CHIP_IO/README.rst

CHIP_IO
============================
A CHIP GPIO library

Manual::

    sudo ntpdate pool.ntp.org
    sudo apt-get update
    sudo apt-get install git build-essential python-dev python-pip -y
    git clone git://github.com/xtacocorex/CHIP_IO.git
    cd CHIP_IO
    sudo python setup.py install
    cd ..
    sudo rm -rf CHIP_IO

**Usage**

Using the library is very similar to the excellent RPi.GPIO library used on the Raspberry Pi. Below are some examples.

All scripts that require GPIO and PWM (HW and/or SW) access need to be run with super user permissions!

**Allowable Pin Names for the Library**

The following "table" is the allowable pin names that are able to be used by the library.

  +-----------+-------------+--------+
  |   Name    |  Alt Name   |  Key   |
  +-----------+-------------+--------+
  | TWI1-SDA  | KPD-I2C-SDA | U13_9  |
  +-----------+-------------+--------+
  | TWI1-SCK  | KPD-I2C-SCL | U13_11 |
  +-----------+-------------+--------+
  | LCD-D2    | LCD-D2      | U13_17 |
  +-----------+-------------+--------+
  | PWM0      | PWM0        | U13_18 |
  +-----------+-------------+--------+
  | LCD-D4    | LCD-D4      | U13_19 |
  +-----------+-------------+--------+
  | LCD-D3    | LCD-D3      | U13_20 |
  +-----------+-------------+--------+
  | LCD-D6    | LCD-D6      | U13_21 |
  +-----------+-------------+--------+
  | LCD-D5    | LCD-D5      | U13_22 |
  +-----------+-------------+--------+
  | LCD-D10   | LCD-D10     | U13_23 |
  +-----------+-------------+--------+
  | LCD-D7    | LCD-D7      | U13_24 |
  +-----------+-------------+--------+
  | LCD-D12   | LCD-D12     | U13_25 |
  +-----------+-------------+--------+
  | LCD-D11   | LCD-D11     | U13_26 |
  +-----------+-------------+--------+
  | LCD-D14   | LCD-D14     | U13_27 |
  +-----------+-------------+--------+
  | LCD-D13   | LCD-D13     | U13_28 |
  +-----------+-------------+--------+
  | LCD-D18   | LCD-D18     | U13_29 |
  +-----------+-------------+--------+
  | LCD-D15   | LCD-D15     | U13_30 |
  +-----------+-------------+--------+
  | LCD-D20   | LCD-D20     | U13_31 |
  +-----------+-------------+--------+
  | LCD-D19   | LCD-D19     | U13_32 |
  +-----------+-------------+--------+
  | LCD-D22   | LCD-D22     | U13_33 |
  +-----------+-------------+--------+
  | LCD-D21   | LCD-D21     | U13_34 |
  +-----------+-------------+--------+
  | LCD-CLK   | LCD-CLK     | U13_35 |
  +-----------+-------------+--------+
  | LCD-D23   | LCD-D23     | U13_36 |
  +-----------+-------------+--------+
  | LCD-VSYNC | LCD-VSYNC   | U13_37 |
  +-----------+-------------+--------+
  | LCD-HSYNC | LCD-HSYNC   | U13_38 |
  +-----------+-------------+--------+
  | LCD-DE    | LCD-DE      | U13_40 |
  +-----------+-------------+--------+
  | UART1-TX  | UART-TX     | U14_3  |
  +-----------+-------------+--------+
  | UART1-RX  | UART-RX     | U14_5  |
  +-----------+-------------+--------+
  | LRADC     | ADC         | U14_11 |
  +-----------+-------------+--------+
  | XIO-P0    | XIO-P0      | U14_13 |
  +-----------+-------------+--------+
  | XIO-P1    | XIO-P1      | U14_14 |
  +-----------+-------------+--------+
  | XIO-P2    | GPIO1       | U14_15 |
  +-----------+-------------+--------+
  | XIO-P3    | GPIO2       | U14_16 |
  +-----------+-------------+--------+
  | XIO-P4    | GPIO3       | U14_17 |
  +-----------+-------------+--------+
  | XIO-P5    | GPIO4       | U14_18 |
  +-----------+-------------+--------+
  | XIO-P6    | GPIO5       | U14_19 |
  +-----------+-------------+--------+
  | XIO-P7    | GPIO6       | U14_20 |
  +-----------+-------------+--------+
  | AP-EINT1  | KPD-INT     | U14_23 |
  +-----------+-------------+--------+
  | AP-EINT3  | AP-INT3     | U14_24 |
  +-----------+-------------+--------+
  | TWI2-SDA  | I2C-SDA     | U14_25 |
  +-----------+-------------+--------+
  | TWI2-SCK  | I2C-SCL     | U14_26 |
  +-----------+-------------+--------+
  | CSIPCK    | SPI-SEL     | U14_27 |
  +-----------+-------------+--------+
  | CSICK     | SPI-CLK     | U14_28 |
  +-----------+-------------+--------+
  | CSIHSYNC  | SPI-MOSI    | U14_29 |
  +-----------+-------------+--------+
  | CSIVSYNC  | SPI-MISO    | U14_30 |
  +-----------+-------------+--------+
  | CSID0     | CSID0       | U14_31 |
  +-----------+-------------+--------+
  | CSID1     | CSID1       | U14_32 |
  +-----------+-------------+--------+
  | CSID2     | CSID2       | U14_33 |
  +-----------+-------------+--------+
  | CSID3     | CSID3       | U14_34 |
  +-----------+-------------+--------+
  | CSID4     | CSID4       | U14_35 |
  +-----------+-------------+--------+
  | CSID5     | CSID5       | U14_36 |
  +-----------+-------------+--------+
  | CSID6     | CSID6       | U14_37 |
  +-----------+-------------+--------+
  | CSID7     | CSID7       | U14_38 |
  +-----------+-------------+--------+

**GPIO Setup**

Import the library, and setup as GPIO.OUT or GPIO.IN::

    import CHIP_IO.GPIO as GPIO
    GPIO.setup("CSID0", GPIO.OUT)

You can also refer to the pin number::

    GPIO.setup("U14_31", GPIO.OUT)

You can also refer to the bin based upon its alternate name::

    GPIO.setup("GPIO1", GPIO.IN)

**GPIO Output**

Setup the pin for output, and write GPIO.HIGH or GPIO.LOW. Or you can use 1 or 0.::

    import CHIP_IO.GPIO as GPIO
    GPIO.setup("CSID0", GPIO.OUT)
    GPIO.output("CSID0", GPIO.HIGH)

**GPIO Input**

Inputs work similarly to outputs.::

    import CHIP_IO.GPIO as GPIO
    GPIO.setup("CSID0", GPIO.IN)

Polling inputs::

    if GPIO.input("CSID0"):
      print("HIGH")
    else:
      print("LOW")

Waiting for an edge (GPIO.RISING, GPIO.FALLING, or GPIO.BOTH::

This only works for the AP-EINT1, AP-EINT3, and XPO Pins on the CHIP

    GPIO.wait_for_edge(channel, GPIO.RISING)

Detecting events::

    GPIO.setup("XIO-P0", GPIO.IN)
    GPIO.add_event_detect("XIO-P0", GPIO.FALLING)
    #your amazing code here
    #detect wherever:
    if GPIO.event_detected("XIO-P0"):
      print "event detected!"

**GPIO Cleanup**

To clean up the GPIO when done, do the following::

    GPIO.cleanup()

**PWM**::

Hardware PWM requires a DTB Overlay loaded on the CHIP to allow the kernel to know there is a PWM device available to use.

    import CHIP_IO.PWM as PWM
    #PWM.start(channel, duty, freq=2000, polarity=0)
    #duty values are valid 0 (off) to 100 (on)
    PWM.start("PWM0", 50)
    PWM.set_duty_cycle("PWM0", 25.5)
    PWM.set_frequency("PWM0", 10)

    PWM.stop("PWM0")
    PWM.cleanup()

    #set polarity to 1 on start:
    PWM.start("PWM0", 50, 2000, 1)

**SOFTPWM**::

    import CHIP_IO.SOFTPWM as PWM
    #PWM.start(channel, duty, freq=2000, polarity=0)
    #duty values are valid 0 (off) to 100 (on)
    #you can choose any pin
    PWM.start("XIO-P7", 50)
    PWM.set_duty_cycle("XIO-P7", 25.5)
    PWM.set_frequency("XIO-P7", 10)

    PWM.stop("XIO-P7")
    PWM.cleanup()

    #set polarity to 1 on start:
    PWM.start("XIO-P7", 50, 2000, 1)

Use SOFTPWM at low speeds (hundreds of Hz) for the best results. Do not use for anything that needs high precision or reliability.

**ADC**::

    Not Implemented yet

**SPI**::

SPI requires a DTB Overlay to access.  CHIP_IO does not contain any SPI specific code as the Python spidev module works when it can see the SPI bus.

**Running tests**

Install py.test to run the tests. You'll also need the python compiler package for py.test.::

    sudo apt-get install python-pytest

Execute the following in the root of the project::

    sudo py.test

**Credits**

The CHIP IO Python library was originally forked from the Adafruit Beaglebone IO Python Library.
The BeagleBone IO Python library was originally forked from the excellent MIT Licensed [RPi.GPIO](https://code.google.com/p/raspberry-gpio-python) library written by Ben Croston.

**License**

CHIP IO port by Robert Wolterman, released under the MIT License.
Beaglebone IO Library Written by Justin Cooper, Adafruit Industries. BeagleBone IO Python library is released under the MIT License.