# Copyright (C) 2021 # Authors: # Name / Email / Website # Twitter / Twitch / Youtube # Authors: # Alex Orid / inquiries@thecuriousnerd.com / TheCuriousNerd.com # Twitter: @TheCuriousNerd / Twitch: TheCuriousNerd / Youtube: thecuriousnerd / Github: TheCuriousNerd # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as # published by the Free Software Foundation, either version 3 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 Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see . from time import sleep import phue from phue import Bridge import random import utilities_script as utilities import credentials import config class Lights_Module(): def __init__(self): super().__init__() self.bridge_:Bridge = Bridge('192.168.191.146') def main(self): print("\nStarting up [Lights_Module]...") self.bridge_.connect() self.bridge_.get_api() light_list = self.bridge_.lights group_list:list = [] groups = self.bridge_.get_group() groupCount = 0 #print("\n -Listing Lights...") for l in light_list: pass #print(l.name) #print("\n -Counting Groups...") for g in groups: #print(g) groupCount = int(g) for gc in range(groupCount): try: #print("group n:" + str(gc)) group = self.bridge_.get_group(gc ,'name') #print(group) group_list.append(group) #print(" --done adding") except: pass #print(" --adding failed") #self.bridge_.set_group(18, "bri", 254) #This is max Brightness #self.bridge_.set_group(18, "on", True) #This is will turn ON #xy_result = self.rgb_to_xy(0,0,1) #This will take an rgb value and make it xy #self.bridge_.set_group(16, "xy", xy_result) #This will make the lights in the group turn blue # The Following will make a rave #for rave in range(10): #rgb_r = random.random() #rgb_g = random.random() #rgb_b = random.random() #xy_result = self.rgb_to_xy(rgb_r, rgb_g, rgb_b) #This will take an rgb value and make it xy #self.bridge_.set_group(16, "xy", xy_result) #sleep(0.1) #for stuffz in self.bridge_.scenes: #print(stuffz) # This will set the group Downstairs to the Stream scene #self.bridge_.run_scene("Downstairs", "Stream") print("-[Lights_Module] Setup Complete") def setLight(): pass def setLights(): pass def setGroup(): pass def setGroups(): pass def raveMode(self): for rave in range(30): rgb_r = random.random() rgb_g = random.random() rgb_b = random.random() xy_result = self.rgb_to_xy(rgb_r, rgb_g, rgb_b) #This will take an rgb value and make it xy self.bridge_.set_group(16, "xy", xy_result) sleep(0.3) self.bridge_.run_scene("Downstairs", "Stream") def rgb_to_xy(self, red, green, blue): """ conversion of RGB colors to CIE1931 XY colors Formulas implemented from: https://gist.github.com/popcorn245/30afa0f98eea1c2fd34d Args: red (float): a number between 0.0 and 1.0 representing red in the RGB space green (float): a number between 0.0 and 1.0 representing green in the RGB space blue (float): a number between 0.0 and 1.0 representing blue in the RGB space Returns: xy (list): x and y """ # gamma correction red = pow((red + 0.055) / (1.0 + 0.055), 2.4) if red > 0.04045 else (red / 12.92) green = pow((green + 0.055) / (1.0 + 0.055), 2.4) if green > 0.04045 else (green / 12.92) blue = pow((blue + 0.055) / (1.0 + 0.055), 2.4) if blue > 0.04045 else (blue / 12.92) # convert rgb to xyz x = red * 0.649926 + green * 0.103455 + blue * 0.197109 y = red * 0.234327 + green * 0.743075 + blue * 0.022598 z = green * 0.053077 + blue * 1.035763 # convert xyz to xy x = x / (x + y + z) y = y / (x + y + z) # TODO check color gamut if known return [x, y] def color_string_parser(self, message): maxDigits = config.colorParse_maxDigits print("Searching for color...") xy_color = [0, 0] for text in message: #print("testing word") if "red" in text.lower(): xy_color = self.rgb_to_xy(1,0,0) print("-found: red") if "blue" in text.lower(): print("-found: blue") xy_color = self.rgb_to_xy(0,0,1) if "green" in text.lower(): print("-found: green") xy_color = self.rgb_to_xy(0,1,0) if "yellow" in text.lower(): print("-found: yellow") xy_color = self.rgb_to_xy( 0.7, 0.64, 0) if "cyan" in text.lower(): print("-found: cyan") xy_color = self.rgb_to_xy(0,1,1) if "aquamarine" in text.lower(): print("-found: aquamarine") xy_color = self.rgb_to_xy( round(utilities.rescale_value(111,0,254),maxDigits), round(utilities.rescale_value(218,0,254),maxDigits), round(utilities.rescale_value(146,0,254),maxDigits)) if "turquoise" in text.lower(): print("-found: turquoise") xy_color = self.rgb_to_xy( round(utilities.rescale_value(172,0,254),maxDigits), round(utilities.rescale_value(233,0,254),maxDigits), round(utilities.rescale_value(232,0,254),maxDigits)) if "orange" in text.lower(): print("-found: orange") xy_color = self.rgb_to_xy( 1, round(utilities.rescale_value(126,0,254),maxDigits), 0) if "magenta" in text.lower(): print("-found: magenta") xy_color = self.rgb_to_xy( 1, 0, 1) if "purple" in text.lower(): print("-found: purple") xy_color = self.rgb_to_xy( round(utilities.rescale_value(159,0,254),maxDigits), round(utilities.rescale_value(32,0,254),maxDigits), round(utilities.rescale_value(239,0,254),maxDigits)) if "violet" in text.lower(): print("-found: violet") xy_color = self.rgb_to_xy( round(utilities.rescale_value(237,0,254),maxDigits), round(utilities.rescale_value(129,0,254),maxDigits), round(utilities.rescale_value(237,0,254),maxDigits)) return xy_color if __name__ == "__main__": testModule = Lights_Module() credentials_manager = credentials.Credentials_Module() credentials_manager.load_credentials() #testModule.dbCredential = credentials_manager.find_DB_Credential(config.credentialsNickname) #testModule.discordCredential = credentials_manager.find_Discord_Credential(config.credentialsNickname) testModule.main() #testModule.raveMode()