Browse Source

Ender 3 V2 DWIN cleanup (#21026)

vanilla_fb_2.0.x
Scott Lahteine 4 years ago
committed by GitHub
parent
commit
662d81c801
No known key found for this signature in database GPG Key ID: 4AEE18F83AFDEB23
  1. 8
      Marlin/src/core/macros.h
  2. 214
      Marlin/src/lcd/dwin/e3v2/dwin.cpp
  3. 12
      Marlin/src/lcd/dwin/e3v2/dwin.h

8
Marlin/src/core/macros.h

@ -130,20 +130,20 @@
#define NOLESS(v, n) \ #define NOLESS(v, n) \
do{ \ do{ \
__typeof__(n) _n = (n); \ __typeof__(v) _n = (n); \
if (_n > v) v = _n; \ if (_n > v) v = _n; \
}while(0) }while(0)
#define NOMORE(v, n) \ #define NOMORE(v, n) \
do{ \ do{ \
__typeof__(n) _n = (n); \ __typeof__(v) _n = (n); \
if (_n < v) v = _n; \ if (_n < v) v = _n; \
}while(0) }while(0)
#define LIMIT(v, n1, n2) \ #define LIMIT(v, n1, n2) \
do{ \ do{ \
__typeof__(n1) _n1 = (n1); \ __typeof__(v) _n1 = (n1); \
__typeof__(n2) _n2 = (n2); \ __typeof__(v) _n2 = (n2); \
if (_n1 > v) v = _n1; \ if (_n1 > v) v = _n1; \
else if (_n2 < v) v = _n2; \ else if (_n2 < v) v = _n2; \
}while(0) }while(0)

214
Marlin/src/lcd/dwin/e3v2/dwin.cpp

@ -191,16 +191,12 @@ constexpr float default_max_acceleration[] = DEFAULT_MAX_ACCELERATION;
constexpr float default_max_jerk[] = { DEFAULT_XJERK, DEFAULT_YJERK, DEFAULT_ZJERK, DEFAULT_EJERK }; constexpr float default_max_jerk[] = { DEFAULT_XJERK, DEFAULT_YJERK, DEFAULT_ZJERK, DEFAULT_EJERK };
#endif #endif
uint8_t Percentrecord = 0; static uint8_t _card_percent = 0;
uint16_t remain_time = 0; static uint16_t _remain_time = 0;
#if ENABLED(PAUSE_HEAT) #if ENABLED(PAUSE_HEAT)
#if HAS_HOTEND TERN_(HAS_HOTEND, uint16_t resume_hotend_temp = 0);
uint16_t temphot = 0; TERN_(HAS_HEATED_BED, uint16_t resume_bed_temp = 0);
#endif
#if HAS_HEATED_BED
uint16_t tempbed = 0;
#endif
#endif #endif
#if HAS_ZOFFSET_ITEM #if HAS_ZOFFSET_ITEM
@ -1081,8 +1077,8 @@ void Draw_Printing_Screen() {
void Draw_Print_ProgressBar() { void 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 + Percentrecord * 240 / 100, 93, 256, 113); DWIN_Draw_Rectangle(1, BarFill_Color, 16 + _card_percent * 240 / 100, 93, 256, 113);
DWIN_Draw_IntValue(true, true, 0, font8x16, Percent_Color, Color_Bg_Black, 2, 117, 133, Percentrecord); DWIN_Draw_IntValue(true, true, 0, font8x16, Percent_Color, Color_Bg_Black, 2, 117, 133, _card_percent);
DWIN_Draw_String(false, false, font8x16, Percent_Color, Color_Bg_Black, 133, 133, F("%")); DWIN_Draw_String(false, false, font8x16, Percent_Color, Color_Bg_Black, 133, 133, F("%"));
} }
@ -1094,9 +1090,9 @@ void Draw_Print_ProgressElapsed() {
} }
void Draw_Print_ProgressRemain() { void Draw_Print_ProgressRemain() {
DWIN_Draw_IntValue(true, true, 1, font8x16, Color_White, Color_Bg_Black, 2, 176, 212, remain_time / 3600); DWIN_Draw_IntValue(true, true, 1, font8x16, Color_White, Color_Bg_Black, 2, 176, 212, _remain_time / 3600);
DWIN_Draw_String(false, false, font8x16, Color_White, Color_Bg_Black, 192, 212, F(":")); DWIN_Draw_String(false, false, font8x16, Color_White, Color_Bg_Black, 192, 212, F(":"));
DWIN_Draw_IntValue(true, true, 1, font8x16, Color_White, Color_Bg_Black, 2, 200, 212, (remain_time % 3600) / 60); DWIN_Draw_IntValue(true, true, 1, font8x16, Color_White, Color_Bg_Black, 2, 200, 212, (_remain_time % 3600) / 60);
} }
void Goto_PrintProcess() { void Goto_PrintProcess() {
@ -1158,10 +1154,10 @@ inline ENCODER_DiffState get_encoder_state() {
void HMI_Move_X() { void HMI_Move_X() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_X_scale)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_X_scaled)) {
checkkey = AxisMove; checkkey = AxisMove;
EncoderRate.enabled = false; EncoderRate.enabled = false;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(1), HMI_ValueStruct.Move_X_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(1), HMI_ValueStruct.Move_X_scaled);
if (!planner.is_full()) { if (!planner.is_full()) {
// Wait for planner moves to finish! // Wait for planner moves to finish!
planner.synchronize(); planner.synchronize();
@ -1170,10 +1166,9 @@ void HMI_Move_X() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
return; return;
} }
NOLESS(HMI_ValueStruct.Move_X_scale, (X_MIN_POS) * MINUNITMULT); LIMIT(HMI_ValueStruct.Move_X_scaled, (X_MIN_POS) * MINUNITMULT, (X_MAX_POS) * MINUNITMULT);
NOMORE(HMI_ValueStruct.Move_X_scale, (X_MAX_POS) * MINUNITMULT); current_position.x = HMI_ValueStruct.Move_X_scaled / MINUNITMULT;
current_position.x = HMI_ValueStruct.Move_X_scale / MINUNITMULT; DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 216, MBASE(1), HMI_ValueStruct.Move_X_scaled);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 216, MBASE(1), HMI_ValueStruct.Move_X_scale);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
} }
@ -1181,10 +1176,10 @@ void HMI_Move_X() {
void HMI_Move_Y() { void HMI_Move_Y() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Y_scale)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Y_scaled)) {
checkkey = AxisMove; checkkey = AxisMove;
EncoderRate.enabled = false; EncoderRate.enabled = false;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(2), HMI_ValueStruct.Move_Y_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(2), HMI_ValueStruct.Move_Y_scaled);
if (!planner.is_full()) { if (!planner.is_full()) {
// Wait for planner moves to finish! // Wait for planner moves to finish!
planner.synchronize(); planner.synchronize();
@ -1193,10 +1188,9 @@ void HMI_Move_Y() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
return; return;
} }
NOLESS(HMI_ValueStruct.Move_Y_scale, (Y_MIN_POS) * MINUNITMULT); LIMIT(HMI_ValueStruct.Move_Y_scaled, (Y_MIN_POS) * MINUNITMULT, (Y_MAX_POS) * MINUNITMULT);
NOMORE(HMI_ValueStruct.Move_Y_scale, (Y_MAX_POS) * MINUNITMULT); current_position.y = HMI_ValueStruct.Move_Y_scaled / MINUNITMULT;
current_position.y = HMI_ValueStruct.Move_Y_scale / MINUNITMULT; DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 216, MBASE(2), HMI_ValueStruct.Move_Y_scaled);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 216, MBASE(2), HMI_ValueStruct.Move_Y_scale);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
} }
@ -1204,10 +1198,10 @@ void HMI_Move_Y() {
void HMI_Move_Z() { void HMI_Move_Z() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Z_scale)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_Z_scaled)) {
checkkey = AxisMove; checkkey = AxisMove;
EncoderRate.enabled = false; EncoderRate.enabled = false;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(3), HMI_ValueStruct.Move_Z_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(3), HMI_ValueStruct.Move_Z_scaled);
if (!planner.is_full()) { if (!planner.is_full()) {
// Wait for planner moves to finish! // Wait for planner moves to finish!
planner.synchronize(); planner.synchronize();
@ -1216,10 +1210,9 @@ void HMI_Move_Z() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
return; return;
} }
NOLESS(HMI_ValueStruct.Move_Z_scale, Z_MIN_POS * MINUNITMULT); LIMIT(HMI_ValueStruct.Move_Z_scaled, Z_MIN_POS * MINUNITMULT, Z_MAX_POS * MINUNITMULT);
NOMORE(HMI_ValueStruct.Move_Z_scale, Z_MAX_POS * MINUNITMULT); current_position.z = HMI_ValueStruct.Move_Z_scaled / MINUNITMULT;
current_position.z = HMI_ValueStruct.Move_Z_scale / MINUNITMULT; DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 216, MBASE(3), HMI_ValueStruct.Move_Z_scaled);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 216, MBASE(3), HMI_ValueStruct.Move_Z_scale);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
} }
@ -1227,14 +1220,14 @@ void HMI_Move_Z() {
#if HAS_HOTEND #if HAS_HOTEND
void HMI_Move_E() { void HMI_Move_E() {
static float last_E_scale = 0; static float last_E_scaled = 0;
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_E_scale)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Move_E_scaled)) {
checkkey = AxisMove; checkkey = AxisMove;
EncoderRate.enabled = false; EncoderRate.enabled = false;
last_E_scale = HMI_ValueStruct.Move_E_scale; last_E_scaled = HMI_ValueStruct.Move_E_scaled;
DWIN_Draw_Signed_Float(font8x16, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(4), HMI_ValueStruct.Move_E_scale); DWIN_Draw_Signed_Float(font8x16, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(4), HMI_ValueStruct.Move_E_scaled);
if (!planner.is_full()) { if (!planner.is_full()) {
planner.synchronize(); // Wait for planner moves to finish! planner.synchronize(); // Wait for planner moves to finish!
planner.buffer_line(current_position, MMM_TO_MMS(FEEDRATE_E), active_extruder); planner.buffer_line(current_position, MMM_TO_MMS(FEEDRATE_E), active_extruder);
@ -1242,12 +1235,12 @@ void HMI_Move_Z() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
return; return;
} }
if ((HMI_ValueStruct.Move_E_scale - last_E_scale) > (EXTRUDE_MAXLENGTH) * MINUNITMULT) if ((HMI_ValueStruct.Move_E_scaled - last_E_scaled) > (EXTRUDE_MAXLENGTH) * MINUNITMULT)
HMI_ValueStruct.Move_E_scale = last_E_scale + (EXTRUDE_MAXLENGTH) * MINUNITMULT; HMI_ValueStruct.Move_E_scaled = last_E_scaled + (EXTRUDE_MAXLENGTH) * MINUNITMULT;
else if ((last_E_scale - HMI_ValueStruct.Move_E_scale) > (EXTRUDE_MAXLENGTH) * MINUNITMULT) else if ((last_E_scaled - HMI_ValueStruct.Move_E_scaled) > (EXTRUDE_MAXLENGTH) * MINUNITMULT)
HMI_ValueStruct.Move_E_scale = last_E_scale - (EXTRUDE_MAXLENGTH) * MINUNITMULT; HMI_ValueStruct.Move_E_scaled = last_E_scaled - (EXTRUDE_MAXLENGTH) * MINUNITMULT;
current_position.e = HMI_ValueStruct.Move_E_scale / MINUNITMULT; current_position.e = HMI_ValueStruct.Move_E_scaled / MINUNITMULT;
DWIN_Draw_Signed_Float(font8x16, Select_Color, 3, UNITFDIGITS, 216, MBASE(4), HMI_ValueStruct.Move_E_scale); DWIN_Draw_Signed_Float(font8x16, Select_Color, 3, UNITFDIGITS, 216, MBASE(4), HMI_ValueStruct.Move_E_scaled);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
} }
@ -1277,8 +1270,7 @@ void HMI_Move_Z() {
DWIN_UpdateLCD(); DWIN_UpdateLCD();
return; return;
} }
NOLESS(HMI_ValueStruct.offset_value, (Z_PROBE_OFFSET_RANGE_MIN) * 100); LIMIT(HMI_ValueStruct.offset_value, (Z_PROBE_OFFSET_RANGE_MIN) * 100, (Z_PROBE_OFFSET_RANGE_MAX) * 100);
NOMORE(HMI_ValueStruct.offset_value, (Z_PROBE_OFFSET_RANGE_MAX) * 100);
last_zoffset = dwin_zoffset; last_zoffset = dwin_zoffset;
dwin_zoffset = HMI_ValueStruct.offset_value / 100.0f; dwin_zoffset = HMI_ValueStruct.offset_value / 100.0f;
#if EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP) #if EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP)
@ -1326,8 +1318,7 @@ void HMI_Move_Z() {
return; return;
} }
// E_Temp limit // E_Temp limit
NOMORE(HMI_ValueStruct.E_Temp, MAX_E_TEMP); LIMIT(HMI_ValueStruct.E_Temp, MIN_E_TEMP, MAX_E_TEMP);
NOLESS(HMI_ValueStruct.E_Temp, MIN_E_TEMP);
// E_Temp value // E_Temp value
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(temp_line), HMI_ValueStruct.E_Temp); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(temp_line), HMI_ValueStruct.E_Temp);
} }
@ -1370,8 +1361,7 @@ void HMI_Move_Z() {
return; return;
} }
// Bed_Temp limit // Bed_Temp limit
NOMORE(HMI_ValueStruct.Bed_Temp, BED_MAX_TARGET); LIMIT(HMI_ValueStruct.Bed_Temp, MIN_BED_TEMP, BED_MAX_TARGET);
NOLESS(HMI_ValueStruct.Bed_Temp, MIN_BED_TEMP);
// Bed_Temp value // Bed_Temp value
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(bed_line), HMI_ValueStruct.Bed_Temp); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(bed_line), HMI_ValueStruct.Bed_Temp);
} }
@ -1415,8 +1405,7 @@ void HMI_Move_Z() {
return; return;
} }
// Fan_speed limit // Fan_speed limit
NOMORE(HMI_ValueStruct.Fan_speed, FANON); LIMIT(HMI_ValueStruct.Fan_speed, FANOFF, FANON);
NOLESS(HMI_ValueStruct.Fan_speed, FANOFF);
// Fan_speed value // Fan_speed value
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(fan_line), HMI_ValueStruct.Fan_speed); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(fan_line), HMI_ValueStruct.Fan_speed);
} }
@ -1435,8 +1424,7 @@ void HMI_PrintSpeed() {
return; return;
} }
// print_speed limit // print_speed limit
NOMORE(HMI_ValueStruct.print_speed, MAX_PRINT_SPEED); LIMIT(HMI_ValueStruct.print_speed, MIN_PRINT_SPEED, MAX_PRINT_SPEED);
NOLESS(HMI_ValueStruct.print_speed, MIN_PRINT_SPEED);
// print_speed value // print_speed value
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(select_tune.now + MROWS - index_tune), HMI_ValueStruct.print_speed); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 216, MBASE(select_tune.now + MROWS - index_tune), HMI_ValueStruct.print_speed);
} }
@ -1491,20 +1479,20 @@ void HMI_MaxAccelerationXYZE() {
void HMI_MaxJerkXYZE() { void HMI_MaxJerkXYZE() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Jerk)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Jerk_scaled)) {
checkkey = MaxJerk; checkkey = MaxJerk;
EncoderRate.enabled = false; EncoderRate.enabled = false;
if (WITHIN(HMI_flag.jerk_axis, X_AXIS, E_AXIS)) if (WITHIN(HMI_flag.jerk_axis, X_AXIS, E_AXIS))
planner.set_max_jerk(HMI_flag.jerk_axis, HMI_ValueStruct.Max_Jerk / 10); planner.set_max_jerk(HMI_flag.jerk_axis, HMI_ValueStruct.Max_Jerk_scaled / 10);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 210, MBASE(select_jerk.now), HMI_ValueStruct.Max_Jerk); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 210, MBASE(select_jerk.now), HMI_ValueStruct.Max_Jerk_scaled);
return; return;
} }
// MaxJerk limit // MaxJerk limit
if (WITHIN(HMI_flag.jerk_axis, X_AXIS, E_AXIS)) if (WITHIN(HMI_flag.jerk_axis, X_AXIS, E_AXIS))
NOMORE(HMI_ValueStruct.Max_Jerk, default_max_jerk[HMI_flag.jerk_axis] * 2 * MINUNITMULT); NOMORE(HMI_ValueStruct.Max_Jerk_scaled, default_max_jerk[HMI_flag.jerk_axis] * 2 * MINUNITMULT);
NOLESS(HMI_ValueStruct.Max_Jerk, (MIN_MAXJERK) * MINUNITMULT); NOLESS(HMI_ValueStruct.Max_Jerk_scaled, (MIN_MAXJERK) * MINUNITMULT);
// MaxJerk value // MaxJerk value
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_jerk.now), HMI_ValueStruct.Max_Jerk); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_jerk.now), HMI_ValueStruct.Max_Jerk_scaled);
} }
} }
@ -1513,43 +1501,41 @@ void HMI_MaxAccelerationXYZE() {
void HMI_StepXYZE() { void HMI_StepXYZE() {
ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze(); ENCODER_DiffState encoder_diffState = Encoder_ReceiveAnalyze();
if (encoder_diffState != ENCODER_DIFF_NO) { if (encoder_diffState != ENCODER_DIFF_NO) {
if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Step)) { if (Apply_Encoder(encoder_diffState, HMI_ValueStruct.Max_Step_scaled)) {
checkkey = Step; checkkey = Step;
EncoderRate.enabled = false; EncoderRate.enabled = false;
if (WITHIN(HMI_flag.step_axis, X_AXIS, E_AXIS)) if (WITHIN(HMI_flag.step_axis, X_AXIS, E_AXIS))
planner.settings.axis_steps_per_mm[HMI_flag.step_axis] = HMI_ValueStruct.Max_Step / 10; planner.settings.axis_steps_per_mm[HMI_flag.step_axis] = HMI_ValueStruct.Max_Step_scaled / 10;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 210, MBASE(select_step.now), HMI_ValueStruct.Max_Step); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 210, MBASE(select_step.now), HMI_ValueStruct.Max_Step_scaled);
return; return;
} }
// Step limit // Step limit
if (WITHIN(HMI_flag.step_axis, X_AXIS, E_AXIS)) if (WITHIN(HMI_flag.step_axis, X_AXIS, E_AXIS))
NOMORE(HMI_ValueStruct.Max_Step, 999.9 * MINUNITMULT); NOMORE(HMI_ValueStruct.Max_Step_scaled, 999.9 * MINUNITMULT);
NOLESS(HMI_ValueStruct.Max_Step, MIN_STEP); NOLESS(HMI_ValueStruct.Max_Step_scaled, MIN_STEP);
// Step value // Step value
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_step.now), HMI_ValueStruct.Max_Step); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_step.now), HMI_ValueStruct.Max_Step_scaled);
} }
} }
void update_variable() { void update_variable() {
#if HAS_HOTEND TERN_(HAS_HOTEND, static float last_temp_hotend_target = 0);
static float last_temp_hotend_target = 0, last_temp_hotend_current = 0; TERN_(HAS_HEATED_BED, static float last_temp_bed_target = 0);
#endif TERN_(HAS_FAN, static uint8_t last_fan_speed = 0);
#if HAS_HEATED_BED
static float last_temp_bed_target = 0, last_temp_bed_current = 0;
#endif
#if HAS_FAN
static uint8_t last_fan_speed = 0;
#endif
/* Tune page temperature update */ /* Tune page temperature update */
if (checkkey == Tune) { if (checkkey == Tune) {
#if HAS_HOTEND #if HAS_HOTEND
if (last_temp_hotend_target != thermalManager.temp_hotend[0].target) if (last_temp_hotend_target != thermalManager.temp_hotend[0].target) {
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TUNE_CASE_TEMP + MROWS - index_tune), thermalManager.temp_hotend[0].target); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TUNE_CASE_TEMP + MROWS - index_tune), thermalManager.temp_hotend[0].target);
last_temp_hotend_target = thermalManager.temp_hotend[0].target;
}
#endif #endif
#if HAS_HEATED_BED #if HAS_HEATED_BED
if (last_temp_bed_target != thermalManager.temp_bed.target) if (last_temp_bed_target != thermalManager.temp_bed.target) {
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TUNE_CASE_BED + MROWS - index_tune), thermalManager.temp_bed.target); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TUNE_CASE_BED + MROWS - index_tune), thermalManager.temp_bed.target);
last_temp_bed_target = thermalManager.temp_bed.target;
}
#endif #endif
#if HAS_FAN #if HAS_FAN
if (last_fan_speed != thermalManager.fan_speed[0]) { if (last_fan_speed != thermalManager.fan_speed[0]) {
@ -1562,12 +1548,16 @@ void update_variable() {
/* Temperature page temperature update */ /* Temperature page temperature update */
if (checkkey == TemperatureID) { if (checkkey == TemperatureID) {
#if HAS_HOTEND #if HAS_HOTEND
if (last_temp_hotend_target != thermalManager.temp_hotend[0].target) if (last_temp_hotend_target != thermalManager.temp_hotend[0].target) {
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TEMP_CASE_TEMP), thermalManager.temp_hotend[0].target); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TEMP_CASE_TEMP), thermalManager.temp_hotend[0].target);
last_temp_hotend_target = thermalManager.temp_hotend[0].target;
}
#endif #endif
#if HAS_HEATED_BED #if HAS_HEATED_BED
if (last_temp_bed_target != thermalManager.temp_bed.target) if (last_temp_bed_target != thermalManager.temp_bed.target) {
DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TEMP_CASE_BED), thermalManager.temp_bed.target); DWIN_Draw_IntValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 216, MBASE(TEMP_CASE_BED), thermalManager.temp_bed.target);
last_temp_bed_target = thermalManager.temp_bed.target;
}
#endif #endif
#if HAS_FAN #if HAS_FAN
if (last_fan_speed != thermalManager.fan_speed[0]) { if (last_fan_speed != thermalManager.fan_speed[0]) {
@ -1579,9 +1569,10 @@ void update_variable() {
/* Bottom temperature update */ /* Bottom temperature update */
#if HAS_HOTEND #if HAS_HOTEND
if (last_temp_hotend_current != thermalManager.temp_hotend[0].celsius) { static float _hotendtemp = 0;
if (_hotendtemp != thermalManager.temp_hotend[0].celsius) {
DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 33, 382, thermalManager.temp_hotend[0].celsius); DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 33, 382, thermalManager.temp_hotend[0].celsius);
last_temp_hotend_current = thermalManager.temp_hotend[0].celsius; _hotendtemp = thermalManager.temp_hotend[0].celsius;
} }
if (last_temp_hotend_target != thermalManager.temp_hotend[0].target) { if (last_temp_hotend_target != thermalManager.temp_hotend[0].target) {
DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 33 + 4 * STAT_CHR_W + 6, 382, thermalManager.temp_hotend[0].target); DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 33 + 4 * STAT_CHR_W + 6, 382, thermalManager.temp_hotend[0].target);
@ -1589,9 +1580,10 @@ void update_variable() {
} }
#endif #endif
#if HAS_HEATED_BED #if HAS_HEATED_BED
if (last_temp_bed_current != thermalManager.temp_bed.celsius) { static float _bedtemp = 0;
if (_bedtemp != thermalManager.temp_bed.celsius) {
DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 178, 382, thermalManager.temp_bed.celsius); DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 178, 382, thermalManager.temp_bed.celsius);
last_temp_bed_current = thermalManager.temp_bed.celsius; _bedtemp = thermalManager.temp_bed.celsius;
} }
if (last_temp_bed_target != thermalManager.temp_bed.target) { if (last_temp_bed_target != thermalManager.temp_bed.target) {
DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 178 + 4 * STAT_CHR_W + 6, 382, thermalManager.temp_bed.target); DWIN_Draw_IntValue(true, true, 0, DWIN_FONT_STAT, Color_White, Color_Bg_Black, 3, 178 + 4 * STAT_CHR_W + 6, 382, thermalManager.temp_bed.target);
@ -2135,13 +2127,11 @@ void HMI_Printing() {
char cmd[40]; char cmd[40];
cmd[0] = '\0'; cmd[0] = '\0';
#if ENABLED(PAUSE_HEAT) #if BOTH(HAS_HOTEND, PAUSE_HEAT)
#if HAS_HEATED_BED if (resume_hotend_temp) sprintf_P(&cmd[strlen(cmd)], PSTR("M109 S%i\n"), resume_hotend_temp);
if (tempbed) sprintf_P(cmd, PSTR("M190 S%i\n"), tempbed); #endif
#endif #if BOTH(HAS_HEATED_BED, PAUSE_HEAT)
#if HAS_HOTEND if (resume_bed_temp) sprintf_P(cmd, PSTR("M190 S%i\n"), resume_bed_temp);
if (temphot) sprintf_P(&cmd[strlen(cmd)], PSTR("M109 S%i\n"), temphot);
#endif
#endif #endif
strcat_P(cmd, M24_STR); strcat_P(cmd, M24_STR);
@ -2322,8 +2312,8 @@ void HMI_Prepare() {
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(2), current_position.y * MINUNITMULT); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(2), current_position.y * MINUNITMULT);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(3), current_position.z * MINUNITMULT); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, UNITFDIGITS, 216, MBASE(3), current_position.z * MINUNITMULT);
#if HAS_HOTEND #if HAS_HOTEND
HMI_ValueStruct.Move_E_scale = current_position.e * MINUNITMULT; HMI_ValueStruct.Move_E_scaled = current_position.e * MINUNITMULT;
DWIN_Draw_Signed_Float(font8x16, Color_Bg_Black, 3, 1, 216, MBASE(4), HMI_ValueStruct.Move_E_scale); DWIN_Draw_Signed_Float(font8x16, Color_Bg_Black, 3, 1, 216, MBASE(4), HMI_ValueStruct.Move_E_scaled);
#endif #endif
break; break;
case PREPARE_CASE_DISA: // Disable steppers case PREPARE_CASE_DISA: // Disable steppers
@ -2573,11 +2563,11 @@ void HMI_AxisMove() {
if (HMI_flag.ETempTooLow_flag) { if (HMI_flag.ETempTooLow_flag) {
if (encoder_diffState == ENCODER_DIFF_ENTER) { if (encoder_diffState == ENCODER_DIFF_ENTER) {
HMI_flag.ETempTooLow_flag = false; HMI_flag.ETempTooLow_flag = false;
HMI_ValueStruct.Move_E_scale = current_position.e * MINUNITMULT; HMI_ValueStruct.Move_E_scaled = current_position.e * MINUNITMULT;
Draw_Move_Menu(); Draw_Move_Menu();
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(1), HMI_ValueStruct.Move_X_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(1), HMI_ValueStruct.Move_X_scaled);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(2), HMI_ValueStruct.Move_Y_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(2), HMI_ValueStruct.Move_Y_scaled);
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(3), HMI_ValueStruct.Move_Z_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Color_Bg_Black, 3, 1, 216, MBASE(3), HMI_ValueStruct.Move_Z_scaled);
DWIN_Draw_Signed_Float(font8x16, Color_Bg_Black, 3, 1, 216, MBASE(4), 0); DWIN_Draw_Signed_Float(font8x16, Color_Bg_Black, 3, 1, 216, MBASE(4), 0);
DWIN_UpdateLCD(); DWIN_UpdateLCD();
} }
@ -2602,20 +2592,20 @@ void HMI_AxisMove() {
break; break;
case 1: // X axis move case 1: // X axis move
checkkey = Move_X; checkkey = Move_X;
HMI_ValueStruct.Move_X_scale = current_position.x * MINUNITMULT; HMI_ValueStruct.Move_X_scaled = current_position.x * MINUNITMULT;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 1, 216, MBASE(1), HMI_ValueStruct.Move_X_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 1, 216, MBASE(1), HMI_ValueStruct.Move_X_scaled);
EncoderRate.enabled = true; EncoderRate.enabled = true;
break; break;
case 2: // Y axis move case 2: // Y axis move
checkkey = Move_Y; checkkey = Move_Y;
HMI_ValueStruct.Move_Y_scale = current_position.y * MINUNITMULT; HMI_ValueStruct.Move_Y_scaled = current_position.y * MINUNITMULT;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 1, 216, MBASE(2), HMI_ValueStruct.Move_Y_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 1, 216, MBASE(2), HMI_ValueStruct.Move_Y_scaled);
EncoderRate.enabled = true; EncoderRate.enabled = true;
break; break;
case 3: // Z axis move case 3: // Z axis move
checkkey = Move_Z; checkkey = Move_Z;
HMI_ValueStruct.Move_Z_scale = current_position.z * MINUNITMULT; HMI_ValueStruct.Move_Z_scaled = current_position.z * MINUNITMULT;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 1, 216, MBASE(3), HMI_ValueStruct.Move_Z_scale); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, 1, 216, MBASE(3), HMI_ValueStruct.Move_Z_scaled);
EncoderRate.enabled = true; EncoderRate.enabled = true;
break; break;
#if HAS_HOTEND #if HAS_HOTEND
@ -2630,8 +2620,8 @@ void HMI_AxisMove() {
} }
#endif #endif
checkkey = Extruder; checkkey = Extruder;
HMI_ValueStruct.Move_E_scale = current_position.e * MINUNITMULT; HMI_ValueStruct.Move_E_scaled = current_position.e * MINUNITMULT;
DWIN_Draw_Signed_Float(font8x16, Select_Color, 3, 1, 216, MBASE(4), HMI_ValueStruct.Move_E_scale); DWIN_Draw_Signed_Float(font8x16, Select_Color, 3, 1, 216, MBASE(4), HMI_ValueStruct.Move_E_scaled);
EncoderRate.enabled = true; EncoderRate.enabled = true;
break; break;
#endif #endif
@ -3417,8 +3407,8 @@ void HMI_MaxAcceleration() {
if (WITHIN(select_jerk.now, 1, 4)) { if (WITHIN(select_jerk.now, 1, 4)) {
checkkey = MaxJerk_value; checkkey = MaxJerk_value;
HMI_flag.jerk_axis = AxisEnum(select_jerk.now - 1); HMI_flag.jerk_axis = AxisEnum(select_jerk.now - 1);
HMI_ValueStruct.Max_Jerk = planner.max_jerk[HMI_flag.jerk_axis] * MINUNITMULT; HMI_ValueStruct.Max_Jerk_scaled = planner.max_jerk[HMI_flag.jerk_axis] * MINUNITMULT;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_jerk.now), HMI_ValueStruct.Max_Jerk); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_jerk.now), HMI_ValueStruct.Max_Jerk_scaled);
EncoderRate.enabled = true; EncoderRate.enabled = true;
} }
else { // Back else { // Back
@ -3447,8 +3437,8 @@ void HMI_Step() {
if (WITHIN(select_step.now, 1, 4)) { if (WITHIN(select_step.now, 1, 4)) {
checkkey = Step_value; checkkey = Step_value;
HMI_flag.step_axis = AxisEnum(select_step.now - 1); HMI_flag.step_axis = AxisEnum(select_step.now - 1);
HMI_ValueStruct.Max_Step = planner.settings.axis_steps_per_mm[HMI_flag.step_axis] * MINUNITMULT; HMI_ValueStruct.Max_Step_scaled = planner.settings.axis_steps_per_mm[HMI_flag.step_axis] * MINUNITMULT;
DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_step.now), HMI_ValueStruct.Max_Step); DWIN_Draw_FloatValue(true, true, 0, font8x16, Color_White, Select_Color, 3, UNITFDIGITS, 210, MBASE(select_step.now), HMI_ValueStruct.Max_Step_scaled);
EncoderRate.enabled = true; EncoderRate.enabled = true;
} }
else { // Back else { // Back
@ -3499,7 +3489,7 @@ void EachMomentUpdate() {
planner.finish_and_disable(); planner.finish_and_disable();
// show percent bar and value // show percent bar and value
Percentrecord = 0; _card_percent = 0;
Draw_Print_ProgressBar(); Draw_Print_ProgressBar();
// show print done confirm // show print done confirm
@ -3517,12 +3507,8 @@ void EachMomentUpdate() {
if (HMI_flag.pause_action && printingIsPaused() && !planner.has_blocks_queued()) { if (HMI_flag.pause_action && printingIsPaused() && !planner.has_blocks_queued()) {
HMI_flag.pause_action = false; HMI_flag.pause_action = false;
#if ENABLED(PAUSE_HEAT) #if ENABLED(PAUSE_HEAT)
#if HAS_HEATED_BED TERN_(HAS_HOTEND, resume_hotend_temp = thermalManager.temp_hotend[0].target);
tempbed = thermalManager.temp_bed.target; TERN_(HAS_HEATED_BED, resume_bed_temp = thermalManager.temp_bed.target);
#endif
#if HAS_HOTEND
temphot = thermalManager.temp_hotend[0].target;
#endif
thermalManager.disable_all_heaters(); thermalManager.disable_all_heaters();
#endif #endif
queue.inject_P(PSTR("G1 F1200 X0 Y0")); queue.inject_P(PSTR("G1 F1200 X0 Y0"));
@ -3534,7 +3520,7 @@ void EachMomentUpdate() {
if (last_cardpercentValue != card_pct) { // print percent if (last_cardpercentValue != card_pct) { // print percent
last_cardpercentValue = card_pct; last_cardpercentValue = card_pct;
if (card_pct) { if (card_pct) {
Percentrecord = card_pct; _card_percent = card_pct;
Draw_Print_ProgressBar(); Draw_Print_ProgressBar();
} }
} }
@ -3551,8 +3537,8 @@ void EachMomentUpdate() {
// Estimate remaining time every 20 seconds // Estimate remaining time every 20 seconds
static millis_t next_remain_time_update = 0; static millis_t next_remain_time_update = 0;
if (Percentrecord > 1 && ELAPSED(ms, next_remain_time_update) && !HMI_flag.heat_flag) { if (_card_percent > 1 && ELAPSED(ms, next_remain_time_update) && !HMI_flag.heat_flag) {
remain_time = (elapsed.value - dwin_heat_time) / (Percentrecord * 0.01f) - (elapsed.value - dwin_heat_time); _remain_time = (elapsed.value - dwin_heat_time) / (_card_percent * 0.01f) - (elapsed.value - dwin_heat_time);
next_remain_time_update += SEC_TO_MS(20); next_remain_time_update += SEC_TO_MS(20);
Draw_Print_ProgressRemain(); Draw_Print_ProgressRemain();
} }

12
Marlin/src/lcd/dwin/e3v2/dwin.h

@ -240,13 +240,13 @@ typedef struct {
int16_t print_speed = 100; int16_t print_speed = 100;
float Max_Feedspeed = 0; float Max_Feedspeed = 0;
float Max_Acceleration = 0; float Max_Acceleration = 0;
float Max_Jerk = 0; float Max_Jerk_scaled = 0;
float Max_Step = 0; float Max_Step_scaled = 0;
float Move_X_scale = 0; float Move_X_scaled = 0;
float Move_Y_scale = 0; float Move_Y_scaled = 0;
float Move_Z_scale = 0; float Move_Z_scaled = 0;
#if HAS_HOTEND #if HAS_HOTEND
float Move_E_scale = 0; float Move_E_scaled = 0;
#endif #endif
float offset_value = 0; float offset_value = 0;
int8_t show_mode = 0; // -1: Temperature control 0: Printing temperature int8_t show_mode = 0; // -1: Temperature control 0: Printing temperature

Loading…
Cancel
Save