python-sane documentation¶
The sane module is an Python interface to the SANE (Scanning is Now Easy) library, which provides access to various raster scanning devices such as flatbed scanners and digital cameras. For more information about SANE, consult the SANE website at www.sane-project.org. Note that this documentation doesn’t duplicate all the information in the SANE documentation, which you must also consult to get a complete understanding.
This module has been originally developed by A.M. Kuchling, it is currently maintained by Sandro Mani.
Reference¶
-
sane.
init
()¶ Initialize sane.
Returns: A tuple (sane_ver, ver_maj, ver_min, ver_patch)
.Raises _sane.error: If an error occurs.
-
sane.
get_devices
(localOnly=False)¶ Return a list of 4-tuples containing the available scanning devices. If localOnly is True, only local devices will be returned. Each tuple is of the format
(device_name, vendor, model, type)
, with:- device_name – The device name, suitable for passing to
sane.open()
. - vendor – The device vendor.
- mode – The device model vendor.
- type – the device type, such as
"virtual device"
or"video camera"
.
Returns: A list of scanning devices. Raises _sane.error: If an error occurs. - device_name – The device name, suitable for passing to
-
sane.
open
(devname)¶ Open a device for scanning. Suitable values for devname are returned in the first item of the tuples returned by
sane.get_devices()
.Returns: A SaneDev
object on success.Raises _sane.error: If an error occurs.
-
sane.
exit
()¶ Exit sane.
-
class
sane.
SaneDev
(devname)¶ Class representing a SANE device. Besides the functions documented below, the class has some special attributes which can be read:
- devname – The scanner device name (as passed to
sane_signature – The tuple
(devname, brand, name, type)
.scanner_model – The tuple
(brand, name)
.opt – Dictionary of options.
optlist – List of option names.
area – Scan area.
Furthermore, the scanner options are also exposed as attributes, which can be read and set:
print scanner.mode scanner.mode = 'Color'
An
Option
object for a scanner option can be retrieved via__getitem__()
, i.e.:option = scanner['mode']
-
arr_scan
()¶ Convenience method which calls
SaneDev.start()
followed bySaneDev.arr_snap()
.
-
arr_snap
()¶ Read image data and return a 3d numpy array of the shape
(nbands, width, heigth)
.Returns: A
numpy.array
object.Raises: - _sane.error – If an error occurs.
- RuntimeError – If numpy cannot be imported.
-
cancel
()¶ Cancel an in-progress scanning operation.
-
close
()¶ Close the scanning device.
-
fileno
()¶ Returns: The file descriptor for the scanning device, if any. Raises _sane.error: If an error occurs.
-
get_options
()¶ Returns: A list of tuples describing all the available options.
-
get_parameters
()¶ Returns a 5-tuple holding all the current device settings:
(format, last_frame, (pixels_per_line, lines), depth, bytes_per_line)
- format – One of
"grey"
,"color"
,"red"
, "green"
,"blue"
or"unknown format"
.
- format – One of
- last_frame – Whether this is the last frame of a multi frame
image.
pixels_per_line – Width of the scanned image.
lines – Height of the scanned image.
depth – The number of bits per sample.
bytes_per_line – The number of bytes per line.
Returns: A tuple containing the device settings. Raises _sane.error: If an error occurs. Note: Some backends may return different parameters depending on whether
SaneDev.start()
was called or not.
-
multi_scan
()¶ Returns: A _SaneIterator
for ADF scans.
-
scan
()¶ Convenience method which calls
SaneDev.start()
followed bySaneDev.snap()
.
-
snap
(no_cancel=False)¶ Read image data and return a
PIL.Image
object. An RGB image is returned for multi-band images, a L image for single-band images.no_cancel
is used for ADF scans by_SaneIterator
.Returns: A
PIL.Image
object.Raises: - _sane.error – If an error occurs.
- RuntimeError – If PIL.Image cannot be imported.
-
start
()¶ Initiate a scanning operation.
Throws _sane.error: If an error occurs, for instance if a option is set to an invalid value.
-
class
sane.
Option
(args, scanDev)¶ Class representing a SANE option. These are returned by a
SaneDev.__getitem__()
lookup of an option on the device, i.e.:option = scanner["mode"]
The
Option
class has the following attributes:index – Number from
0
ton
, 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:
TYPE_BOOL
,TYPE_INT
, TYPE_STRING
, etc.
- type – Type of this option:
unit – Units of this option.
UNIT_NONE
,UNIT_PIXEL
, etc.size – Size of the value in bytes.
- cap – Capabilities available:
CAP_EMULATED
,CAP_SOFT_SELECT
, etc.
- cap – Capabilities available:
constraint – Constraint on values. Possible values:
- None : No constraint
(min,max,step)
: Range- list of integers or strings: listed of permitted values
-
is_active
()¶ Returns: Whether the option is active.
-
is_settable
()¶ Returns: Whether the option is settable.
-
class
sane.
_SaneIterator
(device)¶ Iterator for ADF scans.
Example¶
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 | #!/usr/bin/env python
from __future__ import print_function
import sane
import numpy
from PIL import Image
#
# Change these for 16bit / grayscale scans
#
depth = 8
mode = 'color'
#
# Initialize sane
#
ver = sane.init()
print('SANE version:', ver)
#
# Get devices
#
devices = sane.get_devices()
print('Available devices:', devices)
#
# Open first device
#
dev = sane.open(devices[0][0])
#
# Set some options
#
params = dev.get_parameters()
try:
dev.depth = depth
except:
print('Cannot set depth, defaulting to %d' % params[3])
try:
dev.mode = mode
except:
print('Cannot set mode, defaulting to %s' % params[0])
try:
dev.br_x = 320.
dev.br_y = 240.
except:
print('Cannot set scan area, using default')
params = dev.get_parameters()
print('Device parameters:', params)
#
# Start a scan and get and PIL.Image object
#
dev.start()
im = dev.snap()
im.save('test_pil.png')
#
# Start another scan and get a numpy array object
#
# Initiate the scan and get and numpy array
dev.start()
arr = dev.arr_snap()
print("Array shape: %s, size: %d, type: %s, range: %d-%d, mean: %.1f, stddev: "
"%.1f" % (repr(arr.shape), arr.size, arr.dtype, arr.min(), arr.max(),
arr.mean(), arr.std()))
if arr.dtype == numpy.uint16:
arr = (arr / 255).astype(numpy.uint8)
if params[0] == 'color':
im = Image.frombytes('RGB', arr.shape[1:], arr.tostring(), 'raw', 'RGB', 0,
1)
else:
im = Image.frombytes('L', arr.shape[1:], arr.tostring(), 'raw', 'L', 0, 1)
im.save('test_numpy.png')
#
# Close the device
#
dev.close()
|