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image_obj_parse.go
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/
image_obj_parse.go
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package gopdf
import (
"bytes"
"compress/zlib"
"encoding/binary"
"errors"
"fmt"
"image"
"image/color"
"io"
"os"
"strings"
)
type ColorSpaces string
const (
DeviceGray = "DeviceGray"
)
func writeMaskImgProps(w io.Writer, imginfo imgInfo) error {
if err := writeBaseImgProps(w, imginfo, DeviceGray); err != nil {
return err
}
decode := "\t/DecodeParms <<\n"
decode += "\t\t/Predictor 15\n"
decode += "\t\t/Colors 1\n"
decode += "\t\t/BitsPerComponent 8\n"
decode += fmt.Sprintf("\t\t/Columns %d\n", imginfo.w)
decode += "\t>>\n"
if _, err := io.WriteString(w, decode); err != nil {
return err
}
return nil
}
func writeImgProps(w io.Writer, imginfo imgInfo, splittedMask bool) error {
if err := writeBaseImgProps(w, imginfo, imginfo.colspace); err != nil {
return err
}
if strings.TrimSpace(imginfo.decodeParms) != "" {
if _, err := fmt.Fprintf(w, "\t/DecodeParms <<%s>>\n", imginfo.decodeParms); err != nil {
return err
}
}
if splittedMask {
return nil
}
if imginfo.trns != nil && len(imginfo.trns) > 0 {
j := 0
content := "\t/Mask ["
max := len(imginfo.trns)
for j < max {
content += fmt.Sprintf("\t\t%d ", imginfo.trns[j])
content += fmt.Sprintf("\t\t%d ", imginfo.trns[j])
j++
}
content += "\t]\n"
if _, err := io.WriteString(w, content); err != nil {
return err
}
}
if haveSMask(imginfo) {
if _, err := fmt.Fprintf(w, "\t/SMask %d 0 R\n", imginfo.smarkObjID+1); err != nil {
return err
}
}
return nil
}
func writeBaseImgProps(w io.Writer, imginfo imgInfo, colorSpace string) error {
content := "<<\n"
content += "\t/Type /XObject\n"
content += "\t/Subtype /Image\n"
content += fmt.Sprintf("\t/Width %d\n", imginfo.w)
content += fmt.Sprintf("\t/Height %d\n", imginfo.h)
if isColspaceIndexed(imginfo) {
size := len(imginfo.pal)/3 - 1
content += fmt.Sprintf("\t/ColorSpace [/Indexed /DeviceRGB %d %d 0 R]\n", size, imginfo.deviceRGBObjID+1)
} else {
content += fmt.Sprintf("\t/ColorSpace /%s\n", colorSpace)
if imginfo.colspace == "DeviceCMYK" {
content += "\t/Decode [1 0 1 0 1 0 1 0]\n"
}
}
content += fmt.Sprintf("\t/BitsPerComponent %s\n", imginfo.bitsPerComponent)
if strings.TrimSpace(imginfo.filter) != "" {
content += fmt.Sprintf("\t/Filter /%s\n", imginfo.filter)
}
if _, err := io.WriteString(w, content); err != nil {
return err
}
return nil
}
func isColspaceIndexed(imginfo imgInfo) bool {
if imginfo.colspace == "Indexed" {
return true
}
return false
}
func haveSMask(imginfo imgInfo) bool {
if imginfo.smask != nil && len(imginfo.smask) > 0 {
return true
}
return false
}
func parseImgByPath(path string) (imgInfo, error) {
data, err := os.ReadFile(path)
if err != nil {
return imgInfo{}, err
}
return parseImg(bytes.NewReader(data))
}
func parseImg(raw *bytes.Reader) (imgInfo, error) {
// fmt.Printf("----------\n")
var info imgInfo
raw.Seek(0, 0)
imgConfig, formatname, err := image.DecodeConfig(raw)
if err != nil {
return info, err
}
info.formatName = formatname
if formatname == "jpeg" {
err = parseImgJpg(&info, imgConfig)
if err != nil {
return info, err
}
raw.Seek(0, 0)
info.data, err = io.ReadAll(raw)
if err != nil {
return info, err
}
} else if formatname == "png" {
err = parsePng(raw, &info, imgConfig)
if err != nil {
return info, err
}
}
// fmt.Printf("%#v\n", info)
return info, nil
}
func parseImgJpg(info *imgInfo, imgConfig image.Config) error {
switch imgConfig.ColorModel {
case color.YCbCrModel:
info.colspace = "DeviceRGB"
case color.GrayModel:
info.colspace = "DeviceGray"
case color.CMYKModel:
info.colspace = "DeviceCMYK"
default:
return errors.New("color model not support")
}
info.bitsPerComponent = "8"
info.filter = "DCTDecode"
info.h = imgConfig.Height
info.w = imgConfig.Width
return nil
}
var pngMagicNumber = []byte{0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a}
var pngIHDR = []byte{0x49, 0x48, 0x44, 0x52}
func parsePng(f *bytes.Reader, info *imgInfo, imgConfig image.Config) error {
// f := bytes.NewReader(raw)
f.Seek(0, 0)
b, err := readBytes(f, 8)
if err != nil {
return err
}
if !bytes.Equal(b, pngMagicNumber) {
return errors.New("Not a PNG file")
}
f.Seek(4, 1) // skip header chunk
b, err = readBytes(f, 4)
if err != nil {
return err
}
if !bytes.Equal(b, pngIHDR) {
return errors.New("Incorrect PNG file")
}
w, err := readInt(f)
if err != nil {
return err
}
h, err := readInt(f)
if err != nil {
return err
}
// fmt.Printf("w=%d h=%d\n", w, h)
bpc, err := readBytes(f, 1)
if err != nil {
return err
}
if bpc[0] > 8 {
return errors.New("16-bit depth not supported")
}
ct, err := readBytes(f, 1)
if err != nil {
return err
}
var colspace string
switch ct[0] {
case 0, 4:
colspace = "DeviceGray"
case 2, 6:
colspace = "DeviceRGB"
case 3:
colspace = "Indexed"
default:
return errors.New("Unknown color type")
}
compressionMethod, err := readBytes(f, 1)
if err != nil {
return err
}
if compressionMethod[0] != 0 {
return errors.New("Unknown compression method")
}
filterMethod, err := readBytes(f, 1)
if err != nil {
return err
}
if filterMethod[0] != 0 {
return errors.New("Unknown filter method")
}
interlacing, err := readBytes(f, 1)
if err != nil {
return err
}
if interlacing[0] != 0 {
return errors.New("Interlacing not supported")
}
_, err = f.Seek(4, 1) // skip
if err != nil {
return err
}
// decodeParms := "/Predictor 15 /Colors '.($colspace=='DeviceRGB' ? 3 : 1).' /BitsPerComponent '.$bpc.' /Columns '.$w;
var pal []byte
var trns []byte
var data []byte
for {
un, err := readUInt(f)
if err != nil {
return err
}
n := int(un)
typ, err := readBytes(f, 4)
// fmt.Printf(">>>>%+v-%s-%d\n", typ, string(typ), n)
if err != nil {
return err
}
if string(typ) == "PLTE" {
pal, err = readBytes(f, n)
if err != nil {
return err
}
_, err = f.Seek(int64(4), 1) // skip
if err != nil {
return err
}
} else if string(typ) == "tRNS" {
var t []byte
t, err = readBytes(f, n)
if err != nil {
return err
}
if ct[0] == 0 {
trns = []byte{(t[1])}
} else if ct[0] == 2 {
trns = []byte{t[1], t[3], t[5]}
} else {
pos := strings.Index(string(t), "\x00")
if pos >= 0 {
trns = []byte{byte(pos)}
}
}
_, err = f.Seek(int64(4), 1) // skip
if err != nil {
return err
}
} else if string(typ) == "IDAT" {
// fmt.Printf("n=%d\n\n", n)
var d []byte
d, err = readBytes(f, n)
if err != nil {
return err
}
data = append(data, d...)
_, err = f.Seek(int64(4), 1) // skip
if err != nil {
return err
}
} else if string(typ) == "IEND" {
break
} else {
_, err = f.Seek(int64(n+4), 1) // skip
if err != nil {
return err
}
}
if n <= 0 {
break
}
} // end for
// info.data = data //ok
info.trns = trns
info.pal = pal
// fmt.Printf("data= %x", md5.Sum(data))
if colspace == "Indexed" && strings.TrimSpace(string(pal)) == "" {
return errors.New("Missing palette")
}
info.w = w
info.h = h
info.colspace = colspace
info.bitsPerComponent = fmt.Sprintf("%d", int(bpc[0]))
info.filter = "FlateDecode"
colors := 1
if colspace == "DeviceRGB" {
colors = 3
}
info.decodeParms = fmt.Sprintf("/Predictor 15 /Colors %d /BitsPerComponent %s /Columns %d", colors, info.bitsPerComponent, w)
// fmt.Printf("%d = ct[0]\n", ct[0])
// fmt.Printf("%x\n", md5.Sum(data))
if ct[0] >= 4 {
zipReader, err := zlib.NewReader(bytes.NewReader(data))
if err != nil {
return err
}
defer zipReader.Close()
afterZipData, err := io.ReadAll(zipReader)
if err != nil {
return err
}
var color []byte
var alpha []byte
if ct[0] == 4 {
// Gray image
length := 2 * w
i := 0
for i < h {
pos := (1 + length) * i
color = append(color, afterZipData[pos])
alpha = append(alpha, afterZipData[pos])
line := afterZipData[pos+1 : pos+length+1]
j := 0
max := len(line)
for j < max {
color = append(color, line[j])
j++
alpha = append(alpha, line[j])
j++
}
i++
}
// fmt.Print("aaaaa")
} else {
// RGB image
length := 4 * w
i := 0
for i < h {
pos := (1 + length) * i
color = append(color, afterZipData[pos])
alpha = append(alpha, afterZipData[pos])
line := afterZipData[pos+1 : pos+length+1]
j := 0
max := len(line)
for j < max {
color = append(color, line[j:j+3]...)
alpha = append(alpha, line[j+3])
j = j + 4
}
i++
}
}
info.smask, err = compress(alpha)
if err != nil {
return err
}
info.data, err = compress(color)
if err != nil {
return err
}
} else {
info.data = data
}
return nil
}
func compress(data []byte) ([]byte, error) {
var results []byte
var buff bytes.Buffer
zwr, err := zlib.NewWriterLevel(&buff, zlib.BestSpeed)
if err != nil {
return results, err
}
_, err = zwr.Write(data)
if err != nil {
return nil, err
}
zwr.Close()
return buff.Bytes(), nil
}
func readUInt(f *bytes.Reader) (uint, error) {
buff, err := readBytes(f, 4)
// fmt.Printf("%#v\n\n", buff)
if err != nil {
return 0, err
}
n := binary.BigEndian.Uint32(buff)
return uint(n), nil
}
func readInt(f *bytes.Reader) (int, error) {
u, err := readUInt(f)
if err != nil {
return 0, err
}
v := int(u)
return v, nil
}
func readBytes(f *bytes.Reader, len int) ([]byte, error) {
b := make([]byte, len)
_, err := f.Read(b)
if err != nil {
return nil, err
}
return b, nil
}
func isDeviceRGB(formatname string, img *image.Image) bool {
if _, ok := (*img).(*image.YCbCr); ok {
return true
} else if _, ok := (*img).(*image.NRGBA); ok {
return true
}
return false
}
// ImgReactagleToWH Rectangle to W and H
func ImgReactagleToWH(imageRect image.Rectangle) (float64, float64) {
k := 1
w := -128 // init
h := -128 // init
if w < 0 {
w = -imageRect.Dx() * 72 / w / k
}
if h < 0 {
h = -imageRect.Dy() * 72 / h / k
}
if w == 0 {
w = h * imageRect.Dx() / imageRect.Dy()
}
if h == 0 {
h = w * imageRect.Dy() / imageRect.Dx()
}
return float64(w), float64(h)
}