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marlin-lulzbot-laser/Marlin/AO_UI_Framework.h

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/****************************************************************************
* Written By Marcio Teixeira 2018 - Aleph Objects, Inc. *
* *
* This program is free software: you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation, either version 3 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* To view a copy of the GNU General Public License, go to the following *
* location: <http://www.gnu.org/licenses/>. *
****************************************************************************/
/********************** VIRTUAL DISPATCH DATA TYPE ******************************/
// True virtual classes are extremely expensive on the Arduino
// as the compiler stores the virtual function tables in RAM.
// We invent a data type called ScreenRef that gives us
// polymorphism by mapping an ID to virtual methods on various
// classes. This works by keeping a table in PROGMEM of pointers
// to static methods.
#define DECL_SCREEN(className) { \
className::onStartup, \
className::onEntry, \
className::onExit, \
className::onIdle, \
className::onRefresh, \
className::onTouchStart, \
className::onTouchHeld, \
className::onTouchEnd \
}
#define GET_METHOD(type, method) reinterpret_cast<method##_func_t*>(pgm_read_word_near(&functionTable[type].method##_ptr))
#define SCREEN_TABLE PROGMEM const ScreenRef::table_t ScreenRef::functionTable[] =
#define SCREEN_TABLE_POST const uint8_t ScreenRef::functionTableSize = sizeof(ScreenRef::functionTable)/sizeof(ScreenRef::functionTable[0]);
class ScreenRef {
protected:
typedef void onStartup_func_t(void);
typedef void onEntry_func_t(void);
typedef void onExit_func_t(void);
typedef void onIdle_func_t(void);
typedef void onRefresh_func_t(void);
typedef bool onTouchStart_func_t(uint8_t);
typedef bool onTouchHeld_func_t(uint8_t);
typedef bool onTouchEnd_func_t(uint8_t);
private:
typedef struct {
onStartup_func_t *onStartup_ptr;
onEntry_func_t *onEntry_ptr;
onExit_func_t *onExit_ptr;
onIdle_func_t *onIdle_ptr;
onRefresh_func_t *onRefresh_ptr;
onTouchStart_func_t *onTouchStart_ptr;
onTouchHeld_func_t *onTouchHeld_ptr;
onTouchEnd_func_t *onTouchEnd_ptr;
} table_t;
uint8_t type = 0;
static PROGMEM const table_t functionTable[];
static const uint8_t functionTableSize;
public:
uint8_t getType() {return type;}
void setType(uint8_t t) {
type = t;
}
uint8_t lookupScreen(onEntry_func_t onRefresh_ptr) {
for(uint8_t type = 0; type < functionTableSize; type++) {
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);
#if defined(UI_FRAMEWORK_DEBUG)
#if defined(SERIAL_PROTOCOLLNPAIR)
SERIAL_PROTOCOLLNPAIR("New screen: ",type);
#else
Serial.print("New screen: ");
Serial.println(type);
#endif
#endif
return;
}
#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
}
void onStartup() {GET_METHOD(type, onStartup)();}
void onEntry() {GET_METHOD(type, onEntry)();}
void onExit() {GET_METHOD(type, onExit)();}
void onIdle() {GET_METHOD(type, onIdle)();}
void onRefresh() {GET_METHOD(type, onRefresh)();}
bool onTouchStart(uint8_t tag) {return GET_METHOD(type, onTouchStart)(tag);}
bool onTouchHeld(uint8_t tag) {return GET_METHOD(type, onTouchHeld)(tag);}
bool onTouchEnd(uint8_t tag) {return GET_METHOD(type, onTouchEnd)(tag);}
void initializeAll() {
for(uint8_t type = 0; type < functionTableSize; type++) {
GET_METHOD(type, onStartup)();
}
}
};
/********************** SCREEN STACK ******************************/
// To conserve dynamic memory, the screen stack is hard-coded to
// have four values, allowing a menu of up to four levels.
class ScreenStack : public ScreenRef {
private:
uint8_t stack[4];
public:
void start() {
initializeAll();
onEntry();
}
void push() {
stack[3] = stack[2];
stack[2] = stack[1];
stack[1] = stack[0];
stack[0] = getType();
}
void pop() {
setType(stack[0]);
forget();
}
void forget() {
stack[0] = stack[1];
stack[1] = stack[2];
stack[2] = stack[3];
stack[3] = 0;
}
void goTo(onEntry_func_t s) {
push();
onExit();
setScreen(s);
onEntry();
}
void goBack() {
pop();
onEntry();
}
uint8_t getScreen() {
return getType();
}
} current_screen;
/********************** BASE SCREEN CLASSS ******************************/
/* UIScreen is the base class for all user interface screens.
*/
class UIScreen {
public:
static void onStartup() {}
static void onEntry() {current_screen.onRefresh();}
static void onExit() {}
static void onIdle() {}
static bool onTouchStart(uint8_t) {return false;}
static bool onTouchHeld(uint8_t) {return false;}
static bool onTouchEnd(uint8_t) {return false;}
};
#define GOTO_SCREEN(screen) current_screen.goTo(screen::onRefresh);
#define GOTO_PREVIOUS() current_screen.goBack();
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