mirror of
https://github.com/kidoman/embd
synced 2024-11-10 19:48:53 +01:00
649 lines
19 KiB
Go
649 lines
19 KiB
Go
/*
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Package hd44780 allows controlling an HD44780-compatible character LCD
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controller. Currently the library is write-only and does not support
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reading from the display controller.
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Resources
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This library is based three other HD44780 libraries:
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Adafruit https://github.com/adafruit/Adafruit-Raspberry-Pi-Python-Code/blob/master/Adafruit_CharLCD/Adafruit_CharLCD.py
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hwio https://github.com/mrmorphic/hwio/blob/master/devices/hd44780/hd44780_i2c.go
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LiquidCrystal https://github.com/arduino/Arduino/blob/master/libraries/LiquidCrystal/LiquidCrystal.cpp
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*/
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package hd44780
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import (
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"time"
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"github.com/golang/glog"
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"github.com/kidoman/embd"
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)
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type entryMode byte
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type displayMode byte
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type functionMode byte
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// RowAddress defines the cursor (DDRAM) address of the first column of each row, up to 4 rows.
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// You must use the RowAddress value that matches the number of columns on your character display
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// for the SetCursor function to work correctly.
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type RowAddress [4]byte
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var (
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// RowAddress16Col are row addresses for a 16-column display
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RowAddress16Col RowAddress = [4]byte{0x00, 0x40, 0x10, 0x50}
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// RowAddress20Col are row addresses for a 20-column display
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RowAddress20Col RowAddress = [4]byte{0x00, 0x40, 0x14, 0x54}
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)
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// BacklightPolarity is used to set the polarity of the backlight switch, either positive or negative.
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type BacklightPolarity bool
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const (
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// Negative indicates that the backlight is active-low and must have a logical low value to enable.
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Negative BacklightPolarity = false
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// Positive indicates that the backlight is active-high and must have a logical high value to enable.
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Positive BacklightPolarity = true
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writeDelay = 37 * time.Microsecond
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pulseDelay = 1 * time.Microsecond
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clearDelay = 1520 * time.Microsecond
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// Initialize display
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lcdInit byte = 0x33 // 00110011
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lcdInit4bit byte = 0x32 // 00110010
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// Commands
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lcdClearDisplay byte = 0x01 // 00000001
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lcdReturnHome byte = 0x02 // 00000010
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lcdCursorShift byte = 0x10 // 00010000
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lcdSetCGRamAddr byte = 0x40 // 01000000
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lcdSetDDRamAddr byte = 0x80 // 10000000
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// Cursor and display move flags
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lcdCursorMove byte = 0x00 // 00000000
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lcdDisplayMove byte = 0x08 // 00001000
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lcdMoveLeft byte = 0x00 // 00000000
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lcdMoveRight byte = 0x04 // 00000100
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// Entry mode flags
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lcdSetEntryMode entryMode = 0x04 // 00000100
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lcdEntryDecrement entryMode = 0x00 // 00000000
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lcdEntryIncrement entryMode = 0x02 // 00000010
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lcdEntryShiftOff entryMode = 0x00 // 00000000
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lcdEntryShiftOn entryMode = 0x01 // 00000001
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// Display mode flags
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lcdSetDisplayMode displayMode = 0x08 // 00001000
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lcdDisplayOff displayMode = 0x00 // 00000000
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lcdDisplayOn displayMode = 0x04 // 00000100
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lcdCursorOff displayMode = 0x00 // 00000000
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lcdCursorOn displayMode = 0x02 // 00000010
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lcdBlinkOff displayMode = 0x00 // 00000000
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lcdBlinkOn displayMode = 0x01 // 00000001
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// Function mode flags
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lcdSetFunctionMode functionMode = 0x20 // 00100000
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lcd4BitMode functionMode = 0x00 // 00000000
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lcd8BitMode functionMode = 0x10 // 00010000
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lcd1Line functionMode = 0x00 // 00000000
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lcd2Line functionMode = 0x08 // 00001000
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lcd5x8Dots functionMode = 0x00 // 00000000
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lcd5x10Dots functionMode = 0x04 // 00000100
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)
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// HD44780 represents an HD44780-compatible character LCD controller.
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type HD44780 struct {
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Connection
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eMode entryMode
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dMode displayMode
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fMode functionMode
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rowAddr RowAddress
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}
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// NewGPIO creates a new HD44780 connected by a 4-bit GPIO bus.
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func NewGPIO(
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rs, en, d4, d5, d6, d7, backlight interface{},
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blPolarity BacklightPolarity,
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rowAddr RowAddress,
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modes ...ModeSetter,
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) (*HD44780, error) {
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pinKeys := []interface{}{rs, en, d4, d5, d6, d7, backlight}
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pins := [7]embd.DigitalPin{}
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for idx, key := range pinKeys {
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if key == nil {
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continue
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}
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var digitalPin embd.DigitalPin
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if pin, ok := key.(embd.DigitalPin); ok {
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digitalPin = pin
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} else {
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var err error
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digitalPin, err = embd.NewDigitalPin(key)
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if err != nil {
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glog.V(1).Infof("hd44780: error creating digital pin %+v: %s", key, err)
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return nil, err
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}
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}
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pins[idx] = digitalPin
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}
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for _, pin := range pins {
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if pin == nil {
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continue
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}
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err := pin.SetDirection(embd.Out)
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if err != nil {
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glog.Errorf("hd44780: error setting pin %+v to out direction: %s", pin, err)
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return nil, err
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}
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}
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return New(
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NewGPIOConnection(
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pins[0],
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pins[1],
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pins[2],
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pins[3],
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pins[4],
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pins[5],
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pins[6],
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blPolarity),
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rowAddr,
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modes...,
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)
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}
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// NewI2C creates a new HD44780 connected by an I²C bus.
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func NewI2C(
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i2c embd.I2CBus,
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addr byte,
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pinMap I2CPinMap,
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rowAddr RowAddress,
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modes ...ModeSetter,
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) (*HD44780, error) {
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return New(NewI2CConnection(i2c, addr, pinMap), rowAddr, modes...)
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}
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// New creates a new HD44780 connected by a Connection bus.
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func New(bus Connection, rowAddr RowAddress, modes ...ModeSetter) (*HD44780, error) {
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controller := &HD44780{
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Connection: bus,
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eMode: 0x00,
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dMode: 0x00,
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fMode: 0x00,
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rowAddr: rowAddr,
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}
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err := controller.lcdInit()
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if err != nil {
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return nil, err
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}
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err = controller.SetMode(append(DefaultModes, modes...)...)
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if err != nil {
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return nil, err
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}
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return controller, nil
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}
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func (controller *HD44780) lcdInit() error {
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glog.V(2).Info("hd44780: initializing display")
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err := controller.WriteInstruction(lcdInit)
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if err != nil {
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return err
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}
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glog.V(2).Info("hd44780: initializing display in 4-bit mode")
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return controller.WriteInstruction(lcdInit4bit)
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}
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// DefaultModes are the default initialization modes for an HD44780.
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// ModeSetters passed in to a constructor will override these default values.
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var DefaultModes []ModeSetter = []ModeSetter{
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FourBitMode,
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OneLine,
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Dots5x8,
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EntryIncrement,
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EntryShiftOff,
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DisplayOn,
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CursorOff,
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BlinkOff,
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}
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// ModeSetter defines a function used for setting modes on an HD44780.
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// ModeSetters must be used with the SetMode function or in a constructor.
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type ModeSetter func(*HD44780)
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// EntryDecrement is a ModeSetter that sets the HD44780 to entry decrement mode.
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func EntryDecrement(hd *HD44780) { hd.eMode &= ^lcdEntryIncrement }
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// EntryIncrement is a ModeSetter that sets the HD44780 to entry increment mode.
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func EntryIncrement(hd *HD44780) { hd.eMode |= lcdEntryIncrement }
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// EntryShiftOff is a ModeSetter that sets the HD44780 to entry shift off mode.
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func EntryShiftOff(hd *HD44780) { hd.eMode &= ^lcdEntryShiftOn }
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// EntryShiftOn is a ModeSetter that sets the HD44780 to entry shift on mode.
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func EntryShiftOn(hd *HD44780) { hd.eMode |= lcdEntryShiftOn }
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// DisplayOff is a ModeSetter that sets the HD44780 to display off mode.
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func DisplayOff(hd *HD44780) { hd.dMode &= ^lcdDisplayOn }
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// DisplayOn is a ModeSetter that sets the HD44780 to display on mode.
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func DisplayOn(hd *HD44780) { hd.dMode |= lcdDisplayOn }
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// CursorOff is a ModeSetter that sets the HD44780 to cursor off mode.
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func CursorOff(hd *HD44780) { hd.dMode &= ^lcdCursorOn }
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// CursorOn is a ModeSetter that sets the HD44780 to cursor on mode.
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func CursorOn(hd *HD44780) { hd.dMode |= lcdCursorOn }
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// BlinkOff is a ModeSetter that sets the HD44780 to cursor blink off mode.
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func BlinkOff(hd *HD44780) { hd.dMode &= ^lcdBlinkOn }
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// BlinkOn is a ModeSetter that sets the HD44780 to cursor blink on mode.
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func BlinkOn(hd *HD44780) { hd.dMode |= lcdBlinkOn }
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// FourBitMode is a ModeSetter that sets the HD44780 to 4-bit bus mode.
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func FourBitMode(hd *HD44780) { hd.fMode &= ^lcd8BitMode }
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// EightBitMode is a ModeSetter that sets the HD44780 to 8-bit bus mode.
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func EightBitMode(hd *HD44780) { hd.fMode |= lcd8BitMode }
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// OneLine is a ModeSetter that sets the HD44780 to 1-line display mode.
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func OneLine(hd *HD44780) { hd.fMode &= ^lcd2Line }
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// TwoLine is a ModeSetter that sets the HD44780 to 2-line display mode.
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func TwoLine(hd *HD44780) { hd.fMode |= lcd2Line }
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// Dots5x8 is a ModeSetter that sets the HD44780 to 5x8-pixel character mode.
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func Dots5x8(hd *HD44780) { hd.fMode &= ^lcd5x10Dots }
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// Dots5x10 is a ModeSetter that sets the HD44780 to 5x10-pixel character mode.
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func Dots5x10(hd *HD44780) { hd.fMode |= lcd5x10Dots }
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// EntryIncrementEnabled returns true if entry increment mode is enabled.
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func (hd *HD44780) EntryIncrementEnabled() bool { return hd.eMode&lcdEntryIncrement > 0 }
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// EntryShiftEnabled returns true if entry shift mode is enabled.
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func (hd *HD44780) EntryShiftEnabled() bool { return hd.eMode&lcdEntryShiftOn > 0 }
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// DisplayEnabled returns true if the display is on.
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func (hd *HD44780) DisplayEnabled() bool { return hd.dMode&lcdDisplayOn > 0 }
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// CursorEnabled returns true if the cursor is on.
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func (hd *HD44780) CursorEnabled() bool { return hd.dMode&lcdCursorOn > 0 }
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// BlinkEnabled returns true if the cursor blink mode is enabled.
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func (hd *HD44780) BlinkEnabled() bool { return hd.dMode&lcdBlinkOn > 0 }
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// EightBitModeEnabled returns true if 8-bit bus mode is enabled and false if 4-bit
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// bus mode is enabled.
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func (hd *HD44780) EightBitModeEnabled() bool { return hd.fMode&lcd8BitMode > 0 }
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// TwoLineEnabled returns true if 2-line display mode is enabled and false if 1-line
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// display mode is enabled.
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func (hd *HD44780) TwoLineEnabled() bool { return hd.fMode&lcd2Line > 0 }
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// Dots5x10Enabled returns true if 5x10-pixel characters are enabled.
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func (hd *HD44780) Dots5x10Enabled() bool { return hd.fMode&lcd5x8Dots > 0 }
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// SetModes modifies the entry mode, display mode, and function mode with the
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// given mode setter functions.
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func (hd *HD44780) SetMode(modes ...ModeSetter) error {
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for _, m := range modes {
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m(hd)
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}
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functions := []func() error{
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func() error { return hd.setEntryMode() },
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func() error { return hd.setDisplayMode() },
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func() error { return hd.setFunctionMode() },
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}
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for _, f := range functions {
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err := f()
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if err != nil {
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return err
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}
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}
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return nil
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}
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func (hd *HD44780) setEntryMode() error {
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return hd.WriteInstruction(byte(lcdSetEntryMode | hd.eMode))
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}
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func (hd *HD44780) setDisplayMode() error {
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return hd.WriteInstruction(byte(lcdSetDisplayMode | hd.dMode))
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}
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func (hd *HD44780) setFunctionMode() error {
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return hd.WriteInstruction(byte(lcdSetFunctionMode | hd.fMode))
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}
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// DisplayOff sets the display mode to off.
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func (hd *HD44780) DisplayOff() error {
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DisplayOff(hd)
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return hd.setDisplayMode()
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}
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// DisplayOn sets the display mode to on.
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func (hd *HD44780) DisplayOn() error {
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DisplayOn(hd)
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return hd.setDisplayMode()
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}
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// CursorOff turns the cursor off.
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func (hd *HD44780) CursorOff() error {
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CursorOff(hd)
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return hd.setDisplayMode()
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}
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// CursorOn turns the cursor on.
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func (hd *HD44780) CursorOn() error {
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CursorOn(hd)
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return hd.setDisplayMode()
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}
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// BlinkOff sets cursor blink mode off.
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func (hd *HD44780) BlinkOff() error {
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BlinkOff(hd)
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return hd.setDisplayMode()
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}
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// BlinkOn sets cursor blink mode on.
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func (hd *HD44780) BlinkOn() error {
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BlinkOn(hd)
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return hd.setDisplayMode()
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}
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// ShiftLeft shifts the cursor and all characters to the left.
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func (hd *HD44780) ShiftLeft() error {
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return hd.WriteInstruction(lcdCursorShift | lcdDisplayMove | lcdMoveLeft)
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}
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// ShiftRight shifts the cursor and all characters to the right.
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func (hd *HD44780) ShiftRight() error {
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return hd.WriteInstruction(lcdCursorShift | lcdDisplayMove | lcdMoveRight)
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}
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// Home moves the cursor and all characters to the home position.
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func (hd *HD44780) Home() error {
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err := hd.WriteInstruction(lcdReturnHome)
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time.Sleep(clearDelay)
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return err
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}
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// Clear clears the display and mode settings sets the cursor to the home position.
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func (hd *HD44780) Clear() error {
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err := hd.WriteInstruction(lcdClearDisplay)
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if err != nil {
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return err
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}
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time.Sleep(clearDelay)
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// have to set mode here because clear also clears some mode settings
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return hd.SetMode()
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}
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// SetCursor sets the input cursor to the given position.
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func (hd *HD44780) SetCursor(col, row int) error {
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return hd.SetDDRamAddr(byte(col) + hd.lcdRowOffset(row))
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}
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func (hd *HD44780) lcdRowOffset(row int) byte {
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// Offset for up to 4 rows
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if row > 3 {
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row = 3
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}
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return hd.rowAddr[row]
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}
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// SetDDRamAddr sets the input cursor to the given address.
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func (hd *HD44780) SetDDRamAddr(value byte) error {
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return hd.WriteInstruction(lcdSetDDRamAddr | value)
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}
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// WriteInstruction writes a byte to the bus with register select in data mode.
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func (hd *HD44780) WriteChar(value byte) error {
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return hd.Write(true, value)
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}
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// WriteInstruction writes a byte to the bus with register select in command mode.
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func (hd *HD44780) WriteInstruction(value byte) error {
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return hd.Write(false, value)
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}
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// Close closes the underlying Connection.
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func (hd *HD44780) Close() error {
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return hd.Connection.Close()
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}
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// Connection abstracts the different methods of communicating with an HD44780.
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type Connection interface {
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// Write writes a byte to the HD44780 controller with the register select
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// flag either on or off.
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Write(rs bool, data byte) error
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// BacklightOff turns the optional backlight off.
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BacklightOff() error
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// BacklightOn turns the optional backlight on.
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BacklightOn() error
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// Close closes all open resources.
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Close() error
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}
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// GPIOConnection implements Connection using a 4-bit GPIO bus.
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type GPIOConnection struct {
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RS, EN embd.DigitalPin
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D4, D5, D6, D7 embd.DigitalPin
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Backlight embd.DigitalPin
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BLPolarity BacklightPolarity
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}
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// NewGPIOConnection returns a new Connection based on a 4-bit GPIO bus.
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func NewGPIOConnection(
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rs, en, d4, d5, d6, d7, backlight embd.DigitalPin,
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blPolarity BacklightPolarity,
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) *GPIOConnection {
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return &GPIOConnection{
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RS: rs,
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EN: en,
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D4: d4,
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D5: d5,
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D6: d6,
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D7: d7,
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Backlight: backlight,
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BLPolarity: blPolarity,
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}
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}
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// BacklightOff turns the optional backlight off.
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func (conn *GPIOConnection) BacklightOff() error {
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if conn.Backlight != nil {
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return conn.Backlight.Write(conn.backlightSignal(false))
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}
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return nil
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}
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// BacklightOn turns the optional backlight on.
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func (conn *GPIOConnection) BacklightOn() error {
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if conn.Backlight != nil {
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return conn.Backlight.Write(conn.backlightSignal(true))
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}
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return nil
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}
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func (conn *GPIOConnection) backlightSignal(state bool) int {
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if state == bool(conn.BLPolarity) {
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return embd.High
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} else {
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return embd.Low
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}
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}
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// Write writes a register select flag and byte to the 4-bit GPIO connection.
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func (conn *GPIOConnection) Write(rs bool, data byte) error {
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glog.V(3).Infof("hd44780: writing to GPIO RS: %t, data: %#x", rs, data)
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rsInt := embd.Low
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if rs {
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rsInt = embd.High
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}
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functions := []func() error{
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func() error { return conn.RS.Write(rsInt) },
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func() error { return conn.D4.Write(int((data >> 4) & 0x01)) },
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func() error { return conn.D5.Write(int((data >> 5) & 0x01)) },
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func() error { return conn.D6.Write(int((data >> 6) & 0x01)) },
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func() error { return conn.D7.Write(int((data >> 7) & 0x01)) },
|
|
func() error { return conn.pulseEnable() },
|
|
func() error { return conn.D4.Write(int(data & 0x01)) },
|
|
func() error { return conn.D5.Write(int((data >> 1) & 0x01)) },
|
|
func() error { return conn.D6.Write(int((data >> 2) & 0x01)) },
|
|
func() error { return conn.D7.Write(int((data >> 3) & 0x01)) },
|
|
func() error { return conn.pulseEnable() },
|
|
}
|
|
for _, f := range functions {
|
|
err := f()
|
|
if err != nil {
|
|
return err
|
|
}
|
|
}
|
|
time.Sleep(writeDelay)
|
|
return nil
|
|
}
|
|
|
|
func (conn *GPIOConnection) pulseEnable() error {
|
|
values := []int{embd.Low, embd.High, embd.Low}
|
|
for _, v := range values {
|
|
time.Sleep(pulseDelay)
|
|
err := conn.EN.Write(v)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// Close closes all open DigitalPins.
|
|
func (conn *GPIOConnection) Close() error {
|
|
glog.V(2).Info("hd44780: closing all GPIO pins")
|
|
pins := []embd.DigitalPin{
|
|
conn.RS,
|
|
conn.EN,
|
|
conn.D4,
|
|
conn.D5,
|
|
conn.D6,
|
|
conn.D7,
|
|
conn.Backlight,
|
|
}
|
|
|
|
for _, pin := range pins {
|
|
err := pin.Close()
|
|
if err != nil {
|
|
glog.Errorf("hd44780: error closing pin %+v: %s", pin, err)
|
|
return err
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// I2CConnection implements Connection using an I²C bus.
|
|
type I2CConnection struct {
|
|
I2C embd.I2CBus
|
|
Addr byte
|
|
PinMap I2CPinMap
|
|
Backlight bool
|
|
}
|
|
|
|
// I2CPinMap represents a mapping between the pins on an I²C port expander and
|
|
// the pins on the HD44780 controller.
|
|
type I2CPinMap struct {
|
|
RS, RW, EN byte
|
|
D4, D5, D6, D7 byte
|
|
Backlight byte
|
|
BLPolarity BacklightPolarity
|
|
}
|
|
|
|
var (
|
|
// MJKDZPinMap is the standard pin mapping for an MJKDZ-based I²C backpack.
|
|
MJKDZPinMap I2CPinMap = I2CPinMap{
|
|
RS: 6, RW: 5, EN: 4,
|
|
D4: 0, D5: 1, D6: 2, D7: 3,
|
|
Backlight: 7,
|
|
BLPolarity: Negative,
|
|
}
|
|
// PCF8574PinMap is the standard pin mapping for a PCF8574-based I²C backpack.
|
|
PCF8574PinMap I2CPinMap = I2CPinMap{
|
|
RS: 0, RW: 1, EN: 2,
|
|
D4: 4, D5: 5, D6: 6, D7: 7,
|
|
Backlight: 3,
|
|
BLPolarity: Positive,
|
|
}
|
|
)
|
|
|
|
// NewI2CConnection returns a new Connection based on an I²C bus.
|
|
func NewI2CConnection(i2c embd.I2CBus, addr byte, pinMap I2CPinMap) *I2CConnection {
|
|
return &I2CConnection{
|
|
I2C: i2c,
|
|
Addr: addr,
|
|
PinMap: pinMap,
|
|
}
|
|
}
|
|
|
|
// BacklightOff turns the optional backlight off.
|
|
func (conn *I2CConnection) BacklightOff() error {
|
|
conn.Backlight = false
|
|
return conn.Write(false, 0x00)
|
|
}
|
|
|
|
// BacklightOn turns the optional backlight on.
|
|
func (conn *I2CConnection) BacklightOn() error {
|
|
conn.Backlight = true
|
|
return conn.Write(false, 0x00)
|
|
}
|
|
|
|
// Write writes a register select flag and byte to the I²C connection.
|
|
func (conn *I2CConnection) Write(rs bool, data byte) error {
|
|
var instructionHigh byte = 0x00
|
|
instructionHigh |= ((data >> 4) & 0x01) << conn.PinMap.D4
|
|
instructionHigh |= ((data >> 5) & 0x01) << conn.PinMap.D5
|
|
instructionHigh |= ((data >> 6) & 0x01) << conn.PinMap.D6
|
|
instructionHigh |= ((data >> 7) & 0x01) << conn.PinMap.D7
|
|
|
|
var instructionLow byte = 0x00
|
|
instructionLow |= (data & 0x01) << conn.PinMap.D4
|
|
instructionLow |= ((data >> 1) & 0x01) << conn.PinMap.D5
|
|
instructionLow |= ((data >> 2) & 0x01) << conn.PinMap.D6
|
|
instructionLow |= ((data >> 3) & 0x01) << conn.PinMap.D7
|
|
|
|
instructions := []byte{instructionHigh, instructionLow}
|
|
for _, ins := range instructions {
|
|
if rs {
|
|
ins |= 0x01 << conn.PinMap.RS
|
|
}
|
|
if conn.Backlight == bool(conn.PinMap.BLPolarity) {
|
|
ins |= 0x01 << conn.PinMap.Backlight
|
|
}
|
|
glog.V(3).Infof("hd44780: writing to I2C: %#x", ins)
|
|
err := conn.pulseEnable(ins)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
}
|
|
time.Sleep(writeDelay)
|
|
return nil
|
|
}
|
|
|
|
func (conn *I2CConnection) pulseEnable(data byte) error {
|
|
bytes := []byte{data, data | (0x01 << conn.PinMap.EN), data}
|
|
for _, b := range bytes {
|
|
time.Sleep(pulseDelay)
|
|
err := conn.I2C.WriteByte(conn.Addr, b)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// Close closes the I²C connection.
|
|
func (conn *I2CConnection) Close() error {
|
|
glog.V(2).Info("hd44780: closing I2C bus")
|
|
return conn.I2C.Close()
|
|
}
|