1 """SPI Class for NXP LPC4330"""
2 from greatfet import GreatFET
6 """Custom I2C Class for NXP LPC4330"""
12 self._frequency = None
13 self.buffer_size = 255
33 # pylint: disable=too-many-arguments,unused-argument
45 """Initialize the Port"""
46 # Figure out the mode based on phase and polarity
47 polarity = int(polarity)
49 self._mode = (polarity << 1) | phase
51 # Using API due to possible interface change
52 self._spi = self._gf.apis.spi
53 # Check baudrate against presets and adjust to the closest one
54 if self._frequency is None:
55 preset = self._find_closest_preset(baudrate)
57 preset = self._presets[self._frequency]
58 clock_prescale_rate, serial_clock_rate = preset
59 self._spi.init(serial_clock_rate, clock_prescale_rate)
61 # Set the polarity and phase (the "SPI mode").
62 self._spi.set_clock_polarity_and_phase(self._mode)
64 # pylint: enable=too-many-arguments
66 def _find_closest_preset(self, target_frequency):
67 """Loop through self._frequencies and find the closest
68 setting. Return the preset values and set the frequency
72 for frequency in self._presets:
73 preset = self._presets[frequency]
74 if self._frequency is None or abs(frequency - target_frequency) < abs(
75 self._frequency - target_frequency
77 self._frequency = frequency
78 closest_preset = preset
84 """Return the current frequency"""
85 return self._frequency
87 def write(self, buf, start=0, end=None):
88 """Write data from the buffer to SPI"""
89 end = end if end else len(buf)
90 self._transmit(buf[start:end])
92 # pylint: disable=unused-argument
93 def readinto(self, buf, start=0, end=None, write_value=0):
94 """Read data from SPI and into the buffer"""
95 end = end if end else len(buf)
96 result = self._transmit([], end - start)
97 for i, b in enumerate(result):
100 # pylint: enable=unused-argument
102 # pylint: disable=too-many-arguments
104 self, buffer_out, buffer_in, out_start=0, out_end=None, in_start=0, in_end=None
106 """Perform a half-duplex write from buffer_out and then
107 read data into buffer_in
109 out_end = out_end if out_end else len(buffer_out)
110 in_end = in_end if in_end else len(buffer_in)
112 result = self._transmit(buffer_out[out_start:out_end], in_end - in_start)
113 for i, b in enumerate(result):
114 buffer_in[in_start + i] = b
116 # pylint: enable=too-many-arguments
118 def _transmit(self, data, receive_length=None):
119 data_to_transmit = bytearray(data)
120 data_received = bytearray()
122 if receive_length is None:
123 receive_length = len(data)
125 # If we need to receive more than we've transmitted, extend the data out.
126 if receive_length > len(data):
127 padding = receive_length - len(data)
128 data_to_transmit.extend([0] * padding)
130 # Transmit our data in chunks of the buffer size.
131 while data_to_transmit:
132 # Extract a single data chunk from the transmit buffer.
133 chunk = data_to_transmit[0 : self.buffer_size]
134 del data_to_transmit[0 : self.buffer_size]
136 # Finally, exchange the data.
137 response = self._spi.clock_data(len(chunk), bytes(chunk))
138 data_received.extend(response)
140 # Once we're done, return the data received.
141 return bytes(data_received)
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