f9531a3606
A recent change added a Metrics method to the font.Face interface.
643 lines
19 KiB
Go
643 lines
19 KiB
Go
// Copyright 2010 The Freetype-Go Authors. All rights reserved.
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// Use of this source code is governed by your choice of either the
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// FreeType License or the GNU General Public License version 2 (or
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// any later version), both of which can be found in the LICENSE file.
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// Package truetype provides a parser for the TTF and TTC file formats.
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// Those formats are documented at http://developer.apple.com/fonts/TTRefMan/
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// and http://www.microsoft.com/typography/otspec/
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//
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// Some of a font's methods provide lengths or co-ordinates, e.g. bounds, font
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// metrics and control points. All these methods take a scale parameter, which
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// is the number of pixels in 1 em, expressed as a 26.6 fixed point value. For
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// example, if 1 em is 10 pixels then scale is fixed.I(10), which is equal to
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// fixed.Int26_6(10 << 6).
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//
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// To measure a TrueType font in ideal FUnit space, use scale equal to
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// font.FUnitsPerEm().
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package truetype // import "github.com/golang/freetype/truetype"
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import (
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"fmt"
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"golang.org/x/image/math/fixed"
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)
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// An Index is a Font's index of a rune.
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type Index uint16
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// A NameID identifies a name table entry.
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//
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// See https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6name.html
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type NameID uint16
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const (
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NameIDCopyright NameID = 0
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NameIDFontFamily = 1
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NameIDFontSubfamily = 2
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NameIDUniqueSubfamilyID = 3
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NameIDFontFullName = 4
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NameIDNameTableVersion = 5
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NameIDPostscriptName = 6
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NameIDTrademarkNotice = 7
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NameIDManufacturerName = 8
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NameIDDesignerName = 9
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NameIDFontDescription = 10
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NameIDFontVendorURL = 11
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NameIDFontDesignerURL = 12
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NameIDFontLicense = 13
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NameIDFontLicenseURL = 14
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NameIDPreferredFamily = 16
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NameIDPreferredSubfamily = 17
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NameIDCompatibleName = 18
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NameIDSampleText = 19
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)
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const (
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// A 32-bit encoding consists of a most-significant 16-bit Platform ID and a
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// least-significant 16-bit Platform Specific ID. The magic numbers are
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// specified at https://www.microsoft.com/typography/otspec/name.htm
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unicodeEncoding = 0x00000003 // PID = 0 (Unicode), PSID = 3 (Unicode 2.0)
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microsoftSymbolEncoding = 0x00030000 // PID = 3 (Microsoft), PSID = 0 (Symbol)
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microsoftUCS2Encoding = 0x00030001 // PID = 3 (Microsoft), PSID = 1 (UCS-2)
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microsoftUCS4Encoding = 0x0003000a // PID = 3 (Microsoft), PSID = 10 (UCS-4)
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)
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// An HMetric holds the horizontal metrics of a single glyph.
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type HMetric struct {
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AdvanceWidth, LeftSideBearing fixed.Int26_6
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}
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// A VMetric holds the vertical metrics of a single glyph.
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type VMetric struct {
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AdvanceHeight, TopSideBearing fixed.Int26_6
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}
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// A FormatError reports that the input is not a valid TrueType font.
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type FormatError string
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func (e FormatError) Error() string {
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return "freetype: invalid TrueType format: " + string(e)
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}
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// An UnsupportedError reports that the input uses a valid but unimplemented
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// TrueType feature.
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type UnsupportedError string
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func (e UnsupportedError) Error() string {
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return "freetype: unsupported TrueType feature: " + string(e)
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}
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// u32 returns the big-endian uint32 at b[i:].
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func u32(b []byte, i int) uint32 {
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return uint32(b[i])<<24 | uint32(b[i+1])<<16 | uint32(b[i+2])<<8 | uint32(b[i+3])
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}
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// u16 returns the big-endian uint16 at b[i:].
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func u16(b []byte, i int) uint16 {
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return uint16(b[i])<<8 | uint16(b[i+1])
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}
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// readTable returns a slice of the TTF data given by a table's directory entry.
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func readTable(ttf []byte, offsetLength []byte) ([]byte, error) {
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offset := int(u32(offsetLength, 0))
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if offset < 0 {
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return nil, FormatError(fmt.Sprintf("offset too large: %d", uint32(offset)))
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}
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length := int(u32(offsetLength, 4))
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if length < 0 {
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return nil, FormatError(fmt.Sprintf("length too large: %d", uint32(length)))
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}
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end := offset + length
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if end < 0 || end > len(ttf) {
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return nil, FormatError(fmt.Sprintf("offset + length too large: %d", uint32(offset)+uint32(length)))
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}
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return ttf[offset:end], nil
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}
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// parseSubtables returns the offset and platformID of the best subtable in
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// table, where best favors a Unicode cmap encoding, and failing that, a
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// Microsoft cmap encoding. offset is the offset of the first subtable in
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// table, and size is the size of each subtable.
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//
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// If pred is non-nil, then only subtables that satisfy that predicate will be
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// considered.
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func parseSubtables(table []byte, name string, offset, size int, pred func([]byte) bool) (
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bestOffset int, bestPID uint32, retErr error) {
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if len(table) < 4 {
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return 0, 0, FormatError(name + " too short")
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}
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nSubtables := int(u16(table, 2))
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if len(table) < size*nSubtables+offset {
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return 0, 0, FormatError(name + " too short")
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}
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ok := false
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for i := 0; i < nSubtables; i, offset = i+1, offset+size {
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if pred != nil && !pred(table[offset:]) {
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continue
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}
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// We read the 16-bit Platform ID and 16-bit Platform Specific ID as a single uint32.
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// All values are big-endian.
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pidPsid := u32(table, offset)
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// We prefer the Unicode cmap encoding. Failing to find that, we fall
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// back onto the Microsoft cmap encoding.
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if pidPsid == unicodeEncoding {
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bestOffset, bestPID, ok = offset, pidPsid>>16, true
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break
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} else if pidPsid == microsoftSymbolEncoding ||
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pidPsid == microsoftUCS2Encoding ||
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pidPsid == microsoftUCS4Encoding {
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bestOffset, bestPID, ok = offset, pidPsid>>16, true
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// We don't break out of the for loop, so that Unicode can override Microsoft.
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}
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}
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if !ok {
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return 0, 0, UnsupportedError(name + " encoding")
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}
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return bestOffset, bestPID, nil
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}
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const (
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locaOffsetFormatUnknown int = iota
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locaOffsetFormatShort
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locaOffsetFormatLong
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)
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// A cm holds a parsed cmap entry.
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type cm struct {
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start, end, delta, offset uint32
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}
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// A Font represents a Truetype font.
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type Font struct {
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// Tables sliced from the TTF data. The different tables are documented
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// at http://developer.apple.com/fonts/TTRefMan/RM06/Chap6.html
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cmap, cvt, fpgm, glyf, hdmx, head, hhea, hmtx, kern, loca, maxp, name, os2, prep, vmtx []byte
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cmapIndexes []byte
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// Cached values derived from the raw ttf data.
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cm []cm
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locaOffsetFormat int
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nGlyph, nHMetric, nKern int
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fUnitsPerEm int32
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ascent int32 // In FUnits.
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descent int32 // In FUnits; typically negative.
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bounds fixed.Rectangle26_6 // In FUnits.
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// Values from the maxp section.
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maxTwilightPoints, maxStorage, maxFunctionDefs, maxStackElements uint16
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}
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func (f *Font) parseCmap() error {
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const (
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cmapFormat4 = 4
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cmapFormat12 = 12
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languageIndependent = 0
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)
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offset, _, err := parseSubtables(f.cmap, "cmap", 4, 8, nil)
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if err != nil {
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return err
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}
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offset = int(u32(f.cmap, offset+4))
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if offset <= 0 || offset > len(f.cmap) {
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return FormatError("bad cmap offset")
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}
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cmapFormat := u16(f.cmap, offset)
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switch cmapFormat {
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case cmapFormat4:
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language := u16(f.cmap, offset+4)
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if language != languageIndependent {
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return UnsupportedError(fmt.Sprintf("language: %d", language))
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}
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segCountX2 := int(u16(f.cmap, offset+6))
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if segCountX2%2 == 1 {
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return FormatError(fmt.Sprintf("bad segCountX2: %d", segCountX2))
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}
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segCount := segCountX2 / 2
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offset += 14
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f.cm = make([]cm, segCount)
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for i := 0; i < segCount; i++ {
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f.cm[i].end = uint32(u16(f.cmap, offset))
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offset += 2
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}
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offset += 2
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for i := 0; i < segCount; i++ {
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f.cm[i].start = uint32(u16(f.cmap, offset))
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offset += 2
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}
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for i := 0; i < segCount; i++ {
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f.cm[i].delta = uint32(u16(f.cmap, offset))
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offset += 2
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}
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for i := 0; i < segCount; i++ {
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f.cm[i].offset = uint32(u16(f.cmap, offset))
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offset += 2
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}
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f.cmapIndexes = f.cmap[offset:]
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return nil
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case cmapFormat12:
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if u16(f.cmap, offset+2) != 0 {
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return FormatError(fmt.Sprintf("cmap format: % x", f.cmap[offset:offset+4]))
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}
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length := u32(f.cmap, offset+4)
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language := u32(f.cmap, offset+8)
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if language != languageIndependent {
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return UnsupportedError(fmt.Sprintf("language: %d", language))
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}
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nGroups := u32(f.cmap, offset+12)
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if length != 12*nGroups+16 {
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return FormatError("inconsistent cmap length")
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}
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offset += 16
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f.cm = make([]cm, nGroups)
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for i := uint32(0); i < nGroups; i++ {
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f.cm[i].start = u32(f.cmap, offset+0)
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f.cm[i].end = u32(f.cmap, offset+4)
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f.cm[i].delta = u32(f.cmap, offset+8) - f.cm[i].start
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offset += 12
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}
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return nil
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}
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return UnsupportedError(fmt.Sprintf("cmap format: %d", cmapFormat))
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}
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func (f *Font) parseHead() error {
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if len(f.head) != 54 {
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return FormatError(fmt.Sprintf("bad head length: %d", len(f.head)))
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}
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f.fUnitsPerEm = int32(u16(f.head, 18))
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f.bounds.Min.X = fixed.Int26_6(int16(u16(f.head, 36)))
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f.bounds.Min.Y = fixed.Int26_6(int16(u16(f.head, 38)))
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f.bounds.Max.X = fixed.Int26_6(int16(u16(f.head, 40)))
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f.bounds.Max.Y = fixed.Int26_6(int16(u16(f.head, 42)))
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switch i := u16(f.head, 50); i {
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case 0:
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f.locaOffsetFormat = locaOffsetFormatShort
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case 1:
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f.locaOffsetFormat = locaOffsetFormatLong
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default:
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return FormatError(fmt.Sprintf("bad indexToLocFormat: %d", i))
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}
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return nil
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}
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func (f *Font) parseHhea() error {
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if len(f.hhea) != 36 {
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return FormatError(fmt.Sprintf("bad hhea length: %d", len(f.hhea)))
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}
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f.ascent = int32(int16(u16(f.hhea, 4)))
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f.descent = int32(int16(u16(f.hhea, 6)))
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f.nHMetric = int(u16(f.hhea, 34))
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if 4*f.nHMetric+2*(f.nGlyph-f.nHMetric) != len(f.hmtx) {
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return FormatError(fmt.Sprintf("bad hmtx length: %d", len(f.hmtx)))
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}
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return nil
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}
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func (f *Font) parseKern() error {
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// Apple's TrueType documentation (http://developer.apple.com/fonts/TTRefMan/RM06/Chap6kern.html) says:
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// "Previous versions of the 'kern' table defined both the version and nTables fields in the header
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// as UInt16 values and not UInt32 values. Use of the older format on the Mac OS is discouraged
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// (although AAT can sense an old kerning table and still make correct use of it). Microsoft
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// Windows still uses the older format for the 'kern' table and will not recognize the newer one.
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// Fonts targeted for the Mac OS only should use the new format; fonts targeted for both the Mac OS
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// and Windows should use the old format."
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// Since we expect that almost all fonts aim to be Windows-compatible, we only parse the "older" format,
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// just like the C Freetype implementation.
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if len(f.kern) == 0 {
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if f.nKern != 0 {
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return FormatError("bad kern table length")
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}
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return nil
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}
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if len(f.kern) < 18 {
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return FormatError("kern data too short")
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}
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version, offset := u16(f.kern, 0), 2
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if version != 0 {
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return UnsupportedError(fmt.Sprintf("kern version: %d", version))
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}
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n, offset := u16(f.kern, offset), offset+2
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if n != 1 {
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return UnsupportedError(fmt.Sprintf("kern nTables: %d", n))
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}
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offset += 2
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length, offset := int(u16(f.kern, offset)), offset+2
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coverage, offset := u16(f.kern, offset), offset+2
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if coverage != 0x0001 {
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// We only support horizontal kerning.
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return UnsupportedError(fmt.Sprintf("kern coverage: 0x%04x", coverage))
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}
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f.nKern, offset = int(u16(f.kern, offset)), offset+2
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if 6*f.nKern != length-14 {
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return FormatError("bad kern table length")
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}
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return nil
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}
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func (f *Font) parseMaxp() error {
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if len(f.maxp) != 32 {
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return FormatError(fmt.Sprintf("bad maxp length: %d", len(f.maxp)))
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}
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f.nGlyph = int(u16(f.maxp, 4))
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f.maxTwilightPoints = u16(f.maxp, 16)
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f.maxStorage = u16(f.maxp, 18)
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f.maxFunctionDefs = u16(f.maxp, 20)
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f.maxStackElements = u16(f.maxp, 24)
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return nil
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}
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// scale returns x divided by f.fUnitsPerEm, rounded to the nearest integer.
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func (f *Font) scale(x fixed.Int26_6) fixed.Int26_6 {
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if x >= 0 {
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x += fixed.Int26_6(f.fUnitsPerEm) / 2
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} else {
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x -= fixed.Int26_6(f.fUnitsPerEm) / 2
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}
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return x / fixed.Int26_6(f.fUnitsPerEm)
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}
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// Bounds returns the union of a Font's glyphs' bounds.
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func (f *Font) Bounds(scale fixed.Int26_6) fixed.Rectangle26_6 {
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b := f.bounds
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b.Min.X = f.scale(scale * b.Min.X)
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b.Min.Y = f.scale(scale * b.Min.Y)
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b.Max.X = f.scale(scale * b.Max.X)
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b.Max.Y = f.scale(scale * b.Max.Y)
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return b
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}
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// FUnitsPerEm returns the number of FUnits in a Font's em-square's side.
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func (f *Font) FUnitsPerEm() int32 {
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return f.fUnitsPerEm
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}
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// Index returns a Font's index for the given rune.
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func (f *Font) Index(x rune) Index {
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c := uint32(x)
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for i, j := 0, len(f.cm); i < j; {
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h := i + (j-i)/2
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cm := &f.cm[h]
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if c < cm.start {
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j = h
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} else if cm.end < c {
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i = h + 1
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} else if cm.offset == 0 {
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return Index(c + cm.delta)
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} else {
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offset := int(cm.offset) + 2*(h-len(f.cm)+int(c-cm.start))
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return Index(u16(f.cmapIndexes, offset))
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}
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}
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return 0
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}
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// Name returns the Font's name value for the given NameID. It returns "" if
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// there was an error, or if that name was not found.
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func (f *Font) Name(id NameID) string {
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x, platformID, err := parseSubtables(f.name, "name", 6, 12, func(b []byte) bool {
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return NameID(u16(b, 6)) == id
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})
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if err != nil {
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return ""
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}
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offset, length := u16(f.name, 4)+u16(f.name, x+10), u16(f.name, x+8)
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// Return the ASCII value of the encoded string.
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// The string is encoded as UTF-16 on non-Apple platformIDs; Apple is platformID 1.
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src := f.name[offset : offset+length]
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var dst []byte
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if platformID != 1 { // UTF-16.
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if len(src)&1 != 0 {
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return ""
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}
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dst = make([]byte, len(src)/2)
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for i := range dst {
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dst[i] = printable(u16(src, 2*i))
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}
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} else { // ASCII.
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dst = make([]byte, len(src))
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for i, c := range src {
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dst[i] = printable(uint16(c))
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}
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}
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return string(dst)
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}
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func printable(r uint16) byte {
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if 0x20 <= r && r < 0x7f {
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return byte(r)
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}
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return '?'
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}
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// unscaledHMetric returns the unscaled horizontal metrics for the glyph with
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// the given index.
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func (f *Font) unscaledHMetric(i Index) (h HMetric) {
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j := int(i)
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if j < 0 || f.nGlyph <= j {
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return HMetric{}
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}
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if j >= f.nHMetric {
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p := 4 * (f.nHMetric - 1)
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return HMetric{
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AdvanceWidth: fixed.Int26_6(u16(f.hmtx, p)),
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LeftSideBearing: fixed.Int26_6(int16(u16(f.hmtx, p+2*(j-f.nHMetric)+4))),
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}
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}
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return HMetric{
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AdvanceWidth: fixed.Int26_6(u16(f.hmtx, 4*j)),
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LeftSideBearing: fixed.Int26_6(int16(u16(f.hmtx, 4*j+2))),
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}
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}
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// HMetric returns the horizontal metrics for the glyph with the given index.
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func (f *Font) HMetric(scale fixed.Int26_6, i Index) HMetric {
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h := f.unscaledHMetric(i)
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h.AdvanceWidth = f.scale(scale * h.AdvanceWidth)
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h.LeftSideBearing = f.scale(scale * h.LeftSideBearing)
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|
return h
|
|
}
|
|
|
|
// unscaledVMetric returns the unscaled vertical metrics for the glyph with
|
|
// the given index. yMax is the top of the glyph's bounding box.
|
|
func (f *Font) unscaledVMetric(i Index, yMax fixed.Int26_6) (v VMetric) {
|
|
j := int(i)
|
|
if j < 0 || f.nGlyph <= j {
|
|
return VMetric{}
|
|
}
|
|
if 4*j+4 <= len(f.vmtx) {
|
|
return VMetric{
|
|
AdvanceHeight: fixed.Int26_6(u16(f.vmtx, 4*j)),
|
|
TopSideBearing: fixed.Int26_6(int16(u16(f.vmtx, 4*j+2))),
|
|
}
|
|
}
|
|
// The OS/2 table has grown over time.
|
|
// https://developer.apple.com/fonts/TTRefMan/RM06/Chap6OS2.html
|
|
// says that it was originally 68 bytes. Optional fields, including
|
|
// the ascender and descender, are described at
|
|
// http://www.microsoft.com/typography/otspec/os2.htm
|
|
if len(f.os2) >= 72 {
|
|
sTypoAscender := fixed.Int26_6(int16(u16(f.os2, 68)))
|
|
sTypoDescender := fixed.Int26_6(int16(u16(f.os2, 70)))
|
|
return VMetric{
|
|
AdvanceHeight: sTypoAscender - sTypoDescender,
|
|
TopSideBearing: sTypoAscender - yMax,
|
|
}
|
|
}
|
|
return VMetric{
|
|
AdvanceHeight: fixed.Int26_6(f.fUnitsPerEm),
|
|
TopSideBearing: 0,
|
|
}
|
|
}
|
|
|
|
// VMetric returns the vertical metrics for the glyph with the given index.
|
|
func (f *Font) VMetric(scale fixed.Int26_6, i Index) VMetric {
|
|
// TODO: should 0 be bounds.YMax?
|
|
v := f.unscaledVMetric(i, 0)
|
|
v.AdvanceHeight = f.scale(scale * v.AdvanceHeight)
|
|
v.TopSideBearing = f.scale(scale * v.TopSideBearing)
|
|
return v
|
|
}
|
|
|
|
// Kern returns the horizontal adjustment for the given glyph pair. A positive
|
|
// kern means to move the glyphs further apart.
|
|
func (f *Font) Kern(scale fixed.Int26_6, i0, i1 Index) fixed.Int26_6 {
|
|
if f.nKern == 0 {
|
|
return 0
|
|
}
|
|
g := uint32(i0)<<16 | uint32(i1)
|
|
lo, hi := 0, f.nKern
|
|
for lo < hi {
|
|
i := (lo + hi) / 2
|
|
ig := u32(f.kern, 18+6*i)
|
|
if ig < g {
|
|
lo = i + 1
|
|
} else if ig > g {
|
|
hi = i
|
|
} else {
|
|
return f.scale(scale * fixed.Int26_6(int16(u16(f.kern, 22+6*i))))
|
|
}
|
|
}
|
|
return 0
|
|
}
|
|
|
|
// Parse returns a new Font for the given TTF or TTC data.
|
|
//
|
|
// For TrueType Collections, the first font in the collection is parsed.
|
|
func Parse(ttf []byte) (font *Font, err error) {
|
|
return parse(ttf, 0)
|
|
}
|
|
|
|
func parse(ttf []byte, offset int) (font *Font, err error) {
|
|
if len(ttf)-offset < 12 {
|
|
err = FormatError("TTF data is too short")
|
|
return
|
|
}
|
|
originalOffset := offset
|
|
magic, offset := u32(ttf, offset), offset+4
|
|
switch magic {
|
|
case 0x00010000:
|
|
// No-op.
|
|
case 0x74746366: // "ttcf" as a big-endian uint32.
|
|
if originalOffset != 0 {
|
|
err = FormatError("recursive TTC")
|
|
return
|
|
}
|
|
ttcVersion, offset := u32(ttf, offset), offset+4
|
|
if ttcVersion != 0x00010000 {
|
|
// TODO: support TTC version 2.0, once I have such a .ttc file to test with.
|
|
err = FormatError("bad TTC version")
|
|
return
|
|
}
|
|
numFonts, offset := int(u32(ttf, offset)), offset+4
|
|
if numFonts <= 0 {
|
|
err = FormatError("bad number of TTC fonts")
|
|
return
|
|
}
|
|
if len(ttf[offset:])/4 < numFonts {
|
|
err = FormatError("TTC offset table is too short")
|
|
return
|
|
}
|
|
// TODO: provide an API to select which font in a TrueType collection to return,
|
|
// not just the first one. This may require an API to parse a TTC's name tables,
|
|
// so users of this package can select the font in a TTC by name.
|
|
offset = int(u32(ttf, offset))
|
|
if offset <= 0 || offset > len(ttf) {
|
|
err = FormatError("bad TTC offset")
|
|
return
|
|
}
|
|
return parse(ttf, offset)
|
|
default:
|
|
err = FormatError("bad TTF version")
|
|
return
|
|
}
|
|
n, offset := int(u16(ttf, offset)), offset+2
|
|
if len(ttf) < 16*n+12 {
|
|
err = FormatError("TTF data is too short")
|
|
return
|
|
}
|
|
f := new(Font)
|
|
// Assign the table slices.
|
|
for i := 0; i < n; i++ {
|
|
x := 16*i + 12
|
|
switch string(ttf[x : x+4]) {
|
|
case "cmap":
|
|
f.cmap, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "cvt ":
|
|
f.cvt, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "fpgm":
|
|
f.fpgm, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "glyf":
|
|
f.glyf, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "hdmx":
|
|
f.hdmx, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "head":
|
|
f.head, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "hhea":
|
|
f.hhea, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "hmtx":
|
|
f.hmtx, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "kern":
|
|
f.kern, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "loca":
|
|
f.loca, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "maxp":
|
|
f.maxp, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "name":
|
|
f.name, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "OS/2":
|
|
f.os2, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "prep":
|
|
f.prep, err = readTable(ttf, ttf[x+8:x+16])
|
|
case "vmtx":
|
|
f.vmtx, err = readTable(ttf, ttf[x+8:x+16])
|
|
}
|
|
if err != nil {
|
|
return
|
|
}
|
|
}
|
|
// Parse and sanity-check the TTF data.
|
|
if err = f.parseHead(); err != nil {
|
|
return
|
|
}
|
|
if err = f.parseMaxp(); err != nil {
|
|
return
|
|
}
|
|
if err = f.parseCmap(); err != nil {
|
|
return
|
|
}
|
|
if err = f.parseKern(); err != nil {
|
|
return
|
|
}
|
|
if err = f.parseHhea(); err != nil {
|
|
return
|
|
}
|
|
font = f
|
|
return
|
|
}
|