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AI-on-the-edge-device/code/components/jomjol_flowcontroll/ClassFlowDigit.cpp
jomjol 1a0feb4f19 compatibitly mit esp-idf pure
2020-11-20 19:34:55 +01:00

250 lines
6.2 KiB
C++
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#include "ClassFlowDigit.h"
//#include "CFindTemplate.h"
//#include "CTfLiteClass.h"
// #define OHNETFLITE
#ifndef OHNETFLITE
#include "CTfLiteClass.h"
#endif
// #include "bitmap_image.hpp"
#include "ClassLogFile.h"
static const char* TAG = "flow_digital";
ClassFlowDigit::ClassFlowDigit() : ClassFlowImage(TAG)
{
string cnnmodelfile = "";
modelxsize = 1;
modelysize = 1;
ListFlowControll = NULL;
}
ClassFlowDigit::ClassFlowDigit(std::vector<ClassFlow*>* lfc) : ClassFlowImage(lfc, TAG)
{
string cnnmodelfile = "";
modelxsize = 1;
modelysize = 1;
}
string ClassFlowDigit::getReadout()
{
string rst = "";
for (int i = 0; i < ROI.size(); ++i)
{
if (ROI[i]->resultklasse == 10)
rst = rst + "N";
else
rst = rst + std::to_string(ROI[i]->resultklasse);
}
return rst;
}
bool ClassFlowDigit::ReadParameter(FILE* pfile, string& aktparamgraph)
{
std::vector<string> zerlegt;
aktparamgraph = trim(aktparamgraph);
if (aktparamgraph.size() == 0)
if (!this->GetNextParagraph(pfile, aktparamgraph))
return false;
if (aktparamgraph.compare("[Digits]") != 0) // Paragraph passt nich zu MakeImage
return false;
while (this->getNextLine(pfile, &aktparamgraph) && !this->isNewParagraph(aktparamgraph))
{
zerlegt = this->ZerlegeZeile(aktparamgraph);
if ((zerlegt[0] == "LogImageLocation") && (zerlegt.size() > 1))
{
LogImageLocation = "/sdcard" + zerlegt[1];
isLogImage = true;
}
if ((zerlegt[0] == "Model") && (zerlegt.size() > 1))
{
cnnmodelfile = zerlegt[1];
}
if ((zerlegt[0] == "ModelInputSize") && (zerlegt.size() > 2))
{
modelxsize = std::stoi(zerlegt[1]);
modelysize = std::stoi(zerlegt[2]);
}
if (zerlegt.size() >= 5)
{
roi* neuroi = new roi;
neuroi->name = zerlegt[0];
neuroi->posx = std::stoi(zerlegt[1]);
neuroi->posy = std::stoi(zerlegt[2]);
neuroi->deltax = std::stoi(zerlegt[3]);
neuroi->deltay = std::stoi(zerlegt[4]);
neuroi->resultklasse = -1;
ROI.push_back(neuroi);
}
}
return true;
}
string ClassFlowDigit::getHTMLSingleStep(string host)
{
string result, zw;
std::vector<HTMLInfo*> htmlinfo;
result = "<p>Found ROIs: </p> <p><img src=\"" + host + "/img_tmp/alg_roi.jpg\"></p>\n";
result = result + "Digital Counter: <p> ";
htmlinfo = GetHTMLInfo();
for (int i = 0; i < htmlinfo.size(); ++i)
{
if (htmlinfo[i]->val == 10)
zw = "NaN";
else
{
zw = to_string((int) htmlinfo[i]->val);
}
result = result + "<img src=\"" + host + "/img_tmp/" + htmlinfo[i]->filename + "\"> " + zw;
delete htmlinfo[i];
}
htmlinfo.clear();
return result;
}
bool ClassFlowDigit::doFlow(string time)
{
if (!doAlignAndCut(time)){
return false;
};
doNeuralNetwork(time);
RemoveOldLogs();
return true;
}
bool ClassFlowDigit::doAlignAndCut(string time)
{
string input = "/sdcard/img_tmp/alg.jpg";
string input_roi = "/sdcard/img_tmp/alg_roi.jpg";
string ioresize = "/sdcard/img_tmp/resize.bmp";
string output;
string nm;
input = FormatFileName(input);
input_roi = FormatFileName(input_roi);
CResizeImage *rs;
CImageBasis *img_roi = NULL;
CAlignAndCutImage *caic = new CAlignAndCutImage(input);
if (!caic->ImageOkay()){
LogFile.WriteToFile("ClassFlowDigit::doAlignAndCut not okay!");
delete caic;
return false;
}
if (input_roi.length() > 0){
img_roi = new CImageBasis(input_roi);
if (!img_roi->ImageOkay()){
LogFile.WriteToFile("ClassFlowDigit::doAlignAndCut ImageRoi not okay!");
delete caic;
delete img_roi;
return false;
}
}
for (int i = 0; i < ROI.size(); ++i)
{
printf("DigitalDigit %d - Align&Cut\n", i);
output = "/sdcard/img_tmp/" + ROI[i]->name + ".jpg";
output = FormatFileName(output);
caic->CutAndSave(output, ROI[i]->posx, ROI[i]->posy, ROI[i]->deltax, ROI[i]->deltay);
rs = new CResizeImage(output);
rs->Resize(modelxsize, modelysize);
ioresize = "/sdcard/img_tmp/rd" + std::to_string(i) + ".bmp";
ioresize = FormatFileName(ioresize);
rs->SaveToFile(ioresize);
delete rs;
if (img_roi)
{
img_roi->drawRect(ROI[i]->posx, ROI[i]->posy, ROI[i]->deltax, ROI[i]->deltay, 0, 0, 255, 2);
}
}
delete caic;
if (img_roi)
{
img_roi->SaveToFile(input_roi);
delete img_roi;
}
return true;
}
bool ClassFlowDigit::doNeuralNetwork(string time)
{
string logPath = CreateLogFolder(time);
string input = "/sdcard/img_tmp/alg.jpg";
string ioresize = "/sdcard/img_tmp/resize.bmp";
string output;
string nm;
input = FormatFileName(input);
#ifndef OHNETFLITE
CTfLiteClass *tflite = new CTfLiteClass;
string zwcnn = "/sdcard" + cnnmodelfile;
zwcnn = FormatFileName(zwcnn);
printf(zwcnn.c_str());printf("\n");
tflite->LoadModel(zwcnn);
tflite->MakeAllocate();
#endif
for (int i = 0; i < ROI.size(); ++i)
{
printf("DigitalDigit %d - TfLite\n", i);
ioresize = "/sdcard/img_tmp/rd" + std::to_string(i) + ".bmp";
ioresize = FormatFileName(ioresize);
// printf("output: %s, ioresize: %s\n", output.c_str(), ioresize.c_str());
ROI[i]->resultklasse = 0;
#ifndef OHNETFLITE
ROI[i]->resultklasse = tflite->GetClassFromImage(ioresize);
#endif
printf("Result Digit%i: %d\n", i, ROI[i]->resultklasse);
LogImage(logPath, ROI[i]->name, NULL, &ROI[i]->resultklasse, time);
}
#ifndef OHNETFLITE
delete tflite;
#endif
return true;
}
std::vector<HTMLInfo*> ClassFlowDigit::GetHTMLInfo()
{
std::vector<HTMLInfo*> result;
for (int i = 0; i < ROI.size(); ++i)
{
HTMLInfo *zw = new HTMLInfo;
zw->filename = ROI[i]->name + ".jpg";
zw->val = ROI[i]->resultklasse;
result.push_back(zw);
}
return result;
}
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