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AI-on-the-edge-device/code/components/jomjol_flowcontroll/ClassFlowMakeImage.cpp
George Ruinelli 0bf8182728 .
2022-10-21 22:55:36 +02:00

239 lines
6.2 KiB
C++
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#include "ClassFlowMakeImage.h"
#include "Helper.h"
#include "ClassLogFile.h"
#include "CImageBasis.h"
#include "ClassControllCamera.h"
#include "esp_wifi.h"
#include "esp_log.h"
#include <time.h>
// #define DEBUG_DETAIL_ON
// #define WIFITURNOFF
static const char* TAG = "flow_make_image";
esp_err_t ClassFlowMakeImage::camera_capture(){
string nm = namerawimage;
Camera.CaptureToFile(nm);
time(&TimeImageTaken);
localtime(&TimeImageTaken);
return ESP_OK;
}
void ClassFlowMakeImage::takePictureWithFlash(int flashdauer)
{
// für den Fall, dass das Bild geflippt wird, muss es hier zurück gesetzt werden ////
rawImage->width = image_width;
rawImage->height = image_height;
/////////////////////////////////////////////////////////////////////////////////////
ESP_LOGD(TAG, "Flashdauer: %d", flashdauer);
Camera.CaptureToBasisImage(rawImage, flashdauer);
time(&TimeImageTaken);
localtime(&TimeImageTaken);
if (SaveAllFiles) rawImage->SaveToFile(namerawimage);
}
void ClassFlowMakeImage::SetInitialParameter(void)
{
waitbeforepicture = 5;
isImageSize = false;
ImageQuality = -1;
TimeImageTaken = 0;
ImageQuality = 5;
rawImage = NULL;
ImageSize = FRAMESIZE_VGA;
SaveAllFiles = false;
disabled = false;
FixedExposure = false;
namerawimage = "/sdcard/img_tmp/raw.jpg";
}
ClassFlowMakeImage::ClassFlowMakeImage(std::vector<ClassFlow*>* lfc) : ClassFlowImage(lfc, TAG)
{
SetInitialParameter();
}
bool ClassFlowMakeImage::ReadParameter(FILE* pfile, string& aktparamgraph)
{
std::vector<string> zerlegt;
aktparamgraph = trim(aktparamgraph);
int _brightness = -100;
int _contrast = -100;
int _saturation = -100;
if (aktparamgraph.size() == 0)
if (!this->GetNextParagraph(pfile, aktparamgraph))
return false;
if (aktparamgraph.compare("[MakeImage]") != 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] == "ImageQuality") && (zerlegt.size() > 1))
ImageQuality = std::stod(zerlegt[1]);
if ((zerlegt[0] == "ImageSize") && (zerlegt.size() > 1))
{
ImageSize = Camera.TextToFramesize(zerlegt[1].c_str());
isImageSize = true;
}
if ((toUpper(zerlegt[0]) == "SAVEALLFILES") && (zerlegt.size() > 1))
{
if (toUpper(zerlegt[1]) == "TRUE")
SaveAllFiles = true;
}
if ((toUpper(zerlegt[0]) == "WAITBEFORETAKINGPICTURE") && (zerlegt.size() > 1))
{
waitbeforepicture = stoi(zerlegt[1]);
}
if ((toUpper(zerlegt[0]) == "BRIGHTNESS") && (zerlegt.size() > 1))
{
_brightness = stoi(zerlegt[1]);
}
if ((toUpper(zerlegt[0]) == "CONTRAST") && (zerlegt.size() > 1))
{
_contrast = stoi(zerlegt[1]);
}
if ((toUpper(zerlegt[0]) == "SATURATION") && (zerlegt.size() > 1))
{
_saturation = stoi(zerlegt[1]);
}
if ((toUpper(zerlegt[0]) == "FIXEDEXPOSURE") && (zerlegt.size() > 1))
{
if (toUpper(zerlegt[1]) == "TRUE")
FixedExposure = true;
}
if ((toUpper(zerlegt[0]) == "LEDINTENSITY") && (zerlegt.size() > 1))
{
float ledintensity = stof(zerlegt[1]);
ledintensity = min((float) 100, ledintensity);
ledintensity = max((float) 0, ledintensity);
Camera.SetLEDIntensity(ledintensity);
}
}
Camera.SetBrightnessContrastSaturation(_brightness, _contrast, _saturation);
Camera.SetQualitySize(ImageQuality, ImageSize);
image_width = Camera.image_width;
image_height = Camera.image_height;
rawImage = new CImageBasis();
rawImage->CreateEmptyImage(image_width, image_height, 3);
waitbeforepicture_store = waitbeforepicture;
if (FixedExposure && (waitbeforepicture > 0))
{
// ESP_LOGD(TAG, "Fixed Exposure enabled!");
int flashdauer = (int) (waitbeforepicture * 1000);
Camera.EnableAutoExposure(flashdauer);
waitbeforepicture = 0.2;
// flashdauer = (int) (waitbeforepicture * 1000);
// takePictureWithFlash(flashdauer);
// rawImage->SaveToFile("/sdcard/init2.jpg");
}
return true;
}
string ClassFlowMakeImage::getHTMLSingleStep(string host)
{
string result;
result = "Raw Image: <br>\n<img src=\"" + host + "/img_tmp/raw.jpg\">\n";
return result;
}
bool ClassFlowMakeImage::doFlow(string zwtime)
{
string logPath = CreateLogFolder(zwtime);
int flashdauer = (int) (waitbeforepicture * 1000);
#ifdef DEBUG_DETAIL_ON
LogFile.WriteHeapInfo("ClassFlowMakeImage::doFlow - Before takePictureWithFlash");
#endif
#ifdef WIFITURNOFF
esp_wifi_stop(); // to save power usage and
#endif
takePictureWithFlash(flashdauer);
#ifdef WIFITURNOFF
esp_wifi_start();
#endif
#ifdef DEBUG_DETAIL_ON
LogFile.WriteHeapInfo("ClassFlowMakeImage::doFlow - After takePictureWithFlash");
#endif
LogImage(logPath, "raw", NULL, NULL, zwtime, rawImage);
RemoveOldLogs();
#ifdef DEBUG_DETAIL_ON
LogFile.WriteHeapInfo("ClassFlowMakeImage::doFlow - After RemoveOldLogs");
#endif
return true;
}
esp_err_t ClassFlowMakeImage::SendRawJPG(httpd_req_t *req)
{
int flashdauer = (int) (waitbeforepicture * 1000);
time(&TimeImageTaken);
localtime(&TimeImageTaken);
return Camera.CaptureToHTTP(req, flashdauer);
}
ImageData* ClassFlowMakeImage::SendRawImage()
{
CImageBasis *zw = new CImageBasis(rawImage);
ImageData *id;
int flashdauer = (int) (waitbeforepicture * 1000);
Camera.CaptureToBasisImage(zw, flashdauer);
time(&TimeImageTaken);
localtime(&TimeImageTaken);
id = zw->writeToMemoryAsJPG();
delete zw;
return id;
}
time_t ClassFlowMakeImage::getTimeImageTaken()
{
return TimeImageTaken;
}
ClassFlowMakeImage::~ClassFlowMakeImage(void)
{
delete rawImage;
}
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