ubitxv6/setup.cpp

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#include <Arduino.h>
#include <EEPROM.h>
#include "morse.h"
#include "ubitx.h"
#include "nano_gui.h"
/** Menus
* The Radio menus are accessed by tapping on the function button.
* - The main loop() constantly looks for a button press and calls doMenu() when it detects
* a function button press.
* - As the encoder is rotated, at every 10th pulse, the next or the previous menu
* item is displayed. Each menu item is controlled by it's own function.
* - Eache menu function may be called to display itself
* - Each of these menu routines is called with a button parameter.
* - The btn flag denotes if the menu itme was clicked on or not.
* - If the menu item is clicked on, then it is selected,
* - If the menu item is NOT clicked on, then the menu's prompt is to be displayed
*/
void setupExit(){
menuOn = 0;
}
//this is used by the si5351 routines in the ubitx_5351 file
extern int32_t calibration;
extern uint32_t si5351bx_vcoa;
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static const unsigned int COLOR_TEXT = DISPLAY_WHITE;
static const unsigned int COLOR_BACKGROUND = DISPLAY_BLACK;
static const unsigned int COLOR_TITLE_BACKGROUND = DISPLAY_NAVY;
static const unsigned int COLOR_SETTING_BACKGROUND = DISPLAY_NAVY;
static const unsigned int COLOR_ACTIVE_BORDER = DISPLAY_WHITE;
static const unsigned int COLOR_INACTIVE_BORDER = COLOR_BACKGROUND;
static const unsigned int LAYOUT_OUTER_BORDER_X = 10;
static const unsigned int LAYOUT_OUTER_BORDER_Y = 10;
static const unsigned int LAYOUT_OUTER_BORDER_WIDTH = 300;
static const unsigned int LAYOUT_OUTER_BORDER_HEIGHT = 220;
static const unsigned int LAYOUT_INNER_BORDER_X = 12;
static const unsigned int LAYOUT_INNER_BORDER_Y = 12;
static const unsigned int LAYOUT_INNER_BORDER_WIDTH = 296;
static const unsigned int LAYOUT_INNER_BORDER_HEIGHT = 216;
static const unsigned int LAYOUT_TITLE_X = LAYOUT_INNER_BORDER_X;
static const unsigned int LAYOUT_TITLE_Y = LAYOUT_INNER_BORDER_Y;
static const unsigned int LAYOUT_TITLE_WIDTH = LAYOUT_INNER_BORDER_WIDTH;
static const unsigned int LAYOUT_TITLE_HEIGHT = 35;
static const unsigned int LAYOUT_ITEM_X = 30;
static const unsigned int LAYOUT_ITEM_Y = LAYOUT_TITLE_Y + LAYOUT_TITLE_HEIGHT + 5;
static const unsigned int LAYOUT_ITEM_WIDTH = 260;
static const unsigned int LAYOUT_ITEM_HEIGHT = 30;
static const unsigned int LAYOUT_ITEM_PITCH_Y = LAYOUT_ITEM_HEIGHT + 1;
static const unsigned int LAYOUT_SETTING_VALUE_X = LAYOUT_ITEM_X;
static const unsigned int LAYOUT_SETTING_VALUE_Y = LAYOUT_ITEM_Y + 3*LAYOUT_ITEM_PITCH_Y;
static const unsigned int LAYOUT_SETTING_VALUE_WIDTH = LAYOUT_ITEM_WIDTH;
static const unsigned int LAYOUT_SETTING_VALUE_HEIGHT = LAYOUT_ITEM_HEIGHT;
static const unsigned int LAYOUT_INSTRUCTION_TEXT_X = 20;
static const unsigned int LAYOUT_INSTRUCTION_TEXT_Y = LAYOUT_ITEM_Y + 5*LAYOUT_ITEM_PITCH_Y;
static const unsigned int LAYOUT_INSTRUCTION_TEXT_WIDTH = LAYOUT_ITEM_WIDTH;
static const unsigned int LAYOUT_INSTRUCTION_TEXT_HEIGHT = LAYOUT_ITEM_HEIGHT;
void displayDialog(const __FlashStringHelper* title, const __FlashStringHelper* instructions){
strcpy_P(b,(const char*)title);
strcpy_P(c,(const char*)instructions);
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displayClear(COLOR_BACKGROUND);
displayRect(LAYOUT_OUTER_BORDER_X,LAYOUT_OUTER_BORDER_Y,LAYOUT_OUTER_BORDER_WIDTH,LAYOUT_OUTER_BORDER_HEIGHT, COLOR_ACTIVE_BORDER);
displayRect(LAYOUT_INNER_BORDER_X,LAYOUT_INNER_BORDER_Y,LAYOUT_INNER_BORDER_WIDTH,LAYOUT_INNER_BORDER_HEIGHT, COLOR_ACTIVE_BORDER);
displayText(b, LAYOUT_TITLE_X, LAYOUT_TITLE_Y, LAYOUT_TITLE_WIDTH, LAYOUT_TITLE_HEIGHT, COLOR_TEXT, COLOR_TITLE_BACKGROUND, COLOR_ACTIVE_BORDER);
displayText(c, LAYOUT_INSTRUCTION_TEXT_X, LAYOUT_INSTRUCTION_TEXT_Y, LAYOUT_INSTRUCTION_TEXT_WIDTH, LAYOUT_INSTRUCTION_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
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}
void printCarrierFreq(unsigned long freq){
memset(c, 0, sizeof(c));
memset(b, 0, sizeof(b));
ultoa(freq, b, DEC);
strncat(c, b, 2);
strcat_P(c,(const char*)F("."));
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strncat(c, &b[2], 3);
strcat(c,(const char*)F("."));
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strncat(c, &b[5], 1);
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_TITLE_BACKGROUND, COLOR_BACKGROUND);
}
void setupFreq(){
int knob = 0;
int32_t prev_calibration;
displayDialog(F("Set Frequency"),F("Push TUNE to Save"));
//round off the the nearest khz
frequency = (frequency/1000l)* 1000l;
setFrequency(frequency);
strcpy_P(c,(const char*)F("You should have a"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_ITEM_Y, LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
strcpy_P(c,(const char*)F("signal exactly at"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_ITEM_Y + 1*LAYOUT_ITEM_PITCH_Y, LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
ltoa(frequency/1000l, c, 10);
strcat_P(c,(const char*)F(" KHz"));
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displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_ITEM_Y + 2*LAYOUT_ITEM_PITCH_Y, LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
strcpy_P(c,(const char*)F("Rotate to zerobeat"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_ITEM_Y + 4*LAYOUT_ITEM_PITCH_Y, LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
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ltoa(calibration, b, 10);
displayText(b, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_TITLE_BACKGROUND, COLOR_BACKGROUND);
//keep clear of any previous button press
while (btnDown())
active_delay(100);
active_delay(100);
prev_calibration = calibration;
calibration = 0;
while (!btnDown())
{
knob = enc_read();
if (knob != 0)
calibration += knob * 875;
/* else if (knob < 0)
calibration -= 875; */
else
continue; //don't update the frequency or the display
si5351bx_setfreq(0, usbCarrier); //set back the cardrier oscillator anyway, cw tx switches it off
si5351_set_calibration(calibration);
setFrequency(frequency);
ltoa(calibration, b, 10);
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displayText(b, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_TITLE_BACKGROUND, COLOR_BACKGROUND);
}
EEPROM.put(MASTER_CAL, calibration);
initOscillators();
si5351_set_calibration(calibration);
setFrequency(frequency);
//debounce and delay
while(btnDown())
active_delay(50);
active_delay(100);
}
void setupBFO(){
int knob = 0;
unsigned long prevCarrier;
prevCarrier = usbCarrier;
displayDialog(F("Set BFO"),F("Press TUNE to Save"));
usbCarrier = 11053000l;
si5351bx_setfreq(0, usbCarrier);
printCarrierFreq(usbCarrier);
while (!btnDown()){
knob = enc_read();
if (knob != 0)
usbCarrier -= 50 * knob;
else
continue; //don't update the frequency or the display
si5351bx_setfreq(0, usbCarrier);
setFrequency(frequency);
printCarrierFreq(usbCarrier);
active_delay(100);
}
EEPROM.put(USB_CAL, usbCarrier);
si5351bx_setfreq(0, usbCarrier);
setFrequency(frequency);
updateDisplay();
menuOn = 0;
}
void setupCwDelay(){
int knob = 0;
int prev_cw_delay;
displayDialog(F("Set CW T/R Delay"),F("Press tune to Save"));
active_delay(500);
prev_cw_delay = cwDelayTime;
itoa(10 * (int)cwDelayTime, b, 10);
strcat_P(b,(const char*)F(" msec"));
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displayText(b, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
while (!btnDown()){
knob = enc_read();
if (knob < 0 && cwDelayTime > 10)
cwDelayTime -= 10;
else if (knob > 0 && cwDelayTime < 100)
cwDelayTime += 10;
else
continue; //don't update the frequency or the display
itoa(10 * (int)cwDelayTime, b, 10);
strcat_P(b,(const char*)F(" msec"));
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displayText(b, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
EEPROM.put(CW_DELAYTIME, cwDelayTime);
active_delay(500);
menuOn = 0;
}
void setupKeyer(){
int tmp_key, knob;
displayDialog(F("Set CW Keyer"),F("Press tune to Save"));
if (!Iambic_Key){
strcpy_P(c,(const char*)F("< Hand Key >"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
else if (keyerControl & IAMBICB){
strcpy_P(c,(const char*)F("< Iambic A >"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
else{
strcpy_P(c,(const char*)F("< Iambic B >"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
if (!Iambic_Key)
tmp_key = 0; //hand key
else if (keyerControl & IAMBICB)
tmp_key = 2; //Iambic B
else
tmp_key = 1;
while (!btnDown())
{
knob = enc_read();
if (knob == 0){
active_delay(50);
continue;
}
if (knob < 0 && tmp_key > 0)
tmp_key--;
if (knob > 0)
tmp_key++;
if (tmp_key > 2)
tmp_key = 0;
if (tmp_key == 0){
strcpy_P(c,(const char*)F("< Hand Key >"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
else if (tmp_key == 1){
strcpy_P(c,(const char*)F("< Iambic A >"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
else if (tmp_key == 2){
strcpy_P(c,(const char*)F("< Iambic B >"));
displayText(c, LAYOUT_SETTING_VALUE_X, LAYOUT_SETTING_VALUE_Y, LAYOUT_SETTING_VALUE_WIDTH, LAYOUT_SETTING_VALUE_HEIGHT, COLOR_TEXT, COLOR_SETTING_BACKGROUND, COLOR_BACKGROUND);
}
}
active_delay(500);
if (tmp_key == 0)
Iambic_Key = false;
else if (tmp_key == 1){
Iambic_Key = true;
keyerControl &= ~IAMBICB;
}
else if (tmp_key == 2){
Iambic_Key = true;
keyerControl |= IAMBICB;
}
EEPROM.put(CW_KEY_TYPE, tmp_key);
menuOn = 0;
}
const char MI_SET_FREQ [] PROGMEM = "Set Freq...";
const char MI_SET_BFO [] PROGMEM = "Set BFO...";
const char MI_CW_DELAY [] PROGMEM = "CW Delay...";
const char MI_CW_KEYER [] PROGMEM = "CW Keyer...";
const char MI_TOUCH [] PROGMEM = "Touch Screen...";
const char MI_EXIT [] PROGMEM = "Exit";
enum MenuIds {
MENU_SET_FREQ,
MENU_SET_BFO,
MENU_CW_DELAY,
MENU_CW_KEYER,
MENU_TOUCH,
MENU_EXIT,
MENU_TOTAL
};
const char* const menuItems [MENU_TOTAL] PROGMEM {
MI_SET_FREQ,
MI_SET_BFO,
MI_CW_DELAY,
MI_CW_KEYER,
MI_TOUCH,
MI_EXIT
};
void drawSetupMenu(){
displayClear(COLOR_BACKGROUND);
strcpy_P(b,(const char*)F("Setup"));
displayText(b, LAYOUT_TITLE_X, LAYOUT_TITLE_Y, LAYOUT_TITLE_WIDTH, LAYOUT_TITLE_HEIGHT, COLOR_TEXT, COLOR_TITLE_BACKGROUND, COLOR_ACTIVE_BORDER);
for(unsigned int i = 0; i < MENU_TOTAL; ++i){
strcpy_P(b,(const char*)pgm_read_word(&(menuItems[i])));
displayText(b, LAYOUT_ITEM_X, LAYOUT_ITEM_Y + i*LAYOUT_ITEM_PITCH_Y, LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_INACTIVE_BORDER);
}
}
void movePuck(int i){
static int prevPuck = 1;//Start value at 1 so that on init, when we get called with 0, we'll update
//Don't update if we're already on the right selection
if(prevPuck == i){
return;
}
//Clear old
displayRect(LAYOUT_ITEM_X, LAYOUT_ITEM_Y + (prevPuck*LAYOUT_ITEM_PITCH_Y), LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_INACTIVE_BORDER);
//Draw new
displayRect(LAYOUT_ITEM_X, LAYOUT_ITEM_Y + (i*LAYOUT_ITEM_PITCH_Y), LAYOUT_ITEM_WIDTH, LAYOUT_ITEM_HEIGHT, COLOR_ACTIVE_BORDER);
prevPuck = i;
}
void doSetup2(){
static const unsigned int COUNTS_PER_ITEM = 10;
int select=0, i, btnState;
drawSetupMenu();
movePuck(select);
//wait for the button to be raised up
while(btnDown())
active_delay(50);
active_delay(50); //debounce
menuOn = 2;
while (menuOn){
i = enc_read();
if (i > 0){
if (select + i < MENU_TOTAL*COUNTS_PER_ITEM)
select += i;
movePuck(select/COUNTS_PER_ITEM);
}
if (i < 0 && select + i >= 0){
select += i; //caught ya, i is already -ve here, so you add it
movePuck(select/COUNTS_PER_ITEM);
}
if (!btnDown()){
active_delay(50);
continue;
}
//wait for the touch to lift off and debounce
while(btnDown()){
active_delay(50);
}
active_delay(300);
switch(select/COUNTS_PER_ITEM){
case MENU_SET_FREQ:
{
setupFreq();
break;
}
case MENU_SET_BFO:
{
setupBFO();
break;
}
case MENU_CW_DELAY:
{
setupCwDelay();
break;
}
case MENU_CW_KEYER:
{
setupKeyer();
break;
}
case MENU_TOUCH:
{
setupTouch();
break;
}
case MENU_EXIT:
default:
{
menuOn = 0;
break;
}
}//switch
//redraw
drawSetupMenu();
}
//debounce the button
while(btnDown())
active_delay(50);
active_delay(50);
checkCAT();
guiUpdate();
}