status-go/vendor/golang.org/x/image/font/font.go

374 lines
12 KiB
Go

// Copyright 2015 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package font defines an interface for font faces, for drawing text on an
// image.
//
// Other packages provide font face implementations. For example, a truetype
// package would provide one based on .ttf font files.
package font // import "golang.org/x/image/font"
import (
"image"
"image/draw"
"io"
"unicode/utf8"
"golang.org/x/image/math/fixed"
)
// TODO: who is responsible for caches (glyph images, glyph indices, kerns)?
// The Drawer or the Face?
// Face is a font face. Its glyphs are often derived from a font file, such as
// "Comic_Sans_MS.ttf", but a face has a specific size, style, weight and
// hinting. For example, the 12pt and 18pt versions of Comic Sans are two
// different faces, even if derived from the same font file.
//
// A Face is not safe for concurrent use by multiple goroutines, as its methods
// may re-use implementation-specific caches and mask image buffers.
//
// To create a Face, look to other packages that implement specific font file
// formats.
type Face interface {
io.Closer
// Glyph returns the draw.DrawMask parameters (dr, mask, maskp) to draw r's
// glyph at the sub-pixel destination location dot, and that glyph's
// advance width.
//
// It returns !ok if the face does not contain a glyph for r.
//
// The contents of the mask image returned by one Glyph call may change
// after the next Glyph call. Callers that want to cache the mask must make
// a copy.
Glyph(dot fixed.Point26_6, r rune) (
dr image.Rectangle, mask image.Image, maskp image.Point, advance fixed.Int26_6, ok bool)
// GlyphBounds returns the bounding box of r's glyph, drawn at a dot equal
// to the origin, and that glyph's advance width.
//
// It returns !ok if the face does not contain a glyph for r.
//
// The glyph's ascent and descent are equal to -bounds.Min.Y and
// +bounds.Max.Y. The glyph's left-side and right-side bearings are equal
// to bounds.Min.X and advance-bounds.Max.X. A visual depiction of what
// these metrics are is at
// https://developer.apple.com/library/archive/documentation/TextFonts/Conceptual/CocoaTextArchitecture/Art/glyphterms_2x.png
GlyphBounds(r rune) (bounds fixed.Rectangle26_6, advance fixed.Int26_6, ok bool)
// GlyphAdvance returns the advance width of r's glyph.
//
// It returns !ok if the face does not contain a glyph for r.
GlyphAdvance(r rune) (advance fixed.Int26_6, ok bool)
// Kern returns the horizontal adjustment for the kerning pair (r0, r1). A
// positive kern means to move the glyphs further apart.
Kern(r0, r1 rune) fixed.Int26_6
// Metrics returns the metrics for this Face.
Metrics() Metrics
// TODO: ColoredGlyph for various emoji?
// TODO: Ligatures? Shaping?
}
// Metrics holds the metrics for a Face. A visual depiction is at
// https://developer.apple.com/library/mac/documentation/TextFonts/Conceptual/CocoaTextArchitecture/Art/glyph_metrics_2x.png
type Metrics struct {
// Height is the recommended amount of vertical space between two lines of
// text.
Height fixed.Int26_6
// Ascent is the distance from the top of a line to its baseline.
Ascent fixed.Int26_6
// Descent is the distance from the bottom of a line to its baseline. The
// value is typically positive, even though a descender goes below the
// baseline.
Descent fixed.Int26_6
// XHeight is the distance from the top of non-ascending lowercase letters
// to the baseline.
XHeight fixed.Int26_6
// CapHeight is the distance from the top of uppercase letters to the
// baseline.
CapHeight fixed.Int26_6
// CaretSlope is the slope of a caret as a vector with the Y axis pointing up.
// The slope {0, 1} is the vertical caret.
CaretSlope image.Point
}
// Drawer draws text on a destination image.
//
// A Drawer is not safe for concurrent use by multiple goroutines, since its
// Face is not.
type Drawer struct {
// Dst is the destination image.
Dst draw.Image
// Src is the source image.
Src image.Image
// Face provides the glyph mask images.
Face Face
// Dot is the baseline location to draw the next glyph. The majority of the
// affected pixels will be above and to the right of the dot, but some may
// be below or to the left. For example, drawing a 'j' in an italic face
// may affect pixels below and to the left of the dot.
Dot fixed.Point26_6
// TODO: Clip image.Image?
// TODO: SrcP image.Point for Src images other than *image.Uniform? How
// does it get updated during DrawString?
}
// TODO: should DrawString return the last rune drawn, so the next DrawString
// call can kern beforehand? Or should that be the responsibility of the caller
// if they really want to do that, since they have to explicitly shift d.Dot
// anyway? What if ligatures span more than two runes? What if grapheme
// clusters span multiple runes?
//
// TODO: do we assume that the input is in any particular Unicode Normalization
// Form?
//
// TODO: have DrawRunes(s []rune)? DrawRuneReader(io.RuneReader)?? If we take
// io.RuneReader, we can't assume that we can rewind the stream.
//
// TODO: how does this work with line breaking: drawing text up until a
// vertical line? Should DrawString return the number of runes drawn?
// DrawBytes draws s at the dot and advances the dot's location.
//
// It is equivalent to DrawString(string(s)) but may be more efficient.
func (d *Drawer) DrawBytes(s []byte) {
prevC := rune(-1)
for len(s) > 0 {
c, size := utf8.DecodeRune(s)
s = s[size:]
if prevC >= 0 {
d.Dot.X += d.Face.Kern(prevC, c)
}
dr, mask, maskp, advance, ok := d.Face.Glyph(d.Dot, c)
if !ok {
// TODO: is falling back on the U+FFFD glyph the responsibility of
// the Drawer or the Face?
// TODO: set prevC = '\ufffd'?
continue
}
draw.DrawMask(d.Dst, dr, d.Src, image.Point{}, mask, maskp, draw.Over)
d.Dot.X += advance
prevC = c
}
}
// DrawString draws s at the dot and advances the dot's location.
func (d *Drawer) DrawString(s string) {
prevC := rune(-1)
for _, c := range s {
if prevC >= 0 {
d.Dot.X += d.Face.Kern(prevC, c)
}
dr, mask, maskp, advance, ok := d.Face.Glyph(d.Dot, c)
if !ok {
// TODO: is falling back on the U+FFFD glyph the responsibility of
// the Drawer or the Face?
// TODO: set prevC = '\ufffd'?
continue
}
draw.DrawMask(d.Dst, dr, d.Src, image.Point{}, mask, maskp, draw.Over)
d.Dot.X += advance
prevC = c
}
}
// BoundBytes returns the bounding box of s, drawn at the drawer dot, as well as
// the advance.
//
// It is equivalent to BoundBytes(string(s)) but may be more efficient.
func (d *Drawer) BoundBytes(s []byte) (bounds fixed.Rectangle26_6, advance fixed.Int26_6) {
bounds, advance = BoundBytes(d.Face, s)
bounds.Min = bounds.Min.Add(d.Dot)
bounds.Max = bounds.Max.Add(d.Dot)
return
}
// BoundString returns the bounding box of s, drawn at the drawer dot, as well
// as the advance.
func (d *Drawer) BoundString(s string) (bounds fixed.Rectangle26_6, advance fixed.Int26_6) {
bounds, advance = BoundString(d.Face, s)
bounds.Min = bounds.Min.Add(d.Dot)
bounds.Max = bounds.Max.Add(d.Dot)
return
}
// MeasureBytes returns how far dot would advance by drawing s.
//
// It is equivalent to MeasureString(string(s)) but may be more efficient.
func (d *Drawer) MeasureBytes(s []byte) (advance fixed.Int26_6) {
return MeasureBytes(d.Face, s)
}
// MeasureString returns how far dot would advance by drawing s.
func (d *Drawer) MeasureString(s string) (advance fixed.Int26_6) {
return MeasureString(d.Face, s)
}
// BoundBytes returns the bounding box of s with f, drawn at a dot equal to the
// origin, as well as the advance.
//
// It is equivalent to BoundString(string(s)) but may be more efficient.
func BoundBytes(f Face, s []byte) (bounds fixed.Rectangle26_6, advance fixed.Int26_6) {
prevC := rune(-1)
for len(s) > 0 {
c, size := utf8.DecodeRune(s)
s = s[size:]
if prevC >= 0 {
advance += f.Kern(prevC, c)
}
b, a, ok := f.GlyphBounds(c)
if !ok {
// TODO: is falling back on the U+FFFD glyph the responsibility of
// the Drawer or the Face?
// TODO: set prevC = '\ufffd'?
continue
}
b.Min.X += advance
b.Max.X += advance
bounds = bounds.Union(b)
advance += a
prevC = c
}
return
}
// BoundString returns the bounding box of s with f, drawn at a dot equal to the
// origin, as well as the advance.
func BoundString(f Face, s string) (bounds fixed.Rectangle26_6, advance fixed.Int26_6) {
prevC := rune(-1)
for _, c := range s {
if prevC >= 0 {
advance += f.Kern(prevC, c)
}
b, a, ok := f.GlyphBounds(c)
if !ok {
// TODO: is falling back on the U+FFFD glyph the responsibility of
// the Drawer or the Face?
// TODO: set prevC = '\ufffd'?
continue
}
b.Min.X += advance
b.Max.X += advance
bounds = bounds.Union(b)
advance += a
prevC = c
}
return
}
// MeasureBytes returns how far dot would advance by drawing s with f.
//
// It is equivalent to MeasureString(string(s)) but may be more efficient.
func MeasureBytes(f Face, s []byte) (advance fixed.Int26_6) {
prevC := rune(-1)
for len(s) > 0 {
c, size := utf8.DecodeRune(s)
s = s[size:]
if prevC >= 0 {
advance += f.Kern(prevC, c)
}
a, ok := f.GlyphAdvance(c)
if !ok {
// TODO: is falling back on the U+FFFD glyph the responsibility of
// the Drawer or the Face?
// TODO: set prevC = '\ufffd'?
continue
}
advance += a
prevC = c
}
return advance
}
// MeasureString returns how far dot would advance by drawing s with f.
func MeasureString(f Face, s string) (advance fixed.Int26_6) {
prevC := rune(-1)
for _, c := range s {
if prevC >= 0 {
advance += f.Kern(prevC, c)
}
a, ok := f.GlyphAdvance(c)
if !ok {
// TODO: is falling back on the U+FFFD glyph the responsibility of
// the Drawer or the Face?
// TODO: set prevC = '\ufffd'?
continue
}
advance += a
prevC = c
}
return advance
}
// Hinting selects how to quantize a vector font's glyph nodes.
//
// Not all fonts support hinting.
type Hinting int
const (
HintingNone Hinting = iota
HintingVertical
HintingFull
)
// Stretch selects a normal, condensed, or expanded face.
//
// Not all fonts support stretches.
type Stretch int
const (
StretchUltraCondensed Stretch = -4
StretchExtraCondensed Stretch = -3
StretchCondensed Stretch = -2
StretchSemiCondensed Stretch = -1
StretchNormal Stretch = +0
StretchSemiExpanded Stretch = +1
StretchExpanded Stretch = +2
StretchExtraExpanded Stretch = +3
StretchUltraExpanded Stretch = +4
)
// Style selects a normal, italic, or oblique face.
//
// Not all fonts support styles.
type Style int
const (
StyleNormal Style = iota
StyleItalic
StyleOblique
)
// Weight selects a normal, light or bold face.
//
// Not all fonts support weights.
//
// The named Weight constants (e.g. WeightBold) correspond to CSS' common
// weight names (e.g. "Bold"), but the numerical values differ, so that in Go,
// the zero value means to use a normal weight. For the CSS names and values,
// see https://developer.mozilla.org/en/docs/Web/CSS/font-weight
type Weight int
const (
WeightThin Weight = -3 // CSS font-weight value 100.
WeightExtraLight Weight = -2 // CSS font-weight value 200.
WeightLight Weight = -1 // CSS font-weight value 300.
WeightNormal Weight = +0 // CSS font-weight value 400.
WeightMedium Weight = +1 // CSS font-weight value 500.
WeightSemiBold Weight = +2 // CSS font-weight value 600.
WeightBold Weight = +3 // CSS font-weight value 700.
WeightExtraBold Weight = +4 // CSS font-weight value 800.
WeightBlack Weight = +5 // CSS font-weight value 900.
)