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Tmsrpt01.c
322 lines (312 loc) · 11.2 KB
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Tmsrpt01.c
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//
// This program code is a part of The Master Scheduler (TMS)
// and is Copyright (C) 1991-2004 Schedule Masters, Inc.
// All rights reserved.
//
//
// TMSRPT01() - Busbook Header Report
//
#include "TMSHeader.h"
static char szRSDHeader[16];
static char szRSDTrailer[16];
static char szNumNodesHeader[16];
static char szNumNodesTrailer[16];
static char szEachNodeHeader[16];
static char szEachNodeTrailer[16];
static char szSection[] = "Report0";
//
// Local prototype
//
void LoadHeadersAndTrailers01(void);
BOOL FAR TMSRPT01(TMSRPTPassedDataDef *pPassedData)
{
REPORTPARMSDef REPORTPARMS;
HFILE hfOutputFile;
BOOL bKeepGoing = FALSE;
BOOL bRC;
int maxSelectedPatternNodes = 100;
int nI;
int nJ;
int nK;
int nL;
int numSelectedPatternNodes;
int rcode2;
long *pSelectedPatternNodes = NULL;
pPassedData->nReportNumber = 0;
pPassedData->numDataFiles = 1;
//
// See what he wants
//
REPORTPARMS.nReportNumber = pPassedData->nReportNumber;
REPORTPARMS.ROUTESrecordID = m_RouteRecordID;
REPORTPARMS.SERVICESrecordID = m_ServiceRecordID;
REPORTPARMS.PATTERNNAMESrecordID = NO_RECORD;
REPORTPARMS.COMMENTSrecordID = NO_RECORD;
REPORTPARMS.pRouteList = NULL;
REPORTPARMS.pServiceList = NULL;
REPORTPARMS.flags = RPFLAG_ROUTES | RPFLAG_SERVICES | RPFLAG_PATTERNNAMES | RPFLAG_COMMENTS;
bRC = DialogBoxParam(hInst, MAKEINTRESOURCE(IDD_RPTPARMS),
hWndMain, (DLGPROC)RPTPARMSMsgProc, (LPARAM)&REPORTPARMS);
if(!bRC)
{
return(FALSE);
}
//
// Check the list of routes and services
//
if(REPORTPARMS.numRoutes == 0 || REPORTPARMS.numServices == 0)
{
goto deallocate;
}
//
// Open the output file
//
strcpy(tempString, szReportsTempFolder);
strcat(tempString, "\\tmsrpt01.txt");
hfOutputFile = _lcreat(tempString, 0);
if(hfOutputFile == HFILE_ERROR)
{
LoadString(hInst, ERROR_202, szFormatString, sizeof(szFormatString));
sprintf(szarString, szFormatString, tempString);
MessageBeep(MB_ICONSTOP);
MessageBox((HWND)NULL, szarString, TMS, MB_ICONSTOP);
goto deallocate;
}
strcpy(pPassedData->szReportDataFile[0], tempString);
//
// Allocate the nodes arrays
//
pSelectedPatternNodes = (long *)HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(long) * maxSelectedPatternNodes);
if(pSelectedPatternNodes == NULL)
{
AllocationError(__FILE__, __LINE__, FALSE);
goto deallocate;
}
//
// Load any header and trailer special characters
//
LoadHeadersAndTrailers01();
//
// Loop through the routes
//
SetCursor(hCursorWait);
for(nI = 0; nI < REPORTPARMS.numRoutes; nI++)
{
ROUTESKey0.recordID = REPORTPARMS.pRouteList[nI];
rcode2 = btrieve(B_GETEQUAL, TMS_ROUTES, &ROUTES, &ROUTESKey0, 0);
if(rcode2 != 0)
{
continue;
}
//
// Loop through the services
//
for(nJ = 0; nJ < REPORTPARMS.numServices; nJ++)
{
SERVICESKey0.recordID = REPORTPARMS.pServiceList[nJ];
rcode2 = btrieve(B_GETEQUAL, TMS_SERVICES, &SERVICES, &SERVICESKey0, 0);
if(rcode2 != 0)
{
continue;
}
//
// Loop through the directions
//
for(nK = 0; nK < 2; nK++)
{
if(ROUTES.DIRECTIONSrecordID[nK] == NO_RECORD)
{
continue;
}
//
// Find the selected pattern nodes
//
numSelectedPatternNodes = 0;
PATTERNNAMESKey0.recordID = REPORTPARMS.PATTERNNAMESrecordID;
rcode2 = btrieve(B_GETEQUAL, TMS_PATTERNNAMES, &PATTERNNAMES, &PATTERNNAMESKey0, 0);
if(rcode2 == 0)
{
PATTERNSKey2.ROUTESrecordID = REPORTPARMS.pRouteList[nI];
PATTERNSKey2.SERVICESrecordID = REPORTPARMS.pServiceList[nJ];
PATTERNSKey2.directionIndex = nK;
PATTERNSKey2.PATTERNNAMESrecordID = PATTERNNAMES.recordID;
PATTERNSKey2.nodeSequence = NO_RECORD;
rcode2 = btrieve(B_GETGREATEROREQUAL, TMS_PATTERNS, &PATTERNS, &PATTERNSKey2, 2);
while(rcode2 == 0 &&
PATTERNS.ROUTESrecordID == REPORTPARMS.pRouteList[nI] &&
PATTERNS.SERVICESrecordID == REPORTPARMS.pServiceList[nJ] &&
PATTERNS.directionIndex == nK &&
PATTERNS.PATTERNNAMESrecordID == PATTERNNAMES.recordID)
{
if(!(PATTERNS.flags & PATTERNS_FLAG_BUSSTOP))
{
pSelectedPatternNodes[numSelectedPatternNodes++] = PATTERNS.NODESrecordID;
if(numSelectedPatternNodes >= maxSelectedPatternNodes)
{
maxSelectedPatternNodes += 50;
pSelectedPatternNodes = (long *)HeapReAlloc(GetProcessHeap(),
HEAP_ZERO_MEMORY, pSelectedPatternNodes, sizeof(long) * maxSelectedPatternNodes);
if(pSelectedPatternNodes == NULL)
{
AllocationError(__FILE__, __LINE__, TRUE);
goto deallocate;
}
}
}
rcode2 = btrieve(B_GETNEXT, TMS_PATTERNS, &PATTERNS, &PATTERNSKey2, 2);
}
}
if(numSelectedPatternNodes == 0)
{
continue;
}
//
// Write out the id record
//
strcpy(tempString, szRSDHeader);
strncpy(szarString, ROUTES.number, ROUTES_NUMBER_LENGTH);
trim(szarString, ROUTES_NUMBER_LENGTH);
strcat(tempString, szarString);
strcat(tempString, " ");
strncpy(szarString, ROUTES.name, ROUTES_NAME_LENGTH);
trim(szarString, ROUTES_NAME_LENGTH);
strcat(tempString, szarString);
strcat(tempString, " ");
DIRECTIONSKey0.recordID = ROUTES.DIRECTIONSrecordID[nK];
btrieve(B_GETEQUAL, TMS_DIRECTIONS, &DIRECTIONS, &DIRECTIONSKey0, 0);
strncpy(szarString, DIRECTIONS.abbrName, DIRECTIONS_ABBRNAME_LENGTH);
trim(szarString, DIRECTIONS_ABBRNAME_LENGTH);
strcat(tempString, szarString);
strcat(tempString, " ");
strncpy(szarString, SERVICES.name, SERVICES_NAME_LENGTH);
trim(szarString, SERVICES_NAME_LENGTH);
strcat(tempString, szarString);
strcat(tempString, szRSDTrailer);
strcat(tempString, "\r\n");
_lwrite(hfOutputFile, tempString, strlen(tempString));
//
// Write out the number of nodes record
//
strcpy(tempString, szNumNodesHeader);
if(strcmp(szNumNodesHeader, "") != 0)
{
strcat(tempString, " ");
}
sprintf(szarString, "%d", numSelectedPatternNodes);
strcat(tempString, szarString);
strcat(tempString, szNumNodesTrailer);
strcat(tempString, "\r\n");
_lwrite(hfOutputFile, tempString, strlen(tempString));
//
// Cycle through, and write out, the pattern nodes
//
for(nL = 0; nL < numSelectedPatternNodes; nL++)
{
strcpy(tempString, szEachNodeHeader);
NODESKey0.recordID = pSelectedPatternNodes[nL];
btrieve(B_GETEQUAL, TMS_NODES, &NODES, &NODESKey0, 0);
strncpy(szarString, NODES.intersection, NODES_INTERSECTION_LENGTH);
trim(szarString, NODES_INTERSECTION_LENGTH);
strcat(tempString, szarString);
strcat(tempString, szEachNodeTrailer);
strcat(tempString, "\r\n");
_lwrite(hfOutputFile, tempString, strlen(tempString));
} // nL
} // nK
} // nJ
} // nI
bKeepGoing = TRUE;
//
// Free allocated memory
//
deallocate:
TMSHeapFree(REPORTPARMS.pRouteList);
TMSHeapFree(REPORTPARMS.pServiceList);
TMSHeapFree(pSelectedPatternNodes);
_lclose(hfOutputFile);
SetCursor(hCursorArrow);
if(!bKeepGoing)
{
return(FALSE);
}
//
// All done
//
return(TRUE);
}
BOOL CALLBACK TMSRPT01CMsgProc(HWND hWndDlg, UINT Message, WPARAM wParam, LPARAM lParam)
{
static HANDLE hCtlRSDHEADER;
static HANDLE hCtlRSDTRAILER;
static HANDLE hCtlNUMNODESHEADER;
static HANDLE hCtlNUMNODESTRAILER;
static HANDLE hCtlINDNODESHEADER;
static HANDLE hCtlINDNODESTRAILER;
short int wmId;
switch(Message)
{
//
// WM_INITDIALOG - Initialize the dialog
//
case WM_INITDIALOG:
hCtlRSDHEADER = GetDlgItem(hWndDlg, RPTCFG01_RSDHEADER);
hCtlRSDTRAILER = GetDlgItem(hWndDlg, RPTCFG01_RSDTRAILER);
hCtlNUMNODESHEADER = GetDlgItem(hWndDlg, RPTCFG01_NUMNODESHEADER);
hCtlNUMNODESTRAILER = GetDlgItem(hWndDlg, RPTCFG01_NUMNODESTRAILER);
hCtlINDNODESHEADER = GetDlgItem(hWndDlg, RPTCFG01_INDNODESHEADER);
hCtlINDNODESTRAILER = GetDlgItem(hWndDlg, RPTCFG01_INDNODESTRAILER);
LoadHeadersAndTrailers01();
SendMessage(hCtlRSDHEADER, WM_SETTEXT, (WPARAM)0, (LONG)(LPSTR)szRSDHeader);
SendMessage(hCtlRSDTRAILER, WM_SETTEXT, (WPARAM)0, (LONG)(LPSTR)szRSDTrailer);
SendMessage(hCtlNUMNODESHEADER, WM_SETTEXT, (WPARAM)0, (LONG)(LPSTR)szNumNodesHeader);
SendMessage(hCtlNUMNODESTRAILER, WM_SETTEXT, (WPARAM)0, (LONG)(LPSTR)szNumNodesTrailer);
SendMessage(hCtlINDNODESHEADER, WM_SETTEXT, (WPARAM)0, (LONG)(LPSTR)szEachNodeHeader);
SendMessage(hCtlINDNODESTRAILER, WM_SETTEXT, (WPARAM)0, (LONG)(LPSTR)szEachNodeTrailer);
break;
//
// WM_CLOSE
//
case WM_CLOSE:
SendMessage(hWndDlg, WM_COMMAND, MAKEWPARAM(IDCANCEL, 0), 0L);
break;
//
// WM_COMMAND
//
case WM_COMMAND:
wmId = LOWORD(wParam);
switch(wmId)
{
case IDCANCEL:
EndDialog(hWndDlg, FALSE);
break;
case IDOK:
SendMessage(hCtlRSDHEADER, WM_GETTEXT, (WPARAM)sizeof(szRSDHeader), (LONG)(LPSTR)szRSDHeader);
SendMessage(hCtlRSDTRAILER, WM_GETTEXT, (WPARAM)sizeof(szRSDTrailer), (LONG)(LPSTR)szRSDTrailer);
SendMessage(hCtlNUMNODESHEADER, WM_GETTEXT, (WPARAM)sizeof(szNumNodesHeader), (LONG)(LPSTR)szNumNodesHeader);
SendMessage(hCtlNUMNODESTRAILER, WM_GETTEXT, (WPARAM)sizeof(szNumNodesTrailer), (LONG)(LPSTR)szNumNodesTrailer);
SendMessage(hCtlINDNODESHEADER, WM_GETTEXT, (WPARAM)sizeof(szEachNodeHeader), (LONG)(LPSTR)szEachNodeHeader);
SendMessage(hCtlINDNODESTRAILER, WM_GETTEXT, (WPARAM)sizeof(szEachNodeTrailer), (LONG)(LPSTR)szEachNodeTrailer);
WritePrivateProfileString(szSection, "RSDHeader", szRSDHeader, TMSINIFile);
WritePrivateProfileString(szSection, "RSDTrailer", szRSDTrailer, TMSINIFile);
WritePrivateProfileString(szSection, "NumNodesHeader", szNumNodesHeader, TMSINIFile);
WritePrivateProfileString(szSection, "NumNodesTrailer", szNumNodesTrailer, TMSINIFile);
WritePrivateProfileString(szSection, "EachNodeHeader", szEachNodeHeader, TMSINIFile);
WritePrivateProfileString(szSection, "EachNodeTrailer", szEachNodeTrailer, TMSINIFile);
EndDialog(hWndDlg, TRUE);
break;
}
break;
default:
return FALSE;
}
return TRUE;
}
void LoadHeadersAndTrailers01(void)
{
GetPrivateProfileString(szSection, "RSDHeader", "", szRSDHeader, sizeof(szRSDHeader), TMSINIFile);
GetPrivateProfileString(szSection, "RSDTrailer", "", szRSDTrailer, sizeof(szRSDTrailer), TMSINIFile);
GetPrivateProfileString(szSection, "NumNodesHeader", "", szNumNodesHeader, sizeof(szNumNodesHeader), TMSINIFile);
GetPrivateProfileString(szSection, "NumNodesTrailer", "", szNumNodesTrailer, sizeof(szNumNodesTrailer), TMSINIFile);
GetPrivateProfileString(szSection, "EachNodeHeader", "", szEachNodeHeader, sizeof(szEachNodeHeader), TMSINIFile);
GetPrivateProfileString(szSection, "EachNodeTrailer", "", szEachNodeTrailer, sizeof(szEachNodeTrailer), TMSINIFile);
}