ubitxv6/ubitx_ui.cpp

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#include <Arduino.h>
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#include "button.h"
#include "color_theme.h"
#include "morse.h"
#include "nano_gui.h"
#include "settings.h"
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#include "setup.h"
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#include "touch.h"
#include "ubitx.h"
#include "version.h"
static const unsigned int LAYOUT_VFO_LABEL_X = 0;
static const unsigned int LAYOUT_VFO_LABEL_Y = 10;
static const unsigned int LAYOUT_VFO_LABEL_WIDTH = 159;
static const unsigned int LAYOUT_VFO_LABEL_HEIGHT = 36;
static const unsigned int LAYOUT_VFO_LABEL_PITCH_X = 160;
static const unsigned int LAYOUT_MODE_TEXT_X = 0;
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static const unsigned int LAYOUT_MODE_TEXT_Y = LAYOUT_VFO_LABEL_Y + LAYOUT_VFO_LABEL_HEIGHT + 1;
static const unsigned int LAYOUT_MODE_TEXT_WIDTH = 320;
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static const unsigned int LAYOUT_MODE_TEXT_HEIGHT = 36;
static const unsigned int LAYOUT_BUTTON_X = 2;
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static const unsigned int LAYOUT_BUTTON_Y = LAYOUT_MODE_TEXT_Y + LAYOUT_MODE_TEXT_HEIGHT + 1;
static const unsigned int LAYOUT_BUTTON_WIDTH = 60;
static const unsigned int LAYOUT_BUTTON_HEIGHT = 36;
static const unsigned int LAYOUT_BUTTON_PITCH_X = 64;
static const unsigned int LAYOUT_BUTTON_PITCH_Y = 40;
static const unsigned int LAYOUT_CW_TEXT_X = 0;
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static const unsigned int LAYOUT_CW_TEXT_Y = LAYOUT_BUTTON_Y + 3*LAYOUT_BUTTON_PITCH_Y + 1;
static const unsigned int LAYOUT_CW_TEXT_WIDTH = 220;
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static const unsigned int LAYOUT_CW_TEXT_HEIGHT = 36;
static const unsigned int LAYOUT_VERSION_TEXT_X = LAYOUT_CW_TEXT_X + LAYOUT_CW_TEXT_WIDTH + 1;
static const unsigned int LAYOUT_VERSION_TEXT_Y = LAYOUT_CW_TEXT_Y;
static const unsigned int LAYOUT_VERSION_TEXT_WIDTH = 320 - LAYOUT_CW_TEXT_WIDTH - 1;
static const unsigned int LAYOUT_VERSION_TEXT_HEIGHT = LAYOUT_CW_TEXT_HEIGHT;
static const unsigned int LAYOUT_TX_X = 280;
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static const unsigned int LAYOUT_TX_Y = LAYOUT_MODE_TEXT_Y;
static const unsigned int LAYOUT_TX_WIDTH = 40;
static const unsigned int LAYOUT_TX_HEIGHT = 36;
enum btn_set_e {
BUTTON_VFOA,
BUTTON_VFOB,
BUTTON_RIT,
BUTTON_USB,
BUTTON_LSB,
BUTTON_CW,
BUTTON_SPL,
BUTTON_80,
BUTTON_40,
BUTTON_30,
BUTTON_20,
BUTTON_17,
BUTTON_15,
BUTTON_10,
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BUTTON_BLANK_1,
BUTTON_MNU,
BUTTON_FRQ,
BUTTON_TOTAL
};
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void msIgnore(int8_t* val_out);
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Button* btn_set;
static const unsigned int KEYS_OFFSET = 256;//Unique from buttons
enum keypad_e {
KEYS_1 = KEYS_OFFSET,
KEYS_2,
KEYS_3,
KEYS_BLANK_1,
KEYS_OK,
KEYS_4,
KEYS_5,
KEYS_6,
KEYS_0,
KEYS_BACKSPACE,
KEYS_7,
KEYS_8,
KEYS_9,
KEYS_BLANK_2,
KEYS_CANCEL,
KEYS_TOTAL = KEYS_CANCEL - KEYS_OFFSET + 1
};
constexpr Button keypad[KEYS_TOTAL] PROGMEM = {
{LAYOUT_BUTTON_X + 0*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 0*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_1, "1", '1', msIgnore},
{LAYOUT_BUTTON_X + 1*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 0*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_2, "2", '2', msIgnore},
{LAYOUT_BUTTON_X + 2*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 0*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_3, "3", '3', msIgnore},
{LAYOUT_BUTTON_X + 3*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 0*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_BLANK_1, "", '\0', msIgnore},
{LAYOUT_BUTTON_X + 4*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 0*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_OK, "OK", 'K', msIgnore},
{LAYOUT_BUTTON_X + 0*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 1*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_4, "4", '4', msIgnore},
{LAYOUT_BUTTON_X + 1*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 1*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_5, "5", '5', msIgnore},
{LAYOUT_BUTTON_X + 2*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 1*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_6, "6", '6', msIgnore},
{LAYOUT_BUTTON_X + 3*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 1*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_0, "0", '0', msIgnore},
{LAYOUT_BUTTON_X + 4*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 1*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_BACKSPACE, "<-", 'B', msIgnore},
{LAYOUT_BUTTON_X + 0*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 2*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_7, "7", '7', msIgnore},
{LAYOUT_BUTTON_X + 1*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 2*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_8, "8", '8', msIgnore},
{LAYOUT_BUTTON_X + 2*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 2*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_9, "9", '9', msIgnore},
{LAYOUT_BUTTON_X + 3*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 2*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_BLANK_2, "", '\0', msIgnore},
{LAYOUT_BUTTON_X + 4*LAYOUT_BUTTON_PITCH_X, LAYOUT_BUTTON_Y + 2*LAYOUT_BUTTON_PITCH_Y, LAYOUT_BUTTON_WIDTH, LAYOUT_BUTTON_HEIGHT, KEYS_CANCEL, "Can", 'C', msIgnore},
};
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bool getButton(btn_set_e index, Button* button){
if(BUTTON_TOTAL == index){
return false;
}
memcpy_P(button, &(btn_set[index]), sizeof(Button));
return true;
}
inline void drawCommandbar(char* text){
displayText(text, LAYOUT_MODE_TEXT_X, LAYOUT_MODE_TEXT_Y, LAYOUT_MODE_TEXT_WIDTH, LAYOUT_MODE_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
}
/** A generic control to read variable values
*/
int getValueByKnob(int minimum, int maximum, int step_size, int initial, const __FlashStringHelper* prefix, const __FlashStringHelper* postfix)
{
int knob = 0;
int knob_value;
while (btnDown())
active_delay(100);
active_delay(200);
knob_value = initial;
strncpy_P(b,(const char*)prefix,sizeof(b));
itoa(knob_value, c, 10);
strncat(b, c, sizeof(b) - strlen(b));
strncat_P(b, (const char*)postfix, sizeof(b) - strlen(b));
drawCommandbar(b);
while(!btnDown() && digitalRead(PTT) == HIGH){
knob = enc_read();
if (knob != 0){
if (knob_value > minimum && knob < 0)
knob_value -= step_size;
if (knob_value < maximum && knob > 0)
knob_value += step_size;
strncpy_P(b,(const char*)prefix,sizeof(b));
itoa(knob_value, c, 10);
strncat(b, c, sizeof(b) - strlen(b));
strncat_P(b,(const char*)postfix, sizeof(b) - strlen(b));
drawCommandbar(b);
}
checkCAT();
}
b[0] = 0;
drawCommandbar(b);
return knob_value;
}
void displayVFO(Vfo_e vfo){
uint16_t displayColor = COLOR_INACTIVE_TEXT;
uint16_t displayBackground = COLOR_INACTIVE_BACKGROUND;
uint16_t displayBorder = COLOR_INACTIVE_BORDER;
Button button;
if (globalSettings.splitOn){
if (vfo == globalSettings.activeVfo){
c[0] = 'R';
}
else{
c[0] = 'T';
}
}
else{
if(VFO_A == vfo){
c[0] = 'A';
}
else if(VFO_B == vfo){
c[0] = 'B';
}
else{
c[0] = '?';
}
}
c[1] = ':';
c[2] = ' ';
if (VFO_A == vfo){
getButton(BUTTON_VFOA, &button);
formatFreq(globalSettings.vfoA.frequency, c+3, sizeof(c)-3, 10);
if (VFO_A == globalSettings.activeVfo){
displayColor = COLOR_ACTIVE_VFO_TEXT;
displayBackground = COLOR_ACTIVE_VFO_BACKGROUND;
displayBorder = COLOR_ACTIVE_BORDER;
}else{
displayColor = COLOR_INACTIVE_VFO_TEXT;
displayBackground = COLOR_INACTIVE_VFO_BACKGROUND;
displayBorder = COLOR_INACTIVE_BORDER;
}
}
if (VFO_B == vfo){
getButton(BUTTON_VFOB, &button);
formatFreq(globalSettings.vfoB.frequency, c+3, sizeof(c)-3, 10);
if (VFO_B == globalSettings.activeVfo){
displayColor = COLOR_ACTIVE_VFO_TEXT;
displayBackground = COLOR_ACTIVE_VFO_BACKGROUND;
displayBorder = COLOR_ACTIVE_BORDER;
} else {
displayColor = COLOR_INACTIVE_VFO_TEXT;
displayBackground = COLOR_INACTIVE_VFO_BACKGROUND;
displayBorder = COLOR_INACTIVE_BORDER;
}
}
displayText(c, button.x, button.y, button.w, button.h, displayColor, displayBackground, displayBorder);
}
void btnDrawActive(Button* button){
displayText(button->text, button->x, button->y, button->w, button->h, COLOR_ACTIVE_TEXT, COLOR_ACTIVE_BACKGROUND, COLOR_INACTIVE_BORDER);
}
void btnDrawInactive(Button* button){
displayText(button->text, button->x, button->y, button->w, button->h, COLOR_INACTIVE_TEXT, COLOR_INACTIVE_BACKGROUND, COLOR_INACTIVE_BORDER);
}
void btnDraw(struct Button *button){
switch(button->id){
case BUTTON_VFOA:
{
displayVFO(VFO_A);
break;
}
case BUTTON_VFOB:
{
displayVFO(VFO_B);
break;
}
case BUTTON_RIT:
{
if(globalSettings.ritOn){
btnDrawActive(button);
}
else{
btnDrawInactive(button);
}
break;
}
case BUTTON_USB:
{
if(VFO_MODE_USB == GetActiveVfoMode()){
btnDrawActive(button);
}
else{
btnDrawInactive(button);
}
break;
}
case BUTTON_LSB:
{
if(VFO_MODE_LSB == GetActiveVfoMode()){
btnDrawActive(button);
}
else{
btnDrawInactive(button);
}
break;
}
case BUTTON_SPL:
{
if(globalSettings.splitOn){
btnDrawActive(button);
}
else{
btnDrawInactive(button);
}
break;
}
case BUTTON_CW:
{
if(TuningMode_e::TUNE_CW == globalSettings.tuningMode){
btnDrawActive(button);
}
else{
btnDrawInactive(button);
}
break;
}
default:
{
btnDrawInactive(button);
break;
}
}//End switch
}
void displayRIT(){
c[0] = 0;
displayFillrect(LAYOUT_MODE_TEXT_X,LAYOUT_MODE_TEXT_Y,LAYOUT_MODE_TEXT_WIDTH,LAYOUT_MODE_TEXT_HEIGHT, COLOR_BACKGROUND);
if(globalSettings.ritOn){
strncpy_P(c,(const char*)F("TX:"),sizeof(c));
formatFreq(globalSettings.ritFrequency, c+3, sizeof(c)-strlen(c));
if (VFO_A == globalSettings.activeVfo)
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displayText(c, LAYOUT_VFO_LABEL_X + 0*LAYOUT_VFO_LABEL_PITCH_X, LAYOUT_MODE_TEXT_Y, LAYOUT_VFO_LABEL_WIDTH, LAYOUT_MODE_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
else
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displayText(c, LAYOUT_VFO_LABEL_X + 1*LAYOUT_VFO_LABEL_PITCH_X, LAYOUT_MODE_TEXT_Y, LAYOUT_VFO_LABEL_WIDTH, LAYOUT_MODE_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
}
}
void fastTune(){
//if the btn is down, wait until it is up
while(btnDown())
active_delay(50);
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active_delay(50);
strncpy_P(c,(const char*)F("Fast tune"),sizeof(c));
displayText(c, LAYOUT_MODE_TEXT_X, LAYOUT_MODE_TEXT_Y, LAYOUT_MODE_TEXT_WIDTH, LAYOUT_MODE_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
while(true){
checkCAT();
//exit after debouncing the btnDown
if (btnDown()){
displayFillrect(LAYOUT_MODE_TEXT_X, LAYOUT_MODE_TEXT_Y, LAYOUT_MODE_TEXT_WIDTH, LAYOUT_MODE_TEXT_HEIGHT, COLOR_BACKGROUND);
//wait until the button is realsed and then return
while(btnDown())
active_delay(50);
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active_delay(50);
return;
}
int encoder = enc_read();
if (encoder != 0){
uint32_t freq = GetActiveVfoFreq();
if (encoder > 0 && freq < 30000000l){
freq += 50000l;
}
else if (encoder < 0 && freq > 600000l){
freq -= 50000l;
}
setFrequency(freq);
displayVFO(globalSettings.activeVfo);
}
}// end of the event loop
}
void enterFreq(){
//force the display to refresh everything
//display all the buttons
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Point ts_point;
for (int i = 0; i < KEYS_TOTAL; i++){
Button button;
memcpy_P(&button, &(keypad[i]), sizeof(Button));
btnDraw(&button);
}
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while(btnDown())
active_delay(50);
active_delay(50);
int cursor_pos = 0;
memset(c, 0, sizeof(c));
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bool exit = false;
while(!exit){
checkCAT();
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if(btnDown()){
while(btnDown())
active_delay(50);
active_delay(50);
break;
}
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if(!readTouch(&ts_point))
continue;
scaleTouch(&ts_point);
for (int i = 0; i < KEYS_TOTAL; i++){
Button button;
memcpy_P(&button, &(keypad[i]), sizeof(Button));
int x2 = button.x + button.w;
int y2 = button.y + button.h;
if(button.x < ts_point.x && ts_point.x < x2 &&
button.y < ts_point.y && ts_point.y < y2){
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//Serial.print(F("Entered key: "));
//Serial.println(button.text);
switch(button.id){
case KEYS_OK:
{
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uint32_t new_freq = atol(c);
if((LOWEST_FREQ/1000 <= new_freq) && (new_freq <= HIGHEST_FREQ/1000)){
new_freq *= 1000L;
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uint32_t prev_freq = GetActiveVfoFreq();
//Transition from below to above the traditional threshold for USB
if(prev_freq < THRESHOLD_USB_LSB && new_freq >= THRESHOLD_USB_LSB){
SetActiveVfoMode(VfoMode_e::VFO_MODE_USB);
}
//Transition from aboveo to below the traditional threshold for USB
if(prev_freq >= THRESHOLD_USB_LSB && new_freq < THRESHOLD_USB_LSB){
SetActiveVfoMode(VfoMode_e::VFO_MODE_LSB);
}
if (VFO_A == globalSettings.activeVfo){
globalSettings.vfoA.frequency = new_freq;
}
else{
globalSettings.vfoB.frequency = new_freq;
}
setFrequency(new_freq);
saveVFOs();
}
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exit = true;
break;
}
case KEYS_BACKSPACE:
{
c[cursor_pos] = 0;
if (cursor_pos > 0){
cursor_pos--;
}
c[cursor_pos] = 0;
break;
}
case KEYS_CANCEL:
{
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exit = true;
break;
}
case KEYS_0:
case KEYS_1:
case KEYS_2:
case KEYS_3:
case KEYS_4:
case KEYS_5:
case KEYS_6:
case KEYS_7:
case KEYS_8:
case KEYS_9:
{
c[cursor_pos++] = button.text[0];
c[cursor_pos] = 0;
break;
}
default:
{
//Serial.print(F("Unknown key id: "));
//Serial.println(button.id);
break;
}
}//switch
}//if button hit test
}// end of the button scanning loop
strncpy(b, c, sizeof(b));
strncat_P(b,(const char*)F(" KHz"),sizeof(b) - strlen(b));
displayText(b, LAYOUT_MODE_TEXT_X, LAYOUT_MODE_TEXT_Y, LAYOUT_MODE_TEXT_WIDTH, LAYOUT_MODE_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND);
active_delay(300);
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while(readTouch(&ts_point))
checkCAT();
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} // end of event loop : while(!exit)
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guiUpdate();
enc_read();//clear out any tuner turning that happened during entry
}
void drawCWStatus(){
strncpy_P(b,(const char*)F(" cw: "),sizeof(b));
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int wpm = 1200/globalSettings.cwDitDurationMs;
itoa(wpm,c, 10);
strncat(b, c, sizeof(b) - strlen(b));
strncat_P(b,(const char*)F("wpm, "), sizeof(b) - strlen(b));
itoa(globalSettings.cwSideToneFreq, c, 10);
strncat(b, c, sizeof(b) - strlen(b));
strncat_P(b,(const char*)F("hz"), sizeof(b) - strlen(b));
displayText(b, LAYOUT_CW_TEXT_X, LAYOUT_CW_TEXT_Y, LAYOUT_CW_TEXT_WIDTH, LAYOUT_CW_TEXT_HEIGHT, COLOR_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND, TextJustification_e::Left);
}
void drawVersion()
{
strncpy_P(b,VERSION_STRING,sizeof(b));
displayText(b, LAYOUT_VERSION_TEXT_X, LAYOUT_VERSION_TEXT_Y, LAYOUT_VERSION_TEXT_WIDTH, LAYOUT_VERSION_TEXT_HEIGHT, COLOR_VERSION_TEXT, COLOR_BACKGROUND, COLOR_BACKGROUND, TextJustification_e::Right);
}
void drawTx(){
if (globalSettings.txActive){
strncpy_P(b,(const char*)F("TX"), sizeof(b));
displayText(b, LAYOUT_TX_X, LAYOUT_TX_Y, LAYOUT_TX_WIDTH, LAYOUT_TX_HEIGHT, COLOR_ACTIVE_TEXT, COLOR_ACTIVE_BACKGROUND, COLOR_BACKGROUND);
}
else{
displayFillrect(LAYOUT_TX_X, LAYOUT_TX_Y, LAYOUT_TX_WIDTH, LAYOUT_TX_HEIGHT, COLOR_BACKGROUND);
}
}
void drawStatusbar(){
drawCWStatus();
drawVersion();
}
void guiUpdate(){
/*
if (doingCAT)
return;
*/
// use the current frequency as the VFO frequency for the active VFO
displayClear(COLOR_BACKGROUND);
displayVFO(VFO_A);
displayVFO(VFO_B);
checkCAT();
displayRIT();
checkCAT();
//force the display to refresh everything
//display all the buttons
for (int i = 0; i < BUTTON_TOTAL; i++){
Button button;
memcpy_P(&button, &(btn_set[i]), sizeof(Button));
btnDraw(&button);
checkCAT();
}
drawStatusbar();
checkCAT();
}
// this builds up the top line of the display with frequency and mode
void updateDisplay() {
displayVFO(globalSettings.activeVfo);
}
void ritToggle(struct Button *button){
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if(!globalSettings.ritOn){
ritEnable(GetActiveVfoFreq());
}
else{
ritDisable();
}
btnDraw(button);
displayRIT();
}
void splitToggle(Button *button){
globalSettings.splitOn = !globalSettings.splitOn;
btnDraw(button);
//disable rit as well
ritDisable();
Button button2;
getButton(BUTTON_RIT, &button2);
btnDraw(&button2);
displayRIT();
displayVFO(VFO_A);
displayVFO(VFO_B);
}
void vfoReset(){
Button button;
if (VFO_A == globalSettings.activeVfo)
globalSettings.vfoB.frequency = globalSettings.vfoA.frequency;
else
globalSettings.vfoA.frequency = globalSettings.vfoB.frequency;
if(globalSettings.splitOn){
getButton(BUTTON_SPL, &button);
splitToggle(&button);
}
if(globalSettings.ritOn){
getButton(BUTTON_RIT, &button);
ritToggle(&button);
}
displayVFO(VFO_A);
displayVFO(VFO_B);
saveVFOs();
}
void cwToggle(struct Button *b){
if (TuningMode_e::TUNE_SSB == globalSettings.tuningMode){
globalSettings.tuningMode = TuningMode_e::TUNE_CW;
}
else{
globalSettings.tuningMode = TuningMode_e::TUNE_SSB;
}
setFrequency(GetActiveVfoFreq());
btnDraw(b);
}
void sidebandToggle(Button* button){
if(BUTTON_LSB == button->id){
SetActiveVfoMode(VfoMode_e::VFO_MODE_LSB);
}
else{
SetActiveVfoMode(VfoMode_e::VFO_MODE_USB);
}
setFrequency(GetActiveVfoFreq());
struct Button button2;
getButton(BUTTON_USB, &button2);
btnDraw(&button2);
getButton(BUTTON_LSB, &button2);
btnDraw(&button2);
saveVFOs();
}
void redrawVFOs(){
struct Button button;
ritDisable();
getButton(BUTTON_RIT, &button);
btnDraw(&button);
displayRIT();
displayVFO(VFO_A);
displayVFO(VFO_B);
//draw the lsb/usb buttons, the sidebands might have changed
getButton(BUTTON_LSB, &button);
btnDraw(&button);
getButton(BUTTON_USB, &button);
btnDraw(&button);
}
void switchBand(uint32_t bandfreq){
//Serial.println(frequency);
//Serial.println(bandfreq);
uint32_t offset;
uint32_t freq = GetActiveVfoFreq();
if (3500000L <= freq && freq <= 4000000L)
offset = freq - 3500000l;
else if (24800000L <= freq && freq <= 25000000L)
offset = freq - 24800000L;
else
offset = freq % 1000000L;
//Serial.println(offset);
setFrequency(bandfreq + offset);
if(bandfreq >= THRESHOLD_USB_LSB){
SetActiveVfoMode(VfoMode_e::VFO_MODE_USB);
}
else{
SetActiveVfoMode(VfoMode_e::VFO_MODE_LSB);
}
updateDisplay();
saveVFOs();
}
void doCommand(Button* button){
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//Serial.print(F("Doing command: "));
//Serial.print(button->text);
//Serial.print(F(", Hitbox: "));
//Serial.print(button->x);Serial.print(F(","));
//Serial.print(button->y);Serial.print(F(";"));
//Serial.print(button->x + button->w);Serial.print(F(","));
//Serial.println(button->y + button->h);
switch(button->id){
case BUTTON_RIT:
{
ritToggle(button);
break;
}
case BUTTON_LSB:
case BUTTON_USB:
{
sidebandToggle(button);
break;
}
case BUTTON_CW:
{
cwToggle(button);
break;
}
case BUTTON_SPL:
{
splitToggle(button);
break;
}
case BUTTON_VFOA:
{
switchVFO(VFO_A);
uint32_t freq = globalSettings.vfoA.frequency;
ltoa(freq,b,10);
morseText(b);
break;
}
case BUTTON_VFOB:
{
switchVFO(VFO_B);
uint32_t freq = globalSettings.vfoB.frequency;
ltoa(freq,b,10);
morseText(b);
break;
}
case BUTTON_80:
{
switchBand(3500000L);
break;
}
case BUTTON_40:
{
switchBand(7000000L);
break;
}
case BUTTON_30:
{
switchBand(10000000L);
break;
}
case BUTTON_20:
{
switchBand(14000000L);
break;
}
case BUTTON_17:
{
switchBand(18000000L);
break;
}
case BUTTON_15:
{
switchBand(21000000L);
break;
}
case BUTTON_10:
{
switchBand(28000000L);
break;
}
case BUTTON_FRQ:
{
enterFreq();
break;
}
case BUTTON_MNU:
{
doSetup2();
break;
}
default:
{
//Serial.print(F("Unknown command: "));
//Serial.println(button.id);
break;
}
}
}
//returns true if the button is pressed
int btnDown(){
if (digitalRead(FBUTTON) == HIGH)
return 0;
else
return 1;
}
void drawFocus(int ibtn, int color){
Button button;
memcpy_P(&button, &(btn_set[ibtn]), sizeof(Button));
displayRect(button.x, button.y, button.w, button.h, color);
}
void doCommands(){
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int select = 0;
int prev_button = 0;
//wait for the button to be raised up
while(btnDown())
active_delay(50);
active_delay(50); //debounce
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Button button;
memcpy_P(&button, &(btn_set[select/10]), sizeof(Button));
morseLetter(button.morse);
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int8_t morse_status = 0;
button.morse_status(&morse_status);
if(morse_status){
if(morse_status > 0){
morseBool(true);
}
else{
morseBool(false);
}
}
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while (true){
//check if the knob's button was pressed
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if (btnDown()){
doCommand(&button);
//unfocus the buttons
drawFocus(select, COLOR_INACTIVE_BORDER);
if (VFO_A == globalSettings.activeVfo)
drawFocus(BUTTON_VFOA, COLOR_ACTIVE_BORDER);
else
drawFocus(BUTTON_VFOB, COLOR_ACTIVE_BORDER);
//wait for the button to be up and debounce
while(btnDown())
active_delay(100);
active_delay(500);
return;
}
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int knob = enc_read();
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if (knob == 0){
active_delay(50);
continue;
}
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if (knob > 0){
if (select + knob < BUTTON_TOTAL * 10)
select += knob;
}
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if (knob < 0 && select + knob >= 0)
select += knob; //caught ya, i is already -ve here, so you add it
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if (prev_button == select / 10)
continue;
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//we are on a new button
drawFocus(prev_button, COLOR_INACTIVE_BORDER);
drawFocus(select/10, COLOR_ACTIVE_BORDER);
memcpy_P(&button, &(btn_set[select/10]), sizeof(Button));
morseLetter(button.morse);
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morse_status = 0;
button.morse_status(&morse_status);
Serial.println((uint16_t)button.morse_status);
Serial.println(morse_status);
if(morse_status){
if(morse_status > 0){
morseBool(true);
}
else{
morseBool(false);
}
}
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enc_read();//Clear any rotation that was done while the letter was playing
prev_button = select/10;
}
// guiUpdate();
//debounce the button
while(btnDown())
active_delay(50);
active_delay(50);
checkCAT();
}