🎨 Consolidate Ender-3 V2 DWIN common code (#22778)

x301
Scott Lahteine 3 years ago committed by Scott Lahteine
parent 5b593da04d
commit e705a7724e

@ -74,15 +74,15 @@
#include <lvgl.h> #include <lvgl.h>
#endif #endif
#if HAS_DWIN_E3V2
#include "lcd/e3v2/common/encoder.h"
#if ENABLED(DWIN_CREALITY_LCD) #if ENABLED(DWIN_CREALITY_LCD)
#include "lcd/e3v2/creality/dwin.h" #include "lcd/e3v2/creality/dwin.h"
#include "lcd/e3v2/creality/rotary_encoder.h"
#elif ENABLED(DWIN_CREALITY_LCD_ENHANCED) #elif ENABLED(DWIN_CREALITY_LCD_ENHANCED)
#include "lcd/e3v2/enhanced/dwin.h" #include "lcd/e3v2/enhanced/dwin.h"
#include "lcd/e3v2/enhanced/rotary_encoder.h"
#elif ENABLED(DWIN_CREALITY_LCD_JYERSUI) #elif ENABLED(DWIN_CREALITY_LCD_JYERSUI)
#include "lcd/e3v2/jyersui/dwin.h" #include "lcd/e3v2/jyersui/dwin.h"
#include "lcd/e3v2/jyersui/rotary_encoder.h" #endif
#endif #endif
#if ENABLED(EXTENSIBLE_UI) #if ENABLED(EXTENSIBLE_UI)

@ -421,8 +421,9 @@
#endif #endif
#endif #endif
#if EITHER(DWIN_CREALITY_LCD_ENHANCED, DWIN_CREALITY_LCD_JYERSUI) #if EITHER(HAS_DWIN_E3V2, IS_DWIN_MARLINUI)
#define HAS_LCD_BRIGHTNESS 1 #define HAS_LCD_BRIGHTNESS 1
#define MAX_LCD_BRIGHTNESS 31
#endif #endif
/** /**

@ -0,0 +1,429 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2021 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 <https://www.gnu.org/licenses/>.
*
*/
#include "../../../inc/MarlinConfigPre.h"
#if EITHER(HAS_DWIN_E3V2, IS_DWIN_MARLINUI)
#include "dwin_api.h"
#include "dwin_set.h"
#include "../../../inc/MarlinConfig.h"
#include <string.h> // for memset
uint8_t DWIN_SendBuf[11 + DWIN_WIDTH / 6 * 2] = { 0xAA };
uint8_t DWIN_BufTail[4] = { 0xCC, 0x33, 0xC3, 0x3C };
uint8_t databuf[26] = { 0 };
// Send the data in the buffer plus the packet tail
void DWIN_Send(size_t &i) {
++i;
LOOP_L_N(n, i) { LCD_SERIAL.write(DWIN_SendBuf[n]); delayMicroseconds(1); }
LOOP_L_N(n, 4) { LCD_SERIAL.write(DWIN_BufTail[n]); delayMicroseconds(1); }
}
/*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail)
bool DWIN_Handshake() {
static int recnum = 0;
#ifndef LCD_BAUDRATE
#define LCD_BAUDRATE 115200
#endif
LCD_SERIAL.begin(LCD_BAUDRATE);
const millis_t serial_connect_timeout = millis() + 1000UL;
while (!LCD_SERIAL.connected() && PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
size_t i = 0;
DWIN_Byte(i, 0x00);
DWIN_Send(i);
while (LCD_SERIAL.available() > 0 && recnum < (signed)sizeof(databuf)) {
databuf[recnum] = LCD_SERIAL.read();
// ignore the invalid data
if (databuf[0] != FHONE) { // prevent the program from running.
if (recnum > 0) {
recnum = 0;
ZERO(databuf);
}
continue;
}
delay(10);
recnum++;
}
return ( recnum >= 3
&& databuf[0] == FHONE
&& databuf[1] == '\0'
&& databuf[2] == 'O'
&& databuf[3] == 'K' );
}
// Set the backlight brightness
// brightness: (0x00-0x1F)
void DWIN_LCD_Brightness(const uint8_t brightness) {
size_t i = 0;
DWIN_Byte(i, 0x30);
DWIN_Byte(i, _MAX(brightness, 0x1F));
DWIN_Send(i);
}
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir) {
size_t i = 0;
DWIN_Byte(i, 0x34);
DWIN_Byte(i, 0x5A);
DWIN_Byte(i, 0xA5);
DWIN_Byte(i, dir);
DWIN_Send(i);
}
// Update display
void DWIN_UpdateLCD() {
size_t i = 0;
DWIN_Byte(i, 0x3D);
DWIN_Send(i);
}
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color) {
size_t i = 0;
DWIN_Byte(i, 0x01);
DWIN_Word(i, color);
DWIN_Send(i);
}
// Draw a point
// color: point color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x02);
DWIN_Word(i, color);
DWIN_Byte(i, width);
DWIN_Byte(i, height);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x03);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x05);
DWIN_Byte(i, mode);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x09);
DWIN_Byte(i, (mode << 7) | dir);
DWIN_Word(i, dis);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// widthAdjust: true=self-adjust character width; false=no adjustment
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
// rlimit: To limit the drawn string length
void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * const string, uint16_t rlimit/*=0xFFFF*/) {
constexpr uint8_t widthAdjust = 0;
size_t i = 0;
DWIN_Byte(i, 0x11);
// Bit 7: widthAdjust
// Bit 6: bShow
// Bit 5-4: Unused (0)
// Bit 3-0: size
DWIN_Byte(i, (widthAdjust * 0x80) | (bShow * 0x40) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Text(i, string, rlimit);
DWIN_Send(i);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint32_t value) {
size_t i = 0;
DWIN_Byte(i, 0x14);
// Bit 7: bshow
// Bit 6: 1 = signed; 0 = unsigned number;
// Bit 5: zeroFill
// Bit 4: zeroMode
// Bit 3-0: size
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, 0); // fNum
DWIN_Word(i, x);
DWIN_Word(i, y);
#if 0
for (char count = 0; count < 8; count++) {
DWIN_Byte(i, value);
value >>= 8;
if (!(value & 0xFF)) break;
}
#else
// Write a big-endian 64 bit integer
const size_t p = i + 1;
for (char count = 8; count--;) { // 7..0
++i;
DWIN_SendBuf[p + count] = value;
value >>= 8;
}
#endif
DWIN_Send(i);
}
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, int32_t value) {
//uint8_t *fvalue = (uint8_t*)&value;
size_t i = 0;
DWIN_Byte(i, 0x14);
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, fNum);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Long(i, value);
/*
DWIN_Byte(i, fvalue[3]);
DWIN_Byte(i, fvalue[2]);
DWIN_Byte(i, fvalue[1]);
DWIN_Byte(i, fvalue[0]);
*/
DWIN_Send(i);
}
// Draw a floating point number
// value: positive unscaled float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) {
const int32_t val = round(value * POW(10, fNum));
DWIN_Draw_FloatValue(bShow, zeroFill, zeroMode, size, color, bColor, iNum, fNum, x, y, val);
}
/*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id) {
size_t i = 0;
DWIN_Word(i, 0x2200);
DWIN_Byte(i, id);
DWIN_Send(i); // AA 23 00 00 00 00 08 00 01 02 03 CC 33 C3 3C
}
// Draw an Icon
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
void DWIN_ICON_Show(bool IBD, bool BIR, bool BFI, uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x23);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, (IBD << 7) | (BIR << 6) | (BFI << 5) | libID);
DWIN_Byte(i, picID);
DWIN_Send(i);
}
// Draw an Icon from SRAM
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// x/y: Upper-left point
// addr: SRAM address
void DWIN_ICON_Show(bool IBD, bool BIR, bool BFI, uint16_t x, uint16_t y, uint16_t addr) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x24);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, (IBD << 7) | (BIR << 6) | (BFI << 5) | 0x00);
DWIN_Word(i, addr);
DWIN_Send(i);
}
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id) {
size_t i = 0;
DWIN_Byte(i, 0x25);
DWIN_Byte(i, n);
DWIN_Byte(i, id);
DWIN_Send(i);
}
// Animate a series of icons
// animID: Animation ID; 0x00-0x0F
// animate: true on; false off;
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs, uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x28);
DWIN_Word(i, x);
DWIN_Word(i, y);
// Bit 7: animation on or off
// Bit 6: start from begin or end
// Bit 5-4: unused (0)
// Bit 3-0: animID
DWIN_Byte(i, (animate * 0x80) | 0x40 | animID);
DWIN_Byte(i, libID);
DWIN_Byte(i, picIDs);
DWIN_Byte(i, picIDe);
DWIN_Byte(i, interval);
DWIN_Send(i);
}
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state) {
size_t i = 0;
DWIN_Byte(i, 0x29);
DWIN_Word(i, state);
DWIN_Send(i);
}
/*---------------------------------------- Memory functions ----------------------------------------*/
// The LCD has an additional 32KB SRAM and 16KB Flash
// Data can be written to the SRAM and saved to one of the jpeg page files
// Write Data Memory
// command 0x31
// Type: Write memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Write data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Data: data
//
// Flash writing returns 0xA5 0x4F 0x4B
// Read Data Memory
// command 0x32
// Type: Read memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Read data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Length: leangth of data to read; 0x01-0xF0
//
// Response:
// Type, Address, Length, Data
// Write Picture Memory
// Write the contents of the 32KB SRAM data memory into the designated image memory space
// Issued: 0x5A, 0xA5, PIC_ID
// Response: 0xA5 0x4F 0x4B
//
// command 0x33
// 0x5A, 0xA5
// PicId: Picture Memory location, 0x00-0x0F
//
// Flash writing returns 0xA5 0x4F 0x4B
#endif // HAS_DWIN_E3V2 || IS_DWIN_MARLINUI

@ -0,0 +1,265 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2021 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 <https://www.gnu.org/licenses/>.
*
*/
#pragma once
#include <stddef.h>
#include <stdint.h>
#include "../../../HAL/shared/Marduino.h"
#ifndef DWIN_WIDTH
#define DWIN_WIDTH 272
#endif
#ifndef DWIN_HEIGHT
#define DWIN_HEIGHT 480
#endif
#define RECEIVED_NO_DATA 0x00
#define RECEIVED_SHAKE_HAND_ACK 0x01
#define FHONE 0xAA
#define DWIN_SCROLL_UP 2
#define DWIN_SCROLL_DOWN 3
// Make sure DWIN_SendBuf is large enough to hold the largest string plus draw command and tail.
// Assume the narrowest (6 pixel) font and 2-byte gb2312-encoded characters.
extern uint8_t DWIN_SendBuf[11 + DWIN_WIDTH / 6 * 2];
extern uint8_t DWIN_BufTail[4];
extern uint8_t databuf[26];
inline void DWIN_Byte(size_t &i, const uint16_t bval) {
DWIN_SendBuf[++i] = bval;
}
inline void DWIN_Word(size_t &i, const uint16_t wval) {
DWIN_SendBuf[++i] = wval >> 8;
DWIN_SendBuf[++i] = wval & 0xFF;
}
inline void DWIN_Long(size_t &i, const uint32_t lval) {
DWIN_SendBuf[++i] = (lval >> 24) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 16) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 8) & 0xFF;
DWIN_SendBuf[++i] = lval & 0xFF;
}
// Send the data in the buffer plus the packet tail
void DWIN_Send(size_t &i);
inline void DWIN_Text(size_t &i, const char * const string, uint16_t rlimit=0xFFFF) {
if (!string) return;
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, _MIN(strlen(string), rlimit));
if (len == 0) return;
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
inline void DWIN_Text(size_t &i, const __FlashStringHelper * string, uint16_t rlimit=0xFFFF) {
if (!string) return;
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, _MIN(rlimit, strlen_P((PGM_P)string))); // cast to PGM_P (const char*) measure with strlen_P.
if (len == 0) return;
memcpy_P(&DWIN_SendBuf[i+1], string, len);
i += len;
}
/*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail)
bool DWIN_Handshake();
// DWIN startup
void DWIN_Startup();
// Set the backlight brightness
// brightness: (0x00-0xFF)
void DWIN_LCD_Brightness(const uint8_t brightness);
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir);
// Update display
void DWIN_UpdateLCD();
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color);
// Draw a point
// color: point color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y);
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a Horizontal line
// color: Line segment color
// xStart/yStart: Start point
// xLength: Line Length
inline void DWIN_Draw_HLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart + xLength - 1, yStart);
}
// Draw a Vertical line
// color: Line segment color
// xStart/yStart: Start point
// yLength: Line Length
inline void DWIN_Draw_VLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t yLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart, yStart + yLength - 1);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a box
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xSize/ySize: box size
inline void DWIN_Draw_Box(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xSize, uint16_t ySize) {
DWIN_Draw_Rectangle(mode, color, xStart, yStart, xStart + xSize - 1, yStart + ySize - 1);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
// rlimit: For draw less chars than string length use rlimit
void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * const string, uint16_t rlimit=0xFFFF);
inline void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const __FlashStringHelper *title) {
// Note that this won't work on AVR, only 32-bit systems!
DWIN_Draw_String(bShow, size, color, bColor, x, y, reinterpret_cast<const char*>(title));
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint32_t value);
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, int32_t value);
// Draw a floating point number
// value: positive unscaled float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value);
/*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id);
// Draw an Icon
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y);
// Draw an Icon
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
void DWIN_ICON_Show(bool IBD, bool BIR, bool BFI, uint8_t libID, uint8_t picID, uint16_t x, uint16_t y);
// Draw an Icon from SRAM
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// x/y: Upper-left point
// addr: SRAM address
void DWIN_ICON_Show(bool IBD, bool BIR, bool BFI, uint16_t x, uint16_t y, uint16_t addr);
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id);
// Unzip the JPG picture to virtual display area #1
// id: Picture ID
inline void DWIN_JPG_CacheTo1(uint8_t id) { DWIN_JPG_CacheToN(1, id); }
// Animate a series of icons
// animID: Animation ID up to 16
// animate: animation on or off
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs, uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval);
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state);

@ -0,0 +1,44 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2021 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 <https://www.gnu.org/licenses/>.
*
*/
#pragma once
// Extended and default UI Colors
#define RGB(R,G,B) (R << 11) | (G << 5) | (B) // R,B: 0..31; G: 0..63
#define GetRColor(color) ((color >> 11) & 0x1F)
#define GetGColor(color) ((color >> 5) & 0x3F)
#define GetBColor(color) ((color >> 0) & 0x1F)
#define Color_White 0xFFFF
#define Color_Yellow RGB(0x1F,0x3F,0x00)
#define Color_Red RGB(0x1F,0x00,0x00)
#define Color_Error_Red 0xB000 // Error!
#define Color_Bg_Red 0xF00F // Red background color
#define Color_Bg_Window 0x31E8 // Popup background color
#define Color_Bg_Blue 0x1125 // Dark blue background color
#define Color_Bg_Black 0x0841 // Black background color
#define Color_IconBlue 0x45FA // Lighter blue that matches icons/accents
#define Popup_Text_Color 0xD6BA // Popup font background color
#define Line_Color 0x3A6A // Split line color
#define Rectangle_Color 0xEE2F // Blue square cursor color
#define Percent_Color 0xFE29 // Percentage color
#define BarFill_Color 0x10E4 // Fill color of progress bar
#define Select_Color 0x33BB // Selected color

@ -0,0 +1,38 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2021 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 <https://www.gnu.org/licenses/>.
*
*/
#pragma once
/**
* 3-.0The font size, 0x00-0x09, corresponds to the font size below:
* 0x00=6*12 0x01=8*16 0x02=10*20 0x03=12*24 0x04=14*28
* 0x05=16*32 0x06=20*40 0x07=24*48 0x08=28*56 0x09=32*64
*/
#define font6x12 0x00
#define font8x16 0x01
#define font10x20 0x02
#define font12x24 0x03
#define font14x28 0x04
#define font16x32 0x05
#define font20x40 0x06
#define font24x48 0x07
#define font28x56 0x08
#define font32x64 0x09

@ -0,0 +1,138 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2021 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 <https://www.gnu.org/licenses/>.
*
*/
#pragma once
// Picture ID
#define Language_English 1
#define Language_Chinese 2
#define ICON 7 // Icon set file 7.ICO
#define ICON_LOGO 0
#define ICON_Print_0 1
#define ICON_Print_1 2
#define ICON_Prepare_0 3
#define ICON_Prepare_1 4
#define ICON_Control_0 5
#define ICON_Control_1 6
#define ICON_Leveling_0 7
#define ICON_Leveling_1 8
#define ICON_HotendTemp 9
#define ICON_BedTemp 10
#define ICON_Speed 11
#define ICON_Zoffset 12
#define ICON_Back 13
#define ICON_File 14
#define ICON_PrintTime 15
#define ICON_RemainTime 16
#define ICON_Setup_0 17
#define ICON_Setup_1 18
#define ICON_Pause_0 19
#define ICON_Pause_1 20
#define ICON_Continue_0 21
#define ICON_Continue_1 22
#define ICON_Stop_0 23
#define ICON_Stop_1 24
#define ICON_Bar 25
#define ICON_More 26
#define ICON_Axis 27
#define ICON_CloseMotor 28
#define ICON_Homing 29
#define ICON_SetHome 30
#define ICON_PLAPreheat 31
#define ICON_ABSPreheat 32
#define ICON_Cool 33
#define ICON_Language 34
#define ICON_MoveX 35
#define ICON_MoveY 36
#define ICON_MoveZ 37
#define ICON_Extruder 38
#define ICON_Temperature 40
#define ICON_Motion 41
#define ICON_WriteEEPROM 42
#define ICON_ReadEEPROM 43
#define ICON_ResumeEEPROM 44
#define ICON_Info 45
#define ICON_SetEndTemp 46
#define ICON_SetBedTemp 47
#define ICON_FanSpeed 48
#define ICON_SetPLAPreheat 49
#define ICON_SetABSPreheat 50
#define ICON_MaxSpeed 51
#define ICON_MaxAccelerated 52
#define ICON_MaxJerk 53
#define ICON_Step 54
#define ICON_PrintSize 55
#define ICON_Version 56
#define ICON_Contact 57
#define ICON_StockConfiguration 58
#define ICON_MaxSpeedX 59
#define ICON_MaxSpeedY 60
#define ICON_MaxSpeedZ 61
#define ICON_MaxSpeedE 62
#define ICON_MaxAccX 63
#define ICON_MaxAccY 64
#define ICON_MaxAccZ 65
#define ICON_MaxAccE 66
#define ICON_MaxSpeedJerkX 67
#define ICON_MaxSpeedJerkY 68
#define ICON_MaxSpeedJerkZ 69
#define ICON_MaxSpeedJerkE 70
#define ICON_StepX 71
#define ICON_StepY 72
#define ICON_StepZ 73
#define ICON_StepE 74
#define ICON_Setspeed 75
#define ICON_SetZOffset 76
#define ICON_Rectangle 77
#define ICON_BLTouch 78
#define ICON_TempTooLow 79
#define ICON_AutoLeveling 80
#define ICON_TempTooHigh 81
#define ICON_NoTips_C 82
#define ICON_NoTips_E 83
#define ICON_Continue_C 84
#define ICON_Continue_E 85
#define ICON_Cancel_C 86
#define ICON_Cancel_E 87
#define ICON_Confirm_C 88
#define ICON_Confirm_E 89
#define ICON_Info_0 90
#define ICON_Info_1 91
#define ICON_Folder ICON_More
#define ICON_AdvSet ICON_Language
#define ICON_HomeOffset ICON_AdvSet
#define ICON_HomeOffsetX ICON_StepX
#define ICON_HomeOffsetY ICON_StepY
#define ICON_HomeOffsetZ ICON_StepZ
#define ICON_ProbeOffset ICON_AdvSet
#define ICON_ProbeOffsetX ICON_StepX
#define ICON_ProbeOffsetY ICON_StepY
#define ICON_ProbeOffsetZ ICON_StepZ
#define ICON_PIDNozzle ICON_SetEndTemp
#define ICON_PIDbed ICON_SetBedTemp

@ -21,15 +21,15 @@
*/ */
/***************************************************************************** /*****************************************************************************
* @file lcd/e3v2/jyersui/rotary_encoder.cpp * @file lcd/e3v2/common/encoder.cpp
* @brief Rotary encoder functions * @brief Rotary encoder functions
*****************************************************************************/ *****************************************************************************/
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
#if ENABLED(DWIN_CREALITY_LCD_JYERSUI) #if HAS_DWIN_E3V2
#include "rotary_encoder.h" #include "encoder.h"
#include "../../buttons.h" #include "../../buttons.h"
#include "../../../MarlinCore.h" #include "../../../MarlinCore.h"
@ -38,7 +38,6 @@
#if HAS_BUZZER #if HAS_BUZZER
#include "../../../libs/buzzer.h" #include "../../../libs/buzzer.h"
#include "dwin.h"
#endif #endif
#include <stdlib.h> #include <stdlib.h>
@ -49,10 +48,10 @@
ENCODER_Rate EncoderRate; ENCODER_Rate EncoderRate;
// Buzzer // TODO: Replace with ui.quick_feedback
void Encoder_tick() { void Encoder_tick() {
#if PIN_EXISTS(BEEPER) #if PIN_EXISTS(BEEPER)
if (CrealityDWIN.eeprom_settings.beeperenable) { if (ui.buzzer_enabled) {
WRITE(BEEPER_PIN, HIGH); WRITE(BEEPER_PIN, HIGH);
delay(10); delay(10);
WRITE(BEEPER_PIN, LOW); WRITE(BEEPER_PIN, LOW);
@ -72,18 +71,18 @@ void Encoder_Configuration() {
SET_INPUT_PULLUP(BTN_ENC); SET_INPUT_PULLUP(BTN_ENC);
#endif #endif
#if PIN_EXISTS(BEEPER) #if PIN_EXISTS(BEEPER)
SET_OUTPUT(BEEPER_PIN); SET_OUTPUT(BEEPER_PIN); // TODO: Use buzzer.h which already inits this
#endif #endif
} }
// Analyze encoder value and return state // Analyze encoder value and return state
ENCODER_DiffState Encoder_ReceiveAnalyze() { EncoderState Encoder_ReceiveAnalyze() {
const millis_t now = millis(); const millis_t now = millis();
static uint8_t lastEncoderBits; static uint8_t lastEncoderBits;
uint8_t newbutton = 0; uint8_t newbutton = 0;
static signed char temp_diff = 0; static signed char temp_diff = 0;
ENCODER_DiffState temp_diffState = ENCODER_DIFF_NO; EncoderState temp_diffState = ENCODER_DIFF_NO;
if (BUTTON_PRESSED(EN1)) newbutton |= EN_A; if (BUTTON_PRESSED(EN1)) newbutton |= EN_A;
if (BUTTON_PRESSED(EN2)) newbutton |= EN_B; if (BUTTON_PRESSED(EN2)) newbutton |= EN_B;
if (BUTTON_PRESSED(ENC)) { if (BUTTON_PRESSED(ENC)) {
@ -94,8 +93,10 @@ ENCODER_DiffState Encoder_ReceiveAnalyze() {
#if PIN_EXISTS(LCD_LED) #if PIN_EXISTS(LCD_LED)
//LED_Action(); //LED_Action();
#endif #endif
if (ui.backlight) return ENCODER_DIFF_ENTER; if (!ui.backlight) ui.refresh_brightness();
ui.refresh_brightness(); const bool was_waiting = wait_for_user;
wait_for_user = false;
return was_waiting ? ENCODER_DIFF_NO : ENCODER_DIFF_ENTER;
} }
else return ENCODER_DIFF_NO; else return ENCODER_DIFF_NO;
} }
@ -122,13 +123,8 @@ ENCODER_DiffState Encoder_ReceiveAnalyze() {
} }
if (ABS(temp_diff) >= ENCODER_PULSES_PER_STEP) { if (ABS(temp_diff) >= ENCODER_PULSES_PER_STEP) {
#if ENABLED(REVERSE_ENCODER_DIRECTION) if (temp_diff > 0) temp_diffState = TERN(REVERSE_ENCODER_DIRECTION, ENCODER_DIFF_CCW, ENCODER_DIFF_CW);
if (temp_diff > 0) temp_diffState = ENCODER_DIFF_CCW; else temp_diffState = TERN(REVERSE_ENCODER_DIRECTION, ENCODER_DIFF_CW, ENCODER_DIFF_CCW);
else temp_diffState = ENCODER_DIFF_CW;
#else
if (temp_diff > 0) temp_diffState = ENCODER_DIFF_CW;
else temp_diffState = ENCODER_DIFF_CCW;
#endif
#if ENABLED(ENCODER_RATE_MULTIPLIER) #if ENABLED(ENCODER_RATE_MULTIPLIER)
@ -260,4 +256,4 @@ ENCODER_DiffState Encoder_ReceiveAnalyze() {
#endif // LCD_LED #endif // LCD_LED
#endif // DWIN_CREALITY_LCD_JYERSUI #endif // HAS_DWIN_E3V2

@ -22,7 +22,7 @@
#pragma once #pragma once
/***************************************************************************** /*****************************************************************************
* @file lcd/e3v2/jyersui/rotary_encoder.h * @file lcd/e3v2/common/encoder.h
* @brief Rotary encoder functions * @brief Rotary encoder functions
****************************************************************************/ ****************************************************************************/
@ -43,13 +43,13 @@ typedef enum {
ENCODER_DIFF_CW = 1, // clockwise rotation ENCODER_DIFF_CW = 1, // clockwise rotation
ENCODER_DIFF_CCW = 2, // counterclockwise rotation ENCODER_DIFF_CCW = 2, // counterclockwise rotation
ENCODER_DIFF_ENTER = 3 // click ENCODER_DIFF_ENTER = 3 // click
} ENCODER_DiffState; } EncoderState;
// Encoder initialization // Encoder initialization
void Encoder_Configuration(); void Encoder_Configuration();
// Analyze encoder value and return state // Analyze encoder value and return state
ENCODER_DiffState Encoder_ReceiveAnalyze(); EncoderState Encoder_ReceiveAnalyze();
/*********************** Encoder LED ***********************/ /*********************** Encoder LED ***********************/

@ -138,7 +138,7 @@ constexpr uint16_t MROWS = TROWS - 1, // Last Row Index
// Value Init // Value Init
HMI_value_t HMI_ValueStruct; HMI_value_t HMI_ValueStruct;
HMI_Flag_t HMI_flag{0}; HMI_flag_t HMI_flag{0};
millis_t dwin_heat_time = 0; millis_t dwin_heat_time = 0;
@ -470,7 +470,7 @@ void Draw_Back_First(const bool is_sel=true) {
} }
template <typename T> template <typename T>
inline bool Apply_Encoder(const ENCODER_DiffState &encoder_diffState, T &valref) { inline bool Apply_Encoder(const EncoderState &encoder_diffState, T &valref) {
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
valref += EncoderRate.encoderMoveValue; valref += EncoderRate.encoderMoveValue;
else if (encoder_diffState == ENCODER_DIFF_CCW) else if (encoder_diffState == ENCODER_DIFF_CCW)
@ -593,7 +593,7 @@ void DWIN_Draw_Label(const uint8_t row, const __FlashStringHelper *title) {
DWIN_Draw_Label(row, (char*)title); DWIN_Draw_Label(row, (char*)title);
} }
void DWIN_Draw_Signed_Float(uint8_t size, uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value) { void DWIN_Draw_Signed_Float(uint8_t size, uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, int32_t value) {
DWIN_Draw_String(true, size, Color_White, bColor, x - 8, y, value < 0 ? F("-") : F(" ")); DWIN_Draw_String(true, size, Color_White, bColor, x - 8, y, value < 0 ? F("-") : F(" "));
DWIN_Draw_FloatValue(true, true, 0, size, Color_White, bColor, iNum, fNum, x, y, value < 0 ? -value : value); DWIN_Draw_FloatValue(true, true, 0, size, Color_White, bColor, iNum, fNum, x, y, value < 0 ? -value : value);
} }
@ -607,7 +607,7 @@ void Draw_Edit_Integer4(const uint8_t row, const uint16_t value, const bool acti
} }
void Draw_Edit_Float3(const uint8_t row, const uint16_t value, const bool active=false) { void Draw_Edit_Float3(const uint8_t row, const uint16_t value, const bool active=false) {
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, active ? Select_Color : Color_Bg_Black, 3, UNITFDIGITS, 220 - UNITFDIGITS * 8, EBASE(row), value); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, active ? Select_Color : Color_Bg_Black, 3, UNITFDIGITS, 220 - UNITFDIGITS * 8, EBASE(row), (int32_t)value);
} }
void Draw_Edit_Signed_Float2(const uint8_t row, const float value, const bool active=false) { void Draw_Edit_Signed_Float2(const uint8_t row, const float value, const bool active=false) {
@ -1292,11 +1292,11 @@ void Goto_MainMenu() {
TERN(HAS_ONESTEP_LEVELING, ICON_Leveling, ICON_StartInfo)(); TERN(HAS_ONESTEP_LEVELING, ICON_Leveling, ICON_StartInfo)();
} }
inline ENCODER_DiffState get_encoder_state() { inline EncoderState get_encoder_state() {
static millis_t Encoder_ms = 0; static millis_t Encoder_ms = 0;
const millis_t ms = millis(); const millis_t ms = millis();
if (PENDING(ms, Encoder_ms)) return ENCODER_DIFF_NO; if (PENDING(ms, Encoder_ms)) return ENCODER_DIFF_NO;
const ENCODER_DiffState state = Encoder_ReceiveAnalyze(); const EncoderState state = Encoder_ReceiveAnalyze();
if (state != ENCODER_DIFF_NO) Encoder_ms = ms + ENCODER_WAIT_MS; if (state != ENCODER_DIFF_NO) Encoder_ms = ms + ENCODER_WAIT_MS;
return state; return state;
} }
@ -1317,7 +1317,7 @@ void HMI_Move_Done(const AxisEnum axis) {
} }
void HMI_Move_X() { void HMI_Move_X() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_X_scaled)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_X_scaled)) {
Draw_Edit_Float3(1, HMI_ValueStruct.Move_X_scaled); Draw_Edit_Float3(1, HMI_ValueStruct.Move_X_scaled);
@ -1331,7 +1331,7 @@ void HMI_Move_X() {
} }
void HMI_Move_Y() { void HMI_Move_Y() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Y_scaled)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Y_scaled)) {
Draw_Edit_Float3(2, HMI_ValueStruct.Move_Y_scaled); Draw_Edit_Float3(2, HMI_ValueStruct.Move_Y_scaled);
@ -1345,7 +1345,7 @@ void HMI_Move_Y() {
} }
void HMI_Move_Z() { void HMI_Move_Z() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Z_scaled)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Z_scaled)) {
Draw_Edit_Float3(3, HMI_ValueStruct.Move_Z_scaled); Draw_Edit_Float3(3, HMI_ValueStruct.Move_Z_scaled);
@ -1362,7 +1362,7 @@ void HMI_Move_Z() {
void HMI_Move_E() { void HMI_Move_E() {
static float last_E_scaled = 0; static float last_E_scaled = 0;
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_E_scaled)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_E_scaled)) {
last_E_scaled = HMI_ValueStruct.Move_E_scaled; last_E_scaled = HMI_ValueStruct.Move_E_scaled;
@ -1383,7 +1383,7 @@ void HMI_Move_Z() {
bool printer_busy() { return planner.movesplanned() || printingIsActive(); } bool printer_busy() { return planner.movesplanned() || printingIsActive(); }
void HMI_Zoffset() { void HMI_Zoffset() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
uint8_t zoff_line; uint8_t zoff_line;
switch (HMI_ValueStruct.show_mode) { switch (HMI_ValueStruct.show_mode) {
@ -1416,7 +1416,7 @@ void HMI_Move_Z() {
#if HAS_HOTEND #if HAS_HOTEND
void HMI_ETemp() { void HMI_ETemp() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
uint8_t temp_line; uint8_t temp_line;
switch (HMI_ValueStruct.show_mode) { switch (HMI_ValueStruct.show_mode) {
@ -1458,7 +1458,7 @@ void HMI_Move_Z() {
#if HAS_HEATED_BED #if HAS_HEATED_BED
void HMI_BedTemp() { void HMI_BedTemp() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
uint8_t bed_line; uint8_t bed_line;
switch (HMI_ValueStruct.show_mode) { switch (HMI_ValueStruct.show_mode) {
@ -1500,7 +1500,7 @@ void HMI_Move_Z() {
#if HAS_PREHEAT && HAS_FAN #if HAS_PREHEAT && HAS_FAN
void HMI_FanSpeed() { void HMI_FanSpeed() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
uint8_t fan_line; uint8_t fan_line;
switch (HMI_ValueStruct.show_mode) { switch (HMI_ValueStruct.show_mode) {
@ -1541,7 +1541,7 @@ void HMI_Move_Z() {
#endif // HAS_PREHEAT && HAS_FAN #endif // HAS_PREHEAT && HAS_FAN
void HMI_PrintSpeed() { void HMI_PrintSpeed() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.print_speed)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.print_speed)) {
checkkey = Tune; checkkey = Tune;
@ -1559,7 +1559,7 @@ void HMI_PrintSpeed() {
#define LAST_AXIS TERN(HAS_HOTEND, E_AXIS, Z_AXIS) #define LAST_AXIS TERN(HAS_HOTEND, E_AXIS, Z_AXIS)
void HMI_MaxFeedspeedXYZE() { void HMI_MaxFeedspeedXYZE() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Feedspeed)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Feedspeed)) {
checkkey = MaxSpeed; checkkey = MaxSpeed;
@ -1578,7 +1578,7 @@ void HMI_MaxFeedspeedXYZE() {
} }
void HMI_MaxAccelerationXYZE() { void HMI_MaxAccelerationXYZE() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Acceleration)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Acceleration)) {
checkkey = MaxAcceleration; checkkey = MaxAcceleration;
@ -1599,7 +1599,7 @@ void HMI_MaxAccelerationXYZE() {
#if HAS_CLASSIC_JERK #if HAS_CLASSIC_JERK
void HMI_MaxJerkXYZE() { void HMI_MaxJerkXYZE() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Jerk_scaled)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Jerk_scaled)) {
checkkey = MaxJerk; checkkey = MaxJerk;
@ -1620,7 +1620,7 @@ void HMI_MaxAccelerationXYZE() {
#endif // HAS_CLASSIC_JERK #endif // HAS_CLASSIC_JERK
void HMI_StepXYZE() { void HMI_StepXYZE() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Step_scaled)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Step_scaled)) {
checkkey = Step; checkkey = Step;
@ -1816,8 +1816,6 @@ void HMI_SDCardInit() { card.cdroot(); }
void MarlinUI::refresh() { /* Nothing to see here */ } void MarlinUI::refresh() { /* Nothing to see here */ }
#define ICON_Folder ICON_More
#if ENABLED(SCROLL_LONG_FILENAMES) #if ENABLED(SCROLL_LONG_FILENAMES)
char shift_name[LONG_FILENAME_LENGTH + 1]; char shift_name[LONG_FILENAME_LENGTH + 1];
@ -2077,7 +2075,7 @@ void Draw_Print_File_Menu() {
// Main Process // Main Process
void HMI_MainMenu() { void HMI_MainMenu() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) { if (encoder_diffState == ENCODER_DIFF_CW) {
@ -2137,7 +2135,7 @@ void HMI_MainMenu() {
// Select (and Print) File // Select (and Print) File
void HMI_SelectFile() { void HMI_SelectFile() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
const uint16_t hasUpDir = !card.flag.workDirIsRoot; const uint16_t hasUpDir = !card.flag.workDirIsRoot;
@ -2257,7 +2255,7 @@ void HMI_SelectFile() {
// Printing // Printing
void HMI_Printing() { void HMI_Printing() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (HMI_flag.done_confirm_flag) { if (HMI_flag.done_confirm_flag) {
@ -2335,7 +2333,7 @@ void HMI_Printing() {
// Pause and Stop window // Pause and Stop window
void HMI_PauseOrStop() { void HMI_PauseOrStop() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
@ -2417,7 +2415,7 @@ void Item_Adv_HomeOffsets(const uint8_t row) {
Item_AreaCopy(1, 76, 102, 87, row); // "Set Home Offsets" Item_AreaCopy(1, 76, 102, 87, row); // "Set Home Offsets"
#endif #endif
} }
Draw_Menu_Line(row, ICON_HomeOff); Draw_Menu_Line(row, ICON_HomeOffset);
Draw_More_Icon(row); Draw_More_Icon(row);
} }
@ -2434,7 +2432,7 @@ void Item_Adv_HomeOffsets(const uint8_t row) {
say_probe_offs_en(row); say_probe_offs_en(row);
#endif #endif
} }
Draw_Menu_Line(row, ICON_ProbeOff); Draw_Menu_Line(row, ICON_ProbeOffset);
Draw_More_Icon(row); Draw_More_Icon(row);
} }
@ -2529,12 +2527,12 @@ void Item_HomeOffs_X(const uint8_t row) {
} }
else { else {
#ifdef USE_STRING_TITLES #ifdef USE_STRING_TITLES
Draw_Menu_LineF(row, ICON_HomeOffX, GET_TEXT_F(MSG_HOME_OFFSET_X)); Draw_Menu_LineF(row, ICON_HomeOffsetX, GET_TEXT_F(MSG_HOME_OFFSET_X));
#else #else
say_home_offs_en(row); say_x_en(75, row); // "Home Offset X" say_home_offs_en(row); say_x_en(75, row); // "Home Offset X"
#endif #endif
} }
Draw_Menu_Line(row, ICON_HomeOff); Draw_Menu_Line(row, ICON_HomeOffset);
Draw_Edit_Signed_Float3(row, HMI_ValueStruct.Home_OffX_scaled); Draw_Edit_Signed_Float3(row, HMI_ValueStruct.Home_OffX_scaled);
} }
@ -2544,12 +2542,12 @@ void Item_HomeOffs_Y(const uint8_t row) {
} }
else { else {
#ifdef USE_STRING_TITLES #ifdef USE_STRING_TITLES
Draw_Menu_LineF(row, ICON_HomeOffY, GET_TEXT_F(MSG_HOME_OFFSET_Y)); Draw_Menu_LineF(row, ICON_HomeOffsetY, GET_TEXT_F(MSG_HOME_OFFSET_Y));
#else #else
say_home_offs_en(row); say_y_en(75, row); // "Home Offset X" say_home_offs_en(row); say_y_en(75, row); // "Home Offset X"
#endif #endif
} }
Draw_Menu_Line(row, ICON_HomeOff); Draw_Menu_Line(row, ICON_HomeOffset);
Draw_Edit_Signed_Float3(row, HMI_ValueStruct.Home_OffY_scaled); Draw_Edit_Signed_Float3(row, HMI_ValueStruct.Home_OffY_scaled);
} }
@ -2559,12 +2557,12 @@ void Item_HomeOffs_Z(const uint8_t row) {
} }
else { else {
#ifdef USE_STRING_TITLES #ifdef USE_STRING_TITLES
Draw_Menu_LineF(row, ICON_HomeOffZ, GET_TEXT_F(MSG_HOME_OFFSET_Z)); Draw_Menu_LineF(row, ICON_HomeOffsetZ, GET_TEXT_F(MSG_HOME_OFFSET_Z));
#else #else
say_home_offs_en(row); say_z_en(75, row); // "Home Offset Z" say_home_offs_en(row); say_z_en(75, row); // "Home Offset Z"
#endif #endif
} }
Draw_Menu_Line(row, ICON_HomeOff); Draw_Menu_Line(row, ICON_HomeOffset);
Draw_Edit_Signed_Float3(row, HMI_ValueStruct.Home_OffZ_scaled); Draw_Edit_Signed_Float3(row, HMI_ValueStruct.Home_OffZ_scaled);
} }
@ -2602,8 +2600,8 @@ void Draw_HomeOff_Menu() {
DWIN_Frame_TitleCopy(124, 431, 91, 12); // "Probe Offsets" DWIN_Frame_TitleCopy(124, 431, 91, 12); // "Probe Offsets"
#endif #endif
#ifdef USE_STRING_TITLES #ifdef USE_STRING_TITLES
Draw_Menu_LineF(1, ICON_ProbeOffX, GET_TEXT_F(MSG_ZPROBE_XOFFSET)); // Probe X Offset Draw_Menu_LineF(1, ICON_ProbeOffsetX, GET_TEXT_F(MSG_ZPROBE_XOFFSET)); // Probe X Offset
Draw_Menu_LineF(2, ICON_ProbeOffY, GET_TEXT_F(MSG_ZPROBE_YOFFSET)); // Probe Y Offset Draw_Menu_LineF(2, ICON_ProbeOffsetY, GET_TEXT_F(MSG_ZPROBE_YOFFSET)); // Probe Y Offset
#else #else
say_probe_offs_en(1); say_x_en(75, 1); // "Probe Offset X" say_probe_offs_en(1); say_x_en(75, 1); // "Probe Offset X"
say_probe_offs_en(2); say_y_en(75, 2); // "Probe Offset Y" say_probe_offs_en(2); say_y_en(75, 2); // "Probe Offset Y"
@ -2615,6 +2613,7 @@ void Draw_HomeOff_Menu() {
if (select_item.now != CASE_BACK) Draw_Menu_Cursor(select_item.now); if (select_item.now != CASE_BACK) Draw_Menu_Cursor(select_item.now);
} }
#endif #endif
#include "../../../libs/buzzer.h" #include "../../../libs/buzzer.h"
@ -2633,7 +2632,7 @@ void HMI_AudioFeedback(const bool success=true) {
// Prepare // Prepare
void HMI_Prepare() { void HMI_Prepare() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -2847,7 +2846,7 @@ void Draw_Temperature_Menu() {
// Control // Control
void HMI_Control() { void HMI_Control() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -2932,28 +2931,25 @@ void HMI_Control() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
#if HAS_ONESTEP_LEVELING #if HAS_ONESTEP_LEVELING
// Leveling // Leveling
void HMI_Leveling() { void HMI_Leveling() {
Popup_Window_Leveling(); Popup_Window_Leveling();
DWIN_UpdateLCD(); DWIN_UpdateLCD();
queue.inject_P(PSTR("G28O\nG29")); queue.inject_P(PSTR("G28O\nG29"));
} }
#endif #endif
// Axis Move // Axis Move
void HMI_AxisMove() { void HMI_AxisMove() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
#if ENABLED(PREVENT_COLD_EXTRUSION) #if ENABLED(PREVENT_COLD_EXTRUSION)
// popup window resume // popup window resume
if (HMI_flag.ETempTooLow_flag) { if (HMI_flag.cold_flag) {
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
HMI_flag.ETempTooLow_flag = false; HMI_flag.cold_flag = false;
HMI_ValueStruct.Move_E_scaled = current_position.e * MINUNITMULT; HMI_ValueStruct.Move_E_scaled = current_position.e * MINUNITMULT;
Draw_Move_Menu(); Draw_Move_Menu();
Draw_Edit_Float3(1, HMI_ValueStruct.Move_X_scaled); Draw_Edit_Float3(1, HMI_ValueStruct.Move_X_scaled);
@ -3003,7 +2999,7 @@ void HMI_AxisMove() {
case 4: // Extruder case 4: // Extruder
#if ENABLED(PREVENT_COLD_EXTRUSION) #if ENABLED(PREVENT_COLD_EXTRUSION)
if (thermalManager.tooColdToExtrude(0)) { if (thermalManager.tooColdToExtrude(0)) {
HMI_flag.ETempTooLow_flag = true; HMI_flag.cold_flag = true;
Popup_Window_ETempTooLow(); Popup_Window_ETempTooLow();
DWIN_UpdateLCD(); DWIN_UpdateLCD();
return; return;
@ -3022,7 +3018,7 @@ void HMI_AxisMove() {
// TemperatureID // TemperatureID
void HMI_Temperature() { void HMI_Temperature() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3449,7 +3445,7 @@ void Draw_Steps_Menu() {
// Motion // Motion
void HMI_Motion() { void HMI_Motion() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3497,7 +3493,7 @@ void HMI_Motion() {
// Advanced Settings // Advanced Settings
void HMI_AdvSet() { void HMI_AdvSet() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3594,7 +3590,7 @@ void HMI_AdvSet() {
// Home Offset // Home Offset
void HMI_HomeOff() { void HMI_HomeOff() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3633,7 +3629,7 @@ void HMI_AdvSet() {
} }
void HMI_HomeOffN(const AxisEnum axis, float &posScaled, const_float_t lo, const_float_t hi) { void HMI_HomeOffN(const AxisEnum axis, float &posScaled, const_float_t lo, const_float_t hi) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, posScaled)) { if (Apply_Encoder(encoder_diffState, posScaled)) {
@ -3654,9 +3650,10 @@ void HMI_AdvSet() {
#endif // HAS_HOME_OFFSET #endif // HAS_HOME_OFFSET
#if HAS_ONESTEP_LEVELING #if HAS_ONESTEP_LEVELING
// Probe Offset // Probe Offset
void HMI_ProbeOff() { void HMI_ProbeOff() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3689,7 +3686,7 @@ void HMI_AdvSet() {
} }
void HMI_ProbeOffN(float &posScaled, float &offset_ref) { void HMI_ProbeOffN(float &posScaled, float &offset_ref) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (Apply_Encoder(encoder_diffState, posScaled)) { if (Apply_Encoder(encoder_diffState, posScaled)) {
@ -3710,7 +3707,7 @@ void HMI_AdvSet() {
// Info // Info
void HMI_Info() { void HMI_Info() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
#if HAS_ONESTEP_LEVELING #if HAS_ONESTEP_LEVELING
@ -3727,7 +3724,7 @@ void HMI_Info() {
// Tune // Tune
void HMI_Tune() { void HMI_Tune() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3813,7 +3810,7 @@ void HMI_Tune() {
// PLA Preheat // PLA Preheat
void HMI_PLAPreheatSetting() { void HMI_PLAPreheatSetting() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3869,7 +3866,7 @@ void HMI_Tune() {
// ABS Preheat // ABS Preheat
void HMI_ABSPreheatSetting() { void HMI_ABSPreheatSetting() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3927,7 +3924,7 @@ void HMI_Tune() {
// Max Speed // Max Speed
void HMI_MaxSpeed() { void HMI_MaxSpeed() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3956,7 +3953,7 @@ void HMI_MaxSpeed() {
// Max Acceleration // Max Acceleration
void HMI_MaxAcceleration() { void HMI_MaxAcceleration() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -3986,7 +3983,7 @@ void HMI_MaxAcceleration() {
#if HAS_CLASSIC_JERK #if HAS_CLASSIC_JERK
// Max Jerk // Max Jerk
void HMI_MaxJerk() { void HMI_MaxJerk() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -4016,7 +4013,7 @@ void HMI_MaxAcceleration() {
// Step // Step
void HMI_Step() { void HMI_Step() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
@ -4172,7 +4169,7 @@ void EachMomentUpdate() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
while (recovery_flag) { while (recovery_flag) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
recovery_flag = false; recovery_flag = false;

@ -26,7 +26,7 @@
*/ */
#include "dwin_lcd.h" #include "dwin_lcd.h"
#include "rotary_encoder.h" #include "../common/encoder.h"
#include "../../../libs/BL24CXX.h" #include "../../../libs/BL24CXX.h"
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
@ -144,24 +144,21 @@ typedef struct {
typedef struct { typedef struct {
uint8_t language; uint8_t language;
bool pause_flag:1; bool pause_flag:1; // printing is paused
bool pause_action:1; bool pause_action:1; // flag a pause action
bool print_finish:1; bool print_finish:1; // print was finished
bool done_confirm_flag:1; bool select_flag:1; // Popup button selected
bool select_flag:1; bool home_flag:1; // homing in course
bool home_flag:1;
bool heat_flag:1; // 0: heating done 1: during heating bool heat_flag:1; // 0: heating done 1: during heating
bool done_confirm_flag:1;
#if ENABLED(PREVENT_COLD_EXTRUSION) #if ENABLED(PREVENT_COLD_EXTRUSION)
bool ETempTooLow_flag:1; bool cold_flag:1;
#endif
#if HAS_LEVELING
bool leveling_offset_flag:1;
#endif #endif
AxisEnum feedspeed_axis, acc_axis, jerk_axis, step_axis; AxisEnum feedspeed_axis, acc_axis, jerk_axis, step_axis;
} HMI_Flag_t; } HMI_flag_t;
extern HMI_value_t HMI_ValueStruct; extern HMI_value_t HMI_ValueStruct;
extern HMI_Flag_t HMI_flag; extern HMI_flag_t HMI_flag;
#if HAS_HOTEND || HAS_HEATED_BED #if HAS_HOTEND || HAS_HEATED_BED
// Popup message window // Popup message window

@ -35,94 +35,13 @@
#include "../../../inc/MarlinConfig.h" #include "../../../inc/MarlinConfig.h"
#include "dwin_lcd.h" #include "dwin_lcd.h"
#include <string.h> // for memset
//#define DEBUG_OUT 1 //#define DEBUG_OUT 1
#include "../../../core/debug_out.h" #include "../../../core/debug_out.h"
// Make sure DWIN_SendBuf is large enough to hold the largest string plus draw command and tail.
// Assume the narrowest (6 pixel) font and 2-byte gb2312-encoded characters.
uint8_t DWIN_SendBuf[11 + DWIN_WIDTH / 6 * 2] = { 0xAA };
uint8_t DWIN_BufTail[4] = { 0xCC, 0x33, 0xC3, 0x3C };
uint8_t databuf[26] = { 0 };
uint8_t receivedType;
int recnum = 0;
inline void DWIN_Byte(size_t &i, const uint16_t bval) {
DWIN_SendBuf[++i] = bval;
}
inline void DWIN_Word(size_t &i, const uint16_t wval) {
DWIN_SendBuf[++i] = wval >> 8;
DWIN_SendBuf[++i] = wval & 0xFF;
}
inline void DWIN_Long(size_t &i, const uint32_t lval) {
DWIN_SendBuf[++i] = (lval >> 24) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 16) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 8) & 0xFF;
DWIN_SendBuf[++i] = lval & 0xFF;
}
inline void DWIN_String(size_t &i, char * const string) {
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, strlen(string));
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
inline void DWIN_String(size_t &i, const __FlashStringHelper * string) {
if (!string) return;
const size_t len = strlen_P((PGM_P)string); // cast it to PGM_P, which is basically const char *, and measure it using the _P version of strlen.
if (len == 0) return;
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
// Send the data in the buffer and the packet end
inline void DWIN_Send(size_t &i) {
++i;
LOOP_L_N(n, i) { LCD_SERIAL.write(DWIN_SendBuf[n]); delayMicroseconds(1); }
LOOP_L_N(n, 4) { LCD_SERIAL.write(DWIN_BufTail[n]); delayMicroseconds(1); }
}
/*-------------------------------------- System variable function --------------------------------------*/ /*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail) void DWIN_Startup() {
bool DWIN_Handshake(void) {
#ifndef LCD_BAUDRATE
#define LCD_BAUDRATE 115200
#endif
LCD_SERIAL.begin(LCD_BAUDRATE);
const millis_t serial_connect_timeout = millis() + 1000UL;
while (!LCD_SERIAL.connected() && PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
size_t i = 0;
DWIN_Byte(i, 0x00);
DWIN_Send(i);
while (LCD_SERIAL.available() > 0 && recnum < (signed)sizeof(databuf)) {
databuf[recnum] = LCD_SERIAL.read();
// ignore the invalid data
if (databuf[0] != FHONE) { // prevent the program from running.
if (recnum > 0) {
recnum = 0;
ZERO(databuf);
}
continue;
}
delay(10);
recnum++;
}
return ( recnum >= 3
&& databuf[0] == FHONE
&& databuf[1] == '\0'
&& databuf[2] == 'O'
&& databuf[3] == 'K' );
}
void DWIN_Startup(void) {
DEBUG_ECHOPGM("\r\nDWIN handshake "); DEBUG_ECHOPGM("\r\nDWIN handshake ");
delay(750); // Delay here or init later in the boot process delay(750); // Delay here or init later in the boot process
if (DWIN_Handshake()) DEBUG_ECHOLNPGM("ok."); else DEBUG_ECHOLNPGM("error."); if (DWIN_Handshake()) DEBUG_ECHOLNPGM("ok."); else DEBUG_ECHOLNPGM("error.");
@ -133,255 +52,14 @@ void DWIN_Startup(void) {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
// Set the backlight luminance
// luminance: (0x00-0xFF)
void DWIN_Backlight_SetLuminance(const uint8_t luminance) {
size_t i = 0;
DWIN_Byte(i, 0x30);
DWIN_Byte(i, _MAX(luminance, 0x1F));
DWIN_Send(i);
}
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir) {
size_t i = 0;
DWIN_Byte(i, 0x34);
DWIN_Byte(i, 0x5A);
DWIN_Byte(i, 0xA5);
DWIN_Byte(i, dir);
DWIN_Send(i);
}
// Update display
void DWIN_UpdateLCD(void) {
size_t i = 0;
DWIN_Byte(i, 0x3D);
DWIN_Send(i);
}
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color) {
size_t i = 0;
DWIN_Byte(i, 0x01);
DWIN_Word(i, color);
DWIN_Send(i);
}
// Draw a point
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x02);
DWIN_Word(i, color);
DWIN_Byte(i, width);
DWIN_Byte(i, height);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x03);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color,
uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x05);
DWIN_Byte(i, mode);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x09);
DWIN_Byte(i, (mode << 7) | dir);
DWIN_Word(i, dis);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// widthAdjust: true=self-adjust character width; false=no adjustment
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, char *string) {
uint8_t widthAdjust = 0;
size_t i = 0;
DWIN_Byte(i, 0x11);
// Bit 7: widthAdjust
// Bit 6: bShow
// Bit 5-4: Unused (0)
// Bit 3-0: size
DWIN_Byte(i, (widthAdjust * 0x80) | (bShow * 0x40) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_String(i, string);
DWIN_Send(i);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint16_t value) {
size_t i = 0;
DWIN_Byte(i, 0x14);
// Bit 7: bshow
// Bit 6: 1 = signed; 0 = unsigned number;
// Bit 5: zeroFill
// Bit 4: zeroMode
// Bit 3-0: size
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, 0); // fNum
DWIN_Word(i, x);
DWIN_Word(i, y);
#if 0
for (char count = 0; count < 8; count++) {
DWIN_Byte(i, value);
value >>= 8;
if (!(value & 0xFF)) break;
}
#else
// Write a big-endian 64 bit integer
const size_t p = i + 1;
for (char count = 8; count--;) { // 7..0
++i;
DWIN_SendBuf[p + count] = value;
value >>= 8;
}
#endif
DWIN_Send(i);
}
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value) {
//uint8_t *fvalue = (uint8_t*)&value;
size_t i = 0;
DWIN_Byte(i, 0x14);
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, fNum);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Long(i, value);
/*
DWIN_Byte(i, fvalue[3]);
DWIN_Byte(i, fvalue[2]);
DWIN_Byte(i, fvalue[1]);
DWIN_Byte(i, fvalue[0]);
*/
DWIN_Send(i);
}
/*---------------------------------------- Picture related functions ----------------------------------------*/ /*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id) {
size_t i = 0;
DWIN_Word(i, 0x2200);
DWIN_Byte(i, id);
DWIN_Send(i); // AA 23 00 00 00 00 08 00 01 02 03 CC 33 C3 3C
}
// Draw an Icon // Draw an Icon
// libID: Icon library ID // libID: Icon library ID
// picID: Icon ID // picID: Icon ID
// x/y: Upper-left point // x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) { void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) {
NOMORE(x, DWIN_WIDTH - 1); DWIN_ICON_Show(true, false, false, libID, picID, x, y);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x23);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, 0x80 | libID);
//DWIN_Byte(i, libID);
DWIN_Byte(i, picID);
DWIN_Send(i);
}
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id) {
size_t i = 0;
DWIN_Byte(i, 0x25);
DWIN_Byte(i, n);
DWIN_Byte(i, id);
DWIN_Send(i);
} }
// Copy area from virtual display area to current screen // Copy area from virtual display area to current screen
@ -389,8 +67,7 @@ void DWIN_JPG_CacheToN(uint8_t n, uint8_t id) {
// xStart/yStart: Upper-left of virtual area // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area // xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point // x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
size_t i = 0; size_t i = 0;
DWIN_Byte(i, 0x27); DWIN_Byte(i, 0x27);
DWIN_Byte(i, 0x80 | cacheID); DWIN_Byte(i, 0x80 | cacheID);
@ -403,73 +80,4 @@ void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart,
DWIN_Send(i); DWIN_Send(i);
} }
// Animate a series of icons
// animID: Animation ID; 0x00-0x0F
// animate: true on; false off;
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs, uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x28);
DWIN_Word(i, x);
DWIN_Word(i, y);
// Bit 7: animation on or off
// Bit 6: start from begin or end
// Bit 5-4: unused (0)
// Bit 3-0: animID
DWIN_Byte(i, (animate * 0x80) | 0x40 | animID);
DWIN_Byte(i, libID);
DWIN_Byte(i, picIDs);
DWIN_Byte(i, picIDe);
DWIN_Byte(i, interval);
DWIN_Send(i);
}
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state) {
size_t i = 0;
DWIN_Byte(i, 0x29);
DWIN_Word(i, state);
DWIN_Send(i);
}
/*---------------------------------------- Memory functions ----------------------------------------*/
// The LCD has an additional 32KB SRAM and 16KB Flash
// Data can be written to the sram and save to one of the jpeg page files
// Write Data Memory
// command 0x31
// Type: Write memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Write data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Data: data
//
// Flash writing returns 0xA5 0x4F 0x4B
// Read Data Memory
// command 0x32
// Type: Read memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Read data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Length: leangth of data to read; 0x01-0xF0
//
// Response:
// Type, Address, Length, Data
// Write Picture Memory
// Write the contents of the 32KB SRAM data memory into the designated image memory space
// Issued: 0x5A, 0xA5, PIC_ID
// Response: 0xA5 0x4F 0x4B
//
// command 0x33
// 0x5A, 0xA5
// PicId: Picture Memory location, 0x00-0x0F
//
// Flash writing returns 0xA5 0x4F 0x4B
#endif // DWIN_CREALITY_LCD #endif // DWIN_CREALITY_LCD

@ -29,335 +29,22 @@
* @brief * @brief
********************************************************************************/ ********************************************************************************/
#include <stdint.h>
#define RECEIVED_NO_DATA 0x00
#define RECEIVED_SHAKE_HAND_ACK 0x01
#define FHONE 0xAA
#define DWIN_SCROLL_UP 2
#define DWIN_SCROLL_DOWN 3
#define DWIN_WIDTH 272 #define DWIN_WIDTH 272
#define DWIN_HEIGHT 480 #define DWIN_HEIGHT 480
// Picture ID #include "../common/dwin_api.h"
#define Language_English 1 #include "../common/dwin_set.h"
#define Language_Chinese 2 #include "../common/dwin_font.h"
#include "../common/dwin_color.h"
// ICON ID
#define ICON 7 // Icon set file 7.ICO
#define ICON_LOGO 0
#define ICON_Print_0 1
#define ICON_Print_1 2
#define ICON_Prepare_0 3
#define ICON_Prepare_1 4
#define ICON_Control_0 5
#define ICON_Control_1 6
#define ICON_Leveling_0 7
#define ICON_Leveling_1 8
#define ICON_HotendTemp 9
#define ICON_BedTemp 10
#define ICON_Speed 11
#define ICON_Zoffset 12
#define ICON_Back 13
#define ICON_File 14
#define ICON_PrintTime 15
#define ICON_RemainTime 16
#define ICON_Setup_0 17
#define ICON_Setup_1 18
#define ICON_Pause_0 19
#define ICON_Pause_1 20
#define ICON_Continue_0 21
#define ICON_Continue_1 22
#define ICON_Stop_0 23
#define ICON_Stop_1 24
#define ICON_Bar 25
#define ICON_More 26
#define ICON_Axis 27
#define ICON_CloseMotor 28
#define ICON_Homing 29
#define ICON_SetHome 30
#define ICON_PLAPreheat 31
#define ICON_ABSPreheat 32
#define ICON_Cool 33
#define ICON_Language 34
#define ICON_MoveX 35
#define ICON_MoveY 36
#define ICON_MoveZ 37
#define ICON_Extruder 38
#define ICON_Temperature 40
#define ICON_Motion 41
#define ICON_WriteEEPROM 42
#define ICON_ReadEEPROM 43
#define ICON_ResumeEEPROM 44
#define ICON_Info 45
#define ICON_SetEndTemp 46
#define ICON_SetBedTemp 47
#define ICON_FanSpeed 48
#define ICON_SetPLAPreheat 49
#define ICON_SetABSPreheat 50
#define ICON_MaxSpeed 51
#define ICON_MaxAccelerated 52
#define ICON_MaxJerk 53
#define ICON_Step 54
#define ICON_PrintSize 55
#define ICON_Version 56
#define ICON_Contact 57
#define ICON_StockConfiguraton 58
#define ICON_MaxSpeedX 59
#define ICON_MaxSpeedY 60
#define ICON_MaxSpeedZ 61
#define ICON_MaxSpeedE 62
#define ICON_MaxAccX 63
#define ICON_MaxAccY 64
#define ICON_MaxAccZ 65
#define ICON_MaxAccE 66
#define ICON_MaxSpeedJerkX 67
#define ICON_MaxSpeedJerkY 68
#define ICON_MaxSpeedJerkZ 69
#define ICON_MaxSpeedJerkE 70
#define ICON_StepX 71
#define ICON_StepY 72
#define ICON_StepZ 73
#define ICON_StepE 74
#define ICON_Setspeed 75
#define ICON_SetZOffset 76
#define ICON_Rectangle 77
#define ICON_BLTouch 78
#define ICON_TempTooLow 79
#define ICON_AutoLeveling 80
#define ICON_TempTooHigh 81
#define ICON_NoTips_C 82
#define ICON_NoTips_E 83
#define ICON_Continue_C 84
#define ICON_Continue_E 85
#define ICON_Cancel_C 86
#define ICON_Cancel_E 87
#define ICON_Confirm_C 88
#define ICON_Confirm_E 89
#define ICON_Info_0 90
#define ICON_Info_1 91
#define ICON_AdvSet ICON_Language
#define ICON_HomeOff ICON_AdvSet
#define ICON_HomeOffX ICON_StepX
#define ICON_HomeOffY ICON_StepY
#define ICON_HomeOffZ ICON_StepZ
#define ICON_ProbeOff ICON_AdvSet
#define ICON_ProbeOffX ICON_StepX
#define ICON_ProbeOffY ICON_StepY
#define ICON_PIDNozzle ICON_SetEndTemp
#define ICON_PIDbed ICON_SetBedTemp
/**
* 3-.0The font size, 0x00-0x09, corresponds to the font size below:
* 0x00=6*12 0x01=8*16 0x02=10*20 0x03=12*24 0x04=14*28
* 0x05=16*32 0x06=20*40 0x07=24*48 0x08=28*56 0x09=32*64
*/
#define font6x12 0x00
#define font8x16 0x01
#define font10x20 0x02
#define font12x24 0x03
#define font14x28 0x04
#define font16x32 0x05
#define font20x40 0x06
#define font24x48 0x07
#define font28x56 0x08
#define font32x64 0x09
#define DWIN_FONT_MENU font10x20 #define DWIN_FONT_MENU font10x20
#define DWIN_FONT_STAT font10x20 #define DWIN_FONT_STAT font10x20
#define DWIN_FONT_HEAD font10x20 #define DWIN_FONT_HEAD font10x20
#define DWIN_FONT_ALERT font14x28 #define DWIN_FONT_ALERT font14x28
// Color
#define Color_White 0xFFFF
#define Color_Yellow 0xFF0F
#define Color_Error_Red 0xB000 // Error!
#define Color_Bg_Red 0xF00F // Red background color
#define Color_Bg_Window 0x31E8 // Popup background color
#define Color_Bg_Blue 0x1125 // Dark blue background color
#define Color_Bg_Black 0x0841 // Black background color
#define Color_IconBlue 0x45FA // Lighter blue that matches icons/accents
#define Popup_Text_Color 0xD6BA // Popup font background color
#define Line_Color 0x3A6A // Split line color
#define Rectangle_Color 0xEE2F // Blue square cursor color
#define Percent_Color 0xFE29 // Percentage color
#define BarFill_Color 0x10E4 // Fill color of progress bar
#define Select_Color 0x33BB // Selected color
/*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail)
bool DWIN_Handshake(void);
// Common DWIN startup
void DWIN_Startup(void);
// Set the backlight luminance
// luminance: (0x00-0xFF)
void DWIN_Backlight_SetLuminance(const uint8_t luminance);
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir);
// Update display
void DWIN_UpdateLCD(void);
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color);
// Draw a point
// color: point color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y);
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a Horizontal line
// color: Line segment color
// xStart/yStart: Start point
// xLength: Line Length
inline void DWIN_Draw_HLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart + xLength - 1, yStart);
}
// Draw a Vertical line
// color: Line segment color
// xStart/yStart: Start point
// yLength: Line Length
inline void DWIN_Draw_VLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t yLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart, yStart + yLength - 1);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a box
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xSize/ySize: box size
inline void DWIN_Draw_Box(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xSize, uint16_t ySize) {
DWIN_Draw_Rectangle(mode, color, xStart, yStart, xStart + xSize - 1, yStart + ySize - 1);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, char *string);
class __FlashStringHelper;
inline void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const __FlashStringHelper *title) {
DWIN_Draw_String(bShow, size, color, bColor, x, y, (char *)title);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint16_t value);
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value);
/*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id);
// Draw an Icon
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y);
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id);
// Unzip the JPG picture to virtual display area #1
// id: Picture ID
inline void DWIN_JPG_CacheTo1(uint8_t id) { DWIN_JPG_CacheToN(1, id); }
// Copy area from virtual display area to current screen // Copy area from virtual display area to current screen
// cacheID: virtual area number // cacheID: virtual area number
// xStart/yStart: Upper-left of virtual area // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area // xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point // x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// Animate a series of icons
// animID: Animation ID up to 16
// animate: animation on or off
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs,
uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval);
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state);

@ -1,263 +0,0 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2020 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 <https://www.gnu.org/licenses/>.
*
*/
/*****************************************************************************
* @file lcd/e3v2/creality/rotary_encoder.cpp
* @author LEO / Creality3D
* @date 2019/07/06
* @version 2.0.1
* @brief Rotary encoder functions
*****************************************************************************/
#include "../../../inc/MarlinConfigPre.h"
#if ENABLED(DWIN_CREALITY_LCD)
#include "rotary_encoder.h"
#include "../../buttons.h"
#include "../../../MarlinCore.h"
#include "../../../HAL/shared/Delay.h"
#if HAS_BUZZER
#include "../../../libs/buzzer.h"
#endif
#include <stdlib.h>
#ifndef ENCODER_PULSES_PER_STEP
#define ENCODER_PULSES_PER_STEP 4
#endif
ENCODER_Rate EncoderRate;
// Buzzer
void Encoder_tick() {
#if PIN_EXISTS(BEEPER)
WRITE(BEEPER_PIN, HIGH);
delay(10);
WRITE(BEEPER_PIN, LOW);
#endif
}
// Encoder initialization
void Encoder_Configuration() {
#if BUTTON_EXISTS(EN1)
SET_INPUT_PULLUP(BTN_EN1);
#endif
#if BUTTON_EXISTS(EN2)
SET_INPUT_PULLUP(BTN_EN2);
#endif
#if BUTTON_EXISTS(ENC)
SET_INPUT_PULLUP(BTN_ENC);
#endif
#if PIN_EXISTS(BEEPER)
SET_OUTPUT(BEEPER_PIN);
#endif
}
// Analyze encoder value and return state
ENCODER_DiffState Encoder_ReceiveAnalyze() {
const millis_t now = millis();
static uint8_t lastEncoderBits;
uint8_t newbutton = 0;
static signed char temp_diff = 0;
ENCODER_DiffState temp_diffState = ENCODER_DIFF_NO;
if (BUTTON_PRESSED(EN1)) newbutton |= EN_A;
if (BUTTON_PRESSED(EN2)) newbutton |= EN_B;
if (BUTTON_PRESSED(ENC)) {
static millis_t next_click_update_ms;
if (ELAPSED(now, next_click_update_ms)) {
next_click_update_ms = millis() + 300;
Encoder_tick();
#if PIN_EXISTS(LCD_LED)
//LED_Action();
#endif
const bool was_waiting = wait_for_user;
wait_for_user = false;
return was_waiting ? ENCODER_DIFF_NO : ENCODER_DIFF_ENTER;
}
else return ENCODER_DIFF_NO;
}
if (newbutton != lastEncoderBits) {
switch (newbutton) {
case ENCODER_PHASE_0:
if (lastEncoderBits == ENCODER_PHASE_3) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_1) temp_diff--;
break;
case ENCODER_PHASE_1:
if (lastEncoderBits == ENCODER_PHASE_0) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_2) temp_diff--;
break;
case ENCODER_PHASE_2:
if (lastEncoderBits == ENCODER_PHASE_1) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_3) temp_diff--;
break;
case ENCODER_PHASE_3:
if (lastEncoderBits == ENCODER_PHASE_2) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_0) temp_diff--;
break;
}
lastEncoderBits = newbutton;
}
if (ABS(temp_diff) >= ENCODER_PULSES_PER_STEP) {
#if ENABLED(REVERSE_ENCODER_DIRECTION)
if (temp_diff > 0) temp_diffState = ENCODER_DIFF_CCW;
else temp_diffState = ENCODER_DIFF_CW;
#else
if (temp_diff > 0) temp_diffState = ENCODER_DIFF_CW;
else temp_diffState = ENCODER_DIFF_CCW;
#endif
#if ENABLED(ENCODER_RATE_MULTIPLIER)
millis_t ms = millis();
int32_t encoderMultiplier = 1;
// if must encoder rati multiplier
if (EncoderRate.enabled) {
const float abs_diff = ABS(temp_diff),
encoderMovementSteps = abs_diff / (ENCODER_PULSES_PER_STEP);
if (EncoderRate.lastEncoderTime) {
// Note that the rate is always calculated between two passes through the
// loop and that the abs of the temp_diff value is tracked.
const float encoderStepRate = encoderMovementSteps / float(ms - EncoderRate.lastEncoderTime) * 1000;
if (encoderStepRate >= ENCODER_100X_STEPS_PER_SEC) encoderMultiplier = 100;
else if (encoderStepRate >= ENCODER_10X_STEPS_PER_SEC) encoderMultiplier = 10;
#if ENCODER_5X_STEPS_PER_SEC
else if (encoderStepRate >= ENCODER_5X_STEPS_PER_SEC) encoderMultiplier = 5;
#endif
}
EncoderRate.lastEncoderTime = ms;
}
#else
constexpr int32_t encoderMultiplier = 1;
#endif
// EncoderRate.encoderMoveValue += (temp_diff * encoderMultiplier) / (ENCODER_PULSES_PER_STEP);
EncoderRate.encoderMoveValue = (temp_diff * encoderMultiplier) / (ENCODER_PULSES_PER_STEP);
if (EncoderRate.encoderMoveValue < 0) EncoderRate.encoderMoveValue = -EncoderRate.encoderMoveValue;
temp_diff = 0;
}
return temp_diffState;
}
#if PIN_EXISTS(LCD_LED)
// Take the low 24 valid bits 24Bit: G7 G6 G5 G4 G3 G2 G1 G0 R7 R6 R5 R4 R3 R2 R1 R0 B7 B6 B5 B4 B3 B2 B1 B0
uint16_t LED_DataArray[LED_NUM];
// LED light operation
void LED_Action() {
LED_Control(RGB_SCALE_WARM_WHITE,0x0F);
delay(30);
LED_Control(RGB_SCALE_WARM_WHITE,0x00);
}
// LED initialization
void LED_Configuration() {
SET_OUTPUT(LCD_LED_PIN);
}
// LED write data
void LED_WriteData() {
uint8_t tempCounter_LED, tempCounter_Bit;
for (tempCounter_LED = 0; tempCounter_LED < LED_NUM; tempCounter_LED++) {
for (tempCounter_Bit = 0; tempCounter_Bit < 24; tempCounter_Bit++) {
if (LED_DataArray[tempCounter_LED] & (0x800000 >> tempCounter_Bit)) {
LED_DATA_HIGH;
DELAY_NS(300);
LED_DATA_LOW;
DELAY_NS(200);
}
else {
LED_DATA_HIGH;
LED_DATA_LOW;
DELAY_NS(200);
}
}
}
}
// LED control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
void LED_Control(const uint8_t RGB_Scale, const uint8_t luminance) {
for (uint8_t i = 0; i < LED_NUM; i++) {
LED_DataArray[i] = 0;
switch (RGB_Scale) {
case RGB_SCALE_R10_G7_B5: LED_DataArray[i] = (luminance * 10/10) << 8 | (luminance * 7/10) << 16 | luminance * 5/10; break;
case RGB_SCALE_R10_G7_B4: LED_DataArray[i] = (luminance * 10/10) << 8 | (luminance * 7/10) << 16 | luminance * 4/10; break;
case RGB_SCALE_R10_G8_B7: LED_DataArray[i] = (luminance * 10/10) << 8 | (luminance * 8/10) << 16 | luminance * 7/10; break;
}
}
LED_WriteData();
}
// LED gradient control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
// change_Time: gradient time (ms)
void LED_GraduallyControl(const uint8_t RGB_Scale, const uint8_t luminance, const uint16_t change_Interval) {
struct { uint8_t g, r, b; } led_data[LED_NUM];
for (uint8_t i = 0; i < LED_NUM; i++) {
switch (RGB_Scale) {
case RGB_SCALE_R10_G7_B5:
led_data[i] = { luminance * 7/10, luminance * 10/10, luminance * 5/10 };
break;
case RGB_SCALE_R10_G7_B4:
led_data[i] = { luminance * 7/10, luminance * 10/10, luminance * 4/10 };
break;
case RGB_SCALE_R10_G8_B7:
led_data[i] = { luminance * 8/10, luminance * 10/10, luminance * 7/10 };
break;
}
}
struct { bool g, r, b; } led_flag = { false, false, false };
for (uint8_t i = 0; i < LED_NUM; i++) {
while (1) {
const uint8_t g = uint8_t(LED_DataArray[i] >> 16),
r = uint8_t(LED_DataArray[i] >> 8),
b = uint8_t(LED_DataArray[i]);
if (g == led_data[i].g) led_flag.g = true;
else LED_DataArray[i] += (g > led_data[i].g) ? -0x010000 : 0x010000;
if (r == led_data[i].r) led_flag.r = true;
else LED_DataArray[i] += (r > led_data[i].r) ? -0x000100 : 0x000100;
if (b == led_data[i].b) led_flag.b = true;
else LED_DataArray[i] += (b > led_data[i].b) ? -0x000001 : 0x000001;
LED_WriteData();
if (led_flag.r && led_flag.g && led_flag.b) break;
delay(change_Interval);
}
}
}
#endif // LCD_LED
#endif // DWIN_CREALITY_LCD

@ -1,94 +0,0 @@
/**
* Marlin 3D Printer Firmware
* Copyright (c) 2020 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 <https://www.gnu.org/licenses/>.
*
*/
#pragma once
/*****************************************************************************
* @file lcd/e3v2/creality/rotary_encoder.h
* @author LEO / Creality3D
* @date 2019/07/06
* @version 2.0.1
* @brief Rotary encoder functions
****************************************************************************/
#include "../../../inc/MarlinConfig.h"
/*********************** Encoder Set ***********************/
typedef struct {
bool enabled = false;
int encoderMoveValue = 0;
millis_t lastEncoderTime = 0;
} ENCODER_Rate;
extern ENCODER_Rate EncoderRate;
typedef enum {
ENCODER_DIFF_NO = 0, // no state
ENCODER_DIFF_CW = 1, // clockwise rotation
ENCODER_DIFF_CCW = 2, // counterclockwise rotation
ENCODER_DIFF_ENTER = 3 // click
} ENCODER_DiffState;
// Encoder initialization
void Encoder_Configuration();
// Analyze encoder value and return state
ENCODER_DiffState Encoder_ReceiveAnalyze();
/*********************** Encoder LED ***********************/
#if PIN_EXISTS(LCD_LED)
#define LED_NUM 4
#define LED_DATA_HIGH WRITE(LCD_LED_PIN, 1)
#define LED_DATA_LOW WRITE(LCD_LED_PIN, 0)
#define RGB_SCALE_R10_G7_B5 1
#define RGB_SCALE_R10_G7_B4 2
#define RGB_SCALE_R10_G8_B7 3
#define RGB_SCALE_NEUTRAL_WHITE RGB_SCALE_R10_G7_B5
#define RGB_SCALE_WARM_WHITE RGB_SCALE_R10_G7_B4
#define RGB_SCALE_COOL_WHITE RGB_SCALE_R10_G8_B7
extern unsigned int LED_DataArray[LED_NUM];
// LED light operation
void LED_Action();
// LED initialization
void LED_Configuration();
// LED write data
void LED_WriteData();
// LED control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
void LED_Control(const uint8_t RGB_Scale, const uint8_t luminance);
// LED gradient control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
// change_Time: gradient time (ms)
void LED_GraduallyControl(const uint8_t RGB_Scale, const uint8_t luminance, const uint16_t change_Interval);
#endif // LCD_LED

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.1 *
* Date: 2021/08/29 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,11 +15,18 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/10
*/
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
#if ENABLED(DWIN_CREALITY_LCD_ENHANCED) #if ENABLED(DWIN_CREALITY_LCD_ENHANCED)
@ -261,7 +269,7 @@ typedef struct { uint16_t x, y[2], w, h; } text_info_t;
void ICON_Button(const bool here, const int iconid, const frame_rect_t &ico, const text_info_t (&txt)[2]) { void ICON_Button(const bool here, const int iconid, const frame_rect_t &ico, const text_info_t (&txt)[2]) {
const bool cn = HMI_IsChinese(); const bool cn = HMI_IsChinese();
DWIN_ICON_Show(1, 0, 0, ICON, iconid + here, ico.x, ico.y); DWIN_ICON_Show(true, false, false, ICON, iconid + here, ico.x, ico.y);
if (here) DWIN_Draw_Rectangle(0, HMI_data.Highlight_Color, ico.x, ico.y, ico.x + ico.w - 1, ico.y + ico.h - 1); if (here) DWIN_Draw_Rectangle(0, HMI_data.Highlight_Color, ico.x, ico.y, ico.x + ico.w - 1, ico.y + ico.h - 1);
DWIN_Frame_AreaCopy(1, txt[cn].x, txt[cn].y[here], txt[cn].x + txt[cn].w - 1, txt[cn].y[here] + txt[cn].h - 1, ico.x + (ico.w - txt[cn].w) / 2, (ico.y + ico.h - 28) - txt[cn].h/2); DWIN_Frame_AreaCopy(1, txt[cn].x, txt[cn].y[here], txt[cn].x + txt[cn].w - 1, txt[cn].y[here] + txt[cn].h - 1, ico.x + (ico.w - txt[cn].w) / 2, (ico.y + ico.h - 28) - txt[cn].h/2);
} }
@ -438,17 +446,17 @@ void Draw_Back_First(const bool is_sel=true) {
if (is_sel) Draw_Menu_Cursor(0); if (is_sel) Draw_Menu_Cursor(0);
} }
inline ENCODER_DiffState get_encoder_state() { inline EncoderState get_encoder_state() {
static millis_t Encoder_ms = 0; static millis_t Encoder_ms = 0;
const millis_t ms = millis(); const millis_t ms = millis();
if (PENDING(ms, Encoder_ms)) return ENCODER_DIFF_NO; if (PENDING(ms, Encoder_ms)) return ENCODER_DIFF_NO;
const ENCODER_DiffState state = Encoder_ReceiveAnalyze(); const EncoderState state = Encoder_ReceiveAnalyze();
if (state != ENCODER_DIFF_NO) Encoder_ms = ms + ENCODER_WAIT_MS; if (state != ENCODER_DIFF_NO) Encoder_ms = ms + ENCODER_WAIT_MS;
return state; return state;
} }
template<typename T> template<typename T>
inline bool Apply_Encoder(const ENCODER_DiffState &encoder_diffState, T &valref) { inline bool Apply_Encoder(const EncoderState &encoder_diffState, T &valref) {
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
valref += EncoderRate.encoderMoveValue; valref += EncoderRate.encoderMoveValue;
else if (encoder_diffState == ENCODER_DIFF_CCW) else if (encoder_diffState == ENCODER_DIFF_CCW)
@ -762,15 +770,15 @@ void update_variable() {
// Tune page temperature update // Tune page temperature update
#if HAS_HOTEND #if HAS_HOTEND
if (_new_hotend_target) if (_new_hotend_target)
HotendTargetItem->Draw(CurrentMenu->line(HotendTargetItem->pos)); HotendTargetItem->draw(CurrentMenu->line(HotendTargetItem->pos));
#endif #endif
#if HAS_HEATED_BED #if HAS_HEATED_BED
if (_new_bed_target) if (_new_bed_target)
BedTargetItem->Draw(CurrentMenu->line(BedTargetItem->pos)); BedTargetItem->draw(CurrentMenu->line(BedTargetItem->pos));
#endif #endif
#if HAS_FAN #if HAS_FAN
if (_new_fanspeed) if (_new_fanspeed)
FanSpeedItem->Draw(CurrentMenu->line(FanSpeedItem->pos)); FanSpeedItem->draw(CurrentMenu->line(FanSpeedItem->pos));
#endif #endif
} }
@ -1098,7 +1106,7 @@ void Draw_Print_File_Menu() {
// Main Process // Main Process
void HMI_MainMenu() { void HMI_MainMenu() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) { if (encoder_diffState == ENCODER_DIFF_CW) {
@ -1147,7 +1155,7 @@ void HMI_MainMenu() {
// Select (and Print) File // Select (and Print) File
void HMI_SelectFile() { void HMI_SelectFile() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
const uint16_t hasUpDir = !card.flag.workDirIsRoot; const uint16_t hasUpDir = !card.flag.workDirIsRoot;
@ -1267,7 +1275,7 @@ void HMI_SelectFile() {
// Printing // Printing
void HMI_Printing() { void HMI_Printing() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
// Avoid flicker by updating only the previous menu // Avoid flicker by updating only the previous menu
if (encoder_diffState == ENCODER_DIFF_CW) { if (encoder_diffState == ENCODER_DIFF_CW) {
@ -1331,7 +1339,7 @@ void HMI_Printing() {
// Print done // Print done
void HMI_PrintDone() { void HMI_PrintDone() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
dwin_abort_flag = true; // Reset feedrate, return to Home dwin_abort_flag = true; // Reset feedrate, return to Home
@ -1341,7 +1349,7 @@ void HMI_PrintDone() {
// Pause or Stop popup // Pause or Stop popup
void HMI_PauseOrStop() { void HMI_PauseOrStop() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
@ -1404,13 +1412,13 @@ void Draw_Main_Area() {
#if ENABLED(ADVANCED_PAUSE_FEATURE) #if ENABLED(ADVANCED_PAUSE_FEATURE)
case FilamentPurge: Draw_Popup_FilamentPurge(); break; case FilamentPurge: Draw_Popup_FilamentPurge(); break;
#endif #endif
case Locked: LockScreen.Draw(); break; case Locked: lockScreen.draw(); break;
case Menu: case Menu:
case SetInt: case SetInt:
case SetPInt: case SetPInt:
case SetIntNoDraw: case SetIntNoDraw:
case SetFloat: case SetFloat:
case SetPFloat: CurrentMenu->Draw(); break; case SetPFloat: CurrentMenu->draw(); break;
default: break; default: break;
} }
} }
@ -1423,7 +1431,7 @@ void HMI_ReturnScreen() {
} }
void HMI_Popup() { void HMI_Popup() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
wait_for_user = false; wait_for_user = false;
@ -1560,7 +1568,7 @@ void EachMomentUpdate() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
while (recovery_flag) { while (recovery_flag) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
recovery_flag = false; recovery_flag = false;
@ -1714,7 +1722,7 @@ void Draw_Title(TitleClass* title) {
if (title->frameid) if (title->frameid)
DWIN_Frame_AreaCopy(title->frameid, title->frame.left, title->frame.top, title->frame.right, title->frame.bottom, 14, (TITLE_HEIGHT - (title->frame.bottom - title->frame.top)) / 2 - 1); DWIN_Frame_AreaCopy(title->frameid, title->frame.left, title->frame.top, title->frame.right, title->frame.bottom, 14, (TITLE_HEIGHT - (title->frame.bottom - title->frame.top)) / 2 - 1);
else else
DWIN_Draw_String(false, false, DWIN_FONT_HEAD, HMI_data.TitleTxt_color, HMI_data.TitleBg_color, 14, (TITLE_HEIGHT - DWINUI::Get_font_height(DWIN_FONT_HEAD)) / 2 - 1, title->caption); DWIN_Draw_String(false, DWIN_FONT_HEAD, HMI_data.TitleTxt_color, HMI_data.TitleBg_color, 14, (TITLE_HEIGHT - DWINUI::fontHeight(DWIN_FONT_HEAD)) / 2 - 1, title->caption);
} }
void Draw_Menu(MenuClass* menu) { void Draw_Menu(MenuClass* menu) {
@ -1725,7 +1733,7 @@ void Draw_Menu(MenuClass* menu) {
// Startup routines // Startup routines
void DWIN_Startup() { void DWIN_Startup() {
DWINUI::Init(); DWINUI::init();
DWINUI::onCursorDraw = Draw_Menu_Cursor; DWINUI::onCursorDraw = Draw_Menu_Cursor;
DWINUI::onCursorErase = Erase_Menu_Cursor; DWINUI::onCursorErase = Erase_Menu_Cursor;
DWINUI::onTitleDraw = Draw_Title; DWINUI::onTitleDraw = Draw_Title;
@ -1890,7 +1898,7 @@ void DWIN_Redraw_screen() {
} }
void HMI_FilamentPurge() { void HMI_FilamentPurge() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
Draw_Select_Highlight(false); Draw_Select_Highlight(false);
@ -1910,10 +1918,10 @@ void DWIN_Redraw_screen() {
#endif // ADVANCED_PAUSE_FEATURE #endif // ADVANCED_PAUSE_FEATURE
void HMI_LockScreen() { void HMI_LockScreen() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
LockScreen.onEncoderState(encoder_diffState); lockScreen.onEncoder(encoder_diffState);
if (LockScreen.isUnlocked()) { if (lockScreen.isUnlocked()) {
if (CurrentMenu == AdvancedSettings) if (CurrentMenu == AdvancedSettings)
Draw_AdvancedSettings_Menu(); Draw_AdvancedSettings_Menu();
else else
@ -1924,7 +1932,7 @@ void HMI_LockScreen() {
void DWIN_LockScreen(const bool flag) { void DWIN_LockScreen(const bool flag) {
HMI_flag.lock_flag = flag; HMI_flag.lock_flag = flag;
checkkey = Locked; checkkey = Locked;
LockScreen.Init(); lockScreen.init();
} }
// //
@ -1974,7 +1982,7 @@ void SetValueOnClick(uint8_t process, const int32_t lo, const int32_t hi, const
void SetValueOnClick(uint8_t process, const float lo, const float hi, uint8_t dp, const float val, void (*Apply)() = nullptr, void (*LiveUpdate)() = nullptr) { void SetValueOnClick(uint8_t process, const float lo, const float hi, uint8_t dp, const float val, void (*Apply)() = nullptr, void (*LiveUpdate)() = nullptr) {
const int32_t value = round(val * POW(10, dp)); const int32_t value = round(val * POW(10, dp));
SetOnClick(process, lo * POW(10, dp), hi * POW(10, dp), dp, value, Apply, LiveUpdate); SetOnClick(process, lo * POW(10, dp), hi * POW(10, dp), dp, value, Apply, LiveUpdate);
DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Selected_Color, 3, dp, VALX - dp * DWINUI::Get_font_width(DWIN_FONT_MENU), MBASE(CurrentMenu->line()), val); DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Selected_Color, 3, dp, VALX - dp * DWINUI::fontWidth(DWIN_FONT_MENU), MBASE(CurrentMenu->line()), val);
} }
// Generic onclick event for integer values // Generic onclick event for integer values
@ -2379,7 +2387,7 @@ void LevBedC () { LevBed(4); }
planner.synchronize(); planner.synchronize();
#ifdef MANUAL_PROBE_START_Z #ifdef MANUAL_PROBE_START_Z
const uint8_t line = CurrentMenu->line(MMeshMoveZItem->pos); const uint8_t line = CurrentMenu->line(MMeshMoveZItem->pos);
DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, 2, VALX - 2 * DWINUI::Get_font_width(DWIN_FONT_MENU), MBASE(line), MANUAL_PROBE_START_Z); DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, 2, VALX - 2 * DWINUI::fontWidth(DWIN_FONT_MENU), MBASE(line), MANUAL_PROBE_START_Z);
#endif #endif
} }
@ -2395,7 +2403,7 @@ void LevBedC () { LevBed(4); }
void ManualMeshContinue(){ void ManualMeshContinue(){
gcode.process_subcommands_now_P(PSTR("G29S2")); gcode.process_subcommands_now_P(PSTR("G29S2"));
planner.synchronize(); planner.synchronize();
MMeshMoveZItem->Draw(CurrentMenu->line(MMeshMoveZItem->pos)); MMeshMoveZItem->draw(CurrentMenu->line(MMeshMoveZItem->pos));
} }
void ManualMeshSave(){ void ManualMeshSave(){
@ -2515,7 +2523,7 @@ void onDrawPInt32Menu(MenuItemClass* menuitem, int8_t line) {
void onDrawFloatMenu(MenuItemClass* menuitem, int8_t line, uint8_t dp, const float value) { void onDrawFloatMenu(MenuItemClass* menuitem, int8_t line, uint8_t dp, const float value) {
onDrawMenuItem(menuitem, line); onDrawMenuItem(menuitem, line);
DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, dp, VALX - dp * DWINUI::Get_font_width(DWIN_FONT_MENU), MBASE(line), value); DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, dp, VALX - dp * DWINUI::fontWidth(DWIN_FONT_MENU), MBASE(line), value);
} }
void onDrawPFloatMenu(MenuItemClass* menuitem, int8_t line) { void onDrawPFloatMenu(MenuItemClass* menuitem, int8_t line) {
@ -2928,7 +2936,7 @@ void onDrawStepsZ(MenuItemClass* menuitem, int8_t line) {
// Generic menu control using the encoder // Generic menu control using the encoder
void HMI_Menu() { void HMI_Menu() {
ENCODER_DiffState encoder_diffState = get_encoder_state(); EncoderState encoder_diffState = get_encoder_state();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
if (CurrentMenu != nullptr) CurrentMenu->onClick(); if (CurrentMenu != nullptr) CurrentMenu->onClick();
@ -2943,7 +2951,7 @@ void HMI_Menu() {
// 1 : live change // 1 : live change
// 2 : apply change // 2 : apply change
int8_t HMI_GetIntNoDraw(const int32_t lo, const int32_t hi) { int8_t HMI_GetIntNoDraw(const int32_t lo, const int32_t hi) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_value.Value)) { if (Apply_Encoder(encoder_diffState, HMI_value.Value)) {
EncoderRate.enabled = false; EncoderRate.enabled = false;
@ -2964,7 +2972,7 @@ int8_t HMI_GetIntNoDraw(const int32_t lo, const int32_t hi) {
// 1 : live change // 1 : live change
// 2 : apply change // 2 : apply change
int8_t HMI_GetInt(const int32_t lo, const int32_t hi) { int8_t HMI_GetInt(const int32_t lo, const int32_t hi) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_value.Value)) { if (Apply_Encoder(encoder_diffState, HMI_value.Value)) {
EncoderRate.enabled = false; EncoderRate.enabled = false;
@ -3018,16 +3026,16 @@ void HMI_SetPInt() {
// 1 : live change // 1 : live change
// 2 : apply change // 2 : apply change
int8_t HMI_GetFloat(uint8_t dp, int32_t lo, int32_t hi) { int8_t HMI_GetFloat(uint8_t dp, int32_t lo, int32_t hi) {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_value.Value)) { if (Apply_Encoder(encoder_diffState, HMI_value.Value)) {
EncoderRate.enabled = false; EncoderRate.enabled = false;
DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, dp, VALX - dp * DWINUI::Get_font_width(DWIN_FONT_MENU), MBASE(CurrentMenu->line()), HMI_value.Value / POW(10, dp)); DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, dp, VALX - dp * DWINUI::fontWidth(DWIN_FONT_MENU), MBASE(CurrentMenu->line()), HMI_value.Value / POW(10, dp));
checkkey = Menu; checkkey = Menu;
return 2; return 2;
} }
LIMIT(HMI_value.Value, lo, hi); LIMIT(HMI_value.Value, lo, hi);
DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Selected_Color, 3, dp, VALX - dp * DWINUI::Get_font_width(DWIN_FONT_MENU), MBASE(CurrentMenu->line()), HMI_value.Value / POW(10, dp)); DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Selected_Color, 3, dp, VALX - dp * DWINUI::fontWidth(DWIN_FONT_MENU), MBASE(CurrentMenu->line()), HMI_value.Value / POW(10, dp));
return 1; return 1;
} }
return 0; return 0;
@ -3098,7 +3106,7 @@ void Draw_Prepare_Menu() {
#endif #endif
ADDMENUITEM(ICON_Language, PSTR("UI Language"), onDrawLanguage, SetLanguage); ADDMENUITEM(ICON_Language, PSTR("UI Language"), onDrawLanguage, SetLanguage);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_LevBedCorners_Menu() { void Draw_LevBedCorners_Menu() {
@ -3116,7 +3124,7 @@ void Draw_LevBedCorners_Menu() {
ADDMENUITEM(ICON_Axis, GET_TEXT(MSG_LEVBED_BL), onDrawMenuItem, LevBedBL); ADDMENUITEM(ICON_Axis, GET_TEXT(MSG_LEVBED_BL), onDrawMenuItem, LevBedBL);
ADDMENUITEM(ICON_Axis, GET_TEXT(MSG_LEVBED_C ), onDrawMenuItem, LevBedC ); ADDMENUITEM(ICON_Axis, GET_TEXT(MSG_LEVBED_C ), onDrawMenuItem, LevBedC );
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_Control_Menu() { void Draw_Control_Menu() {
@ -3138,7 +3146,7 @@ void Draw_Control_Menu() {
ADDMENUITEM(ICON_AdvSet, GET_TEXT(MSG_ADVANCED_SETTINGS), onDrawSubMenu, Draw_AdvancedSettings_Menu); ADDMENUITEM(ICON_AdvSet, GET_TEXT(MSG_ADVANCED_SETTINGS), onDrawSubMenu, Draw_AdvancedSettings_Menu);
ADDMENUITEM(ICON_Info, GET_TEXT(MSG_INFO_SCREEN), onDrawInfoSubMenu, Goto_InfoMenu); ADDMENUITEM(ICON_Info, GET_TEXT(MSG_INFO_SCREEN), onDrawInfoSubMenu, Goto_InfoMenu);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_AdvancedSettings_Menu() { void Draw_AdvancedSettings_Menu() {
@ -3176,7 +3184,7 @@ void Draw_AdvancedSettings_Menu() {
#endif #endif
ADDMENUITEM(ICON_Lock, F("Lock Screen"), onDrawMenuItem, Goto_LockScreen); ADDMENUITEM(ICON_Lock, F("Lock Screen"), onDrawMenuItem, Goto_LockScreen);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_Move_Menu() { void Draw_Move_Menu() {
@ -3194,7 +3202,7 @@ void Draw_Move_Menu() {
ADDMENUITEM_P(ICON_Extruder, GET_TEXT(MSG_MOVE_E), onDrawMoveE, SetMoveE, &current_position.e); ADDMENUITEM_P(ICON_Extruder, GET_TEXT(MSG_MOVE_E), onDrawMoveE, SetMoveE, &current_position.e);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
if (!all_axes_trusted()) ui.set_status_P(PSTR("WARNING: position is unknow")); if (!all_axes_trusted()) ui.set_status_P(PSTR("WARNING: position is unknow"));
} }
@ -3211,7 +3219,7 @@ void Draw_Move_Menu() {
ADDMENUITEM_P(ICON_HomeOffsetY, GET_TEXT(MSG_HOME_OFFSET_Y), onDrawPFloatMenu, SetHomeOffsetY, &home_offset[Y_AXIS]); ADDMENUITEM_P(ICON_HomeOffsetY, GET_TEXT(MSG_HOME_OFFSET_Y), onDrawPFloatMenu, SetHomeOffsetY, &home_offset[Y_AXIS]);
ADDMENUITEM_P(ICON_HomeOffsetZ, GET_TEXT(MSG_HOME_OFFSET_Z), onDrawPFloatMenu, SetHomeOffsetZ, &home_offset[Z_AXIS]); ADDMENUITEM_P(ICON_HomeOffsetZ, GET_TEXT(MSG_HOME_OFFSET_Z), onDrawPFloatMenu, SetHomeOffsetZ, &home_offset[Z_AXIS]);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3229,7 +3237,7 @@ void Draw_Move_Menu() {
ADDMENUITEM_P(ICON_ProbeOffsetZ, GET_TEXT(MSG_ZPROBE_ZOFFSET), onDrawPFloat2Menu, SetProbeOffsetZ, &probe.offset.z); ADDMENUITEM_P(ICON_ProbeOffsetZ, GET_TEXT(MSG_ZPROBE_ZOFFSET), onDrawPFloat2Menu, SetProbeOffsetZ, &probe.offset.z);
ADDMENUITEM(ICON_ProbeTest, GET_TEXT(MSG_M48_TEST), onDrawMenuItem, ProbeTest); ADDMENUITEM(ICON_ProbeTest, GET_TEXT(MSG_M48_TEST), onDrawMenuItem, ProbeTest);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3256,7 +3264,7 @@ void Draw_Move_Menu() {
ADDMENUITEM_P(ICON_FilUnload, GET_TEXT(MSG_FILAMENT_UNLOAD), onDrawPFloatMenu, SetFilUnload, &fc_settings[0].unload_length); ADDMENUITEM_P(ICON_FilUnload, GET_TEXT(MSG_FILAMENT_UNLOAD), onDrawPFloatMenu, SetFilUnload, &fc_settings[0].unload_length);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif // HAS_FILAMENT_SENSOR #endif // HAS_FILAMENT_SENSOR
@ -3288,7 +3296,7 @@ void Draw_SelectColors_Menu() {
ADDMENUITEM_P(0, "Indicator value", onDrawSelColorItem, SelColor, &HMI_data.Indicator_Color); ADDMENUITEM_P(0, "Indicator value", onDrawSelColorItem, SelColor, &HMI_data.Indicator_Color);
ADDMENUITEM_P(0, "Coordinate value", onDrawSelColorItem, SelColor, &HMI_data.Coordinate_Color); ADDMENUITEM_P(0, "Coordinate value", onDrawSelColorItem, SelColor, &HMI_data.Coordinate_Color);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_GetColor_Menu() { void Draw_GetColor_Menu() {
@ -3304,7 +3312,7 @@ void Draw_GetColor_Menu() {
ADDMENUITEM(1, "Green", onDrawGetColorItem, SetRGBColor); ADDMENUITEM(1, "Green", onDrawGetColorItem, SetRGBColor);
ADDMENUITEM(2, "Blue", onDrawGetColorItem, SetRGBColor); ADDMENUITEM(2, "Blue", onDrawGetColorItem, SetRGBColor);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
DWIN_Draw_Rectangle(1, *HMI_value.P_Int, 20, 315, DWIN_WIDTH - 20, 335); DWIN_Draw_Rectangle(1, *HMI_value.P_Int, 20, 315, DWIN_WIDTH - 20, 335);
} }
@ -3338,7 +3346,7 @@ void Draw_Tune_Menu() {
ADDMENUITEM_P(ICON_Brightness, F("LCD Brightness"), onDrawPInt8Menu, SetBrightness, &ui.brightness); ADDMENUITEM_P(ICON_Brightness, F("LCD Brightness"), onDrawPInt8Menu, SetBrightness, &ui.brightness);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_Motion_Menu() { void Draw_Motion_Menu() {
@ -3357,7 +3365,7 @@ void Draw_Motion_Menu() {
ADDMENUITEM(ICON_Step, GET_TEXT(MSG_STEPS_PER_MM), onDrawSteps, Draw_Steps_Menu); ADDMENUITEM(ICON_Step, GET_TEXT(MSG_STEPS_PER_MM), onDrawSteps, Draw_Steps_Menu);
ADDMENUITEM_P(ICON_Flow, GET_TEXT(MSG_FLOW), onDrawPIntMenu, SetFlow, &planner.flow_percentage[0]); ADDMENUITEM_P(ICON_Flow, GET_TEXT(MSG_FLOW), onDrawPIntMenu, SetFlow, &planner.flow_percentage[0]);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#if ENABLED(ADVANCED_PAUSE_FEATURE) #if ENABLED(ADVANCED_PAUSE_FEATURE)
@ -3376,7 +3384,7 @@ void Draw_Motion_Menu() {
ADDMENUITEM(ICON_FilLoad, GET_TEXT(MSG_FILAMENTLOAD), onDrawMenuItem, LoadFilament); ADDMENUITEM(ICON_FilLoad, GET_TEXT(MSG_FILAMENTLOAD), onDrawMenuItem, LoadFilament);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3394,7 +3402,7 @@ void Draw_Motion_Menu() {
ADDMENUITEM(ICON_Axis, GET_TEXT(MSG_UBL_CONTINUE_MESH), onDrawMenuItem, ManualMeshContinue); ADDMENUITEM(ICON_Axis, GET_TEXT(MSG_UBL_CONTINUE_MESH), onDrawMenuItem, ManualMeshContinue);
ADDMENUITEM(ICON_MeshSave, GET_TEXT(MSG_UBL_SAVE_MESH), onDrawMenuItem, ManualMeshSave); ADDMENUITEM(ICON_MeshSave, GET_TEXT(MSG_UBL_SAVE_MESH), onDrawMenuItem, ManualMeshSave);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3420,7 +3428,7 @@ void Draw_Motion_Menu() {
ADDMENUITEM(ICON_WriteEEPROM, GET_TEXT(MSG_STORE_EEPROM), onDrawWriteEeprom, WriteEeprom); ADDMENUITEM(ICON_WriteEEPROM, GET_TEXT(MSG_STORE_EEPROM), onDrawWriteEeprom, WriteEeprom);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_Preheat1_Menu() { void Draw_Preheat1_Menu() {
@ -3471,7 +3479,7 @@ void Draw_Temperature_Menu() {
#endif #endif
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_MaxSpeed_Menu() { void Draw_MaxSpeed_Menu() {
@ -3489,7 +3497,7 @@ void Draw_MaxSpeed_Menu() {
ADDMENUITEM_P(ICON_MaxSpeedE, GET_TEXT(MSG_MAXSPEED_E), onDrawMaxSpeedE, SetMaxSpeedE, &planner.settings.max_feedrate_mm_s[Z_AXIS]); ADDMENUITEM_P(ICON_MaxSpeedE, GET_TEXT(MSG_MAXSPEED_E), onDrawMaxSpeedE, SetMaxSpeedE, &planner.settings.max_feedrate_mm_s[Z_AXIS]);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
void Draw_MaxAccel_Menu() { void Draw_MaxAccel_Menu() {
@ -3507,7 +3515,7 @@ void Draw_MaxAccel_Menu() {
ADDMENUITEM_P(ICON_MaxAccE, GET_TEXT(MSG_AMAX_E), onDrawMaxAccelE, SetMaxAccelE, &planner.settings.max_acceleration_mm_per_s2[E_AXIS]); ADDMENUITEM_P(ICON_MaxAccE, GET_TEXT(MSG_AMAX_E), onDrawMaxAccelE, SetMaxAccelE, &planner.settings.max_acceleration_mm_per_s2[E_AXIS]);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#if HAS_CLASSIC_JERK #if HAS_CLASSIC_JERK
@ -3526,7 +3534,7 @@ void Draw_MaxAccel_Menu() {
ADDMENUITEM_P(ICON_MaxSpeedJerkE, GET_TEXT(MSG_VE_JERK), onDrawMaxJerkE, SetMaxJerkE, &planner.max_jerk[E_AXIS]); ADDMENUITEM_P(ICON_MaxSpeedJerkE, GET_TEXT(MSG_VE_JERK), onDrawMaxJerkE, SetMaxJerkE, &planner.max_jerk[E_AXIS]);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3545,7 +3553,7 @@ void Draw_Steps_Menu() {
ADDMENUITEM_P(ICON_StepE, GET_TEXT(MSG_E_STEPS), onDrawStepsE, SetStepsE, &planner.settings.axis_steps_per_mm[E_AXIS]); ADDMENUITEM_P(ICON_StepE, GET_TEXT(MSG_E_STEPS), onDrawStepsE, SetStepsE, &planner.settings.axis_steps_per_mm[E_AXIS]);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#if HAS_HOTEND #if HAS_HOTEND
@ -3567,7 +3575,7 @@ void Draw_Steps_Menu() {
ADDMENUITEM(ICON_WriteEEPROM, GET_TEXT(MSG_STORE_EEPROM), onDrawMenuItem, WriteEeprom); ADDMENUITEM(ICON_WriteEEPROM, GET_TEXT(MSG_STORE_EEPROM), onDrawMenuItem, WriteEeprom);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3590,7 +3598,7 @@ void Draw_Steps_Menu() {
ADDMENUITEM(ICON_WriteEEPROM, GET_TEXT(MSG_STORE_EEPROM), onDrawMenuItem, WriteEeprom); ADDMENUITEM(ICON_WriteEEPROM, GET_TEXT(MSG_STORE_EEPROM), onDrawMenuItem, WriteEeprom);
#endif #endif
} }
CurrentMenu->Draw(); CurrentMenu->draw();
} }
#endif #endif
@ -3607,7 +3615,7 @@ void Draw_Steps_Menu() {
ADDMENUITEM(ICON_MoveZ0, F("Move Z to Home"), onDrawMenuItem, SetMoveZto0); ADDMENUITEM(ICON_MoveZ0, F("Move Z to Home"), onDrawMenuItem, SetMoveZto0);
ADDMENUITEM_P(ICON_Zoffset, GET_TEXT(MSG_ZPROBE_ZOFFSET), onDrawPFloat2Menu, SetZOffset, &BABY_Z_VAR); ADDMENUITEM_P(ICON_Zoffset, GET_TEXT(MSG_ZPROBE_ZOFFSET), onDrawPFloat2Menu, SetZOffset, &BABY_Z_VAR);
} }
CurrentMenu->Draw(); CurrentMenu->draw();
if (!axis_is_trusted(Z_AXIS)) ui.set_status_P(PSTR("WARNING: Z position is unknow, move Z to home")); if (!axis_is_trusted(Z_AXIS)) ui.set_status_P(PSTR("WARNING: Z position is unknow, move Z to home"));
} }
#endif #endif

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.1 *
* Date: 2021/08/29 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,15 +15,22 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
#pragma once #pragma once
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/08
*/
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
#include "dwinui.h" #include "dwinui.h"
#include "rotary_encoder.h" #include "../common/encoder.h"
#include "../../../libs/BL24CXX.h" #include "../../../libs/BL24CXX.h"
#if ANY(HAS_HOTEND, HAS_HEATED_BED, HAS_FAN) && PREHEAT_COUNT #if ANY(HAS_HOTEND, HAS_HEATED_BED, HAS_FAN) && PREHEAT_COUNT
@ -79,11 +87,6 @@ enum pidresult_t : uint8_t {
PID_DONE PID_DONE
}; };
// Picture ID
#define Start_Process 0
#define Language_English 1
#define Language_Chinese 2
#define DWIN_CHINESE 123 #define DWIN_CHINESE 123
#define DWIN_ENGLISH 0 #define DWIN_ENGLISH 0
@ -120,12 +123,16 @@ typedef struct {
uint16_t Barfill_Color = Def_Barfill_Color; uint16_t Barfill_Color = Def_Barfill_Color;
uint16_t Indicator_Color = Def_Indicator_Color; uint16_t Indicator_Color = Def_Indicator_Color;
uint16_t Coordinate_Color = Def_Coordinate_Color; uint16_t Coordinate_Color = Def_Coordinate_Color;
TERN_(HAS_HOTEND, int16_t HotendPidT = PREHEAT_1_TEMP_HOTEND); #if HAS_HOTEND
TERN_(HAS_HOTEND, int16_t PidCycles = 10); int16_t HotendPidT = PREHEAT_1_TEMP_HOTEND;
int16_t PidCycles = 10;
#endif
#ifdef PREHEAT_1_TEMP_BED #ifdef PREHEAT_1_TEMP_BED
int16_t BedPidT = PREHEAT_1_TEMP_BED; int16_t BedPidT = PREHEAT_1_TEMP_BED;
#endif #endif
TERN_(PREVENT_COLD_EXTRUSION, int16_t ExtMinT = EXTRUDE_MINTEMP); #if ENABLED(PREVENT_COLD_EXTRUSION)
int16_t ExtMinT = EXTRUDE_MINTEMP;
#endif
} HMI_data_t; } HMI_data_t;
typedef struct { typedef struct {
@ -150,7 +157,9 @@ void DWIN_Popup_Confirm(uint8_t icon, const char * const msg1, const char * cons
#if HAS_HOTEND || HAS_HEATED_BED #if HAS_HOTEND || HAS_HEATED_BED
void DWIN_Popup_Temperature(const bool toohigh); void DWIN_Popup_Temperature(const bool toohigh);
#endif #endif
TERN_(HAS_HOTEND, void Popup_Window_ETempTooLow()); #if HAS_HOTEND
void Popup_Window_ETempTooLow();
#endif
void Popup_Window_Resume(); void Popup_Window_Resume();
// SD Card // SD Card
@ -179,7 +188,6 @@ void HMI_AudioFeedback(const bool success=true);
void EachMomentUpdate(); void EachMomentUpdate();
void update_variable(); void update_variable();
void DWIN_HandleScreen(); void DWIN_HandleScreen();
void DWIN_Startup();
void DWIN_Update(); void DWIN_Update();
void DWIN_DrawStatusLine(const uint16_t color, const uint16_t bgcolor, const char *text); void DWIN_DrawStatusLine(const uint16_t color, const uint16_t bgcolor, const char *text);
void DWIN_StatusChanged(const char * const text); void DWIN_StatusChanged(const char * const text);
@ -229,27 +237,41 @@ void Draw_AdvancedSettings_Menu();
void Draw_Prepare_Menu(); void Draw_Prepare_Menu();
void Draw_Move_Menu(); void Draw_Move_Menu();
void Draw_LevBedCorners_Menu(); void Draw_LevBedCorners_Menu();
TERN_(HAS_HOME_OFFSET, void Draw_HomeOffset_Menu()); #if HAS_HOME_OFFSET
TERN_(HAS_BED_PROBE, void Draw_ProbeSet_Menu()); void Draw_HomeOffset_Menu();
TERN_(HAS_FILAMENT_SENSOR, void Draw_FilSet_Menu()); #endif
#if HAS_BED_PROBE
void Draw_ProbeSet_Menu();
#endif
#if HAS_FILAMENT_SENSOR
void Draw_FilSet_Menu();
#endif
void Draw_SelectColors_Menu(); void Draw_SelectColors_Menu();
void Draw_GetColor_Menu(); void Draw_GetColor_Menu();
void Draw_Tune_Menu(); void Draw_Tune_Menu();
void Draw_Motion_Menu(); void Draw_Motion_Menu();
TERN_(ADVANCED_PAUSE_FEATURE, void Draw_FilamentMan_Menu()); #if ENABLED(ADVANCED_PAUSE_FEATURE)
TERN_(MESH_BED_LEVELING, void Draw_ManualMesh_Menu()); void Draw_FilamentMan_Menu();
#endif
#if ENABLED(MESH_BED_LEVELING)
void Draw_ManualMesh_Menu();
#endif
#if HAS_HOTEND #if HAS_HOTEND
void Draw_Preheat1_Menu(); void Draw_Preheat1_Menu();
void Draw_Preheat2_Menu(); void Draw_Preheat2_Menu();
void Draw_Preheat3_Menu(); void Draw_Preheat3_Menu();
void Draw_HotendPID_Menu();
#endif #endif
void Draw_Temperature_Menu(); void Draw_Temperature_Menu();
void Draw_MaxSpeed_Menu(); void Draw_MaxSpeed_Menu();
void Draw_MaxAccel_Menu(); void Draw_MaxAccel_Menu();
TERN_(HAS_CLASSIC_JERK, void Draw_MaxJerk_Menu()); #if HAS_CLASSIC_JERK
void Draw_MaxJerk_Menu();
#endif
void Draw_Steps_Menu(); void Draw_Steps_Menu();
TERN_(HAS_HOTEND, void Draw_HotendPID_Menu()); #if HAS_HEATED_BED
TERN_(HAS_HEATED_BED, void Draw_BedPID_Menu()); void Draw_BedPID_Menu();
#endif
#if EITHER(HAS_BED_PROBE, BABYSTEPPING) #if EITHER(HAS_BED_PROBE, BABYSTEPPING)
void Draw_ZOffsetWiz_Menu(); void Draw_ZOffsetWiz_Menu();
#endif #endif

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.1 *
* Date: 2021/08/29 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,18 +15,17 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
/******************************************************************************** /**
* @file lcd/e3v2/enhanced/dwin_lcd.cpp * DWIN UI Enhanced implementation
* @author LEO / Creality3D - Enhanced by Miguel A. Risco-Castillo * Author: Miguel A. Risco-Castillo
* @date 2021/09/08 * Version: 3.6.3
* @version 2.2.1 * Date: 2021/09/08
* @brief DWIN screen control functions */
********************************************************************************/
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
@ -34,297 +34,6 @@
#include "../../../inc/MarlinConfig.h" #include "../../../inc/MarlinConfig.h"
#include "dwin_lcd.h" #include "dwin_lcd.h"
#include <string.h> // for memset
//#define DEBUG_OUT 1
#include "../../../core/debug_out.h"
// Make sure DWIN_SendBuf is large enough to hold the largest string plus draw command and tail.
// Assume the narrowest (6 pixel) font and 2-byte gb2312-encoded characters.
uint8_t DWIN_SendBuf[11 + DWIN_DataLength] = { 0xAA };
uint8_t DWIN_BufTail[4] = { 0xCC, 0x33, 0xC3, 0x3C };
uint8_t databuf[26] = { 0 };
uint8_t receivedType;
int recnum = 0;
inline void DWIN_Byte(size_t &i, const uint16_t bval) {
DWIN_SendBuf[++i] = bval;
}
inline void DWIN_Word(size_t &i, const uint16_t wval) {
DWIN_SendBuf[++i] = wval >> 8;
DWIN_SendBuf[++i] = wval & 0xFF;
}
inline void DWIN_Long(size_t &i, const uint32_t lval) {
DWIN_SendBuf[++i] = (lval >> 24) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 16) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 8) & 0xFF;
DWIN_SendBuf[++i] = lval & 0xFF;
}
inline void DWIN_String(size_t &i, const char * const string, uint16_t rlimit = 0xFFFF) {
if (!string) return;
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, _MIN(strlen(string), rlimit));
if (len == 0) return;
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
inline void DWIN_String(size_t &i, const __FlashStringHelper * string, uint16_t rlimit = 0xFFFF) {
if (!string) return;
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, _MIN(rlimit, strlen_P((PGM_P)string))); // cast it to PGM_P, which is basically const char *, and measure it using the _P version of strlen.
if (len == 0) return;
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
// Send the data in the buffer and the packet end
inline void DWIN_Send(size_t &i) {
++i;
LOOP_L_N(n, i) { LCD_SERIAL.write(DWIN_SendBuf[n]); delayMicroseconds(1); }
LOOP_L_N(n, 4) { LCD_SERIAL.write(DWIN_BufTail[n]); delayMicroseconds(1); }
}
/*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail)
bool DWIN_Handshake(void) {
#ifndef LCD_BAUDRATE
#define LCD_BAUDRATE 115200
#endif
LCD_SERIAL.begin(LCD_BAUDRATE);
const millis_t serial_connect_timeout = millis() + 1000UL;
while (!LCD_SERIAL.connected() && PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
size_t i = 0;
DWIN_Byte(i, 0x00);
DWIN_Send(i);
while (LCD_SERIAL.available() > 0 && recnum < (signed)sizeof(databuf)) {
databuf[recnum] = LCD_SERIAL.read();
// ignore the invalid data
if (databuf[0] != FHONE) { // prevent the program from running.
if (recnum > 0) {
recnum = 0;
ZERO(databuf);
}
continue;
}
delay(10);
recnum++;
}
return ( recnum >= 3
&& databuf[0] == FHONE
&& databuf[1] == '\0'
&& databuf[2] == 'O'
&& databuf[3] == 'K' );
}
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir) {
size_t i = 0;
DWIN_Byte(i, 0x34);
DWIN_Byte(i, 0x5A);
DWIN_Byte(i, 0xA5);
DWIN_Byte(i, dir);
DWIN_Send(i);
}
// Update display
void DWIN_UpdateLCD(void) {
size_t i = 0;
DWIN_Byte(i, 0x3D);
DWIN_Send(i);
}
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color) {
size_t i = 0;
DWIN_Byte(i, 0x01);
DWIN_Word(i, color);
DWIN_Send(i);
}
// Draw a point
// color: point color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x02);
DWIN_Word(i, color);
DWIN_Byte(i, width);
DWIN_Byte(i, height);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x03);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color,
uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x05);
DWIN_Byte(i, mode);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x09);
DWIN_Byte(i, (mode << 7) | dir);
DWIN_Word(i, dis);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// widthAdjust: true=self-adjust character width; false=no adjustment
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
// rlimit: For draw less chars than string length use rlimit
void DWIN_Draw_String(bool widthAdjust, bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * const string, uint16_t rlimit) {
size_t i = 0;
DWIN_Byte(i, 0x11);
// Bit 7: widthAdjust
// Bit 6: bShow
// Bit 5-4: Unused (0)
// Bit 3-0: size
DWIN_Byte(i, (widthAdjust * 0x80) | (bShow * 0x40) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_String(i, string, rlimit);
DWIN_Send(i);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, long value) {
size_t i = 0;
DWIN_Byte(i, 0x14);
// Bit 7: bshow
// Bit 6: 1 = signed; 0 = unsigned number;
// Bit 5: zeroFill
// Bit 4: zeroMode
// Bit 3-0: size
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, 0); // fNum
DWIN_Word(i, x);
DWIN_Word(i, y);
#if 0
for (char count = 0; count < 8; count++) {
DWIN_Byte(i, value);
value >>= 8;
if (!(value & 0xFF)) break;
}
#else
// Write a big-endian 64 bit integer
const size_t p = i + 1;
for (char count = 8; count--;) { // 7..0
++i;
DWIN_SendBuf[p + count] = value;
value >>= 8;
}
#endif
DWIN_Send(i);
}
// Draw a positive floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Scaled positive float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value) {
size_t i = 0;
DWIN_Byte(i, 0x14);
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, fNum);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Long(i, value);
DWIN_Send(i);
}
// value: positive float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) {
const long val = round(value * POW(10, fNum));
DWIN_Draw_FloatValue(bShow, zeroFill, zeroMode, size, color, bColor, iNum, fNum, x, y, val);
}
/*---------------------------------------- Picture related functions ----------------------------------------*/ /*---------------------------------------- Picture related functions ----------------------------------------*/
@ -339,73 +48,23 @@ void DWIN_Draw_QR(uint8_t QR_Pixel, uint16_t x, uint16_t y, char *string) {
DWIN_Word(i, x); DWIN_Word(i, x);
DWIN_Word(i, y); DWIN_Word(i, y);
DWIN_Byte(i, QR_Pixel); DWIN_Byte(i, QR_Pixel);
DWIN_String(i, string); DWIN_Text(i, string);
DWIN_Send(i); DWIN_Send(i);
} }
// Draw JPG and cached in #0 virtual display area // Draw an Icon with transparent background
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id) {
size_t i = 0;
DWIN_Word(i, 0x2200);
DWIN_Byte(i, id);
DWIN_Send(i);
}
// Draw an Icon
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// libID: Icon library ID // libID: Icon library ID
// picID: Icon ID // picID: Icon ID
// x/y: Upper-left point // x/y: Upper-left point
void DWIN_ICON_Show(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) { void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) {
NOMORE(x, DWIN_WIDTH - 1); DWIN_ICON_Show(false, false, true, libID, picID, x, y);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x23);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, IBD%2<<7 | BIR%2<<6 | BFI%2<<5 | libID);
DWIN_Byte(i, picID);
DWIN_Send(i);
}
// Draw an Icon from SRAM
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// x/y: Upper-left point
// addr: SRAM address
void DWIN_ICON_Show(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint16_t x, uint16_t y, uint16_t addr) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x24);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, IBD%2<<7 | BIR%2<<6 | BFI%2<<5 | 0x00);
DWIN_Word(i, addr);
DWIN_Send(i);
}
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id) {
size_t i = 0;
DWIN_Byte(i, 0x25);
DWIN_Byte(i, n);
DWIN_Byte(i, id);
DWIN_Send(i);
} }
// Copy area from current virtual display area to current screen // Copy area from current virtual display area to current screen
// xStart/yStart: Upper-left of virtual area // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area // xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point // x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint16_t xStart, uint16_t yStart, void DWIN_Frame_AreaCopy(uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
size_t i = 0; size_t i = 0;
DWIN_Byte(i, 0x26); DWIN_Byte(i, 0x26);
DWIN_Word(i, xStart); DWIN_Word(i, xStart);
@ -425,11 +84,10 @@ void DWIN_Frame_AreaCopy(uint16_t xStart, uint16_t yStart,
// xStart/yStart: Upper-left of virtual area // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area // xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point // x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint8_t cacheID, uint16_t xStart, uint16_t yStart, void DWIN_Frame_AreaCopy(bool IBD, bool BIR, bool BFI, uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
size_t i = 0; size_t i = 0;
DWIN_Byte(i, 0x27); DWIN_Byte(i, 0x27);
DWIN_Byte(i, IBD%2<<7 | BIR%2<<6 | BFI%2<<5 | cacheID); DWIN_Byte(i, (IBD & 1) << 7 | (BIR & 1) << 6 | (BFI & 1) << 5 | cacheID);
DWIN_Word(i, xStart); DWIN_Word(i, xStart);
DWIN_Word(i, yStart); DWIN_Word(i, yStart);
DWIN_Word(i, xEnd); DWIN_Word(i, xEnd);
@ -439,48 +97,13 @@ void DWIN_Frame_AreaCopy(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint8_t cacheID,
DWIN_Send(i); DWIN_Send(i);
} }
// Animate a series of icons // Copy area from virtual display area to current screen with transparent background
// animID: Animation ID; 0x00-0x0F // cacheID: virtual area number
// animate: true on; false off; // xStart/yStart: Upper-left of virtual area
// libID: Icon library ID // xEnd/yEnd: Lower-right of virtual area
// picIDs: Icon starting ID // x/y: Screen paste point
// picIDe: Icon ending ID void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
// x/y: Upper-left point DWIN_Frame_AreaCopy(false, false, true, cacheID, xStart, yStart, xEnd, yEnd, x, y);
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs, uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x28);
DWIN_Word(i, x);
DWIN_Word(i, y);
// Bit 7: animation on or off
// Bit 6: start from begin or end
// Bit 5-4: unused (0)
// Bit 3-0: animID
DWIN_Byte(i, (animate * 0x80) | 0x40 | animID);
DWIN_Byte(i, libID);
DWIN_Byte(i, picIDs);
DWIN_Byte(i, picIDe);
DWIN_Byte(i, interval);
DWIN_Send(i);
}
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state) {
size_t i = 0;
DWIN_Byte(i, 0x29);
DWIN_Word(i, state);
DWIN_Send(i);
}
// Set LCD Brightness 0x00-0xFF
void DWIN_LCD_Brightness(const uint8_t brightness) {
size_t i = 0;
DWIN_Byte(i, 0x30);
DWIN_Byte(i, brightness);
DWIN_Send(i);
} }
// Write buffer data to the SRAM or Flash // Write buffer data to the SRAM or Flash
@ -534,37 +157,4 @@ void DWIN_SRAMToPic(uint8_t picID) {
// DWIN_Send(i); // DWIN_Send(i);
//} //}
/*---------------------------------------- Memory functions ----------------------------------------*/
// The LCD has an additional 32KB SRAM and 16KB Flash
// Data can be written to the sram and save to one of the jpeg page files
// Write Data Memory
// command 0x31
// Type: Write memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Write data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Data: data
//
// Flash writing returns 0xA5 0x4F 0x4B
// Read Data Memory
// command 0x32
// Type: Read memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Read data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Length: leangth of data to read; 0x01-0xF0
//
// Response:
// Type, Address, Length, Data
// Write Picture Memory
// Write the contents of the 32KB SRAM data memory into the designated image memory space
// Issued: 0x5A, 0xA5, PIC_ID
// Response: 0xA5 0x4F 0x4B
//
// command 0x33
// 0x5A, 0xA5
// PicId: Picture Memory location, 0x00-0x0F
//
// Flash writing returns 0xA5 0x4F 0x4B
#endif // DWIN_CREALITY_LCD_ENHANCED #endif // DWIN_CREALITY_LCD_ENHANCED

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.1 *
* Date: 2021/08/29 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,169 +15,20 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
/********************************************************************************
* @file lcd/e3v2/enhanced/dwin_lcd.h
* @author LEO / Creality3D - Enhanced by Miguel A. Risco-Castillo
* @date 2021/08/09
* @version 2.2.1
* @brief DWIN screen control functions
********************************************************************************/
#pragma once #pragma once
#include <stdint.h> /**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/08
*/
#define RECEIVED_NO_DATA 0x00 #include "../common/dwin_api.h"
#define RECEIVED_SHAKE_HAND_ACK 0x01
#define FHONE 0xAA
#define DWIN_SCROLL_UP 2
#define DWIN_SCROLL_DOWN 3
#define DWIN_WIDTH 272
#define DWIN_HEIGHT 480
#define DWIN_DataLength (DWIN_WIDTH / 6 * 2)
/*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail)
bool DWIN_Handshake(void);
// Set the backlight luminance
// luminance: (0x00-0xFF)
void DWIN_Backlight_SetLuminance(const uint8_t luminance);
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir);
// Update display
void DWIN_UpdateLCD(void);
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color);
// Draw a point
// color: point color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y);
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a Horizontal line
// color: Line segment color
// xStart/yStart: Start point
// xLength: Line Length
inline void DWIN_Draw_HLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart + xLength - 1, yStart);
}
// Draw a Vertical line
// color: Line segment color
// xStart/yStart: Start point
// yLength: Line Length
inline void DWIN_Draw_VLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t yLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart, yStart + yLength - 1);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a box
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xSize/ySize: box size
inline void DWIN_Draw_Box(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xSize, uint16_t ySize) {
DWIN_Draw_Rectangle(mode, color, xStart, yStart, xStart + xSize - 1, yStart + ySize - 1);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// widthAdjust: true=self-adjust character width; false=no adjustment
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
// rlimit: For draw less chars than string length use rlimit
void DWIN_Draw_String(bool widthAdjust, bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * const string, uint16_t rlimit = 0xFFFF);
inline void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * const string, uint16_t rlimit = 0xFFFF) {
DWIN_Draw_String(0, bShow, size, color, bColor, x, y, string, rlimit);
}
class __FlashStringHelper;
inline void DWIN_Draw_String(bool widthAdjust, bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const __FlashStringHelper *title) {
DWIN_Draw_String(widthAdjust, bShow, size, color, bColor, x, y, (char *)title);
}
inline void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const __FlashStringHelper *title) {
DWIN_Draw_String(0, bShow, size, color, bColor, x, y, (char *)title);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, long value);
// Draw a positive floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Scaled positive float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value);
// value: positive float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value);
/*---------------------------------------- Picture related functions ----------------------------------------*/
// Display QR code // Display QR code
// The size of the QR code is (46*QR_Pixel)*(46*QR_Pixel) dot matrix // The size of the QR code is (46*QR_Pixel)*(46*QR_Pixel) dot matrix
@ -189,50 +41,25 @@ inline void DWIN_Draw_QR(uint8_t QR_Pixel, uint16_t x, uint16_t y, const __Flash
DWIN_Draw_QR(QR_Pixel, x, y, (char *)title); DWIN_Draw_QR(QR_Pixel, x, y, (char *)title);
} }
// Draw JPG and cached in #0 virtual display area // Copy area from virtual display area to current screen
// id: Picture ID // cacheID: virtual area number
void DWIN_JPG_ShowAndCache(const uint8_t id); // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// Draw an Icon // Copy area from virtual display area to current screen
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black // cacheID: virtual area number
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration // xStart/yStart: Upper-left of virtual area
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0) // xEnd/yEnd: Lower-right of virtual area
// libID: Icon library ID // x/y: Screen paste point
// picID: Icon ID void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// x/y: Upper-left point
void DWIN_ICON_Show(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint8_t libID, uint8_t picID, uint16_t x, uint16_t y);
// Draw an Icon with transparent background
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
inline void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) {
DWIN_ICON_Show(0, 0, 1, libID, picID, x, y);
}
// Draw an Icon from SRAM
// IBD: The icon background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
// BIR: Background image restoration: 0=Background image is not restored, 1=Automatically use virtual display area image for background restoration
// BFI: Background filtering strength: 0=normal, 1=enhanced, (only valid when the icon background display=0)
// x/y: Upper-left point
// addr: SRAM address
void DWIN_ICON_Show(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint16_t x, uint16_t y, uint16_t addr);
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id);
// Unzip the JPG picture to virtual display area #1
// id: Picture ID
inline void DWIN_JPG_CacheTo1(uint8_t id) { DWIN_JPG_CacheToN(1, id); }
// Copy area from current virtual display area to current screen // Copy area from current virtual display area to current screen
// xStart/yStart: Upper-left of virtual area // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area // xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point // x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint16_t xStart, uint16_t yStart, void DWIN_Frame_AreaCopy(uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// Copy area from virtual display area to current screen // Copy area from virtual display area to current screen
// IBD: background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black // IBD: background display: 0=Background filtering is not displayed, 1=Background display \\When setting the background filtering not to display, the background must be pure black
@ -242,36 +69,7 @@ void DWIN_Frame_AreaCopy(uint16_t xStart, uint16_t yStart,
// xStart/yStart: Upper-left of virtual area // xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area // xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point // x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t IBD, uint8_t BIR, uint8_t BFI, uint8_t cacheID, uint16_t xStart, uint16_t yStart, void DWIN_Frame_AreaCopy(bool IBD, bool BIR, bool BFI, uint8_t cacheID, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// Copy area from virtual display area to current screen with transparent background
// cacheID: virtual area number
// xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point
inline void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart,
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
DWIN_Frame_AreaCopy(0, 0, 1, cacheID, xStart, yStart, xEnd, yEnd, x, y);
}
// Animate a series of icons
// animID: Animation ID up to 16
// animate: animation on or off
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs,
uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval);
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state);
// Set LCD Brightness 0x00-0x0F
void DWIN_LCD_Brightness(const uint8_t brightness);
// Write buffer data to the SRAM or Flash // Write buffer data to the SRAM or Flash
// mem: 0x5A=32KB SRAM, 0xA5=16KB Flash // mem: 0x5A=32KB SRAM, 0xA5=16KB Flash

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.3 *
* Date: 2021/08/09 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,11 +15,18 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/08
*/
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
#if ENABLED(DWIN_CREALITY_LCD_ENHANCED) #if ENABLED(DWIN_CREALITY_LCD_ENHANCED)
@ -48,7 +56,7 @@ void (*DWINUI::onCursorDraw)(uint8_t line)=nullptr;
void (*DWINUI::onTitleDraw)(TitleClass* title)=nullptr; void (*DWINUI::onTitleDraw)(TitleClass* title)=nullptr;
void (*DWINUI::onMenuDraw)(MenuClass* menu)=nullptr; void (*DWINUI::onMenuDraw)(MenuClass* menu)=nullptr;
void DWINUI::Init(void) { void DWINUI::init() {
DEBUG_ECHOPGM("\r\nDWIN handshake "); DEBUG_ECHOPGM("\r\nDWIN handshake ");
delay(750); // Delay here or init later in the boot process delay(750); // Delay here or init later in the boot process
const bool success = DWIN_Handshake(); const bool success = DWIN_Handshake();
@ -65,12 +73,12 @@ void DWINUI::Init(void) {
} }
// Set text/number font // Set text/number font
void DWINUI::SetFont(uint8_t cfont) { void DWINUI::setFont(uint8_t cfont) {
font = cfont; font = cfont;
} }
// Get font character width // Get font character width
uint8_t DWINUI::Get_font_width(uint8_t cfont) { uint8_t DWINUI::fontWidth(uint8_t cfont) {
switch (cfont) { switch (cfont) {
case font6x12 : return 6; case font6x12 : return 6;
case font8x16 : return 8; case font8x16 : return 8;
@ -87,7 +95,7 @@ uint8_t DWINUI::Get_font_width(uint8_t cfont) {
} }
// Get font character heigh // Get font character heigh
uint8_t DWINUI::Get_font_height(uint8_t cfont) { uint8_t DWINUI::fontHeight(uint8_t cfont) {
switch (cfont) { switch (cfont) {
case font6x12 : return 12; case font6x12 : return 12;
case font8x16 : return 16; case font8x16 : return 16;
@ -105,12 +113,12 @@ uint8_t DWINUI::Get_font_height(uint8_t cfont) {
// Get screen x coodinates from text column // Get screen x coodinates from text column
uint16_t DWINUI::ColToX(uint8_t col) { uint16_t DWINUI::ColToX(uint8_t col) {
return col * Get_font_width(font); return col * fontWidth(font);
} }
// Get screen y coodinates from text row // Get screen y coodinates from text row
uint16_t DWINUI::RowToY(uint8_t row) { uint16_t DWINUI::RowToY(uint8_t row) {
return row * Get_font_height(font); return row * fontHeight(font);
} }
// Set text/number color // Set text/number color
@ -151,7 +159,7 @@ void DWINUI::MoveBy(xy_int_t point) {
// Draw a Centered string using DWIN_WIDTH // Draw a Centered string using DWIN_WIDTH
void DWINUI::Draw_CenteredString(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t y, const char * const string) { void DWINUI::Draw_CenteredString(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t y, const char * const string) {
const int8_t x = _MAX(0U, DWIN_WIDTH - strlen_P(string) * Get_font_width(size)) / 2 - 1; const int8_t x = _MAX(0U, DWIN_WIDTH - strlen_P(string) * fontWidth(size)) / 2 - 1;
DWIN_Draw_String(bShow, size, color, bColor, x, y, string); DWIN_Draw_String(bShow, size, color, bColor, x, y, string);
} }
@ -159,7 +167,7 @@ void DWINUI::Draw_CenteredString(bool bShow, uint8_t size, uint16_t color, uint1
void DWINUI::Draw_Char(const char c) { void DWINUI::Draw_Char(const char c) {
const char string[2] = { c, 0}; const char string[2] = { c, 0};
DWIN_Draw_String(false, font, textcolor, backcolor, cursor.x, cursor.y, string, 1); DWIN_Draw_String(false, font, textcolor, backcolor, cursor.x, cursor.y, string, 1);
MoveBy(Get_font_width(font), 0); MoveBy(fontWidth(font), 0);
} }
// Draw a string at cursor position // Draw a string at cursor position
@ -168,11 +176,11 @@ void DWINUI::Draw_Char(const char c) {
// rlimit: For draw less chars than string length use rlimit // rlimit: For draw less chars than string length use rlimit
void DWINUI::Draw_String(const char * const string, uint16_t rlimit) { void DWINUI::Draw_String(const char * const string, uint16_t rlimit) {
DWIN_Draw_String(false, font, textcolor, backcolor, cursor.x, cursor.y, string, rlimit); DWIN_Draw_String(false, font, textcolor, backcolor, cursor.x, cursor.y, string, rlimit);
MoveBy(strlen(string) * Get_font_width(font), 0); MoveBy(strlen(string) * fontWidth(font), 0);
} }
void DWINUI::Draw_String(uint16_t color, const char * const string, uint16_t rlimit) { void DWINUI::Draw_String(uint16_t color, const char * const string, uint16_t rlimit) {
DWIN_Draw_String(false, font, color, backcolor, cursor.x, cursor.y, string, rlimit); DWIN_Draw_String(false, font, color, backcolor, cursor.x, cursor.y, string, rlimit);
MoveBy(strlen(string) * Get_font_width(font), 0); MoveBy(strlen(string) * fontWidth(font), 0);
} }
// Draw a signed floating point number // Draw a signed floating point number
@ -186,14 +194,8 @@ void DWINUI::Draw_String(uint16_t color, const char * const string, uint16_t rli
// x/y: Upper-left point // x/y: Upper-left point
// value: Float value // value: Float value
void DWINUI::Draw_Signed_Float(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color, uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) { void DWINUI::Draw_Signed_Float(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color, uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) {
if (value < 0) { DWIN_Draw_FloatValue(bShow, zeroFill, zeroMode, size, color, bColor, iNum, fNum, x, y, value < 0 ? -value : value);
DWIN_Draw_FloatValue(bShow, zeroFill, zeroMode, size, color, bColor, iNum, fNum, x, y, -value); DWIN_Draw_String(bShow, size, color, bColor, x - 6, y, value < 0 ? F("-") : F(" "));
DWIN_Draw_String(bShow, size, color, bColor, x - 6, y, F("-"));
}
else {
DWIN_Draw_String(bShow, size, color, bColor, x - 6, y, F(" "));
DWIN_Draw_FloatValue(bShow, zeroFill, zeroMode, size, color, bColor, iNum, fNum, x, y, value);
}
} }
// Draw a circle // Draw a circle
@ -239,7 +241,7 @@ void DWINUI::Draw_FillCircle(uint16_t bcolor, uint16_t x,uint16_t y,uint8_t r) {
// Color Interpolator // Color Interpolator
// val : Interpolator minv..maxv // val : Interpolator minv..maxv
// minv : Minimum value // minv : Minimum value
// maxv : Maximun value // maxv : Maximum value
// color1 : Start color // color1 : Start color
// color2 : End color // color2 : End color
uint16_t DWINUI::ColorInt(int16_t val, int16_t minv, int16_t maxv, uint16_t color1, uint16_t color2) { uint16_t DWINUI::ColorInt(int16_t val, int16_t minv, int16_t maxv, uint16_t color1, uint16_t color2) {
@ -255,7 +257,7 @@ uint16_t DWINUI::ColorInt(int16_t val, int16_t minv, int16_t maxv, uint16_t colo
// Color Interpolator through Red->Yellow->Green->Blue // Color Interpolator through Red->Yellow->Green->Blue
// val : Interpolator minv..maxv // val : Interpolator minv..maxv
// minv : Minimum value // minv : Minimum value
// maxv : Maximun value // maxv : Maximum value
uint16_t DWINUI::RainbowInt(int16_t val, int16_t minv, int16_t maxv) { uint16_t DWINUI::RainbowInt(int16_t val, int16_t minv, int16_t maxv) {
uint8_t B,G,R; uint8_t B,G,R;
const uint8_t maxB = 28; const uint8_t maxB = 28;
@ -292,7 +294,7 @@ uint16_t DWINUI::RainbowInt(int16_t val, int16_t minv, int16_t maxv) {
// x/y: Upper-left point // x/y: Upper-left point
// mode : 0 : unchecked, 1 : checked // mode : 0 : unchecked, 1 : checked
void DWINUI::Draw_Checkbox(uint16_t color, uint16_t bcolor, uint16_t x, uint16_t y, bool checked=false) { void DWINUI::Draw_Checkbox(uint16_t color, uint16_t bcolor, uint16_t x, uint16_t y, bool checked=false) {
DWIN_Draw_String(false, true, font8x16, color, bcolor, x + 4, y, checked ? F("x") : F(" ")); DWIN_Draw_String(true, font8x16, color, bcolor, x + 4, y, checked ? F("x") : F(" "));
DWIN_Draw_Rectangle(0, color, x + 2, y + 2, x + 17, y + 17); DWIN_Draw_Rectangle(0, color, x + 2, y + 2, x + 17, y + 17);
} }
@ -332,7 +334,7 @@ MenuItemClass* DWINUI::MenuItemsAdd(MenuItemClass* menuitem) {
TitleClass Title; TitleClass Title;
void TitleClass::Draw() { void TitleClass::draw() {
if (DWINUI::onTitleDraw != nullptr) (*DWINUI::onTitleDraw)(this); if (DWINUI::onTitleDraw != nullptr) (*DWINUI::onTitleDraw)(this);
} }
@ -346,7 +348,7 @@ void TitleClass::SetCaption(const char * const title) {
void TitleClass::ShowCaption(const char * const title) { void TitleClass::ShowCaption(const char * const title) {
SetCaption(title); SetCaption(title);
Draw(); draw();
} }
void TitleClass::SetFrame(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2) { void TitleClass::SetFrame(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2) {
@ -361,7 +363,7 @@ void TitleClass::SetFrame(uint16_t x, uint16_t y, uint16_t w, uint16_t h) {
void TitleClass::FrameCopy(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2) { void TitleClass::FrameCopy(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2) {
SetFrame(id, x1, y1, x2, y2); SetFrame(id, x1, y1, x2, y2);
Draw(); draw();
} }
void TitleClass::FrameCopy(uint16_t x, uint16_t y, uint16_t w, uint16_t h) { void TitleClass::FrameCopy(uint16_t x, uint16_t y, uint16_t w, uint16_t h) {
@ -375,11 +377,11 @@ MenuClass::MenuClass() {
topline = 0; topline = 0;
} }
void MenuClass::Draw() { void MenuClass::draw() {
MenuTitle.Draw(); MenuTitle.draw();
if (DWINUI::onMenuDraw != nullptr) (*DWINUI::onMenuDraw)(this); if (DWINUI::onMenuDraw != nullptr) (*DWINUI::onMenuDraw)(this);
for (uint8_t i = 0; i < MenuItemCount; i++) for (uint8_t i = 0; i < MenuItemCount; i++)
MenuItems[i]->Draw(i - topline); MenuItems[i]->draw(i - topline);
if (DWINUI::onCursorDraw != nullptr) DWINUI::onCursorDraw(line()); if (DWINUI::onCursorDraw != nullptr) DWINUI::onCursorDraw(line());
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
@ -393,12 +395,12 @@ void MenuClass::onScroll(bool dir) {
if ((sel - topline) == TROWS) { if ((sel - topline) == TROWS) {
DWIN_Frame_AreaMove(1, DWIN_SCROLL_UP, MLINE, DWINUI::backcolor, 0, TITLE_HEIGHT + 1, DWIN_WIDTH, STATUS_Y - 1); DWIN_Frame_AreaMove(1, DWIN_SCROLL_UP, MLINE, DWINUI::backcolor, 0, TITLE_HEIGHT + 1, DWIN_WIDTH, STATUS_Y - 1);
topline++; topline++;
MenuItems[sel]->Draw(TROWS - 1); MenuItems[sel]->draw(TROWS - 1);
} }
if ((sel < topline)) { if ((sel < topline)) {
DWIN_Frame_AreaMove(1, DWIN_SCROLL_DOWN, MLINE, DWINUI::backcolor, 0, TITLE_HEIGHT + 1, DWIN_WIDTH, STATUS_Y - 1); DWIN_Frame_AreaMove(1, DWIN_SCROLL_DOWN, MLINE, DWINUI::backcolor, 0, TITLE_HEIGHT + 1, DWIN_WIDTH, STATUS_Y - 1);
topline--; topline--;
MenuItems[sel]->Draw(0); MenuItems[sel]->draw(0);
} }
selected = sel; selected = sel;
if (DWINUI::onCursorDraw != nullptr) DWINUI::onCursorDraw(line()); if (DWINUI::onCursorDraw != nullptr) DWINUI::onCursorDraw(line());
@ -440,7 +442,7 @@ void MenuItemClass::SetFrame(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2,
frame = { x1, y1, x2, y2 }; frame = { x1, y1, x2, y2 };
} }
void MenuItemClass::Draw(int8_t line) { void MenuItemClass::draw(int8_t line) {
if (line < 0 || line >= TROWS) return; if (line < 0 || line >= TROWS) return;
if (onDraw != nullptr) (*onDraw)(this, line); if (onDraw != nullptr) (*onDraw)(this, line);
}; };

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.3 *
* Date: 2021/08/09 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,117 +15,26 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
#pragma once #pragma once
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/08
*/
#include "../../../core/types.h" #include "../../../core/types.h"
#include "dwin_lcd.h" #include "dwin_lcd.h"
#include "../common/dwin_set.h"
// ICON ID #include "../common/dwin_font.h"
#define ICON 7 // Icon set file 7.ICO #include "../common/dwin_color.h"
#define ICON_LOGO 0
#define ICON_Print_0 1
#define ICON_Print_1 2
#define ICON_Prepare_0 3
#define ICON_Prepare_1 4
#define ICON_Control_0 5
#define ICON_Control_1 6
#define ICON_Leveling_0 7
#define ICON_Leveling_1 8
#define ICON_HotendTemp 9
#define ICON_BedTemp 10
#define ICON_Speed 11
#define ICON_Zoffset 12
#define ICON_Back 13
#define ICON_File 14
#define ICON_PrintTime 15
#define ICON_RemainTime 16
#define ICON_Setup_0 17
#define ICON_Setup_1 18
#define ICON_Pause_0 19
#define ICON_Pause_1 20
#define ICON_Continue_0 21
#define ICON_Continue_1 22
#define ICON_Stop_0 23
#define ICON_Stop_1 24
#define ICON_Bar 25
#define ICON_More 26
#define ICON_Axis 27
#define ICON_CloseMotor 28
#define ICON_Homing 29
#define ICON_SetHome 30
#define ICON_PLAPreheat 31
#define ICON_ABSPreheat 32
#define ICON_Cool 33
#define ICON_Language 34
#define ICON_MoveX 35
#define ICON_MoveY 36
#define ICON_MoveZ 37
#define ICON_Extruder 38
#define ICON_Temperature 40
#define ICON_Motion 41
#define ICON_WriteEEPROM 42
#define ICON_ReadEEPROM 43
#define ICON_ResumeEEPROM 44
#define ICON_Info 45
#define ICON_SetEndTemp 46
#define ICON_SetBedTemp 47
#define ICON_FanSpeed 48
#define ICON_SetPLAPreheat 49
#define ICON_SetABSPreheat 50
#define ICON_MaxSpeed 51
#define ICON_MaxAccelerated 52
#define ICON_MaxJerk 53
#define ICON_Step 54
#define ICON_PrintSize 55
#define ICON_Version 56
#define ICON_Contact 57
#define ICON_StockConfiguration 58
#define ICON_MaxSpeedX 59
#define ICON_MaxSpeedY 60
#define ICON_MaxSpeedZ 61
#define ICON_MaxSpeedE 62
#define ICON_MaxAccX 63
#define ICON_MaxAccY 64
#define ICON_MaxAccZ 65
#define ICON_MaxAccE 66
#define ICON_MaxSpeedJerkX 67
#define ICON_MaxSpeedJerkY 68
#define ICON_MaxSpeedJerkZ 69
#define ICON_MaxSpeedJerkE 70
#define ICON_StepX 71
#define ICON_StepY 72
#define ICON_StepZ 73
#define ICON_StepE 74
#define ICON_Setspeed 75
#define ICON_SetZOffset 76
#define ICON_Rectangle 77
#define ICON_BLTouch 78
#define ICON_TempTooLow 79
#define ICON_AutoLeveling 80
#define ICON_TempTooHigh 81
#define ICON_NoTips_C 82
#define ICON_NoTips_E 83
#define ICON_Continue_C 84
#define ICON_Continue_E 85
#define ICON_Cancel_C 86
#define ICON_Cancel_E 87
#define ICON_Confirm_C 88
#define ICON_Confirm_E 89
#define ICON_Info_0 90
#define ICON_Info_1 91
// Extra Icons // Extra Icons
#define ICON_AdvSet ICON_Language
#define ICON_Brightness ICON_Motion #define ICON_Brightness ICON_Motion
#define ICON_Cancel ICON_StockConfiguration #define ICON_Cancel ICON_StockConfiguration
#define ICON_CustomPreheat ICON_SetEndTemp #define ICON_CustomPreheat ICON_SetEndTemp
@ -135,10 +45,6 @@
#define ICON_FilSet ICON_ResumeEEPROM #define ICON_FilSet ICON_ResumeEEPROM
#define ICON_FilUnload ICON_ReadEEPROM #define ICON_FilUnload ICON_ReadEEPROM
#define ICON_Flow ICON_StepE #define ICON_Flow ICON_StepE
#define ICON_HomeOffset ICON_AdvSet
#define ICON_HomeOffsetX ICON_StepX
#define ICON_HomeOffsetY ICON_StepY
#define ICON_HomeOffsetZ ICON_StepZ
#define ICON_LevBed ICON_SetEndTemp #define ICON_LevBed ICON_SetEndTemp
#define ICON_Lock ICON_Cool #define ICON_Lock ICON_Cool
#define ICON_ManualMesh ICON_HotendTemp #define ICON_ManualMesh ICON_HotendTemp
@ -146,13 +52,8 @@
#define ICON_MeshSave ICON_WriteEEPROM #define ICON_MeshSave ICON_WriteEEPROM
#define ICON_MoveZ0 ICON_HotendTemp #define ICON_MoveZ0 ICON_HotendTemp
#define ICON_Park ICON_Motion #define ICON_Park ICON_Motion
#define ICON_PIDbed ICON_SetBedTemp
#define ICON_PIDcycles ICON_ResumeEEPROM #define ICON_PIDcycles ICON_ResumeEEPROM
#define ICON_PIDNozzle ICON_SetEndTemp
#define ICON_PIDValue ICON_Contact #define ICON_PIDValue ICON_Contact
#define ICON_ProbeOffsetX ICON_StepX
#define ICON_ProbeOffsetY ICON_StepY
#define ICON_ProbeOffsetZ ICON_StepZ
#define ICON_ProbeSet ICON_SetEndTemp #define ICON_ProbeSet ICON_SetEndTemp
#define ICON_ProbeTest ICON_SetEndTemp #define ICON_ProbeTest ICON_SetEndTemp
#define ICON_Pwrlossr ICON_Motion #define ICON_Pwrlossr ICON_Motion
@ -162,47 +63,6 @@
#define ICON_SetCustomPreheat ICON_SetEndTemp #define ICON_SetCustomPreheat ICON_SetEndTemp
#define ICON_Sound ICON_Cool #define ICON_Sound ICON_Cool
/**
* 3-.0The font size, 0x00-0x09, corresponds to the font size below:
* 0x00=6*12 0x01=8*16 0x02=10*20 0x03=12*24 0x04=14*28
* 0x05=16*32 0x06=20*40 0x07=24*48 0x08=28*56 0x09=32*64
*/
#define font6x12 0x00
#define font8x16 0x01
#define font10x20 0x02
#define font12x24 0x03
#define font14x28 0x04
#define font16x32 0x05
#define font20x40 0x06
#define font24x48 0x07
#define font28x56 0x08
#define font32x64 0x09
// Extended and default UI Colors
#define RGB(R,G,B) (R << 11) | (G << 5) | (B) // R,B: 0..31; G: 0..63
#define GetRColor(color) ((color >> 11) & 0x1F)
#define GetGColor(color) ((color >> 5) & 0x3F)
#define GetBColor(color) ((color >> 0) & 0x1F)
#define Color_White 0xFFFF
#define Color_Bg_Window 0x31E8 // Popup background color
#define Color_Bg_Blue 0x1125 // Dark blue background color
#define Color_Bg_Black 0x0841 // Black background color
#define Color_Bg_Red 0xF00F // Red background color
#define Popup_Text_Color 0xD6BA // Popup font background color
#define Line_Color 0x3A6A // Split line color
#define Rectangle_Color 0xEE2F // Blue square cursor color
#define Percent_Color 0xFE29 // Percentage color
#define BarFill_Color 0x10E4 // Fill color of progress bar
#define Select_Color 0x33BB // Selected color
#define Color_Black 0
#define Color_Red RGB(31,0,0)
#define Color_Yellow RGB(31,63,0)
#define Color_Green RGB(0,63,0)
#define Color_Aqua RGB(0,63,31)
#define Color_Blue RGB(0,0,31)
// Default UI Colors // Default UI Colors
#define Def_Background_Color Color_Bg_Black #define Def_Background_Color Color_Bg_Black
#define Def_Cursor_color Rectangle_Color #define Def_Cursor_color Rectangle_Color
@ -223,7 +83,7 @@
#define Def_Indicator_Color Color_White #define Def_Indicator_Color Color_White
#define Def_Coordinate_Color Color_White #define Def_Coordinate_Color Color_White
//UI elements defines and constants // UI element defines and constants
#define DWIN_FONT_MENU font8x16 #define DWIN_FONT_MENU font8x16
#define DWIN_FONT_STAT font10x20 #define DWIN_FONT_STAT font10x20
#define DWIN_FONT_HEAD font10x20 #define DWIN_FONT_HEAD font10x20
@ -262,7 +122,7 @@ public:
char caption[32] = ""; char caption[32] = "";
uint8_t frameid = 0; uint8_t frameid = 0;
rect_t frame = {0}; rect_t frame = {0};
void Draw(); void draw();
void SetCaption(const char * const title); void SetCaption(const char * const title);
inline void SetCaption(const __FlashStringHelper * title) { SetCaption((char *)title); } inline void SetCaption(const __FlashStringHelper * title) { SetCaption((char *)title); }
void ShowCaption(const char * const title); void ShowCaption(const char * const title);
@ -290,7 +150,7 @@ public:
MenuItemClass(uint8_t cicon, uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2, void (*ondraw)(MenuItemClass* menuitem, int8_t line)=nullptr, void (*onclick)()=nullptr); MenuItemClass(uint8_t cicon, uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2, void (*ondraw)(MenuItemClass* menuitem, int8_t line)=nullptr, void (*onclick)()=nullptr);
void SetFrame(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2); void SetFrame(uint8_t id, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2);
virtual ~MenuItemClass(){}; virtual ~MenuItemClass(){};
virtual void Draw(int8_t line); virtual void draw(int8_t line);
}; };
class MenuItemPtrClass: public MenuItemClass { class MenuItemPtrClass: public MenuItemClass {
@ -310,7 +170,7 @@ public:
virtual ~MenuClass(){}; virtual ~MenuClass(){};
inline int8_t line() { return selected - topline; }; inline int8_t line() { return selected - topline; };
inline int8_t line(uint8_t pos) {return pos - topline; }; inline int8_t line(uint8_t pos) {return pos - topline; };
void Draw(); void draw();
void onScroll(bool dir); void onScroll(bool dir);
void onClick(); void onClick();
MenuItemClass* SelectedItem(); MenuItemClass* SelectedItem();
@ -330,16 +190,16 @@ namespace DWINUI {
extern void (*onMenuDraw)(MenuClass* menu); extern void (*onMenuDraw)(MenuClass* menu);
// DWIN LCD Initialization // DWIN LCD Initialization
void Init(void); void init();
// Set text/number font // Set text/number font
void SetFont(uint8_t cfont); void setFont(uint8_t cfont);
// Get font character width // Get font character width
uint8_t Get_font_width(uint8_t cfont); uint8_t fontWidth(uint8_t cfont);
// Get font character heigh // Get font character heigh
uint8_t Get_font_height(uint8_t cfont); uint8_t fontHeight(uint8_t cfont);
// Get screen x coodinates from text column // Get screen x coodinates from text column
uint16_t ColToX(uint8_t col); uint16_t ColToX(uint8_t col);
@ -398,7 +258,7 @@ namespace DWINUI {
} }
inline void Draw_Int(uint8_t iNum, long value) { inline void Draw_Int(uint8_t iNum, long value) {
DWIN_Draw_IntValue(false, true, 0, font, textcolor, backcolor, iNum, cursor.x, cursor.y, value); DWIN_Draw_IntValue(false, true, 0, font, textcolor, backcolor, iNum, cursor.x, cursor.y, value);
MoveBy(iNum * Get_font_width(font), 0); MoveBy(iNum * fontWidth(font), 0);
} }
inline void Draw_Int(uint8_t iNum, uint16_t x, uint16_t y, long value) { inline void Draw_Int(uint8_t iNum, uint16_t x, uint16_t y, long value) {
DWIN_Draw_IntValue(false, true, 0, font, textcolor, backcolor, iNum, x, y, value); DWIN_Draw_IntValue(false, true, 0, font, textcolor, backcolor, iNum, x, y, value);
@ -429,7 +289,7 @@ namespace DWINUI {
} }
inline void Draw_Float(uint8_t iNum, uint8_t fNum, float value) { inline void Draw_Float(uint8_t iNum, uint8_t fNum, float value) {
DWIN_Draw_FloatValue(false, true, 0, font, textcolor, backcolor, iNum, fNum, cursor.x, cursor.y, value); DWIN_Draw_FloatValue(false, true, 0, font, textcolor, backcolor, iNum, fNum, cursor.x, cursor.y, value);
MoveBy((iNum + fNum + 1) * Get_font_width(font), 0); MoveBy((iNum + fNum + 1) * fontWidth(font), 0);
} }
inline void Draw_Float(uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) { inline void Draw_Float(uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) {
DWIN_Draw_FloatValue(false, true, 0, font, textcolor, backcolor, iNum, fNum, x, y, value); DWIN_Draw_FloatValue(false, true, 0, font, textcolor, backcolor, iNum, fNum, x, y, value);
@ -457,7 +317,7 @@ namespace DWINUI {
void Draw_Signed_Float(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color, uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value); void Draw_Signed_Float(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color, uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value);
inline void Draw_Signed_Float(uint8_t iNum, uint8_t fNum, float value) { inline void Draw_Signed_Float(uint8_t iNum, uint8_t fNum, float value) {
Draw_Signed_Float(false, true, 0, font, textcolor, backcolor, iNum, fNum, cursor.x, cursor.y, value); Draw_Signed_Float(false, true, 0, font, textcolor, backcolor, iNum, fNum, cursor.x, cursor.y, value);
MoveBy((iNum + fNum + 1) * Get_font_width(font), 0); MoveBy((iNum + fNum + 1) * fontWidth(font), 0);
} }
inline void Draw_Signed_Float(uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) { inline void Draw_Signed_Float(uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, float value) {
Draw_Signed_Float(false, true, 0, font, textcolor, backcolor, iNum, fNum, x, y, value); Draw_Signed_Float(false, true, 0, font, textcolor, backcolor, iNum, fNum, x, y, value);
@ -548,7 +408,7 @@ namespace DWINUI {
// Draw a circle // Draw a circle
// Color: circle color // Color: circle color
// x: the abscissa of the center of the circle // x: abscissa of the center of the circle
// y: ordinate of the center of the circle // y: ordinate of the center of the circle
// r: circle radius // r: circle radius
void Draw_Circle(uint16_t color, uint16_t x,uint16_t y,uint8_t r); void Draw_Circle(uint16_t color, uint16_t x,uint16_t y,uint8_t r);
@ -569,7 +429,7 @@ namespace DWINUI {
// Color Interpolator // Color Interpolator
// val : Interpolator minv..maxv // val : Interpolator minv..maxv
// minv : Minimum value // minv : Minimum value
// maxv : Maximun value // maxv : Maximum value
// color1 : Start color // color1 : Start color
// color2 : End color // color2 : End color
uint16_t ColorInt(int16_t val, int16_t minv, int16_t maxv, uint16_t color1, uint16_t color2); uint16_t ColorInt(int16_t val, int16_t minv, int16_t maxv, uint16_t color1, uint16_t color2);
@ -578,7 +438,7 @@ namespace DWINUI {
// Draw a circle filled with color // Draw a circle filled with color
// bcolor: fill color // bcolor: fill color
// x: the abscissa of the center of the circle // x: abscissa of the center of the circle
// y: ordinate of the center of the circle // y: ordinate of the center of the circle
// r: circle radius // r: circle radius
void Draw_FillCircle(uint16_t bcolor, uint16_t x,uint16_t y,uint8_t r); void Draw_FillCircle(uint16_t bcolor, uint16_t x,uint16_t y,uint8_t r);
@ -589,7 +449,7 @@ namespace DWINUI {
// Color Interpolator through Red->Yellow->Green->Blue // Color Interpolator through Red->Yellow->Green->Blue
// val : Interpolator minv..maxv // val : Interpolator minv..maxv
// minv : Minimum value // minv : Minimum value
// maxv : Maximun value // maxv : Maximum value
uint16_t RainbowInt(int16_t val, int16_t minv, int16_t maxv); uint16_t RainbowInt(int16_t val, int16_t minv, int16_t maxv);
// Write buffer data to the SRAM // Write buffer data to the SRAM

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.1 *
* Date: 2021/08/29 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,11 +15,18 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/08
*/
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
#if ENABLED(DWIN_CREALITY_LCD_ENHANCED) #if ENABLED(DWIN_CREALITY_LCD_ENHANCED)
@ -29,15 +37,18 @@
#include "dwin.h" #include "dwin.h"
#include "lockscreen.h" #include "lockscreen.h"
LockScreenClass LockScreen; LockScreenClass lockScreen;
void LockScreenClass::Init() { uint8_t LockScreenClass::lock_pos = 0;
Lock_Pos = 0; bool LockScreenClass::unlocked = false;
void LockScreenClass::init() {
lock_pos = 0;
unlocked = false; unlocked = false;
Draw(); draw();
} }
void LockScreenClass::Draw() { void LockScreenClass::draw() {
Title.SetCaption(PSTR("Lock Screen")); Title.SetCaption(PSTR("Lock Screen"));
DWINUI::ClearMenuArea(); DWINUI::ClearMenuArea();
DWINUI::Draw_Icon(ICON_LOGO, 71, 120); // CREALITY logo DWINUI::Draw_Icon(ICON_LOGO, 71, 120); // CREALITY logo
@ -45,25 +56,20 @@ void LockScreenClass::Draw() {
DWINUI::Draw_CenteredString(Color_White, 200, F("Scroll to unlock.")); DWINUI::Draw_CenteredString(Color_White, 200, F("Scroll to unlock."));
DWINUI::Draw_CenteredString(Color_White, 240, F("-> | <-")); DWINUI::Draw_CenteredString(Color_White, 240, F("-> | <-"));
DWIN_Draw_Box(1, HMI_data.Barfill_Color, 0, 260, DWIN_WIDTH, 20); DWIN_Draw_Box(1, HMI_data.Barfill_Color, 0, 260, DWIN_WIDTH, 20);
DWIN_Draw_VLine(Color_Yellow, Lock_Pos * DWIN_WIDTH / 255, 260, 20); DWIN_Draw_VLine(Color_Yellow, lock_pos * DWIN_WIDTH / 255, 260, 20);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
void LockScreenClass::onEncoderState(ENCODER_DiffState encoder_diffState) { void LockScreenClass::onEncoder(EncoderState encoder_diffState) {
if (encoder_diffState == ENCODER_DIFF_CW) { switch (encoder_diffState) {
Lock_Pos += 8; case ENCODER_DIFF_CW: lock_pos += 8; break;
} case ENCODER_DIFF_CCW: lock_pos -= 8; break;
else if (encoder_diffState == ENCODER_DIFF_CCW) { case ENCODER_DIFF_ENTER: unlocked = (lock_pos == 128); break;
Lock_Pos -= 8; default: break;
}
else if (encoder_diffState == ENCODER_DIFF_ENTER) {
unlocked = (Lock_Pos == 128);
} }
DWIN_Draw_Box(1, HMI_data.Barfill_Color, 0, 260, DWIN_WIDTH, 20); DWIN_Draw_Box(1, HMI_data.Barfill_Color, 0, 260, DWIN_WIDTH, 20);
DWIN_Draw_VLine(Color_Yellow, Lock_Pos * DWIN_WIDTH / 255, 260, 20); DWIN_Draw_VLine(Color_Yellow, lock_pos * DWIN_WIDTH / 255, 260, 20);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
bool LockScreenClass::isUnlocked() { return unlocked; }
#endif // DWIN_CREALITY_LCD_ENHANCED #endif // DWIN_CREALITY_LCD_ENHANCED

@ -1,12 +1,13 @@
/** /**
* DWIN UI Enhanced implementation * Marlin 3D Printer Firmware
* Author: Miguel A. Risco-Castillo * Copyright (c) 2021 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
* Version: 3.6.1 *
* Date: 2021/08/29 * 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 * This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as * it under the terms of the GNU General Public License as published by
* published by the Free Software Foundation, either version 3 of the License, or * the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version. * (at your option) any later version.
* *
* This program is distributed in the hope that it will be useful, * This program is distributed in the hope that it will be useful,
@ -14,22 +15,31 @@
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details. * GNU General Public License for more details.
* *
* You should have received a copy of the GNU Lesser General Public License * You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>. * along with this program. If not, see <https://www.gnu.org/licenses/>.
* *
*/ */
#pragma once #pragma once
#include "../../../core/types.h" /**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.3
* Date: 2021/09/08
*/
#include "../common/encoder.h"
#include <stdint.h>
class LockScreenClass { class LockScreenClass {
private: private:
uint8_t Lock_Pos = 0; static bool unlocked;
bool unlocked = false; static uint8_t lock_pos;
public: public:
void Init(); static void init();
void onEncoderState(ENCODER_DiffState encoder_diffState); static void onEncoder(EncoderState encoder_diffState);
void Draw(); static void draw();
bool isUnlocked(); static inline bool isUnlocked() { return unlocked; }
}; };
extern LockScreenClass LockScreen;
extern LockScreenClass lockScreen;

@ -1,263 +0,0 @@
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.1
* Date: 2021/08/29
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser 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 Lesser General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
/*****************************************************************************
* @file lcd/e3v2/enhanced/rotary_encoder.cpp
* @author LEO / Creality3D
* @date 2019/07/06
* @version 2.0.1
* @brief Rotary encoder functions
*****************************************************************************/
#include "../../../inc/MarlinConfigPre.h"
#if ENABLED(DWIN_CREALITY_LCD_ENHANCED)
#include "rotary_encoder.h"
#include "../../buttons.h"
#include "../../../MarlinCore.h"
#include "../../../HAL/shared/Delay.h"
#if HAS_BUZZER
#include "../../../libs/buzzer.h"
#endif
#include <stdlib.h>
#ifndef ENCODER_PULSES_PER_STEP
#define ENCODER_PULSES_PER_STEP 4
#endif
#if ENABLED(SOUND_MENU_ITEM)
#include "../../marlinui.h"
#endif
ENCODER_Rate EncoderRate;
// Buzzer
void Encoder_tick() {
#if PIN_EXISTS(BEEPER)
if (TERN1(SOUND_MENU_ITEM, ui.buzzer_enabled)) {
WRITE(BEEPER_PIN, HIGH);
delay(10);
WRITE(BEEPER_PIN, LOW);
}
#endif
}
// Encoder initialization
void Encoder_Configuration() {
#if BUTTON_EXISTS(EN1)
SET_INPUT_PULLUP(BTN_EN1);
#endif
#if BUTTON_EXISTS(EN2)
SET_INPUT_PULLUP(BTN_EN2);
#endif
#if BUTTON_EXISTS(ENC)
SET_INPUT_PULLUP(BTN_ENC);
#endif
#if PIN_EXISTS(BEEPER)
SET_OUTPUT(BEEPER_PIN);
#endif
}
// Analyze encoder value and return state
ENCODER_DiffState Encoder_ReceiveAnalyze() {
const millis_t now = millis();
static uint8_t lastEncoderBits;
uint8_t newbutton = 0;
static signed char temp_diff = 0;
ENCODER_DiffState temp_diffState = ENCODER_DIFF_NO;
if (BUTTON_PRESSED(EN1)) newbutton |= EN_A;
if (BUTTON_PRESSED(EN2)) newbutton |= EN_B;
if (BUTTON_PRESSED(ENC)) {
static millis_t next_click_update_ms;
if (ELAPSED(now, next_click_update_ms)) {
next_click_update_ms = millis() + 300;
Encoder_tick();
#if PIN_EXISTS(LCD_LED)
//LED_Action();
#endif
const bool was_waiting = wait_for_user;
wait_for_user = false;
return was_waiting ? ENCODER_DIFF_NO : ENCODER_DIFF_ENTER;
}
else return ENCODER_DIFF_NO;
}
if (newbutton != lastEncoderBits) {
switch (newbutton) {
case ENCODER_PHASE_0:
if (lastEncoderBits == ENCODER_PHASE_3) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_1) temp_diff--;
break;
case ENCODER_PHASE_1:
if (lastEncoderBits == ENCODER_PHASE_0) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_2) temp_diff--;
break;
case ENCODER_PHASE_2:
if (lastEncoderBits == ENCODER_PHASE_1) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_3) temp_diff--;
break;
case ENCODER_PHASE_3:
if (lastEncoderBits == ENCODER_PHASE_2) temp_diff++;
else if (lastEncoderBits == ENCODER_PHASE_0) temp_diff--;
break;
}
lastEncoderBits = newbutton;
}
if (ABS(temp_diff) >= ENCODER_PULSES_PER_STEP) {
if (temp_diff > 0) temp_diffState = ENCODER_DIFF_CW;
else temp_diffState = ENCODER_DIFF_CCW;
#if ENABLED(ENCODER_RATE_MULTIPLIER)
millis_t ms = millis();
int32_t encoderMultiplier = 1;
// if must encoder rati multiplier
if (EncoderRate.enabled) {
const float abs_diff = ABS(temp_diff),
encoderMovementSteps = abs_diff / (ENCODER_PULSES_PER_STEP);
if (EncoderRate.lastEncoderTime) {
// Note that the rate is always calculated between two passes through the
// loop and that the abs of the temp_diff value is tracked.
const float encoderStepRate = encoderMovementSteps / float(ms - EncoderRate.lastEncoderTime) * 1000;
if (encoderStepRate >= ENCODER_100X_STEPS_PER_SEC) encoderMultiplier = 100;
else if (encoderStepRate >= ENCODER_10X_STEPS_PER_SEC) encoderMultiplier = 10;
#if ENCODER_5X_STEPS_PER_SEC
else if (encoderStepRate >= ENCODER_5X_STEPS_PER_SEC) encoderMultiplier = 5;
#endif
}
EncoderRate.lastEncoderTime = ms;
}
#else
constexpr int32_t encoderMultiplier = 1;
#endif
// EncoderRate.encoderMoveValue += (temp_diff * encoderMultiplier) / (ENCODER_PULSES_PER_STEP);
EncoderRate.encoderMoveValue = (temp_diff * encoderMultiplier) / (ENCODER_PULSES_PER_STEP);
if (EncoderRate.encoderMoveValue < 0) EncoderRate.encoderMoveValue = -EncoderRate.encoderMoveValue;
temp_diff = 0;
}
return temp_diffState;
}
#if PIN_EXISTS(LCD_LED)
// Take the low 24 valid bits 24Bit: G7 G6 G5 G4 G3 G2 G1 G0 R7 R6 R5 R4 R3 R2 R1 R0 B7 B6 B5 B4 B3 B2 B1 B0
uint16_t LED_DataArray[LED_NUM];
// LED light operation
void LED_Action() {
LED_Control(RGB_SCALE_WARM_WHITE,0x0F);
delay(30);
LED_Control(RGB_SCALE_WARM_WHITE,0x00);
}
// LED initialization
void LED_Configuration() {
SET_OUTPUT(LCD_LED_PIN);
}
// LED write data
void LED_WriteData() {
uint8_t tempCounter_LED, tempCounter_Bit;
for (tempCounter_LED = 0; tempCounter_LED < LED_NUM; tempCounter_LED++) {
for (tempCounter_Bit = 0; tempCounter_Bit < 24; tempCounter_Bit++) {
if (LED_DataArray[tempCounter_LED] & (0x800000 >> tempCounter_Bit)) {
LED_DATA_HIGH;
DELAY_NS(300);
LED_DATA_LOW;
DELAY_NS(200);
}
else {
LED_DATA_HIGH;
LED_DATA_LOW;
DELAY_NS(200);
}
}
}
}
// LED control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
void LED_Control(const uint8_t RGB_Scale, const uint8_t luminance) {
for (uint8_t i = 0; i < LED_NUM; i++) {
LED_DataArray[i] = 0;
switch (RGB_Scale) {
case RGB_SCALE_R10_G7_B5: LED_DataArray[i] = (luminance * 10/10) << 8 | (luminance * 7/10) << 16 | luminance * 5/10; break;
case RGB_SCALE_R10_G7_B4: LED_DataArray[i] = (luminance * 10/10) << 8 | (luminance * 7/10) << 16 | luminance * 4/10; break;
case RGB_SCALE_R10_G8_B7: LED_DataArray[i] = (luminance * 10/10) << 8 | (luminance * 8/10) << 16 | luminance * 7/10; break;
}
}
LED_WriteData();
}
// LED gradient control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
// change_Time: gradient time (ms)
void LED_GraduallyControl(const uint8_t RGB_Scale, const uint8_t luminance, const uint16_t change_Interval) {
struct { uint8_t g, r, b; } led_data[LED_NUM];
for (uint8_t i = 0; i < LED_NUM; i++) {
switch (RGB_Scale) {
case RGB_SCALE_R10_G7_B5:
led_data[i] = { luminance * 7/10, luminance * 10/10, luminance * 5/10 };
break;
case RGB_SCALE_R10_G7_B4:
led_data[i] = { luminance * 7/10, luminance * 10/10, luminance * 4/10 };
break;
case RGB_SCALE_R10_G8_B7:
led_data[i] = { luminance * 8/10, luminance * 10/10, luminance * 7/10 };
break;
}
}
struct { bool g, r, b; } led_flag = { false, false, false };
for (uint8_t i = 0; i < LED_NUM; i++) {
while (1) {
const uint8_t g = uint8_t(LED_DataArray[i] >> 16),
r = uint8_t(LED_DataArray[i] >> 8),
b = uint8_t(LED_DataArray[i]);
if (g == led_data[i].g) led_flag.g = true;
else LED_DataArray[i] += (g > led_data[i].g) ? -0x010000 : 0x010000;
if (r == led_data[i].r) led_flag.r = true;
else LED_DataArray[i] += (r > led_data[i].r) ? -0x000100 : 0x000100;
if (b == led_data[i].b) led_flag.b = true;
else LED_DataArray[i] += (b > led_data[i].b) ? -0x000001 : 0x000001;
LED_WriteData();
if (led_flag.r && led_flag.g && led_flag.b) break;
delay(change_Interval);
}
}
}
#endif // LCD_LED
#endif // DWIN_CREALITY_LCD_ENHANCED

@ -1,93 +0,0 @@
/**
* DWIN UI Enhanced implementation
* Author: Miguel A. Risco-Castillo
* Version: 3.6.1
* Date: 2021/08/29
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser 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 Lesser General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
#pragma once
/*****************************************************************************
* @file lcd/e3v2/enhanced/rotary_encoder.h
* @author LEO / Creality3D
* @date 2019/07/06
* @version 2.0.1
* @brief Rotary encoder functions
****************************************************************************/
#include "../../../inc/MarlinConfig.h"
/*********************** Encoder Set ***********************/
typedef struct {
bool enabled = false;
int encoderMoveValue = 0;
millis_t lastEncoderTime = 0;
} ENCODER_Rate;
extern ENCODER_Rate EncoderRate;
typedef enum {
ENCODER_DIFF_NO = 0, // no state
ENCODER_DIFF_CW = 1, // clockwise rotation
ENCODER_DIFF_CCW = 2, // counterclockwise rotation
ENCODER_DIFF_ENTER = 3 // click
} ENCODER_DiffState;
// Encoder initialization
void Encoder_Configuration();
// Analyze encoder value and return state
ENCODER_DiffState Encoder_ReceiveAnalyze();
/*********************** Encoder LED ***********************/
#if PIN_EXISTS(LCD_LED)
#define LED_NUM 4
#define LED_DATA_HIGH WRITE(LCD_LED_PIN, 1)
#define LED_DATA_LOW WRITE(LCD_LED_PIN, 0)
#define RGB_SCALE_R10_G7_B5 1
#define RGB_SCALE_R10_G7_B4 2
#define RGB_SCALE_R10_G8_B7 3
#define RGB_SCALE_NEUTRAL_WHITE RGB_SCALE_R10_G7_B5
#define RGB_SCALE_WARM_WHITE RGB_SCALE_R10_G7_B4
#define RGB_SCALE_COOL_WHITE RGB_SCALE_R10_G8_B7
extern unsigned int LED_DataArray[LED_NUM];
// LED light operation
void LED_Action();
// LED initialization
void LED_Configuration();
// LED write data
void LED_WriteData();
// LED control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
void LED_Control(const uint8_t RGB_Scale, const uint8_t luminance);
// LED gradient control
// RGB_Scale: RGB color ratio
// luminance: brightness (0~0xFF)
// change_Time: gradient time (ms)
void LED_GraduallyControl(const uint8_t RGB_Scale, const uint8_t luminance, const uint16_t change_Interval);
#endif // LCD_LED

@ -40,6 +40,9 @@
#include "../../../libs/buzzer.h" #include "../../../libs/buzzer.h"
#include "../../../inc/Conditionals_post.h" #include "../../../inc/Conditionals_post.h"
//#define DEBUG_OUT 1
#include "../../../core/debug_out.h"
#if ENABLED(ADVANCED_PAUSE_FEATURE) #if ENABLED(ADVANCED_PAUSE_FEATURE)
#include "../../../feature/pause.h" #include "../../../feature/pause.h"
#endif #endif
@ -200,7 +203,6 @@ CrealityDWINClass CrealityDWIN;
uint8_t mesh_y = 0; uint8_t mesh_y = 0;
#if ENABLED(AUTO_BED_LEVELING_UBL) #if ENABLED(AUTO_BED_LEVELING_UBL)
bed_mesh_t &mesh_z_values = ubl.z_values;
uint8_t tilt_grid = 1; uint8_t tilt_grid = 1;
void manual_value_update(bool undefined=false) { void manual_value_update(bool undefined=false) {
@ -213,11 +215,11 @@ CrealityDWINClass CrealityDWIN;
struct linear_fit_data lsf_results; struct linear_fit_data lsf_results;
incremental_LSF_reset(&lsf_results); incremental_LSF_reset(&lsf_results);
GRID_LOOP(x, y) { GRID_LOOP(x, y) {
if (!isnan(mesh_z_values[x][y])) { if (!isnan(Z_VALUES_ARR[x][y])) {
xy_pos_t rpos; xy_pos_t rpos;
rpos.x = ubl.mesh_index_to_xpos(x); rpos.x = ubl.mesh_index_to_xpos(x);
rpos.y = ubl.mesh_index_to_ypos(y); rpos.y = ubl.mesh_index_to_ypos(y);
incremental_LSF(&lsf_results, rpos, mesh_z_values[x][y]); incremental_LSF(&lsf_results, rpos, Z_VALUES_ARR[x][y]);
} }
} }
@ -232,7 +234,7 @@ CrealityDWINClass CrealityDWIN;
GRID_LOOP(i, j) { GRID_LOOP(i, j) {
float mx = ubl.mesh_index_to_xpos(i), float mx = ubl.mesh_index_to_xpos(i),
my = ubl.mesh_index_to_ypos(j), my = ubl.mesh_index_to_ypos(j),
mz = mesh_z_values[i][j]; mz = Z_VALUES_ARR[i][j];
if (DEBUGGING(LEVELING)) { if (DEBUGGING(LEVELING)) {
DEBUG_ECHOPAIR_F("before rotation = [", mx, 7); DEBUG_ECHOPAIR_F("before rotation = [", mx, 7);
@ -256,13 +258,12 @@ CrealityDWINClass CrealityDWIN;
DEBUG_DELAY(20); DEBUG_DELAY(20);
} }
mesh_z_values[i][j] = mz - lsf_results.D; Z_VALUES_ARR[i][j] = mz - lsf_results.D;
} }
return false; return false;
} }
#else #else
bed_mesh_t &mesh_z_values = z_values;
void manual_value_update() { void manual_value_update() {
sprintf_P(cmd, PSTR("G29 I%i J%i Z%s"), mesh_x, mesh_y, dtostrf(current_position.z, 1, 3, str_1)); sprintf_P(cmd, PSTR("G29 I%i J%i Z%s"), mesh_x, mesh_y, dtostrf(current_position.z, 1, 3, str_1));
@ -275,7 +276,7 @@ CrealityDWINClass CrealityDWIN;
void manual_move(bool zmove=false) { void manual_move(bool zmove=false) {
if (zmove) { if (zmove) {
planner.synchronize(); planner.synchronize();
current_position.z = goto_mesh_value ? mesh_z_values[mesh_x][mesh_y] : Z_CLEARANCE_BETWEEN_PROBES; current_position.z = goto_mesh_value ? Z_VALUES_ARR[mesh_x][mesh_y] : Z_CLEARANCE_BETWEEN_PROBES;
planner.buffer_line(current_position, homing_feedrate(Z_AXIS), active_extruder); planner.buffer_line(current_position, homing_feedrate(Z_AXIS), active_extruder);
planner.synchronize(); planner.synchronize();
} }
@ -286,7 +287,7 @@ CrealityDWINClass CrealityDWIN;
sprintf_P(cmd, PSTR("G42 F4000 I%i J%i"), mesh_x, mesh_y); sprintf_P(cmd, PSTR("G42 F4000 I%i J%i"), mesh_x, mesh_y);
gcode.process_subcommands_now_P(cmd); gcode.process_subcommands_now_P(cmd);
planner.synchronize(); planner.synchronize();
current_position.z = goto_mesh_value ? mesh_z_values[mesh_x][mesh_y] : Z_CLEARANCE_BETWEEN_PROBES; current_position.z = goto_mesh_value ? Z_VALUES_ARR[mesh_x][mesh_y] : Z_CLEARANCE_BETWEEN_PROBES;
planner.buffer_line(current_position, homing_feedrate(Z_AXIS), active_extruder); planner.buffer_line(current_position, homing_feedrate(Z_AXIS), active_extruder);
planner.synchronize(); planner.synchronize();
CrealityDWIN.Redraw_Menu(); CrealityDWIN.Redraw_Menu();
@ -296,8 +297,8 @@ CrealityDWINClass CrealityDWIN;
float get_max_value() { float get_max_value() {
float max = __FLT_MIN__; float max = __FLT_MIN__;
GRID_LOOP(x, y) { GRID_LOOP(x, y) {
if (!isnan(mesh_z_values[x][y]) && mesh_z_values[x][y] > max) if (!isnan(Z_VALUES_ARR[x][y]) && Z_VALUES_ARR[x][y] > max)
max = mesh_z_values[x][y]; max = Z_VALUES_ARR[x][y];
} }
return max; return max;
} }
@ -305,8 +306,8 @@ CrealityDWINClass CrealityDWIN;
float get_min_value() { float get_min_value() {
float min = __FLT_MAX__; float min = __FLT_MAX__;
GRID_LOOP(x, y) { GRID_LOOP(x, y) {
if (!isnan(mesh_z_values[x][y]) && mesh_z_values[x][y] < min) if (!isnan(Z_VALUES_ARR[x][y]) && Z_VALUES_ARR[x][y] < min)
min = mesh_z_values[x][y]; min = Z_VALUES_ARR[x][y];
} }
return min; return min;
} }
@ -336,11 +337,11 @@ CrealityDWINClass CrealityDWIN;
const auto start_y_px = padding_y_top + (GRID_MAX_POINTS_Y - y - 1) * cell_height_px; const auto start_y_px = padding_y_top + (GRID_MAX_POINTS_Y - y - 1) * cell_height_px;
const auto end_y_px = start_y_px + cell_height_px - 1 - gridline_width; const auto end_y_px = start_y_px + cell_height_px - 1 - gridline_width;
DWIN_Draw_Rectangle(1, // RGB565 colors: http://www.barth-dev.de/online/rgb565-color-picker/ DWIN_Draw_Rectangle(1, // RGB565 colors: http://www.barth-dev.de/online/rgb565-color-picker/
isnan(mesh_z_values[x][y]) ? Color_Grey : ( // gray if undefined isnan(Z_VALUES_ARR[x][y]) ? Color_Grey : ( // gray if undefined
(mesh_z_values[x][y] < 0 ? (Z_VALUES_ARR[x][y] < 0 ?
(uint16_t)round(0x1F * -mesh_z_values[x][y] / (!viewer_asymmetric_range ? range : v_min)) << 11 : // red if mesh point value is negative (uint16_t)round(0x1F * -Z_VALUES_ARR[x][y] / (!viewer_asymmetric_range ? range : v_min)) << 11 : // red if mesh point value is negative
(uint16_t)round(0x3F * mesh_z_values[x][y] / (!viewer_asymmetric_range ? range : v_max)) << 5) | // green if mesh point value is positive (uint16_t)round(0x3F * Z_VALUES_ARR[x][y] / (!viewer_asymmetric_range ? range : v_max)) << 5) | // green if mesh point value is positive
_MIN(0x1F, (((uint8_t)abs(mesh_z_values[x][y]) / 10) * 4))), // + blue stepping for every mm _MIN(0x1F, (((uint8_t)abs(Z_VALUES_ARR[x][y]) / 10) * 4))), // + blue stepping for every mm
start_x_px, start_y_px, end_x_px, end_y_px start_x_px, start_y_px, end_x_px, end_y_px
); );
@ -350,18 +351,18 @@ CrealityDWINClass CrealityDWIN;
// Draw value text on // Draw value text on
if (viewer_print_value) { if (viewer_print_value) {
int8_t offset_x, offset_y = cell_height_px / 2 - 6; int8_t offset_x, offset_y = cell_height_px / 2 - 6;
if (isnan(mesh_z_values[x][y])) { // undefined if (isnan(Z_VALUES_ARR[x][y])) { // undefined
DWIN_Draw_String(false, false, font6x12, Color_White, Color_Bg_Blue, start_x_px + cell_width_px / 2 - 5, start_y_px + offset_y, F("X")); DWIN_Draw_String(false, font6x12, Color_White, Color_Bg_Blue, start_x_px + cell_width_px / 2 - 5, start_y_px + offset_y, F("X"));
} }
else { // has value else { // has value
if (GRID_MAX_POINTS_X < 10) if (GRID_MAX_POINTS_X < 10)
sprintf_P(buf, PSTR("%s"), dtostrf(abs(mesh_z_values[x][y]), 1, 2, str_1)); sprintf_P(buf, PSTR("%s"), dtostrf(abs(Z_VALUES_ARR[x][y]), 1, 2, str_1));
else else
sprintf_P(buf, PSTR("%02i"), (uint16_t)(abs(mesh_z_values[x][y] - (int16_t)mesh_z_values[x][y]) * 100)); sprintf_P(buf, PSTR("%02i"), (uint16_t)(abs(Z_VALUES_ARR[x][y] - (int16_t)Z_VALUES_ARR[x][y]) * 100));
offset_x = cell_width_px / 2 - 3 * (strlen(buf)) - 2; offset_x = cell_width_px / 2 - 3 * (strlen(buf)) - 2;
if (!(GRID_MAX_POINTS_X < 10)) if (!(GRID_MAX_POINTS_X < 10))
DWIN_Draw_String(false, false, font6x12, Color_White, Color_Bg_Blue, start_x_px - 2 + offset_x, start_y_px + offset_y /*+ square / 2 - 6*/, F(".")); DWIN_Draw_String(false, font6x12, Color_White, Color_Bg_Blue, start_x_px - 2 + offset_x, start_y_px + offset_y /*+ square / 2 - 6*/, F("."));
DWIN_Draw_String(false, false, font6x12, Color_White, Color_Bg_Blue, start_x_px + 1 + offset_x, start_y_px + offset_y /*+ square / 2 - 6*/, buf); DWIN_Draw_String(false, font6x12, Color_White, Color_Bg_Blue, start_x_px + 1 + offset_x, start_y_px + offset_y /*+ square / 2 - 6*/, buf);
} }
safe_delay(10); safe_delay(10);
LCD_SERIAL.flushTX(); LCD_SERIAL.flushTX();
@ -415,16 +416,11 @@ void CrealityDWINClass::Draw_Float(float value, uint8_t row, bool selected/*=fal
const uint16_t bColor = (selected) ? Select_Color : Color_Bg_Black; const uint16_t bColor = (selected) ? Select_Color : Color_Bg_Black;
const uint16_t xpos = 240 - (digits * 8); const uint16_t xpos = 240 - (digits * 8);
DWIN_Draw_Rectangle(1, Color_Bg_Black, 194, MBASE(row), 234 - (digits * 8), MBASE(row) + 16); DWIN_Draw_Rectangle(1, Color_Bg_Black, 194, MBASE(row), 234 - (digits * 8), MBASE(row) + 16);
if (isnan(value)) { if (isnan(value))
DWIN_Draw_String(false, true, DWIN_FONT_MENU, Color_White, bColor, xpos - 8, MBASE(row), F(" NaN")); DWIN_Draw_String(true, DWIN_FONT_MENU, Color_White, bColor, xpos - 8, MBASE(row), F(" NaN"));
}
else if (value < 0) {
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, Color_White, bColor, digits - log10(minunit) + 1, log10(minunit), xpos, MBASE(row), -value * minunit);
DWIN_Draw_String(false, true, DWIN_FONT_MENU, Color_White, bColor, xpos - 8, MBASE(row), F("-"));
}
else { else {
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, Color_White, bColor, digits - log10(minunit) + 1, log10(minunit), xpos, MBASE(row), value * minunit); DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, Color_White, bColor, digits - log10(minunit) + 1, log10(minunit), xpos, MBASE(row), (value < 0 ? -value : value) * minunit);
DWIN_Draw_String(false, true, DWIN_FONT_MENU, Color_White, bColor, xpos - 8, MBASE(row), F(" ")); DWIN_Draw_String(true, DWIN_FONT_MENU, Color_White, bColor, xpos - 8, MBASE(row), value < 0 ? F("-") : F(" "));
} }
} }
@ -432,7 +428,7 @@ void CrealityDWINClass::Draw_Option(uint8_t value, const char * const * options,
uint16_t bColor = (selected) ? Select_Color : Color_Bg_Black; uint16_t bColor = (selected) ? Select_Color : Color_Bg_Black;
uint16_t tColor = (color) ? GetColor(value, Color_White, false) : Color_White; uint16_t tColor = (color) ? GetColor(value, Color_White, false) : Color_White;
DWIN_Draw_Rectangle(1, bColor, 202, MBASE(row) + 14, 258, MBASE(row) - 2); DWIN_Draw_Rectangle(1, bColor, 202, MBASE(row) + 14, 258, MBASE(row) - 2);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, tColor, bColor, 202, MBASE(row) - 1, options[value]); DWIN_Draw_String(false, DWIN_FONT_MENU, tColor, bColor, 202, MBASE(row) - 1, options[value]);
} }
uint16_t CrealityDWINClass::GetColor(uint8_t color, uint16_t original, bool light/*=false*/) { uint16_t CrealityDWINClass::GetColor(uint8_t color, uint16_t original, bool light/*=false*/) {
@ -475,15 +471,15 @@ uint16_t CrealityDWINClass::GetColor(uint8_t color, uint16_t original, bool ligh
} }
void CrealityDWINClass::Draw_Title(const char * title) { void CrealityDWINClass::Draw_Title(const char * title) {
DWIN_Draw_String(false, false, DWIN_FONT_HEAD, GetColor(eeprom_settings.menu_top_txt, Color_White, false), Color_Bg_Blue, (DWIN_WIDTH - strlen(title) * STAT_CHR_W) / 2, 5, title); DWIN_Draw_String(false, DWIN_FONT_HEAD, GetColor(eeprom_settings.menu_top_txt, Color_White, false), Color_Bg_Blue, (DWIN_WIDTH - strlen(title) * STAT_CHR_W) / 2, 5, title);
} }
void CrealityDWINClass::Draw_Menu_Item(uint8_t row, uint8_t icon/*=0*/, const char * label1, const char * label2, bool more/*=false*/, bool centered/*=false*/) { void CrealityDWINClass::Draw_Menu_Item(uint8_t row, uint8_t icon/*=0*/, const char * label1, const char * label2, bool more/*=false*/, bool centered/*=false*/) {
const uint8_t label_offset_y = !(label1 && label2) ? 0 : MENU_CHR_H * 3 / 5; const uint8_t label_offset_y = !(label1 && label2) ? 0 : MENU_CHR_H * 3 / 5;
const uint8_t label1_offset_x = !centered ? LBLX : LBLX * 4/5 + _MAX(LBLX * 1U/5, (DWIN_WIDTH - LBLX - (label1 ? strlen(label1) : 0) * MENU_CHR_W) / 2); const uint8_t label1_offset_x = !centered ? LBLX : LBLX * 4/5 + _MAX(LBLX * 1U/5, (DWIN_WIDTH - LBLX - (label1 ? strlen(label1) : 0) * MENU_CHR_W) / 2);
const uint8_t label2_offset_x = !centered ? LBLX : LBLX * 4/5 + _MAX(LBLX * 1U/5, (DWIN_WIDTH - LBLX - (label2 ? strlen(label2) : 0) * MENU_CHR_W) / 2); const uint8_t label2_offset_x = !centered ? LBLX : LBLX * 4/5 + _MAX(LBLX * 1U/5, (DWIN_WIDTH - LBLX - (label2 ? strlen(label2) : 0) * MENU_CHR_W) / 2);
if (label1) DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, label1_offset_x, MBASE(row) - 1 - label_offset_y, label1); // Draw Label if (label1) DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, label1_offset_x, MBASE(row) - 1 - label_offset_y, label1); // Draw Label
if (label2) DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, label2_offset_x, MBASE(row) - 1 + label_offset_y, label2); // Draw Label if (label2) DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, label2_offset_x, MBASE(row) - 1 + label_offset_y, label2); // Draw Label
if (icon) DWIN_ICON_Show(ICON, icon, 26, MBASE(row) - 3); //Draw Menu Icon if (icon) DWIN_ICON_Show(ICON, icon, 26, MBASE(row) - 3); //Draw Menu Icon
if (more) DWIN_ICON_Show(ICON, ICON_More, 226, MBASE(row) - 3); // Draw More Arrow if (more) DWIN_ICON_Show(ICON, ICON_More, 226, MBASE(row) - 3); // Draw More Arrow
DWIN_Draw_Line(GetColor(eeprom_settings.menu_split_line, Line_Color, true), 16, MBASE(row) + 33, 256, MBASE(row) + 33); // Draw Menu Line DWIN_Draw_Line(GetColor(eeprom_settings.menu_split_line, Line_Color, true), 16, MBASE(row) + 33, 256, MBASE(row) + 33); // Draw Menu Line
@ -547,50 +543,49 @@ void CrealityDWINClass::Main_Menu_Icons() {
if (selection == 0) { if (selection == 0) {
DWIN_ICON_Show(ICON, ICON_Print_1, 17, 130); DWIN_ICON_Show(ICON, ICON_Print_1, 17, 130);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 17, 130, 126, 229); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 17, 130, 126, 229);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 52, 200, F("Print")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 52, 200, F("Print"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Print_0, 17, 130); DWIN_ICON_Show(ICON, ICON_Print_0, 17, 130);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 52, 200, F("Print")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 52, 200, F("Print"));
} }
if (selection == 1) { if (selection == 1) {
DWIN_ICON_Show(ICON, ICON_Prepare_1, 145, 130); DWIN_ICON_Show(ICON, ICON_Prepare_1, 145, 130);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 145, 130, 254, 229); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 145, 130, 254, 229);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 170, 200, F("Prepare")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 170, 200, F("Prepare"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Prepare_0, 145, 130); DWIN_ICON_Show(ICON, ICON_Prepare_0, 145, 130);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 170, 200, F("Prepare")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 170, 200, F("Prepare"));
} }
if (selection == 2) { if (selection == 2) {
DWIN_ICON_Show(ICON, ICON_Control_1, 17, 246); DWIN_ICON_Show(ICON, ICON_Control_1, 17, 246);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 17, 246, 126, 345); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 17, 246, 126, 345);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 43, 317, F("Control")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 43, 317, F("Control"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Control_0, 17, 246); DWIN_ICON_Show(ICON, ICON_Control_0, 17, 246);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 43, 317, F("Control")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 43, 317, F("Control"));
} }
#if HAS_ABL_OR_UBL #if HAS_ABL_OR_UBL
if (selection == 3) { if (selection == 3) {
DWIN_ICON_Show(ICON, ICON_Leveling_1, 145, 246); DWIN_ICON_Show(ICON, ICON_Leveling_1, 145, 246);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 145, 246, 254, 345); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 145, 246, 254, 345);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 179, 317, F("Level")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 179, 317, F("Level"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Leveling_0, 145, 246); DWIN_ICON_Show(ICON, ICON_Leveling_0, 145, 246);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 179, 317, F("Level")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 179, 317, F("Level"));
} }
#else #else
if (selection == 3) { if (selection == 3) {
DWIN_ICON_Show(ICON, ICON_Info_1, 145, 246); DWIN_ICON_Show(ICON, ICON_Info_1, 145, 246);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 145, 246, 254, 345); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 145, 246, 254, 345);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 181, 317, F("Info")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 181, 317, F("Info"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Info_0, 145, 246); DWIN_ICON_Show(ICON, ICON_Info_0, 145, 246);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 181, 317, F("Info")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 181, 317, F("Info"));
//DWIN_Frame_AreaCopy(1, 132, 423, 159, 435, 186, 318);
} }
#endif #endif
} }
@ -610,41 +605,41 @@ void CrealityDWINClass::Print_Screen_Icons() {
if (selection == 0) { if (selection == 0) {
DWIN_ICON_Show(ICON, ICON_Setup_1, 8, 252); DWIN_ICON_Show(ICON, ICON_Setup_1, 8, 252);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 8, 252, 87, 351); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 8, 252, 87, 351);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 30, 322, F("Tune")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 30, 322, F("Tune"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Setup_0, 8, 252); DWIN_ICON_Show(ICON, ICON_Setup_0, 8, 252);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 30, 322, F("Tune")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 30, 322, F("Tune"));
} }
if (selection == 2) { if (selection == 2) {
DWIN_ICON_Show(ICON, ICON_Stop_1, 184, 252); DWIN_ICON_Show(ICON, ICON_Stop_1, 184, 252);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 184, 252, 263, 351); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 184, 252, 263, 351);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 205, 322, F("Stop")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 205, 322, F("Stop"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Stop_0, 184, 252); DWIN_ICON_Show(ICON, ICON_Stop_0, 184, 252);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 205, 322, F("Stop")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 205, 322, F("Stop"));
} }
if (paused) { if (paused) {
if (selection == 1) { if (selection == 1) {
DWIN_ICON_Show(ICON, ICON_Continue_1, 96, 252); DWIN_ICON_Show(ICON, ICON_Continue_1, 96, 252);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 96, 252, 175, 351); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 96, 252, 175, 351);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Print")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Print"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Continue_0, 96, 252); DWIN_ICON_Show(ICON, ICON_Continue_0, 96, 252);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Print")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Print"));
} }
} }
else { else {
if (selection == 1) { if (selection == 1) {
DWIN_ICON_Show(ICON, ICON_Pause_1, 96, 252); DWIN_ICON_Show(ICON, ICON_Pause_1, 96, 252);
DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 96, 252, 175, 351); DWIN_Draw_Rectangle(0, GetColor(eeprom_settings.highlight_box, Color_White), 96, 252, 175, 351);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Pause")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Pause"));
} }
else { else {
DWIN_ICON_Show(ICON, ICON_Pause_0, 96, 252); DWIN_ICON_Show(ICON, ICON_Pause_0, 96, 252);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Pause")); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Blue, 114, 322, F("Pause"));
} }
} }
} }
@ -658,8 +653,8 @@ void CrealityDWINClass::Draw_Print_Screen() {
Print_Screen_Icons(); Print_Screen_Icons();
DWIN_ICON_Show(ICON, ICON_PrintTime, 14, 171); DWIN_ICON_Show(ICON, ICON_PrintTime, 14, 171);
DWIN_ICON_Show(ICON, ICON_RemainTime, 147, 169); DWIN_ICON_Show(ICON, ICON_RemainTime, 147, 169);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, 41, 163, "Elapsed"); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, 41, 163, F("Elapsed"));
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, 176, 163, "Remaining"); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, 176, 163, F("Remaining"));
Update_Status_Bar(true); Update_Status_Bar(true);
Draw_Print_ProgressBar(); Draw_Print_ProgressBar();
Draw_Print_ProgressElapsed(); Draw_Print_ProgressElapsed();
@ -687,14 +682,14 @@ void CrealityDWINClass::Draw_Print_Filename(const bool reset/*=false*/) {
dispname[len] = '\0'; dispname[len] = '\0';
DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 50, DWIN_WIDTH - 8, 80); DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 50, DWIN_WIDTH - 8, 80);
const int8_t npos = (DWIN_WIDTH - 30 * MENU_CHR_W) / 2; const int8_t npos = (DWIN_WIDTH - 30 * MENU_CHR_W) / 2;
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, npos, 60, dispname); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, npos, 60, dispname);
if (-pos >= 30) namescrl = 0; if (-pos >= 30) namescrl = 0;
namescrl++; namescrl++;
} }
else { else {
DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 50, DWIN_WIDTH - 8, 80); DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 50, DWIN_WIDTH - 8, 80);
const int8_t npos = (DWIN_WIDTH - strlen(filename) * MENU_CHR_W) / 2; const int8_t npos = (DWIN_WIDTH - strlen(filename) * MENU_CHR_W) / 2;
DWIN_Draw_String(false, false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, npos, 60, filename); DWIN_Draw_String(false, DWIN_FONT_MENU, Color_White, Color_Bg_Black, npos, 60, filename);
} }
} }
} }
@ -704,7 +699,7 @@ void CrealityDWINClass::Draw_Print_ProgressBar() {
DWIN_ICON_Show(ICON, ICON_Bar, 15, 93); DWIN_ICON_Show(ICON, ICON_Bar, 15, 93);
DWIN_Draw_Rectangle(1, BarFill_Color, 16 + printpercent * 240 / 100, 93, 256, 113); DWIN_Draw_Rectangle(1, BarFill_Color, 16 + printpercent * 240 / 100, 93, 256, 113);
DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_percent, Percent_Color), Color_Bg_Black, 3, 109, 133, printpercent); DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_percent, Percent_Color), Color_Bg_Black, 3, 109, 133, printpercent);
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_percent, Percent_Color), Color_Bg_Black, 133, 133, "%"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_percent, Percent_Color), Color_Bg_Black, 133, 133, F("%"));
} }
#if ENABLED(USE_M73_REMAINING_TIME) #if ENABLED(USE_M73_REMAINING_TIME)
@ -714,11 +709,11 @@ void CrealityDWINClass::Draw_Print_ProgressBar() {
DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 176, 187, remainingtime / 3600); DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 176, 187, remainingtime / 3600);
DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 200, 187, (remainingtime % 3600) / 60); DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 200, 187, (remainingtime % 3600) / 60);
if (eeprom_settings.time_format_textual) { if (eeprom_settings.time_format_textual) {
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 192, 187, "h"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 192, 187, F("h"));
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 216, 187, "m"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 216, 187, F("m"));
} }
else else
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 192, 187, ":"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 192, 187, F(":"));
} }
#endif #endif
@ -728,11 +723,11 @@ void CrealityDWINClass::Draw_Print_ProgressElapsed() {
DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 42, 187, elapsed.value / 3600); DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 42, 187, elapsed.value / 3600);
DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 66, 187, (elapsed.value % 3600) / 60); DWIN_Draw_IntValue(true, true, 1, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 2, 66, 187, (elapsed.value % 3600) / 60);
if (eeprom_settings.time_format_textual) { if (eeprom_settings.time_format_textual) {
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 58, 187, "h"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 58, 187, F("h"));
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 82, 187, "m"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 82, 187, F("m"));
} }
else else
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 58, 187, ":"); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.progress_time, Color_White), Color_Bg_Black, 58, 187, F(":"));
} }
void CrealityDWINClass::Draw_Print_confirm() { void CrealityDWINClass::Draw_Print_confirm() {
@ -779,7 +774,7 @@ void CrealityDWINClass::Draw_SD_List(bool removed/*=false*/) {
else { else {
Draw_Menu_Item(0, ICON_Back, "Back"); Draw_Menu_Item(0, ICON_Back, "Back");
DWIN_Draw_Rectangle(1, Color_Bg_Red, 10, MBASE(3) - 10, DWIN_WIDTH - 10, MBASE(4)); DWIN_Draw_Rectangle(1, Color_Bg_Red, 10, MBASE(3) - 10, DWIN_WIDTH - 10, MBASE(4));
DWIN_Draw_String(false, false, font16x32, Color_Yellow, Color_Bg_Red, ((DWIN_WIDTH) - 8 * 16) / 2, MBASE(3), "No Media"); DWIN_Draw_String(false, font16x32, Color_Yellow, Color_Bg_Red, ((DWIN_WIDTH) - 8 * 16) / 2, MBASE(3), F("No Media"));
} }
DWIN_Draw_Rectangle(1, GetColor(eeprom_settings.cursor_color, Rectangle_Color), 0, MBASE(0) - 18, 14, MBASE(0) + 33); DWIN_Draw_Rectangle(1, GetColor(eeprom_settings.cursor_color, Rectangle_Color), 0, MBASE(0) - 18, 14, MBASE(0) + 33);
} }
@ -795,7 +790,7 @@ void CrealityDWINClass::Draw_Status_Area(bool icons/*=false*/) {
hotend = -1; hotend = -1;
hotendtarget = -1; hotendtarget = -1;
DWIN_ICON_Show(ICON, ICON_HotendTemp, 10, 383); DWIN_ICON_Show(ICON, ICON_HotendTemp, 10, 383);
DWIN_Draw_String(false, false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 25 + 3 * STAT_CHR_W + 5, 384, F("/")); DWIN_Draw_String(false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 25 + 3 * STAT_CHR_W + 5, 384, F("/"));
} }
if (thermalManager.temp_hotend[0].celsius != hotend) { if (thermalManager.temp_hotend[0].celsius != hotend) {
hotend = thermalManager.temp_hotend[0].celsius; hotend = thermalManager.temp_hotend[0].celsius;
@ -810,7 +805,7 @@ void CrealityDWINClass::Draw_Status_Area(bool icons/*=false*/) {
if (icons) { if (icons) {
flow = -1; flow = -1;
DWIN_ICON_Show(ICON, ICON_StepE, 112, 417); DWIN_ICON_Show(ICON, ICON_StepE, 112, 417);
DWIN_Draw_String(false, false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 116 + 5 * STAT_CHR_W + 2, 417, F("%")); DWIN_Draw_String(false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 116 + 5 * STAT_CHR_W + 2, 417, F("%"));
} }
if (planner.flow_percentage[0] != flow) { if (planner.flow_percentage[0] != flow) {
flow = planner.flow_percentage[0]; flow = planner.flow_percentage[0];
@ -825,7 +820,7 @@ void CrealityDWINClass::Draw_Status_Area(bool icons/*=false*/) {
bed = -1; bed = -1;
bedtarget = -1; bedtarget = -1;
DWIN_ICON_Show(ICON, ICON_BedTemp, 10, 416); DWIN_ICON_Show(ICON, ICON_BedTemp, 10, 416);
DWIN_Draw_String(false, false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 25 + 3 * STAT_CHR_W + 5, 417, F("/")); DWIN_Draw_String(false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 25 + 3 * STAT_CHR_W + 5, 417, F("/"));
} }
if (thermalManager.temp_bed.celsius != bed) { if (thermalManager.temp_bed.celsius != bed) {
bed = thermalManager.temp_bed.celsius; bed = thermalManager.temp_bed.celsius;
@ -860,14 +855,8 @@ void CrealityDWINClass::Draw_Status_Area(bool icons/*=false*/) {
} }
if (zoffsetvalue != offset) { if (zoffsetvalue != offset) {
offset = zoffsetvalue; offset = zoffsetvalue;
if (zoffsetvalue < 0) { DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 2, 2, 207, 417, (zoffsetvalue < 0 ? -zoffsetvalue : zoffsetvalue) * 100);
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 2, 2, 207, 417, -zoffsetvalue * 100); DWIN_Draw_String(true, DWIN_FONT_MENU, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 205, 419, zoffsetvalue < 0 ? F("-") : F(" "));
DWIN_Draw_String(false, true, DWIN_FONT_MENU, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 205, 419, "-");
}
else {
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 2, 2, 207, 417, zoffsetvalue* 100);
DWIN_Draw_String(false, true, DWIN_FONT_MENU, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 205, 419, " ");
}
} }
#endif #endif
@ -875,7 +864,7 @@ void CrealityDWINClass::Draw_Status_Area(bool icons/*=false*/) {
if (icons) { if (icons) {
feedrate = -1; feedrate = -1;
DWIN_ICON_Show(ICON, ICON_Speed, 113, 383); DWIN_ICON_Show(ICON, ICON_Speed, 113, 383);
DWIN_Draw_String(false, false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 116 + 5 * STAT_CHR_W + 2, 384, F("%")); DWIN_Draw_String(false, DWIN_FONT_STAT, GetColor(eeprom_settings.status_area_text, Color_White), Color_Bg_Black, 116 + 5 * STAT_CHR_W + 2, 384, F("%"));
} }
if (feedrate_percentage != feedrate) { if (feedrate_percentage != feedrate) {
feedrate = feedrate_percentage; feedrate = feedrate_percentage;
@ -897,21 +886,21 @@ void CrealityDWINClass::Draw_Status_Area(bool icons/*=false*/) {
if (update_x) { if (update_x) {
x = current_position.x; x = current_position.x;
if ((update_x = axis_should_home(X_AXIS) && ui.get_blink())) if ((update_x = axis_should_home(X_AXIS) && ui.get_blink()))
DWIN_Draw_String(false, true, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 35, 459, " -?- "); DWIN_Draw_String(true, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 35, 459, F(" -?- "));
else else
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 3, 1, 35, 459, current_position.x * 10); DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 3, 1, 35, 459, current_position.x * 10);
} }
if (update_y) { if (update_y) {
y = current_position.y; y = current_position.y;
if ((update_y = axis_should_home(Y_AXIS) && ui.get_blink())) if ((update_y = axis_should_home(Y_AXIS) && ui.get_blink()))
DWIN_Draw_String(false, true, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 120, 459, " -?- "); DWIN_Draw_String(true, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 120, 459, F(" -?- "));
else else
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 3, 1, 120, 459, current_position.y * 10); DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 3, 1, 120, 459, current_position.y * 10);
} }
if (update_z) { if (update_z) {
z = current_position.z; z = current_position.z;
if ((update_z = axis_should_home(Z_AXIS) && ui.get_blink())) if ((update_z = axis_should_home(Z_AXIS) && ui.get_blink()))
DWIN_Draw_String(false, true, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 205, 459, " -?- "); DWIN_Draw_String(true, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 205, 459, F(" -?- "));
else else
DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 3, 2, 205, 459, (current_position.z>=0) ? current_position.z * 100 : 0); DWIN_Draw_FloatValue(true, true, 0, DWIN_FONT_MENU, GetColor(eeprom_settings.coordinates_text, Color_White), Color_Bg_Black, 3, 2, 205, 459, (current_position.z>=0) ? current_position.z * 100 : 0);
} }
@ -927,20 +916,20 @@ void CrealityDWINClass::Draw_Popup(PGM_P const line1, PGM_P const line2, PGM_P c
DWIN_Draw_Rectangle(1, Color_Bg_Window, 14, 60, 258, 350); DWIN_Draw_Rectangle(1, Color_Bg_Window, 14, 60, 258, 350);
const uint8_t ypos = (mode == Popup || mode == Confirm) ? 150 : 230; const uint8_t ypos = (mode == Popup || mode == Confirm) ? 150 : 230;
if (icon > 0) DWIN_ICON_Show(ICON, icon, 101, 105); if (icon > 0) DWIN_ICON_Show(ICON, icon, 101, 105);
DWIN_Draw_String(false, true, DWIN_FONT_MENU, Popup_Text_Color, Color_Bg_Window, (272 - 8 * strlen_P(line1)) / 2, ypos, line1); DWIN_Draw_String(true, DWIN_FONT_MENU, Popup_Text_Color, Color_Bg_Window, (272 - 8 * strlen_P(line1)) / 2, ypos, line1);
DWIN_Draw_String(false, true, DWIN_FONT_MENU, Popup_Text_Color, Color_Bg_Window, (272 - 8 * strlen_P(line2)) / 2, ypos + 30, line2); DWIN_Draw_String(true, DWIN_FONT_MENU, Popup_Text_Color, Color_Bg_Window, (272 - 8 * strlen_P(line2)) / 2, ypos + 30, line2);
DWIN_Draw_String(false, true, DWIN_FONT_MENU, Popup_Text_Color, Color_Bg_Window, (272 - 8 * strlen_P(line3)) / 2, ypos + 60, line3); DWIN_Draw_String(true, DWIN_FONT_MENU, Popup_Text_Color, Color_Bg_Window, (272 - 8 * strlen_P(line3)) / 2, ypos + 60, line3);
if (mode == Popup) { if (mode == Popup) {
selection = 0; selection = 0;
DWIN_Draw_Rectangle(1, Confirm_Color, 26, 280, 125, 317); DWIN_Draw_Rectangle(1, Confirm_Color, 26, 280, 125, 317);
DWIN_Draw_Rectangle(1, Cancel_Color, 146, 280, 245, 317); DWIN_Draw_Rectangle(1, Cancel_Color, 146, 280, 245, 317);
DWIN_Draw_String(false, false, DWIN_FONT_STAT, Color_White, Color_Bg_Window, 39, 290, "Confirm"); DWIN_Draw_String(false, DWIN_FONT_STAT, Color_White, Color_Bg_Window, 39, 290, F("Confirm"));
DWIN_Draw_String(false, false, DWIN_FONT_STAT, Color_White, Color_Bg_Window, 165, 290, "Cancel"); DWIN_Draw_String(false, DWIN_FONT_STAT, Color_White, Color_Bg_Window, 165, 290, F("Cancel"));
Popup_Select(); Popup_Select();
} }
else if (mode == Confirm) { else if (mode == Confirm) {
DWIN_Draw_Rectangle(1, Confirm_Color, 87, 280, 186, 317); DWIN_Draw_Rectangle(1, Confirm_Color, 87, 280, 186, 317);
DWIN_Draw_String(false, false, DWIN_FONT_STAT, Color_White, Color_Bg_Window, 96, 290, "Continue"); DWIN_Draw_String(false, DWIN_FONT_STAT, Color_White, Color_Bg_Window, 96, 290, F("Continue"));
} }
} }
@ -985,12 +974,12 @@ void CrealityDWINClass::Update_Status_Bar(bool refresh/*=false*/) {
if (process == Print) { if (process == Print) {
DWIN_Draw_Rectangle(1, Color_Grey, 8, 214, DWIN_WIDTH - 8, 238); DWIN_Draw_Rectangle(1, Color_Grey, 8, 214, DWIN_WIDTH - 8, 238);
const int8_t npos = (DWIN_WIDTH - 30 * MENU_CHR_W) / 2; const int8_t npos = (DWIN_WIDTH - 30 * MENU_CHR_W) / 2;
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 219, dispmsg); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 219, dispmsg);
} }
else { else {
DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 352, DWIN_WIDTH - 8, 376); DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 352, DWIN_WIDTH - 8, 376);
const int8_t npos = (DWIN_WIDTH - 30 * MENU_CHR_W) / 2; const int8_t npos = (DWIN_WIDTH - 30 * MENU_CHR_W) / 2;
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 357, dispmsg); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 357, dispmsg);
} }
if (-pos >= 30) msgscrl = 0; if (-pos >= 30) msgscrl = 0;
msgscrl++; msgscrl++;
@ -1001,12 +990,12 @@ void CrealityDWINClass::Update_Status_Bar(bool refresh/*=false*/) {
if (process == Print) { if (process == Print) {
DWIN_Draw_Rectangle(1, Color_Grey, 8, 214, DWIN_WIDTH - 8, 238); DWIN_Draw_Rectangle(1, Color_Grey, 8, 214, DWIN_WIDTH - 8, 238);
const int8_t npos = (DWIN_WIDTH - strlen(statusmsg) * MENU_CHR_W) / 2; const int8_t npos = (DWIN_WIDTH - strlen(statusmsg) * MENU_CHR_W) / 2;
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 219, statusmsg); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 219, statusmsg);
} }
else { else {
DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 352, DWIN_WIDTH - 8, 376); DWIN_Draw_Rectangle(1, Color_Bg_Black, 8, 352, DWIN_WIDTH - 8, 376);
const int8_t npos = (DWIN_WIDTH - strlen(statusmsg) * MENU_CHR_W) / 2; const int8_t npos = (DWIN_WIDTH - strlen(statusmsg) * MENU_CHR_W) / 2;
DWIN_Draw_String(false, false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 357, statusmsg); DWIN_Draw_String(false, DWIN_FONT_MENU, GetColor(eeprom_settings.status_bar_text, Color_White), Color_Bg_Black, npos, 357, statusmsg);
} }
} }
} }
@ -1280,7 +1269,7 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
#if HAS_BED_PROBE #if HAS_BED_PROBE
case MOVE_P: case MOVE_P:
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_StockConfiguraton, "Probe"); Draw_Menu_Item(row, ICON_StockConfiguration, "Probe");
Draw_Checkbox(row, probe_deployed); Draw_Checkbox(row, probe_deployed);
} }
else { else {
@ -2866,7 +2855,7 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
case Advanced: case Advanced:
#define ADVANCED_BACK 0 #define ADVANCED_BACK 0
#define ADVANCED_BEEPER (ADVANCED_BACK + 1) #define ADVANCED_BEEPER (ADVANCED_BACK + ENABLED(SOUND_MENU_ITEM))
#define ADVANCED_PROBE (ADVANCED_BEEPER + ENABLED(HAS_BED_PROBE)) #define ADVANCED_PROBE (ADVANCED_BEEPER + ENABLED(HAS_BED_PROBE))
#define ADVANCED_CORNER (ADVANCED_PROBE + 1) #define ADVANCED_CORNER (ADVANCED_PROBE + 1)
#define ADVANCED_LA (ADVANCED_CORNER + ENABLED(LIN_ADVANCE)) #define ADVANCED_LA (ADVANCED_CORNER + ENABLED(LIN_ADVANCE))
@ -2886,16 +2875,18 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
Draw_Menu(Control, CONTROL_ADVANCED); Draw_Menu(Control, CONTROL_ADVANCED);
break; break;
#if ENABLED(SOUND_MENU_ITEM)
case ADVANCED_BEEPER: case ADVANCED_BEEPER:
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_Version, "LCD Beeper"); Draw_Menu_Item(row, ICON_Version, "LCD Beeper");
Draw_Checkbox(row, eeprom_settings.beeperenable); Draw_Checkbox(row, ui.buzzer_enabled);
} }
else { else {
eeprom_settings.beeperenable = !eeprom_settings.beeperenable; ui.buzzer_enabled = !ui.buzzer_enabled;
Draw_Checkbox(row, eeprom_settings.beeperenable); Draw_Checkbox(row, ui.buzzer_enabled);
} }
break; break;
#endif
#if HAS_BED_PROBE #if HAS_BED_PROBE
case ADVANCED_PROBE: case ADVANCED_PROBE:
@ -3122,7 +3113,7 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
break; break;
case LEVELING_ACTIVE: case LEVELING_ACTIVE:
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_StockConfiguraton, "Leveling Active"); Draw_Menu_Item(row, ICON_StockConfiguration, "Leveling Active");
Draw_Checkbox(row, planner.leveling_active); Draw_Checkbox(row, planner.leveling_active);
} }
else { else {
@ -3407,7 +3398,7 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
if (draw) if (draw)
Draw_Menu_Item(row, ICON_Mesh, "Zero Current Mesh"); Draw_Menu_Item(row, ICON_Mesh, "Zero Current Mesh");
else else
ZERO(mesh_conf.mesh_z_values); ZERO(Z_VALUES_ARR);
break; break;
case LEVELING_SETTINGS_UNDEF: case LEVELING_SETTINGS_UNDEF:
if (draw) if (draw)
@ -3493,41 +3484,41 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
case LEVELING_M_OFFSET: case LEVELING_M_OFFSET:
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_SetZOffset, "Point Z Offset"); Draw_Menu_Item(row, ICON_SetZOffset, "Point Z Offset");
Draw_Float(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], row, false, 100); Draw_Float(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], row, false, 100);
} }
else { else {
if (isnan(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y])) if (isnan(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y]))
mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] = 0; Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] = 0;
Modify_Value(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], MIN_Z_OFFSET, MAX_Z_OFFSET, 100); Modify_Value(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], MIN_Z_OFFSET, MAX_Z_OFFSET, 100);
} }
break; break;
case LEVELING_M_UP: case LEVELING_M_UP:
if (draw) if (draw)
Draw_Menu_Item(row, ICON_Axis, "Microstep Up"); Draw_Menu_Item(row, ICON_Axis, "Microstep Up");
else if (mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] < MAX_Z_OFFSET) { else if (Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] < MAX_Z_OFFSET) {
mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] += 0.01; Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] += 0.01;
gcode.process_subcommands_now_P(PSTR("M290 Z0.01")); gcode.process_subcommands_now_P(PSTR("M290 Z0.01"));
planner.synchronize(); planner.synchronize();
current_position.z += 0.01f; current_position.z += 0.01f;
sync_plan_position(); sync_plan_position();
Draw_Float(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 1, false, 100); Draw_Float(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 1, false, 100);
} }
break; break;
case LEVELING_M_DOWN: case LEVELING_M_DOWN:
if (draw) if (draw)
Draw_Menu_Item(row, ICON_AxisD, "Microstep Down"); Draw_Menu_Item(row, ICON_AxisD, "Microstep Down");
else if (mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] > MIN_Z_OFFSET) { else if (Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] > MIN_Z_OFFSET) {
mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] -= 0.01; Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] -= 0.01;
gcode.process_subcommands_now_P(PSTR("M290 Z-0.01")); gcode.process_subcommands_now_P(PSTR("M290 Z-0.01"));
planner.synchronize(); planner.synchronize();
current_position.z -= 0.01f; current_position.z -= 0.01f;
sync_plan_position(); sync_plan_position();
Draw_Float(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 2, false, 100); Draw_Float(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 2, false, 100);
} }
break; break;
case LEVELING_M_GOTO_VALUE: case LEVELING_M_GOTO_VALUE:
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_StockConfiguraton, "Go to Mesh Z Value"); Draw_Menu_Item(row, ICON_StockConfiguration, "Go to Mesh Z Value");
Draw_Checkbox(row, mesh_conf.goto_mesh_value); Draw_Checkbox(row, mesh_conf.goto_mesh_value);
} }
else { else {
@ -3614,36 +3605,36 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
case UBL_M_OFFSET: case UBL_M_OFFSET:
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_SetZOffset, "Point Z Offset"); Draw_Menu_Item(row, ICON_SetZOffset, "Point Z Offset");
Draw_Float(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], row, false, 100); Draw_Float(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], row, false, 100);
} }
else { else {
if (isnan(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y])) if (isnan(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y]))
mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] = 0; Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] = 0;
Modify_Value(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], MIN_Z_OFFSET, MAX_Z_OFFSET, 100); Modify_Value(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], MIN_Z_OFFSET, MAX_Z_OFFSET, 100);
} }
break; break;
case UBL_M_UP: case UBL_M_UP:
if (draw) if (draw)
Draw_Menu_Item(row, ICON_Axis, "Microstep Up"); Draw_Menu_Item(row, ICON_Axis, "Microstep Up");
else if (mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] < MAX_Z_OFFSET) { else if (Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] < MAX_Z_OFFSET) {
mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] += 0.01; Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] += 0.01;
gcode.process_subcommands_now_P(PSTR("M290 Z0.01")); gcode.process_subcommands_now_P(PSTR("M290 Z0.01"));
planner.synchronize(); planner.synchronize();
current_position.z += 0.01f; current_position.z += 0.01f;
sync_plan_position(); sync_plan_position();
Draw_Float(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 1, false, 100); Draw_Float(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 1, false, 100);
} }
break; break;
case UBL_M_DOWN: case UBL_M_DOWN:
if (draw) if (draw)
Draw_Menu_Item(row, ICON_Axis, "Microstep Down"); Draw_Menu_Item(row, ICON_Axis, "Microstep Down");
else if (mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] > MIN_Z_OFFSET) { else if (Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] > MIN_Z_OFFSET) {
mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y] -= 0.01; Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y] -= 0.01;
gcode.process_subcommands_now_P(PSTR("M290 Z-0.01")); gcode.process_subcommands_now_P(PSTR("M290 Z-0.01"));
planner.synchronize(); planner.synchronize();
current_position.z -= 0.01f; current_position.z -= 0.01f;
sync_plan_position(); sync_plan_position();
Draw_Float(mesh_conf.mesh_z_values[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 2, false, 100); Draw_Float(Z_VALUES_ARR[mesh_conf.mesh_x][mesh_conf.mesh_y], row - 2, false, 100);
} }
break; break;
} }
@ -3733,7 +3724,7 @@ void CrealityDWINClass::Menu_Item_Handler(uint8_t menu, uint8_t item, bool draw/
if (mesh_y % 2 == 1) if (mesh_y % 2 == 1)
mesh_x = GRID_MAX_POINTS_X - mesh_x - 1; mesh_x = GRID_MAX_POINTS_X - mesh_x - 1;
const float currval = mesh_conf.mesh_z_values[mesh_x][mesh_y]; const float currval = Z_VALUES_ARR[mesh_x][mesh_y];
if (draw) { if (draw) {
Draw_Menu_Item(row, ICON_Zoffset, "Goto Mesh Value"); Draw_Menu_Item(row, ICON_Zoffset, "Goto Mesh Value");
@ -4215,7 +4206,7 @@ void CrealityDWINClass::Confirm_Handler(PopupID popupid) {
/* Navigation and Control */ /* Navigation and Control */
void CrealityDWINClass::Main_Menu_Control() { void CrealityDWINClass::Main_Menu_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW && selection < PAGE_COUNT - 1) { if (encoder_diffState == ENCODER_DIFF_CW && selection < PAGE_COUNT - 1) {
selection++; // Select Down selection++; // Select Down
@ -4236,7 +4227,7 @@ void CrealityDWINClass::Main_Menu_Control() {
} }
void CrealityDWINClass::Menu_Control() { void CrealityDWINClass::Menu_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW && selection < Get_Menu_Size(active_menu)) { if (encoder_diffState == ENCODER_DIFF_CW && selection < Get_Menu_Size(active_menu)) {
DWIN_Draw_Rectangle(1, Color_Bg_Black, 0, MBASE(selection - scrollpos) - 18, 14, MBASE(selection - scrollpos) + 33); DWIN_Draw_Rectangle(1, Color_Bg_Black, 0, MBASE(selection - scrollpos) - 18, 14, MBASE(selection - scrollpos) + 33);
@ -4264,7 +4255,7 @@ void CrealityDWINClass::Menu_Control() {
} }
void CrealityDWINClass::Value_Control() { void CrealityDWINClass::Value_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
tempvalue += EncoderRate.encoderMoveValue; tempvalue += EncoderRate.encoderMoveValue;
@ -4329,7 +4320,7 @@ void CrealityDWINClass::Value_Control() {
} }
void CrealityDWINClass::Option_Control() { void CrealityDWINClass::Option_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW) if (encoder_diffState == ENCODER_DIFF_CW)
tempvalue += EncoderRate.encoderMoveValue; tempvalue += EncoderRate.encoderMoveValue;
@ -4368,7 +4359,7 @@ void CrealityDWINClass::Option_Control() {
} }
void CrealityDWINClass::File_Control() { void CrealityDWINClass::File_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
static uint8_t filescrl = 0; static uint8_t filescrl = 0;
if (encoder_diffState == ENCODER_DIFF_NO) { if (encoder_diffState == ENCODER_DIFF_NO) {
if (selection > 0) { if (selection > 0) {
@ -4456,7 +4447,7 @@ void CrealityDWINClass::File_Control() {
} }
void CrealityDWINClass::Print_Screen_Control() { void CrealityDWINClass::Print_Screen_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW && selection < PRINT_COUNT - 1) { if (encoder_diffState == ENCODER_DIFF_CW && selection < PRINT_COUNT - 1) {
selection++; // Select Down selection++; // Select Down
@ -4509,7 +4500,7 @@ void CrealityDWINClass::Print_Screen_Control() {
} }
void CrealityDWINClass::Popup_Control() { void CrealityDWINClass::Popup_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_CW && selection < 1) { if (encoder_diffState == ENCODER_DIFF_CW && selection < 1) {
selection++; selection++;
@ -4659,7 +4650,7 @@ void CrealityDWINClass::Popup_Control() {
} }
void CrealityDWINClass::Confirm_Control() { void CrealityDWINClass::Confirm_Control() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); EncoderState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_NO) return;
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
switch (popup) { switch (popup) {
@ -4967,14 +4958,14 @@ void CrealityDWINClass::Screen_Update() {
void CrealityDWINClass::AudioFeedback(const bool success/*=true*/) { void CrealityDWINClass::AudioFeedback(const bool success/*=true*/) {
if (success) { if (success) {
if (eeprom_settings.beeperenable) { if (ui.buzzer_enabled) {
BUZZ(100, 659); BUZZ(100, 659);
BUZZ( 10, 0); BUZZ( 10, 0);
BUZZ(100, 698); BUZZ(100, 698);
} }
else Update_Status("Success"); else Update_Status("Success");
} }
else if (eeprom_settings.beeperenable) else if (ui.buzzer_enabled)
BUZZ(40, 440); BUZZ(40, 440);
else else
Update_Status("Failed"); Update_Status("Failed");
@ -5003,7 +4994,6 @@ void CrealityDWINClass::Load_Settings(const char *buff) {
void CrealityDWINClass::Reset_Settings() { void CrealityDWINClass::Reset_Settings() {
eeprom_settings.time_format_textual = false; eeprom_settings.time_format_textual = false;
eeprom_settings.beeperenable = true;
TERN_(AUTO_BED_LEVELING_UBL, eeprom_settings.tilt_grid_size = 0); TERN_(AUTO_BED_LEVELING_UBL, eeprom_settings.tilt_grid_size = 0);
eeprom_settings.corner_pos = 325; eeprom_settings.corner_pos = 325;
eeprom_settings.cursor_color = 0; eeprom_settings.cursor_color = 0;
@ -5019,6 +5009,7 @@ void CrealityDWINClass::Reset_Settings() {
eeprom_settings.coordinates_split_line = 0; eeprom_settings.coordinates_split_line = 0;
TERN_(AUTO_BED_LEVELING_UBL, mesh_conf.tilt_grid = eeprom_settings.tilt_grid_size + 1); TERN_(AUTO_BED_LEVELING_UBL, mesh_conf.tilt_grid = eeprom_settings.tilt_grid_size + 1);
corner_pos = eeprom_settings.corner_pos / 10.0f; corner_pos = eeprom_settings.corner_pos / 10.0f;
TERN_(SOUND_MENU_ITEM, ui.buzzer_enabled = true);
Redraw_Screen(); Redraw_Screen();
} }

@ -26,10 +26,16 @@
*/ */
#include "dwin_lcd.h" #include "dwin_lcd.h"
#include "rotary_encoder.h" #include "../common/dwin_set.h"
#include "../common/dwin_font.h"
#include "../common/dwin_color.h"
#include "../common/encoder.h"
#include "../../../libs/BL24CXX.h" #include "../../../libs/BL24CXX.h"
#include "../../../inc/MarlinConfigPre.h" #include "../../../inc/MarlinConfigPre.h"
//#define DWIN_CREALITY_LCD_CUSTOM_ICONS
enum processID : uint8_t { enum processID : uint8_t {
Main, Print, Menu, Value, Option, File, Popup, Confirm, Wait Main, Print, Menu, Value, Option, File, Popup, Confirm, Wait
}; };
@ -82,109 +88,6 @@ enum menuID : uint8_t {
PreheatHotend PreheatHotend
}; };
#define Start_Process 0
#define Language_English 1
#define Language_Chinese 2
#define ICON 7 // Icon set file 7.ICO
#define ICON_LOGO 0
#define ICON_Print_0 1
#define ICON_Print_1 2
#define ICON_Prepare_0 3
#define ICON_Prepare_1 4
#define ICON_Control_0 5
#define ICON_Control_1 6
#define ICON_Leveling_0 7
#define ICON_Leveling_1 8
#define ICON_HotendTemp 9
#define ICON_BedTemp 10
#define ICON_Speed 11
#define ICON_Zoffset 12
#define ICON_Back 13
#define ICON_File 14
#define ICON_PrintTime 15
#define ICON_RemainTime 16
#define ICON_Setup_0 17
#define ICON_Setup_1 18
#define ICON_Pause_0 19
#define ICON_Pause_1 20
#define ICON_Continue_0 21
#define ICON_Continue_1 22
#define ICON_Stop_0 23
#define ICON_Stop_1 24
#define ICON_Bar 25
#define ICON_More 26
#define ICON_Axis 27
#define ICON_CloseMotor 28
#define ICON_Homing 29
#define ICON_SetHome 30
#define ICON_PLAPreheat 31
#define ICON_ABSPreheat 32
#define ICON_Cool 33
#define ICON_Language 34
#define ICON_MoveX 35
#define ICON_MoveY 36
#define ICON_MoveZ 37
#define ICON_Extruder 38
#define ICON_Temperature 40
#define ICON_Motion 41
#define ICON_WriteEEPROM 42
#define ICON_ReadEEPROM 43
#define ICON_ResumeEEPROM 44
#define ICON_Info 45
#define ICON_SetEndTemp 46
#define ICON_SetBedTemp 47
#define ICON_FanSpeed 48
#define ICON_SetPLAPreheat 49
#define ICON_SetABSPreheat 50
#define ICON_MaxSpeed 51
#define ICON_MaxAccelerated 52
#define ICON_MaxJerk 53
#define ICON_Step 54
#define ICON_PrintSize 55
#define ICON_Version 56
#define ICON_Contact 57
#define ICON_StockConfiguraton 58
#define ICON_MaxSpeedX 59
#define ICON_MaxSpeedY 60
#define ICON_MaxSpeedZ 61
#define ICON_MaxSpeedE 62
#define ICON_MaxAccX 63
#define ICON_MaxAccY 64
#define ICON_MaxAccZ 65
#define ICON_MaxAccE 66
#define ICON_MaxSpeedJerkX 67
#define ICON_MaxSpeedJerkY 68
#define ICON_MaxSpeedJerkZ 69
#define ICON_MaxSpeedJerkE 70
#define ICON_StepX 71
#define ICON_StepY 72
#define ICON_StepZ 73
#define ICON_StepE 74
#define ICON_Setspeed 75
#define ICON_SetZOffset 76
#define ICON_Rectangle 77
#define ICON_BLTouch 78
#define ICON_TempTooLow 79
#define ICON_AutoLeveling 80
#define ICON_TempTooHigh 81
#define ICON_NoTips_C 82
#define ICON_NoTips_E 83
#define ICON_Continue_C 84
#define ICON_Continue_E 85
#define ICON_Cancel_C 86
#define ICON_Cancel_E 87
#define ICON_Confirm_C 88
#define ICON_Confirm_E 89
#define ICON_Info_0 90
#define ICON_Info_1 91
// Custom icons // Custom icons
#if ENABLED(DWIN_CREALITY_LCD_CUSTOM_ICONS) #if ENABLED(DWIN_CREALITY_LCD_CUSTOM_ICONS)
// index of every custom icon should be >= CUSTOM_ICON_START // index of every custom icon should be >= CUSTOM_ICON_START
@ -214,25 +117,14 @@ enum menuID : uint8_t {
#define ICON_AxisC ICON_Axis #define ICON_AxisC ICON_Axis
#endif #endif
#define font6x12 0x00
#define font8x16 0x01
#define font10x20 0x02
#define font12x24 0x03
#define font14x28 0x04
#define font16x32 0x05
#define font20x40 0x06
#define font24x48 0x07
#define font28x56 0x08
#define font32x64 0x09
enum colorID : uint8_t { enum colorID : uint8_t {
Default, White, Green, Cyan, Blue, Magenta, Red, Orange, Yellow, Brown, Black Default, White, Green, Cyan, Blue, Magenta, Red, Orange, Yellow, Brown, Black
}; };
#define Custom_Colors 10 #define Custom_Colors 10
#define Color_White 0xFFFF #define Color_Aqua RGB(0x00,0x3F,0x1F)
#define Color_Light_White 0xBDD7 #define Color_Light_White 0xBDD7
#define Color_Green 0x07E0 #define Color_Green RGB(0x00,0x3F,0x00)
#define Color_Light_Green 0x3460 #define Color_Light_Green 0x3460
#define Color_Cyan 0x07FF #define Color_Cyan 0x07FF
#define Color_Light_Cyan 0x04F3 #define Color_Light_Cyan 0x04F3
@ -240,26 +132,14 @@ enum colorID : uint8_t {
#define Color_Light_Blue 0x3A6A #define Color_Light_Blue 0x3A6A
#define Color_Magenta 0xF81F #define Color_Magenta 0xF81F
#define Color_Light_Magenta 0x9813 #define Color_Light_Magenta 0x9813
#define Color_Red 0xF800
#define Color_Light_Red 0x8800 #define Color_Light_Red 0x8800
#define Color_Orange 0xFA20 #define Color_Orange 0xFA20
#define Color_Light_Orange 0xFBC0 #define Color_Light_Orange 0xFBC0
#define Color_Yellow 0xFF0F
#define Color_Light_Yellow 0x8BE0 #define Color_Light_Yellow 0x8BE0
#define Color_Brown 0xCC27 #define Color_Brown 0xCC27
#define Color_Light_Brown 0x6204 #define Color_Light_Brown 0x6204
#define Color_Black 0x0000 #define Color_Black 0x0000
#define Color_Grey 0x18E3 #define Color_Grey 0x18E3
#define Color_Bg_Window 0x31E8 // Popup background color
#define Color_Bg_Blue 0x1125 // Dark blue background color
#define Color_Bg_Black 0x0841 // Black background color
#define Color_Bg_Red 0xF00F // Red background color
#define Popup_Text_Color 0xD6BA // Popup font background color
#define Line_Color 0x3A6A // Split line color
#define Rectangle_Color 0xEE2F // Blue square cursor color
#define Percent_Color 0xFE29 // Percentage color
#define BarFill_Color 0x10E4 // Fill color of progress bar
#define Select_Color 0x33BB // Selected color
#define Check_Color 0x4E5C // Check-box check color #define Check_Color 0x4E5C // Check-box check color
#define Confirm_Color 0x34B9 #define Confirm_Color 0x34B9
#define Cancel_Color 0x3186 #define Cancel_Color 0x3186
@ -269,7 +149,6 @@ public:
static constexpr size_t eeprom_data_size = 48; static constexpr size_t eeprom_data_size = 48;
static struct EEPROM_Settings { // use bit fields to save space, max 48 bytes static struct EEPROM_Settings { // use bit fields to save space, max 48 bytes
bool time_format_textual : 1; bool time_format_textual : 1;
bool beeperenable : 1;
#if ENABLED(AUTO_BED_LEVELING_UBL) #if ENABLED(AUTO_BED_LEVELING_UBL)
uint8_t tilt_grid_size : 3; uint8_t tilt_grid_size : 3;
#endif #endif

@ -29,183 +29,15 @@
#if ENABLED(DWIN_CREALITY_LCD_JYERSUI) #if ENABLED(DWIN_CREALITY_LCD_JYERSUI)
#include "../../../inc/MarlinConfig.h"
#include "dwin_lcd.h" #include "dwin_lcd.h"
#include <string.h> // for memset
//#define DEBUG_OUT 1
#include "../../../core/debug_out.h"
// Make sure DWIN_SendBuf is large enough to hold the largest string plus draw command and tail.
// Assume the narrowest (6 pixel) font and 2-byte gb2312-encoded characters.
uint8_t DWIN_SendBuf[11 + DWIN_WIDTH / 6 * 2] = { 0xAA };
uint8_t DWIN_BufTail[4] = { 0xCC, 0x33, 0xC3, 0x3C };
uint8_t databuf[26] = { 0 };
uint8_t receivedType;
int recnum = 0;
inline void DWIN_Byte(size_t &i, const uint16_t bval) {
DWIN_SendBuf[++i] = bval;
}
inline void DWIN_Word(size_t &i, const uint16_t wval) {
DWIN_SendBuf[++i] = wval >> 8;
DWIN_SendBuf[++i] = wval & 0xFF;
}
inline void DWIN_Long(size_t &i, const uint32_t lval) {
DWIN_SendBuf[++i] = (lval >> 24) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 16) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 8) & 0xFF;
DWIN_SendBuf[++i] = lval & 0xFF;
}
inline void DWIN_String(size_t &i, const char * const string) {
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, strlen(string));
memcpy(&DWIN_SendBuf[i + 1], string, len);
i += len;
}
inline void DWIN_String(size_t &i, const __FlashStringHelper * string) {
if (!string) return;
const size_t len = strlen_P((PGM_P)string); // cast it to PGM_P, which is basically const char *, and measure it using the _P version of strlen.
if (len == 0) return;
memcpy(&DWIN_SendBuf[i + 1], string, len);
i += len;
}
// Send the data in the buffer and the packet end
inline void DWIN_Send(size_t &i) {
++i;
LOOP_L_N(n, i) { LCD_SERIAL.write(DWIN_SendBuf[n]); delayMicroseconds(1); }
LOOP_L_N(n, 4) { LCD_SERIAL.write(DWIN_BufTail[n]); delayMicroseconds(1); }
}
/*-------------------------------------- System variable function --------------------------------------*/ /*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail) void DWIN_Startup() {}
bool DWIN_Handshake(void) {
#ifndef LCD_BAUDRATE
#define LCD_BAUDRATE 115200
#endif
LCD_SERIAL.begin(LCD_BAUDRATE);
const millis_t serial_connect_timeout = millis() + 1000UL;
while (!LCD_SERIAL.connected() && PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
size_t i = 0;
DWIN_Byte(i, 0x00);
DWIN_Send(i);
while (LCD_SERIAL.available() > 0 && recnum < (signed)sizeof(databuf)) {
databuf[recnum] = LCD_SERIAL.read();
// ignore the invalid data
if (databuf[0] != FHONE) { // prevent the program from running.
if (recnum > 0) {
recnum = 0;
ZERO(databuf);
}
continue;
}
delay(10);
recnum++;
}
return ( recnum >= 3
&& databuf[0] == FHONE
&& databuf[1] == '\0'
&& databuf[2] == 'O'
&& databuf[3] == 'K' );
}
// Set the backlight luminance
// luminance: (0x00-0xFF)
void DWIN_Backlight_SetLuminance(const uint8_t luminance) {
size_t i = 0;
DWIN_Byte(i, 0x30);
DWIN_Byte(i, luminance);
DWIN_Send(i);
}
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir) {
size_t i = 0;
DWIN_Byte(i, 0x34);
DWIN_Byte(i, 0x5A);
DWIN_Byte(i, 0xA5);
DWIN_Byte(i, dir);
DWIN_Send(i);
}
// Update display
void DWIN_UpdateLCD(void) {
size_t i = 0;
DWIN_Byte(i, 0x3D);
DWIN_Send(i);
}
/*---------------------------------------- Drawing functions ----------------------------------------*/ /*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen // Draw the degree (°) symbol
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color) {
size_t i = 0;
DWIN_Byte(i, 0x01);
DWIN_Word(i, color);
DWIN_Send(i);
}
// Draw a point
// color: Pixel segment color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x02);
DWIN_Word(i, color);
DWIN_Byte(i, width);
DWIN_Byte(i, height);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x03);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color,
uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x05);
DWIN_Byte(i, mode);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Color: color // Color: color
// x/y: Upper-left coordinate of the first pixel // x/y: Upper-left coordinate of the first pixel
void DWIN_Draw_DegreeSymbol(uint16_t Color, uint16_t x, uint16_t y) { void DWIN_Draw_DegreeSymbol(uint16_t Color, uint16_t x, uint16_t y) {
@ -219,256 +51,14 @@ void DWIN_Draw_DegreeSymbol(uint16_t Color, uint16_t x, uint16_t y) {
DWIN_Draw_Point(Color, 1, 1, x + 2, y + 3); DWIN_Draw_Point(Color, 1, 1, x + 2, y + 3);
} }
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x09);
DWIN_Byte(i, (mode << 7) | dir);
DWIN_Word(i, dis);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// widthAdjust: true=self-adjust character width; false=no adjustment
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
void DWIN_Draw_String(bool widthAdjust, bool bShow, uint8_t size,
uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * string) {
size_t i = 0;
DWIN_Byte(i, 0x11);
// Bit 7: widthAdjust
// Bit 6: bShow
// Bit 5-4: Unused (0)
// Bit 3-0: size
DWIN_Byte(i, (widthAdjust * 0x80) | (bShow * 0x40) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_String(i, string);
DWIN_Send(i);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint16_t value) {
size_t i = 0;
DWIN_Byte(i, 0x14);
// Bit 7: bshow
// Bit 6: 1 = signed; 0 = unsigned number;
// Bit 5: zeroFill
// Bit 4: zeroMode
// Bit 3-0: size
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, 0); // fNum
DWIN_Word(i, x);
DWIN_Word(i, y);
#if 0
for (char count = 0; count < 8; count++) {
DWIN_Byte(i, value);
value >>= 8;
if (!(value & 0xFF)) break;
}
#else
// Write a big-endian 64 bit integer
const size_t p = i + 1;
for (char count = 8; count--;) { // 7..0
++i;
DWIN_SendBuf[p + count] = value;
value >>= 8;
}
#endif
DWIN_Send(i);
}
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value) {
//uint8_t *fvalue = (uint8_t*)&value;
size_t i = 0;
DWIN_Byte(i, 0x14);
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, fNum);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Long(i, value);
/*
DWIN_Byte(i, fvalue[3]);
DWIN_Byte(i, fvalue[2]);
DWIN_Byte(i, fvalue[1]);
DWIN_Byte(i, fvalue[0]);
*/
DWIN_Send(i);
}
/*---------------------------------------- Picture related functions ----------------------------------------*/ /*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id) {
size_t i = 0;
DWIN_Word(i, 0x2200);
DWIN_Byte(i, id);
DWIN_Send(i); // AA 23 00 00 00 00 08 00 01 02 03 CC 33 C3 3C
}
// Draw an Icon // Draw an Icon
// libID: Icon library ID // libID: Icon library ID
// picID: Icon ID // picID: Icon ID
// x/y: Upper-left point // x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) { void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) {
NOMORE(x, DWIN_WIDTH - 1); DWIN_ICON_Show(true, false, false, libID, picID, x, y);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x23);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, 0x80 | libID);
DWIN_Byte(i, picID);
DWIN_Send(i);
} }
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id) {
size_t i = 0;
DWIN_Byte(i, 0x25);
DWIN_Byte(i, n);
DWIN_Byte(i, id);
DWIN_Send(i);
}
// Copy area from virtual display area to current screen
// cacheID: virtual area number
// xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart,
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x27);
DWIN_Byte(i, 0x80 | cacheID);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Animate a series of icons
// animID: Animation ID; 0x00-0x0F
// animate: true on; false off;
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs, uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x28);
DWIN_Word(i, x);
DWIN_Word(i, y);
// Bit 7: animation on or off
// Bit 6: start from begin or end
// Bit 5-4: unused (0)
// Bit 3-0: animID
DWIN_Byte(i, (animate * 0x80) | 0x40 | animID);
DWIN_Byte(i, libID);
DWIN_Byte(i, picIDs);
DWIN_Byte(i, picIDe);
DWIN_Byte(i, interval);
DWIN_Send(i);
}
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state) {
size_t i = 0;
DWIN_Byte(i, 0x28);
DWIN_Word(i, state);
DWIN_Send(i);
}
/*---------------------------------------- Memory functions ----------------------------------------*/
// The LCD has an additional 32KB SRAM and 16KB Flash
// Data can be written to the sram and save to one of the jpeg page files
// Write Data Memory
// command 0x31
// Type: Write memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Write data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Data: data
//
// Flash writing returns 0xA5 0x4F 0x4B
// Read Data Memory
// command 0x32
// Type: Read memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Read data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Length: leangth of data to read; 0x01-0xF0
//
// Response:
// Type, Address, Length, Data
// Write Picture Memory
// Write the contents of the 32KB SRAM data memory into the designated image memory space
// Issued: 0x5A, 0xA5, PIC_ID
// Response: 0xA5 0x4F 0x4B
//
// command 0x33
// 0x5A, 0xA5
// PicId: Picture Memory location, 0x00-0x0F
//
// Flash writing returns 0xA5 0x4F 0x4B
#endif // DWIN_CREALITY_LCD_JYERSUI #endif // DWIN_CREALITY_LCD_JYERSUI

@ -26,190 +26,9 @@
* @brief DWIN screen control functions * @brief DWIN screen control functions
********************************************************************************/ ********************************************************************************/
#include <stdint.h> #include "../common/dwin_api.h"
#define RECEIVED_NO_DATA 0x00
#define RECEIVED_SHAKE_HAND_ACK 0x01
#define FHONE 0xAA
#define DWIN_SCROLL_UP 2
#define DWIN_SCROLL_DOWN 3
#define DWIN_WIDTH 272
#define DWIN_HEIGHT 480
/*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail)
bool DWIN_Handshake(void);
// Set the backlight luminance
// luminance: (0x00-0xFF)
void DWIN_Backlight_SetLuminance(const uint8_t luminance);
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir);
// Update display
void DWIN_UpdateLCD(void);
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color);
// Draw a point
// color: Line segment color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y);
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a Horizontal line
// color: Line segment color
// xStart/yStart: Start point
// xLength: Line Length
inline void DWIN_Draw_HLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart + xLength - 1, yStart);
}
// Draw a Vertical line
// color: Line segment color
// xStart/yStart: Start point
// yLength: Line Length
inline void DWIN_Draw_VLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t yLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart, yStart + yLength - 1);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color,
uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a box
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xSize/ySize: box size
inline void DWIN_Draw_Box(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xSize, uint16_t ySize) {
DWIN_Draw_Rectangle(mode, color, xStart, yStart, xStart + xSize - 1, yStart + ySize - 1);
}
// Draw the degree (°) symbol
// Color: color // Color: color
//x: upper left point // x/y: Upper-left coordinate of the first pixel
//y: bottom right point
void DWIN_Draw_DegreeSymbol(uint16_t Color, uint16_t x, uint16_t y); void DWIN_Draw_DegreeSymbol(uint16_t Color, uint16_t x, uint16_t y);
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// widthAdjust: true=self-adjust character width; false=no adjustment
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
void DWIN_Draw_String(bool widthAdjust, bool bShow, uint8_t size,
uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const char * string);
class __FlashStringHelper;
inline void DWIN_Draw_String(bool widthAdjust, bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const __FlashStringHelper *title) {
// Note that this won't work on AVR. This is for 32-bit systems only!
// Are __FlashStringHelper versions worth keeping?
DWIN_Draw_String(widthAdjust, bShow, size, color, bColor, x, y, reinterpret_cast<const char*>(title));
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint16_t value);
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value);
/*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id);
// Draw an Icon
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y);
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id);
// Unzip the JPG picture to virtual display area #1
// id: Picture ID
inline void DWIN_JPG_CacheTo1(uint8_t id) { DWIN_JPG_CacheToN(1, id); }
// Copy area from virtual display area to current screen
// cacheID: virtual area number
// xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart,
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// Animate a series of icons
// animID: Animation ID up to 16
// animate: animation on or off
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs,
uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval);
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state);

@ -37,89 +37,9 @@
//#define DEBUG_OUT 1 //#define DEBUG_OUT 1
#include "../../../core/debug_out.h" #include "../../../core/debug_out.h"
// Make sure DWIN_SendBuf is large enough to hold the largest string plus draw command and tail.
// Assume the narrowest (6 pixel) font and 2-byte gb2312-encoded characters.
uint8_t DWIN_SendBuf[11 + DWIN_WIDTH / 6 * 2] = { 0xAA };
uint8_t DWIN_BufTail[4] = { 0xCC, 0x33, 0xC3, 0x3C };
uint8_t databuf[26] = { 0 };
uint8_t receivedType;
int recnum = 0;
inline void DWIN_Byte(size_t &i, const uint16_t bval) {
DWIN_SendBuf[++i] = bval;
}
inline void DWIN_Word(size_t &i, const uint16_t wval) {
DWIN_SendBuf[++i] = wval >> 8;
DWIN_SendBuf[++i] = wval & 0xFF;
}
inline void DWIN_Long(size_t &i, const uint32_t lval) {
DWIN_SendBuf[++i] = (lval >> 24) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 16) & 0xFF;
DWIN_SendBuf[++i] = (lval >> 8) & 0xFF;
DWIN_SendBuf[++i] = lval & 0xFF;
}
inline void DWIN_String(size_t &i, char * const string) {
const size_t len = _MIN(sizeof(DWIN_SendBuf) - i, strlen(string));
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
inline void DWIN_String(size_t &i, const __FlashStringHelper * string) {
if (!string) return;
const size_t len = strlen_P((PGM_P)string); // cast it to PGM_P, which is basically const char *, and measure it using the _P version of strlen.
if (len == 0) return;
memcpy(&DWIN_SendBuf[i+1], string, len);
i += len;
}
// Send the data in the buffer and the packet end
inline void DWIN_Send(size_t &i) {
++i;
LOOP_L_N(n, i) { LCD_SERIAL.write(DWIN_SendBuf[n]); delayMicroseconds(1); }
LOOP_L_N(n, 4) { LCD_SERIAL.write(DWIN_BufTail[n]); delayMicroseconds(1); }
}
/*-------------------------------------- System variable function --------------------------------------*/ /*-------------------------------------- System variable function --------------------------------------*/
// Handshake (1: Success, 0: Fail) void DWIN_Startup() {
bool DWIN_Handshake(void) {
#ifndef LCD_BAUDRATE
#define LCD_BAUDRATE 115200
#endif
LCD_SERIAL.begin(LCD_BAUDRATE);
const millis_t serial_connect_timeout = millis() + 1000UL;
while (!LCD_SERIAL.connected() && PENDING(millis(), serial_connect_timeout)) { /*nada*/ }
size_t i = 0;
DWIN_Byte(i, 0x00);
DWIN_Send(i);
while (LCD_SERIAL.available() > 0 && recnum < (signed)sizeof(databuf)) {
databuf[recnum] = LCD_SERIAL.read();
// ignore the invalid data
if (databuf[0] != FHONE) { // prevent the program from running.
if (recnum > 0) {
recnum = 0;
ZERO(databuf);
}
continue;
}
delay(10);
recnum++;
}
return ( recnum >= 3
&& databuf[0] == FHONE
&& databuf[1] == '\0'
&& databuf[2] == 'O'
&& databuf[3] == 'K' );
}
void DWIN_Startup(void) {
DEBUG_ECHOPGM("\r\nDWIN handshake "); DEBUG_ECHOPGM("\r\nDWIN handshake ");
delay(750); // Delay here or init later in the boot process delay(750); // Delay here or init later in the boot process
const bool success = DWIN_Handshake(); const bool success = DWIN_Handshake();
@ -129,342 +49,14 @@ void DWIN_Startup(void) {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
// Set the backlight luminance
// luminance: (0x00-0xFF)
void DWIN_Backlight_SetLuminance(const uint8_t luminance) {
size_t i = 0;
DWIN_Byte(i, 0x30);
DWIN_Byte(i, _MAX(luminance, 0x1F));
DWIN_Send(i);
}
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir) {
size_t i = 0;
DWIN_Byte(i, 0x34);
DWIN_Byte(i, 0x5A);
DWIN_Byte(i, 0xA5);
DWIN_Byte(i, dir);
DWIN_Send(i);
}
// Update display
void DWIN_UpdateLCD(void) {
size_t i = 0;
DWIN_Byte(i, 0x3D);
DWIN_Send(i);
}
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color) {
size_t i = 0;
DWIN_Byte(i, 0x01);
DWIN_Word(i, color);
DWIN_Send(i);
}
// Draw a point
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x02);
DWIN_Word(i, color);
DWIN_Byte(i, width);
DWIN_Byte(i, height);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x03);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color,
uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x05);
DWIN_Byte(i, mode);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd) {
size_t i = 0;
DWIN_Byte(i, 0x09);
DWIN_Byte(i, (mode << 7) | dir);
DWIN_Word(i, dis);
DWIN_Word(i, color);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Send(i);
}
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, char *string) {
uint8_t widthAdjust = 0;
size_t i = 0;
DWIN_Byte(i, 0x11);
// Bit 7: widthAdjust
// Bit 6: bShow
// Bit 5-4: Unused (0)
// Bit 3-0: size
DWIN_Byte(i, (widthAdjust * 0x80) | (bShow * 0x40) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_String(i, string);
DWIN_Send(i);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint16_t value) {
size_t i = 0;
DWIN_Byte(i, 0x14);
// Bit 7: bshow
// Bit 6: 1 = signed; 0 = unsigned number;
// Bit 5: zeroFill
// Bit 4: zeroMode
// Bit 3-0: size
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, 0); // fNum
DWIN_Word(i, x);
DWIN_Word(i, y);
#if 0
for (char count = 0; count < 8; count++) {
DWIN_Byte(i, value);
value >>= 8;
if (!(value & 0xFF)) break;
}
#else
// Write a big-endian 64 bit integer
const size_t p = i + 1;
for (char count = 8; count--;) { // 7..0
++i;
DWIN_SendBuf[p + count] = value;
value >>= 8;
}
#endif
DWIN_Send(i);
}
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value) {
//uint8_t *fvalue = (uint8_t*)&value;
size_t i = 0;
DWIN_Byte(i, 0x14);
DWIN_Byte(i, (bShow * 0x80) | (zeroFill * 0x20) | (zeroMode * 0x10) | size);
DWIN_Word(i, color);
DWIN_Word(i, bColor);
DWIN_Byte(i, iNum);
DWIN_Byte(i, fNum);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Long(i, value);
/*
DWIN_Byte(i, fvalue[3]);
DWIN_Byte(i, fvalue[2]);
DWIN_Byte(i, fvalue[1]);
DWIN_Byte(i, fvalue[0]);
*/
DWIN_Send(i);
}
/*---------------------------------------- Picture related functions ----------------------------------------*/ /*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id) {
size_t i = 0;
DWIN_Word(i, 0x2200);
DWIN_Byte(i, id);
DWIN_Send(i); // AA 23 00 00 00 00 08 00 01 02 03 CC 33 C3 3C
}
// Draw an Icon // Draw an Icon
// libID: Icon library ID // libID: Icon library ID
// picID: Icon ID // picID: Icon ID
// x/y: Upper-left point // x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) { void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y) {
NOMORE(x, DWIN_WIDTH - 1); DWIN_ICON_Show(true, false, false, libID, picID, x, y);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x23);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Byte(i, 0x80 | libID);
//DWIN_Byte(i, libID);
DWIN_Byte(i, picID);
DWIN_Send(i);
} }
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id) {
size_t i = 0;
DWIN_Byte(i, 0x25);
DWIN_Byte(i, n);
DWIN_Byte(i, id);
DWIN_Send(i);
}
// Copy area from virtual display area to current screen
// cacheID: virtual area number
// xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart,
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y) {
size_t i = 0;
DWIN_Byte(i, 0x27);
DWIN_Byte(i, 0x80 | cacheID);
DWIN_Word(i, xStart);
DWIN_Word(i, yStart);
DWIN_Word(i, xEnd);
DWIN_Word(i, yEnd);
DWIN_Word(i, x);
DWIN_Word(i, y);
DWIN_Send(i);
}
// Animate a series of icons
// animID: Animation ID; 0x00-0x0F
// animate: true on; false off;
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs, uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval) {
NOMORE(x, DWIN_WIDTH - 1);
NOMORE(y, DWIN_HEIGHT - 1); // -- ozy -- srl
size_t i = 0;
DWIN_Byte(i, 0x28);
DWIN_Word(i, x);
DWIN_Word(i, y);
// Bit 7: animation on or off
// Bit 6: start from begin or end
// Bit 5-4: unused (0)
// Bit 3-0: animID
DWIN_Byte(i, (animate * 0x80) | 0x40 | animID);
DWIN_Byte(i, libID);
DWIN_Byte(i, picIDs);
DWIN_Byte(i, picIDe);
DWIN_Byte(i, interval);
DWIN_Send(i);
}
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state) {
size_t i = 0;
DWIN_Byte(i, 0x29);
DWIN_Word(i, state);
DWIN_Send(i);
}
/*---------------------------------------- Memory functions ----------------------------------------*/
// The LCD has an additional 32KB SRAM and 16KB Flash
// Data can be written to the sram and save to one of the jpeg page files
// Write Data Memory
// command 0x31
// Type: Write memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Write data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Data: data
//
// Flash writing returns 0xA5 0x4F 0x4B
// Read Data Memory
// command 0x32
// Type: Read memory selection; 0x5A=SRAM; 0xA5=Flash
// Address: Read data memory address; 0x000-0x7FFF for SRAM; 0x000-0x3FFF for Flash
// Length: leangth of data to read; 0x01-0xF0
//
// Response:
// Type, Address, Length, Data
// Write Picture Memory
// Write the contents of the 32KB SRAM data memory into the designated image memory space
// Issued: 0x5A, 0xA5, PIC_ID
// Response: 0xA5 0x4F 0x4B
//
// command 0x33
// 0x5A, 0xA5
// PicId: Picture Memory location, 0x00-0x0F
//
// Flash writing returns 0xA5 0x4F 0x4B
#endif // IS_DWIN_MARLINUI #endif // IS_DWIN_MARLINUI

@ -26,82 +26,30 @@
* @brief DWIN screen control functions * @brief DWIN screen control functions
********************************************************************************/ ********************************************************************************/
#include <stdint.h> #if ENABLED(DWIN_MARLINUI_LANDSCAPE)
#define RECEIVED_NO_DATA 0x00
#define RECEIVED_SHAKE_HAND_ACK 0x01
#define FHONE 0xAA
#define DWIN_SCROLL_UP 2
#define DWIN_SCROLL_DOWN 3
#if DISABLED(DWIN_MARLINUI_LANDSCAPE)
#define DWIN_WIDTH 272
#define DWIN_HEIGHT 480
#else
#define DWIN_WIDTH 480 #define DWIN_WIDTH 480
#define DWIN_HEIGHT 272 #define DWIN_HEIGHT 272
#endif #endif
#include "../common/dwin_api.h"
// Picture ID // Picture ID
#define DWIN_Boot_Horiz 0 #define DWIN_Boot_Horiz 0
#define DWIN_Boot_Vert 1 #define DWIN_Boot_Vert 1
#define DWIN_MarlinUI_Assets 2 #define DWIN_MarlinUI_Assets 2
/**
* 3-.0The font size, 0x00-0x09, corresponds to the font size below:
* 0x00=6*12 0x01=8*16 0x02=10*20 0x03=12*24 0x04=14*28
* 0x05=16*32 0x06=20*40 0x07=24*48 0x08=28*56 0x09=32*64
*/
#define font6x12 0x00
#define font8x16 0x01
#define font10x20 0x02
#define font12x24 0x03
#define font14x28 0x04
#define font16x32 0x05
#define font20x40 0x06
#define font24x48 0x07
#define font28x56 0x08
#define font32x64 0x09
#define DWIN_FONT_MENU font10x20
#define DWIN_FONT_STAT font14x28
#define DWIN_FONT_ALERT font14x28
// Color
#define Color_White 0xFFFF
#define Color_Yellow 0xFF0F
#define Color_Error_Red 0xB000 // Error!
#define Color_Bg_Red 0xF00F // Red background color
#define Color_Bg_Window 0x31E8 // Popup background color
#define Color_Bg_Heading 0x3344 // Static Heading
#define Color_Bg_Blue 0x1125 // Dark blue background color
#define Color_Bg_Black 0x0841 // Black background color
#define Color_IconBlue 0x45FA // Lighter blue that matches icons/accents
#define Popup_Text_Color 0xD6BA // Popup font background color
#define Line_Color 0x3A6A // Split line color
#define Rectangle_Color 0xEE2F // Blue square cursor color
#define Percent_Color 0xFE29 // Percentage color
#define BarFill_Color 0x10E4 // Fill color of progress bar
#define Select_Color 0x33BB // Selected color
// Character matrix width x height
//#define LCD_WIDTH ((DWIN_WIDTH) / 8)
//#define LCD_HEIGHT ((DWIN_HEIGHT) / 12)
// ICON ID // ICON ID
#define BOOT_ICON 3 // Icon set file 3.ICO #define BOOT_ICON 3 // Icon set file 3.ICO
#define ICON 4 // Icon set file 4.ICO #define ICON 4 // Icon set file 4.ICO
// MarlinUI Boot Icons // MarlinUI Boot Icons from Set 3
#define ICON_MarlinBoot 0 #define ICON_MarlinBoot 0
#define ICON_OpenSource 1 #define ICON_OpenSource 1
#define ICON_GitHubURL 2 #define ICON_GitHubURL 2
#define ICON_MarlinURL 3 #define ICON_MarlinURL 3
#define ICON_Copyright 4 #define ICON_Copyright 4
// MarlinUI Icons // MarlinUI Icons from Set 4
#define ICON_LOGO_Marlin 0 #define ICON_LOGO_Marlin 0
#define ICON_HotendOff 1 #define ICON_HotendOff 1
#define ICON_HotendOn 2 #define ICON_HotendOn 2
@ -120,182 +68,16 @@
#define ICON_DownArrow 15 #define ICON_DownArrow 15
#define ICON_BedLine 16 #define ICON_BedLine 16
#define ICON_AdvSet ICON_Language #include "../common/dwin_font.h"
#define ICON_HomeOff ICON_AdvSet
#define ICON_HomeOffX ICON_StepX
#define ICON_HomeOffY ICON_StepY
#define ICON_HomeOffZ ICON_StepZ
#define ICON_ProbeOff ICON_AdvSet
#define ICON_ProbeOffX ICON_StepX
#define ICON_ProbeOffY ICON_StepY
#define ICON_PIDNozzle ICON_SetEndTemp
#define ICON_PIDbed ICON_SetBedTemp
/*-------------------------------------- System variable function --------------------------------------*/ #define DWIN_FONT_MENU font10x20
#define DWIN_FONT_STAT font14x28
#define DWIN_FONT_ALERT font14x28
// Handshake (1: Success, 0: Fail) #include "../common/dwin_color.h"
bool DWIN_Handshake(void);
// Common DWIN startup #define Color_Bg_Heading 0x3344 // Static Heading
void DWIN_Startup(void);
// Set the backlight luminance // Character matrix width x height
// luminance: (0x00-0xFF) //#define LCD_WIDTH ((DWIN_WIDTH) / 8)
void DWIN_Backlight_SetLuminance(const uint8_t luminance); //#define LCD_HEIGHT ((DWIN_HEIGHT) / 12)
// Set screen display direction
// dir: 0=0°, 1=90°, 2=180°, 3=270°
void DWIN_Frame_SetDir(uint8_t dir);
// Update display
void DWIN_UpdateLCD(void);
/*---------------------------------------- Drawing functions ----------------------------------------*/
// Clear screen
// color: Clear screen color
void DWIN_Frame_Clear(const uint16_t color);
// Draw a point
// color: point color
// width: point width 0x01-0x0F
// height: point height 0x01-0x0F
// x,y: upper left point
void DWIN_Draw_Point(uint16_t color, uint8_t width, uint8_t height, uint16_t x, uint16_t y);
// Draw a line
// color: Line segment color
// xStart/yStart: Start point
// xEnd/yEnd: End point
void DWIN_Draw_Line(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a Horizontal line
// color: Line segment color
// xStart/yStart: Start point
// xLength: Line Length
inline void DWIN_Draw_HLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart + xLength - 1, yStart);
}
// Draw a Vertical line
// color: Line segment color
// xStart/yStart: Start point
// yLength: Line Length
inline void DWIN_Draw_VLine(uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t yLength) {
DWIN_Draw_Line(color, xStart, yStart, xStart, yStart + yLength - 1);
}
// Draw a rectangle
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xEnd/yEnd: lower right point
void DWIN_Draw_Rectangle(uint8_t mode, uint16_t color,
uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
// Draw a box
// mode: 0=frame, 1=fill, 2=XOR fill
// color: Rectangle color
// xStart/yStart: upper left point
// xSize/ySize: box size
inline void DWIN_Draw_Box(uint8_t mode, uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xSize, uint16_t ySize) {
DWIN_Draw_Rectangle(mode, color, xStart, yStart, xStart + xSize - 1, yStart + ySize - 1);
}
// Move a screen area
// mode: 0, circle shift; 1, translation
// dir: 0=left, 1=right, 2=up, 3=down
// dis: Distance
// color: Fill color
// xStart/yStart: upper left point
// xEnd/yEnd: bottom right point
void DWIN_Frame_AreaMove(uint8_t mode, uint8_t dir, uint16_t dis,
uint16_t color, uint16_t xStart, uint16_t yStart, uint16_t xEnd, uint16_t yEnd);
/*---------------------------------------- Text related functions ----------------------------------------*/
// Draw a string
// bShow: true=display background color; false=don't display background color
// size: Font size
// color: Character color
// bColor: Background color
// x/y: Upper-left coordinate of the string
// *string: The string
void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, char *string);
class __FlashStringHelper;
inline void DWIN_Draw_String(bool bShow, uint8_t size, uint16_t color, uint16_t bColor, uint16_t x, uint16_t y, const __FlashStringHelper *title) {
DWIN_Draw_String(bShow, size, color, bColor, x, y, (char *)title);
}
// Draw a positive integer
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of digits
// x/y: Upper-left coordinate
// value: Integer value
void DWIN_Draw_IntValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint16_t x, uint16_t y, uint16_t value);
// Draw a floating point number
// bShow: true=display background color; false=don't display background color
// zeroFill: true=zero fill; false=no zero fill
// zeroMode: 1=leading 0 displayed as 0; 0=leading 0 displayed as a space
// size: Font size
// color: Character color
// bColor: Background color
// iNum: Number of whole digits
// fNum: Number of decimal digits
// x/y: Upper-left point
// value: Float value
void DWIN_Draw_FloatValue(uint8_t bShow, bool zeroFill, uint8_t zeroMode, uint8_t size, uint16_t color,
uint16_t bColor, uint8_t iNum, uint8_t fNum, uint16_t x, uint16_t y, long value);
/*---------------------------------------- Picture related functions ----------------------------------------*/
// Draw JPG and cached in #0 virtual display area
// id: Picture ID
void DWIN_JPG_ShowAndCache(const uint8_t id);
// Draw an Icon
// libID: Icon library ID
// picID: Icon ID
// x/y: Upper-left point
void DWIN_ICON_Show(uint8_t libID, uint8_t picID, uint16_t x, uint16_t y);
// Unzip the JPG picture to a virtual display area
// n: Cache index
// id: Picture ID
void DWIN_JPG_CacheToN(uint8_t n, uint8_t id);
// Unzip the JPG picture to virtual display area #1
// id: Picture ID
inline void DWIN_JPG_CacheTo1(uint8_t id) { DWIN_JPG_CacheToN(1, id); }
// Copy area from virtual display area to current screen
// cacheID: virtual area number
// xStart/yStart: Upper-left of virtual area
// xEnd/yEnd: Lower-right of virtual area
// x/y: Screen paste point
void DWIN_Frame_AreaCopy(uint8_t cacheID, uint16_t xStart, uint16_t yStart,
uint16_t xEnd, uint16_t yEnd, uint16_t x, uint16_t y);
// Animate a series of icons
// animID: Animation ID up to 16
// animate: animation on or off
// libID: Icon library ID
// picIDs: Icon starting ID
// picIDe: Icon ending ID
// x/y: Upper-left point
// interval: Display time interval, unit 10mS
void DWIN_ICON_Animation(uint8_t animID, bool animate, uint8_t libID, uint8_t picIDs,
uint8_t picIDe, uint16_t x, uint16_t y, uint16_t interval);
// Animation Control
// state: 16 bits, each bit is the state of an animation id
void DWIN_ICON_AnimationControl(uint16_t state);

@ -21,12 +21,11 @@
*/ */
#pragma once #pragma once
#include <stdint.h>
#include "../../fontutils.h" #include "../../fontutils.h"
#include "../../marlinui.h" #include "../../marlinui.h"
#include <stdint.h>
typedef struct _dwin_charmap_t { typedef struct _dwin_charmap_t {
wchar_t uchar; // the unicode char wchar_t uchar; // the unicode char
uint8_t idx; // the glyph of the char in the ROM uint8_t idx; // the glyph of the char in the ROM

@ -83,7 +83,7 @@ void MarlinUI::init_lcd() {
DWIN_Startup(); DWIN_Startup();
// Load the assets JPG (currently just the status screen 'icon') // Load the assets JPG (currently just the status screen 'icon')
DWIN_JPG_CacheToN(1, DWIN_MarlinUI_Assets); DWIN_JPG_CacheTo1(DWIN_MarlinUI_Assets);
} }
// This LCD should clear where it will draw anew // This LCD should clear where it will draw anew
@ -545,8 +545,8 @@ void MarlinUI::draw_status_message(const bool blink) {
// Show the location value // Show the location value
dwin_string.set(Z_LBL); dwin_string.set(Z_LBL);
if (!isnan(ubl.z_values[x_plot][y_plot])) if (!isnan(Z_VALUES_ARR[x_plot][y_plot]))
dwin_string.add(ftostr43sign(ubl.z_values[x_plot][y_plot])); dwin_string.add(ftostr43sign(Z_VALUES_ARR[x_plot][y_plot]));
else else
dwin_string.add(PSTR(" -----")); dwin_string.add(PSTR(" -----"));
lcd_moveto( lcd_moveto(

@ -104,7 +104,7 @@ constexpr uint8_t epps = ENCODER_PULSES_PER_STEP;
if (backlight) brightness = constrain(value, MIN_LCD_BRIGHTNESS, MAX_LCD_BRIGHTNESS); if (backlight) brightness = constrain(value, MIN_LCD_BRIGHTNESS, MAX_LCD_BRIGHTNESS);
// Set brightness on enabled LCD here // Set brightness on enabled LCD here
TERN_(DWIN_CREALITY_LCD_ENHANCED, DWIN_LCD_Brightness(brightness)); TERN_(DWIN_CREALITY_LCD_ENHANCED, DWIN_LCD_Brightness(brightness));
TERN_(DWIN_CREALITY_LCD_JYERSUI, DWIN_Backlight_SetLuminance(backlight ? brightness : 0)); TERN_(DWIN_CREALITY_LCD_JYERSUI, DWIN_LCD_Brightness(backlight ? brightness : 0));
} }
#endif #endif

@ -21,12 +21,11 @@
*/ */
#pragma once #pragma once
#include "../inc/MarlinConfig.h"
#include "../module/motion.h" #include "../module/motion.h"
#include "buttons.h" #include "buttons.h"
#include "../inc/MarlinConfig.h"
#if HAS_BUZZER #if HAS_BUZZER
#include "../libs/buzzer.h" #include "../libs/buzzer.h"
#endif #endif

@ -33,7 +33,6 @@
#include "SdBaseFile.h" #include "SdBaseFile.h"
#include <stdint.h> #include <stdint.h>
#include <string.h>
/** /**
* \class SdFile * \class SdFile

@ -10,21 +10,21 @@ set -e
# Build with configs included in the PR # Build with configs included in the PR
# #
use_example_configs "Creality/Ender-3 V2/CrealityUI" use_example_configs "Creality/Ender-3 V2/CrealityUI"
opt_enable MARLIN_DEV_MODE BUFFER_MONITORING opt_enable MARLIN_DEV_MODE BUFFER_MONITORING BLTOUCH AUTO_BED_LEVELING_BILINEAR Z_SAFE_HOMING
exec_test $1 $2 "Ender 3 v2 with CrealityUI" "$3" exec_test $1 $2 "Ender 3 v2 with CrealityUI" "$3"
use_example_configs "Creality/Ender-3 V2/CrealityUI" use_example_configs "Creality/Ender-3 V2/CrealityUI"
opt_disable DWIN_CREALITY_LCD opt_disable DWIN_CREALITY_LCD
opt_enable DWIN_CREALITY_LCD_ENHANCED opt_enable DWIN_CREALITY_LCD_ENHANCED BLTOUCH AUTO_BED_LEVELING_UBL Z_SAFE_HOMING
exec_test $1 $2 "Ender 3 v2 with Enhanced UI" "$3" exec_test $1 $2 "Ender 3 v2 with Enhanced UI" "$3"
use_example_configs "Creality/Ender-3 V2/CrealityUI" use_example_configs "Creality/Ender-3 V2/CrealityUI"
opt_disable DWIN_CREALITY_LCD opt_disable DWIN_CREALITY_LCD
opt_enable DWIN_CREALITY_LCD_JYERSUI opt_enable DWIN_CREALITY_LCD_JYERSUI AUTO_BED_LEVELING_BILINEAR PROBE_MANUALLY
exec_test $1 $2 "Ender 3 v2 with JyersUI" "$3" exec_test $1 $2 "Ender 3 v2 with JyersUI" "$3"
use_example_configs "Creality/Ender-3 V2/MarlinUI" use_example_configs "Creality/Ender-3 V2/MarlinUI"
opt_add SDCARD_EEPROM_EMULATION opt_add SDCARD_EEPROM_EMULATION NOZZLE_AS_PROBE AUTO_BED_LEVELING_BILINEAR Z_SAFE_HOMING
exec_test $1 $2 "Ender 3 v2 with MarlinUI" "$3" exec_test $1 $2 "Ender 3 v2 with MarlinUI" "$3"
restore_configs restore_configs

@ -44,10 +44,11 @@ HAS_SPI_TFT = src_filter=+<src/HAL/STM32/tft/tft_spi.
I2C_EEPROM = src_filter=+<src/HAL/shared/eeprom_if_i2c.cpp> I2C_EEPROM = src_filter=+<src/HAL/shared/eeprom_if_i2c.cpp>
SOFT_I2C_EEPROM = SlowSoftI2CMaster, SlowSoftWire=https://github.com/felias-fogg/SlowSoftWire/archive/master.zip SOFT_I2C_EEPROM = SlowSoftI2CMaster, SlowSoftWire=https://github.com/felias-fogg/SlowSoftWire/archive/master.zip
SPI_EEPROM = src_filter=+<src/HAL/shared/eeprom_if_spi.cpp> SPI_EEPROM = src_filter=+<src/HAL/shared/eeprom_if_spi.cpp>
HAS_DWIN_E3V2|IS_DWIN_MARLINUI = src_filter=+<src/lcd/e3v2/common>
DWIN_CREALITY_LCD = src_filter=+<src/lcd/e3v2/creality> DWIN_CREALITY_LCD = src_filter=+<src/lcd/e3v2/creality>
DWIN_CREALITY_LCD_ENHANCED = src_filter=+<src/lcd/e3v2/enhanced> DWIN_CREALITY_LCD_ENHANCED = src_filter=+<src/lcd/e3v2/enhanced>
DWIN_CREALITY_LCD_JYERSUI = src_filter=+<src/lcd/e3v2/jyersui> DWIN_CREALITY_LCD_JYERSUI = src_filter=+<src/lcd/e3v2/jyersui>
DWIN_MARLINUI_.+ = src_filter=+<src/lcd/e3v2/marlinui> IS_DWIN_MARLINUI = src_filter=+<src/lcd/e3v2/marlinui>
HAS_GRAPHICAL_TFT = src_filter=+<src/lcd/tft> HAS_GRAPHICAL_TFT = src_filter=+<src/lcd/tft>
IS_TFTGLCD_PANEL = src_filter=+<src/lcd/TFTGLCD> IS_TFTGLCD_PANEL = src_filter=+<src/lcd/TFTGLCD>
HAS_TOUCH_BUTTONS = src_filter=+<src/lcd/touch/touch_buttons.cpp> HAS_TOUCH_BUTTONS = src_filter=+<src/lcd/touch/touch_buttons.cpp>

@ -50,7 +50,7 @@ lib_deps =
default_src_filter = +<src/*> -<src/config> -<src/HAL> +<src/HAL/shared> default_src_filter = +<src/*> -<src/config> -<src/HAL> +<src/HAL/shared>
-<src/lcd/HD44780> -<src/lcd/TFTGLCD> -<src/lcd/dogm> -<src/lcd/tft> -<src/lcd/tft_io> -<src/lcd/HD44780> -<src/lcd/TFTGLCD> -<src/lcd/dogm> -<src/lcd/tft> -<src/lcd/tft_io>
-<src/HAL/STM32/tft> -<src/HAL/STM32F1/tft> -<src/HAL/STM32/tft> -<src/HAL/STM32F1/tft>
-<src/lcd/e3v2/creality> -<src/lcd/e3v2/enhanced> -<src/lcd/e3v2/jyersui> -<src/lcd/e3v2/marlinui> -<src/lcd/e3v2/common> -<src/lcd/e3v2/creality> -<src/lcd/e3v2/enhanced> -<src/lcd/e3v2/jyersui> -<src/lcd/e3v2/marlinui>
-<src/lcd/menu> -<src/lcd/menu>
-<src/lcd/menu/game/game.cpp> -<src/lcd/menu/game/brickout.cpp> -<src/lcd/menu/game/invaders.cpp> -<src/lcd/menu/game/game.cpp> -<src/lcd/menu/game/brickout.cpp> -<src/lcd/menu/game/invaders.cpp>
-<src/lcd/menu/game/maze.cpp> -<src/lcd/menu/game/snake.cpp> -<src/lcd/menu/game/maze.cpp> -<src/lcd/menu/game/snake.cpp>

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