4 from adafruit_blinka.microcontroller.nova import Connection
5 self._nova = Connection.getInstance()
6 self._nova.setNumericalBase(10)
7 self._nova.setOperationMode(0, "I2C")
8 self._nova.setPullUpStateI2C(0, "EN")
9 self._nova.setClockI2C(0, 400000)
15 for i in range(8, 121):
16 result = self._nova.scanAddrI2C(0, i<<1)
18 resp = result.split(" ")
25 def writeto(self, address, buffer, *, start=0, end=None, stop=True):
27 end = end if end else len(buffer)
29 self._nova.startI2C(0, address)
31 for i in range(start, end):
32 self._nova.writeByteI2C(0, buffer[i])
37 self._nova.endI2C(0, True)
39 def readfrom_into(self, address, buffer, *, start=0, end=None, stop=True):
41 end = end if end else len(buffer)
43 result = self._nova.readBytesI2C(0, address, len(buffer[start:end]))
44 resp = result.split(" ")
46 for i in range(len(buffer[start:end])):
47 buffer[start+i] = resp[2+i]
49 def writeto_then_readfrom(self, address, buffer_out, buffer_in, *,
50 out_start=0, out_end=None,
51 in_start=0, in_end=None, stop=False):
53 out_end = out_end if out_end else len(buffer_out)
54 in_end = in_end if in_end else len(buffer_in)
56 self._nova.startI2C(0, address)
58 for i in range(out_start, out_end):
59 self._nova.writeByteI2C(0, buffer_out[i])
61 self._nova.endI2C(0, True)
63 result = self._nova.readBytesI2C(0, address, len(buffer_in[in_start:in_end]))
64 resp = result.split(" ")
66 for i in range(len(buffer_in[in_start:in_end])):
67 buffer_in[in_start+i] = resp[2+i]
projects / Adafruit_Blinka-hackapet.git / blob