unipdf/pdf/model/font_simple.go

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

package model

import (
	"errors"
	"io/ioutil"
	"strings"

	"github.com/unidoc/unidoc/common"
	"github.com/unidoc/unidoc/pdf/core"
	"github.com/unidoc/unidoc/pdf/internal/textencoding"
	"github.com/unidoc/unidoc/pdf/model/fonts"
)

// pdfFontSimple describes a Simple Font
//
// 9.6 Simple Fonts (page 254)
// 9.6.1 General
// There are several types of simple fonts, all of which have these properties:
// • Glyphs in the font shall be selected by single-byte character codes obtained from a string that
//   is shown by the text-showing operators. Logically, these codes index into a table of 256 glyphs;
//   the mapping from codes to glyphs is called the font’s encoding. Under some circumstances, the
//   encoding may be altered by means described in 9.6.6, "Character Encoding".
// • Each glyph shall have a single set of metrics, including a horizontal displacement or width,
//   as described in 9.2.4, "Glyph Positioning and Metrics"; that is, simple fonts support only
//   horizontal writing mode.
// • Except for Type 0 fonts, Type 3 fonts in non-Tagged PDF documents, and certain standard Type 1
//   fonts, every font dictionary shall contain a subsidiary dictionary, the font descriptor,
//   containing font-wide metrics and other attributes of the font.
//   Among those attributes is an optional font filestream containing the font program.
type pdfFontSimple struct {
	fontCommon
	container *core.PdfIndirectObject

	// These fields are specific to simple PDF fonts.

	charWidths map[textencoding.CharCode]float64
	// std14Encoder is the encoder specified by the /Encoding entry in the font dict.
	encoder *textencoding.SimpleEncoder
	// std14Encoder is used for Standard 14 fonts where no /Encoding is specified in the font dict.
	std14Encoder *textencoding.SimpleEncoder

	// std14Descriptor is used for Standard 14 fonts where no /FontDescriptor is specified in the font dict.
	std14Descriptor *PdfFontDescriptor

	// Encoding is subject to limitations that are described in 9.6.6, "Character Encoding".
	// BaseFont is derived differently.
	FirstChar core.PdfObject
	LastChar  core.PdfObject
	Widths    core.PdfObject
	Encoding  core.PdfObject

	// Standard 14 fonts metrics
	fontMetrics map[textencoding.GlyphName]fonts.CharMetrics
}

// pdfCIDFontType0FromSkeleton returns a pdfFontSimple with its common fields initalized.
func pdfFontSimpleFromSkeleton(base *fontCommon) *pdfFontSimple {
	return &pdfFontSimple{
		fontCommon: *base,
	}
}

// baseFields returns the fields of `font` that are common to all PDF fonts.
func (font *pdfFontSimple) baseFields() *fontCommon {
	return &font.fontCommon
}

// Encoder returns the font's text encoder.
func (font *pdfFontSimple) Encoder() textencoding.TextEncoder {
	// TODO(peterwilliams97): Need to make font.Encoder()==nil test work for
	// font.std14=Encoder=font.encoder=nil See https://golang.org/doc/faq#nil_error
	if font.encoder != nil {
		return font.encoder
	}

	// Standard 14 fonts have builtin encoders that we fall back to when no /Encoding is specified
	// in the font dict.
	if font.std14Encoder != nil {
		return font.std14Encoder
	}

	// Default to StandardEncoding
	enc, _ := textencoding.NewSimpleTextEncoder("StandardEncoding", nil)
	return enc
}

// SetEncoder sets the encoding for the underlying font.
// TODO(peterwilliams97): Change function signature to SetEncoder(encoder *textencoding.SimpleEncoder).
// TODO(gunnsth): Makes sense if SetEncoder is removed from the interface fonts.Font as proposed in PR #260.
func (font *pdfFontSimple) SetEncoder(encoder textencoding.TextEncoder) {
	simple, ok := encoder.(*textencoding.SimpleEncoder)
	if !ok {
		// This can't happen.
		common.Log.Error("pdfFontSimple.SetEncoder passed bad encoder type %T", encoder)
		simple = nil
	}
	font.encoder = simple
}

// GetGlyphCharMetrics returns the character metrics for the specified glyph.  A bool flag is
// returned to indicate whether or not the entry was found in the glyph to charcode mapping.
func (font pdfFontSimple) GetGlyphCharMetrics(glyph textencoding.GlyphName) (fonts.CharMetrics, bool) {
	if font.fontMetrics != nil {
		metrics, has := font.fontMetrics[glyph]
		if has {
			return metrics, true
		}
	}

	metrics := fonts.CharMetrics{GlyphName: glyph}

	encoder := font.Encoder()

	if encoder == nil {
		common.Log.Debug("No encoder for fonts=%s", font)
		return metrics, false
	}
	code, found := encoder.GlyphToCharcode(glyph)

	if !found {
		if glyph != "space" {
			common.Log.Trace("No charcode for glyph=%q font=%s", glyph, font)
		}
		return fonts.CharMetrics{GlyphName: glyph}, false
	}

	metrics, ok := font.GetCharMetrics(code)
	metrics.GlyphName = glyph
	return metrics, ok
}

// GetCharMetrics returns the character metrics for the specified character code.  A bool flag is
// returned to indicate whether or not the entry was found in the glyph to charcode mapping.
// How it works:
//  1) Return a value the /Widths array (charWidths) if there is one.
//  2) If the font has the same name as a standard 14 font then return width=250.
//  3) Otherwise return no match and let the caller substitute a default.
func (font pdfFontSimple) GetCharMetrics(code textencoding.CharCode) (fonts.CharMetrics, bool) {
	if width, ok := font.charWidths[code]; ok {
		return fonts.CharMetrics{Wx: width}, true
	}
	if isBuiltin(Standard14Font(font.basefont)) {
		// PdfBox says this is what Acrobat does. Their reference is PDFBOX-2334.
		return fonts.CharMetrics{Wx: 250}, true
	}
	return fonts.CharMetrics{}, false
}

// newSimpleFontFromPdfObject creates a pdfFontSimple from dictionary `d`. Elements of `d` that
// are already parsed are contained in `base`.
// Standard 14 fonts need to to specify their builtin encoders in the `std14Encoder` parameter.
// An error is returned if there is a problem with loading.
//
// The value of Encoding is subject to limitations that are described in 9.6.6, "Character Encoding".
// • The value of BaseFont is derived differently.
//
func newSimpleFontFromPdfObject(d *core.PdfObjectDictionary, base *fontCommon,
	std14Encoder *textencoding.SimpleEncoder) (*pdfFontSimple, error) {
	font := pdfFontSimpleFromSkeleton(base)
	font.std14Encoder = std14Encoder

	// FirstChar is not defined in ~/testdata/shamirturing.pdf
	if std14Encoder == nil {
		obj := d.Get("FirstChar")
		if obj == nil {
			obj = core.MakeInteger(0)
		}
		font.FirstChar = obj

		intVal, ok := core.GetIntVal(obj)
		if !ok {
			common.Log.Debug("ERROR: Invalid FirstChar type (%T)", obj)
			return nil, core.ErrTypeError
		}
		firstChar := textencoding.CharCode(intVal)

		obj = d.Get("LastChar")
		if obj == nil {
			obj = core.MakeInteger(255)
		}
		font.LastChar = obj
		intVal, ok = core.GetIntVal(obj)
		if !ok {
			common.Log.Debug("ERROR: Invalid LastChar type (%T)", obj)
			return nil, core.ErrTypeError
		}
		lastChar := textencoding.CharCode(intVal)

		font.charWidths = make(map[textencoding.CharCode]float64)
		obj = d.Get("Widths")
		if obj != nil {
			font.Widths = obj

			arr, ok := core.GetArray(obj)
			if !ok {
				common.Log.Debug("ERROR: Widths attribute != array (%T)", obj)
				return nil, core.ErrTypeError
			}

			widths, err := arr.ToFloat64Array()
			if err != nil {
				common.Log.Debug("ERROR: converting widths to array")
				return nil, err
			}

			if len(widths) != int(lastChar-firstChar+1) {
				common.Log.Debug("ERROR: Invalid widths length != %d (%d)",
					lastChar-firstChar+1, len(widths))
				return nil, core.ErrRangeError
			}
			for i, w := range widths {
				font.charWidths[firstChar+textencoding.CharCode(i)] = w
			}
		}
	}

	font.Encoding = core.TraceToDirectObject(d.Get("Encoding"))
	return font, nil
}

// addEncoding adds the encoding to the font and sets the `font.encoder` field.
// The order of precedence is important:
// 1. If encoder already set, load it initially (with subsequent steps potentially overwriting).
// 2. Attempts to construct the encoder from the Encoding dictionary.
// 3. If no encoder loaded, attempt to load from the font file.
// 4. Apply differences map and set as the `font`'s encoder.
func (font *pdfFontSimple) addEncoding() error {
	var (
		baseEncoder string
		differences map[textencoding.CharCode]textencoding.GlyphName
		encoder     *textencoding.SimpleEncoder
	)

	if font.Encoder() != nil {
		encoder, ok := font.Encoder().(*textencoding.SimpleEncoder)
		if ok && encoder != nil {
			baseEncoder = encoder.BaseName()
		}
	}

	if font.Encoding != nil {
		baseEncoderName, differences, err := font.getFontEncoding()
		if err != nil {
			common.Log.Debug("ERROR: BaseFont=%q Subtype=%q Encoding=%s (%T) err=%v", font.basefont,
				font.subtype, font.Encoding, font.Encoding, err)
			return err
		}
		if baseEncoderName != "" {
			baseEncoder = baseEncoderName
		}

		encoder, err = textencoding.NewSimpleTextEncoder(baseEncoder, differences)
		if err != nil {
			return err
		}
	}

	if encoder == nil {
		descriptor := font.fontDescriptor
		if descriptor != nil {
			switch font.subtype {
			case "Type1":
				if descriptor.fontFile != nil && descriptor.fontFile.encoder != nil {
					common.Log.Debug("Using fontFile")
					encoder = descriptor.fontFile.encoder
				}
			case "TrueType":
				if descriptor.fontFile2 != nil {
					common.Log.Debug("Using FontFile2")
					enc, err := descriptor.fontFile2.MakeEncoder()
					if err == nil {
						encoder = enc
					}
				}
			}
		}
	}

	if encoder != nil {
		// At the end, apply the differences.
		if differences != nil {
			common.Log.Trace("differences=%+v font=%s", differences, font.baseFields())
			encoder.ApplyDifferences(differences)
		}
		font.SetEncoder(encoder)
	}

	return nil
}

// getFontEncoding returns font encoding of `obj` the "Encoding" entry in a font dict.
// Table 114 – Entries in an encoding dictionary (page 263)
// 9.6.6.1 General (page 262)
// A font’s encoding is the association between character codes (obtained from text strings that
// are shown) and glyph descriptions. This sub-clause describes the character encoding scheme used
// with simple PDF fonts. Composite fonts (Type 0) use a different character mapping algorithm, as
// discussed in 9.7, "Composite Fonts".
// Except for Type 3 fonts, every font program shall have a built-in encoding. Under certain
// circumstances, a PDF font dictionary may change the encoding used with the font program to match
// the requirements of the conforming writer generating the text being shown.
func (font *pdfFontSimple) getFontEncoding() (baseName string, differences map[textencoding.CharCode]textencoding.GlyphName, err error) {
	baseName = "StandardEncoding"
	if name, ok := builtinEncodings[font.basefont]; ok {
		baseName = name
	} else if font.fontFlags()&fontFlagSymbolic != 0 {
		for base, name := range builtinEncodings {
			if strings.Contains(font.basefont, base) {
				baseName = name
				break
			}
		}
	}

	if font.Encoding == nil {
		// Fall back to StandardEncoding | SymbolEncoding | ZapfDingbatsEncoding
		// This works because the only way BaseEncoding can get overridden is by FontFile entries
		// and the only encoding names we have seen in FontFile's are StandardEncoding or no entry.
		return baseName, nil, nil
	}

	switch encoding := font.Encoding.(type) {
	case *core.PdfObjectName:
		return string(*encoding), nil, nil
	case *core.PdfObjectDictionary:
		if typ, ok := core.GetNameVal(encoding.Get("Type")); ok && typ == "Encoding" {
			if base, ok := core.GetNameVal(encoding.Get("BaseEncoding")); ok {
				baseName = base
			}
		}
		if diffObj := encoding.Get("Differences"); diffObj != nil {
			diffList, ok := core.GetArray(diffObj)
			if !ok {
				common.Log.Debug("ERROR: Bad font encoding dict=%+v Differences=%T",
					encoding, encoding.Get("Differences"))
				return "", nil, core.ErrTypeError
			}
			differences, err = textencoding.FromFontDifferences(diffList)
		}
		return baseName, differences, err
	default:
		common.Log.Debug("ERROR: Encoding not a name or dict (%T) %s", font.Encoding, font.Encoding)
		return "", nil, core.ErrTypeError
	}
}

var builtinEncodings = map[string]string{
	"Symbol":       "SymbolEncoding",
	"ZapfDingbats": "ZapfDingbatsEncoding",
}

// ToPdfObject converts the pdfFontSimple to its PDF representation for outputting.
func (font *pdfFontSimple) ToPdfObject() core.PdfObject {
	if font.container == nil {
		font.container = &core.PdfIndirectObject{}
	}
	d := font.baseFields().asPdfObjectDictionary("")
	font.container.PdfObject = d

	if font.FirstChar != nil {
		d.Set("FirstChar", font.FirstChar)
	}
	if font.LastChar != nil {
		d.Set("LastChar", font.LastChar)
	}
	if font.Widths != nil {
		d.Set("Widths", font.Widths)
	}
	if font.Encoding != nil {
		d.Set("Encoding", font.Encoding)
	} else if font.encoder != nil {
		encObj := font.encoder.ToPdfObject()
		if encObj != nil {
			d.Set("Encoding", encObj)
		}
	}

	return font.container
}

// NewPdfFontFromTTFFile loads a TTF font and returns a PdfFont type that can be used in text
// styling functions.
// Uses a WinAnsiTextEncoder and loads only character codes 32-255.
func NewPdfFontFromTTFFile(filePath string) (*PdfFont, error) {
	const minCode = textencoding.CharCode(32)
	const maxCode = textencoding.CharCode(255)

	ttf, err := fonts.TtfParse(filePath)
	if err != nil {
		common.Log.Debug("ERROR: loading ttf font: %v", err)
		return nil, err
	}

	truefont := &pdfFontSimple{
		charWidths: make(map[textencoding.CharCode]float64),
		fontCommon: fontCommon{
			subtype: "TrueType",
		},
	}

	truefont.encoder = textencoding.NewWinAnsiTextEncoder()

	truefont.basefont = ttf.PostScriptName
	truefont.FirstChar = core.MakeInteger(int64(minCode))
	truefont.LastChar = core.MakeInteger(int64(maxCode))

	k := 1000.0 / float64(ttf.UnitsPerEm)
	if len(ttf.Widths) <= 0 {
		return nil, errors.New("ERROR: Missing required attribute (Widths)")
	}

	missingWidth := k * float64(ttf.Widths[0])

	vals := make([]float64, 0, maxCode-minCode+1)
	for code := minCode; code <= maxCode; code++ {
		r, found := truefont.Encoder().CharcodeToRune(code)
		if !found {
			common.Log.Debug("Rune not found (code: %d)", code)
			vals = append(vals, missingWidth)
			continue
		}

		pos, ok := ttf.Chars[r]
		if !ok {
			common.Log.Debug("Rune not in TTF Chars")
			vals = append(vals, missingWidth)
			continue
		}

		w := k * float64(ttf.Widths[pos])

		vals = append(vals, w)
	}

	truefont.Widths = core.MakeIndirectObject(core.MakeArrayFromFloats(vals))

	if len(vals) < int(maxCode-minCode+1) {
		common.Log.Debug("ERROR: Invalid length of widths, %d < %d", len(vals), 255-32+1)
		return nil, core.ErrRangeError
	}

	for i := textencoding.CharCode(minCode); i <= maxCode; i++ {
		truefont.charWidths[i] = vals[i-minCode]
	}

	// Use WinAnsiEncoding by default.
	truefont.Encoding = core.MakeName("WinAnsiEncoding")

	descriptor := &PdfFontDescriptor{}
	descriptor.FontName = core.MakeName(ttf.PostScriptName)
	descriptor.Ascent = core.MakeFloat(k * float64(ttf.TypoAscender))
	descriptor.Descent = core.MakeFloat(k * float64(ttf.TypoDescender))
	descriptor.CapHeight = core.MakeFloat(k * float64(ttf.CapHeight))
	descriptor.FontBBox = core.MakeArrayFromFloats([]float64{k * float64(ttf.Xmin),
		k * float64(ttf.Ymin), k * float64(ttf.Xmax), k * float64(ttf.Ymax)})
	descriptor.ItalicAngle = core.MakeFloat(float64(ttf.ItalicAngle))
	descriptor.MissingWidth = core.MakeFloat(k * float64(ttf.Widths[0]))

	ttfBytes, err := ioutil.ReadFile(filePath)
	if err != nil {
		common.Log.Debug("ERROR: Unable to read file contents: %v", err)
		return nil, err
	}

	stream, err := core.MakeStream(ttfBytes, core.NewFlateEncoder())
	if err != nil {
		common.Log.Debug("ERROR: Unable to make stream: %v", err)
		return nil, err
	}
	stream.PdfObjectDictionary.Set("Length1", core.MakeInteger(int64(len(ttfBytes))))
	descriptor.FontFile2 = stream

	if ttf.Bold {
		descriptor.StemV = core.MakeInteger(120)
	} else {
		descriptor.StemV = core.MakeInteger(70)
	}

	flags := fontFlagNonsymbolic
	if ttf.IsFixedPitch {
		flags |= fontFlagFixedPitch
	}
	if ttf.ItalicAngle != 0 {
		flags |= fontFlagItalic
	}
	descriptor.Flags = core.MakeInteger(int64(flags))

	// Build Font.
	truefont.fontDescriptor = descriptor

	font := &PdfFont{
		context: truefont,
	}

	return font, nil
}

// Standard14Font is to be used only to define the standard 14 font names that follow.
// This guarantees that calls to NewStandard14FontMustCompile will succeed.
type Standard14Font string

// Standard 14 fonts constant definitions.
const (
	Courier              Standard14Font = "Courier"
	CourierBold          Standard14Font = "Courier-Bold"
	CourierBoldOblique   Standard14Font = "Courier-BoldOblique"
	CourierOblique       Standard14Font = "Courier-Oblique"
	Helvetica            Standard14Font = "Helvetica"
	HelveticaBold        Standard14Font = "Helvetica-Bold"
	HelveticaBoldOblique Standard14Font = "Helvetica-BoldOblique"
	HelveticaOblique     Standard14Font = "Helvetica-Oblique"
	TimesRoman           Standard14Font = "Times-Roman"
	TimesBold            Standard14Font = "Times-Bold"
	TimesBoldItalic      Standard14Font = "Times-BoldItalic"
	TimesItalic          Standard14Font = "Times-Italic"
	Symbol               Standard14Font = "Symbol"
	ZapfDingbats         Standard14Font = "ZapfDingbats"
)

func isBuiltin(basefont Standard14Font) bool {
	if alias, ok := standard14Aliases[basefont]; ok {
		basefont = alias
	}
	_, ok := standard14Fonts[basefont]
	return ok
}

// loadStandard14Font returns the builtin font named `baseFont`. The boolean return indicates whether
// the builtin font exists.
func loadStandard14Font(baseFont Standard14Font) (pdfFontSimple, bool) {
	if alias, ok := standard14Aliases[baseFont]; ok {
		baseFont = alias
	}
	std, ok := standard14Fonts[baseFont]
	if !ok {
		return pdfFontSimple{}, false
	}

	descriptor := builtinDescriptor(string(baseFont))
	if descriptor == nil {
		return pdfFontSimple{}, false
	}

	std.std14Descriptor = descriptor

	return std, true
}

// updateStandard14Font fills the font.charWidths for standard 14 fonts.
// Don't call this function with a font that is not in the standard 14.
func (font *pdfFontSimple) updateStandard14Font() {
	se, ok := font.Encoder().(*textencoding.SimpleEncoder)
	if !ok {
		// This can't happen.
		common.Log.Error("Wrong encoder type: %T. font=%s.", font.Encoder(), font)
		return
	}

	codes := se.Charcodes()
	font.charWidths = make(map[textencoding.CharCode]float64, len(codes))
	for _, code := range codes {
		// codes was built from CharcodeToGlyph mapping, so each should have a glyph
		glyph, _ := se.CharcodeToGlyph(code)
		font.charWidths[code] = font.fontMetrics[glyph].Wx
	}
}

// The aliases seen for the standard 14 font names.
// Most of these are from table 5.5.1 in
// https://www.adobe.com/content/dam/acom/en/devnet/acrobat/pdfs/adobe_supplement_iso32000.pdf
var standard14Aliases = map[Standard14Font]Standard14Font{
	"CourierCourierNew":        "Courier",
	"CourierNew":               "Courier",
	"CourierNew,Italic":        "Courier-Oblique",
	"CourierNew,Bold":          "Courier-Bold",
	"CourierNew,BoldItalic":    "Courier-BoldOblique",
	"Arial":                    "Helvetica",
	"Arial,Italic":             "Helvetica-Oblique",
	"Arial,Bold":               "Helvetica-Bold",
	"Arial,BoldItalic":         "Helvetica-BoldOblique",
	"TimesNewRoman":            "Times-Roman",
	"TimesNewRoman,Italic":     "Times-Italic",
	"TimesNewRoman,Bold":       "Times-Bold",
	"TimesNewRoman,BoldItalic": "Times-BoldItalic",
	"Times":                    "Times-Roman",
	"Times,Italic":             "Times-Italic",
	"Times,Bold":               "Times-Bold",
	"Times,BoldItalic":         "Times-BoldItalic",
	"Symbol,Italic":            "Symbol",
	"Symbol,Bold":              "Symbol",
	"Symbol,BoldItalic":        "Symbol",
}

var standard14Fonts = map[Standard14Font]pdfFontSimple{
	Courier: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Courier",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.CourierCharMetrics,
	},
	CourierBold: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Courier-Bold",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.CourierBoldCharMetrics,
	},
	CourierBoldOblique: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Courier-BoldOblique",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.CourierBoldObliqueCharMetrics,
	},
	CourierOblique: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Courier-Oblique",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.CourierObliqueCharMetrics,
	},
	Helvetica: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Helvetica",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.HelveticaCharMetrics,
	},
	HelveticaBold: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Helvetica-Bold",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.HelveticaBoldCharMetrics,
	},
	HelveticaBoldOblique: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Helvetica-BoldOblique",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.HelveticaBoldObliqueCharMetrics,
	},
	HelveticaOblique: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Helvetica-Oblique",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.HelveticaObliqueCharMetrics,
	},
	TimesRoman: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Times-Roman",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.TimesRomanCharMetrics,
	},
	TimesBold: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Times-Bold",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.TimesBoldCharMetrics,
	},
	TimesBoldItalic: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Times-BoldItalic",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.TimesBoldItalicCharMetrics,
	},
	TimesItalic: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Times-Italic",
		},
		std14Encoder: textencoding.NewWinAnsiTextEncoder(),
		fontMetrics:  fonts.TimesItalicCharMetrics,
	},
	Symbol: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "Symbol",
		},
		std14Encoder: textencoding.NewSymbolEncoder(),
		fontMetrics:  fonts.SymbolCharMetrics,
	},
	ZapfDingbats: {
		fontCommon: fontCommon{
			subtype:  "Type1",
			basefont: "ZapfDingbats",
		},
		std14Encoder: textencoding.NewZapfDingbatsEncoder(),
		fontMetrics:  fonts.ZapfDingbatsCharMetrics,
	},
}

// builtinDescriptor returns the PdfFontDescriptor for the builtin font named `baseFont`, or nil if
// there is none.
func builtinDescriptor(baseFont string) *PdfFontDescriptor {
	l, ok := fonts.Standard14Descriptors[baseFont]
	if !ok {
		return nil
	}

	return &PdfFontDescriptor{
		FontName:    core.MakeName(l.FontName),
		FontFamily:  core.MakeName(l.FontFamily),
		FontWeight:  core.MakeFloat(float64(l.FontWeight)),
		Flags:       core.MakeInteger(int64(l.Flags)),
		FontBBox:    core.MakeArrayFromFloats(l.FontBBox[:]),
		ItalicAngle: core.MakeFloat(l.ItalicAngle),
		Ascent:      core.MakeFloat(l.Ascent),
		Descent:     core.MakeFloat(l.Descent),
		CapHeight:   core.MakeFloat(l.CapHeight),
		XHeight:     core.MakeFloat(l.XHeight),
		StemV:       core.MakeFloat(l.StemV),
		StemH:       core.MakeFloat(l.StemH),
	}
}