/usr/share/hplip/scan/sane.py is in hplip-data 3.16.11+repack0-3.
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#
# (c) Copyright 2003-2015 HP Development Company, L.P.
#
# 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 2 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Based on:
# "sane.py", part of the Python Imaging Library (PIL)
# http://www.pythonware.com/products/pil/
# Python wrapper on top of the _sane module, which is in turn a very
# thin wrapper on top of the SANE library. For a complete understanding
# of SANE, consult the documentation at the SANE home page:
# http://www.mostang.com/sane/ .#
#
# Modified to work without PIL by Don Welch
#
# (C) Copyright 2003 A.M. Kuchling. All Rights Reserved
# (C) Copyright 2004 A.M. Kuchling, Ralph Heinkel All Rights Reserved
#
# Permission to use, copy, modify, and distribute this software and its
# documentation for any purpose and without fee is hereby granted,
# provided that the above copyright notice appear in all copies and that
# both that copyright notice and this permission notice appear in
# supporting documentation, and that the name of A.M. Kuchling and
# Ralph Heinkel not be used in advertising or publicity pertaining to
# distribution of the software without specific, written prior permission.
#
# A.M. KUCHLING, R.H. HEINKEL DISCLAIM ALL WARRANTIES WITH REGARD TO THIS
# SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS,
# IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR
# CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
# USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
# OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
# PERFORMANCE OF THIS SOFTWARE.
# Python wrapper on top of the scanext module, which is in turn a very
# thin wrapper on top of the SANE library. For a complete understanding
# of SANE, consult the documentation at the SANE home page:
# http://www.mostang.com/sane/ .
#
# Original authors: Andrew Kuchling, Ralph Heinkel
# Modified by: Don Welch, Sarbeswar Meher
#
# Std Lib
import scanext
import threading
import time
import os
# Local
from base.g import *
from base import utils
from base.sixext import to_bytes_utf8
from base.sixext.moves import queue
EVENT_SCAN_CANCELED = 1
TYPE_STR = { scanext.TYPE_BOOL: "TYPE_BOOL", scanext.TYPE_INT: "TYPE_INT",
scanext.TYPE_FIXED: "TYPE_FIXED", scanext.TYPE_STRING: "TYPE_STRING",
scanext.TYPE_BUTTON: "TYPE_BUTTON", scanext.TYPE_GROUP: "TYPE_GROUP" }
UNIT_STR = { scanext.UNIT_NONE: "UNIT_NONE",
scanext.UNIT_PIXEL: "UNIT_PIXEL",
scanext.UNIT_BIT: "UNIT_BIT",
scanext.UNIT_MM: "UNIT_MM",
scanext.UNIT_DPI: "UNIT_DPI",
scanext.UNIT_PERCENT: "UNIT_PERCENT",
scanext.UNIT_MICROSECOND: "UNIT_MICROSECOND" }
MAX_READSIZE = 65536
class Option:
"""Class representing a SANE option.
Attributes:
index -- number from 0 to n, giving the option number
name -- a string uniquely identifying the option
title -- single-line string containing a title for the option
desc -- a long string describing the option; useful as a help message
type -- type of this option. Possible values: TYPE_BOOL,
TYPE_INT, TYPE_STRING, and so forth.
unit -- units of this option. Possible values: UNIT_NONE,
UNIT_PIXEL, etc.
size -- size of the value in bytes
cap -- capabilities available; CAP_EMULATED, CAP_SOFT_SELECT, etc.
constraint -- constraint on values. Possible values:
None : No constraint
(min,max,step) Integer values, from min to max, stepping by
list of integers or strings: only the listed values are allowed
"""
def __init__(self, args, cur_device):
import string
self.cur_device = cur_device
self.index, self.name, self.title, self.desc, self.type, \
self.unit, self.size, self.cap, self.constraint = args
if type(self.name) != type(''):
self.name = str(self.name)
def isActive(self):
return scanext.isOptionActive(self.cap)
def isSettable(self):
return scanext.isOptionSettable(self.cap)
def __repr__(self):
if self.isSettable():
settable = 'yes'
else:
settable = 'no'
if self.isActive():
active = 'yes'
curValue = self.cur_device.getOption(self.name)
else:
active = 'no'
curValue = '<not available, inactive option>'
return """\nName: %s
Cur value: %s
Index: %d
Title: %s
Desc: %s
Type: %s
Unit: %s
Constr: %s
isActive: %s
isSettable: %s\n""" % (self.name, curValue,
self.index, self.title, self.desc,
TYPE_STR[self.type], UNIT_STR[self.unit],
self.constraint, active, settable)
return s
def limitAndSet(self, value):
if value is not None and self.constraint is not None:
if type(self.constraint) == type(()):
if value < self.constraint[0]:
value = self.constraint[0]
log.warn("Invalid value for %s (%s < min value of %d). Using %d." %
(self.name, self.name, value, value))
elif value > self.constraint[1]:
value = self.constraint[1]
log.warn("Invalid value for %s (%s > max value of %d). Using %d." %
(self.name, self.name, value, value))
self.cur_device.setOption(self.name, value)
elif type(self.constraint) == type([]):
if value not in self.constraint:
v = self.constraint[0]
min_dist = sys.maxsize
for x in self.constraint:
if abs(value-x) < min_dist:
min_dist = abs(value-x)
v = x
log.warn("Invalid value for %s (%s not in constraint list: %s). Using %d." %
(self.name, self.name, value, ', '.join(self.constraint), v))
self.cur_device.setOption(self.name, v)
else:
value = self.cur_device.getOption(self.name)
return value
##class _SaneIterator:
## """ intended for ADF scans.
## """
##
## def __init__(self, cur_device):
## self.cur_device = cur_device
##
## def __iter__(self):
## return self
##
## def __del__(self):
## self.cur_device.cancelScan()
##
## def next(self):
## try:
## self.cur_device.startScan()
## except error, v:
## if v == 'Document feeder out of documents':
## raise StopIteration
## else:
## raise
## return self.cur_device.performScan(1)
class ScanDevice:
"""Class representing a SANE device.
Methods:
startScan() -- initiate a scan, using the current settings
cancelScan() -- cancel an in-progress scanning operation
Also available, but rather low-level:
getParameters() -- get the current parameter settings of the device
getOptions() -- return a list of tuples describing all the options.
Attributes:
optlist -- list of option names
You can also access an option name to retrieve its value, and to
set it. For example, if one option has a .name attribute of
imagemode, and scanner is a ScanDevice object, you can do:
print scanner.imagemode
scanner.imagemode = 'Full frame'
scanner.['imagemode'] returns the corresponding Option object.
"""
def __init__(self, dev):
self.scan_thread = None
self.dev = scanext.openDevice(dev)
self.options = {}
self.__load_options_dict()
def __load_options_dict(self):
opts = self.options
opt_list = self.dev.getOptions()
for t in opt_list:
o = Option(t, self)
if o.type != scanext.TYPE_GROUP:
opts[o.name] = o
def setOption(self, key, value):
opts = self.options
if key not in opts:
opts[key] = value
return
opt = opts[key]
if opt.type == scanext.TYPE_GROUP:
log.error("Groups can't be set: %s" % key)
if not scanext.isOptionActive(opt.cap):
log.error("Inactive option: %s" % key)
if not scanext.isOptionSettable(opt.cap):
log.error("Option can't be set by software: %s" % key)
if type(value) == int and opt.type == scanext.TYPE_FIXED:
# avoid annoying errors of backend if int is given instead float:
value = float(value)
try:
self.last_opt = self.dev.setOption(opt.index, value)
except scanext.error:
log.error("Unable to set option %s to value %s" % (key, value))
return
# do binary AND to find if we have to reload options:
if self.last_opt & scanext.INFO_RELOAD_OPTIONS:
self.__load_options_dict()
def getOption(self, key):
opts = self.options
if key == 'optlist':
return list(opts.keys())
if key == 'area':
return (opts["tl-x"], opts["tl-y"]), (opts["br-x"], opts["br-y"])
if key not in opts:
raise AttributeError('No such attribute: %s' % key)
opt = opts[key]
if opt.type == scanext.TYPE_BUTTON:
raise AttributeError("Buttons don't have values: %s" % key)
if opt.type == scanext.TYPE_GROUP:
raise AttributeError("Groups don't have values: %s " % key)
if not scanext.isOptionActive(opt.cap):
raise AttributeError('Inactive option: %s' % key)
return self.dev.getOption(opt.index)
def getOptionObj(self, key):
opts = self.options
if key in opts:
return opts[key]
def getParameters(self):
"""Return a 6-tuple holding all the current device settings:
(format, format_name, last_frame, (pixels_per_line, lines), depth, bytes_per_line)
- format is the SANE frame type
- format is one of 'grey', 'color' (RGB), 'red', 'green', 'blue'.
- last_frame [bool] indicates if this is the last frame of a multi frame image
- (pixels_per_line, lines) specifies the size of the scanned image (x,y)
- lines denotes the number of scanlines per frame
- depth gives number of pixels per sample
"""
return self.dev.getParameters()
def getOptions(self):
"Return a list of tuples describing all the available options"
return self.dev.getOptions()
def startScan(self, byte_format='BGRA', update_queue=None, event_queue=None):
"""
Perform a scan with the current device.
Calls sane_start().
"""
if not self.isScanActive():
status = self.dev.startScan()
self.format, self.format_name, self.last_frame, self.pixels_per_line, \
self.lines, self.depth, self.bytes_per_line = self.dev.getParameters()
self.scan_thread = ScanThread(self.dev, byte_format, update_queue, event_queue)
self.scan_thread.scan_active = True
self.scan_thread.start()
return True, self.lines * self.bytes_per_line, status
else:
# Already active
return False, 0, scanext.SANE_STATUS_DEVICE_BUSY
def cancelScan(self):
"Cancel an in-progress scanning operation."
return self.dev.cancelScan()
def getScan(self):
"Get the output buffer and info about a completed scan."
if not self.isScanActive():
s = self.scan_thread
return s.buffer, s.format, s.format_name, s.pixels_per_line, \
s.lines, s.depth, s.bytes_per_line, s.pad_bytes, s.total_read, s.total_write
def freeScan(self):
"Cleanup the scan file after a completed scan."
if not self.isScanActive():
s = self.scan_thread
try:
s.buffer.close()
os.remove(s.buffer_path)
except (IOError, AttributeError):
pass
def isScanActive(self):
if self.scan_thread is not None:
return self.scan_thread.isAlive() and self.scan_thread.scan_active
else:
return False
def waitForScanDone(self):
if self.scan_thread is not None and \
self.scan_thread.isAlive() and \
self.scan_thread.scan_active:
try:
self.scan_thread.join()
except KeyboardInterrupt:
pass
def waitForScanActive(self):
#time.sleep(0.5)
if self.scan_thread is not None:
while True:
#print self.scan_thread.isAlive()
#print self.scan_thread.scan_active
if self.scan_thread.isAlive() and \
self.scan_thread.scan_active:
return
time.sleep(0.1)
#print "Waiting..."
## def scanMulti(self):
## return _SaneIterator(self)
def closeScan(self):
"Close the SANE device after a scan."
self.dev.closeScan()
class ScanThread(threading.Thread):
def __init__(self, device, byte_format='BGRA', update_queue=None, event_queue=None):
threading.Thread.__init__(self)
self.scan_active = True
self.dev = device
self.update_queue = update_queue
self.event_queue = event_queue
self.buffer_fd, self.buffer_path = utils.make_temp_file(prefix='hpscan')
self.buffer = os.fdopen(self.buffer_fd, "w+b")
self.format = -1
self.format_name = ''
self.last_frame = -1
self.pixels_per_line = -1
self.lines = -1
self.depth = -1
self.bytes_per_line = -1
self.pad_bytes = -1
self.total_read = 0
self.byte_format = byte_format
self.total_write = 0
def updateQueue(self, status, bytes_read):
if self.update_queue is not None:
try:
status = int(status)
except (ValueError, TypeError):
status = -1 #scanext.SANE_STATUS_GOOD
self.update_queue.put((status, bytes_read))
def run(self):
from base.sixext import to_bytes_utf8
#self.scan_active = True
self.format, self.format_name, self.last_frame, self.pixels_per_line, \
self.lines, self.depth, self.bytes_per_line = self.dev.getParameters()
log.debug("format=%d" % self.format)
log.debug("format_name=%s" % self.format_name)
log.debug("last_frame=%d" % self.last_frame)
log.debug("ppl=%d" % self.pixels_per_line)
log.debug("lines=%d" % self.lines)
log.debug("depth=%d" % self.depth)
log.debug("bpl=%d" % self.bytes_per_line)
log.debug("byte_format=%s" % self.byte_format)
w = self.buffer.write
readbuffer = self.bytes_per_line
if self.format == scanext.FRAME_RGB: # "Color"
if self.depth == 8: # 8 bpp (32bit)
self.pad_bytes = self.bytes_per_line - 3 * self.pixels_per_line
log.debug("pad_bytes=%d" % self.pad_bytes)
dir = -1
if self.byte_format == 'RGBA':
dir = 1
try:
st, t = self.dev.readScan(readbuffer)
except scanext.error as stObj:
st = stObj.args[0]
self.updateQueue(st, 0)
while st == scanext.SANE_STATUS_GOOD:
if t:
len_t = len(t)
w(b"".join([t[index:index+3:dir] + b'\xff' for index in range(0,len_t - self.pad_bytes,3)]))
self.total_read += len_t
self.total_write += len_t+(len_t - self.pad_bytes)/3
self.updateQueue(st, self.total_read)
log.debug("Color Read %d bytes" % self.total_read)
else:
time.sleep(0.1)
try:
st, t = self.dev.readScan(readbuffer)
except scanext.error as stObj:
st = stObj.args[0]
self.updateQueue(st, self.total_read)
break
if self.checkCancel():
break
elif self.format == scanext.FRAME_GRAY:
if self.depth == 1: # 1 bpp lineart
self.pad_bytes = self.bytes_per_line - (self.pixels_per_line + 7) // 8;
log.debug("pad_bytes=%d" % self.pad_bytes)
try:
st, t = self.dev.readScan(readbuffer)
except scanext.error as stObj:
st = stObj.args[0]
self.updateQueue(st, 0)
while st == scanext.SANE_STATUS_GOOD:
if t:
len_t = len(t)
w(b''.join([b''.join([b"\x00\x00\x00\xff" if k & ord(t[index:index+1]) else b"\xff\xff\xff\xff" for k in [0x80, 0x40, 0x20, 0x10, 0x8, 0x4, 0x2, 0x1]]) for index in range(0, len_t - self.pad_bytes)]))
self.total_read += len_t
self.total_write += ((len_t - self.pad_bytes) * 32)
self.updateQueue(st, self.total_read)
log.debug("Lineart Read %d bytes" % self.total_read)
else:
time.sleep(0.1)
try:
st, t = self.dev.readScan(readbuffer)
except scanext.error as stObj:
st = stObj.args[0]
self.updateQueue(st, self.total_read)
break
if self.checkCancel():
break
elif self.depth == 8: # 8 bpp grayscale
self.pad_bytes = self.bytes_per_line - self.pixels_per_line
log.debug("pad_bytes=%d" % self.pad_bytes)
try:
st, t = self.dev.readScan(readbuffer)
except scanext.error as stObj:
st = stObj.args[0]
self.updateQueue(st, 0)
while st == scanext.SANE_STATUS_GOOD:
if t:
len_t = len(t)
w(b"".join([3*t[index:index+1] + b'\xff' for index in range(0, len_t - self.pad_bytes)]))
self.total_read += len_t
self.total_write += ((len_t - self.pad_bytes) * 4)
self.updateQueue(st, self.total_read)
log.debug("Gray Read %d bytes" % self.total_read)
else:
time.sleep(0.1)
try:
st, t = self.dev.readScan(readbuffer)
except scanext.error as stObj:
st = stObj.args[0]
self.updateQueue(st, self.total_read)
break
if self.checkCancel():
break
#self.dev.cancelScan()
self.buffer.seek(0)
self.scan_active = False
log.debug("Scan thread exiting...")
def checkCancel(self):
canceled = False
while self.event_queue.qsize():
try:
event = self.event_queue.get(0)
if event == EVENT_SCAN_CANCELED:
canceled = True
log.debug("Cancel pressed!")
self.dev.canclScan()
except queue.Empty:
break
return canceled
def init():
return scanext.init()
def deInit():
return scanext.deInit()
def openDevice(dev):
"Open a device for scanning"
return ScanDevice(dev)
def getDevices(local_only=0):
return scanext.getDevices(local_only)
def reportError(code):
log.error("SANE: %s (code=%d)" % (scanext.getErrorMessage(code), code))
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