/usr/lib/python2.7/dist-packages/qrcode/main.py is in python-qrcode 5.3-1.
This file is owned by root:root, with mode 0o644.
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from qrcode.image.base import BaseImage
import six
from bisect import bisect_left
def make(data=None, **kwargs):
qr = QRCode(**kwargs)
qr.add_data(data)
return qr.make_image()
def _check_version(version):
if version < 1 or version > 40:
raise ValueError(
"Invalid version (was %s, expected 1 to 40)" % version)
def _check_box_size(size):
if int(size) <= 0:
raise ValueError(
"Invalid box size (was %s, expected larger than 0)" % size)
class QRCode:
def __init__(self, version=None,
error_correction=constants.ERROR_CORRECT_M,
box_size=10, border=4,
image_factory=None):
_check_box_size(box_size)
self.version = version and int(version)
self.error_correction = int(error_correction)
self.box_size = int(box_size)
# Spec says border should be at least four boxes wide, but allow for
# any (e.g. for producing printable QR codes).
self.border = int(border)
self.image_factory = image_factory
if image_factory is not None:
assert issubclass(image_factory, BaseImage)
self.clear()
def clear(self):
"""
Reset the internal data.
"""
self.modules = None
self.modules_count = 0
self.data_cache = None
self.data_list = []
def add_data(self, data, optimize=20):
"""
Add data to this QR Code.
:param optimize: Data will be split into multiple chunks to optimize
the QR size by finding to more compressed modes of at least this
length. Set to ``0`` to avoid optimizing at all.
"""
if isinstance(data, util.QRData):
self.data_list.append(data)
else:
if optimize:
self.data_list.extend(util.optimal_data_chunks(data))
else:
self.data_list.append(util.QRData(data))
self.data_cache = None
def make(self, fit=True):
"""
Compile the data into a QR Code array.
:param fit: If ``True`` (or if a size has not been provided), find the
best fit for the data to avoid data overflow errors.
"""
if fit or (self.version is None):
self.best_fit(start=self.version)
self.makeImpl(False, self.best_mask_pattern())
def makeImpl(self, test, mask_pattern):
_check_version(self.version)
self.modules_count = self.version * 4 + 17
self.modules = [None] * self.modules_count
for row in range(self.modules_count):
self.modules[row] = [None] * self.modules_count
for col in range(self.modules_count):
self.modules[row][col] = None # (col + row) % 3
self.setup_position_probe_pattern(0, 0)
self.setup_position_probe_pattern(self.modules_count - 7, 0)
self.setup_position_probe_pattern(0, self.modules_count - 7)
self.setup_position_adjust_pattern()
self.setup_timing_pattern()
self.setup_type_info(test, mask_pattern)
if self.version >= 7:
self.setup_type_number(test)
if self.data_cache is None:
self.data_cache = util.create_data(
self.version, self.error_correction, self.data_list)
self.map_data(self.data_cache, mask_pattern)
def setup_position_probe_pattern(self, row, col):
for r in range(-1, 8):
if row + r <= -1 or self.modules_count <= row + r:
continue
for c in range(-1, 8):
if col + c <= -1 or self.modules_count <= col + c:
continue
if (0 <= r and r <= 6 and (c == 0 or c == 6)
or (0 <= c and c <= 6 and (r == 0 or r == 6))
or (2 <= r and r <= 4 and 2 <= c and c <= 4)):
self.modules[row + r][col + c] = True
else:
self.modules[row + r][col + c] = False
def best_fit(self, start=None):
"""
Find the minimum size required to fit in the data.
"""
if start is None:
start = 1
_check_version(start)
# Corresponds to the code in util.create_data, except we don't yet know
# version, so optimistically assume start and check later
mode_sizes = util.mode_sizes_for_version(start)
buffer = util.BitBuffer()
for data in self.data_list:
buffer.put(data.mode, 4)
buffer.put(len(data), mode_sizes[data.mode])
data.write(buffer)
needed_bits = len(buffer)
self.version = bisect_left(util.BIT_LIMIT_TABLE[self.error_correction],
needed_bits, start)
if self.version == 41:
raise exceptions.DataOverflowError()
# Now check whether we need more bits for the mode sizes, recursing if
# our guess was too low
if mode_sizes is not util.mode_sizes_for_version(self.version):
self.best_fit(start=self.version)
return self.version
def best_mask_pattern(self):
"""
Find the most efficient mask pattern.
"""
min_lost_point = 0
pattern = 0
for i in range(8):
self.makeImpl(True, i)
lost_point = util.lost_point(self.modules)
if i == 0 or min_lost_point > lost_point:
min_lost_point = lost_point
pattern = i
return pattern
def print_tty(self, out=None):
"""
Output the QR Code only using TTY colors.
If the data has not been compiled yet, make it first.
"""
if out is None:
import sys
out = sys.stdout
if not out.isatty():
raise OSError("Not a tty")
if self.data_cache is None:
self.make()
modcount = self.modules_count
out.write("\x1b[1;47m" + (" " * (modcount * 2 + 4)) + "\x1b[0m\n")
for r in range(modcount):
out.write("\x1b[1;47m \x1b[40m")
for c in range(modcount):
if self.modules[r][c]:
out.write(" ")
else:
out.write("\x1b[1;47m \x1b[40m")
out.write("\x1b[1;47m \x1b[0m\n")
out.write("\x1b[1;47m" + (" " * (modcount * 2 + 4)) + "\x1b[0m\n")
out.flush()
def print_ascii(self, out=None, tty=False, invert=False):
"""
Output the QR Code using ASCII characters.
:param tty: use fixed TTY color codes (forces invert=True)
:param invert: invert the ASCII characters (solid <-> transparent)
"""
if out is None:
import sys
if sys.version_info < (2, 7):
# On Python versions 2.6 and earlier, stdout tries to encode
# strings using ASCII rather than stdout.encoding, so use this
# workaround.
import codecs
out = codecs.getwriter(sys.stdout.encoding)(sys.stdout)
else:
out = sys.stdout
if tty and not out.isatty():
raise OSError("Not a tty")
if self.data_cache is None:
self.make()
modcount = self.modules_count
codes = [six.int2byte(code).decode('cp437')
for code in (255, 223, 220, 219)]
if tty:
invert = True
if invert:
codes.reverse()
def get_module(x, y):
if (invert and self.border and
max(x, y) >= modcount+self.border):
return 1
if min(x, y) < 0 or max(x, y) >= modcount:
return 0
return self.modules[x][y]
for r in range(-self.border, modcount+self.border, 2):
if tty:
if not invert or r < modcount+self.border-1:
out.write('\x1b[48;5;232m') # Background black
out.write('\x1b[38;5;255m') # Foreground white
for c in range(-self.border, modcount+self.border):
pos = get_module(r, c) + (get_module(r+1, c) << 1)
out.write(codes[pos])
if tty:
out.write('\x1b[0m')
out.write('\n')
out.flush()
def make_image(self, image_factory=None, **kwargs):
"""
Make an image from the QR Code data.
If the data has not been compiled yet, make it first.
"""
_check_box_size(self.box_size)
if self.data_cache is None:
self.make()
if image_factory is not None:
assert issubclass(image_factory, BaseImage)
else:
image_factory = self.image_factory
if image_factory is None:
# Use PIL by default
from qrcode.image.pil import PilImage
image_factory = PilImage
im = image_factory(
self.border, self.modules_count, self.box_size, **kwargs)
for r in range(self.modules_count):
for c in range(self.modules_count):
if self.modules[r][c]:
im.drawrect(r, c)
return im
def setup_timing_pattern(self):
for r in range(8, self.modules_count - 8):
if self.modules[r][6] is not None:
continue
self.modules[r][6] = (r % 2 == 0)
for c in range(8, self.modules_count - 8):
if self.modules[6][c] is not None:
continue
self.modules[6][c] = (c % 2 == 0)
def setup_position_adjust_pattern(self):
pos = util.pattern_position(self.version)
for i in range(len(pos)):
for j in range(len(pos)):
row = pos[i]
col = pos[j]
if self.modules[row][col] is not None:
continue
for r in range(-2, 3):
for c in range(-2, 3):
if (r == -2 or r == 2 or c == -2 or c == 2 or
(r == 0 and c == 0)):
self.modules[row + r][col + c] = True
else:
self.modules[row + r][col + c] = False
def setup_type_number(self, test):
bits = util.BCH_type_number(self.version)
for i in range(18):
mod = (not test and ((bits >> i) & 1) == 1)
self.modules[i // 3][i % 3 + self.modules_count - 8 - 3] = mod
for i in range(18):
mod = (not test and ((bits >> i) & 1) == 1)
self.modules[i % 3 + self.modules_count - 8 - 3][i // 3] = mod
def setup_type_info(self, test, mask_pattern):
data = (self.error_correction << 3) | mask_pattern
bits = util.BCH_type_info(data)
# vertical
for i in range(15):
mod = (not test and ((bits >> i) & 1) == 1)
if i < 6:
self.modules[i][8] = mod
elif i < 8:
self.modules[i + 1][8] = mod
else:
self.modules[self.modules_count - 15 + i][8] = mod
# horizontal
for i in range(15):
mod = (not test and ((bits >> i) & 1) == 1)
if i < 8:
self.modules[8][self.modules_count - i - 1] = mod
elif i < 9:
self.modules[8][15 - i - 1 + 1] = mod
else:
self.modules[8][15 - i - 1] = mod
# fixed module
self.modules[self.modules_count - 8][8] = (not test)
def map_data(self, data, mask_pattern):
inc = -1
row = self.modules_count - 1
bitIndex = 7
byteIndex = 0
mask_func = util.mask_func(mask_pattern)
data_len = len(data)
for col in six.moves.xrange(self.modules_count - 1, 0, -2):
if col <= 6:
col -= 1
col_range = (col, col-1)
while True:
for c in col_range:
if self.modules[row][c] is None:
dark = False
if byteIndex < data_len:
dark = (((data[byteIndex] >> bitIndex) & 1) == 1)
if mask_func(row, c):
dark = not dark
self.modules[row][c] = dark
bitIndex -= 1
if bitIndex == -1:
byteIndex += 1
bitIndex = 7
row += inc
if row < 0 or self.modules_count <= row:
row -= inc
inc = -inc
break
def get_matrix(self):
"""
Return the QR Code as a multidimensonal array, including the border.
To return the array without a border, set ``self.border`` to 0 first.
"""
if self.data_cache is None:
self.make()
if not self.border:
return self.modules
width = len(self.modules) + self.border*2
code = [[False]*width] * self.border
x_border = [False]*self.border
for module in self.modules:
code.append(x_border + module + x_border)
code += [[False]*width] * self.border
return code
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