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path: root/Software/Visual_Studio/MachineStudio/Modules/Tango.MachineStudio.Technician/TechItems/TextItem.cs
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Windows.Media;
using Tango.SharedUI.Helpers;

namespace Tango.MachineStudio.Technician.TechItems
{
    [TechItem(25)]
    public class TextItem : TechItem
    {
        private String _text;
        public String Text
        {
            get { return _text; }
            set { _text = value; RaisePropertyChangedAuto(); }
        }

        /// <summary>
        /// Initializes a new instance of the <see cref="MeterItem"/> class.
        /// </summary>
        public TextItem() : base()
        {
            Name = "Static Text";
            Description = "Static Text";
            Text = "Static Text";
            Image = ResourceHelper.GetImageFromResources("Images/text.png");
            Color = Colors.DodgerBlue;
        }

        /// <summary>
        /// Initializes a new instance of the <see cref="TextItem"/> class.
        /// </summary>
        /// <param name="obj">The object.</param>
        public TextItem(Object obj) : this()
        {

        }

        public override TechItem Clone()
        {
            TextItem cloned = base.Clone() as TextItem;
            cloned.Text = Text;
            return cloned;
        }
    }
}
/*
 * process.c
 *
 *  Created on: 4 ���� 2018
 *      Author: shlomo
 */
//********************************************************************************************************************
#include <DataDef.h>
#include "include.h"
#include "process.h"

#include "heaters/heaters_ex.h"
#include "PMR/Printing/ProcessParameters.pb-c.h"
#include "PMR/Printing/UploadProcessParametersRequest.pb-c.h"
#include "PMR/Printing/UploadProcessParametersResponse.pb-c.h"
#include "PMR/Hardware/HardwarePidControlType.pb-c.h"
#include "PMR/common/MessageContainer.pb-c.h"

#include "drivers/Valves/Valve.h"
#include "drivers/I2C_Communication/ADC_MUX/ADC_MUX.h"

#include "modules/ids/ids_ex.h"
#include "Common/SWUpdate/FileSystem.h"
#include "StateMachines/Initialization/PowerIdle.h"
#include "StateMachines/Initialization/InitSequence.h"

#include "drivers/Flash_ram/FlashProgram.h"
#include <Drivers/I2C_Communication/I2C_Task.h>
#include "drivers/Flash_ram/MCU_E2Prom.h"

#include <Drivers/I2C_Communication/WHS_Card/D_Max5805_ADC_Blower/WHS_Blower.h>

double dyeingspeed = 0;
double dryerbufferlength = 0;
double mininkuptake = 0;
double feedertension = 0;
double pullertension = 0;
double windertension = 0;
double headairflow = 5.0;
double dryerairflow = 5.0;
double pressurebuildup = 0;
double dryerzone1temp = 0;
int32_t tableindex = 0;
double headBlowersFlow[2] = {1.5,1.5};

double dryerbufferMeters = 0;
double dryerbufferCentimeters = 0;

#define MAX_ALLOWED_TEMPERATURE 280
int MaxAllowedTemperature = MAX_ALLOWED_TEMPERATURE;
char ProcessParamsConfigPath[50] = "0://SysInfo//ProcessP.cfg";

bool MachineReadyForHeating = false;
void SetMachineReadyForHeating(bool value)
{
    MachineReadyForHeating = value;
}
ProcessParameters ProcessParametersKeep;
void HeatersStopControlOnHeatersOff(ProcessParameters* ProcessParams)
{
    uint32_t temp_sum = 0;
    temp_sum += ProcessParams->dryerzone1temp;
    temp_sum += ProcessParams->dryerzone2temp;
    temp_sum += ProcessParams->dryerzone3temp;
    temp_sum += ProcessParams->mixertemp;
    temp_sum += ProcessParams->headzone1temp;
    temp_sum += ProcessParams->headzone2temp;
    temp_sum += ProcessParams->headzone3temp;
    temp_sum += ProcessParams->headzone4temp;
    temp_sum += ProcessParams->headzone5temp;
    temp_sum += ProcessParams->headzone6temp;
    temp_sum += ProcessParams->headzone7temp;
    temp_sum += ProcessParams->headzone8temp;
    temp_sum += ProcessParams->headzone9temp;
    temp_sum += ProcessParams->headzone10temp;
    temp_sum += ProcessParams->headzone11temp;
    temp_sum += ProcessParams->headzone12temp;

    if (temp_sum == 0)// heating off
    {
        HeatersControlStop();
        REPORT_MSG(temp_sum,"Heating control off - temperatures off");
    }
    else
    {
        HeatersControlStart();
    }
}
char ProcessErrorMsg[50];
uint32_t HandleProcessParameters(ProcessParameters* ProcessParams,bool saveData)
{
    uint32_t status = 0,Bytes = 0;
    if (ProcessParams==NULL)
        {
            status = ERROR_CODE__INVALID_PARAMETER;
            ReportWithPackageFilter(InitFilter,"HandleProcessParameters NULL",__FILE__,(int)__LINE__,(int)0,RpWarning,(int)0,0);
            usnprintf(ProcessErrorMsg, 50, "ProcessParameters NULL");
            return status;
        }
    if (ProcessParams->dryerzone1temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->dryerzone2temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->dryerzone3temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->mixertemp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->headzone1temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->headzone2temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->headzone3temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->headzone4temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->headzone5temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (ProcessParams->headzone6temp > MaxAllowedTemperature) status = ERROR_CODE__INVALID_PARAMETER;
    if (status != 0)
    {
        status = ERROR_CODE__INVALID_PARAMETER;
        ReportWithPackageFilter(InitFilter,"HandleProcessParameters Temperature too high",__FILE__,(int)__LINE__,(int)status,RpWarning,(int)0,0);
        usnprintf(ProcessErrorMsg, 50, "ProcessParameters Temperature too high");
        return status;
    }
    if (ProcessParams)
    {
        memcpy (&ProcessParametersKeep,ProcessParams,sizeof(ProcessParameters));
    }
    if (saveData == true)
    {
        if ((ProcessParams->dryerzone1temp > 0.1)||(ProcessParams->headzone2temp > 0.1)||(ProcessParams->headzone3temp > 0.1)||(ProcessParams->headzone1temp > 0.1))//NOT turning off heaters
        {
            Bytes = sizeof(ProcessParameters);
            FileWrite(ProcessParams,Bytes,ProcessParamsConfigPath,BIOS_WAIT_FOREVER);
            MCU_E2PromProgramChunk(PROCESS_PARAMATERS_IN_EEPROM,4,&Bytes);
            MCU_E2PromProgramChunk(PROCESS_PARAMATERS_IN_EEPROM+4, Bytes, ProcessParams);
            /*EraseFlashSection(PROCESS_PARAMETERS_MAP_IN_FLASH);
            ReadAppAndProgram(PROCESS_PARAMETERS_MAP_IN_FLASH, 4,&Bytes);
            ReadAppAndProgram(PROCESS_PARAMETERS_MAP_IN_FLASH+4, Bytes, ProcessParams);*/
            REPORT_MSG(Bytes,"Bytes write to flash");
        }
        else
        {
            if (ProcessParams->has_headairflow == false)
                ProcessParams->headairflow = headairflow;
            if (ProcessParams->has_lblowerflow == false)
                ProcessParams->lblowerflow = headBlowersFlow[HEAD_FAN_LEFT];
            if (ProcessParams->has_rblowerflow == false)
                ProcessParams->rblowerflow = headBlowersFlow[HEAD_FAN_RIGHT];
            if (ProcessParams->has_feedertension == false)
                ProcessParams->feedertension = feedertension;
            if (ProcessParams->has_windertension == false)
                ProcessParams->windertension = windertension;
            if (ProcessParams->has_pullertension == false)
                ProcessParams->pullertension = pullertension;
            ReportWithPackageFilter(InitFilter,"HandleProcessParameters temp off blower on",__FILE__,(int)__LINE__,(int)ProcessParams->headairflow,RpWarning,(int)ProcessParametersKeep.headairflow,0);
        }
    }
    HeatersStopControlOnHeatersOff(ProcessParams);
    dyeingspeed = ProcessParams->dyeingspeed;
    dryerbufferlength = ProcessParams->dryerbufferlength;
    dryerbufferMeters = dryerbufferlength*0.76+0.9;
    dryerbufferCentimeters = dryerbufferlength*76+90;



    mininkuptake = ProcessParams->mininkuptake;
    feedertension = ProcessParams->feedertension;
    pullertension = ProcessParams->pullertension;
    windertension = ProcessParams->windertension;
    headairflow = ProcessParams->headairflow;
    dryerairflow = ProcessParams->dryerairflow;
    pressurebuildup = ProcessParams->pressurebuildup;
    dryerzone1temp = ProcessParams->dryerzone1temp;

    if (MachineReadyForHeating == false)
    {
        ReportWithPackageFilter(InitFilter,"HandleProcessParameters Init not ready",__FILE__,(int)__LINE__,(int)status,RpWarning,(int)GetMachineState(),0);
        status = ERROR_CODE__GENERAL_ERROR;
        usnprintf(ProcessErrorMsg, 50, "ProcessParameters Init not ready");
        return status;
    }

    //Report("drier buffer length",__FILE__,(int)dryerbufferlength,(int)dryerbufferMeters*100,RpWarning,(int)dryerbufferCentimeters,0);
    ReportWithPackageFilter(InitFilter,"HandleProcessParameters Head type",__FILE__,(int)headairflow,(int)Head_Type,RpWarning,(int)dryerbufferCentimeters,0);

    WHS_Set_SetPoint_Q_value(headairflow);

    if (ProcessParams->mixertemp>1)
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__MixerHeater, true,ProcessParams->mixertemp);
    else
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__MixerHeater, false,ProcessParams->mixertemp);
    if (ProcessParams->headzone1temp>1)
    {
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ1, true,ProcessParams->headzone1temp);
    }
    else
    {
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ1, false,ProcessParams->headzone1temp);
    }
    if (ProcessParams->headzone2temp>1)
    {
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ2, true,ProcessParams->headzone2temp);
    }
    else
    {
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ2, false,ProcessParams->headzone2temp);
    }
    if (ProcessParams->headzone3temp>1)
    {
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ3, true,ProcessParams->headzone3temp);
    }
    else
    {
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ3, false,ProcessParams->headzone3temp);
    }
    if(Head_Type != HEAD_TYPE_ARC)
    {
        Trigger_HeaterWriting();
        if (ProcessParams->headzone4temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ4, true,ProcessParams->headzone4temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ4, false,ProcessParams->headzone4temp);
        }
        if (ProcessParams->headzone5temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ5, true,ProcessParams->headzone5temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ5, false,ProcessParams->headzone5temp);
        }
        if (ProcessParams->headzone6temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ6, true,ProcessParams->headzone6temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ6, false,ProcessParams->headzone6temp);
        }
    }
    if (ProcessParams->dryerzone1temp>1)
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__DryerAirTemperature, true,ProcessParams->dryerzone1temp);
    else
        status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__DryerAirTemperature, false,ProcessParams->dryerzone1temp);
    if(Head_Type == HEAD_TYPE_FLAT)
    {
        if (ProcessParams->headzone7temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ7, true,ProcessParams->headzone7temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ7, false,ProcessParams->headzone7temp);
        }
        Trigger_HeaterWriting();
        if (ProcessParams->headzone8temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ8, true,ProcessParams->headzone8temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ8, false,ProcessParams->headzone8temp);
        }
        if (ProcessParams->headzone9temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ9, true,ProcessParams->headzone9temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ9, false,ProcessParams->headzone9temp);
        }
        if (ProcessParams->headzone10temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ10, true,ProcessParams->headzone10temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ10, false,ProcessParams->headzone10temp);
        }
        Trigger_HeaterWriting();
        if (ProcessParams->headzone11temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ11, true,ProcessParams->headzone11temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ11, false,ProcessParams->headzone11temp);
        }
        if (ProcessParams->headzone12temp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ12, true,ProcessParams->headzone12temp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadHeaterZ12, false,ProcessParams->headzone12temp);
        }
    }
    if(Head_Type == HEAD_TYPE_ARC)
    {
        Trigger_HeaterWriting();
        if (ProcessParams->rblowertemp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadCoverHeater1, true,ProcessParams->rblowertemp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadCoverHeater1, false,ProcessParams->rblowertemp);
        }
        Trigger_HeaterWriting();
        if (ProcessParams->lblowertemp>1)
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadCoverHeater2, true,ProcessParams->lblowertemp);
        }
        else
        {
            status |= HeaterCommandRequestMessage(HARDWARE_PID_CONTROL_TYPE__HeadCoverHeater2, false,ProcessParams->lblowertemp);
        }

        status |= HeadBlowerCommandRequestMessage(HEAD_FAN_RIGHT, ProcessParams->rblowerflow);
        status |= HeadBlowerCommandRequestMessage(HEAD_FAN_LEFT, ProcessParams->lblowerflow);
        Trigger_HeaterWriting();
    }

    if (status)
    {
        ReportWithPackageFilter(InitFilter,"HandleProcessParameters start heaters error",__FILE__,(int)__LINE__,(int)status,RpWarning,(int)GetMachineState(),0);
        status = ERROR_CODE__JOB_TEMPERATURE_ALARM;
        usnprintf(ProcessErrorMsg, 50, "ProcessParameters start heaters error");
    }
   return status;//status;
}

void ProcessRequestFunc(MessageContainer* requestContainer)
{
    MessageContainer responseContainer;
    uint8_t* container_buffer;
    uint32_t status = 0;

    UploadProcessParametersRequest* request = upload_process_parameters_request__unpack(NULL, requestContainer->data.len, requestContainer->data.data);
    ProcessParameters*  ProcessParams = request->processparameters;
    ////////////////////////////////////////////////////////////////////////
    /*UploadProcessParametersRequest* requesttest;
    uint8_t* buffer = NULL;
    uint32_t Bytes = 0;

    ProcessParameters*  ProcessParamsTest;
    FileRead(ProcessParamsConfigPath, &Bytes, &buffer);
    requesttest = upload_process_parameters_request__unpack(NULL, Bytes, buffer);
    //           ProcessParameters*  ProcessParams = process_parameters__unpack(NULL, Bytes, buffer);
           if (requesttest)
           {
               ProcessParamsTest = request->processparameters;
           }
       free (buffer);
       upload_process_parameters_request__free_unpacked(requesttest,NULL);
*/
/////////////////////////////////////////////////////////
    UploadProcessParametersResponse response = UPLOAD_PROCESS_PARAMETERS_RESPONSE__INIT;
    responseContainer = createContainer(MESSAGE_TYPE__UploadProcessParametersResponse, requestContainer->token, true, &response, &upload_process_parameters_response__pack, &upload_process_parameters_response__get_packed_size);

    //REPORT_MSG (ProcessParams->dryerzone1temp,"Process Params Dryer");
    PowerIdleOutOfIdleState();

    if (status == 0)
        status = HandleProcessParameters(ProcessParams,true);
    if ((status)&&(status != ERROR_CODE__GENERAL_ERROR)) //ignore init not ready result
    {
        responseContainer.has_error = true;
        responseContainer.error = (ErrorCode)status;
        responseContainer.errormessage = ProcessErrorMsg;
    }
    container_buffer = my_malloc(message_container__get_packed_size(&responseContainer));
    size_t container_size = message_container__pack(&responseContainer, container_buffer);
    my_free(responseContainer.data.data);
    SendChars(container_buffer, container_size);
    upload_process_parameters_request__free_unpacked(request,NULL);

}
uint32_t LoadProcessParamsFromFile(void)
{
    FRESULT Fresult = FR_OK;
    uint8_t* buffer = NULL;
    uint32_t Bytes = 0;

    Fresult = FileRead(ProcessParamsConfigPath, &Bytes, &buffer);
    if (Fresult == FR_OK)
    {
        ProcessParameters*  ProcessParams = (ProcessParameters*)buffer;

        if (ProcessParams!=NULL)
        {
            if ((ProcessParams->dryerzone1temp > 0.1)||(ProcessParams->headzone2temp > 0.1)||(ProcessParams->headzone3temp > 0.1)||(ProcessParams->headzone4temp > 0.1))//NOT turning off heaters
            {
                Bytes = sizeof(ProcessParameters);
                MCU_E2PromProgramChunk(PROCESS_PARAMATERS_IN_EEPROM,4,&Bytes);
                MCU_E2PromProgramChunk(PROCESS_PARAMATERS_IN_EEPROM+4, Bytes, ProcessParams);
                /*EraseFlashSection(PROCESS_PARAMETERS_MAP_IN_FLASH);
                ReadAppAndProgram(PROCESS_PARAMETERS_MAP_IN_FLASH, 4,&Bytes);
                ReadAppAndProgram(PROCESS_PARAMETERS_MAP_IN_FLASH+4, Bytes, ProcessParams);*/
                REPORT_MSG(Bytes,"ProcessParameters Bytes write to flash");
                free (buffer);
            }
        }
        else
        {
            Report("process parameters not loaded",__FILE__,__LINE__,(int)0,RpWarning,(int)0,0);
            return ERROR;
        }
    }

    return Fresult;
}
uint32_t ProcessParamsInit(void)
{
    FRESULT Fresult = FR_NOT_READY;
    uint32_t Bytes;
    ProcessParameters  ProcessParams;

    //memcpy(&Bytes,(void *)PROCESS_PARAMETERS_MAP_IN_FLASH,sizeof(Bytes));
    MCU_E2PromReadChunk(PROCESS_PARAMATERS_IN_EEPROM,4,&Bytes);

    REPORT_MSG(Bytes,"Bytes read from EEPROM");

    if ((Bytes)&&(Bytes < 1000))
    {
        //ProcessParameters*  ProcessParams = (ProcessParameters *)(PROCESS_PARAMETERS_MAP_IN_FLASH+4);
        MCU_E2PromReadChunk(PROCESS_PARAMATERS_IN_EEPROM+4,Bytes,&ProcessParams);
        Fresult = HandleProcessParameters(&ProcessParams,false);
    }
    else
    {
        if (LoadProcessParamsFromFile()==OK)
        {
            MCU_E2PromReadChunk(PROCESS_PARAMATERS_IN_EEPROM,4,&Bytes);
            //memcpy(&Bytes,(void *)PROCESS_PARAMETERS_MAP_IN_FLASH,sizeof(Bytes));
            REPORT_MSG(Bytes,"ProcessParams Bytes read from EEPROM");

            if ((Bytes)&&(Bytes < 1000))
            {
                MCU_E2PromReadChunk(PROCESS_PARAMATERS_IN_EEPROM+4,Bytes,&ProcessParams);
                //ProcessParameters*  ProcessParams = (ProcessParameters *)(PROCESS_PARAMETERS_MAP_IN_FLASH+4);
                Fresult = HandleProcessParameters(&ProcessParams,false);
            }
        }
    }

    return Fresult;
}