winamp/Src/external_dependencies/openmpt-trunk/mptrack/MainFrm.cpp
2024-09-24 14:54:57 +02:00

3258 lines
89 KiB
C++

/*
* MainFrm.cpp
* -----------
* Purpose: Implementation of OpenMPT's main window code.
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#include "stdafx.h"
#include "Mptrack.h"
#include "Mainfrm.h"
#include "ModDocTemplate.h"
#include "openmpt/sounddevice/SoundDevice.hpp"
#include "openmpt/sounddevice/SoundDeviceBuffer.hpp"
#include "openmpt/sounddevice/SoundDeviceManager.hpp"
#include "../soundlib/AudioReadTarget.h"
#include "ImageLists.h"
#include "Moddoc.h"
#include "Childfrm.h"
#include "Dlsbank.h"
#include "Mpdlgs.h"
#include "FolderScanner.h"
#include "KeyConfigDlg.h"
#include "PathConfigDlg.h"
#include "GeneralConfigDlg.h"
#include "ColorConfigDlg.h"
#include "SampleConfigDlg.h"
#include "AdvancedConfigDlg.h"
#include "AutoSaver.h"
#include "Mainfrm.h"
#include "InputHandler.h"
#include "Globals.h"
#include "ChannelManagerDlg.h"
#include "../common/version.h"
#include "UpdateCheck.h"
#include "CloseMainDialog.h"
#include "SelectPluginDialog.h"
#include "PatternClipboard.h"
#include "PatternFont.h"
#include "../common/mptFileIO.h"
#include "../common/FileReader.h"
#include "../common/Profiler.h"
#include "../soundlib/plugins/PlugInterface.h"
#include "../soundlib/plugins/PluginManager.h"
#include "Vstplug.h"
#include "FileDialog.h"
#include "ProgressDialog.h"
#include <HtmlHelp.h>
#include <Dbt.h> // device change messages
#include "mpt/audio/span.hpp"
OPENMPT_NAMESPACE_BEGIN
#define TIMERID_GUI 1
#define TIMERID_NOTIFY 2
#define MPTTIMER_PERIOD 200
/////////////////////////////////////////////////////////////////////////////
// CMainFrame
IMPLEMENT_DYNAMIC(CMainFrame, CMDIFrameWnd)
BEGIN_MESSAGE_MAP(CMainFrame, CMDIFrameWnd)
//{{AFX_MSG_MAP(CMainFrame)
ON_WM_TIMER()
ON_WM_CLOSE()
ON_WM_CREATE()
ON_WM_RBUTTONDOWN()
ON_WM_DEVICECHANGE()
ON_WM_DROPFILES()
ON_WM_QUERYENDSESSION()
ON_COMMAND(ID_VIEW_OPTIONS, &CMainFrame::OnViewOptions)
ON_COMMAND(ID_PLUGIN_SETUP, &CMainFrame::OnPluginManager)
ON_COMMAND(ID_CLIPBOARD_MANAGER, &CMainFrame::OnClipboardManager)
//ON_COMMAND(ID_HELP, CMDIFrameWnd::OnHelp)
ON_COMMAND(ID_REPORT_BUG, &CMainFrame::OnReportBug)
ON_COMMAND(ID_NEXTOCTAVE, &CMainFrame::OnNextOctave)
ON_COMMAND(ID_PREVOCTAVE, &CMainFrame::OnPrevOctave)
ON_COMMAND_RANGE(ID_FILE_OPENTEMPLATE, ID_FILE_OPENTEMPLATE_LASTINRANGE, &CMainFrame::OnOpenTemplateModule)
ON_COMMAND(ID_ADD_SOUNDBANK, &CMainFrame::OnAddDlsBank)
ON_COMMAND(ID_IMPORT_MIDILIB, &CMainFrame::OnImportMidiLib)
ON_COMMAND(ID_MIDI_RECORD, &CMainFrame::OnMidiRecord)
ON_COMMAND(ID_PANIC, &CMainFrame::OnPanic)
ON_COMMAND(ID_PLAYER_PAUSE, &CMainFrame::OnPlayerPause)
ON_COMMAND_RANGE(ID_EXAMPLE_MODULES, ID_EXAMPLE_MODULES_LASTINRANGE, &CMainFrame::OnExampleSong)
ON_COMMAND_EX(IDD_TREEVIEW, &CMainFrame::OnBarCheck)
ON_COMMAND_EX(ID_NETLINK_MODPLUG, &CMainFrame::OnInternetLink)
ON_COMMAND_EX(ID_NETLINK_TOP_PICKS, &CMainFrame::OnInternetLink)
ON_UPDATE_COMMAND_UI(ID_MIDI_RECORD, &CMainFrame::OnUpdateMidiRecord)
ON_UPDATE_COMMAND_UI(ID_INDICATOR_TIME, &CMainFrame::OnUpdateTime)
ON_UPDATE_COMMAND_UI(ID_INDICATOR_USER, &CMainFrame::OnUpdateUser)
ON_UPDATE_COMMAND_UI(ID_INDICATOR_INFO, &CMainFrame::OnUpdateInfo)
ON_UPDATE_COMMAND_UI(ID_INDICATOR_XINFO,&CMainFrame::OnUpdateXInfo)
ON_UPDATE_COMMAND_UI(IDD_TREEVIEW, &CMainFrame::OnUpdateControlBarMenu)
ON_MESSAGE(WM_MOD_UPDATEPOSITION, &CMainFrame::OnUpdatePosition)
ON_MESSAGE(WM_MOD_INVALIDATEPATTERNS, &CMainFrame::OnInvalidatePatterns)
ON_MESSAGE(WM_MOD_KEYCOMMAND, &CMainFrame::OnCustomKeyMsg)
ON_MESSAGE(WM_MOD_MIDIMAPPING, &CMainFrame::OnViewMIDIMapping)
ON_MESSAGE(WM_MOD_UPDATEVIEWS, &CMainFrame::OnUpdateViews)
ON_MESSAGE(WM_MOD_SETMODIFIED, &CMainFrame::OnSetModified)
#if defined(MPT_ENABLE_UPDATE)
ON_MESSAGE(WM_MOD_UPDATENOTIFY, &CMainFrame::OnToolbarUpdateIndicatorClick)
#endif // MPT_ENABLE_UPDATE
ON_COMMAND(ID_INTERNETUPDATE, &CMainFrame::OnInternetUpdate)
ON_COMMAND(ID_UPDATE_AVAILABLE, &CMainFrame::OnUpdateAvailable)
ON_COMMAND(ID_HELP_SHOWSETTINGSFOLDER, &CMainFrame::OnShowSettingsFolder)
#if defined(MPT_ENABLE_UPDATE)
ON_MESSAGE(MPT_WM_APP_UPDATECHECK_START, &CMainFrame::OnUpdateCheckStart)
ON_MESSAGE(MPT_WM_APP_UPDATECHECK_PROGRESS, &CMainFrame::OnUpdateCheckProgress)
ON_MESSAGE(MPT_WM_APP_UPDATECHECK_CANCELED, &CMainFrame::OnUpdateCheckCanceled)
ON_MESSAGE(MPT_WM_APP_UPDATECHECK_FAILURE, &CMainFrame::OnUpdateCheckFailure)
ON_MESSAGE(MPT_WM_APP_UPDATECHECK_SUCCESS, &CMainFrame::OnUpdateCheckSuccess)
#endif // MPT_ENABLE_UPDATE
ON_COMMAND(ID_HELPSHOW, &CMainFrame::OnHelp)
ON_COMMAND_RANGE(ID_MRU_LIST_FIRST, ID_MRU_LIST_LAST, &CMainFrame::OnOpenMRUItem)
ON_UPDATE_COMMAND_UI(ID_MRU_LIST_FIRST, &CMainFrame::OnUpdateMRUItem)
//}}AFX_MSG_MAP
ON_WM_INITMENU()
ON_WM_KILLFOCUS()
ON_WM_MOUSEWHEEL()
ON_WM_SHOWWINDOW()
ON_WM_ACTIVATEAPP()
END_MESSAGE_MAP()
// Globals
OptionsPage CMainFrame::m_nLastOptionsPage = OPTIONS_PAGE_DEFAULT;
HHOOK CMainFrame::ghKbdHook = NULL;
// GDI
HICON CMainFrame::m_hIcon = NULL;
HFONT CMainFrame::m_hGUIFont = NULL;
HFONT CMainFrame::m_hFixedFont = NULL;
HPEN CMainFrame::penDarkGray = NULL;
HPEN CMainFrame::penGray99 = NULL;
HPEN CMainFrame::penHalfDarkGray = NULL;
HCURSOR CMainFrame::curDragging = NULL;
HCURSOR CMainFrame::curArrow = NULL;
HCURSOR CMainFrame::curNoDrop = NULL;
HCURSOR CMainFrame::curNoDrop2 = NULL;
HCURSOR CMainFrame::curVSplit = NULL;
MODPLUGDIB *CMainFrame::bmpNotes = nullptr;
MODPLUGDIB *CMainFrame::bmpVUMeters = nullptr;
MODPLUGDIB *CMainFrame::bmpPluginVUMeters = nullptr;
COLORREF CMainFrame::gcolrefVuMeter[NUM_VUMETER_PENS*2];
CInputHandler *CMainFrame::m_InputHandler = nullptr;
static UINT indicators[] =
{
ID_SEPARATOR, // status line indicator
ID_INDICATOR_XINFO,
ID_INDICATOR_INFO,
ID_INDICATOR_USER,
ID_INDICATOR_TIME,
};
/////////////////////////////////////////////////////////////////////////////
// CMainFrame construction/destruction
CMainFrame::CMainFrame()
: SoundDevice::CallbackBufferHandler<DithersOpenMPT>(theApp.PRNG())
, m_SoundDeviceFillBufferCriticalSection(CriticalSection::InitialState::Unlocked)
{
m_szUserText[0] = 0;
m_szInfoText[0] = 0;
m_szXInfoText[0]= 0;
MemsetZero(gcolrefVuMeter);
m_InputHandler = new CInputHandler(this);
}
void CMainFrame::Initialize()
{
//Adding version number to the frame title
CString title = GetTitle();
title += _T(" ") + mpt::cfmt::val(Version::Current());
#if defined(MPT_BUILD_RETRO)
title += _T(" RETRO");
#endif // MPT_BUILD_RETRO
if(Build::IsDebugBuild())
{
title += _T(" DEBUG");
}
#ifndef MPT_WITH_VST
title += _T(" NO_VST");
#endif
#ifndef MPT_WITH_DMO
title += _T(" NO_DMO");
#endif
#ifdef NO_PLUGINS
title += _T(" NO_PLUGINS");
#endif
SetTitle(title);
OnUpdateFrameTitle(false);
// Check for valid sound device
SoundDevice::Identifier dev = TrackerSettings::Instance().GetSoundDeviceIdentifier();
if(!theApp.GetSoundDevicesManager()->FindDeviceInfo(dev).IsValid())
{
dev = theApp.GetSoundDevicesManager()->FindDeviceInfoBestMatch(dev).GetIdentifier();
TrackerSettings::Instance().SetSoundDeviceIdentifier(dev);
}
// Setup timer
OnUpdateUser(NULL);
m_nTimer = SetTimer(TIMERID_GUI, MPTTIMER_PERIOD, NULL);
// Setup Keyboard Hook
ghKbdHook = SetWindowsHookEx(WH_KEYBOARD, KeyboardProc, AfxGetInstanceHandle(), GetCurrentThreadId());
// Update the tree
m_wndTree.Init();
CreateExampleModulesMenu();
CreateTemplateModulesMenu();
UpdateMRUList();
}
CMainFrame::~CMainFrame()
{
delete m_InputHandler;
CChannelManagerDlg::DestroySharedInstance();
}
int CMainFrame::OnCreate(LPCREATESTRUCT lpCreateStruct)
{
if(CMDIFrameWnd::OnCreate(lpCreateStruct) == -1)
return -1;
// Load resources
m_hIcon = theApp.LoadIcon(IDR_MAINFRAME);
// Toolbar and other icons
CDC *dc = GetDC();
const double scaling = Util::GetDPIx(m_hWnd) / 96.0;
static constexpr int miscIconsInvert[] = {IMAGE_PATTERNS, IMAGE_OPLINSTRACTIVE, IMAGE_OPLINSTRMUTE};
static constexpr int patternIconsInvert[] = {TIMAGE_PREVIEW, TIMAGE_MACROEDITOR, TIMAGE_PATTERN_OVERFLOWPASTE, TIMAGE_PATTERN_DETAIL_LO, TIMAGE_PATTERN_DETAIL_MED, TIMAGE_PATTERN_DETAIL_HI, TIMAGE_PATTERN_PLUGINS, TIMAGE_SAMPLE_UNSIGN};
static constexpr int envelopeIconsInvert[] = {IIMAGE_CHECKED, IIMAGE_VOLSWITCH, IIMAGE_PANSWITCH, IIMAGE_PITCHSWITCH, IIMAGE_FILTERSWITCH, IIMAGE_NOPITCHSWITCH, IIMAGE_NOFILTERSWITCH};
m_MiscIcons.Create(IDB_IMAGELIST, 16, 16, IMGLIST_NUMIMAGES, 1, dc, scaling, false, miscIconsInvert);
m_MiscIconsDisabled.Create(IDB_IMAGELIST, 16, 16, IMGLIST_NUMIMAGES, 1, dc, scaling, true, miscIconsInvert);
m_PatternIcons.Create(IDB_PATTERNS, 16, 16, PATTERNIMG_NUMIMAGES, 1, dc, scaling, false, patternIconsInvert);
m_PatternIconsDisabled.Create(IDB_PATTERNS, 16, 16, PATTERNIMG_NUMIMAGES, 1, dc, scaling, true, patternIconsInvert);
m_EnvelopeIcons.Create(IDB_ENVTOOLBAR, 20, 18, ENVIMG_NUMIMAGES, 1, dc, scaling, false, envelopeIconsInvert);
m_SampleIcons.Create(IDB_SMPTOOLBAR, 20, 18, SAMPLEIMG_NUMIMAGES, 1, dc, scaling, false);
ReleaseDC(dc);
NONCLIENTMETRICS metrics;
metrics.cbSize = sizeof(metrics);
SystemParametersInfo(SPI_GETNONCLIENTMETRICS, sizeof(metrics), &metrics, 0);
m_hGUIFont = CreateFontIndirect(&metrics.lfMessageFont);
penDarkGray = ::CreatePen(PS_SOLID, 0, GetSysColor(COLOR_BTNSHADOW));
penGray99 = ::CreatePen(PS_SOLID,0, RGB(0x99, 0x99, 0x99));
penHalfDarkGray = ::CreatePen(PS_DOT, 0, GetSysColor(COLOR_BTNSHADOW));
// Cursors
curDragging = theApp.LoadCursor(IDC_DRAGGING);
curArrow = theApp.LoadStandardCursor(IDC_ARROW);
curNoDrop = theApp.LoadStandardCursor(IDC_NO);
curNoDrop2 = theApp.LoadCursor(IDC_NODRAG);
curVSplit = theApp.LoadCursor(AFX_IDC_HSPLITBAR);
// bitmaps
bmpNotes = LoadDib(MAKEINTRESOURCE(IDB_PATTERNVIEW));
bmpVUMeters = LoadDib(MAKEINTRESOURCE(IDB_VUMETERS));
bmpPluginVUMeters = LoadDib(MAKEINTRESOURCE(IDB_VUMETERS));
// Toolbars
EnableDocking(CBRS_ALIGN_ANY);
if (!m_wndToolBar.Create(this)) return -1;
if (!m_wndStatusBar.Create(this)) return -1;
if (!m_wndTree.Create(this, IDD_TREEVIEW, CBRS_LEFT|CBRS_BORDER_RIGHT, IDD_TREEVIEW)) return -1;
m_wndStatusBar.SetIndicators(indicators, mpt::saturate_cast<int>(std::size(indicators)));
m_wndStatusBar.SetPaneInfo(0, ID_SEPARATOR, SBPS_STRETCH, 256);
m_wndToolBar.Init(this);
m_wndTree.RecalcLayout();
RemoveControlBar(&m_wndStatusBar); //Removing statusbar because corrupted statusbar inifiledata can crash the program.
m_wndTree.EnableDocking(0); //To prevent a crash when there's "Docking=1" for treebar in ini-settings.
// Restore toobar positions
LoadBarState(_T("Toolbars"));
AddControlBar(&m_wndStatusBar); //Restore statusbar to mainframe.
UpdateColors();
if(TrackerSettings::Instance().m_dwMidiSetup & MIDISETUP_ENABLE_RECORD_DEFAULT) midiOpenDevice(false);
#if MPT_COMPILER_MSVC
#pragma warning(push)
#pragma warning(disable:6387) // '_Param_(2)' could be '0': this does not adhere to the specification for the function 'HtmlHelpW'
#endif
::HtmlHelp(m_hWnd, nullptr, HH_INITIALIZE, reinterpret_cast<DWORD_PTR>(&helpCookie));
#if MPT_COMPILER_MSVC
#pragma warning(pop)
#endif
return 0;
}
BOOL CMainFrame::PreCreateWindow(CREATESTRUCT& cs)
{
return CMDIFrameWnd::PreCreateWindow(cs);
}
BOOL CMainFrame::DestroyWindow()
{
#if MPT_COMPILER_MSVC
#pragma warning(push)
#pragma warning(disable:6387) // '_Param_(2)' could be '0': this does not adhere to the specification for the function 'HtmlHelpW'
#endif
::HtmlHelp(m_hWnd, nullptr, HH_UNINITIALIZE, reinterpret_cast<DWORD_PTR>(&helpCookie));
#if MPT_COMPILER_MSVC
#pragma warning(pop)
#endif
// Uninstall Keyboard Hook
if (ghKbdHook)
{
UnhookWindowsHookEx(ghKbdHook);
ghKbdHook = NULL;
}
// Kill Timer
if (m_nTimer)
{
KillTimer(m_nTimer);
m_nTimer = 0;
}
if (shMidiIn) midiCloseDevice();
// Delete bitmaps
delete bmpNotes;
bmpNotes = nullptr;
delete bmpVUMeters;
bmpVUMeters = nullptr;
delete bmpPluginVUMeters;
bmpPluginVUMeters = nullptr;
PatternFont::DeleteFontData();
// Kill GDI Objects
#define DeleteGDIObject(h) ::DeleteObject(h); h = NULL;
DeleteGDIObject(penDarkGray);
DeleteGDIObject(m_hGUIFont);
DeleteGDIObject(m_hFixedFont);
DeleteGDIObject(penGray99);
#undef DeleteGDIObject
return CMDIFrameWnd::DestroyWindow();
}
void CMainFrame::OnClose()
{
MPT_TRACE_SCOPE();
if(!(TrackerSettings::Instance().m_dwPatternSetup & PATTERN_NOCLOSEDIALOG))
{
// Show modified documents window
CloseMainDialog dlg;
if(dlg.DoModal() != IDOK)
{
return;
}
}
CChildFrame *pMDIActive = (CChildFrame *)MDIGetActive();
BeginWaitCursor();
if (IsPlaying()) PauseMod();
if (pMDIActive) pMDIActive->SavePosition(TRUE);
if(gpSoundDevice)
{
gpSoundDevice->Stop();
gpSoundDevice->Close();
delete gpSoundDevice;
gpSoundDevice = nullptr;
}
// Save Settings
RemoveControlBar(&m_wndStatusBar); // Remove statusbar so that its state won't get saved.
SaveBarState(_T("Toolbars"));
AddControlBar(&m_wndStatusBar); // Restore statusbar to mainframe.
TrackerSettings::Instance().SaveSettings();
if(m_InputHandler && m_InputHandler->m_activeCommandSet)
{
m_InputHandler->m_activeCommandSet->SaveFile(TrackerSettings::Instance().m_szKbdFile);
}
EndWaitCursor();
CMDIFrameWnd::OnClose();
}
BOOL CMainFrame::OnDeviceChange(UINT nEventType, DWORD_PTR dwData)
{
if(nEventType == DBT_DEVNODES_CHANGED && shMidiIn)
{
// Calling this (or most other MIDI input related functions) makes the MIDI driver realize
// that the connection to USB MIDI devices was lost and send a MIM_CLOSE message.
// Otherwise, after disconnecting a USB MIDI device, the MIDI callback will stay alive forever but return no data.
midiInGetNumDevs();
}
return CMDIFrameWnd::OnDeviceChange(nEventType, dwData);
}
// Drop files from Windows
void CMainFrame::OnDropFiles(HDROP hDropInfo)
{
const UINT nFiles = ::DragQueryFileW(hDropInfo, (UINT)-1, NULL, 0);
CMainFrame::GetMainFrame()->SetForegroundWindow();
for(UINT f = 0; f < nFiles; f++)
{
UINT size = ::DragQueryFile(hDropInfo, f, nullptr, 0) + 1;
std::vector<TCHAR> fileName(size, L'\0');
if(::DragQueryFile(hDropInfo, f, fileName.data(), size))
{
const mpt::PathString file = mpt::PathString::FromNative(fileName.data());
#ifdef MPT_BUILD_DEBUG
// Debug Hack: Quickly scan a folder containing module files (without running out of window handles ;)
if(m_InputHandler->CtrlPressed() && m_InputHandler->AltPressed() && m_InputHandler->ShiftPressed() && file.IsDirectory())
{
FolderScanner scanner(file, FolderScanner::kOnlyFiles | FolderScanner::kFindInSubDirectories);
mpt::PathString scanName;
size_t failed = 0, total = 0;
while(scanner.Next(scanName))
{
InputFile inputFile(scanName, TrackerSettings::Instance().MiscCacheCompleteFileBeforeLoading);
if(!inputFile.IsValid())
continue;
auto sndFile = std::make_unique<CSoundFile>();
MPT_LOG_GLOBAL(LogDebug, "info", U_("Loading ") + scanName.ToUnicode());
if(!sndFile->Create(GetFileReader(inputFile), CSoundFile::loadCompleteModule, nullptr))
{
MPT_LOG_GLOBAL(LogDebug, "info", U_("FAILED: ") + scanName.ToUnicode());
failed++;
}
total++;
}
Reporting::Information(MPT_UFORMAT("Scanned {} files, {} failed")(total, failed));
break;
}
#endif
theApp.OpenDocumentFile(file.ToCString());
}
}
::DragFinish(hDropInfo);
}
void CMainFrame::OnActivateApp(BOOL active, DWORD /*threadID*/)
{
// Ensure modifiers are reset when we leave the window (e.g. Alt-Tab)
if(!active)
m_InputHandler->SetModifierMask(ModNone);
}
LRESULT CALLBACK CMainFrame::KeyboardProc(int code, WPARAM wParam, LPARAM lParam)
{
static bool s_KeyboardHookReentryFlag = false; // work-around for https://bugs.openmpt.org/view.php?id=713
if(mpt::OS::Windows::IsWine()) // work-around for https://bugs.openmpt.org/view.php?id=713
{
// TODO: Properly fix this in same way or another.
if(code < 0)
{
return CallNextHookEx(ghKbdHook, code, wParam, lParam); // required by spec
}
if(theApp.InGuiThread())
{
if(s_KeyboardHookReentryFlag)
{
// Exit early without calling our hook when re-entering.
// We still need to call other hooks though.
return CallNextHookEx(ghKbdHook, code, wParam, lParam); // required by spec
}
s_KeyboardHookReentryFlag = true;
}
}
bool skipFurtherProcessing = false;
if(code >= 0)
{
// Check if textbox has focus
const bool handledByTextBox = m_InputHandler->IsKeyPressHandledByTextBox(static_cast<DWORD>(wParam), ::GetFocus());
if(!handledByTextBox && m_InputHandler->GeneralKeyEvent(kCtxAllContexts, code, wParam, lParam) != kcNull)
{
if(wParam != VK_ESCAPE)
{
// We've handled the keypress. No need to take it further.
// Unless it was esc, in which case we need it to close Windows
// (there might be other special cases, we'll see.. )
skipFurtherProcessing = true;
}
}
}
LRESULT result = 0;
if(skipFurtherProcessing)
{
result = -1;
} else
{
result = CallNextHookEx(ghKbdHook, code, wParam, lParam);
}
if(mpt::OS::Windows::IsWine()) // work-around for https://bugs.openmpt.org/view.php?id=713
{
if(theApp.InGuiThread())
{
s_KeyboardHookReentryFlag = false;
}
}
return result;
}
BOOL CMainFrame::PreTranslateMessage(MSG* pMsg)
{
if((pMsg->message == WM_RBUTTONDOWN) || (pMsg->message == WM_NCRBUTTONDOWN))
{
CWnd* pWnd = CWnd::FromHandlePermanent(pMsg->hwnd);
CControlBar* pBar = NULL;
HWND hwnd = (pWnd) ? pWnd->m_hWnd : NULL;
if ((hwnd) && (pMsg->message == WM_RBUTTONDOWN)) pBar = DYNAMIC_DOWNCAST(CControlBar, pWnd);
if ((pBar != NULL) || ((pMsg->message == WM_NCRBUTTONDOWN) && (pMsg->wParam == HTMENU)))
{
CMenu Menu;
CPoint pt;
GetCursorPos(&pt);
if (Menu.LoadMenu(IDR_TOOLBARS))
{
CMenu* pSubMenu = Menu.GetSubMenu(0);
if (pSubMenu!=NULL) pSubMenu->TrackPopupMenu(TPM_LEFTALIGN | TPM_RIGHTBUTTON,pt.x,pt.y,this);
}
}
}
return CMDIFrameWnd::PreTranslateMessage(pMsg);
}
void CMainFrame::OnUpdateFrameTitle(BOOL bAddToTitle)
{
if ((GetStyle() & FWS_ADDTOTITLE) == 0) return; // leave it alone!
CMDIChildWnd* pActiveChild = nullptr;
CDocument* pDocument = GetActiveDocument();
if (bAddToTitle &&
(pActiveChild = MDIGetActive()) != nullptr &&
(pActiveChild->GetStyle() & WS_MAXIMIZE) == 0 &&
(pDocument != nullptr ||
(pDocument = pActiveChild->GetActiveDocument()) != nullptr))
{
CString title = pDocument->GetTitle();
if(pDocument->IsModified())
title.AppendChar(_T('*'));
UpdateFrameTitleForDocument(title);
} else
{
LPCTSTR lpstrTitle = nullptr;
CString strTitle;
if (pActiveChild != nullptr)
{
strTitle = pActiveChild->GetTitle();
if (!strTitle.IsEmpty())
lpstrTitle = strTitle;
}
UpdateFrameTitleForDocument(lpstrTitle);
}
}
/////////////////////////////////////////////////////////////////////////////
// CMainFrame Sound Library
void CMainFrame::OnTimerNotify()
{
MPT_TRACE_SCOPE();
ASSERT(InGuiThread());
ASSERT(!InNotifyHandler());
m_InNotifyHandler = true;
Notification PendingNotification;
bool found = false;
int64 currenttotalsamples = 0;
if(gpSoundDevice)
{
currenttotalsamples = gpSoundDevice->GetStreamPosition().Frames;
}
{
// advance to the newest notification, drop the obsolete ones
mpt::lock_guard<mpt::mutex> lock(m_NotificationBufferMutex);
const Notification * pnotify = nullptr;
const Notification * p = m_NotifyBuffer.peek_p();
if(p && currenttotalsamples >= p->timestampSamples)
{
pnotify = p;
while(m_NotifyBuffer.peek_next_p() && currenttotalsamples >= m_NotifyBuffer.peek_next_p()->timestampSamples)
{
m_NotifyBuffer.pop();
p = m_NotifyBuffer.peek_p();
pnotify = p;
}
}
if(pnotify)
{
PendingNotification = *pnotify; // copy notification so that we can free the buffer
found = true;
{
m_NotifyBuffer.pop();
}
}
}
if(found)
{
OnUpdatePosition(0, (LPARAM)&PendingNotification);
}
m_InNotifyHandler = false;
ASSERT(!InNotifyHandler());
}
void CMainFrame::SoundDeviceMessage(LogLevel level, const mpt::ustring &str)
{
MPT_TRACE();
Reporting::Message(level, str);
}
void CMainFrame::SoundCallbackPreStart()
{
MPT_TRACE();
m_SoundDeviceClock.SetResolution(1);
}
void CMainFrame::SoundCallbackPostStop()
{
MPT_TRACE();
m_SoundDeviceClock.SetResolution(0);
}
uint64 CMainFrame::SoundCallbackGetReferenceClockNowNanoseconds() const
{
MPT_TRACE();
MPT_ASSERT(!InAudioThread());
return m_SoundDeviceClock.NowNanoseconds();
}
uint64 CMainFrame::SoundCallbackLockedGetReferenceClockNowNanoseconds() const
{
MPT_TRACE();
MPT_ASSERT(InAudioThread());
return m_SoundDeviceClock.NowNanoseconds();
}
bool CMainFrame::SoundCallbackIsLockedByCurrentThread() const
{
MPT_TRACE();
return theApp.GetGlobalMutexRef().IsLockedByCurrentThread();
}
void CMainFrame::SoundCallbackLock()
{
MPT_TRACE_SCOPE();
m_SoundDeviceFillBufferCriticalSection.Enter();
MPT_ASSERT_ALWAYS(m_pSndFile != nullptr);
m_AudioThreadId = GetCurrentThreadId();
mpt::log::Trace::SetThreadId(mpt::log::Trace::ThreadKindAudio, m_AudioThreadId);
}
void CMainFrame::SoundCallbackUnlock()
{
MPT_TRACE_SCOPE();
MPT_ASSERT_ALWAYS(m_pSndFile != nullptr);
m_AudioThreadId = 0;
m_SoundDeviceFillBufferCriticalSection.Leave();
}
class BufferInputWrapper
: public IAudioSource
{
private:
SoundDevice::CallbackBuffer<DithersOpenMPT> &callbackBuffer;
public:
inline BufferInputWrapper(SoundDevice::CallbackBuffer<DithersOpenMPT> &callbackBuffer_)
: callbackBuffer(callbackBuffer_)
{
return;
}
inline void Process(mpt::audio_span_planar<MixSampleInt> buffer) override
{
callbackBuffer.template ReadFixedPoint<MixSampleIntTraits::mix_fractional_bits>(buffer);
}
inline void Process(mpt::audio_span_planar<MixSampleFloat> buffer) override
{
callbackBuffer.Read(buffer);
}
};
class BufferOutputWrapper
: public IAudioTarget
{
private:
SoundDevice::CallbackBuffer<DithersOpenMPT> &callbackBuffer;
public:
inline BufferOutputWrapper(SoundDevice::CallbackBuffer<DithersOpenMPT> &callbackBuffer_)
: callbackBuffer(callbackBuffer_)
{
return;
}
inline void Process(mpt::audio_span_interleaved<MixSampleInt> buffer) override
{
callbackBuffer.template WriteFixedPoint<MixSampleIntTraits::mix_fractional_bits>(buffer);
}
inline void Process(mpt::audio_span_interleaved<MixSampleFloat> buffer) override
{
callbackBuffer.Write(buffer);
}
};
void CMainFrame::SoundCallbackLockedProcessPrepare(SoundDevice::TimeInfo timeInfo)
{
MPT_TRACE_SCOPE();
MPT_ASSERT(InAudioThread());
TimingInfo timingInfo;
timingInfo.OutputLatency = timeInfo.Latency;
timingInfo.StreamFrames = timeInfo.SyncPointStreamFrames;
timingInfo.SystemTimestamp = timeInfo.SyncPointSystemTimestamp;
timingInfo.Speed = timeInfo.Speed;
m_pSndFile->m_TimingInfo = timingInfo;
}
void CMainFrame::SoundCallbackLockedCallback(SoundDevice::CallbackBuffer<DithersOpenMPT> &buffer)
{
MPT_TRACE_SCOPE();
MPT_ASSERT(InAudioThread());
OPENMPT_PROFILE_FUNCTION(Profiler::Audio);
BufferInputWrapper source(buffer);
BufferOutputWrapper target(buffer);
MPT_ASSERT(buffer.GetNumFrames() <= std::numeric_limits<CSoundFile::samplecount_t>::max());
CSoundFile::samplecount_t framesToRender = static_cast<CSoundFile::samplecount_t>(buffer.GetNumFrames());
MPT_ASSERT(framesToRender > 0);
CSoundFile::samplecount_t renderedFrames = m_pSndFile->Read(framesToRender, target, source, std::ref(m_VUMeterOutput), std::ref(m_VUMeterInput));
MPT_ASSERT(renderedFrames <= framesToRender);
[[maybe_unused]] CSoundFile::samplecount_t remainingFrames = framesToRender - renderedFrames;
MPT_ASSERT(remainingFrames >= 0); // remaining buffer is filled with silence automatically
}
void CMainFrame::SoundCallbackLockedProcessDone(SoundDevice::TimeInfo timeInfo)
{
MPT_TRACE_SCOPE();
MPT_ASSERT(InAudioThread());
OPENMPT_PROFILE_FUNCTION(Profiler::Notify);
MPT_ASSERT((timeInfo.RenderStreamPositionAfter.Frames - timeInfo.RenderStreamPositionBefore.Frames) < std::numeric_limits<CSoundFile::samplecount_t>::max());
CSoundFile::samplecount_t framesRendered = static_cast<CSoundFile::samplecount_t>(timeInfo.RenderStreamPositionAfter.Frames - timeInfo.RenderStreamPositionBefore.Frames);
int64 streamPosition = timeInfo.RenderStreamPositionAfter.Frames;
DoNotification(framesRendered, streamPosition);
//m_pSndFile->m_TimingInfo = TimingInfo(); // reset
}
bool CMainFrame::IsAudioDeviceOpen() const
{
MPT_TRACE_SCOPE();
return gpSoundDevice && gpSoundDevice->IsOpen();
}
bool CMainFrame::audioOpenDevice()
{
MPT_TRACE_SCOPE();
const SoundDevice::Identifier deviceIdentifier = TrackerSettings::Instance().GetSoundDeviceIdentifier();
if(!TrackerSettings::Instance().GetMixerSettings().IsValid())
{
Reporting::Error(MPT_UFORMAT("Unable to open sound device '{}': Invalid mixer settings.")(deviceIdentifier));
return false;
}
if(gpSoundDevice && (gpSoundDevice->GetDeviceInfo().GetIdentifier() != deviceIdentifier))
{
gpSoundDevice->Stop();
gpSoundDevice->Close();
delete gpSoundDevice;
gpSoundDevice = nullptr;
}
if(IsAudioDeviceOpen())
{
return true;
}
if(!gpSoundDevice)
{
gpSoundDevice = theApp.GetSoundDevicesManager()->CreateSoundDevice(deviceIdentifier);
}
if(!gpSoundDevice)
{
Reporting::Error(MPT_UFORMAT("Unable to open sound device '{}': Could not find sound device.")(deviceIdentifier));
return false;
}
gpSoundDevice->SetMessageReceiver(this);
gpSoundDevice->SetCallback(this);
SoundDevice::Settings deviceSettings = TrackerSettings::Instance().GetSoundDeviceSettings(deviceIdentifier);
if(!gpSoundDevice->Open(deviceSettings))
{
if(!gpSoundDevice->IsAvailable())
{
Reporting::Error(MPT_UFORMAT("Unable to open sound device '{}': Device not available.")(gpSoundDevice->GetDeviceInfo().GetDisplayName()));
} else
{
Reporting::Error(MPT_UFORMAT("Unable to open sound device '{}'.")(gpSoundDevice->GetDeviceInfo().GetDisplayName()));
}
return false;
}
SampleFormat actualSampleFormat = gpSoundDevice->GetActualSampleFormat();
if(!actualSampleFormat.IsValid())
{
Reporting::Error(MPT_UFORMAT("Unable to open sound device '{}': Unknown sample format.")(gpSoundDevice->GetDeviceInfo().GetDisplayName()));
return false;
}
deviceSettings.sampleFormat = actualSampleFormat;
Dithers().SetMode(deviceSettings.DitherType, deviceSettings.Channels);
TrackerSettings::Instance().MixerSamplerate = gpSoundDevice->GetSettings().Samplerate;
TrackerSettings::Instance().SetSoundDeviceSettings(deviceIdentifier, deviceSettings);
return true;
}
void CMainFrame::audioCloseDevice()
{
MPT_TRACE_SCOPE();
if(gpSoundDevice)
{
gpSoundDevice->Close();
}
if(m_NotifyTimer)
{
KillTimer(m_NotifyTimer);
m_NotifyTimer = 0;
}
ResetNotificationBuffer();
}
void VUMeter::Process(Channel &c, MixSampleInt sample)
{
c.peak = std::max(c.peak, std::abs(sample));
if(sample < MixSampleIntTraits::mix_clip_min || MixSampleIntTraits::mix_clip_max < sample)
{
c.clipped = true;
}
}
void VUMeter::Process(Channel &c, MixSampleFloat sample)
{
Process(c, SC::ConvertToFixedPoint<MixSampleInt, MixSampleFloat, MixSampleIntTraits::mix_fractional_bits>()(sample));
}
void VUMeter::Process(mpt::audio_span_interleaved<const MixSampleInt> buffer)
{
for(std::size_t frame = 0; frame < buffer.size_frames(); ++frame)
{
for(std::size_t channel = 0; channel < std::min(buffer.size_channels(), maxChannels); ++channel)
{
Process(channels[channel], buffer(channel, frame));
}
}
for(std::size_t channel = std::min(buffer.size_channels(), maxChannels); channel < maxChannels; ++channel)
{
channels[channel] = Channel();
}
}
void VUMeter::Process(mpt::audio_span_interleaved<const MixSampleFloat> buffer)
{
for(std::size_t frame = 0; frame < buffer.size_frames(); ++frame)
{
for(std::size_t channel = 0; channel < std::min(buffer.size_channels(), maxChannels); ++channel)
{
Process(channels[channel], buffer(channel, frame));
}
}
for(std::size_t channel = std::min(buffer.size_channels(), maxChannels); channel < maxChannels; ++channel)
{
channels[channel] = Channel();
}
}
void VUMeter::Process(mpt::audio_span_planar<const MixSampleInt> buffer)
{
for(std::size_t frame = 0; frame < buffer.size_frames(); ++frame)
{
for(std::size_t channel = 0; channel < std::min(buffer.size_channels(), maxChannels); ++channel)
{
Process(channels[channel], buffer(channel, frame));
}
}
for(std::size_t channel = std::min(buffer.size_channels(), maxChannels); channel < maxChannels; ++channel)
{
channels[channel] = Channel();
}
}
void VUMeter::Process(mpt::audio_span_planar<const MixSampleFloat> buffer)
{
for(std::size_t frame = 0; frame < buffer.size_frames(); ++frame)
{
for(std::size_t channel = 0; channel < std::min(buffer.size_channels(), maxChannels); ++channel)
{
Process(channels[channel], buffer(channel, frame));
}
}
for(std::size_t channel = std::min(buffer.size_channels(), maxChannels); channel < maxChannels; ++channel)
{
channels[channel] = Channel();
}
}
const float VUMeter::dynamicRange = 48.0f; // corresponds to the current implementation of the UI widget displaying the result
void VUMeter::SetDecaySpeedDecibelPerSecond(float decibelPerSecond)
{
float linearDecayRate = decibelPerSecond / dynamicRange;
decayParam = mpt::saturate_round<int32>(linearDecayRate * static_cast<float>(MixSampleIntTraits::mix_clip_max));
}
void VUMeter::Decay(int32 secondsNum, int32 secondsDen)
{
int32 decay = Util::muldivr(decayParam, secondsNum, secondsDen);
for(std::size_t channel = 0; channel < maxChannels; ++channel)
{
channels[channel].peak = std::max(channels[channel].peak - decay, 0);
}
}
void VUMeter::ResetClipped()
{
for(std::size_t channel = 0; channel < maxChannels; ++channel)
{
channels[channel].clipped = false;
}
}
static void SetVUMeter(std::array<uint32, 4> &masterVU, const VUMeter &vumeter)
{
for(std::size_t channel = 0; channel < VUMeter::maxChannels; ++channel)
{
masterVU[channel] = Clamp(vumeter[channel].peak >> 11, 0, 0x10000);
if(vumeter[channel].clipped)
{
masterVU[channel] |= Notification::ClipVU;
}
}
}
bool CMainFrame::DoNotification(DWORD dwSamplesRead, int64 streamPosition)
{
MPT_TRACE_SCOPE();
ASSERT(InAudioThread());
if(!m_pSndFile) return false;
FlagSet<Notification::Type> notifyType(Notification::Default);
Notification::Item notifyItem = 0;
if(m_pSndFile->m_pModDoc)
{
notifyType = m_pSndFile->m_pModDoc->GetNotificationType();
notifyItem = m_pSndFile->m_pModDoc->GetNotificationItem();
}
// Add an entry to the notification history
Notification notification(notifyType, notifyItem, streamPosition, m_pSndFile->m_PlayState.m_nRow, m_pSndFile->m_PlayState.m_nTickCount, m_pSndFile->m_PlayState.TicksOnRow(), m_pSndFile->m_PlayState.m_nCurrentOrder, m_pSndFile->m_PlayState.m_nPattern, m_pSndFile->GetMixStat(), static_cast<uint8>(m_pSndFile->m_MixerSettings.gnChannels), static_cast<uint8>(m_pSndFile->m_MixerSettings.NumInputChannels));
m_pSndFile->ResetMixStat();
if(m_pSndFile->m_SongFlags[SONG_ENDREACHED]) notification.type.set(Notification::EOS);
if(notifyType[Notification::Sample])
{
// Sample positions
const SAMPLEINDEX smp = notifyItem;
if(smp > 0 && smp <= m_pSndFile->GetNumSamples() && m_pSndFile->GetSample(smp).HasSampleData())
{
for(CHANNELINDEX k = 0; k < MAX_CHANNELS; k++)
{
const ModChannel &chn = m_pSndFile->m_PlayState.Chn[k];
if(chn.pModSample == &m_pSndFile->GetSample(smp) && chn.nLength != 0 // Corrent sample is set up on this channel
&& (!chn.dwFlags[CHN_NOTEFADE] || chn.nFadeOutVol)) // And it hasn't completely faded out yet, so it's still playing
{
notification.pos[k] = chn.position.GetInt();
} else
{
notification.pos[k] = Notification::PosInvalid;
}
}
} else
{
// Can't generate a valid notification.
notification.type.reset(Notification::Sample);
}
} else if(notifyType[Notification::VolEnv | Notification::PanEnv | Notification::PitchEnv])
{
// Instrument envelopes
const INSTRUMENTINDEX ins = notifyItem;
EnvelopeType notifyEnv = ENV_VOLUME;
if(notifyType[Notification::PitchEnv])
notifyEnv = ENV_PITCH;
else if(notifyType[Notification::PanEnv])
notifyEnv = ENV_PANNING;
if(ins > 0 && ins <= m_pSndFile->GetNumInstruments() && m_pSndFile->Instruments[ins] != nullptr)
{
for(CHANNELINDEX k = 0; k < MAX_CHANNELS; k++)
{
const ModChannel &chn = m_pSndFile->m_PlayState.Chn[k];
SmpLength pos = Notification::PosInvalid;
if(chn.pModInstrument == m_pSndFile->Instruments[ins] // Correct instrument is set up on this channel
&& (chn.nLength || chn.pModInstrument->HasValidMIDIChannel()) // And it's playing something (sample or instrument plugin)
&& (!chn.dwFlags[CHN_NOTEFADE] || chn.nFadeOutVol)) // And it hasn't completely faded out yet, so it's still playing
{
const ModChannel::EnvInfo &chnEnv = chn.GetEnvelope(notifyEnv);
if(chnEnv.flags[ENV_ENABLED])
{
pos = chnEnv.nEnvPosition;
if(m_pSndFile->m_playBehaviour[kITEnvelopePositionHandling])
{
// Impulse Tracker envelope handling (see e.g. CSoundFile::IncrementEnvelopePosition in SndMix.cpp for details)
if(pos > 0)
pos--;
else
pos = Notification::PosInvalid; // Envelope isn't playing yet (e.g. when disabling it right when triggering a note)
}
}
}
notification.pos[k] = pos;
}
} else
{
// Can't generate a valid notification.
notification.type.reset(Notification::VolEnv | Notification::PanEnv | Notification::PitchEnv);
}
} else if(notifyType[Notification::VUMeters])
{
// Pattern channel VU meters
for(CHANNELINDEX k = 0; k < m_pSndFile->GetNumChannels(); k++)
{
uint32 vul = m_pSndFile->m_PlayState.Chn[k].nLeftVU;
uint32 vur = m_pSndFile->m_PlayState.Chn[k].nRightVU;
notification.pos[k] = (vul << 8) | (vur);
}
}
{
// Master VU meter
SetVUMeter(notification.masterVUin, m_VUMeterInput);
SetVUMeter(notification.masterVUout, m_VUMeterOutput);
m_VUMeterInput.Decay(dwSamplesRead, m_pSndFile->m_MixerSettings.gdwMixingFreq);
m_VUMeterOutput.Decay(dwSamplesRead, m_pSndFile->m_MixerSettings.gdwMixingFreq);
}
{
mpt::lock_guard<mpt::mutex> lock(m_NotificationBufferMutex);
if(m_NotifyBuffer.write_size() == 0)
{
ASSERT(0);
return FALSE; // drop notification
}
m_NotifyBuffer.push(notification);
}
return true;
}
void CMainFrame::UpdateDspEffects(CSoundFile &sndFile, bool reset)
{
CriticalSection cs;
#ifndef NO_REVERB
sndFile.m_Reverb.m_Settings = TrackerSettings::Instance().m_ReverbSettings;
#endif
#ifndef NO_DSP
sndFile.m_Surround.m_Settings = TrackerSettings::Instance().m_SurroundSettings;
#endif
#ifndef NO_DSP
sndFile.m_MegaBass.m_Settings = TrackerSettings::Instance().m_MegaBassSettings;
#endif
#ifndef NO_EQ
sndFile.SetEQGains(TrackerSettings::Instance().m_EqSettings.Gains, TrackerSettings::Instance().m_EqSettings.Freqs, reset);
#endif
#ifndef NO_DSP
sndFile.m_BitCrush.m_Settings = TrackerSettings::Instance().m_BitCrushSettings;
#endif
sndFile.SetDspEffects(TrackerSettings::Instance().MixerDSPMask);
sndFile.InitPlayer(reset);
}
void CMainFrame::UpdateAudioParameters(CSoundFile &sndFile, bool reset)
{
CriticalSection cs;
if (TrackerSettings::Instance().m_dwPatternSetup & PATTERN_MUTECHNMODE)
TrackerSettings::Instance().MixerFlags |= SNDMIX_MUTECHNMODE;
else
TrackerSettings::Instance().MixerFlags &= ~SNDMIX_MUTECHNMODE;
sndFile.SetMixerSettings(TrackerSettings::Instance().GetMixerSettings());
sndFile.SetResamplerSettings(TrackerSettings::Instance().GetResamplerSettings());
UpdateDspEffects(sndFile, false); // reset done in next line
sndFile.InitPlayer(reset);
}
/////////////////////////////////////////////////////////////////////////////
// CMainFrame diagnostics
#ifdef _DEBUG
void CMainFrame::AssertValid() const
{
CMDIFrameWnd::AssertValid();
}
void CMainFrame::Dump(CDumpContext& dc) const
{
CMDIFrameWnd::Dump(dc);
}
#endif //_DEBUG
/////////////////////////////////////////////////////////////////////////////
// CMainFrame static helpers
void CMainFrame::UpdateColors()
{
const auto &colors = TrackerSettings::Instance().rgbCustomColors;
const struct { MODPLUGDIB *bitmap; uint32 lo, med, hi; } meters[] =
{
{ bmpVUMeters, MODCOLOR_VUMETER_LO, MODCOLOR_VUMETER_MED, MODCOLOR_VUMETER_HI },
{ bmpPluginVUMeters, MODCOLOR_VUMETER_LO_VST, MODCOLOR_VUMETER_MED_VST, MODCOLOR_VUMETER_HI_VST },
};
for(auto &meter : meters) if(meter.bitmap != nullptr)
{
meter.bitmap->bmiColors[7] = rgb2quad(GetSysColor(COLOR_BTNFACE));
meter.bitmap->bmiColors[8] = rgb2quad(GetSysColor(COLOR_BTNSHADOW));
meter.bitmap->bmiColors[15] = rgb2quad(GetSysColor(COLOR_BTNHIGHLIGHT));
meter.bitmap->bmiColors[10] = rgb2quad(colors[meter.lo]);
meter.bitmap->bmiColors[11] = rgb2quad(colors[meter.med]);
meter.bitmap->bmiColors[9] = rgb2quad(colors[meter.hi]);
meter.bitmap->bmiColors[2] = rgb2quad((colors[meter.lo] >> 1) & 0x7F7F7F);
meter.bitmap->bmiColors[3] = rgb2quad((colors[meter.med] >> 1) & 0x7F7F7F);
meter.bitmap->bmiColors[1] = rgb2quad((colors[meter.hi] >> 1) & 0x7F7F7F);
}
// Generel tab VU meters
for(UINT i = 0; i < NUM_VUMETER_PENS * 2; i++)
{
int r0,g0,b0, r1,g1,b1;
int r, g, b;
int y;
y = (i >= NUM_VUMETER_PENS) ? (i-NUM_VUMETER_PENS) : i;
if (y < (NUM_VUMETER_PENS/2))
{
r0 = GetRValue(colors[MODCOLOR_VUMETER_LO]);
g0 = GetGValue(colors[MODCOLOR_VUMETER_LO]);
b0 = GetBValue(colors[MODCOLOR_VUMETER_LO]);
r1 = GetRValue(colors[MODCOLOR_VUMETER_MED]);
g1 = GetGValue(colors[MODCOLOR_VUMETER_MED]);
b1 = GetBValue(colors[MODCOLOR_VUMETER_MED]);
} else
{
y -= (NUM_VUMETER_PENS/2);
r0 = GetRValue(colors[MODCOLOR_VUMETER_MED]);
g0 = GetGValue(colors[MODCOLOR_VUMETER_MED]);
b0 = GetBValue(colors[MODCOLOR_VUMETER_MED]);
r1 = GetRValue(colors[MODCOLOR_VUMETER_HI]);
g1 = GetGValue(colors[MODCOLOR_VUMETER_HI]);
b1 = GetBValue(colors[MODCOLOR_VUMETER_HI]);
}
r = r0 + ((r1 - r0) * y) / (NUM_VUMETER_PENS/2);
g = g0 + ((g1 - g0) * y) / (NUM_VUMETER_PENS/2);
b = b0 + ((b1 - b0) * y) / (NUM_VUMETER_PENS/2);
if (i >= NUM_VUMETER_PENS)
{
r = (r*2)/5;
g = (g*2)/5;
b = (b*2)/5;
}
gcolrefVuMeter[i] = RGB(r, g, b);
}
CMainFrame *mainFrm = GetMainFrame();
if(mainFrm != nullptr)
{
mainFrm->m_wndToolBar.m_VuMeter.Invalidate();
}
}
/////////////////////////////////////////////////////////////////////////////
// CMainFrame operations
UINT CMainFrame::GetBaseOctave() const
{
return m_wndToolBar.GetBaseOctave();
}
void CMainFrame::ResetNotificationBuffer()
{
MPT_TRACE();
mpt::lock_guard<mpt::mutex> lock(m_NotificationBufferMutex);
m_NotifyBuffer.clear();
}
bool CMainFrame::PreparePlayback()
{
MPT_TRACE_SCOPE();
// open the audio device to update needed TrackerSettings mixer parameters
if(!audioOpenDevice()) return false;
return true;
}
bool CMainFrame::StartPlayback()
{
MPT_TRACE_SCOPE();
if(!m_pSndFile) return false; // nothing to play
if(!IsAudioDeviceOpen()) return false;
Dithers().Reset();
if(!gpSoundDevice->Start()) return false;
if(!m_NotifyTimer)
{
if(TrackerSettings::Instance().GUIUpdateInterval.Get() > 0)
{
m_NotifyTimer = SetTimer(TIMERID_NOTIFY, TrackerSettings::Instance().GUIUpdateInterval, NULL);
} else
{
m_NotifyTimer = SetTimer(TIMERID_NOTIFY, std::max(int(1), mpt::saturate_round<int>(gpSoundDevice->GetEffectiveBufferAttributes().UpdateInterval * 1000.0)), NULL);
}
}
return true;
}
void CMainFrame::StopPlayback()
{
MPT_TRACE_SCOPE();
if(!IsAudioDeviceOpen()) return;
gpSoundDevice->Stop();
if(m_NotifyTimer)
{
KillTimer(m_NotifyTimer);
m_NotifyTimer = 0;
}
ResetNotificationBuffer();
if(!gpSoundDevice->GetDeviceCaps().CanKeepDeviceRunning || TrackerSettings::Instance().m_SoundSettingsStopMode == SoundDeviceStopModeClosed)
{
audioCloseDevice();
}
}
bool CMainFrame::RestartPlayback()
{
MPT_TRACE_SCOPE();
if(!m_pSndFile) return false; // nothing to play
if(!IsAudioDeviceOpen()) return false;
if(!gpSoundDevice->IsPlaying()) return false;
gpSoundDevice->StopAndAvoidPlayingSilence();
if(m_NotifyTimer)
{
KillTimer(m_NotifyTimer);
m_NotifyTimer = 0;
}
ResetNotificationBuffer();
return StartPlayback();
}
bool CMainFrame::PausePlayback()
{
MPT_TRACE_SCOPE();
if(!IsAudioDeviceOpen()) return false;
gpSoundDevice->Stop();
if(m_NotifyTimer)
{
KillTimer(m_NotifyTimer);
m_NotifyTimer = 0;
}
ResetNotificationBuffer();
return true;
}
void CMainFrame::GenerateStopNotification()
{
Notification mn(Notification::Stop);
SendMessage(WM_MOD_UPDATEPOSITION, 0, (LPARAM)&mn);
}
void CMainFrame::UnsetPlaybackSoundFile()
{
MPT_ASSERT_ALWAYS(!gpSoundDevice || !gpSoundDevice->IsPlaying());
if(m_pSndFile)
{
m_pSndFile->SuspendPlugins();
if(m_pSndFile->GetpModDoc())
{
m_wndTree.UpdatePlayPos(m_pSndFile->GetpModDoc(), nullptr);
}
m_pSndFile->m_SongFlags.reset(SONG_PAUSED);
if(m_pSndFile == &m_WaveFile)
{
// Unload previewed instrument
m_WaveFile.Destroy();
} else
{
// Stop sample preview channels
for(CHANNELINDEX i = m_pSndFile->m_nChannels; i < MAX_CHANNELS; i++)
{
if(m_pSndFile->m_PlayState.Chn[i].isPreviewNote)
{
m_pSndFile->m_PlayState.Chn[i].nLength = 0;
m_pSndFile->m_PlayState.Chn[i].position.Set(0);
}
}
}
}
m_pSndFile = nullptr;
m_wndToolBar.SetCurrentSong(nullptr);
ResetNotificationBuffer();
}
void CMainFrame::SetPlaybackSoundFile(CSoundFile *pSndFile)
{
MPT_ASSERT_ALWAYS(pSndFile);
m_pSndFile = pSndFile;
}
bool CMainFrame::PlayMod(CModDoc *pModDoc)
{
MPT_ASSERT_ALWAYS(!theApp.GetGlobalMutexRef().IsLockedByCurrentThread());
if(!pModDoc) return false;
CSoundFile &sndFile = pModDoc->GetSoundFile();
if(!IsValidSoundFile(sndFile)) return false;
// if something is playing, pause it
PausePlayback();
GenerateStopNotification();
UnsetPlaybackSoundFile();
// open audio device if not already open
if (!PreparePlayback()) return false;
// set mixing parameters in CSoundFile
UpdateAudioParameters(sndFile);
SetPlaybackSoundFile(&sndFile);
const bool bPaused = m_pSndFile->IsPaused();
const bool bPatLoop = m_pSndFile->m_SongFlags[SONG_PATTERNLOOP];
m_pSndFile->m_SongFlags.reset(SONG_FADINGSONG | SONG_ENDREACHED);
if(!bPatLoop && bPaused) sndFile.m_SongFlags.set(SONG_PAUSED);
sndFile.SetRepeatCount((TrackerSettings::Instance().gbLoopSong) ? -1 : 0);
sndFile.InitPlayer(true);
sndFile.ResumePlugins();
m_wndToolBar.SetCurrentSong(m_pSndFile);
m_VUMeterInput = VUMeter();
m_VUMeterOutput = VUMeter();
if(!StartPlayback())
{
UnsetPlaybackSoundFile();
return false;
}
return true;
}
bool CMainFrame::PauseMod(CModDoc *pModDoc)
{
MPT_ASSERT_ALWAYS(!theApp.GetGlobalMutexRef().IsLockedByCurrentThread());
if(pModDoc && (pModDoc != GetModPlaying())) return false;
if(!IsPlaying()) return true;
PausePlayback();
GenerateStopNotification();
UnsetPlaybackSoundFile();
StopPlayback();
return true;
}
bool CMainFrame::StopMod(CModDoc *pModDoc)
{
MPT_ASSERT_ALWAYS(!theApp.GetGlobalMutexRef().IsLockedByCurrentThread());
if(pModDoc && (pModDoc != GetModPlaying())) return false;
if(!IsPlaying()) return true;
PausePlayback();
SetElapsedTime(0);
GenerateStopNotification();
m_pSndFile->ResetPlayPos();
m_pSndFile->ResetChannels();
UnsetPlaybackSoundFile();
StopPlayback();
return true;
}
bool CMainFrame::StopSoundFile(CSoundFile *pSndFile)
{
MPT_ASSERT_ALWAYS(!theApp.GetGlobalMutexRef().IsLockedByCurrentThread());
if(!IsValidSoundFile(pSndFile)) return false;
if(pSndFile != m_pSndFile) return false;
if(!IsPlaying()) return true;
PausePlayback();
GenerateStopNotification();
UnsetPlaybackSoundFile();
StopPlayback();
return true;
}
bool CMainFrame::PlaySoundFile(CSoundFile *pSndFile)
{
MPT_ASSERT_ALWAYS(!theApp.GetGlobalMutexRef().IsLockedByCurrentThread());
if(!IsValidSoundFile(pSndFile)) return false;
PausePlayback();
GenerateStopNotification();
if(m_pSndFile != pSndFile)
{
UnsetPlaybackSoundFile();
}
if(!PreparePlayback())
{
UnsetPlaybackSoundFile();
return false;
}
UpdateAudioParameters(*pSndFile);
SetPlaybackSoundFile(pSndFile);
m_pSndFile->InitPlayer(true);
if(!StartPlayback())
{
UnsetPlaybackSoundFile();
return false;
}
return true;
}
bool CMainFrame::PlayDLSInstrument(const CDLSBank &bank, UINT instr, UINT region, ModCommand::NOTE note, int volume)
{
bool ok = false;
BeginWaitCursor();
{
CriticalSection cs;
InitPreview();
if(bank.ExtractInstrument(m_WaveFile, 1, instr, region))
{
PreparePreview(note, volume);
ok = true;
}
}
EndWaitCursor();
if(!ok)
{
PausePlayback();
UnsetPlaybackSoundFile();
StopPlayback();
return false;
}
if(IsPlaying() && (m_pSndFile == &m_WaveFile))
{
return true;
}
return PlaySoundFile(&m_WaveFile);
}
bool CMainFrame::PlaySoundFile(const mpt::PathString &filename, ModCommand::NOTE note, int volume)
{
bool ok = false;
BeginWaitCursor();
{
CriticalSection cs;
static mpt::PathString prevFile;
// Did we already load this file for previewing? Don't load it again if the preview is still running.
ok = (prevFile == filename && m_pSndFile == &m_WaveFile);
if(!ok && !filename.empty())
{
InputFile f(filename, TrackerSettings::Instance().MiscCacheCompleteFileBeforeLoading);
if(f.IsValid())
{
FileReader file = GetFileReader(f);
if(file.IsValid())
{
InitPreview();
m_WaveFile.m_SongFlags.set(SONG_PAUSED);
// Avoid hanging audio while reading file - we have removed all sample and instrument references before,
// so it's safe to replace the sample / instrument now.
cs.Leave();
ok = m_WaveFile.ReadInstrumentFromFile(1, file, TrackerSettings::Instance().m_MayNormalizeSamplesOnLoad);
cs.Enter();
if(!ok)
{
// Try reading as sample if reading as instrument fails
ok = m_WaveFile.ReadSampleFromFile(1, file, TrackerSettings::Instance().m_MayNormalizeSamplesOnLoad);
m_WaveFile.AllocateInstrument(1, 1);
}
}
}
}
if(ok)
{
// Write notes to pattern. Also done if we have previously loaded this file, since we might be previewing another note now.
PreparePreview(note, volume);
prevFile = filename;
}
}
EndWaitCursor();
if(!ok)
{
PausePlayback();
UnsetPlaybackSoundFile();
StopPlayback();
return false;
}
if(IsPlaying() && (m_pSndFile == &m_WaveFile))
{
return true;
}
return PlaySoundFile(&m_WaveFile);
}
bool CMainFrame::PlaySoundFile(CSoundFile &sndFile, INSTRUMENTINDEX nInstrument, SAMPLEINDEX nSample, ModCommand::NOTE note, int volume)
{
bool ok = false;
BeginWaitCursor();
{
CriticalSection cs;
InitPreview();
m_WaveFile.m_nType = sndFile.GetType();
if ((nInstrument) && (nInstrument <= sndFile.GetNumInstruments()))
{
m_WaveFile.m_nInstruments = 1;
m_WaveFile.m_nSamples = 32;
} else
{
m_WaveFile.m_nInstruments = 0;
m_WaveFile.m_nSamples = 1;
}
if (nInstrument != INSTRUMENTINDEX_INVALID && nInstrument <= sndFile.GetNumInstruments())
{
m_WaveFile.ReadInstrumentFromSong(1, sndFile, nInstrument);
} else if(nSample != SAMPLEINDEX_INVALID && nSample <= sndFile.GetNumSamples())
{
m_WaveFile.ReadSampleFromSong(1, sndFile, nSample);
}
PreparePreview(note, volume);
ok = true;
}
EndWaitCursor();
if(!ok)
{
PausePlayback();
UnsetPlaybackSoundFile();
StopPlayback();
return false;
}
if(IsPlaying() && (m_pSndFile == &m_WaveFile))
{
return true;
}
return PlaySoundFile(&m_WaveFile);
}
void CMainFrame::InitPreview()
{
m_WaveFile.Destroy();
m_WaveFile.Create(FileReader());
m_WaveFile.m_nDefaultTempo.Set(125);
m_WaveFile.m_nDefaultSpeed = 6;
m_WaveFile.m_nType = MOD_TYPE_MPT;
m_WaveFile.m_nChannels = 2;
m_WaveFile.m_nInstruments = 1;
m_WaveFile.m_nTempoMode = TempoMode::Classic;
m_WaveFile.Order().assign(1, 0);
m_WaveFile.Patterns.Insert(0, 2);
m_WaveFile.m_SongFlags = SONG_LINEARSLIDES;
}
void CMainFrame::PreparePreview(ModCommand::NOTE note, int volume)
{
m_WaveFile.m_SongFlags.reset(SONG_PAUSED);
m_WaveFile.SetRepeatCount(-1);
m_WaveFile.ResetPlayPos();
const CModDoc *activeDoc = GetActiveDoc();
if(activeDoc != nullptr && (TrackerSettings::Instance().m_dwPatternSetup & PATTERN_NOEXTRALOUD))
{
m_WaveFile.SetMixLevels(activeDoc->GetSoundFile().GetMixLevels());
m_WaveFile.m_nSamplePreAmp = activeDoc->GetSoundFile().m_nSamplePreAmp;
} else
{
// Preview at 0dB
m_WaveFile.SetMixLevels(MixLevels::v1_17RC3);
m_WaveFile.m_nSamplePreAmp = static_cast<uint32>(m_WaveFile.GetPlayConfig().getNormalSamplePreAmp());
}
// Avoid global volume ramping when trying samples in the treeview.
m_WaveFile.m_nDefaultGlobalVolume = m_WaveFile.m_PlayState.m_nGlobalVolume = (volume > 0) ? volume : MAX_GLOBAL_VOLUME;
if(m_WaveFile.Patterns.IsValidPat(0))
{
auto m = m_WaveFile.Patterns[0].GetRow(0);
if(m_WaveFile.GetNumSamples() > 0)
{
m[0].note = note;
m[0].instr = 1;
}
// Infinite loop on second row
m[1 * 2].command = CMD_POSITIONJUMP;
m[1 * 2 + 1].command = CMD_PATTERNBREAK;
m[1 * 2 + 1].param = 1;
}
m_WaveFile.InitPlayer(true);
}
HWND CMainFrame::GetFollowSong() const
{
return GetModPlaying() ? GetModPlaying()->GetFollowWnd() : NULL;
}
void CMainFrame::IdleHandlerSounddevice()
{
MPT_TRACE_SCOPE();
if(gpSoundDevice)
{
const FlagSet<SoundDevice::RequestFlags> requestFlags = gpSoundDevice->GetRequestFlags();
if(requestFlags[SoundDevice::RequestFlagClose])
{
StopPlayback();
audioCloseDevice();
} else if(requestFlags[SoundDevice::RequestFlagReset])
{
ResetSoundCard();
} else if(requestFlags[SoundDevice::RequestFlagRestart])
{
RestartPlayback();
} else
{
gpSoundDevice->OnIdle();
}
}
}
BOOL CMainFrame::ResetSoundCard()
{
MPT_TRACE_SCOPE();
return CMainFrame::SetupSoundCard(TrackerSettings::Instance().GetSoundDeviceSettings(TrackerSettings::Instance().GetSoundDeviceIdentifier()), TrackerSettings::Instance().GetSoundDeviceIdentifier(), TrackerSettings::Instance().m_SoundSettingsStopMode, true);
}
BOOL CMainFrame::SetupSoundCard(SoundDevice::Settings deviceSettings, SoundDevice::Identifier deviceIdentifier, SoundDeviceStopMode stoppedMode, bool forceReset)
{
MPT_TRACE_SCOPE();
if(forceReset
|| (TrackerSettings::Instance().GetSoundDeviceIdentifier() != deviceIdentifier)
|| (TrackerSettings::Instance().GetSoundDeviceSettings(deviceIdentifier) != deviceSettings)
|| (TrackerSettings::Instance().m_SoundSettingsStopMode != stoppedMode)
)
{
CModDoc *pActiveMod = nullptr;
if(IsPlaying())
{
if ((m_pSndFile) && (!m_pSndFile->IsPaused())) pActiveMod = GetModPlaying();
PauseMod();
}
if(gpSoundDevice)
{
gpSoundDevice->Close();
}
TrackerSettings::Instance().m_SoundSettingsStopMode = stoppedMode;
switch(stoppedMode)
{
case SoundDeviceStopModeClosed:
deviceSettings.KeepDeviceRunning = true;
break;
case SoundDeviceStopModeStopped:
deviceSettings.KeepDeviceRunning = false;
break;
case SoundDeviceStopModePlaying:
deviceSettings.KeepDeviceRunning = true;
break;
}
TrackerSettings::Instance().SetSoundDeviceIdentifier(deviceIdentifier);
TrackerSettings::Instance().SetSoundDeviceSettings(deviceIdentifier, deviceSettings);
TrackerSettings::Instance().MixerOutputChannels = deviceSettings.Channels;
TrackerSettings::Instance().MixerNumInputChannels = deviceSettings.InputChannels;
TrackerSettings::Instance().MixerSamplerate = deviceSettings.Samplerate;
if(pActiveMod)
{
PlayMod(pActiveMod);
}
UpdateWindow();
} else
{
// No need to restart playback
CriticalSection cs;
if(GetSoundFilePlaying()) UpdateAudioParameters(*GetSoundFilePlaying(), FALSE);
}
return TRUE;
}
BOOL CMainFrame::SetupPlayer()
{
CriticalSection cs;
if(GetSoundFilePlaying()) UpdateAudioParameters(*GetSoundFilePlaying(), FALSE);
return TRUE;
}
BOOL CMainFrame::SetupMiscOptions()
{
if (TrackerSettings::Instance().m_dwPatternSetup & PATTERN_MUTECHNMODE)
TrackerSettings::Instance().MixerFlags |= SNDMIX_MUTECHNMODE;
else
TrackerSettings::Instance().MixerFlags &= ~SNDMIX_MUTECHNMODE;
{
CriticalSection cs;
if(GetSoundFilePlaying()) UpdateAudioParameters(*GetSoundFilePlaying());
}
m_wndToolBar.EnableFlatButtons(TrackerSettings::Instance().m_dwPatternSetup & PATTERN_FLATBUTTONS);
UpdateTree(nullptr, UpdateHint().MPTOptions());
UpdateAllViews(UpdateHint().MPTOptions());
return true;
}
void CMainFrame::SetupMidi(DWORD d, UINT n)
{
bool deviceChanged = (TrackerSettings::Instance().m_nMidiDevice != n);
TrackerSettings::Instance().m_dwMidiSetup = d;
TrackerSettings::Instance().SetMIDIDevice(n);
if(deviceChanged && shMidiIn)
{
// Device has changed, close the old one.
midiCloseDevice();
midiOpenDevice();
}
}
void CMainFrame::UpdateAllViews(UpdateHint hint, CObject *pHint)
{
CModDocTemplate *pDocTmpl = theApp.GetModDocTemplate();
if (pDocTmpl)
{
for(auto &doc : *pDocTmpl)
{
doc->UpdateAllViews(nullptr, hint, pHint);
}
}
}
void CMainFrame::SetUserText(LPCTSTR lpszText)
{
if (lpszText[0] | m_szUserText[0])
{
_tcscpy(m_szUserText, lpszText);
OnUpdateUser(nullptr);
}
}
void CMainFrame::SetInfoText(LPCTSTR lpszText)
{
if (lpszText[0] | m_szInfoText[0])
{
_tcscpy(m_szInfoText, lpszText);
OnUpdateInfo(nullptr);
}
}
void CMainFrame::SetXInfoText(LPCTSTR lpszText)
{
if (lpszText[0] | m_szXInfoText[0])
{
_tcscpy(m_szXInfoText, lpszText);
OnUpdateInfo(nullptr);
}
}
void CMainFrame::SetHelpText(LPCTSTR lpszText)
{
m_wndStatusBar.SetPaneText(0, lpszText);
}
void CMainFrame::OnDocumentCreated(CModDoc *pModDoc)
{
m_wndTree.OnDocumentCreated(pModDoc);
UpdateMRUList();
}
void CMainFrame::OnDocumentClosed(CModDoc *pModDoc)
{
if (pModDoc == GetModPlaying()) PauseMod();
m_wndTree.OnDocumentClosed(pModDoc);
}
void CMainFrame::UpdateTree(CModDoc *pModDoc, UpdateHint hint, CObject *pHint)
{
m_wndTree.OnUpdate(pModDoc, hint, pHint);
}
void CMainFrame::RefreshDlsBanks()
{
m_wndTree.RefreshDlsBanks();
}
/////////////////////////////////////////////////////////////////////////////
// CMainFrame message handlers
void CMainFrame::OnViewOptions()
{
if (m_bOptionsLocked)
return;
CPropertySheet dlg(_T("OpenMPT Setup"), this, m_nLastOptionsPage);
COptionsGeneral general;
COptionsSoundcard sounddlg(TrackerSettings::Instance().m_SoundDeviceIdentifier);
COptionsSampleEditor smpeditor;
COptionsKeyboard keyboard;
COptionsColors colors;
COptionsMixer mixerdlg;
CMidiSetupDlg mididlg(TrackerSettings::Instance().m_dwMidiSetup, TrackerSettings::Instance().GetCurrentMIDIDevice());
PathConfigDlg pathsdlg;
#if defined(MPT_ENABLE_UPDATE)
CUpdateSetupDlg updatedlg;
#endif // MPT_ENABLE_UPDATE
COptionsAdvanced advanced;
COptionsWine winedlg;
dlg.AddPage(&general);
dlg.AddPage(&sounddlg);
dlg.AddPage(&mixerdlg);
#if !defined(NO_REVERB) || !defined(NO_DSP) || !defined(NO_EQ) || !defined(NO_AGC)
COptionsPlayer dspdlg;
dlg.AddPage(&dspdlg);
#endif
dlg.AddPage(&smpeditor);
dlg.AddPage(&keyboard);
dlg.AddPage(&colors);
dlg.AddPage(&mididlg);
dlg.AddPage(&pathsdlg);
#if defined(MPT_ENABLE_UPDATE)
dlg.AddPage(&updatedlg);
#endif // MPT_ENABLE_UPDATE
dlg.AddPage(&advanced);
if(mpt::OS::Windows::IsWine()) dlg.AddPage(&winedlg);
m_bOptionsLocked = true;
m_SoundCardOptionsDialog = &sounddlg;
#if defined(MPT_ENABLE_UPDATE)
m_UpdateOptionsDialog = &updatedlg;
#endif // MPT_ENABLE_UPDATE
dlg.DoModal();
m_SoundCardOptionsDialog = nullptr;
#if defined(MPT_ENABLE_UPDATE)
m_UpdateOptionsDialog = nullptr;
#endif // MPT_ENABLE_UPDATE
m_bOptionsLocked = false;
m_wndTree.OnOptionsChanged();
}
void CMainFrame::OnPluginManager()
{
#ifndef NO_PLUGINS
PLUGINDEX nPlugslot = PLUGINDEX_INVALID;
CModDoc* pModDoc = GetActiveDoc();
if (pModDoc)
{
CSoundFile &sndFile = pModDoc->GetSoundFile();
//Find empty plugin slot
for (PLUGINDEX nPlug = 0; nPlug < MAX_MIXPLUGINS; nPlug++)
{
if (sndFile.m_MixPlugins[nPlug].pMixPlugin == nullptr)
{
nPlugslot = nPlug;
break;
}
}
}
CSelectPluginDlg dlg(GetActiveDoc(), nPlugslot, this);
if(dlg.DoModal() == IDOK && pModDoc)
{
pModDoc->SetModified();
//Refresh views
pModDoc->UpdateAllViews(nullptr, PluginHint().Info().Names().ModType());
//Refresh Controls
CChildFrame *pActiveChild = (CChildFrame *)MDIGetActive();
pActiveChild->ForceRefresh();
}
#endif // NO_PLUGINS
}
void CMainFrame::OnClipboardManager()
{
PatternClipboardDialog::Show();
}
void CMainFrame::OnAddDlsBank()
{
FileDialog dlg = OpenFileDialog()
.AllowMultiSelect()
.ExtensionFilter("All Sound Banks|*.dls;*.sbk;*.sf2;*.sf3;*.sf4;*.mss|"
"Downloadable Sounds Banks (*.dls)|*.dls;*.mss|"
"SoundFont 2.0 Banks (*.sf2)|*.sbk;*.sf2;*.sf3;*.sf4|"
"All Files (*.*)|*.*||");
if(!dlg.Show()) return;
BeginWaitCursor();
bool ok = true;
for(const auto &file : dlg.GetFilenames())
{
ok &= CTrackApp::AddDLSBank(file);
}
if(!ok)
{
Reporting::Error("At least one selected file was not a valid sound bank.");
}
m_wndTree.RefreshDlsBanks();
EndWaitCursor();
}
void CMainFrame::OnImportMidiLib()
{
FileDialog dlg = OpenFileDialog()
.ExtensionFilter("Text and INI files (*.txt,*.ini)|*.txt;*.ini;*.dls;*.sf2;*.sf3;*.sf4;*.sbk|"
"Downloadable Sound Banks (*.dls)|*.dls;*.mss|"
"SoundFont 2.0 banks (*.sf2)|*.sbk;*.sf2;*.sf3;*.sf4|"
"Gravis UltraSound (ultrasnd.ini)|ultrasnd.ini|"
"All Files (*.*)|*.*||");
if(!dlg.Show()) return;
BeginWaitCursor();
CTrackApp::ImportMidiConfig(dlg.GetFirstFile());
m_wndTree.RefreshMidiLibrary();
EndWaitCursor();
}
void CMainFrame::OnTimer(UINT_PTR timerID)
{
switch(timerID)
{
case TIMERID_GUI:
OnTimerGUI();
break;
case TIMERID_NOTIFY:
OnTimerNotify();
break;
}
}
void CMainFrame::OnTimerGUI()
{
IdleHandlerSounddevice();
// Display Time in status bar
CSoundFile::samplecount_t time = 0;
if(m_pSndFile != nullptr && m_pSndFile->GetSampleRate() != 0)
{
time = m_pSndFile->GetTotalSampleCount() / m_pSndFile->GetSampleRate();
if(time != m_dwTimeSec)
{
m_dwTimeSec = time;
m_nAvgMixChn = m_nMixChn;
OnUpdateTime(NULL);
}
}
// Idle Time Check
DWORD curTime = timeGetTime();
if(m_AutoSaver.IsEnabled())
{
bool success = m_AutoSaver.DoSave(curTime);
if (!success) // autosave failure; bring up options.
{
CMainFrame::m_nLastOptionsPage = OPTIONS_PAGE_PATHS;
OnViewOptions();
}
}
if(m_SoundCardOptionsDialog)
{
m_SoundCardOptionsDialog->UpdateStatistics();
}
#ifdef USE_PROFILER
{
Profiler::Update();
CWnd * cwnd = CWnd::FromHandle(this->m_hWndMDIClient);
CClientDC dc(cwnd);
int height = 16;
int width = 256;
std::vector<std::string> catnames = Profiler::GetCategoryNames();
std::vector<double> cats = Profiler::DumpCategories();
for(int i=0; i<Profiler::CategoriesCount; i++)
{
dc.FillSolidRect(0, i * height, (int)(width * cats[i]), height, RGB(255,0,0));
dc.FillSolidRect((int)(width * cats[i]), i * height, width - (int)(width * cats[i]), height, RGB(192,192,192));
RECT rect;
cwnd->GetClientRect(&rect);
rect.left += width;
rect.top += i * height;
auto s = mpt::ToCString(mpt::Charset::ASCII, mpt::afmt::right(6, mpt::afmt::fix(cats[i] * 100.0, 3)) + "% " + catnames[i]);
dc.DrawText(s, s.GetLength(), &rect, DT_LEFT);
}
RECT rect;
cwnd->GetClientRect(&rect);
rect.top += Profiler::CategoriesCount * height;
auto s = mpt::ToCString(mpt::Charset::ASCII, Profiler::DumpProfiles());
dc.DrawText(s, s.GetLength(), &rect, DT_LEFT);
cwnd->Detach();
}
#endif
}
CModDoc *CMainFrame::GetActiveDoc() const
{
CMDIChildWnd *pMDIActive = MDIGetActive();
if (pMDIActive)
{
return static_cast<CModDoc *>(pMDIActive->GetActiveDocument());
}
return nullptr;
}
CView *CMainFrame::GetActiveView() const
{
CMDIChildWnd *pMDIActive = MDIGetActive();
if (pMDIActive)
{
return pMDIActive->GetActiveView();
}
return nullptr;
}
void CMainFrame::SwitchToActiveView()
{
CWnd *wnd = GetActiveView();
if (wnd)
{
// Hack: If the upper view is active, we only get the "container" (the dialog view with the tabs), not the view itself.
if(!strcmp(wnd->GetRuntimeClass()->m_lpszClassName, "CModControlView"))
{
wnd = static_cast<CModControlView *>(wnd)->GetCurrentControlDlg();
}
wnd->SetFocus();
}
}
void CMainFrame::OnUpdateTime(CCmdUI *)
{
TCHAR s[64];
wsprintf(s, _T("%u:%02u:%02u"),
m_dwTimeSec / 3600, (m_dwTimeSec / 60) % 60, m_dwTimeSec % 60);
if(m_pSndFile != nullptr && m_pSndFile != &m_WaveFile && !m_pSndFile->IsPaused())
{
PATTERNINDEX nPat = m_pSndFile->m_PlayState.m_nPattern;
if(m_pSndFile->Patterns.IsValidIndex(nPat))
{
if(nPat < 10) _tcscat(s, _T(" "));
if(nPat < 100) _tcscat(s, _T(" "));
wsprintf(s + _tcslen(s), _T(" [%d]"), nPat);
}
wsprintf(s + _tcslen(s), _T(" %dch"), m_nAvgMixChn);
}
m_wndStatusBar.SetPaneText(m_wndStatusBar.CommandToIndex(ID_INDICATOR_TIME), s, TRUE);
}
void CMainFrame::OnUpdateUser(CCmdUI *)
{
m_wndStatusBar.SetPaneText(m_wndStatusBar.CommandToIndex(ID_INDICATOR_USER), m_szUserText, TRUE);
}
void CMainFrame::OnUpdateInfo(CCmdUI *)
{
m_wndStatusBar.SetPaneText(m_wndStatusBar.CommandToIndex(ID_INDICATOR_INFO), m_szInfoText, TRUE);
}
void CMainFrame::OnUpdateXInfo(CCmdUI *)
{
m_wndStatusBar.SetPaneText(m_wndStatusBar.CommandToIndex(ID_INDICATOR_XINFO), m_szXInfoText, TRUE);
}
void CMainFrame::OnPlayerPause()
{
if (GetModPlaying())
{
GetModPlaying()->OnPlayerPause();
} else
{
PauseMod();
}
}
void CMainFrame::OpenMenuItemFile(const UINT nId, const bool isTemplateFile)
{
const UINT nIdBegin = (isTemplateFile) ? ID_FILE_OPENTEMPLATE : ID_EXAMPLE_MODULES;
const std::vector<mpt::PathString> &vecFilePaths = (isTemplateFile) ? m_TemplateModulePaths : m_ExampleModulePaths;
const UINT nIndex = nId - nIdBegin;
if (nIndex < vecFilePaths.size())
{
const mpt::PathString& sPath = vecFilePaths[nIndex];
const bool bExists = sPath.IsFile();
CDocument *pDoc = nullptr;
if(bExists)
{
pDoc = theApp.GetModDocTemplate()->OpenTemplateFile(sPath, !isTemplateFile);
}
if(!pDoc)
{
Reporting::Notification(_T("The file '") + sPath.ToCString() + _T("' ") + (bExists ? _T("exists but can't be read.") : _T("does not exist.")));
}
} else
{
MPT_ASSERT(nId == UINT(isTemplateFile ? ID_FILE_OPENTEMPLATE_LASTINRANGE : ID_EXAMPLE_MODULES_LASTINRANGE));
FileDialog::PathList files;
theApp.OpenModulesDialog(files, isTemplateFile ? theApp.GetConfigPath() + P_("TemplateModules") : theApp.GetInstallPath() + P_("ExampleSongs"));
for(const auto &file : files)
{
theApp.OpenDocumentFile(file.ToCString());
}
}
}
void CMainFrame::OnOpenTemplateModule(UINT nId)
{
OpenMenuItemFile(nId, true/*open template menu file*/);
}
void CMainFrame::OnExampleSong(UINT nId)
{
OpenMenuItemFile(nId, false/*open example menu file*/);
}
void CMainFrame::OnOpenMRUItem(UINT nId)
{
theApp.OpenDocumentFile(TrackerSettings::Instance().mruFiles[nId - ID_MRU_LIST_FIRST].ToCString());
}
void CMainFrame::OnUpdateMRUItem(CCmdUI *cmd)
{
cmd->Enable(!TrackerSettings::Instance().mruFiles.empty());
}
LRESULT CMainFrame::OnInvalidatePatterns(WPARAM, LPARAM)
{
UpdateAllViews(UpdateHint().MPTOptions());
return TRUE;
}
LRESULT CMainFrame::OnUpdatePosition(WPARAM, LPARAM lParam)
{
OPENMPT_PROFILE_FUNCTION(Profiler::GUI);
m_VUMeterOutput.SetDecaySpeedDecibelPerSecond(TrackerSettings::Instance().VuMeterDecaySpeedDecibelPerSecond); // update in notification update in order to avoid querying the settings framework from inside audio thread
m_VUMeterInput.SetDecaySpeedDecibelPerSecond(TrackerSettings::Instance().VuMeterDecaySpeedDecibelPerSecond); // update in notification update in order to avoid querying the settings framework from inside audio thread
Notification *pnotify = (Notification *)lParam;
if (pnotify)
{
if(pnotify->type[Notification::EOS])
{
PostMessage(WM_COMMAND, ID_PLAYER_STOP);
}
//Log("OnUpdatePosition: row=%d time=%lu\n", pnotify->nRow, pnotify->TimestampSamples);
if(CModDoc *modDoc = GetModPlaying(); modDoc != nullptr)
{
m_wndTree.UpdatePlayPos(modDoc, pnotify);
if (GetFollowSong())
::SendMessage(GetFollowSong(), WM_MOD_UPDATEPOSITION, 0, lParam);
if(m_pSndFile->m_pluginDryWetRatioChanged.any())
{
for(PLUGINDEX i = 0; i < MAX_MIXPLUGINS; i++)
{
if(m_pSndFile->m_pluginDryWetRatioChanged[i])
modDoc->PostMessageToAllViews(WM_MOD_PLUGINDRYWETRATIOCHANGED, i);
}
m_pSndFile->m_pluginDryWetRatioChanged.reset();
}
}
m_nMixChn = pnotify->mixedChannels;
bool duplicateMono = false;
if(pnotify->masterVUinChannels == 1 && pnotify->masterVUoutChannels > 1)
{
duplicateMono = true;
} else if(pnotify->masterVUoutChannels == 1 && pnotify->masterVUinChannels > 1)
{
duplicateMono = true;
}
uint8 countChan = 0;
uint32 vu[VUMeter::maxChannels * 2];
MemsetZero(vu);
std::copy(pnotify->masterVUin.begin(), pnotify->masterVUin.begin() + pnotify->masterVUinChannels, vu + countChan);
countChan += pnotify->masterVUinChannels;
if(pnotify->masterVUinChannels == 1 && duplicateMono)
{
std::copy(pnotify->masterVUin.begin(), pnotify->masterVUin.begin() + 1, vu + countChan);
countChan += 1;
}
std::copy(pnotify->masterVUout.begin(), pnotify->masterVUout.begin() + pnotify->masterVUoutChannels, vu + countChan);
countChan += pnotify->masterVUoutChannels;
if(pnotify->masterVUoutChannels == 1 && duplicateMono)
{
std::copy(pnotify->masterVUout.begin(), pnotify->masterVUout.begin() + 1, vu + countChan);
countChan += 1;
}
m_wndToolBar.m_VuMeter.SetVuMeter(countChan, vu, pnotify->type[Notification::Stop]);
m_wndToolBar.SetCurrentSong(m_pSndFile);
}
return 0;
}
LRESULT CMainFrame::OnUpdateViews(WPARAM modDoc, LPARAM hint)
{
CModDoc *doc = reinterpret_cast<CModDoc *>(modDoc);
CModDocTemplate *pDocTmpl = theApp.GetModDocTemplate();
if(pDocTmpl && pDocTmpl->DocumentExists(doc))
{
// Since this message is potentially posted, we first need to verify if the document still exists
doc->UpdateAllViews(nullptr, UpdateHint::FromLPARAM(hint));
}
return 0;
}
LRESULT CMainFrame::OnSetModified(WPARAM modDoc, LPARAM)
{
CModDoc *doc = reinterpret_cast<CModDoc *>(modDoc);
CModDocTemplate *pDocTmpl = theApp.GetModDocTemplate();
if(pDocTmpl && pDocTmpl->DocumentExists(doc))
{
// Since this message is potentially posted, we first need to verify if the document still exists
doc->UpdateFrameCounts();
}
return 0;
}
void CMainFrame::OnPanic()
{
// "Panic button." At the moment, it just resets all VSTi and sample notes.
if(GetModPlaying())
GetModPlaying()->OnPanic();
}
void CMainFrame::OnPrevOctave()
{
UINT n = GetBaseOctave();
if (n > MIN_BASEOCTAVE) m_wndToolBar.SetBaseOctave(n-1);
}
void CMainFrame::OnNextOctave()
{
UINT n = GetBaseOctave();
if (n < MAX_BASEOCTAVE) m_wndToolBar.SetBaseOctave(n+1);
}
void CMainFrame::OnReportBug()
{
CTrackApp::OpenURL(Build::GetURL(Build::Url::Bugtracker));
}
BOOL CMainFrame::OnInternetLink(UINT nID)
{
mpt::ustring url;
switch(nID)
{
case ID_NETLINK_MODPLUG: url = Build::GetURL(Build::Url::Website); break;
case ID_NETLINK_TOP_PICKS: url = Build::GetURL(Build::Url::TopPicks); break;
}
if(!url.empty())
{
return CTrackApp::OpenURL(url) ? TRUE : FALSE;
}
return FALSE;
}
void CMainFrame::OnRButtonDown(UINT, CPoint pt)
{
CMenu Menu;
ClientToScreen(&pt);
if (Menu.LoadMenu(IDR_TOOLBARS))
{
CMenu *pSubMenu = Menu.GetSubMenu(0);
if (pSubMenu != nullptr) pSubMenu->TrackPopupMenu(TPM_LEFTALIGN | TPM_RIGHTBUTTON, pt.x, pt.y, this);
}
}
LRESULT CMainFrame::OnCustomKeyMsg(WPARAM wParam, LPARAM lParam)
{
switch(wParam)
{
case kcViewTree: OnBarCheck(IDD_TREEVIEW); break;
case kcViewOptions: OnViewOptions(); break;
case kcViewMain: OnBarCheck(59392 /* MAINVIEW */); break;
case kcFileImportMidiLib: OnImportMidiLib(); break;
case kcFileAddSoundBank: OnAddDlsBank(); break;
case kcPauseSong: OnPlayerPause(); break;
case kcPrevOctave: OnPrevOctave(); break;
case kcNextOctave: OnNextOctave(); break;
case kcFileNew: theApp.OnFileNew(); break;
case kcFileOpen: theApp.OnFileOpen(); break;
case kcMidiRecord: OnMidiRecord(); break;
case kcHelp: OnHelp(); break;
case kcViewAddPlugin: OnPluginManager(); break;
case kcNextDocument: MDINext(); break;
case kcPrevDocument: MDIPrev(); break;
case kcFileCloseAll: theApp.OnFileCloseAll(); break;
//D'oh!! moddoc isn't a CWnd so we have to handle its messages and pass them on.
case kcFileSaveAs:
case kcFileSaveCopy:
case kcFileSaveAsWave:
case kcFileSaveMidi:
case kcFileSaveOPL:
case kcFileExportCompat:
case kcFileClose:
case kcFileSave:
case kcViewGeneral:
case kcViewPattern:
case kcViewSamples:
case kcViewInstruments:
case kcViewComments:
case kcViewGraph: //rewbs.graph
case kcViewSongProperties:
case kcViewTempoSwing:
case kcViewMIDImapping:
case kcViewEditHistory:
case kcViewChannelManager:
case kcPlayPatternFromCursor:
case kcPlayPatternFromStart:
case kcPlaySongFromCursor:
case kcPlaySongFromStart:
case kcPlayPauseSong:
case kcPlaySongFromPattern:
case kcStopSong:
case kcToggleLoopSong:
case kcPanic:
case kcEstimateSongLength:
case kcApproxRealBPM:
case kcTempoIncrease:
case kcTempoDecrease:
case kcTempoIncreaseFine:
case kcTempoDecreaseFine:
case kcSpeedIncrease:
case kcSpeedDecrease:
case kcViewToggle:
{
CModDoc *modDoc = GetActiveDoc();
if (modDoc)
return GetActiveDoc()->OnCustomKeyMsg(wParam, lParam);
else if(wParam == kcPlayPauseSong || wParam == kcStopSong)
StopPreview();
break;
}
case kcSwitchToInstrLibrary:
if(m_bModTreeHasFocus)
SwitchToActiveView();
else
m_wndTree.SetFocus();
break;
//if handled neither by MainFrame nor by ModDoc...
default:
//If the treeview has focus, post command to the tree view
if (m_bModTreeHasFocus)
return m_wndTree.SendMessageToModTree(WM_MOD_KEYCOMMAND, wParam, lParam);
if (m_pNoteMapHasFocus)
return m_pNoteMapHasFocus->SendMessage(WM_MOD_KEYCOMMAND, wParam, lParam);
if (m_pOrderlistHasFocus)
return m_pOrderlistHasFocus->SendMessage(WM_MOD_KEYCOMMAND, wParam, lParam);
//Else send it to the active view
CMDIChildWnd *pMDIActive = MDIGetActive();
CWnd *wnd = nullptr;
if(pMDIActive)
{
wnd = pMDIActive->GetActiveView();
// Hack: If the upper view is active, we only get the "container" (the dialog view with the tabs), not the view itself.
if(!strcmp(wnd->GetRuntimeClass()->m_lpszClassName, "CModControlView"))
{
wnd = static_cast<CModControlView *>(wnd)->GetCurrentControlDlg();
}
}
if(wnd)
return wnd->SendMessage(WM_MOD_KEYCOMMAND, wParam, lParam);
return kcNull;
}
return wParam;
}
void CMainFrame::OnInitMenu(CMenu* pMenu)
{
m_InputHandler->SetModifierMask(ModNone);
CMDIFrameWnd::OnInitMenu(pMenu);
}
BOOL CMainFrame::InitRenderer(CSoundFile* pSndFile)
{
CriticalSection cs;
pSndFile->m_bIsRendering = true;
pSndFile->SuspendPlugins();
pSndFile->ResumePlugins();
return true;
}
BOOL CMainFrame::StopRenderer(CSoundFile* pSndFile)
{
CriticalSection cs;
pSndFile->SuspendPlugins();
pSndFile->m_bIsRendering = false;
return true;
}
// We have switched focus to a new module - might need to update effect keys to reflect module type
bool CMainFrame::UpdateEffectKeys(const CModDoc *modDoc)
{
if(modDoc != nullptr)
{
return m_InputHandler->SetEffectLetters(modDoc->GetSoundFile().GetModSpecifications());
}
return false;
}
void CMainFrame::OnKillFocus(CWnd* pNewWnd)
{
CMDIFrameWnd::OnKillFocus(pNewWnd);
//rewbs: ensure modifiers are reset when we leave the window (e.g. alt-tab)
m_InputHandler->SetModifierMask(ModNone);
}
void CMainFrame::OnShowWindow(BOOL bShow, UINT /*nStatus*/)
{
static bool firstShow = true;
if (bShow && !IsWindowVisible() && firstShow)
{
firstShow = false;
WINDOWPLACEMENT wpl;
GetWindowPlacement(&wpl);
wpl = theApp.GetSettings().Read<WINDOWPLACEMENT>(U_("Display"), U_("WindowPlacement"), wpl);
SetWindowPlacement(&wpl);
}
}
void CMainFrame::OnInternetUpdate()
{
#if defined(MPT_ENABLE_UPDATE)
CUpdateCheck::DoManualUpdateCheck();
#endif // MPT_ENABLE_UPDATE
}
void CMainFrame::OnUpdateAvailable()
{
#if defined(MPT_ENABLE_UPDATE)
if(m_updateCheckResult)
CUpdateCheck::ShowSuccessGUI(false, *m_updateCheckResult);
else
CUpdateCheck::DoManualUpdateCheck();
#endif // MPT_ENABLE_UPDATE
}
void CMainFrame::OnShowSettingsFolder()
{
theApp.OpenDirectory(theApp.GetConfigPath());
}
class CUpdateCheckProgressDialog
: public CProgressDialog
{
public:
CUpdateCheckProgressDialog(CWnd *parent)
: CProgressDialog(parent)
{
return;
}
void Run() override
{
}
};
static std::unique_ptr<CUpdateCheckProgressDialog> g_UpdateCheckProgressDialog = nullptr;
#if defined(MPT_ENABLE_UPDATE)
bool CMainFrame::ShowUpdateIndicator(const UpdateCheckResult &result, const CString &releaseVersion, const CString &infoURL, bool showHighlight)
{
m_updateCheckResult = std::make_unique<UpdateCheckResult>(result);
if(m_wndToolBar.IsVisible())
{
return m_wndToolBar.ShowUpdateInfo(releaseVersion, infoURL, showHighlight);
} else
{
GetMenu()->RemoveMenu(ID_UPDATE_AVAILABLE, MF_BYCOMMAND);
GetMenu()->AppendMenu(MF_STRING, ID_UPDATE_AVAILABLE, _T("[Update Available]"));
DrawMenuBar();
return true;
}
}
LRESULT CMainFrame::OnUpdateCheckStart(WPARAM wparam, LPARAM lparam)
{
GetMenu()->RemoveMenu(ID_UPDATE_AVAILABLE, MF_BYCOMMAND);
m_wndToolBar.RemoveUpdateInfo();
const bool isAutoUpdate = CUpdateCheck::IsAutoUpdateFromMessage(wparam, lparam);
CString updateText = _T("Checking for updates...");
if(isAutoUpdate)
{
SetHelpText(updateText);
} else if(m_UpdateOptionsDialog)
{
m_UpdateOptionsDialog->SetDlgItemText(IDC_LASTUPDATE, updateText);
} else
{
if(!g_UpdateCheckProgressDialog)
{
g_UpdateCheckProgressDialog = std::make_unique<CUpdateCheckProgressDialog>(CMainFrame::GetMainFrame());
g_UpdateCheckProgressDialog->Create(IDD_PROGRESS, CMainFrame::GetMainFrame());
g_UpdateCheckProgressDialog->SetTitle(_T("Checking for updates..."));
g_UpdateCheckProgressDialog->SetText(_T("Checking for updates..."));
g_UpdateCheckProgressDialog->SetAbortText(_T("&Cancel"));
g_UpdateCheckProgressDialog->SetRange(0, 100);
g_UpdateCheckProgressDialog->ShowWindow(SW_SHOWDEFAULT);
}
if(g_UpdateCheckProgressDialog)
{
g_UpdateCheckProgressDialog->SetProgress(0);
}
}
return TRUE;
}
LRESULT CMainFrame::OnUpdateCheckProgress(WPARAM wparam, LPARAM lparam)
{
bool isAutoUpdate = wparam != 0;
CString updateText = MPT_CFORMAT("Checking for updates... {}%")(lparam);
if(isAutoUpdate)
{
SetHelpText(updateText);
} else if(m_UpdateOptionsDialog)
{
m_UpdateOptionsDialog->SetDlgItemText(IDC_LASTUPDATE, updateText);
} else
{
if(g_UpdateCheckProgressDialog)
{
g_UpdateCheckProgressDialog->SetProgress(lparam);
if(g_UpdateCheckProgressDialog->m_abort)
{
return FALSE;
}
}
}
return TRUE;
}
LRESULT CMainFrame::OnUpdateCheckCanceled(WPARAM wparam, LPARAM lparam)
{
m_updateCheckResult.reset();
bool isAutoUpdate = CUpdateCheck::IsAutoUpdateFromMessage(wparam, lparam);
CString updateText = _T("Checking for updates... Canceled.");
if(isAutoUpdate)
{
SetHelpText(updateText);
} else if(m_UpdateOptionsDialog)
{
m_UpdateOptionsDialog->SetDlgItemText(IDC_LASTUPDATE, updateText);
m_UpdateOptionsDialog->SettingChanged(TrackerSettings::Instance().UpdateLastUpdateCheck.GetPath());
} else
{
if(g_UpdateCheckProgressDialog)
{
g_UpdateCheckProgressDialog->DestroyWindow();
g_UpdateCheckProgressDialog = nullptr;
}
}
if(isAutoUpdate)
{
SetHelpText(_T(""));
}
return TRUE;
}
LRESULT CMainFrame::OnUpdateCheckFailure(WPARAM wparam, LPARAM lparam)
{
m_updateCheckResult.reset();
const bool isAutoUpdate = CUpdateCheck::IsAutoUpdateFromMessage(wparam, lparam);
const CUpdateCheck::Error &error = CUpdateCheck::MessageAsError(wparam, lparam);
CString updateText = MPT_CFORMAT("Checking for updates failed: {}")(mpt::get_exception_text<mpt::ustring>(error));
if(isAutoUpdate)
{
SetHelpText(updateText);
} else if(m_UpdateOptionsDialog)
{
m_UpdateOptionsDialog->SetDlgItemText(IDC_LASTUPDATE, updateText);
m_UpdateOptionsDialog->SettingChanged(TrackerSettings::Instance().UpdateLastUpdateCheck.GetPath());
} else
{
if(g_UpdateCheckProgressDialog)
{
g_UpdateCheckProgressDialog->DestroyWindow();
g_UpdateCheckProgressDialog = nullptr;
}
}
CUpdateCheck::ShowFailureGUI(isAutoUpdate, error);
if(isAutoUpdate)
{
SetHelpText(_T(""));
}
return TRUE;
}
LRESULT CMainFrame::OnUpdateCheckSuccess(WPARAM wparam, LPARAM lparam)
{
m_updateCheckResult.reset();
const bool isAutoUpdate = CUpdateCheck::IsAutoUpdateFromMessage(wparam, lparam);
const UpdateCheckResult &result = CUpdateCheck::MessageAsResult(wparam, lparam);
CUpdateCheck::AcknowledgeSuccess(result);
if(result.CheckTime != time_t{})
TrackerSettings::Instance().UpdateLastUpdateCheck = mpt::Date::Unix(result.CheckTime);
if(!isAutoUpdate)
{
if(m_UpdateOptionsDialog)
{
m_UpdateOptionsDialog->SetDlgItemText(IDC_LASTUPDATE, _T("Checking for updates... Done."));
} else
{
if(g_UpdateCheckProgressDialog)
{
g_UpdateCheckProgressDialog->DestroyWindow();
g_UpdateCheckProgressDialog = nullptr;
}
SetHelpText(_T(""));
}
}
CUpdateCheck::ShowSuccessGUI(isAutoUpdate, result);
if(isAutoUpdate)
{
SetHelpText(_T(""));
}
return TRUE;
}
LPARAM CMainFrame::OnToolbarUpdateIndicatorClick(WPARAM action, LPARAM)
{
const auto popAction = static_cast<UpdateToolTip::PopAction>(action);
if(popAction != UpdateToolTip::PopAction::ClickBubble)
return 0;
if(m_updateCheckResult)
CUpdateCheck::ShowSuccessGUI(false, *m_updateCheckResult);
else
CUpdateCheck::DoManualUpdateCheck();
return 0;
}
#endif // MPT_ENABLE_UPDATE
void CMainFrame::OnHelp()
{
CView *view = GetActiveView();
const char *page = "";
if(m_bOptionsLocked)
{
switch(m_nLastOptionsPage)
{
case OPTIONS_PAGE_GENERAL: page = "::/Setup_General.html"; break;
case OPTIONS_PAGE_SOUNDCARD: page = "::/Setup_Soundcard.html"; break;
case OPTIONS_PAGE_MIXER: page = "::/Setup_Mixer.html"; break;
case OPTIONS_PAGE_PLAYER: page = "::/Setup_DSP.html"; break;
case OPTIONS_PAGE_SAMPLEDITOR: page = "::/Setup_Samples.html"; break;
case OPTIONS_PAGE_KEYBOARD: page = "::/Setup_Keyboard.html"; break;
case OPTIONS_PAGE_COLORS: page = "::/Setup_Display.html"; break;
case OPTIONS_PAGE_MIDI: page = "::/Setup_MIDI.html"; break;
case OPTIONS_PAGE_PATHS: page = "::/Setup_Paths_Auto_Save.html"; break;
case OPTIONS_PAGE_UPDATE: page = "::/Setup_Update.html"; break;
case OPTIONS_PAGE_ADVANCED: page = "::/Setup_Advanced.html"; break;
case OPTIONS_PAGE_WINE: page = "::/Setup_Wine.html"; break;
}
} else if(view != nullptr)
{
const char *className = view->GetRuntimeClass()->m_lpszClassName;
if(!strcmp("CViewGlobals", className))
page = "::/General.html";
else if(!strcmp("CViewPattern", className))
page = "::/Patterns.html";
else if(!strcmp("CViewSample", className))
page = "::/Samples.html";
else if(!strcmp("CViewInstrument", className))
page = "::/Instruments.html";
else if(!strcmp("CViewComments", className))
page = "::/Comments.html";
else if(!strcmp("CModControlView", className))
{
switch(static_cast<CModControlView*>(view)->GetActivePage())
{
case CModControlView::VIEW_GLOBALS: page = "::/General.html"; break;
case CModControlView::VIEW_PATTERNS: page = "::/Patterns.html"; break;
case CModControlView::VIEW_SAMPLES: page = "::/Samples.html"; break;
case CModControlView::VIEW_INSTRUMENTS: page = "::/Instruments.html"; break;
case CModControlView::VIEW_COMMENTS: page = "::/Comments.html"; break;
}
}
}
const mpt::PathString helpFile = theApp.GetInstallPath() + P_("OpenMPT Manual.chm") + mpt::PathString::FromUTF8(page) + P_(">OpenMPT");
if(!::HtmlHelp(m_hWnd, helpFile.AsNative().c_str(), strcmp(page, "") ? HH_DISPLAY_TOC : HH_DISPLAY_TOPIC, NULL))
{
Reporting::Error(_T("Could not find help file:\n") + helpFile.ToCString());
return;
}
//::ShowWindow(hwndHelp, SW_SHOWMAXIMIZED);
}
LRESULT CMainFrame::OnViewMIDIMapping(WPARAM wParam, LPARAM lParam)
{
static bool inMapper = false;
if(!inMapper)
{
inMapper = true;
CModDoc *doc = GetActiveDoc();
if(doc != nullptr)
doc->ViewMIDIMapping(static_cast<PLUGINDEX>(wParam), static_cast<PlugParamIndex>(lParam));
inMapper = false;
}
return 0;
}
HMENU CMainFrame::CreateFileMenu(const size_t maxCount, std::vector<mpt::PathString>& paths, const mpt::PathString &folderName, const uint16 idRangeBegin)
{
paths.clear();
HMENU hMenu = ::CreatePopupMenu();
ASSERT(hMenu != NULL);
if (hMenu != NULL)
{
UINT_PTR filesAdded = 0;
for(size_t i = 0; i < 2; i++) // 0: app items, 1: user items
{
// To avoid duplicates, check whether app path and config path are the same.
if (i == 1 && mpt::PathString::CompareNoCase(theApp.GetInstallPath(), theApp.GetConfigPath()) == 0)
break;
mpt::PathString basePath;
basePath = (i == 0) ? theApp.GetInstallPath() : theApp.GetConfigPath();
basePath += folderName;
if(!basePath.IsDirectory())
continue;
FolderScanner scanner(basePath, FolderScanner::kOnlyFiles);
mpt::PathString fileName;
while(filesAdded < maxCount && scanner.Next(fileName))
{
paths.push_back(fileName);
CString file = fileName.GetFullFileName().ToCString();
file.Replace(_T("&"), _T("&&"));
AppendMenu(hMenu, MF_STRING, idRangeBegin + filesAdded, file);
filesAdded++;
}
}
if(filesAdded == 0)
{
AppendMenu(hMenu, MF_STRING | MF_GRAYED | MF_DISABLED, 0, _T("No items found"));
} else
{
AppendMenu(hMenu, MF_SEPARATOR, 0, 0);
AppendMenu(hMenu, MF_STRING, idRangeBegin + maxCount, _T("Browse..."));
}
}
return hMenu;
}
void CMainFrame::CreateExampleModulesMenu()
{
static_assert(nMaxItemsInExampleModulesMenu == ID_EXAMPLE_MODULES_LASTINRANGE - ID_EXAMPLE_MODULES,
"Make sure that there's a proper range for menu commands in resources.");
HMENU hMenu = CreateFileMenu(nMaxItemsInExampleModulesMenu, m_ExampleModulePaths, P_("ExampleSongs\\"), ID_EXAMPLE_MODULES);
CMenu* const pMainMenu = GetMenu();
if (hMenu && pMainMenu && m_InputHandler)
VERIFY(pMainMenu->ModifyMenu(ID_EXAMPLE_MODULES, MF_BYCOMMAND | MF_POPUP, (UINT_PTR)hMenu, m_InputHandler->GetMenuText(ID_EXAMPLE_MODULES)));
else
ASSERT(false);
}
// Hack-ish way to get the file menu (this is necessary because the MDI document icon next to the File menu is a sub menu, too).
CMenu *CMainFrame::GetFileMenu() const
{
CMenu *mainMenu = GetMenu();
CMenu *fileMenu = mainMenu ? mainMenu->GetSubMenu(0) : nullptr;
if(fileMenu)
{
if(fileMenu->GetMenuItemID(1) != ID_FILE_OPEN)
fileMenu = mainMenu->GetSubMenu(1);
ASSERT(fileMenu->GetMenuItemID(1) == ID_FILE_OPEN);
}
ASSERT(fileMenu);
return fileMenu;
}
void CMainFrame::CreateTemplateModulesMenu()
{
static_assert(nMaxItemsInTemplateModulesMenu == ID_FILE_OPENTEMPLATE_LASTINRANGE - ID_FILE_OPENTEMPLATE,
"Make sure that there's a proper range for menu commands in resources.");
HMENU hMenu = CreateFileMenu(nMaxItemsInTemplateModulesMenu, m_TemplateModulePaths, P_("TemplateModules\\"), ID_FILE_OPENTEMPLATE);
CMenu *pFileMenu = GetFileMenu();
if (hMenu && pFileMenu && m_InputHandler)
{
VERIFY(pFileMenu->RemoveMenu(2, MF_BYPOSITION));
VERIFY(pFileMenu->InsertMenu(2, MF_BYPOSITION | MF_POPUP, (UINT_PTR)hMenu, m_InputHandler->GetMenuText(ID_FILE_OPENTEMPLATE)));
}
else
ASSERT(false);
}
void CMainFrame::UpdateMRUList()
{
CMenu *pMenu = GetFileMenu();
if(!pMenu) return;
static int firstMenu = -1;
if(firstMenu == -1)
{
int numMenus = pMenu->GetMenuItemCount();
for(int i = 0; i < numMenus; i++)
{
if(pMenu->GetMenuItemID(i) == ID_MRU_LIST_FIRST)
{
firstMenu = i;
break;
}
}
}
for(int i = ID_MRU_LIST_FIRST; i <= ID_MRU_LIST_LAST; i++)
{
pMenu->DeleteMenu(i, MF_BYCOMMAND);
}
if(TrackerSettings::Instance().mruFiles.empty())
{
// MFC will automatically ignore if we set MF_GRAYED here because of CFrameWnd::m_bAutoMenuEnable.
// So we will have to install a ON_UPDATE_COMMAND_UI callback...
pMenu->InsertMenu(firstMenu, MF_STRING | MF_BYPOSITION, ID_MRU_LIST_FIRST, _T("Recent File"));
} else
{
const mpt::PathString workDir = TrackerSettings::Instance().PathSongs.GetWorkingDir();
const int entries = mpt::saturate_cast<int>(TrackerSettings::Instance().mruFiles.size());
for(int i = 0; i < entries; i++)
{
mpt::winstring s = mpt::tfmt::val(i + 1) + _T(" ");
// Add mnemonics
if(i < 9)
{
s = _T("&") + s;
} else if(i == 9)
{
s = _T("1&0 ");
}
const mpt::PathString &pathMPT = TrackerSettings::Instance().mruFiles[i];
mpt::winstring path = pathMPT.AsNative();
if(!mpt::PathString::CompareNoCase(workDir, pathMPT.GetPath()))
{
// Only show filename
path = path.substr(workDir.AsNative().length());
} else if(path.length() > 30) // Magic number experimentally determined to be equal to MFC's behaviour
{
// Shorten path ("C:\Foo\VeryLongString...\Bar.it" => "C:\Foo\...\Bar.it")
size_t start = path.find_first_of(_T("\\/"), path.find_first_of(_T("\\/")) + 1);
size_t end = path.find_last_of(_T("\\/"));
if(start < end)
{
path = path.substr(0, start + 1) + _T("...") + path.substr(end);
}
}
path = mpt::String::Replace(path, mpt::winstring(_T("&")), mpt::winstring(_T("&&")));
s += path;
pMenu->InsertMenu(firstMenu + i, MF_STRING | MF_BYPOSITION, ID_MRU_LIST_FIRST + i, mpt::ToCString(s));
}
}
}
BOOL CMainFrame::OnQueryEndSession()
{
int modifiedCount = 0;
for(const auto &modDoc : theApp.GetOpenDocuments())
{
if(modDoc->IsModified())
modifiedCount++;
}
#if (_WIN32_WINNT >= _WIN32_WINNT_VISTA)
ShutdownBlockReasonDestroy(m_hWnd);
if(modifiedCount > 0)
{
ShutdownBlockReasonCreate(m_hWnd,
MPT_WFORMAT("There {} {} unsaved file{}.")(modifiedCount == 1 ? L"is" : L"are", modifiedCount, modifiedCount == 1 ? L"" : L"s").c_str());
}
#endif
return modifiedCount ? FALSE : TRUE;
}
void CMainFrame::NotifyAccessibilityUpdate(CWnd &source)
{
if(!IsPlaying() || m_pSndFile->m_SongFlags[SONG_PAUSED])
source.NotifyWinEvent(EVENT_OBJECT_NAMECHANGE, OBJID_CLIENT, CHILDID_SELF);
}
// ITfLanguageProfileNotifySink implementation
TfLanguageProfileNotifySink::TfLanguageProfileNotifySink()
{
HRESULT hr = CoCreateInstance(CLSID_TF_InputProcessorProfiles, NULL, CLSCTX_INPROC_SERVER, IID_ITfInputProcessorProfiles, (void**)&m_pProfiles);
if(SUCCEEDED(hr))
{
hr = m_pProfiles->QueryInterface(IID_ITfSource, (void**)&m_pSource);
if(SUCCEEDED(hr))
{
hr = m_pSource->AdviseSink(IID_ITfLanguageProfileNotifySink,
static_cast<ITfLanguageProfileNotifySink *>(this),
&m_dwCookie);
MPT_ASSERT(SUCCEEDED(hr));
MPT_ASSERT(m_dwCookie != TF_INVALID_COOKIE);
}
}
}
TfLanguageProfileNotifySink::~TfLanguageProfileNotifySink()
{
if(mpt::OS::Windows::IsWine())
{
// Calling UnadviseSink causes a random crash in Wine when computing its function pointer for some reason.
// Probably a race condition I don't understand, and probably a bug in Wine.
return;
}
if(m_pSource && (m_dwCookie != TF_INVALID_COOKIE))
{
m_pSource->UnadviseSink(m_dwCookie);
}
m_dwCookie = TF_INVALID_COOKIE;
if(m_pSource)
{
m_pSource->Release();
}
m_pSource = nullptr;
if(m_pProfiles) m_pProfiles->Release();
m_pProfiles = nullptr;
}
HRESULT TfLanguageProfileNotifySink::OnLanguageChange(LANGID /*langid*/, __RPC__out BOOL *pfAccept)
{
*pfAccept = TRUE;
return ResultFromScode(S_OK);
}
HRESULT TfLanguageProfileNotifySink::OnLanguageChanged()
{
// Input language has changed, so key positions might have changed too.
CMainFrame *mainFrm = CMainFrame::GetMainFrame();
if(mainFrm != nullptr)
{
mainFrm->UpdateEffectKeys(mainFrm->GetActiveDoc());
mainFrm->m_InputHandler->SetModifierMask(ModNone);
}
return ResultFromScode(S_OK);
}
HRESULT TfLanguageProfileNotifySink::QueryInterface(REFIID riid, void **ppvObject)
{
if(riid == IID_ITfLanguageProfileNotifySink || riid == IID_IUnknown)
{
*ppvObject = static_cast<ITfLanguageProfileNotifySink *>(this);
AddRef();
return ResultFromScode(S_OK);
}
*ppvObject = nullptr;
return ResultFromScode(E_NOINTERFACE);
}
ULONG TfLanguageProfileNotifySink::AddRef()
{
// Don't let COM do anything to this object
return 1;
}
ULONG TfLanguageProfileNotifySink::Release()
{
// Don't let COM do anything to this object
return 1;
}
/////////////////////////////////////////////
//Misc helper functions
/////////////////////////////////////////////
void AddPluginNamesToCombobox(CComboBox &CBox, const SNDMIXPLUGIN *plugarray, const bool libraryName, const PLUGINDEX updatePlug)
{
#ifndef NO_PLUGINS
int insertAt = CBox.GetCount();
if(updatePlug != PLUGINDEX_INVALID)
{
const int items = insertAt;
for(insertAt = 0; insertAt < items; insertAt++)
{
auto thisPlugin = static_cast<PLUGINDEX>(CBox.GetItemData(insertAt));
if(thisPlugin == (updatePlug + 1))
CBox.DeleteString(insertAt);
if(thisPlugin >= (updatePlug + 1))
break;
}
}
mpt::tstring str;
str.reserve(80);
for(PLUGINDEX plug = 0; plug < MAX_MIXPLUGINS; plug++)
{
if(updatePlug != PLUGINDEX_INVALID && plug != updatePlug)
continue;
const SNDMIXPLUGIN &plugin = plugarray[plug];
str.clear();
str += MPT_TFORMAT("FX{}: ")(plug + 1);
const auto plugName = plugin.GetName(), libName = plugin.GetLibraryName();
str += mpt::ToWin(plugName);
if(libraryName && plugName != libName && !libName.empty())
str += _T(" (") + mpt::ToWin(libName) + _T(")");
else if(plugName.empty() && (!libraryName || libName.empty()))
str += _T("--");
#ifdef MPT_WITH_VST
auto *vstPlug = dynamic_cast<const CVstPlugin *>(plugin.pMixPlugin);
if(vstPlug != nullptr && vstPlug->isBridged)
{
VSTPluginLib &lib = vstPlug->GetPluginFactory();
str += MPT_TFORMAT(" ({} Bridged)")(lib.GetDllArchNameUser());
}
#endif // MPT_WITH_VST
insertAt = CBox.InsertString(insertAt, str.c_str());
CBox.SetItemData(insertAt, plug + 1);
insertAt++;
}
#endif // NO_PLUGINS
}
void AddPluginParameternamesToCombobox(CComboBox& CBox, SNDMIXPLUGIN& plug)
{
#ifndef NO_PLUGINS
if(plug.pMixPlugin)
AddPluginParameternamesToCombobox(CBox, *plug.pMixPlugin);
#endif // NO_PLUGINS
}
void AddPluginParameternamesToCombobox(CComboBox& CBox, IMixPlugin& plug)
{
#ifndef NO_PLUGINS
const PlugParamIndex numParams = plug.GetNumParameters();
plug.CacheParameterNames(0, numParams);
for(PlugParamIndex i = 0; i < numParams; i++)
{
CBox.SetItemData(CBox.AddString(plug.GetFormattedParamName(i)), i);
}
#endif // NO_PLUGINS
}
OPENMPT_NAMESPACE_END