ubitxv6/menu_main.cpp
2020-04-26 23:36:16 -07:00

162 lines
4.3 KiB
C++

#include "menu_main.h"
#include "menu_main_buttons.h"
#include <avr/pgmspace.h>
#include <Arduino.h>
#include "button.h"
#include "color_theme.h"
#include "menu_utils.h"
#include "morse.h"
#include "nano_gui.h"
#include "scratch_space.h"
#include "settings.h"
#include "tuner.h"//THRESHOLD_USB_LSB
#include "utils.h"
void drawMainMenu(void);
MenuReturn_e runMainMenu(const ButtonPress_e tuner_button,
const ButtonPress_e touch_button,
const Point touch_point,
const int16_t knob);
Menu_t mainMenu = {
drawMainMenu,
runMainMenu,
nullptr
};
Menu_t* const rootMenu = &mainMenu;
bool mainMenuSelecting = false;//Tracks if we're selecting buttons with knob, or adjusting frequency
int16_t mainMenuSelectedItemRaw = 0;//Allow negative only for easier checks on wrap around
void drawMainMenu(void)
{
displayClear(COLOR_BACKGROUND);
Button button;
Button* bp;
for(uint8_t i = 0; i < MAIN_MENU_NUM_BUTTONS; ++i){
memcpy_P(&bp, &(mainMenuButtons[i]), sizeof(bp));
extractAndDrawButton(&button,bp);
}
drawVersion();
drawCallsign();
ltoa(GetActiveVfoFreq(),b,10);
morseText(b);
}
void mainMenuTune(int16_t knob)
{
static uint32_t current_freq = 0;
if((0 == knob) && (GetActiveVfoFreq() == current_freq)){
//Nothing to do - we're already set!
return;
}
current_freq = GetActiveVfoFreq();
const uint32_t new_freq = current_freq + (50 * knob);
setFrequency(new_freq);
if(autoSelectSidebandChanged(current_freq)){
updateSidebandButtons();
}
const uint32_t old_freq = current_freq;
current_freq = new_freq;
Button button;
if(Vfo_e::VFO_A == globalSettings.activeVfo){
extractAndDrawButton(&button,&bVfoA);
}
else{
extractAndDrawButton(&button,&bVfoB);
}
updateBandButtons(old_freq);
}
MenuReturn_e runMainMenu(const ButtonPress_e tuner_button,
const ButtonPress_e touch_button,
const Point touch_point,
const int16_t knob)
{
//Check tuner_button
if(ButtonPress_e::NotPressed != tuner_button){
switch(tuner_button){
default://Fallthrough intended
case ButtonPress_e::NotPressed:
{
//Nothing to do
break;
}
case ButtonPress_e::ShortPress:
{
if(mainMenuSelecting){
uint8_t menu_index = mainMenuSelectedItemRaw/MENU_KNOB_COUNTS_PER_ITEM;
Button button;
Button* bp;
memcpy_P(&bp,&(mainMenuButtons[menu_index]),sizeof(bp));
memcpy_P(&button,bp,sizeof(button));
endSelector(&button);
button.on_select();
}
else{
initSelector(&mainMenuSelectedItemRaw,
mainMenuButtons,
MAIN_MENU_NUM_BUTTONS,
MorsePlaybackType_e::PlayChar);
}
mainMenuSelecting = !mainMenuSelecting;
//Don't handle touch or knob on this run
return MenuReturn_e::StillActive;//main menu always returns StillActive
break;
}
case ButtonPress_e::LongPress:
{
if(!globalSettings.morseMenuOn){
globalSettings.morseMenuOn = true;//set before playing
morseLetter(2);
}
else{
morseLetter(4);
globalSettings.morseMenuOn = false;//unset after playing
}
SaveSettingsToEeprom();
//Don't handle touch or knob on this run
return MenuReturn_e::StillActive;//main menu always returns StillActive
break;
}
}//switch
}//tuner_button
else if(ButtonPress_e::NotPressed != touch_button){
//We treat long and short presses the same, so no need to have a switch
Button button;
if(findPressedButton(mainMenuButtons,MAIN_MENU_NUM_BUTTONS,&button,touch_point)){
button.on_select();
}
else{
//Touch detected, but not on our buttons, so ignore
}
}//touch_button
else{//Neither button input type found, so handle the knob
if(mainMenuSelecting){
adjustSelector(&mainMenuSelectedItemRaw,
knob,
mainMenuButtons,
MAIN_MENU_NUM_BUTTONS,
MorsePlaybackType_e::PlayChar);
}
else{
mainMenuTune(knob);
}
}
//
return MenuReturn_e::StillActive;//main menu always returns StillActive
}