Initial commit

This commit is contained in:
Přemysl Eric Janouch 2019-04-06 21:31:11 +02:00
commit ab253ce768
Signed by: p
GPG Key ID: A0420B94F92B9493
7 changed files with 1103 additions and 0 deletions

93
bdf-preview/main.go Normal file
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package main
import (
"html/template"
"image"
"image/draw"
"image/png"
"log"
"net/http"
"os"
"janouch.name/sklad/bdf"
)
type fontItem struct {
Font *bdf.Font
Preview image.Image
}
var fonts = map[string]fontItem{}
var tmpl = template.Must(template.New("list").Parse(`
<!DOCTYPE html>
<html><body>
<table border='1' cellpadding='3' style='border-collapse: collapse'>
<tr>
<th>Name</th>
<th>Preview</th>
<tr>
{{range $k, $v := . }}
<tr>
<td>{{$k}}</td>
<td><img src='?name={{$k}}'></td>
</tr>
{{end}}
</table>
</body></html>
`))
func handle(w http.ResponseWriter, r *http.Request) {
if err := r.ParseForm(); err != nil {
http.Error(w, err.Error(), 500)
return
}
name := r.FormValue("name")
if name == "" {
w.Header().Set("Content-Type", "text/html")
tmpl.Execute(w, fonts)
return
}
item, ok := fonts[name]
if !ok {
http.Error(w, "No such font.", 400)
return
}
w.Header().Set("Content-Type", "image/png")
if err := png.Encode(w, item.Preview); err != nil {
http.Error(w, err.Error(), 500)
return
}
}
func main() {
for _, filename := range os.Args[1:] {
fi, err := os.Open(filename)
if err != nil {
log.Fatalln(err)
}
font, err := bdf.NewFromBDF(fi)
if err != nil {
log.Fatalf("%s: %s\n", filename, err)
}
if err := fi.Close(); err != nil {
log.Fatalln(err)
}
r, _ := font.BoundString(font.Name)
super := r.Inset(-3)
img := image.NewRGBA(super)
draw.Draw(img, super, image.White, image.ZP, draw.Src)
font.DrawString(img, image.ZP, font.Name)
fonts[filename] = fontItem{Font: font, Preview: img}
}
log.Println("Starting server")
http.HandleFunc("/", handle)
log.Fatal(http.ListenAndServe(":8080", nil))
}

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bdf-sample/main.go Normal file
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package main
import (
"image"
"image/draw"
"image/png"
"janouch.name/sklad/bdf"
"log"
"os"
)
func main() {
fi, err := os.Open(os.Args[1])
if err != nil {
log.Fatalln(err)
}
defer fi.Close()
font, err := bdf.NewFromBDF(fi)
if err != nil {
log.Fatalln(err)
}
r, _ := font.BoundString(font.Name)
super := r.Inset(-20)
img := image.NewRGBA(super)
draw.Draw(img, super, image.White, image.ZP, draw.Src)
font.DrawString(img, image.ZP, font.Name)
fo, err := os.Create("out.png")
if err != nil {
log.Fatalln(err)
}
if err := png.Encode(fo, img); err != nil {
fo.Close()
log.Fatal(err)
}
if err := fo.Close(); err != nil {
log.Fatal(err)
}
}

353
bdf/bdf.go Normal file
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package bdf
import (
"bufio"
"encoding/hex"
"fmt"
"image"
"image/color"
"image/draw"
"io"
"strconv"
)
// glyph is a singular bitmap glyph to be used as a mask, assumed to directly
// correspond to a rune. A zero value is also valid and drawable.
type glyph struct {
// Coordinates are relative to the origin, on the baseline.
// The ascent is thus negative, unlike the usual model.
bounds image.Rectangle
bitmap []byte
advance int
}
// ColorModel implements image.Image.
func (g *glyph) ColorModel() color.Model { return color.Alpha16Model }
// Bounds implements image.Image.
func (g *glyph) Bounds() image.Rectangle { return g.bounds }
// At implements image.Image. This is going to be somewhat slow.
func (g *glyph) At(x, y int) color.Color {
x -= g.bounds.Min.X
y -= g.bounds.Min.Y
dx, dy := g.bounds.Dx(), g.bounds.Dy()
if x < 0 || y < 0 || x >= dx || y >= dy {
return color.Transparent
}
stride, offset, bit := (dx+7)/8, x/8, byte(1<<uint(7-x%8))
if g.bitmap[y*stride+offset]&bit == 0 {
return color.Transparent
}
return color.Opaque
}
// -----------------------------------------------------------------------------
// Font represents a particular bitmap font.
type Font struct {
Name string
glyphs map[rune]glyph
fallback glyph
}
// FindGlyph returns the best glyph to use for the given rune.
// The returned boolean indicates whether a fallback has been used.
func (f *Font) FindGlyph(r rune) (glyph, bool) {
if g, ok := f.glyphs[r]; ok {
return g, true
}
return f.fallback, false
}
// DrawString draws the specified text string onto dst horizontally along
// the baseline starting at dp, using black color.
func (f *Font) DrawString(dst draw.Image, dp image.Point, s string) {
for _, r := range s {
g, _ := f.FindGlyph(r)
draw.DrawMask(dst, g.bounds.Add(dp),
image.Black, image.ZP, &g, g.bounds.Min, draw.Over)
dp.X += g.advance
}
}
// BoundString measures the text's bounds when drawn along the X axis
// for the baseline. Also returns the total advance.
func (f *Font) BoundString(s string) (image.Rectangle, int) {
var (
bounds image.Rectangle
dot image.Point
)
for _, r := range s {
g, _ := f.FindGlyph(r)
bounds = bounds.Union(g.bounds.Add(dot))
dot.X += g.advance
}
return bounds, dot.X
}
// -----------------------------------------------------------------------------
func latin1ToUTF8(latin1 []byte) string {
buf := make([]rune, len(latin1))
for i, b := range latin1 {
buf[i] = rune(b)
}
return string(buf)
}
// tokenize splits a BDF line into tokens. Quoted strings may start anywhere
// on the line. We only enforce that they must end somewhere.
func tokenize(s string) (tokens []string, err error) {
token, quotes, escape := []rune{}, false, false
for _, r := range s {
switch {
case escape:
switch r {
case '"':
escape = false
token = append(token, r)
case ' ', '\t':
quotes, escape = false, false
tokens = append(tokens, string(token))
token = nil
default:
quotes, escape = false, false
token = append(token, r)
}
case quotes:
switch r {
case '"':
escape = true
default:
token = append(token, r)
}
default:
switch r {
case '"':
// We could also enable quote processing on demand,
// so that it is only turned on in properties.
if len(tokens) < 1 || tokens[0] != "COMMENT" {
quotes = true
} else {
token = append(token, r)
}
case ' ', '\t':
if len(token) > 0 {
tokens = append(tokens, string(token))
token = nil
}
default:
token = append(token, r)
}
}
}
if quotes && !escape {
return nil, fmt.Errorf("strings may not contain newlines")
}
if quotes || len(token) > 0 {
tokens = append(tokens, string(token))
}
return tokens, nil
}
// -----------------------------------------------------------------------------
// bdfParser is a basic and rather lenient parser of
// Bitmap Distribution Format (BDF) files.
type bdfParser struct {
scanner *bufio.Scanner // input reader
line int // current line number
tokens []string // tokens on the current line
font *Font // glyph storage
defaultBounds image.Rectangle
defaultAdvance int
defaultChar int
}
// readLine reads the next line and splits it into tokens.
// Panics on error, returns false if the end of file has been reached normally.
func (p *bdfParser) readLine() bool {
p.line++
if !p.scanner.Scan() {
if err := p.scanner.Err(); err != nil {
panic(err)
}
p.line--
return false
}
var err error
if p.tokens, err = tokenize(latin1ToUTF8(p.scanner.Bytes())); err != nil {
panic(err)
}
// Eh, it would be nicer iteratively, this may overrun the stack.
if len(p.tokens) == 0 {
return p.readLine()
}
return true
}
func (p *bdfParser) readCharEncoding() int {
if len(p.tokens) < 2 {
panic("insufficient arguments")
}
if i, err := strconv.Atoi(p.tokens[1]); err != nil {
panic(err)
} else {
return i // Some fonts even use -1 for things outside the encoding.
}
}
func (p *bdfParser) parseProperties() {
// The wording in the specification suggests that the argument
// with the number of properties to follow isn't reliable.
for p.readLine() && p.tokens[0] != "ENDPROPERTIES" {
switch p.tokens[0] {
case "DEFAULT_CHAR":
p.defaultChar = p.readCharEncoding()
}
}
}
// XXX: Ignoring vertical advance since we only expect purely horizontal fonts.
func (p *bdfParser) readDwidth() int {
if len(p.tokens) < 2 {
panic("insufficient arguments")
}
if i, err := strconv.Atoi(p.tokens[1]); err != nil {
panic(err)
} else {
return i
}
}
func (p *bdfParser) readBBX() image.Rectangle {
if len(p.tokens) < 5 {
panic("insufficient arguments")
}
w, e1 := strconv.Atoi(p.tokens[1])
h, e2 := strconv.Atoi(p.tokens[2])
x, e3 := strconv.Atoi(p.tokens[3])
y, e4 := strconv.Atoi(p.tokens[4])
if e1 != nil || e2 != nil || e3 != nil || e4 != nil {
panic("invalid arguments")
}
if w < 0 || h < 0 {
panic("bounding boxes may not have negative dimensions")
}
return image.Rectangle{
Min: image.Point{x, -(y + h)},
Max: image.Point{x + w, -y},
}
}
func (p *bdfParser) parseChar() {
g := glyph{bounds: p.defaultBounds, advance: p.defaultAdvance}
bitmap, rows, encoding := false, 0, -1
for p.readLine() && p.tokens[0] != "ENDCHAR" {
if bitmap {
b, err := hex.DecodeString(p.tokens[0])
if err != nil {
panic(err)
}
if len(b) != (g.bounds.Dx()+7)/8 {
panic("invalid bitmap data, width mismatch")
}
g.bitmap = append(g.bitmap, b...)
rows++
} else {
switch p.tokens[0] {
case "ENCODING":
encoding = p.readCharEncoding()
case "DWIDTH":
g.advance = p.readDwidth()
case "BBX":
g.bounds = p.readBBX()
case "BITMAP":
bitmap = true
}
}
}
if rows != g.bounds.Dy() {
panic("invalid bitmap data, height mismatch")
}
// XXX: We don't try to convert encodings, since we'd need x/text/encoding
// for the conversion tables, though most fonts are at least going to use
// supersets of ASCII. Use ISO10646-1 X11 fonts for proper Unicode support.
if encoding >= 0 {
p.font.glyphs[rune(encoding)] = g
}
if encoding == p.defaultChar {
p.font.fallback = g
}
}
// https://en.wikipedia.org/wiki/Glyph_Bitmap_Distribution_Format
// https://www.adobe.com/content/dam/acom/en/devnet/font/pdfs/5005.BDF_Spec.pdf
func (p *bdfParser) parse() {
if !p.readLine() || len(p.tokens) != 2 || p.tokens[0] != "STARTFONT" {
panic("invalid header")
}
if p.tokens[1] != "2.1" && p.tokens[1] != "2.2" {
panic("unsupported version number")
}
for p.readLine() && p.tokens[0] != "ENDFONT" {
switch p.tokens[0] {
case "FONT":
if len(p.tokens) < 2 {
panic("insufficient arguments")
}
p.font.Name = p.tokens[1]
case "FONTBOUNDINGBOX":
// There's no guarantee that this includes all BBXs.
p.defaultBounds = p.readBBX()
case "METRICSSET":
if len(p.tokens) < 2 {
panic("insufficient arguments")
}
if p.tokens[1] == "1" {
panic("purely vertical fonts are unsupported")
}
case "DWIDTH":
p.defaultAdvance = p.readDwidth()
case "STARTPROPERTIES":
p.parseProperties()
case "STARTCHAR":
p.parseChar()
}
}
if p.font.Name == "" {
panic("the font file doesn't contain the font's name")
}
if len(p.font.glyphs) == 0 {
panic("the font file doesn't seem to contain any glyphs")
}
}
func NewFromBDF(r io.Reader) (f *Font, err error) {
p := bdfParser{
scanner: bufio.NewScanner(r),
font: &Font{glyphs: make(map[rune]glyph)},
defaultChar: -1,
}
defer func() {
if r := recover(); r != nil {
var ok bool
if err, ok = r.(error); !ok {
err = fmt.Errorf("%v", r)
}
}
if err != nil {
err = fmt.Errorf("line %d: %s", p.line, err)
}
}()
p.parse()
return p.font, nil
}

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brother-info/main.go Normal file
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package main
import (
"io"
"log"
"os"
"time"
)
func decodeBitfieldErrors(b byte, errors [8]string) []string {
var result []string
for i := uint(0); i < 8; i++ {
if b&(1<<i) != 0 {
result = append(result, errors[i])
}
}
return result
}
// -----------------------------------------------------------------------------
type brotherStatus struct {
errors []string
}
// TODO: What exactly do we need? Probably extend as needed.
func decodeStatusInformation(d []byte) brotherStatus {
var status brotherStatus
status.errors = append(status.errors, decodeBitfieldErrors(d[8], [8]string{
"no media", "end of media", "cutter jam", "?", "printer in use",
"printer turned off", "high-voltage adapter", "fan motor error"})...)
status.errors = append(status.errors, decodeBitfieldErrors(d[9], [8]string{
"replace media", "expansion buffer full", "communication error",
"communication buffer full", "cover open", "cancel key",
"media cannot be fed", "system error"})...)
return status
}
// -----------------------------------------------------------------------------
func printStatusInformation(d []byte) {
if d[0] != 0x80 || d[1] != 0x20 || d[2] != 0x42 || d[3] != 0x34 {
log.Println("unexpected status fixed bytes")
}
// Model code.
switch b := d[4]; b {
case 0x38:
log.Println("model: QL-800")
case 0x39:
log.Println("model: QL-810W")
case 0x41:
log.Println("model: QL-820NWB")
default:
log.Println("model:", b)
}
// d[6] seems to be 0x00 in a real-world QL-800.
if d[5] != 0x30 || d[6] != 0x30 || d[7] != 0x00 {
log.Println("unexpected status fixed bytes")
}
// Error information 1.
for _, e := range decodeBitfieldErrors(d[8], [8]string{
"no media", "end of media", "cutter jam", "?", "printer in use",
"printer turned off", "high-voltage adapter", "fan motor error"}) {
log.Println("error:", e)
}
// Error information 2.
for _, e := range decodeBitfieldErrors(d[9], [8]string{
"replace media", "expansion buffer full", "communication error",
"communication buffer full", "cover open", "cancel key",
"media cannot be fed", "system error"}) {
log.Println("error:", e)
}
// Media width.
log.Println("media width:", d[10], "mm")
// Media type.
switch b := d[11]; b {
case 0x00:
log.Println("media: no media")
case 0x4a:
log.Println("media: continuous length tape")
case 0x4b:
log.Println("media: die-cut labels")
default:
log.Println("media:", b)
}
// d[14] seems to be 0x14 in a real-world QL-800.
if d[12] != 0x00 || d[13] != 0x00 || d[14] != 0x3f {
log.Println("unexpected status fixed bytes")
}
// Mode.
log.Println("mode:", d[15])
if d[16] != 0x00 {
log.Println("unexpected status fixed bytes")
}
// Media length.
log.Println("media width:", d[17], "mm")
// Status type.
switch b := d[18]; b {
case 0x00:
log.Println("status type: reply to status request")
case 0x01:
log.Println("status type: printing completed")
case 0x02:
log.Println("status type: error occurred")
case 0x04:
log.Println("status type: turned off")
case 0x05:
log.Println("status type: notification")
case 0x06:
log.Println("status type: phase change")
default:
log.Println("status type:", b)
}
// Phase type.
switch b := d[19]; b {
case 0x00:
log.Println("phase state: receiving state")
case 0x01:
log.Println("phase state: printing state")
default:
log.Println("phase state:", b)
}
// Phase number.
log.Println("phase number:", int(d[20])*256+int(d[21]))
// Notification number.
switch b := d[22]; b {
case 0x00:
log.Println("notification number: not available")
case 0x03:
log.Println("notification number: cooling (started)")
case 0x04:
log.Println("notification number: cooling (finished)")
default:
log.Println("notification number:", b)
}
// d[25] seems to be 0x01 in a real-world QL-800.
if d[23] != 0x00 || d[24] != 0x00 || d[25] != 0x00 || d[26] != 0x00 ||
d[27] != 0x00 || d[28] != 0x00 || d[29] != 0x00 || d[30] != 0x00 ||
d[31] != 0x00 {
log.Println("unexpected status fixed bytes")
}
}
func main() {
// Linux usblp module, located in /drivers/usb/class/usblp.c
// (at least that's where the trails go, I don't understand the code)
f, err := os.OpenFile("/dev/usb/lp0", os.O_RDWR, 0)
if err != nil {
log.Fatalln(err)
}
defer f.Close()
// Flush any former responses in the printer's queue.
for {
dummy := make([]byte, 32)
if _, err := f.Read(dummy); err == io.EOF {
break
}
}
// Clear the print buffer.
invalidate := make([]byte, 400)
if _, err := f.Write(invalidate); err != nil {
log.Fatalln(err)
}
// Initialize.
if _, err := f.WriteString("\x1b\x40"); err != nil {
log.Fatalln(err)
}
// Request status information.
if _, err := f.WriteString("\x1b\x69\x53"); err != nil {
log.Fatalln(err)
}
// We need to poll the device.
status := make([]byte, 32)
for {
if n, err := f.Read(status); err == io.EOF {
time.Sleep(10 * time.Millisecond)
} else if err != nil {
log.Fatalln(err)
} else if n < 32 {
log.Fatalln("invalid read")
} else {
break
}
}
printStatusInformation(status)
}

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go.mod Normal file
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module janouch.name/sklad
go 1.12
require github.com/boombuler/barcode v1.0.0

2
go.sum Normal file
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github.com/boombuler/barcode v1.0.0 h1:s1TvRnXwL2xJRaccrdcBQMZxq6X7DvsMogtmJeHDdrc=
github.com/boombuler/barcode v1.0.0/go.mod h1:paBWMcWSl3LHKBqUq+rly7CNSldXjb2rDl3JlRe0mD8=

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label-exp/main.go Normal file
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package main
import (
"errors"
"html/template"
"image"
"image/color"
"image/draw"
"image/png"
"io"
"log"
"net/http"
"os"
"strconv"
"time"
"github.com/boombuler/barcode"
"github.com/boombuler/barcode/qr"
"janouch.name/sklad/bdf"
)
// scaler is a scaling image.Image wrapper.
type scaler struct {
image image.Image
scale int
}
// ColorModel implements image.Image.
func (s *scaler) ColorModel() color.Model {
return s.image.ColorModel()
}
// Bounds implements image.Image.
func (s *scaler) Bounds() image.Rectangle {
r := s.image.Bounds()
return image.Rect(r.Min.X*s.scale, r.Min.Y*s.scale,
r.Max.X*s.scale, r.Max.Y*s.scale)
}
// At implements image.Image.
func (s *scaler) At(x, y int) color.Color {
if x < 0 {
x = x - s.scale + 1
}
if y < 0 {
y = y - s.scale + 1
}
return s.image.At(x/s.scale, y/s.scale)
}
// -----------------------------------------------------------------------------
func decodeBitfieldErrors(b byte, errors [8]string) []string {
var result []string
for i := uint(0); i < 8; i++ {
if b&(1<<i) != 0 {
result = append(result, errors[i])
}
}
return result
}
func printStatusInformation(d []byte) {
log.Println("-- status")
// Error information 1.
for _, e := range decodeBitfieldErrors(d[8], [8]string{
"no media", "end of media", "cutter jam", "?", "printer in use",
"printer turned off", "high-voltage adapter", "fan motor error"}) {
log.Println("error:", e)
}
// Error information 2.
for _, e := range decodeBitfieldErrors(d[9], [8]string{
"replace media", "expansion buffer full", "communication error",
"communication buffer full", "cover open", "cancel key",
"media cannot be fed", "system error"}) {
log.Println("error:", e)
}
// Media width.
log.Println("media width:", d[10], "mm")
// Media type.
switch b := d[11]; b {
case 0x00:
log.Println("media: no media")
case 0x4a:
log.Println("media: continuous length tape")
case 0x4b:
log.Println("media: die-cut labels")
default:
log.Println("media:", b)
}
// Mode.
log.Println("mode:", d[15])
// Media length.
log.Println("media width:", d[17], "mm")
// Status type.
switch b := d[18]; b {
case 0x00:
log.Println("status type: reply to status request")
case 0x01:
log.Println("status type: printing completed")
case 0x02:
log.Println("status type: error occurred")
case 0x04:
log.Println("status type: turned off")
case 0x05:
log.Println("status type: notification")
case 0x06:
log.Println("status type: phase change")
default:
log.Println("status type:", b)
}
// Phase type.
switch b := d[19]; b {
case 0x00:
log.Println("phase state: receiving state")
case 0x01:
log.Println("phase state: printing state")
default:
log.Println("phase state:", b)
}
// Phase number.
log.Println("phase number:", int(d[20])*256+int(d[21]))
// Notification number.
switch b := d[22]; b {
case 0x00:
log.Println("notification number: not available")
case 0x03:
log.Println("notification number: cooling (started)")
case 0x04:
log.Println("notification number: cooling (finished)")
default:
log.Println("notification number:", b)
}
}
// genLabelData converts an image to the printer's raster format.
func genLabelData(src image.Image, offset int) (data []byte) {
// TODO: Margins? For 29mm, it's 6 pins from the start, 306 printing pins.
bounds := src.Bounds()
pixels := make([]bool, 720)
for y := bounds.Min.Y; y < bounds.Max.Y; y++ {
off := offset
for x := bounds.Max.X - 1; x >= bounds.Min.X; x-- {
// TODO: Anything to do with the ColorModel?
r, g, b, a := src.At(x, y).RGBA()
pixels[off] = r == 0 && g == 0 && b == 0 && a != 0
off++
}
data = append(data, 'g', 0x00, 90)
for i := 0; i < 90; i++ {
var b byte
for j := 0; j < 8; j++ {
b <<= 1
if pixels[i*8+j] {
b |= 1
}
}
data = append(data, b)
}
}
return
}
func printLabel(src image.Image) error {
data := []byte(nil)
// Raster mode.
// Should be the only supported mode for QL-800.
data = append(data, 0x1b, 0x69, 0x61, 0x01)
// Automatic status mode (though it's the default).
data = append(data, 0x1b, 0x69, 0x21, 0x00)
// Print information command.
dy := src.Bounds().Dy()
data = append(data, 0x1b, 0x69, 0x7a, 0x02|0x04|0x40|0x80, 0x0a, 29, 0,
byte(dy), byte(dy>>8), byte(dy>>16), byte(dy>>24), 0, 0x00)
// Auto cut, each 1 label.
data = append(data, 0x1b, 0x69, 0x4d, 0x40)
data = append(data, 0x1b, 0x69, 0x41, 0x01)
// Cut at end (though it's the default).
// Not sure what it means, doesn't seem to have any effect to turn it off.
data = append(data, 0x1b, 0x69, 0x4b, 0x08)
// 3mm margins along the direction of feed. 0x23 = 35 dots, the minimum.
data = append(data, 0x1b, 0x69, 0x64, 0x23, 0x00)
// Compression mode: no compression.
// Should be the only supported mode for QL-800.
data = append(data, 0x4d, 0x00)
// The graphics data itself.
data = append(data, genLabelData(src, 6)...)
// Print command with feeding.
data = append(data, 0x1a)
// ---
// Linux usblp module, located in /drivers/usb/class/usblp.c
// (at least that's where the trails go, I don't understand the code)
f, err := os.OpenFile("/dev/usb/lp0", os.O_RDWR, 0)
if err != nil {
return err
}
defer f.Close()
// Flush any former responses in the printer's queue.
for {
dummy := make([]byte, 32)
if _, err := f.Read(dummy); err == io.EOF {
break
}
}
// Clear the print buffer.
invalidate := make([]byte, 400)
if _, err := f.Write(invalidate); err != nil {
return err
}
// Initialize.
if _, err := f.WriteString("\x1b\x40"); err != nil {
return err
}
// Request status information.
if _, err := f.WriteString("\x1b\x69\x53"); err != nil {
return err
}
// We need to poll the device.
status := make([]byte, 32)
for {
if n, err := f.Read(status); err == io.EOF {
time.Sleep(10 * time.Millisecond)
} else if err != nil {
return err
} else if n < 32 {
return errors.New("invalid read")
} else {
break
}
}
printStatusInformation(status)
// Print the prepared data.
if _, err := f.Write(data); err != nil {
return err
}
// TODO: We specifically need to wait for a transition to the receiving
// state, and try to figure out something from the statuses.
// We may also receive an error status instead of the transition to
// the printing state. Or even after it.
start := time.Now()
for {
if time.Now().Sub(start) > 3*time.Second {
break
}
if n, err := f.Read(status); err == io.EOF {
time.Sleep(100 * time.Millisecond)
} else if err != nil {
return err
} else if n < 32 {
return errors.New("invalid read")
} else {
printStatusInformation(status)
}
}
return nil
}
// -----------------------------------------------------------------------------
var font *bdf.Font
// TODO: By rotating the label we can make it smaller, as an alternate mode.
func genLabel(text string, width int) image.Image {
// Create a scaled bitmap of the QR code.
qrImg, _ := qr.Encode(text, qr.H, qr.Auto)
qrImg, _ = barcode.Scale(qrImg, 306, 306)
qrRect := qrImg.Bounds()
// Create a scaled bitmap of the text label.
textRect, _ := font.BoundString(text)
textImg := image.NewRGBA(textRect)
draw.Draw(textImg, textRect, image.White, image.ZP, draw.Src)
font.DrawString(textImg, image.ZP, text)
// TODO: We can scale as needed to make the text fit.
scaledTextImg := scaler{image: textImg, scale: 3}
scaledTextRect := scaledTextImg.Bounds()
// Combine.
combinedRect := qrRect
combinedRect.Max.Y += scaledTextRect.Dy() + 20
combinedImg := image.NewRGBA(combinedRect)
draw.Draw(combinedImg, combinedRect, image.White, image.ZP, draw.Src)
draw.Draw(combinedImg, combinedRect, qrImg, image.ZP, draw.Src)
target := image.Rect(
(width-scaledTextRect.Dx())/2, qrRect.Dy()+10,
combinedRect.Max.X, combinedRect.Max.Y)
draw.Draw(combinedImg, target, &scaledTextImg, scaledTextRect.Min, draw.Src)
return combinedImg
}
var tmpl = template.Must(template.New("form").Parse(`
<!DOCTYPE html>
<html><body>
<table><tr>
<td valign=top>
<img border=1 src='?img&amp;width={{.Width}}&amp;text={{.Text}}'>
</td>
<td valign=top>
<form><fieldset>
<p><label for=width>Tape width in pt:</label>
<input id=width name=width value='{{.Width}}'>
<p><label for=text>Text:</label>
<input id=text name=text value='{{.Text}}'>
<p><input type=submit value='Update'>
<input type=checkbox id=print name=print>
<label for=print>Print label</label>
</fieldset></form>
</td>
</tr></table>
</body></html>
`))
func handle(w http.ResponseWriter, r *http.Request) {
if err := r.ParseForm(); err != nil {
http.Error(w, err.Error(), 500)
return
}
var params = struct {
Width int
Text string
}{
Text: r.FormValue("text"),
}
var err error
params.Width, err = strconv.Atoi(r.FormValue("width"))
if err != nil {
params.Width = 306 // Default to 29mm tape.
}
label := genLabel(params.Text, params.Width)
if r.FormValue("print") != "" {
if err := printLabel(label); err != nil {
log.Println("print error:", err)
}
}
if _, ok := r.Form["img"]; !ok {
w.Header().Set("Content-Type", "text/html")
tmpl.Execute(w, &params)
return
}
w.Header().Set("Content-Type", "image/png")
if err := png.Encode(w, label); err != nil {
http.Error(w, err.Error(), 500)
return
}
}
func main() {
var err error
fi, err := os.Open("../../ucs-fonts-75dpi100dpi/100dpi/luBS24.bdf")
if err != nil {
log.Fatalln(err)
}
font, err = bdf.NewFromBDF(fi)
if err != nil {
log.Fatalln(err)
}
if err := fi.Close(); err != nil {
log.Fatalln(err)
}
log.Println("Starting server")
http.HandleFunc("/", handle)
log.Fatal(http.ListenAndServe(":8080", nil))
}