circuitpython/shared-bindings/_pixelmap/__init__.c

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Add adafruit_pixelmap.PixelMap .. a fast helper for animations. It is similar to and inspired by the PixelMap helper in Adafruit LED Animation library, but with an extremely fast 'paste' method for setting a series of pixels. This is a common operation for many animations, and can give a substantial speed improvement. It's named `adafruit_pixelmap` so that we can package a compatible version in pure Python for systems that can't fit it in C in flash, or for Blinka. This is a proof of concept and can make a very fast comet animation: ```python import time import adafruit_pixelbuf import adafruti_pixelmap import board import neopixel from supervisor import ticks_ms from adafruit_led_animation.animation.solid import Solid from adafruit_led_animation import color pixel_pin = board.GP0 pixel_num = 96 pixels = neopixel.NeoPixel(pixel_pin, pixel_num, brightness=1, auto_write=False, pixel_order="RGB") evens = adafruit_pixelmap.PixelMap(pixels, tuple(range(0, pixel_num, 2))) odd_indices = tuple((i, i+2) for i in range(1, pixel_num, 4)) print(odd_indices) odds = adafruit_pixelbuf.PixelMap(pixels, odd_indices) assert len(odds) == len(odd_indices) comet_length = 16 comet1 = [color.calculate_intensity(color.GREEN, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] comet2 = [color.calculate_intensity(color.PURPLE, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] pos1 = 0 pos2 = 96//4 while True: evens.paste(comet1, pos1, wrap=True, reverse=False, others=0) pos1 = (pos1 + 1) % len(evens) odds.paste(comet2, pos2, wrap=True, reverse=True, others=0) pos2 = (pos2 - 1) % len(odds) pixels.show() m = ticks_ms() if m % 2000 > 1000: time.sleep(.02) ```
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/*
* This file is part of the CircuitPython project, https://github.com/adafruit/circuitpython
*
* The MIT License (MIT)
*
* Copyright (c) 2018 Rose Hooper
*
* 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.
*/
#include "py/obj.h"
#include "py/mphal.h"
#include "py/runtime.h"
#include "py/objproperty.h"
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#include "shared-bindings/_pixelmap/__init__.h"
#include "shared-bindings/_pixelmap/PixelMap.h"
Add adafruit_pixelmap.PixelMap .. a fast helper for animations. It is similar to and inspired by the PixelMap helper in Adafruit LED Animation library, but with an extremely fast 'paste' method for setting a series of pixels. This is a common operation for many animations, and can give a substantial speed improvement. It's named `adafruit_pixelmap` so that we can package a compatible version in pure Python for systems that can't fit it in C in flash, or for Blinka. This is a proof of concept and can make a very fast comet animation: ```python import time import adafruit_pixelbuf import adafruti_pixelmap import board import neopixel from supervisor import ticks_ms from adafruit_led_animation.animation.solid import Solid from adafruit_led_animation import color pixel_pin = board.GP0 pixel_num = 96 pixels = neopixel.NeoPixel(pixel_pin, pixel_num, brightness=1, auto_write=False, pixel_order="RGB") evens = adafruit_pixelmap.PixelMap(pixels, tuple(range(0, pixel_num, 2))) odd_indices = tuple((i, i+2) for i in range(1, pixel_num, 4)) print(odd_indices) odds = adafruit_pixelbuf.PixelMap(pixels, odd_indices) assert len(odds) == len(odd_indices) comet_length = 16 comet1 = [color.calculate_intensity(color.GREEN, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] comet2 = [color.calculate_intensity(color.PURPLE, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] pos1 = 0 pos2 = 96//4 while True: evens.paste(comet1, pos1, wrap=True, reverse=False, others=0) pos1 = (pos1 + 1) % len(evens) odds.paste(comet2, pos2, wrap=True, reverse=True, others=0) pos2 = (pos2 - 1) % len(odds) pixels.show() m = ticks_ms() if m % 2000 > 1000: time.sleep(.02) ```
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//| """A fast pixel mapping library
//|
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//| The `_pixelmap` module provides the :py:class:`PixelMap` class to accelerate
Add adafruit_pixelmap.PixelMap .. a fast helper for animations. It is similar to and inspired by the PixelMap helper in Adafruit LED Animation library, but with an extremely fast 'paste' method for setting a series of pixels. This is a common operation for many animations, and can give a substantial speed improvement. It's named `adafruit_pixelmap` so that we can package a compatible version in pure Python for systems that can't fit it in C in flash, or for Blinka. This is a proof of concept and can make a very fast comet animation: ```python import time import adafruit_pixelbuf import adafruti_pixelmap import board import neopixel from supervisor import ticks_ms from adafruit_led_animation.animation.solid import Solid from adafruit_led_animation import color pixel_pin = board.GP0 pixel_num = 96 pixels = neopixel.NeoPixel(pixel_pin, pixel_num, brightness=1, auto_write=False, pixel_order="RGB") evens = adafruit_pixelmap.PixelMap(pixels, tuple(range(0, pixel_num, 2))) odd_indices = tuple((i, i+2) for i in range(1, pixel_num, 4)) print(odd_indices) odds = adafruit_pixelbuf.PixelMap(pixels, odd_indices) assert len(odds) == len(odd_indices) comet_length = 16 comet1 = [color.calculate_intensity(color.GREEN, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] comet2 = [color.calculate_intensity(color.PURPLE, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] pos1 = 0 pos2 = 96//4 while True: evens.paste(comet1, pos1, wrap=True, reverse=False, others=0) pos1 = (pos1 + 1) % len(evens) odds.paste(comet2, pos2, wrap=True, reverse=True, others=0) pos2 = (pos2 - 1) % len(odds) pixels.show() m = ticks_ms() if m % 2000 > 1000: time.sleep(.02) ```
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//| RGB(W) strip/matrix manipulation, such as DotStar and Neopixel."""
//|
//| # The types accepted when getting a pixel value
//| PixelReturnType = Union[
//| Tuple[int, int, int], Tuple[int, int, int, int], Tuple[int, int, int, float]
//| ]
//| PixelReturnSequence = Tuple[PixelReturnType]
//| # The types returned when getting a pixel value
//| PixelType = Union[int, PixelReturnType]
//| PixelSequence = Union[Tuple[PixelType], List[PixelType]]
STATIC const mp_rom_map_elem_t pixelmap_module_globals_table[] = {
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{ MP_ROM_QSTR(MP_QSTR___name__), MP_ROM_QSTR(MP_QSTR__pixelmap) },
Add adafruit_pixelmap.PixelMap .. a fast helper for animations. It is similar to and inspired by the PixelMap helper in Adafruit LED Animation library, but with an extremely fast 'paste' method for setting a series of pixels. This is a common operation for many animations, and can give a substantial speed improvement. It's named `adafruit_pixelmap` so that we can package a compatible version in pure Python for systems that can't fit it in C in flash, or for Blinka. This is a proof of concept and can make a very fast comet animation: ```python import time import adafruit_pixelbuf import adafruti_pixelmap import board import neopixel from supervisor import ticks_ms from adafruit_led_animation.animation.solid import Solid from adafruit_led_animation import color pixel_pin = board.GP0 pixel_num = 96 pixels = neopixel.NeoPixel(pixel_pin, pixel_num, brightness=1, auto_write=False, pixel_order="RGB") evens = adafruit_pixelmap.PixelMap(pixels, tuple(range(0, pixel_num, 2))) odd_indices = tuple((i, i+2) for i in range(1, pixel_num, 4)) print(odd_indices) odds = adafruit_pixelbuf.PixelMap(pixels, odd_indices) assert len(odds) == len(odd_indices) comet_length = 16 comet1 = [color.calculate_intensity(color.GREEN, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] comet2 = [color.calculate_intensity(color.PURPLE, ((1+i) / comet_length) ** 2.4) for i in range(comet_length)] pos1 = 0 pos2 = 96//4 while True: evens.paste(comet1, pos1, wrap=True, reverse=False, others=0) pos1 = (pos1 + 1) % len(evens) odds.paste(comet2, pos2, wrap=True, reverse=True, others=0) pos2 = (pos2 - 1) % len(odds) pixels.show() m = ticks_ms() if m % 2000 > 1000: time.sleep(.02) ```
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{ MP_ROM_QSTR(MP_QSTR_PixelMap), MP_ROM_PTR(&pixelmap_pixelmap_type) },
};
STATIC MP_DEFINE_CONST_DICT(pixelmap_module_globals, pixelmap_module_globals_table);
const mp_obj_module_t pixelmap_module = {
.base = { &mp_type_module },
.globals = (mp_obj_dict_t *)&pixelmap_module_globals,
};
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MP_REGISTER_MODULE(MP_QSTR__pixelmap, pixelmap_module, CIRCUITPY_PIXELMAP);