X-Git-Url: https://git.ayoreis.com/Adafruit_Blinka-hackapet.git/blobdiff_plain/7f1793b45cf96e21564be8bb7a3a7be999512a9c..a79e37b2729f77faf00545062fc4a8ded1a6eb97:/src/adafruit_blinka/microcontroller/nova/i2c.py diff --git a/src/adafruit_blinka/microcontroller/nova/i2c.py b/src/adafruit_blinka/microcontroller/nova/i2c.py index 4e34a7d..e5f0beb 100644 --- a/src/adafruit_blinka/microcontroller/nova/i2c.py +++ b/src/adafruit_blinka/microcontroller/nova/i2c.py @@ -1,37 +1,101 @@ -from adafruit_blinka.microcontroller.nova.pin import Pin +"""I2C Class for Binho Nova""" + +from adafruit_blinka.microcontroller.nova import Connection + class I2C: + """Custom I2C Class for Binho Nova""" - def __init__(self): - # change GPIO controller to I2C - from pyftdi.i2c import I2cController - self._i2c = I2cController() - self._i2c.configure('ftdi:///1') - Pin.ft232h_gpio = self._i2c.get_gpio() + def __init__(self, *, frequency=400000): + self._nova = Connection.getInstance() + self._nova.setNumericalBase(10) + self._nova.setOperationMode(0, "I2C") + self._nova.setPullUpStateI2C(0, "EN") + self._nova.setClockI2C(0, frequency) def scan(self): - return [addr for addr in range(0x79) if self._i2c.poll(addr)] + """Perform an I2C Device Scan""" + scanResults = [] + + for i in range(8, 121): + result = self._nova.scanAddrI2C(0, i << 1) + + resp = result.split(" ") + + if resp[3] == "OK": + scanResults.append(i) + + return scanResults def writeto(self, address, buffer, *, start=0, end=None, stop=True): + """Write data from the buffer to an address""" end = end if end else len(buffer) - port = self._i2c.get_port(address) - port.write(buffer[start:end], relax=stop) + + self._nova.startI2C(0, address << 1) + + for i in range(start, end): + self._nova.writeByteI2C(0, buffer[i]) + + if stop: + self._nova.endI2C(0) + else: + self._nova.endI2C(0, True) def readfrom_into(self, address, buffer, *, start=0, end=None, stop=True): + """Read data from an address and into the buffer""" end = end if end else len(buffer) - port = self._i2c.get_port(address) - result = port.read(len(buffer[start:end]), relax=stop) - for i, b in enumerate(result): - buffer[start+i] = b - - def writeto_then_readfrom(self, address, buffer_out, buffer_in, *, - out_start=0, out_end=None, - in_start=0, in_end=None, stop=False): + + result = self._nova.readBytesI2C(0, address << 1, len(buffer[start:end])) + + if result != "-NG": + resp = result.split(" ") + + for i in range(len(buffer[start:end])): + buffer[start + i] = int(resp[2 + i]) + else: + raise RuntimeError( + "Received error response from Binho Nova, result = " + result + ) + + # pylint: disable=unused-argument + def writeto_then_readfrom( + self, + address, + buffer_out, + buffer_in, + *, + out_start=0, + out_end=None, + in_start=0, + in_end=None, + stop=False + ): + """Write data from buffer_out to an address and then + read data from an address and into buffer_in + """ out_end = out_end if out_end else len(buffer_out) in_end = in_end if in_end else len(buffer_in) - port = self._i2c.get_port(address) - result = port.exchange(buffer_out[out_start:out_end], - in_end-in_start, - relax=True).tobytes() - for i, b in enumerate(result): - buffer_in[in_start+i] = b + + self._nova.startI2C(0, address << 1) + + for i in range(out_start, out_end): + self._nova.writeByteI2C(0, buffer_out[i]) + + self._nova.endI2C(0, True) + + result = self._nova.readBytesI2C( + 0, address << 1, len(buffer_in[in_start:in_end]) + ) + + if result != "-NG": + resp = result.split(" ") + + for i in range(len(buffer_in[in_start:in_end])): + buffer_in[in_start + i] = int(resp[2 + i]) + else: + raise RuntimeError( + "Received error response from Binho Nova, result = " + result + ) + + +# pylint: enable=unused-argument