uv-k5-firmware-custom/ui/main.c
2023-09-12 11:01:34 +01:00

472 lines
14 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 "app/dtmf.h"
#include "bitmaps.h"
#include "driver/st7565.h"
#include "external/printf/printf.h"
#include "functions.h"
#include "misc.h"
#include "radio.h"
#include "settings.h"
#include "ui/helper.h"
#include "ui/inputbox.h"
#include "ui/main.h"
void UI_DisplayMain(void)
{
char String[16];
unsigned int vfo_num;
memset(gFrameBuffer, 0, sizeof(gFrameBuffer));
if (gEeprom.KEY_LOCK && gKeypadLocked)
{
UI_PrintString("Long Press #", 0, 127, 1, 8, true);
UI_PrintString("To Unlock", 0, 127, 3, 8, true);
ST7565_BlitFullScreen();
return;
}
// #ifdef SINGLE_VFO_CHAN
// const bool single_vfo = (gEeprom.DUAL_WATCH == DUAL_WATCH_OFF && gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) ? true : false;
// #else
const bool single_vfo = false;
// #endif
for (vfo_num = 0; vfo_num < 2; vfo_num++)
{
uint8_t Channel = gEeprom.TX_CHANNEL;
bool bIsSameVfo = !!(Channel == vfo_num);
uint8_t Line = (vfo_num == 0) ? 0 : 4;
uint8_t *pLine0 = gFrameBuffer[Line + 0];
uint8_t *pLine1 = gFrameBuffer[Line + 1];
uint32_t frequency_Hz = 0;
if (single_vfo)
{ // we're in single VFO mode
if (!bIsSameVfo)
continue; // skip the unused vfo .. screen is dedicated to just a single VFO
//Line = 1;
//pLine0 = gFrameBuffer[Line + 0];
//pLine1 = gFrameBuffer[Line + 1];
}
if (gEeprom.DUAL_WATCH != DUAL_WATCH_OFF && gRxVfoIsActive)
Channel = gEeprom.RX_CHANNEL;
if (Channel != vfo_num)
{
if (gDTMF_CallState != DTMF_CALL_STATE_NONE || gDTMF_IsTx || gDTMF_InputMode)
{ // show DTMF stuff
char Contact[16];
if (!gDTMF_InputMode)
{
memset(Contact, 0, sizeof(Contact));
if (gDTMF_CallState == DTMF_CALL_STATE_CALL_OUT)
strcpy(String, (gDTMF_State == DTMF_STATE_CALL_OUT_RSP) ? "CALL OUT(RSP)" : "CALL OUT");
else
if (gDTMF_CallState == DTMF_CALL_STATE_RECEIVED)
sprintf(String, "CALL:%s", (DTMF_FindContact(gDTMF_Caller, Contact)) ? Contact : gDTMF_Caller);
else
if (gDTMF_IsTx)
strcpy(String, (gDTMF_State == DTMF_STATE_TX_SUCC) ? "DTMF TX(SUCC)" : "DTMF TX");
}
else
sprintf(String, ">%s", gDTMF_InputBox);
UI_PrintString(String, 2, 127, vfo_num * 3, 8, false);
memset(String, 0, sizeof(String));
if (!gDTMF_InputMode)
{
memset(Contact, 0, sizeof(Contact));
if (gDTMF_CallState == DTMF_CALL_STATE_CALL_OUT)
sprintf(String, ">%s", (DTMF_FindContact(gDTMF_String, Contact)) ? Contact : gDTMF_String);
else
if (gDTMF_CallState == DTMF_CALL_STATE_RECEIVED)
sprintf(String, ">%s", (DTMF_FindContact(gDTMF_Callee, Contact)) ? Contact : gDTMF_Callee);
else
if (gDTMF_IsTx)
sprintf(String, ">%s", gDTMF_String);
}
UI_PrintString(String, 2, 127, 2 + (vfo_num * 3), 8, false);
continue;
}
// highlight the selected/used VFO with a marker
if (!single_vfo && bIsSameVfo)
memcpy(pLine0 + 2, BITMAP_VFO_Default, sizeof(BITMAP_VFO_Default));
}
else
if (!single_vfo)
{ // highlight the selected/used VFO with a marker
if (bIsSameVfo)
memcpy(pLine0 + 2, BITMAP_VFO_Default, sizeof(BITMAP_VFO_Default));
//else
//memcpy(pLine0 + 2, BITMAP_VFO_NotDefault, sizeof(BITMAP_VFO_NotDefault));
}
uint32_t SomeValue = 0;
if (gCurrentFunction == FUNCTION_TRANSMIT)
{ // transmitting
#ifndef DISABLE_ALARM
if (gAlarmState == ALARM_STATE_ALARM)
{
SomeValue = 2;
}
else
#endif
{
Channel = (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) ? gEeprom.RX_CHANNEL : gEeprom.TX_CHANNEL;
if (Channel == vfo_num)
{ // show the TX symbol
SomeValue = 1;
memcpy(pLine0 + 14, BITMAP_TX, sizeof(BITMAP_TX));
}
}
}
else
{ // show the RX symbol
SomeValue = 2;
if ((gCurrentFunction == FUNCTION_RECEIVE || gCurrentFunction == FUNCTION_MONITOR) && gEeprom.RX_CHANNEL == vfo_num)
memcpy(pLine0 + 14, BITMAP_RX, sizeof(BITMAP_RX));
}
if (IS_MR_CHANNEL(gEeprom.ScreenChannel[vfo_num]))
{ // channel mode
// show the memory symbol
memcpy(pLine1 + 2, BITMAP_M, sizeof(BITMAP_M));
// show the memory channel number
if (gInputBoxIndex == 0 || gEeprom.TX_CHANNEL != vfo_num)
NUMBER_ToDigits(gEeprom.ScreenChannel[vfo_num] + 1, String);
else
memcpy(String + 5, gInputBox, 3);
UI_DisplaySmallDigits(3, String + 5, 10, Line + 1);
}
else
if (IS_FREQ_CHANNEL(gEeprom.ScreenChannel[vfo_num]))
{
// show the frequency band number
char c;
memcpy(pLine1 + 14, BITMAP_F, sizeof(BITMAP_F));
c = (gEeprom.ScreenChannel[vfo_num] - FREQ_CHANNEL_FIRST) + 1;
UI_DisplaySmallDigits(1, &c, 22, Line + 1);
}
else
{
// show the 'N' narrow band symbol
memcpy(pLine1 + 7, BITMAP_NarrowBand, sizeof(BITMAP_NarrowBand));
if (gInputBoxIndex == 0 || gEeprom.TX_CHANNEL != vfo_num)
{
NUMBER_ToDigits((gEeprom.ScreenChannel[vfo_num] - NOAA_CHANNEL_FIRST) + 1, String);
}
else
{
String[6] = gInputBox[0];
String[7] = gInputBox[1];
}
UI_DisplaySmallDigits(2, String + 6, 15, Line + 1);
}
uint8_t State = VfoState[vfo_num];
#ifndef DISABLE_ALARM
if (gCurrentFunction == FUNCTION_TRANSMIT && gAlarmState == ALARM_STATE_ALARM)
{
Channel = (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) ? gEeprom.RX_CHANNEL : gEeprom.TX_CHANNEL;
if (Channel == vfo_num)
State = VFO_STATE_ALARM;
}
#endif
if (State != VFO_STATE_NORMAL)
{
uint8_t Width = 10;
memset(String, 0, sizeof(String));
switch (State)
{
case VFO_STATE_BUSY:
strcpy(String, "BUSY");
//Width = 15;
break;
case VFO_STATE_BAT_LOW:
strcpy(String, "BAT LOW");
break;
case VFO_STATE_TX_DISABLE:
strcpy(String, "TX DISABLE");
break;
case VFO_STATE_TIMEOUT:
strcpy(String, "TIMEOUT");
break;
case VFO_STATE_ALARM:
strcpy(String, "ALARM");
break;
case VFO_STATE_VOLTAGE_HIGH:
sprintf(String, "VOLT HIGH");
Width = 8;
break;
}
#if 0
UI_PrintString(String, 31, 111, Line, Width, true);
#else
(void)Width;
UI_PrintString(String, 31, 111, Line, 8, false);
#endif
}
else
{ // normal state
if (gInputBoxIndex && IS_FREQ_CHANNEL(gEeprom.ScreenChannel[vfo_num]) && gEeprom.TX_CHANNEL == vfo_num)
{ // user is entering a new frequency
UI_DisplayFrequency(gInputBox, 31, Line, true, false);
}
else
{
if (IS_MR_CHANNEL(gEeprom.ScreenChannel[vfo_num]))
{ // channel mode#
frequency_Hz = gEeprom.VfoInfo[vfo_num].pRX->Frequency;
if (gCurrentFunction == FUNCTION_TRANSMIT)
{ // transmitting
Channel = (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) ? gEeprom.RX_CHANNEL : gEeprom.TX_CHANNEL;
if (Channel == vfo_num)
frequency_Hz = gEeprom.VfoInfo[vfo_num].pTX->Frequency;
}
{ // show the scanlist symbols
const uint8_t Attributes = gMR_ChannelAttributes[gEeprom.ScreenChannel[vfo_num]];
if (Attributes & MR_CH_SCANLIST1)
memcpy(pLine0 + 113, BITMAP_ScanList, sizeof(BITMAP_ScanList));
if (Attributes & MR_CH_SCANLIST2)
memcpy(pLine0 + 120, BITMAP_ScanList, sizeof(BITMAP_ScanList));
}
switch (gEeprom.CHANNEL_DISPLAY_MODE)
{
case MDF_FREQUENCY: // show the channel frequency
#ifndef DISABLE_BIG_FREQ
NUMBER_ToDigits(frequency_Hz, String);
// show the main large frequency digits
UI_DisplayFrequency(String, 31, Line, false, false);
// show the remaining 2 small frequency digits
UI_DisplaySmallDigits(2, String + 6, 112, Line + 1);
#else
// show the frequency in the main font
sprintf(String, "%9.5f", frequency_Hz * 0.00001);
UI_PrintString(String, 31, 112, Line, 8, true);
#endif
frequency_Hz = 0;
break;
case MDF_CHANNEL: // show the channel number
sprintf(String, "CH-%03d", gEeprom.ScreenChannel[vfo_num] + 1);
UI_PrintString(String, 31, 112, Line, 8, true);
frequency_Hz = 0;
break;
case MDF_NAME: // show the channel name
if (gEeprom.VfoInfo[vfo_num].Name[0] == 0 || gEeprom.VfoInfo[vfo_num].Name[0] == 0xFF)
{ // no channel name, show the channel number instead
sprintf(String, "CH-%03d", gEeprom.ScreenChannel[vfo_num] + 1);
UI_PrintString(String, 31, 112, Line, 8, true);
}
else
{ // channel name
UI_PrintString(gEeprom.VfoInfo[vfo_num].Name, 31, 112, Line, 8, true);
}
frequency_Hz = 0;
break;
#ifdef CHAN_NAME_FREQ
case MDF_NAME_FREQ: // show the channel name and frequency
if (gEeprom.VfoInfo[vfo_num].Name[0] == 0 || gEeprom.VfoInfo[vfo_num].Name[0] == 0xFF)
{ // no channel name, show channel number instead
sprintf(String, "CH-%03d", gEeprom.ScreenChannel[vfo_num] + 1);
UI_PrintStringSmall(gEeprom.VfoInfo[vfo_num].Name, 31 + 8, 0, Line, false);
}
else
{ // channel name
memset(String, 0, sizeof(String));
memcpy(String, gEeprom.VfoInfo[vfo_num].Name, 8);
UI_PrintStringSmall(gEeprom.VfoInfo[vfo_num].Name, 31 + 8, 0, Line, false);
}
break;
#endif
}
}
else
{ // frequency mode
frequency_Hz = gEeprom.VfoInfo[vfo_num].pRX->Frequency;
if (gCurrentFunction == FUNCTION_TRANSMIT)
{ // transmitting
Channel = (gEeprom.CROSS_BAND_RX_TX == CROSS_BAND_OFF) ? gEeprom.RX_CHANNEL : gEeprom.TX_CHANNEL;
if (Channel == vfo_num)
frequency_Hz = gEeprom.VfoInfo[vfo_num].pTX->Frequency;
}
#ifndef DISABLE_BIG_FREQ
NUMBER_ToDigits(frequency_Hz, String); // 8 digits
// show the main large frequency digits
UI_DisplayFrequency(String, 31, Line, false, false);
// show the remaining 2 small frequency digits
UI_DisplaySmallDigits(2, String + 6, 112, Line + 1);
#else
// show the frequency in the main font
sprintf(String, "%9.5f", frequency_Hz * 0.00001);
UI_PrintString(String, 31, 112, Line, 8, true);
#endif
frequency_Hz = 0;
}
}
}
{ // show the TX/RX level
uint8_t Level = 0;
if (SomeValue == 1)
{ // TX power level
switch (gRxVfo->OUTPUT_POWER)
{
case OUTPUT_POWER_LOW:
Level = 2;
break;
case OUTPUT_POWER_MID:
Level = 4;
break;
case OUTPUT_POWER_HIGH:
Level = 6;
break;
}
}
else
if (SomeValue == 2)
{ // RX signal level
if (gVFO_RSSI_Level[vfo_num])
Level = gVFO_RSSI_Level[vfo_num];
}
if (Level >= 1)
{
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));
}
}
if (gEeprom.VfoInfo[vfo_num].IsAM)
{ // show the AM symbol
memcpy(pLine1 + 128 + 27, BITMAP_AM, sizeof(BITMAP_AM));
}
else
{ // show the CTCSS or DCS symbol
const FREQ_Config_t *pConfig = (SomeValue == 1) ? gEeprom.VfoInfo[vfo_num].pTX : gEeprom.VfoInfo[vfo_num].pRX;
switch (pConfig->CodeType)
{
case CODE_TYPE_CONTINUOUS_TONE: // CTCSS
memcpy(pLine1 + 128 + 27, BITMAP_CT, sizeof(BITMAP_CT));
break;
case CODE_TYPE_DIGITAL:
case CODE_TYPE_REVERSE_DIGITAL: // DCS
memcpy(pLine1 + 128 + 24, BITMAP_DCS, sizeof(BITMAP_DCS));
break;
default:
break;
}
}
switch (gEeprom.VfoInfo[vfo_num].OUTPUT_POWER)
{ // show the TX power level symbol
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[vfo_num].ConfigRX.Frequency != gEeprom.VfoInfo[vfo_num].ConfigTX.Frequency)
{ // show the TX offset symbol
if (gEeprom.VfoInfo[vfo_num].FREQUENCY_DEVIATION_SETTING == FREQUENCY_DEVIATION_ADD)
memcpy(pLine1 + 128 + 54, BITMAP_Add, sizeof(BITMAP_Add));
if (gEeprom.VfoInfo[vfo_num].FREQUENCY_DEVIATION_SETTING == FREQUENCY_DEVIATION_SUB)
memcpy(pLine1 + 128 + 54, BITMAP_Sub, sizeof(BITMAP_Sub));
}
// show the TX/RX reverse symbol
if (gEeprom.VfoInfo[vfo_num].FrequencyReverse)
memcpy(pLine1 + 128 + 64, BITMAP_ReverseMode, sizeof(BITMAP_ReverseMode));
// show the narrow band symbol
if (gEeprom.VfoInfo[vfo_num].CHANNEL_BANDWIDTH == BANDWIDTH_NARROW)
memcpy(pLine1 + 128 + 74, BITMAP_NarrowBand, sizeof(BITMAP_NarrowBand));
// show the DTMF decoding symbol
if (gEeprom.VfoInfo[vfo_num].DTMF_DECODING_ENABLE || gSetting_KILLED)
memcpy(pLine1 + 128 + 84, BITMAP_DTMF, sizeof(BITMAP_DTMF));
// show the audio scramble symbol
if (gEeprom.VfoInfo[vfo_num].SCRAMBLING_TYPE && gSetting_ScrambleEnable)
memcpy(pLine1 + 128 + 110, BITMAP_Scramble, sizeof(BITMAP_Scramble));
#ifdef CHAN_NAME_FREQ
if (frequency_Hz > 0)
{ // show the channel frequency below the channel number/name
#if 1
NUMBER_ToDigits(frequency_Hz, String); // 8 digits
UI_DisplayFrequencySmall(String, 31 + 8, Line + 1, false);
#else
sprintf(String, "%9.5f", frequency_Hz * 0.00001);
UI_PrintStringSmall(String, 31 + 8, 0, Line + 1, false);
#endif
}
#endif
}
ST7565_BlitFullScreen();
}