display-test/pkg/mt12232a/mt12232a.go

package mt12232a

import (
	"fmt"
	"io"
	"log"
	"time"

	"gitea.unprism.ru/yotia/display-test/pkg/parallel8bit"
	"github.com/stianeikeland/go-rpio/v4"
)

type mt12232a struct {
	logger *log.Logger

	dev parallel8bit.Device

	pinCS  rpio.Pin
	pinRES rpio.Pin
}

type Device interface {
	PowerOn() error
	SetPixel(x, y byte, c bool) error

	WriteCodeL(c byte) error
	WriteCodeR(c byte) error
	WriteDataL(b byte) error
	WriteDataR(b byte) error

	ReadDataL() (byte, error)
	ReadDataR() (byte, error)
	ReadStatus(cs rpio.State) byte

	io.Closer
}

func New(logger *log.Logger) (Device, error) {
	rpio.Open()

	d := mt12232a{
		logger: logger,

		dev: parallel8bit.New(logger, parallel8bit.DevicePins{
			PinA0: rpio.Pin(18),
			PinRW: rpio.Pin(17),
			PinE:  rpio.Pin(27),

			PinDB0: rpio.Pin(22),
			PinDB1: rpio.Pin(10),
			PinDB2: rpio.Pin(9), // From 21
			PinDB3: rpio.Pin(11),
			PinDB4: rpio.Pin(12),
			PinDB5: rpio.Pin(16), // From 32
			PinDB6: rpio.Pin(20), // From 31
			PinDB7: rpio.Pin(13), // From 33

		}),

		pinCS:  rpio.Pin(19),
		pinRES: rpio.Pin(21),
	}
	d.pinCS.Output()
	d.pinRES.Output()
	d.dev.Reset()

	return &d, nil
}

func (d *mt12232a) Close() error {
	return rpio.Close()
}

func (d *mt12232a) SetPixel(x, y byte, c bool) error {
	// var c8 byte
	// var mask byte

	// Check bounds
	if x > 127 || y > 63 {
		return fmt.Errorf("positions out of bounds")
	}

	if x < 64 { // Left crystal
		d.WriteCodeL(0xB8 | (y >> 3)) // Set page
		d.WriteCodeL(0x40 | x)        // Set addr
		// c8=ReadDataL(); // ?? ok
		// c8=ReadDataL(); // Read byte
		// m8=1<<(y&0x07);//Вычислить маску нужного бита в байте
		// if (c==1)	//Зажигать точку?
		// 	c8|=m8//Установить нужный бит в байте
		// else		//Или гасить точку?
		// 	c8&=~m8;//Сбросить нужный бит в байте
		// WriteCodeL(0x40|x);//Снова установить адрес нужного байта
		d.WriteDataL(0x34) // Write byte
	}
	return nil
}

func (d *mt12232a) PowerOn() error {
	d.logger.Println(d.ReadStatus(0)) // Should be 0
	d.logger.Println("Reset")
	d.pinRES.Low()
	time.Sleep(time.Microsecond)
	d.logger.Println(d.ReadStatus(0)) // Should be 48 (power off and reset)
	d.pinRES.High()
	time.Sleep(10 * time.Microsecond)
	d.logger.Println(d.ReadStatus(0)) // Should be 32 (power off)

	// Module is reset and should be turned off
	if d.ReadStatus(0) == 0 || d.ReadStatus(1) == 0 {
		return fmt.Errorf("no response from display(or it is possible that it is turned on but...)")
	}

	d.logger.Println("Power on")
	d.WriteCodeL(0xE2) // Reset
	d.WriteCodeR(0xE2) // Reset
	d.WriteCodeL(0xEE) // ReadModifyWrite off
	d.WriteCodeR(0xEE) // ReadModifyWrite off
	d.WriteCodeL(0xA4) // Turn on common mode
	d.WriteCodeR(0xA4) // Turn on common mode
	d.WriteCodeL(0xA9) // Multiplex 1/32
	d.WriteCodeR(0xA9) // Multiplex 1/32
	d.WriteCodeL(0xC0) // Top line to 0
	d.WriteCodeR(0xC0) // Top line to 0
	d.WriteCodeL(0xA1) // Invert scan RAM
	d.WriteCodeR(0xA0) // NonInvert scan RAM

	d.logger.Println("Display on")
	d.WriteCodeL(0xAF) // Display on
	d.WriteCodeR(0xAF) // Display on

	// Check that crystals are turned on
	if (d.ReadStatus(0) & (1 << 5)) != 0 {
		return fmt.Errorf("Left cristal is still off")
	}
	if (d.ReadStatus(1) & (1 << 5)) != 0 {
		return fmt.Errorf("Right cristal is still off")
	}

	return nil
}

// Write codes

func (d *mt12232a) WriteCodeL(c byte) error {
	return d.writeByte(c, 0, 0)
}

func (d *mt12232a) WriteCodeR(c byte) error {
	return d.writeByte(c, 0, 1)
}

// Write data as byte

func (d *mt12232a) WriteDataL(b byte) error {
	return d.writeByte(b, 1, 0)
}

func (d *mt12232a) WriteDataR(b byte) error {
	return d.writeByte(b, 1, 1)
}

// Read data

func (d *mt12232a) ReadDataL() (byte, error) {
	return d.readByte(1, 0)
}

func (d *mt12232a) ReadDataR() (byte, error) {
	return d.readByte(1, 1)
}

// Low level functions

func (d *mt12232a) writeByte(b byte, cd, cs rpio.State) error {
	// d.logger.Println("Write byte", b, cd, l, r)
	if err := d.waitReady(cs); err != nil {
		return fmt.Errorf("wait ready: %w", err)
	}
	d.pinCS.Write(cs) // Select cristals

	d.dev.WriteByte(b, cd)
	return nil
}

func (d *mt12232a) readByte(cd, cs rpio.State) (byte, error) {
	// Setup
	if err := d.waitReady(cs); err != nil {
		return 0, fmt.Errorf("wait ready: %w", err)
	}
	d.pinCS.Write(cs) // Select cristals

	return d.dev.ReadByte(cd), nil
}

// Wait, checking status byte
func (d *mt12232a) waitReady(cs rpio.State) error {
	d.pinCS.Write(cs) // Select cristals
	return d.dev.WaitReady()
}

func (d *mt12232a) ReadStatus(cs rpio.State) byte {
	d.pinCS.Write(cs) // Select cristals
	return d.dev.ReadByte(1)
}
Add: mt12232a lib 2024-09-02 10:39:06 +00:00			`package mt12232a`

			`import (`
			`"fmt"`
			`"io"`
			`"log"`
			`"time"`

			`"gitea.unprism.ru/yotia/display-test/pkg/parallel8bit"`
			`"github.com/stianeikeland/go-rpio/v4"`
			`)`

			`type mt12232a struct {`
			`logger *log.Logger`

			`dev parallel8bit.Device`

			`pinCS rpio.Pin`
			`pinRES rpio.Pin`
			`}`

			`type Device interface {`
			`PowerOn() error`
			`SetPixel(x, y byte, c bool) error`

			`WriteCodeL(c byte) error`
			`WriteCodeR(c byte) error`
			`WriteDataL(b byte) error`
			`WriteDataR(b byte) error`

			`ReadDataL() (byte, error)`
			`ReadDataR() (byte, error)`
			`ReadStatus(cs rpio.State) byte`

			`io.Closer`
			`}`

			`func New(logger *log.Logger) (Device, error) {`
			`rpio.Open()`

			`d := mt12232a{`
			`logger: logger,`

			`dev: parallel8bit.New(logger, parallel8bit.DevicePins{`
			`PinA0: rpio.Pin(18),`
			`PinRW: rpio.Pin(17),`
			`PinE: rpio.Pin(27),`

			`PinDB0: rpio.Pin(22),`
			`PinDB1: rpio.Pin(10),`
			`PinDB2: rpio.Pin(9), // From 21`
			`PinDB3: rpio.Pin(11),`
			`PinDB4: rpio.Pin(12),`
			`PinDB5: rpio.Pin(16), // From 32`
			`PinDB6: rpio.Pin(20), // From 31`
			`PinDB7: rpio.Pin(13), // From 33`

			`}),`

			`pinCS: rpio.Pin(19),`
			`pinRES: rpio.Pin(21),`
			`}`
			`d.pinCS.Output()`
			`d.pinRES.Output()`
			`d.dev.Reset()`

			`return &d, nil`
			`}`

			`func (d *mt12232a) Close() error {`
			`return rpio.Close()`
			`}`

			`func (d *mt12232a) SetPixel(x, y byte, c bool) error {`
			`// var c8 byte`
			`// var mask byte`

			`// Check bounds`
			`if x > 127 \|\| y > 63 {`
			`return fmt.Errorf("positions out of bounds")`
			`}`

			`if x < 64 { // Left crystal`
			`d.WriteCodeL(0xB8 \| (y >> 3)) // Set page`
			`d.WriteCodeL(0x40 \| x) // Set addr`
			`// c8=ReadDataL(); // ?? ok`
			`// c8=ReadDataL(); // Read byte`
			`// m8=1<<(y&0x07);//Вычислить маску нужного бита в байте`
			`// if (c==1) //Зажигать точку?`
			`// c8\|=m8//Установить нужный бит в байте`
			`// else //Или гасить точку?`
			`// c8&=~m8;//Сбросить нужный бит в байте`
			`// WriteCodeL(0x40\|x);//Снова установить адрес нужного байта`
			`d.WriteDataL(0x34) // Write byte`
			`}`
			`return nil`
			`}`

			`func (d *mt12232a) PowerOn() error {`
			`d.logger.Println(d.ReadStatus(0)) // Should be 0`
			`d.logger.Println("Reset")`
			`d.pinRES.Low()`
			`time.Sleep(time.Microsecond)`
			`d.logger.Println(d.ReadStatus(0)) // Should be 48 (power off and reset)`
			`d.pinRES.High()`
			`time.Sleep(10 * time.Microsecond)`
			`d.logger.Println(d.ReadStatus(0)) // Should be 32 (power off)`

			`// Module is reset and should be turned off`
			`if d.ReadStatus(0) == 0 \|\| d.ReadStatus(1) == 0 {`
			`return fmt.Errorf("no response from display(or it is possible that it is turned on but...)")`
			`}`

			`d.logger.Println("Power on")`
			`d.WriteCodeL(0xE2) // Reset`
			`d.WriteCodeR(0xE2) // Reset`
			`d.WriteCodeL(0xEE) // ReadModifyWrite off`
			`d.WriteCodeR(0xEE) // ReadModifyWrite off`
			`d.WriteCodeL(0xA4) // Turn on common mode`
			`d.WriteCodeR(0xA4) // Turn on common mode`
			`d.WriteCodeL(0xA9) // Multiplex 1/32`
			`d.WriteCodeR(0xA9) // Multiplex 1/32`
			`d.WriteCodeL(0xC0) // Top line to 0`
			`d.WriteCodeR(0xC0) // Top line to 0`
			`d.WriteCodeL(0xA1) // Invert scan RAM`
			`d.WriteCodeR(0xA0) // NonInvert scan RAM`

			`d.logger.Println("Display on")`
			`d.WriteCodeL(0xAF) // Display on`
			`d.WriteCodeR(0xAF) // Display on`

			`// Check that crystals are turned on`
			`if (d.ReadStatus(0) & (1 << 5)) != 0 {`
			`return fmt.Errorf("Left cristal is still off")`
			`}`
			`if (d.ReadStatus(1) & (1 << 5)) != 0 {`
			`return fmt.Errorf("Right cristal is still off")`
			`}`

			`return nil`
			`}`

			`// Write codes`

			`func (d *mt12232a) WriteCodeL(c byte) error {`
			`return d.writeByte(c, 0, 0)`
			`}`

			`func (d *mt12232a) WriteCodeR(c byte) error {`
			`return d.writeByte(c, 0, 1)`
			`}`

			`// Write data as byte`

			`func (d *mt12232a) WriteDataL(b byte) error {`
			`return d.writeByte(b, 1, 0)`
			`}`

			`func (d *mt12232a) WriteDataR(b byte) error {`
			`return d.writeByte(b, 1, 1)`
			`}`

			`// Read data`

			`func (d *mt12232a) ReadDataL() (byte, error) {`
			`return d.readByte(1, 0)`
			`}`

			`func (d *mt12232a) ReadDataR() (byte, error) {`
			`return d.readByte(1, 1)`
			`}`

			`// Low level functions`

			`func (d *mt12232a) writeByte(b byte, cd, cs rpio.State) error {`
			`// d.logger.Println("Write byte", b, cd, l, r)`
			`if err := d.waitReady(cs); err != nil {`
			`return fmt.Errorf("wait ready: %w", err)`
			`}`
			`d.pinCS.Write(cs) // Select cristals`

			`d.dev.WriteByte(b, cd)`
			`return nil`
			`}`

			`func (d *mt12232a) readByte(cd, cs rpio.State) (byte, error) {`
			`// Setup`
			`if err := d.waitReady(cs); err != nil {`
			`return 0, fmt.Errorf("wait ready: %w", err)`
			`}`
			`d.pinCS.Write(cs) // Select cristals`

			`return d.dev.ReadByte(cd), nil`
			`}`

			`// Wait, checking status byte`
			`func (d *mt12232a) waitReady(cs rpio.State) error {`
			`d.pinCS.Write(cs) // Select cristals`
			`return d.dev.WaitReady()`
			`}`

			`func (d *mt12232a) ReadStatus(cs rpio.State) byte {`
			`d.pinCS.Write(cs) // Select cristals`
			`return d.dev.ReadByte(1)`
			`}`