自强增加MIC音量方法

boards/default_src/micropython_esp32s3/origin/build/lib/mixgo_sant.py

@@ -18,10 +18,10 @@ onboard_i2c = SoftI2C(scl=Pin(47), sda=Pin(48), freq=400000)
 
 '''BOT035-Sensor'''
 try :
-    import sant_bot
+	import sant_bot
-    onboard_bot = sant_bot.BOT035(onboard_i2c)
+	onboard_bot = sant_bot.BOT035(onboard_i2c)
 except Exception as e:
-    print("Warning: Failed to communicate with BOT035 (Coprocessor) or",e)
+	print("Warning: Failed to communicate with BOT035 (Coprocessor) or",e)
 
 '''SPI-onboard'''
 onboard_spi = SPI(1, baudrate=80000000, polarity=1, phase=1)
@@ -74,10 +74,10 @@ except Exception as e:
 
 '''ASR-Sensor'''
 try :
-    import ci130x
+	import ci130x
-    onboard_asr = ci130x.CI130X(onboard_i2c)     
+	onboard_asr = ci130x.CI130X(onboard_i2c)     
 except Exception as e:
-    print("Warning: Failed to communicate with CI130X (ASR) or",e)
+	print("Warning: Failed to communicate with CI130X (ASR) or",e)
 
 '''2RGB_WS2812'''    
 from ws2812 import NeoPixel
@@ -143,101 +143,109 @@ A4key = KEYSensor(15,2900)
 
 '''2-LED''' 
 class LED:
-    def __init__(self, pins=[]):
+	def __init__(self, pins=[]):
-        self._pins = [PWM(Pin(pin), duty_u16=0) for pin in pins]
+		self._pins = [PWM(Pin(pin), duty_u16=0) for pin in pins]
-        self._brightness = [0 for _ in range(len(self._pins))]
+		self._brightness = [0 for _ in range(len(self._pins))]
 
-    def setbrightness(self, index, val):
+	def setbrightness(self, index, val):
-        if not 0 <= val <= 100:
+		if not 0 <= val <= 100:
-            raise ValueError("Brightness must be in the range: 0-100%")
+			raise ValueError("Brightness must be in the range: 0-100%")
-        self._brightness[index - 1] = val
+		self._brightness[index - 1] = val
-        self._pins[index - 1].duty_u16(val * 65535 // 100)
+		self._pins[index - 1].duty_u16(val * 65535 // 100)
 
-    def getbrightness(self, index):
+	def getbrightness(self, index):
-        return self._brightness[index - 1]
+		return self._brightness[index - 1]
 
-    def setonoff(self, index, val):
+	def setonoff(self, index, val):
-        if val == -1:
+		if val == -1:
-            self.setbrightness(index, 100)  if self.getbrightness(index) < 50 else self.setbrightness(index, 0) 
+			self.setbrightness(index, 100)  if self.getbrightness(index) < 50 else self.setbrightness(index, 0) 
-        elif val == 1:
+		elif val == 1:
-            self.setbrightness(index, 100) 
+			self.setbrightness(index, 100) 
-        elif val == 0:
+		elif val == 0:
-            self.setbrightness(index, 0) 
+			self.setbrightness(index, 0) 
 
-    def getonoff(self, index):
+	def getonoff(self, index):
-        return True if self.getbrightness(index) > 50 else False
+		return True if self.getbrightness(index) > 50 else False
 
 onboard_led = LED(pins=[45, 46])
 
+class Voice_Energy:
+	def read(self):
+		_dat = onboard_asr._rreg(0x08, 3) #在语音识别里获取
+		print("-----",_dat)
+		return (_dat[0] | _dat[1] << 8) // 10
+
+onboard_sound = Voice_Energy()
+
 class Clock:
-    def __init__(self, x, y, radius, color, oled=onboard_tft):  #定义时钟中心点和半径
+	def __init__(self, x, y, radius, color, oled=onboard_tft):  #定义时钟中心点和半径
-        self.display = oled
+		self.display = oled
-        self.xc = x
+		self.xc = x
-        self.yc = y
+		self.yc = y
-        self.r = radius
+		self.r = radius
-        self.color= color
+		self.color= color
-        self.hour = 0
+		self.hour = 0
-        self.min = 0
+		self.min = 0
-        self.sec = 0
+		self.sec = 0
 
-    def set_time(self, h, m, s):  #设定时间
+	def set_time(self, h, m, s):  #设定时间
-        self.hour = h
+		self.hour = h
-        self.min = m
+		self.min = m
-        self.sec = s
+		self.sec = s
 
-    def set_rtctime(self):  #设定时间
+	def set_rtctime(self):  #设定时间
-        t = rtc_clock.datetime()
+		t = rtc_clock.datetime()
-        self.hour = t[4]
+		self.hour = t[4]
-        self.min = t[5]
+		self.min = t[5]
-        self.sec = t[6]
+		self.sec = t[6]
 
-    def drawDial(self,color):  #画钟表刻度
+	def drawDial(self,color):  #画钟表刻度
-        r_tic1 = self.r - 1
+		r_tic1 = self.r - 1
-        r_tic2 = self.r - 2
+		r_tic2 = self.r - 2
-        self.display.ellipse(self.xc, self.yc, self.r, self.r, color)
+		self.display.ellipse(self.xc, self.yc, self.r, self.r, color)
-        self.display.ellipse(self.xc, self.yc, 2, 2, color,True)
+		self.display.ellipse(self.xc, self.yc, 2, 2, color,True)
 
-        for h in range(12):
+		for h in range(12):
-            at = math.pi * 2.0 * h / 12.0
+			at = math.pi * 2.0 * h / 12.0
-            x1 = round(self.xc + r_tic1 * math.sin(at))
+			x1 = round(self.xc + r_tic1 * math.sin(at))
-            x2 = round(self.xc + r_tic2 * math.sin(at))
+			x2 = round(self.xc + r_tic2 * math.sin(at))
-            y1 = round(self.yc - r_tic1 * math.cos(at))
+			y1 = round(self.yc - r_tic1 * math.cos(at))
-            y2 = round(self.yc - r_tic2 * math.cos(at))
+			y2 = round(self.yc - r_tic2 * math.cos(at))
-            self.display.line(x1, y1, x2, y2, color)
+			self.display.line(x1, y1, x2, y2, color)
 
-    def drawHour(self,color):  #画时针
+	def drawHour(self,color):  #画时针
-        r_hour = int(self.r / 10.0 * 5)
+		r_hour = int(self.r / 10.0 * 5)
-        ah = math.pi * 2.0 * ((self.hour % 12) + self.min / 60.0) / 12.0
+		ah = math.pi * 2.0 * ((self.hour % 12) + self.min / 60.0) / 12.0
-        xh = int(self.xc + r_hour * math.sin(ah))
+		xh = int(self.xc + r_hour * math.sin(ah))
-        yh = int(self.yc - r_hour * math.cos(ah))
+		yh = int(self.yc - r_hour * math.cos(ah))
-        self.display.line(self.xc, self.yc, xh, yh, color)
+		self.display.line(self.xc, self.yc, xh, yh, color)
 
-    def drawMin(self,color):  #画分针
+	def drawMin(self,color):  #画分针
-        r_min = int(self.r / 10.0 * 7)
+		r_min = int(self.r / 10.0 * 7)
-        am = math.pi * 2.0 * self.min / 60.0
+		am = math.pi * 2.0 * self.min / 60.0
-        xm = round(self.xc + r_min * math.sin(am))
+		xm = round(self.xc + r_min * math.sin(am))
-        ym = round(self.yc - r_min * math.cos(am))
+		ym = round(self.yc - r_min * math.cos(am))
-        self.display.line(self.xc, self.yc, xm, ym, color)
+		self.display.line(self.xc, self.yc, xm, ym, color)
 
-    def drawSec(self,color):  #画秒针
+	def drawSec(self,color):  #画秒针
-        r_sec = int(self.r / 10.0 * 9)
+		r_sec = int(self.r / 10.0 * 9)
-        asec = math.pi * 2.0 * self.sec / 60.0
+		asec = math.pi * 2.0 * self.sec / 60.0
-        xs = round(self.xc + r_sec * math.sin(asec))
+		xs = round(self.xc + r_sec * math.sin(asec))
-        ys = round(self.yc - r_sec * math.cos(asec))
+		ys = round(self.yc - r_sec * math.cos(asec))
-        self.display.line(self.xc, self.yc, xs, ys, color)
+		self.display.line(self.xc, self.yc, xs, ys, color)
 
-    def draw_clock(self, bg_color=0):  #画完整钟表
+	def draw_clock(self, bg_color=0):  #画完整钟表
-        self.drawDial(self.color)
+		self.drawDial(self.color)
-        self.drawHour(self.color)
+		self.drawHour(self.color)
-        self.drawMin(self.color)
+		self.drawMin(self.color)
-        self.drawSec(self.color)
+		self.drawSec(self.color)
-        self.display.show()
+		self.display.show()
-        self.drawHour(bg_color)
+		self.drawHour(bg_color)
-        self.drawMin(bg_color)
+		self.drawMin(bg_color)
-        self.drawSec(bg_color)
+		self.drawSec(bg_color)
 
-    def clear(self, color=0):  #清除
+	def clear(self, color=0):  #清除
-        self.display.ellipse(self.xc, self.yc, self.r, self.r, color, True)
+		self.display.ellipse(self.xc, self.yc, self.r, self.r, color, True)
 
 '''Reclaim memory'''
 gc.collect()