xlxs
This commit is contained in:
nuknal
289
extract/seperate.go
Normal file
289
extract/seperate.go
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@@ -0,0 +1,289 @@
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package extract
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import (
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"encoding/binary"
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"errors"
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"fmt"
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"math"
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"os"
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"strings"
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"time"
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"github.com/sirupsen/logrus"
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log "github.com/sirupsen/logrus"
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)
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// 从传输帧文件中分离辅助数据,分别存储到辅助数据文件 _AUX.dat 和图像数据文件 _IMG_{波谱}.dat 中
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func (e *Extractor) SeprateAuxAndImgData(dataFile string, segmentIndex int) error {
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// 打开传输帧文件 - 一次读入内存
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data, err := os.ReadFile(dataFile)
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if err != nil {
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log.Println("read data from", dataFile, "error:", err.Error())
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return err
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}
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log.Info("seprate aux and img data from", dataFile)
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dataLen := len(data)
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log.Info("length of original data: ", dataLen)
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var firstFrmHead *AuxFrameHead
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data, firstFrmHead = e.trimImgRawData(data)
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dataLen = len(data)
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log.Info("after trim,length of data: ", dataLen)
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e.quanlityAnalysis(data)
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outputDir := e.params.OutputPath
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name := strings.Join([]string{
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e.params.Satellite,
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"PMS",
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time.Unix(int64(firstFrmHead.TimeSec)+int64(ReferenceTime2000),
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int64(firstFrmHead.TimeSecFrac)*1000).
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Format("20060102_150405"),
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e.params.DataId,
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fmt.Sprintf("%03d", firstFrmHead.FileNo),
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}, "_")
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lw := newL0Writer(outputDir, name)
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defer lw.Close()
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var panEnviHdr, mssEnviHdr EnviHdr
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var afh AuxFrameHead
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msdata := make([][]byte, 4)
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var header []byte
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var ebAux []byte
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var platAux []byte
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for i := 0; i < dataLen; {
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if i+4 > dataLen {
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logrus.Println("end of data, dataLen:", dataLen, "i:", i)
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break
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}
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// 包头
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if data[i] == 0xD1 && data[i+1] == 0x5B && data[i+2] == 0xD1 && data[i+3] == 0x5B {
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log.Debug("find package head: 0xD15BD15B")
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} else {
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i++
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continue
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}
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// 解析帧
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if i+24 > dataLen {
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log.Info("length of frame head is not engough for frame head")
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break
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}
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afh.Decode(data[i : i+24])
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if !afh.IsValidFrmHead {
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log.Info("invalid frame head of original raw data")
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i += 1
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continue
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}
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// 目前只支持线阵模式
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if !afh.IsLinerMatrix {
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log.Error("not liner matrix mode, only support liner matrix mode")
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break
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}
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// 读取一行数据 data[i : i+afh.RowLength]
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if i+afh.RowLength > dataLen {
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log.Infof("length of image row data %v is not enough: %v", dataLen-i, afh.RowLength)
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break
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}
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auxTime := binary.BigEndian.Uint32(data[i+32 : i+36])
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if math.Abs(float64(auxTime)-float64(afh.TimeSec)) < 30 {
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header = append(header, data[i:i+24]...)
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}
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// 存储辅助数据到临时文件
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dataIndex := i + 24
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// lw.ws[EB_AUX].w.Write(data[dataIndex : dataIndex+8]) // 8字节焦面电箱辅助数据
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ebAux = append(ebAux, data[dataIndex:dataIndex+8]...)
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dataIndex += 8
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// lw.ws[PLAT_AUX].w.Write(data[dataIndex : dataIndex+32]) // 32字节中心机辅助数据
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platAux = append(platAux, data[dataIndex:dataIndex+32]...)
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dataIndex += 32
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// 存储图像数据到临时文件 - 以 ENVI BSQ 格式存储,同时提供 HDR 描述文件
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if afh.B0 {
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// wpan.Write(data[dataIndex : dataIndex+19040])
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write16bPixelLittleEndian(lw.ws[PAN_RAW].w, data[dataIndex:dataIndex+19040])
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dataIndex += 19040
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panEnviHdr.Lines += 1
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}
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if afh.B1 {
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// write16bPixelLittleEndian(wmss, data[dataIndex:dataIndex+1192])
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msdata[0] = append(msdata[0], data[dataIndex:dataIndex+1192]...)
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dataIndex += 1192
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mssEnviHdr.Lines += 1
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}
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if afh.B2 {
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// write16bPixelLittleEndian(wmss, data[dataIndex:dataIndex+1192])
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msdata[1] = append(msdata[1], data[dataIndex:dataIndex+1192]...)
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dataIndex += 1192
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}
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if afh.B3 {
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// write16bPixelLittleEndian(wmss, data[dataIndex:dataIndex+1192])
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msdata[2] = append(msdata[2], data[dataIndex:dataIndex+1192]...)
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dataIndex += 1192
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}
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if afh.B4 {
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// write16bPixelLittleEndian(wmss, data[dataIndex:dataIndex+1192])
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msdata[3] = append(msdata[3], data[dataIndex:dataIndex+1192]...)
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dataIndex += 1192
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}
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i = dataIndex // 完成一行数据解析
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}
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// var bands = 0
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// for i := 0; i < 4; i++ {
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// if len(msdata[i]) > 0 {
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// log.Println("write mss data of band B", i+1)
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// _, err := write16bPixelLittleEndian(lw.ws[MSS_RAW].w, msdata[i])
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// if err != nil {
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// log.Error("write mss data error:", err.Error())
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// }
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// bands += 1
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// }
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// }
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if len(msdata[0]) != len(msdata[1]) || len(msdata[2]) != len(msdata[3]) {
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log.Error("mss data of bands B1-B4 are not equal")
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return errors.New("mss data of bands B1-B4 are not equal")
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}
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mssRowLen := 1192 * 4
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for i := 0; i < len(msdata[0]); i += mssRowLen {
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var err error
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_, err = write16bPixelLittleEndian(lw.ws[MSS_RAW].w, msdata[0][i:i+mssRowLen])
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if err != nil {
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log.Error("write mss 1 data error:", err.Error())
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}
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_, err = write16bPixelLittleEndian(lw.ws[MSS_RAW].w, msdata[1][i:i+mssRowLen])
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if err != nil {
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log.Error("write mss 2 data error:", err.Error())
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}
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_, err = write16bPixelLittleEndian(lw.ws[MSS_RAW].w, msdata[2][i:i+mssRowLen])
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if err != nil {
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log.Error("write mss 3 data error:", err.Error())
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}
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_, err = write16bPixelLittleEndian(lw.ws[MSS_RAW].w, msdata[3][i:i+mssRowLen])
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if err != nil {
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log.Error("write mss 4 data error:", err.Error())
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}
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}
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panEnviHdr.Samples = 9520
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panEnviHdr.Bands = 1
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lw.ws[PAN_HDR].w.Write([]byte(panEnviHdr.String()))
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mssEnviHdr.Lines = mssEnviHdr.Lines / 4 // 多光谱波段分别在 4 行中传输
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mssEnviHdr.Samples = 2384 * 4
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mssEnviHdr.Bands = 1
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lw.ws[MSS_HDR].w.Write([]byte(mssEnviHdr.String()))
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// 帧头+辅助数据
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if len(header)/24 < len(ebAux)/128 || len(ebAux)/128 != len(platAux)/512 {
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fmt.Println("aux data length:", len(header)/24, len(ebAux)/128, len(platAux)/512)
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return errors.New("aux data length is not equal")
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}
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auxRows := len(header) / 24
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for i := 0; i < auxRows; i++ {
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lw.ws[AUX].w.Write(header[i*24 : (i+1)*24])
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lw.ws[AUX].w.Write(ebAux[i*128 : (i+1)*128])
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lw.ws[AUX].w.Write(platAux[i*512 : (i+1)*512])
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}
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return nil
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}
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func (e *Extractor) quanlityAnalysis(data []byte) {
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// 数据质量分析
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fimg, _ := os.Create("demo/temp/" + e.params.DataId + "/aux.txt")
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defer fimg.Close()
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fimg.WriteString("字节数 帧头流水号 文件号 帧头时间 中心辅助数据前4字节(行33-36)\n")
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var startAuxLine bool
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var preSN uint32
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for i := 0; i < len(data); {
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afh := &AuxFrameHead{}
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afh.Decode(data[i : i+24])
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if !afh.IsValidFrmHead {
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log.Errorf("invalid frame head of original raw data i: %v, len: %v", i, len(data))
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return
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}
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t := time.Unix(int64(afh.TimeSec+uint32(ReferenceTime2000)), int64(afh.TimeSecFrac)*1000)
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utcTime := binary.BigEndian.Uint32(data[i+32 : i+36])
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tAux := time.Unix(int64(utcTime+uint32(ReferenceTime2000)), 0)
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startAuxLine = math.Abs(float64(utcTime)-float64(afh.TimeSec)) < 30
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if startAuxLine {
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fimg.WriteString(fmt.Sprintf("%d %d %d %s %s\n",
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i,
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afh.SerialNo,
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afh.FileNo,
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t.String(),
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tAux.String(),
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))
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if afh.SerialNo-preSN != 16 && preSN != 0 {
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log.Println("serial number not continuous", afh.SerialNo, preSN)
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}
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preSN = afh.SerialNo
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}
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i += afh.RowLength
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}
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}
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// 裁剪图像数据,只保留有效数据
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func (e *Extractor) trimImgRawData(data []byte) ([]byte, *AuxFrameHead) {
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var start, end int
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afh := &AuxFrameHead{}
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// 将中心辅助数据时间合理的帧作为第一帧
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var startAuxLine bool
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for i := 0; i < len(data); {
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// 解析帧
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if i+24 > len(data) {
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log.Info("length of original image frame head is not engough: ", len(data)-i)
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break
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}
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if data[i] == 0xD1 && data[i+1] == 0x5B && data[i+2] == 0xD1 && data[i+3] == 0x5B {
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log.Debug("find package head: 0xD15BD15B")
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} else {
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i++
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continue
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}
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afh.Decode(data[i : i+24])
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if !afh.IsValidFrmHead {
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log.Debugf("invalid frame head of original raw data %v", i)
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i += 1
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continue
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}
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utcTime := binary.BigEndian.Uint32(data[i+32 : i+36]) // 相对于2000年的秒数
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startAuxLine = math.Abs(float64(utcTime)-float64(afh.TimeSec)) < 30 // 时间差小于30秒认为是有效数据
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if !startAuxLine {
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i += afh.RowLength
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} else {
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start = i
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nLen := (len(data) - i - 1)
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nLen = nLen - nLen%(afh.RowLength*16)
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end = i + nLen
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break
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}
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}
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return data[start:end], afh
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}
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