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Ok - First attempt posting to stackOverflow... but I'm searched everywhere, cannot find an answer, am sure I'm on the wrong track, and feel this is a question with general applicability, so here goes.

I deal with a lot of different instruments with a lot of different file types - but they all generally use a records-based protocol for storing data. E.g - each file contains a sequence of records, each record with a record-type header that includes a synchronization bit, what kind of record it is, and the size of the record. I want to build a generic class for reading record-based files that I can inherit and customize for each file type I deal with. Files are usually very large (1GB), so efficiency is key - which also means I'm probably out of my league.

Here is my class. I'm using file position markers to jump all around in the file, and am concerned that I'm building a very slow class - which is a big deal given the size and quantity of data. Wrong track?

class RecordBasedFile(object):
    syncpattern = '\xff\xff\x00\x00'
    maxrecsize = 1024*64
    recordIDfromSync = 28
    recordSizefromSync = 4    
    def __init__(self,fileHandle):
        self.fh = fileHandle
        self.recordList = []
        self.sync()

    def sync(self):
        abpos = self.fh.tell()
        chunk = self.fh.read(self.maxrecsize)
        syncbit = chunk.find(self.syncpattern)
        if syncbit >=0:
            self.fh.seek(syncbit+abpos)
            return True
        else:
            return False

    def checkSync(self):
        result = self.fh.read(len(self.syncpattern)) == self.syncpattern
        self.fh.seek(-len(self.syncpattern),1)
        return result        

    def recordID(self):
        return self.getField('<I',self.recordIDfromSync)

    def recordSize(self):
        size = self.getField('<I',self.recordSizefromSync)
        return size       

    def record(self,yieldRecord = True):
        abpos = self.fh.tell()
        rsize,roffset = self.recordSize()
        if yieldRecord:
            self.fh.seek(abpos+roffset)
            output = self.fh.read(rsize)           
        else:
            self.fh.seek(abpos+roffset+rsize)
            output = False
        self.fh.seek(self.endofRecordtoSync,1)
        return output

    def fmtLength(self,Fmt):
        fmt = Fmt.lower()
        return 1 * fmt.count('b') + \
            2*fmt.count('h') + \
            4*(fmt.count('i') + fmt.count('f')) 

    def getField(self,fmt,offset):
        abpos = self.fh.tell()
        self.fh.seek(abpos+offset)
        output = unpack(fmt,self.fh.read(self.fmtLength(fmt)))
        self.fh.seek(abpos)
        return output[0]

    def __iter__(self):
        return self

    def next(self):
        rid = self.recordID()
        record = self.record(yieldRecord = rid in self.recordList)
        if not self.checkSync():
            self.sync
        return rid, record           
share|improve this question
    
I think the mmap module may be an interesting option for implementing your solution. –  Pedro Romano Oct 9 '12 at 17:32

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