root / pkpgcounter / trunk / pkpgpdls / pclxl.py

# -*- coding: utf-8 -*-
#
# pkpgcounter : a generic Page Description Language parser
#
# (c) 2003-2019 Jerome Alet <alet@librelogiciel.com>
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program.  If not, see <http://www.gnu.org/licenses/>.
#
# $Id$
#

"""This modules implements a page counter for PCLXL (aka PCL6) documents."""

import sys
import os
import mmap
from struct import unpack

import pdlparser
import pjl

class Parser(pdlparser.PDLParser) :
    """A parser for PCLXL (aka PCL6) documents."""
    totiffcommands = [ 'pcl6 -sDEVICE=pdfwrite -r"%(dpi)i" -dPARANOIDSAFER -dNOPAUSE -dBATCH -dQUIET -sOutputFile=- "%(infname)s" | gs -sDEVICE=tiff24nc -dPARANOIDSAFER -dNOPAUSE -dBATCH -dQUIET -r"%(dpi)i" -sOutputFile="%(outfname)s" -',
                       'pcl6 -sDEVICE=pswrite -r"%(dpi)i" -dPARANOIDSAFER -dNOPAUSE -dBATCH -dQUIET -sOutputFile=- "%(infname)s" | gs -sDEVICE=tiff24nc -dPARANOIDSAFER -dNOPAUSE -dBATCH -dQUIET -r"%(dpi)i" -sOutputFile="%(outfname)s" -',
                     ]
    required = [ "pcl6", "gs" ]
    format = "PCLXL (aka PCL6)"
    mediasizes = {
                    0 : "Letter",
                    1 : "Legal",
                    2 : "A4",
                    3 : "Executive",
                    4 : "Ledger",
                    5 : "A3",
                    6 : "COM10Envelope",
                    7 : "MonarchEnvelope",
                    8 : "C5Envelope",
                    9 : "DLEnvelope",
                    10 : "JB4",
                    11 : "JB5",
                    12 : "B5Envelope",
                    12 : "B5",
                    14 : "JPostcard",
                    15 : "JDoublePostcard",
                    16 : "A5",
                    17 : "A6",
                    18 : "JB6",
                    19 : "JIS8K",
                    20 : "JIS16K",
                    21 : "JISExec",
                    96 : "Default",
                 }

    mediasources = {
                     0 : "Default",
                     1 : "Auto",
                     2 : "Manual",
                     3 : "MultiPurpose",
                     4 : "UpperCassette",
                     5 : "LowerCassette",
                     6 : "EnvelopeTray",
                     7 : "ThirdCassette",
                   }

    orientations = {
                     0 : "Portrait",
                     1 : "Landscape",
                     2 : "ReversePortrait",
                     3 : "ReverseLandscape",
                     4 : "Default",
                   }

    def isValid(self) :
        """Returns True if data is HP PCLXL aka PCL6, or Brother's' XL2HB, else False."""
        if (((self.firstblock[:128].find("\033%-12345X") != -1) and \
             (self.firstblock.find(" HP-PCL XL;") != -1) and \
             ((self.firstblock.find("LANGUAGE=PCLXL") != -1) or \
              (self.firstblock.find("LANGUAGE = PCLXL") != -1)))) \
             or ((self.firstblock.startswith(chr(0xcd)+chr(0xca)) and (self.firstblock.find(" HP-PCL XL;") != -1))) :
            return True
        elif (self.firstblock[:128].find("\033%-12345X") != -1) \
            and (self.firstblock.find("BROTHER XL2HB;") != -1) :
            self.format = "XL2HB"
            return True
        else :
            return False

    def beginPage(self, nextpos) :
        """Indicates the beginning of a new page, and extracts media information."""
        # self.logdebug("BeginPage at %x" % nextpos)
        self.pagecount += 1

        # Default values
        mediatypelabel = "Plain"
        mediasourcelabel = "Main"
        mediasizelabel = "Default"
        orientationlabel = "Portrait"
        duplexmode = None

        # Now go upstream to decode media type, size, source, and orientation
        # this saves time because we don't need a complete parser !
        minfile = self.minfile
        pos = nextpos - 2
        while pos > 0 : # safety check : don't go back to far !
            val = ord(minfile[pos])
            if val in (0x44, 0x48, 0x41) : # if previous endPage or openDataSource or beginSession (first page)
                break
            if val == 0x26 :
                mediasource = ord(minfile[pos - 2])
                mediasourcelabel = self.mediasources.get(mediasource, str(mediasource))
                pos -= 4
            elif val == 0x25 :
                while (pos > 0) and (ord(minfile[pos]) != 0xc0) :
                    # we search the preceding ubyte tag
                    pos -= 1
                if pos > 0 :
                    if ord(minfile[pos-1]) == 0xc8 :
                        # if we found an ubyte_array then the media
                        # size is completely spelled
                        arraylength = ord(minfile[pos+1])
                        mediasizelabel = minfile[pos+2:pos+2+arraylength].title()
                        pos -= 1
                    else :
                        # if we just found an ubyte, then the media
                        # size is known by its index
                        mediasize = ord(minfile[pos+1])
                        mediasizelabel = self.mediasizes.get(mediasize, str(mediasize))
                    pos -= 1
                    # self.logdebug("Media size : %s" % mediasizelabel)
            elif val == 0x28 :
                orientation = ord(minfile[pos - 2])
                orientationlabel = self.orientations.get(orientation, str(orientation))
                pos -= 4
            elif val == 0x27 :
                savepos = pos
                pos -= 1
                startpos = size = None
                while pos > 0 : # safety check : don't go back to far !
                    val = ord(minfile[pos])
                    pos -= 1
                    if val == 0xc8 :
                        length = self.tags[ord(minfile[pos+2])] # will probably always be a byte or uint16
                        if length == 1 :
                            startpos = pos + 4
                            size = unpack("B", self.minfile[pos+3:startpos])[0]
                        elif length == 2 :
                            startpos = pos + 5
                            size = unpack(self.unpackShort, self.minfile[pos+3:startpos])[0]
                        elif length == 4 :
                            startpos = pos + 7
                            size = unpack(self.unpackLong, self.minfile[pos+3:startpos])[0]
                        else :
                            raise pdlparser.PDLParserError, "Error on size at %s : %s" % (pos+2, length)
                        break
                try :
                    mediatypelabel = minfile[startpos:startpos+size]
                except TypeError :
                    self.logdebug("PCL/XL parser problem at %i" % savepos)
                # self.logdebug("Media type : %s" % mediatypelabel)
            elif val == 0x34 :
                duplexmode = "Simplex"
                pos -= 2
            elif val in (0x35, 0x36) :
                duplexmode = "Duplex"
                pos -= 2
            # else : TODO : CUSTOM MEDIA SIZE AND UNIT !
            else :
                pos -= 1  # ignored
        self.pages[self.pagecount] = { "copies" : 1,
                                       "orientation" : orientationlabel,
                                       "mediatype" : mediatypelabel,
                                       "mediasize" : mediasizelabel,
                                       "mediasource" : mediasourcelabel,
                                       "duplex" : duplexmode,
                                     }
        return 0

    def endPage(self, nextpos) :
        """Indicates the end of a page."""
        # self.logdebug("EndPage at %x" % nextpos)
        pos3 = nextpos - 3
        minfile = self.minfile
        if minfile[pos3:nextpos-1] == self.setNumberOfCopies :
            # The EndPage operator may be preceded by a PageCopies attribute
            # So set number of copies for current page.
            # From what I read in PCLXL documentation, the number
            # of copies is an unsigned 16 bits integer
            try :
                nbcopies = unpack(self.unpackShort, minfile[pos3-2:pos3])[0]
                # self.logdebug("Number of copies : %i" % nbcopies)
                self.pages[self.pagecount]["copies"] = nbcopies
            except KeyError :
                self.logdebug("It looks like this PCLXL file is corrupted.")
        return 0

    def setColorSpace(self, nextpos) :
        """Changes the color space."""
        if self.minfile[nextpos-4:nextpos-1] == self.RGBColorSpace : # TODO : doesn't seem to handle all cases !
            self.iscolor = True
        return 0

    def array_Generic(self, nextpos, size) :
        """Handles all arrays."""
        pos = nextpos
        datatype = ord(self.minfile[pos])
        pos += 1
        length = self.tags[datatype]
        if callable(length) :
            length = length(pos)
        try :
            return 1 + length + size * unpack(self.unpackType[length], self.minfile[pos:pos+length])[0]
        except KeyError :
            raise pdlparser.PDLParserError, "Error on array size at %x" % nextpos

    def array_8(self, nextpos) :
        """Handles byte arrays."""
        return self.array_Generic(nextpos, 1)

    def array_16(self, nextpos) :
        """Handles 16 bits arrays."""
        return self.array_Generic(nextpos, 2)

    def array_32(self, nextpos) :
        """Handles 32 bits arrays and Canon ImageRunner tags."""
        minfile = self.minfile
        irtag = minfile[nextpos-1:nextpos+3]
        if irtag in (self.imagerunnermarker1, self.imagerunnermarker2) :
            # This is the beginning of a Canon ImageRunner tag
            # self.logdebug("Canon ImageRunner tag at %x" % (nextpos-1))
            codop = minfile[nextpos+1:nextpos+3]
            length = unpack(">H", minfile[nextpos+7:nextpos+9])[0]
            # self.logdebug("Canon ImageRunner block length=%04x" % length)
            toskip = 19
            if irtag != self.imagerunnermarker2 :
                toskip += length
            # self.logdebug("Canon ImageRunner skip until %x" % (nextpos+toskip))
            return toskip
        else :
            # This is a normal PCLXL array
            return self.array_Generic(nextpos, 4)

    def embeddedDataSmall(self, nextpos) :
        """Handle small amounts of data."""
        return 1 + ord(self.minfile[nextpos])

    def embeddedData(self, nextpos) :
        """Handle normal amounts of data."""
        return 4 + unpack(self.unpackLong, self.minfile[nextpos:nextpos+4])[0]

    def skipHPPCLXL(self, nextpos) :
        """Skip the 'HP-PCL XL' statement if needed."""
        minfile = self.minfile
        if nextpos \
           and ((minfile[nextpos:nextpos+11] == " HP-PCL XL;") \
             or (minfile[nextpos:nextpos+14] == " BROTHER XLHB;")) :
            pos = nextpos
            while minfile[pos] != '\n' :
                pos += 1
            length = (pos - nextpos + 1)
            # self.logdebug("Skip HP PCLXL statement until %x" % (nextpos + length))
            return length
        else :
            return 0

    def littleEndian(self, nextpos) :
        """Toggles to little endianness."""
        self.unpackType = { 1 : "B", 2 : "<H", 4 : "<I" }
        self.unpackShort = self.unpackType[2]
        self.unpackLong = self.unpackType[4]
        # self.logdebug("LittleEndian at %x" % (nextpos - 1))
        return self.skipHPPCLXL(nextpos)

    def bigEndian(self, nextpos) :
        """Toggles to big endianness."""
        self.unpackType = { 1 : "B", 2 : ">H", 4 : ">I" }
        self.unpackShort = self.unpackType[2]
        self.unpackLong = self.unpackType[4]
        # self.logdebug("BigEndian at %x" % (nextpos - 1))
        return self.skipHPPCLXL(nextpos)

    def reservedForFutureUse(self, nextpos) :
        """Outputs something when a reserved byte is encountered."""
        self.logdebug("Byte at %x is out of the PCLXL Protocol Class 2.0 Specification" % nextpos)
        return 0

    def x31_class3(self, nextpos) :
        """Undocumented tag 0x13 in class 3.0 streams."""
        #self.logdebug("x31 at 0x%08x" % (nextpos-1))
        minfile = self.minfile
        val = ord(minfile[nextpos])
        if val == 0x90 : # Should we take care of this or not ? It's undocumented after all !
            # BTW we don't know if it's the 0x31 or the 0x90 which counts, since 0x90 is reserved for future use
            try :
                return unpack(self.unpackType[4], self.minfile[nextpos+1:nextpos+5])[0] + 5
            except KeyError :
                raise pdlparser.PDLParserError, "Error on size '%s' at %x" % (length, nextpos+1)
        return 0

    def x46_class3(self, nextpos) :
        """Undocumented tag 0x46 in class 3.0 streams."""
        #self.logdebug("x46 at 0x%08x" % (nextpos-1))
        pos = nextpos - 3
        minfile = self.minfile
        val = ord(minfile[pos])
        while val == 0xf8 :
            #self.logdebug("x46 continues at 0x%08x with 0x%02x" % (pos, val))
            funcid = ord(minfile[pos+1])
            try :
                offset = self.x46_functions[funcid]
            except KeyError :
                self.logdebug("Unexpected subfunction 0x%02x for undocumented tag 0x46 at %x" % (funcid, nextpos))
                break
            else :
                #self.logdebug("x46 funcid 0x%02x" % funcid)
                pos -= offset
                #self.logdebug("x46 new position 0x%08x" % pos)
                length = self.tags[ord(self.minfile[pos])]
                if callable(length) :
                    length = length(pos+1)
                #self.logdebug("x46 length %i" % length)
                if funcid == 0x92 : # we want to skip these blocks
                    try :
                        return unpack(self.unpackType[length], self.minfile[pos+1:pos+length+1])[0]
                    except KeyError :
                        raise pdlparser.PDLParserError, "Error on size '%s' at %x" % (length, pos+1)
            val = ord(minfile[pos])
        return 0

    def escape(self, nextpos) :
        """Handles the ESC code."""
        pos = endpos = nextpos
        minfile = self.minfile
        if minfile[pos : pos+8] == r"%-12345X" :
            endpos = pos + 9
            endmark = chr(0x0c) + chr(0x00) + chr(0x1b)
            asciilimit = chr(0x80)
            quotes = 0
            while (minfile[endpos] not in endmark) and \
                   ((minfile[endpos] < asciilimit) or (quotes % 2)) :
                if minfile[endpos] == '"' :
                    quotes += 1
                endpos += 1

            # Store this in a per page mapping.
            # NB : First time will be at page 0 (i.e. **before** page 1) !
            stuff = self.escapedStuff.setdefault(self.pagecount, [])
            stuff.append(minfile[pos : endpos])
            self.logdebug("Escaped datas : [%s]" % repr(minfile[pos : endpos]))
        return endpos - pos

    def skipKyoceraPrescribe(self, nextpos) :
        """Skips Kyocera Prescribe commands."""
        pos = nextpos - 1
        minfile = self.minfile
        if minfile[pos:pos+3] == "!R!" :
            while (pos - nextpos) < 1024 :   # This is a realistic upper bound, to avoid infinite loops
                if (minfile[pos] == ";") and (minfile[pos-4:pos] == "EXIT") :
                    pos += 1
                    prescribe = self.prescribeStuff.setdefault(self.pagecount, [])
                    prescribe.append(minfile[nextpos-1:pos])
                    self.logdebug("Prescribe commands : [%s]" % repr(minfile[nextpos-1:pos]))
                    break
                pos += 1
            return (pos - nextpos)
        else :
            return 0

    def getJobSize(self) :
        """Counts pages in a PCLXL (PCL6) document.

           Algorithm by Jerome Alet.

           The documentation used for this was :

           HP PCL XL Feature Reference
           Protocol Class 2.0
           http://www.hpdevelopersolutions.com/downloads/64/358/xl_ref20r22.pdf

           Protocol Class 2.1 Supplement
           xl_ref21.pdf

           Protocol Class 3.0 Supplement
           xl_refsup30r089.pdf
        """

        infileno = self.infile.fileno()
        self.minfile = minfile = mmap.mmap(infileno, os.fstat(infileno)[6], prot=mmap.PROT_READ, flags=mmap.MAP_SHARED)

        self.iscolor = False

        found = False
        while not found :
            line = self.infile.readline()
            if not line :
                break
            pos = line.find(" HP-PCL XL;")
            if pos == -1 :
                pos = line.find(" BROTHER XL2HB;")
            if pos != -1 :
                found = True
                endian = ord(line[pos - 1])
                if endian == 0x29 :
                    self.littleEndian(0)
                elif endian == 0x28 :
                    self.bigEndian(0)
                # elif endian == 0x27 : # TODO : This is the ASCII binding code : what does it do exactly ?
                #
                else :
                    raise pdlparser.PDLParserError, "Unknown endianness marker 0x%02x at start !" % endian
        if not found :
            raise pdlparser.PDLParserError, "This file doesn't seem to be PCLXL (aka PCL6)"

        # Initialize Media Sources
        for i in range(8, 256) :
            self.mediasources[i] = "ExternalTray%03i" % (i - 7)

        # Initialize table of tags
        self.tags = [ 0 ] * 256

        self.tags[0x1b] = self.escape # The escape code

        self.tags[0x21] = self.skipKyoceraPrescribe # 0x21 is not normally used

        # GhostScript's sources tell us that HP printers
        # only accept little endianness, but we can handle both.
        self.tags[0x28] = self.bigEndian    # BigEndian
        self.tags[0x29] = self.littleEndian # LittleEndian

        self.tags[0x31] = self.x31_class3   # What's this ? Does it always follow 0x46 ?
        self.tags[0x43] = self.beginPage    # BeginPage
        self.tags[0x44] = self.endPage      # EndPage
        self.tags[0x45] = self.reservedForFutureUse # reserved

        self.tags[0x46] = self.x46_class3

        self.tags[0x4a] = self.reservedForFutureUse # reserved
        self.tags[0x4b] = self.reservedForFutureUse # reserved
        self.tags[0x4c] = self.reservedForFutureUse # reserved
        self.tags[0x4d] = self.reservedForFutureUse # reserved
        self.tags[0x4e] = self.reservedForFutureUse # reserved

        self.tags[0x56] = self.reservedForFutureUse # TODO : documentation not clear about reserved status

        self.tags[0x57] = self.reservedForFutureUse # reserved

        self.tags[0x59] = self.reservedForFutureUse # reserved
        self.tags[0x5a] = self.reservedForFutureUse # reserved

        self.tags[0x6a] = self.setColorSpace    # to detect color/b&w mode

        self.tags[0x87] = self.reservedForFutureUse # reserved
        self.tags[0x88] = self.reservedForFutureUse # reserved
        self.tags[0x89] = self.reservedForFutureUse # reserved
        self.tags[0x8a] = self.reservedForFutureUse # reserved

        self.tags[0x8b] = self.reservedForFutureUse # reserved

        self.tags[0x8c] = self.reservedForFutureUse # reserved
        self.tags[0x8d] = self.reservedForFutureUse # reserved
        self.tags[0x8e] = self.reservedForFutureUse # reserved
        self.tags[0x8f] = self.reservedForFutureUse # reserved
        self.tags[0x90] = self.reservedForFutureUse # reserved

        self.tags[0x9a] = self.reservedForFutureUse # reserved
        self.tags[0x9c] = self.reservedForFutureUse # reserved

        self.tags[0xa4] = self.reservedForFutureUse # reserved
        self.tags[0xa5] = self.reservedForFutureUse # reserved
        self.tags[0xa6] = self.reservedForFutureUse # reserved
        self.tags[0xa7] = self.reservedForFutureUse # reserved

        self.tags[0xaa] = self.reservedForFutureUse # reserved
        self.tags[0xab] = self.reservedForFutureUse # reserved
        self.tags[0xac] = self.reservedForFutureUse # reserved
        self.tags[0xad] = self.reservedForFutureUse # reserved
        self.tags[0xae] = self.reservedForFutureUse # reserved
        self.tags[0xaf] = self.reservedForFutureUse # reserved

        self.tags[0xb7] = self.reservedForFutureUse # reserved

        self.tags[0xba] = self.reservedForFutureUse # reserved
        self.tags[0xbb] = self.reservedForFutureUse # reserved
        self.tags[0xbc] = self.reservedForFutureUse # reserved
        self.tags[0xbd] = self.reservedForFutureUse # reserved
        self.tags[0xbe] = self.reservedForFutureUse # reserved

        # self.tags[0xbf] = self.passThrough # PassThrough mode should already be taken care of automatically

        self.tags[0xc0] = 1 # ubyte
        self.tags[0xc1] = 2 # uint16
        self.tags[0xc2] = 4 # uint32
        self.tags[0xc3] = 2 # sint16
        self.tags[0xc4] = 4 # sint32
        self.tags[0xc5] = 4 # real32

        self.tags[0xc6] = self.reservedForFutureUse # reserved
        self.tags[0xc7] = self.reservedForFutureUse # reserved

        self.tags[0xc8] = self.array_8  # ubyte_array
        self.tags[0xc9] = self.array_16 # uint16_array
        self.tags[0xca] = self.array_32 # uint32_array
        self.tags[0xcb] = self.array_16 # sint16_array
        self.tags[0xcc] = self.array_32 # sint32_array
        self.tags[0xcd] = self.array_32 # real32_array and unfortunately Canon ImageRunner

        self.tags[0xce] = self.reservedForFutureUse # reserved
        self.tags[0xcf] = self.reservedForFutureUse # reserved

        self.tags[0xd0] = 2 # ubyte_xy
        self.tags[0xd1] = 4 # uint16_xy
        self.tags[0xd2] = 8 # uint32_xy
        self.tags[0xd3] = 4 # sint16_xy
        self.tags[0xd4] = 8 # sint32_xy
        self.tags[0xd5] = 8 # real32_xy
        self.tags[0xd6] = self.reservedForFutureUse # reserved
        self.tags[0xd7] = self.reservedForFutureUse # reserved
        self.tags[0xd8] = self.reservedForFutureUse # reserved
        self.tags[0xd9] = self.reservedForFutureUse # reserved
        self.tags[0xda] = self.reservedForFutureUse # reserved
        self.tags[0xdb] = self.reservedForFutureUse # reserved
        self.tags[0xdc] = self.reservedForFutureUse # reserved
        self.tags[0xdd] = self.reservedForFutureUse # reserved
        self.tags[0xde] = self.reservedForFutureUse # reserved
        self.tags[0xdf] = self.reservedForFutureUse # reserved

        self.tags[0xe0] = 4  # ubyte_box
        self.tags[0xe1] = 8  # uint16_box
        self.tags[0xe2] = 16 # uint32_box
        self.tags[0xe3] = 8  # sint16_box
        self.tags[0xe4] = 16 # sint32_box
        self.tags[0xe5] = 16 # real32_box
        self.tags[0xe6] = self.reservedForFutureUse # reserved
        self.tags[0xe7] = self.reservedForFutureUse # reserved
        self.tags[0xe8] = self.reservedForFutureUse # reserved
        self.tags[0xe9] = self.reservedForFutureUse # reserved
        self.tags[0xea] = self.reservedForFutureUse # reserved
        self.tags[0xeb] = self.reservedForFutureUse # reserved
        self.tags[0xec] = self.reservedForFutureUse # reserved
        self.tags[0xed] = self.reservedForFutureUse # reserved
        self.tags[0xee] = self.reservedForFutureUse # reserved
        self.tags[0xef] = self.reservedForFutureUse # reserved

        self.tags[0xf0] = self.reservedForFutureUse # reserved
        self.tags[0xf1] = self.reservedForFutureUse # reserved
        self.tags[0xf2] = self.reservedForFutureUse # reserved
        self.tags[0xf3] = self.reservedForFutureUse # reserved
        self.tags[0xf4] = self.reservedForFutureUse # reserved
        self.tags[0xf5] = self.reservedForFutureUse # reserved
        self.tags[0xf6] = self.reservedForFutureUse # reserved
        self.tags[0xf7] = self.reservedForFutureUse # reserved

        self.tags[0xf8] = 1 # attr_ubyte
        self.tags[0xf9] = 2 # attr_uint16

        self.tags[0xfa] = self.embeddedData      # dataLength
        self.tags[0xfb] = self.embeddedDataSmall # dataLengthByte

        self.tags[0xfc] = self.reservedForFutureUse # reserved
        self.tags[0xfd] = self.reservedForFutureUse # reserved
        self.tags[0xfe] = self.reservedForFutureUse # reserved
        self.tags[0xff] = self.reservedForFutureUse # reserved

        # color spaces
        self.BWColorSpace = "".join([chr(0x00), chr(0xf8), chr(0x03)])
        self.GrayColorSpace = "".join([chr(0x01), chr(0xf8), chr(0x03)])
        self.RGBColorSpace = "".join([chr(0x02), chr(0xf8), chr(0x03)])

        # set number of copies
        self.setNumberOfCopies = "".join([chr(0xf8), chr(0x31)])

        # subcodes for undocumented tag 0x46 and the negative
        # offset to grab the value from.
        self.x46_functions = { 0x91 : 5,
                               0x92 : 5,
                               0x93 : 3,
                               0x94 : 3,
                               0x95 : 5,
                               0x96 : 2,
                               0x97 : 2,
                               0x98 : 2,
                             }

        # Markers for Canon ImageRunner printers
        self.imagerunnermarker1 = chr(0xcd) + chr(0xca) + chr(0x10) + chr(0x00)
        self.imagerunnermarker2 = chr(0xcd) + chr(0xca) + chr(0x10) + chr(0x02)

        self.pages = { 0 : { "copies" : 1,
                             "orientation" : "Default",
                             "mediatype" : "Plain",
                             "mediasize" : "Default",
                             "mediasource" : "Default",
                             "duplex" : None,
                           }
                     }
        tags = self.tags
        self.pagecount = 0
        self.escapedStuff = {}   # For escaped datas, mostly PJL commands
        self.prescribeStuff = {} # For Kyocera Prescribe commands
        pos = oldpos = 0
        try :
            try :
                while 1 :
                    try :
                        tag = ord(minfile[pos])
                    except OverflowError :
                        pos = oldpos + 1
                    #self.logdebug("0x%08x : 0x%02x" % (pos, tag))
                    pos += 1
                    length = tags[tag]
                    if length :
                        if callable(length) :
                            length = length(pos)
                        oldpos = pos
                        pos += length
            except IndexError : # EOF ?
                pass
        finally :
            self.minfile.close()

        # now handle number of copies for each page (may differ).
        if self.iscolor :
            colormode = "Color"
        else :
            colormode = "BW"

        defaultduplexmode = "Simplex"
        defaultpapersize = ""
        defaultpjlcopies = 1
        oldpjlcopies = -1
        oldduplexmode = ""
        oldpapersize = ""
        for pnum in range(1, self.pagecount + 1) :
            # if no number of copies defined, take 1, as explained
            # in PCLXL documentation.
            # NB : is number of copies is 0, the page won't be output
            # but the formula below is still correct : we want
            # to decrease the total number of pages in this case.
            page = self.pages.get(pnum, self.pages.get(1, { "copies" : 1, "mediasize" : "Default", "duplex" : None }))
            pjlstuff = self.escapedStuff.get(pnum, self.escapedStuff.get(0, []))
            if pjlstuff :
                pjlparser = pjl.PJLParser("".join(pjlstuff))
                nbdefaultcopies = int(pjlparser.default_variables.get("COPIES", -1))
                nbcopies = int(pjlparser.environment_variables.get("COPIES", -1))
                nbdefaultqty = int(pjlparser.default_variables.get("QTY", -1))
                nbqty = int(pjlparser.environment_variables.get("QTY", -1))
                if nbdefaultcopies > -1 :
                    defaultpjlcopies = nbdefaultcopies
                if nbdefaultqty > -1 :
                    defaultpjlcopies = nbdefaultqty
                if nbcopies > -1 :
                    pjlcopies = nbcopies
                elif nbqty > -1 :
                    pjlcopies = nbqty
                else :
                    if oldpjlcopies == -1 :
                        pjlcopies = defaultpjlcopies
                    else :
                        pjlcopies = oldpjlcopies
                if page["duplex"] :
                    duplexmode = page["duplex"]
                else :
                    defaultdm = pjlparser.default_variables.get("DUPLEX", "")
                    if defaultdm :
                        if defaultdm.upper() == "ON" :
                            defaultduplexmode = "Duplex"
                        else :
                            defaultduplexmode = "Simplex"
                    envdm = pjlparser.environment_variables.get("DUPLEX", "")
                    if envdm :
                        if envdm.upper() == "ON" :
                            duplexmode = "Duplex"
                        else :
                            duplexmode = "Simplex"
                    else :
                        if not oldduplexmode :
                            duplexmode = defaultduplexmode
                        else :
                            duplexmode = oldduplexmode
                defaultps = pjlparser.default_variables.get("PAPER", "")
                if defaultps :
                    defaultpapersize = defaultps
                envps = pjlparser.environment_variables.get("PAPER", "")
                if envps :
                    papersize = envps
                else :
                    if not oldpapersize :
                        papersize = defaultpapersize
                    else :
                        papersize = oldpapersize
            else :
                if oldpjlcopies == -1 :
                    pjlcopies = defaultpjlcopies
                else :
                    pjlcopies = oldpjlcopies
                if not oldduplexmode :
                    duplexmode = defaultduplexmode
                else :
                    duplexmode = oldduplexmode
                if not oldpapersize :
                    papersize = defaultpapersize
                else :
                    papersize = oldpapersize
                duplexmode = oldduplexmode
                papersize = oldpapersize or page["mediasize"]
            if page["mediasize"] != "Default" :
                papersize = page["mediasize"]
            if not duplexmode :
                duplexmode = oldduplexmode or defaultduplexmode
            oldpjlcopies = pjlcopies
            oldduplexmode = duplexmode
            oldpapersize = papersize
            copies = max(pjlcopies, page["copies"]) # Was : pjlcopies * page["copies"]
            self.pagecount += (copies - 1)
            self.logdebug("%s*%s*%s*%s*%s*%s*%s" % (copies,
                                                 page["mediatype"],
                                                 papersize,
                                                 page["orientation"],
                                                 page["mediasource"],
                                                 duplexmode,
                                                 colormode))
        return self.pagecount