# The MIT License (MIT)
#
# Copyright (c) 2016 Radomir Dopieralski & Tony DiCola for Adafruit Industries
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
"""
Matrix Displays
================
"""
from adafruit_ht16k33.ht16k33 import HT16K33
__version__ = "0.0.0-auto.0"
__repo__ = "https://github.com/adafruit/Adafruit_CircuitPython_HT16K33.git"
[docs]class Matrix8x8(HT16K33):
"""A single matrix."""
_columns = 8
_rows = 8
[docs] def pixel(self, x, y, color=None):
"""Get or set the color of a given pixel."""
if not 0 <= x <= 7:
return None
if not 0 <= y <= 7:
return None
x = (x - 1) % 8
return super()._pixel(x, y, color)
def __getitem__(self, key):
x, y = key
return self.pixel(x, y)
def __setitem__(self, key, value):
x, y = key
self.pixel(x, y, value)
#pylint: disable=too-many-branches
[docs] def shift(self, x, y, rotate=False):
"""
Shift pixels by x and y
:param rotate: (Optional) Rotate the shifted pixels to the left side (default=False)
"""
auto_write = self.auto_write
self._auto_write = False
if x > 0: # Shift Right
for _ in range(x):
for row in range(0, self.rows):
last_pixel = self[self.columns - 1, row] if rotate else 0
for col in range(self.columns - 1, 0, -1):
self[col, row] = self[col - 1, row]
self[0, row] = last_pixel
elif x < 0: # Shift Left
for _ in range(-x):
for row in range(0, self.rows):
last_pixel = self[0, row] if rotate else 0
for col in range(0, self.columns - 1):
self[col, row] = self[col + 1, row]
self[self.columns - 1, row] = last_pixel
if y > 0: # Shift Up
for _ in range(y):
for col in range(0, self.columns):
last_pixel = self[col, self.rows - 1] if rotate else 0
for row in range(self.rows - 1, 0, -1):
self[col, row] = self[col, row - 1]
self[col, 0] = last_pixel
elif y < 0: # Shift Down
for _ in range(-y):
for col in range(0, self.columns):
last_pixel = self[col, 0] if rotate else 0
for row in range(0, self.rows - 1):
self[col, row] = self[col, row + 1]
self[col, self.rows - 1] = last_pixel
self._auto_write = auto_write
if auto_write:
self.show()
#pylint: enable=too-many-branches
[docs] def shift_right(self, rotate=False):
"""
Shift all pixels right
:param rotate: (Optional) Rotate the shifted pixels to the left side (default=False)
"""
self.shift(1, 0, rotate)
[docs] def shift_left(self, rotate=False):
"""
Shift all pixels left
:param rotate: (Optional) Rotate the shifted pixels to the right side (default=False)
"""
self.shift(-1, 0, rotate)
[docs] def shift_up(self, rotate=False):
"""
Shift all pixels up
:param rotate: (Optional) Rotate the shifted pixels to bottom (default=False)
"""
self.shift(0, 1, rotate)
[docs] def shift_down(self, rotate=False):
"""
Shift all pixels down
:param rotate: (Optional) Rotate the shifted pixels to top (default=False)
"""
self.shift(0, -1, rotate)
[docs] def image(self, img):
"""Set buffer to value of Python Imaging Library image. The image should
be in 1 bit mode and a size equal to the display size."""
imwidth, imheight = img.size
if imwidth != self.columns or imheight != self.rows:
raise ValueError('Image must be same dimensions as display ({0}x{1}).' \
.format(self.columns, self.rows))
# Grab all the pixels from the image, faster than getpixel.
pixels = img.convert('1').load()
# Iterate through the pixels
for x in range(self.columns): # yes this double loop is slow,
for y in range(self.rows): # but these displays are small!
self.pixel(x, y, pixels[(x, y)])
if self._auto_write:
self.show()
@property
def columns(self):
"""Read-only property for number of columns"""
return self._columns
@property
def rows(self):
"""Read-only property for number of rows"""
return self._rows
[docs]class Matrix16x8(Matrix8x8):
"""The matrix wing."""
_columns = 16
[docs] def pixel(self, x, y, color=None):
"""Get or set the color of a given pixel."""
if not 0 <= x <= 15:
return None
if not 0 <= y <= 7:
return None
if x >= 8:
x -= 8
y += 8
return super()._pixel(y, x, color)
[docs]class MatrixBackpack16x8(Matrix16x8):
"""A double matrix backpack."""
[docs] def pixel(self, x, y, color=None):
"""Get or set the color of a given pixel."""
if not 0 <= x <= 15:
return None
if not 0 <= y <= 7:
return None
return super()._pixel(x, y, color)
[docs]class Matrix8x8x2(Matrix8x8):
"""A bi-color matrix."""
LED_OFF = 0
LED_RED = 1
LED_GREEN = 2
LED_YELLOW = 3
[docs] def pixel(self, x, y, color=None):
"""Get or set the color of a given pixel."""
if not 0 <= x <= 7:
return None
if not 0 <= y <= 7:
return None
if color is not None:
super()._pixel(y, x, (color >> 1) & 0x01)
super()._pixel(y + 8, x, (color & 0x01))
else:
return super()._pixel(y, x) | super()._pixel(y + 8, x) << 1
return None
[docs] def fill(self, color):
"""Fill the whole display with the given color."""
fill1 = 0xff if color & 0x01 else 0x00
fill2 = 0xff if color & 0x02 else 0x00
for i in range(8):
self._set_buffer(i * 2, fill1)
self._set_buffer(i * 2 + 1, fill2)
if self._auto_write:
self.show()
[docs] def image(self, img):
"""Set buffer to value of Python Imaging Library image. The image should
be a size equal to the display size."""
imwidth, imheight = img.size
if imwidth != self.columns or imheight != self.rows:
raise ValueError('Image must be same dimensions as display ({0}x{1}).' \
.format(self.columns, self.rows))
# Grab all the pixels from the image, faster than getpixel.
pixels = img.convert('RGB').load()
# Iterate through the pixels
for x in range(self.columns): # yes this double loop is slow,
for y in range(self.rows): # but these displays are small!
if pixels[(x, y)] == (255, 0, 0):
self.pixel(x, y, self.LED_RED)
elif pixels[(x, y)] == (0, 255, 0):
self.pixel(x, y, self.LED_GREEN)
elif pixels[(x, y)] == (255, 255, 0):
self.pixel(x, y, self.LED_YELLOW)
else:
# Unknown color, default to LED off.
self.pixel(x, y, self.LED_OFF)
if self._auto_write:
self.show()