...
Sometimes one forgets that DBF is just like an EXCEL table and that it could also be conveniently edited with a "TEXT EDITOR".
//prg
#include "FiveWin.ch"
static nStartTime, nDuration
PROCEDURE Main
LOCAL cFilePath := "c:\fwh\samples\Data\database.dbf"
LOCAL cName := "clark"
LOCAL aResult
aResult := FindNameInDbf(cFilePath, cName)
RETURN
FUNCTION FindNameInDbf(cFilePath, cName)
LOCAL nHandle := FOPEN(cFilePath)
LOCAL cHeader := SPACE(32)
LOCAL nHeaderSize, nRecordSize, nNumRecords
LOCAL aFieldDescriptors := {}
LOCAL aFieldOffsets := {}
LOCAL nOffset := 0
LOCAL cFieldDescriptor, cFieldName
LOCAL nFieldLength
LOCAL nNameOffset, nNameLength
LOCAL aMatchingRecords := {}
LOCAL cRecord, cExtractedName
LOCAL hField, hRecordData
LOCAL i, j
LOCAL cFieldValue
LOCAL hFieldDescriptor := { => }
LOCAL nFound := 0
LOCAL cFileData
Msginfo("Start Suche")
nStartTime := SECONDS()
IF nHandle == -1
? "Konnte die Datei nicht öffnen."
RETURN {}
ENDIF
// Read entire file into memory
cFileData := MEMOREAD(cFilePath)
// Header lesen
cHeader := LEFT(cFileData, 32)
// Byte-Interpretation der Header-Daten
nNumRecords := (ASC(SUBSTR(cHeader, 5, 1)) + (ASC(SUBSTR(cHeader, 6, 1)) * 256) + (ASC(SUBSTR(cHeader, 7, 1)) * 65536) + (ASC(SUBSTR(cHeader, 8, 1)) * 16777216))
nHeaderSize := (ASC(SUBSTR(cHeader, 9, 1)) + (ASC(SUBSTR(cHeader, 10, 1)) * 256))
nRecordSize := (ASC(SUBSTR(cHeader, 11, 1)) + (ASC(SUBSTR(cHeader, 12, 1)) * 256))
// Felddeskriptoren lesen
FOR i := 33 TO nHeaderSize STEP 32
cFieldDescriptor := SUBSTR(cFileData, i, 32)
IF ASC(LEFT(cFieldDescriptor, 1)) == 13
EXIT
ENDIF
cFieldName := RTRIM(SUBSTR(cFieldDescriptor, 1, 11))
nFieldLength := ASC(SUBSTR(cFieldDescriptor, 17, 1))
AADD(aFieldDescriptors, { "name" => cFieldName, "length" => nFieldLength })
NEXT
// Feld-Offsets berechnen
FOR i := 1 TO LEN(aFieldDescriptors)
hFieldDescriptor := aFieldDescriptors[i]
AADD(aFieldOffsets, { hFieldDescriptor["name"], nOffset, hFieldDescriptor["length"] })
nOffset += hFieldDescriptor["length"]
NEXT
nNameOffset := AScan(aFieldOffsets, { |a| LEFT(a[1], 10) = "LAST" })
nNameLength := aFieldOffsets[nNameOffset, 3]
// Process records
FOR i := 1 TO nNumRecords
cRecord := SUBSTR(cFileData, nHeaderSize + (i - 1) * nRecordSize + 1, nRecordSize)
cExtractedName := ALLTRIM(LOWER( SUBSTR(cRecord, aFieldOffsets[nNameOffset, 2] + 1, nNameLength) ))
IF cExtractedName = cName
nFound += 1
hRecordData := { "recno" => i }
nOffset := 0
FOR j := 1 TO LEN(aFieldDescriptors)
hField := aFieldDescriptors[j]
cFieldValue := RTRIM(SUBSTR(cRecord, nOffset + 2, hField["length"]))
hRecordData[hField["name"]] := cFieldValue
nOffset += hField["length"]
NEXT
AADD(aMatchingRecords, hRecordData)
ENDIF
NEXT
nDuration := (SECONDS() - nStartTime) * 1000 // Dauer in Millisekunden
xbrowse(aMatchingRecords, "NumRecords"+ str(nNumRecords) + " Searchtime: " + STR(nDuration, 10, 2) + " ms Records found: " + STR(nFound))
RETURN NIL
//prg
#include "FiveWin.ch"
static nStartTime, nDuration
PROCEDURE Main
LOCAL cFilePath := "c:\fwh\samples\Data\database.dbf"
LOCAL cName := "clark"
LOCAL aResult
aResult := FindNameInDbf(cFilePath, cName)
RETURN
FUNCTION FindNameInDbf(cFilePath, cName)
LOCAL nHandle := FOPEN(cFilePath)
LOCAL cHeader := SPACE(32)
LOCAL nHeaderSize, nRecordSize, nNumRecords
LOCAL aFieldDescriptors := {}
LOCAL aFieldOffsets := {}
LOCAL nOffset := 0
LOCAL cFieldDescriptor, cFieldName
LOCAL nFieldLength
LOCAL nNameOffset, nNameLength
LOCAL aMatchingRecords := {}
LOCAL cRecord, cExtractedName
LOCAL hField, hRecordData
LOCAL i, j
LOCAL cFieldValue
LOCAL hFieldDescriptor := { => }
LOCAL nFound := 0
LOCAL cFileData
Msginfo("Start Suche")
nStartTime := SECONDS()
IF nHandle == -1
? "Konnte die Datei nicht öffnen."
RETURN {}
ENDIF
// Read entire file into memory
cFileData := MEMOREAD(cFilePath)
// Header lesen
cHeader := LEFT(cFileData, 32)
// Byte-Interpretation der Header-Daten
nNumRecords := (ASC(SUBSTR(cHeader, 5, 1)) + (ASC(SUBSTR(cHeader, 6, 1)) * 256) + (ASC(SUBSTR(cHeader, 7, 1)) * 65536) + (ASC(SUBSTR(cHeader, 8, 1)) * 16777216))
nHeaderSize := (ASC(SUBSTR(cHeader, 9, 1)) + (ASC(SUBSTR(cHeader, 10, 1)) * 256))
nRecordSize := (ASC(SUBSTR(cHeader, 11, 1)) + (ASC(SUBSTR(cHeader, 12, 1)) * 256))
// Felddeskriptoren lesen
FOR i := 33 TO nHeaderSize STEP 32
cFieldDescriptor := SUBSTR(cFileData, i, 32)
IF ASC(LEFT(cFieldDescriptor, 1)) == 13
EXIT
ENDIF
cFieldName := RTRIM(SUBSTR(cFieldDescriptor, 1, 11))
nFieldLength := ASC(SUBSTR(cFieldDescriptor, 17, 1))
AADD(aFieldDescriptors, { "name" => cFieldName, "length" => nFieldLength })
NEXT
// Feld-Offsets berechnen
FOR i := 1 TO LEN(aFieldDescriptors)
hFieldDescriptor := aFieldDescriptors[i]
AADD(aFieldOffsets, { hFieldDescriptor["name"], nOffset, hFieldDescriptor["length"] })
nOffset += hFieldDescriptor["length"]
NEXT
nNameOffset := AScan(aFieldOffsets, { |a| LEFT(a[1], 10) = "LAST" })
nNameLength := aFieldOffsets[nNameOffset, 3]
// Process records
FOR i := 1 TO nNumRecords
cRecord := SUBSTR(cFileData, nHeaderSize + (i - 1) * nRecordSize + 1, nRecordSize)
cExtractedName := ALLTRIM(LOWER( SUBSTR(cRecord, aFieldOffsets[nNameOffset, 2] + 1, nNameLength) ))
// IF cExtractedName = cName
nFound += 1
hRecordData := { "recno" => i }
nOffset := 0
FOR j := 1 TO LEN(aFieldDescriptors)
hField := aFieldDescriptors[j]
cFieldValue := RTRIM(SUBSTR(cRecord, nOffset + 2, hField["length"]))
hRecordData[hField["name"]] := cFieldValue
nOffset += hField["length"]
NEXT
AADD(aMatchingRecords, hRecordData)
if nFound > 50
EXIT
ENDIF
// ENDIF
NEXT
nDuration := (SECONDS() - nStartTime) * 1000 // Dauer in Millisekunden
xbrowse(aMatchingRecords, "NumRecords"+ str(nNumRecords) + " Searchtime: " + STR(nDuration, 10, 2) + " ms Records found: " + STR(nFound))
RETURN NIL
Return to FiveWin for Harbour/xHarbour
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