UHSDR/UHSDR-active-devel/mchf-eclipse/drivers/ui/ui_vkeybrd.c
2022-08-24 08:39:13 +02:00

1190 lines
42 KiB
C
Executable File

/* -*- mode: c; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4; coding: utf-8 -*- */
/************************************************************************************
** **
** UHSDR **
** a powerful firmware for STM32 based SDR transceivers **
** **
**--------------------------------------------------------------------------------**
** **
** File name: ui_vkeybrd.c **
** Description: Virtual keyboard functions **
** Licence: GNU GPLv3 **
** Author: Slawomir Balon/SP9BSL **
************************************************************************************/
#include "uhsdr_board.h"
#include "ui_spectrum.h"
#include "ui_driver.h"
#include <stdlib.h>
#include <stdio.h>
#include "radio_management.h"
#define Col_BtnForeCol RGB(0x90,0x90,0x90)
#define Col_BtnForePressed RGB(0x70,0x70,0x70)
#define Col_BtnLightLeftTop RGB(0xd0,0xd0,0xd0)
#define Col_BtnLightRightBot RGB(0x50,0x50,0x50)
#define Col_BtnDisabled RGB(0x60,0x60,0x60)
#define Col_Warning RGB(0xC0,0xC0,0x50)
void UiVk_RedrawBndSelVirtualKeys();
void UiVk_RedrawBndFreqSetVirtualKeys();
void UiVk_RedrawModSelVirtualKeys();
void UiVk_RedrawDSPVirtualKeys();
uint8_t UiVk_KeyState[UiVk_MaxKeyCount];
/**
* @brief Draws basic button shape
* @param Ka pointer to button description area
* @param col_Bcgr colour of background (inside button)
* @param col_LeftUP colour of Left/up edge (highlighted)
* @param col_RightBot colour of Right/bottom (shadowed)
*/
static void UiVk_DrawButtonBody(UiArea_t* Ka, uint16_t col_Bcgr, uint16_t col_LeftUP, uint16_t col_RightBot)
{
UiLcdHy28_DrawFullRect(Ka->x+1,Ka->y+1,Ka->h-1,Ka->w-1,col_Bcgr);
UiLcdHy28_DrawStraightLine(Ka->x,Ka->y,Ka->h+1,LCD_DIR_VERTICAL,col_LeftUP); //left
UiLcdHy28_DrawStraightLine(Ka->x+1,Ka->y,Ka->w,LCD_DIR_HORIZONTAL,col_LeftUP); //top
UiLcdHy28_DrawStraightLine(Ka->x+Ka->w,Ka->y+1,Ka->h-1,LCD_DIR_VERTICAL,col_RightBot); //right
UiLcdHy28_DrawStraightLine(Ka->x+1,Ka->y+Ka->h,Ka->w,LCD_DIR_HORIZONTAL,col_RightBot); //bottom
}
/**
* @brief Function draws button, with described state and text
* @param Btn_area rectangle describing button position and size
* @param Warning 1=Warning sign
* @param Vbtn_State see @ref Vbtn_State_
* @param txt Text to be printed on button
* @param text_color_NotPressed text colour of not pressed button
* @param text_color_Pressed text colour of pressed (normal) button
*/
static void UiVk_DrawButton(UiArea_t* Btn_area, bool Warning, uint8_t Vbtn_State, const char* txt, uint16_t text_color_NotPressed, uint16_t text_color_Pressed, uint8_t font)
{
uint16_t col_LeftUP, col_RightBot, col_Bcgr, col_Text;
switch(Vbtn_State)
{
case Vbtn_State_Disabled:
col_LeftUP=Col_BtnDisabled;
col_RightBot=Col_BtnDisabled;
col_Bcgr=Col_BtnForeCol;
col_Text=Col_BtnDisabled;
break;
case Vbtn_State_Pressed:
col_LeftUP=Col_BtnLightRightBot;
col_RightBot=Col_BtnLightLeftTop;
col_Bcgr=Col_BtnForePressed;
col_Text=text_color_Pressed;
break;
case Vbtn_State_Normal:
default:
col_LeftUP=Col_BtnLightLeftTop;
col_RightBot=Col_BtnLightRightBot;
col_Bcgr=Warning?Col_Warning:Col_BtnForeCol;
col_Text=text_color_NotPressed;
break;
}
uint8_t FontHeight=UiLcdHy28_TextHeight(font);
uint16_t TextHeight = FontHeight;
const char* txt_=txt;
while(*txt_!=0)
{
if(*txt_=='\n')
{
TextHeight+=FontHeight;
}
txt_++;
}
UiVk_DrawButtonBody(Btn_area,col_Bcgr,col_LeftUP,col_RightBot);
UiLcdHy28_PrintTextCentered(Btn_area->x+2,Btn_area->y+Btn_area->h/2-TextHeight/2,Btn_area->w-4,txt,col_Text,col_Bcgr,font);
}
/**
* @brief Returns dimension of virtual keyboard draw area
* @param KeybArea pointer to virtual keypad draw area
*/
static void UiVk_GetKeybArea(UiArea_t* KeybArea)
{
const VKeypad* VKpad=ts.VirtualKeyPad;
KeybArea->w=VKpad->Columns*VKpad->KeyWidth+
(VKpad->Columns-1)*VKpad->KeySpacing;
KeybArea->h=VKpad->Rows*(VKpad->KeyHeight)+
(VKpad->Rows-1)*VKpad->KeySpacing+VKpad->YtopMargin;
KeybArea->x=sd.Slayout->full.x+sd.Slayout->full.w/2-KeybArea->w/2;
KeybArea->y=sd.Slayout->full.y+sd.Slayout->full.h/2-KeybArea->h/2;
}
/**
* @brief Returns dimension and location of selected key
* @param Key number of key in keypad to locate
* @param bp returned pointer to key area
*/
static void UiVk_GetButtonRgn(uint8_t Key, UiArea_t *bp)
{
const VKeypad* VKpad=ts.VirtualKeyPad;
int row, col;
row=Key/VKpad->Columns;
col=Key-row*VKpad->Columns;
UiArea_t KeybArea;
UiVk_GetKeybArea(&KeybArea);
uint16_t KeyExpX=VKpad->Keys[Key].SizeX;
uint16_t KeyExpY=VKpad->Keys[Key].SizeY;
bp->x=KeybArea.x+col*(VKpad->KeyWidth+VKpad->KeySpacing);
bp->y=KeybArea.y+row*(VKpad->KeyHeight+VKpad->KeySpacing)+VKpad->YtopMargin;
bp->w=VKpad->KeyWidth*(KeyExpX+1)+(VKpad->KeySpacing*KeyExpX);
bp->h=VKpad->KeyHeight*(KeyExpY+1)+(VKpad->KeySpacing*KeyExpY);
}
/**
* @brief Draws Virtual keypad
*/
static void UiVk_DrawVKeypad(void)
{
const VKeypad* VKpad=ts.VirtualKeyPad;
int row, col, keycnt=0, Warning=0;
UiArea_t b_area;
for(row=0;row<VKpad->Rows;row++)
{
for(col=0;col<VKpad->Columns;col++)
{
if(keycnt==VKpad->NumberOfKeys)
{
return;
}
UiVk_GetButtonRgn(keycnt,&b_area);
if(VKpad->Keys[keycnt].KeyWarning)
Warning=VKpad->Keys[keycnt].KeyWarning(keycnt,0);
uint8_t KeyState=VKpad->VKeyStateCallBack(keycnt,VKpad->Keys[keycnt].ShortPar);
UiVk_KeyState[keycnt]=KeyState;
UiVk_DrawButton(&b_area,
Warning,KeyState,VKpad->Keys[keycnt].KeyText,
VKpad->Keys[keycnt].TextColor,VKpad->Keys[keycnt].PressedTextColor,VKpad->Keys[keycnt].KeyFont);
keycnt++;
}
}
}
/**
* @brief Main touch respose processing function
* @param is_long_press
* @return
*/
bool UiVk_Process_VirtualKeypad(bool is_long_press)
{
bool TouchProcessed=UiDriver_CheckTouchRegion(&sd.Slayout->full); //if the area of virtual keys pressed, mark as processed for other actions
UiArea_t bp;
for(int i=0;i<ts.VirtualKeyPad->NumberOfKeys;i++)
{
UiVk_GetButtonRgn(i,&bp);
if(UiDriver_CheckTouchRegion(&bp))
{
if(is_long_press && ts.VirtualKeyPad->Keys[i].LongFnc)
{
ts.VirtualKeyPad->Keys[i].LongFnc(i,ts.VirtualKeyPad->Keys[i].LongPar);
}
else if(ts.VirtualKeyPad->Keys[i].ShortFnc)
{
ts.VirtualKeyPad->Keys[i].ShortFnc(i,ts.VirtualKeyPad->Keys[i].ShortPar);
}
}
}
return TouchProcessed;
}
/**
* @brief Draws Background of virtual keyboard
* @param X_enlarge Keyboard background enlarge in pixels (real X size is enlarged by this value multiplied by 2)
* @param Y_enlarge Keyboard background enlarge in pixels (real Y size is enlarged by this value multiplied by 2)
*/
static void UiVk_DrawBackGround(void)
{
UiArea_t Ka;//drawing the background
UiVk_GetKeybArea(&Ka);
Ka.x-=ts.VirtualKeyPad->Backgr_Wnlarge;
Ka.y-=ts.VirtualKeyPad->Backgr_Hnlarge;
Ka.w+=2*ts.VirtualKeyPad->Backgr_Wnlarge;
Ka.h+=2*ts.VirtualKeyPad->Backgr_Hnlarge;
UiVk_DrawButtonBody(&Ka,Col_BtnForeCol,Col_BtnLightLeftTop,Col_BtnLightRightBot);
}
/**
* @brief Redraws virtual keyboard (refresh with potential changed parameters)
*/
void UiVk_Redraw()
{
if(ts.VirtualKeysShown_flag && ts.VirtualKeyPad->RedrawFunct)
{
ts.VirtualKeyPad->RedrawFunct();
}
}
//End of main body of virtual keyboard
//---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
//The real definitions of virtual keypads starts here
//DSP box VKeypad=================================================================
uint32_t prev_dsp_functions_active; //used for virtual DSP keys redraw detections
//this array is needed because different bit definitions are used for ts.dsp.mode and ts.dsp.active, so we cannot simply pass the CallBackShort parameter
const uint32_t dsp_functions[]={0, DSP_NR_ENABLE, DSP_ANR_ENABLE, DSP_NOTCH_ENABLE, DSP_NOTCH_ENABLE|DSP_NR_ENABLE, DSP_MNOTCH_ENABLE, DSP_MPEAK_ENABLE};
static void UiVk_DSPVKeyCallBackShort(uint8_t KeyNum, uint32_t param)
{
uint8_t new_dsp_mode = ts.dsp.mode;
// if(((ts.dsp.mode_mask&(1<<KeyNum))!=0) || (KeyNum==0))
if(param != 255)
{
new_dsp_mode=param;
}
// try to enable the selected dsp mode
UiDriver_UpdateDSPmode(new_dsp_mode);
}
static void UiVk_ModeVKeyCallBackShort(uint8_t KeyNum, uint32_t param)
{
// change mode
if(ts.txrx_mode!=TRX_MODE_RX) { return; }
if (ts.expflags2 & EXPFLAGS2_TEMP_MEM_BW_MOD_BAND) // enabled temp. remember BW on mode & band
{
UiDriver_StoreBwData();
}
#ifndef USE_FREEDV
if(KeyNum==7) { return; }
#endif
bool SBisLSB = (df.tune_new <= 10000000 && RadioManagement_GetBand(df.tune_new)->band_mode != BAND_MODE_60);
ts.dvmode = false;
if(param == ModeVK_SSB) { ts.dmod_mode = !SBisLSB? DEMOD_USB: DEMOD_LSB; }
else if(param==ModeVK_AM) { ts.dmod_mode = DEMOD_AM; }
else if(param==ModeVK_SAM) { ts.dmod_mode = DEMOD_SAM; ads.sam_sideband = SAM_SIDEBAND_BOTH; }
else if(param==ModeVK_CW) { ts.dmod_mode = DEMOD_CW; ts.cw_lsb = RadioManagement_CalculateCWSidebandMode(); }
else if(param==ModeVK_FM) { ts.dmod_mode = DEMOD_FM; ts.flags2 = ts.flags2 & ~FLAGS2_FM_MODE_DEVIATION_5KHZ; }
else if(param==ModeVK_RTTY) { ts.dmod_mode = DEMOD_DIGI; ts.digi_lsb = SBisLSB; ts.digital_mode = DigitalMode_RTTY; ts.dvmode = true; }
else if(param==ModeVK_BPSK) { ts.dmod_mode = DEMOD_DIGI; ts.digi_lsb = SBisLSB; ts.digital_mode = DigitalMode_BPSK; ts.dvmode = true; }
#ifdef USE_FREEDV
else if(param==ModeVK_FDV) { ts.dmod_mode = DEMOD_DIGI; ts.digi_lsb = SBisLSB; ts.digital_mode = DigitalMode_FreeDV; ts.dvmode = true; }
#endif
ts.filter_path = AudioFilter_GetFilterModeFromDemodMode(ts.dmod_mode);
RadioManagement_SetDemodMode(ts.dmod_mode);
UiDriver_UpdateDisplayAfterParamChange();
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
static void UiVk_DSPVKeyCallBackLong(uint8_t KeyNum, uint32_t param)
{
ts.dsp.mode_mask^=1<<KeyNum;
// mask out this dsp function, to make it no longer available
prev_dsp_functions_active=-1;
// now find a new valid mode starting from the current one
// this switches mode only if the current active mode is the
// one we just disabled
UiDriver_UpdateDSPmode(ts.dsp.mode);
}
//static void UiVk_ModeVKeyCallBackLong(uint8_t KeyNum, uint32_t param)
//{
// // inverse sideband
// UiAction_ChangeDemodModeToAlternativeMode();
// UiDriver_UpdateDisplayAfterParamChange();
//}
static uint8_t UiVk_DSPVKeyCallBackWarning(uint8_t KeyNum, uint32_t param)
{
uint8_t result=0;
if((KeyNum==3) && mchf_display.use_spi)
result=1;
return result;
}
static uint8_t UiVk_DSPVKeyInitTypeDraw(uint8_t KeyNum, uint32_t param)
{
uint8_t Keystate=Vbtn_State_Normal;
uint32_t dsp_functions_active =UiDriver_GetActiveDSPFunctions();
// if(((ts.dsp.mode_mask&(1<<KeyNum))==0) && (KeyNum>0))
if(param==255) //(((ts.dsp.mode_mask&(1<<KeyNum))==0) && (KeyNum>0)))
{
Keystate=Vbtn_State_Disabled;
}
else if(dsp_functions_active==dsp_functions[KeyNum])
{
Keystate=Vbtn_State_Pressed;
}
return Keystate;
}
static uint8_t UiVk_ModeVKeyInitTypeDraw(uint8_t KeyNum, uint32_t param)
{
uint8_t Keystate = Vbtn_State_Normal;
uint8_t mode_t;
if(ts.dmod_mode == DEMOD_USB || ts.dmod_mode == DEMOD_LSB) { mode_t = ModeVK_SSB; }
else if(ts.dmod_mode == DEMOD_AM) { mode_t = ModeVK_AM; }
else if(ts.dmod_mode == DEMOD_SAM) { mode_t = ModeVK_SAM; }
else if(ts.dmod_mode == DEMOD_CW) { mode_t = ModeVK_CW; }
else if(ts.dmod_mode == DEMOD_FM) { mode_t = ModeVK_FM; }
else if(ts.dmod_mode == DEMOD_DIGI && ts.digital_mode == DigitalMode_RTTY) { mode_t = ModeVK_RTTY; }
else if(ts.dmod_mode == DEMOD_DIGI && ts.digital_mode == DigitalMode_BPSK) { mode_t = ModeVK_BPSK; }
#ifdef USE_FREEDV
else if(ts.dmod_mode == DEMOD_DIGI && ts.digital_mode == DigitalMode_FreeDV) { mode_t = ModeVK_FDV; }
#endif
if(param == mode_t)
{
Keystate = Vbtn_State_Pressed;
}
return Keystate;
}
#define col_Keys_DSP_pr RGB(0xff,0xff,0xff) //text color when pressed
#define col_Keys_DSP_npr Black //text color when in normal state
const VKey Keys_DSP[]={
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_OFF, .KeyText="DSP\nOFF", .TextColor=Black, .PressedTextColor=RGB(0,0xff,0xff)},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_NR, .LongFnc=UiVk_DSPVKeyCallBackLong,.KeyText="NR", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_ANR, .LongFnc=UiVk_DSPVKeyCallBackLong,.KeyText="ANR", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_NOTCH, .LongFnc=UiVk_DSPVKeyCallBackLong,.KeyText="AUTO\nNOTCH", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_NR_AND_NOTCH,.KeyWarning=UiVk_DSPVKeyCallBackWarning, .LongFnc=UiVk_DSPVKeyCallBackLong,.KeyText="NR\n+NOTCH", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_NOTCH_MANUAL, .LongFnc=UiVk_DSPVKeyCallBackLong,.KeyText="MAN\nNOTCH", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=DSP_SWITCH_PEAK_FILTER, .LongFnc=UiVk_DSPVKeyCallBackLong,.KeyText="PEAK", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_DSPVKeyCallBackShort, .ShortPar=255, .KeyText="NOP", .TextColor=Grey1, .PressedTextColor=col_Keys_DSP_pr}
};
const VKey Keys_MODE[]={
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_SSB, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="SSB", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_CW, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="CW", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_AM, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="AM", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_SAM, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="SAM", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_FM, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="FM", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_RTTY,.LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="RTTY", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_BPSK,.LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="BPSK", .TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr},
#ifdef USE_FREEDV
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_FDV, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="FreeDV",.TextColor=col_Keys_DSP_npr, .PressedTextColor=col_Keys_DSP_pr}
#else
{.ShortFnc=UiVk_ModeVKeyCallBackShort, .ShortPar=ModeVK_FDV, .LongFnc=UiVk_ModeVKeyCallBackShort, .KeyText="NOP",.TextColor=Grey4, .PressedTextColor=col_Keys_DSP_pr}
#endif
};
const VKeypad Keypad_DSP480x320={
// .NumberOfKeys=6,
.NumberOfKeys=8,
.Rows=2,
// .Columns=3,
.Columns=4,
.Keys=Keys_DSP,
.KeyWidth=60,
.KeyHeight=40,
.KeySpacing=8,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_DSPVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawDSPVirtualKeys
};
const VKeypad Keypad_DSP320x240={
// .NumberOfKeys=6,
.NumberOfKeys=8,
.Rows=2,
// .Columns=3,
.Columns=4,
.Keys=Keys_DSP,
.KeyWidth=52,
.KeyHeight=32,
.KeySpacing=4,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_DSPVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawDSPVirtualKeys
};
const VKeypad Keypad_MODE480x320={
.NumberOfKeys=8,
.Rows=2,
.Columns=4,
.Keys=Keys_MODE,
.KeyWidth=52,
.KeyHeight=32,
.KeySpacing=4,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_ModeVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawModeVirtualKeys
};
const VKeypad Keypad_MODE320x240={
.NumberOfKeys=8,
.Rows=2,
.Columns=4,
.Keys=Keys_MODE,
.KeyWidth=52,
.KeyHeight=32,
.KeySpacing=4,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_ModeVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawModeVirtualKeys
};
void UiVk_RedrawDSPVirtualKeys()
{
if(ts.VirtualKeysShown_flag)
{
uint32_t dsp_functions_active =UiDriver_GetActiveDSPFunctions();
if(prev_dsp_functions_active!=dsp_functions_active)
{
prev_dsp_functions_active=dsp_functions_active;
UiVk_DrawVKeypad();
}
}
}
void UiVk_RedrawModeVirtualKeys()
{
if(ts.VirtualKeysShown_flag)
{
UiVk_DrawVKeypad();
}
}
void UiVk_DSPVirtualKeys()
{
if(ts.VirtualKeysShown_flag && ((ts.VirtualKeyPad==&Keypad_DSP320x240) || (ts.VirtualKeyPad==&Keypad_DSP480x320)))
{
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
else
{
if(disp_resolution==RESOLUTION_480_320)
ts.VirtualKeyPad=&Keypad_DSP480x320;
else
ts.VirtualKeyPad=&Keypad_DSP320x240;
prev_dsp_functions_active=-1;
UiSpectrum_Clear();
ts.VirtualKeysShown_flag=true; //always after UiSpectrum_Clear, because it is cleared there
UiVk_DrawBackGround();
UiVk_RedrawModeVirtualKeys();
}
}
//DSP box VKeypad END=================================================================
void UiVk_ModeVirtualKeys()
{
if(ts.VirtualKeysShown_flag && ((ts.VirtualKeyPad==&Keypad_MODE320x240) || (ts.VirtualKeyPad==&Keypad_MODE480x320)))
{
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
else
{
if(disp_resolution==RESOLUTION_480_320)
{ ts.VirtualKeyPad=&Keypad_MODE480x320; }
else
{ ts.VirtualKeyPad=&Keypad_MODE320x240; }
UiSpectrum_Clear();
ts.VirtualKeysShown_flag=true;
UiVk_DrawBackGround();
UiVk_RedrawModeVirtualKeys();
}
}
//Band selection VKeypad==============================================================
uint8_t prev_BndSel;
static void UiVk_BndSelVKeyCallBackShort(uint8_t KeyNum, uint32_t param)
{
if(param==255)
{
UiVk_BndFreqSetVirtualKeys(); //direct frequency set pressed
}
else
{
if(band_enabled[param])
{
UiDriver_SelectBandMemory(get_active_vfo(), param);
}
}
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
static uint8_t UiVk_BndSelVKeyInitTypeDraw(uint8_t KeyNum, uint32_t param)
{
uint8_t Keystate=Vbtn_State_Normal;
if((!band_enabled[param]) && (param!=255))
{
Keystate=Vbtn_State_Disabled;
}
else if(param==ts.band->band_mode)
{
Keystate=Vbtn_State_Pressed;
}
return Keystate;
}
#define col_Keys_BndSel_pr RGB(0xff,0xff,0xff) //text color when pressed
#define col_Keys_BndSel_npr Black //text color when in normal state
const VKey Keys_BndSel480x320[]={
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=14, .KeyText="2200m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=15, .KeyText="630m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=16, .KeyText="160m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=0, .KeyText="80m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=1, .KeyText="60m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=2, .KeyText="40m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=3, .KeyText="30m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=4, .KeyText="20m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=5, .KeyText="17m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=6, .KeyText="15m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=7, .KeyText="12m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=8, .KeyText="10m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=9, .KeyText="6m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=10, .KeyText="4m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=11, .KeyText="2m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=255, .KeyText="Frequency Set", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr, .SizeX=2},
};
const VKeypad Keypad_BndSel480x320={
.NumberOfKeys=16,
.Rows=3,
.Columns=6,
.Keys=Keys_BndSel480x320,
.KeyWidth=60,
.KeyHeight=40,
.KeySpacing=8,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_BndSelVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawBndSelVirtualKeys
};
#define EscChar 0x1b
const VKey Keys_BndSel320x240[]={
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=16, .KeyText="160m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=0, .KeyText="80m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=1, .KeyText="60m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=2, .KeyText="40m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=3, .KeyText="30m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=4, .KeyText="20m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=5, .KeyText="17m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=6, .KeyText="15m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=7, .KeyText="12m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=8, .KeyText="10m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=9, .KeyText="6m", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_BndSelVKeyCallBackShort, .ShortPar=EscChar, .KeyText="NOP", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr}
};
const VKeypad Keypad_BndSel320x240={
// .NumberOfKeys=10,
.NumberOfKeys=12,
.Rows=2,
// .Columns=5,
.Columns=6,
.Keys=Keys_BndSel320x240,
// .KeyWidth=45,
.KeyWidth=38,
.KeyHeight=32,
.KeySpacing=4,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_BndSelVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawBndSelVirtualKeys
};
void UiVk_RedrawBndSelVirtualKeys()
{
if((ts.VirtualKeysShown_flag) &&
((ts.VirtualKeyPad==&Keypad_BndSel480x320) || (ts.VirtualKeyPad==&Keypad_BndSel320x240)) )
{
if(prev_BndSel!=ts.band->band_mode)
{
prev_BndSel=ts.band->band_mode;
UiVk_DrawVKeypad();
}
}
}
void UiVk_BndSelVirtualKeys()
{
if(ts.VirtualKeysShown_flag &&
((ts.VirtualKeyPad==&Keypad_BndSel480x320) || (ts.VirtualKeyPad==&Keypad_BndSel320x240)) )
{
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
else
{
if(disp_resolution==RESOLUTION_480_320)
ts.VirtualKeyPad=&Keypad_BndSel480x320;
else
ts.VirtualKeyPad=&Keypad_BndSel320x240;
prev_BndSel=255;
UiSpectrum_Clear();
ts.VirtualKeysShown_flag=true; //always after UiSpectrum_Clear, because it is cleared there
UiVk_DrawBackGround();
UiVk_RedrawBndSelVirtualKeys();
}
}
//Band selection direct frequency enter keypad========================================
//#define UiVk_MaxFreqText 11
#define UiVk_MaxFreqText 12
char UiVk_FreqEditText[UiVk_MaxFreqText];
uint8_t UiVk_FreqEditTextCntr=0;
uint8_t UiVk_prevFreqEditTextCntr=0xff;
uint8_t UiVk_BandChangeEN=0;
uint8_t UiVk_EnableFrequencySet=0;
#define UiVk_InfoWindowWidth 120
#define BackSpaceChar 8
//#define EscChar 0x1b
static void UiVk_FSetNumKeyUpdate(void)
{
UiArea_t KeybArea;
UiVk_GetKeybArea(&KeybArea);
// char txtEdit[14];
// char txt[14];
// int i, n=0, t=0;
//
// for(i=UiVk_FreqEditTextCntr;i>0;i--)
// {
// txtEdit[t++]=UiVk_FreqEditText[i-1];
//
// n++;
// if((n==3) && (i>1))
// {
// txtEdit[t++]='.';
// n=0;
// }
// }
// t--;
// n=0;
// for(;t>=0;t--)
// {
// txt[n++]=txtEdit[t];
// }
// txt[n]=0;
char txt[4];
int i, n=0, t;
char txtInfo[16]=" ";
// uint32_t freq=atoi(UiVk_FreqEditText);
uint64_t freq=atol(UiVk_FreqEditText);
// uint32_t textColor=RGB(0xff,0xff,0xff);
uint32_t textColor=RGB(0xff,0x00,0x00);
UiVk_EnableFrequencySet=1;
if(UiVk_BandChangeEN==0)
{
if( RadioManagement_FreqIsInBand(ts.band,freq) == false)
{
// textColor=RGB(0xff,0xff,0x00);
textColor=RGB(0x00,0x00,0xff);
UiVk_EnableFrequencySet=0; //disable frequency setting because out of current band is not allowed
sprintf(txtInfo,"Out of range");
}
}
#ifdef USE_8bit_FONT
uint8_t FSet_font=ts.FreqDisplayFont==0?1:5;
#else
uint8_t FSet_font=1;
#endif
if(disp_resolution==RESOLUTION_320_240)
{
FSet_font=0;
}
uint16_t txtPosX=KeybArea.x+KeybArea.w-4;
const uint8_t font_width = UiLcdHy28_TextWidth("0",FSet_font);
i=UiVk_FreqEditTextCntr;
while(i>0)
{
t=3;
if(i<3)
{
t=i;
}
for(n=t;n>0;n--)
{
txt[n-1]=UiVk_FreqEditText[i-1];
i--;
}
txt[t]=0;
if(i>0)
{
UiLcdHy28_PrintTextRight(txtPosX-UiLcdHy28_TextWidth(txt,FSet_font)+font_width/2,KeybArea.y+4,".",textColor,Col_BtnForeCol,FSet_font);
}
UiLcdHy28_PrintTextRight(txtPosX,KeybArea.y+4,txt,textColor,Col_BtnForeCol,FSet_font);
txtPosX-=UiLcdHy28_TextWidth(txt,FSet_font)+font_width/2;
}
// UiLcdHy28_PrintTextRight(KeybArea.x+KeybArea.w-4,KeybArea.y+4,txt,textColor,Col_BtnForeCol,FSet_font);
// UiLcdHy28_PrintText(KeybArea.x+4,KeybArea.y+4,txtInfo,RGB(0xff,0xff,0x00),Col_BtnForeCol,4);
UiLcdHy28_PrintText(KeybArea.x+4,KeybArea.y+4,txtInfo,RGB(0x00,0x00,0xff),Col_BtnForeCol,4);
}
static void UiVk_FSetEraseFreqArea(void)
{
UiArea_t KeybArea;
UiVk_GetKeybArea(&KeybArea);
// UiLcdHy28_DrawFullRect(KeybArea.x+2+UiVk_InfoWindowWidth,KeybArea.y+4,28,KeybArea.w-UiVk_InfoWindowWidth-4,Col_BtnForeCol);
if(disp_resolution==RESOLUTION_320_240)
{
UiLcdHy28_DrawFullRect(KeybArea.x+2+UiVk_InfoWindowWidth,KeybArea.y+4,18,KeybArea.w-UiVk_InfoWindowWidth-4,Col_BtnForeCol);
}
else
{
UiLcdHy28_DrawFullRect(KeybArea.x+2+UiVk_InfoWindowWidth,KeybArea.y+4,28,KeybArea.w-UiVk_InfoWindowWidth-4,Col_BtnForeCol);
}
}
static void UiVk_FSetNumKeyVKeyCallBackLong(uint8_t KeyNum, uint32_t param)
{
switch(param)
{
case BackSpaceChar:
UiVk_FreqEditTextCntr=0;
UiVk_FreqEditText[0]='\0';
UiVk_FSetEraseFreqArea();
UiVk_FSetNumKeyUpdate();
break;
}
}
static void UiVk_FSetNumKeyVKeyCallBackShort(uint8_t KeyNum, uint32_t param)
{
bool valueChanged=false;
switch(param)
{
case 1000:
{
int i=0;
for(i=0;i<3;i++)
{
if(UiVk_FreqEditTextCntr<(UiVk_MaxFreqText-1))
{
UiVk_FreqEditText[UiVk_FreqEditTextCntr++]='0';
}
else
break;
UiVk_FreqEditText[UiVk_FreqEditTextCntr]=0;
valueChanged=true;
}
}
break;
case 'B':
UiVk_BandChangeEN^=1;
UiVk_RedrawBndFreqSetVirtualKeys();
valueChanged=true;
break;
case BackSpaceChar:
if(UiVk_FreqEditTextCntr>0)
{
UiVk_FreqEditTextCntr--;
UiVk_FreqEditText[UiVk_FreqEditTextCntr]=0;
UiVk_FSetEraseFreqArea();
valueChanged=true;
}
break;
case EscChar:
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
break;
case 0x0d:
if(UiVk_EnableFrequencySet)
{
// uint32_t freq=atoi(UiVk_FreqEditText);
uint64_t freq=atol(UiVk_FreqEditText);
uint8_t band_scan=ts.band->band_mode;
if(UiVk_BandChangeEN)
{
const BandInfo* bi = RadioManagement_GetBand(freq);
// are we in a known band AND the related band memory is enabled ? -> we change to the related band memory idx,
// otherwise we stay in current band memory
if(RadioManagement_IsGenericBand(bi) == false && band_enabled[bi->band_mode] == true)
{
band_scan= bi->band_mode;
}
}
// we change the frequency stored in the band memory and then
// switch to this band memory (which implicitly
// changes the frequency).
uint16_t vfo_sel = get_active_vfo();
vfo[vfo_sel].band[band_scan].dial_value=freq;
UiDriver_SelectBandMemory(vfo_sel, band_scan);
}
break;
default:
if(UiVk_FreqEditTextCntr<(UiVk_MaxFreqText-1))
{
UiVk_FreqEditText[UiVk_FreqEditTextCntr++]=param;
UiVk_FreqEditText[UiVk_FreqEditTextCntr]=0;
valueChanged=true;
}
}
if(valueChanged)
{
UiVk_FSetNumKeyUpdate();
}
}
static uint8_t UiVk_BndFreqSetVKeyInitTypeDraw(uint8_t KeyNum, uint32_t param)
{
uint8_t Keystate=Vbtn_State_Normal;
if((param=='B') && (UiVk_BandChangeEN==1))
{
Keystate=Vbtn_State_Pressed;
}
return Keystate;
}
//#ifdef USE_8bit_FONT
//#define UiVk_FSetNumFont 5
//#else
//#define UiVk_FSetNumFont 1
//#endif
#if defined(UI_BRD_OVI40)
#ifndef OVI40_DISP_320_240
#define UiVk_FSetNumFont 5
#else
#define UiVk_FSetNumFont 0
#endif
#else
#define UiVk_FSetNumFont 0
#endif
//#define UiVk_FSetNumCol (RGB(0xff,0xff,0xff))
#define UiVk_FSetNumCol (RGB(0x00,0x00,0x00))
static const VKey Keys_BndFreqSet[]={
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x31, .KeyText="1", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x32, .KeyText="2", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x33, .KeyText="3", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
// {.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar='B', .KeyText="BAND\nchange", .TextColor=0, .PressedTextColor=RGB(0xff,0xff,0x00)},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar='B', .KeyText="BAND<>", .TextColor=0, .PressedTextColor=RGB(0xff,0xff,0x00)},
// {.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=BackSpaceChar, .LongFnc=UiVk_FSetNumKeyVKeyCallBackLong,.LongPar=BackSpaceChar,.KeyText=">>", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=BackSpaceChar, .LongFnc=UiVk_FSetNumKeyVKeyCallBackLong,.LongPar=BackSpaceChar,.KeyText="<-", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x34, .KeyText="4", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x35, .KeyText="5", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x36, .KeyText="6", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=1000, .KeyText="000", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr},
// {.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=EscChar, .KeyText="CLOSE", .TextColor=RGB(0xff,0xe0,0x00), .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=EscChar, .KeyText="EXIT", .TextColor=RGB(0xff,0xe0,0x00), .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x37, .KeyText="7", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x38, .KeyText="8", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x39, .KeyText="9", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x30, .KeyText="0", .TextColor=UiVk_FSetNumCol, .PressedTextColor=col_Keys_BndSel_pr, .KeyFont=UiVk_FSetNumFont},
// {.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x0d, .KeyText="OK", .TextColor=RGB(0xc0,0xff,0xc0), .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_FSetNumKeyVKeyCallBackShort, .ShortPar=0x0d, .KeyText="OK", .TextColor=RGB(0x00,0x00,0x00), .PressedTextColor=col_Keys_BndSel_pr},
};
const VKeypad Keypad_BndFreqSet480x320={
.NumberOfKeys=15,
.Rows=3,
.Columns=5,
.Keys=Keys_BndFreqSet,
.KeyWidth=60,
.KeyHeight=36,
.KeySpacing=8,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_BndFreqSetVKeyInitTypeDraw,
.YtopMargin=38,
.RedrawFunct=UiVk_RedrawBndFreqSetVirtualKeys
};
const VKeypad Keypad_BndFreqSet320x240={
.NumberOfKeys=15,
.Rows=3,
.Columns=5,
.Keys=Keys_BndFreqSet,
.KeyWidth=48,//60,
.KeyHeight=16,//36,
.KeySpacing=2,//8,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_BndFreqSetVKeyInitTypeDraw,
.YtopMargin=22,//38,
.RedrawFunct=UiVk_RedrawBndFreqSetVirtualKeys
};
void UiVk_RedrawBndFreqSetVirtualKeys()
{
if(ts.VirtualKeysShown_flag)
{
UiVk_prevFreqEditTextCntr=UiVk_FreqEditTextCntr;
UiVk_DrawVKeypad();
}
}
void UiVk_BndFreqSetVirtualKeys()
{
// if(ts.VirtualKeysShown_flag && (ts.VirtualKeyPad==&Keypad_BndFreqSet480x320))
if(ts.VirtualKeysShown_flag && (ts.VirtualKeyPad==&Keypad_BndFreqSet480x320 || ts.VirtualKeyPad==&Keypad_BndFreqSet320x240))
{
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
else
{
// if(disp_resolution==RESOLUTION_480_320)
// ts.VirtualKeyPad=&Keypad_BndFreqSet480x320;
if(disp_resolution==RESOLUTION_480_320)
{
ts.VirtualKeyPad=&Keypad_BndFreqSet480x320;
}
else if(disp_resolution==RESOLUTION_320_240)
{
ts.VirtualKeyPad=&Keypad_BndFreqSet320x240;
}
UiVk_FreqEditTextCntr=0;
for(int i=0;i<UiVk_MaxFreqText;i++)
{
UiVk_FreqEditText[i]=0;
}
UiVk_prevFreqEditTextCntr=0xff;
UiSpectrum_Clear();
ts.VirtualKeysShown_flag=true; //always after UiSpectrum_Clear, because it is cleared there
UiVk_DrawBackGround();
UiVk_RedrawBndFreqSetVirtualKeys();
}
}
//Band selection VKeypad END==========================================================
//Modulation selection VKeypad========================================================
static void UiVk_ModSelVKeyCallBackShort(uint8_t KeyNum, uint32_t param)
{
if(UiVk_KeyState[KeyNum]!=Vbtn_State_Disabled)
{
uint8_t param2nd=(param>>8)&0xff;
uint8_t param3rd=(param>>16)&0xff;
switch(param&0xff)
{
case DEMOD_CW:
ts.cw_lsb=param2nd;
break;
case DEMOD_SAM:
ads.sam_sideband = param2nd;
break;
case DEMOD_DIGI:
ts.digi_lsb=param2nd;
ts.digital_mode=param3rd;
break;
}
UiDriver_SetDemodMode(param&0xff);
UiVk_DrawVKeypad();
}
}
static void UiVk_ModSelVKeyToggleCW(uint8_t KeyNum, uint32_t param)
{
ts.demod_mode_disable^=DEMOD_CW_DISABLE;
ts.menu_var_changed = true;
UiDriver_DisplayFButton_F1MenuExit();
UiVk_DrawVKeypad();
}
static void UiVk_ModSelVKeyToggleAM(uint8_t KeyNum, uint32_t param)
{
ts.demod_mode_disable^=DEMOD_AM_DISABLE;
ts.menu_var_changed = true;
UiDriver_DisplayFButton_F1MenuExit();
UiVk_DrawVKeypad();
}
static void UiVk_ModSelVKeyToggleDIGI(uint8_t KeyNum, uint32_t param)
{
ts.demod_mode_disable^=DEMOD_DIGI_DISABLE;
ts.menu_var_changed = true;
UiDriver_DisplayFButton_F1MenuExit();
UiVk_DrawVKeypad();
}
static void UiVk_ModSelVKeyToggleSAM(uint8_t KeyNum, uint32_t param)
{
ts.flags1^=FLAGS1_SAM_ENABLE;
ts.menu_var_changed = true;
UiDriver_DisplayFButton_F1MenuExit();
UiVk_DrawVKeypad();
}
static void UiVk_ModSelVKeyToggleFM(uint8_t KeyNum, uint32_t param)
{
ts.flags2^=FLAGS2_FM_MODE_ENABLE;
ts.menu_var_changed = true;
UiDriver_DisplayFButton_F1MenuExit();
UiVk_DrawVKeypad();
}
static uint8_t UiVk_ModSelVKeyInitTypeDraw(uint8_t KeyNum, uint32_t param)
{
uint8_t Keystate=Vbtn_State_Normal;
uint8_t param2nd=(param>>8)&0xff;
uint8_t param3rd=(param>>16)&0xff;
if((param&0xff) == ts.dmod_mode)
{
switch(param&0xff)
{
case DEMOD_CW:
if(param2nd==ts.cw_lsb)
Keystate=Vbtn_State_Pressed;
break;
case DEMOD_SAM:
if((ads.sam_sideband == SAM_SIDEBAND_LSB) && (param2nd==1))
Keystate=Vbtn_State_Pressed;
if((ads.sam_sideband == SAM_SIDEBAND_USB) && (param2nd==2))
Keystate=Vbtn_State_Pressed;
if((ads.sam_sideband == SAM_SIDEBAND_BOTH) && (param2nd==0))
Keystate=Vbtn_State_Pressed;
break;
case DEMOD_DIGI:
if((ts.digital_mode==param3rd) &&(param2nd==ts.digi_lsb))
Keystate=Vbtn_State_Pressed;
break;
default:
Keystate=Vbtn_State_Pressed;
}
}
switch(param&0xff)
{
case DEMOD_CW:
if(ts.demod_mode_disable&DEMOD_CW_DISABLE)
Keystate=Vbtn_State_Disabled;
break;
case DEMOD_AM:
if(ts.demod_mode_disable&DEMOD_AM_DISABLE)
Keystate=Vbtn_State_Disabled;
break;
case DEMOD_DIGI:
if(ts.demod_mode_disable&DEMOD_DIGI_DISABLE)
Keystate=Vbtn_State_Disabled;
break;
case DEMOD_FM:
if(!(ts.flags2&FLAGS2_FM_MODE_ENABLE)) //TODO: demodulation flags FM and SAM needs refactor (move to demod_mode_disable)
Keystate=Vbtn_State_Disabled;
break;
case DEMOD_SAM:
if(!(ts.flags1&FLAGS1_SAM_ENABLE))
Keystate=Vbtn_State_Disabled;
break;
}
return Keystate;
}
const VKey Keys_ModSel480x320[]={
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_CW|(1<<8), .KeyText="CW-L", .LongFnc=UiVk_ModSelVKeyToggleCW,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_CW|(0<<8), .KeyText="CW-U", .LongFnc=UiVk_ModSelVKeyToggleCW,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_LSB, .KeyText="LSB", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_USB, .KeyText="USB", .TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_AM, .KeyText="AM", .LongFnc=UiVk_ModSelVKeyToggleAM,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_FM, .KeyText="FM", .LongFnc=UiVk_ModSelVKeyToggleFM,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_SAM|(0<<8),.KeyText="SAM", .LongFnc=UiVk_ModSelVKeyToggleSAM,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_SAM|(1<<8),.KeyText="SAM-L", .LongFnc=UiVk_ModSelVKeyToggleSAM,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_SAM|(2<<8),.KeyText="SAM-U", .LongFnc=UiVk_ModSelVKeyToggleSAM,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_DIGI|(1<<8)|(DigitalMode_RTTY<<16), .KeyText="DIGI\nRTTY-L", .LongFnc=UiVk_ModSelVKeyToggleDIGI,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_DIGI|(0<<8)|(DigitalMode_RTTY<<16), .KeyText="DIGI\nRTTY-U", .LongFnc=UiVk_ModSelVKeyToggleDIGI,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_DIGI|(1<<8)|(DigitalMode_BPSK<<16), .KeyText="DIGI\nBPSK-L", .LongFnc=UiVk_ModSelVKeyToggleDIGI,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_DIGI|(0<<8)|(DigitalMode_BPSK<<16), .KeyText="DIGI\nBPSK-U", .LongFnc=UiVk_ModSelVKeyToggleDIGI,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
#ifdef USE_FREEDV
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_DIGI|(1<<8)|(DigitalMode_FreeDV<<16), .KeyText="DIGI\nFreeDV-L", .LongFnc=UiVk_ModSelVKeyToggleDIGI,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
{.ShortFnc=UiVk_ModSelVKeyCallBackShort, .ShortPar=DEMOD_DIGI|(0<<8)|(DigitalMode_FreeDV<<16), .KeyText="DIGI\nFreeDV-U", .LongFnc=UiVk_ModSelVKeyToggleDIGI,.TextColor=col_Keys_BndSel_npr, .PressedTextColor=col_Keys_BndSel_pr},
#endif
};
const VKeypad Keypad_ModSel480x320={
#ifdef USE_FREEDV
.NumberOfKeys=15,
#else
.NumberOfKeys=13,
#endif
.Rows=3,
.Columns=5,
.Keys=Keys_ModSel480x320,
.KeyWidth=70,
.KeyHeight=40,
.KeySpacing=8,
.Backgr_Wnlarge=4,
.Backgr_Hnlarge=4,
.VKeyStateCallBack=UiVk_ModSelVKeyInitTypeDraw,
.RedrawFunct=UiVk_RedrawModSelVirtualKeys
};
void UiVk_RedrawModSelVirtualKeys()
{
if((ts.VirtualKeysShown_flag) && (ts.VirtualKeyPad==&Keypad_ModSel480x320))
{
UiVk_prevFreqEditTextCntr=UiVk_FreqEditTextCntr;
UiVk_DrawVKeypad();
}
}
void UiVk_ModSelVirtualKeys()
{
if(ts.VirtualKeysShown_flag && (ts.VirtualKeyPad==&Keypad_ModSel480x320))
{
ts.VirtualKeysShown_flag=false;
UiSpectrum_Init();
}
else
{
if(disp_resolution==RESOLUTION_480_320)
ts.VirtualKeyPad=&Keypad_ModSel480x320;
UiSpectrum_Clear();
ts.VirtualKeysShown_flag=true; //always after UiSpectrum_Clear, because it is cleared there
UiVk_DrawBackGround();
UiVk_RedrawModSelVirtualKeys();
}
}
//Modulation selection VKeypad END====================================================