04b9147e15
Blanket wide to all .c and .h files. Some files originating from ST are difficult to deal with (license wise) so it was left out of those. Also merged modpyb.h, modos.h, modstm.h and modtime.h in stmhal/.
415 lines
14 KiB
C
415 lines
14 KiB
C
/*
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* This file is part of the Micro Python project, http://micropython.org/
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*
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* The MIT License (MIT)
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*
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* Copyright (c) 2013, 2014 Damien P. George
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <stdio.h>
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#include <string.h>
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#include <stm32f4xx_hal.h>
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#include "mpconfig.h"
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#include "nlr.h"
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#include "misc.h"
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#if MICROPY_HW_HAS_LCD
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#include "qstr.h"
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#include "parse.h"
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#include "obj.h"
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#include "runtime.h"
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#include "systick.h"
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#include "font_petme128_8x8.h"
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#include "lcd.h"
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#if defined(PYBV3)
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#define PYB_LCD_PORT (GPIOA)
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#define PYB_LCD_CS1_PIN (GPIO_PIN_0)
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#define PYB_LCD_RST_PIN (GPIO_PIN_1)
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#define PYB_LCD_A0_PIN (GPIO_PIN_2)
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#define PYB_LCD_SCL_PIN (GPIO_PIN_3)
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#define PYB_LCD_SI_PIN (GPIO_PIN_4)
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#elif defined(PYBV4) || defined(PYBV10)
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// X position
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#define PYB_LCD_PORT (GPIOA)
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#define PYB_LCD_CS1_PIN (GPIO_PIN_2) // X3
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#define PYB_LCD_RST_PIN (GPIO_PIN_3) // X4
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#define PYB_LCD_A0_PIN (GPIO_PIN_4) // X5
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#define PYB_LCD_SCL_PIN (GPIO_PIN_5) // X6
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#define PYB_LCD_SI_PIN (GPIO_PIN_7) // X8
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#define PYB_LCD_BL_PORT (GPIOC)
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#define PYB_LCD_BL_PIN (GPIO_PIN_5) // X12
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/*
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// Y position
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#define PYB_LCD_PORT (GPIOB)
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#define PYB_LCD_CS1_PIN (GPIO_PIN_8) // Y3 = PB8
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#define PYB_LCD_RST_PIN (GPIO_PIN_9) // Y4 = PB9
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#define PYB_LCD_A0_PIN (GPIO_PIN_12) // Y5 = PB12
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#define PYB_LCD_SCL_PIN (GPIO_PIN_13) // Y6 = PB13
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#define PYB_LCD_SI_PIN (GPIO_PIN_15) // Y8 = PB15
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#define PYB_LCD_BL_PORT (GPIOB)
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#define PYB_LCD_BL_PIN (GPIO_PIN_1) // Y12 = PB1
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*/
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#elif defined(STM32F4DISC)
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/* Configure if needed */
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#define PYB_LCD_PORT (GPIOA)
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#define PYB_LCD_CS1_PIN (GPIO_PIN_2) // X3
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#define PYB_LCD_RST_PIN (GPIO_PIN_3) // X4
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#define PYB_LCD_A0_PIN (GPIO_PIN_4) // X5
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#define PYB_LCD_SCL_PIN (GPIO_PIN_5) // X6
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#define PYB_LCD_SI_PIN (GPIO_PIN_7) // X8
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#define PYB_LCD_BL_PORT (GPIOC)
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#define PYB_LCD_BL_PIN (GPIO_PIN_5) // X12
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#endif
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#define LCD_INSTR (0)
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#define LCD_DATA (1)
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static void lcd_delay(void) {
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__asm volatile ("nop\nnop");
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}
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static void lcd_out(int instr_data, uint8_t i) {
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lcd_delay();
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PYB_LCD_PORT->BSRRH = PYB_LCD_CS1_PIN; // CS=0; enable
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if (instr_data == LCD_INSTR) {
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PYB_LCD_PORT->BSRRH = PYB_LCD_A0_PIN; // A0=0; select instr reg
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} else {
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PYB_LCD_PORT->BSRRL = PYB_LCD_A0_PIN; // A0=1; select data reg
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}
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// send byte bigendian, latches on rising clock
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for (uint32_t n = 0; n < 8; n++) {
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lcd_delay();
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PYB_LCD_PORT->BSRRH = PYB_LCD_SCL_PIN; // SCL=0
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if ((i & 0x80) == 0) {
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PYB_LCD_PORT->BSRRH = PYB_LCD_SI_PIN; // SI=0
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} else {
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PYB_LCD_PORT->BSRRL = PYB_LCD_SI_PIN; // SI=1
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}
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i <<= 1;
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lcd_delay();
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PYB_LCD_PORT->BSRRL = PYB_LCD_SCL_PIN; // SCL=1
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}
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PYB_LCD_PORT->BSRRL = PYB_LCD_CS1_PIN; // CS=1; disable
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/*
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in Python, native types:
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CS1_PIN(const) = 0
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n = int(0)
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delay_ms(0)
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PORT[word:BSRRH] = 1 << CS1_PIN
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for n in range(0, 8):
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delay_ms(0)
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PORT[word:BSRRH] = 1 << SCL_PIN
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if i & 0x80 == 0:
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PORT[word:BSRRH] = 1 << SI_PIN
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else:
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PORT[word:BSRRL] = 1 << SI_PIN
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i <<= 1
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delay_ms(0)
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PORT[word:BSRRL] = 1 << SCL_PIN
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*/
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}
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/*
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static void lcd_data_out(uint8_t i) {
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delay_ms(0);
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PYB_LCD_PORT->BSRRH = PYB_LCD_CS1_PIN; // CS=0; enable
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PYB_LCD_PORT->BSRRL = PYB_LCD_A0_PIN; // A0=1; select data reg
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// send byte bigendian, latches on rising clock
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for (uint32_t n = 0; n < 8; n++) {
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delay_ms(0);
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PYB_LCD_PORT->BSRRH = PYB_LCD_SCL_PIN; // SCL=0
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if ((i & 0x80) == 0) {
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PYB_LCD_PORT->BSRRH = PYB_LCD_SI_PIN; // SI=0
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} else {
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PYB_LCD_PORT->BSRRL = PYB_LCD_SI_PIN; // SI=1
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}
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i <<= 1;
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delay_ms(0);
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PYB_LCD_PORT->BSRRL = PYB_LCD_SCL_PIN; // SCL=1
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}
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PYB_LCD_PORT->BSRRL = PYB_LCD_CS1_PIN; // CS=1; disable
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}
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*/
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// writes 8 vertical pixels
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// pos 0 is upper left, pos 1 is 8 pixels to right of that, pos 128 is 8 pixels below that
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mp_obj_t lcd_draw_pixel_8(mp_obj_t mp_pos, mp_obj_t mp_val) {
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int pos = mp_obj_get_int(mp_pos);
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int val = mp_obj_get_int(mp_val);
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int page = pos / 128;
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int offset = pos - (page * 128);
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lcd_out(LCD_INSTR, 0xb0 | page); // page address set
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lcd_out(LCD_INSTR, 0x10 | ((offset >> 4) & 0x0f)); // column address set upper
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lcd_out(LCD_INSTR, 0x00 | (offset & 0x0f)); // column address set lower
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lcd_out(LCD_DATA, val); // write data
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return mp_const_none;
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}
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#define LCD_BUF_W (16)
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#define LCD_BUF_H (4)
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char lcd_char_buffer[LCD_BUF_W * LCD_BUF_H];
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int lcd_line;
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int lcd_column;
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int lcd_next_line;
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#define LCD_PIX_BUF_SIZE (128 * 32 / 8)
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byte lcd_pix_buf[LCD_PIX_BUF_SIZE];
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byte lcd_pix_buf2[LCD_PIX_BUF_SIZE];
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mp_obj_t lcd_pix_clear(void) {
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memset(lcd_pix_buf, 0, LCD_PIX_BUF_SIZE);
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memset(lcd_pix_buf2, 0, LCD_PIX_BUF_SIZE);
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return mp_const_none;
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}
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mp_obj_t lcd_pix_get(mp_obj_t mp_x, mp_obj_t mp_y) {
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int x = mp_obj_get_int(mp_x);
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int y = mp_obj_get_int(mp_y);
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if (0 <= x && x <= 127 && 0 <= y && y <= 31) {
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uint byte_pos = x + 128 * ((uint)y >> 3);
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if (lcd_pix_buf[byte_pos] & (1 << (y & 7))) {
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return mp_obj_new_int(1);
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}
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}
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return mp_obj_new_int(0);
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}
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mp_obj_t lcd_pix_set(mp_obj_t mp_x, mp_obj_t mp_y) {
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int x = mp_obj_get_int(mp_x);
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int y = mp_obj_get_int(mp_y);
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if (0 <= x && x <= 127 && 0 <= y && y <= 31) {
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uint byte_pos = x + 128 * ((uint)y >> 3);
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lcd_pix_buf2[byte_pos] |= 1 << (y & 7);
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}
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return mp_const_none;
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}
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mp_obj_t lcd_pix_reset(mp_obj_t mp_x, mp_obj_t mp_y) {
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int x = mp_obj_get_int(mp_x);
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int y = mp_obj_get_int(mp_y);
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if (0 <= x && x <= 127 && 0 <= y && y <= 31) {
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uint byte_pos = x + 128 * ((uint)y >> 3);
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lcd_pix_buf2[byte_pos] &= ~(1 << (y & 7));
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}
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return mp_const_none;
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}
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mp_obj_t lcd_pix_show(void) {
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memcpy(lcd_pix_buf, lcd_pix_buf2, LCD_PIX_BUF_SIZE);
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for (uint page = 0; page < 4; page++) {
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lcd_out(LCD_INSTR, 0xb0 | page); // page address set
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lcd_out(LCD_INSTR, 0x10); // column address set upper; 0
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lcd_out(LCD_INSTR, 0x00); // column address set lower; 0
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for (uint i = 0; i < 128; i++) {
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lcd_out(LCD_DATA, lcd_pix_buf[i + 128 * page]);
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}
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}
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return mp_const_none;
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}
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mp_obj_t lcd_print(mp_obj_t text) {
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uint len;
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const char *data = mp_obj_str_get_data(text, &len);
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lcd_print_strn(data, len);
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return mp_const_none;
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}
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mp_obj_t lcd_light(mp_obj_t value) {
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#if defined(PYB_LCD_BL_PORT)
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if (mp_obj_is_true(value)) {
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PYB_LCD_BL_PORT->BSRRL = PYB_LCD_BL_PIN; // set pin high to turn backlight on
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} else {
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PYB_LCD_BL_PORT->BSRRH = PYB_LCD_BL_PIN; // set pin low to turn backlight off
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}
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#endif
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return mp_const_none;
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}
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static mp_obj_t mp_lcd = MP_OBJ_NULL;
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static mp_obj_t pyb_lcd_init(void) {
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if (mp_lcd != MP_OBJ_NULL) {
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// already init'd
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return mp_lcd;
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}
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// set the outputs high
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PYB_LCD_PORT->BSRRL = PYB_LCD_CS1_PIN;
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PYB_LCD_PORT->BSRRL = PYB_LCD_RST_PIN;
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PYB_LCD_PORT->BSRRL = PYB_LCD_A0_PIN;
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PYB_LCD_PORT->BSRRL = PYB_LCD_SCL_PIN;
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PYB_LCD_PORT->BSRRL = PYB_LCD_SI_PIN;
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// make them push/pull outputs
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GPIO_InitTypeDef GPIO_InitStructure;
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GPIO_InitStructure.Mode = GPIO_MODE_OUTPUT_PP;
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GPIO_InitStructure.Speed = GPIO_SPEED_HIGH;
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GPIO_InitStructure.Pull = GPIO_NOPULL;
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GPIO_InitStructure.Pin = PYB_LCD_CS1_PIN | PYB_LCD_RST_PIN | PYB_LCD_A0_PIN | PYB_LCD_SCL_PIN | PYB_LCD_SI_PIN;
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HAL_GPIO_Init(PYB_LCD_PORT, &GPIO_InitStructure);
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#if defined(PYB_LCD_BL_PORT)
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// backlight drive pin, starts low (off)
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PYB_LCD_BL_PORT->BSRRH = PYB_LCD_BL_PIN;
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GPIO_InitStructure.Pin = PYB_LCD_BL_PIN;
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GPIO_InitStructure.Mode = GPIO_MODE_OUTPUT_PP;
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GPIO_InitStructure.Speed = GPIO_SPEED_HIGH;
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GPIO_InitStructure.Pull = GPIO_NOPULL;
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HAL_GPIO_Init(PYB_LCD_BL_PORT, &GPIO_InitStructure);
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#endif
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// init the LCD
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HAL_Delay(1); // wait a bit
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PYB_LCD_PORT->BSRRH = PYB_LCD_RST_PIN; // RST=0; reset
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HAL_Delay(1); // wait for reset; 2us min
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PYB_LCD_PORT->BSRRL = PYB_LCD_RST_PIN; // RST=1; enable
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HAL_Delay(1); // wait for reset; 2us min
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lcd_out(LCD_INSTR, 0xa0); // ADC select, normal
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lcd_out(LCD_INSTR, 0xc8); // common output mode select, reverse
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lcd_out(LCD_INSTR, 0xa2); // LCD bias set, 1/9 bias
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lcd_out(LCD_INSTR, 0x2f); // power control set, 0b111=(booster on, vreg on, vfollow on)
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lcd_out(LCD_INSTR, 0x21); // v0 voltage regulator internal resistor ratio set, 0b001=small
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lcd_out(LCD_INSTR, 0x81); // electronic volume mode set
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lcd_out(LCD_INSTR, 0x34); // electronic volume register set, 0b110100
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lcd_out(LCD_INSTR, 0x40); // display start line set, 0
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lcd_out(LCD_INSTR, 0xaf); // LCD display, on
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// clear display
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for (int page = 0; page < 4; page++) {
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lcd_out(LCD_INSTR, 0xb0 | page); // page address set
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lcd_out(LCD_INSTR, 0x10); // column address set upper
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lcd_out(LCD_INSTR, 0x00); // column address set lower
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for (int i = 0; i < 128; i++) {
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lcd_out(LCD_DATA, 0x00);
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}
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}
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for (int i = 0; i < LCD_BUF_H * LCD_BUF_W; i++) {
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lcd_char_buffer[i] = ' ';
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}
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lcd_line = 0;
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lcd_column = 0;
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lcd_next_line = 0;
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// Micro Python interface
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mp_obj_t o = mp_obj_new_type(MP_QSTR_LCD, mp_const_empty_tuple, mp_obj_new_dict(0));
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mp_store_attr(o, qstr_from_str("lcd8"), mp_make_function_n(2, lcd_draw_pixel_8));
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mp_store_attr(o, qstr_from_str("clear"), mp_make_function_n(0, lcd_pix_clear));
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mp_store_attr(o, qstr_from_str("get"), mp_make_function_n(2, lcd_pix_get));
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mp_store_attr(o, qstr_from_str("set"), mp_make_function_n(2, lcd_pix_set));
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mp_store_attr(o, qstr_from_str("reset"), mp_make_function_n(2, lcd_pix_reset));
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mp_store_attr(o, qstr_from_str("show"), mp_make_function_n(0, lcd_pix_show));
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mp_store_attr(o, qstr_from_str("text"), mp_make_function_n(1, lcd_print));
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mp_store_attr(o, qstr_from_str("light"), mp_make_function_n(1, lcd_light));
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mp_lcd = o;
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return o;
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}
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static MP_DEFINE_CONST_FUN_OBJ_0(pyb_lcd_init_obj, pyb_lcd_init);
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void lcd_init(void) {
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mp_lcd = MP_OBJ_NULL;
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mp_store_name(qstr_from_str("LCD"), (mp_obj_t)&pyb_lcd_init_obj);
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}
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void lcd_print_str(const char *str) {
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lcd_print_strn(str, strlen(str));
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}
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void lcd_print_strn(const char *str, unsigned int len) {
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int redraw_min = lcd_line * LCD_BUF_W + lcd_column;
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int redraw_max = redraw_min;
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int did_new_line = 0;
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for (; len > 0; len--, str++) {
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// move to next line if needed
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if (lcd_next_line) {
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if (lcd_line + 1 < LCD_BUF_H) {
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lcd_line += 1;
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} else {
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lcd_line = LCD_BUF_H - 1;
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for (int i = 0; i < LCD_BUF_W * (LCD_BUF_H - 1); i++) {
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lcd_char_buffer[i] = lcd_char_buffer[i + LCD_BUF_W];
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}
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for (int i = 0; i < LCD_BUF_W; i++) {
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lcd_char_buffer[LCD_BUF_W * (LCD_BUF_H - 1) + i] = ' ';
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}
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redraw_min = 0;
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redraw_max = LCD_BUF_W * LCD_BUF_H;
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}
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lcd_next_line = 0;
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lcd_column = 0;
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did_new_line = 1;
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}
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if (*str == '\n') {
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lcd_next_line = 1;
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} else if (*str == '\r') {
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lcd_column = 0;
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} else if (*str == '\b') {
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if (lcd_column > 0) {
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lcd_column--;
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}
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} else if (lcd_column >= LCD_BUF_W) {
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lcd_next_line = 1;
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str -= 1;
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len += 1;
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} else {
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lcd_char_buffer[lcd_line * LCD_BUF_W + lcd_column] = *str;
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lcd_column += 1;
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int max = lcd_line * LCD_BUF_W + lcd_column;
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if (max > redraw_max) {
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redraw_max = max;
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}
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}
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}
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int last_page = -1;
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for (int i = redraw_min; i < redraw_max; i++) {
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int page = i / LCD_BUF_W;
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if (page != last_page) {
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int offset = 8 * (i - (page * LCD_BUF_W));
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lcd_out(LCD_INSTR, 0xb0 | page); // page address set
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lcd_out(LCD_INSTR, 0x10 | ((offset >> 4) & 0x0f)); // column address set upper
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lcd_out(LCD_INSTR, 0x00 | (offset & 0x0f)); // column address set lower
|
|
last_page = page;
|
|
}
|
|
int chr = lcd_char_buffer[i];
|
|
if (chr < 32 || chr > 126) {
|
|
chr = 127;
|
|
}
|
|
const uint8_t *chr_data = &font_petme128_8x8[(chr - 32) * 8];
|
|
for (int j = 0; j < 8; j++) {
|
|
lcd_out(LCD_DATA, chr_data[j]);
|
|
}
|
|
}
|
|
|
|
if (did_new_line) {
|
|
HAL_Delay(50);
|
|
}
|
|
}
|
|
|
|
#endif // MICROPY_HW_HAS_LCD
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