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streamdict.go
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streamdict.go
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/*
Copyright 2018 The pdfcpu Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package types
import (
"bytes"
"fmt"
"io"
"github.com/pdfcpu/pdfcpu/pkg/filter"
"github.com/pdfcpu/pdfcpu/pkg/log"
"github.com/pkg/errors"
)
// PDFFilter represents a PDF stream filter object.
type PDFFilter struct {
Name string
DecodeParms Dict
}
// StreamDict represents a PDF stream dict object.
type StreamDict struct {
Dict
StreamOffset int64
StreamLength *int64
StreamLengthObjNr *int
FilterPipeline []PDFFilter
Raw []byte // Encoded
Content []byte // Decoded
//DCTImage image.Image
IsPageContent bool
CSComponents int
}
// NewStreamDict creates a new PDFStreamDict for given PDFDict, stream offset and length.
func NewStreamDict(d Dict, streamOffset int64, streamLength *int64, streamLengthObjNr *int, filterPipeline []PDFFilter) StreamDict {
return StreamDict{
d,
streamOffset,
streamLength,
streamLengthObjNr,
filterPipeline,
nil,
nil,
//nil,
false,
0,
}
}
// Clone returns a clone of sd.
func (sd StreamDict) Clone() Object {
sd1 := sd
sd1.Dict = sd.Dict.Clone().(Dict)
pl := make([]PDFFilter, len(sd.FilterPipeline))
for k, v := range sd.FilterPipeline {
f := PDFFilter{}
f.Name = v.Name
if v.DecodeParms != nil {
f.DecodeParms = v.DecodeParms.Clone().(Dict)
}
pl[k] = f
}
sd1.FilterPipeline = pl
return sd1
}
// HasSoleFilterNamed returns true if sd has a
// filterPipeline with 1 filter named filterName.
func (sd StreamDict) HasSoleFilterNamed(filterName string) bool {
fpl := sd.FilterPipeline
if fpl == nil || len(fpl) != 1 {
return false
}
return fpl[0].Name == filterName
}
func (sd StreamDict) Image() bool {
s := sd.Type()
if s == nil || *s != "XObject" {
return false
}
s = sd.Subtype()
if s == nil || *s != "Image" {
return false
}
return true
}
// ObjectStreamDict represents a object stream dictionary.
type ObjectStreamDict struct {
StreamDict
Prolog []byte
ObjCount int
FirstObjOffset int
ObjArray Array
}
// NewObjectStreamDict creates a new ObjectStreamDict object.
func NewObjectStreamDict() *ObjectStreamDict {
sd := StreamDict{Dict: NewDict()}
sd.Insert("Type", Name("ObjStm"))
sd.Insert("Filter", Name(filter.Flate))
sd.FilterPipeline = []PDFFilter{{Name: filter.Flate, DecodeParms: nil}}
return &ObjectStreamDict{StreamDict: sd}
}
func parmsForFilter(d Dict) map[string]int {
m := map[string]int{}
if d == nil {
return m
}
for k, v := range d {
i, ok := v.(Integer)
if ok {
m[k] = i.Value()
continue
}
// Encode boolean values: false -> 0, true -> 1
b, ok := v.(Boolean)
if ok {
m[k] = 0
if b.Value() {
m[k] = 1
}
continue
}
}
return m
}
// Encode applies sd's filter pipeline to sd.Content in order to produce sd.Raw.
func (sd *StreamDict) Encode() error {
// No filter specified, nothing to encode.
if sd.FilterPipeline == nil {
if log.TraceEnabled() {
log.Trace.Println("encodeStream: returning uncompressed stream.")
}
sd.Raw = sd.Content
streamLength := int64(len(sd.Raw))
sd.StreamLength = &streamLength
sd.Update("Length", Integer(streamLength))
return nil
}
var b, c io.Reader
b = bytes.NewReader(sd.Content)
// Apply each filter in the pipeline to result of preceding filter.
for i := len(sd.FilterPipeline) - 1; i >= 0; i-- {
f := sd.FilterPipeline[i]
if log.TraceEnabled() {
if f.DecodeParms != nil {
log.Trace.Printf("encodeStream: encoding filter:%s\ndecodeParms:%s\n", f.Name, f.DecodeParms)
} else {
log.Trace.Printf("encodeStream: encoding filter:%s\n", f.Name)
}
}
// Make parms map[string]int
parms := parmsForFilter(f.DecodeParms)
fi, err := filter.NewFilter(f.Name, parms)
if err != nil {
return err
}
c, err = fi.Encode(b)
if err != nil {
return err
}
b = c
}
if bb, ok := c.(*bytes.Buffer); ok {
sd.Raw = bb.Bytes()
} else {
var buf bytes.Buffer
if _, err := io.Copy(&buf, c); err != nil {
return err
}
sd.Raw = buf.Bytes()
}
streamLength := int64(len(sd.Raw))
sd.StreamLength = &streamLength
sd.Update("Length", Integer(streamLength))
return nil
}
func fixParms(f PDFFilter, parms map[string]int, sd *StreamDict) error {
if f.Name == filter.CCITTFax {
// x/image/ccitt needs the optional decode parameter "Rows"
// if not available we supply image "Height".
_, ok := parms["Rows"]
if !ok {
ip := sd.IntEntry("Height")
if ip == nil {
return errors.New("pdfcpu: ccitt: \"Height\" required")
}
parms["Rows"] = *ip
}
}
return nil
}
// Decode applies sd's filter pipeline to sd.Raw in order to produce sd.Content.
func (sd *StreamDict) Decode() error {
if sd.Content != nil {
// This stream has already been decoded.
return nil
}
fpl := sd.FilterPipeline
// No filter or sole filter DTC && !CMYK or JPX - nothing to decode.
if fpl == nil || len(fpl) == 1 && ((fpl[0].Name == filter.DCT && sd.CSComponents != 4) || fpl[0].Name == filter.JPX) {
sd.Content = sd.Raw
//fmt.Printf("decodedStream returning %d(#%02x)bytes: \n%s\n", len(sd.Content), len(sd.Content), hex.Dump(sd.Content))
return nil
}
//fmt.Printf("decodedStream before:\n%s\n", hex.Dump(sd.Raw))
var b, c io.Reader
b = bytes.NewReader(sd.Raw)
// Apply each filter in the pipeline to result of preceding filter.
for _, f := range sd.FilterPipeline {
if f.Name == filter.JPX {
break
}
if f.Name == filter.DCT {
if sd.CSComponents != 4 {
break
}
// if sd.CSComponents == 4 {
// // Special case where we have to do real JPG decoding.
// // Another option is using a dctDecode filter using gob - performance hit?
// im, err := jpeg.Decode(b)
// if err != nil {
// return err
// }
// sd.DCTImage = im // hacky
// return nil
// }
}
parms := parmsForFilter(f.DecodeParms)
if err := fixParms(f, parms, sd); err != nil {
return err
}
fi, err := filter.NewFilter(f.Name, parms)
if err != nil {
return err
}
c, err = fi.Decode(b)
if err != nil {
return err
}
//fmt.Printf("decodedStream after:%s\n%s\n", f.Name, hex.Dump(c.Bytes()))
b = c
}
if bb, ok := c.(*bytes.Buffer); ok {
sd.Content = bb.Bytes()
} else {
var buf bytes.Buffer
if _, err := io.Copy(&buf, c); err != nil {
return err
}
sd.Content = buf.Bytes()
}
return nil
}
// IndexedObject returns the object at given index from a ObjectStreamDict.
func (osd *ObjectStreamDict) IndexedObject(index int) (Object, error) {
if osd.ObjArray == nil {
return nil, errors.Errorf("IndexedObject(%d): object not available", index)
}
return osd.ObjArray[index], nil
}
// AddObject adds another object to this object stream.
// Relies on decoded content!
func (osd *ObjectStreamDict) AddObject(objNumber int, pdfString string) error {
offset := len(osd.Content)
s := ""
if osd.ObjCount > 0 {
s = " "
}
s = s + fmt.Sprintf("%d %d", objNumber, offset)
osd.Prolog = append(osd.Prolog, []byte(s)...)
//pdfString := entry.Object.PDFString()
osd.Content = append(osd.Content, []byte(pdfString)...)
osd.ObjCount++
if log.TraceEnabled() {
log.Trace.Printf("AddObject end : ObjCount:%d prolog = <%s> Content = <%s>\n", osd.ObjCount, osd.Prolog, osd.Content)
}
return nil
}
// Finalize prepares the final content of the objectstream.
func (osd *ObjectStreamDict) Finalize() {
osd.Content = append(osd.Prolog, osd.Content...)
osd.FirstObjOffset = len(osd.Prolog)
if log.TraceEnabled() {
log.Trace.Printf("Finalize : firstObjOffset:%d Content = <%s>\n", osd.FirstObjOffset, osd.Content)
}
}
// XRefStreamDict represents a cross reference stream dictionary.
type XRefStreamDict struct {
StreamDict
Size int
Objects []int
W [3]int
PreviousOffset *int64
}