles[info.File] = fontFileType{
+ length1: int64(info.OriginalSize),
+ embedded: true,
+ content: zFileBytes,
+ }
+ } else {
+ f.fontFiles[info.File] = fontFileType{
+ length1: int64(info.Size1),
+ length2: int64(info.Size2),
+ embedded: true,
+ content: zFileBytes,
+ }
+ }
+ }
+
+ f.fonts[fontkey] = info
+ }
}
// getFontKey is used by AddFontFromReader and GetFontDesc
@@ -1756,8 +1960,8 @@ func (f *Fpdf) SetFont(familyStr, styleStr string, size float64) {
}
// Test if font is already loaded
- fontkey := familyStr + styleStr
- _, ok = f.fonts[fontkey]
+ fontKey := familyStr + styleStr
+ _, ok = f.fonts[fontKey]
if !ok {
// Test if one of the core fonts
if familyStr == "arial" {
@@ -1771,8 +1975,8 @@ func (f *Fpdf) SetFont(familyStr, styleStr string, size float64) {
if familyStr == "zapfdingbats" {
styleStr = ""
}
- fontkey = familyStr + styleStr
- _, ok = f.fonts[fontkey]
+ fontKey = familyStr + styleStr
+ _, ok = f.fonts[fontKey]
if !ok {
rdr := f.coreFontReader(familyStr, styleStr)
if f.err == nil {
@@ -1792,7 +1996,12 @@ func (f *Fpdf) SetFont(familyStr, styleStr string, size float64) {
f.fontStyle = styleStr
f.fontSizePt = size
f.fontSize = size / f.k
- f.currentFont = f.fonts[fontkey]
+ f.currentFont = f.fonts[fontKey]
+ if f.currentFont.Tp == "UTF8" {
+ f.isCurrentUTF8 = true
+ } else {
+ f.isCurrentUTF8 = false
+ }
if f.page > 0 {
f.outf("BT /F%s %.2f Tf ET", f.currentFont.i, f.fontSizePt)
}
@@ -1895,7 +2104,20 @@ func (f *Fpdf) Bookmark(txtStr string, level int, y float64) {
// precisely on the page, but it is usually easier to use Cell(), MultiCell()
// or Write() which are the standard methods to print text.
func (f *Fpdf) Text(x, y float64, txtStr string) {
- s := sprintf("BT %.2f %.2f Td (%s) Tj ET", x*f.k, (f.h-y)*f.k, f.escape(txtStr))
+ var txt2 string
+ if f.isCurrentUTF8 {
+ if f.isRTL {
+ txtStr = revertText(txtStr)
+ x -= f.GetStringWidth(txtStr)
+ }
+ txt2 = f.escape(utf8toutf16(txtStr, false))
+ for _, uni := range []rune(txtStr) {
+ f.currentFont.usedRunes[int(uni)] = int(uni)
+ }
+ } else {
+ txt2 = f.escape(txtStr)
+ }
+ s := sprintf("BT %.2f %.2f Td (%s) Tj ET", x*f.k, (f.h-y)*f.k, txt2)
if f.underline && txtStr != "" {
s += " " + f.dounderline(x, y, txtStr)
}
@@ -2074,14 +2296,52 @@ func (f *Fpdf) CellFormat(w, h float64, txtStr, borderStr string, ln int,
if f.colorFlag {
s.printf("q %s ", f.color.text.str)
}
- txt2 := strings.Replace(txtStr, "\\", "\\\\", -1)
- txt2 = strings.Replace(txt2, "(", "\\(", -1)
- txt2 = strings.Replace(txt2, ")", "\\)", -1)
- // if strings.Contains(txt2, "end of excerpt") {
- // dbg("f.h %.2f, f.y %.2f, h %.2f, f.fontSize %.2f, k %.2f", f.h, f.y, h, f.fontSize, k)
- // }
- s.printf("BT %.2f %.2f Td (%s) Tj ET", (f.x+dx)*k, (f.h-(f.y+dy+.5*h+.3*f.fontSize))*k, txt2)
- //BT %.2F %.2F Td (%s) Tj ET',($this->x+$dx)*$k,($this->h-($this->y+.5*$h+.3*$this->FontSize))*$k,$txt2);
+ //If multibyte, Tw has no effect - do word spacing using an adjustment before each space
+ if (f.ws != 0 || alignStr == "J") && f.isCurrentUTF8 { // && f.ws != 0
+ if f.isRTL {
+ txtStr = revertText(txtStr)
+ }
+ wmax := int(math.Ceil((w - 2*f.cMargin) * 1000 / f.fontSize))
+ for _, uni := range []rune(txtStr) {
+ f.currentFont.usedRunes[int(uni)] = int(uni)
+ }
+ space := f.escape(utf8toutf16(" ", false))
+ strSize := f.GetStringSymbolWidth(txtStr)
+ s.printf("BT 0 Tw %.2f %.2f Td [", (f.x+dx)*k, (f.h-(f.y+.5*h+.3*f.fontSize))*k)
+ t := strings.Split(txtStr, " ")
+ shift := float64((wmax - strSize)) / float64(len(t)-1)
+ numt := len(t)
+ for i := 0; i < numt; i++ {
+ tx := t[i]
+ tx = "(" + f.escape(utf8toutf16(tx, false)) + ")"
+ s.printf("%s ", tx)
+ if (i + 1) < numt {
+ s.printf("%.3f(%s) ", -shift, space)
+ }
+ }
+ s.printf("] TJ ET")
+ } else {
+ var txt2 string
+ if f.isCurrentUTF8 {
+ if f.isRTL {
+ txtStr = revertText(txtStr)
+ }
+ txt2 = f.escape(utf8toutf16(txtStr, false))
+ for _, uni := range []rune(txtStr) {
+ f.currentFont.usedRunes[int(uni)] = int(uni)
+ }
+ } else {
+
+ txt2 = strings.Replace(txtStr, "\\", "\\\\", -1)
+ txt2 = strings.Replace(txt2, "(", "\\(", -1)
+ txt2 = strings.Replace(txt2, ")", "\\)", -1)
+ }
+ bt := (f.x + dx) * k
+ td := (f.h - (f.y + dy + .5*h + .3*f.fontSize)) * k
+ s.printf("BT %.2f %.2f Td (%s)Tj ET", bt, td, txt2)
+ //BT %.2F %.2F Td (%s) Tj ET',(f.x+dx)*k,(f.h-(f.y+.5*h+.3*f.FontSize))*k,txt2);
+ }
+
if f.underline {
s.printf(" %s", f.dounderline(f.x+dx, f.y+dy+.5*h+.3*f.fontSize, txtStr))
}
@@ -2109,6 +2369,17 @@ func (f *Fpdf) CellFormat(w, h float64, txtStr, borderStr string, ln int,
return
}
+// Revert string to use in RTL languages
+func revertText(text string) string {
+ oldText := []rune(text)
+ newText := make([]rune, len(oldText))
+ lenght := len(oldText) - 1
+ for i, r := range oldText {
+ newText[lenght-i] = r
+ }
+ return string(newText)
+}
+
// Cell is a simpler version of CellFormat with no fill, border, links or
// special alignment.
func (f *Fpdf) Cell(w, h float64, txtStr string) {
@@ -2132,7 +2403,7 @@ func (f *Fpdf) Cellf(w, h float64, fmtStr string, args ...interface{}) {
func (f *Fpdf) SplitLines(txt []byte, w float64) [][]byte {
// Function contributed by Bruno Michel
lines := [][]byte{}
- cw := &f.currentFont.Cw
+ cw := f.currentFont.Cw
wmax := int(math.Ceil((w - 2*f.cMargin) * 1000 / f.fontSize))
s := bytes.Replace(txt, []byte("\r"), []byte{}, -1)
nb := len(s)
@@ -2192,17 +2463,26 @@ func (f *Fpdf) MultiCell(w, h float64, txtStr, borderStr, alignStr string, fill
if alignStr == "" {
alignStr = "J"
}
- cw := &f.currentFont.Cw
+ cw := f.currentFont.Cw
if w == 0 {
w = f.w - f.rMargin - f.x
}
wmax := int(math.Ceil((w - 2*f.cMargin) * 1000 / f.fontSize))
s := strings.Replace(txtStr, "\r", "", -1)
- nb := len(s)
- // if nb > 0 && s[nb-1:nb] == "\n" {
- if nb > 0 && []byte(s)[nb-1] == '\n' {
- nb--
- s = s[0:nb]
+
+ var nb int
+ if f.isCurrentUTF8 {
+ nb = len([]rune(s))
+ for nb > 0 && []rune(s)[nb-1] == '\n' {
+ nb--
+ s = string([]rune(s)[0:nb])
+ }
+ } else {
+ nb = len(s)
+ if nb > 0 && []byte(s)[nb-1] == '\n' {
+ nb--
+ s = s[0:nb]
+ }
}
// dbg("[%s]\n", s)
var b, b2 string
@@ -2236,14 +2516,32 @@ func (f *Fpdf) MultiCell(w, h float64, txtStr, borderStr, alignStr string, fill
nl := 1
for i < nb {
// Get next character
- c := []byte(s)[i]
+ var c rune
+ if f.isCurrentUTF8 {
+ c = []rune(s)[i]
+ } else {
+ c = rune([]byte(s)[i])
+ }
if c == '\n' {
// Explicit line break
if f.ws > 0 {
f.ws = 0
f.out("0 Tw")
}
- f.CellFormat(w, h, s[j:i], b, 2, alignStr, fill, 0, "")
+
+ if f.isCurrentUTF8 {
+ newAlignStr := alignStr
+ if newAlignStr == "J" {
+ if f.isRTL {
+ newAlignStr = "R"
+ } else {
+ newAlignStr = "L"
+ }
+ }
+ f.CellFormat(w, h, string([]rune(s)[j:i]), b, 2, newAlignStr, fill, 0, "")
+ } else {
+ f.CellFormat(w, h, s[j:i], b, 2, alignStr, fill, 0, "")
+ }
i++
sep = -1
j = i
@@ -2260,7 +2558,11 @@ func (f *Fpdf) MultiCell(w, h float64, txtStr, borderStr, alignStr string, fill
ls = l
ns++
}
- l += cw[c]
+ if cw[int(c)] == 0 { //Marker width 0 used for missing symbols
+ l += f.currentFont.Desc.MissingWidth
+ } else if cw[int(c)] != 65535 { //Marker width 65535 used for zero width symbols
+ l += cw[int(c)]
+ }
if l > wmax {
// Automatic line break
if sep == -1 {
@@ -2271,7 +2573,11 @@ func (f *Fpdf) MultiCell(w, h float64, txtStr, borderStr, alignStr string, fill
f.ws = 0
f.out("0 Tw")
}
- f.CellFormat(w, h, s[j:i], b, 2, alignStr, fill, 0, "")
+ if f.isCurrentUTF8 {
+ f.CellFormat(w, h, string([]rune(s)[j:i]), b, 2, alignStr, fill, 0, "")
+ } else {
+ f.CellFormat(w, h, s[j:i], b, 2, alignStr, fill, 0, "")
+ }
} else {
if alignStr == "J" {
if ns > 1 {
@@ -2281,7 +2587,11 @@ func (f *Fpdf) MultiCell(w, h float64, txtStr, borderStr, alignStr string, fill
}
f.outf("%.3f Tw", f.ws*f.k)
}
- f.CellFormat(w, h, s[j:sep], b, 2, alignStr, fill, 0, "")
+ if f.isCurrentUTF8 {
+ f.CellFormat(w, h, string([]rune(s)[j:sep]), b, 2, alignStr, fill, 0, "")
+ } else {
+ f.CellFormat(w, h, s[j:sep], b, 2, alignStr, fill, 0, "")
+ }
i = sep + 1
}
sep = -1
@@ -2304,18 +2614,38 @@ func (f *Fpdf) MultiCell(w, h float64, txtStr, borderStr, alignStr string, fill
if len(borderStr) > 0 && strings.Contains(borderStr, "B") {
b += "B"
}
- f.CellFormat(w, h, s[j:i], b, 2, alignStr, fill, 0, "")
+ if f.isCurrentUTF8 {
+ if alignStr == "J" {
+ if f.isRTL {
+ alignStr = "R"
+ } else {
+ alignStr = ""
+ }
+ }
+ f.CellFormat(w, h, string([]rune(s)[j:i]), b, 2, alignStr, fill, 0, "")
+ } else {
+ f.CellFormat(w, h, s[j:i], b, 2, alignStr, fill, 0, "")
+ }
f.x = f.lMargin
}
// write outputs text in flowing mode
func (f *Fpdf) write(h float64, txtStr string, link int, linkStr string) {
// dbg("Write")
- cw := &f.currentFont.Cw
+ cw := f.currentFont.Cw
w := f.w - f.rMargin - f.x
wmax := (w - 2*f.cMargin) * 1000 / f.fontSize
s := strings.Replace(txtStr, "\r", "", -1)
- nb := len(s)
+ var nb int
+ if f.isCurrentUTF8 {
+ nb = len([]rune(s))
+ if nb == 1 && s == " " {
+ f.x += f.GetStringWidth(s)
+ return
+ }
+ } else {
+ nb = len(s)
+ }
sep := -1
i := 0
j := 0
@@ -2323,10 +2653,19 @@ func (f *Fpdf) write(h float64, txtStr string, link int, linkStr string) {
nl := 1
for i < nb {
// Get next character
- c := []byte(s)[i]
+ var c rune
+ if f.isCurrentUTF8 {
+ c = []rune(s)[i]
+ } else {
+ c = rune([]byte(s)[i])
+ }
if c == '\n' {
// Explicit line break
- f.CellFormat(w, h, s[j:i], "", 2, "", false, link, linkStr)
+ if f.isCurrentUTF8 {
+ f.CellFormat(w, h, string([]rune(s)[j:i]), "", 2, "", false, link, linkStr)
+ } else {
+ f.CellFormat(w, h, s[j:i], "", 2, "", false, link, linkStr)
+ }
i++
sep = -1
j = i
@@ -2342,7 +2681,7 @@ func (f *Fpdf) write(h float64, txtStr string, link int, linkStr string) {
if c == ' ' {
sep = i
}
- l += float64(cw[c])
+ l += float64(cw[int(c)])
if l > wmax {
// Automatic line break
if sep == -1 {
@@ -2359,9 +2698,17 @@ func (f *Fpdf) write(h float64, txtStr string, link int, linkStr string) {
if i == j {
i++
}
- f.CellFormat(w, h, s[j:i], "", 2, "", false, link, linkStr)
+ if f.isCurrentUTF8 {
+ f.CellFormat(w, h, string([]rune(s)[j:i]), "", 2, "", false, link, linkStr)
+ } else {
+ f.CellFormat(w, h, s[j:i], "", 2, "", false, link, linkStr)
+ }
} else {
- f.CellFormat(w, h, s[j:sep], "", 2, "", false, link, linkStr)
+ if f.isCurrentUTF8 {
+ f.CellFormat(w, h, string([]rune(s)[j:sep]), "", 2, "", false, link, linkStr)
+ } else {
+ f.CellFormat(w, h, s[j:sep], "", 2, "", false, link, linkStr)
+ }
i = sep + 1
}
sep = -1
@@ -2379,7 +2726,11 @@ func (f *Fpdf) write(h float64, txtStr string, link int, linkStr string) {
}
// Last chunk
if i != j {
- f.CellFormat(l/1000*f.fontSize, h, s[j:], "", 0, "", false, link, linkStr)
+ if f.isCurrentUTF8 {
+ f.CellFormat(l/1000*f.fontSize, h, string([]rune(s)[j:]), "", 0, "", false, link, linkStr)
+ } else {
+ f.CellFormat(l/1000*f.fontSize, h, s[j:], "", 0, "", false, link, linkStr)
+ }
}
}
@@ -3244,6 +3595,9 @@ func (f *Fpdf) putpages() {
nb := f.page
if len(f.aliasNbPagesStr) > 0 {
// Replace number of pages
+ alias := utf8toutf16(f.aliasNbPagesStr, false)
+ r := utf8toutf16(sprintf("%d", nb), false)
+ f.RegisterAlias(alias, r)
f.RegisterAlias(f.aliasNbPagesStr, sprintf("%d", nb))
}
f.replaceAliases()
@@ -3350,42 +3704,41 @@ func (f *Fpdf) putfonts() {
}
for _, file = range fileList {
info = f.fontFiles[file]
- // Font file embedding
- f.newobj()
- info.n = f.n
- f.fontFiles[file] = info
+ if info.fontType != "UTF8" {
+ f.newobj()
+ info.n = f.n
+ f.fontFiles[file] = info
- var font []byte
+ var font []byte
- if info.embedded {
- font = info.content
- } else {
- var err error
- font, err = f.loadFontFile(file)
- if err != nil {
- f.err = err
- return
+ if info.embedded {
+ font = info.content
+ } else {
+ var err error
+ font, err = f.loadFontFile(file)
+ if err != nil {
+ f.err = err
+ return
+ }
}
+ compressed := file[len(file)-2:] == ".z"
+ if !compressed && info.length2 > 0 {
+ buf := font[6:info.length1]
+ buf = append(buf, font[6+info.length1+6:info.length2]...)
+ font = buf
+ }
+ f.outf("<</Length %d", len(font))
+ if compressed {
+ f.out("/Filter /FlateDecode")
+ }
+ f.outf("/Length1 %d", info.length1)
+ if info.length2 > 0 {
+ f.outf("/Length2 %d /Length3 0", info.length2)
+ }
+ f.out(">>")
+ f.putstream(font)
+ f.out("endobj")
}
-
- // dbg("font file [%s], ext [%s]", file, file[len(file)-2:])
- compressed := file[len(file)-2:] == ".z"
- if !compressed && info.length2 > 0 {
- buf := font[6:info.length1]
- buf = append(buf, font[6+info.length1+6:info.length2]...)
- font = buf
- }
- f.outf("<</Length %d", len(font))
- if compressed {
- f.out("/Filter /FlateDecode")
- }
- f.outf("/Length1 %d", info.length1)
- if info.length2 > 0 {
- f.outf("/Length2 %d /Length3 0", info.length2)
- }
- f.out(">>")
- f.putstream(font)
- f.out("endobj")
}
}
{
@@ -3465,6 +3818,81 @@ func (f *Fpdf) putfonts() {
s.printf("/FontFile%s %d 0 R>>", suffix, f.fontFiles[font.File].n)
f.out(s.String())
f.out("endobj")
+ case "UTF8":
+ fontName := "utf8" + font.Name
+ usedRunes := font.usedRunes
+ delete(usedRunes, 0)
+ utf8FontStream := font.utf8File.GenerateСutFont(usedRunes)
+ utf8FontSize := len(utf8FontStream)
+ compressedFontStream := sliceCompress(utf8FontStream)
+ CodeSignDictionary := font.utf8File.CodeSymbolDictionary
+ delete(CodeSignDictionary, 0)
+
+ f.newobj()
+ f.out(fmt.Sprintf("<</Type /Font\n/Subtype /Type0\n/BaseFont /%s\n/Encoding /Identity-H\n/DescendantFonts [%d 0 R]\n/ToUnicode %d 0 R>>\n"+"endobj", fontName, f.n+1, f.n+2))
+
+ f.newobj()
+ f.out("<</Type /Font\n/Subtype /CIDFontType2\n/BaseFont /" + fontName + "\n" +
+ "/CIDSystemInfo " + strconv.Itoa(f.n+2) + " 0 R\n/FontDescriptor " + strconv.Itoa(f.n+3) + " 0 R")
+ if font.Desc.MissingWidth != 0 {
+ f.out("/DW " + strconv.Itoa(font.Desc.MissingWidth) + "")
+ }
+ f.generateCIDFontMap(&font, font.utf8File.LastRune)
+ f.out("/CIDToGIDMap " + strconv.Itoa(f.n+4) + " 0 R>>")
+ f.out("endobj")
+
+ f.newobj()
+ f.out("<</Length " + strconv.Itoa(len(toUnicode)) + ">>")
+ f.putstream([]byte(toUnicode))
+ f.out("endobj")
+
+ // CIDInfo
+ f.newobj()
+ f.out("<</Registry (Adobe)\n/Ordering (UCS)\n/Supplement 0>>")
+ f.out("endobj")
+
+ // Font descriptor
+ f.newobj()
+ var s fmtBuffer
+ s.printf("<</Type /FontDescriptor /FontName /%s\n /Ascent %d", fontName, font.Desc.Ascent)
+ s.printf(" /Descent %d", font.Desc.Descent)
+ s.printf(" /CapHeight %d", font.Desc.CapHeight)
+ v := font.Desc.Flags
+ v = v | 4
+ v = v &^ 32
+ s.printf(" /Flags %d", v)
+ s.printf("/FontBBox [%d %d %d %d] ", font.Desc.FontBBox.Xmin, font.Desc.FontBBox.Ymin,
+ font.Desc.FontBBox.Xmax, font.Desc.FontBBox.Ymax)
+ s.printf(" /ItalicAngle %d", font.Desc.ItalicAngle)
+ s.printf(" /StemV %d", font.Desc.StemV)
+ s.printf(" /MissingWidth %d", font.Desc.MissingWidth)
+ s.printf("/FontFile2 %d 0 R", f.n+2)
+ s.printf(">>")
+ f.out(s.String())
+ f.out("endobj")
+
+ // Embed CIDToGIDMap
+ cidToGidMap := make([]byte, 256*256*2)
+
+ for cc, glyph := range CodeSignDictionary {
+ cidToGidMap[cc*2] = byte(glyph >> 8)
+ cidToGidMap[cc*2+1] = byte(glyph & 0xFF)
+ }
+
+ cidToGidMap = sliceCompress(cidToGidMap)
+ f.newobj()
+ f.out("<</Length " + strconv.Itoa(len(cidToGidMap)) + "/Filter /FlateDecode>>")
+ f.putstream(cidToGidMap)
+ f.out("endobj")
+
+ //Font file
+ f.newobj()
+ f.out("<</Length " + strconv.Itoa(len(compressedFontStream)))
+ f.out("/Filter /FlateDecode")
+ f.out("/Length1 " + strconv.Itoa(utf8FontSize))
+ f.out(">>")
+ f.putstream(compressedFontStream)
+ f.out("endobj")
default:
f.err = fmt.Errorf("unsupported font type: %s", tp)
return
@@ -3474,6 +3902,145 @@ func (f *Fpdf) putfonts() {
return
}
+func (f *Fpdf) generateCIDFontMap(font *fontDefType, LastRune int) {
+ rangeID := 0
+ cidArray := make(map[int]*untypedKeyMap)
+ cidArrayKeys := make([]int, 0)
+ prevCid := -2
+ prevWidth := -1
+ interval := false
+ startCid := 1
+ cwLen := LastRune + 1
+
+ // for each character
+ for cid := startCid; cid < cwLen; cid++ {
+ if font.Cw[cid] == 0x00 {
+ continue
+ }
+ width := font.Cw[cid]
+ if width == 65535 {
+ width = 0
+ }
+ if numb, OK := font.usedRunes[cid]; cid > 255 && (!OK || numb == 0) {
+ continue
+ }
+
+ if cid == prevCid+1 {
+ if width == prevWidth {
+
+ if width == cidArray[rangeID].get(0) {
+ cidArray[rangeID].put(nil, width)
+ } else {
+ cidArray[rangeID].pop()
+ rangeID = prevCid
+ r := untypedKeyMap{
+ valueSet: make([]int, 0),
+ keySet: make([]interface{}, 0),
+ }
+ cidArray[rangeID] = &r
+ cidArrayKeys = append(cidArrayKeys, rangeID)
+ cidArray[rangeID].put(nil, prevWidth)
+ cidArray[rangeID].put(nil, width)
+ }
+ interval = true
+ cidArray[rangeID].put("interval", 1)
+ ui := 0
+ ui = ui + 1
+ } else {
+ if interval {
+ // new range
+ rangeID = cid
+ r := untypedKeyMap{
+ valueSet: make([]int, 0),
+ keySet: make([]interface{}, 0),
+ }
+ cidArray[rangeID] = &r
+ cidArrayKeys = append(cidArrayKeys, rangeID)
+ cidArray[rangeID].put(nil, width)
+ } else {
+ cidArray[rangeID].put(nil, width)
+ }
+ interval = false
+ }
+ } else {
+ rangeID = cid
+ r := untypedKeyMap{
+ valueSet: make([]int, 0),
+ keySet: make([]interface{}, 0),
+ }
+ cidArray[rangeID] = &r
+ cidArrayKeys = append(cidArrayKeys, rangeID)
+ cidArray[rangeID].put(nil, width)
+ interval = false
+ }
+ prevCid = cid
+ prevWidth = width
+
+ }
+ previousKey := -1
+ nextKey := -1
+ isInterval := false
+ for g := 0; g < len(cidArrayKeys); {
+ key := cidArrayKeys[g]
+ ws := *cidArray[key]
+ cws := len(ws.keySet)
+ if (key == nextKey) && (!isInterval) && (ws.getIndex("interval") < 0 || cws < 4) {
+ if cidArray[key].getIndex("interval") >= 0 {
+ cidArray[key].delete("interval")
+ }
+ cidArray[previousKey] = arrayMerge(cidArray[previousKey], cidArray[key])
+ cidArrayKeys = remove(cidArrayKeys, key)
+ } else {
+ g++
+ previousKey = key
+ }
+ nextKey = key + cws
+ ui := ws.getIndex("interval")
+ ui = ui + 1
+ if ws.getIndex("interval") >= 0 {
+ if cws > 3 {
+ isInterval = true
+ } else {
+ isInterval = false
+ }
+ cidArray[key].delete("interval")
+ nextKey--
+ } else {
+ isInterval = false
+ }
+ }
+ var w fmtBuffer
+ for _, k := range cidArrayKeys {
+ ws := cidArray[k]
+ if len(arrayCountValues(ws.valueSet)) == 1 {
+ w.printf(" %d %d %d", k, k+len(ws.valueSet)-1, ws.get(0))
+ } else {
+ w.printf(" %d [ %s ]\n", k, implode(" ", ws.valueSet))
+ }
+ }
+ f.out("/W [" + w.String() + " ]")
+}
+
+func implode(sep string, arr []int) string {
+ var s fmtBuffer
+ for i := 0; i < len(arr)-1; i++ {
+ s.printf("%v", arr[i])
+ s.printf(sep)
+ }
+ if len(arr) > 0 {
+ s.printf("%v", arr[len(arr)-1])
+ }
+ return s.String()
+}
+
+func arrayCountValues(mp []int) map[int]int {
+ answer := make(map[int]int)
+ for _, v := range mp {
+ answer[v] = answer[v] + 1
+ }
+ return answer
+}
+
func (f *Fpdf) loadFontFile(name string) ([]byte, error) {
if f.fontLoader != nil {
reader, err := f.fontLoader.Open(name)