Firmware/Marlin/ultralcd_st7565_u8glib_VIKI.h

269 lines
11 KiB
C
Raw Normal View History

/**
* Marlin 3D Printer Firmware
* Copyright (C) 2016, 2017 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (C) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifndef ULCDST7565_H
#define ULCDST7565_H
#include <U8glib.h>
#include "delay.h"
#define ST7565_CLK_PIN DOGLCD_SCK
#define ST7565_DAT_PIN DOGLCD_MOSI
#define ST7565_CS_PIN DOGLCD_CS
#define ST7565_A0_PIN DOGLCD_A0
#define LCD_PIXEL_WIDTH 128
#define LCD_PIXEL_HEIGHT 64
#define PAGE_HEIGHT 8
//set optimization so ARDUINO optimizes this file
#pragma GCC optimize (3)
// If you want you can define your own set of delays in Configuration.h
//#define ST7565_DELAY_1 DELAY_NS(0)
//#define ST7565_DELAY_2 DELAY_NS(0)
//#define ST7565_DELAY_3 DELAY_NS(0)
/*
#define ST7565_DELAY_1 u8g_10MicroDelay()
#define ST7565_DELAY_2 u8g_10MicroDelay()
#define ST7565_DELAY_3 u8g_10MicroDelay()
*/
#if F_CPU >= 20000000
#define CPU_ST7565_DELAY_1 DELAY_NS(0)
#define CPU_ST7565_DELAY_2 DELAY_NS(0)
#define CPU_ST7565_DELAY_3 DELAY_NS(63)
2017-10-31 21:21:44 +01:00
#elif MB(3DRAG) || MB(K8200) || MB(K8400)
#define CPU_ST7565_DELAY_1 DELAY_NS(0)
#define CPU_ST7565_DELAY_2 DELAY_NS(188)
#define CPU_ST7565_DELAY_3 DELAY_NS(0)
2017-10-31 21:21:44 +01:00
#elif MB(MINIRAMBO)
#define CPU_ST7565_DELAY_1 DELAY_NS(0)
#define CPU_ST7565_DELAY_2 DELAY_NS(250)
#define CPU_ST7565_DELAY_3 DELAY_NS(0)
2017-10-31 21:21:44 +01:00
#elif MB(RAMBO)
#define CPU_ST7565_DELAY_1 DELAY_NS(0)
#define CPU_ST7565_DELAY_2 DELAY_NS(0)
#define CPU_ST7565_DELAY_3 DELAY_NS(0)
#elif F_CPU == 16000000
#define CPU_ST7565_DELAY_1 DELAY_NS(0)
#define CPU_ST7565_DELAY_2 DELAY_NS(0)
#define CPU_ST7565_DELAY_3 DELAY_NS(63)
#else
#error "No valid condition for delays in 'ultralcd_st7565_u8glib_VIKI.h'"
#endif
#ifndef ST7565_DELAY_1
#define ST7565_DELAY_1 CPU_ST7565_DELAY_1
#endif
#ifndef ST7565_DELAY_2
#define ST7565_DELAY_2 CPU_ST7565_DELAY_2
#endif
#ifndef ST7565_DELAY_3
#define ST7565_DELAY_3 CPU_ST7565_DELAY_3
#endif
// On Viki2 the LCD and the SD card share a single SPI
#define HARDWARE_SPI ((DOGLCD_SCK == SCK_PIN) && (DOGLCD_MOSI == MOSI_PIN))
#if HARDWARE_SPI // using the hardware SPI
#define ST7565_WRITE_BYTE(a) { SPDR = a; while (!TEST(SPSR, SPIF)); U8G_DELAY(); }
2018-07-27 03:17:02 +02:00
#define ST7560_WriteSequence(count, pointer) { uint8_t *ptr = pointer; for (uint8_t i = 0; i < count; i++) {SPDR = *ptr++; while (!TEST(SPSR, SPIF));} U8G_DELAY(); }
#else // !HARDWARE_SPI
#define ST7565_SND_BIT \
WRITE(ST7565_CLK_PIN, LOW); ST7565_DELAY_1; \
WRITE(ST7565_DAT_PIN, val & 0x80); ST7565_DELAY_2; \
WRITE(ST7565_CLK_PIN, HIGH); ST7565_DELAY_3; \
WRITE(ST7565_CLK_PIN, LOW);\
val <<= 1
static void ST7565_SWSPI_SND_8BIT(uint8_t val) {
ST7565_SND_BIT; // 1
ST7565_SND_BIT; // 2
ST7565_SND_BIT; // 3
ST7565_SND_BIT; // 4
ST7565_SND_BIT; // 5
ST7565_SND_BIT; // 6
ST7565_SND_BIT; // 7
ST7565_SND_BIT; // 8
}
#define ST7565_WRITE_BYTE(a) { ST7565_SWSPI_SND_8BIT((uint8_t)a); U8G_DELAY(); }
2018-07-27 03:17:02 +02:00
#define ST7560_WriteSequence(count, pointer) { uint8_t *ptr = pointer; for (uint8_t i = 0; i < count; i++) { ST7565_SWSPI_SND_8BIT(*ptr++); } U8G_DELAY(); }
#endif // !HARDWARE_SPI
#if DOGM_SPI_DELAY_US > 0
#define U8G_DELAY() DELAY_US(DOGM_SPI_DELAY_US)
#else
#define U8G_DELAY() u8g_10MicroDelay()
#endif
2018-06-02 08:00:58 +02:00
#define ST7565_CS() do{ WRITE(ST7565_CS_PIN, HIGH); U8G_DELAY(); }while(0)
#define ST7565_NCS() WRITE(ST7565_CS_PIN, LOW)
#define ST7565_A0() do{ WRITE(ST7565_A0_PIN, HIGH); U8G_DELAY(); }while(0)
#define ST7565_NA0() WRITE(ST7565_A0_PIN, LOW)
#define ST7565_ADC_REVERSE(N) ST7565_WRITE_BYTE(0xA0 | ((N) & 0x1))
#define ST7565_BIAS_MODE(N) ST7565_WRITE_BYTE(0xA2 | ((N) & 0x1))
#define ST7565_ALL_PIX(N) ST7565_WRITE_BYTE(0xA4 | ((N) & 0x1))
#define ST7565_INVERTED(N) ST7565_WRITE_BYTE(0xA6 | ((N) & 0x1))
#define ST7565_ON(N) ST7565_WRITE_BYTE(0xAE | ((N) & 0x1))
#define ST7565_OUT_MODE(N) ST7565_WRITE_BYTE(0xC0 | ((N) & 0x1) << 3)
#define ST7565_POWER_CONTROL(N) ST7565_WRITE_BYTE(0x28 | (N))
#define ST7565_V0_RATIO(N) ST7565_WRITE_BYTE(0x10 | ((N) & 0x7)) // Specific to Displaytech 64128N? (ST7565 is 0x20 | N)
2018-06-02 08:00:58 +02:00
#define ST7565_CONTRAST(N) do{ ST7565_WRITE_BYTE(0x81); ST7565_WRITE_BYTE(N); }while(0)
2018-06-06 05:46:45 +02:00
#define ST7565_COLUMN_ADR(N) do{ ST7565_WRITE_BYTE(0x10 | (((N) >> 4) & 0xF)); ST7565_WRITE_BYTE((N) & 0xF); }while(0)
2018-06-02 08:00:58 +02:00
#define ST7565_PAGE_ADR(N) ST7565_WRITE_BYTE(0xB0 | (N))
#define ST7565_START_LINE(N) ST7565_WRITE_BYTE(0x40 | (N))
#define ST7565_SLEEP_MODE() ST7565_WRITE_BYTE(0xAC)
#define ST7565_NOOP() ST7565_WRITE_BYTE(0xE3)
uint8_t u8g_dev_st7565_64128n_2x_VIKI_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, void *arg) {
switch (msg) {
case U8G_DEV_MSG_INIT: {
OUT_WRITE(ST7565_CS_PIN, LOW);
OUT_WRITE(ST7565_DAT_PIN, LOW);
OUT_WRITE(ST7565_CLK_PIN, LOW);
#if HARDWARE_SPI
2018-06-02 08:00:58 +02:00
OUT_WRITE(SDSS, 1); // must be set to an output first or else will never go into master mode
SPCR = 0x50; // enable SPI in master mode at fast speed
SPSR = 1; // kick it up to 2x speed mode
#endif
OUT_WRITE(ST7565_A0_PIN, LOW);
2018-06-02 08:00:58 +02:00
ST7565_CS(); // chip select off
ST7565_NA0(); // instruction mode
ST7565_NCS(); // chip select
2018-06-02 08:00:58 +02:00
ST7565_BIAS_MODE(0); // 0xA2: LCD bias 1/9 (according to Displaytech 64128N datasheet)
ST7565_ADC_REVERSE(0); // Normal (not flipped) ADC Select (according to Displaytech 64128N datasheet)
2018-06-02 08:00:58 +02:00
ST7565_OUT_MODE(1); // common output mode: set scan direction normal operation/SHL Select; 0x0C0 --> SHL = 0; normal; 0x0C8 --> SHL = 1
ST7565_START_LINE(0); // Display start line for Displaytech 64128N
ST7565_POWER_CONTROL(0x4); // power control: turn on Booster
U8G_ESC_DLY(50); // delay 50 ms - hangs after a reset if used
ST7565_POWER_CONTROL(0x6); // power control: turn on Booster, Voltage Regulator
U8G_ESC_DLY(50); // delay 50 ms - hangs after a reset if used
2018-06-02 08:00:58 +02:00
ST7565_POWER_CONTROL(0x7); // power control: turn on Booster, Voltage Regulator, Voltage Follower
U8G_ESC_DLY(50); // delay 50 ms - hangs after a reset if used
2018-06-02 08:00:58 +02:00
ST7565_V0_RATIO(0); // Set V0 Voltage Resistor ratio. Setting for controlling brightness of Displaytech 64128N
2018-06-02 08:00:58 +02:00
ST7565_INVERTED(0); // display normal, bit val 0: LCD pixel off.
2018-06-02 08:00:58 +02:00
ST7565_CONTRAST(0x1E); // Contrast value. Setting for controlling contrast of Displaytech 64128N
2018-06-02 08:00:58 +02:00
ST7565_ON(1); // display on
2018-06-02 08:00:58 +02:00
U8G_ESC_DLY(100); // delay 100 ms
ST7565_ALL_PIX(1); // display all points; ST7565
U8G_ESC_DLY(100); // delay 100 ms
U8G_ESC_DLY(100); // delay 100 ms
ST7565_ALL_PIX(0); // normal display
ST7565_CS(); // chip select off
} // end of sequence
break;
case U8G_DEV_MSG_STOP: break;
case U8G_DEV_MSG_PAGE_NEXT: {
2018-06-02 08:00:58 +02:00
u8g_pb_t *pb = (u8g_pb_t*)(dev->dev_mem);
ST7565_CS(); // chip select off
ST7565_NA0(); // instruction mode
ST7565_NCS(); // chip select
ST7565_COLUMN_ADR(0x00); // high 4 bits to 0, low 4 bits to 0. Changed for DisplayTech 64128N
// end of sequence
ST7565_PAGE_ADR(2 * pb->p.page); // select current page (ST7565R)
ST7565_A0(); // data mode
ST7560_WriteSequence((uint8_t)pb->width, (uint8_t*)pb->buf);
ST7565_CS(); // chip select off
ST7565_NA0(); // instruction mode
ST7565_NCS(); // chip select
ST7565_COLUMN_ADR(0x00); // high 4 bits to 0, low 4 bits to 0
// end of sequence
ST7565_PAGE_ADR(2 * pb->p.page + 1); // select current page (ST7565R)
ST7565_A0(); // data mode
ST7560_WriteSequence((uint8_t)pb->width, (uint8_t*)(pb->buf) + pb->width);
ST7565_CS(); // chip select off
}
break;
case U8G_DEV_MSG_CONTRAST:
ST7565_NCS();
2018-06-02 08:00:58 +02:00
ST7565_NA0(); // instruction mode
ST7565_CONTRAST((*(uint8_t*)arg) >> 2);
ST7565_CS(); // chip select off
return 1;
case U8G_DEV_MSG_SLEEP_ON:
2018-06-02 08:00:58 +02:00
ST7565_NA0(); // instruction mode
ST7565_NCS(); // chip select
ST7565_SLEEP_MODE(); // static indicator off
//ST7565_WRITE_BYTE(0x00); // indicator register set (not sure if this is required)
ST7565_ON(0); // display off
ST7565_ALL_PIX(1); // all points on
ST7565_CS(); // chip select off
return 1;
case U8G_DEV_MSG_SLEEP_OFF:
2018-06-02 08:00:58 +02:00
ST7565_NA0(); // instruction mode
ST7565_NCS(); // chip select
ST7565_ALL_PIX(0); // all points off
ST7565_ON(1); // display on
U8G_ESC_DLY(50); // delay 50 ms
ST7565_CS(); // chip select off
return 1;
}
return u8g_dev_pb16v1_base_fn(u8g, dev, msg, arg);
}
2018-06-02 08:00:58 +02:00
uint8_t u8g_dev_st7565_64128n_2x_VIKI_buf[LCD_PIXEL_WIDTH * 2] U8G_NOCOMMON;
u8g_pb_t u8g_dev_st7565_64128n_2x_VIKI_pb = {{16, LCD_PIXEL_HEIGHT, 0, 0, 0}, LCD_PIXEL_WIDTH, u8g_dev_st7565_64128n_2x_VIKI_buf};
u8g_dev_t u8g_dev_st7565_64128n_2x_VIKI_sw_spi = {u8g_dev_st7565_64128n_2x_VIKI_fn, &u8g_dev_st7565_64128n_2x_VIKI_pb, &u8g_com_null_fn};
class U8GLIB_ST7565_64128n_2x_VIKI : public U8GLIB {
public:
U8GLIB_ST7565_64128n_2x_VIKI(uint8_t dummy)
: U8GLIB(&u8g_dev_st7565_64128n_2x_VIKI_sw_spi)
{ }
U8GLIB_ST7565_64128n_2x_VIKI(uint8_t sck, uint8_t mosi, uint8_t cs, uint8_t a0, uint8_t reset = U8G_PIN_NONE)
: U8GLIB(&u8g_dev_st7565_64128n_2x_VIKI_sw_spi)
{ }
};
#pragma GCC reset_options
#endif // ULCDST7565_H