Improvements to CLCD code.

master
Marcio Teixeira 7 years ago
parent daaacf7519
commit 13ac262edb

@ -280,22 +280,22 @@ namespace FT810 {
// OPTIONS // OPTIONS
namespace FTDI { namespace FTDI {
const uint16_t OPT_3D = 0; const uint16_t OPT_3D = 0x0000;
const uint16_t OPT_RGB565 = 0; const uint16_t OPT_RGB565 = 0x0000;
const uint16_t OPT_MONO = 1; const uint16_t OPT_MONO = 0x0001;
const uint16_t OPT_NODL = 2; const uint16_t OPT_NODL = 0x0002;
const uint16_t OPT_FLAT = 256; const uint16_t OPT_FLAT = 0x0100;
const uint16_t OPT_SIGNED = 256; const uint16_t OPT_SIGNED = 0x0100;
const uint16_t OPT_CENTERX = 512; const uint16_t OPT_CENTERX = 0x0200;
const uint16_t OPT_CENTERY = 1024; const uint16_t OPT_CENTERY = 0x0400;
const uint16_t OPT_CENTER = 1536; const uint16_t OPT_CENTER = (OPT_CENTERX | OPT_CENTERY);
const uint16_t OPT_RIGHTX = 2048; const uint16_t OPT_RIGHTX = 0x0800;
const uint16_t OPT_NOBACK = 4096; const uint16_t OPT_NOBACK = 0x1000;
const uint16_t OPT_NOTICKS = 8192; const uint16_t OPT_NOTICKS = 0x2000;
const uint16_t OPT_NOHM = 16384; const uint16_t OPT_NOHM = 0x4000;
const uint16_t OPT_NOPOINTER = 16384; const uint16_t OPT_NOPOINTER = 0x4000;
const uint16_t OPT_NOSECS = 32768; const uint16_t OPT_NOSECS = 0x8000;
const uint16_t OPT_NOHANDS = 49152; const uint16_t OPT_NOHANDS = (OPT_NOPOINTER | OPT_NOSECS);
} }
// GPIO Bits // GPIO Bits
@ -348,12 +348,21 @@ namespace FTDI_LCD_480x272 {
const int Pclk = 5; const int Pclk = 5;
const int Clksel = 0x44; const int Clksel = 0x44;
#if defined(LCD_PORTRAIT)
const uint32_t default_transform_a = 0xFFFFFEA3;
const uint32_t default_transform_b = 0xFFFFB05D;
const uint32_t default_transform_c = 0x012C5254;
const uint32_t default_transform_d = 0xFFFF8303;
const uint32_t default_transform_e = 0xFFFFFDF8;
const uint32_t default_transform_f = 0x01F32984;
#else
const uint32_t default_transform_a = 0x00008100; const uint32_t default_transform_a = 0x00008100;
const uint32_t default_transform_b = 0x00000000; const uint32_t default_transform_b = 0x00000000;
const uint32_t default_transform_c = 0xFFF18000; const uint32_t default_transform_c = 0xFFF18000;
const uint32_t default_transform_d = 0x00000000; const uint32_t default_transform_d = 0x00000000;
const uint32_t default_transform_e = 0xFFFFB100; const uint32_t default_transform_e = 0xFFFFB100;
const uint32_t default_transform_f = 0x0120D000; const uint32_t default_transform_f = 0x0120D000;
#endif
} }
// GLOBAL LCD REGISTER SET VALUES FOR 800x480 DISPLAY // GLOBAL LCD REGISTER SET VALUES FOR 800x480 DISPLAY
@ -706,6 +715,7 @@ namespace FTDI {
enum note_t { enum note_t {
END_SONG = 0x00, END_SONG = 0x00,
NOTE_C3 = 0x32,
NOTE_D3 = 0x33, NOTE_D3 = 0x33,
NOTE_D3S = 0x34, NOTE_D3S = 0x34,
NOTE_F3 = 0x35, NOTE_F3 = 0x35,

@ -175,6 +175,7 @@ class CLCD {
static void Flash_Write_RGB332_Bitmap(uint32_t Mem_Address, const unsigned char* pRGB332_Array, uint16_t Num_Bytes); static void Flash_Write_RGB332_Bitmap(uint32_t Mem_Address, const unsigned char* pRGB332_Array, uint16_t Num_Bytes);
static uint8_t Get_Tag() {return Mem_Read8(REG_TOUCH_TAG);} static uint8_t Get_Tag() {return Mem_Read8(REG_TOUCH_TAG);}
static bool Is_Touching() {return (Mem_Read32(REG_TOUCH_DIRECT_XY) & 0x80000000) == 0;}
}; };
/********************************* FT800/810 Commands *********************************/ /********************************* FT800/810 Commands *********************************/
@ -271,9 +272,9 @@ class CLCD::CommandFifo {
void Cmd (void* data, uint16_t len); void Cmd (void* data, uint16_t len);
void Cmd_Str (const char * const data); void Cmd_Str (const char * const data);
void Cmd_Str (progmem_str data); void Cmd_Str (progmem_str data);
void Cmd_Clear_Color (uint32_t rgb); void Cmd_Set_Clear_Color (uint32_t rgb);
void Cmd_Clear (bool Clr, bool Stl, bool Tag); void Cmd_Clear (bool Clr, bool Stl, bool Tag);
void Cmd_Color (uint32_t rgb); void Cmd_Set_Color (uint32_t rgb);
void Cmd_Set_Foreground_Color (uint32_t rgb); void Cmd_Set_Foreground_Color (uint32_t rgb);
void Cmd_Set_Background_Color (uint32_t rgb); void Cmd_Set_Background_Color (uint32_t rgb);
void Cmd_Set_Tag (uint8_t Tag); void Cmd_Set_Tag (uint8_t Tag);
@ -301,8 +302,11 @@ class CLCD::CommandFifo {
Cmd(BITMAP_TRANSFORM_E | 256); Cmd(BITMAP_TRANSFORM_E | 256);
} }
} }
template<typename T> FORCEDINLINE void Cmd_Draw_Button_Text(int16_t x, int16_t y, int16_t w, int16_t h, T text, int16_t font) { template<typename T> FORCEDINLINE void Cmd_Draw_Button_Text(int16_t x, int16_t y, int16_t w, int16_t h, T text, int16_t font, uint16_t options = OPT_CENTER) {
Cmd_Draw_Text(x + w/2, y + h/2, text, font, OPT_CENTER); Cmd_Draw_Text(
x + ((options & OPT_CENTERX) ? w/2 : 0),
y + ((options & OPT_CENTERY) ? h/2 : h),
text, font, options);
} }
void Cmd_Bitmap_Layout (uint8_t format, uint16_t linestride, uint16_t height); void Cmd_Bitmap_Layout (uint8_t format, uint16_t linestride, uint16_t height);
@ -330,7 +334,7 @@ inline uint32_t CLCD::pack_rgb(uint8_t r, uint8_t g, uint8_t b) {
return (uint32_t(r) << 16) | (uint32_t(g) << 8) | uint32_t(b); return (uint32_t(r) << 16) | (uint32_t(g) << 8) | uint32_t(b);
} }
void CLCD::CommandFifo::Cmd_Clear_Color (uint32_t rgb) // DL Command - Set Clear Screen Color void CLCD::CommandFifo::Cmd_Set_Clear_Color (uint32_t rgb) // DL Command - Set Clear Screen Color
{ {
Cmd(CLEAR_COLOR_RGB | rgb); Cmd(CLEAR_COLOR_RGB | rgb);
} }
@ -344,7 +348,7 @@ void CLCD::CommandFifo::Cmd_Clear (bool Clr, bool Stl, bool Tag) //
); );
} }
void CLCD::CommandFifo::Cmd_Color (uint32_t rgb) // DL Command - Set Current Color void CLCD::CommandFifo::Cmd_Set_Color (uint32_t rgb) // DL Command - Set Current Color
{ {
Cmd(COLOR_RGB | rgb); Cmd(COLOR_RGB | rgb);
} }
@ -878,18 +882,43 @@ void CLCD::Init (void) {
CLCD::Mem_Write32(REG_TOUCH_TRANSFORM_F, default_transform_f); CLCD::Mem_Write32(REG_TOUCH_TRANSFORM_F, default_transform_f);
} }
/******************* SOUND HELPER CLASS ************************/ /******************* TINY INTERVAL CLASS ***********************/
/* tiny_interval() downsamples a 32-bit millis() value /* tiny_interval() downsamples a 32-bit millis() value
into a 8-bit value which can record periods of into a 8-bit value which can record periods of
up to 4.096 seconds with a rougly 16 millisecond up to 4.096 seconds with a rougly 16 millisecond
resolution. This allows us to measure small resolution. This allows us to measure small
intervals without needing to use four-byte counters. intervals without needing to use four-byte counters.
However, dues to wrap-arounds, this class may misfire
often and thus should only be used where memory savings
outweigh accuracy.
*/ */
inline uint8_t tiny_interval(uint32_t ms) { class tiny_interval_t {
private:
uint8_t end;
public:
static inline uint8_t tiny_interval(uint32_t ms) {
return uint8_t(ms / 64); return uint8_t(ms / 64);
} }
inline void wait_for(uint32_t ms) {
end = tiny_interval(millis() + ms);
}
inline bool elapsed() {
if(end == 0 || tiny_interval(millis()) > end) {
end = 0;
return true;
} else {
return false;
}
}
};
/******************* SOUND HELPER CLASS ************************/
class CLCD::SoundPlayer { class CLCD::SoundPlayer {
public: public:
struct sound_t { struct sound_t {
@ -934,7 +963,7 @@ void CLCD::SoundPlayer::play(effect_t effect, note_t note) {
void CLCD::SoundPlayer::play(const sound_t* seq) { void CLCD::SoundPlayer::play(const sound_t* seq) {
sequence = seq; sequence = seq;
next = tiny_interval(millis()) + 1; next = tiny_interval_t::tiny_interval(millis()) + 1;
} }
bool CLCD::SoundPlayer::soundPlaying() { bool CLCD::SoundPlayer::soundPlaying() {
@ -944,7 +973,7 @@ bool CLCD::SoundPlayer::soundPlaying() {
void CLCD::SoundPlayer::onIdle() { void CLCD::SoundPlayer::onIdle() {
if(!sequence) return; if(!sequence) return;
const uint8_t tiny_millis = tiny_interval(millis()); const uint8_t tiny_millis = tiny_interval_t::tiny_interval(millis());
const bool readyForNextNote = (next == WAIT) ? !soundPlaying() : (tiny_millis > next); const bool readyForNextNote = (next == WAIT) ? !soundPlaying() : (tiny_millis > next);
if(readyForNextNote) { if(readyForNextNote) {
@ -960,7 +989,7 @@ void CLCD::SoundPlayer::onIdle() {
SERIAL_PROTOCOLLNPAIR("Scheduling note in ", ms); SERIAL_PROTOCOLLNPAIR("Scheduling note in ", ms);
#endif #endif
#endif #endif
next = (ms == WAIT) ? 0 : (tiny_millis + tiny_interval(ms)); next = (ms == WAIT) ? 0 : (tiny_millis + tiny_interval_t::tiny_interval(ms));
play(fx, (nt == 0) ? NOTE_C4 : nt); play(fx, (nt == 0) ? NOTE_C4 : nt);
sequence++; sequence++;
} }

@ -18,12 +18,13 @@
#define DISPLAY_UPDATE_INTERVAL 1000 #define DISPLAY_UPDATE_INTERVAL 1000
#define TOUCH_REPEATS_PER_SECOND 4 #define TOUCH_REPEATS_PER_SECOND 4
#define DEBOUNCE_PERIOD 100
// To save MCU RAM, the status message is "baked" in to the status screen // To save MCU RAM, the status message is "baked" in to the status screen
// cache, so we reserve a large chunk of memory for the DL cache // cache, so we reserve a large chunk of memory for the DL cache
#define STATUS_SCREEN_DL_SIZE 2048 #define STATUS_SCREEN_DL_SIZE 2048
#define CONFIRMATION_SCREEN_DL_SIZE 2048 #define CONFIRMATION_SCREEN_DL_SIZE 3072
#define N_ELEMENTS(a) (sizeof(a)/sizeof(a[0])) #define N_ELEMENTS(a) (sizeof(a)/sizeof(a[0]))
@ -86,6 +87,14 @@
#define BTN_TAG(t) cmd.Cmd_Set_Tag(t); #define BTN_TAG(t) cmd.Cmd_Set_Tag(t);
#define RGB(rgb) cmd.Cmd_Set_Foreground_Color(rgb); #define RGB(rgb) cmd.Cmd_Set_Foreground_Color(rgb);
#define THEME(color) cmd.Cmd_Set_Foreground_Color(Theme::color); #define THEME(color) cmd.Cmd_Set_Foreground_Color(Theme::color);
#define BTN_ENABLED(en) if(en) { \
cmd.Cmd_Set_Color(Theme::btn_rgb_enabled); \
cmd.Cmd_Set_Foreground_Color(Theme::btn_fg_enabled); \
} else { \
cmd.Cmd_Set_Color(Theme::btn_rgb_disabled); \
cmd.Cmd_Set_Foreground_Color(Theme::btn_fg_disabled); \
cmd.Cmd_Set_Tag(0); \
}
#define FONT_SML Theme::font_small #define FONT_SML Theme::font_small
#define FONT_MED Theme::font_medium #define FONT_MED Theme::font_medium
@ -95,6 +104,16 @@
#define EXEC_GCODE(cmd) Marlin_LCD_API::runGCode(cmd) #define EXEC_GCODE(cmd) Marlin_LCD_API::runGCode(cmd)
/****************************** SCREEN STATIC DATA *************************/
// To save RAM, store state information related to a particular screen
// in a union. The values should be initialized in the onEntry method.
static union {
struct {uint8_t increment;} ValueAdjusters;
struct {uint8_t page, selected;} FilesScreen;
} screen_data;
/************************* MENU SCREEN DECLARATIONS *************************/ /************************* MENU SCREEN DECLARATIONS *************************/
class BootScreen : public UIScreen { class BootScreen : public UIScreen {
@ -117,20 +136,30 @@ class KillScreen {
static void show(progmem_str msg); static void show(progmem_str msg);
}; };
class ConfirmationScreen : public UIScreen { class DialogBoxBaseClass : public UIScreen {
protected: protected:
static void onEntry();
static void show(const progmem_str message[], size_t lines, progmem_str btn1, progmem_str btn2 ); static void show(const progmem_str message[], size_t lines, progmem_str btn1, progmem_str btn2 );
static void onRefresh();
public:
static bool onTouchStart(uint8_t tag); static bool onTouchStart(uint8_t tag);
};
class AlertBoxScreen : public DialogBoxBaseClass {
public: public:
static void onRefresh(); static void onRefresh();
static void show(const progmem_str line1, const progmem_str line2 = 0, const progmem_str line3 = 0);
}; };
class RestoreFailsafeScreen : public ConfirmationScreen { class RestoreFailsafeScreen : public DialogBoxBaseClass {
protected: public:
static void showCompletion(); static void onRefresh();
static void onEntry();
static bool onTouchStart(uint8_t tag);
};
class ConfirmAbortPrint : public DialogBoxBaseClass {
public: public:
static void onRefresh();
static void onEntry(); static void onEntry();
static bool onTouchStart(uint8_t tag); static bool onTouchStart(uint8_t tag);
}; };
@ -140,12 +169,14 @@ class StatusScreen : public UIScreen {
static void static_axis_position(); static void static_axis_position();
static void static_temperature(); static void static_temperature();
static void static_progress(); static void static_progress();
static void static_media_button();
static void static_interaction_buttons(); static void static_interaction_buttons();
static void static_status_message(const char * const message); static void static_status_message(const char * const message);
static void dynamic_axis_position(); static void dynamic_axis_position();
static void dynamic_temperature(); static void dynamic_temperature();
static void dynamic_progress(); static void dynamic_progress();
static void dynamic_interaction_buttons();
public: public:
static void setStatusMessage(const char * message); static void setStatusMessage(const char * message);
@ -164,6 +195,7 @@ class MenuScreen : public UIScreen {
class CalibrationScreen : public UIScreen { class CalibrationScreen : public UIScreen {
public: public:
static void onEntry();
static void onRefresh(); static void onRefresh();
static void onIdle(); static void onIdle();
}; };
@ -182,7 +214,6 @@ class AdvancedSettingsScreen : public UIScreen {
class ValueAdjusters : public UIScreen { class ValueAdjusters : public UIScreen {
private: private:
static uint8_t increment;
static void draw_increment_btn(uint8_t line, const uint8_t tag, uint8_t decimals); static void draw_increment_btn(uint8_t line, const uint8_t tag, uint8_t decimals);
protected: protected:
struct stacker_t { struct stacker_t {
@ -219,6 +250,7 @@ class ValueAdjusters : public UIScreen {
static float getIncrement(); static float getIncrement();
public: public:
static void onEntry();
static bool onTouchStart(uint8_t tag); static bool onTouchStart(uint8_t tag);
}; };
@ -247,9 +279,12 @@ class TemperatureScreen : public ValueAdjusters {
}; };
class FilesScreen : public UIScreen { class FilesScreen : public UIScreen {
private:
static const char *getSelectedShortFilename();
public: public:
static void onEntry();
static void onRefresh(); static void onRefresh();
static bool onTouchHeld(uint8_t tag); static bool onTouchStart(uint8_t tag);
}; };
/******************************* MENU SCREEN TABLE ******************************/ /******************************* MENU SCREEN TABLE ******************************/
@ -257,7 +292,9 @@ class FilesScreen : public UIScreen {
SCREEN_TABLE { SCREEN_TABLE {
DECL_SCREEN(BootScreen), DECL_SCREEN(BootScreen),
DECL_SCREEN(AboutScreen), DECL_SCREEN(AboutScreen),
DECL_SCREEN(AlertBoxScreen),
DECL_SCREEN(RestoreFailsafeScreen), DECL_SCREEN(RestoreFailsafeScreen),
DECL_SCREEN(ConfirmAbortPrint),
DECL_SCREEN(CalibrationScreen), DECL_SCREEN(CalibrationScreen),
DECL_SCREEN(StatusScreen), DECL_SCREEN(StatusScreen),
DECL_SCREEN(MenuScreen), DECL_SCREEN(MenuScreen),
@ -293,32 +330,38 @@ enum {
/************************************ MENU THEME ********************************/ /************************************ MENU THEME ********************************/
namespace Theme { namespace Theme {
const uint32_t olive_darkest = 0x2A2F0A; const uint32_t theme_darkest = 0x2A2F0A;
const uint32_t olive_dark = 0x495212; const uint32_t theme_dark = 0x495212;
const uint32_t olive_light = 0x8C9D22; const uint32_t theme_light = 0x8C9D22;
const uint32_t background = theme_dark;
const uint32_t back_btn = theme_light;
const uint32_t background = 0x707070;
const uint32_t x_axis = 0x500000; const uint32_t x_axis = 0x500000;
const uint32_t y_axis = 0x005000; const uint32_t y_axis = 0x005000;
const uint32_t z_axis = 0x000050; const uint32_t z_axis = 0x000050;
const uint32_t e_axis = 0x000000; const uint32_t e_axis = 0x000000;
const uint32_t menu_btn = olive_dark;
const uint32_t navi_btn = olive_light;
const uint32_t toggle_on = olive_light; const uint32_t toggle_on = theme_light;
const uint32_t toggle_off = olive_darkest; const uint32_t toggle_off = theme_darkest;
const uint32_t disabled = background;
// Disabled vs enabled buttons
const uint32_t btn_rgb_enabled = 0xFFFFFF;
const uint32_t btn_fg_enabled = theme_darkest;
const uint32_t btn_rgb_disabled = theme_dark;
const uint32_t btn_fg_disabled = theme_dark;
// Files screens
// About screen const uint32_t files_selected = theme_light;
const uint32_t about_bg = olive_dark;
const uint32_t about_btn = olive_darkest;
// Adjustment Screens // Adjustment Screens
const uint32_t adjust_bg = olive_dark; const uint32_t incr_btn = theme_darkest;
const uint32_t incr_btn = olive_darkest;
// Status screen // Status screen
const uint32_t status_bg = 0x707070;
const uint32_t status_dark = 0x404040;
const uint32_t stop_btn = 0xF02020; const uint32_t stop_btn = 0xF02020;
const uint32_t prnt_btn = 0x20D020; const uint32_t prnt_btn = 0x20D020;
const uint32_t progress = 0x404040; const uint32_t progress = 0x404040;
@ -371,7 +414,7 @@ namespace Theme {
void BootScreen::onRefresh() { void BootScreen::onRefresh() {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::background); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
cmd.Cmd(DL_DISPLAY); cmd.Cmd(DL_DISPLAY);
cmd.Cmd(CMD_SWAP); cmd.Cmd(CMD_SWAP);
@ -383,7 +426,15 @@ void BootScreen::onRefresh() {
} }
void BootScreen::onIdle() { void BootScreen::onIdle() {
if(CLCD::Is_Touching()) {
// If the user is touching the screen at startup, then
// assume the user wants to re-calibrate the screen.
// This gives the user the ability to recover a
// miscalibration that has been stored to EEPROM.
GOTO_SCREEN(CalibrationScreen); GOTO_SCREEN(CalibrationScreen);
} else {
GOTO_SCREEN(StatusScreen);
}
} }
/******************************** ABOUT SCREEN ****************************/ /******************************** ABOUT SCREEN ****************************/
@ -400,7 +451,7 @@ void AboutScreen::onEntry() {
void AboutScreen::onRefresh() { void AboutScreen::onRefresh() {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::about_bg); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#define GRID_COLS 4 #define GRID_COLS 4
@ -412,7 +463,7 @@ void AboutScreen::onRefresh() {
BTX( BTN_POS(1,5), BTN_SIZE(4,1), Marlin_LCD_API::getFirmwareName(), FONT_LRG); BTX( BTN_POS(1,5), BTN_SIZE(4,1), Marlin_LCD_API::getFirmwareName(), FONT_LRG);
BTN_TAG(1) THEME(about_btn) BTN( BTN_POS(2,7), BTN_SIZE(2,1), F("Okay"), MENU_BTN_STYLE); BTN_TAG(1) BTN_ENABLED(1) BTN( BTN_POS(2,7), BTN_SIZE(2,1), F("Okay"), MENU_BTN_STYLE);
cmd.Cmd(DL_DISPLAY); cmd.Cmd(DL_DISPLAY);
cmd.Cmd(CMD_SWAP); cmd.Cmd(CMD_SWAP);
@ -426,21 +477,14 @@ bool AboutScreen::onTouchStart(uint8_t tag) {
} }
} }
/**************************** GENERIC CONFIRMATION SCREEN ****************************/ /**************************** GENERIC DIALOG BOX SCREEN ****************************/
void ConfirmationScreen::onEntry() { void DialogBoxBaseClass::show(const progmem_str lines[], size_t n_lines, progmem_str btn1, progmem_str btn2 ) {
progmem_str lines[] = {
F("Are you sure?")
};
ConfirmationScreen::show(lines, N_ELEMENTS(lines), F("Yes"), F("No"));
}
void ConfirmationScreen::show(const progmem_str lines[], size_t n_lines, progmem_str btn1, progmem_str btn2 ) {
CLCD::DLCache dlcache(CONFIRMATION_SCREEN_CACHE); CLCD::DLCache dlcache(CONFIRMATION_SCREEN_CACHE);
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::about_bg); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#define GRID_COLS 2 #define GRID_COLS 2
@ -451,12 +495,12 @@ void ConfirmationScreen::show(const progmem_str lines[], size_t n_lines, progmem
} }
if(btn1 && btn2) { if(btn1 && btn2) {
BTN_TAG(1) THEME(about_btn) BTN( BTN_POS(1,8), BTN_SIZE(1,1), btn1, MENU_BTN_STYLE); BTN_TAG(1) BTN_ENABLED(1) BTN( BTN_POS(1,8), BTN_SIZE(1,1), btn1, MENU_BTN_STYLE);
BTN_TAG(2) THEME(about_btn) BTN( BTN_POS(2,8), BTN_SIZE(1,1), btn2, MENU_BTN_STYLE); BTN_TAG(2) BTN_ENABLED(1) BTN( BTN_POS(2,8), BTN_SIZE(1,1), btn2, MENU_BTN_STYLE);
} else if(btn1) { } else if(btn1) {
BTN_TAG(1) THEME(about_btn) BTN( BTN_POS(1,8), BTN_SIZE(2,1), btn1, MENU_BTN_STYLE); BTN_TAG(1) BTN_ENABLED(1) BTN( BTN_POS(1,8), BTN_SIZE(2,1), btn1, MENU_BTN_STYLE);
} else if(btn2) { } else if(btn2) {
BTN_TAG(2) THEME(about_btn) BTN( BTN_POS(1,8), BTN_SIZE(2,1), btn2, MENU_BTN_STYLE); BTN_TAG(2) BTN_ENABLED(1) BTN( BTN_POS(1,8), BTN_SIZE(2,1), btn2, MENU_BTN_STYLE);
} }
cmd.Cmd(DL_DISPLAY); cmd.Cmd(DL_DISPLAY);
@ -474,7 +518,7 @@ void ConfirmationScreen::show(const progmem_str lines[], size_t n_lines, progmem
} }
} }
void ConfirmationScreen::onRefresh() { void DialogBoxBaseClass::onRefresh() {
CLCD::DLCache dlcache(CONFIRMATION_SCREEN_CACHE); CLCD::DLCache dlcache(CONFIRMATION_SCREEN_CACHE);
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
@ -488,13 +532,27 @@ void ConfirmationScreen::onRefresh() {
cmd.Cmd_Execute(); cmd.Cmd_Execute();
} }
bool ConfirmationScreen::onTouchStart(uint8_t tag) { bool DialogBoxBaseClass::onTouchStart(uint8_t tag) {
switch(tag) { switch(tag) {
case 1: GOTO_PREVIOUS(); return true; case 1: GOTO_PREVIOUS(); return true;
case 2: GOTO_PREVIOUS(); return true; case 2: GOTO_PREVIOUS(); return true;
} }
} }
/****************************** ALERT BOX SCREEN *****************************/
void AlertBoxScreen::onRefresh() {
DialogBoxBaseClass::onRefresh();
}
void AlertBoxScreen::show(const progmem_str line1, const progmem_str line2, const progmem_str line3) {
progmem_str lines[] = {line1, line2, line3};
DialogBoxBaseClass::show(lines, line3 ? 3 : line2 ? 2 : 1, F("Okay"), 0);
sound.play(c_maj_arpeggio);
GOTO_SCREEN(AlertBoxScreen);
}
/**************************** RESTORE FAILSAFE SCREEN ***************************/ /**************************** RESTORE FAILSAFE SCREEN ***************************/
void RestoreFailsafeScreen::onEntry() { void RestoreFailsafeScreen::onEntry() {
@ -503,26 +561,57 @@ void RestoreFailsafeScreen::onEntry() {
F("Customizations will be lost.") F("Customizations will be lost.")
}; };
ConfirmationScreen::show(lines, N_ELEMENTS(lines), F("Yes"), F("No")); DialogBoxBaseClass::show(lines, N_ELEMENTS(lines), F("Yes"), F("No"));
} }
void RestoreFailsafeScreen::showCompletion() { void RestoreFailsafeScreen::onRefresh() {
DialogBoxBaseClass::onRefresh();
}
bool RestoreFailsafeScreen::onTouchStart(uint8_t tag) {
switch(tag) {
case 1:
EXEC_GCODE(F("M502\nM500"));
AlertBoxScreen::show(F("Factory settings restored."));
// Remove RestoreFailsafeScreen from the stack
// so the alert box doesn't return to it.
current_screen.forget();
return true;
default:
return DialogBoxBaseClass::onTouchStart(tag);
}
}
/**************************** RESTORE FAILSAFE SCREEN ***************************/
void ConfirmAbortPrint::onEntry() {
progmem_str lines[] = { progmem_str lines[] = {
F("Default settings restored.") F("Are you sure you want"),
F("to stop the print?")
}; };
sound.play(c_maj_arpeggio); DialogBoxBaseClass::show(lines, N_ELEMENTS(lines), F("Yes"), F("No"));
ConfirmationScreen::show(lines, N_ELEMENTS(lines), 0, F("Okay"));
} }
bool RestoreFailsafeScreen::onTouchStart(uint8_t tag) { void ConfirmAbortPrint::onRefresh() {
DialogBoxBaseClass::onRefresh();
}
bool ConfirmAbortPrint::onTouchStart(uint8_t tag) {
switch(tag) { switch(tag) {
case 1: case 1:
EXEC_GCODE(F("M502\nM500")); #if defined (SERIAL_PROTOCOLLNPAIR)
showCompletion(); SERIAL_PROTOCOLLN("Abort confirmed");
#else
#if defined(UI_FRAMEWORK_DEBUG)
Serial.print(F("Abort confirmed"));
#endif
#endif
GOTO_PREVIOUS();
Marlin_LCD_API::stopPrint();
return true; return true;
default: default:
ConfirmationScreen::onTouchStart(tag); return DialogBoxBaseClass::onTouchStart(tag);
} }
} }
@ -536,7 +625,7 @@ void KillScreen::show(progmem_str message) {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::about_bg); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#define GRID_COLS 4 #define GRID_COLS 4
@ -769,26 +858,34 @@ void StatusScreen::dynamic_progress() {
#define GRID_COLS 4 #define GRID_COLS 4
void StatusScreen::static_interaction_buttons() { void StatusScreen::static_media_button() {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
if(Marlin_LCD_API::isMediaInserted()) {
BTN_TAG(3)
BTN_ENABLED(1)
} else {
BTN_TAG(0)
cmd.Cmd_Set_Color(Theme::status_bg);
cmd.Cmd_Set_Foreground_Color(Theme::status_bg);
}
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(1) THEME(stop_btn) BTN( BTN_POS(1,8), BTN_SIZE(4,1), F("STOP"), MENU_BTN_STYLE); BTN( BTN_POS(1,9), BTN_SIZE(2,1), F(""), MENU_BTN_STYLE);
BTN_TAG(3) THEME(navi_btn) BTN( BTN_POS(1,9), BTN_SIZE(2,1), F(""), MENU_BTN_STYLE);
BTN_TAG(4) THEME(navi_btn) BTN( BTN_POS(3,9), BTN_SIZE(2,1), F("MENU"), MENU_BTN_STYLE);
#else #else
BTN_TAG(1) THEME(stop_btn) BTN( BTN_POS(1,7), BTN_SIZE(2,2), F("STOP"), MENU_BTN_STYLE); BTN( BTN_POS(3,7), BTN_SIZE(1,2), F(""), MENU_BTN_STYLE);
BTN_TAG(3) THEME(navi_btn) BTN( BTN_POS(3,7), BTN_SIZE(1,2), F(""), MENU_BTN_STYLE);
BTN_TAG(4) THEME(navi_btn) BTN( BTN_POS(4,7), BTN_SIZE(1,2), F("MENU"), MENU_BTN_STYLE);
#endif #endif
if(!Marlin_LCD_API::isMediaInserted()) {
cmd.Cmd_Set_Color(Theme::status_dark);
}
// Draw Thumb Drive Bitmap on USB Button // Draw Thumb Drive Bitmap on USB Button
cmd.Cmd_Bitmap_Source(TD_Icon_Info); cmd.Cmd_Bitmap_Source(TD_Icon_Info);
cmd.Cmd_Bitmap_Layout(TD_Icon_Info); cmd.Cmd_Bitmap_Layout(TD_Icon_Info);
cmd.Cmd_Bitmap_Size (TD_Icon_Info); cmd.Cmd_Bitmap_Size (TD_Icon_Info);
BTN_TAG(3)
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTI(BTN_POS(1,9), BTN_SIZE(2,1), TD_Icon_Info, Theme::icon_scale); BTI(BTN_POS(1,9), BTN_SIZE(2,1), TD_Icon_Info, Theme::icon_scale);
#else #else
@ -796,11 +893,41 @@ void StatusScreen::static_interaction_buttons() {
#endif #endif
} }
void StatusScreen::static_interaction_buttons() {
CLCD::CommandFifo cmd;
#if defined(LCD_PORTRAIT)
BTN_TAG(4) BTN_ENABLED(1) BTN( BTN_POS(3,9), BTN_SIZE(2,1), F("MENU"), MENU_BTN_STYLE);
#else
BTN_TAG(4) THEME(back_btn) BTN( BTN_POS(4,7), BTN_SIZE(1,2), F("MENU"), MENU_BTN_STYLE);
#endif
}
void StatusScreen::dynamic_interaction_buttons() {
CLCD::CommandFifo cmd;
if(Marlin_LCD_API::isPrintingFromMedia()) {
BTN_TAG(1)
THEME(stop_btn)
} else {
BTN_TAG(0)
cmd.Cmd_Set_Color(Theme::status_bg);
cmd.Cmd_Set_Foreground_Color(Theme::status_bg);
}
#if defined(LCD_PORTRAIT)
BTN( BTN_POS(1,8), BTN_SIZE(4,1), F("STOP"), MENU_BTN_STYLE);
#else
BTN( BTN_POS(1,7), BTN_SIZE(2,2), F("STOP"), MENU_BTN_STYLE);
#endif
}
#define GRID_COLS 1 #define GRID_COLS 1
void StatusScreen::static_status_message(const char * const message) { void StatusScreen::static_status_message(const char * const message) {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
BTN_TAG(0)
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
THEME(status_msg) BTN( BTN_POS(1,4), BTN_SIZE(1,1), message, FONT_LRG, OPT_FLAT); THEME(status_msg) BTN( BTN_POS(1,4), BTN_SIZE(1,1), message, FONT_LRG, OPT_FLAT);
#else #else
@ -814,12 +941,13 @@ void StatusScreen::setStatusMessage(const char * const message) {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::background); cmd.Cmd_Set_Clear_Color(Theme::status_bg);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
static_temperature(); static_temperature();
static_progress(); static_progress();
static_axis_position(); static_axis_position();
static_media_button();
static_interaction_buttons(); static_interaction_buttons();
static_status_message(message); static_status_message(message);
@ -833,6 +961,10 @@ void StatusScreen::setStatusMessage(const char * const message) {
#endif #endif
#endif #endif
} }
if(current_screen.getType() == current_screen.lookupScreen(StatusScreen::onRefresh)) {
onRefresh();
}
} }
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
@ -867,6 +999,7 @@ void StatusScreen::onRefresh() {
dynamic_temperature(); dynamic_temperature();
dynamic_progress(); dynamic_progress();
dynamic_axis_position(); dynamic_axis_position();
dynamic_interaction_buttons();
cmd.Cmd(DL_DISPLAY); cmd.Cmd(DL_DISPLAY);
cmd.Cmd(CMD_SWAP); cmd.Cmd(CMD_SWAP);
@ -883,6 +1016,15 @@ void StatusScreen::onIdle() {
bool StatusScreen::onTouchStart(uint8_t tag) { bool StatusScreen::onTouchStart(uint8_t tag) {
switch(tag) { switch(tag) {
case 1:
#if defined(UI_FRAMEWORK_DEBUG)
#if defined (SERIAL_PROTOCOLLNPGM)
SERIAL_PROTOCOLLNPGM("Aborting print");
#endif
#endif
GOTO_SCREEN(ConfirmAbortPrint);
break;
case 3: GOTO_SCREEN(FilesScreen); break;
case 4: GOTO_SCREEN(MenuScreen); break; case 4: GOTO_SCREEN(MenuScreen); break;
case 5: GOTO_SCREEN(TemperatureScreen); break; case 5: GOTO_SCREEN(TemperatureScreen); break;
case 6: GOTO_SCREEN(MoveAxisScreen); break; case 6: GOTO_SCREEN(MoveAxisScreen); break;
@ -908,34 +1050,34 @@ void MenuScreen::onRefresh() {
if(dlcache.hasData()) { if(dlcache.hasData()) {
dlcache.append(); dlcache.append();
} else { } else {
cmd.Cmd_Clear_Color(Theme::background); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(2) THEME(menu_btn) BTN( BTN_POS(1,1), BTN_SIZE(1,1), F("Auto Home"), MENU_BTN_STYLE); BTN_TAG(2) BTN_ENABLED(1) BTN( BTN_POS(1,1), BTN_SIZE(1,1), F("Auto Home"), MENU_BTN_STYLE);
BTN_TAG(3) THEME(menu_btn) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Move Axis"), MENU_BTN_STYLE); BTN_TAG(3) BTN_ENABLED(1) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Move Axis"), MENU_BTN_STYLE);
BTN_TAG(4) THEME(menu_btn) BTN( BTN_POS(1,2), BTN_SIZE(2,1), F("Disable Steppers"), MENU_BTN_STYLE); BTN_TAG(5) BTN_ENABLED(1) BTN( BTN_POS(1,2), BTN_SIZE(2,1), F("Temperature"), MENU_BTN_STYLE);
BTN_TAG(6) BTN_ENABLED(0) BTN( BTN_POS(1,3), BTN_SIZE(2,1), F("Change Filament"), MENU_BTN_STYLE);
BTN_TAG(5) THEME(menu_btn) BTN( BTN_POS(1,3), BTN_SIZE(2,1), F("Temperature"), MENU_BTN_STYLE); BTN_TAG(4) BTN_ENABLED(1) BTN( BTN_POS(1,4), BTN_SIZE(2,1), F("Disable Steppers"), MENU_BTN_STYLE);
BTN_TAG(6) THEME(menu_btn) BTN( BTN_POS(1,4), BTN_SIZE(2,1), F("Advanced Settings"), MENU_BTN_STYLE); BTN_TAG(7) BTN_ENABLED(1) BTN( BTN_POS(1,5), BTN_SIZE(2,1), F("Advanced Settings"), MENU_BTN_STYLE);
BTN_TAG(8) THEME(menu_btn) BTN( BTN_POS(1,5), BTN_SIZE(2,1), F("Recalibrate Screen"), MENU_BTN_STYLE); BTN_TAG(8) BTN_ENABLED(1) BTN( BTN_POS(1,6), BTN_SIZE(2,1), F("About Firmware"), MENU_BTN_STYLE);
BTN_TAG(7) THEME(menu_btn) BTN( BTN_POS(1,6), BTN_SIZE(2,1), F("About Firmware"), MENU_BTN_STYLE);
#else #else
BTN_TAG(2) THEME(menu_btn) BTN( BTN_POS(1,1), BTN_SIZE(1,1), F("Auto Home"), MENU_BTN_STYLE); BTN_TAG(2) BTN_ENABLED(1) BTN( BTN_POS(1,1), BTN_SIZE(1,1), F("Auto Home"), MENU_BTN_STYLE);
BTN_TAG(3) THEME(menu_btn) BTN( BTN_POS(1,2), BTN_SIZE(1,1), F("Move Axis"), MENU_BTN_STYLE); BTN_TAG(3) BTN_ENABLED(1) BTN( BTN_POS(1,2), BTN_SIZE(1,1), F("Move Axis"), MENU_BTN_STYLE);
BTN_TAG(4) THEME(menu_btn) BTN( BTN_POS(1,3), BTN_SIZE(1,1), F("Disable Steppers"), MENU_BTN_STYLE); BTN_TAG(4) BTN_ENABLED(1) BTN( BTN_POS(1,3), BTN_SIZE(1,1), F("Disable Steppers"), MENU_BTN_STYLE);
BTN_TAG(6) BTN_ENABLED(0) BTN( BTN_POS(1,4), BTN_SIZE(2,1), F("Change Filament"), MENU_BTN_STYLE);
BTN_TAG(5) THEME(menu_btn) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Temperature"), MENU_BTN_STYLE);
BTN_TAG(6) THEME(menu_btn) BTN( BTN_POS(2,2), BTN_SIZE(1,1), F("Configuration"), MENU_BTN_STYLE); BTN_TAG(5) BTN_ENABLED(1) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Temperature"), MENU_BTN_STYLE);
BTN_TAG(7) THEME(menu_btn) BTN( BTN_POS(2,3), BTN_SIZE(1,1), F("About Firmware"), MENU_BTN_STYLE); BTN_TAG(7) BTN_ENABLED(1) BTN( BTN_POS(2,2), BTN_SIZE(1,1), F("Advanced Settings"), MENU_BTN_STYLE);
BTN_TAG(8) BTN_ENABLED(1) BTN( BTN_POS(2,3), BTN_SIZE(1,1), F("About Firmware"), MENU_BTN_STYLE);
#endif #endif
#define MARGIN_T 15 #define MARGIN_T 15
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(1,7), BTN_SIZE(2,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(1,7), BTN_SIZE(2,1), F("Back"), MENU_BTN_STYLE);
#else #else
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(1,4), BTN_SIZE(2,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(2,4), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE);
#endif #endif
#define MARGIN_T 5 #define MARGIN_T 5
@ -955,9 +1097,8 @@ bool MenuScreen::onTouchStart(uint8_t tag) {
case 3: GOTO_SCREEN(MoveAxisScreen); break; case 3: GOTO_SCREEN(MoveAxisScreen); break;
case 4: EXEC_GCODE(F("M84")); break; case 4: EXEC_GCODE(F("M84")); break;
case 5: GOTO_SCREEN(TemperatureScreen); break; case 5: GOTO_SCREEN(TemperatureScreen); break;
case 6: GOTO_SCREEN(AdvancedSettingsScreen); break; case 7: GOTO_SCREEN(AdvancedSettingsScreen); break;
case 7: GOTO_SCREEN(AboutScreen); break; case 8: GOTO_SCREEN(AboutScreen); break;
case 8: GOTO_SCREEN(CalibrationScreen); break;
default: default:
return false; return false;
} }
@ -967,7 +1108,7 @@ bool MenuScreen::onTouchStart(uint8_t tag) {
/******************************* CONFIGURATION SCREEN ****************************/ /******************************* CONFIGURATION SCREEN ****************************/
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
#define GRID_ROWS 6 #define GRID_ROWS 7
#define GRID_COLS 2 #define GRID_COLS 2
#else #else
#define GRID_ROWS 4 #define GRID_ROWS 4
@ -982,30 +1123,31 @@ void AdvancedSettingsScreen::onRefresh() {
if(dlcache.hasData()) { if(dlcache.hasData()) {
dlcache.append(); dlcache.append();
} else { } else {
cmd.Cmd_Clear_Color(Theme::background); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(3) THEME(menu_btn) BTN( BTN_POS(1,1), BTN_SIZE(1,2), F("Z Offset "), MENU_BTN_STYLE); BTN_TAG(4) BTN_ENABLED(1) BTN( BTN_POS(1,1), BTN_SIZE(1,2), F("Z Offset "), MENU_BTN_STYLE);
BTN_TAG(4) THEME(menu_btn) BTN( BTN_POS(1,3), BTN_SIZE(1,2), F("Steps/mm"), MENU_BTN_STYLE); BTN_TAG(5) BTN_ENABLED(1) BTN( BTN_POS(1,3), BTN_SIZE(1,1), F("Steps/mm"), MENU_BTN_STYLE);
BTN_TAG(5) THEME(disabled) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Velocity "), MENU_BTN_STYLE); BTN_TAG(6) BTN_ENABLED(0) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Velocity "), MENU_BTN_STYLE);
BTN_TAG(6) THEME(disabled) BTN( BTN_POS(2,2), BTN_SIZE(1,1), F("Acceleration"), MENU_BTN_STYLE); BTN_TAG(7) BTN_ENABLED(0) BTN( BTN_POS(2,2), BTN_SIZE(1,1), F("Acceleration"), MENU_BTN_STYLE);
BTN_TAG(7) THEME(disabled) BTN( BTN_POS(2,3), BTN_SIZE(1,1), F("Jerk"), MENU_BTN_STYLE); BTN_TAG(8) BTN_ENABLED(0) BTN( BTN_POS(2,3), BTN_SIZE(1,1), F("Jerk"), MENU_BTN_STYLE);
BTN_TAG(8) THEME(menu_btn) BTN( BTN_POS(1,5), BTN_SIZE(2,1), F("Restore Failsafe"), MENU_BTN_STYLE); BTN_TAG(9) BTN_ENABLED(1) BTN( BTN_POS(1,4), BTN_SIZE(2,1), F("Recalibrate Screen"), MENU_BTN_STYLE);
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(1,6), BTN_SIZE(1,1), F("Save"), MENU_BTN_STYLE); BTN_TAG(10) BTN_ENABLED(1) BTN( BTN_POS(1,5), BTN_SIZE(2,1), F("Restore Factory Settings"), MENU_BTN_STYLE);
BTN_TAG(2) THEME(navi_btn) BTN( BTN_POS(2,6), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(2) BTN_ENABLED(1) BTN( BTN_POS(1,6), BTN_SIZE(2,1), F("Save As Default"), MENU_BTN_STYLE);
BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(1,7), BTN_SIZE(2,1), F("Back"), MENU_BTN_STYLE);
#else #else
BTN_TAG(3) THEME(menu_btn) BTN( BTN_POS(1,1), BTN_SIZE(1,1), F("Z Offset "), MENU_BTN_STYLE); BTN_TAG(3) BTN_ENABLED(1) BTN( BTN_POS(1,1), BTN_SIZE(1,1), F("Z Offset "), MENU_BTN_STYLE);
BTN_TAG(4) THEME(menu_btn) BTN( BTN_POS(1,2), BTN_SIZE(1,1), F("Steps/mm"), MENU_BTN_STYLE); BTN_TAG(4) BTN_ENABLED(1) BTN( BTN_POS(1,2), BTN_SIZE(1,1), F("Steps/mm"), MENU_BTN_STYLE);
BTN_TAG(5) THEME(disabled) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Velocity "), MENU_BTN_STYLE); BTN_TAG(5) BTN_ENABLED(0) BTN( BTN_POS(2,1), BTN_SIZE(1,1), F("Velocity "), MENU_BTN_STYLE);
BTN_TAG(6) THEME(disabled) BTN( BTN_POS(2,2), BTN_SIZE(1,1), F("Acceleration"), MENU_BTN_STYLE); BTN_TAG(6) BTN_ENABLED(0) BTN( BTN_POS(2,2), BTN_SIZE(1,1), F("Acceleration"), MENU_BTN_STYLE);
BTN_TAG(7) THEME(disabled) BTN( BTN_POS(2,3), BTN_SIZE(1,1), F("Jerk"), MENU_BTN_STYLE); BTN_TAG(7) BTN_ENABLED(0) BTN( BTN_POS(2,3), BTN_SIZE(1,1), F("Jerk"), MENU_BTN_STYLE);
BTN_TAG(8) THEME(menu_btn) BTN( BTN_POS(1,3), BTN_SIZE(1,1), F("Restore Failsafe"), MENU_BTN_STYLE); BTN_TAG(8) BTN_ENABLED(1) BTN( BTN_POS(1,3), BTN_SIZE(1,1), F("Restore Failsafe"), MENU_BTN_STYLE);
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(1,4), BTN_SIZE(1,1), F("Save"), MENU_BTN_STYLE); BTN_TAG(2) BTN_ENABLED(1) BTN( BTN_POS(1,4), BTN_SIZE(1,1), F("Save"), MENU_BTN_STYLE);
BTN_TAG(2) THEME(navi_btn) BTN( BTN_POS(2,4), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(2,4), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE);
#endif #endif
dlcache.store(); dlcache.store();
@ -1019,10 +1161,15 @@ void AdvancedSettingsScreen::onRefresh() {
bool AdvancedSettingsScreen::onTouchStart(uint8_t tag) { bool AdvancedSettingsScreen::onTouchStart(uint8_t tag) {
switch(tag) { switch(tag) {
case 1: GOTO_PREVIOUS(); break; case 1: GOTO_PREVIOUS(); break;
case 2: GOTO_PREVIOUS(); break; case 2:
case 3: GOTO_SCREEN(ZOffsetScreen); break; current_screen.pop();
case 4: GOTO_SCREEN(StepsScreen); break; EXEC_GCODE(F("M500"));
case 8: GOTO_SCREEN(RestoreFailsafeScreen); break; AlertBoxScreen::show(F("Settings saved!"));
break;
case 4: GOTO_SCREEN(ZOffsetScreen); break;
case 5: GOTO_SCREEN(StepsScreen); break;
case 9: GOTO_SCREEN(CalibrationScreen); break;
case 10: GOTO_SCREEN(RestoreFailsafeScreen); break;
default: default:
return false; return false;
} }
@ -1034,10 +1181,33 @@ bool AdvancedSettingsScreen::onTouchStart(uint8_t tag) {
#define GRID_COLS 4 #define GRID_COLS 4
#define GRID_ROWS 16 #define GRID_ROWS 16
void CalibrationScreen::onEntry() {
// Clear the display
CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1);
cmd.Cmd(DL_DISPLAY);
cmd.Cmd(CMD_SWAP);
cmd.Cmd_Execute();
// Wait for the touch to release before starting,
// as otherwise the first calibration point could
// be misinterpreted.
while(CLCD::Is_Touching()) {
#if defined(UI_FRAMEWORK_DEBUG)
#if defined (SERIAL_PROTOCOLLNPGM)
SERIAL_PROTOCOLLNPGM("Waiting for touch release");
#endif
#endif
}
UIScreen::onEntry();
}
void CalibrationScreen::onRefresh() { void CalibrationScreen::onRefresh() {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::background); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
@ -1059,8 +1229,20 @@ void CalibrationScreen::onRefresh() {
void CalibrationScreen::onIdle() { void CalibrationScreen::onIdle() {
if(CLCD::CommandFifo::Cmd_Is_Idle()) { if(CLCD::CommandFifo::Cmd_Is_Idle()) {
#if defined(UI_FRAMEWORK_DEBUG)
#if defined (SERIAL_PROTOCOLLNPGM)
SERIAL_PROTOCOLLNPGM("Calibration finished");
#endif
#endif
GOTO_SCREEN(StatusScreen); GOTO_SCREEN(StatusScreen);
} }
#if defined(UI_FRAMEWORK_DEBUG)
else {
#if defined (SERIAL_PROTOCOLLNPGM)
SERIAL_PROTOCOLLNPGM("Waiting for calibration to finish.");
#endif
}
#endif
} }
/***************************** CALIBRATION REGISTERS SCREEN ****************************/ /***************************** CALIBRATION REGISTERS SCREEN ****************************/
@ -1080,7 +1262,7 @@ void CalibrationRegistersScreen::onRefresh() {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Clear_Color(Theme::background); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
BTN_TAG(0) BTN_TAG(0)
@ -1107,11 +1289,13 @@ void CalibrationRegistersScreen::onRefresh() {
#define GRID_COLS 3 #define GRID_COLS 3
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(3,7), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(3,7), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE);
cmd.Cmd(DL_DISPLAY); cmd.Cmd(DL_DISPLAY);
cmd.Cmd(CMD_SWAP); cmd.Cmd(CMD_SWAP);
cmd.Cmd_Execute(); cmd.Cmd_Execute();
sound.play(js_bach_joy);
} }
bool CalibrationRegistersScreen::onTouchStart(uint8_t tag) { bool CalibrationRegistersScreen::onTouchStart(uint8_t tag) {
@ -1135,13 +1319,13 @@ bool CalibrationRegistersScreen::onTouchStart(uint8_t tag) {
void ValueAdjusters::stacker_t::static_parts() { void ValueAdjusters::stacker_t::static_parts() {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd_Clear_Color(Theme::adjust_bg); cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1); cmd.Cmd_Clear(1,1,1);
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(1,10), BTN_SIZE(6,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(1,10), BTN_SIZE(6,1), F("Back"), MENU_BTN_STYLE);
#else #else
BTN_TAG(1) THEME(navi_btn) BTN( BTN_POS(8,6), BTN_SIZE(2,1), F("Back"), MENU_BTN_STYLE); BTN_TAG(1) THEME(back_btn) BTN( BTN_POS(8,6), BTN_SIZE(2,1), F("Back"), MENU_BTN_STYLE);
#endif #endif
line = 1; line = 1;
@ -1193,9 +1377,9 @@ void ValueAdjusters::increment_t::static_parts(stacker_t &s) const {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(0) THEME(adjust_bg) BTN( BTN_POS(1, s.line), BTN_SIZE(6,1), F("Increment:"), FONT_MED, OPT_FLAT); BTN_TAG(0) THEME(background) BTN( BTN_POS(1, s.line), BTN_SIZE(6,1), F("Increment:"), FONT_MED, OPT_FLAT);
#else #else
BTN_TAG(0) THEME(adjust_bg) BTN( BTN_POS(8,1), BTN_SIZE(2,1), F("Increment"), FONT_MED, OPT_FLAT); BTN_TAG(0) THEME(background) BTN( BTN_POS(8,1), BTN_SIZE(2,1), F("Increment"), FONT_MED, OPT_FLAT);
#endif #endif
// Draw all the buttons in the off state. // Draw all the buttons in the off state.
@ -1205,14 +1389,14 @@ void ValueAdjusters::increment_t::static_parts(stacker_t &s) const {
draw_increment_btn(s.line+1, 245 - decimals, decimals); draw_increment_btn(s.line+1, 245 - decimals, decimals);
s.line += 2; s.line += 2;
increment = 243 - decimals; screen_data.ValueAdjusters.increment = 243 - decimals;
} }
void ValueAdjusters::increment_t::dynamic_parts(stacker_t &s) const { void ValueAdjusters::increment_t::dynamic_parts(stacker_t &s) const {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
THEME(toggle_on); THEME(toggle_on);
draw_increment_btn(s.line+1, increment, decimals); draw_increment_btn(s.line+1, screen_data.ValueAdjusters.increment, decimals);
s.line += 2; s.line += 2;
} }
@ -1220,9 +1404,9 @@ void ValueAdjusters::heading_t::static_parts(stacker_t &s) const {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
#if defined(LCD_PORTRAIT) #if defined(LCD_PORTRAIT)
BTN_TAG(0) THEME(adjust_bg) BTN( BTN_POS(1, s.line), BTN_SIZE(6,1), (progmem_str) label, FONT_MED, OPT_FLAT); BTN_TAG(0) THEME(background) BTN( BTN_POS(1, s.line), BTN_SIZE(6,1), (progmem_str) label, FONT_MED, OPT_FLAT);
#else #else
BTN_TAG(0) THEME(adjust_bg) BTN( BTN_POS(3, s.line), BTN_SIZE(4,1), (progmem_str) label, FONT_MED, OPT_FLAT); BTN_TAG(0) THEME(background) BTN( BTN_POS(3, s.line), BTN_SIZE(4,1), (progmem_str) label, FONT_MED, OPT_FLAT);
#endif #endif
s.line++; s.line++;
} }
@ -1249,9 +1433,9 @@ void ValueAdjusters::adjuster_t::static_parts(stacker_t &s) const {
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
progmem_str str = (progmem_str) label; progmem_str str = (progmem_str) label;
BTN_TAG( 0 ) RGB(color) BTN( BTN_POS(3,s.line), BTN_SIZE(2,1), F(""), FONT_SML, OPT_FLAT); BTN_TAG( 0 ) RGB(color) BTN( BTN_POS(3,s.line), BTN_SIZE(2,1), F(""), FONT_SML, OPT_FLAT);
BTN_TAG( 0 ) THEME(adjust_bg) BTN( BTN_POS(1,s.line), BTN_SIZE(2,1), str, FONT_SML, OPT_FLAT); BTN_TAG( 0 ) THEME(background) BTN( BTN_POS(1,s.line), BTN_SIZE(2,1), str, FONT_SML, OPT_FLAT);
BTN_TAG(tag ) THEME(incr_btn) BTN( BTN_POS(5,s.line), BTN_SIZE(1,1), F("-"), FONT_MED, OPT_3D); BTN_TAG(tag ) BTN_ENABLED(1) BTN( BTN_POS(5,s.line), BTN_SIZE(1,1), F("-"), FONT_MED, OPT_3D);
BTN_TAG(tag + 1) THEME(incr_btn) BTN( BTN_POS(6,s.line), BTN_SIZE(1,1), F("+"), FONT_MED, OPT_3D); BTN_TAG(tag + 1) BTN_ENABLED(1) BTN( BTN_POS(6,s.line), BTN_SIZE(1,1), F("+"), FONT_MED, OPT_3D);
s.line++; s.line++;
} }
@ -1268,10 +1452,15 @@ void ValueAdjusters::adjuster_t::dynamic_parts(stacker_t &s, float value) const
s.line++; s.line++;
} }
void ValueAdjusters::onEntry() {
screen_data.ValueAdjusters.increment = 242;
UIScreen::onEntry();
}
bool ValueAdjusters::onTouchStart(uint8_t tag) { bool ValueAdjusters::onTouchStart(uint8_t tag) {
switch(tag) { switch(tag) {
case 1: GOTO_PREVIOUS(); return true; case 1: GOTO_PREVIOUS(); return true;
case 240 ... 245: increment = tag; break; case 240 ... 245: screen_data.ValueAdjusters.increment = tag; break;
default: return current_screen.onTouchHeld(tag); default: return current_screen.onTouchHeld(tag);
} }
current_screen.onRefresh(); current_screen.onRefresh();
@ -1279,7 +1468,7 @@ bool ValueAdjusters::onTouchStart(uint8_t tag) {
} }
float ValueAdjusters::getIncrement() { float ValueAdjusters::getIncrement() {
switch(increment) { switch(screen_data.ValueAdjusters.increment) {
case 240: return 0.001; case 240: return 0.001;
case 241: return 0.01; case 241: return 0.01;
case 242: return 0.1; case 242: return 0.1;
@ -1289,8 +1478,6 @@ float ValueAdjusters::getIncrement() {
} }
} }
uint8_t ValueAdjusters::increment = 20;
#define EDGE_R 0 #define EDGE_R 0
/******************************** MOVE AXIS SCREEN ******************************/ /******************************** MOVE AXIS SCREEN ******************************/
@ -1540,20 +1727,111 @@ bool ZOffsetScreen::onTouchHeld(uint8_t tag) {
/***************************** FILES SCREEN ***************************/ /***************************** FILES SCREEN ***************************/
#if defined(LCD_PORTRAIT)
#define GRID_COLS 6
#define GRID_ROWS 14
#else
#define GRID_COLS 3
#define GRID_ROWS 6
#endif
const uint16_t filesPerPage = GRID_ROWS - 4;
void FilesScreen::onEntry() {
screen_data.FilesScreen.page = 0;
screen_data.FilesScreen.selected = 0xFF;
UIScreen::onEntry();
}
const char *FilesScreen::getSelectedShortFilename() {
Marlin_LCD_API::Marlin_LCD_API::Media_Iterator iterator(screen_data.FilesScreen.page * filesPerPage);
while(iterator.hasMore()) {
if(screen_data.FilesScreen.selected == iterator.value() + 1) {
return iterator.shortFilename();
}
iterator.next();
}
}
void FilesScreen::onRefresh() { void FilesScreen::onRefresh() {
CLCD::DLCache dlcache(FILES_SCREEN_CACHE); CLCD::DLCache dlcache(FILES_SCREEN_CACHE);
CLCD::CommandFifo cmd; CLCD::CommandFifo cmd;
cmd.Cmd(CMD_DLSTART); cmd.Cmd(CMD_DLSTART);
cmd.Cmd_Set_Clear_Color(Theme::background);
cmd.Cmd_Clear(1,1,1);
Marlin_LCD_API::Marlin_LCD_API::Media_Iterator iterator(screen_data.FilesScreen.page * filesPerPage);
#define MARGIN_T 0
#define MARGIN_B 0
while(iterator.hasMore()) {
const uint16_t tag = iterator.value() + 1;
BTN_TAG(tag)
RGB(screen_data.FilesScreen.selected == tag ? Theme::files_selected : Theme::background)
BTN( BTN_POS(1,tag+2), BTN_SIZE(6,1), F(""), FONT_SML, OPT_FLAT);
BTX( BTN_POS(1,tag+2), BTN_SIZE(6,1), iterator.filename(), FONT_LRG, OPT_CENTERY);
iterator.next();
}
#define MARGIN_T 5
#define MARGIN_B 5
const uint16_t pageCount = iterator.count() / filesPerPage + 1;
const bool prevEnabled = screen_data.FilesScreen.page > 0;
const bool nextEnabled = screen_data.FilesScreen.page < (pageCount - 1);
const bool fileSelected = screen_data.FilesScreen.selected != 0xFF;
char page_str[15];
sprintf_P(page_str, PSTR("Page %d of %d"), screen_data.FilesScreen.page + 1, pageCount);
#if defined(LCD_PORTRAIT)
BTN_TAG(0)
BTX( BTN_POS(1,1), BTN_SIZE(6,1), page_str, FONT_LRG, OPT_CENTER);
if(prevEnabled) {BTN_TAG(241); BTN( BTN_POS(1,1), BTN_SIZE(1,2), F("<"), MENU_BTN_STYLE);}
if(nextEnabled) {BTN_TAG(242); BTN( BTN_POS(6,1), BTN_SIZE(1,2), F(">"), MENU_BTN_STYLE);}
#define MARGIN_T 15
BTN_TAG(240) THEME(back_btn)
BTN( BTN_POS(5,13), BTN_SIZE(2,2), F("Back"), MENU_BTN_STYLE);
BTN_ENABLED(fileSelected)
BTN_TAG(243); BTN( BTN_POS(1,13), BTN_SIZE(4,2), F("Print"), MENU_BTN_STYLE);
#else
BTN_TAG(240) THEME(back_btn) BTN( BTN_POS(1,4), BTN_SIZE(1,1), F("Back"), MENU_BTN_STYLE);
#endif
#define MARGIN_T 5
cmd.Cmd(DL_DISPLAY); cmd.Cmd(DL_DISPLAY);
cmd.Cmd(CMD_SWAP); cmd.Cmd(CMD_SWAP);
cmd.Cmd_Execute(); cmd.Cmd_Execute();
} }
bool FilesScreen::onTouchHeld(uint8_t tag) { bool FilesScreen::onTouchStart(uint8_t tag) {
switch(tag) { switch(tag) {
case 240: GOTO_PREVIOUS(); return true;
case 241: screen_data.FilesScreen.page--; break;
case 242: screen_data.FilesScreen.page++; break;
case 243:
Marlin_LCD_API::printFromSDCard(getSelectedShortFilename());
sound.play(start_print);
lcd_setstatusPGM(PSTR("Print Starting"), 0);
GOTO_SCREEN(StatusScreen);
return true;
default: default:
return false; if(tag < 240) {
if(screen_data.FilesScreen.selected != tag) {
screen_data.FilesScreen.selected = tag;
} else {
// Double clicked.
}
}
break;
} }
onRefresh(); onRefresh();
return true; return true;
@ -1566,6 +1844,7 @@ void lcd_setstatusPGM(const char * const message, int8_t level = 0);
void lcd_init() { void lcd_init() {
CLCD::Init(); CLCD::Init();
CLCD::DLCache::init(); CLCD::DLCache::init();
Marlin_LCD_API::initMedia();
lcd_setstatusPGM(PSTR(WELCOME_MSG)); lcd_setstatusPGM(PSTR(WELCOME_MSG));
@ -1573,21 +1852,25 @@ void lcd_init() {
} }
void lcd_update() { void lcd_update() {
const uint8_t NONE = 0xFF; enum {
const uint8_t IGNORE = 0xFE; UNPRESSED = 0xFF, //255
static uint8_t pressed = NONE; IGNORE_UNPRESS = 0xFE, //254
static uint8_t last_repeat = 0; DEBOUNCING = 0xFD //253
static uint8_t last_update = 0; };
static uint8_t pressed_state = UNPRESSED;
const uint8_t tiny_millis = tiny_interval(millis()); static tiny_interval_t touch_timer;
static tiny_interval_t refresh_timer;
sound.onIdle(); sound.onIdle();
if(tiny_millis - last_update > tiny_interval(DISPLAY_UPDATE_INTERVAL)) { if(refresh_timer.elapsed()) {
refresh_timer.wait_for(DISPLAY_UPDATE_INTERVAL);
current_screen.onIdle(); current_screen.onIdle();
last_update = tiny_millis;
} }
Marlin_LCD_API::checkMedia();
// If the LCD is processing commands, don't check // If the LCD is processing commands, don't check
// for tags since they may be changing and could // for tags since they may be changing and could
// cause spurious events. // cause spurious events.
@ -1595,72 +1878,93 @@ void lcd_update() {
return; return;
} }
CLCD::Test_Pulse();
const uint8_t tag = CLCD::Get_Tag(); const uint8_t tag = CLCD::Get_Tag();
if(tag == 0) { switch(pressed_state) {
// When the user lifts their finger, activate the onTouchEnd handler, case UNPRESSED:
// except when pressed is IGNORE. if(tag != 0) {
if(pressed == IGNORE) {
pressed = NONE;
sound.play(Theme::unpress_sound);
}
else if(pressed != NONE) {
sound.play(Theme::unpress_sound);
current_screen.onTouchEnd(pressed);
pressed = NONE;
#if defined(UI_FRAMEWORK_DEBUG) #if defined(UI_FRAMEWORK_DEBUG)
#if defined (SERIAL_PROTOCOLLNPAIR) #if defined (SERIAL_PROTOCOLLNPAIR)
SERIAL_PROTOCOLLNPAIR("Touch end: ", tag); SERIAL_PROTOCOLLNPAIR("Touch start: ", tag);
#else #else
Serial.print(F("Touch end: ")); Serial.print(F("Touch start: "));
Serial.println(tag); Serial.println(tag);
#endif #endif
#endif #endif
}
}
else if(pressed == NONE) {
// When the user taps on a button, activate the onTouchStart handler // When the user taps on a button, activate the onTouchStart handler
const uint8_t lastScreen = current_screen.getScreen(); const uint8_t lastScreen = current_screen.getScreen();
if(current_screen.onTouchStart(tag)) { if(current_screen.onTouchStart(tag)) {
last_repeat = tiny_millis; touch_timer.wait_for(1000 / TOUCH_REPEATS_PER_SECOND);
sound.play(Theme::press_sound); sound.play(Theme::press_sound);
}
if(lastScreen != current_screen.getScreen()) {
// In the case in which a touch event triggered a new screen to be
// drawn, we don't issue a touchEnd since it would be sent to the
// wrong screen.
pressed_state = IGNORE_UNPRESS;
#if defined(UI_FRAMEWORK_DEBUG) #if defined(UI_FRAMEWORK_DEBUG)
#if defined (SERIAL_PROTOCOLLNPAIR) #if defined (SERIAL_PROTOCOLLNPAIR)
SERIAL_PROTOCOLLNPAIR("Touch start: ", tag); SERIAL_PROTOCOLLNPAIR("Ignoring press", tag);
#else #else
Serial.print(F("Touch start: ")); Serial.print(F("Ignoring press"));
Serial.println(tag); Serial.println(tag);
#endif #endif
#endif #endif
} else {
pressed_state = tag;
}
}
break;
case DEBOUNCING:
if(tag == 0) {
if(touch_timer.elapsed()) {
pressed_state = UNPRESSED;
sound.play(Theme::unpress_sound);
} }
if(lastScreen != current_screen.getScreen()) {
// In the case in which a touch event triggered a new screen to be
// drawn, we don't issue a touchEnd since it would be sent to the
// wrong screen.
pressed = IGNORE;
} else { } else {
pressed = tag; pressed_state = IGNORE_UNPRESS;
} }
} else if(tag == pressed) { break;
case IGNORE_UNPRESS:
if(tag == 0) {
// Ignore subsequent presses for a while to avoid bouncing
touch_timer.wait_for(DEBOUNCE_PERIOD);
pressed_state = DEBOUNCING;
}
break;
default: // PRESSED
if(tag == pressed_state) {
// The user is holding down a button. // The user is holding down a button.
if((tiny_millis - last_repeat) > tiny_interval(1000 / TOUCH_REPEATS_PER_SECOND)) { if(touch_timer.elapsed() && current_screen.onTouchHeld(tag)) {
if(current_screen.onTouchHeld(tag)) {
sound.play(Theme::repeat_sound); sound.play(Theme::repeat_sound);
last_repeat = tiny_millis; touch_timer.wait_for(1000 / TOUCH_REPEATS_PER_SECOND);
} }
} }
else if(tag == 0) {
#if defined(UI_FRAMEWORK_DEBUG)
#if defined (SERIAL_PROTOCOLLNPAIR)
SERIAL_PROTOCOLLNPAIR("Touch end: ", pressed_state);
#else
Serial.print(F("Touch end: "));
Serial.println(pressed_state);
#endif
#endif
current_screen.onTouchEnd(pressed_state);
// Ignore subsequent presses for a while to avoid bouncing
touch_timer.wait_for(DEBOUNCE_PERIOD);
pressed_state = DEBOUNCING;
}
break;
} }
} }
inline bool lcd_hasstatus() { return true; } inline bool lcd_hasstatus() { return true; }
void lcd_setstatus(const char * const message, const bool persist = false) { void lcd_setstatus(const char * const message, const bool persist /* = false */) {
StatusScreen::setStatusMessage(message); StatusScreen::setStatusMessage(message);
} }
@ -1686,9 +1990,18 @@ void lcd_setalertstatusPGM(const char * const message) {
void lcd_buttons_update() {} void lcd_buttons_update() {}
inline void lcd_reset_alert_level() {} inline void lcd_reset_alert_level() {}
inline bool lcd_detected() { return true; }
inline void lcd_refresh() {current_screen.onIdle();} inline void lcd_refresh() {current_screen.onIdle();}
void kill_screen(const char* lcd_msg) { void Marlin_LCD_API::onPrinterKilled(const char* lcd_msg) {
KillScreen::show(progmem_str(lcd_msg)); KillScreen::show(progmem_str(lcd_msg));
} }
void Marlin_LCD_API::onCardInserted() {
lcd_setstatusPGM(PSTR(MSG_SD_INSERTED), 0);
sound.play(card_inserted);
}
void Marlin_LCD_API::onCardRemoved() {
lcd_setstatusPGM(PSTR(MSG_SD_REMOVED), 0);
sound.play(card_removed);
}

@ -59,34 +59,54 @@ const PROGMEM CLCD::SoundPlayer::sound_t c_maj_arpeggio[] = {
{SILENCE, END_SONG, 0} {SILENCE, END_SONG, 0}
}; };
const PROGMEM CLCD::SoundPlayer::sound_t start_print[] = {
{TRUMPET, NOTE_A3, 4},
{TRUMPET, NOTE_A3, 2},
{TRUMPET, NOTE_A3, 2},
{TRUMPET, NOTE_E4, 16},
{SILENCE, END_SONG, 0}
};
const PROGMEM CLCD::SoundPlayer::sound_t card_inserted[] = {
{MUSIC_BOX, NOTE_C4, 2},
{MUSIC_BOX, NOTE_E4, 2},
{SILENCE, END_SONG, 0}
};
const PROGMEM CLCD::SoundPlayer::sound_t card_removed[] = {
{MUSIC_BOX, NOTE_E4, 2},
{MUSIC_BOX, NOTE_C4, 2},
{SILENCE, END_SONG, 0}
};
const PROGMEM CLCD::SoundPlayer::sound_t js_bach_joy[] = { const PROGMEM CLCD::SoundPlayer::sound_t js_bach_joy[] = {
{PIANO, NOTE_G3, 10}, {PIANO, NOTE_G3, 4},
{PIANO, NOTE_A3, 10}, {PIANO, NOTE_A3, 4},
{PIANO, NOTE_B3, 10}, {PIANO, NOTE_B3, 4},
{PIANO, NOTE_D4, 10}, {PIANO, NOTE_D4, 4},
{PIANO, NOTE_C4, 10}, {PIANO, NOTE_C4, 4},
{PIANO, NOTE_C4, 10}, {PIANO, NOTE_C4, 4},
{PIANO, NOTE_E4, 10}, {PIANO, NOTE_E4, 4},
{PIANO, NOTE_D4, 10}, {PIANO, NOTE_D4, 4},
{PIANO, NOTE_D4, 10}, {PIANO, NOTE_D4, 4},
{PIANO, NOTE_G4 , 10}, {PIANO, NOTE_G4 , 4},
{PIANO, NOTE_F4S, 10}, {PIANO, NOTE_F4S, 4},
{PIANO, NOTE_G4, 10}, {PIANO, NOTE_G4, 4},
{PIANO, NOTE_D4, 10}, {PIANO, NOTE_D4, 4},
{PIANO, NOTE_B3, 10}, {PIANO, NOTE_B3, 4},
{PIANO, NOTE_G3, 10}, {PIANO, NOTE_G3, 4},
{PIANO, NOTE_A3, 10}, {PIANO, NOTE_A3, 4},
{PIANO, NOTE_B3, 10}, {PIANO, NOTE_B3, 4},
{PIANO, NOTE_C4, 10}, {PIANO, NOTE_C4, 4},
{PIANO, NOTE_D4, 10}, {PIANO, NOTE_D4, 4},
{PIANO, NOTE_E4, 10}, {PIANO, NOTE_E4, 4},
{PIANO, NOTE_D4, 10}, {PIANO, NOTE_D4, 4},
{PIANO, NOTE_C4, 10}, {PIANO, NOTE_C4, 4},
{PIANO, NOTE_B3, 10}, {PIANO, NOTE_B3, 4},
{PIANO, NOTE_A3, 10}, {PIANO, NOTE_A3, 4},
{PIANO, NOTE_B3, 10}, {PIANO, NOTE_B3, 4},
{PIANO, NOTE_G3, 10}, {PIANO, NOTE_G3, 4},
{PIANO, NOTE_G3, 10}, {PIANO, NOTE_G3, 4},
{SILENCE, END_SONG, 0} {SILENCE, END_SONG, 0}
}; };

@ -73,9 +73,26 @@ class ScreenRef {
type = t; type = t;
} }
void setScreen(onEntry_func_t onRefresh_ptr) { uint8_t lookupScreen(onEntry_func_t onRefresh_ptr) {
for(uint8_t type = 0; type < functionTableSize; type++) { for(uint8_t type = 0; type < functionTableSize; type++) {
if(GET_METHOD(type, onRefresh) == onRefresh_ptr) { if(GET_METHOD(type, onRefresh) == onRefresh_ptr) {
return type;
}
}
#if defined(UI_FRAMEWORK_DEBUG)
#if defined(SERIAL_PROTOCOLLNPAIR)
SERIAL_PROTOCOLLNPAIR("Screen not found: ", (uint16_t) onRefresh_ptr);
#else
Serial.print("Screen not found: ");
Serial.println((uint16_t) onRefresh_ptr, HEX);
#endif
#endif
return 0xFF;
}
void setScreen(onEntry_func_t onRefresh_ptr) {
uint8_t type = lookupScreen(onRefresh_ptr);
if(type != 0xFF) {
setType(type); setType(type);
#if defined(UI_FRAMEWORK_DEBUG) #if defined(UI_FRAMEWORK_DEBUG)
#if defined(SERIAL_PROTOCOLLNPAIR) #if defined(SERIAL_PROTOCOLLNPAIR)
@ -87,7 +104,6 @@ class ScreenRef {
#endif #endif
return; return;
} }
}
#if defined(UI_FRAMEWORK_DEBUG) #if defined(UI_FRAMEWORK_DEBUG)
#if defined(SERIAL_PROTOCOLLNPAIR) #if defined(SERIAL_PROTOCOLLNPAIR)
SERIAL_PROTOCOLLNPAIR("Screen not found: ", (uint16_t) onRefresh_ptr); SERIAL_PROTOCOLLNPAIR("Screen not found: ", (uint16_t) onRefresh_ptr);
@ -138,6 +154,10 @@ class ScreenStack : public ScreenRef {
void pop() { void pop() {
setType(stack[0]); setType(stack[0]);
forget();
}
void forget() {
stack[0] = stack[1]; stack[0] = stack[1];
stack[1] = stack[2]; stack[1] = stack[2];
stack[2] = stack[3]; stack[2] = stack[3];

@ -30,39 +30,71 @@ class Marlin_LCD_API {
static const uint8_t extruderCount; static const uint8_t extruderCount;
static const uint8_t fanCount; static const uint8_t fanCount;
static const float getActualTemp_celsius(const uint8_t extruder); static float getActualTemp_celsius(const uint8_t extruder);
static const float getTargetTemp_celsius(const uint8_t extruder); static float getTargetTemp_celsius(const uint8_t extruder);
static const float getFan_percent(const uint8_t fan); static float getFan_percent(const uint8_t fan);
static const float getAxisPosition_mm(const axis_t axis); static float getAxisPosition_mm(const axis_t axis);
static const float getAxisSteps_per_mm(const axis_t axis); static float getAxisSteps_per_mm(const axis_t axis);
static const uint8_t getProgress_percent(); static uint8_t getProgress_percent();
static const uint32_t getProgress_seconds_elapsed(); static uint32_t getProgress_seconds_elapsed();
static const uint8_t getFeedRate_percent(); static uint8_t getFeedRate_percent();
static const float getZOffset_mm(); static float getZOffset_mm();
static const bool isAxisPositionKnown(const axis_t axis); static bool isAxisPositionKnown(const axis_t axis);
static const bool isMoving(); static bool isMoving();
static const progmem_str getFirmwareName(); static progmem_str getFirmwareName();
static const void setTargetTemp_celsius(const uint8_t extruder, float temp); static void setTargetTemp_celsius(const uint8_t extruder, float temp);
static const void setFan_percent(const uint8_t fan, float percent); static void setFan_percent(const uint8_t fan, float percent);
static const void setAxisPosition_mm(const axis_t axis, float position, float _feedrate_mm_s); static void setAxisPosition_mm(const axis_t axis, float position, float _feedrate_mm_s);
static const void setAxisSteps_per_mm(const axis_t axis, float steps_per_mm); static void setAxisSteps_per_mm(const axis_t axis, float steps_per_mm);
static const void incrementZOffset_mm(const float z_offset); static void incrementZOffset_mm(const float z_offset);
static const void runGCode(progmem_str gcode); static void runGCode(progmem_str gcode);
static float clamp(float value, float minimum, float maximum) {return max(min(value,maximum),minimum);}; static float clamp(float value, float minimum, float maximum) {return max(min(value,maximum),minimum);};
static void showKillScreen(const char* lcd_msg); static void initMedia();
static void checkMedia();
static bool isPrintingFromMedia();
static bool isMediaInserted();
static void stopPrint();
static void pausePrint();
static void resumePrint();
static void onCardInserted();
static void onCardRemoved();
static void onPrinterKilled(const char* lcd_msg);
static uint16_t getMediaFileCount();
static void printFromSDCard(const char *filename);
class Media_Iterator;
};
class Marlin_LCD_API::Media_Iterator {
private:
uint16_t index;
uint16_t num_files;
public:
Media_Iterator(uint16_t start_index = 0);
bool hasMore();
void seek(uint16_t);
void next();
const char *longFilename();
const char *shortFilename();
const char *filename();
uint16_t value() {return index;}
uint16_t count() {return num_files;}
}; };
#if defined(MSG_MARLIN) #if defined(MSG_MARLIN)
const uint8_t Marlin_LCD_API::extruderCount = EXTRUDERS; const uint8_t Marlin_LCD_API::extruderCount = EXTRUDERS;
const uint8_t Marlin_LCD_API::fanCount = 1; const uint8_t Marlin_LCD_API::fanCount = 1;
const float Marlin_LCD_API::getActualTemp_celsius(const uint8_t extruder) { float Marlin_LCD_API::getActualTemp_celsius(const uint8_t extruder) {
if(extruder) { if(extruder) {
return thermalManager.degHotend(extruder-1); return thermalManager.degHotend(extruder-1);
} else { } else {
@ -70,7 +102,7 @@ const float Marlin_LCD_API::getActualTemp_celsius(const uint8_t extruder) {
} }
} }
const float Marlin_LCD_API::getTargetTemp_celsius(const uint8_t extruder) { float Marlin_LCD_API::getTargetTemp_celsius(const uint8_t extruder) {
if(extruder) { if(extruder) {
return thermalManager.degTargetHotend(extruder-1); return thermalManager.degTargetHotend(extruder-1);
} else { } else {
@ -78,11 +110,11 @@ const float Marlin_LCD_API::getTargetTemp_celsius(const uint8_t extruder) {
} }
} }
const float Marlin_LCD_API::getFan_percent(const uint8_t fan) { float Marlin_LCD_API::getFan_percent(const uint8_t fan) {
return ((float(fanSpeeds[fan]) + 1) * 100) / 256; return ((float(fanSpeeds[fan]) + 1) * 100) / 256;
} }
const float Marlin_LCD_API::getAxisPosition_mm(const Marlin_LCD_API::axis_t axis) { float Marlin_LCD_API::getAxisPosition_mm(const Marlin_LCD_API::axis_t axis) {
switch(axis) { switch(axis) {
case X: return current_position[X_AXIS]; break; case X: return current_position[X_AXIS]; break;
case Y: return current_position[Y_AXIS]; break; case Y: return current_position[Y_AXIS]; break;
@ -92,7 +124,7 @@ const float Marlin_LCD_API::getAxisPosition_mm(const Marlin_LCD_API::axis_t axis
} }
} }
const void Marlin_LCD_API::setAxisPosition_mm(const Marlin_LCD_API::axis_t axis, float position, float _feedrate_mm_s) { void Marlin_LCD_API::setAxisPosition_mm(const Marlin_LCD_API::axis_t axis, float position, float _feedrate_mm_s) {
set_destination_from_current(); set_destination_from_current();
switch(axis) { switch(axis) {
case X: destination[X_AXIS] = position; break; case X: destination[X_AXIS] = position; break;
@ -102,17 +134,17 @@ const void Marlin_LCD_API::setAxisPosition_mm(const Marlin_LCD_API::axis_t axis,
case E1: destination[E_AXIS+1] = position; break; case E1: destination[E_AXIS+1] = position; break;
} }
const float old_feedrate = feedrate_mm_s; float old_feedrate = feedrate_mm_s;
feedrate_mm_s = _feedrate_mm_s; feedrate_mm_s = _feedrate_mm_s;
prepare_move_to_destination(); prepare_move_to_destination();
feedrate_mm_s = old_feedrate; feedrate_mm_s = old_feedrate;
} }
const bool Marlin_LCD_API::isMoving() { bool Marlin_LCD_API::isMoving() {
return planner.blocks_queued(); return planner.blocks_queued();
} }
const float Marlin_LCD_API::getAxisSteps_per_mm(const Marlin_LCD_API::axis_t axis) { float Marlin_LCD_API::getAxisSteps_per_mm(const Marlin_LCD_API::axis_t axis) {
switch(axis) { switch(axis) {
case X: return planner.axis_steps_per_mm[X_AXIS]; case X: return planner.axis_steps_per_mm[X_AXIS];
case Y: return planner.axis_steps_per_mm[Y_AXIS]; case Y: return planner.axis_steps_per_mm[Y_AXIS];
@ -122,7 +154,7 @@ const float Marlin_LCD_API::getAxisSteps_per_mm(const Marlin_LCD_API::axis_t axi
} }
} }
const void Marlin_LCD_API::setAxisSteps_per_mm(const Marlin_LCD_API::axis_t axis, float steps_per_mm) { void Marlin_LCD_API::setAxisSteps_per_mm(const Marlin_LCD_API::axis_t axis, float steps_per_mm) {
switch(axis) { switch(axis) {
case X: planner.axis_steps_per_mm[X_AXIS] = steps_per_mm; break; case X: planner.axis_steps_per_mm[X_AXIS] = steps_per_mm; break;
case Y: planner.axis_steps_per_mm[Y_AXIS] = steps_per_mm; break; case Y: planner.axis_steps_per_mm[Y_AXIS] = steps_per_mm; break;
@ -133,7 +165,7 @@ const void Marlin_LCD_API::setAxisSteps_per_mm(const Marlin_LCD_API::axis_t axis
} }
const void Marlin_LCD_API::incrementZOffset_mm(float babystep_increment) { void Marlin_LCD_API::incrementZOffset_mm(float babystep_increment) {
const float new_zoffset = zprobe_zoffset + babystep_increment; const float new_zoffset = zprobe_zoffset + babystep_increment;
if (WITHIN(new_zoffset, Z_PROBE_OFFSET_RANGE_MIN, Z_PROBE_OFFSET_RANGE_MAX)) { if (WITHIN(new_zoffset, Z_PROBE_OFFSET_RANGE_MIN, Z_PROBE_OFFSET_RANGE_MAX)) {
#if ENABLED(BABYSTEP_ZPROBE_OFFSET) #if ENABLED(BABYSTEP_ZPROBE_OFFSET)
@ -145,30 +177,30 @@ const void Marlin_LCD_API::incrementZOffset_mm(float babystep_increment) {
} }
} }
const uint8_t Marlin_LCD_API::getProgress_percent() { uint8_t Marlin_LCD_API::getProgress_percent() {
#if ENABLED(SDSUPPORT) #if ENABLED(SDSUPPORT)
return card.percentDone(); return card.percentDone();
#endif #endif
} }
const uint32_t Marlin_LCD_API::getProgress_seconds_elapsed() { uint32_t Marlin_LCD_API::getProgress_seconds_elapsed() {
const duration_t elapsed = print_job_timer.duration(); const duration_t elapsed = print_job_timer.duration();
return elapsed.value; return elapsed.value;
} }
const uint8_t Marlin_LCD_API::getFeedRate_percent() { uint8_t Marlin_LCD_API::getFeedRate_percent() {
return feedrate_percentage; return feedrate_percentage;
} }
const float Marlin_LCD_API::getZOffset_mm() { float Marlin_LCD_API::getZOffset_mm() {
return zprobe_zoffset; return zprobe_zoffset;
} }
const void Marlin_LCD_API::runGCode(progmem_str gcode) { void Marlin_LCD_API::runGCode(progmem_str gcode) {
enqueue_and_echo_commands_P((const char*)gcode); enqueue_and_echo_commands_P((const char*)gcode);
} }
const bool Marlin_LCD_API::isAxisPositionKnown(const axis_t axis) { bool Marlin_LCD_API::isAxisPositionKnown(const axis_t axis) {
switch(axis) { switch(axis) {
case X: return axis_known_position[X_AXIS]; break; case X: return axis_known_position[X_AXIS]; break;
case Y: return axis_known_position[Y_AXIS]; break; case Y: return axis_known_position[Y_AXIS]; break;
@ -176,11 +208,11 @@ const bool Marlin_LCD_API::isAxisPositionKnown(const axis_t axis) {
} }
} }
const Marlin_LCD_API::progmem_str Marlin_LCD_API::getFirmwareName() { Marlin_LCD_API::progmem_str Marlin_LCD_API::getFirmwareName() {
return F("Marlin " SHORT_BUILD_VERSION LULZBOT_FW_VERSION); return F("Marlin " SHORT_BUILD_VERSION LULZBOT_FW_VERSION);
} }
const void Marlin_LCD_API::setTargetTemp_celsius(const uint8_t extruder, float temp) { void Marlin_LCD_API::setTargetTemp_celsius(const uint8_t extruder, float temp) {
if(extruder) { if(extruder) {
thermalManager.setTargetHotend(clamp(temp,0,500), extruder-1); thermalManager.setTargetHotend(clamp(temp,0,500), extruder-1);
} else { } else {
@ -188,9 +220,143 @@ const void Marlin_LCD_API::setTargetTemp_celsius(const uint8_t extruder, float t
} }
} }
const void Marlin_LCD_API::setFan_percent(const uint8_t fan, float percent) { void Marlin_LCD_API::setFan_percent(const uint8_t fan, float percent) {
if (fan < FAN_COUNT) { if (fan < FAN_COUNT) {
fanSpeeds[fan] = clamp(round(percent*256/100-1), 0, 255); fanSpeeds[fan] = clamp(round(percent*256/100-1), 0, 255);
} }
} }
void Marlin_LCD_API::printFromSDCard(const char *filename) {
card.openAndPrintFile(filename);
}
void lcd_setstatusPGM(const char * const message, int8_t level /* = 0 */);
uint8_t lcd_sd_status;
void Marlin_LCD_API::initMedia() {
#if ENABLED(SDSUPPORT) && PIN_EXISTS(SD_DETECT)
SET_INPUT_PULLUP(SD_DETECT_PIN);
lcd_sd_status = 2; // UNKNOWN
#endif
}
void Marlin_LCD_API::checkMedia() {
#if ENABLED(SDSUPPORT) && PIN_EXISTS(SD_DETECT)
const bool sd_status = IS_SD_INSERTED;
if (sd_status != lcd_sd_status) {
SERIAL_PROTOCOLLNPAIR("SD Status: ", sd_status);
if (sd_status) {
card.initsd();
if (lcd_sd_status != 2) onCardInserted();
SERIAL_PROTOCOLLNPAIR("Card: ",1);
}
else {
card.release();
if (lcd_sd_status != 2) onCardRemoved();
SERIAL_PROTOCOLLNPAIR("Card: ",0);
}
lcd_sd_status = sd_status;
}
#endif // SDSUPPORT && SD_DETECT_PIN
}
bool Marlin_LCD_API::isPrintingFromMedia() {
#if ENABLED(SDSUPPORT)
return card.cardOK && card.isFileOpen() && card.sdprinting;
#else
return false;
#endif
}
bool Marlin_LCD_API::isMediaInserted() {
#if ENABLED(SDSUPPORT) && PIN_EXISTS(SD_DETECT)
return IS_SD_INSERTED;
#else
return false;
#endif
}
void Marlin_LCD_API::pausePrint() {
#if ENABLED(SDSUPPORT)
card.pauseSDPrint();
print_job_timer.pause();
#if ENABLED(PARK_HEAD_ON_PAUSE)
enqueue_and_echo_commands_P(PSTR("M125"));
#endif
lcd_setstatusPGM(PSTR(MSG_PRINT_PAUSED), -1);
#endif
}
void Marlin_LCD_API::resumePrint() {
#if ENABLED(SDSUPPORT)
#if ENABLED(PARK_HEAD_ON_PAUSE)
enqueue_and_echo_commands_P(PSTR("M24"));
#else
card.startFileprint();
print_job_timer.start();
#endif
#endif
}
void Marlin_LCD_API::stopPrint() {
#if ENABLED(SDSUPPORT)
card.stopSDPrint();
clear_command_queue();
quickstop_stepper();
print_job_timer.stop();
thermalManager.disable_all_heaters();
#if FAN_COUNT > 0
for (uint8_t i = 0; i < FAN_COUNT; i++) fanSpeeds[i] = 0;
#endif
wait_for_heatup = false;
lcd_setstatusPGM(PSTR(MSG_PRINT_ABORTED), -1);
#endif
}
Marlin_LCD_API::Media_Iterator::Media_Iterator(uint16_t start_index /* = 0*/) {
num_files = card.get_num_Files();
index = min(start_index, num_files-1);
seek(index);
}
bool Marlin_LCD_API::Media_Iterator::hasMore() {
return index < (num_files - 1);
}
void Marlin_LCD_API::Media_Iterator::next() {
if(hasMore()) {
index++;
seek(index);
}
}
void Marlin_LCD_API::Media_Iterator::seek(uint16_t index) {
const uint16_t nr =
#if ENABLED(SDCARD_RATHERRECENTFIRST) && DISABLED(SDCARD_SORT_ALPHA)
num_files - 1 -
#endif
index;
#if ENABLED(SDCARD_SORT_ALPHA)
card.getfilename_sorted(nr);
#else
card.getfilename(nr);
#endif
}
const char *Marlin_LCD_API::Media_Iterator::filename() {
return card.longFilename[0] ? card.longFilename : card.filename;
}
const char *Marlin_LCD_API::Media_Iterator::shortFilename() {
return card.filename;
}
const char *Marlin_LCD_API::Media_Iterator::longFilename() {
return card.longFilename;
}
#endif #endif

@ -13,7 +13,7 @@
* got disabled. * got disabled.
*/ */
#define LULZBOT_FW_VERSION ".10" // Change this with each update #define LULZBOT_FW_VERSION ".11" // Change this with each update
#if ( \ #if ( \
!defined(LULZBOT_Gladiola_Mini) && \ !defined(LULZBOT_Gladiola_Mini) && \
@ -130,7 +130,7 @@
#define LULZBOT_USE_EINSYRAMBO #define LULZBOT_USE_EINSYRAMBO
#define LULZBOT_USE_EINSY_RETRO #define LULZBOT_USE_EINSY_RETRO
#define LULZBOT_USE_TOUCH_UI #define LULZBOT_USE_TOUCH_UI
//#define LULZBOT_USE_HIGH_RES #define LULZBOT_USE_HIGH_RES
#define LULZBOT_TWO_PIECE_BED #define LULZBOT_TWO_PIECE_BED
#define LULZBOT_USE_AUTOLEVELING #define LULZBOT_USE_AUTOLEVELING
#define LULZBOT_SENSORLESS_HOMING #define LULZBOT_SENSORLESS_HOMING
@ -195,6 +195,7 @@
#define LULZBOT_AUTO_REPORT_TEMPERATURES #define LULZBOT_AUTO_REPORT_TEMPERATURES
#define LULZBOT_ADVANCED_OK #define LULZBOT_ADVANCED_OK
#define LULZBOT_TX_BUFFER_SIZE 32 #define LULZBOT_TX_BUFFER_SIZE 32
#define LULZBOT_BUFSIZE 10
#define LULZBOT_HOST_KEEPALIVE_FEATURE_DISABLED #define LULZBOT_HOST_KEEPALIVE_FEATURE_DISABLED
#define LULZBOT_CLARIFY_ERROR_MESSAGES #define LULZBOT_CLARIFY_ERROR_MESSAGES
@ -1759,7 +1760,9 @@
#endif #endif
#define LCD_PORTRAIT #define LCD_PORTRAIT
#define LCD_UPSIDE_DOWN #define LCD_UPSIDE_DOWN
//#define UI_FRAMEWORK_DEBUG #define UI_FRAMEWORK_DEBUG
#define LULZBOT_SDSUPPORT
#define LULZBOT_DISABLE_SD_DETECT_INVERTED
#endif #endif
/***************************** CUSTOM SPLASH SCREEN *****************************/ /***************************** CUSTOM SPLASH SCREEN *****************************/

@ -518,7 +518,7 @@
// as SD_DETECT_PIN in your board's pins definitions. // as SD_DETECT_PIN in your board's pins definitions.
// This setting should be disabled unless you are using a push button, pulling the pin to ground. // This setting should be disabled unless you are using a push button, pulling the pin to ground.
// Note: This is always disabled for ULTIPANEL (except ELB_FULL_GRAPHIC_CONTROLLER). // Note: This is always disabled for ULTIPANEL (except ELB_FULL_GRAPHIC_CONTROLLER).
#define SD_DETECT_INVERTED //#define SD_DETECT_INVERTED LULZBOT_DISABLE_SD_DETECT_INVERTED
#define SD_FINISHED_STEPPERRELEASE true // Disable steppers when SD Print is finished #define SD_FINISHED_STEPPERRELEASE true // Disable steppers when SD Print is finished
#define SD_FINISHED_RELEASECOMMAND "M84 X Y Z E" // You might want to keep the z enabled so your bed stays in place. #define SD_FINISHED_RELEASECOMMAND "M84 X Y Z E" // You might want to keep the z enabled so your bed stays in place.
@ -792,7 +792,7 @@
// The ASCII buffer for serial input // The ASCII buffer for serial input
#define MAX_CMD_SIZE 96 #define MAX_CMD_SIZE 96
#define BUFSIZE 4 #define BUFSIZE LULZBOT_BUFSIZE
// Transmission to Host Buffer Size // Transmission to Host Buffer Size
// To save 386 bytes of PROGMEM (and TX_BUFFER_SIZE+3 bytes of RAM) set to 0. // To save 386 bytes of PROGMEM (and TX_BUFFER_SIZE+3 bytes of RAM) set to 0.

@ -14379,7 +14379,9 @@ void kill(const char* lcd_msg) {
thermalManager.disable_all_heaters(); thermalManager.disable_all_heaters();
disable_all_steppers(); disable_all_steppers();
#if ENABLED(ULTRA_LCD) || ENABLED(LULZBOT_USE_TOUCH_UI) #if ENABLED(LULZBOT_USE_TOUCH_UI)
Marlin_LCD_API::onPrinterKilled(lcd_msg);
#elif ENABLED(ULTRA_LCD)
kill_screen(lcd_msg); kill_screen(lcd_msg);
#else #else
UNUSED(lcd_msg); UNUSED(lcd_msg);

@ -187,11 +187,11 @@
// //
// LCD / Controller // LCD / Controller
// //
#if ENABLED(ULTRA_LCD) #if ENABLED(ULTRA_LCD) || defined(LULZBOT_USE_TOUCH_UI)
#define KILL_PIN 32 #define KILL_PIN 32
#if ENABLED(NEWPANEL) #if ENABLED(NEWPANEL) || defined(LULZBOT_USE_TOUCH_UI)
// Beeper on AUX-4 // Beeper on AUX-4
#define BEEPER_PIN 84 #define BEEPER_PIN 84

@ -187,6 +187,7 @@
#elif defined(LULZBOT_USE_TOUCH_UI) #elif defined(LULZBOT_USE_TOUCH_UI)
// We will use our own definitions for these functions. // We will use our own definitions for these functions.
void lcd_setstatus(const char* message, const bool persist=false);
#else // no LCD #else // no LCD
inline void lcd_update() {} inline void lcd_update() {}
inline void lcd_init() {} inline void lcd_init() {}

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