• Home
• com.sikulix
• sikulixapi
• 1.1.1
• source code
• Cell.py

×

Project download

Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance.
Project price only 1 $

You can buy this project and download/modify it how often you want.

Lib.xlwt.Cell.py Maven / Gradle / Ivy

# -*- coding: windows-1252 -*-

from struct import unpack, pack
import BIFFRecords

class StrCell(object):
    __slots__ = ["rowx", "colx", "xf_idx", "sst_idx"]

    def __init__(self, rowx, colx, xf_idx, sst_idx):
        self.rowx = rowx
        self.colx = colx
        self.xf_idx = xf_idx
        self.sst_idx = sst_idx

    def get_biff_data(self):
        # return BIFFRecords.LabelSSTRecord(self.rowx, self.colx, self.xf_idx, self.sst_idx).get()
        return pack('<5HL', 0x00FD, 10, self.rowx, self.colx, self.xf_idx, self.sst_idx)

class BlankCell(object):
    __slots__ = ["rowx", "colx", "xf_idx"]

    def __init__(self, rowx, colx, xf_idx):
        self.rowx = rowx
        self.colx = colx
        self.xf_idx = xf_idx

    def get_biff_data(self):
        # return BIFFRecords.BlankRecord(self.rowx, self.colx, self.xf_idx).get()
        return pack('<5H', 0x0201, 6, self.rowx, self.colx, self.xf_idx)

class MulBlankCell(object):
    __slots__ = ["rowx", "colx1", "colx2", "xf_idx"]

    def __init__(self, rowx, colx1, colx2, xf_idx):
        self.rowx = rowx
        self.colx1 = colx1
        self.colx2 = colx2
        self.xf_idx = xf_idx

    def get_biff_data(self):
        return BIFFRecords.MulBlankRecord(self.rowx,
            self.colx1, self.colx2, self.xf_idx).get()

class NumberCell(object):
    __slots__ = ["rowx", "colx", "xf_idx", "number"]

    def __init__(self, rowx, colx, xf_idx, number):
        self.rowx = rowx
        self.colx = colx
        self.xf_idx = xf_idx
        self.number = float(number)

    def get_encoded_data(self):
        rk_encoded = 0
        num = self.number

        # The four possible kinds of RK encoding are *not* mutually exclusive.
        # The 30-bit integer variety picks up the most.
        # In the code below, the four varieties are checked in descending order
        # of bangs per buck, or not at all.
        # SJM 2007-10-01

        if -0x20000000 <= num < 0x20000000: # fits in 30-bit *signed* int
            inum = int(num)
            if inum == num: # survives round-trip
                # print "30-bit integer RK", inum, hex(inum)
                rk_encoded = 2 | (inum << 2)
                return 1, rk_encoded

        temp = num * 100

        if -0x20000000 <= temp < 0x20000000:
            # That was step 1: the coded value will fit in
            # a 30-bit signed integer.
            itemp = int(round(temp, 0))
            # That was step 2: "itemp" is the best candidate coded value.
            # Now for step 3: simulate the decoding,
            # to check for round-trip correctness.
            if itemp / 100.0 == num:
                # print "30-bit integer RK*100", itemp, hex(itemp)
                rk_encoded = 3 | (itemp << 2)
                return 1, rk_encoded

        if 0: # Cost of extra pack+unpack not justified by tiny yield.
            packed = pack('