uv-k5-firmware/gui.c
2023-08-26 01:46:21 +01:00

1451 lines
34 KiB
C

/* Copyright 2023 Dual Tachyon
* https://github.com/DualTachyon
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <string.h>
#include "aircopy.h"
#include "audio.h"
#include "battery.h"
#include "bitmaps.h"
#include "dcs.h"
#include "driver/eeprom.h"
#include "driver/keyboard.h"
#include "driver/st7565.h"
#include "dtmf.h"
#include "external/printf/printf.h"
#include "font.h"
#include "fm.h"
#include "functions.h"
#include "gui.h"
#include "helper.h"
#include "misc.h"
#include "settings.h"
static const char MenuList[][7] = {
// 0x00
"SQL", "STEP", "TXP", "R_DCS",
"R_CTCS", "T_DCS", "T_CTCS", "SFT-D",
// 0x08
"OFFSET", "W/N", "SCR", "BCL",
"MEM-CH", "SAVE", "VOX", "ABR",
// 0x10
"TDR", "WX", "BEEP", "TOT",
"VOICE", "SC-REV", "MDF", "AUTOLK",
// 0x18
"S-ADD1", "S-ADD2", "STE", "RP-STE",
"MIC", "1-CALL", "S-LIST", "SLIST1",
// 0x20
"SLIST2", "AL-MOD", "ANI-ID", "UPCODE",
"DWCODE", "D-ST", "D-RSP", "D-HOLD",
// 0x28
"D-PRE", "PTT-ID", "D-DCD", "D-LIST",
"PONMSG", "ROGER", "VOL", "AM",
// 0x30
"NOAA_S", "DEL-CH", "RESET", "350TX",
"F-LOCK", "200TX", "500TX", "350EN",
// 0x38
"SCREN",
};
static const uint16_t gSubMenu_Step[] = {
250,
500,
625,
1000,
1250,
2500,
833,
};
static const char gSubMenu_TXP[3][5] = {
"LOW",
"MID",
"HIGH",
};
static const char gSubMenu_SFT_D[3][4] = {
"OFF",
"+",
"-",
};
static const char gSubMenu_W_N[2][7] = {
"WIDE",
"NARROW",
};
static const char gSubMenu_OFF_ON[2][4] = {
"OFF",
"ON",
};
static const char gSubMenu_SAVE[5][4] = {
"OFF",
"1:1",
"1:2",
"1:3",
"1:4",
};
static const char gSubMenu_CHAN[3][7] = {
"OFF",
"CHAN_A",
"CHAN_B",
};
static const char gSubMenu_VOICE[3][4] = {
"OFF",
"CHI",
"ENG",
};
static const char gSubMenu_SC_REV[3][3] = {
"TO",
"CO",
"SE",
};
static const char gSubMenu_MDF[3][5] = {
"FREQ",
"CHAN",
"NAME",
};
static const char gSubMenu_AL_MOD[2][5] = {
"SITE",
"TONE",
};
static const char gSubMenu_D_RSP[4][6] = {
"NULL",
"RING",
"REPLY",
"BOTH",
};
static const char gSubMenu_PTT_ID[4][5] = {
"OFF",
"BOT",
"EOT",
"BOTH",
};
static const char gSubMenu_PONMSG[3][5] = {
"FULL",
"MSG",
"VOL",
};
static const char gSubMenu_ROGER[3][6] = {
"OFF",
"ROGER",
"MDC",
};
static const char gSubMenu_RESET[2][4] = {
"VFO",
"ALL",
};
static const char gSubMenu_F_LOCK[6][4] = {
"OFF",
"FCC",
"CE",
"GB",
"430",
"438",
};
GUI_DisplayType_t gScreenToDisplay;
uint8_t g_200003C6;
volatile uint8_t gCurrentStep;
volatile int8_t g_20000390;
uint8_t g_200003BA;
uint8_t g_200003BB;
uint8_t gWasFKeyPressed;
bool gAskForConfirmation;
bool gAskToSave;
bool gAskToDelete;
uint8_t gMenuCursor;
uint8_t gMenuScrollDirection;
uint32_t gSubMenuSelection;
void GUI_DisplayBatteryLevel(uint8_t BatteryLevel)
{
const uint8_t *pBitmap;
bool bClearMode = false;
if (gCurrentFunction != 1) {
switch (BatteryLevel) {
case 0:
pBitmap = NULL;
bClearMode = 1;
break;
case 1:
pBitmap = BITMAP_BatteryLevel1;
break;
case 2:
pBitmap = BITMAP_BatteryLevel2;
break;
case 3:
pBitmap = BITMAP_BatteryLevel3;
break;
case 4:
pBitmap = BITMAP_BatteryLevel4;
break;
default:
pBitmap = BITMAP_BatteryLevel5;
break;
}
ST7565_DrawLine(110, 0, 18, pBitmap, bClearMode);
}
}
void GUI_Welcome(void)
{
char WelcomeString0[16];
char WelcomeString1[16];
memset(gStatusLine, 0, sizeof(gStatusLine));
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
if (gEeprom.POWER_ON_DISPLAY_MODE == POWER_ON_DISPLAY_MODE_FULL_SCREEN) {
ST7565_FillScreen(0xFF);
} else {
memset(WelcomeString0, 0, sizeof(WelcomeString0));
memset(WelcomeString1, 0, sizeof(WelcomeString1));
if (gEeprom.POWER_ON_DISPLAY_MODE == POWER_ON_DISPLAY_MODE_VOLTAGE) {
sprintf(WelcomeString0, "VOLTAGE");
sprintf(WelcomeString1, "%.2fV", gBatteryVoltageAverage * 0.01);
} else {
EEPROM_ReadBuffer(0x0EB0, WelcomeString0, 16);
EEPROM_ReadBuffer(0x0EC0, WelcomeString1, 16);
}
GUI_PrintString(WelcomeString0, 0, 127, 1, 10, true);
GUI_PrintString(WelcomeString1, 0, 127, 3, 10, true);
ST7565_BlitStatusLine();
ST7565_BlitFullScreen();
}
}
void GUI_PrintString(const char *pString, uint8_t Start, uint8_t End, uint8_t Line, int Width, bool bCentered)
{
uint32_t i, Length;
Length = strlen(pString);
if (bCentered) {
Start += (((End - Start) - (Length * Width)) + 1) / 2;
}
for (i = 0; i < Length; i++) {
if (pString[i] - ' ' < 0x5F) {
uint8_t Index = pString[i] - ' ';
memcpy(gFrameBuffer[Line + 0] + (i * Width) + Start, &gFontBig[Index][0], 8);
memcpy(gFrameBuffer[Line + 1] + (i * Width) + Start, &gFontBig[Index][8], 8);
}
}
}
void GUI_PasswordScreen(void)
{
KEY_Code_t Key;
BEEP_Type_t Beep;
gUpdateDisplay = true;
memset(gNumberForPrintf, 10, sizeof(gNumberForPrintf));
while (1) {
while (!gNextTimeslice) {
}
// TODO: Original code doesn't do the below, but is needed for proper key debounce.
gNextTimeslice = false;
Key = KEYBOARD_Poll();
if (gKeyReading0 == Key) {
gDebounceCounter++;
if (gDebounceCounter == 2) {
if (Key == KEY_INVALID) {
gKeyReading1 = KEY_INVALID;
} else {
gKeyReading1 = Key;
switch (Key) {
case KEY_0: case KEY_1: case KEY_2: case KEY_3:
case KEY_4: case KEY_5: case KEY_6: case KEY_7:
case KEY_8: case KEY_9:
NUMBER_Append(Key - KEY_0);
if (gNumberOffset < 6) {
Beep = BEEP_1KHZ_60MS_OPTIONAL;
} else {
uint32_t Password;
gNumberOffset = 0;
NUMBER_Get(gNumberForPrintf, &Password);
if ((gEeprom.POWER_ON_PASSWORD * 100) == Password) {
AUDIO_PlayBeep(BEEP_1KHZ_60MS_OPTIONAL);
return;
}
memset(gNumberForPrintf, 10, sizeof(gNumberForPrintf));
Beep = BEEP_500HZ_60MS_DOUBLE_BEEP_OPTIONAL;
}
AUDIO_PlayBeep(Beep);
gUpdateDisplay = true;
break;
case KEY_EXIT: // Delete digit
if (gNumberOffset != 0) {
gNumberOffset -= 1;
gNumberForPrintf[gNumberOffset] = 10;
gUpdateDisplay = true;
}
AUDIO_PlayBeep(BEEP_1KHZ_60MS_OPTIONAL);
default:
break;
}
}
//DAT_2000042c = 0;
}
} else {
gDebounceCounter = 0;
gKeyReading0 = Key;
}
#if 0
if (UART_CheckForCommand()) {
__disable_irq();
ProcessUartCommand();
__enable_irq();
}
#endif
if (gUpdateDisplay) {
GUI_LockScreen();
gUpdateDisplay = false;
}
}
}
void GUI_LockScreen(void)
{
char String[7];
uint8_t i;
memset(gStatusLine, 0, sizeof(gStatusLine));
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
strcpy(String, "LOCK");
GUI_PrintString(String, 0, 127, 1, 10, true);
for (i = 0; i < 6; i++) {
if (gNumberForPrintf[i] == 10) {
String[i] = '-';
} else {
String[i] = '*';
}
}
String[6] = 0;
GUI_PrintString(String, 0, 127, 3, 12, true);
ST7565_BlitStatusLine();
ST7565_BlitFullScreen();
}
void GUI_DisplayStatusLine(void)
{
memset(gStatusLine, 0, sizeof(gStatusLine));
if (gCurrentFunction == FUNCTION_POWER_SAVE) {
memcpy(gStatusLine, BITMAP_PowerSave, sizeof(BITMAP_PowerSave));
}
if (gBatteryDisplayLevel < 2) {
if (gLowBatteryBlink == 1) {
memcpy(gStatusLine + 110, BITMAP_BatteryLevel1, sizeof(BITMAP_BatteryLevel1));
}
} else {
if (gBatteryDisplayLevel == 2) {
memcpy(gStatusLine + 110, BITMAP_BatteryLevel2, sizeof(BITMAP_BatteryLevel2));
} else if (gBatteryDisplayLevel == 3) {
memcpy(gStatusLine + 110, BITMAP_BatteryLevel3, sizeof(BITMAP_BatteryLevel3));
} else if (gBatteryDisplayLevel == 4) {
memcpy(gStatusLine + 110, BITMAP_BatteryLevel4, sizeof(BITMAP_BatteryLevel4));
} else {
memcpy(gStatusLine + 110, BITMAP_BatteryLevel5, sizeof(BITMAP_BatteryLevel5));
}
}
if (gChargingWithTypeC) {
memcpy(gStatusLine + 100, BITMAP_USB_C, sizeof(BITMAP_USB_C));
}
if (gEeprom.KEY_LOCK) {
memcpy(gStatusLine + 90, BITMAP_KeyLock, sizeof(BITMAP_KeyLock));
} else if (gWasFKeyPressed == 1) {
memcpy(gStatusLine + 90, BITMAP_F_Key, sizeof(BITMAP_F_Key));
}
if (gEeprom.VOX_SWITCH) {
memcpy(gStatusLine + 71, BITMAP_VOX, sizeof(BITMAP_VOX));
}
if (gEeprom.CROSS_BAND_RX_TX != CROSS_BAND_OFF) {
memcpy(gStatusLine + 58, BITMAP_WX, sizeof(BITMAP_WX));
}
if (gEeprom.DUAL_WATCH != DUAL_WATCH_OFF) {
memcpy(gStatusLine + 45, BITMAP_TDR, sizeof(BITMAP_TDR));
}
if (gEeprom.VOICE_PROMPT != VOICE_PROMPT_OFF) {
memcpy(gStatusLine + 34, BITMAP_VoicePrompt, sizeof(BITMAP_VoicePrompt));
}
if (gSetting_KILLED) {
memset(gStatusLine + 21, 0xFF, 10);
}
else if (gFmMute) {
memcpy(gStatusLine + 21, BITMAP_FM_Mute, sizeof(BITMAP_FM_Mute));
}
if (gIsNoaaMode) {
memcpy(gStatusLine + 7, BITMAP_NOAA, sizeof(BITMAP_NOAA));
}
ST7565_BlitStatusLine();
}
//
static void GenerateChannelString(char *pString, uint8_t Channel)
{
uint8_t i;
if (gNumberOffset == 0) {
sprintf(pString, "CH-%02d", Channel + 1);
return;
}
pString[0] = 'C';
pString[1] = 'H';
pString[2] = '-';
for (i = 0; i < 2; i++) {
if (gNumberForPrintf[i] == 10) {
pString[i + 3] = '-';
} else {
pString[i + 3] = gNumberForPrintf[i] + '0';
}
}
}
static void GenerateChannelStringEx(char *pString, bool bShowPrefix, uint8_t ChannelNumber)
{
if (gNumberOffset) {
uint8_t i;
for (i = 0; i < 3; i++) {
if (gNumberForPrintf[i] == 10) {
pString[i] = '-';
} else {
pString[i] = gNumberForPrintf[i] + '0';
}
}
return;
}
if (bShowPrefix) {
sprintf(pString, "CH-%03d", ChannelNumber + 1);
} else {
if (ChannelNumber == 0xFF) {
strcpy(pString, "NULL");
} else {
sprintf(pString, "%03d", ChannelNumber + 1);
}
}
}
void GUI_DisplayFrequency(const char *pDigits, uint8_t X, uint8_t Y, bool bDisplayLeadingZero, bool Flag1)
{
uint8_t *pFb0, *pFb1;
bool bCanDisplay;
uint8_t i;
pFb0 = gFrameBuffer[Y] + X;
pFb1 = pFb0 + 128;
bCanDisplay = false;
for (i = 0; i < 3; i++) {
uint8_t Digit;
Digit = pDigits[i];
if (bDisplayLeadingZero || bCanDisplay || Digit) {
bCanDisplay = true;
memcpy(pFb0 + (i * 13), gFontBigDigits[Digit] + 0, 13);
memcpy(pFb1 + (i * 13), gFontBigDigits[Digit] + 13, 13);
} else if (Flag1) {
pFb1 = pFb1 - 6;
pFb0 = pFb0 - 6;
}
}
pFb1[0x27] = 0x60;
pFb1[0x28] = 0x60;
pFb1[0x29] = 0x60;
for (i = 0; i < 3; i++) {
const uint8_t Digit = pDigits[i + 3];
memcpy(pFb0 + (i * 13) + 42, gFontBigDigits[Digit] + 0, 13);
memcpy(pFb1 + (i * 13) + 42, gFontBigDigits[Digit] + 13, 13);
}
}
void GUI_DisplaySmallDigits(uint8_t Size, const char *pString, uint8_t x, uint8_t y)
{
uint8_t i;
for (i = 0; i < Size; i++) {
memcpy(gFrameBuffer[y] + (i * 7) + x, gFontSmallDigits[(uint8_t)pString[i]], 7);
}
}
static void DisplayMain(void)
{
char String[16];
char String2[16];
uint8_t i;
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
if (gEeprom.KEY_LOCK && gKeypadLocked) {
GUI_PrintString("Long Press #", 0, 127, 1, 8, true);
GUI_PrintString("To Unlock", 0, 127, 3, 8, true);
ST7565_BlitFullScreen();
return;
}
for (i = 0; i < 2; i++) {
uint8_t *pLine0;
uint8_t *pLine1;
uint8_t Line;
uint8_t Channel;
bool bIsSameVfo;
if (i == 0) {
pLine0 = gFrameBuffer[0];
pLine1 = gFrameBuffer[1];
Line = 0;
} else {
pLine0 = gFrameBuffer[4];
pLine1 = gFrameBuffer[5];
Line = 4;
}
Channel = gEeprom.TX_CHANNEL;
bIsSameVfo = !!(Channel == i);
if (gEeprom.DUAL_WATCH != DUAL_WATCH_OFF && g_2000041F == 1) {
Channel = gEeprom.RX_CHANNEL;
}
if (Channel != i) {
if (g_200003BC || g_200003BD || g_200003BA) {
if (g_200003BA == 0) {
if (g_200003BC == 1) {
if (g_CalloutAndDTMF_State == 2) {
strcpy(String, "CALL OUT(RSP)");
} else {
strcpy(String, "CALL OUT");
}
} else if (g_200003BC == 2) {
if (DTMF_FindContact(gDTMF_Contact0, String2)) {
sprintf(String, "CALL:%s", String2);
} else {
sprintf(String, "CALL:%s", gDTMF_Contact0);
}
} else if (g_200003BD == 1) {
if (g_CalloutAndDTMF_State == 1) {
strcpy(String, "DTMF TX(SUCC)");
} else {
strcpy(String, "DTMF TX");
}
}
} else {
sprintf(String, ">%s", g_20000D1C);
}
GUI_PrintString(String, 2, 127, i * 3, 8, false);
memset(String, 0, sizeof(String));
memset(String2, 0, sizeof(String2));
if (g_200003BA == 0) {
if (g_200003BC == 1) {
if (DTMF_FindContact(gDTMF_String, String2)) {
sprintf(String, ">%s", String2);
} else {
sprintf(String, ">%s", gDTMF_String);
}
} else if (g_200003BC == 2) {
if (DTMF_FindContact(gDTMF_Contact1, String2)) {
sprintf(String, ">%s", String2);
} else {
sprintf(String, ">%s", gDTMF_Contact1);
}
} else if (g_200003BD == 1) {
sprintf(String, ">%s", gDTMF_String);
}
}
GUI_PrintString(String, 2, 127, 2 + (i * 3), 8, false);
continue;
} else if (bIsSameVfo) {
memcpy(pLine0 + 2, BITMAP_VFO_Default, sizeof(BITMAP_VFO_Default));
}
} else {
if (bIsSameVfo) {
memcpy(pLine0 + 2, BITMAP_VFO_Default, sizeof(BITMAP_VFO_Default));
} else {
memcpy(pLine0 + 2, BITMAP_VFO_NotDefault, sizeof(BITMAP_VFO_NotDefault));
}
}
// 0x8EE2
uint32_t SomeValue = 0;
if (gCurrentFunction == FUNCTION_TRANSMIT) {
if (g_20000383 == 2) {
SomeValue = 2;
} else {
Channel = gEeprom.RX_CHANNEL;
if (gEeprom.CROSS_BAND_RX_TX != CROSS_BAND_OFF) {
Channel = gEeprom.TX_CHANNEL;
}
if (Channel == i) {
SomeValue = 1;
memcpy(pLine0 + 14, BITMAP_TX, sizeof(BITMAP_TX));
}
}
} else {
SomeValue = 2;
if ((gCurrentFunction == FUNCTION_4 || gCurrentFunction == FUNCTION_2) && gEeprom.RX_CHANNEL == i) {
memcpy(pLine0 + 14, BITMAP_RX, sizeof(BITMAP_RX));
}
}
// 0x8F3C
if (gEeprom.VfoChannel[i] < 200) {
memcpy(pLine1 + 2, BITMAP_M, sizeof(BITMAP_M));
if (gNumberOffset == 0 || gEeprom.TX_CHANNEL != i) {
NUMBER_ToDigits(gEeprom.VfoChannel[i] + 1, String);
} else {
memcpy(String + 5, gNumberForPrintf, 3);
}
GUI_DisplaySmallDigits(3, String + 5, 10, Line + 1);
} else if (gEeprom.VfoChannel[i] < 207) {
char c;
memcpy(pLine1 + 14, BITMAP_F, sizeof(BITMAP_F));
c = gEeprom.VfoChannel[i] - 199;
GUI_DisplaySmallDigits(1, &c, 22, Line + 1);
} else {
memcpy(pLine1 + 7, BITMAP_NarrowBand, sizeof(BITMAP_NarrowBand));
if (gNumberOffset == 0 || gEeprom.TX_CHANNEL != i) {
NUMBER_ToDigits(gEeprom.VfoChannel[i] - 206, String);
} else {
String[6] = gNumberForPrintf[0];
String[7] = gNumberForPrintf[1];
}
GUI_DisplaySmallDigits(2, String + 6, 15, Line + 1);
}
// 0x8FEC
uint8_t g371 = g_20000371[i];
if (gCurrentFunction == FUNCTION_TRANSMIT && g_20000383 == 2) {
if (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) {
Channel = gEeprom.RX_CHANNEL;
} else {
Channel = gEeprom.TX_CHANNEL;
}
if (Channel == i) {
g371 = 5;
}
}
if (g371 != 0) {
uint8_t Width = 10;
memset(String, 0, sizeof(String));
switch (g371) {
case 1:
strcpy(String, "BUSY");
Width = 15;
break;
case 2:
strcpy(String, "BAT LOW");
break;
case 3:
strcpy(String, "DISABLE");
break;
case 4:
strcpy(String, "TIMEOUT");
break;
case 5:
strcpy(String, "ALARM");
break;
case 6:
sprintf(String, "VOL HIGH");
Width = 8;
break;
}
GUI_PrintString(String, 31, 111, i * 4, Width, true);
} else {
if (gNumberOffset != 0 && (gEeprom.VfoChannel[i] - 200) < 7 && gEeprom.TX_CHANNEL == i) {
GUI_DisplayFrequency(gNumberForPrintf, 31, i * 4, true, false);
} else {
if (gEeprom.VfoChannel[i] < 200) {
if (gEeprom.CHANNEL_DISPLAY_MODE == 2 && (gEeprom.VfoInfo[i].Name[0] == 0 || gEeprom.VfoInfo[i].Name[0] == 0xFF)) {
sprintf(String, "CH-%03d", gEeprom.VfoChannel[i] + 1);
GUI_PrintString(String, 31, 112, i * 4, 8, true);
} else {
switch (gEeprom.CHANNEL_DISPLAY_MODE) {
case 0:
if (gCurrentFunction == FUNCTION_TRANSMIT) {
if (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) {
Channel = gEeprom.RX_CHANNEL;
} else {
Channel = gEeprom.TX_CHANNEL;
}
if (Channel == i) {
NUMBER_ToDigits(gEeprom.VfoInfo[i].pDCS_Reverse->Frequency, String);
} else {
NUMBER_ToDigits(gEeprom.VfoInfo[i].pDCS_Current->Frequency, String);
}
} else {
NUMBER_ToDigits(gEeprom.VfoInfo[i].pDCS_Current->Frequency, String);
}
GUI_DisplayFrequency(String, 31, i * 4, false, false);
if (gEeprom.VfoChannel[i] < 200) {
const uint8_t Params = gMR_ChannelParameters[gEeprom.VfoChannel[i]];
if (Params & MR_CH_SCANLIST1) {
memcpy(pLine0 + 113, BITMAP_ScanList, sizeof(BITMAP_ScanList));
}
if (Params & MR_CH_SCANLIST2) {
memcpy(pLine0 + 120, BITMAP_ScanList, sizeof(BITMAP_ScanList));
}
}
GUI_DisplaySmallDigits(2, String + 6, 112, Line + 1);
break;
case 1:
sprintf(String, "CH-%03d", gEeprom.VfoChannel[i] + 1);
GUI_PrintString(String, 31, 112, i * 4, 8, true);
break;
case 2:
GUI_PrintString(gEeprom.VfoInfo[i].Name, 31, 112, i * 4, 8, true);
break;
}
}
} else {
if (gCurrentFunction == FUNCTION_TRANSMIT) {
if (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) {
Channel = gEeprom.RX_CHANNEL;
} else {
Channel = gEeprom.TX_CHANNEL;
}
if (Channel == i) {
NUMBER_ToDigits(gEeprom.VfoInfo[i].pDCS_Reverse->Frequency, String);
} else {
NUMBER_ToDigits(gEeprom.VfoInfo[i].pDCS_Current->Frequency, String);
}
} else {
NUMBER_ToDigits(gEeprom.VfoInfo[i].pDCS_Current->Frequency, String);
}
GUI_DisplayFrequency(String, 31, i * 4, false, false);
if (gEeprom.VfoChannel[i] < 200) {
const uint8_t Params = gMR_ChannelParameters[gEeprom.VfoChannel[i]];
if (Params & MR_CH_SCANLIST1) {
memcpy(pLine0 + 113, BITMAP_ScanList, sizeof(BITMAP_ScanList));
}
if (Params & MR_CH_SCANLIST2) {
memcpy(pLine0 + 120, BITMAP_ScanList, sizeof(BITMAP_ScanList));
}
}
GUI_DisplaySmallDigits(2, String + 6, 112, Line + 1);
}
}
}
// 0x926E
uint8_t Level = 0;
if (SomeValue == 1) {
if (gInfoCHAN_A->OUTPUT_POWER == OUTPUT_POWER_LOW) {
Level = 2;
} else if (gInfoCHAN_A->OUTPUT_POWER == OUTPUT_POWER_MID) {
Level = 4;
} else {
Level = 6;
}
} else if (SomeValue == 2) {
if (gVFO_RSSI_Level[i]) {
Level = gVFO_RSSI_Level[i];
}
}
// TODO: not quite how the original does it, but it's quite entangled in Ghidra.
if (Level) {
memcpy(pLine1 + 128 + 0, BITMAP_Antenna, sizeof(BITMAP_Antenna));
memcpy(pLine1 + 128 + 5, BITMAP_AntennaLevel1, sizeof(BITMAP_AntennaLevel1));
if (Level >= 2) {
memcpy(pLine1 + 128 + 8, BITMAP_AntennaLevel2, sizeof(BITMAP_AntennaLevel2));
}
if (Level >= 3) {
memcpy(pLine1 + 128 + 11, BITMAP_AntennaLevel3, sizeof(BITMAP_AntennaLevel3));
}
if (Level >= 4) {
memcpy(pLine1 + 128 + 14, BITMAP_AntennaLevel4, sizeof(BITMAP_AntennaLevel4));
}
if (Level >= 5) {
memcpy(pLine1 + 128 + 17, BITMAP_AntennaLevel5, sizeof(BITMAP_AntennaLevel5));
}
if (Level >= 6) {
memcpy(pLine1 + 128 + 20, BITMAP_AntennaLevel6, sizeof(BITMAP_AntennaLevel6));
}
}
// 0x931E
if (gEeprom.VfoInfo[i].IsAM == true) {
memcpy(pLine1 + 128 + 27, BITMAP_AM, sizeof(BITMAP_AM));
} else {
const DCS_Info_t *pDCS;
if (SomeValue == 1) {
pDCS = gEeprom.VfoInfo[i].pDCS_Reverse;
} else {
pDCS = gEeprom.VfoInfo[i].pDCS_Current;
}
switch (pDCS->CodeType) {
case CODE_TYPE_CONTINUOUS_TONE:
memcpy(pLine1 + 128 + 27, BITMAP_CT, sizeof(BITMAP_CT));
break;
case CODE_TYPE_DIGITAL:
case CODE_TYPE_REVERSE_DIGITAL:
memcpy(pLine1 + 128 + 24, BITMAP_DCS, sizeof(BITMAP_DCS));
break;
default:
break;
}
}
// 0x936C
switch (gEeprom.VfoInfo[i].OUTPUT_POWER) {
case OUTPUT_POWER_LOW:
memcpy(pLine1 + 128 + 44, BITMAP_PowerLow, sizeof(BITMAP_PowerLow));
break;
case OUTPUT_POWER_MID:
memcpy(pLine1 + 128 + 44, BITMAP_PowerMid, sizeof(BITMAP_PowerMid));
break;
case OUTPUT_POWER_HIGH:
memcpy(pLine1 + 128 + 44, BITMAP_PowerHigh, sizeof(BITMAP_PowerHigh));
break;
}
if (gEeprom.VfoInfo[i].DCS[0].Frequency != gEeprom.VfoInfo[i].DCS[1].Frequency) {
if (gEeprom.VfoInfo[i].FREQUENCY_DEVIATION_SETTING == FREQUENCY_DEVIATION_ADD) {
memcpy(pLine1 + 128 + 54, BITMAP_Add, sizeof(BITMAP_Add));
}
if (gEeprom.VfoInfo[i].FREQUENCY_DEVIATION_SETTING == FREQUENCY_DEVIATION_ADD) {
memcpy(pLine1 + 128 + 54, BITMAP_Sub, sizeof(BITMAP_Sub));
}
}
if (gEeprom.VfoInfo[i].FrequencyReverse) {
memcpy(pLine1 + 128 + 64, BITMAP_ReverseMode, sizeof(BITMAP_ReverseMode));
}
if (gEeprom.VfoInfo[i].CHANNEL_BANDWIDTH == BANDWIDTH_NARROW) {
memcpy(pLine1 + 128 + 74, BITMAP_NarrowBand, sizeof(BITMAP_NarrowBand));
}
if (gEeprom.VfoInfo[i].DTMF_DECODING_ENABLE || gSetting_KILLED) {
memcpy(pLine1 + 128 + 84, BITMAP_DTMF, sizeof(BITMAP_DTMF));
}
if (gEeprom.VfoInfo[i].SCRAMBLING_TYPE && gSetting_ScrambleEnable) {
memcpy(pLine1 + 128 + 110, BITMAP_Scramble, sizeof(BITMAP_Scramble));
}
}
ST7565_BlitFullScreen();
}
static void DisplayFM(void)
{
uint8_t i;
char String[16];
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
memset(String, 0, sizeof(String));
strcpy(String, "FM");
GUI_PrintString(String, 0, 127, 0, 12, true);
memset(String, 0, sizeof(String));
if (gAskToSave) {
strcpy(String, "SAVE?");
} else if (gAskToDelete) {
strcpy(String, "DEL?");
} else {
if (g_20000390 == 0) {
if (gEeprom.FM_IsChannelSelected == false) {
for (i = 0; i < 20; i++) {
if (gEeprom.FM_FrequencyToPlay == gFM_Channels[i]) {
sprintf(String, "VFO(CH%02d)", i + 1);
break;
}
}
if (i == 20) {
strcpy(String, "VFO");
}
} else {
sprintf(String, "MR(CH%02d)", gEeprom.FM_CurrentChannel + 1);
}
} else {
if (gIs_A_Scan == false) {
strcpy(String, "M-SCAN");
} else {
sprintf(String, "A-SCAN(%d)", gA_Scan_Channel + 1);
}
}
}
GUI_PrintString(String, 0, 127, 2, 10, true);
memset(String, 0, sizeof(String));
if (gAskToSave || (gEeprom.FM_IsChannelSelected && gNumberOffset)) {
GenerateChannelString(String, gA_Scan_Channel);
} else if (gAskToDelete) {
if (gNumberOffset == 0) {
NUMBER_ToDigits(gEeprom.FM_FrequencyToPlay * 10000, String);
GUI_DisplayFrequency(String, 23, 4, false, true);
} else {
GUI_DisplayFrequency(gNumberForPrintf, 23, 4, true, false);
}
ST7565_BlitFullScreen();
return;
} else {
sprintf(String, "CH-%02d", gEeprom.FM_CurrentChannel + 1);
}
GUI_PrintString(String, 0, 127, 4, 10, true);
ST7565_BlitFullScreen();
}
static void DisplayMenu(void)
{
char String[16];
char Contact[8];
uint8_t i;
for (i = 0; i < 3; i++) {
if (gMenuCursor && i) {
if ((gMenuListCount - 1) != gMenuCursor || (i != 2)) {
GUI_PrintString(MenuList[i], 0, 127, i * 2, 8, false);
}
}
}
for (i = 0; i < 48; i++) {
gFrameBuffer[2][i] ^= 0xFF;
gFrameBuffer[3][i] ^= 0xFF;
}
for (i = 0; i < 7; i++) {
gFrameBuffer[i][48] = 0xFF;
gFrameBuffer[i][49] = 0xFF;
}
NUMBER_ToDigits(gMenuCursor + 1, String);
GUI_DisplaySmallDigits(2, String + 6, 33, 6);
if (g_200003C6) {
memcpy(gFrameBuffer[0] + 50, BITMAP_CurrentIndicator, sizeof(BITMAP_CurrentIndicator));
}
memset(String, 0, sizeof(String));
switch (gMenuCursor) {
case MENU_SQL:
case MENU_MIC:
sprintf(String, "%d", gSubMenuSelection);
break;
case MENU_STEP:
sprintf(String, "%.2fKHz", gSubMenu_Step[gSubMenuSelection] * 0.01);
break;
case MENU_TXP:
strcpy(String, gSubMenu_TXP[gSubMenuSelection]);
break;
case MENU_R_DCS:
case MENU_T_DCS:
if (gSubMenuSelection == 0) {
strcpy(String, "OFF");
} else if (gSubMenuSelection < 105) {
sprintf(String, "D%03oN", DCS_Options[gSubMenuSelection - 1]);
} else {
sprintf(String, "D%03oI", DCS_Options[gSubMenuSelection - 105]);
}
break;
case MENU_R_CTCS:
case MENU_T_CTCS:
if (gSubMenuSelection == 0) {
strcpy(String, "OFF");
} else {
sprintf(String, "%.1fHz", CTCSS_Options[gSubMenuSelection] * 0.1);
}
break;
case MENU_SFT_D:
strcpy(String, gSubMenu_SFT_D[gSubMenuSelection]);
break;
case MENU_OFFSET:
if (g_200003C6 != 1 || gNumberOffset == 0) {
sprintf(String, "%.5f", gSubMenuSelection * 1e-05);
break;
}
for (i = 0; i < 3; i++) {
if (gNumberForPrintf[i] == 10) {
String[i] = '-';
} else {
String[i] = gNumberForPrintf[i] + '0';
}
}
String[3] = '.';
for (i = 3; i < 6; i++) {
if (gNumberForPrintf[i] == 10) {
String[i + 1] = '-';
} else {
String[i + 1] = gNumberForPrintf[i] + '0';
}
}
String[7] = 0x2d;
String[8] = '-';
String[9] = 0;
String[10] = 0;
String[11] = 0;
break;
case MENU_W_N:
strcpy(String, gSubMenu_W_N[gSubMenuSelection]);
break;
case MENU_SCR:
case MENU_VOX:
case MENU_ABR:
if (gSubMenuSelection == 0) {
strcpy(String, "OFF");
} else {
sprintf(String, "%d", gSubMenuSelection);
}
break;
case MENU_BCL:
case MENU_BEEP:
case MENU_AUTOLK:
case MENU_S_ADD1:
case MENU_S_ADD2:
case MENU_STE:
case MENU_D_ST:
case MENU_D_DCD:
case MENU_AM:
case MENU_NOAA_S:
case MENU_350TX:
case MENU_200TX:
case MENU_500TX:
case MENU_350EN:
case MENU_SCREN:
strcpy(String, gSubMenu_OFF_ON[gSubMenuSelection]);
break;
case MENU_MEM_CH:
case MENU_1_CALL:
case MENU_DEL_CH:
GenerateChannelStringEx(
String,
RADIO_CheckValidChannel((uint16_t)gSubMenuSelection, false, 0),
(uint8_t)gSubMenuSelection
);
break;
case MENU_SAVE:
strcpy(String, gSubMenu_SAVE[gSubMenuSelection]);
break;
case MENU_TDR:
case MENU_WX:
strcpy(String, gSubMenu_CHAN[gSubMenuSelection]);
break;
case MENU_TOT:
if (gSubMenuSelection == 0) {
strcpy(String, "OFF");
} else {
sprintf(String, "%dmin", gSubMenuSelection);
}
break;
case MENU_VOICE:
strcpy(String, gSubMenu_VOICE[gSubMenuSelection]);
break;
case MENU_SC_REV:
strcpy(String, gSubMenu_SC_REV[gSubMenuSelection]);
break;
case MENU_MDF:
strcpy(String, gSubMenu_MDF[gSubMenuSelection]);
break;
case MENU_RP_STE:
if (gSubMenuSelection == 0) {
strcpy(String, "OFF");
} else {
sprintf(String, "%d*100ms", gSubMenuSelection);
}
break;
case MENU_S_LIST:
sprintf(String, "LIST%d", gSubMenuSelection);
break;
case MENU_AL_MOD:
sprintf(String, gSubMenu_AL_MOD[gSubMenuSelection]);
break;
case MENU_ANI_ID:
strcpy(String, gEeprom.ANI_DTMF_ID);
break;
case MENU_UPCODE:
strcpy(String, gEeprom.DTMF_UP_CODE);
break;
case MENU_DWCODE:
strcpy(String, gEeprom.DTMF_DOWN_CODE);
break;
case MENU_D_RSP:
strcpy(String, gSubMenu_D_RSP[gSubMenuSelection]);
break;
case MENU_D_HOLD:
sprintf(String, "%ds", gSubMenuSelection);
break;
case MENU_D_PRE:
sprintf(String, "%d*10ms", gSubMenuSelection);
break;
case MENU_PTT_ID:
strcpy(String, gSubMenu_PTT_ID[gSubMenuSelection]);
break;
case MENU_D_LIST:
gIsDtmfContactValid = DTMF_GetContact((uint8_t)gSubMenuSelection - 1, Contact);
if (!gIsDtmfContactValid) {
strcpy(String, "NULL");
} else {
strcpy(String, Contact);
}
break;
case MENU_PONMSG:
strcpy(String, gSubMenu_PONMSG[gSubMenuSelection]);
break;
case MENU_ROGER:
strcpy(String, gSubMenu_ROGER[gSubMenuSelection]);
break;
case MENU_VOL:
sprintf(String, "%.2fV", gBatteryVoltageAverage * 0.01);
break;
case MENU_RESET:
strcpy(String, gSubMenu_RESET[gSubMenuSelection]);
break;
case MENU_F_LOCK:
strcpy(String, gSubMenu_F_LOCK[gSubMenuSelection]);
break;
}
GUI_PrintString(String, 50, 127, 2, 8, true);
if (gMenuCursor == MENU_OFFSET) {
GUI_PrintString("MHz", 50, 127, 4, 8, true);
}
if ((gMenuCursor == MENU_RESET || gMenuCursor == MENU_MEM_CH || gMenuCursor == MENU_DEL_CH) && gAskForConfirmation != false) {
// TODO: Double check gAskForConfirmation
if (gAskForConfirmation == true) {
strcpy(String, "SURE?");
} else {
strcpy(String, "WAIT!");
}
GUI_PrintString(String, 50, 127, 4, 8, true);
}
if ((gMenuCursor == MENU_R_CTCS || gMenuCursor == MENU_R_DCS) && g_20000381 != 0) {
GUI_PrintString("SCAN", 50, 127, 4, 8, true);
}
if (gMenuCursor == MENU_UPCODE) {
if (strlen(gEeprom.DTMF_UP_CODE) > 8) {
GUI_PrintString(gEeprom.DTMF_UP_CODE + 8, 50, 127, 4, 8, true);
}
}
if (gMenuCursor == MENU_DWCODE) {
if (strlen(gEeprom.DTMF_DOWN_CODE) > 8) {
GUI_PrintString(gEeprom.DTMF_DOWN_CODE + 8, 50, 127, 4, 8, true);
}
}
if (gMenuCursor == MENU_D_LIST && gIsDtmfContactValid) {
memcpy(&gDTMF_ID, Contact, 4);
sprintf(String,"ID:%s", Contact);
GUI_PrintString(String, 50, 127, 4, 8, true);
}
if (gMenuCursor == MENU_R_CTCS || gMenuCursor == MENU_T_CTCS ||
gMenuCursor == MENU_R_DCS || gMenuCursor == MENU_T_DCS || gMenuCursor == MENU_D_LIST) {
uint8_t Offset;
NUMBER_ToDigits((uint8_t)gSubMenuSelection, String);
Offset = (gMenuCursor == MENU_D_LIST) ? 2 : 3;
// TODO: Double check r1
GUI_DisplaySmallDigits(Offset, String + (8 - Offset), 105, 0);
}
if (gMenuCursor != MENU_SLIST1 && gMenuCursor != MENU_SLIST2) {
goto Skip;
}
i = gMenuCursor - MENU_SLIST1;
if (gSubMenuSelection == 0xFF) {
sprintf(String,"NULL");
} else {
GenerateChannelStringEx(String, true, (uint8_t)gSubMenuSelection);
}
if (gSubMenuSelection == 0xFF || gEeprom.SCAN_LIST_ENABLED[i] != true) {
GUI_PrintString(String, 50, 127, 2, 8, 1);
} else {
GUI_PrintString(String, 50, 127, 0, 8, 1);
if (gEeprom.SCANLIST_PRIORITY_CH1[i] < 200) {
sprintf(String, "PRI1:%d", gEeprom.SCANLIST_PRIORITY_CH1[i] + 1);
GUI_PrintString(String, 50, 127, 2, 8, 1);
}
if (gEeprom.SCANLIST_PRIORITY_CH2[i] < 200) {
sprintf(String, "PRI2:%d", gEeprom.SCANLIST_PRIORITY_CH2[i] + 1);
GUI_PrintString(String, 50, 127, 4, 8, 1);
}
}
Skip:
ST7565_BlitFullScreen();
}
static void DisplayScanner(void)
{
char String[16];
bool bCentered;
uint8_t Start;
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
memset(String, 0, sizeof(String));
if (g_20000458 == 1 || (gScanState != 0 && gScanState != 3)) {
sprintf(String, "FREQ:%.5f", gScanFrequency * 1e-05);
} else {
sprintf(String, "FREQ:**.*****");
}
GUI_PrintString(String, 2, 127, 1, 8, 0);
memset(String, 0, sizeof(String));
if (gScanState < 2 || g_2000045C != 1) {
sprintf(String, "CTC:******");
} else if (g_CxCSS_Type == 1) {
sprintf(String, "CTC:%.1fHz", CTCSS_Options[g_CxCSS_Index] * 0.1);
} else {
sprintf(String, "DCS:D%03oN", DCS_Options[g_CxCSS_Index]);
}
GUI_PrintString(String, 2, 127, 3, 8, 0);
memset(String, 0, sizeof(String));
if (g_20000461 == 2) {
strcpy(String, "SAVE?");
Start = 0;
bCentered = 1;
} else {
if (g_20000461 == 1) {
strcpy(String, "SAVE:");
GenerateChannelStringEx(String + 5, gShowChPrefix, gScanChannel);
} else if (gScanState < 2) {
strcpy(String, "SCAN");
memset(String + 4, '.', (g_20000464 & 7) + 1);
} else {
if (gScanState == 2) {
strcpy(String, "SCAN CMP.");
} else {
strcpy(String, "SCAN FAIL.");
}
}
Start = 2;
bCentered = 0;
}
GUI_PrintString(String, Start, 127, 5, 8, bCentered);
ST7565_BlitFullScreen();
}
static void DisplayAircopy(void)
{
char String[16];
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
if (gAircopyState == AIRCOPY_READY) {
strcpy(String, "AIR COPY(RDY)");
} else if (gAircopyState == AIRCOPY_TRANSFER) {
strcpy(String, "AIR COPY");
} else {
strcpy(String, "AIR COPY(CMP)");
}
GUI_PrintString(String, 2, 127, 0, 8, true);
if (gNumberOffset == 0) {
NUMBER_ToDigits(gInfoCHAN_A->DCS[0].Frequency, String);
GUI_DisplayFrequency(String, 16, 2, 0, 0);
GUI_DisplaySmallDigits(2, String + 6, 97, 3);
} else {
GUI_DisplayFrequency(gNumberForPrintf, 16, 2, 1, 0);
}
memset(String, 0, sizeof(String));
if (gAirCopyIsSendMode == 0) {
sprintf(String, "RCV:%d E:%d", gAirCopyBlockNumber, gErrorsDuringAirCopy);
} else if (gAirCopyIsSendMode == 1) {
sprintf(String, "SND:%d", gAirCopyBlockNumber);
}
GUI_PrintString(String, 2, 127, 4, 8, true);
ST7565_BlitFullScreen();
}
void GUI_DisplayScreen(void)
{
switch (gScreenToDisplay) {
case DISPLAY_MAIN:
DisplayMain();
break;
case DISPLAY_FM:
DisplayFM();
break;
case DISPLAY_MENU:
DisplayMenu();
break;
case DISPLAY_SCANNER:
DisplayScanner();
break;
case DISPLAY_AIRCOPY:
DisplayAircopy();
break;
default:
break;
}
}
void GUI_SelectNextDisplay(GUI_DisplayType_t Display)
{
if (Display != DISPLAY_INVALID) {
if (gScreenToDisplay != Display) {
gNumberOffset = 0;
g_200003C6 = 0;
g_20000381 = 0;
gCurrentStep = 0;
g_20000390 = 0;
gAskForConfirmation = 0;
g_200003BA = 0;
g_200003BB = 0;
gF_LOCK = 0;
gAskToSave = false;
gAskToDelete = false;
if (gWasFKeyPressed == 1) {
gWasFKeyPressed = 0;
g_2000036F = 1;
}
}
gUpdateDisplay = true;
gScreenToDisplay = Display;
}
}
void GUI_RenderRSSI(uint8_t RssiLevel, uint8_t VFO)
{
uint8_t *pLine;
uint8_t Line;
bool bIsClearMode;
if (gCurrentFunction == FUNCTION_TRANSMIT || gScreenToDisplay != DISPLAY_MAIN) {
return;
}
if (VFO == 0) {
pLine = gFrameBuffer[2];
Line = 3;
} else {
pLine = gFrameBuffer[6];
Line = 7;
}
memset(pLine, 0, 23);
if (RssiLevel == 0) {
pLine = NULL;
bIsClearMode = true;
} else {
memcpy(pLine, BITMAP_Antenna,5);
memcpy(pLine + 5,BITMAP_AntennaLevel1, sizeof(BITMAP_AntennaLevel1));
if (RssiLevel >= 2) {
memcpy(pLine + 8, BITMAP_AntennaLevel2, sizeof(BITMAP_AntennaLevel2));
}
if (RssiLevel >= 3) {
memcpy(pLine + 11, BITMAP_AntennaLevel3, sizeof(BITMAP_AntennaLevel3));
}
if (RssiLevel >= 4) {
memcpy(pLine + 14, BITMAP_AntennaLevel4, sizeof(BITMAP_AntennaLevel4));
}
if (RssiLevel >= 5) {
memcpy(pLine + 17, BITMAP_AntennaLevel5, sizeof(BITMAP_AntennaLevel5));
}
if (RssiLevel >= 6) {
memcpy(pLine + 20, BITMAP_AntennaLevel6, sizeof(BITMAP_AntennaLevel6));
}
bIsClearMode = false;
}
ST7565_DrawLine(0, Line, 23 , pLine, bIsClearMode);
}
void GUI_DisplayRSSI(uint16_t RSSI)
{
uint8_t Level;
if (RSSI >= gEEPROM_RSSI_CALIB[gInfoCHAN_A->Band][3]) {
Level = 6;
} else if (RSSI >= gEEPROM_RSSI_CALIB[gInfoCHAN_A->Band][2]) {
Level = 4;
} else if (RSSI >= gEEPROM_RSSI_CALIB[gInfoCHAN_A->Band][1]) {
Level = 2;
} else if (RSSI >= gEEPROM_RSSI_CALIB[gInfoCHAN_A->Band][0]) {
Level = 1;
} else {
Level = 0;
}
if (gVFO_RSSI_Level[gEeprom.RX_CHANNEL] != Level) {
gVFO_RSSI_Level[gEeprom.RX_CHANNEL] = Level;
GUI_RenderRSSI(Level, gEeprom.RX_CHANNEL);
}
}