bmw-advanced-tools/app/EC-APPS/INPA/SGDAT/dde73kwp.ips

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//**********************************************************************
//*
//* Nacharbeitssource f<>r INPA
//*
//* Sourcedatei DDE73KWP.SRC
//*
//**********************************************************************
//* History :
//* 03.07.2007 asc V0.10 Erstellung auf Basis von DDE72N57
//* allgemeine STEUERN_SELECTIV Funktion eingef<65>gt
//* 31.07.2007 asc V0.11 Anpassung an akutelle SGBD
//* 14.08.2007 asc V0.20 SCR Umf<6D>nge hinzu
//* 12.11.2007 asc V0.30 EWS Men<65> hinzu
//* 23.11.2007 asc V0.40 DDLI Block hinzu
//* 10.12.2007 asc V0.50 SCR Umf<6D>nge erweitert, allgemeine STEUERN_SELECTIV Funktion um Anzeige zus<75>tzlicher Messwerte erweitert
//* 13.12.2007 au V0.60 SCR-Labels korrigiert
//* 19.12.2007 au V0.70 SCR-Labels hinzugef<65>gt
//* 11.01.2008 ib V0.80 SCR-Messdatenaufzeichnung hinzu gef<65>gt
//* 17.01.2008 au V0.90 SCR-Messwerte hinzugenommen
//* 28.01.2008 au V1.00 IMA-Daten Men<65> angepasst wegen DDE7
//**********************************************************************
#include "inpa.h"
#include "BMW_STD.H"
// Titel, Version, Verantwortung, Steuerger<65>t
string titel ="Nacharbeitsscript DDE7 N57 E60, E65, E70, E9x KWP2000"; // Titel Nacharbeitsprogramm
string version="1.00"; // Version Nacharbeitsprogramm
string origin ="BMW TI-431 Majerus/Unverdorben"; // Verantwortung Nacharbeitsprogramm
string sgbd ="D73N57B0,D73N57C0"; // Steuerger<65>t
string gruppe ="D_MOTOR"; //D_MOTOR // Gruppendatei
string speicher_lesen_parameter="LAR;FLASH;UIFM;-ROMI;-ROMX;-RAMIS;-RAMIL;-RAMXX;-NVRAM";
// Moegliche Speicher-Parameter: "LAR;FLASH;UIFM;ROMI;ROMX;RAMIS;RAMIL;RAMXX;NVRAM";
// Bei Leerstring erfolgt kein Men<65>punkt Speicher Lesen
// allgemeine globale Variable
string text_var;
real zahlen_var;
int ganz_zahl, ende = 0;
bool logik_var;
string job_state; // JOB_STATUS Variable
int input_state; // Eingabestatus
int input_ok=0; // Eingabe mit OK beendet
int ll_wert;
int inputstate=0; // Variable fuer Abbruchbedingung bei Dialogbox
string Diag_Index;
int val1; // Variable 1
int taste;
string blank=" ";
string glf; // Gesteuerte Luftf<74>hrung
int i = 0;
long longval;
long vergleich_var = 1;
long stelle;
string steller; //Enth<74>lt Label aus Tabelle "Steller"
string st_name; //Voller Name
int st_ein; //Wert f<>r Ansteuerung "EIN"
int st_aus; //Wert f<>r Ansteuerung "AUS"
string st_dim; //Einheit ("-" => digital)
string st_add_label; //Zus<75>tzlich anzuzeigende Messwerte
string datei_ddli = ""; // Filename zum Abspeichern der DDLI-Liste
string datei_rec = ""; // Filename zum Abspeichern der Messwerte
// start of :#include "BMW_STD.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen BMW_STD.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 05.05.2000 rd V0.01 Ersterstellung
//* 23.06.2000 rd V0.02 <20>berarbeitung f<>r E65 und E85
//* 04.07.2000 rd V0.03 <20>berarbeitung der Funktionen
//* 08.11.2000 rd V0.04 AIF Lesen Results <20>berarbeitet
//* 01.03.2001 rd V0.05 m_status_flag neu hinzu
//* 02.03.2001 rd V0.06 m_steuern_flag neu hinzu
//* 18.05.2001 rd V0.07 AIF-Ausgabe verbessert
//* 25.04.2002 rd V0.08 Erweiterung HS_LESEN
//* 25.04.2002 rd V1.00 Freigabe
//* 24.09.2002 rd V1.01 Erweiterung Ident f<>r DS2
//* 19.11.2002 rd V1.02 FS_MODE erweitert um PCODEs
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* rd V2.00 Entfernung EldiAuftragLesen, EldiAuftragEingeben
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//* GA V3.00 Hinweis im Hauptfenster, wenn Simulationsmodus aktiv ist.
//* 05.04.2007 GA V3.01 Abfrage auf IS_ und HS_LOESCHEN implementiert
//**********************************************************************
string package="3.01";
//**********************************************************************
//*
//* Globale Variablen
//*
//**********************************************************************
// Umrechnungsfaktoren deutsch / englisch
real m_c = 1.0; // Grad Celsius -> Fahrenheit z = x * m_c + a_c
real a_c = 0.0;
real m_km = 1.0; // km -> miles z = x * m_km
real m_l = 1.0; // Liter -> Gallon US z = x * m_l
// f<>r Info
string sgbd_ecu;
string sgbd_origin;
string sgbd_revision;
string sgbd_package;
string sgbd_sprache;
string sgbd_comment;
string gruppe_ecu;
string gruppe_origin;
string gruppe_revision;
string gruppe_comment;
// f<>r Status-Men<65>
bool m_status_flag=TRUE;
// True Status-Men<65> wird angezeigt
// f<>r Steuern-Men<65>
bool m_steuern_flag=TRUE;
// True Steuern-Men<65> wird angezeigt
// f<>r FS_LESEN speichern
bool fs_lesen_save_as_flag;
// f<>r IS_LESEN speichern
bool is_lesen_save_as_flag;
// f<>r HS_LESEN speichern
bool hs_lesen_save_as_flag;
// f<>r FS_LESEN
bool fs_lesen_flag;
// True wenn JOB vorhanden
// f<>r IS_LESEN
bool is_lesen_flag;
// True wenn JOB vorhanden
// f<>r HS_LESEN
bool hs_lesen_flag;
// True wenn JOB vorhanden
// f<>r IS_LOESCHEN
bool is_loeschen_flag;
// True wenn JOB vorhanden
// f<>r HS_LOESCHEN
bool hs_loeschen_flag;
// True wenn JOB vorhanden
// Handle f<>r FS_LESEN
int f_ort_nr_buffer = 0;
int f_ort_text_buffer = 0;
// In INPA.INI wird festgelegt ob
// nach FS- IS-, HS-L<>schen automatisch wieder gelesen wird.
bool deleteread_flag;
// Wenn Ediabas im Simulationsmode l<>uft, dies im Hauptfenster anzeigen
bool simulation_flag;
// f<>r Ident Screen, bzw. SVK Screen bei UDS (ISO 14229)
int ident_typ;
// 1= DS2
// 2= BMW Fast
// 3= UDS (ISO 14229)
// f<>r SPEICHER_LESEN
bool speicher_lesen_flag;
// True wenn JOB vorhanden
bool speicher_lesen_lar_flag;
bool speicher_lesen_uifm_flag;
bool speicher_lesen_romi_flag;
bool speicher_lesen_romx_flag;
bool speicher_lesen_nvram_flag;
bool speicher_lesen_ramis_flag;
bool speicher_lesen_ramxx_flag;
bool speicher_lesen_flash_flag;
bool speicher_lesen_ramil_flag;
// f<>r Speicher lesen Ausgabe
string speicher_lesen_text = "";
string speicher_lesen_seg_adr_anz = "";
string speicher_lesen_adresse = "0x000000";
int speicher_lesen_anzahl = 64;
//**********************************************************************
//*
//* Deklaration der Funktionen
//*
//**********************************************************************
extern ScriptInit(); // befindet sich im Hauptprogramm
// start of :#include "BATTERIE.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen BATTERIE.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 04.07.2000 rd V0.03 Ersterstellung
//* 25.04.2002 rd V1.00 Freigabe
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 01.04.2004 rd V2.01 Im Fehlerfalle delay eingebaut
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//**********************************************************************
//**********************************************************************
//*
//* ShowBatteryIgnition
//*
//* Anzeige des Batterie- und Z<>ndungs-Status
//*
//**********************************************************************
ShowBatteryIgnition()
{
bool fehlerflag; // Fehler aufgetreten
bool fehlerflag2; // Fehler aufgetreten
bool zuendung; // Z<>ndung ein/aus
bool batterie; // Batterie ein/aus
int wert; // allgemeine Variable
ftextout("Batterie :", 0,5,1,0);
ftextout("Z<>ndung :", 0,45,1,0);
INPAapiJob("UTILITY","STATUS_UBATT","","");
INP1apiResultInt(fehlerflag,wert,"STAT_UBATT",1);
if ((fehlerflag!=TRUE) || (wert==0))
{
batterie=FALSE;
zuendung=FALSE;
}
else
{
batterie=TRUE;
INPAapiJob("UTILITY","STATUS_ZUENDUNG","","");
INP1apiResultInt(fehlerflag2,wert,"STAT_ZUENDUNG",1);
if ((fehlerflag2!=TRUE) || (wert==0))
zuendung=FALSE;
else
zuendung=TRUE;
}
digitalout(batterie, 0,20,"","");
if (batterie==TRUE)
ftextout("ein ", 0,25,1,0);
else
{
if (fehlerflag==TRUE)
{
ftextout("aus ", 0,25,1,0);
}
else
{
ftextout("--- ", 0,25,1,0);
}
}
digitalout(zuendung, 0,62,"","");
if (zuendung==TRUE)
ftextout("ein ", 0,67,1,0);
else
{
if (fehlerflag2==TRUE)
{
ftextout("aus ", 0,67,1,0);
}
else
{
ftextout("--- ", 0,67,1,0);
}
}
if ((fehlerflag!=TRUE) || (fehlerflag2!=TRUE))
{
delay(2000);
}
}
// -- EOF --
// end of :#include "BATTERIE.SRC"
// start of :#include "GRP_INFO.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen GRP_INFO.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 04.07.2000 rd V0.03 Ersterstellung
//* 25.04.2002 rd V1.00 Freigabe
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 30.03.2006 GA V3.00 EDIABAS.INI-Abfrage ob Simulationsmode aktiv ist
//* 18.10.2006 GA V3.01 Abfrage ob EDIABAS im Simulationsmodus l<>uft ist jetzt nicht mehr auf Pfad c:\windows\ediabas.ini beschr<68>nkt
//**********************************************************************
//**********************************************************************
//*
//* GruppenDateiInfo
//*
//* Versionsinformationen <20>ber Gruppendatei
//*
//**********************************************************************
import32 "C" lib "api32.DLL::__apiGetConfig" ApiGetConfig(in:long Handle,in: string Name,out: string Buffer, returns: int ReturnedValue);
GruppenDateiInfo( in: string grp,
inout: string grp_ecu, inout: string grp_origin,
inout: string grp_revision, inout: string grp_comment)
{
string CurDir;
string Temp;
string Puffer;
int Size;
long PufferSize;
int ret_int;
string BS;
string CR;
int pos1;
int pos2;
int simulation;
int input;
long Handle;
int Returned;
string ini_path= "??????????????????????";//Variable mu<6D> ausreichend lang vorbelegt sein!
// C:\ec-apps\ediabas\bin
chr( 92, BS ); // '\'
chr( 13, CR );
// Pfad f<>r EDIBAS.INI ermitteln
// WERT 2 wurde durch Tests ermittelt
Handle=2;
ApiGetConfig(Handle,"EDIABASINIPATH",ini_path,Returned);
//Abfrage, ob EDIABAS im Simulationsmodus betrieben wird. Hinweisfenster erfolgt im Hauptfenster s_main
GetPrivateProfileInt("Configuration","Simulation",2,ini_path+BS+"ediabas.ini",simulation);
if (simulation == 1) simulation_flag= TRUE;
else simulation_flag= FALSE;
Size=256;
space(CurDir,Size);
GetCurrentDirectory(256, CurDir, ret_int);
SetCurrentDirectory("\EDIABAS\BIN", ret_int);
Size=1024;
space(Puffer,Size);
inttolong(Size, PufferSize);
XTRACT("\ediabas\ecu"+ BS + grp + ".grp", 1, Puffer, PufferSize, ret_int);
grp_ecu="";
instr(pos1, 0, Puffer, "ECU:");
if (pos1 >= 0)
{
pos1 = pos1 + 4;
instr(pos2, pos1, Puffer, CR );
if (pos2 > pos1)
midstr(grp_ecu, Puffer, pos1, pos2 - pos1);
}
grp_origin="";
instr(pos1, 0, Puffer, "ORIGIN:");
if (pos1 >= 0)
{
pos1 = pos1 + 7;
instr(pos2, pos1, Puffer, CR );
if (pos2 > pos1)
midstr(grp_origin, Puffer, pos1, pos2 - pos1);
}
grp_revision="";
instr(pos1, 0, Puffer, "REVISION:");
if (pos1 >= 0)
{
pos1 = pos1 + 9;
instr(pos2, pos1, Puffer, CR );
if (pos2 > pos1)
midstr(grp_revision, Puffer, pos1, pos2 - pos1);
}
grp_comment="";
pos1=0;
pos2=0;
while ((pos1 >= 0) && (pos2 >= 0))
{
instr(pos1, pos2, Puffer, "ECUCOMMENT:");
if (pos1 >= 0)
{
pos1 = pos1 + 11;
instr(pos2, pos1, Puffer, CR );
if (pos2 > pos1)
{
midstr(Temp, Puffer, pos1, pos2 - pos1);
grp_comment=grp_comment+Temp+",";
}
}
}
SetCurrentDirectory(CurDir, ret_int);
}
// -- EOF --
// end of :#include "GRP_INFO.SRC"
// start of :#include "SGBDINFO.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen SGBDINFO.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 04.07.2000 rd V0.03 Ersterstellung
//* 25.04.2002 rd V1.00 Freigabe
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//**********************************************************************
//**********************************************************************
//*
//* Deklaration der Funktionen
//*
//**********************************************************************
extern SgbdInfo(in: string sg,
inout: string sg_ecu, inout: string sg_origin,
inout: string sg_revision, inout: string sg_package,
inout: string sg_comment, inout: string sg_sprache);
//**********************************************************************
//*
//* SgbdInfo
//*
//* Versionsinformationen <20>ber SGBD
//*
//**********************************************************************
SgbdInfo( in: string sg,
inout: string sg_ecu, inout: string sg_origin,
inout: string sg_revision, inout: string sg_package,
inout: string sg_comment, inout: string sg_sprache)
{
INPAapiJob(sg,"INFO","","");
INPAapiResultText(sg_ecu,"ECU",1,"");
INPAapiResultText(sg_revision,"REVISION",1,"");
INPAapiResultText(sg_package,"PACKAGE",1,"");
INPAapiResultText(sg_origin,"ORIGIN",1,"");
INPAapiResultText(sg_comment,"COMMENT",1,"");
INPAapiResultText(sg_sprache,"SPRACHE",1,"");
}
// -- EOF --
// end of :#include "SGBDINFO.SRC"
// start of :#include "SGBDINPA.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen SgbdInpa.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* 12.03.2003 iS V1.05 Aufteilung der Funktionen(SgbdInpaCheck,GroupCheck)
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//* GA V3.00 Gezielte Ausgabe, wenn Gruppendatei oder SGBD nicht existiert
//* GA V3.00 INPA.INI, [EXTRA], SRIPTS auslesen, ob "deleteread" gesetzt,
//* GA V3.00 um nach FS- IS-, HS-L<>schen automatisch wieder zu lesen.
//* 18.10.2006 GA V3.01 Check bez<65>glich auf Gruppen-Simulationsdatei, sowie "Identification error" erweitert
//* 24.10.2006 GA V3.02 <20>berpr<70>fung ob T_GRTB.PRG vorhanden eingebaut
//**********************************************************************
//**********************************************************************
//*
//* SgbdInpaCheck
//*
//* <20>berpr<70>fung ob SGBD zu INPA passt
//*
//**********************************************************************
SgbdInpaCheck()
{
string sgbd_version; // f<>r Versionskontrolle
string inpa_version; // f<>r Versionskontrolle
string inpa_sprache="deutsch"; // f<>r Sprachvariante
string variante="???"; // f<>r Variantenkontrolle
string err_text; // Fehlertext
int errorcode; // Errorcode
bool fehlerflag; // Fehlerflag
string temp;
string temp1;
string temp2;
int i;
int k;
int kk; // f<>r neue VersionsnummernKontrolle
int ii;
int a;
int aa;
int i1;
int i2;
int i3; // f<>r neue VersionsnummernKontrolle
string sgbd_String_Lang;
string sgbd_von_inpa_version;
string ver_temp;
string ver_temp1;
string ver_temp2;
string ver_temp3="--";
real Version_SGBD;
real Version_INPA;
string CurDir; // Zur Pr<50>fung ob Gruppendatei exisiert
int ret_int;
int Size;
int filecheck;
string hinweis_text;
settitle(titel+" Version "+version);
a=0;
ii=0;
i3=0;
kk=0;
aa=0;
i=0;
k=0;
fehlerflag=FALSE;
temp1="";
temp2="";
instr(i,k,","+gruppe+",",",");
while ((i >= 0) && (fehlerflag == FALSE))
{
k=i+1;
instr(i,k,","+gruppe+",",",");
if (i >= 0)
{
midstr(temp,","+gruppe+",",k,i-k);
INPAapiJob(temp,"INITIALISIERUNG","","");
INP1apiResultText(fehlerflag,variante,"VARIANTE",0,"");
if (fehlerflag == TRUE) gruppe=temp;
else
{
INP1apiErrorCode(errorcode);
if (errorcode == 36)//Fehlende oder fehlerhafte Simulationsdatei
{
Size=256;
space(CurDir,Size);
GetCurrentDirectory(256, CurDir, ret_int);
SetCurrentDirectory("\EDIABAS\SIM", ret_int);
fileexist(temp+".SIM",filecheck);
SetCurrentDirectory(CurDir, ret_int);
if (filecheck == 0)
{
temp1= temp1+", "+temp+".SIM";//Fehlerhafte Simulationsdatei
}
else
{
temp2= temp2+", "+temp+".SIM";//Fehlende Simulationsdatei
}
}
}
}
}
instr(i,0,gruppe,"d");//erstes Zeichen ein 'd'?
instr(k,0,gruppe,"D");//erstes Zeichen ein 'D'?
if ((i == 0) || (k == 0))
hinweis_text= "das Steuerger<65>t liefert einen falschen Varianten- und / oder Diagnose-Index.";// bis F01: Gruppendateien fangen mit D_... an
else hinweis_text= "das Steuerger<65>t liefert einen falschen SGBD-Index.";//gilt ab F01, Gruppendateien fangen mit G_... an
if (fehlerflag == FALSE)
{
//Fehlende oder fehlerhafte Gruppen-Simulationsdatei
if (errorcode == 36)
{
//Fehlerhafte Simulationsdatei
if (temp1 != "")
{
strlen(k,temp1);
instr(i,k,temp1+",",",");//letztes Zeichen ein ','?
if (i != -1) k= k-1; //Zeichenl<6E>nge um 1 k<>rzen
instr(i,0,temp1+",",",");//erstes Zeichen ein ','?
if (i == 0) midstr(temp1,temp1,1,k);//Kommata vor und hinter temp1 ausschneiden
temp1= "Fehlerhafte Simulationsdatei: "+temp1+CRLF;
}
//Fehlende Simulationsdatei
if (temp2 != "")
{
strlen(k,temp2);
instr(i,k,temp2+",",",");//letztes Zeichen ein ','?
if (i != -1) k= k-1; //Zeichenl<6E>nge um 1 k<>rzen
instr(i,0,temp2+",",",");//erstes Zeichen ein ','?
if (i == 0) midstr(temp2,temp2,1,k);//Kommata vor und hinter temp2 ausschneiden
temp2= "Fehlende Simulationsdatei : "+temp2+CRLF;
}
messagebox("Variantenkontrolle",
"Fehler!"+CRLF+
temp1+//Fehlerfafte Gruppen-Simulationsdateien
temp2+//Fehlende -//-
"Das Programm wird abgebrochen!");
exit();
}
//Gruppendatei vorhanden?
Size=256;
space(CurDir,Size);
GetCurrentDirectory(256, CurDir, ret_int);
SetCurrentDirectory("\EDIABAS\ECU", ret_int);
fileexist(gruppe+".GRP",filecheck);
SetCurrentDirectory(CurDir, ret_int);
if (filecheck == 0)//Gruppendatei vorhanden, SGBD-, Kommunikationsfehler hier ausgeben
{
INP1apiErrorText(err_text);//Fehler beim Aufruf der VARIANTE?
if (errorcode == 92)//92=SYS-0002: SG-Variantenbeschreibungsdatei (SGBD) nicht gefunden
{
//T_GRTB.PRG vorhanden?
Size=256;
space(CurDir,Size);
GetCurrentDirectory(256, CurDir, ret_int);
SetCurrentDirectory("\EDIABAS\ECU", ret_int);
fileexist("T_GRTB.PRG",filecheck);
SetCurrentDirectory(CurDir, ret_int);
if (filecheck == 0)//T_GRTB.PRG ist vorhanden, somit fehlt die SGBD.
{
messagebox("Variantenkontrolle",
"Fehler!"+CRLF+
err_text+". "+CRLF+
" "+CRLF+
"Das Steuerger<65>t l<><6C>t sich zwar <20>ber die Gruppendatei: "+gruppe+".GRP"+" ansprechen,"+CRLF+
"aber zur Diagnose fehlt eine entsprechende SGBD (*.PRG) im Verzeichnis ..\EDIABAS\ECU"+CRLF+
" "+CRLF+
"Aktualisieren Sie SGBDen, Gruppendateien und INPA Scripte regelm<6C><6D>ig!"+CRLF+
" "+CRLF+
"Das Programm wird abgebrochen!");
}
else//T_GRT.PRG fehlt
{
messagebox("Variantenkontrolle",
"Fehler!"+CRLF+
err_text+". "+CRLF+
" "+CRLF+
"Die Datei T_GRTB.PRG fehlt im Verzeichnis ..\EDIABAS\ECU"+CRLF+
" "+CRLF+
"Aktualisieren Sie SGBDen, Gruppendateien und INPA Scripte regelm<6C><6D>ig!"+CRLF+
" "+CRLF+
"Das Programm wird abgebrochen!");
}
}
else if (errorcode == 102)//102= Identification error
{
instr(i,0,gruppe,"d");//erstes Zeichen ein 'd'?
instr(k,0,gruppe,"D");//erstes Zeichen ein 'D'?
if ((i == 0) || (k == 0))
temp1= "das Steuerger<65>t liefert einen falschen Varianten- und / oder Diagnose-Index.";// bis F01: Gruppendateien fangen mit D_... an
else temp1= "das Steuerger<65>t liefert einen falschen SGBD-Index.";//gilt ab F01, Gruppendateien fangen mit G_... an
messagebox("Variantenkontrolle",
"Fehler! Aufruf <20>ber Gruppendatei : "+gruppe+".GRP"+CRLF+
err_text+". "+CRLF+
" "+CRLF+
"Sie besitzen entweder eine veraltete ..\EDIABAS\ECU\T_GRTB.PRG Datei, und / oder"+CRLF+
hinweis_text+CRLF+
" "+CRLF+
"Das Programm wird abgebrochen!");
}
else //alle anderen Fehler
{
messagebox("Variantenkontrolle",
"Fehler! Aufruf <20>ber Gruppendatei : "+gruppe+".GRP"+CRLF+
" "+CRLF+
err_text+". "+CRLF+
" "+CRLF+
" "+CRLF+
"Das Programm wird abgebrochen!");
}
}
else//Gruppendatei nicht vorhanden
{
messagebox("Variantenkontrolle",
"Fehler! Gruppendatei : "+gruppe+".GRP "+CRLF+
"existiert nicht im Verzeichnis ..\EDIABAS\ECU"+CRLF+
" "+CRLF+
"Aktualisieren Sie SGBDen, Gruppendateien und INPA Scripte regelm<6C><6D>ig!"+CRLF+
" "+CRLF+
"Das Programm wird abgebrochen!");
}
exit();
}
i1=0;
i2=0;
instr(i1,0,","+sgbd+",",","+variante+",");
if (i1 < 0)
{
instr(i2,0,","+sgbd+",",","+variante+"/");
if (i2 < 0)
{
messagebox("Variantenkontrolle",
"Gesuchtes Steuerger<65>t: '"+sgbd+"' nicht gefunden. "+CRLF+
"Gefundenes Steuerger<65>t: '"+variante+"'. "+CRLF+
" "+CRLF+
"Sie besitzen entweder eine veraltete ..\EDIABAS\ECU\T_GRTB.PRG Datei, und / oder"+CRLF+
hinweis_text+CRLF+
" "+CRLF+
"Das Programm wird abgebrochen!");
exit();
}
ver_temp3 = "--";
instr(ii,i2,sgbd+",",",");
if (ii >= 0)
{
midstr(ver_temp3,sgbd+",",i2,ii);
instr(i3,0,ver_temp3,"/");
if (i3 >= 0)
{
a = i2+i3+1;
aa = ii-i2+i3-1;
midstr(ver_temp3,sgbd+",",a,aa);
}
}
}
sgbd_String_Lang = sgbd;
sgbd=variante;
//
// Info: Informatinon bei aufruf ohne BMW_STD.SRC
//
// ####################################################
// # //f<>r Info #
// # string sgbd_ecu; #
// # string sgbd_origin; #
// # string sgbd_revision; #
// # string sgbd_package; #
// # string sgbd_sprache; #
// # string sgbd_comment; #
// # string gruppe_ecu; #
// # string gruppe_origin; #
// # string gruppe_revision; #
// # string gruppe_comment; #
// # #
// # #include "SgbdInfo.src" #
// ####################################################
//
//
SgbdInfo(sgbd, sgbd_ecu, sgbd_origin, sgbd_revision, sgbd_package, sgbd_comment, sgbd_sprache);
// Bitte VARIABLEN als Globale variable aktivieren und Include (siehe Block //INFO)
//
//
//Versionskontrolle Auf 3 stellen vor / hinter dem "."
instr(i3,0,ver_temp3,"V");
if(i3>=0)
{
instr(i2,0,ver_temp3,",");
midstr(ver_temp3,ver_temp3,i3+1,i2-1);
stringtoreal(ver_temp3,Version_INPA);
realtostring(Version_INPA,"3.3",ver_temp3);
midstr(sgbd_von_inpa_version,ver_temp3,0,2);
}
stringtoreal(version,Version_INPA);
realtostring(Version_INPA,"3.3",version);
midstr(inpa_version,version,0,2);
stringtoreal(sgbd_revision,Version_SGBD);
realtostring(Version_SGBD,"3.3",sgbd_revision);
midstr(sgbd_version,sgbd_revision,0,2);
temp=inpa_version;
temp1=sgbd_version;
if (ver_temp3 == "--")
{
// Vergleichen mit Versionsnummer INPA & SGBD
if (inpa_version != sgbd_version)
{
messagebox("Versionskontrolle",
"Nicht zusammenpassende Versionen. "+CRLF+
"Fehlfunktion ist m<>glich!");
}
else
{
if (temp == "0.")
{
if (temp1 == "0.")
{
messagebox("Versionskontrolle",
"Programm noch in der Entwicklungsphase. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"SGBD Version: "+sgbd_revision+CRLF+
"INPA Version: "+version);
}
else
{
messagebox("Versionskontrolle",
"Programm noch in der Entwicklungsphase. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"INPA Version: "+version);
}
}
else
{
if (temp1 == "0.")
{
messagebox("Versionskontrolle",
"Programm noch in der Entwicklungsphase. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"SGBD Version: "+sgbd_revision);
}
}
}
}
else
{
// Vergleichen mit Versionsnummer INPA(SGBD Vorwahl) & SGBD
if (sgbd_von_inpa_version != sgbd_version)
{
messagebox("Versionskontrolle",
"Nicht zusammenpassende Versionen. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"SGBD Version: "+ ver_temp3 +" (in INPA) "+CRLF+
"SGBD Version: "+ sgbd_revision +CRLF+
"INPA Version: "+ version);
}
else
{
if (temp == "0.")
{
if (temp1 == "0.")
{
messagebox("Versionskontrolle",
"Programm noch in der Entwicklungsphase. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"SGBD Version: "+sgbd_revision+CRLF+
"INPA Version: "+version);
}
else
{
messagebox("Versionskontrolle",
"Programm noch in der Entwicklungsphase. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"INPA Version: "+version);
}
}
else
{
if (temp1 == "0.")
{
messagebox("Versionskontrolle",
"Programm noch in der Entwicklungsphase. "+CRLF+
"Fehlfunktion ist m<>glich!"+CRLF+CRLF+
"SGBD Version: "+sgbd_revision);
}
}
}
}
if (inpa_sprache != sgbd_sprache)
{
messagebox("Sprachvariantenkontrolle",
"Nicht zusammenpassende Sprachvariante. "+CRLF+
"Fehlfunktion ist m<>glich!");
}
}
// -- EOF --
// end of :#include "SGBDINPA.SRC"
// start of :#include "GRPCHECK.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen GrpCheck.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 12.03.2003 iS V1.05 Aufteilung der Funktionen(SgbdInpaCheck,GroupCheck)
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//* 05.04.2007 GA V3.01 Abfrage auf IS_ und HS_LOESCHEN implementiert
//* 20.04.2007 GA V3.02 FS-, IS-, HS_LESEN werden in einzelnen Tempdateien in ..\EDIABAS\BIN abgelegt
//**********************************************************************
//**********************************************************************
//*
//* GroupCheck
//*
//* <20>berpr<70>fung der Gruppen-Info
//*
//**********************************************************************
GroupCheck()
{
string err_text; // Fehlertext
bool fehlerflag; // Fehlerflag
string temp;
int sgbd_saetze; // f<>r Funktionen-Suche in SGBD
string job_name; // JOBNMAE in SGBD
int i;
fehlerflag=FALSE;
i=0;
GruppenDateiInfo(gruppe, gruppe_ecu, gruppe_origin, gruppe_revision, gruppe_comment);
// Vorbelegung der Flags
fs_lesen_flag = FALSE;
is_lesen_flag = FALSE;
speicher_lesen_flag = FALSE;
is_loeschen_flag = FALSE;
hs_loeschen_flag = FALSE;
INPAapiJob(sgbd,"_JOBS","","");
INP1apiResultSets(fehlerflag, sgbd_saetze);
if (fehlerflag == FALSE)
{
INP1apiErrorText(err_text);
messagebox("Unerwarteter Fehler", // sollte nie kommen
err_text+". "+CRLF+
"Das Programm wird abgebrochen!");
exit();
}
i = 1;
while ( i <= sgbd_saetze)
{
INPAapiResultText(job_name,"JOBNAME",i,"");
if (job_name == "FS_LESEN" ) fs_lesen_flag=TRUE;
if (job_name == "IS_LESEN" ) is_lesen_flag=TRUE;
if (job_name == "HS_LESEN" ) hs_lesen_flag=TRUE;
if (job_name == "IS_LOESCHEN" ) is_loeschen_flag=TRUE;
if (job_name == "HS_LOESCHEN" ) hs_loeschen_flag=TRUE;
if (job_name == "SPEICHER_LESEN" ) speicher_lesen_flag=TRUE;
if ((fs_lesen_flag == TRUE) &&
(is_lesen_flag == TRUE) &&
(hs_lesen_flag == TRUE) &&
(is_loeschen_flag == TRUE) &&
(hs_loeschen_flag == TRUE) &&
(speicher_lesen_flag) == TRUE) i = sgbd_saetze;
i = i + 1;
}
if (speicher_lesen_parameter == "") speicher_lesen_flag = FALSE;
if (speicher_lesen_flag == TRUE)
{
instr(i, 0, ";"+speicher_lesen_parameter+";", ";LAR;");
if ( i == -1 ) speicher_lesen_lar_flag = FALSE; else speicher_lesen_lar_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";FLASH;");
if ( i == -1 ) speicher_lesen_flash_flag = FALSE; else speicher_lesen_flash_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";UIFM;");
if ( i == -1 ) speicher_lesen_uifm_flag = FALSE; else speicher_lesen_uifm_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";ROMI;");
if ( i == -1 ) speicher_lesen_romi_flag = FALSE; else speicher_lesen_romi_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";RAMIS;");
if ( i == -1 ) speicher_lesen_ramis_flag = FALSE; else speicher_lesen_ramis_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";RAMIL;");
if ( i == -1 ) speicher_lesen_ramil_flag = FALSE; else speicher_lesen_ramil_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";NVRAM;");
if ( i == -1 ) speicher_lesen_nvram_flag = FALSE; else speicher_lesen_nvram_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";ROMX;");
if ( i == -1 ) speicher_lesen_romx_flag = FALSE; else speicher_lesen_romx_flag = TRUE;
instr(i, 0, ";"+speicher_lesen_parameter+";", ";RAMXX;");
if ( i == -1 ) speicher_lesen_ramxx_flag = FALSE; else speicher_lesen_ramxx_flag = TRUE;
}
//IDENT-Typ ermitteln: DS2, BMW Fast oder UDS?
INP1apiJob(sgbd,"IDENT","","");
INP1apiResultText(fehlerflag,temp,"ID_DATUM_KW",1,"");//Hat nur DS2
if ((fehlerflag == TRUE) && (temp != ""))
{
ident_typ= 1;//DS2
}
else//UDS, BMW Fast
{
INP1apiResultText(fehlerflag,temp,"ID_SGBD_INDEX",1,"");
if ((fehlerflag == TRUE) && (temp != "")) ident_typ= 3; //Hat nur UDS (ISO 14229)
else ident_typ= 2; //sonst BMW Fast
}
}
// -- EOF --
// end of :#include "GRPCHECK.SRC"
// start of :#include "FS_LESEN.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen FS_LESEN.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 04.07.2000 rd V0.03 Ersterstellung
//* 21.11.2000 rd V0.10 Umweltbedingungen als Zahl oder Text ( 0-n, Hex )
//* 02.03.2001 rd V0.11 Shadowspeicher umbenannt in Infospeicher
//* 25.04.2002 rd V1.00 Erweiterung HS_LESEN
//* 22.10.2002 rd V1.01 Erweiterung FS_LESEN
//* V1.01 PCODE und PCODE7 Ausgabe neu
//* V1.01 Fehlerbehandlung verbessert
//* 19.11.2002 iS V1.02 Fehlerbehandlung F_ORT_TEXT, F_UW_ANZ, F_PCODE
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//* GA V3.00 Fehlerausgaben korrigiert und erweitert
//* 28.06.2006 GA V3.01 Bei UDS: Ausgabe "F_UW_DATUM_ZEIT" durch "F_UW_ZEIT" ersetzt, da Result entf<74>llt
//* 19.10.2006 GA V3.02 Bei DS2: wurde nicht angezogen da if-Bedingung nicht korrekt gewesen ist.
//* GA V3.02 Result: F_UW_ZEIT von Unterprg.: fs_protokoll_uwb in fs_protokoll_uwb_uds verschoben
//* GA V3.02 Result: F_EREIGNIS_DTC: Text wurde inverse ausgegeben
//* 07.02.2007 GA V3.03 Result: F_EREIGNIS_DTC: Erkl<6B>render Text, was ein Ereinis DTC ist, war falsch
//**********************************************************************
//**********************************************************************
//*
//* Globale Variablen
//*
//**********************************************************************
int _FsMode = 0x7FF; // alles ein
string _FsFileMode = "w";
string _PreInfoFile = "";
string _PostInfoFile = "";
string _ApiFsJobName = "FS_LESEN";
//**********************************************************************
//*
//* Deklaration der Funktionen
//*
//**********************************************************************
extern INPAapiFsMode_neu ( in: int FsMode, in: string FsFileMode,
in: string PreInfoFile, in: string PostInfoFile,
in: string ApiFsJobName);
extern INPAapiFsLesen_neu( in: string ecu, in: string FileName);
extern fs_protokoll_ort(in: int nr);
extern fs_protokoll_ort_uds(in: int nr);
extern fs_protokoll_PCode(in: int nr);
extern fs_protokoll_PCode7(in: int nr);
extern fs_protokoll_SAECode(in: int nr);
extern fs_protokoll_hfk(in: int nr);
extern fs_protokoll_hfk_uds(in: int nr);
extern fs_protokoll_art(in: int nr);
extern fs_protokoll_art_uds(in: int nr);
extern fs_protokoll_art_e(in: int nr);
extern fs_protokoll_uwb(in: int nr);
extern fs_protokoll_uwb_uds(in: int nr);
extern fs_protokoll_hex(in: int nr);
extern fs_protokoll_telantwort(in: int nr);
//**********************************************************************
//*
//* INPAapiFsMode_neu kompatibel mit INPAapiFsMode
//*
//**********************************************************************
INPAapiFsMode_neu( in: int FsMode,
in: string FsFileMode,
in: string PreInfoFile,
in: string PostInfoFile,
in: string ApiFsJobName)
{
_FsMode = FsMode;
_FsFileMode = FsFileMode;
_PreInfoFile = PreInfoFile;
_PostInfoFile = PostInfoFile;
_ApiFsJobName = ApiFsJobName;
INPAapiFsMode(_FsMode, _FsFileMode, _PreInfoFile, _PostInfoFile, _ApiFsJobName);
if (_ApiFsJobName=="") _ApiFsJobName="FS_LESEN";
}
//**********************************************************************
//*
//* INPAapiFsLesen_neu kompatibel mit INPAapiFsLesen
//*
//**********************************************************************
INPAapiFsLesen_neu( in: string ecu, in: string FileName)
{
string _ecu;
string _FileName;
bool rc;
int i;
int k;
int len;
int x1;
long xL;
string temp1;
string temp2;
string temp3;
string temp11;
string temp12;
string temp21;
string temp22;
int F_VERSION;
string JOB_STATUS;
string JOB_MESSAGE;
string VARIANTE;
int SETS;
int UW_SETS;
string FS_CODE;
string F_PCODE;
string F_PCODE7;
string F1_VERSION;
int errorcode; // EDIABAS Fehlernummer
string error_text; // EDIABAS Fehlertext
string errorcode_text; // EDIABAS Fehlernummer als Text
string sgbd_version; // aus INFO auslesen, um bei Fehlern die Version angeben zu k<>nnen
_ecu = ecu;
_FileName = FileName;
//SGBD-Version auslesen
sgbd_version= "???";
INPAapiJob(_ecu,"INFO","","");
INP1apiResultText(rc, sgbd_version, "REVISION", 1, "");
INPAapiJob(_ecu, _ApiFsJobName,"","");
INP1apiResultInt(rc, F_VERSION, "F_VERSION",1 );
INP1apiErrorCode(errorcode);
//UDS:
if ((rc == TRUE) && ( F_VERSION == 3 ))
{
getdate(temp1);
gettime(temp2);
INPAapiResultSets(SETS);
INPAapiResultText(VARIANTE, "VARIANTE", 0, "");
INPAapiResultText(JOB_STATUS, "JOB_STATUS", SETS, "");
fileopen ( _FileName, _FsFileMode);
if (_ApiFsJobName == "IS_LESEN")
{
filewrite( " I N F O S P E I C H E R L E S E N");
filewrite( " -----------------------------------");
}
else
if (_ApiFsJobName == "HS_LESEN")
{
filewrite( " H I S T O R I E N S P E I C H E R L E S E N");
filewrite( " ---------------------------------------------");
}
else
{
filewrite( " F E H L E R S P E I C H E R L E S E N");
filewrite( " ---------------------------------------");
}
filewrite("");
filewrite("Datum : "+temp1+" "+temp2);
if (_ecu != VARIANTE) filewrite("ECU : "+_ecu);
filewrite("JobStatus: "+JOB_STATUS);
filewrite("Variante : "+VARIANTE+".PRG");
filewrite("Version : "+sgbd_version);
filewrite( "-------------------------------------------------------------------------------");
if ( JOB_STATUS == "OKAY")
{
filewrite( "");
if (SETS == 1)
filewrite( " >>>>>>>>>> Kein Fehler gefunden <<<<<<<<<<<");
else
{
inttostring(SETS-1,temp1);
if ((SETS-1) < 10) temp1= " "+temp1;//Formatierung der Fehleranzahl, wenn sie kleiner 10 ist
filewrite( "ERGEBNIS : "+temp1+" Fehler im Fehlerspeicher!");
if ((_FsMode & 0x100) == 0)
{
i=1;
while ( i < SETS )
{
if (_FsMode != 0)
filewrite( "-------------------------------------------------------------------------------");
if ((_FsMode & 0x01) != 0) fs_protokoll_ort_uds(i);
if ((_FsMode & 0x04) != 0) fs_protokoll_art_uds(i);
if ((_FsMode & 0x40) != 0) fs_protokoll_hex(i);
i=i+1;
}
}
else
{
// Detail lesen
i=1;
StrArrayDelete(f_ort_nr_buffer);
StrArrayDelete(f_ort_text_buffer);
while ( i < SETS )
{
INP1apiResultText(rc,temp1, "F_ORT_TEXT", i, "");
if (rc != TRUE) temp1="??????";
StrArrayWrite(f_ort_text_buffer,i,temp1);
INP1apiResultBinary(rc,"F_HEX_CODE",i);//Fehlerort Nr. bei UDS: 3 Bytes, daher mit long arbeiten. (kein INPAapiResultText(temp1, "F_ORT_NR", i, "");....!) ...ergibt diese L<>sung
if (rc == TRUE)
{
GetBinaryDataString (temp1,len);
midstr(temp1,temp1,0,6);
}
else
{
temp1= "??????";
filewrite("");
filewrite("### Fehler beim Lesen des Results: F_HEX_CODE ###");
filewrite("");
INP1apiErrorCode(errorcode);
if (errorcode != 0)
{
inttostring(errorcode, errorcode_text);
INP1apiErrorText(error_text);
error_text= "Ediabas-Fehlermeldung Nr.: "+errorcode_text+": "+ error_text;
ftextout(error_text ,2,0,0,0);
}
}
StrArrayWrite(f_ort_nr_buffer,i,temp1);
i=i+1;
}
i=1;
while ( i < SETS )
{
if (_FsMode != 0)
filewrite( "-------------------------------------------------------------------------------");
StrArrayRead(f_ort_nr_buffer,i,FS_CODE);
INPAapiJob(_ecu, _ApiFsJobName+"_DETAIL", "0x"+FS_CODE, "");
INP1apiResultSets(rc, UW_SETS);
if (rc == TRUE)
{
INPAapiResultText(JOB_STATUS, "JOB_STATUS", UW_SETS, "");
if ( JOB_STATUS == "OKAY")
{
if ((_FsMode & 0x01) != 0) fs_protokoll_ort_uds(1);
if ((_FsMode & 0x200) != 0) fs_protokoll_SAECode(1);//0x200 von BMW Fast f<>r PCode genommen
if ((_FsMode & 0x20) != 0) fs_protokoll_hfk_uds(1);
k=1;
while ( k < UW_SETS )
{
filewrite( "");
if ( UW_SETS > 2 )
{
inttostring(k,temp1);
filewrite( temp1 + ". Umweltsatz");
}
if ((_FsMode & 0x02) != 0) fs_protokoll_uwb_uds(k);
k=k+1;
}
if ((_FsMode & 0x04) != 0) fs_protokoll_art_uds(1);
if ((_FsMode & 0x04) != 0) fs_protokoll_art_e(1);
if ((_FsMode & 0x40) != 0) fs_protokoll_hex(1);
}
else
{
if ((_FsMode & 0x01) != 0)
{
filewrite( "");
StrArrayRead(f_ort_text_buffer,i,temp2);
filewrite("0x"+FS_CODE+" "+temp2);
}
INP1apiResultText(rc,JOB_MESSAGE, "JOB_MESSAGE", UW_SETS, "");
if (rc == TRUE)
filewrite( _ApiFsJobName+"_DETAIL: JobStatus: "+JOB_STATUS+" --> "+JOB_MESSAGE) ;
else filewrite( _ApiFsJobName+"_DETAIL: JobStatus: "+JOB_STATUS);
fs_protokoll_telantwort(UW_SETS);//Telegrammantwort zur Fehleranalyse mit ausgeben
}
}
else
{
if ((_FsMode & 0x01) != 0)
{
filewrite( "");
StrArrayRead(f_ort_text_buffer,i,temp2);
filewrite("0x"+FS_CODE+" "+temp2);
}
INP1apiErrorText(temp1);
filewrite( _ApiFsJobName+"_DETAIL: "+temp1);
}
i=i+1;
}
}
}
}
filewrite( "===============================================================================");
fileclose();
}
//BMW FAST:
else if ((rc == TRUE) && ( F_VERSION == 2 ))
{
getdate(temp1);
gettime(temp2);
INPAapiResultSets(SETS);
INPAapiResultText(VARIANTE, "VARIANTE", 0, "");
INPAapiResultText(JOB_STATUS, "JOB_STATUS", SETS, "");
fileopen ( _FileName, _FsFileMode);
if (_ApiFsJobName == "IS_LESEN")
{
filewrite( " I N F O S P E I C H E R L E S E N");
filewrite( " -----------------------------------");
}
else
if (_ApiFsJobName == "HS_LESEN")
{
filewrite( " H I S T O R I E N S P E I C H E R L E S E N");
filewrite( " ---------------------------------------------");
}
else
{
filewrite( " F E H L E R S P E I C H E R L E S E N");
filewrite( " ---------------------------------------");
}
filewrite("");
filewrite("Datum : "+temp1+" "+temp2);
if (_ecu != VARIANTE) filewrite("ECU : "+_ecu);
filewrite("JobStatus: "+JOB_STATUS);
filewrite("Variante : "+VARIANTE+".PRG");
filewrite("Version : "+sgbd_version);
filewrite( "-------------------------------------------------------------------------------");
if ( JOB_STATUS == "OKAY")
{
filewrite( "");
if (SETS == 1)
filewrite( " >>>>>>>>>> Kein Fehler gefunden <<<<<<<<<<<");
else
{
inttostring(SETS-1,temp1);
if ((SETS-1) < 10) temp1= " "+temp1;//Formatierung der Fehleranzahl, wenn sie kleiner 10 ist
filewrite( "ERGEBNIS : "+temp1+" Fehler im Fehlerspeicher!");
if ((_FsMode & 0x100) == 0)
{
i=1;
while ( i < SETS )
{
if (_FsMode != 0)
filewrite( "-------------------------------------------------------------------------------");
if ((_FsMode & 0x01) != 0) fs_protokoll_ort(i);
if ((_FsMode & 0x04) != 0) fs_protokoll_art(i);
if ((_FsMode & 0x40) != 0) fs_protokoll_hex(i);
i=i+1;
}
}
else
{
// Detail lesen
i=1;
StrArrayDelete(f_ort_nr_buffer);
StrArrayDelete(f_ort_text_buffer);
while ( i < SETS )
{
INP1apiResultText(rc,temp1, "F_ORT_TEXT", i, "");
if (rc != TRUE) temp1="????";
StrArrayWrite(f_ort_text_buffer,i,temp1);
INPAapiResultInt(x1, "F_ORT_NR", i);
inttohexstring(x1, 4, temp1);
StrArrayWrite(f_ort_nr_buffer,i,temp1);
i=i+1;
}
i=1;
while ( i < SETS )
{
if (_FsMode != 0)
filewrite( "-------------------------------------------------------------------------------");
StrArrayRead(f_ort_nr_buffer,i,FS_CODE);
INPAapiJob(_ecu, _ApiFsJobName+"_DETAIL", "0x"+FS_CODE, "");
INP1apiResultSets(rc, UW_SETS);
if (rc == TRUE)
{
INPAapiResultText(JOB_STATUS, "JOB_STATUS", UW_SETS, "");
if ( JOB_STATUS == "OKAY")
{
if ((_FsMode & 0x01) != 0) fs_protokoll_ort(1);
if ((_FsMode & 0x200) != 0) fs_protokoll_PCode(1);
if ((_FsMode & 0x400) != 0) fs_protokoll_PCode7(1);
if ((_FsMode & 0x20) != 0) fs_protokoll_hfk(1);
k=1;
while ( k < UW_SETS )
{
filewrite( "");
if ( UW_SETS > 2 )
{
inttostring(k,temp1);
filewrite( temp1 + ". Umweltsatz");
}
if ((_FsMode & 0x02) != 0) fs_protokoll_uwb(k);
k=k+1;
}
if ((_FsMode & 0x04) != 0) fs_protokoll_art(1);
if ((_FsMode & 0x04) != 0) fs_protokoll_art_e(1);
if ((_FsMode & 0x40) != 0) fs_protokoll_hex(1);
}
else
{
if ((_FsMode & 0x01) != 0)
{
filewrite( "");
StrArrayRead(f_ort_text_buffer,i,temp2);
filewrite( "0x"+FS_CODE+" "+temp2);
}
INP1apiResultText(rc,JOB_MESSAGE, "JOB_MESSAGE", UW_SETS, "");
if (rc == TRUE)
{
filewrite( _ApiFsJobName+"_DETAIL: JobStatus: "+JOB_STATUS+" --> "+JOB_MESSAGE) ;
}
else filewrite( _ApiFsJobName+"_DETAIL: JobStatus: "+JOB_STATUS);
fs_protokoll_telantwort(UW_SETS);//Telegrammantwort zur Fehleranalyse mit ausgeben
}
}
else
{
if ((_FsMode & 0x01) != 0)
{
filewrite( "");
StrArrayRead(f_ort_text_buffer,i,temp2);
filewrite( "0x"+FS_CODE+" "+temp2);
}
INP1apiErrorText(temp1);
filewrite( _ApiFsJobName+"_DETAIL: "+temp1);
}
i=i+1;
}
}
}
}
filewrite( "===============================================================================");
fileclose();
}
//DS2
else if (errorcode == 134)//134=SYS-0014: Result nicht gefunden: 'F_VERSION'
{
INPAapiFsLesen( _ecu, _FileName);
}
//Fehlerhafter Aufruf
else
{
INPAapiCheckJobStatus("OKAY");//Damit der Bediener die Fehlermeldung best<73>tigen mu<6D>
getdate(temp1);
gettime(temp2);
INP1apiErrorText(temp3);
fileopen ( _FileName, _FsFileMode);
if (_ApiFsJobName == "IS_LESEN")
{
filewrite( " I N F O S P E I C H E R L E S E N");
filewrite( " -----------------------------------");
}
else
if (_ApiFsJobName == "HS_LESEN")
{
filewrite( " H I S T O R I E N S P E I C H E R L E S E N");
filewrite( " ---------------------------------------------");
}
else
{
filewrite( " F E H L E R S P E I C H E R L E S E N");
filewrite( " ---------------------------------------");
}
filewrite( "");
filewrite( "Datum : "+temp1+" "+temp2);
filewrite( "ECU : "+_ecu);
filewrite( "JobStatus: "+JOB_STATUS+"-->"+temp3) ;
filewrite( "-------------------------------------------------------------------------------");
fileclose();
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Fehlerort f<>r DS2 und BMW Fast
//*
//**********************************************************************
fs_protokoll_ort(in: int nr)
{
int i;
int x1;
bool rc;
string temp1;
string temp2;
i=nr;
filewrite( "");
INP1apiResultInt(rc,x1, "F_ORT_NR", i);
if (rc == TRUE)
{
inttohexstring(x1, 4, temp1);
}
else
{
temp1="????";
}
INP1apiResultText(rc,temp2, "F_ORT_TEXT", i, "");
if (rc == TRUE)
{
filewrite( "0x"+temp1+" "+temp2);
}
else
{
filewrite( "0x"+temp1+" "+"????");
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Fehlerort f<>r UDS (ISO 14229)
//*
//**********************************************************************
fs_protokoll_ort_uds(in: int nr)
{
int i;
int len;
bool rc;
string temp1;
string temp2;
i=nr;
filewrite( "");
INP1apiResultBinary(rc,"F_HEX_CODE",i);//Fehlerort Nr. bei UDS: 3 Bytes, daher mit long arbeiten. (kein INPAapiResultText(temp1, "F_ORT_NR", i, "");....!) ...ergibt diese L<>sung
if (rc == TRUE)
{
if (_ApiFsJobName == "FS_LESEN")
{
GetBinaryDataString (temp1,len);
midstr(temp1,temp1,0,6);
}
else//IS_LESEN
{
GetBinaryDataString (temp1,len);
midstr(temp1,temp1,2,6);//Byte 0, Zeichen 0 und 1 sind das severity Byte!
}
}
else
{
temp1= "??????";
}
INP1apiResultText(rc,temp2, "F_ORT_TEXT", i, "");
if (rc == TRUE)
{
filewrite( "0x"+temp1+" "+temp2);
}
else
{
filewrite( "0x"+temp1+" "+"??????");
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe PCODE
//*
//**********************************************************************
fs_protokoll_PCode(in: int nr)
{
int i;
int x1;
bool rc;
string tempPcodeText;
string tempPcodeString;
string tempPcodeHex;
i=nr;
INP1apiResultText(rc,tempPcodeString, "F_PCODE_STRING", i,"");
if (rc == TRUE)
{
INP1apiResultText(rc,tempPcodeText, "F_PCODE_TEXT", i, "");
if (rc == TRUE)
{
INP1apiResultInt(rc,x1, "F_PCODE", i);
if (rc == TRUE)
{
inttohexstring(x1, 4, tempPcodeHex);
tempPcodeHex= "0x"+tempPcodeHex;
}
else
{
tempPcodeHex = "????";
}
}
else
{
tempPcodeText = "????";
}
if (tempPcodeString == "??")
{
filewrite( "");
filewrite( tempPcodeHex+" "+tempPcodeText);
}
else
{
if (tempPcodeString != "--")
{
filewrite( "");
filewrite( tempPcodeText);
}
}
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe PCODE7
//*
//**********************************************************************
fs_protokoll_PCode7(in: int nr)
{
int i;
int x1;
bool rc;
string tempPcode7Text;
string tempPcode7String;
string tempPcode7Hex;
i=nr;
INP1apiResultText(rc,tempPcode7String, "F_PCODE7_STRING", i,"");
if (rc == TRUE)
{
INP1apiResultText(rc,tempPcode7Text, "F_PCODE7_TEXT", i, "");
if (rc == TRUE)
{
INP1apiResultInt(rc,x1, "F_PCODE7", i);
if (rc == TRUE)
{
inttohexstring(x1, 4, tempPcode7Hex);
tempPcode7Hex= "0x"+tempPcode7Hex;
}
else
{
tempPcode7Hex = "????";
}
}
else
{
tempPcode7Text = "????";
}
if (tempPcode7String == "??")
{
filewrite( "");
filewrite( tempPcode7Hex+" "+tempPcode7Text);
}
else
{
if (tempPcode7String != "--")
{
filewrite( "");
filewrite( tempPcode7Text);
}
}
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe SAE Code f<>r UDS
//*
//**********************************************************************
fs_protokoll_SAECode(in: int nr)
{
int i;
int x1;
bool rc;
string tempSAECodeText;
string tempSAECodeString;
string tempSAECodeHex;
i=nr;
INP1apiResultText(rc,tempSAECodeString, "F_SAE_CODE_STRING", i,"");
if (rc == TRUE)
{
INP1apiResultText(rc,tempSAECodeText, "F_SAE_CODE_TEXT", i, "");
if (rc == TRUE)
{
INP1apiResultInt(rc,x1, "F_SAE_CODE", i);
if (rc == TRUE)
{
inttohexstring(x1, 4, tempSAECodeHex);
tempSAECodeHex= "0x"+tempSAECodeHex;
}
else
{
tempSAECodeHex = "????";
}
}
else
{
tempSAECodeText = "????";
}
if (tempSAECodeString == "??")
{
filewrite( "");
filewrite( tempSAECodeHex+" "+tempSAECodeText);
}
else
{
if (tempSAECodeString != "--")
{
filewrite( "");
filewrite( tempSAECodeText);
}
}
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Fehlerh<72>ufigkeit
//*
//**********************************************************************
fs_protokoll_hfk(in: int nr)
{
int i;
bool rc;
string temp1;
int f_hfk;
int f_lz;
i=nr;
filewrite( "");
INP1apiResultInt(rc,f_hfk,"F_HFK",i);
if (rc == FALSE) temp1 ="????";
if (temp1 !="-1")
{
inttostring(f_hfk,temp1);
if (f_hfk < 10) temp1= " "+temp1;//Formatierung der Nr der Fehlerh<72>ufigkeit, wenn sie kleiner 10 ist
filewrite( "Fehlerh<72>ufigkeit: "+ temp1);
}
INP1apiResultInt(rc,f_lz,"F_LZ",i);
if (rc == FALSE) temp1 ="????";
if (temp1 !="-1")
{
inttostring(f_lz,temp1);
if (f_lz < 10) temp1= " "+temp1;//Formatierung der Nr des Logistikz<6B>hlers, wenn sie kleiner 10 ist
filewrite( "Logistikz<6B>hler : "+ temp1);
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Fehlerh<72>ufigkeit f<>r UDS
//*
//**********************************************************************
fs_protokoll_hfk_uds(in: int nr)
{
int i;
int x1;
bool rc;
string temp1;
string temp2;
i=nr;
filewrite( "");
//FS <20>berlauf
INP1apiResultInt(rc,x1, "F_UEBERLAUF", i);
if ((rc == TRUE) && (x1==1))
{
filewrite( "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++");
if (_ApiFsJobName == "IS_LESEN")
filewrite("++++++++++++++++++++++++ Infospeicher ist <20>bergelaufen! +++++++++++++++++++++++");
else
filewrite("+++++++++++++++++++++++ Fehlerspeicher ist <20>bergelaufen! ++++++++++++++++++++++");
filewrite( "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++");
filewrite( "");
}
//Fehlerh<72>ufigkeit
INP1apiResultInt(rc,x1, "F_HFK", i);
if (rc == FALSE)
{
temp1 ="????";
}
else
{
if (x1 == -1)
{
temp1= "wird nicht unterst<73>tzt";
}
else
{
inttostring(x1,temp1);
if (x1 < 10) temp1= " "+temp1;//Formatierung der Nr der Fehlerh<72>ufigkeit, wenn sie kleiner 10 ist
}
}
filewrite( "Fehlerh<72>ufigkeit: "+ temp1);
//Heilungsz<73>hler
INP1apiResultInt(rc,x1, "F_HLZ", i);
if (rc == FALSE)
{
temp1 ="????";
}
else
{
if (x1 == -1)
{
temp1= "wird nicht unterst<73>tzt";
}
else
{
inttostring(x1,temp1);
if (x1 < 10) temp1= " "+temp1;//Formatierung des Heilungsz<73>hlers, wenn er kleiner 10 ist
}
}
filewrite( "Heilungsz<73>hler : "+ temp1);
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Fehlerarten
//*
//**********************************************************************
fs_protokoll_art(in: int nr)
{
int i;
bool rc;
string temp1;
i=nr;
filewrite( "");
INP1apiResultText(rc,temp1, "F_SYMPTOM_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
INP1apiResultText(rc,temp1, "F_READY_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
INP1apiResultText(rc,temp1, "F_VORHANDEN_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
INP1apiResultText(rc,temp1, "F_WARNUNG_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe erweiterte Fehlerarten
//*
//**********************************************************************
fs_protokoll_art_e(in: int nr)
{
int i;
int k;
int F_ART_ANZ;
bool rc;
string temp1;
string temp2;
i=nr;
INP1apiResultInt(rc,F_ART_ANZ, "F_ART_ANZ", i);
if (rc == TRUE)
{
if ( F_ART_ANZ > 0 )
{
k=0;
while ( k < F_ART_ANZ )
{
k = k + 1;
inttostring(k,temp2);
INP1apiResultText(rc,temp1, "F_ART"+temp2+"_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
}
}
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Fehlerarten f<>r UDS
//*
//**********************************************************************
fs_protokoll_art_uds(in: int nr)
{//Symptome entfallen bei UDS!
int i;
int x1;
bool rc;
string temp1;
i=nr;
filewrite( "");
INP1apiResultText(rc,temp1, "F_READY_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
INP1apiResultText(rc,temp1, "F_VORHANDEN_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
INP1apiResultText(rc,temp1, "F_WARNUNG_TEXT", i, "");
if (rc == FALSE) temp1 ="????";
if (temp1 !="--") filewrite( " "+ temp1);
//Neu bei UDS:
INP1apiResultInt(rc,x1, "F_EREIGNIS_DTC", i);
if (rc == TRUE)
{
if (x1==0)
{
filewrite(" Dies ist kein Ereignis DTC. Das SG ist f<>r den Fehlerspeicheintrag (DTC) verantwortlich.");
}
else if (x1==1)
{
filewrite(" Dies ein Ereignis DTC. Das SG ist somit nicht f<>r den Fehlereintrag (DTC) verantwortlich.");
filewrite(" Z.B. falsche oder fehlende Netzwerkinformationen.");
}
else
{
filewrite(" Fehler in SGBD! In Tabelle FOrtTexte, Spalte EREIGNIS_DTC mu<6D> 0 oder 1 stehen!");
}
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Umweltbedingungen
//*
//**********************************************************************
fs_protokoll_uwb(in: int nr)
{
int i;
int k;
int len;
int F_UW_ANZ;
bool rc;
string temp1;
string temp2;
string temp3;
real realval;
int pos;
i=nr;
/* INP1apiResultText(rc,temp1, "F_UW_ZEIT", i, "10T");
if (rc == FALSE)
{
temp1=" ????";
}
filewrite( " Absolute Zeit " + temp1+ " s");
*/
INP1apiResultText(rc,temp1, "F_UW_KM", i, "8L");
if (rc == FALSE) temp1=" ????";
if ((temp1 == "524280") && (ident_typ != 3)) temp1 = "-1";//Fehler<65>berlauf f<>r DS2 und BMW FAST, UDS liefert es von alleine
temp2 = "Kilometerstand ";
filewrite( " " + temp2 + temp1 + " km");
INP1apiResultInt(rc,F_UW_ANZ, "F_UW_ANZ", i);
if (rc == TRUE)
{
if ( F_UW_ANZ > 0 )
{
k=0;
while ( k < F_UW_ANZ )
{
k = k + 1;
inttostring(k,temp2);
INP1apiResultText(rc,temp3, "F_UW"+temp2+"_EINH", i, "");
if (rc == TRUE)
{
AnsiUpper(temp3,temp3);
}
else
{
temp3 = "????";
}
if ((temp3 == "0-N") || (temp3 == "HEX"))
{
INP1apiResultText(rc,temp1, "F_UW"+temp2+"_TEXT", i, "-20T");
if (rc == FALSE) temp1="???? ";
if (temp1 !="-- ") //"--" + 18 Zeichen
{
if ((_FsMode & 0x08) != 0)
{
INP1apiResultText(rc,temp3, "F_UW"+temp2+"_WERT", i, "28T");
if (rc == FALSE) temp3="???? ";
temp1 = temp1 + " " + temp3;
}
if ((_FsMode & 0x10) != 0)
{
INP1apiResultText(rc,temp3, "F_UW"+temp2+"_EINH", i, "");
if (rc == FALSE) temp3="????";
temp1 = temp1 + " " + temp3;
}
filewrite( " "+ temp1);
}
}
else
{
INP1apiResultText(rc,temp1, "F_UW"+temp2+"_TEXT", i, "-40T");
if (rc == FALSE) temp1="???? ";
if (temp1 !="-- ")
{
if ((_FsMode & 0x08) != 0)
{
INP1apiResultText(rc,temp3, "F_UW"+temp2+"_WERT", i, "8.2R");
if (rc == FALSE) temp3=" ???? ";
temp1 = temp1 + " " + temp3;
}
if ((_FsMode & 0x10) != 0)
{
INP1apiResultText(rc,temp3, "F_UW"+temp2+"_EINH", i, "");
if (rc == FALSE) temp3="????";
temp1 = temp1 + " " + temp3;
}
filewrite( " "+ temp1);
}
}
}
}
}
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Umweltbedingungen
//*
//**********************************************************************
fs_protokoll_uwb_uds(in: int nr)
{
int i;
// int k;
// int len;
// int F_UW_ANZ;
bool rc;
string temp1;
// string temp2;
// string temp3;
// real realval;
// int pos;
i=nr;
INP1apiResultText(rc,temp1, "F_UW_ZEIT", i, "10T");
if (rc == FALSE)
{
temp1=" ????";
}
filewrite( " Absolute Zeit " + temp1+ " s");
fs_protokoll_uwb(i);
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Hexcode
//*
//**********************************************************************
fs_protokoll_hex(in: int nr)
{
string nl;
int i;
int x1;
int x2;
int x3;
bool rc;
string temp1;
string temp2;
string temp3;
chr(10,nl);
i=nr;
filewrite( "");
INP1apiResultBinary(rc,"F_HEX_CODE", i);
if (rc == TRUE)
{
GetBinaryDataString (temp1, x1);
x2 = 0;
x3 = 0;
temp2="";
while ( x2 < x1 )
{
midstr(temp3, temp1, x2, 2);
temp2 = temp2 + temp3;
x2 = x2 + 2;
x3 = x3 + 1;
if ( x2 < x1 )
{
if ( x3 < 16 )//Leerzeichen zwischen den Bytes
{
if ( x3 == 8 )
temp2 = temp2 + " ";//Nach 8 Bytes zwei Leerz. dann wieder 8 Bytes schreiben
else temp2 = temp2 + " ";
}
else
{
x3 = 0;
temp2 = temp2 + nl + " ";
}
}
}
}
else
{
temp2 = "????";
}
filewrite( "Fehlercode: "+temp2);
}
//**********************************************************************
//*
//* Fehlerprotokollausgabe Telegrammantwort(en)
//* Wird nur bei Fehlerhaften FS_LESEN_DETAIL ausgegeben
//*
//**********************************************************************
fs_protokoll_telantwort(in: int nr)
{
string nl;
int i;
int x1;
int x2;
int x3;
bool rc;
string temp1;
string temp2;
string temp3;
string temp4;
string temp5;
chr(10,nl);
i=nr;
filewrite( "");
if (ident_typ == 3)//3=UDS (ISO 14229)
{
if (_ApiFsJobName == "FS_LESEN")
INP1apiResultBinary(rc,"_RESPONSE_SNAPSHOT", i);
else INP1apiResultBinary(rc,"_RESPONSE_2000", i);//IS_LESEN
}
else//1=DS2, 2=BMW Fast
{
INP1apiResultBinary(rc,"_TEL_ANTWORT", i);
}
if (rc == TRUE)
{
GetBinaryDataString (temp1, x1);
x2 = 0;
x3 = 0;
temp2="";
while ( x2 < x1 )
{
midstr(temp3, temp1, x2, 2);
temp2 = temp2 + temp3;
x2 = x2 + 2;
x3 = x3 + 1;
if ( x2 < x1 )
{
if ( x3 < 16 )//Leerzeichen zwischen den Bytes
{
if ( x3 == 8 )
temp2 = temp2 + " ";//Nach 8 Bytes zwei Leerz. dann wieder 8 Bytes schreiben
else temp2 = temp2 + " ";
}
else
{
x3 = 0;
temp2 = temp2 + nl + " ";
}
}
}
}
else
{
temp2 = "????--> Zur Analyse IFH-Trace benutzen!";
}
//2. Telegramm nur f<>r UDS ausgeben
if (ident_typ == 3)//3=UDS (ISO 14229)
{
if (_ApiFsJobName == "FS_LESEN")
INP1apiResultBinary(rc,"_RESPONSE_EXTENDED_DATA", i);
else INP1apiResultBinary(rc,"_RESPONSE_200X", i);//IS_LESEN
if (rc == TRUE)
{
GetBinaryDataString (temp1, x1);
x2 = 0;
x3 = 0;
temp4="";
while ( x2 < x1 )
{
midstr(temp3, temp1, x2, 2);
temp4 = temp4 + temp3;
x2 = x2 + 2;
x3 = x3 + 1;
if ( x2 < x1 )
{
if ( x3 < 16 )//Leerzeichen zwischen den Bytes
{
if ( x3 == 8 )
temp4 = temp4 + " ";//Nach 8 Bytes zwei Leerz. dann wieder 8 Bytes schreiben
else temp4 = temp4 + " ";
}
else
{
x3 = 0;
temp4 = temp4 + nl + " ";
}
}
}
}
else
{
temp4 = "????--> Zur Analyse IFH-Trace benutzen!";
}
filewrite("Telegramm-Antwort ab Service Identifier zur Analyse");
if (_ApiFsJobName == "FS_LESEN")
{
filewrite("Data : "+temp2);
filewrite("Snapshot : "+temp4);
}
else//IS_LESEN
{
filewrite("2000 : "+temp2);
filewrite("200X : "+temp4);
}
}
else//DS2, BMW Fast
{
filewrite("Telegramm-");
filewrite("Antwort : "+temp2);
}
}
// -- EOF --
// end of :#include "FS_LESEN.SRC"
// start of :#include "INITEXIT.SRC"
//**********************************************************************
//*
//* INPA Library-Funktionen INITEXIT.SRC
//*
//* mindestens INPA 5.0.1
//*
//**********************************************************************
//* Gall TI-430
//**********************************************************************
//* History:
//* 04.07.2000 rd V0.03 Ersterstellung
//* 25.04.2002 rd V1.00 Freigabe
//* 24.09.2002 rd V1.01 Scriptinit verlagert
//* 12.03.2003 iS V1.01 Anpassung SgbdInpaCheck()GroupCheck();
//* 16.02.2004 rd V2.00 Umstellung auf 32-Bit Version
//* 30.03.2006 GA V3.00 Erweiterung auf UDS (ISO 14229)
//* GA V3.00 INPA.INI, [EXTRA], SRIPTS auslesen, ob "deleteread" gesetzt,
//* GA V3.00 um nach FS- IS-, HS-L<>schen automatisch wieder zu lesen.
//**********************************************************************
// **************************
// *** inpainit, inpaexit ***
// **************************
inpainit()
{
bool rc;
string temp;
int i;
INPAapiInit();
chrinit();
// Handle f<>r FS_LESEN
StrArrayCreate(rc,f_ort_nr_buffer);
if (rc == FALSE)
{
messagebox("Unerwarteter Fehler", // sollte nie kommen
"StrArrayCreate(rc,f_ort_nr_buffer). "+CRLF+
"Das Programm wird abgebrochen!");
exit();
}
StrArrayCreate(rc,f_ort_text_buffer);
if (rc == FALSE)
{
messagebox("Unerwarteter Fehler", // sollte nie kommen
"StrArrayCreate(rc,f_ort_text_buffer). "+CRLF+
"Das Programm wird abgebrochen!");
exit();
}
SgbdInpaCheck();
GroupCheck();
setmenu(m_main);
setscreen(s_main,TRUE);
//INPA.INI einlesen,
//um nach FS- IS-, HS-L<>schen automatisch wieder zu lesen.
//hinter "SCRIPTS" mu<6D> DeleteRead stehen, um die Funktion freizuschalten
ExtraScript("DeleteRead", deleteread_flag);
//m FS,IS,HS zu speichern
ExtraScript("SaveAs", fs_lesen_save_as_flag);
is_lesen_save_as_flag=fs_lesen_save_as_flag;
hs_lesen_save_as_flag=fs_lesen_save_as_flag;
//INPA.INI-Einstellung, falls Funktionen gew<65>nscht:
//[EXTRA]
//SCRIPTS = DeleteRead,SaveAs
//Wichtig: Nach dem Komma kein Leerzeichen benutzen!
ScriptInit();
}
inpaexit()
{
INPAapiEnd();
// Handle f<>r FS_LESEN
StrArrayDestroy(f_ort_nr_buffer);
StrArrayDestroy(f_ort_text_buffer);
}
// -- EOF --
// end of :#include "INITEXIT.SRC"
// **************************
// *** Hauptmen<65> ***
// **************************
MENU m_main()
{
INIT {
setmenutitle("Hauptmen<65>");
if ((ident_typ == 1)||(ident_typ == 2)) //DS2 oder BMW FAST
{
setitem(2, "Ident", TRUE);
}
else
{
setitem(2, "SVK", TRUE);//ISO 14229
}
if ((fs_lesen_flag == TRUE) ||
(is_lesen_flag == TRUE) ||
(hs_lesen_flag == TRUE))
{
setitem( 4 , "Fehler" , TRUE);
}
if (m_status_flag == TRUE)
{
setitem( 5 , "Status" , TRUE);
}
if (m_steuern_flag == TRUE)
{
setitem( 6 , "Steuern" , TRUE);
}
if (speicher_lesen_flag == TRUE)
{
setitem( 7 , "Speicher" , TRUE);
}
}
ITEM( 1 ,"Info") {
userboxclose(1);
setscreen(s_info,TRUE);
}
ITEM( 2 ,"Ident") {
userboxclose(1);
if (ident_typ == 1)
setscreen(s_ident_ds2,TRUE);
else if (ident_typ == 2)
setscreen(s_ident,TRUE);
else setscreen(s_svk_lesen,TRUE);
}
ITEM( 3 ,"") {
userboxclose(1);
setscreen(s_main,TRUE);
}
ITEM( 4 ,"") {
userboxclose(1);
if ((fs_lesen_flag == TRUE) ||
(is_lesen_flag == TRUE) ||
(hs_lesen_flag == TRUE))
{
setscreen( s_fehler ,TRUE);
setmenu(m_fehler);
}
else
setscreen( s_main ,TRUE);
}
ITEM( 5 ,"") {
userboxclose(1);
if (m_status_flag == TRUE)
{
setscreen(s_status,TRUE);
setmenu(m_status);
}
else
setscreen( s_main ,TRUE);
}
ITEM( 6 ,"") {
userboxclose(1);
if (m_steuern_flag == TRUE)
{
setscreen(s_steuern,TRUE);
setmenu(m_steuern);
}
else
setscreen( s_main ,TRUE);
}
ITEM( 7 ,"") {
userboxclose(1);
if (speicher_lesen_flag == TRUE)
{
setscreen(s_speicher,TRUE);
setmenu(m_speicher);
}
else
setscreen( s_main ,TRUE);
}
ITEM( 8 ,"Auswahl") {
start();
select(TRUE);
}
ITEM(18 ,"Gesamt") {
start();
deselect();
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Ende") {
exit();
}
ITEM( 11, "KVP") {
setscreen(s_info,TRUE);
callwin( "kvp_edit "+titel+";"+version+";"+sgbd+": "+sgbd_ecu+";"+sgbd_revision);
}
ITEM( 12 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 13 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 14 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 15 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 16 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 17 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 19 ,"") {
setscreen( s_main ,TRUE);
}
ITEM( 20 ,"Exit") {
exit();
}
}
// **************************
// *** Fehlermen<65> ***
// **************************
MENU m_fehler()
{
int ErrorCode;
int SpeicherUnterDateiNameLaenge=0;
int ReturnedValue;
string CurrentDirectory;
string SpeichernKommentar1="";
string SpeichernKommentar2="";
string SpeicherUnterDateiName="";
string DateiLesenZeile="";
string DateiLesenPuffer="";
bool DateiLesenEOF;
string DateiName="";
int aufrufIO;
string JOB_STATUS;
bool fehlerflag;
INIT {
setmenutitle("Fehlerspeicher");
if (fs_lesen_flag == TRUE)
{
setitem( 1 , "FS lesen" , TRUE);
setitem( 2 , "FS l<>schen" , TRUE);
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 3 , "IS lesen" , TRUE);
if (is_loeschen_flag == TRUE)
setitem( 4 , "IS l<>schen" , TRUE);
else setitem( 4 , "" , FALSE);//Nicht alle SGs haben IS_LOESCHEN. Z.B. EPS_90.PRG
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 5 , "HS lesen" , TRUE);
if (hs_loeschen_flag == TRUE)
setitem( 6 , "HS l<>schen" , TRUE);
else setitem( 6 , "" , FALSE);//Nicht alle SGs haben HS_LOESCHEN. Z.B. EPS_90.PRG
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
}
ITEM( 1 ,"") {
userboxclose(0);
viewclose();
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
if (fs_lesen_flag == TRUE)
{
userboxopen(0,8,35,5,50,"Fehlerspeicher lesen","");
userboxftextout(0,"Der Fehlerspeicher wird gelesen! ... bitte warten",1,3,0,0);
INPAapiFsMode_neu(0x7FF,"w","","",""); // alles Anzeigen
INPAapiFsLesen_neu(sgbd,"na_fs.tmp");
userboxclose(0);
DateiName="na_fs.tmp";
viewopen(DateiName,"Fehlerspeicher lesen");
setitem( 9 , "FS drucken" , TRUE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", TRUE);
}
}
ITEM( 2 ,"") {
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
if (fs_lesen_flag == TRUE)
{
INPAapiJob(sgbd,"FS_LOESCHEN","","");
INP1apiResultText(fehlerflag,JOB_STATUS, "JOB_STATUS", 1, "");
if (JOB_STATUS != "OKAY")
{
userboxopen(0,8,35,5,50,"Fehlerspeicher l<>schen","");
userboxftextout(0,"Der Fehlerspeicher konnte nicht gel<65>scht werden!",1,3,0,0);
userboxsetcolor(0,1,4);
INPAapiCheckJobStatus("OKAY");
}
else
{
userboxopen(0,8,35,5,50,"Fehlerspeicher l<>schen","");
userboxftextout(0,"Der Fehlerspeicher wurde gel<65>scht!",1,3,0,0);
if (deleteread_flag == TRUE) // Aktivierung <20>ber INPA.INI, SCRIPTS = DeleteRead
{
delay(2000);
userboxclose(0);
userboxopen(0,8,35,5,50,"Fehlerspeicher lesen","");
userboxftextout(0,"Der Fehlerspeicher wird gelesen! ... bitte warten",1,3,0,0);
INPAapiFsMode_neu(0x7FF,"w","","",""); // alles Anzeigen
INPAapiFsLesen_neu(sgbd,"na_fs.tmp");
userboxclose(0);
DateiName="na_fs.tmp";
viewopen(DateiName,"Fehlerspeicher lesen");
setitem( 9 , "FS drucken" , TRUE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", TRUE);
}
}
}
}
ITEM( 3 ,"") {
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
userboxopen(0,8,35,5,50,"Infospeicher lesen","");
userboxftextout(0,"Der Infospeicher wird gelesen! ... bitte warten",1,3,0,0);
INPAapiFsMode_neu(0x7FF,"w","","","IS_LESEN"); // alles Anzeigen
INPAapiFsLesen_neu(sgbd,"na_fs.tmp");
userboxclose(0);
DateiName="na_fs.tmp";
viewopen(DateiName,"Infospeicher lesen");
setitem( 8 , "IS drucken" , TRUE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", TRUE);
}
}
ITEM( 4 ,"") {
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
if (is_loeschen_flag == TRUE)
{
INPAapiJob(sgbd,"IS_LOESCHEN","","");
INP1apiResultText(fehlerflag,JOB_STATUS, "JOB_STATUS", 1, "");
if (JOB_STATUS != "OKAY")
{
userboxopen(0,8,35,5,50,"Infospeicher l<>schen","");
userboxftextout(0,"Der Infospeicher konnte nicht gel<65>scht werden!",1,3,0,0);
userboxsetcolor(0,1,4);
INPAapiCheckJobStatus("OKAY");
}
else
{
userboxopen(0,8,35,5,50,"Infospeicher l<>schen","");
userboxftextout(0,"Der Infospeicher wurde gel<65>scht!",1,3,0,0);
if (deleteread_flag == TRUE) // Aktivierung <20>ber INPA.INI, SCRIPT = deleteread
{
delay(2000);
userboxclose(0);
userboxopen(0,8,35,5,50,"Infospeicher lesen","");
userboxftextout(0,"Der Infospeicher wird gelesen! ... bitte warten",1,3,0,0);
INPAapiFsMode_neu(0x7FF,"w","","","IS_LESEN"); // alles Anzeigen
INPAapiFsLesen_neu(sgbd,"na_fs.tmp");
userboxclose(0);
DateiName="na_fs.tmp";
viewopen(DateiName,"Infospeicher lesen");
setitem( 8 , "IS drucken" , TRUE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", TRUE);
}
}
}
}
ITEM( 5 ,"") {
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
userboxopen(0,8,35,5,50,"Historienspeicher lesen","");
userboxftextout(0,"Der Historienspeicher wird gelesen! ... bitte warten",1,3,0,0);
INPAapiFsMode_neu(0x7FF,"w","","","HS_LESEN"); // alles Anzeigen
INPAapiFsLesen_neu(sgbd,"na_fs.tmp");
userboxclose(0);
DateiName="na_fs.tmp";
viewopen(DateiName,"Historienspeicher lesen");
setitem( 7 , "HS drucken" , TRUE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", TRUE);
}
}
ITEM( 6 ,"") {
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
if (hs_loeschen_flag == TRUE)
{
INPAapiJob(sgbd,"HS_LOESCHEN","","");
INP1apiResultText(fehlerflag,JOB_STATUS, "JOB_STATUS", 1, "");
if (JOB_STATUS != "OKAY")
{
userboxopen(0,8,35,5,50,"Historienspeicher l<>schen","");
userboxftextout(0,"Der Historienspeicher konnte nicht gel<65>scht werden!",1,3,0,0);
userboxsetcolor(0,1,4);
INPAapiCheckJobStatus("OKAY");
}
else
{
userboxopen(0,8,35,5,50,"Historienspeicher l<>schen","");
userboxftextout(0,"Der Historienspeicher wurde gel<65>scht!",1,3,0,0);
if (deleteread_flag == TRUE) // Aktivierung <20>ber INPA.INI, SCRIPT = deleteread
{
delay(2000);
userboxclose(0);
userboxopen(0,8,35,5,50,"Historienspeicher lesen","");
userboxftextout(0,"Der Historienspeicher wird gelesen! ... bitte warten",1,3,0,0);
INPAapiFsMode_neu(0x7FF,"w","","","HS_LESEN"); // alles Anzeigen
INPAapiFsLesen_neu(sgbd,"na_fs.tmp");
userboxclose(0);
DateiName="na_fs.tmp";
viewopen(DateiName,"Historienspeicher lesen");
setitem( 7 , "HS drucken" , TRUE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", TRUE);
}
}
}
}
ITEM( 7 ,"") {
if (hs_lesen_flag == TRUE)
{
printfile(ErrorCode, DateiName, "", "",TRUE);
}
else
{
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
}
}
ITEM( 8 ,"") {
if (is_lesen_flag == TRUE)
{
printfile(ErrorCode, DateiName, "", "",TRUE);
}
else
{
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
}
}
ITEM( 9 ,"") {
if (fs_lesen_flag == TRUE)
{
printfile(ErrorCode, DateiName, "", "",TRUE);
}
else
{
userboxclose(0);
viewclose();
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
}
}
ITEM(17 ,"") {
if ((hs_lesen_flag == TRUE) && (hs_lesen_save_as_flag == TRUE))
{
input2text(SpeichernKommentar1,SpeichernKommentar2,
"Kommentar",
"Geben Sie den zu speichernden Kommentar ein",
"","");
getinputstate(input_state);
if (input_state==input_ok)
{
space(SpeicherUnterDateiName,256);
strlen(SpeicherUnterDateiNameLaenge,SpeicherUnterDateiName);
GetCurrentDirectory(256,CurrentDirectory,ReturnedValue);
SaveAsDialogBox("",SpeicherUnterDateiName,SpeicherUnterDateiNameLaenge,SpeicherUnterDateiNameLaenge);
SetCurrentDirectory(CurrentDirectory,ReturnedValue);
if (SpeicherUnterDateiNameLaenge > 0)
{
DateiLesenPuffer="";
fileopen("na_fs.tmp","r");
fileread(DateiLesenZeile, DateiLesenEOF );
while (DateiLesenEOF == FALSE)
{
DateiLesenPuffer=DateiLesenPuffer+DateiLesenZeile;
fileread(DateiLesenZeile, DateiLesenEOF );
if (DateiLesenEOF == FALSE) DateiLesenPuffer=DateiLesenPuffer+LF;
}
fileclose();
DateiName=SpeicherUnterDateiName;
fileopen(DateiName,"w");
if (SpeichernKommentar1 + SpeichernKommentar2 != "")
{
filewrite( " K O M M E N T A R");
filewrite( " -----------------");
filewrite( "");
if (SpeichernKommentar1 != "") filewrite(SpeichernKommentar1);
if (SpeichernKommentar2 != "") filewrite(SpeichernKommentar2);
filewrite( "-------------------------------------------------------------");
filewrite("");
}
filewrite(DateiLesenPuffer);
fileclose();
viewclose();
viewopen(DateiName,"Historienspeicher speichern: "+DateiName);
}
}
}
else
{
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
}
}
}
ITEM(18 ,"") {
if ((is_lesen_flag == TRUE) && (is_lesen_save_as_flag == TRUE))
{
input2text(SpeichernKommentar1,SpeichernKommentar2,
"Kommentar",
"Geben Sie den zu speichernden Kommentar ein",
"","");
getinputstate(input_state);
if (input_state==input_ok)
{
space(SpeicherUnterDateiName,256);
strlen(SpeicherUnterDateiNameLaenge,SpeicherUnterDateiName);
GetCurrentDirectory(256,CurrentDirectory,ReturnedValue);
SaveAsDialogBox("",SpeicherUnterDateiName,SpeicherUnterDateiNameLaenge,SpeicherUnterDateiNameLaenge);
SetCurrentDirectory(CurrentDirectory,ReturnedValue);
if (SpeicherUnterDateiNameLaenge > 0)
{
DateiLesenPuffer="";
fileopen("na_fs.tmp","r");
fileread(DateiLesenZeile, DateiLesenEOF );
while (DateiLesenEOF == FALSE)
{
DateiLesenPuffer=DateiLesenPuffer+DateiLesenZeile;
fileread(DateiLesenZeile, DateiLesenEOF );
if (DateiLesenEOF == FALSE) DateiLesenPuffer=DateiLesenPuffer+LF;
}
fileclose();
DateiName=SpeicherUnterDateiName;
fileopen(DateiName,"w");
if (SpeichernKommentar1 + SpeichernKommentar2 != "")
{
filewrite( " K O M M E N T A R");
filewrite( " -----------------");
filewrite( "");
if (SpeichernKommentar1 != "") filewrite(SpeichernKommentar1);
if (SpeichernKommentar2 != "") filewrite(SpeichernKommentar2);
filewrite( "-------------------------------------------------------------");
filewrite("");
}
filewrite(DateiLesenPuffer);
fileclose();
viewclose();
viewopen(DateiName,"Infospeicher speichern: "+DateiName);
}
}
}
else
{
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
if (fs_lesen_save_as_flag == TRUE) setitem(19 , "FS speichern", FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
}
}
ITEM(19 ,"") {
if ((fs_lesen_flag == TRUE) && (fs_lesen_save_as_flag == TRUE))
{
input2text(SpeichernKommentar1,SpeichernKommentar2,
"Kommentar",
"Geben Sie den zu speichernden Kommentar ein",
"","");
getinputstate(input_state);
if (input_state==input_ok)
{
space(SpeicherUnterDateiName,256);
strlen(SpeicherUnterDateiNameLaenge,SpeicherUnterDateiName);
GetCurrentDirectory(256,CurrentDirectory,ReturnedValue);
SaveAsDialogBox("",SpeicherUnterDateiName,SpeicherUnterDateiNameLaenge,SpeicherUnterDateiNameLaenge);
SetCurrentDirectory(CurrentDirectory,ReturnedValue);
if (SpeicherUnterDateiNameLaenge > 0)
{
DateiLesenPuffer="";
fileopen("na_fs.tmp","r");
fileread(DateiLesenZeile, DateiLesenEOF );
while (DateiLesenEOF == FALSE)
{
DateiLesenPuffer=DateiLesenPuffer+DateiLesenZeile;
fileread(DateiLesenZeile, DateiLesenEOF );
if (DateiLesenEOF == FALSE) DateiLesenPuffer=DateiLesenPuffer+LF;
}
fileclose();
DateiName=SpeicherUnterDateiName;
fileopen(DateiName,"w");
if (SpeichernKommentar1 + SpeichernKommentar2 != "")
{
filewrite( " K O M M E N T A R");
filewrite( " -----------------");
filewrite( "");
if (SpeichernKommentar1 != "") filewrite(SpeichernKommentar1);
if (SpeichernKommentar2 != "") filewrite(SpeichernKommentar2);
filewrite( "-------------------------------------------------------------");
filewrite("");
}
filewrite(DateiLesenPuffer);
fileclose();
viewclose();
viewopen(DateiName,"Fehlerspeicher speichern: "+DateiName);
}
}
}
else
{
userboxclose(0);
viewclose();
if (fs_lesen_flag == TRUE)
{
setitem( 9 , "FS drucken" , FALSE);
}
if (is_lesen_flag == TRUE)
{
setitem( 8 , "IS drucken" , FALSE);
if (is_lesen_save_as_flag == TRUE) setitem(18 , "IS speichern", FALSE);
}
if (hs_lesen_flag == TRUE)
{
setitem( 7 , "HS drucken" , FALSE);
if (hs_lesen_save_as_flag == TRUE) setitem(17 , "HS speichern", FALSE);
}
}
}
ITEM( 10 ,"Zur<75>ck") {
userboxclose(0);
viewclose();
setscreen( s_main ,TRUE);
setmenu( m_main );
}
ITEM( 20 ,"Exit") {
userboxclose(0);
viewclose();
exit();
}
}
// **************************
// *** Speichermen<65> ***
// **************************
MENU m_speicher()
{
int input_ok=0;
int input_state;
string text_var;
INIT {
setmenutitle("Speicher lesen");
if (speicher_lesen_lar_flag==TRUE) setitem( 1 , "LAR" , TRUE);
if (speicher_lesen_flash_flag==TRUE) setitem( 2 , "FLASH", TRUE);
if (speicher_lesen_uifm_flag==TRUE) setitem( 3 , "UIFM" , TRUE);
if (speicher_lesen_romi_flag==TRUE) setitem( 4 , "ROMI" , TRUE);
if (speicher_lesen_ramis_flag==TRUE) setitem( 5 , "RAMIS", TRUE);
if (speicher_lesen_ramil_flag==TRUE) setitem( 6 , "RAMIL", TRUE);
if (speicher_lesen_nvram_flag==TRUE) setitem( 7 , "NVRAM", TRUE);
if (speicher_lesen_romx_flag==TRUE) setitem(14 , "ROMX" , TRUE);
if (speicher_lesen_ramxx_flag==TRUE) setitem(15 , "RAMXX", TRUE);
}
ITEM( 1 ,"") {
if (speicher_lesen_lar_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"LAR lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="LAR lesen";
speicher_lesen_seg_adr_anz="LAR;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 2 ,"") {
if (speicher_lesen_flash_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"FLASH lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="FLASH lesen";
speicher_lesen_seg_adr_anz="FLASH;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 3 ,"") {
if (speicher_lesen_uifm_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"UIFM lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="UIFM lesen";
speicher_lesen_seg_adr_anz="UIFM;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 4 ,"") {
if (speicher_lesen_romi_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"ROMI lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="ROMI lesen";
speicher_lesen_seg_adr_anz="ROMI;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 5 ,"") {
if (speicher_lesen_ramis_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"RAMIS lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="RAMIS lesen";
speicher_lesen_seg_adr_anz="RAMIS;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 6 ,"") {
if (speicher_lesen_ramil_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"RAMIL lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="RAMIL lesen";
speicher_lesen_seg_adr_anz="RAMIL;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 7 ,"") {
if (speicher_lesen_nvram_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"NVRAM lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="NVRAM lesen";
speicher_lesen_seg_adr_anz="NVRAM;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 8 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen( s_main ,TRUE);
setmenu( m_main );
}
ITEM( 11 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 12 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 13 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 14 ,"") {
if (speicher_lesen_romx_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"ROMX lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="ROMX lesen";
speicher_lesen_seg_adr_anz="ROMX;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 15 ,"") {
if (speicher_lesen_ramxx_flag==TRUE)
{
input2hexnum(speicher_lesen_adresse,speicher_lesen_anzahl,"RAMXX lesen",
"Es ist darauf zu achten, "+
"da<64> die angegebene Adresse + Anzahl "+
"der zu lesenden Bytes die Obergrenze "+
"(FFFFFF) nicht <20>berschreitet.",
"Adresse 000000-FFFFFF","Anzahl der Bytes 1-200","000000","FFFFFF",1,200);
getinputstate(input_state);
if (input_state==input_ok)
{
speicher_lesen_text="RAMXX lesen";
speicher_lesen_seg_adr_anz="RAMXX;"+speicher_lesen_adresse;
inttostring(speicher_lesen_anzahl,text_var);
speicher_lesen_seg_adr_anz=speicher_lesen_seg_adr_anz+";"+text_var;
setscreen(s_speicher_ausgabe,TRUE);
}
}
else
setscreen(s_speicher,TRUE);
}
ITEM( 16 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 17 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 18 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 19 ,"") {
setscreen( s_speicher,TRUE);
}
ITEM( 20 ,"Exit") {
exit();
}
}
// **************************
// *** Hauptscreen ***
// **************************
SCREEN s_main()
{
string text_var;
userboxclose(0);
ftextout("Hauptmen<65>",1,0,1,0);
ftextout("",3,0,0,0);
if (simulation_flag == TRUE)
{
userboxopen(1,14,30,5,48,"Hinweis","");
userboxftextout(1,"INPA bzw. EDIABAS l<>uft im Simulationsmodus!",1,3,0,24);
userboxsetcolor(1,0,4);
}
if (ident_typ != 3)
{
INPAapiJob(sgbd,"IDENT","","");
INPAapiCheckJobStatus("OKAY");
}
LINE("","")
{
if (ident_typ != 3)//Nur bei DS2 und BMW Fast vorhanden
{
ftextout("BMW Teilenummer",1,0,0,0);
ftextout(":",1,19,0,0);
INPAapiResultText(text_var,"ID_BMW_NR",1,"");
ftextout(text_var,1,20,0,1);
ftextout("Herstelldatum",1,43,0,0);
ftextout(":",1,59,0,0);
if (ident_typ == 1)//DS2
{
ftextout("KW / Jahr",1,68,0,0);
ftextout("/",1,63,0,1);
INPAapiResultText(text_var,"ID_DATUM_KW",1,"");
ftextout(text_var,1,60,0,1);
INPAapiResultText(text_var,"ID_DATUM_JAHR",1,"");
ftextout(text_var,1,65,0,1);
}
else if (ident_typ == 2)//BMW FAST
{
INPAapiResultText(text_var,"ID_DATUM",1,"");
ftextout(text_var,1,60,0,1);
}
}
ftextout("< F1 > Information" , 4,5,0,1);
if ((ident_typ == 1)||(ident_typ == 2)) //DS2 oder BMW FAST
{
ftextout("< F2 > Identifikation" , 6,5,0,1);
}
else
{
ftextout("< F2 > Steuerger<65>teverbaukennung" , 6,5,0,1);//UDS (ISO 14229)
}
if ((fs_lesen_flag == TRUE) ||
(is_lesen_flag == TRUE) ||
(hs_lesen_flag == TRUE))
ftextout("< F4 > Fehlerspeicher" ,10,5,0,1);
if (m_status_flag == TRUE)
ftextout("< F5 > Status lesen" ,12,5,0,1);
if (m_steuern_flag == TRUE)
ftextout("< F6 > Ansteuern" ,14,5,0,1);
if (speicher_lesen_flag == TRUE)
ftextout("< F7 > Speicher lesen" ,16,5,0,1);
ftextout("< F8 > Auswahl" ,18,5,0,1);
ftextout("< F9 > Bildschirmdruck" ,20,5,0,1);
ftextout("< F10> Ende" ,22,5,0,1);
ftextout("<Shift> + < F1 > KVP-Editor" , 4,45,0,1);
ftextout("<Shift> + < F8 > Gesamt" ,18,45,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
// **************************
// *** Infoscreen ***
// **************************
SCREEN s_info ()
{
int i;
int slen;
int pos;
int pos2;
int anzahl;
string temp;
ftextout("Information",1,0,1,0);
ftextout("Nacharbeitsprogramm",4,0,0,0); ftextout(":", 4,33,0,1); ftextout(titel,4,35,0,1);
ftextout("Version",5,1,0,0); ftextout(":", 5,33,0,1); ftextout(version,5,35,0,1);
ftextout("Package",6,1,0,0); ftextout(":", 6,33,0,1); ftextout(package,6,35,0,1);
ftextout("Verantwortung",7,1,0,0); ftextout(":", 7,33,0,1); ftextout(origin,7,35,0,1);
ftextout("Gruppendatei",10,0,0,0); ftextout(":",10,33,0,1); ftextout(gruppe,10,35,0,1);
ftextout("Bezeichnung",11,1,0,0); ftextout(":",11,33,0,1); ftextout(gruppe_ecu,11,35,0,1);
ftextout("Version",12,1,0,0); ftextout(":",12,33,0,1); ftextout(gruppe_revision,12,35,0,1);
ftextout("Verantwortung",13,1,0,0); ftextout(":",13,33,0,1); ftextout(gruppe_origin,13,35,0,1);
ftextout("Identifizierbare SGBD'en",14,1,0,0);
strlen(slen, gruppe_comment);
anzahl=44;
pos=0;
if ( slen <= anzahl )
{
ftextout(":",14,33,0,1); ftextout(gruppe_comment,14,35,0,1);
}
else
{
instr(pos2, anzahl, gruppe_comment, ",");
if (pos2 > 0) anzahl=pos2+1;
midstr(temp, gruppe_comment, pos, anzahl); ftextout(":",14,33,0,1); ftextout(temp,14,35,0,1);
i=14;
pos=pos+anzahl;
while ( pos < slen )
{
i=i+1;
anzahl=75;
instr(pos2, pos + anzahl, gruppe_comment, ",");
if (pos2 > 0) anzahl=pos2+1-pos;
midstr(temp, gruppe_comment, pos, anzahl); ftextout(temp,i,1,0,1);
pos=pos+anzahl;
if ( i >= 18 )
{
if ( pos < slen ) ftextout(temp+" . . .",i,1,0,1);
pos=slen;
}
}
}
ftextout("Steuerger<65>tebeschreibungsdatei",21,0,0,0); ftextout(":",21,33,0,1); ftextout(sgbd,21,35,0,1);
ftextout("Steuerger<65>t",22,1,0,0); ftextout(":",22,33,0,1); ftextout(sgbd_ecu,22,35,0,1);
ftextout("Version",23,1,0,0); ftextout(":",23,33,0,1); ftextout(sgbd_revision,23,35,0,1);
ftextout("Package",24,1,0,0); ftextout(":",24,33,0,1); ftextout(sgbd_package,24,35,0,1);
ftextout("Verantwortung",25,1,0,0); ftextout(":",25,33,0,1); ftextout(sgbd_origin,25,35,0,1);
ftextout("Sprache",26,1,0,0); ftextout(":",26,33,0,1); ftextout(sgbd_sprache,26,35,0,1);
if (sgbd_comment!="")
{
ftextout("Kommentar",27,1,0,0);
ftextout(":",27,33,0,1);
ftextout(sgbd_comment,27,35,0,1);
}
}
// **************************
// *** Identscreen DS2 ***
// **************************
SCREEN s_ident_ds2()
{
ftextout("Identifikation",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"IDENT","","");
INPAapiCheckJobStatus("OKAY");
LINE("","")
{
ftextout("BMW Teilenummer",1,0,1,0);
ftextout(":",1,33,1,0);
INPAapiResultText(text_var,"ID_BMW_NR",1,"");
ftextout(text_var,1,35,1,1);
ftextout("Hardwarenummer",4,0,1,0);
ftextout(":",4,33,1,0);
INPAapiResultText(text_var,"ID_HW_NR",1,"");
ftextout(text_var,4,35,1,1);
ftextout("Softwarenummer",7,0,1,0);
ftextout(":",7,33,1,0);
INPAapiResultText(text_var,"ID_SW_NR",1,"");
ftextout(text_var,7,35,1,1);
ftextout("Lieferant",10,0,1,0);
ftextout(":",10,33,1,0);
INPAapiResultText(text_var,"ID_LIEF_TEXT",1,"");
ftextout(text_var,10,35,1,1);
ftextout("Codier-Index",13,0,1,0);
ftextout(":",13,33,1,0);
INPAapiResultText(text_var,"ID_COD_INDEX",1,"");
ftextout(text_var,13,35,1,1);
ftextout("Diagnose-Index",16,0,1,0);
ftextout(":",16,33,1,0);
INPAapiResultText(text_var,"ID_DIAG_INDEX",1,"");
ftextout(text_var,16,35,1,1);
ftextout("Bus-Index",19,0,1,0);
ftextout(":",19,33,1,0);
INPAapiResultText(text_var,"ID_BUS_INDEX",1,"");
ftextout(text_var,19,35,1,1);
ftextout("Herstelldatum",22,0,1,0);
ftextout(":",22,33,1,0);
ftextout("KW / Jahr",22,55,1,0);
ftextout("/",22,41,1,1);
INPAapiResultText(text_var,"ID_DATUM_KW",1,"");
ftextout(text_var,22,35,1,1);
INPAapiResultText(text_var,"ID_DATUM_JAHR",1,"");
ftextout(text_var,22,45,1,1);
}
}
// ****************************
// *** Identscreen BMW Fast ***
// ****************************
SCREEN s_ident()
{
string text_var;
int ganz_zahl;
string job_status="???"; // f<>r Job_Statuskontrolle
bool fehlerflag; // Fehlerflag
int errorcode; // EDIABAS Fehlernummer
string errorcode_text; // EDIABAS Fehlernummer
string error_text; // EDIABAS Fehlertext
ftextout("Identifikation",1,0,1,0);
ftextout("",3,0,0,1);
LINE("Identifikation","")
{
INPAapiJob(sgbd,"IDENT","","");
INPAapiCheckJobStatus("OKAY");
ftextout("BMW Teilenummer",1,0,0,0);
ftextout(":",1,43,0,0);
INPAapiResultText(text_var,"ID_BMW_NR",1,"");
ftextout(text_var,1,45,0,1);
ftextout("Codier-Index",3,0,0,0);
ftextout(":",3,43,0,0);
INPAapiResultText(text_var,"ID_COD_INDEX",1,"");
ftextout(text_var,3,45,0,1);
ftextout("Varianten-Index",5,0,0,0);
ftextout(":",5,43,0,0);
INPAapiResultText(text_var,"ID_VAR_INDEX",1,"");
ftextout(text_var,5,45,0,1);
ftextout("Diagnose-Index",7,0,0,0);
ftextout(":",7,43,0,0);
INPAapiResultText(text_var,"ID_DIAG_INDEX",1,"");
ftextout(text_var,7,45,0,1);
ftextout("Hardwarenummer",9,0,0,0);
ftextout(":",9,43,0,0);
INPAapiResultText(text_var,"ID_HW_NR",1,"");
ftextout(text_var,9,45,0,1);
ftextout("Softwarenummer Funktionssoftware",11,0,0,0);
ftextout(":",11,43,0,0);
INPAapiResultText(text_var,"ID_SW_NR_FSV",1,"");
ftextout(text_var,11,45,0,1);
ftextout("Softwarenummer Betriebssystem",13,0,0,0);
ftextout(":",13,43,0,0);
INPAapiResultText(text_var,"ID_SW_NR_OSV",1,"");
ftextout(text_var,13,45,0,1);
ftextout("Softwarenummer Nachrichtenkatalog",15,0,0,0);
ftextout(":",15,43,0,0);
INPAapiResultText(text_var,"ID_SW_NR_MCV",1,"");
ftextout(text_var,15,45,0,1);
ftextout("Softwarenummer (Reserve) Zur Zeit nicht benutzt",17,0,0,0);
ftextout(":",17,43,0,0);
INPAapiResultText(text_var,"ID_SW_NR_RES",1,"");
ftextout(text_var,17,45,0,1);
ftextout("Herstelldatum",19,0,0,0);
ftextout(":",19,43,0,0);
INPAapiResultText(text_var,"ID_DATUM",1,"");
ftextout(text_var,19,45,0,1);
ftextout("Lieferant",21,0,0,0);
ftextout(":",21,43,0,0);
INPAapiResultText(text_var,"ID_LIEF_TEXT",1,"");
ftextout(text_var,21,45,0,1);
}
// *** AIF, Anwender-Information
// *** auf 2. Seite von IDENT
LINE("Anwender-Information","")
{
INPAapiJob(sgbd,"AIF_LESEN","","");
INP1apiResultText(fehlerflag,job_status,"JOB_STATUS",1,"");
INP1apiErrorCode(errorcode);
ftextout("",10,0,0,0);
if ((fehlerflag == FALSE) && (errorcode == 98))//98=SYS-0008: Job nicht gefunden
{
ftextout("Kein Anwenderinfofeld (AIF_LESEN) vorhanden" ,3,0,0,0);
}
else if (((fehlerflag == FALSE) && (errorcode != 98)) || (job_status != "OKAY"))
{
ftextout("Fehler beim Lesen von Job: AIF_LESEN",1,0,0,0);
if (errorcode != 0)
{
inttostring(errorcode, errorcode_text);
INP1apiErrorText(error_text);
error_text= "Ediabas-Fehlermeldung Nr.: "+errorcode_text+": "+ error_text;
}
else
{
error_text= "Job-Status-Fehlermeldung: "+job_status;
}
ftextout(error_text ,2,0,0,0);
ftextout("" ,3,0,0,0);
INPAapiCheckJobStatus("OKAY");//um Fehler auszugeben
}
else
{
INPAapiResultInt(ganz_zahl,"AIF_ANZ_DATEN",1);
if (ganz_zahl > 18) // lange AIF ausgeben
{
ftextout("Fahrgestell Nr.",1,0,0,0);
ftextout(":",1,43,0,0);
INPAapiResultText(text_var,"AIF_FG_NR",1,"");
ftextout(text_var,1,45,0,1);
ftextout("Zusammenbau Nr.",3,0,0,0);
ftextout(":",3,43,0,0);
INPAapiResultText(text_var,"AIF_ZB_NR",1,"");
ftextout(text_var,3,45,0,1);
ftextout("Programmier-Datum",5,0,0,0);
ftextout(":",5,43,0,0);
INPAapiResultText(text_var,"AIF_DATUM",1,"");
ftextout(text_var,5,45,0,1);
ftextout("Datensatz Nr.",7,0,0,0);
ftextout(":",7,43,0,0);
INPAapiResultText(text_var,"AIF_SW_NR",1,"");
ftextout(text_var,7,45,0,1);
ftextout("Beh<65>rden Nr.",9,0,0,0);
ftextout(":",9,43,0,0);
INPAapiResultText(text_var,"AIF_BEHOERDEN_NR",1,"");
ftextout(text_var,9,45,0,1);
ftextout("H<>ndler Nr.",11,0,0,0);
ftextout(":",11,43,0,0);
INPAapiResultText(text_var,"AIF_HAENDLER_NR",1,"");
ftextout(text_var,11,45,0,1);
ftextout("Tester Nr.",13,0,0,0);
ftextout(":",13,43,0,0);
INPAapiResultText(text_var,"AIF_SERIEN_NR",1,"");
ftextout(text_var,13,45,0,1);
ftextout("km-Stand",15,0,0,0);
ftextout(":",15,43,0,0);
INPAapiResultText(text_var,"AIF_KM",1,"");
ftextout(text_var,15,45,0,1);
ftextout("Programm-Stand",17,0,0,0);
ftextout(":",17,43,0,0);
INPAapiResultText(text_var,"AIF_PROG_NR",1,"");
ftextout(text_var,17,45,0,1);
ftextout("Adresse AIF",19,0,0,0);
ftextout(":",19,43,0,0);
INPAapiResultInt(ganz_zahl,"AIF_ADRESSE_LOW",1);
inttohexstring(ganz_zahl,4,text_var);
ftextout(text_var,19,45,0,1);
ftextout("Anzahl freie AIF",21,0,0,0);
ftextout(":",21,43,0,0);
INPAapiResultText(text_var,"AIF_ANZ_FREI",1,"");
ftextout(text_var,21,45,0,1);
ftextout("Anzahl Daten AIF",23,0,0,0);
ftextout(":",23,43,0,0);
INPAapiResultText(text_var,"AIF_ANZ_DATEN",1,"");
ftextout(text_var,23,45,0,1);
}
else //18 Byte -> kurze AIF ausgeben
{
ftextout("Fahrgestell Nr.",1,0,0,0);
ftextout(":",1,43,0,0);
INPAapiResultText(text_var,"AIF_FG_NR",1,"");
ftextout(text_var,1,45,0,1);
ftextout("Zusammenbau Nr.",3,0,0,0);
ftextout(":",3,43,0,0);
INPAapiResultText(text_var,"AIF_ZB_NR",1,"");
ftextout(text_var,3,45,0,1);
ftextout("Programmier-Datum",5,0,0,0);
ftextout(":",5,43,0,0);
INPAapiResultText(text_var,"AIF_DATUM",1,"");
ftextout(text_var,5,45,0,1);
ftextout("Adresse AIF",19,0,0,0);
ftextout(":",19,43,0,0);
INPAapiResultInt(ganz_zahl,"AIF_ADRESSE_LOW",1);
inttohexstring(ganz_zahl,4,text_var);
ftextout(text_var,19,45,0,1);
ftextout("Anzahl freie AIF",21,0,0,0);
ftextout(":",21,43,0,0);
INPAapiResultText(text_var,"AIF_ANZ_FREI",1,"");
ftextout(text_var,21,45,0,1);
ftextout("Anzahl Daten AIF",23,0,0,0);
ftextout(":",23,43,0,0);
INPAapiResultText(text_var,"AIF_ANZ_DATEN",1,"");
ftextout(text_var,23,45,0,1);
}
}
}
LINE("CFG Lesen","")
{
INPAapiJob(sgbd,"C_FG_LESEN","","");
INP1apiResultText(fehlerflag,job_status,"JOB_STATUS",1,"");
INP1apiErrorCode(errorcode);
ftextout("Codierdaten",0,0,0,1);
ftextout("",10,0,0,0);// um auf einer neuen Seite darzustellen
if ((fehlerflag == FALSE) && (errorcode == 98))//98=SYS-0008: Job nicht gefunden
{
ftextout("Kein Fahrgestellnummer lesen (CFG_LESEN) vorhanden " ,3,0,0,0);
}
else if (((fehlerflag == FALSE) && (errorcode != 98)) || (job_status != "OKAY"))
{
ftextout("Fehler beim Lesen von Job: C_FG_LESEN",1,0,0,0);
if (errorcode != 0)
{
inttostring(errorcode, errorcode_text);
INP1apiErrorText(error_text);
error_text= "Ediabas-Fehlermeldung Nr.: "+errorcode_text+": "+ error_text;
}
else
{
error_text= "Job-Status-Fehlermeldung: "+job_status;
}
ftextout(error_text ,2,0,0,0);
ftextout("" ,3,0,0,0);
INPAapiCheckJobStatus("OKAY");//um Fehler auszugeben
}
else
{
ftextout("Fahrgestell Nr.",3,0,0,0);
ftextout(":",3,43,0,0);
INPAapiResultText(text_var,"FG_NR",1,"");
ftextout(text_var,3,45,0,1);
}
INPAapiJob(sgbd,"C_AEI_LESEN","","");
INP1apiResultText(fehlerflag,job_status,"JOB_STATUS",1,"");
INP1apiErrorCode(errorcode);
if ((fehlerflag == FALSE) && (errorcode == 98))//98=SYS-0008: Job nicht gefunden
{
ftextout("Kein Codierdaten<65>nderungsindex (C_AEI_LESEN) vorhanden" ,3,0,0,0);
}
else if (((fehlerflag == FALSE) && (errorcode != 98)) || (job_status != "OKAY"))
{
INPAapiCheckJobStatus("OKAY");//um Fehler auszugeben
}
else
{
ftextout("Codierdaten<65>nderungsindex",6,0,0,0);
ftextout(":",6,43,0,0);
INPAapiResultText(text_var,"COD_AE_INDEX",1,"");
ftextout(text_var,6,45,0,1);
}
}
}
// ****************************************************************************
// *** Identinformationen werden <20>ber SVK_LESEN ermittelt ***
// *** SVK: Steuerger<65>eVerbauKennung Soft- und Hardware f<>r UDS (ISO 14229) ***
// ****************************************************************************
SCREEN s_svk_lesen()
{
string text_var;
string text_var2;
int ganz_zahl;
string job_status="???"; // f<>r Job_Statuskontrolle
bool fehlerflag; // Fehlerflag
int sets; // Anzahl sets
int errorcode; // EDIABAS Fehlernummer
string errorcode_text; // EDIABAS Fehlernummer
string error_text; // EDIABAS Fehlertext als Text
bool eingabeWeiter;
int input_state; // Eingabestatus
int input_ok=1; // Eingabe mit Nein beendet
int i;
int offset;
int einheiten_anz;
int pos;
real realval;
real realval2;
long longval;
long rest_long;
long multiplik_long;
ftextout("Steuerger<65>teverbaukennung Soft- und Hardware",1,0,1,0);
ftextout("",2,0,0,1);
LINE("Hersteller Information","")
{//HERSTELLINFO_LESEN ist kein Pflichtjob! (Stand: 03.2006)
INPAapiJob(sgbd,"HERSTELLINFO_LESEN","","");
INP1apiResultText(fehlerflag,job_status,"JOB_STATUS",1,"");
INP1apiErrorCode(errorcode);
if ((fehlerflag == FALSE) && (errorcode == 98))//98=SYS-0008: Job nicht gefunden
{
ftextout("Keine Herstellerinformationen vorhanden" ,1,0,0,0);
ftextout("" ,2,0,0,0);
}
else if (((fehlerflag == FALSE) && (errorcode != 98)) || (job_status != "OKAY"))
{
ftextout("Fehler beim Lesen von Job: HERSTELLINFO_LESEN",1,0,0,0);
if (errorcode != 0)
{
inttostring(errorcode, errorcode_text);
INP1apiErrorText(error_text);
error_text= "Ediabas-Fehlermeldung Nr.: "+errorcode_text+": "+ error_text;
}
else
{
error_text= "Job-Status-Fehlermeldung: "+job_status;
}
ftextout(error_text ,2,0,0,0);
ftextout("" ,3,0,0,0);
INPAapiCheckJobStatus("OKAY");//um Fehler auszugeben
}
else
{
ftextout("Herstelldatum",1,0,0,0);
ftextout(":",1,41,0,0);
INPAapiResultText(text_var,"ID_DATUM",1,"");
ftextout(text_var,1,45,0,1);
ftextout("Lieferant",2,0,0,0);
ftextout(":",2,41,0,0);
INPAapiResultText(text_var,"ID_LIEF_TEXT",1,"");
ftextout(text_var,2,45,0,1);
ftextout("--------------------------------------------------------------------------------------------------------------------------------",3,0,0,0);
ftextout("",4,0,0,0);
}
}
LINE("Ident","")
{
INPAapiJob(sgbd,"IDENT","","");
INP1apiResultText(fehlerflag,job_status,"JOB_STATUS",1,"");
INP1apiErrorCode(errorcode);
/* if ((fehlerflag == FALSE) && (errorcode == 98))//98=SYS-0008: Job nicht gefunden
{
ftextout("Kein Ident vorhanden" ,1,0,0,0);
ftextout("" ,2,0,0,0);
}
else */if (((fehlerflag == FALSE) /*&& (errorcode != 98)*/) || (job_status != "OKAY"))
{
ftextout("Fehler beim Lesen von Job: IDENT",1,0,0,0);
if (errorcode != 0)
{
inttostring(errorcode, errorcode_text);
INP1apiErrorText(error_text);
error_text= "Ediabas-Fehlermeldung Nr.: "+errorcode_text+": "+ error_text;
}
else
{
error_text= "Job-Status-Fehlermeldung: "+job_status;
}
ftextout(error_text ,2,0,0,0);
ftextout("" ,3,0,0,0);
INPAapiCheckJobStatus("OKAY");//um Fehler auszugeben
}
else
{
ftextout("Steuerger<65>te-Adresse",1,0,0,0);
ftextout(":",1,41,0,0);
INPAapiResultInt(ganz_zahl,"ID_SG_ADR",1);
inttohexstring(ganz_zahl,4,text_var);
//F<>hrende Nullen ausblenden
if (ganz_zahl <= 255) midstr(text_var,text_var,2,2);
ftextout("0x"+text_var,1,45,0,1);
ftextout("SGBD-Index",2,0,0,0);
ftextout(":",2,41,0,0);
INPAapiResultBinary("_RESPONSE",1);
GetBinaryDataString (text_var,i);
midstr(text_var,text_var,6,11);
ftextout("0x"+text_var,2,45,0,1);
ftextout("--------------------------------------------------------------------------------------------------------------------------------",3,0,0,0);
ftextout("",4,0,0,0);
}
}
LINE("SVK","")
{
INPAapiJob(sgbd,"SVK_LESEN","","");
//INPAapiCheckJobStatus("OKAY"); //nicht anwendbar, da es mehrere Sets gibt und JOB_STATUS im letzten steht. Daher Fehlerausgabe manuell umsetzen
sets=0;
INP1apiResultSets(fehlerflag,sets);
if ((fehlerflag == FALSE) || (sets <= 1))
{
ftextout("Fehler beim Lesen von Job: SVK_LESEN",1,0,0,0);
INP1apiErrorCode(errorcode);
if (errorcode != 0)
{
inttostring(errorcode, errorcode_text);
INP1apiErrorText(error_text);
error_text= "Ediabas-Fehlermeldung Nr.: "+errorcode_text+": "+ error_text;
ftextout(error_text ,2,0,0,0);
INPAapiResultSets(sets);//um Fehler auszugeben. Bsp.: IFH-0009: NO RESPONSE FROM CONTROLUNIT
}
else
{//Nur m<>glich, da bei diesem Fehler der letzte Satz=1!
INP1apiResultText(fehlerflag,job_status,"JOB_STATUS",sets,"");
error_text= "Job-Status-Fehlermeldung: "+job_status;
ftextout(error_text,2,0,0,0);
INPAapiCheckJobStatus("OKAY");//um Fehler auszugeben. Bsp.: JOB_STATUS= ERROR_ECU_INCORRECT_LEN
}
ftextout("" ,3,0,0,0);
}
else
{
INPAapiResultText(text_var,"PROG_DATUM",sets,"");
ftextout("Programm-Datum",0,0,0,0);
ftextout(":",0,41,0,0);
ftextout(text_var,0,45,0,1);
INPAapiResultText(text_var,"PROG_KM",sets,"");
if (text_var == "-1") text_var= "- - -";
ftextout("Programm-km",1,0,0,0);
ftextout(":",1,41,0,0);
ftextout(text_var,1,45,0,1);
INPAapiResultText(text_var,"ANZAHL_EINHEITEN",sets,"");
INPAapiResultInt(einheiten_anz,"ANZAHL_EINHEITEN",sets);
ftextout("Anzahl Proze<7A>klassen",2,0,0,0);
ftextout(":",2,41,0,0);
ftextout(text_var,2,45,0,1);
ftextout("Proze<7A>klasse",5,2,0,1);
ftextout("SGBM Identifier ",5,43,0,1);
ftextout("Version",5,62,0,1);
i=1;
offset=0;
while(i<=einheiten_anz)
{
inttostring(i,text_var2);
INPAapiResultText(text_var,"PROZESSKLASSE_TEXT",i,"");
ftextout(text_var2+") "+text_var,6+offset,0,0,0);
//SGBM Identifier
ftextout(":",6+offset,41,0,0);
INPAapiResultText(text_var,"SGBM_IDENTIFIER",i,"");
ftextout(text_var,6+offset,45,0,1);
//Version
INPAapiResultText(text_var,"VERSION",i,"");
ftextout(text_var,6+offset,62,0,1);
i=i+1;//um n<>chsten Set zu laden
offset=offset+1;
}
}
}
}
// **************************
// *** Speicherscreen ***
// **************************
SCREEN s_speicher()
{
ftextout("Speicher lesen",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","")
{
if (speicher_lesen_lar_flag==TRUE) ftextout("< F1 > LAR lesen" , 4,5,0,1);
if (speicher_lesen_flash_flag==TRUE) ftextout("< F2 > FLASH lesen" , 6,5,0,1);
if (speicher_lesen_uifm_flag==TRUE) ftextout("< F3 > UIFM lesen" , 8,5,0,1);
if (speicher_lesen_romi_flag==TRUE) ftextout("< F4 > ROMI lesen" ,10,5,0,1);
if (speicher_lesen_ramis_flag==TRUE) ftextout("< F5 > RAMIS lesen" ,12,5,0,1);
if (speicher_lesen_ramil_flag==TRUE) ftextout("< F6 > RAMIL lesen" ,14,5,0,1);
if (speicher_lesen_nvram_flag==TRUE) ftextout("< F7 > NVRAM lesen" ,16,5,0,1);
if (speicher_lesen_romx_flag==TRUE) ftextout("<Shift> + < F4 > ROMX lesen" ,10,45,0,1);
if (speicher_lesen_ramxx_flag==TRUE) ftextout("<Shift> + < F5 > RAMXX lesen" ,12,45,0,1);
ftextout("< F9 > Bildschirmdruck" ,20,5,0,1);
ftextout("< F10> Zur<75>ck" ,22,5,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
// **************************
// *** Speicherscreen ***
// *** Ausgabe ***
// **************************
SCREEN s_speicher_ausgabe()
{
string text_var;
string job_state;
ftextout(speicher_lesen_text,1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"SPEICHER_LESEN",speicher_lesen_seg_adr_anz,"");
INPAapiResultText(job_state,"JOB_STATUS",1,"");
LINE("","")
{
ftextout("Startadresse",1,0,0,0);
ftextout(":",1,18,0,1);
ftextout(speicher_lesen_adresse,1,20,0,1);
ftextout("Anzahl",3,0,0,0);
ftextout(":",3,18,0,1);
inttostring(speicher_lesen_anzahl,text_var);
ftextout(text_var,3,20,0,1);
ftextout("Daten",5,0,0,0);
ftextout(":",5,18,0,1);
if(job_state != "OKAY")
ftextout(job_state,5,20,0,1);
else
{
INPAapiResultBinary("DATEN",1);
hexdump(speicher_lesen_adresse,speicher_lesen_anzahl,5,20);
}
}
}
// **************************
// *** Fehlerscreen ***
// **************************
SCREEN s_fehler()
{
ftextout("Fehlerspeicher",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","")
{
if (fs_lesen_flag == TRUE)
{
ftextout("< F1 > Fehlerspeicher lesen" , 4,5,0,1);
ftextout("< F2 > Fehlerspeicher l<>schen" , 6,5,0,1);
ftextout("< F9 > Fehlerspeicher drucken" ,20,5,0,1);
if (fs_lesen_save_as_flag == TRUE)
ftextout("<Shift> + < F9 > Fehlerspeicher speichern" ,20,45,0,1);
}
if (is_lesen_flag == TRUE)
{
ftextout("< F3 > Infospeicher lesen" , 8,5,0,1);
if (is_loeschen_flag == TRUE) ftextout("< F4 > Infospeicher l<>schen" ,10,5,0,1);
ftextout("< F8 > Infospeicher drucken" ,18,5,0,1);
if (is_lesen_save_as_flag == TRUE)
ftextout("<Shift> + < F8 > Infospeicher speichern" ,18,45,0,1);
}
if (hs_lesen_flag == TRUE)
{
ftextout("< F5 > Historienspeicher lesen" ,12,5,0,1);
if (hs_loeschen_flag == TRUE) ftextout("< F6 > Historienspeicher l<>schen" ,14,5,0,1);
ftextout("< F7 > Historienspeicher drucken" ,16,5,0,1);
if (hs_lesen_save_as_flag == TRUE)
ftextout("<Shift> + < F7 > Historienspeicher speichern",16,45,0,1);
}
ftextout("< F10> Zur<75>ck" ,22,5,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
// -- EOF --
// end of :#include "BMW_STD.SRC"
//Importiere GetTickCount()
/* Die Funktion gibt einen systeminternen Z<>hlerwert in Millisekunden zur<75>ck.
Ist in B2RUNTIM.LIB enthalten, kann aber in INPA nicht direkt aufgerufen werden.
Wird daher aus "kernel32" importiert */
import32 "C" lib "kernel32::GetTickCount" gettickcount (returns: long counter);
//IMPORT Beispiel
//import pascal lib "user.exe::MessageBox" MyMessageBox( in: int handle1,in: string text1, in: string kopf, in: int Art, returns: int ret );
// ****************************************************
// *** Initialisierungsfunktion ***
// ****************************************************
ScriptInit()
{
settitle(titel+" Version "+version);
}
// ****************************************************
// *** User-Funktionen ***
// ****************************************************
//********************************************
//** Ausgabe von Texten *****
//********************************************
ergebnisAusgabeTxt(in:string text1, in:string ResultText, in:int Zeile, in:int Spalte,
in:int OffsetY1, in:int OffsetX1)
{
int ergSatz;
string s_temp="";
textout(text1,Zeile,Spalte);
ergSatz=1;
INPAapiResultText(s_temp,ResultText,ergSatz,"");
textout(s_temp,Zeile+OffsetY1,Spalte+OffsetX1);
}
//neu
//*******************************************
//** Ausgabe Int-Werte *****
//*******************************************
ergebnisAusgabeInt(in:string text1, in:string ResultText, in:int Zeile, in:int Spalte,
in:int OffsetY1, in:int OffsetX1)
{
int ergSatz;
int i_temp;
string s_temp,s;
textout(text1,Zeile,Spalte);
ergSatz=1;
INPAapiResultInt(i_temp,ResultText,ergSatz);
inttostring(i_temp,s_temp);
textout(s_temp,Zeile+OffsetY1,Spalte+OffsetX1);
}
//neu
//*******************************************
//** Ausgabe Analog-Werte *****
//*******************************************
ergebnisAusgabeAnalog(in:string text1, in:string ResultText, in:string format, in:int Zeile, in:int Spalte,
in:int OffsetY1, in:int OffsetX1)
{
int ergSatz;
real r_temp;
string s_temp;
textout(text1,Zeile,Spalte);
ergSatz=1;
INPAapiResultAnalog(r_temp,ResultText,ergSatz);
realtostring(r_temp, format, s_temp);
textout(s_temp,Zeile+OffsetY1,Spalte+OffsetX1);
}
// Ausgabe eines Ergebnisses als Digitalwert des 1. Satzes mit Job-Status-Ueberpruefung
ergebnisDigitalAusgabe(in: string ergebnis,in: int y,in: int x,in: string trueText,in: string falseText) {
bool tmpBool;
INPAapiResultDigital(tmpBool,ergebnis,1);
digitalout(tmpBool,y,x,trueText,falseText);
}
//** Neuen Sollwert berechnen f<>r LL-Drehzahl
//** Job-Status-Ueberpruefung, Grenzen werden ebenfalls abgefangen
llerh(in: int wohin)
{
int i_help;
int temp_ll;
string s1;
real r_help;
real r1;
if ((Diag_Index=="18")||(Diag_Index=="33")||(Diag_Index=="49"))
{
i_help = ll_wert + wohin;
if (i_help >= 3000) i_help = 3000;
if (i_help <= 650) i_help = 650;
inttostring(i_help,s1);
INPAapiJob(sgbd,"ABGLEICH_VERSTELLEN","LLABS;0","");
INPAapiJob(sgbd,"ABGLEICH_VERSTELLEN","LLABS;"+s1,"");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") { messagebox("START ABGLEICH_VERSTELLEN",s1); stop(); }
ll_wert = i_help;
}
else
{
i_help = ll_wert + wohin;
if (i_help >= 1200) i_help = 1200;
if (i_help <= -150) i_help = 150;
inttostring(i_help,s1);
INPAapiJob(sgbd,"ABGLEICH_VERSTELLEN","LLA;0","");
INPAapiJob(sgbd,"ABGLEICH_VERSTELLEN","LLA;"+s1,"");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") { messagebox("START ABGLEICH_VERSTELLEN",s1); stop(); }
ll_wert = i_help;
}
}
INPAapiResultLong(out: long returnlong, in: string inparesult,in: int set_val)
{
real realval;
real realval2;
long rest_long;
long multiplik_long;
long longval;
// Abholen einer LONG Variablen als REAL und Umwandlung in LONG
INPAapiResultAnalog( realval,inparesult,set_val); //realval=987344.0
realval2= realval/65535; //15.0659 (real)
realtostring(realval2,"8.0",text_var); //15 (string)
stringtoint(text_var,ganz_zahl); //15 (integer)
inttolong(ganz_zahl,multiplik_long); //15 (long) Multiplikator
longval= 65535*multiplik_long; //983025= 65535*15 (long)
longtoreal(longval,realval2); //983025 (real)
realval2= realval-realval2; //4319.0= 987344.0-983025.0
realtoint(realval2, ganz_zahl); //4319 (integer)
inttolong(ganz_zahl,rest_long); //4319 (long) Rest
longval= (65535*multiplik_long)+rest_long;
returnlong = longval;
}
exp(out: real ergebnis, in: real basis, in: int exponent) //allgemeine Exponentialfunktion
{
int i=1;
real produkt;
if (exponent == 0) ergebnis = 1;
else
{
produkt = basis;
while (i < exponent)
{
produkt = produkt * basis;
i=i+1;
}
ergebnis = produkt;
}
}
//*********************************
//*** Ansteuerung ***
//*********************************
steller_ansteuer(in : string label,in: int Tastung) //allgemeine Funktion zur Stellgliedansteuerung <20>ber STEUERN_SELECTIV Job
{
string s1,s2,st_sub;
real tu,to;
int laenge,pos1,pos2;
int z1,sp1;
if (Tastung == 0xFE) INPAapiJob(sgbd,"STEUERN_WERT_LESEN",label,"");
else {
if (Tastung == 0xFF) {INPAapiJob(sgbd,"STEUERN_ENDE_SELECTIV",label,"");start();}
else
{
inttostring(Tastung,s1);
INPAapiJob(sgbd,"STEUERN_SELECTIV",label+";"+s1,"");
start();
}
}
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") {messagebox("STEUERN_"+label,s1);stop();}
if (Tastung == 0xFE)
{
s1 = "Status ["+st_dim+"]: ";
textout(blank, 23,0);
textout(s1, 23,5);
if (st_dim=="-")
{
INPAapiResultDigital(logik_var,"STEUERN_LESEN_WERT",1);
digitalout(logik_var, 25, 5, "EIN ", "AUS ");
}
else if (st_dim=="%")
{
INPAapiResultAnalog(zahlen_var,"STEUERN_LESEN_WERT",1);
analogout(zahlen_var, 25,5, 0.0, 100.0, 0.0, 100.0, "3.2");
}
else
{
INPAapiResultAnalog(zahlen_var,"STEUERN_LESEN_WERT",1);
inttoreal(st_aus,tu);
inttoreal(st_ein,to);
analogout(zahlen_var, 25,5, 0.9*tu, 1.1*to, 0.9*tu, 1.1*to, "3.2");
}
strlen(laenge,st_add_label);
if (laenge > 0)
{
pos1=0;
pos2=0;
z1=13;
sp1=3;
while(pos2!=-1)
{
instr(pos2,pos1,st_add_label,";");
if (pos2 != -1)
midstr(st_sub,st_add_label,pos1,pos2-pos1);
else
midstr(st_sub,st_add_label,pos1,laenge-pos1);
INPAapiJob( sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;"+st_sub,"");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(s1,"STAT_"+st_sub+"_INFO",1,"");
INPAapiResultText(s2,"STAT_"+st_sub+"_EINH",1,"");
INPAapiResultAnalog(zahlen_var,"STAT_"+st_sub+"_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(s1+": "+text_var+" "+s2,z1,sp1,0,0);
z1=z1+1;
pos1=pos2+1;
}
}
}
if (Tastung == 0xFF)
{
textout(blank, 23,0);
textout("Ansteuerung beendet",23,5);
delay(1000);
}
}
zeigebit(in: int pos1,in: long bitfolge,in: int zeile,in: int spalte) //Bitweise Ausgabe der LONG Variablen
{
long vergleich_var = 1;
int i = 0;
while(i < pos1)
{
i = i+1;
vergleich_var= vergleich_var * 2;
}
stelle = bitfolge & vergleich_var;
if(stelle == 0)
textout("0",zeile,spalte);
else
textout("1",zeile,spalte);
}
//*************************
//*** Ansteuerung GLF-1 ***
//*************************
glf1_ansteuer(in : int Tastung)
{
string s1, s2;
int i_temp;
if (Tastung == 0) INPAapiJob(sgbd,"STEUERN_GLF","0;2","");
if (Tastung == 1) INPAapiJob(sgbd,"STEUERN_GLF","1;2","");
if (Tastung == 0xFE) INPAapiJob(sgbd,"STATUS_GLF","","");
if (Tastung == 0xFF) INPAapiJob(sgbd,"STEUERN_ENDE_GLF","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") { messagebox("STEUERN_GLF",s1); stop(); }
if (Tastung == 0xFE)
{
textout(blank,22,25);
textout("Status Luftklappe", 20,25);
INPAapiResultText(s1,"STAT_STAT_GLF_TEXT",1,"");
text(22,25,s1);
}
if (Tastung == 0xFF)
{
textout(blank, 26,0);
textout("Ansteuerung K<>hlerjalousie oben beendet",26,25);
delay(1000);
textout(blank, 26,0);
}
}
//*************************
//*** Ansteuerung GLF-2 ***
//*************************
glf2_ansteuer(in : int Tastung)
{
string s1, s2;
int i_temp;
if (Tastung == 0) INPAapiJob(sgbd,"STEUERN_GLF2","0","");
if (Tastung == 1) INPAapiJob(sgbd,"STEUERN_GLF2","1","");
if (Tastung == 0xFE) INPAapiJob(sgbd,"STATUS_GLF2","","");
if (Tastung == 0xFF) INPAapiJob(sgbd,"STEUERN_ENDE_GLF2","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") { messagebox("STEUERN_GLF2",s1); stop(); }
if (Tastung == 0xFE)
{
textout(blank,22,25);
textout("Status Luftklappe", 20,25);
INPAapiResultText(s1,"STAT_STAT_GLF2_TEXT",1,"");
text(22,25,s1);
}
if (Tastung == 0xFF)
{
textout(blank, 26,0);
textout("Ansteuerung K<>hlerjalousie unten beendet",26,25);
delay(1000);
textout(blank, 26,0);
}
}
// ****************************************************
// *** M e n <20> a u f b a u ***
// ****************************************************
// **************************
// *** Statusmen<65> ***
// **************************
MENU m_status() {
INIT {
setmenutitle("Status lesen");
}
ITEM( 1 ,"Digital 1") {
setscreen( s_digital1 ,TRUE);
}
//ITEM( 2 ,"Digital 2") { 27.7.07 keine Funktion
// setscreen( s_digital2 ,TRUE);
//}
ITEM( 11 ,"AGR") {
setscreen( s_digital_agr ,TRUE);
}
ITEM( 12 ,"Readiness") {
setscreen( s_digital_ready ,TRUE);
}
ITEM( 3 ,"Analog 1") {
setscreen( s_analog1 ,TRUE);
}
ITEM( 13 ,"Analog 2") {
setscreen( s_analog2 ,TRUE);
}
ITEM( 4 ,"Mengenkorr.") {
setscreen( s_analog_mk ,TRUE);
}
ITEM( 14 ,"IGRInfo") {
setscreen( s_igrinfo ,TRUE);
}
ITEM( 5 ,"Drehungleichf.") {
setscreen( s_analog3 ,TRUE);
}
ITEM( 15 ,"SCR") {
setscreen( s_status_scr ,TRUE);
setmenu(m_status_scr);
}
ITEM( 6 ,"SOLL/IST") {
setscreen( s_soll_ist ,TRUE);
}
ITEM(16 ,"KAT /CSF") {
setscreen( s_katcsf , TRUE);
}
ITEM( 7 ,"PM - IBS") {
setscreen( s_main_pm ,TRUE);
setmenu(m_main_pm);
}
ITEM(17 ,"CBS") {
setscreen( s_main_cbs ,TRUE);
setmenu(m_main_cbs);
}
ITEM( 8 ,"DDLI-Block") {
setscreen(s_fdyn,TRUE);
}
ITEM(18 ,"Gesamt") {
start();
deselect();
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen( s_main ,TRUE);
setmenu( m_main );
}
ITEM( 20 ,"Exit") {
exit();
}
}
MENU m_status_scr() {
INIT {
setmenutitle("Status lesen");
}
ITEM( 1 ,"Allgemein") {
setscreen( s_status_scr_allg ,TRUE);
}
ITEM( 2 ,"Abgas") {
setscreen( s_status_scr_abgas ,TRUE);
}
ITEM( 3 ,"Tanksystem") {
setscreen( s_status_scr_tank ,TRUE);
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen( s_status ,TRUE);
setmenu( m_status );
}
ITEM( 4, "Speichern") {
ende = 0;
setscreen(s_savedata, TRUE);
setmenu(m_savedata);
}
ITEM( 20 ,"Exit") {
exit();
}
}
// **************************
// *** Steuernmen<65> ***
// **************************
MENU m_steuern() {
INIT {
setmenutitle("Steuern");
}
ITEM( 1 ,"IMA") {
setscreen( s_ima,TRUE);
setmenu( m_ima);
}
ITEM( 2 ,"Steller") {
setscreen( s_steller,TRUE);
setmenu( m_steller);
}
ITEM( 3 ,"GLF") {
setscreen( s_glf,TRUE);
setmenu( m_glf);
}
ITEM( 5 ,"Systemcheck") {
setscreen( s_systemcheck,TRUE);
setmenu( m_systemcheck );
}
ITEM( 6 ,"EWS") {
setscreen( s_ews,TRUE);
setmenu(m_ews);
}
ITEM( 7 ,"SCR") {
setscreen( s_steller_scr,TRUE);
setmenu( m_steller_scr );
}
ITEM( 8 ,"") {
setscreen( s_steuern,TRUE);
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen( s_main ,TRUE);
setmenu( m_main );
}
ITEM( 20 ,"Exit") {
exit();
}
}
/*
MENU m_scr() {
INIT {
setmenutitle("SCR");
}
ITEM( 1 ,"Status") {
setscreen( s_status_scr,TRUE);
setmenu( m_status_scr);
}
ITEM( 2 ,"Steller") {
setscreen( s_steller_scr,TRUE);
setmenu( m_steller_scr);
}
ITEM( 5 ,"Systemcheck") {
setscreen( s_systemcheck_scr,TRUE);
setmenu( m_systemcheck_scr );
}
ITEM( 6 ,"") {
setscreen( s_scr,TRUE);
}
ITEM( 8 ,"") {
setscreen( s_scr,TRUE);
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen( s_steuern ,TRUE);
setmenu( m_steuern );
}
ITEM( 20 ,"Exit") {
exit();
}
}*/
MENU m_systemcheck() {
INIT {
setmenutitle("Systemchecks");
}
ITEM( 1 ,"LL-Erh") {
setscreen( s_system_llerh,TRUE);
setmenu( m_system_llerh);
}
ITEM( 2 ,"GLF") {
setscreen( s_systemtest_glf,TRUE);
setmenu( m_systemtest_glf);
}
ITEM( 3 ,"IGR_AUS") {
setscreen( s_systemtest_igr,TRUE);
setmenu( m_systemtest_igr);
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen( s_steuern ,TRUE);
setmenu( m_steuern );
}
ITEM( 20 ,"Exit") {
exit();
}
}
// ****************************
// *** IMA Men<65> ***
// ****************************
MENU m_ima()
{
string tmpTxt;
INIT {
setmenutitle("Injektor Mengenabgleich anpassen");
}
//Definition Icon 1
ITEM( 1 ,"IMA alle") {
//<2F>ffnen einer Eingabebox
inputtext(tmpTxt,"IMA Werte alle Zylinder","Eingabeformat Bsp.: 0A314370;N43143LD;H531AI70;0G31ZY70");
//Ausf<73>hren des Jobs
INPAapiJob(sgbd,"ABGLEICH_PROGRAMMIEREN_IMA",tmpTxt,"");
INPAapiResultText(text_var,"JOB_STATUS",1,"");
if( text_var != "OKAY")
{
messagebox("IMA Abgleich programmieren","Fehler bei der Eingabe");
setscreen(s_ima, TRUE);
}
else
{
messagebox("IMA Abgleich programmieren",tmpTxt +" Wert programmiert!");
setscreen(s_ima, TRUE);
}
delay(1000);
setscreen(s_ima,TRUE);
setmenu( m_ima);
}
ITEM( 3 ,"IMA einzeln") {
//<2F>ffnen einer Eingabebox
inputtext(tmpTxt,"IMA Werte <20>ndern pro Zyl","Eingabeformat Bsp.: ima1;0A314370");
//Ausf<73>hren des Jobs
INPAapiJob(sgbd,"ABGLEICH_PROGRAMMIEREN_IMA_ZYL",tmpTxt,"");
INPAapiResultText(text_var,"JOB_STATUS",1,"");
if( text_var != "OKAY")
{
messagebox("IMA Abgleich programmieren","Fehler bei der Eingabe");
setscreen(s_ima, TRUE);
}
else
{
messagebox("IMA Abgleich programmieren",tmpTxt +" Wert programmiert!");
setscreen(s_ima, TRUE);
}
}
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen(s_main,TRUE);
setmenu( m_main );
}
ITEM( 20 ,"Exit") {
// Programmabbruch
exit();
}
}
// **************************************
// *** Menue fuer IBS Powermanagement ***
// **************************************
MENU m_main_pm()
{
INIT
{
setmenutitle("Powermanagement");
}
ITEM(1,"IDENT") { setscreen(s_ibs_ident,TRUE); }
ITEM(2,"PM Feld 1") { setscreen(s_pm_feld1,TRUE); }
ITEM(3,"PM Feld 2") { setscreen(s_pm_feld2,TRUE); }
ITEM(4,"PM Feld 3") { setscreen(s_pm_feld3,TRUE); }
ITEM(5,"B Tausch")
{
INPAapiJob(sgbd,"STEUERN_BATTERIETAUSCH_REGISTRIEREN","","");
INPAapiResultText(text_var, "JOB_STATUS", 1,"");
delay (20);
if (text_var == "OKAY") { messagebox("Batterietausch B_fabttreg",text_var); }
else { messagebox("Batterietausch B_fabttreg",text_var); stop(); }
}
ITEM(6,"Reset")
{
INPAapiJob(sgbd,"STEUERN_PM_HISTOGRAM_RESET","","");
INPAapiResultText(text_var, "JOB_STATUS", 1,"");
delay (20);
if (text_var == "OKAY") { messagebox("PM_HISTOGRAM_RESET",text_var); }
else { messagebox("PM_HISTOGRAM_RESET",text_var); stop(); }
}
ITEM(7,"Start")
{
INPAapiJob(sgbd,"START_SYSTEMCHECK_PM_MESSEMODE","","");
INPAapiResultText(text_var, "JOB_STATUS", 1,"");
delay (20);
if (text_var == "OKAY") { messagebox("Start PM_MESSEMODE",text_var); }
else { messagebox("Start PM_MESSEMODE",text_var); stop(); }
}
ITEM(8,"Stop")
{
INPAapiJob(sgbd,"STOP_SYSTEMCHECK_PM_MESSEMODE","","");
INPAapiResultText(text_var, "JOB_STATUS", 1,"");
delay (20);
if (text_var == "OKAY") { messagebox("Stop PM_MESSEMODE",text_var); }
else { messagebox("Stop PM_MESSEMODE",text_var); stop(); }
}
ITEM(10,"Zur<75>ck")
{
blankscreen();
setscreen(s_status,TRUE);
setmenu(m_status);
}
ITEM(11,"IBS R<>ck")
{
INPAapiJob(sgbd,"LERNWERTE_RUECKSETZEN","IBSRE","");
INPAapiResultText(text_var, "JOB_STATUS", 1,"");
delay (20);
if (text_var == "OKAY") { messagebox("IBS Erkennung R<>cksetzen",text_var); }
else { messagebox("IBS Erkennung R<>cksetzen",text_var); stop(); }
}
ITEM(20 ,"ENDE") {userboxclose(0); viewclose(); exit();}
}
// **************************************
// *** Menue fuer CBS***
// **************************************
MENU m_main_cbs()
{
INIT
{
setmenutitle("Men<65>");
}
ITEM(10,"Zur<75>ck")
{
blankscreen();
setscreen(s_status,TRUE);
setmenu(m_status);
}
ITEM(20 ,"ENDE") {userboxclose(0); viewclose(); exit();}
}
// **********************************
// *** Steuern Steller Men<65> ***
// **********************************
MENU m_steller()
{
INIT {setmenutitle("DDE7 Stellgliedansteuerungen");}
ITEM(1, "DK") {steller="DRO"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(2, "E-L<>fter") {steller="ELU"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(3, "GLU") {steller="GLU"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(4, "MLA") {steller="MLA"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(5, "DRV") {steller="DRV"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(6, "LDS") {steller="LDS"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(7, "DRA") {steller="DRA"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(8, "MRV") {steller="MRV"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(9, "AGR") {steller="AGR"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(10,"Zur<75>ck") {blankscreen(); setscreen(s_steuern,TRUE); setmenu(m_steuern);}
ITEM(11,"MIL") {steller="MILA"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(12,"OILA") {steller="OILA"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(13,"NSK") {steller="NSK"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(14,"EBL") {steller="EBX"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(15,"KLI") {steller="KLI"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(16,"KPC") {steller="KPC"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(17,"VFP") {steller="VFP"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(18,"ZLK") {steller="ZLK"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(19,"ZUH") {steller="ZUH"; setscreen(s_steller_set,TRUE); setmenu(m_steller_set);}
ITEM(20,"ENDE") {userboxclose(0); viewclose(); exit();}
}
MENU m_steller_scr()
{
INIT {setmenutitle("DDE7 Stellgliedansteuerungen");}
ITEM(1, "UA") {steller="UASCR"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
ITEM(2, "PA") {steller="PASCR"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
ITEM(3, "PP") {steller="PPSCR"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
ITEM(4, "DV") {steller="DVSCR"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
//ITEM(5, "HKHR") {steller="HKHR"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
ITEM(5, "HKDL") {steller="HKDL"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
ITEM(6, "HKT") {steller="HKT"; setscreen(s_steller_scr_set,TRUE); setmenu(m_steller_scr_set);}
ITEM(10,"Zur<75>ck") {blankscreen(); setscreen(s_steuern,TRUE); setmenu(m_steuern);}
ITEM(20,"ENDE") {userboxclose(0); viewclose(); exit();}
}
//**************************************
//*** Men<65> Ansteuerung Steller allg. ***
//**************************************
MENU m_steller_set()
{
int eingabe=0;
INIT {setmenutitle("Ansteuerung");}
ITEM( 1,"EIN") {steller_ansteuer(steller,st_ein);}
ITEM( 2,"AUS") {steller_ansteuer(steller,st_aus);}
ITEM( 3,"Eingabe")
{
inputint(eingabe,"Eingabe","Wert: ["+st_dim+"]",st_aus,st_ein);
inputstate=99;
getinputstate(inputstate);
if(inputstate==0) steller_ansteuer(steller,eingabe);
}
ITEM( 4,"DDE") {steller_ansteuer(steller,0xFF);}
ITEM(10,"Zur<75>ck") {setscreen(s_steller,TRUE); setmenu(m_steller);}
ITEM(20,"ENDE") {userboxclose(0); viewclose(); exit();}
}
MENU m_steller_scr_set()
{
int eingabe=0;
INIT {setmenutitle("Ansteuerung");}
ITEM( 1,"EIN") {steller_ansteuer(steller,st_ein);}
ITEM( 2,"AUS") {steller_ansteuer(steller,st_aus);}
ITEM( 3,"Eingabe")
{
inputint(eingabe,"Eingabe","Wert: ["+st_dim+"]",st_aus,st_ein);
inputstate=99;
getinputstate(inputstate);
if(inputstate==0) steller_ansteuer(steller,eingabe);
}
ITEM( 4,"DDE") {steller_ansteuer(steller,0xFF);}
ITEM(10,"Zur<75>ck") {setscreen(s_steller_scr,TRUE); setmenu(m_steller_scr);}
ITEM(20,"ENDE") {userboxclose(0); viewclose(); exit();}
}
// *********************************
// *** Men<65> f<>r LL-Erh<72>hung ***
// *********************************
MENU m_system_llerh()
{
int ll_help;
INIT
{
setmenutitle("EOL - LeerLauf");
taste = 0;
}
ITEM(1,"+10")
{
llerh(10);
setscreen(s_system_llerh,TRUE);
taste = 1;
}
ITEM(2,"-10")
{
llerh(-10);
setscreen(s_system_llerh,TRUE);
taste = 1;
}
ITEM(3,"+100")
{
llerh(100);
setscreen(s_system_llerh,TRUE);
taste = 1;
}
ITEM(4,"-100")
{
llerh(-100);
setscreen(s_system_llerh,TRUE);
taste = 1;
}
ITEM(6,"Ausw")
{
inputstate = 2;
while (inputstate != 0)
{
ll_help = ll_wert;
if ((Diag_Index=="18")||(Diag_Index=="33")||(Diag_Index=="49"))
{
inputint(ll_help,"Vorgabe LL-Sollwert", "Absolutdrehzahl in den Grenzen von 650 < N < 3000",650,3000);
getinputstate(inputstate);
}
else
{
inputint(ll_help,"Vorgabe LL-Sollwert", "Drehzahloffset in den Grenzen von -150 < N < 1200",-150,1199);
getinputstate(inputstate);
}
}
if (inputstate == 0)
{
ll_help = ll_help - ll_wert;
llerh(ll_help);
blankscreen();
setscreen(s_system_llerh,TRUE);
taste = 1;
}
}
ITEM(9,"STOP")
{
setscreen(s_system_llerh_stop,TRUE);
}
ITEM(10,"Zur<75>ck") {blankscreen(); setscreen(s_systemcheck,TRUE); setmenu(m_systemcheck);}
ITEM(20,"ENDE") {userboxclose(0); viewclose(); exit();}
}
// *******************************
// *** Men<65> Systemdiagnose GLF ***
// *******************************
MENU m_systemtest_glf()
{
string s1;
INIT
{
setmenutitle("Systemdiagnose GLF");
}
ITEM(1,"START")
{
userboxclose(0);
viewclose();
INPAapiJob(sgbd,"START_SYSTEMCHECK_GLF","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 == "OKAY")
{
setscreen(s_systemtest_glf,TRUE);
}
else
{
messagebox("START_SYSTEMCHECK_GLF",s1);
stop();
}
}
ITEM(2,"STOP")
{
INPAapiJob(sgbd,"STOP_SYSTEMCHECK_GLF","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 == "OKAY")
{
setscreen(s_systemtest_glf,TRUE);
}
else
{
messagebox("STOP_SYSTEMCHECK_GLF",s1);
stop();
}
}
ITEM(10,"Zur<75>ck")
{
userboxclose(0);
viewclose();
blankscreen();
setscreen(s_systemcheck,TRUE);
setmenu(m_systemcheck);
}
ITEM(20,"ENDE") { userboxclose(0); viewclose(); exit();}
}
// ****************************
// *** Men<65> Systemcheck IGR ***
// ****************************
MENU m_systemtest_igr()
{
string s1;
INIT
{
setmenutitle("Systemcheck IGR");
}
ITEM(1,"START")
{
userboxclose(0);
viewclose();
INPAapiJob(sgbd,"START_SYSTEMCHECK_IGR_AUS","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 == "OKAY")
{
setscreen(s_systemtest_igr,TRUE);
}
else
{
messagebox("START_SYSTEMCHECK_IGR_AUS",s1);
stop();
}
}
ITEM(2,"STOP")
{
INPAapiJob(sgbd,"STOP_SYSTEMCHECK_IGR_AUS","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 == "OKAY")
{
setscreen(s_systemtest_igr,TRUE);
}
else
{
messagebox("STOP_SYSTEMCHECK_IGR",s1);
stop();
}
}
ITEM(10,"Zur<75>ck")
{
userboxclose(0);
viewclose();
blankscreen();
setscreen(s_systemcheck,TRUE);
setmenu(m_systemcheck);
}
ITEM(20,"ENDE") { userboxclose(0); viewclose(); exit();}
}
// ****************************
// *** EWS 4-Men<65> ***
// ****************************
MENU m_ews()
{
string eingabe;
INIT { setmenutitle("EWS4"); }
ITEM(1,"Status") { setscreen(s_ews_status,TRUE); }
ITEM(2,"StatusSK") { setscreen(s_ews_status_sk,TRUE); }
/*ITEM(3,"Data") {
input_state=99;
inputtext(eingabe,"EWS4 Data","Eingabe: MODE;DATEN");
getinputstate(input_state);
if (input_state==0)
{
INPAapiJob(sgbd,"STEUERN_EWS4_SK",eingabe,"");
INPAapiCheckJobStatus("OKAY");
}
}*/
ITEM( 9 ,"Druck") {
printscreen();
}
ITEM( 10 ,"Zur<75>ck") {
setscreen(s_steuern,TRUE);
setmenu( m_steuern );
}
ITEM( 20 ,"Exit") {
// Programmabbruch
exit();
}
}
//****************************
//*** Men<65> Ansteuerung GLF ***
//****************************
MENU m_glf()
{
INIT {setmenutitle("Ansteuerung gesteuerte Luftf<74>hrung GLF"); ftextout("Setzen der Ansteuerung <20>ber I/O Status",3,3,0,3);}
ITEM( 1,"Oben ZU") {glf1_ansteuer(0);}
ITEM( 2,"Oben AUF") {glf1_ansteuer(1);}
/* ITEM( 3,"Unten ZU") {glf2_ansteuer(0);}
ITEM( 4,"Unten AUF"){glf2_ansteuer(1);} */
ITEM( 5,"DME") {glf1_ansteuer(0xFF);glf2_ansteuer(0xFF);}
ITEM(10,"Zur<75>ck") {setscreen(s_steuern,TRUE); setmenu(m_steuern);}
ITEM(20,"ENDE") {userboxclose(0); viewclose(); exit();}
}
//*********************************
//*** Men<65> Messdatenspeicherung ***
//*********************************
MENU m_savedata()
{
INIT{setmenutitle("Messdatenspeicherung"); }
ITEM( 10 ,"Zur<75>ck") {
setscreen(s_status_scr,TRUE);
setmenu( m_status_scr );
}
}
// ****************************************************
// *** S c r e e n a u f b a u ***
// ****************************************************
// **************************
// *** Statusscreen ***
// **************************
SCREEN s_status() {
ftextout("Status lesen",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
ftextout("< F1 > Digitalwerte 1 ", 4,5,0,1);
//ftextout("< F2 > Digitalwerte 2", 6,5,0,1);
ftextout("< F3 > Analogwerte 1", 8,5,0,1);
ftextout("< F4 > Selektive Mengenkorrektur-Motor erst starten!" ,10,5,0,1);
ftextout("< F5 > Selektive Drehungleichf<68>rmigkeit-Motor erst starten!", 12,5,0,1);
ftextout("< F6 > SOLL/IST", 14,5,0,1);
ftextout("< F7 > Powermanagement IBS" ,16,5,0,1);
ftextout("< F8 > DDLI Block lesen" ,18,5,0,1);
ftextout("< F9 > Bildschirmdruck" ,20,5,0,1);
ftextout("< F10> Ende" ,22,5,0,1);
ftextout("<Shift> + < F1 > Digitalwerte AGR ", 4,45,0,1);
ftextout("<Shift> + < F2 > Digitalwerte Readiness", 6,45,0,1);
ftextout("<Shift> + < F3 > Analogwerte 2" ,8,45,0,1);
ftextout("<Shift> + < F4 > IGR Info" ,10,45,0,1);
ftextout("<Shift> + < F5 > SCR" ,12,45,0,1);
ftextout("<Shift> + < F6 > Werte KAT / CSF" ,14,45,0,1);
ftextout("<Shift> + < F7 > CBS-Daten" ,16,45,0,1);
ftextout("<Shift> + < F8 > Gesamt" ,18,45,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
// **************************
// *** Steuernscreen ***
// **************************
SCREEN s_steuern() {
ftextout("Ansteuern",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
ftextout("< F1 > IMA Abgleich" ,4,5,0,1);
ftextout("< F2 > Steuern 1" ,6,5,0,1);
ftextout("< F3 > gesteuerte Luftf<74>hrung" ,8,5,0,1);
ftextout("< F5 > Systemchecks" ,12,5,0,1);
ftextout("< F6 > EWS" ,14,5,0,1);
ftextout("< F7 > SCR" ,16,5,0,1);
ftextout("< F9 > Bildschirmdruck" ,20,5,0,1);
ftextout("< F10> Zur<75>ck" ,22,5,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
/*
SCREEN s_scr() {
ftextout("SCR Umf<6D>nge",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
ftextout("< F1 > Status lesen" ,4,5,0,1);
ftextout("< F2 > Steuern" ,6,5,0,1);
//ftextout("< F5 > Systemchecks" ,12,5,0,1);
ftextout("< F9 > Bildschirmdruck" ,20,5,0,1);
ftextout("< F10> Zur<75>ck" ,22,5,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
*/
SCREEN s_systemcheck() {
ftextout("Systemchecks",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
ftextout("< F1 > Leerlauferh<72>hung" ,4,5,0,1);
ftextout("< F2 > GLF" ,6,5,0,1);
ftextout("< F3 > IGR" ,8,5,0,1);
ftextout("< F9 > Bildschirmdruck" ,20,5,0,1);
ftextout("< F10> Zur<75>ck" ,22,5,0,1);
ftextout("<Shift> + < F10> Exit" ,22,45,0,1);
}
}
// ***************************
// *** Digital1-Screen ***
// ***************************
SCREEN s_digital1() {
ftextout("Digitalwerte 1",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_DIGITAL","","");
INPAapiCheckJobStatus("OKAY");
LINE("Bremslichtschalter Bremslichttestschalter","") {
// Bremslichtschalter
text(1,1,"Status Bremslichtschalter");
INPAapiResultDigital(logik_var,"STAT_BLS_EIN",1);
digitalout(logik_var, 3,1,"ein ","aus ");
// Bremslichttestschalter
text(1,35,"Status Bremslichttestschalter");
INPAapiResultDigital(logik_var,"STAT_BLTS_EIN",1);
digitalout(logik_var, 3,35,"ein ","aus ");
}
LINE("Klimaschalter Klimakompressor","") {
// Klimaschalter
text(1,1,"Status Klimaschalter");
INPAapiResultDigital(logik_var,"STAT_AC_EIN",1);
digitalout(logik_var, 3,1,"ein ","aus ");
/* nur AC Signal bei der DDE6!
// Klimakompressor
text(1,35,"Status Klimakompressor");
INPAapiResultDigital(logik_var,"STAT_KO_EIN",1);
digitalout(logik_var, 3,35,"ein ","aus ");
*/
}
LINE("Kupplungsschalter Oeldruckschalter","") {
// Kupplungsschalter
text(1,1,"Status Kupplungsschalter");
INPAapiResultDigital(logik_var,"STAT_KUP_EIN",1);
digitalout(logik_var, 3,1,"ein ","aus ");
// Oeldruckschalter
text(1,35,"Status Oeldruckschalter");
INPAapiResultDigital(logik_var,"STAT_ODS_EIN",1);
digitalout(logik_var, 3,35,"ein ","aus ");
}
LINE("Getriebeart","") {
// Getriebeart
text(1,1,"Status Getriebeart");
INPAapiResultDigital(logik_var,"STAT_GETRIEBEART_HAND_EIN",1);
digitalout(logik_var, 3,1,"AUTO. ","HAND ");
/* // EWS-Abgleich
text(1,35,"Status EWS-Abgleich");
INPAapiJob(sgbd,"EWS_EMPFANG","0","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultDigital(logik_var,"EWS_STATUS_VALUE",0);
digitalout(logik_var, 3,35,"OK ","NICHT-OK ");
*/
}
/*K<>hlwasserheizung <20>ber Motorsteuerger<65>t nicht ein-, auschalt- und abfragbar <20>ber DDE! (PTC ist nicht vorhanden)
LINE("Kuehlwasserheizung","") {
// Kuehlwasserheizung
text(1,1,"Status Kuehlwasserheizung");
INPAapiJob(sgbd,"STATUS_DIGITAL","dig_kwh_aus","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultDigital(logik_var,"?",1);
digitalout(logik_var, 3,1,"ein ","aus ");
}
*/
}
// ***************************
// *** Digital2-Screen ***
// ***************************
SCREEN s_digital2() {
ftextout("Digitalwerte 2",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_DIGITAL","dig_mfl","");
INPAapiCheckJobStatus("OKAY");
LINE("","") {
// FGR Bedienteil Taste +
text(1,1,"Status FGR Bedienteil Taste + ");
INPAapiResultDigital(logik_var,"STAT_MFLEINP_WERT",1);
digitalout(logik_var, 3,1,"ein ","aus ");
// FGR Bedienteil Taste -
text(1,40,"Status FGR Bedienteil Taste - ");
INPAapiResultDigital(logik_var,"STAT_MFLEINM_WERT",1);
digitalout(logik_var, 3,41,"ein ","aus ");
}
LINE("","") {
// FGR Bedienteil Taste Wiederaufnahme
text(1,1,"Status FGR Bedienteil Taste Wiederaufnahme ");
INPAapiResultDigital(logik_var,"STAT_MFLWA_WERT",1);
digitalout(logik_var, 3,1,"ein ","aus ");
// FGR Bedienteil Taste AUS
text(1,40,"Status FGR Bedienteil Taste AUS ");
INPAapiResultDigital(logik_var,"STAT_MFLAUS_WERT",1);
digitalout(logik_var, 3,41,"ein ","aus ");
}
LINE("","") {
// FGR Bedienteil Taste +<2B>berdr<64>cken
text(1,1,"Status FGR Bedienteil Beschleunigung ");
INPAapiResultDigital(logik_var,"STAT_MFLACCL_WERT",1);
digitalout(logik_var, 3,1,"ein ","aus ");
// FGR Bedienteil Taste AUS
text(1,40,"Status FGR Bedienteil Verz<72>gerung ");
INPAapiResultDigital(logik_var,"STAT_MFLDECL_WERT",1);
digitalout(logik_var, 3,41,"ein ","aus ");
}
}
// ***************************
// *** DigitalAGR-Screen ***
// ***************************
SCREEN s_digital_agr() {
ftextout("AGR Abschaltung",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_DIGITAL","dig_agr_aus","");
INPAapiCheckJobStatus("OKAY");
LINE("","") {
text(1,1,"keine Abschaltung");
INPAapiResultDigital(logik_var,"STAT_AGR_UKN_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"Schubbetrieb");
INPAapiResultDigital(logik_var,"STAT_AGR_SUB_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"Schaltvorgang");
INPAapiResultDigital(logik_var,"STAT_AGR_SAL_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"langer Leerlauf");
INPAapiResultDigital(logik_var,"STAT_AGR_LL_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"bleibende Regelabweichung");
INPAapiResultDigital(logik_var,"STAT_AGR_RA_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"Systemfehler");
INPAapiResultDigital(logik_var,"STAT_AGR_SYS_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"zu niedriger Atmosph<70>rendruck");
INPAapiResultDigital(logik_var,"STAT_AGR_PUMGMIN_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"zu niedrige Batteriespannung");
INPAapiResultDigital(logik_var,"STAT_AGR_UBATTMIN_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"bleibende Regelabweichung");
INPAapiResultDigital(logik_var,"STAT_AGR_RA_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"gro<72>e Einspritzmenge");
INPAapiResultDigital(logik_var,"STAT_AGR_QINJMAX_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"zu hohe Lufttemperatur");
INPAapiResultDigital(logik_var,"STAT_AGR_TUMGMAX_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"zu niedrige Lufttemperatur");
INPAapiResultDigital(logik_var,"STAT_AGR_TUMGMIN_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"Kaltstart");
INPAapiResultDigital(logik_var,"STAT_AGR_KALT_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"Abschaltkoordinationsanforderung");
INPAapiResultDigital(logik_var,"STAT_AGR_ABSCHKOORD_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"zu hohe K<>hlwassertemperatur");
INPAapiResultDigital(logik_var,"STAT_AGR_TMOTMAX_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"zu niedrige K<>hlWassertemperatur");
INPAapiResultDigital(logik_var,"STAT_AGR_TMOTMIN_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
LINE("","") {
text(1,1,"HFM Drift Kompensation");
INPAapiResultDigital(logik_var,"STAT_AGR_DRFTKOMP_WERT",1);
digitalout(logik_var, 3,1,"aktiv ","nicht aktiv ");
text(1,40,"Antisurge");
INPAapiResultDigital(logik_var,"STAT_AGR_ASRG_WERT",1);
digitalout(logik_var, 3,41,"aktiv ","nicht aktiv ");
}
}
// ****************************
// *** Readiness-Screen ***
// ****************************
SCREEN s_digital_ready() {
ftextout("Readiness",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_DIGITAL","dig_readiness","");
INPAapiCheckJobStatus("OKAY");
LINE("","") {
text(1,1,"<22>berwachung Z<>ndaussetzer");
INPAapiResultDigital(logik_var,"STAT_SUPMISFIRE_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>berwachung Z<>ndaussetzer");
INPAapiResultDigital(logik_var,"STAT_STATMISFIRE_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
LINE("","") {
text(1,1,"<22>berwachung Kraftstoffsystem");
INPAapiResultDigital(logik_var,"STAT_SUPFUELSYS_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>berwachung Kraftstoffsystem");
INPAapiResultDigital(logik_var,"STAT_STATFUELSYS_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
LINE("","") {
text(1,1,"<22>bergreifende Komponenten<65>berwachung");
INPAapiResultDigital(logik_var,"STAT_SUPCOMPRCOMP_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>bergreifende Komponenten<65>berwachung");
INPAapiResultDigital(logik_var,"STAT_STATCOMPRCOMP_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
LINE("","") {
text(1,1,"<22>berwachung Katalysator");
INPAapiResultDigital(logik_var,"STAT_SUPCATALYST_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>berwachung Katalysator");
INPAapiResultDigital(logik_var,"STAT_STATCATALYST_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
LINE("","") {
text(1,1,"<22>berwachung Lambdasonde");
INPAapiResultDigital(logik_var,"STAT_SUPOXYSENS_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>berwachung Lambdasonde");
INPAapiResultDigital(logik_var,"STAT_STATOXYSENS_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
LINE("","") {
text(1,1,"<22>berwachung Lambdasondenheizung");
INPAapiResultDigital(logik_var,"STAT_SUPOXYHEAT_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>berwachung Lambdasondenheizung");
INPAapiResultDigital(logik_var,"STAT_STATOXYHEAT_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
LINE("","") {
text(1,1,"<22>berwachung EGR-System");
INPAapiResultDigital(logik_var,"STAT_SUPEGRSYS_WERT",1);
digitalout(logik_var, 3,1,"unterst<73>tzt ","nicht unterst<73>tzt ");
if(logik_var)
{
text(1,40,"Status <20>berwachung EGR-System");
INPAapiResultDigital(logik_var,"STAT_STATEGRSYS_WERT",1);
digitalout(logik_var, 3,41,"bereit ","nicht bereit ");
}
}
}
// *************************
// *** Analog1-Screen ***
// *************************
SCREEN s_analog1() {
ftextout("Analogwerte 1",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
text(1,0,"Batteriespannung");
text(2,0,"[Volt]");
INPAapiJob(sgbd,"STATUS_UBATT","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UBATT_WERT",1);
analogout(zahlen_var/1000, 3,0, 0.0, 18.0, 0.0, 18.0, "4.2");
text(1,43,"Luftmasse");
text(2,43,"[kg/h]");
INPAapiJob(sgbd,"STATUS_LMM_MASSE","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_LMM_MASSE_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 400.0, 0.0, 400.0, "4.2");
}
LINE("","") {
text(1,0,"Motordrehzahl");
text(2,0,"[1/min]");
INPAapiJob(sgbd,"STATUS_MOTORDREHZAHL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_MOTORDREHZAHL_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 6000.0, 0.0, 6000.0, "4.2");
text(1,43,"Motortemperatur");
text(2,43,"[Grad C]");
INPAapiJob(sgbd,"STATUS_MOTORTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_MOTORTEMPERATUR_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 120.0, 0.0, 120.0, "4.2");
}
LINE("","") {
text(1,0,"Ansauglufttemperatur");
text(2,0,"[Grad C]");
INPAapiJob(sgbd,"STATUS_AN_LUFTTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_AN_LUFTTEMPERATUR_WERT",1);
analogout(zahlen_var, 3,0, -40.0, 120.0, -40.0, 120.0, "4.2");
text(1,43,"Kuehlmitteltemperatur");
text(2,43,"[Grad C]");
INPAapiJob(sgbd,"STATUS_KUEHLMITTELTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_KUEHLMITTELTEMPERATUR_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 120.0, 0.0, 120.0, "4.2");
}
LINE("","") {
text(1,0,"PWG Poti 1");
INPAapiJob(sgbd,"STATUS_PWG_POTI_SPANNUNG","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(text_var,"STAT_PWG_POTI_SPANNUNG_EINH",1,"");
text(2,0,"["+text_var+"]");
INPAapiResultAnalog(zahlen_var,"STAT_PWG_POTI_SPANNUNG_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 5000.0, 675, 4000, "4.0");
text(1,43,"PWG Poti 2");
INPAapiJob(sgbd,"STATUS_PEDALWERTGEBER_POTI_2","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(text_var,"STAT_PEDALWERTGEBER_POTI_2_EINH",1,"");
text(2,43,"["+text_var+"]");
INPAapiResultAnalog(zahlen_var,"STAT_PEDALWERTGEBER_POTI_2_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 5000.0, 295, 2000, "4.0");
}
}
// *************************
// *** Analog2-Screen ***
// *************************
SCREEN s_analog2() {
ftextout("Analogwerte 2",1,0,1,0);
ftextout("",3,0,0,0);
LINE("@","") {
INPAapiJob(sgbd,"STATUS_KILOMETERSTAND","","");
INPAapiCheckJobStatus("OKAY");
text(1,0,"Kilometerstand");
INPAapiResultAnalog(zahlen_var,"STAT_KILOMETERSTAND_WERT",1);
realtostring(zahlen_var,"6.2",text_var);
text(3,0,text_var);
INPAapiJob(sgbd,"STATUS_BETRIEBSSTUNDENZAEHLER","","");
INPAapiCheckJobStatus("OKAY");
text(1,43,"Betriebsstundenz<6E>hler");
INPAapiResultAnalog(zahlen_var,"STAT_BETRIEBSSTUNDENZAEHLER_WERT",1);
realtostring(zahlen_var,"6.2",text_var);
text(3,43,text_var);
}
LINE("@","") {
INPAapiJob(sgbd,"STATUS_ABGASTEMPERATUR_KAT","","");
INPAapiCheckJobStatus("OKAY");
text(5,0,"KAT-ABGASTEMPERATUR");
text(6,0,"[<5B>C]");
INPAapiResultAnalog(zahlen_var,"STAT_ABGASTEMPERATUR_KAT_WERT",1);
analogout(zahlen_var, 7,0, 0.0, 400.0, 0.0, 400.0, "4.2");
INPAapiJob(sgbd,"STATUS_KRAFTSTOFFTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
text(5,43,"Kraftstofftemperatur");
text(6,43,"[<5B>C]");
INPAapiResultAnalog(zahlen_var,"STAT_KRAFTSTOFFTEMPERATUR_WERT",1);
analogout(zahlen_var, 7,43, 0.0, 100.0, 0.0, 100.0, "4.2");
}
LINE("@","") {
INPAapiJob(sgbd,"STATUS_LUFTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
text(1,0,"Lufttemperatur");
text(2,0,"[<5B>C]");
INPAapiResultAnalog(zahlen_var,"STAT_LUFTEMPERATUR_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 50.0, 0.0, 50.0, "4.2");
INPAapiJob(sgbd,"STATUS_ATMOSPHAERENDRUCK","","");
INPAapiCheckJobStatus("OKAY");
text(1,43,"Atmosph<70>rendruck");
INPAapiResultText(text_var,"STAT_ATMOSPHAERENDRUCK_EINH",1,"");
text(2,43,"["+text_var+"]");
INPAapiResultAnalog(zahlen_var,"STAT_ATMOSPHAERENDRUCK_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 1100.0, 0.0, 1100.0, "4.2");
}
LINE("@","") {
INPAapiJob(sgbd,"STATUS_UMGEBUNGSTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
text(1,0,"Umgebungstemperatur");
text(2,0,"[<5B>C]");
INPAapiResultAnalog(zahlen_var,"STAT_UMGEBUNGSTEMPERATUR_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 100.0, 0.0, 100.0, "4.2");
INPAapiJob(sgbd,"STATUS_LADELUFTTEMPERATUR","","");
INPAapiCheckJobStatus("OKAY");
text(1,43,"Ladelufttemperatur");
text(2,43,"[<5B>C]");
INPAapiResultAnalog(zahlen_var,"STAT_LADELUFTTEMPERATUR_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 100.0, 0.0, 100.0, "4.2");
}
}
// *************************
// *** Mengenk-Screen ***
// *************************
SCREEN s_analog_mk() {
ftextout("Selektive Mengenkorrektur",1,0,1,0);
ftextout("Laufunruhemessung (LL-Regler ist ein)",3,0,0,0);
LINE("Selektive Mengenkorrektur","") {
INPAapiJob(sgbd,"STATUS_MOTORDREHZAHL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_MOTORDREHZAHL_WERT",1);
if(zahlen_var == 0)
{
textout("Bitte zuerst Motor starten!",5,10);
}
else {
//ftextout("Selektive Mengenkorrektur",0,0,1,1);
INPAapiJob(sgbd,"START_SYSTEMCHECK_ZYL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiJob(sgbd,"STATUS_LAUFUNRUHE_LLR_MENGE","","");
INPAapiCheckJobStatus("OKAY");
text(3,0,"Zylinder 1");
text(4,0,"[mg/Hub]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_LLR_MENGE_ZYL1_WERT",1);
analogout(zahlen_var, 5,0, -5.0, 5.0, -3.0, 3.0, "4.2");
text(3,43,"Zylinder 2");
text(4,43,"[mg/Hub]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_LLR_MENGE_ZYL2_WERT",1);
analogout(zahlen_var, 5,43, -5.0, 5.0, -3.0, 3.0, "4.2");
text(9,0,"Zylinder 3");
text(10,0,"[mg/Hub]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_LLR_MENGE_ZYL3_WERT",1);
analogout(zahlen_var, 11,0, -5.0, 5.0, -3.0, 3.0, "4.2");
text(9,43,"Zylinder 4");
text(10,43,"[mg/Hub]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_LLR_MENGE_ZYL4_WERT",1);
analogout(zahlen_var, 11,43, -5.0, 5.0, -3.0, 3.0, "4.2");
text(15,0,"Zylinder 5");
text(16,0,"[mg/Hub]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_LLR_MENGE_ZYL5_WERT",1);
analogout(zahlen_var, 17,0, -5.0, 5.0, -3.0, 3.0, "4.2");
text(15,43,"Zylinder 6");
text(16,43,"[mg/Hub]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_LLR_MENGE_ZYL6_WERT",1);
analogout(zahlen_var, 17,43, -5.0, 5.0, -3.0, 3.0, "4.2");
}
}
}
SCREEN s_status_scr() {
int z1;
ftextout("Status SCR",1,0,1,0);
ftextout("",3,0,0,0);
z1=5;
textout(" < F1 > Allgemein",z1,5);
z1=z1+2;
textout(" < F2 > Abgasanlage",z1,5);
z1=z1+2;
textout(" < F3 > Tanksystem",z1,5);
z1=z1+2;
textout(" < F4 > Messdaten speichern",z1,5);
z1=z1+3;
textout(" < F10 > Zur<75>ck",z1,5);
textout("< Shift > + < F10 > INPA beenden",z1,5);
}
SCREEN s_status_scr_allg()
{
int z1;
ftextout("Status SCR - allgemein",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
text(1,0,"Zustand des hydr. SCR Systems");
text(2,0,"[]");
text(3,0,"(CoSCR_st)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;CoSCR_st","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_CoSCR_st_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"SubZustand des hydr. SCR Systems");
text(2,43,"[]");
text(3,43,"(CoSCR_stSub)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;CoSCR_stSub","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_CoSCR_stSub_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Anzahl der erfolgten Adaptionen");
text(2,0,"[]");
text(3,0,"(SCRAd_ctSlip)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;SCRAd_ctSlip","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_SCRAd_ctSlip_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Plausibilit<69>ten");
text(2,43,"[]");
text(3,43,"(SCRAd_facPlaus_Fld_0)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;SCRAd_facPlaus_Fld_0","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_SCRAd_facPlaus_Fld0_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Langzeitadaptionfaktor");
text(2,0,"[]");
text(2,0,"(SCRAd_facQtyAdap)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRAd_facQtyAdap","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_SCRAd_facQtyAdap_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Langzeitadaptionfaktor (roh)");
text(2,43,"[]");
text(3,43,"(SCRAd_facQtyAdapRaw_mp)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRAd_facQtyAdapRaw_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_SCRAd_facQtyAdapRaw_mp_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"aktueller NH3-Speicherf<72>llstand");
text(2,0,"[g]");
text(3,0,"(SCRMod_mEstNH3Ld)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRMod_mEstNH3Ld","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRMod_mEstNH3Ld_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"NOx Rohemissionen");
text(2,43,"[ppm]");
text(3,43,"(SCRFFC_rPPMNOxUs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRFFC_rPPMNOxUs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRFFC_rPPMNOxUs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"ermittelte NOx - Konzentration 1");
text(2,0,"[ppm]");
text(3,0,"(Com_rNOxCat2Ds)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Com_rNOxCat2Ds","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_Com_rNOxCat2Ds_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"ermittelte NOx - Konzentration 2");
text(2,43,"[ppm]");
text(3,43,"(Com_rNOxDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Com_rNOxDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_Com_rNOxDs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Freigabestatus Dosierstrategie (bitweise)");
text(2,0,"[]");
text(3,0,"(DStgy_stCondDos)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;DStgy_stCondDos","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(text_var,"STAT_DStgy_stCondDos_WERT",1,"");
ftextout(text_var, 4,0, 0, 2);
text(1,43,"Sensoroffset durch Schubkalibrierung (Downstream)");
text(2,43,"[ppm]");
text(3,43,"(Exh_rNOxOfsNoCat2Ds)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_rNOxOfsNoCat2Ds","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_Exh_rNOxOfsNoCat2Ds_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Sensoroffset durch Schubkalibrierung (Upstream)");
text(2,0,"[ppm]");
text(3,0,"(Exh_rNOxOfsNSCDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_rNOxOfsNSCDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_Exh_rNOxOfsNSCDs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"durchschnittlicher tats<74>chlicher Wirkungsgrad im Temperaturbereich 1");
text(2,43,"[]");
text(3,43,"(SCRChk_etaActAvrg1_mp)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRChk_etaActAvrg1_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRChk_etaActAvrg1_mp_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"durchschnittlicher tats<74>chlicher Wirkungsgrad im Temperaturbereich 2");
text(2,0,"[]");
text(3,0,"(SCRChk_etaActAvrg2_mp)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRChk_etaActAvrg2_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRChk_etaActAvrg2_mp_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"gemittelte normierte Nox-Abweichung zwischen Modellwert und Nox-Sensor vor SCR");
text(2,43,"[]");
text(3,43,"(SCRChk_rNOxDiffAvrgUs_mp)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRChk_rNOxDiffAvrgUs_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRChk_rNOxDiffAvrgUs_mp_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"normierte Nox-Abweichung zwischen Modellwert und Nox-Sensor vor SCR");
text(2,0,"[]");
text(3,0,"(SCRChk_rNOxDiffUs_mp)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRChk_rNOxDiffUs_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRChk_rNOxDiffUs_mp_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Harnstoffverbrauch seit letztem Motorstart");
text(2,43,"[g]");
text(3,43,"(UDC_mRdcAgAct)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDC_mRdcAgAct","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UDC_mRdcAgAct_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Harnstoffverbrauch seit letztem Umpumpvorgang");
text(2,0,"[g]");
text(3,0,"(UDC_mRdcAgDosQnt)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDC_mRdcAgDosQnt","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UDC_mRdcAgDosQnt_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
}
}
SCREEN s_status_scr_abgas()
{
int z1;
ftextout("Status SCR - Abgasanlage",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
text(1,0,"Freigabe der Dosierung durch die Dosierstrategie");
text(2,0,"[]");
text(3,0,"(DStgy_stMetStgy)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;DStgy_stMetStgy","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_DStgy_stMetStgy_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Downstream - Signal von NOx-Sensor 2 (Offset-korrigiert)");
text(2,43,"[ppm]");
text(3,43,"(Exh_rNOxNoCat2Ds)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;Exh_rNOxNoCat2Ds","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_Exh_rNOxNoCat2Ds_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Upstream - Signal von NOx-Sensor 1 (Offset-korrigiert)");
text(2,0,"[]");
text(3,0,"(Exh_rNOxNSCDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;Exh_rNOxNSCDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_Exh_rNOxNSCDs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"O2-Konzentration im Abgas nach Sekund<6E>rkatalysator");
text(2,43,"[]");
text(3,43,"(Exh_rO2LinNoCat2Ds)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;Exh_rO2LinNoCat2Ds","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_rO2LinNoCat2Ds_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"O2-Konzentration im Abgas nach Hauptkatalysator");
text(2,0,"[]");
text(3,0,"(Exh_rO2LinNSCDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_rO2LinNSCDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_rO2LinNSCDs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Lambdasignal aus NOx-Sensor nach dem NOx-Speicherkatalysator 2");
text(2,43,"[]");
text(3,43,"(Exh_stLamLeanNoCat2Ds)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_stLamLeanNoCat2Ds","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_stLamLeanNoCat2Ds_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Lambdasignal aus NOx-Sensor nach dem NOx-Speicherkatalysator 1");
text(2,0,"[]");
text(3,0,"(Exh_stLamLeanNSCDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_stLamLeanNSCDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_stLamLeanNSCDs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"NOx-Statussignal nach NOx-Speicherkatalysator");
text(2,43,"[]");
text(3,43,"(Exh_stNOxNSCDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_stNOxNSCDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_stNOxNSCDs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","")
{
text(1,0,"Taupunktende Nox-Sensor nach SCR-KAT");
text(2,0,"(1 = erkannt, 0 nicht erkannt)");
text(3,0,"(Exh_stNOxSensDiaEnaNoCat2Ds)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_stNOxSensDiaEnaNoCat2Ds","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_stNOxSensDiaEnaNoCat2Ds_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Taupunktende Nox-Sensor vor SCR-KAT");
text(2,43,"(1 = erkannt, 0 nicht erkannt)");
text(3,43,"(Exh_stNOxSensDiaEnaNSCDs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;Exh_stNOxSensDiaEnaNSCDs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_Exh_stNOxSensDiaEnaNSCDs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Gewichtete mittlere Temperatur des SCR Katalysators");
text(2,0,"[<5B>C]");
text(3,0,"(SCRT_tAvrg)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCRT_tAvrg","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCRT_tAvrg_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"R<>ckmeldung der eindosierten Menge");
text(2,43,"[mg/s]");
text(3,43,"(UDC_dmRdcAgDos)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDC_dmRdcAgDos","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UDC_dmRdcAgDos_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","")
{
text(1,0,"Tastverh<72>ltnis des Ausgangssignals der Dosierventilendstufe");
text(2,0,"[%]");
text(3,0,"(UDosVlv_rPs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDosVlv_rPs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UDosVlv_rPs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Sollwert f<>r das Tastverh<72>ltnis der Dosierventilendstufe");
text(2,43,"[%]");
text(3,43,"(UDosVlv_rDyc)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDosVlv_rDyc","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UDosVlv_rDyc_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
}
SCREEN s_status_scr_tank()
{
int z1;
ftextout("Status SCR - Tanksystem",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
text(1,0,"Freigabestatus Passivtank");
text(2,0,"[]");
text(3,0,"RFC_stRls_mp");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;RFC_stRls_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_RFC_stRls_mp_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Pumpendruck des SCR-Systems");
text(2,43,"[hPa]");
text(3,43,"(SCR_pUPmpP)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;SCR_pUPmpP","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_pUPmpP_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Rohwert F<>llstand Passivtank");
text(2,0,"[%]");
text(3,0,"(SCR_rRawUPasTnkLvl)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;SCR_rRawUPasTnkLvl","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_rRawUPasTnkLvl_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"F<>llstand - Passivtank");
text(2,43,"[%]");
text(3,43,"(SCR_rUPasTnkLvl)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;SCR_rUPasTnkLvl","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_rUPasTnkLvl_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Rohwert F<>llstand Aktivtank");
text(2,0,"[%]");
text(3,0,"SCR_rRawUTnkLvl");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_rRawUTnkLvl","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_rRawUTnkLvl_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"F<>llstand Aktivtank");
text(2,43,"[%]");
text(3,43,"(SCR_rUTnkLvl)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_rUTnkLvl","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_rUTnkLvl_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Temperatur der Harnstoff-Wasser-L<>sung");
text(2,0,"[<5B>C]");
text(3,0,"(SCR_tUTnkT)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_tUTnkT","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_tUTnkT_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Sensorrohspannung des Temperatursensors vor Harnstoffkatalysator");
text(2,43,"[mV]");
text(3,43,"(SCR_uRawUCatUsT)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_uRawUCatUsT","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_uRawUCatUsT_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Sensorrohspannung des Drucksensors der HWL-Pumpe");
text(2,0,"[mV]");
text(3,0,"(SCR_uRawUPmpP)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_uRawUPmpP","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_uRawUPmpP_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Sensorrohspannung des Temperatursensors der Harnstoff-Wasser-L<>sung");
text(2,43,"[mV]");
text(3,43,"(SCR_uRawUTnkT)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_uRawUTnkT","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_uRawUTnkT_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Resttankmenge");
text(2,0,"[g]");
text(3,0,"(UDC_mRdcAgRmn)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDC_mRdcAgRmn","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UDC_mRdcAgRmn_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Nachtankerkennung Passivtank");
text(2,43,"[]");
text(3,43,"(UDC_stDetPasTnkReFill)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDC_stDetPasTnkReFill","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UDC_stDetPasTnkReFill_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Nachtankerkennung Aktivtank");
text(2,0,"[]");
text(3,0,"(UDC_stDetReFill)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UDC_stDetReFill","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UDC_stDetReFill_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Aktueller Stromspiegel der Druckleitung bzw. F<>rdermodulheizung");
text(2,43,"[uA]");
text(3,43,"UHC_iPLSensDia_mp");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHC_iPLSensDia_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UHC_iPLSensDia_mp_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"aktueller Stromspiegel der Tankheizung");
text(2,0,"[uA]");
text(3,0,"(UHC_iTnkSensDia_mp)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHC_iTnkSensDia_mp","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UHC_iTnkSensDia_mp_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Anforderung zum Heizen des Tanks und / oder der Druckleitung");
text(2,43,"[]");
text(3,43,"(UHC_stCReq)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHC_stCReq","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHC_stCReq_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Status der Tanktemperatur und Auftauen der Druckleitung");
text(2,0,"[]");
text(3,0,"(UHC_stCtl)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHC_stCtl","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHC_stCtl_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Status der Auftaupr<70>fung");
text(2,43,"[]");
text(3,43,"(UHC_stDfrstChk)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHC_stDfrstChk","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHC_stDfrstChk_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Status - Sollwert f<>r die Druckleitungsheizung");
text(2,0,"[]");
text(3,0,"(UHtrPL_st)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHtrPL_st","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHtrPL_st_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Status der Endstufe f<>r die Druckleitungsheizung");
text(2,43,"[]");
text(3,43,"(UHtrPL_stPs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHtrPL_stPs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHtrPL_stPs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Status der Endstufe f<>r die Tankheizung");
text(2,0,"[]");
text(3,0,"(UHtrTnk_st)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHtrTnk_st","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHtrTnk_st_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Status - Sollwert f<>r die Tankheizung");
text(2,43,"[]");
text(3,43,"(UHtrTnk_stPs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UHtrTnk_stPs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UHtrTnk_stPs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Tastverh<72>ltnis zur Ansteuerung des Pumpenmotors (Sollwert)");
text(2,0,"[%]");
text(3,0,"(UPmpMot_r)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UPmpMot_r","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UPmpMot_r_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Tastverh<72>ltnis zur Ansteuerung des Pumpenmotors (Endstufe)");
text(2,43,"[%]");
text(3,43,"(UPmpMot_rPs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UPmpMot_rPs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UPmpMot_rPs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Tastverhaeltnis an der Endstufe");
text(2,0,"[%]");
text(3,0,"(UPmpReFl_rPs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UPmpReFl_rPs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_UPmpReFl_rPs_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Status der Auftaupr<70>fung");
text(2,43,"[]");
text(3,43,"(UPmpReFl_st)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;UPmpReFl_st","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_UPmpReFl_st_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Status - digitaler Ausgangs zum 4/2 Wegeventil (Sollwert)");
text(2,0,"[]");
text(3,0,"(URevVlv_st)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;URevVlv_st","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_URevVlv_st_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,0,0,2);
text(1,43,"Status - digitaler Ausgangs zum 4/2 Wegeventil (Endstufe)");
text(2,43,"[]");
text(3,43,"(URevVlv_stPs)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;URevVlv_stPs","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultInt(ganz_zahl,"STAT_URevVlv_stPs_WERT",1);
inttostring(ganz_zahl,text_var);
ftextout(text_var,4,43,0,2);
}
LINE("","") {
text(1,0,"Temperatur vor SCR-Katalysator");
text(2,0,"[<5B>C]");
text(3,0,"(SCR_tUCatUsT)");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_tUCatUsT","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_SCR_tUCatUsT_WERT",1);
realtostring(zahlen_var,"6.3",text_var);
ftextout(text_var,4,0,0,2);
}
}
SCREEN s_igrinfo() {
string tmp;
int z1;
ftextout("IGR Info",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","")
{
ftextout("IGR Codierung",1,1,0,0);
INPAapiJob(sgbd,"STATUS_CODIERUNG_IGR","","");
INPAapiResultText( text_var,"STAT_CODIERUNG_IGR_TEXT",1,"");
ftextout( text_var,3,1,0,2);
}
LINE("","")
{
z1=1;
INPAapiJob(sgbd,"STATUS_IGRINFO","","");
INPAapiResultInt(ganz_zahl,"STAT_IGR3_BITS0",1);
inttostring(ganz_zahl,tmp);
ftextout("IGR-Low Enabled",z1,1,0,0);
ftextout(tmp,z1,25,0,2);
z1=z1+1;
INPAapiResultInt(ganz_zahl,"STAT_IGR3_BITS1",1);
inttostring(ganz_zahl,tmp);
ftextout("IGR-Med Enabled",z1,1,0,0);
ftextout(tmp,z1,25,0,2);
z1=z1+1;
INPAapiResultInt(ganz_zahl,"STAT_IGR3_BITS2",1);
inttostring(ganz_zahl,tmp);
ftextout("IGR-Hi Enabled",z1,1,0,0);
ftextout(tmp,z1,25,0,2);
z1=z1+1;
INPAapiResultInt(ganz_zahl,"STAT_IGR3_BITS3",1);
inttostring(ganz_zahl,tmp);
ftextout("IGR-Low Aktiv",z1,1,0,0);
ftextout(tmp,z1,25,0,2);
z1=z1+1;
INPAapiResultInt(ganz_zahl,"STAT_IGR3_BITS4",1);
inttostring(ganz_zahl,tmp);
ftextout("IGR-Med Aktiv",z1,1,0,0);
ftextout(tmp,z1,25,0,2);
z1=z1+1;
INPAapiResultInt(ganz_zahl,"STAT_IGR3_BITS5",1);
inttostring(ganz_zahl,tmp);
ftextout("IGR-Hi Aktiv",z1,1,0,0);
ftextout(tmp,z1,25,0,2);
z1=z1+1;
}
}
// *************************
// *** Analog3-Screen ***
// *************************
SCREEN s_analog3() {
ftextout("Selektive Drehungleichf<68>rmigkeit",1,0,1,0);
ftextout("(LL-Regler ist aus)",3,0,0,0);
LINE("Selektive Drehungleichf<68>rmigkeit","") {
INPAapiJob(sgbd,"STATUS_MOTORDREHZAHL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_MOTORDREHZAHL_WERT",1);
if(zahlen_var == 0)
{
textout("Bitte zuerst Motor starten!",5,10);
}
else {
//ftextout("Selektive Drehungleichf<68>rmigkeit",0,0,1,1);
INPAapiJob(sgbd,"START_SYSTEMCHECK_ZYL","LLR_AUS","");
INPAapiCheckJobStatus("OKAY");
INPAapiJob(sgbd,"STATUS_LAUFUNRUHE_DREHZAHL","","");
INPAapiCheckJobStatus("OKAY");
text(3,0,"Zylinder 1");
text(4,0,"[rpm]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_DREHZAHL_ZYL1_WERT",1);
analogout(zahlen_var, 5,0, 0.0, 900.0, 0.0, 900.0, "4.2");
text(3,43,"Zylinder 2");
text(4,43,"[rpm]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_DREHZAHL_ZYL2_WERT",1);
analogout(zahlen_var, 5,43, 0.0, 900.0, 0.0, 900.0, "4.2");
text(9,0,"Zylinder 3");
text(10,0,"[rpm]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_DREHZAHL_ZYL3_WERT",1);
analogout(zahlen_var, 11,0, 0.0, 900.0, 0.0, 900.0, "4.2");
text(9,43,"Zylinder 4");
text(10,43,"[rpm]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_DREHZAHL_ZYL4_WERT",1);
analogout(zahlen_var, 11,43, 0.0, 900.0, 0.0, 900.0, "4.2");
text(15,0,"Zylinder 5");
text(16,0,"[rpm]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_DREHZAHL_ZYL5_WERT",1);
analogout(zahlen_var, 17,0, 0.0, 900.0, 0.0, 900.0, "4.2");
text(15,43,"Zylinder 6");
text(16,43,"[rpm]");
INPAapiResultAnalog(zahlen_var,"STAT_LAUFUNRUHE_DREHZAHL_ZYL6_WERT",1);
analogout(zahlen_var, 17,43, 0.0, 900.0, 0.0, 900.0, "4.2");
}
}
}
// ****************************
// *** SOLL / IST Screen ***
// ****************************
SCREEN s_soll_ist() {
ftextout("SOLL/IST WERTE 1",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
text(1,0,"Ladedruck SOLL");
text(2,0,"[mbar]");
INPAapiJob(sgbd,"STATUS_LADEDRUCK_SOLL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_LADEDRUCK_SOLL_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 2500.0, 850.0, 2500.0, "4.2");
text(1,43,"Ladedruck IST");
text(2,43,"[mbar]");
INPAapiJob(sgbd,"STATUS_LADEDRUCK_IST","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_LADEDRUCK_IST_WERT",1);
analogout(zahlen_var*10, 3,43, 0.0, 2500.0, 850.0, 2500.0, "4.2"); // SG liefert Wert in kPa
}
LINE("","") {
text(1,0,"Ladedruck SPANNUNG");
text(2,0,"[mV]");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;IULDF","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_LADEDRUCK_SPANNUNG_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 5000.0, 850.0, 5000.0, "4.2");
}
LINE("","") {
text(1,0,"Raildruck SOLL");
text(2,0,"[bar]");
INPAapiJob(sgbd,"STATUS_RAILDRUCK_SOLL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_RAILDRUCK_SOLL_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 1640.0, 33.0, 1640.0, "4.2");
text(1,43,"Raildruck IST");
text(2,43,"[bar]");
INPAapiJob(sgbd,"STATUS_RAILDRUCK_IST","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_RAILDRUCK_IST_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 1640.0, 33.0, 1640.0, "4.2");
}
LINE("","") {
text(1,0,"Raildruck SPANNUNG");
text(2,0,"[mV]");
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;IURDR","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_RAILDRUCK_SPANNUNG_ROH_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 5000.0, 60.0, 5000.0, "4.2");
}
LINE("","") {
text(1,0,"Luftmasse Soll");
text(2,0,"[mg/Hub]");
INPAapiJob(sgbd,"STATUS_LUFTMASSE_SOLL","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_LUFTMASSE_SOLL_WERT",1);
analogout(zahlen_var, 3,0, 0.0, 650.0, 35.0, 650.0, "4.2");
text(1,43,"Luftmasse IST");
text(2,43,"[mg/Hub]");
INPAapiJob(sgbd,"STATUS_LUFTMASSE_IST","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultAnalog(zahlen_var,"STAT_LUFTMASSE_IST_WERT",1);
analogout(zahlen_var, 3,43, 0.0, 650.0, 35.0, 650.0, "4.2");
}
}
// *************************
// *** KAT/CSF-Screen ***
// *************************
SCREEN s_katcsf() {
ftextout("Messwerte KAT / CSF",1,0,1,0);
LINE("Abgastemperatur","") {
//ftextout("Selektive Drehungleichf<68>rmigkeit",0,0,1,1);
INPAapiJob(sgbd,"STATUS_ABGASTEMPERATUR_CSF","","");
INPAapiCheckJobStatus("OKAY");
text(3,0,"Abgastemperatur CSF");
INPAapiResultText( text_var, "STAT_ABGASTEMPERATUR_CSF_EINH",1,"");
text(4,0,text_var);
INPAapiResultAnalog(zahlen_var,"STAT_ABGASTEMPERATUR_CSF_WERT",1);
analogout(zahlen_var, 5,0, -40.0, 1000.0, -40.0, 1000.0, "4.2");
INPAapiJob(sgbd,"STATUS_ABGASTEMPERATUR_KAT","","");
INPAapiCheckJobStatus("OKAY");
text(3,43,"Abgastemperatur KAT");
INPAapiResultText( text_var, "STAT_ABGASTEMPERATUR_KAT_EINH",1,"");
text(4,43,text_var);
INPAapiResultAnalog(zahlen_var,"STAT_ABGASTEMPERATUR_KAT_WERT",1);
analogout(zahlen_var, 5,43, -40.0, 1000.0, -40.0, 1000.0, "3.2");
}
LINE("Ladedruck","") {
INPAapiJob(sgbd,"STATUS_LADEDRUCK_IST","","");
INPAapiCheckJobStatus("OKAY");
text(3,0,"Ladedruck IST-Wert");
INPAapiResultText( text_var, "STAT_LADEDRUCK_IST_EINH",1,"");
text(4,0,text_var);
INPAapiResultAnalog(zahlen_var,"STAT_LADEDRUCK_IST_WERT",1);
analogout(zahlen_var, 5,0, 60.0, 280.0, 60.0, 280.0, "3.2");
INPAapiJob(sgbd,"STATUS_DIFFERENZDRUCK_CSF","","");
INPAapiCheckJobStatus("OKAY");
text(3,43,"Differenzdruck CSF");
INPAapiResultText( text_var, "STAT_DIFFERENZDRUCK_CSF_EINH",1,"");
text(4,43,text_var);
INPAapiResultAnalog(zahlen_var,"STAT_DIFFERENZDRUCK_CSF_WERT",1);
analogout(zahlen_var, 5,43, -30.0, 1200.0, -30.0, 1200.0, "4.3");
}
}
// *********************
// *** IBS Hauptmenu ***
// *********************
SCREEN s_main_pm()
{
ftextout("Powermanagement IBS",3,20,1,1);
ftextout("< F1 > IBS Identifikation", 9,5,0,1);
ftextout("< F2 > PM 1 Byte Feld" ,11,5,0,1);
ftextout("< F3 > PM 2 Byte Feld" ,13,5,0,1);
ftextout("< F4 > PM 3 Byte Feld" ,15,5,0,1);
ftextout("< F5 > Batterietausch registrieren" ,17,5,0,1);
ftextout("< F6 > Histogramm Reset" ,19,5,0,1);
ftextout("< F7 > Start PM MESSEMODE",21,5,0,1);
ftextout("< F8 > Stop PM MESSEMODE",23,5,0,1);
ftextout("< F10> Zur<75>ck" ,25,5,0,1);
ftextout("< Shift > + < F10> INPA beenden" ,25,45,0,1);
ftextout("< Shift > + < F1> IBS Erkennung R<>cksetzen", 9,45,0,1);
stop();
}
// ************************
// *** IBS Ident-Screen ***
// ************************
SCREEN s_ibs_ident()
{
string s1;
INPAapiJob(sgbd,"IDENT_IBS","","");
ftextout("Identifikation Batteriesensor",0,20,1,1);
INPAapiResultText(s1, "JOB_STATUS", 1,"");
if (s1 != "OKAY")
{
messagebox("IDENT_IBS",s1);
}
else
{
textout("=============================================================================================",2,0);
ergebnisAusgabeTxt("BMW Teilenummer:" ,"ID_BMW_NR" ,3,0,0,30);
ergebnisAusgabeTxt("Seriennummer:" ,"SERIENNUMMER" ,4,0,0,30);
ergebnisAusgabeInt("Hardwareversion:" ,"HW_REF" ,5,0,0,30);
ergebnisAusgabeInt("Programmstand:" ,"ZIF_PROGRAMMSTAND" ,7,0,0,30);
ergebnisAusgabeInt("Programmversion:" ,"ZIF_STATUS" ,8,0,0,30);
stop();
}
}
// ************************
// *** PM 2 Byte-Feld ***
// ************************
SCREEN s_pm_feld1()
{
string s1;
INPAapiJob(sgbd,"STATUS_SYSTEMCHECK_PM_INFO_1","","");
INPAapiResultText(s1, "JOB_STATUS", 1,"");
if (s1 != "OKAY")
{
messagebox("PM_FELD1",s1);
}
else
{
ftextout("PM Infofeld 1",0,20,1,1);
ergebnisAusgabeAnalog("km Stand aktuell" , "STAT_KM_STAND_AKTUELL_WERT" , "7.2", 5, 0, 0,25);
ergebnisAusgabeAnalog("km Stand vor 1 Tag" , "STAT_KM_STAND_VOR_1_TAG_WERT", "7.2", 6, 0, 0,25);
ergebnisAusgabeAnalog("km Stand vor 2 Tagen", "STAT_KM_STAND_VOR_2_TAG_WERT", "7.2", 7, 0, 0,25);
ergebnisAusgabeAnalog("km Stand vor 3 Tagen", "STAT_KM_STAND_VOR_3_TAG_WERT", "7.2", 8, 0, 0,25);
ergebnisAusgabeAnalog("km Stand vor 4 Tagen", "STAT_KM_STAND_VOR_4_TAG_WERT", "7.2", 9, 0, 0,25);
ergebnisAusgabeAnalog("km Stand vor 5 Tagen", "STAT_KM_STAND_VOR_5_TAG_WERT", "7.2", 10, 0, 0,25);
ergebnisAusgabeAnalog(" letzter Batterietausch bei km", "STAT_BATTERIETAUSCH_LETZTER_WERT" , "7.2",6,35, 0,25);
ergebnisAusgabeAnalog("2letzter Batterietausch bei km", "STAT_BATTERIETAUSCH_ZWEITLETZTER_WERT", "7.2",7,35, 0,25);
ergebnisAusgabeAnalog("3letzter Batterietausch bei km", "STAT_BATTERIETAUSCH_DRITTLETZTER_WERT", "7.2",8,35, 0,25);
ergebnisAusgabeAnalog("4letzter Batterietausch bei km", "STAT_BATTERIETAUSCH_VIERTLETZTER_WERT", "7.2",9,35, 0,25);
ergebnisAusgabeAnalog("5letzter Batterietausch bei km", "STAT_BATTERIETAUSCH_FUENFTLETZTER_WERT","7.2",8,35, 0,25);
ergebnisAusgabeAnalog("Stunden im Ladungsbereich 0 - 20", "STAT_ZEIT_IM_LADUNGSBEREICH_0_20_WERT" ,"7.2",13,35, 0,25);
ergebnisAusgabeAnalog("Stunden im Ladungsbereich 20 - 40", "STAT_ZEIT_IM_LADUNGSBEREICH_20_40_WERT" ,"7.2",14,35, 0,25);
ergebnisAusgabeAnalog("Stunden im Ladungsbereich 40 - 60", "STAT_ZEIT_IM_LADUNGSBEREICH_40_60_WERT" ,"7.2",15,35, 0,25);
ergebnisAusgabeAnalog("Stunden im Ladungsbereich 60 - 80", "STAT_ZEIT_IM_LADUNGSBEREICH_60_80_WERT" ,"7.2",16,35, 0,25);
ergebnisAusgabeAnalog("Stunden im Ladungsbereich 80 -100", "STAT_ZEIT_IM_LADUNGSBEREICH_80_100_WERT","7.2",17,35, 0,25);
ergebnisAusgabeAnalog("Minuten bei Temperatur bis 0" , "STAT_ZEIT_IM_TEMPERATURBEREICH_BIS_0_WERT","7.2",13, 0, 0,25);
ergebnisAusgabeAnalog("Minuten bei Temperatur 0 - 20" , "STAT_ZEIT_IM_TEMPERATURBEREICH_0_20_WERT" ,"7.2",14, 0, 0,25);
ergebnisAusgabeAnalog("Minuten bei Temperatur 20 - 40" , "STAT_ZEIT_IM_TEMPERATURBEREICH_20_40_WERT","7.2",15, 0, 0,25);
ergebnisAusgabeAnalog("Minuten bei Temperatur 40 - 60" , "STAT_ZEIT_IM_TEMPERATURBEREICH_40_60_WERT","7.2",16, 0, 0,25);
ergebnisAusgabeAnalog("Minuten bei Temperatur <20>ber 60" , "STAT_ZEIT_IM_TEMPERATURBEREICH_AB_60_WERT","7.2",17, 0, 0,25);
ergebnisAusgabeAnalog("Batterieladung gesamte Ah", "STAT_BATTERIELADUNG_GESAMT_WERT" ,"7.2",20, 0, 0,25);
ergebnisAusgabeAnalog("Batterieentladung gesamte Ah","STAT_BATTERIEENTLADUNG_GESAMT_WERT","7.2",20,35, 0,25);
ergebnisAusgabeAnalog("Batterieladung Bilanz Ah", "STAT_BATTERIELADUNG_BILANZ_WERT" ,"7.2",21, 0, 0,25);
ergebnisAusgabeAnalog("Batterieentladung w<>hrend Motorlauf", "STAT_BATTENTLADUNG_GESAMT_BEI_MOTOR_LAEUFT_WERT" ,"7.2",21, 35, 0,25);
ergebnisAusgabeAnalog("IBS Fehler BSD Parity", "STAT_IBS_FEHLERZAEHLER_BSD_PARITY_WERT", "5.0",24, 0, 0,25);
ergebnisAusgabeAnalog("IBS Fehler Watchdog Reset", "STAT_IBS_FEHLERZAEHLER_WATCHDOG_RESET_WERT", "5.0",25, 0, 0,25);
ergebnisAusgabeAnalog("IBS Fehler Power on Reset", "STAT_IBS_FEHLERZAEHLER_POWER_ON_RESET_WERT", "5.0",26, 0, 0,25);
ergebnisAusgabeAnalog("KTBS Fehler BSD erweitert", "STAT_KTBS_FEHLERZAEHLER_BSD_ERWEITERT_WERT", "5.0",24,35, 0,25);
ergebnisAusgabeAnalog("KTIBS Fehler BSD", "STAT_KTIBS_FEHLERZAEHLER_BSD_WERT", "5.0",25,35, 0,25);
ergebnisAusgabeAnalog("KTIBS Fehler EBSD Checksumme","STAT_KTIBS_FEHLERZAEHLER_EBSD_CHECKSUMME_WERT","5.0",26,35, 0,25);
delay(1000);
}
}
// ************************
// *** PM 1 Byte-Feld ***
// ************************
SCREEN s_pm_feld2()
{
string s1;
INPAapiJob(sgbd,"STATUS_SYSTEMCHECK_PM_INFO_2","","");
INPAapiResultText(s1, "JOB_STATUS", 1,"");
if (s1 != "OKAY")
{
messagebox("PM_FELD2",s1);
}
else
{
ftextout("PM Infofeld 2",0,20,1,1);
ergebnisAusgabeAnalog("Ah Q SOC aktuell" , "STAT_Q_SOC_AKTUELL_WERT" , "7.2", 3, 0, 0,25);
ergebnisAusgabeAnalog("Ah Q SOC vor 1 Tag" , "STAT_Q_SOC_VOR_1_TAG_WERT", "7.2", 4, 0, 0,25);
ergebnisAusgabeAnalog("Ah Q SOC vor 2 Tagen", "STAT_Q_SOC_VOR_2_TAG_WERT", "7.2", 5, 0, 0,25);
ergebnisAusgabeAnalog("Ah Q SOC vor 3 Tagen", "STAT_Q_SOC_VOR_3_TAG_WERT", "7.2", 6, 0, 0,25);
ergebnisAusgabeAnalog("Ah Q SOC vor 4 Tagen", "STAT_Q_SOC_VOR_4_TAG_WERT", "7.2", 7, 0, 0,25);
ergebnisAusgabeAnalog("Ah Q SOC vor 5 Tagen", "STAT_Q_SOC_VOR_5_TAG_WERT", "7.2", 8, 0, 0,25);
ergebnisAusgabeAnalog("% Startf<74>higkeit aktuell" , "STAT_STARTFAEHIGKEITSGRENZE_AKTUELL_WERT" , "7.2", 3,35, 0,25);
ergebnisAusgabeAnalog("% Startf<74>higkeit vor 1 Tag" , "STAT_STARTFAEHIGKEITSGRENZE_VOR_1_TAG_WERT", "7.2", 4,35, 0,25);
ergebnisAusgabeAnalog("% Startf<74>higkeit vor 2 Tagen", "STAT_STARTFAEHIGKEITSGRENZE_VOR_2_TAG_WERT", "7.2", 5,35, 0,25);
ergebnisAusgabeAnalog("% Startf<74>higkeit vor 3 Tagen", "STAT_STARTFAEHIGKEITSGRENZE_VOR_3_TAG_WERT", "7.2", 6,35, 0,25);
ergebnisAusgabeAnalog("% Startf<74>higkeit vor 4 Tagen", "STAT_STARTFAEHIGKEITSGRENZE_VOR_4_TAG_WERT", "7.2", 7,35, 0,25);
ergebnisAusgabeAnalog("% Startf<74>higkeit vor 5 Tagen", "STAT_STARTFAEHIGKEITSGRENZE_VOR_5_TAG_WERT", "7.2", 8,35, 0,25);
ergebnisAusgabeAnalog("% Ladungszustand aktuell" , "STAT_LADUNGSZUSTAND_AKTUELL_WERT" , "7.2",10,35, 0,25);
ergebnisAusgabeAnalog("% Ladungszustand vor 1 Tag" , "STAT_LADUNGSZUSTAND_VOR_1_TAG_WERT", "7.2",11,35, 0,25);
ergebnisAusgabeAnalog("% Ladungszustand vor 2 Tagen", "STAT_LADUNGSZUSTAND_VOR_2_TAG_WERT", "7.2",12,35, 0,25);
ergebnisAusgabeAnalog("% Ladungszustand vor 3 Tagen", "STAT_LADUNGSZUSTAND_VOR_3_TAG_WERT", "7.2",13,35, 0,25);
ergebnisAusgabeAnalog("% Ladungszustand vor 4 Tagen", "STAT_LADUNGSZUSTAND_VOR_4_TAG_WERT", "7.2",14,35, 0,25);
ergebnisAusgabeAnalog("% Ladungszustand vor 5 Tagen", "STAT_LADUNGSZUSTAND_VOR_5_TAG_WERT", "7.2",15,35, 0,25);
ergebnisAusgabeAnalog("Batterie Kapazit<69>t in Ah", "STAT_BATTERIE_KAPAZITAET_WERT", "7.2",10, 0, 0,25);
ergebnisAusgabeAnalog("SOH", "STAT_SOH_WERT", "7.2",11, 0, 0,25);
ergebnisAusgabeAnalog("SOC-Fit", "STAT_SOC_FIT_WERT", "7.2",12, 0, 0,25);
ergebnisAusgabeAnalog("Saison Temperatur in <20>C", "STAT_TEMP_SAISON_WERT", "7.2",13, 0, 0,25);
ergebnisAusgabeAnalog("Kalibrier Ereignisse", "STAT_KALIBRIER_EVENT_CNT_WERT", "4.0",14, 0, 0,25);
ergebnisAusgabeAnalog("IBS Fehler Download Checksumme", "STAT_IBS_FEHLERZAEHLER_DOWNLOAD_CHECKSUMME_WERT", "4.0",17, 0, 0,25);
ergebnisAusgabeAnalog("IBS Fehler EEPROM Diagnose", "STAT_IBS_FEHLERZAEHLER_EEPROM_DIAGNOSE_WERT", "4.0",18, 0, 0,25);
ergebnisAusgabeAnalog("IBS Fehler RAM Diagnose", "STAT_IBS_FEHLERZAEHLER_RAM_DIAGNOSE_WERT", "4.0",19, 0, 0,25);
ergebnisAusgabeAnalog("IBS Fehler PROM Diagnose", "STAT_IBS_FEHLERZAEHLER_PROM_DIAGNOSE_WERT", "4.0",17,35, 0,25);
ergebnisAusgabeAnalog("IBS Fehler I2C NAC Diagnose", "STAT_IBS_FEHLERZAEHLER_I2C_NAC_DIAGNOSE_WERT", "4.0",18,35, 0,25);
ergebnisAusgabeAnalog("IBS Fehler I2C Bus Collision", "STAT_IBS_FEHLERZAEHLER_I2C_BUS_COLLISION_WERT", "4.0",19,35, 0,25);
delay(1000);
}
}
// *******************************
// *** PM 1 Byte-Feld Seite 2 ***
// *******************************
SCREEN s_pm_feld3()
{
string s1;
INPAapiJob(sgbd,"STATUS_SYSTEMCHECK_PM_INFO_1","","");
INPAapiResultText(s1, "JOB_STATUS", 1,"");
if (s1 != "OKAY")
{
messagebox("PM_FELD3",s1);
}
else
{
ftextout("PM Infofeld 3",0,20,1,1);
text(3,0,"Status Ruhestrom aktuell:");
INPAapiResultText(text_var,"STAT_RUHESTROM_AKTUELL",1,"");
ftextout(text_var,3,25,0,0);
text(4,0,"Status Ruhestrom vor 1 Zyklus:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_1_ZYKLUS",1,"");
ftextout(text_var,4,25,0,0);
text(5,0,"Status Ruhestrom vor 2 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_2_ZYKLEN",1,"");
ftextout(text_var,5,25,0,0);
text(6,0,"Status Ruhestrom vor 3 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_3_ZYKLEN",1,"");
ftextout(text_var,6,25,0,0);
text(7,0,"Status Ruhestrom vor 4 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_4_ZYKLEN",1,"");
ftextout(text_var,7,25,0,0);
text(8,0,"Status Ruhestrom vor 5 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_5_ZYKLEN",1,"");
ftextout(text_var,8,25,0,0);
text(9,0,"Status Ruhestrom vor 6 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_6_ZYKLEN",1,"");
ftextout(text_var,9,25,0,0);
text(10,0,"Status Ruhestrom vor 7 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_7_ZYKLEN",1,"");
ftextout(text_var,10,25,0,0);
text(11,0,"Status Ruhestrom vor 8 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_8_ZYKLEN",1,"");
ftextout(text_var,11,25,0,0);
text(12,0,"Status Ruhestrom vor 9 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_9_ZYKLEN",1,"");
ftextout(text_var,12,25,0,0);
text(13,0,"Status Ruhestrom vor 10 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_10_ZYKLEN",1,"");
ftextout(text_var,13,25,0,0);
text(14,0,"Status Ruhestrom vor 11 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_11_ZYKLEN",1,"");
ftextout(text_var,14,25,0,0);
text(15,0,"Status Ruhestrom vor 12 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_12_ZYKLEN",1,"");
ftextout(text_var,15,25,0,0);
text(16,0,"Status Ruhestrom vor 13 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_13_ZYKLEN",1,"");
ftextout(text_var,16,25,0,0);
text(17,0,"Status Ruhestrom vor 14 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_14_ZYKLEN",1,"");
ftextout(text_var,17,25,0,0);
text(18,0,"Status Ruhestrom vor 15 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_15_ZYKLEN",1,"");
ftextout(text_var,18,25,0,0);
text(19,0,"Status Ruhestrom vor 16 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_16_ZYKLEN",1,"");
ftextout(text_var,19,25,0,0);
text(20,0,"Status Ruhestrom vor 17 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_17_ZYKLEN",1,"");
ftextout(text_var,20,25,0,0);
text(21,0,"Status Ruhestrom vor 18 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_18_ZYKLEN",1,"");
ftextout(text_var,21,25,0,0);
text(22,0,"Status Ruhestrom vor 19 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_19_ZYKLEN",1,"");
ftextout(text_var,22,25,0,0);
text(23,0,"Status Ruhestrom vor 20 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_20_ZYKLEN",1,"");
ftextout(text_var,23,25,0,0);
text(24,0,"Status Ruhestrom vor 21 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_21_ZYKLEN",1,"");
ftextout(text_var,24,25,0,0);
text(25,0,"Status Ruhestrom vor 22 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_22_ZYKLEN",1,"");
ftextout(text_var,25,25,0,0);
text(26,0,"Status Ruhestrom vor 23 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_23_ZYKLEN",1,"");
ftextout(text_var,26,25,0,0);
text(27,0,"Status Ruhestrom vor 24 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_24_ZYKLEN",1,"");
ftextout(text_var,27,25,0,0);
text(28,0,"Status Ruhestrom vor 25 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_25_ZYKLEN",1,"");
ftextout(text_var,28,25,0,0);
text(29,0,"Status Ruhestrom vor 26 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_26_ZYKLEN",1,"");
ftextout(text_var,29,25,0,0);
text(30,0,"Status Ruhestrom vor 27 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_27_ZYKLEN",1,"");
ftextout(text_var,30,25,0,0);
text(31,0,"Status Ruhestrom vor 28 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_28_ZYKLEN",1,"");
ftextout(text_var,31,25,0,0);
text(32,0,"Status Ruhestrom vor 29 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_29_ZYKLEN",1,"");
ftextout(text_var,32,25,0,0);
text(33,0,"Status Ruhestrom vor 30 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_30_ZYKLEN",1,"");
ftextout(text_var,33,25,0,0);
text(34,0,"Status Ruhestrom vor 31 Zyklen:");
INPAapiResultText(text_var,"STAT_RUHESTROM_VOR_31_ZYKLEN",1,"");
ftextout(text_var,34,25,0,0);
delay(1000);
}
}
// *************************
// *** Steller Screen ***
// *************************
SCREEN s_steller()
{
int z1;
userboxclose(0);
viewclose();
ftextout(" DDE7 Stellgliedansteuerungen 1",1,0,1,0);
z1=5;
textout(" < F1 > Drosselklappe",z1,5);
textout("< Shift > + < F1 > MIL Lampe",z1,45);z1=z1+2;
textout(" < F2 > E-L<>fter",z1,5);
textout("< Shift > + < F2 > <20>ldrucklampe",z1,45);z1=z1+2;
textout(" < F3 > Gl<47>hrelais",z1,5);
textout("< Shift > + < F3 > Nachschalld<6C>mpferklappe",z1,45);z1=z1+2;
textout(" < F4 > Motorlager",z1,5);
textout("< Shift > + < F4 > E Box L<>fter",z1,45);z1=z1+2;
textout(" < F5 > Kraftstoffdruck-Regelventil",z1,5);
textout("< Shift > + < F5 > Klimakompressor",z1,45);z1=z1+2;
textout(" < F6 > Ladedrucksteller",z1,5);
textout("< Shift > + < F6 > Kraftstoffpumpe CAN",z1,45);z1=z1+2;
textout(" < F7 > Drallklappe",z1,5);
textout("< Shift > + < F7 > Vorf<72>rderpumpe",z1,45);z1=z1+2;
textout(" < F8 > Zumesseinheit",z1,5);
textout("< Shift > + < F8 > Zuluftklappe",z1,45);z1=z1+2;
textout(" < F9 > Abgasr<73>ckf<6B>hrung",z1,5);
textout("< Shift > + < F9 > Zusatzheizer",z1,45);z1=z1+2;
textout(" < F10 > Zur<75>ck",z1,5);
textout("< Shift > + < F10 > INPA beenden",z1,45);
delay(50);
}
// *******************************
// *** Steuern Steller Screen ***
// *******************************
SCREEN s_steller_set()
{
// verwendete Globale Variablen
//string steller
//string st_name
//int st_ein
//int st_aus
//string st_dim
//
int z1;
st_add_label="";
if(steller=="AGR") { st_name="Abgasr<73>ckf<6B>hrung"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="AGRKBP") { st_name="AGR-K<>hlerBypassklappe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="ALK") { st_name="Abluftklappe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="BBHE") { st_name="BlowByHeizelement"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="DRA") { st_name="Drallklappe"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="DRO") { st_name="Drosselklappe"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="DRV") { st_name="Kraftstoffdruck-Regelventil"; st_aus=6; st_ein=76;st_dim="%";}
if(steller=="EBX") { st_name="E-BoxL<78>fter"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="ELU") { st_name="Motorl<72>fter"; st_aus=8; st_ein=93;st_dim="%";}
if(steller=="GLU") { st_name="Gl<47>hrelais"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="KFH") { st_name="Heizungf<67>rKraftstofffilter"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="KLI") { st_name="Klimakompressor"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="KPC") { st_name="Kraftstoffpumpe-CAN"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="LDS") { st_name="Ladedrucksteller"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="LDSND") { st_name="LadedruckstellerNiederdruck"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="MILA") { st_name="MIL-Lampe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="MLA") { st_name="Motorlager"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="MRV") { st_name="Zumesseinheit"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="MSA") { st_name="Motorstartautomatik"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="NSK") { st_name="Nachschalld<6C>mpferklappe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="OILA") { st_name="<22>ldrucklampe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="STA") { st_name="Starter"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="SYSLA") { st_name="Systemlampe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="UASCR") { st_name="Elektr.UmschaltventilamAktivtank(SCR)"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="PASCR") { st_name="Pumpe-Aktivtank(SCR)"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="PPSCR") { st_name="Pumpe-Passivtank(SCR)"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="DVSCR") { st_name="DosierventilinderAGA(SCR)"; st_aus=5; st_ein=95;st_dim="%";}
if(steller=="HKT") { st_name="Heizkreis Aktivtank(SCR)"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="HKDL") { st_name="Heizkreis-Dosierleitung(SCR)"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="VBP") { st_name="Verdichterbypass"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="VFP") { st_name="Vorf<72>rderpumpe"; st_aus=0; st_ein=1;st_dim="-";}
if(steller=="ZLK") { st_name="Zuluftklappe"; st_aus=5; st_ein=94;st_dim="%";}
if(steller=="ZUH") { st_name="Zusatzheizer"; st_aus=0; st_ein=1;st_dim="-";}
userboxclose(0);
viewclose();
ftextout("Stelleransteuerung " + st_name,1,0,1,0);
z1=5;
textout(" < F1 > Ansteuerung ein",z1,5);z1=z1+1;
textout(" < F2 > Ansteuerung aus",z1,5);z1=z1+1;
textout(" < F3 > Ansteuerung manuell",z1,5);z1=z1+1;
textout(" < F4 > Ansteuerung zur<75>ck an DDE",z1,5);z1=z1+2;
textout(" < F10 > Zur<75>ck",z1,5);
textout("< Shift > + < F10 > INPA beenden",z1,45);
steller_ansteuer(steller,0xFE);
delay(50);
}
SCREEN s_steller_scr()
{
int z1;
userboxclose(0);
viewclose();
ftextout(" DDE7 SCR Stellgliedansteuerungen",1,0,1,0);
z1=5;
textout(" < F1 > Umschaltventil",z1,5);
z1=z1+2;
textout(" < F2 > Pumpe Aktivtank",z1,5);
z1=z1+2;
textout(" < F3 > Pumpe Passivtank",z1,5);
z1=z1+2;
textout(" < F4 > Dosierventil",z1,5);
z1=z1+2;
// textout(" < F5 > Heizer Heizerrelais",z1,5);
// z1=z1+2;
textout(" < F5 > Heizer Druckleitung",z1,5);
z1=z1+2;
textout(" < F6 > Heizerkreis-Tank",z1,5);
z1=z1+3;
textout(" < F10 > Zur<75>ck",z1,5);
textout("< Shift > + < F10 > INPA beenden",z1,45);
delay(50);
}
// *******************************
// *** Steuern Steller Screen ***
// *******************************
SCREEN s_steller_scr_set()
{
// verwendete Globale Variablen
//string steller
//string st_name
//int st_ein
//int st_aus
//
int z1;
if(steller=="UASCR") { st_name="Elektr. Umschaltventil am Aktivtank"; st_aus=0; st_ein=1;st_dim="-";st_add_label="CoSCR_st;SCR_pUPmpP;URevVlv_st;URevVlv_stPs";}
if(steller=="PASCR") { st_name="Pumpe-Aktivtank"; st_aus=6; st_ein=80;st_dim="%";st_add_label="CoSCR_st;SCR_pUPmpP;SCR_rUTnkLvl;SCR_uRawUPmpP;UPmpMot_r;UPmpMot_rPs;URevVlv_st;URevVlv_stPs";}
if(steller=="PPSCR") { st_name="Pumpe-Passivtank"; st_aus=0; st_ein=1;st_dim="-";st_add_label="SCR_pUPmpP;SCR_rRawUPasTnkLvl;SCR_rUPasTnkLvl;UPmpReFl_rPs;UPmpReFl_st";}
if(steller=="DVSCR") { st_name="Dosierventil in der AGA"; st_aus=5; st_ein=95;st_dim="%";st_add_label="CoSCR_st;Exh_stNOxSensDiaEnaNoCat2Ds;Exh_stNOxSensDiaEnaNSCDs;SCR_uRawUCatUsT;UDC_dmRdcAgDos;UDosVlv_rDyc;UDosVlv_rPs";}
//if(steller=="HKHR") { st_name="Heizkreis-Heizerrelais"; st_aus=0; st_ein=1;st_dim="-";st_add_label="UHC_iPLSensDia_mp;UHC_iTnkSensDia_mp;UHC_iToT;UHC_stCReq;UHtrPL_st;UHtrPL_stPs;UHtrTnk_st;UHtrTnk_stPs";}
if(steller=="HKDL") { st_name="Heizkreis-Druckleitung"; st_aus=0; st_ein=1;st_dim="-";st_add_label="UHC_iPLSensDia_mp;UHC_iTnkSensDia_mp;UHC_iToT;UHC_stCReq;UHC_stCtl;UHtrPL_st;UHtrPL_stPs";}
if(steller=="HKT") { st_name="Heizkreis-Tank"; st_aus=0; st_ein=1;st_dim="-";st_add_label="UHC_iPLSensDia_mp;UHC_iTnkSensDia_mp;UHC_iToT;UHC_stCReq;UHC_stCtl;SCR_tUTnkT;SCR_uRawUTnkT;UHtrTnk_st;UHtrTnk_stPs";}
userboxclose(0);
viewclose();
ftextout("Stelleransteuerung " + st_name,1,0,1,0);
z1=5;
textout(" < F1 > Ansteuerung ein",z1,5);z1=z1+1;
textout(" < F2 > Ansteuerung aus",z1,5);z1=z1+1;
textout(" < F3 > Ansteuerung manuell",z1,5);z1=z1+1;
textout(" < F4 > Ansteuerung zur<75>ck an DDE",z1,5);z1=z1+2;
textout(" < F10 > Zur<75>ck",z1,5);
textout("< Shift > + < F10 > INPA beenden",z1,45);
steller_ansteuer(steller,0xFE);
delay(50);
}
// *****************************
// *** LL-Erh<72>hung setzen ***
// *****************************
SCREEN s_system_llerh()
{
string temp;
string s1;
string hilfe;
ftextout("Systemtest LL-Drehzahl verstellen",0,15,1,1);
textout("=========================================================================================",2,0);
if ((Diag_Index=="18")||(Diag_Index=="33")||(Diag_Index=="49"))
{
INPAapiJob(sgbd,"STATUS_MOTORDREHZAHL","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY"){ messagebox("STATUS_MOTORDREHZAHL",s1); }
s1 = "LL - Istwert";
ftextout(s1,10,10,1,1);
INPAapiResultInt(ll_wert,"STAT_MOTORDREHZAHL_WERT",1);
inttostring(ll_wert,temp);
ftextout(blank,12,0,1,1);
ftextout(temp,12,15,1,1);
INPAapiJob(sgbd,"ABGLEICH_LESEN","LLABS","");
s1 = "LL - Sollwert";
ftextout(s1,10,40,1,1);
INPAapiResultInt(ll_wert,"ABGLEICH_LESEN_WERT",1);
inttostring(ll_wert,temp);
ftextout(temp,12,45,1,1);
delay(200);
}
else
{
INPAapiJob(sgbd,"STATUS_MOTORDREHZAHL","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY"){ messagebox("STATUS_MOTORDREHZAHL",s1); }
s1 = "LL - Istwert";
ftextout(s1,10,10,1,1);
INPAapiResultInt(ll_wert,"STAT_MOTORDREHZAHL_WERT",1);
inttostring(ll_wert,temp);
ftextout(blank,12,0,1,1);
ftextout(temp,12,15,1,1);
INPAapiJob(sgbd,"ABGLEICH_LESEN","LLA","");
s1 = "LL - Offset";
ftextout(s1,10,40,1,1);
INPAapiResultInt(ll_wert,"ABGLEICH_LESEN_WERT",1);
inttostring(ll_wert,temp);
ftextout(temp,12,45,1,1);
delay(200);
}
}
//*******************************************
//** Ende LL-Drehzahl verstellen *****
//*******************************************
SCREEN s_system_llerh_stop()
{
string s1;
string temp;
if ((Diag_Index=="18")||(Diag_Index=="33")||(Diag_Index=="49"))
{
INPAapiJob(sgbd,"ABGLEICH_VERSTELLEN","LLABS;0","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") { messagebox("STOP ABGLEICH_VERSTELLEN",s1); stop(); }
INPAapiJob(sgbd,"ABGLEICH_LESEN","LLABS","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY")
{
messagebox("ABGLEICH_LESEN_WERT",s1);
}
INPAapiJob(sgbd,"STATUS_MOTORDREHZAHL","","");
ftextout("Aktueller LL Istwert",10,10,1,1);
INPAapiResultInt(ll_wert,"STAT_MOTORDREHZAHL_WERT",1);
inttostring(ll_wert,temp);
ftextout(blank,12,0,1,1);
ftextout(temp,12,15,1,1);
INPAapiJob(sgbd,"ABGLEICH_LESEN","LLABS","");
ftextout("Aktuelle LL Vorgabe",10,40,1,1);
INPAapiResultInt(ll_wert,"ABGLEICH_LESEN_WERT",1);
inttostring(ll_wert,temp);
ftextout(temp,12,45,1,1);
stop();
}
else
{
INPAapiJob(sgbd,"ABGLEICH_VERSTELLEN","LLA;0","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY") { messagebox("STOP ABGLEICH_VERSTELLEN",s1); stop(); }
INPAapiJob(sgbd,"ABGLEICH_LESEN","LLA","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY")
{
messagebox("ABGLEICH_LESEN_WERT",s1);
}
//INPAapiResultText(s1,"Aktuelle Drehzahl",1,"");
ftextout(blank,10,0,1,1);
ftextout("Aktuelles LL Offset",10,10,1,1);
INPAapiResultInt(ll_wert,"ABGLEICH_LESEN_WERT",1);
inttostring(ll_wert,s1);
ftextout(blank,12,0,1,1);
ftextout(s1,12,15,1,1);
stop();
}
}
// *************************
// *** IMA-Screen ***
// *************************
SCREEN s_ima()
{
string zyl1;
ftextout("Injektorwerte lesen",1,0,1,0);
ftextout("",3,0,0,0);
logik_var=TRUE;
if(logik_var)
{
INPAapiJob(sgbd,"ABGLEICH_IMA_LESEN","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(zyl1,"ABGLEICH_IMA_WERT_ZYL1",1,"");
if (zyl1 == "AAAAAAA")
{
setitem(3,"",FALSE);
}
else
{
setitem(3,"IMA <20>ndern",TRUE);
}
setitem(2,"",FALSE);
//IMA Werte anzeigen f<>r Zyl. 1
text(5,5,"Zylinder 1:");
INPAapiResultText(text_var,"ABGLEICH_IMA_WERT_ZYL1",1,"");
textout( text_var,5,15);
//IMA Werte anzeigen f<>r Zyl. 2
text(5,45,"Zylinder 2:");
INPAapiResultText(text_var,"ABGLEICH_IMA_WERT_ZYL2",1,"");
textout(text_var,5,55);
//IMA Werte anzeigen f<>r Zyl. 3
text(10,5,"Zylinder 3:");
INPAapiResultText(text_var,"ABGLEICH_IMA_WERT_ZYL3",1,"");
textout(text_var,10,15);
//IMA Werte anzeigen f<>r Zyl. 4
text(10,45,"Zylinder 4:");
INPAapiResultText(text_var,"ABGLEICH_IMA_WERT_ZYL4",1,"");
textout(text_var,10,55);
//IMA Werte anzeigen f<>r Zyl. 5
text(15,5,"Zylinder 5:");
INPAapiResultText(text_var,"ABGLEICH_IMA_WERT_ZYL5",1,"");
textout(text_var,15,15);
//IMA Werte anzeigen f<>r Zyl. 6
text(15,45,"Zylinder 6:");
INPAapiResultText(text_var,"ABGLEICH_IMA_WERT_ZYL6",1,"");
textout(text_var,15,55);
textout("< F1 > IMA-Werte f<>r alle Zylinder schreiben",22,5);
if (zyl1 != "AAAAAAA")
{
textout("< F3 > IMA-Wert f<>r einzelnen Zylinder schreiben",24,5);
}
stop();
}
else
{
setitem(1,"",FALSE);
setitem(3,"",FALSE);
inputdigital(logik_var, "IMA Flag setzen","IMA Flag noch nicht gesetzt","Flag nicht setzen","Flag jetzt setzen");
getinputstate(ganz_zahl);
if(ganz_zahl == 0 && logik_var==TRUE)
{
INPAapiJob(sgbd,"ABGLEICH_IMA_ABGLEICHFLAG_VORGEBEN","","");
INPAapiCheckJobStatus("OKAY");
INPAapiJob(sgbd,"ABGLEICH_IMA_ABGLEICHFLAG_PROGRAMMIEREN","","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(text_var,"JOB_STATUS",1,"");
if(text_var == "OKAY") { messagebox("IMA Abgleichflag","Abgleichflag gesetzt"); }
}
else
{
textout("Injektorwerte noch nicht programmiert",3,3);
textout("Um Injektorwerte zu programmieren, zun<75>chst Flag mit < F2 > setzen",5,3);
stop();
}
}
}
// *********************
// *** CBS Hauptmenu ***
// *********************
SCREEN s_main_cbs()
{
ftextout("CBS-Daten",1,0,1,0);
ftextout("",3,0,0,0);
LINE("","") {
//CBS Daten auslesen
INPAapiJob(sgbd,"CBS_DATEN_LESEN","","");
INPAapiCheckJobStatus("OKAY");
text(5,5,"CBS-Wert OEL in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_OEL",1,"");
textout( text_var,5,30);
text(5,43,"CBS-Wert Bremsfl<66>ssigkeit in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_BRFL",1,"");
textout( text_var,5,63);
text(7,5,"Restlaufleistung:");
INPAapiResultText(text_var,"RMMI_CBS_WERT",1,"");
textout(text_var,7,30);
INPAapiResultText(text_var,"RMMI_CBS_EINH",1,"");
textout(text_var,7,34);
text(7,43,"CBS-Wert ZKRZ in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_ZKRZ",1,"");
textout( text_var,7,63);
text(9,5,"Verf<72>gbarkeit BATT in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_BATT",1,"");
textout(text_var,9,30);
text(9,43,"CBS-Wert SIC in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_SIC",1,"");
textout( text_var,9,63);
text(11,5,"CBS-Wert Partikelfilter in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_CSF",1,"");
textout(text_var,10,30);
text(11,43,"CBS-Wert FKL in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_KFL",1,"");
textout( text_var,11,63);
text(13,5,"CBS-Wert VTG in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_VTG",1,"");
textout(text_var,13,30);
text(13,43,"CBS-Wert UEB in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_UEB",1,"");
textout( text_var,13,63);
text(15,5,"CBS-Wert Bremse vorn in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_BR_V",1,"");
textout(text_var,15,30);
text(15,43,"CBS-Wert Bremse hinten in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_BR_H",1,"");
textout(text_var,15,63);
text(17,5,"CBS-Wert Filter in %:");
INPAapiResultText(text_var,"AVAI_CBS_WERT_FILT",1,"");
textout(text_var,17,30);
}
}
// *********************************
// *** Screen Systemdiagnose GLF ***
// *********************************
SCREEN s_systemtest_glf()
{
string s1, s2;
int status = 255;
ftextout("Systemtest Gesteuerte Luftf<74>hrung",0,1,1,1);
textout(" ",2,0);
textout(" < F1 > Start Systemtest GLF",3,5);
textout(" < F2 > Stop Systemtest GLF",4,5);
textout(" < F10 > Zur<75>ck",5,5);
textout("< Shift > + < F10 > INPA beenden", 5,43);
INPAapiJob(sgbd,"STATUS_SYSTEMCHECK_GLF","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY")
{
messagebox("STATUS_SYSTEMCHECK_GLF",s1);
stop();
}
else
{
textout(" ",8,0);
INPAapiResultText(s1,"STAT_SYSTEMCHECK_GLF_TEXT",1,"");
textout("=== Status Systemcheck ===", 7,0);
textout(s1,8,0);
}
}
// *********************************
// *** Screen Systemdiagnose IGR ***
// *********************************
SCREEN s_systemtest_igr()
{
string s1, s2;
int status = 255;
ftextout("Systemtest IGR deaktivieren",0,1,1,1);
textout(" ",2,0);
textout(" < F1 > Start Systemtest IGR",3,5);
textout(" < F2 > Stop Systemtest IGR",4,5);
textout(" < F10 > Zur<75>ck",5,5);
textout("< Shift > + < F10 > INPA beenden", 5,43);
INPAapiJob(sgbd,"STATUS_SYSTEMCHECK_IGR_AUS","","");
INPAapiResultText(s1,"JOB_STATUS",1,"");
if (s1 != "OKAY")
{
messagebox("STATUS_SYSTEMCHECK_IGR_AUS",s1);
stop();
}
else
{
textout(" ",8,0);
INPAapiResultText(s1,"STAT_SYSTEMCHECK_IGR_TEXT",1,"");
textout("=== Status Systemcheck ===", 7,0);
textout(s1,8,0);
}
}
// ***************************
// *** EWS-Screen ***
// ***************************
SCREEN s_ews()
{
ftextout("EWS4" ,3,20,1,1);
textout("< F1 > Status" ,12,5);
textout("< F2 > Status Sekret-Key" ,13,5);
//textout("< F3 > EWS Data schreiben" ,15,5);
textout("< F10> Zur<75>ck" ,18,5);
textout("< Shift > + < F10> Ende" ,18,45);
stop();
}
SCREEN s_ews_status()
{
string temp;
ftextout("Status EWS",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_EWS","","");
INPAapiCheckJobStatus("OKAY");
LINE("","") {
text(1,0,"SG beherrscht EWS 3");
INPAapiResultDigital(logik_var,"STAT_EWS3_CAPABLE",1);
digitalout(logik_var,3,1,"JA","NEIN");
text(1,43,"SG beherrscht EWS 4");
INPAapiResultDigital(logik_var,"STAT_EWS4_CAPABLE",1);
digitalout(logik_var,3,41,"JA","NEIN");
}
LINE("","") {
text(1,0,"EWS 3 aktiv");
INPAapiResultDigital(logik_var,"STAT_EWS3_ACTIVE",1);
digitalout(logik_var,3,1,"JA","NEIN");
text(1,43,"EWS 4 aktiv");
INPAapiResultDigital(logik_var,"STAT_EWS4_ACTIVE",1);
digitalout(logik_var,3,41,"JA","NEIN");
}
LINE("","") {
text(1,0,"EWS 4 Server secret key locked");
INPAapiResultDigital(logik_var,"STAT_EWS4_SERVER_SK_LOCKED",1);
digitalout(logik_var,3,1,"JA","NEIN");
text(1,43,"EWS 4 client secret key locked");
INPAapiResultDigital(logik_var,"STAT_EWS4_CLIENT_SK_LOCKED",1);
digitalout(logik_var,3,41,"JA","NEIN");
}
LINE("","") {
text(1,0,"Status Authentifizierung");
INPAapiResultInt(ganz_zahl,"STAT_CLIENT_AUTHENTICATED",1);
inttostring(ganz_zahl,temp);
INPAapiResultText(text_var,"STAT_CLIENT_AUTHENTICATED_TXT",1,"");
ftextout(blank,3,0,0,2);
ftextout(temp + ": " + text_var,3,0,0,2);
}
}
SCREEN s_ews_status_sk()
{
string strData;
int intDataLen;
ftextout("Status EWS - Secret Key",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_EWS4_SK","","");
INPAapiCheckJobStatus("OKAY");
LINE("","") {
text(1,0,"SecretKey Server");
INPAapiResultBinary("STAT_EWS4_SERVER_SK",1);
GetBinaryDataString(strData, intDataLen);
ftextout(strData,3,1,0,2);
text(1,43,"SecretKey Client");
INPAapiResultBinary("STAT_EWS4_CLIENT_SK",1);
GetBinaryDataString(strData, intDataLen);
ftextout(strData,3,44,0,2);
}
}
// *******************************
// *** dyn Messwertblock lesen ***
// *******************************
SCREEN s_fdyn()
{
int i_temp_1, i_temp_2;
int laenge,anfang,pos1,pos1_alt,pos2,pos2_alt;
bool b1;
string vartext1,result,label,fileline1,fileline,templine;
string s_inhalt1,s_inhalt2,time;
string s1, s2, s3 = "", s4 = "", s5, s6, s_temp;
long t_offset = 0,count;
real rtime;
if ( datei_ddli == "" )
{
s1 = "C:\EC-Apps\INPA\source\DDLI_DDE7.TXT"; // Definition des Quellpfades f<>r DDLI-Liste; Pfad und Dateiname d<>rfen nicht ver<65>ndert werden, sonst funktioniert es nicht mehr
fileopen ( s1, "a" ); // Datei <20>ffnen um Daten anzuh<75>ngen, wenn Datei noch nicht vorhanden, dann Datei anlegen mit leerem Inhalt
filewrite(s3); // Inhalt von s3 wird angeh<65>ngt (in diesem Falle ist s3 leer, somit werden keine neuen UW-ID angeh<65>ngt)
fileclose();
fileopen( s1, "r" ); // Datei <20>ffnen um zu lesen
fileread( s_inhalt1, logik_var ); // Auslesen des Dateiinhalts
if ( s_inhalt1 == "" ) // wenn Dateiinhalt leer, dann Aufforderung um neue DDLI-Werte einzugeben
{
inputtext( s1, "DDLI-Liste anlegen?","Dateiname und Pfad nicht ab<61>ndern (Pfad muss bereits existieren)!");
getinputstate( i_temp_1 ); // 0 = OK 1 = Abbruch
inputstate = i_temp_1; // Abbruch merken
if ( i_temp_1 == 0 )
{
fileopen ( s1, "w" ); // Datei <20>ffne um zu schreiben
inputtext( s3, "DDLI-Werte definieren?","Labels aus Messwertetabelle (z.B.: Epm_nEng;AFS_dm)! Trennzeichen = ';'");
getinputstate( i_temp_1 ); // 0 = OK 1 = Abbruch
inputstate = i_temp_1; // Abbruch merken
if ( i_temp_1 == 0 )
{
inputtext( s4, "DDLI-Werte definieren?","F<>r die Labels "+s3+" ben<65>tigte Results (z.B.: STAT_MOTORDREHZAHL;STAT_LUFTMASSE)!");
getinputstate( i_temp_2);
inputstate = i_temp_2;
filewrite(s3); // DDLI-Werte speichern
filewrite(s4);
fileclose();
datei_ddli = s1; // Datei angelegt, Namen merken
}
else
{
blankscreen();
stop();
}
}
else
{
blankscreen();
stop();
}
}
else // wenn Datei nicht leer, dann <20>bergabe des Quellpfades an datei_ddl
{
datei_ddli = s1; // Datei angelegt, Namen merken
}
datei_rec = "C:\EC-Apps\INPA\source\Messwerte.TXT";
inputtext( datei_rec, "Datei f<>r Messwertaufzeichnung","Dateiname und Pfad angeben (Pfad muss bereits existieren, Datei wird gel<65>scht)!");
fileopen( datei_rec, "w" ); // bereits bestehende Messwertdatei wird gel<65>scht
filewrite("");
fileclose();
fileopen( datei_ddli, "r" ); // datei_ddli <20>ffnen und Werte auslesen
fileread( s_inhalt1, logik_var );
ftextout("DDLI-Block",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","5;"+s_inhalt1,"");
INPAapiCheckJobStatus("OKAY");
delay(500);
}
else
{
fileopen( datei_ddli, "r" );
fileread( s_inhalt1, logik_var );
if ( s_inhalt1 == "" )
{
blankscreen();
stop();
}
else
{
ftextout("DDLI-Block",1,0,1,0);
ftextout("",3,0,0,0);
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","5;"+s_inhalt1,"");
INPAapiCheckJobStatus("OKAY");
delay(500);
}
}
blankscreen();
LINE("Wert0, Wert1","")
{
fileread( s_inhalt2, logik_var );
fileclose();
strlen(laenge,s_inhalt2);
// Lan: Korr.auf sp<73>test m<>gliche Position vor erstem Lesevorgang (Beginn)
if (t_offset == 0)
{
gettickcount(t_offset);
}
// Lan: Korr.auf sp<73>test m<>gliche Position vor erstem Lesevorgang (Ende)
if( laenge > 0 )
{
instr(pos2,0,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,0,pos2);
else
result=s_inhalt2;
instr(pos1,0,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,0,pos1);
else
label=s_inhalt1;
templine = "Time";
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = time + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert2,3","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert4,5","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert6,7","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert8,9","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert10,11","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert13,14","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert15,16","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert17,18","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
}
LINE("Wert19,20","")
{
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,0,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,10,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
gettickcount(count); count = count - t_offset; longtoreal(count,rtime); realtostring(rtime,"10.0",time);
fileline = fileline + ";" + vartext1;
ftextout(vartext1,1,0,0,0);
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,20,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,30,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,20,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,40,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,50,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,40,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
if(pos2_alt<laenge && pos2_alt>0)
{
instr(pos2,pos2_alt,s_inhalt2,";");
if (pos2 != -1)
midstr(result,s_inhalt2,pos2_alt,pos2-pos2_alt);
else
midstr(result,s_inhalt2,pos2_alt,laenge-pos2_alt);
instr(pos1,pos1_alt,s_inhalt1,";");
if (pos1 != -1)
midstr(label,s_inhalt1,pos1_alt,pos1-pos1_alt);
else
midstr(label,s_inhalt1,pos1_alt,laenge-pos1_alt);
//INPAapiResultText(vartext1,result+"_INFO",1,"");
ftextout(label,0,60,0,0);
INPAapiResultText(vartext1,result+"_EINH",1,"");
ftextout(vartext1,1,70,0,0);
templine = templine + ";" + label + "["+vartext1+"]";
INPAapiResultAnalog(zahlen_var,result+"_WERT",1);
realtostring(zahlen_var,"5.3",vartext1);
ftextout(vartext1,1,60,0,0);
fileline = fileline + ";" + vartext1;
pos2_alt=pos2+1;
pos1_alt=pos1+1;
}
fileopen(datei_rec,"a");
if (fileline1 == "")
{
fileline1 = templine;
filewrite(fileline1);
}
filewrite(fileline);
fileclose();
}
}
// ***********************
// *** Ansteuerung GLF ***
// ***********************
SCREEN s_glf()
{
int z1;
userboxclose(0);
viewclose();
ftextout("Stellgliedansteuerung GLF",0,5,1,1);
z1=3;
textout(" Ansteuerbedingung: " + glf,z1,5);z1=z1+2;
textout(" < F1 > K<>hlerjalousie oben zu",z1,5);z1=z1+1;
textout(" < F2 > K<>hlerjalousie oben auf",z1,5);z1=z1+1;
/* textout(" < F3 > K<>hlerjalousie unten zu",z1,5);z1=z1+1;
textout(" < F4 > K<>hlerjalousie unten auf",z1,5);z1=z1+1; */
textout(" < F5 > Ansteuerung zur<75>ck an DME",z1,5);z1=z1+2;
textout(" < F10 > Zur<75>ck",z1,5);
textout("< Shift > + < F10 > INPA beenden",z1,45);
glf1_ansteuer(0xFE);
glf2_ansteuer(0xFE);
delay(250);
}
// *******************************
// *** Speichern der Messdaten ***
// *******************************
SCREEN s_savedata()
{
string pfad, info, temp;
if (ende == 0){
pfad = "C:\EC-Apps\INPA\Messdaten.TXT";
fileopen(pfad, "a"); // Erstellt eine Datei in dem angegebenen Pfad; es k<>nnen Informationen an die Datei angef<65>gt werden
// Auslesen der Informationen, die gespeichert werden sollen
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","JA;CoSCR_st;CoSCR_stSub;SCRAd_ctSlip;SCRAd_facPlaus_Fld_0;SCRAd_facQtyAdap;SCRAd_facQtyAdapRaw_mp;SCRMod_mEstNH3Ld;SCRFFC_rPPMNOxUs;Com_rNOxCat2Ds;Com_rNOxDs;DStgy_stCondDos;Exh_rNOxOfsNoCat2Ds;Exh_rNOxOfsNSCDs;SCRChk_etaActAvrg1_mp;SCRChk_etaActAvrg2_mp;SCRChk_rNOxDiffAvrgUs_mp;SCRChk_rNOxDiffUs_mp;UDC_mRdcAgAct;UDC_mRdcAgDosQnt;DStgy_stMetStgy;Exh_rNOxNoCat2Ds;Exh_rNOxNSCDs;Exh_rO2LinNoCat2Ds;Exh_rO2LinNSCDs;Exh_stLamLeanNoCat2Ds;Exh_stLamLeanNSCDs;Exh_stNOxNSCDs;Exh_stNOxSensDiaEnaNoCat2Ds;Exh_stNOxSensDiaEnaNSCDs;SCRT_tAvrg;UDC_dmRdcAgDos;UDosVlv_rPs;UDosVlv_rDyc;RFC_stRls_mp;SCR_pUPmpP;SCR_rRawUPasTnkLvl;SCR_rUPasTnkLvl;SCR_rRawUTnkLvl;SCR_rUTnkLvl;SCR_tUTnkT","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(temp,"STAT_CoSCR_st_WERT",1,"");
strcat(info, "Zustand des hydr. SCR Systems:CoSCR_st:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_CoSCR_stSub_WERT",1,"");
strcat(info, "SubZustand des hydr. SCR Systems:CoSCR_stSub:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRAd_ctSlip_WERT",1,"");
strcat(info, "Anzahl der erfolgten Adaptionen:SCRAd_ctSlip:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRAd_facPlaus_Fld0_WERT",1,"");
strcat(info, "Plausibilit<69>ten:SCRAd_facPlaus_Fld_0:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRAd_facQtyAdap_WERT",1,"");
strcat(info, "Langzeitadaptionsfaktor:SCRAd_facQtyAdap:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRAd_facQtyAdapRaw_mp_WERT",1,"");
strcat(info, "Langzeitadaptionsfaktor (roh):SCRAd_facQtyAdapRaw_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRMod_mEstNH3Ld_WERT",1,"");
strcat(info, "aktueller NH3-Speicherf<72>llstand:SCRMod_mEstNH3Ld:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRFFC_rPPMNOxUs_WERT",1,"");
strcat(info, "NOx Rohemissionen:SCRFFC_rPPMNOxUs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Com_rNOxCat2Ds_WERT",1,"");
strcat(info, "ermittelte NOx - Konzentration 1:Com_rNOxCat2Ds:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Com_rNOxDs_WERT",1,"");
strcat(info, "ermittelte NOx - Konzentration 2:Com_rNOxDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_DStgy_stCondDos_WERT",1,"");
strcat(info, "Freigabestatus Dosierstrategie (bitweise):DStgy_stCondDos:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_rNOxOfsNoCat2Ds_WERT",1,"");
strcat(info, "Sensoroffset durch Schubkalibrierung (Downstream):Exh_rNOxOfsNoCat2Ds:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_rNOxOfsNSCDs_WERT",1,"");
strcat(info, "Sensoroffset durch Schubkalibrierung (Upstream):Exh_rNOxOfsNSCDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRChk_etaActAvrg1_mp_WERT",1,"");
strcat(info, "durchschnittlicher tats<74>chlicher Wirkungsgrad im Temperaturbereich 1:SCRChk_etaActAvrg1_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRChk_etaActAvrg2_mp_WERT",1,"");
strcat(info, "durchschnittlicher tats<74>chlicher Wirkungsgrad im Temperaturbereich 2:SCRChk_etaActAvrg2_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRChk_rNOxDiffAvrgUs_mp_WERT",1,"");
strcat(info, "gemittelte normierte Nox-Abweichung zwischen Modellwert und Nox-Sensor vor SCR:SCRChk_rNOxDiffAvrgUs_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRChk_rNOxDiffUs_mp_WERT",1,"");
strcat(info, "normierte Nox-Abweichung zwischen Modellwert und Nox-Sensor vor SCR:SCRChk_rNOxDiffUs_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDC_mRdcAgAct_WERT",1,"");
strcat(info, "Harnstoffverbrauch seit letztem Motorstart:UDC_mRdcAgAct:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDC_mRdcAgDosQnt_WERT",1,"");
strcat(info, "Harnstoffverbrauch seit letztem Umpumpvorgang:UDC_mRdcAgDosQnt:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_DStgy_stMetStgy_WERT",1,"");
strcat(info, "Freigabe der Dosierung durch die Dosierstrategie:DStgy_stMetStgy:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_rNOxNoCat2Ds_WERT",1,"");
strcat(info, "Downstream - Signal von NOx-Sensor 2 (Offset-korrigiert):Exh_rNOxNoCat2Ds:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_rNOxNSCDs_WERT",1,"");
strcat(info, "Upstream - Signal von NOx-Sensor 1 (Offset-korrigiert):Exh_rNOxNSCDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_rO2LinNoCat2Ds_WERT",1,"");
strcat(info, "O2-Konzentration im Abgas nach Sekund<6E>rkatalysator:Exh_rO2LinNoCat2Ds:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_rO2LinNSCDs_WERT",1,"");
strcat(info, "O2-Konzentration im Abgas nach Hauptkatalysator:Exh_rO2LinNSCDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_stLamLeanNoCat2Ds_WERT",1,"");
strcat(info, "Lambdasignal aus NOx-Sensor nach dem NOx-Speicherkatalysator 2:Exh_stLamLeanNoCat2Ds:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_stLamLeanNSCDs_WERT",1,"");
strcat(info, "Lambdasignal aus NOx-Sensor nach dem NOx-Speicherkatalysator 1:Exh_stLamLeanNSCDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_stNOxNSCDs_WERT",1,"");
strcat(info, "NOx-Statussignal nach NOx-Speicherkatalysator:Exh_stNOxNSCDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_stNOxSensDiaEnaNoCat2Ds_WERT",1,"");
strcat(info, "Taupunktende Nox-Sensor nach SCR-KAT:Exh_stNOxSensDiaEnaNoCat2Ds:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_Exh_stNOxSensDiaEnaNSCDs_WERT",1,"");
strcat(info, "Taupunktende Nox-Sensor vor SCR-KAT:Exh_stNOxSensDiaEnaNSCDs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCRT_tAvrg_WERT",1,"");
strcat(info, "Gewichtete mittlere Temperatur des SCR Katalysators:SCRT_tAvrg:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDC_dmRdcAgDos_WERT",1,"");
strcat(info, "R<>ckmeldung der eindosierten Menge:UDC_dmRdcAgDos:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDosVlv_rPs_WERT",1,"");
strcat(info, "Tastverh<72>ltnis des Ausgangssignals der Dosierventilendstufe:UDosVlv_rPs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDosVlv_rDyc_WERT",1,"");
strcat(info, "Sollwert f<>r das Tastverh<72>ltnis der Dosierventilendstufe:UDosVlv_rDyc:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_RFC_stRls_mp_WERT",1,"");
strcat(info, "Freigabestatus Passivtank:RFC_stRls_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_pUPmpP_WERT",1,"");
strcat(info, "Pumpendruck des SCR-Systems:SCR_pUPmpP:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_rRawUPasTnkLvl_WERT",1,"");
strcat(info, "Rohwert F<>llstand Passivtank:SCR_rRawUPasTnkLvl:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_rUPasTnkLvl_WERT",1,"");
strcat(info, "F<>llstand - Passivtank:SCR_rUPasTnkLvl:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_rRawUTnkLvl_WERT",1,"");
strcat(info, "Rohwert F<>llstand Aktivtank:SCR_rRawUTnkLvl:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_rUTnkLvl_WERT",1,"");
strcat(info, "F<>llstand Aktivtank:SCR_rUTnkLvl:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_tUTnkT_WERT",1,"");
strcat(info, "Temperatur der Harnstoff-Wasser-L<>sung:SCR_tUTnkT:", temp);
filewrite(info);
INPAapiJob(sgbd,"STATUS_MESSWERTBLOCK_LESEN","ja;SCR_uRawUCatUsT;SCR_uRawUPmpP;SCR_uRawUTnkT;UDC_mRdcAgRmn;UDC_stDetPasTnkReFill;UDC_stDetReFill;UHC_iPLSensDia_mp;UHC_iTnkSensDia_mp;UHC_stCReq;UHC_stCtl;UHC_stDfrstChk;UHtrPL_st;UHtrPL_stPs;UHtrTnk_st;UHtrTnk_stPs;UPmpMot_r;UPmpMot_rPs;UPmpReFl_rPs;UPmpReFl_st;URevVlv_st;URevVlv_stPs;SCR_tUCatUsT","");
INPAapiCheckJobStatus("OKAY");
INPAapiResultText(temp,"STAT_SCR_uRawUCatUsT_WERT",1,"");
strcat(info, "Sensorrohspannung des Temperatursensors vor Harnstoffkatalysator:SCR_uRawUCatUsT:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_uRawUPmpP_WERT",1,"");
strcat(info, "Sensorrohspannung des Drucksensors der HWL-Pumpe:SCR_uRawUPmpP:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_uRawUTnkT_WERT",1,"");
strcat(info, "Sensorrohspannung des Temperatursensors der Harnstoff-Wasser-L<>sung:SCR_uRawUTnkT:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDC_mRdcAgRmn_WERT",1,"");
strcat(info, "Resttankmenge:UDC_mRdcAgRmn:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDC_stDetPasTnkReFill_WERT",1,"");
strcat(info, "Nachtankerkennung Passivtank:UDC_stDetPasTnkReFill:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UDC_stDetReFill_WERT",1,"");
strcat(info, "Nachtankerkennung Aktivtank:UDC_stDetReFill:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHC_iPLSensDia_mp_WERT",1,"");
strcat(info, "Aktueller Stromspiegel der Druckleitung bzw. F<>rdermodulheizung:UHC_iPLSensDia_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHC_iTnkSensDia_mp_WERT",1,"");
strcat(info, "aktueller Stromspiegel der Tankheizung:UHC_iTnkSensDia_mp:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHC_stCReq_WERT",1,"");
strcat(info, "Anforderung zum Heizen des Tanks und / oder der Druckleitung:UHC_stCReq:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHC_stCtl_WERT",1,"");
strcat(info, "Status der Tanktemperatur und Auftauen der Druckleitung:UHC_stCtl:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHC_stDfrstChk_WERT",1,"");
strcat(info, "Status der Auftaupr<70>fung:UHC_stDfrstChk:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHtrPL_st_WERT",1,"");
strcat(info, "Status - Sollwert f<>r die Druckleitungsheizung:UHtrPL_st:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHtrPL_stPs_WERT",1,"");
strcat(info, "Status der Endstufe f<>r die Druckleitungsheizung:UHtrPL_stPs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHtrTnk_st_WERT",1,"");
strcat(info, "Status der Endstufe f<>r die Tankheizung:UHtrTnk_st:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UHtrTnk_stPs_WERT",1,"");
strcat(info, "Status - Sollwert f<>r die Tankheizung:UHtrTnk_stPs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UPmpMot_r_WERT",1,"");
strcat(info, "Tastverh<72>ltnis zur Ansteuerung des Pumpenmotors (Sollwert):UPmpMot_r:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UPmpMot_rPs_WERT",1,"");
strcat(info, "Tastverh<72>ltnis zur Ansteuerung des Pumpenmotors (Endstufe):UPmpMot_rPs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UPmpReFl_rPs_WERT",1,"");
strcat(info, "Tastverhaeltnis an der Endstufe:UPmpReFl_rPs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_UPmpReFl_st_WERT",1,"");
strcat(info, "Status der Auftaupr<70>fung:UPmpReFl_st:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_URevVlv_st_WERT",1,"");
strcat(info, "Status - digitaler Ausgangs zum 4/2 Wegeventil (Sollwert):URevVlv_st:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_URevVlv_stPs_WERT",1,"");
strcat(info, "Status - digitaler Ausgangs zum 4/2 Wegeventil (Endstufe):URevVlv_stPs:", temp);
filewrite(info);
INPAapiResultText(temp,"STAT_SCR_tUCatUsT_WERT",1,"");
strcat(info, "Temperatur vor SCR-Katalysator:SCR_tUCatUsT:", temp);
filewrite(info);
fileclose();
ende = 1; // ende wird auf 1 gesetzt, wenn die Messdatenspeicherung abgeschlossen ist (bei globalen Variablen mit 0 initialisiert)
}
LINE ("Messdatenspeicherung",""){
text(5,0,"Messdatenspeicherung abgeschlossen.");
text(6,0,"Die ausgelesenen Daten werden in der Datei Messdaten.TXT gespeichert");
text(7,0,"Die Datei finden sie unter C:\EC-Apps\INPA.");
}
}
// -- EOF --