def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Number of points in cache self.N = 250 self.scale_factor = 0.8 self.ROT_RATE = 0.1 # Color changing self.writhe_current_hue = random.random() self.writhe_hue_target = random.random() self.writhe_hue_step = 1.0/10.0 #diffuse D-angle self.thetad = 0.2 #seed angle self.thetaB = random.random()*2*pi self.thetaR = random.random()*2*pi self.thetaG = random.random()*2*pi #seed position self.BX = arange(0.0,1.0,1.0/self.N) self.BY = arange(0.0,1.0,1.0/self.N) self.BX[0] = 0 self.BY[0] = 0 self.fB = 1.0 self.RX=arange(0.0,1.0,1.0/self.N) self.RY=arange(0.0,1.0,1.0/self.N) self.RX[0]=0 self.RY[0]=0 self.fR=1.0 self.GX=arange(0,1.0,1.0/self.N) self.GY=arange(0,1.0,1.0/self.N) self.GX[0]=0 self.GY[0]=0 self.fG=1.0 #jump distance self.dr=2.0/self.N; for i in range(1,self.N): self.thetaB=random.gauss(0,self.thetad)+self.thetaB; self.BX[i]=self.BX[i-1]+self.dr*cos(self.thetaB) self.BY[i]=self.BY[i-1]+self.dr*sin(self.thetaB) self.thetaR=random.gauss(0,self.thetad)+self.thetaR; self.RX[i]=self.RX[i-1]+self.dr*cos(self.thetaR) self.RY[i]=self.RY[i-1]+self.dr*sin(self.thetaR) self.thetaG=random.gauss(0,self.thetad)+self.thetaG; self.GX[i]=self.GX[i-1]+self.dr*cos(self.thetaG) self.GY[i]=self.GY[i-1]+self.dr*sin(self.thetaG) # loop variable self.i=1.0;
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Number of points in cache self.N = 250 self.scale_factor = 0.8 self.ROT_RATE = 0.1 # Color changing self.writhe_current_hue = random.random() self.writhe_hue_target = random.random() self.writhe_hue_step = 1.0 / 10.0 #diffuse D-angle self.thetad = 0.2 #seed angle self.thetaB = random.random() * 2 * pi self.thetaR = random.random() * 2 * pi self.thetaG = random.random() * 2 * pi #seed position self.BX = arange(0.0, 1.0, 1.0 / self.N) self.BY = arange(0.0, 1.0, 1.0 / self.N) self.BX[0] = 0 self.BY[0] = 0 self.fB = 1.0 self.RX = arange(0.0, 1.0, 1.0 / self.N) self.RY = arange(0.0, 1.0, 1.0 / self.N) self.RX[0] = 0 self.RY[0] = 0 self.fR = 1.0 self.GX = arange(0, 1.0, 1.0 / self.N) self.GY = arange(0, 1.0, 1.0 / self.N) self.GX[0] = 0 self.GY[0] = 0 self.fG = 1.0 #jump distance self.dr = 2.0 / self.N for i in range(1, self.N): self.thetaB = random.gauss(0, self.thetad) + self.thetaB self.BX[i] = self.BX[i - 1] + self.dr * cos(self.thetaB) self.BY[i] = self.BY[i - 1] + self.dr * sin(self.thetaB) self.thetaR = random.gauss(0, self.thetad) + self.thetaR self.RX[i] = self.RX[i - 1] + self.dr * cos(self.thetaR) self.RY[i] = self.RY[i - 1] + self.dr * sin(self.thetaR) self.thetaG = random.gauss(0, self.thetad) + self.thetaG self.GX[i] = self.GX[i - 1] + self.dr * cos(self.thetaG) self.GY[i] = self.GY[i - 1] + self.dr * sin(self.thetaG) # loop variable self.i = 1.0
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Parameters self.MAX_THETA = 4.0 * pi self.SAMPLES_PER_FRAME = 400 self.RATE = 0.2 self.reset()
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Reset things audio_engine.clear_all() self.x_coord = -1.0 self.step = 1 / 256.0 self.subsamp = 2 self.sample_array = np.zeros(512)
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Reset things audio_engine.clear_all() self.x_coord = -0.9 self.step = 1/1024.0 self.subsamp = 1 self.sample_array = np.zeros(512)
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Parameters self.MAX_THETA = 4.0 * pi self.SAMPLES_PER_FRAME = 1000 self.SCALE = 1.0 self.RATE = 0.2 self.reset()
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Reset things audio_engine.clear_all() # Constants self.SUBSAMP = 3 self.BOOST = 8 self.MIN_SIZE = 0.2 self.MAX_SIZE = 1.0 self.W = 523.251131 / 4.0 * pi; self.pos = 0.0
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Reset things audio_engine.clear_all() # Constants self.SUBSAMP = 20 self.BOOST = 8 self.MIN_SIZE = 0.2 self.MAX_SIZE = 1.0 self.W = 523.251131 / 4.0 * pi; self.pos = 0.0 self.mono = None
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Number of points in cache self.N = 250.0; # fixed dtheta self.dtheta=0.04; # switch cut off self.cut=0.7; # self.cut=1.0; # magnitudes self.m1=0.1; self.m2=0.7; self.m3=0.4; self.m4=0.23; self.m5=0.11; # self.m1=0.8; # self.m2=0.4; # self.m3=0.2; # self.m4=0.1; # self.m5=0.1; # combo powers self.p1x=1.0/2.0; self.p1y=3.0/2.0; self.p2x=3.0/2.0; self.p2y=1.0/2.0; # coefficients self.th1=random.random()*2*pi; self.th2=random.random()*2*pi; self.th3=random.random()*2*pi; self.th4=random.random()*2*pi; self.th5=random.random()*2*pi; self.th1b=random.random()*2*pi; self.th2b=random.random()*2*pi; self.th3b=random.random()*2*pi; self.th4b=random.random()*2*pi; self.th5b=random.random()*2*pi;
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Number of points in cache self.N = 250.0 # fixed dtheta self.dtheta = 0.04 # switch cut off self.cut = 0.7 # self.cut=1.0; # magnitudes self.m1 = 0.1 self.m2 = 0.7 self.m3 = 0.4 self.m4 = 0.23 self.m5 = 0.11 # self.m1=0.8; # self.m2=0.4; # self.m3=0.2; # self.m4=0.1; # self.m5=0.1; # combo powers self.p1x = 1.0 / 2.0 self.p1y = 3.0 / 2.0 self.p2x = 3.0 / 2.0 self.p2y = 1.0 / 2.0 # coefficients self.th1 = random.random() * 2 * pi self.th2 = random.random() * 2 * pi self.th3 = random.random() * 2 * pi self.th4 = random.random() * 2 * pi self.th5 = random.random() * 2 * pi self.th1b = random.random() * 2 * pi self.th2b = random.random() * 2 * pi self.th3b = random.random() * 2 * pi self.th4b = random.random() * 2 * pi self.th5b = random.random() * 2 * pi
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Parameters self.SAMPLES_PER_FRAME = 900 self.MAX_THETA = 16 * pi self.RATE = 0.2 self.x_ratio = 3 self.x_phase = 0 self.y_ratio = 5 self.y_phase = 0 self.z_ratio = 7 self.z_phase = 0 self.decay = 0.9995 self.spin = 0 self.spin_phase = 0
def __init__(self): LuxPlugin.__init__(self) ColorDriftPlugin.__init__(self) # Parameters self.SAMPLES_PER_FRAME = 1000 self.MAX_THETA = 8 * pi self.RATE = 0.1 self.x_ratio = 3 self.x_phase = 0 self.y_ratio = 5 self.y_phase = 0 self.z_ratio = 7 self.z_phase = 0 self.decay = 0.9995 self.spin = 0 self.spin_phase = 0
def __init__(self): ColorDriftPlugin.__init__(self) pass