dolphin/Source/Plugins/Plugin_Wiimote/Src/ConfigPadDlg.cpp

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// Copyright (C) 2003 Dolphin Project.
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, version 2.0.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official SVN repository and contact information can be found at
// http://code.google.com/p/dolphin-emu/
#include "wiimote_real.h" // for MAX_WIIMOTES
#include "wiimote_hid.h"
#include "main.h"
#include "ConfigPadDlg.h"
#include "ConfigBasicDlg.h"
#include "Config.h"
#include "EmuDefinitions.h" // for joyinfo
enum TriggerType
{
CTL_TRIGGER_SDL = 0,
CTL_TRIGGER_XINPUT
};
BEGIN_EVENT_TABLE(WiimotePadConfigDialog,wxDialog)
EVT_CLOSE(WiimotePadConfigDialog::OnClose)
EVT_BUTTON(ID_CLOSE, WiimotePadConfigDialog::CloseClick)
EVT_BUTTON(ID_APPLY, WiimotePadConfigDialog::CloseClick)
EVT_COMBOBOX(IDC_JOYNAME, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(ID_TRIGGER_TYPE, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(ID_TILT_INPUT, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(ID_TILT_RANGE_ROLL, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(ID_TILT_RANGE_PITCH, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_LEFT_DIAGONAL, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_DEAD_ZONE_LEFT, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_DEAD_ZONE_RIGHT, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_CHECKBOX(IDC_LEFT_C2S, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_CHECKBOX(ID_TILT_INVERT_ROLL, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_CHECKBOX(ID_TILT_INVERT_PITCH, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_NUNCHUCK_STICK, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_CC_LEFT_STICK, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_CC_RIGHT_STICK, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_CC_TRIGGERS, WiimotePadConfigDialog::GeneralSettingsChanged)
// Wiimote
EVT_BUTTON(IDB_WM_A, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_B, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_WM_1, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_2, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_WM_P, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_M, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_H, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_WM_L, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_R, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_WM_U, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_D, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_WM_SHAKE, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_WM_PITCH_L, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_WM_PITCH_R, WiimotePadConfigDialog::OnButtonClick)
// Nunchuck
EVT_BUTTON(IDB_NC_Z, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_NC_C, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_NC_L, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_NC_R, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_NC_U, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_NC_D, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_NC_SHAKE, WiimotePadConfigDialog::OnButtonClick)
// Classic Controller
EVT_BUTTON(IDB_CC_A, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_B, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_X, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_Y, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_CC_P, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_M, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_H, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_CC_TL, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_ZL, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_ZR, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_TR, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_CC_DL, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_DU, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_DR, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_DD, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_CC_DL, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_DU, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_DR, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_DD, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_CC_LL, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_LU, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_LR, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_LD, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_CC_RL, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_RU, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_RR, WiimotePadConfigDialog::OnButtonClick) EVT_BUTTON(IDB_CC_RD, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_GREEN, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_RED, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_YELLOW, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_BLUE, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_ORANGE, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_PLUS, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_MINUS, WiimotePadConfigDialog::OnButtonClick)
// EVT_COMBOBOX(IDB_GH3_WHAMMY, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_COMBOBOX(IDCB_GH3_ANALOG, WiimotePadConfigDialog::GeneralSettingsChanged)
EVT_BUTTON(IDB_GH3_ANALOG_LEFT, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_ANALOG_RIGHT, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_ANALOG_UP, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_ANALOG_DOWN, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_STRUM_UP, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_GH3_STRUM_DOWN, WiimotePadConfigDialog::OnButtonClick)
EVT_BUTTON(IDB_ANALOG_LEFT_X, WiimotePadConfigDialog::GetButtons)
EVT_BUTTON(IDB_ANALOG_LEFT_Y, WiimotePadConfigDialog::GetButtons)
EVT_BUTTON(IDB_ANALOG_RIGHT_X, WiimotePadConfigDialog::GetButtons)
EVT_BUTTON(IDB_ANALOG_RIGHT_Y, WiimotePadConfigDialog::GetButtons)
EVT_BUTTON(IDB_TRIGGER_L, WiimotePadConfigDialog::GetButtons)
EVT_BUTTON(IDB_TRIGGER_R, WiimotePadConfigDialog::GetButtons)
EVT_TIMER(IDTM_BUTTON, WiimotePadConfigDialog::OnButtonTimer)
EVT_TIMER(IDTM_UPDATE_PAD, WiimotePadConfigDialog::UpdatePad)
END_EVENT_TABLE()
WiimotePadConfigDialog::WiimotePadConfigDialog(wxWindow *parent, wxWindowID id, const wxString &title,
const wxPoint &position, const wxSize& size, long style)
: wxDialog(parent, id, title, position, size, style)
{
#if wxUSE_TIMER
m_ButtonMappingTimer = new wxTimer(this, IDTM_BUTTON);
m_UpdatePad = new wxTimer(this, IDTM_UPDATE_PAD);
// Reset values
GetButtonWaitingID = 0;
GetButtonWaitingTimer = 0;
// Start the permanent timer
const int TimesPerSecond = 30;
m_UpdatePad->Start( floor((double)(1000 / TimesPerSecond)) );
#endif
ControlsCreated = false;
Page = 0;
ClickedButton = NULL;
g_Config.Load();
CreatePadGUIControls();
SetBackgroundColour(m_Notebook->GetBackgroundColour());
// Set control values
UpdateGUI();
wxTheApp->Connect(wxID_ANY, wxEVT_KEY_DOWN, // Keyboard
wxKeyEventHandler(WiimotePadConfigDialog::OnKeyDown),
(wxObject*)0, this);
}
void WiimotePadConfigDialog::OnKeyDown(wxKeyEvent& event)
{
event.Skip();
// Save the key
g_Pressed = event.GetKeyCode();
// Handle the keyboard key mapping
char keyStr[64] = {0};
if(ClickedButton != NULL)
{
// Allow the escape key to set a blank key
if (g_Pressed == WXK_ESCAPE)
{
SaveKeyboardMapping(Page, ClickedButton->GetId(), -1);
SetButtonText(ClickedButton->GetId(), "");
ClickedButton = NULL;
return;
}
#ifdef _WIN32
BYTE keyState[256];
GetKeyboardState(keyState);
for (int i = 1; i < 256; ++i)
{
if ((keyState[i] & 0x80) != 0)
{
// Use the left and right specific keys instead of the common ones
if (i == VK_SHIFT || i == VK_CONTROL || i == VK_MENU) continue;
// Update the button label
strcpy(keyStr, InputCommon::VKToString(i).c_str());
SetButtonText(ClickedButton->GetId(), keyStr);
// Save the setting
SaveKeyboardMapping(Page, ClickedButton->GetId(), i);
}
}
#elif defined(HAVE_X11) && HAVE_X11
g_Pressed = InputCommon::wxCharCodeWXToX(g_Pressed);
InputCommon::XKeyToString(g_Pressed, keyStr);
SetButtonText(ClickedButton->GetId(), keyStr);
SaveKeyboardMapping(Page, ClickedButton->GetId(), g_Pressed);
#endif
}
ClickedButton = NULL;
}
// Input button clicked
void WiimotePadConfigDialog::OnButtonClick(wxCommandEvent& event)
{
//INFO_LOG(CONSOLE, "OnButtonClick: %i\n", g_Pressed);
// Don't allow space to start a new Press Key option, that will interfer with setting a key to space
if (g_Pressed == WXK_SPACE) { g_Pressed = 0; return; }
// Reset the old label
if(ClickedButton) ClickedButton->SetLabel(OldLabel);
// Create the button object
ClickedButton = (wxButton *)event.GetEventObject();
OldLabel = ClickedButton->GetLabel();
ClickedButton->SetLabel(wxT("<Press Key>"));
// Allow Tab and directional keys to
ClickedButton->SetWindowStyle(wxWANTS_CHARS);
}
void WiimotePadConfigDialog::OnClose(wxCloseEvent& event)
{
g_FrameOpen = false;
SaveButtonMappingAll(Page);
if(m_UpdatePad)
m_UpdatePad->Stop();
g_Config.Save();
event.Skip();
}
void WiimotePadConfigDialog::CloseClick(wxCommandEvent& event)
{
switch(event.GetId())
{
case ID_CLOSE:
Close();
break;
case ID_APPLY:
SaveButtonMappingAll(Page);
g_Config.Save();
break;
}
}
void WiimotePadConfigDialog::DoSave(bool ChangePad, int Slot)
{
// Replace "" with "-1" before we are saving
ToBlank(false);
if(ChangePad)
{
// Since we are selecting the pad to save to by the Id we can't update it when we change the pad
for(int i = 0; i < 4; i++)
SaveButtonMapping(i, true);
// Save the settings for the current pad
g_Config.Save(Slot);
// Now we can update the ID
WiiMoteEmu::PadMapping[Page].ID = m_Joyname[Page]->GetSelection();
}
else
{
// Update PadMapping[] from the GUI controls
for(int i = 0; i < 4; i++)
SaveButtonMapping(i);
g_Config.Save(Slot);
}
// Then change it back to ""
ToBlank();
INFO_LOG(CONSOLE, "WiiMoteEmu::PadMapping[%i].ID = %i\n", Page, m_Joyname[Page]->GetSelection());
}
// Bitmap box and dot
wxBitmap WiimotePadConfigDialog::CreateBitmap()
{
BoxW = 70, BoxH = 70;
wxBitmap bitmap(BoxW, BoxH);
wxMemoryDC dc;
dc.SelectObject(bitmap);
// Set outline and fill colors
//wxBrush LightBlueBrush(_T("#0383f0"));
//wxPen LightBluePen(_T("#80c5fd"));
//wxPen LightGrayPen(_T("#909090"));
wxPen LightBluePen(_T("#7f9db9")); // Windows XP color
dc.SetPen(LightBluePen);
dc.SetBrush(*wxWHITE_BRUSH);
dc.Clear();
dc.DrawRectangle(0, 0, BoxW, BoxH);
dc.SelectObject(wxNullBitmap);
return bitmap;
}
wxBitmap WiimotePadConfigDialog::CreateBitmapDot()
{
int w = 2, h = 2;
wxBitmap bitmap(w, h);
wxMemoryDC dc;
dc.SelectObject(bitmap);
// Set outline and fill colors
//wxBrush RedBrush(_T("#0383f0"));
//wxPen RedPen(_T("#80c5fd"));
dc.SetPen(*wxRED_PEN);
dc.SetBrush(*wxRED_BRUSH);
dc.Clear();
dc.DrawRectangle(0, 0, w, h);
dc.SelectObject(wxNullBitmap);
return bitmap;
}
wxBitmap WiimotePadConfigDialog::CreateBitmapDeadZone(int Radius)
{
wxBitmap bitmap(Radius*2, Radius*2);
wxMemoryDC dc;
dc.SelectObject(bitmap);
// Set outline and fill colors
dc.SetPen(*wxLIGHT_GREY_PEN);
dc.SetBrush(*wxLIGHT_GREY_BRUSH);
//dc.SetBackground(*wxGREEN_BRUSH);
dc.Clear();
dc.DrawCircle(Radius, Radius, Radius);
//dc.SelectObject(wxNullBitmap);
return bitmap;
}
wxBitmap WiimotePadConfigDialog::CreateBitmapClear()
{
wxBitmap bitmap(BoxW, BoxH);
wxMemoryDC dc;
dc.SelectObject(bitmap);
// Set outline and fill colors
//dc.SetBrush(*wxTRANSPARENT_BRUSH);
dc.Clear();
//dc.DrawRectangle(0, 0, BoxW, BoxH);
//dc.SelectObject(wxNullBitmap);
return bitmap;
}
void WiimotePadConfigDialog::CreatePadGUIControls()
{
// Search for devices and add them to the device list
wxArrayString StrJoyname; // The string array
if (WiiMoteEmu::NumGoodPads > 0)
{
for (int x = 0; x < (int)WiiMoteEmu::joyinfo.size(); x++)
StrJoyname.Add(wxString::FromAscii(WiiMoteEmu::joyinfo[x].Name.c_str()));
}
else
{
StrJoyname.Add(wxString::FromAscii("<No Gamepad Detected>"));
}
// The tilt list
wxArrayString StrTilt;
StrTilt.Add(wxString::FromAscii("<Off>"));
StrTilt.Add(wxString::FromAscii("Keyboard"));
StrTilt.Add(wxString::FromAscii("Analog 1"));
StrTilt.Add(wxString::FromAscii("Analog 2"));
StrTilt.Add(wxString::FromAscii("Triggers"));
// The range is in degrees and are set at even 5 degrees values
wxArrayString StrTiltRangeRoll, StrTiltRangePitch;
for (int i = 0; i < 37; i++)
StrTiltRangeRoll.Add(wxString::Format(wxT("%i"), i*5));
for (int i = 0; i < 37; i++)
StrTiltRangePitch.Add(wxString::Format(wxT("%i"), i*5));
// The Trigger type list
wxArrayString StrTriggerType;
StrTriggerType.Add(wxString::FromAscii("SDL")); // -0x8000 to 0x7fff
StrTriggerType.Add(wxString::FromAscii("XInput")); // 0x00 to 0xff
// The Nunchuck stick list
wxArrayString StrNunchuck;
StrNunchuck.Add(wxString::FromAscii("Keyboard"));
StrNunchuck.Add(wxString::FromAscii("Analog 1"));
StrNunchuck.Add(wxString::FromAscii("Analog 2"));
// The Classic Controller triggers list
wxArrayString StrCcTriggers;
StrCcTriggers.Add(wxString::FromAscii("Keyboard"));
StrCcTriggers.Add(wxString::FromAscii("Triggers"));
m_Notebook = new wxNotebook(this, ID_NOTEBOOK, wxDefaultPosition, wxDefaultSize);
for (int i = 0; i < MAX_WIIMOTES; i++)
{
m_Controller[i] = new wxPanel(m_Notebook, ID_CONTROLLERPAGE1 + i, wxDefaultPosition, wxDefaultSize);
m_Notebook->AddPage(m_Controller[i], wxString::Format(wxT("Wiimote %d"), i+1));
// A small type font
wxFont m_SmallFont(7, wxFONTFAMILY_DEFAULT, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_NORMAL);
// Configuration controls sizes
static const int TxtW = 50, TxtH = 19, BtW = 75, BtH = 20;
// Controller
m_Joyname[i] = new wxComboBox(m_Controller[i], IDC_JOYNAME, StrJoyname[0], wxDefaultPosition, wxSize(200, -1), StrJoyname, wxCB_READONLY);
// Circle to square
m_CheckC2S[i] = new wxCheckBox(m_Controller[i], IDC_LEFT_C2S, wxT("Circle To Square"));
// The drop down menu for the circle to square adjustment
m_CheckC2SLabel[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Diagonal"));
wxArrayString asStatusInSet;
asStatusInSet.Add(wxT("100%"));
asStatusInSet.Add(wxT("95%"));
asStatusInSet.Add(wxT("90%"));
asStatusInSet.Add(wxT("85%"));
asStatusInSet.Add(wxT("80%"));
m_ComboDiagonal[i] = new wxComboBox(m_Controller[i], IDCB_LEFT_DIAGONAL, asStatusInSet[0], wxDefaultPosition, wxSize(75, -1), asStatusInSet, wxCB_READONLY);
// Dead zone
m_ComboDeadZoneLabel[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Dead Zone"));
wxArrayString TextDeadZone;
for (int j = 0; j <= 50; j++) TextDeadZone.Add(wxString::Format(wxT("%i%%"), j));
m_ComboDeadZoneLeft[i] = new wxComboBox(m_Controller[i], IDCB_DEAD_ZONE_LEFT, TextDeadZone[0], wxDefaultPosition, wxSize(70, -1), TextDeadZone, wxCB_READONLY);
m_ComboDeadZoneRight[i] = new wxComboBox(m_Controller[i], IDCB_DEAD_ZONE_RIGHT, TextDeadZone[0], wxDefaultPosition, wxSize(70, -1), TextDeadZone, wxCB_READONLY);
// Tooltips
m_Joyname[i]->SetToolTip(wxT("Save your settings and configure another joypad"));
m_CheckC2S[i]->SetToolTip(wxT("This will convert a circular stick radius to a square stick radius.")
wxT(" This can be useful for the pitch and roll emulation."));
m_CheckC2SLabel[i]->SetToolTip(
wxT("To produce a perfect square circle in the 'Out' window you have to manually set")
wxT("\nyour diagonal values here from what is shown in the 'In' window."));
// Sizers
m_gDeadZone[i] = new wxBoxSizer(wxVERTICAL);
m_gDeadZoneHoriz[i] = new wxBoxSizer(wxHORIZONTAL);
m_gDeadZoneHoriz[i]->Add(m_ComboDeadZoneLeft[i], 0, (wxUP), 0);
m_gDeadZoneHoriz[i]->Add(m_ComboDeadZoneRight[i], 0, (wxUP), 0);
m_gDeadZone[i]->Add(m_ComboDeadZoneLabel[i], 0, wxALIGN_CENTER | (wxUP), 0);
m_gDeadZone[i]->Add(m_gDeadZoneHoriz[i], 0, wxALIGN_CENTER | (wxUP), 2);
m_gCircle2Square[i] = new wxBoxSizer(wxHORIZONTAL);
m_gCircle2Square[i]->Add(m_CheckC2SLabel[i], 0, (wxUP), 4);
m_gCircle2Square[i]->Add(m_ComboDiagonal[i], 0, (wxLEFT), 2);
m_gCircle2SquareVert[i] = new wxBoxSizer(wxVERTICAL);
m_gCircle2SquareVert[i]->Add(m_CheckC2S[i], 0, wxALIGN_CENTER | (wxUP), 0);
m_gCircle2SquareVert[i]->Add(m_gCircle2Square[i], 0, wxALIGN_CENTER | (wxUP), 2);
m_gC2SDeadZone[i] = new wxBoxSizer(wxHORIZONTAL);
m_gC2SDeadZone[i]->Add(m_gDeadZone[i], 0, (wxUP), 0);
m_gC2SDeadZone[i]->Add(m_gCircle2SquareVert[i], 0, (wxLEFT), 8);
m_gJoyname[i] = new wxStaticBoxSizer (wxVERTICAL, m_Controller[i], wxT("Gamepad"));
m_gJoyname[i]->AddStretchSpacer();
m_gJoyname[i]->Add(m_Joyname[i], 0, wxALIGN_CENTER | (wxLEFT | wxRIGHT | wxDOWN), 5);
m_gJoyname[i]->Add(m_gC2SDeadZone[i], 0, wxALIGN_CENTER | (wxLEFT | wxRIGHT | wxDOWN), 5);
m_gJoyname[i]->AddStretchSpacer();
// Tilt Wiimote
// Controls
m_TiltComboInput[i] = new wxComboBox(m_Controller[i], ID_TILT_INPUT, StrTilt[0], wxDefaultPosition, wxSize(100, -1), StrTilt, wxCB_READONLY);
m_TiltComboRangeRoll[i] = new wxComboBox(m_Controller[i], ID_TILT_RANGE_ROLL, StrTiltRangeRoll[0], wxDefaultPosition, wxSize(75, -1), StrTiltRangeRoll, wxCB_READONLY);
m_TiltComboRangePitch[i] = new wxComboBox(m_Controller[i], ID_TILT_RANGE_PITCH, StrTiltRangePitch[0], wxDefaultPosition, wxSize(75, -1), StrTiltRangePitch, wxCB_READONLY);
m_TiltTextRoll[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Roll"));
m_TiltTextPitch[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Pitch"));
m_TiltInvertRoll[i] = new wxCheckBox(m_Controller[i], ID_TILT_INVERT_ROLL, wxT("Invert"));
m_TiltInvertPitch[i] = new wxCheckBox(m_Controller[i], ID_TILT_INVERT_PITCH, wxT("Invert"));
// Sizers
m_TiltGrid[i] = new wxGridBagSizer(0, 0);
m_TiltGrid[i]->Add(m_TiltTextRoll[i], wxGBPosition(0, 0), wxGBSpan(1, 1), (wxTOP), 4);
m_TiltGrid[i]->Add(m_TiltComboRangeRoll[i], wxGBPosition(0, 1), wxGBSpan(1, 1), (wxLEFT), 2);
m_TiltGrid[i]->Add(m_TiltInvertRoll[i], wxGBPosition(0, 2), wxGBSpan(1, 1), (wxLEFT | wxTOP), 4);
m_TiltGrid[i]->Add(m_TiltTextPitch[i], wxGBPosition(1, 0), wxGBSpan(1, 1), (wxTOP), 6);
m_TiltGrid[i]->Add(m_TiltComboRangePitch[i], wxGBPosition(1, 1), wxGBSpan(1, 1), (wxLEFT | wxTOP | wxDOWN), 2);
m_TiltGrid[i]->Add(m_TiltInvertPitch[i], wxGBPosition(1, 2), wxGBSpan(1, 1), (wxLEFT | wxTOP), 4);
// For additional padding options if needed
//m_TiltHoriz[i] = new wxBoxSizer(wxHORIZONTAL);
m_gTilt[i] = new wxStaticBoxSizer (wxVERTICAL, m_Controller[i], wxT("Roll and pitch"));
m_gTilt[i]->AddStretchSpacer();
m_gTilt[i]->Add(m_TiltComboInput[i], 0, wxEXPAND | (wxLEFT | wxRIGHT | wxDOWN), 5);
m_gTilt[i]->Add(m_TiltGrid[i], 0, wxEXPAND | (wxLEFT | wxRIGHT), 5);
m_gTilt[i]->AddStretchSpacer();
//Set values
m_TiltComboInput[i]->SetSelection(g_Config.Trigger.Type);
m_TiltComboRangeRoll[i]->SetValue(wxString::Format(wxT("%i"), g_Config.Trigger.Range.Roll));
m_TiltComboRangePitch[i]->SetValue(wxString::Format(wxT("%i"), g_Config.Trigger.Range.Pitch));
// Tooltips
m_TiltComboInput[i]->SetToolTip(wxT("Control tilting by an analog gamepad stick, an analog trigger or the keyboard."));
m_TiltComboRangeRoll[i]->SetToolTip(wxT("The maximum roll in degrees. Set to 0 to turn off."));
m_TiltComboRangePitch[i]->SetToolTip(wxT("The maximum pitch in degrees. Set to 0 to turn off."));
// Analog triggers
m_gTrigger[i] = new wxStaticBoxSizer (wxHORIZONTAL, m_Controller[i], wxT("Triggers"));
m_TriggerStatusL[i]= new wxStaticText(m_Controller[i], wxID_ANY, wxT("Left: "));
m_TriggerStatusR[i]= new wxStaticText(m_Controller[i], wxID_ANY, wxT("Right: "));
m_TriggerStatusLx[i]= new wxStaticText(m_Controller[i], wxID_ANY, wxT("000"), wxDefaultPosition, wxDefaultSize, wxALIGN_RIGHT);
m_TriggerStatusRx[i]= new wxStaticText(m_Controller[i], wxID_ANY, wxT("000"), wxDefaultPosition, wxDefaultSize, wxALIGN_RIGHT);
m_tAnalogTriggerInput[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Input"));
m_tAnalogTriggerL[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Left"));
m_tAnalogTriggerR[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Right"));
m_AnalogTriggerL[i] = new wxTextCtrl(m_Controller[i], ID_TRIGGER_L, wxT(""), wxDefaultPosition, wxSize(TxtW, TxtH), wxTE_READONLY | wxTE_CENTRE);
m_AnalogTriggerR[i] = new wxTextCtrl(m_Controller[i], ID_TRIGGER_R, wxT(""), wxDefaultPosition, wxSize(TxtW, TxtH), wxTE_READONLY | wxTE_CENTRE);
m_AnalogTriggerL[i]->Enable(false);
m_AnalogTriggerR[i]->Enable(false);
m_bAnalogTriggerL[i] = new wxButton(m_Controller[i], IDB_TRIGGER_L, wxEmptyString, wxDefaultPosition, wxSize(21, 14));
m_bAnalogTriggerR[i] = new wxButton(m_Controller[i], IDB_TRIGGER_R, wxEmptyString, wxDefaultPosition, wxSize(21, 14));
m_TriggerType[i] = new wxComboBox(m_Controller[i], ID_TRIGGER_TYPE, StrTriggerType[0], wxDefaultPosition, wxSize(75, -1), StrTriggerType, wxCB_READONLY);
m_SizeAnalogTriggerStatusBox[i] = new wxGridBagSizer(0, 0);
m_SizeAnalogTriggerHorizConfig[i] = new wxGridBagSizer(0, 0);
m_SizeAnalogTriggerVertLeft[i] = new wxBoxSizer(wxVERTICAL);
m_SizeAnalogTriggerVertRight[i] = new wxBoxSizer(wxVERTICAL);
m_SizeAnalogTriggerHorizInput[i] = new wxBoxSizer(wxHORIZONTAL);
// The status text boxes
m_SizeAnalogTriggerStatusBox[i]->Add(m_TriggerStatusL[i], wxGBPosition(0, 0), wxGBSpan(1, 1), (wxUP), 0);
m_SizeAnalogTriggerStatusBox[i]->Add(m_TriggerStatusLx[i], wxGBPosition(0, 1), wxGBSpan(1, 1), (wxUP), 0);
m_SizeAnalogTriggerStatusBox[i]->Add(m_TriggerStatusR[i], wxGBPosition(1, 0), wxGBSpan(1, 1), (wxUP), 0);
m_SizeAnalogTriggerStatusBox[i]->Add(m_TriggerStatusRx[i], wxGBPosition(1, 1), wxGBSpan(1, 1), (wxUP), 0);
m_SizeAnalogTriggerHorizConfig[i]->Add(m_tAnalogTriggerL[i], wxGBPosition(0, 0), wxGBSpan(1, 1), (wxUP), 2);
m_SizeAnalogTriggerHorizConfig[i]->Add(m_AnalogTriggerL[i], wxGBPosition(0, 1), wxGBSpan(1, 1), (wxLEFT | wxRIGHT), 2);
m_SizeAnalogTriggerHorizConfig[i]->Add(m_bAnalogTriggerL[i], wxGBPosition(0, 2), wxGBSpan(1, 1), (wxUP), 2);
m_SizeAnalogTriggerHorizConfig[i]->Add(m_tAnalogTriggerR[i], wxGBPosition(1, 0), wxGBSpan(1, 1), (wxUP), 4);
m_SizeAnalogTriggerHorizConfig[i]->Add(m_AnalogTriggerR[i], wxGBPosition(1, 1), wxGBSpan(1, 1), (wxLEFT | wxUP | wxRIGHT), 2);
m_SizeAnalogTriggerHorizConfig[i]->Add(m_bAnalogTriggerR[i], wxGBPosition(1, 2), wxGBSpan(1, 1), (wxUP), 5);
// The choice box and its name label
m_SizeAnalogTriggerHorizInput[i]->Add(m_tAnalogTriggerInput[i], 0, (wxUP), 3);
m_SizeAnalogTriggerHorizInput[i]->Add(m_TriggerType[i], 0, (wxLEFT), 2);
// The status text boxes
m_SizeAnalogTriggerVertLeft[i]->AddStretchSpacer();
m_SizeAnalogTriggerVertLeft[i]->Add(m_SizeAnalogTriggerStatusBox[i]);
m_SizeAnalogTriggerVertLeft[i]->AddStretchSpacer();
// The config grid and the input type choice box
m_SizeAnalogTriggerVertRight[i]->Add(m_SizeAnalogTriggerHorizConfig[i], 0, (wxUP), 2);
m_SizeAnalogTriggerVertRight[i]->Add(m_SizeAnalogTriggerHorizInput[i], 0, (wxUP | wxDOWN), 4);
m_gTrigger[i]->Add(m_SizeAnalogTriggerVertLeft[i], 0, wxEXPAND | (wxLEFT | wxRIGHT), 5);
m_gTrigger[i]->Add(m_SizeAnalogTriggerVertRight[i], 0, wxEXPAND | (wxLEFT | wxRIGHT), 5);
// Row 2 Sizers: Connected pads, tilt, triggers
m_HorizControllerTilt[i] = new wxBoxSizer(wxHORIZONTAL);
m_HorizControllerTilt[i]->Add(m_gJoyname[i], 0, wxALIGN_CENTER | wxEXPAND, 0);
m_HorizControllerTilt[i]->Add(m_gTilt[i], 0, wxEXPAND | (wxLEFT), 5);
m_HorizControllerTilt[i]->Add(m_gTrigger[i], 0, wxEXPAND | (wxLEFT), 5);
m_HorizControllerTiltParent[i] = new wxBoxSizer(wxBOTH);
m_HorizControllerTiltParent[i]->Add(m_HorizControllerTilt[i]);
// Analog sticks
// Status panels
m_TStatusLeftIn[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("In"));
m_TStatusLeftOut[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Out"));
m_TStatusRightIn[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("In"));
m_TStatusRightOut[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Out"));
m_pLeftInStatus[i] = new wxPanel(m_Controller[i], wxID_ANY, wxDefaultPosition, wxDefaultSize);
m_bmpSquareLeftIn[i] = new wxStaticBitmap(m_pLeftInStatus[i], wxID_ANY, CreateBitmap(), wxDefaultPosition, wxDefaultSize);
m_bmpDeadZoneLeftIn[i] = new wxStaticBitmap(m_pLeftInStatus[i], wxID_ANY, CreateBitmapDeadZone(0), wxDefaultPosition, wxDefaultSize);
m_bmpDotLeftIn[i] = new wxStaticBitmap(m_pLeftInStatus[i], wxID_ANY, CreateBitmapDot(), wxPoint(BoxW / 2, BoxH / 2), wxDefaultSize);
m_pLeftOutStatus[i] = new wxPanel(m_Controller[i], wxID_ANY, wxDefaultPosition, wxDefaultSize);
m_bmpSquareLeftOut[i] = new wxStaticBitmap(m_pLeftOutStatus[i], wxID_ANY, CreateBitmap(), wxDefaultPosition, wxDefaultSize);
m_bmpDotLeftOut[i] = new wxStaticBitmap(m_pLeftOutStatus[i], wxID_ANY, CreateBitmapDot(), wxPoint(BoxW / 2, BoxH / 2), wxDefaultSize);
m_pRightInStatus[i] = new wxPanel(m_Controller[i], wxID_ANY, wxDefaultPosition, wxDefaultSize);
m_bmpSquareRightIn[i] = new wxStaticBitmap(m_pRightInStatus[i], wxID_ANY, CreateBitmap(), wxDefaultPosition, wxDefaultSize);
m_bmpDeadZoneRightIn[i] = new wxStaticBitmap(m_pRightInStatus[i], wxID_ANY, CreateBitmapDeadZone(0), wxDefaultPosition, wxDefaultSize);
m_bmpDotRightIn[i] = new wxStaticBitmap(m_pRightInStatus[i], wxID_ANY, CreateBitmapDot(), wxPoint(BoxW / 2, BoxH / 2), wxDefaultSize);
m_pRightOutStatus[i] = new wxPanel(m_Controller[i], wxID_ANY, wxDefaultPosition, wxDefaultSize);
m_bmpSquareRightOut[i] = new wxStaticBitmap(m_pRightOutStatus[i], wxID_ANY, CreateBitmap(), wxDefaultPosition, wxDefaultSize);
m_bmpDotRightOut[i] = new wxStaticBitmap(m_pRightOutStatus[i], wxID_ANY, CreateBitmapDot(), wxPoint(BoxW / 2, BoxH / 2), wxDefaultSize);
m_AnalogLeftX[i] = new wxTextCtrl(m_Controller[i], ID_ANALOG_LEFT_X, wxT(""), wxDefaultPosition, wxSize(TxtW, TxtH), wxTE_READONLY | wxTE_CENTRE);
m_AnalogLeftY[i] = new wxTextCtrl(m_Controller[i], ID_ANALOG_LEFT_Y, wxT(""), wxDefaultPosition, wxSize(TxtW, TxtH), wxTE_READONLY | wxTE_CENTRE);
m_AnalogRightX[i] = new wxTextCtrl(m_Controller[i], ID_ANALOG_RIGHT_X, wxT(""), wxDefaultPosition, wxSize(TxtW, TxtH), wxTE_READONLY | wxTE_CENTRE);
m_AnalogRightY[i] = new wxTextCtrl(m_Controller[i], ID_ANALOG_RIGHT_Y, wxT(""), wxDefaultPosition, wxSize(TxtW, TxtH), wxTE_READONLY | wxTE_CENTRE);
m_AnalogLeftX[i]->Enable(false);
m_AnalogLeftY[i]->Enable(false);
m_AnalogRightX[i]->Enable(false);
m_AnalogRightY[i]->Enable(false);
m_bAnalogLeftX[i] = new wxButton(m_Controller[i], IDB_ANALOG_LEFT_X, wxEmptyString, wxDefaultPosition, wxSize(21, 14));
m_bAnalogLeftY[i] = new wxButton(m_Controller[i], IDB_ANALOG_LEFT_Y, wxEmptyString, wxDefaultPosition, wxSize(21, 14));
m_bAnalogRightX[i] = new wxButton(m_Controller[i], IDB_ANALOG_RIGHT_X, wxEmptyString, wxDefaultPosition, wxSize(21, 14));
m_bAnalogRightY[i] = new wxButton(m_Controller[i], IDB_ANALOG_RIGHT_Y, wxEmptyString, wxDefaultPosition, wxSize(21, 14));
m_SizeAnalogLeft[i] = new wxBoxSizer(wxVERTICAL); m_SizeAnalogLeftHorizX[i] = new wxBoxSizer(wxHORIZONTAL); m_SizeAnalogLeftHorizY[i] = new wxBoxSizer(wxHORIZONTAL);
m_SizeAnalogRight[i] = new wxBoxSizer(wxVERTICAL); m_SizeAnalogRightHorizX[i] = new wxBoxSizer(wxHORIZONTAL); m_SizeAnalogRightHorizY[i] = new wxBoxSizer(wxHORIZONTAL);
m_tAnalogX[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("X-Axis"));
m_tAnalogX[i + 4] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("X-Axis"));
m_tAnalogY[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Y-Axis"));
m_tAnalogY[i + 4] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Y-Axis"));
// Configuration sizers
m_SizeAnalogLeftHorizX[i]->Add(m_tAnalogX[i], 0, (wxUP), 2);
m_SizeAnalogLeftHorizX[i]->Add(m_AnalogLeftX[i], 0, (wxRIGHT), 2);
m_SizeAnalogLeftHorizX[i]->Add(m_bAnalogLeftX[i], 0, (wxUP), 2);
m_SizeAnalogLeftHorizY[i]->Add(m_tAnalogY[i], 0, (wxUP), 4);
m_SizeAnalogLeftHorizY[i]->Add(m_AnalogLeftY[i], 0, (wxUP | wxRIGHT), 2);
m_SizeAnalogLeftHorizY[i]->Add(m_bAnalogLeftY[i], 0, (wxUP), 4);
m_SizeAnalogRightHorizX[i]->Add(m_tAnalogX[i + 4], 0, (wxUP), 2);
m_SizeAnalogRightHorizX[i]->Add(m_AnalogRightX[i], 0, (wxRIGHT), 2);
m_SizeAnalogRightHorizX[i]->Add(m_bAnalogRightX[i], 0, (wxUP), 2);
m_SizeAnalogRightHorizY[i]->Add(m_tAnalogY[i + 4], 0, (wxUP), 4);
m_SizeAnalogRightHorizY[i]->Add(m_AnalogRightY[i], 0, (wxUP | wxRIGHT), 2);
m_SizeAnalogRightHorizY[i]->Add(m_bAnalogRightY[i], 0, (wxUP), 4);
m_SizeAnalogLeft[i]->AddStretchSpacer();
m_SizeAnalogLeft[i]->Add(m_SizeAnalogLeftHorizX[i], 0, (wxUP), 0);
m_SizeAnalogLeft[i]->Add(m_SizeAnalogLeftHorizY[i], 0, (wxUP), 0);
m_SizeAnalogLeft[i]->AddStretchSpacer();
m_SizeAnalogRight[i]->AddStretchSpacer();
m_SizeAnalogRight[i]->Add(m_SizeAnalogRightHorizX[i], 0, (wxUP), 0);
m_SizeAnalogRight[i]->Add(m_SizeAnalogRightHorizY[i], 0, (wxUP), 0);
m_SizeAnalogRight[i]->AddStretchSpacer();
// Status sizers
m_GridLeftStick[i] = new wxGridBagSizer(0, 0);
m_GridLeftStick[i]->Add(m_pLeftInStatus[i], wxGBPosition(0, 0), wxGBSpan(1, 1), wxALL, 0);
m_GridLeftStick[i]->Add(m_pLeftOutStatus[i], wxGBPosition(0, 1), wxGBSpan(1, 1), wxLEFT, 5);
m_GridLeftStick[i]->Add(m_TStatusLeftIn[i], wxGBPosition(1, 0), wxGBSpan(1, 1), wxALL, 0);
m_GridLeftStick[i]->Add(m_TStatusLeftOut[i], wxGBPosition(1, 1), wxGBSpan(1, 1), wxLEFT, 5);
m_GridRightStick[i] = new wxGridBagSizer(0, 0);
m_GridRightStick[i]->Add(m_pRightInStatus[i], wxGBPosition(0, 0), wxGBSpan(1, 1), wxALL, 0);
m_GridRightStick[i]->Add(m_pRightOutStatus[i], wxGBPosition(0, 1), wxGBSpan(1, 1), wxLEFT, 5);
m_GridRightStick[i]->Add(m_TStatusRightIn[i], wxGBPosition(1, 0), wxGBSpan(1, 1), wxALL, 0);
m_GridRightStick[i]->Add(m_TStatusRightOut[i], wxGBPosition(1, 1), wxGBSpan(1, 1), wxLEFT, 5);
m_gAnalogLeft[i] = new wxStaticBoxSizer (wxHORIZONTAL, m_Controller[i], wxT("Analog 1 (In) (Out)"));
m_gAnalogLeft[i]->Add(m_GridLeftStick[i], 0, (wxLEFT | wxRIGHT), 5);
m_gAnalogLeft[i]->Add(m_SizeAnalogLeft[i], 0, wxEXPAND | wxALIGN_CENTER_VERTICAL, 0);
m_gAnalogRight[i] = new wxStaticBoxSizer (wxHORIZONTAL, m_Controller[i], wxT("Analog 2 (In) (Out)"));
m_gAnalogRight[i]->Add(m_GridRightStick[i], 0, (wxLEFT | wxRIGHT), 5);
m_gAnalogRight[i]->Add(m_SizeAnalogRight[i], 0, wxEXPAND | wxALIGN_CENTER_VERTICAL, 0);
// Row 3 Sizers
m_HorizControllers[i] = new wxBoxSizer(wxHORIZONTAL);
//m_HorizControllers[i]->AddStretchSpacer();
m_HorizControllers[i]->AddSpacer(17);
m_HorizControllers[i]->Add(m_gAnalogLeft[i]);
m_HorizControllers[i]->Add(m_gAnalogRight[i], 0, (wxLEFT), 5);
//m_HorizControllers[i]->AddStretchSpacer();
static const wxChar* wMText[] =
{
wxT("A"),
wxT("B"),
wxT("1"),
wxT("2"),
wxT("+"),
wxT("- "), // Intentional space
wxT("Home"),
wxT("Left"),
wxT("Right"),
wxT("Up"),
wxT("Down"),
wxT("Shake"),
wxT("Pitch Left"),
wxT("Pitch Right"),
};
m_SWmVertLeft[i] = new wxBoxSizer(wxVERTICAL);
m_SWmVertRight[i] = new wxBoxSizer(wxVERTICAL);
for ( int x = 0; x < WM_CONTROLS; x++)
{
m_statictext_Wiimote[x][i] = new wxStaticText(m_Controller[i], wxID_ANY, wMText[x]);
m_Button_Wiimote[x][i] = new wxButton(m_Controller[i], x + IDB_WM_A, wxEmptyString, wxDefaultPosition, wxSize(BtW, BtH));
m_Button_Wiimote[x][i]->SetFont(m_SmallFont);
m_Sizer_Wiimote[x][i] = new wxBoxSizer(wxHORIZONTAL);
m_Sizer_Wiimote[x][i]->Add(m_statictext_Wiimote[x][i], 0, (wxUP), 4);
m_Sizer_Wiimote[x][i]->Add(m_Button_Wiimote[x][i], 0, (wxLEFT), 2);
if (x < 7)
m_SWmVertLeft[i]->Add(m_Sizer_Wiimote[x][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
else
m_SWmVertRight[i]->Add(m_Sizer_Wiimote[x][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
}
m_gWiimote[i] = new wxStaticBoxSizer (wxHORIZONTAL, m_Controller[i], wxT("Wiimote"));
m_gWiimote[i]->Add(m_SWmVertLeft[i], 0, wxALIGN_RIGHT | (wxALL), 0);
m_gWiimote[i]->Add(m_SWmVertRight[i], 0, wxALIGN_RIGHT | (wxLEFT), 5);
m_gWiimote[i]->AddSpacer(1);
if(g_Config.iExtensionConnected == EXT_NUNCHUCK)
{
// Stick controls
m_NunchuckTextStick[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Stick"));
m_NunchuckComboStick[i] = new wxComboBox(m_Controller[i], IDCB_NUNCHUCK_STICK, StrNunchuck[0], wxDefaultPosition, wxSize(100, -1), StrNunchuck, wxCB_READONLY);
static const wxChar* nCText[] =
{
wxT("Z"),
wxT("C"),
wxT("Left"),
wxT("Right"),
wxT("Up"),
wxT("Down"),
wxT("Shake"),
};
m_NunchuckStick[i] = new wxBoxSizer(wxHORIZONTAL);
m_NunchuckStick[i]->Add(m_NunchuckTextStick[i], 0, (wxUP), 4);
m_NunchuckStick[i]->Add(m_NunchuckComboStick[i], 0, (wxLEFT), 2);
m_gNunchuck[i] = new wxStaticBoxSizer (wxVERTICAL, m_Controller[i], wxT("Nunchuck"));
m_gNunchuck[i]->Add(m_NunchuckStick[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 2);
m_gNunchuck[i]->AddSpacer(2);
for ( int x = 0; x < NC_CONTROLS; x++)
{
m_statictext_NunChuck[x][i] = new wxStaticText(m_Controller[i], wxID_ANY, nCText[x]);
m_Button_NunChuck[x][i] = new wxButton(m_Controller[i], x + IDB_NC_Z, wxEmptyString, wxDefaultPosition, wxSize(BtW, BtH));
m_Button_NunChuck[x][i]->SetFont(m_SmallFont);
m_Sizer_NunChuck[x][i] = new wxBoxSizer(wxHORIZONTAL);
m_Sizer_NunChuck[x][i]->Add(m_statictext_NunChuck[x][i], 0, wxALIGN_RIGHT | (wxUP), 4);
m_Sizer_NunChuck[x][i]->Add(m_Button_NunChuck[x][i], 0, wxALIGN_RIGHT | (wxLEFT), 2);
m_gNunchuck[i]->Add(m_Sizer_NunChuck[x][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
}
m_NunchuckComboStick[i]->SetSelection(g_Config.Nunchuck.Type);
}
else if(g_Config.iExtensionConnected == EXT_CLASSIC_CONTROLLER)
{
// Stick controls
m_CcTextLeftStick[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Left stick"));
m_CcComboLeftStick[i] = new wxComboBox(m_Controller[i], IDCB_CC_LEFT_STICK, StrNunchuck[0], wxDefaultPosition, wxSize(100, -1), StrNunchuck, wxCB_READONLY);
m_CcTextRightStick[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Right stick"));
m_CcComboRightStick[i] = new wxComboBox(m_Controller[i], IDCB_CC_RIGHT_STICK, StrNunchuck[0], wxDefaultPosition, wxSize(100, -1), StrNunchuck, wxCB_READONLY);
m_CcTextTriggers[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Triggers"));
m_CcComboTriggers[i] = new wxComboBox(m_Controller[i], IDCB_CC_TRIGGERS, StrCcTriggers[0], wxDefaultPosition, wxSize(100, -1), StrCcTriggers, wxCB_READONLY);
static const wxChar* classicText[] =
{
wxT("A"),
wxT("B"),
wxT("X"),
wxT("Y"),
wxT("+"),
wxT("- "),
wxT("Home"),
wxT("Left trigger"),
wxT("Left Z"),
wxT("Right Z"),
wxT("Right trigger"),
wxT("Digital Left"),
wxT("Digital Up"),
wxT("Digital Right"),
wxT("Digital Down"),
wxT("L Left"),
wxT("L Up"),
wxT("L Right"),
wxT("L Down"),
wxT("R Left"),
wxT("R Up"),
wxT("R Right"),
wxT("R Down"),
};
for ( int x = 0; x < CC_CONTROLS; x++)
{
m_statictext_Classic[x][i] = new wxStaticText(m_Controller[i], wxID_ANY, classicText[x]);
m_Button_Classic[x][i] = new wxButton(m_Controller[i], x + IDB_CC_A, wxEmptyString, wxDefaultPosition, wxSize(BtW, BtH));
m_Button_Classic[x][i]->SetFont(m_SmallFont);
m_Sizer_Classic[x][i] = new wxBoxSizer(wxHORIZONTAL);
m_Sizer_Classic[x][i]->Add(m_statictext_Classic[x][i], 0, wxALIGN_RIGHT | (wxUP), 4);
m_Sizer_Classic[x][i]->Add(m_Button_Classic[x][i], 0, wxALIGN_RIGHT | (wxLEFT), 2);
}
// Sizers
m_SCcLeftStick[i] = new wxBoxSizer(wxHORIZONTAL);
m_SCcLeftStick[i]->Add(m_CcTextLeftStick[i], 0, (wxUP), 4);
m_SCcLeftStick[i]->Add(m_CcComboLeftStick[i], 0, (wxLEFT), 2);
m_SCcRightStick[i] = new wxBoxSizer(wxHORIZONTAL);
m_SCcRightStick[i]->Add(m_CcTextRightStick[i], 0, (wxUP), 4);
m_SCcRightStick[i]->Add(m_CcComboRightStick[i], 0, (wxLEFT), 2);
m_SCcTriggers[i] = new wxBoxSizer(wxHORIZONTAL);
m_SCcTriggers[i]->Add(m_CcTextTriggers[i], 0, (wxUP), 4);
m_SCcTriggers[i]->Add(m_CcComboTriggers[i], 0, (wxLEFT), 2);
// The left parent
m_SCcVertLeft[i] = new wxBoxSizer(wxVERTICAL);
m_SCcVertLeft[i]->Add(m_SCcLeftStick[i], 0, wxALIGN_RIGHT | (wxALL), 2);
m_SCcVertLeft[i]->Add(m_SCcRightStick[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 2);
m_SCcVertLeft[i]->AddSpacer(2);
// Digital l,r,u,d
for ( int x = IDB_CC_DL; x <= IDB_CC_DD; x++)
{
m_SCcVertLeft[i]->Add(m_Sizer_Classic[x - IDB_CC_A][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
}
// left and right trigger
m_SCcVertLeft[i]->Add(m_Sizer_Classic[IDB_CC_TL - IDB_CC_A][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
m_SCcVertLeft[i]->Add(m_Sizer_Classic[IDB_CC_TR - IDB_CC_A][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
// The middle parent
m_SCcVertMiddle[i] = new wxBoxSizer(wxVERTICAL);
m_SCcVertMiddle[i]->Add(m_SCcTriggers[i], 0, wxALIGN_RIGHT | (wxALL), 1);
m_SCcVertLeft[i]->AddSpacer(2);
// Left and right stick
for ( int x = IDB_CC_LL; x <= IDB_CC_RD; x++)
{
m_SCcVertMiddle[i]->Add(m_Sizer_Classic[x - IDB_CC_A][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
}
// The right parent
m_SCcVertRight[i] = new wxBoxSizer(wxVERTICAL);
for ( int x = 0; x <= IDB_CC_ZR - IDB_CC_A; x++)
{
if (x != IDB_CC_TL - IDB_CC_A)
m_SCcVertRight[i]->Add(m_Sizer_Classic[x][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
}
// The parent sizer
m_gClassicController[i] = new wxStaticBoxSizer (wxHORIZONTAL, m_Controller[i], wxT("Classic Controller"));
m_gClassicController[i]->Add(m_SCcVertLeft[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
m_gClassicController[i]->Add(m_SCcVertMiddle[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
m_gClassicController[i]->Add(m_SCcVertRight[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
//Set values
m_CcComboLeftStick[i]->SetSelection(g_Config.ClassicController.LType);
m_CcComboRightStick[i]->SetSelection(g_Config.ClassicController.RType);
m_CcComboTriggers[i]->SetSelection(g_Config.ClassicController.TType);
}
else if(g_Config.iExtensionConnected == EXT_GUITARHERO3_CONTROLLER)
{
// TODO: fix keyboard input for joystick use the nunchuck array str
wxArrayString tempArraySTR;
tempArraySTR.Add(wxString::FromAscii("Analog 1"));
tempArraySTR.Add(wxString::FromAscii("Analog 2"));
// Stick controls
m_tGH3_Analog[i] = new wxStaticText(m_Controller[i], wxID_ANY, wxT("Analog joystick"));
m_GH3ComboAnalog[i] = new wxComboBox(m_Controller[i], IDCB_GH3_ANALOG, tempArraySTR[0], wxDefaultPosition, wxSize(100, -1), tempArraySTR, wxCB_READONLY);
m_GH3ComboAnalog[i]->SetSelection(g_Config.GH3Controller.AType);
static const wxChar* gh3Text[] =
{
wxT("Green"),
wxT("Red"),
wxT("Yellow"),
wxT("Blue"),
wxT("Orange"),
wxT("+"),
wxT("- "),
wxT("Whammy"),
wxT("Left"), //analog stick
wxT("Up"),
wxT("Right"),
wxT("Down"),
wxT("Strum Up"),
wxT("Strum Down"),
};
for ( int x = 0; x < GH3_CONTROLS; x++)
m_statictext_GH3[x][i] = new wxStaticText(m_Controller[i], wxID_ANY, gh3Text[x]);
for ( int x = IDB_GH3_GREEN; x <= IDB_GH3_STRUM_DOWN; x++)
{
m_Button_GH3[x - IDB_GH3_GREEN][i] = new wxButton(m_Controller[i], x, wxEmptyString, wxDefaultPosition, wxSize(BtW, BtH));
if (IDB_GH3_WHAMMY <= x && x <= IDB_GH3_ANALOG_DOWN)
m_Button_GH3[x - IDB_GH3_GREEN][i]->Disable();
}
// Sizers
m_sGH3_Analog[i] = new wxBoxSizer(wxHORIZONTAL);
m_sGH3_Analog[i]->Add(m_tGH3_Analog[i], 0, (wxUP), 4);
m_sGH3_Analog[i]->Add(m_GH3ComboAnalog[i], 0, (wxLEFT), 2);
for ( int x = 0; x < GH3_CONTROLS; x++)
{
m_sizer_GH3[x][i] = new wxBoxSizer(wxHORIZONTAL);
m_sizer_GH3[x][i]->Add(m_statictext_GH3[x][i], 0, (wxUP), 4);
m_sizer_GH3[x][i]->Add(m_Button_GH3[x][i], 0, (wxLEFT), 2);
}
// The left parent
m_SGH3VertLeft[i] = new wxBoxSizer(wxVERTICAL);
m_SGH3VertLeft[i]->Add(m_sGH3_Analog[i], 0, wxALIGN_RIGHT | (wxALL), 2);
for (int x = IDB_GH3_WHAMMY - IDB_GH3_GREEN; x <= IDB_GH3_ANALOG_DOWN - IDB_GH3_GREEN; x++)
m_SGH3VertLeft[i]->Add(m_sizer_GH3[x][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
// The right parent
m_SGH3VertRight[i] = new wxBoxSizer(wxVERTICAL);
for (int x = 0; x <= IDB_GH3_MINUS - IDB_GH3_GREEN; x++)
m_SGH3VertRight[i]->Add(m_sizer_GH3[x][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
m_SGH3VertRight[i]->Add(m_sizer_GH3[IDB_GH3_STRUM_UP - IDB_GH3_GREEN][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
m_SGH3VertRight[i]->Add(m_sizer_GH3[IDB_GH3_STRUM_DOWN - IDB_GH3_GREEN][i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
// The parent sizer
m_gGuitarHero3Controller[i] = new wxStaticBoxSizer (wxHORIZONTAL, m_Controller[i], wxT("Guitar Hero 3 Controller"));
m_gGuitarHero3Controller[i]->Add(m_SGH3VertLeft[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
m_gGuitarHero3Controller[i]->Add(m_SGH3VertRight[i], 0, wxALIGN_RIGHT | (wxLEFT | wxRIGHT | wxDOWN), 1);
}
// Row 4 Sizers
m_HorizControllerMapping[i] = new wxBoxSizer(wxHORIZONTAL);
m_HorizControllerMapping[i]->Add(m_gWiimote[i], 0, (wxLEFT), 5);
switch(g_Config.iExtensionConnected)
{
case EXT_NUNCHUCK:
m_HorizControllerMapping[i]->AddStretchSpacer(2);
m_HorizControllerMapping[i]->Add(m_gNunchuck[i], 0, (wxLEFT), 5);
break;
case EXT_CLASSIC_CONTROLLER:
m_HorizControllerMapping[i]->Add(m_gClassicController[i], 0, (wxLEFT), 5);
break;
case EXT_GUITARHERO3_CONTROLLER:
m_HorizControllerMapping[i]->Add(m_gGuitarHero3Controller[i], 0, (wxLEFT), 5);
break;
case EXT_GUITARHEROWT_DRUMS:
default:
break;
}
m_HorizControllerMapping[i]->AddStretchSpacer(2);
// Set up sizers and layout
m_SizeParent[i] = new wxBoxSizer(wxVERTICAL);
m_SizeParent[i]->Add(m_HorizControllerTiltParent[i], 0, wxEXPAND | (wxLEFT | wxRIGHT | wxDOWN), 5);
m_SizeParent[i]->Add(m_HorizControllers[i], 0, wxEXPAND | (wxLEFT | wxRIGHT | wxDOWN), 5);
m_SizeParent[i]->Add(m_HorizControllerMapping[i], 0, wxEXPAND | (wxLEFT | wxRIGHT | wxDOWN), 5);
// The sizer m_sMain will be expanded inside m_Controller, m_SizeParent will not
m_sMain[i] = new wxBoxSizer(wxVERTICAL);
m_sMain[i]->Add(m_SizeParent[i]);
// Set the main sizer
m_Controller[i]->SetSizer(m_sMain[i]);
}
m_Apply = new wxButton(this, ID_APPLY, wxT("Apply"));
m_Close = new wxButton(this, ID_CLOSE, wxT("Close"));
m_Close->SetToolTip(wxT("Apply and Close"));
wxBoxSizer* sButtons = new wxBoxSizer(wxHORIZONTAL);
sButtons->AddStretchSpacer();
sButtons->Add(m_Apply, 0, (wxALL), 0);
sButtons->Add(m_Close, 0, (wxLEFT), 5);
m_MainSizer = new wxBoxSizer(wxVERTICAL);
m_MainSizer->Add(m_Notebook, 1, wxEXPAND | wxALL, 5);
m_MainSizer->Add(sButtons, 0, wxEXPAND | (wxLEFT | wxRIGHT | wxDOWN), 5);
for (int i = MAX_WIIMOTES - 1; i > 0; i--)
{
m_Controller[i]->Enable(false);
}
this->SetSizer(m_MainSizer);
this->Layout();
Fit();
// Center the window if there is room for it
#ifdef _WIN32
if (GetSystemMetrics(SM_CYFULLSCREEN) > 800)
Center();
#endif
ControlsCreated = true;
}
void WiimotePadConfigDialog::GeneralSettingsChanged(wxCommandEvent& event)
{
long TmpValue;
switch (event.GetId())
{
case ID_TRIGGER_TYPE:
WiiMoteEmu::PadMapping[Page].triggertype = m_TriggerType[Page]->GetSelection();
break;
case ID_TILT_INPUT:
g_Config.Trigger.Type = m_TiltComboInput[Page]->GetSelection();
break;
case ID_TILT_RANGE_ROLL:
m_TiltComboRangeRoll[Page]->GetValue().ToLong(&TmpValue); g_Config.Trigger.Range.Roll = TmpValue;
break;
case ID_TILT_RANGE_PITCH:
m_TiltComboRangePitch[Page]->GetValue().ToLong(&TmpValue); g_Config.Trigger.Range.Pitch = TmpValue;
break;
case IDC_JOYNAME:
DoChangeJoystick();
break;
case IDCB_NUNCHUCK_STICK:
g_Config.Nunchuck.Type = m_NunchuckComboStick[Page]->GetSelection();
break;
case IDCB_CC_LEFT_STICK:
g_Config.ClassicController.LType = m_CcComboLeftStick[Page]->GetSelection();
break;
case IDCB_CC_RIGHT_STICK:
g_Config.ClassicController.RType = m_CcComboRightStick[Page]->GetSelection();
break;
case IDCB_CC_TRIGGERS:
g_Config.ClassicController.TType = m_CcComboTriggers[Page]->GetSelection();
break;
case IDCB_GH3_ANALOG:
g_Config.GH3Controller.AType = m_GH3ComboAnalog[Page]->GetSelection();
break;
// These are defined in PadMapping and we can run the same function to update all of them
case IDCB_LEFT_DIAGONAL:
case IDC_LEFT_C2S:
case ID_TILT_INVERT_ROLL:
case ID_TILT_INVERT_PITCH:
SaveButtonMappingAll(Page);
break;
case IDCB_DEAD_ZONE_LEFT:
SaveButtonMappingAll(Page);
break;
case IDCB_DEAD_ZONE_RIGHT:
SaveButtonMappingAll(Page);
break;
}
g_Config.Save();
UpdateGUI();
}
void WiimotePadConfigDialog::UpdateGUI(int Slot)
{
UpdateGUIButtonMapping(Page);
DoChangeDeadZone(true); DoChangeDeadZone(false);
// Linux has no FindItem()
// Disable all pad items if no pads are detected
if(ControlsCreated)
{
bool PadEnabled = WiiMoteEmu::NumGoodPads != 0;
#ifdef _WIN32
for(int i = IDB_ANALOG_LEFT_X; i <= IDB_TRIGGER_R; i++) m_Notebook->FindItem(i)->Enable(PadEnabled);
m_Notebook->FindItem(IDC_JOYNAME)->Enable(PadEnabled);
m_Notebook->FindItem(IDC_LEFT_C2S)->Enable(PadEnabled);
m_Notebook->FindItem(IDCB_LEFT_DIAGONAL)->Enable(PadEnabled);
m_Notebook->FindItem(IDCB_DEAD_ZONE_LEFT)->Enable(PadEnabled);
m_Notebook->FindItem(IDCB_DEAD_ZONE_RIGHT)->Enable(PadEnabled);
m_Notebook->FindItem(ID_TRIGGER_TYPE)->Enable(PadEnabled);
#endif
}
}