// Scintilla source code edit control /** @file ScintillaWin.cxx ** Windows specific subclass of ScintillaBase. **/ // Copyright 1998-2003 by Neil Hodgson // The License.txt file describes the conditions under which this software may be distributed. #include #include #include #include #include #include #include #include #include #include #include #include #include #undef _WIN32_WINNT #define _WIN32_WINNT 0x0500 #undef WINVER #define WINVER 0x0500 #include #include #include #include #include #include #if defined(NTDDI_WIN7) && !defined(DISABLE_D2D) #define USE_D2D 1 #endif #if defined(USE_D2D) #include #include #endif #include "Platform.h" #include "ILexer.h" #include "Scintilla.h" #ifdef SCI_LEXER #include "SciLexer.h" #endif #include "StringCopy.h" #ifdef SCI_LEXER #include "LexerModule.h" #endif #include "SplitVector.h" #include "Partitioning.h" #include "RunStyles.h" #include "ContractionState.h" #include "CellBuffer.h" #include "CallTip.h" #include "KeyMap.h" #include "Indicator.h" #include "XPM.h" #include "LineMarker.h" #include "Style.h" #include "ViewStyle.h" #include "CharClassify.h" #include "Decoration.h" #include "CaseFolder.h" #include "Document.h" #include "CaseConvert.h" #include "UniConversion.h" #include "Selection.h" #include "PositionCache.h" #include "EditModel.h" #include "MarginView.h" #include "EditView.h" #include "Editor.h" #include "AutoComplete.h" #include "ScintillaBase.h" #ifdef SCI_LEXER #include "ExternalLexer.h" #endif #include "PlatWin.h" #include "HanjaDic.h" #ifndef SPI_GETWHEELSCROLLLINES #define SPI_GETWHEELSCROLLLINES 104 #endif #ifndef WM_UNICHAR #define WM_UNICHAR 0x0109 #endif #ifndef UNICODE_NOCHAR #define UNICODE_NOCHAR 0xFFFF #endif #ifndef MK_ALT #define MK_ALT 32 #endif #define SC_WIN_IDLE 5001 #define SC_INDICATOR_INPUT INDIC_IME #define SC_INDICATOR_TARGET INDIC_IME+1 #define SC_INDICATOR_CONVERTED INDIC_IME+2 #define SC_INDICATOR_UNKNOWN INDIC_IME_MAX typedef BOOL (WINAPI *TrackMouseEventSig)(LPTRACKMOUSEEVENT); typedef UINT_PTR (WINAPI *SetCoalescableTimerSig)(HWND hwnd, UINT_PTR nIDEvent, UINT uElapse, TIMERPROC lpTimerFunc, ULONG uToleranceDelay); // GCC has trouble with the standard COM ABI so do it the old C way with explicit vtables. const TCHAR callClassName[] = TEXT("CallTip"); #ifdef SCI_NAMESPACE using namespace Scintilla; #endif static void *PointerFromWindow(HWND hWnd) { return reinterpret_cast(::GetWindowLongPtr(hWnd, 0)); } static void SetWindowPointer(HWND hWnd, void *ptr) { ::SetWindowLongPtr(hWnd, 0, reinterpret_cast(ptr)); } static void SetWindowID(HWND hWnd, int identifier) { ::SetWindowLongPtr(hWnd, GWLP_ID, identifier); } static Point PointFromPOINT(POINT pt) { return Point::FromInts(pt.x, pt.y); } class ScintillaWin; // Forward declaration for COM interface subobjects typedef void VFunction(void); static HMODULE commctrl32 = 0; /** */ class FormatEnumerator { public: VFunction **vtbl; int ref; unsigned int pos; std::vector formats; FormatEnumerator(int pos_, CLIPFORMAT formats_[], size_t formatsLen_); }; /** */ class DropSource { public: VFunction **vtbl; ScintillaWin *sci; DropSource(); }; /** */ class DataObject { public: VFunction **vtbl; ScintillaWin *sci; DataObject(); }; /** */ class DropTarget { public: VFunction **vtbl; ScintillaWin *sci; DropTarget(); }; /** */ class ScintillaWin : public ScintillaBase { bool lastKeyDownConsumed; bool capturedMouse; bool trackedMouseLeave; TrackMouseEventSig TrackMouseEventFn; SetCoalescableTimerSig SetCoalescableTimerFn; unsigned int linesPerScroll; ///< Intellimouse support int wheelDelta; ///< Wheel delta from roll HRGN hRgnUpdate; bool hasOKText; CLIPFORMAT cfColumnSelect; CLIPFORMAT cfBorlandIDEBlockType; CLIPFORMAT cfLineSelect; CLIPFORMAT cfVSLineTag; HRESULT hrOle; DropSource ds; DataObject dob; DropTarget dt; static HINSTANCE hInstance; static ATOM scintillaClassAtom; static ATOM callClassAtom; #if defined(USE_D2D) ID2D1RenderTarget *pRenderTarget; bool renderTargetValid; #endif explicit ScintillaWin(HWND hwnd); ScintillaWin(const ScintillaWin &); virtual ~ScintillaWin(); ScintillaWin &operator=(const ScintillaWin &); virtual void Initialise(); virtual void Finalise(); #if defined(USE_D2D) void EnsureRenderTarget(HDC hdc); void DropRenderTarget(); #endif HWND MainHWND(); static sptr_t DirectFunction( sptr_t ptr, UINT iMessage, uptr_t wParam, sptr_t lParam); static sptr_t PASCAL SWndProc( HWND hWnd, UINT iMessage, WPARAM wParam, sptr_t lParam); static sptr_t PASCAL CTWndProc( HWND hWnd, UINT iMessage, WPARAM wParam, sptr_t lParam); enum { invalidTimerID, standardTimerID, idleTimerID, fineTimerStart }; virtual bool DragThreshold(Point ptStart, Point ptNow); virtual void StartDrag(); int TargetAsUTF8(char *text); int EncodedFromUTF8(char *utf8, char *encoded) const; sptr_t WndPaint(uptr_t wParam); sptr_t HandleCompositionWindowed(uptr_t wParam, sptr_t lParam); sptr_t HandleCompositionInline(uptr_t wParam, sptr_t lParam); static bool KoreanIME(); void MoveImeCarets(int offset); void DrawImeIndicator(int indicator, int len); void SetCandidateWindowPos(); void SelectionToHangul(); void EscapeHanja(); void ToggleHanja(); UINT CodePageOfDocument() const; virtual bool ValidCodePage(int codePage) const; virtual sptr_t DefWndProc(unsigned int iMessage, uptr_t wParam, sptr_t lParam); virtual bool SetIdle(bool on); UINT_PTR timers[tickDwell+1]; virtual bool FineTickerAvailable(); virtual bool FineTickerRunning(TickReason reason); virtual void FineTickerStart(TickReason reason, int millis, int tolerance); virtual void FineTickerCancel(TickReason reason); virtual void SetMouseCapture(bool on); virtual bool HaveMouseCapture(); virtual void SetTrackMouseLeaveEvent(bool on); virtual bool PaintContains(PRectangle rc); virtual void ScrollText(int linesToMove); virtual void UpdateSystemCaret(); virtual void SetVerticalScrollPos(); virtual void SetHorizontalScrollPos(); virtual bool ModifyScrollBars(int nMax, int nPage); virtual void NotifyChange(); virtual void NotifyFocus(bool focus); virtual void SetCtrlID(int identifier); virtual int GetCtrlID(); virtual void NotifyParent(SCNotification scn); virtual void NotifyDoubleClick(Point pt, int modifiers); virtual CaseFolder *CaseFolderForEncoding(); virtual std::string CaseMapString(const std::string &s, int caseMapping); virtual void Copy(); virtual void CopyAllowLine(); virtual bool CanPaste(); virtual void Paste(); virtual void CreateCallTipWindow(PRectangle rc); virtual void AddToPopUp(const char *label, int cmd = 0, bool enabled = true); virtual void ClaimSelection(); // DBCS void ImeStartComposition(); void ImeEndComposition(); void GetIntelliMouseParameters(); virtual void CopyToClipboard(const SelectionText &selectedText); void ScrollMessage(WPARAM wParam); void HorizontalScrollMessage(WPARAM wParam); void FullPaint(); void FullPaintDC(HDC dc); bool IsCompatibleDC(HDC dc); DWORD EffectFromState(DWORD grfKeyState) const; virtual int SetScrollInfo(int nBar, LPCSCROLLINFO lpsi, BOOL bRedraw); virtual bool GetScrollInfo(int nBar, LPSCROLLINFO lpsi); void ChangeScrollPos(int barType, int pos); sptr_t GetTextLength(); sptr_t GetText(uptr_t wParam, sptr_t lParam); public: // Public for benefit of Scintilla_DirectFunction virtual sptr_t WndProc(unsigned int iMessage, uptr_t wParam, sptr_t lParam); /// Implement IUnknown STDMETHODIMP QueryInterface(REFIID riid, PVOID *ppv); STDMETHODIMP_(ULONG)AddRef(); STDMETHODIMP_(ULONG)Release(); /// Implement IDropTarget STDMETHODIMP DragEnter(LPDATAOBJECT pIDataSource, DWORD grfKeyState, POINTL pt, PDWORD pdwEffect); STDMETHODIMP DragOver(DWORD grfKeyState, POINTL pt, PDWORD pdwEffect); STDMETHODIMP DragLeave(); STDMETHODIMP Drop(LPDATAOBJECT pIDataSource, DWORD grfKeyState, POINTL pt, PDWORD pdwEffect); /// Implement important part of IDataObject STDMETHODIMP GetData(FORMATETC *pFEIn, STGMEDIUM *pSTM); static bool Register(HINSTANCE hInstance_); static bool Unregister(); friend class DropSource; friend class DataObject; friend class DropTarget; bool DragIsRectangularOK(CLIPFORMAT fmt) const { return drag.rectangular && (fmt == cfColumnSelect); } private: // For use in creating a system caret bool HasCaretSizeChanged() const; BOOL CreateSystemCaret(); BOOL DestroySystemCaret(); HBITMAP sysCaretBitmap; int sysCaretWidth; int sysCaretHeight; }; HINSTANCE ScintillaWin::hInstance = 0; ATOM ScintillaWin::scintillaClassAtom = 0; ATOM ScintillaWin::callClassAtom = 0; ScintillaWin::ScintillaWin(HWND hwnd) { lastKeyDownConsumed = false; capturedMouse = false; trackedMouseLeave = false; TrackMouseEventFn = 0; SetCoalescableTimerFn = 0; linesPerScroll = 0; wheelDelta = 0; // Wheel delta from roll hRgnUpdate = 0; hasOKText = false; // There does not seem to be a real standard for indicating that the clipboard // contains a rectangular selection, so copy Developer Studio and Borland Delphi. cfColumnSelect = static_cast( ::RegisterClipboardFormat(TEXT("MSDEVColumnSelect"))); cfBorlandIDEBlockType = static_cast( ::RegisterClipboardFormat(TEXT("Borland IDE Block Type"))); // Likewise for line-copy (copies a full line when no text is selected) cfLineSelect = static_cast( ::RegisterClipboardFormat(TEXT("MSDEVLineSelect"))); cfVSLineTag = static_cast( ::RegisterClipboardFormat(TEXT("VisualStudioEditorOperationsLineCutCopyClipboardTag"))); hrOle = E_FAIL; wMain = hwnd; dob.sci = this; ds.sci = this; dt.sci = this; sysCaretBitmap = 0; sysCaretWidth = 0; sysCaretHeight = 0; #if defined(USE_D2D) pRenderTarget = 0; renderTargetValid = true; #endif caret.period = ::GetCaretBlinkTime(); if (caret.period < 0) caret.period = 0; Initialise(); } ScintillaWin::~ScintillaWin() {} void ScintillaWin::Initialise() { // Initialize COM. If the app has already done this it will have // no effect. If the app hasnt, we really shouldnt ask them to call // it just so this internal feature works. hrOle = ::OleInitialize(NULL); // Find TrackMouseEvent which is available on Windows > 95 HMODULE user32 = ::GetModuleHandle(TEXT("user32.dll")); if (user32) { TrackMouseEventFn = (TrackMouseEventSig)::GetProcAddress(user32, "TrackMouseEvent"); SetCoalescableTimerFn = (SetCoalescableTimerSig)::GetProcAddress(user32, "SetCoalescableTimer"); } if (TrackMouseEventFn == NULL) { // Windows 95 has an emulation in comctl32.dll:_TrackMouseEvent if (!commctrl32) commctrl32 = ::LoadLibrary(TEXT("comctl32.dll")); if (commctrl32 != NULL) { TrackMouseEventFn = (TrackMouseEventSig) ::GetProcAddress(commctrl32, "_TrackMouseEvent"); } } for (TickReason tr = tickCaret; tr <= tickDwell; tr = static_cast(tr + 1)) { timers[tr] = 0; } vs.indicators[SC_INDICATOR_UNKNOWN] = Indicator(INDIC_HIDDEN, ColourDesired(0, 0, 0xff)); vs.indicators[SC_INDICATOR_INPUT] = Indicator(INDIC_DOTS, ColourDesired(0, 0, 0xff)); vs.indicators[SC_INDICATOR_CONVERTED] = Indicator(INDIC_COMPOSITIONTHICK, ColourDesired(0, 0, 0xff)); vs.indicators[SC_INDICATOR_TARGET] = Indicator(INDIC_STRAIGHTBOX, ColourDesired(0, 0, 0xff)); } void ScintillaWin::Finalise() { ScintillaBase::Finalise(); for (TickReason tr = tickCaret; tr <= tickDwell; tr = static_cast(tr + 1)) { FineTickerCancel(tr); } SetIdle(false); #if defined(USE_D2D) DropRenderTarget(); #endif ::RevokeDragDrop(MainHWND()); if (SUCCEEDED(hrOle)) { ::OleUninitialize(); } } #if defined(USE_D2D) void ScintillaWin::EnsureRenderTarget(HDC hdc) { if (!renderTargetValid) { DropRenderTarget(); renderTargetValid = true; } if (pD2DFactory && !pRenderTarget) { RECT rc; HWND hw = MainHWND(); GetClientRect(hw, &rc); D2D1_SIZE_U size = D2D1::SizeU(rc.right - rc.left, rc.bottom - rc.top); // Create a Direct2D render target. #if 1 D2D1_RENDER_TARGET_PROPERTIES drtp; drtp.type = D2D1_RENDER_TARGET_TYPE_DEFAULT; drtp.pixelFormat.format = DXGI_FORMAT_UNKNOWN; drtp.pixelFormat.alphaMode = D2D1_ALPHA_MODE_UNKNOWN; drtp.dpiX = 96.0; drtp.dpiY = 96.0; drtp.usage = D2D1_RENDER_TARGET_USAGE_NONE; drtp.minLevel = D2D1_FEATURE_LEVEL_DEFAULT; if (technology == SC_TECHNOLOGY_DIRECTWRITEDC) { // Explicit pixel format needed. drtp.pixelFormat = D2D1::PixelFormat(DXGI_FORMAT_B8G8R8A8_UNORM, D2D1_ALPHA_MODE_IGNORE); ID2D1DCRenderTarget *pDCRT = NULL; HRESULT hr = pD2DFactory->CreateDCRenderTarget(&drtp, &pDCRT); if (SUCCEEDED(hr)) { pRenderTarget = pDCRT; } else { Platform::DebugPrintf("Failed CreateDCRenderTarget 0x%x\n", hr); pRenderTarget = NULL; } } else { D2D1_HWND_RENDER_TARGET_PROPERTIES dhrtp; dhrtp.hwnd = hw; dhrtp.pixelSize = size; dhrtp.presentOptions = (technology == SC_TECHNOLOGY_DIRECTWRITERETAIN) ? D2D1_PRESENT_OPTIONS_RETAIN_CONTENTS : D2D1_PRESENT_OPTIONS_NONE; ID2D1HwndRenderTarget *pHwndRenderTarget = NULL; HRESULT hr = pD2DFactory->CreateHwndRenderTarget(drtp, dhrtp, &pHwndRenderTarget); if (SUCCEEDED(hr)) { pRenderTarget = pHwndRenderTarget; } else { Platform::DebugPrintf("Failed CreateHwndRenderTarget 0x%x\n", hr); pRenderTarget = NULL; } } #else pD2DFactory->CreateHwndRenderTarget( D2D1::RenderTargetProperties( D2D1_RENDER_TARGET_TYPE_DEFAULT , D2D1::PixelFormat(DXGI_FORMAT_B8G8R8A8_UNORM, D2D1_ALPHA_MODE_PREMULTIPLIED), 96.0f, 96.0f, D2D1_RENDER_TARGET_USAGE_NONE, D2D1_FEATURE_LEVEL_DEFAULT), D2D1::HwndRenderTargetProperties(hw, size), &pRenderTarget); #endif // Pixmaps were created to be compatible with previous render target so // need to be recreated. DropGraphics(false); } if ((technology == SC_TECHNOLOGY_DIRECTWRITEDC) && pRenderTarget) { RECT rcWindow; GetClientRect(MainHWND(), &rcWindow); HRESULT hr = static_cast(pRenderTarget)->BindDC(hdc, &rcWindow); if (FAILED(hr)) { Platform::DebugPrintf("BindDC failed 0x%x\n", hr); DropRenderTarget(); } } } void ScintillaWin::DropRenderTarget() { if (pRenderTarget) { pRenderTarget->Release(); pRenderTarget = 0; } } #endif HWND ScintillaWin::MainHWND() { return reinterpret_cast(wMain.GetID()); } bool ScintillaWin::DragThreshold(Point ptStart, Point ptNow) { int xMove = static_cast(std::abs(ptStart.x - ptNow.x)); int yMove = static_cast(std::abs(ptStart.y - ptNow.y)); return (xMove > ::GetSystemMetrics(SM_CXDRAG)) || (yMove > ::GetSystemMetrics(SM_CYDRAG)); } void ScintillaWin::StartDrag() { inDragDrop = ddDragging; DWORD dwEffect = 0; dropWentOutside = true; IDataObject *pDataObject = reinterpret_cast(&dob); IDropSource *pDropSource = reinterpret_cast(&ds); //Platform::DebugPrintf("About to DoDragDrop %x %x\n", pDataObject, pDropSource); HRESULT hr = ::DoDragDrop( pDataObject, pDropSource, DROPEFFECT_COPY | DROPEFFECT_MOVE, &dwEffect); //Platform::DebugPrintf("DoDragDrop = %x\n", hr); if (SUCCEEDED(hr)) { if ((hr == DRAGDROP_S_DROP) && (dwEffect == DROPEFFECT_MOVE) && dropWentOutside) { // Remove dragged out text ClearSelection(); } } inDragDrop = ddNone; SetDragPosition(SelectionPosition(invalidPosition)); } // Avoid warnings everywhere for old style casts by concentrating them here static WORD LoWord(uptr_t l) { return LOWORD(l); } static WORD HiWord(uptr_t l) { return HIWORD(l); } static int InputCodePage() { HKL inputLocale = ::GetKeyboardLayout(0); LANGID inputLang = LOWORD(inputLocale); char sCodePage[10]; int res = ::GetLocaleInfoA(MAKELCID(inputLang, SORT_DEFAULT), LOCALE_IDEFAULTANSICODEPAGE, sCodePage, sizeof(sCodePage)); if (!res) return 0; return atoi(sCodePage); } /** Map the key codes to their equivalent SCK_ form. */ static int KeyTranslate(int keyIn) { //PLATFORM_ASSERT(!keyIn); switch (keyIn) { case VK_DOWN: return SCK_DOWN; case VK_UP: return SCK_UP; case VK_LEFT: return SCK_LEFT; case VK_RIGHT: return SCK_RIGHT; case VK_HOME: return SCK_HOME; case VK_END: return SCK_END; case VK_PRIOR: return SCK_PRIOR; case VK_NEXT: return SCK_NEXT; case VK_DELETE: return SCK_DELETE; case VK_INSERT: return SCK_INSERT; case VK_ESCAPE: return SCK_ESCAPE; case VK_BACK: return SCK_BACK; case VK_TAB: return SCK_TAB; case VK_RETURN: return SCK_RETURN; case VK_ADD: return SCK_ADD; case VK_SUBTRACT: return SCK_SUBTRACT; case VK_DIVIDE: return SCK_DIVIDE; case VK_LWIN: return SCK_WIN; case VK_RWIN: return SCK_RWIN; case VK_APPS: return SCK_MENU; case VK_OEM_2: return '/'; case VK_OEM_3: return '`'; case VK_OEM_4: return '['; case VK_OEM_5: return '\\'; case VK_OEM_6: return ']'; default: return keyIn; } } static bool BoundsContains(PRectangle rcBounds, HRGN hRgnBounds, PRectangle rcCheck) { bool contains = true; if (!rcCheck.Empty()) { if (!rcBounds.Contains(rcCheck)) { contains = false; } else if (hRgnBounds) { // In bounding rectangle so check more accurately using region HRGN hRgnCheck = ::CreateRectRgn(static_cast(rcCheck.left), static_cast(rcCheck.top), static_cast(rcCheck.right), static_cast(rcCheck.bottom)); if (hRgnCheck) { HRGN hRgnDifference = ::CreateRectRgn(0, 0, 0, 0); if (hRgnDifference) { int combination = ::CombineRgn(hRgnDifference, hRgnCheck, hRgnBounds, RGN_DIFF); if (combination != NULLREGION) { contains = false; } ::DeleteRgn(hRgnDifference); } ::DeleteRgn(hRgnCheck); } } } return contains; } // Returns the target converted to UTF8. // Return the length in bytes. int ScintillaWin::TargetAsUTF8(char *text) { int targetLength = targetEnd - targetStart; if (IsUnicodeMode()) { if (text) { pdoc->GetCharRange(text, targetStart, targetLength); } } else { // Need to convert std::string s = RangeText(targetStart, targetEnd); int charsLen = ::MultiByteToWideChar(CodePageOfDocument(), 0, &s[0], targetLength, NULL, 0); std::wstring characters(charsLen, '\0'); ::MultiByteToWideChar(CodePageOfDocument(), 0, &s[0], targetLength, &characters[0], charsLen); int utf8Len = ::WideCharToMultiByte(CP_UTF8, 0, &characters[0], charsLen, NULL, 0, 0, 0); if (text) { ::WideCharToMultiByte(CP_UTF8, 0, &characters[0], charsLen, text, utf8Len, 0, 0); text[utf8Len] = '\0'; } return utf8Len; } return targetLength; } // Translates a nul terminated UTF8 string into the document encoding. // Return the length of the result in bytes. int ScintillaWin::EncodedFromUTF8(char *utf8, char *encoded) const { int inputLength = (lengthForEncode >= 0) ? lengthForEncode : static_cast(strlen(utf8)); if (IsUnicodeMode()) { if (encoded) { memcpy(encoded, utf8, inputLength); } return inputLength; } else { // Need to convert int charsLen = ::MultiByteToWideChar(CP_UTF8, 0, utf8, inputLength, NULL, 0); std::wstring characters(charsLen, '\0'); ::MultiByteToWideChar(CP_UTF8, 0, utf8, inputLength, &characters[0], charsLen); int encodedLen = ::WideCharToMultiByte(CodePageOfDocument(), 0, &characters[0], charsLen, NULL, 0, 0, 0); if (encoded) { ::WideCharToMultiByte(CodePageOfDocument(), 0, &characters[0], charsLen, encoded, encodedLen, 0, 0); encoded[encodedLen] = '\0'; } return encodedLen; } } LRESULT ScintillaWin::WndPaint(uptr_t wParam) { //ElapsedTime et; // Redirect assertions to debug output and save current state bool assertsPopup = Platform::ShowAssertionPopUps(false); paintState = painting; PAINTSTRUCT ps; PAINTSTRUCT *pps; bool IsOcxCtrl = (wParam != 0); // if wParam != 0, it contains // a PAINSTRUCT* from the OCX // Removed since this interferes with reporting other assertions as it occurs repeatedly //PLATFORM_ASSERT(hRgnUpdate == NULL); hRgnUpdate = ::CreateRectRgn(0, 0, 0, 0); if (IsOcxCtrl) { pps = reinterpret_cast(wParam); } else { ::GetUpdateRgn(MainHWND(), hRgnUpdate, FALSE); pps = &ps; ::BeginPaint(MainHWND(), pps); } rcPaint = PRectangle::FromInts(pps->rcPaint.left, pps->rcPaint.top, pps->rcPaint.right, pps->rcPaint.bottom); PRectangle rcClient = GetClientRectangle(); paintingAllText = BoundsContains(rcPaint, hRgnUpdate, rcClient); if (technology == SC_TECHNOLOGY_DEFAULT) { AutoSurface surfaceWindow(pps->hdc, this); if (surfaceWindow) { Paint(surfaceWindow, rcPaint); surfaceWindow->Release(); } } else { #if defined(USE_D2D) EnsureRenderTarget(pps->hdc); AutoSurface surfaceWindow(pRenderTarget, this); if (surfaceWindow) { pRenderTarget->BeginDraw(); Paint(surfaceWindow, rcPaint); surfaceWindow->Release(); HRESULT hr = pRenderTarget->EndDraw(); if (hr == D2DERR_RECREATE_TARGET) { DropRenderTarget(); paintState = paintAbandoned; } } #endif } if (hRgnUpdate) { ::DeleteRgn(hRgnUpdate); hRgnUpdate = 0; } if (!IsOcxCtrl) ::EndPaint(MainHWND(), pps); if (paintState == paintAbandoned) { // Painting area was insufficient to cover new styling or brace highlight positions if (IsOcxCtrl) { FullPaintDC(pps->hdc); } else { FullPaint(); } } paintState = notPainting; // Restore debug output state Platform::ShowAssertionPopUps(assertsPopup); //Platform::DebugPrintf("Paint took %g\n", et.Duration()); return 0l; } sptr_t ScintillaWin::HandleCompositionWindowed(uptr_t wParam, sptr_t lParam) { if (lParam & GCS_RESULTSTR) { HIMC hIMC = ::ImmGetContext(MainHWND()); if (hIMC) { wchar_t wcs[maxLenInputIME]; LONG bytes = ::ImmGetCompositionStringW(hIMC, GCS_RESULTSTR, wcs, (maxLenInputIME-1)*2); int wides = bytes / 2; if (IsUnicodeMode()) { char utfval[maxLenInputIME * 3]; unsigned int len = UTF8Length(wcs, wides); UTF8FromUTF16(wcs, wides, utfval, len); utfval[len] = '\0'; AddCharUTF(utfval, len); } else { char dbcsval[maxLenInputIME * 2]; int size = ::WideCharToMultiByte(InputCodePage(), 0, wcs, wides, dbcsval, sizeof(dbcsval) - 1, 0, 0); for (int i=0; i(pos.x); CompForm.ptCurrentPos.y = static_cast(pos.y); ::ImmSetCompositionWindow(hIMC, &CompForm); ::ImmReleaseContext(MainHWND(), hIMC); } return 0; } return ::DefWindowProc(MainHWND(), WM_IME_COMPOSITION, wParam, lParam); } bool ScintillaWin::KoreanIME() { const int codePage = InputCodePage(); return codePage == 949 || codePage == 1361; } void ScintillaWin::MoveImeCarets(int offset) { // Move carets relatively by bytes. for (size_t r=0; r INDIC_MAX) { return; } pdoc->decorations.SetCurrentIndicator(indicator); for (size_t r=0; rDecorationFillRange(positionInsert - len, 1, len); } } void ScintillaWin::SetCandidateWindowPos() { HIMC hIMC = ::ImmGetContext(MainHWND()); if (hIMC) { Point pos = PointMainCaret(); CANDIDATEFORM CandForm; CandForm.dwIndex = 0; CandForm.dwStyle = CFS_CANDIDATEPOS; CandForm.ptCurrentPos.x = static_cast(pos.x); CandForm.ptCurrentPos.y = static_cast(pos.y + vs.lineHeight); ::ImmSetCandidateWindow(hIMC, &CandForm); ::ImmReleaseContext(MainHWND(), hIMC); } } static std::string StringEncode(std::wstring s, int codePage) { if (s.length()) { int cchMulti = ::WideCharToMultiByte(codePage, 0, s.c_str(), static_cast(s.length()), NULL, 0, NULL, NULL); std::string sMulti(cchMulti, 0); ::WideCharToMultiByte(codePage, 0, s.c_str(), static_cast(s.size()), &sMulti[0], cchMulti, NULL, NULL); return sMulti; } else { return std::string(); } } static std::wstring StringDecode(std::string s, int codePage) { if (s.length()) { int cchWide = ::MultiByteToWideChar(codePage, 0, s.c_str(), static_cast(s.length()), NULL, 0); std::wstring sWide(cchWide, 0); ::MultiByteToWideChar(codePage, 0, s.c_str(), static_cast(s.length()), &sWide[0], cchWide); return sWide; } else { return std::wstring(); } } void ScintillaWin::SelectionToHangul() { // Convert every hanja to hangul within the main range. const int selStart = sel.RangeMain().Start().Position(); const int documentStrLen = sel.RangeMain().Length(); const int selEnd = selStart + documentStrLen; const int utf16Len = pdoc->CountUTF16(selStart, selEnd); if (utf16Len > 0) { std::string documentStr(documentStrLen, '\0'); pdoc->GetCharRange(&documentStr[0], selStart, documentStrLen); std::wstring uniStr = StringDecode(documentStr, CodePageOfDocument()); int converted = HanjaDict::GetHangulOfHanja(&uniStr[0]); documentStr = StringEncode(uniStr, CodePageOfDocument()); if (converted > 0) { pdoc->BeginUndoAction(); ClearSelection(); InsertPaste(&documentStr[0], static_cast(documentStr.size())); pdoc->EndUndoAction(); } } } void ScintillaWin::EscapeHanja() { // The candidate box pops up to user to select a hanja. // It comes into WM_IME_COMPOSITION with GCS_RESULTSTR. // The existing hangul or hanja is replaced with it. if (sel.Count() > 1) { return; // Do not allow multi carets. } int currentPos = CurrentPosition(); int oneCharLen = pdoc->LenChar(currentPos); if (oneCharLen < 2) { return; // No need to handle SBCS. } // ImmEscapeW() may overwrite uniChar[] with a null terminated string. // So enlarge it enough to Maximum 4 as in UTF-8. unsigned int const safeLength = UTF8MaxBytes+1; std::string oneChar(safeLength, '\0'); pdoc->GetCharRange(&oneChar[0], currentPos, oneCharLen); std::wstring uniChar = StringDecode(oneChar, CodePageOfDocument()); HIMC hIMC=ImmGetContext(MainHWND()); if (hIMC) { // Set the candidate box position since IME may show it. SetCandidateWindowPos(); // IME_ESC_HANJA_MODE appears to receive the first character only. if (ImmEscapeW(GetKeyboardLayout(0), hIMC, IME_ESC_HANJA_MODE, &uniChar[0])) { SetSelection (currentPos, currentPos + oneCharLen); } ::ImmReleaseContext(MainHWND(), hIMC); } } void ScintillaWin::ToggleHanja() { // If selection, convert every hanja to hangul within the main range. // If no selection, commit to IME. if (sel.Count() > 1) { return; // Do not allow multi carets. } if (sel.Empty()) { EscapeHanja(); } else { SelectionToHangul(); } } sptr_t ScintillaWin::HandleCompositionInline(uptr_t, sptr_t lParam) { // Copy & paste by johnsonj with a lot of helps of Neil. // Great thanks for my foreruners, jiniya and BLUEnLIVE. HIMC hIMC = ::ImmGetContext(MainHWND()); if (!hIMC) { return 0; } if (pdoc->TentativeActive()) { pdoc->TentativeUndo(); } else { // No tentative undo means start of this composition so // fill in any virtual spaces. FillVirtualSpace(); } view.imeCaretBlockOverride = false; if (lParam & GCS_COMPSTR) { wchar_t wcs[maxLenInputIME] = { 0 }; long bytes = ::ImmGetCompositionStringW (hIMC, GCS_COMPSTR, wcs, maxLenInputIME); unsigned int wcsLen = bytes / 2; if ((wcsLen == 0) || (wcsLen >= maxLenInputIME)) { ShowCaretAtCurrentPosition(); ::ImmReleaseContext(MainHWND(), hIMC); return 0; } pdoc->TentativeStart(); // TentativeActive from now on. // Get attribute information from composition string. BYTE compAttr[maxLenInputIME] = { 0 }; unsigned int imeCursorPos = 0; if (lParam & GCS_COMPATTR) { ImmGetCompositionStringW(hIMC, GCS_COMPATTR, compAttr, sizeof(compAttr)); } if (lParam & GCS_CURSORPOS) { imeCursorPos = ImmGetCompositionStringW(hIMC, GCS_CURSORPOS, NULL, 0); } // Display character by character. int numBytes = 0; int imeCharPos[maxLenInputIME + 1] = { 0 }; bool tmpRecordingMacro = recordingMacro; recordingMacro = false; for (size_t i = 0; i < wcsLen; ) { const size_t ucWidth = UTF16CharLength(wcs[i]); const std::wstring uniChar(wcs+i, ucWidth); char oneChar[UTF8MaxBytes + 1] = "\0\0\0\0"; // Maximum 4 bytes in utf8 unsigned int oneCharLen = 0; if (IsUnicodeMode()) { oneCharLen = UTF8Length(uniChar.c_str(), static_cast(uniChar.length())); UTF8FromUTF16(uniChar.c_str(), static_cast(uniChar.length()), oneChar, oneCharLen); } else { oneCharLen = ::WideCharToMultiByte(InputCodePage(), 0, uniChar.c_str(), static_cast(uniChar.length()), oneChar, sizeof(oneChar)-1, 0, 0); } oneChar[oneCharLen] = '\0'; // Display a character. AddCharUTF(oneChar, oneCharLen); // Record compstr character positions for moving IME carets. numBytes += oneCharLen; imeCharPos[i + 1] = numBytes; // Draw an indicator on the character. int indicator = SC_INDICATOR_UNKNOWN; switch ((int)compAttr[i]) { case ATTR_INPUT: indicator = SC_INDICATOR_INPUT; break; case ATTR_TARGET_NOTCONVERTED: case ATTR_TARGET_CONVERTED: indicator = SC_INDICATOR_TARGET; break; case ATTR_CONVERTED: indicator = SC_INDICATOR_CONVERTED; break; } DrawImeIndicator(indicator, oneCharLen); i += ucWidth; } recordingMacro = tmpRecordingMacro; // Move IME caret position. MoveImeCarets(-imeCharPos[wcsLen] + imeCharPos[imeCursorPos]); if (KoreanIME()) { view.imeCaretBlockOverride = true; } } else if (lParam & GCS_RESULTSTR) { wchar_t wcs[maxLenInputIME] = { 0 }; long bytes = ::ImmGetCompositionStringW (hIMC, GCS_RESULTSTR, wcs, maxLenInputIME); unsigned int wcsLen = bytes / 2; for (size_t i = 0; i < wcsLen;) { const size_t ucWidth = UTF16CharLength(wcs[i]); const std::wstring uniChar(wcs+i, ucWidth); char oneChar[UTF8MaxBytes+1] = "\0\0\0\0"; // Maximum 4 bytes in UTF-8. unsigned int oneCharLen = 0; if (IsUnicodeMode()) { oneCharLen = UTF8Length(uniChar.c_str(), static_cast(uniChar.length())); UTF8FromUTF16(uniChar.c_str(), static_cast(uniChar.length()), oneChar, oneCharLen); } else { oneCharLen = ::WideCharToMultiByte(InputCodePage(), 0, uniChar.c_str(), static_cast(uniChar.length()), oneChar, sizeof(oneChar)-1, 0, 0); } oneChar[oneCharLen] = '\0'; AddCharUTF(oneChar, oneCharLen); i += ucWidth; } } SetCandidateWindowPos(); ShowCaretAtCurrentPosition(); ::ImmReleaseContext(MainHWND(), hIMC); return 0; } // Translate message IDs from WM_* and EM_* to SCI_* so can partly emulate Windows Edit control static unsigned int SciMessageFromEM(unsigned int iMessage) { switch (iMessage) { case EM_CANPASTE: return SCI_CANPASTE; case EM_CANUNDO: return SCI_CANUNDO; case EM_EMPTYUNDOBUFFER: return SCI_EMPTYUNDOBUFFER; case EM_FINDTEXTEX: return SCI_FINDTEXT; case EM_FORMATRANGE: return SCI_FORMATRANGE; case EM_GETFIRSTVISIBLELINE: return SCI_GETFIRSTVISIBLELINE; case EM_GETLINECOUNT: return SCI_GETLINECOUNT; case EM_GETSELTEXT: return SCI_GETSELTEXT; case EM_GETTEXTRANGE: return SCI_GETTEXTRANGE; case EM_HIDESELECTION: return SCI_HIDESELECTION; case EM_LINEINDEX: return SCI_POSITIONFROMLINE; case EM_LINESCROLL: return SCI_LINESCROLL; case EM_REPLACESEL: return SCI_REPLACESEL; case EM_SCROLLCARET: return SCI_SCROLLCARET; case EM_SETREADONLY: return SCI_SETREADONLY; case WM_CLEAR: return SCI_CLEAR; case WM_COPY: return SCI_COPY; case WM_CUT: return SCI_CUT; case WM_SETTEXT: return SCI_SETTEXT; case WM_PASTE: return SCI_PASTE; case WM_UNDO: return SCI_UNDO; } return iMessage; } UINT CodePageFromCharSet(DWORD characterSet, UINT documentCodePage) { if (documentCodePage == SC_CP_UTF8) { return SC_CP_UTF8; } switch (characterSet) { case SC_CHARSET_ANSI: return 1252; case SC_CHARSET_DEFAULT: return documentCodePage; case SC_CHARSET_BALTIC: return 1257; case SC_CHARSET_CHINESEBIG5: return 950; case SC_CHARSET_EASTEUROPE: return 1250; case SC_CHARSET_GB2312: return 936; case SC_CHARSET_GREEK: return 1253; case SC_CHARSET_HANGUL: return 949; case SC_CHARSET_MAC: return 10000; case SC_CHARSET_OEM: return 437; case SC_CHARSET_RUSSIAN: return 1251; case SC_CHARSET_SHIFTJIS: return 932; case SC_CHARSET_TURKISH: return 1254; case SC_CHARSET_JOHAB: return 1361; case SC_CHARSET_HEBREW: return 1255; case SC_CHARSET_ARABIC: return 1256; case SC_CHARSET_VIETNAMESE: return 1258; case SC_CHARSET_THAI: return 874; case SC_CHARSET_8859_15: return 28605; // Not supported case SC_CHARSET_CYRILLIC: return documentCodePage; case SC_CHARSET_SYMBOL: return documentCodePage; } return documentCodePage; } UINT ScintillaWin::CodePageOfDocument() const { return CodePageFromCharSet(vs.styles[STYLE_DEFAULT].characterSet, pdoc->dbcsCodePage); } sptr_t ScintillaWin::GetTextLength() { if (pdoc->Length() == 0) return 0; std::vector docBytes(pdoc->Length(), '\0'); pdoc->GetCharRange(&docBytes[0], 0, pdoc->Length()); if (IsUnicodeMode()) { return UTF16Length(&docBytes[0], static_cast(docBytes.size())); } else { return ::MultiByteToWideChar(CodePageOfDocument(), 0, &docBytes[0], static_cast(docBytes.size()), NULL, 0); } } sptr_t ScintillaWin::GetText(uptr_t wParam, sptr_t lParam) { wchar_t *ptr = reinterpret_cast(lParam); if (pdoc->Length() == 0) { *ptr = L'\0'; return 0; } std::vector docBytes(pdoc->Length(), '\0'); pdoc->GetCharRange(&docBytes[0], 0, pdoc->Length()); if (IsUnicodeMode()) { size_t lengthUTF16 = UTF16Length(&docBytes[0], static_cast(docBytes.size())); if (lParam == 0) return lengthUTF16; if (wParam == 0) return 0; size_t uLen = UTF16FromUTF8(&docBytes[0], docBytes.size(), ptr, static_cast(wParam) - 1); ptr[uLen] = L'\0'; return uLen; } else { // Not Unicode mode // Convert to Unicode using the current Scintilla code page const UINT cpSrc = CodePageOfDocument(); int lengthUTF16 = ::MultiByteToWideChar(cpSrc, 0, &docBytes[0], static_cast(docBytes.size()), NULL, 0); if (lengthUTF16 >= static_cast(wParam)) lengthUTF16 = static_cast(wParam)-1; ::MultiByteToWideChar(cpSrc, 0, &docBytes[0], static_cast(docBytes.size()), ptr, lengthUTF16); ptr[lengthUTF16] = L'\0'; return lengthUTF16; } } sptr_t ScintillaWin::WndProc(unsigned int iMessage, uptr_t wParam, sptr_t lParam) { try { //Platform::DebugPrintf("S M:%x WP:%x L:%x\n", iMessage, wParam, lParam); iMessage = SciMessageFromEM(iMessage); switch (iMessage) { case WM_CREATE: ctrlID = ::GetDlgCtrlID(reinterpret_cast(wMain.GetID())); // Get Intellimouse scroll line parameters GetIntelliMouseParameters(); ::RegisterDragDrop(MainHWND(), reinterpret_cast(&dt)); break; case WM_COMMAND: Command(LoWord(wParam)); break; case WM_PAINT: return WndPaint(wParam); case WM_PRINTCLIENT: { HDC hdc = reinterpret_cast(wParam); if (!IsCompatibleDC(hdc)) { return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } FullPaintDC(hdc); } break; case WM_VSCROLL: ScrollMessage(wParam); break; case WM_HSCROLL: HorizontalScrollMessage(wParam); break; case WM_SIZE: { #if defined(USE_D2D) if (paintState == notPainting) { DropRenderTarget(); } else { renderTargetValid = false; } #endif //Platform::DebugPrintf("Scintilla WM_SIZE %d %d\n", LoWord(lParam), HiWord(lParam)); ChangeSize(); } break; case WM_MOUSEWHEEL: // if autocomplete list active then send mousewheel message to it if (ac.Active()) { HWND hWnd = reinterpret_cast(ac.lb->GetID()); ::SendMessage(hWnd, iMessage, wParam, lParam); break; } // Don't handle datazoom. // (A good idea for datazoom would be to "fold" or "unfold" details. // i.e. if datazoomed out only class structures are visible, when datazooming in the control // structures appear, then eventually the individual statements...) if (wParam & MK_SHIFT) { return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } // Either SCROLL or ZOOM. We handle the wheel steppings calculation wheelDelta -= static_cast(HiWord(wParam)); if (abs(wheelDelta) >= WHEEL_DELTA && linesPerScroll > 0) { int linesToScroll = linesPerScroll; if (linesPerScroll == WHEEL_PAGESCROLL) linesToScroll = LinesOnScreen() - 1; if (linesToScroll == 0) { linesToScroll = 1; } linesToScroll *= (wheelDelta / WHEEL_DELTA); if (wheelDelta >= 0) wheelDelta = wheelDelta % WHEEL_DELTA; else wheelDelta = - (-wheelDelta % WHEEL_DELTA); if (wParam & MK_CONTROL) { // Zoom! We play with the font sizes in the styles. // Number of steps/line is ignored, we just care if sizing up or down if (linesToScroll < 0) { KeyCommand(SCI_ZOOMIN); } else { KeyCommand(SCI_ZOOMOUT); } } else { // Scroll ScrollTo(topLine + linesToScroll); } } return 0; case WM_TIMER: if (wParam == idleTimerID && idler.state) { SendMessage(MainHWND(), SC_WIN_IDLE, 0, 1); } else { TickFor(static_cast(wParam - fineTimerStart)); } break; case SC_WIN_IDLE: // wParam=dwTickCountInitial, or 0 to initialize. lParam=bSkipUserInputTest if (idler.state) { if (lParam || (WAIT_TIMEOUT == MsgWaitForMultipleObjects(0, 0, 0, 0, QS_INPUT|QS_HOTKEY))) { if (Idle()) { // User input was given priority above, but all events do get a turn. Other // messages, notifications, etc. will get interleaved with the idle messages. // However, some things like WM_PAINT are a lower priority, and will not fire // when there's a message posted. So, several times a second, we stop and let // the low priority events have a turn (after which the timer will fire again). DWORD dwCurrent = GetTickCount(); DWORD dwStart = wParam ? static_cast(wParam) : dwCurrent; const DWORD maxWorkTime = 50; if (dwCurrent >= dwStart && dwCurrent > maxWorkTime && dwCurrent - maxWorkTime < dwStart) PostMessage(MainHWND(), SC_WIN_IDLE, dwStart, 0); } else { SetIdle(false); } } } break; case WM_GETMINMAXINFO: return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_LBUTTONDOWN: { // For IME, set the composition string as the result string. HIMC hIMC = ::ImmGetContext(MainHWND()); ::ImmNotifyIME(hIMC, NI_COMPOSITIONSTR, CPS_COMPLETE, 0); ::ImmReleaseContext(MainHWND(), hIMC); // //Platform::DebugPrintf("Buttdown %d %x %x %x %x %x\n",iMessage, wParam, lParam, // Platform::IsKeyDown(VK_SHIFT), // Platform::IsKeyDown(VK_CONTROL), // Platform::IsKeyDown(VK_MENU)); ::SetFocus(MainHWND()); ButtonDown(Point::FromLong(static_cast(lParam)), ::GetMessageTime(), (wParam & MK_SHIFT) != 0, (wParam & MK_CONTROL) != 0, Platform::IsKeyDown(VK_MENU)); } break; case WM_MBUTTONDOWN: ::SetFocus(MainHWND()); break; case WM_MOUSEMOVE: { const Point pt = Point::FromLong(static_cast(lParam)); // Windows might send WM_MOUSEMOVE even though the mouse has not been moved: // http://blogs.msdn.com/b/oldnewthing/archive/2003/10/01/55108.aspx if (ptMouseLast.x != pt.x || ptMouseLast.y != pt.y) { SetTrackMouseLeaveEvent(true); ButtonMoveWithModifiers(pt, ((wParam & MK_SHIFT) != 0 ? SCI_SHIFT : 0) | ((wParam & MK_CONTROL) != 0 ? SCI_CTRL : 0) | (Platform::IsKeyDown(VK_MENU) ? SCI_ALT : 0)); } } break; case WM_MOUSELEAVE: SetTrackMouseLeaveEvent(false); MouseLeave(); return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_LBUTTONUP: ButtonUp(Point::FromLong(static_cast(lParam)), ::GetMessageTime(), (wParam & MK_CONTROL) != 0); break; case WM_RBUTTONDOWN: ::SetFocus(MainHWND()); if (!PointInSelection(Point::FromLong(static_cast(lParam)))) { CancelModes(); SetEmptySelection(PositionFromLocation(Point::FromLong(static_cast(lParam)))); } break; case WM_SETCURSOR: if (LoWord(lParam) == HTCLIENT) { if (inDragDrop == ddDragging) { DisplayCursor(Window::cursorUp); } else { // Display regular (drag) cursor over selection POINT pt; if (0 != ::GetCursorPos(&pt)) { ::ScreenToClient(MainHWND(), &pt); if (PointInSelMargin(PointFromPOINT(pt))) { DisplayCursor(GetMarginCursor(PointFromPOINT(pt))); } else if (PointInSelection(PointFromPOINT(pt)) && !SelectionEmpty()) { DisplayCursor(Window::cursorArrow); } else if (PointIsHotspot(PointFromPOINT(pt))) { DisplayCursor(Window::cursorHand); } else { DisplayCursor(Window::cursorText); } } } return TRUE; } else { return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } case WM_CHAR: if (((wParam >= 128) || !iscntrl(static_cast(wParam))) || !lastKeyDownConsumed) { wchar_t wcs[2] = {static_cast(wParam), 0}; if (IsUnicodeMode()) { // For a wide character version of the window: char utfval[UTF8MaxBytes]; unsigned int len = UTF8Length(wcs, 1); UTF8FromUTF16(wcs, 1, utfval, len); AddCharUTF(utfval, len); } else { UINT cpDest = CodePageOfDocument(); char inBufferCP[20]; int size = ::WideCharToMultiByte(cpDest, 0, wcs, 1, inBufferCP, sizeof(inBufferCP) - 1, 0, 0); inBufferCP[size] = '\0'; AddCharUTF(inBufferCP, size); } } return 0; case WM_UNICHAR: if (wParam == UNICODE_NOCHAR) { return IsUnicodeMode() ? 1 : 0; } else if (lastKeyDownConsumed) { return 1; } else { if (IsUnicodeMode()) { char utfval[UTF8MaxBytes]; wchar_t wcs[2] = {static_cast(wParam), 0}; unsigned int len = UTF8Length(wcs, 1); UTF8FromUTF16(wcs, 1, utfval, len); AddCharUTF(utfval, len); return 1; } else { return 0; } } case WM_SYSKEYDOWN: case WM_KEYDOWN: { //Platform::DebugPrintf("S keydown %d %x %x %x %x\n",iMessage, wParam, lParam, ::IsKeyDown(VK_SHIFT), ::IsKeyDown(VK_CONTROL)); lastKeyDownConsumed = false; int ret = KeyDown(KeyTranslate(static_cast(wParam)), Platform::IsKeyDown(VK_SHIFT), Platform::IsKeyDown(VK_CONTROL), Platform::IsKeyDown(VK_MENU), &lastKeyDownConsumed); if (!ret && !lastKeyDownConsumed) { return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } break; } case WM_IME_KEYDOWN: { if (wParam == VK_HANJA) { ToggleHanja(); } return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } case WM_KEYUP: //Platform::DebugPrintf("S keyup %d %x %x\n",iMessage, wParam, lParam); return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_SETTINGCHANGE: //Platform::DebugPrintf("Setting Changed\n"); InvalidateStyleData(); // Get Intellimouse scroll line parameters GetIntelliMouseParameters(); break; case WM_GETDLGCODE: return DLGC_HASSETSEL | DLGC_WANTALLKEYS; case WM_KILLFOCUS: { HWND wOther = reinterpret_cast(wParam); HWND wThis = MainHWND(); HWND wCT = reinterpret_cast(ct.wCallTip.GetID()); if (!wParam || !(::IsChild(wThis, wOther) || (wOther == wCT))) { SetFocusState(false); DestroySystemCaret(); } // Explicitly complete any IME composition HIMC hIMC = ImmGetContext(MainHWND()); if (hIMC) { ::ImmNotifyIME(hIMC, NI_COMPOSITIONSTR, CPS_COMPLETE, 0); ::ImmReleaseContext(MainHWND(), hIMC); } } break; case WM_SETFOCUS: SetFocusState(true); DestroySystemCaret(); CreateSystemCaret(); break; case WM_SYSCOLORCHANGE: //Platform::DebugPrintf("Setting Changed\n"); InvalidateStyleData(); break; case WM_IME_STARTCOMPOSITION: // dbcs if (KoreanIME() || imeInteraction == imeInline) { return 0; } else { ImeStartComposition(); return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } case WM_IME_ENDCOMPOSITION: // dbcs ImeEndComposition(); return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_IME_COMPOSITION: if (KoreanIME() || imeInteraction == imeInline) { return HandleCompositionInline(wParam, lParam); } else { return HandleCompositionWindowed(wParam, lParam); } case WM_CONTEXTMENU: if (displayPopupMenu) { Point pt = Point::FromLong(static_cast(lParam)); if ((pt.x == -1) && (pt.y == -1)) { // Caused by keyboard so display menu near caret pt = PointMainCaret(); POINT spt = {static_cast(pt.x), static_cast(pt.y)}; ::ClientToScreen(MainHWND(), &spt); pt = PointFromPOINT(spt); } ContextMenu(pt); return 0; } return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_INPUTLANGCHANGE: //::SetThreadLocale(LOWORD(lParam)); return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_INPUTLANGCHANGEREQUEST: return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_ERASEBKGND: return 1; // Avoid any background erasure as whole window painted. case WM_CAPTURECHANGED: capturedMouse = false; return 0; case WM_IME_SETCONTEXT: if (KoreanIME() || imeInteraction == imeInline) { if (wParam) { LPARAM NoImeWin = lParam; NoImeWin = NoImeWin & (~ISC_SHOWUICOMPOSITIONWINDOW); return ::DefWindowProc(MainHWND(), iMessage, wParam, NoImeWin); } } return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); // These are not handled in Scintilla and its faster to dispatch them here. // Also moves time out to here so profile doesn't count lots of empty message calls. case WM_MOVE: case WM_MOUSEACTIVATE: case WM_NCHITTEST: case WM_NCCALCSIZE: case WM_NCPAINT: case WM_NCMOUSEMOVE: case WM_NCLBUTTONDOWN: case WM_IME_NOTIFY: case WM_SYSCOMMAND: case WM_WINDOWPOSCHANGING: case WM_WINDOWPOSCHANGED: return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); case WM_GETTEXTLENGTH: return GetTextLength(); case WM_GETTEXT: return GetText(wParam, lParam); case EM_LINEFROMCHAR: if (static_cast(wParam) < 0) { wParam = SelectionStart().Position(); } return pdoc->LineFromPosition(static_cast(wParam)); case EM_EXLINEFROMCHAR: return pdoc->LineFromPosition(static_cast(lParam)); case EM_GETSEL: if (wParam) { *reinterpret_cast(wParam) = SelectionStart().Position(); } if (lParam) { *reinterpret_cast(lParam) = SelectionEnd().Position(); } return MAKELONG(SelectionStart().Position(), SelectionEnd().Position()); case EM_EXGETSEL: { if (lParam == 0) { return 0; } Sci_CharacterRange *pCR = reinterpret_cast(lParam); pCR->cpMin = SelectionStart().Position(); pCR->cpMax = SelectionEnd().Position(); } break; case EM_SETSEL: { int nStart = static_cast(wParam); int nEnd = static_cast(lParam); if (nStart == 0 && nEnd == -1) { nEnd = pdoc->Length(); } if (nStart == -1) { nStart = nEnd; // Remove selection } if (nStart > nEnd) { SetSelection(nEnd, nStart); } else { SetSelection(nStart, nEnd); } EnsureCaretVisible(); } break; case EM_EXSETSEL: { if (lParam == 0) { return 0; } Sci_CharacterRange *pCR = reinterpret_cast(lParam); sel.selType = Selection::selStream; if (pCR->cpMin == 0 && pCR->cpMax == -1) { SetSelection(pCR->cpMin, pdoc->Length()); } else { SetSelection(pCR->cpMin, pCR->cpMax); } EnsureCaretVisible(); return pdoc->LineFromPosition(SelectionStart().Position()); } case SCI_GETDIRECTFUNCTION: return reinterpret_cast(DirectFunction); case SCI_GETDIRECTPOINTER: return reinterpret_cast(this); case SCI_GRABFOCUS: ::SetFocus(MainHWND()); break; #ifdef INCLUDE_DEPRECATED_FEATURES case SCI_SETKEYSUNICODE: break; case SCI_GETKEYSUNICODE: return true; #endif case SCI_SETTECHNOLOGY: if ((wParam == SC_TECHNOLOGY_DEFAULT) || (wParam == SC_TECHNOLOGY_DIRECTWRITERETAIN) || (wParam == SC_TECHNOLOGY_DIRECTWRITEDC) || (wParam == SC_TECHNOLOGY_DIRECTWRITE)) { if (technology != static_cast(wParam)) { if (static_cast(wParam) > SC_TECHNOLOGY_DEFAULT) { #if defined(USE_D2D) if (!LoadD2D()) // Failed to load Direct2D or DirectWrite so no effect return 0; #else return 0; #endif } #if defined(USE_D2D) DropRenderTarget(); #endif technology = static_cast(wParam); // Invalidate all cached information including layout. DropGraphics(true); InvalidateStyleRedraw(); } } break; #ifdef SCI_LEXER case SCI_LOADLEXERLIBRARY: LexerManager::GetInstance()->Load(reinterpret_cast(lParam)); break; #endif case SCI_TARGETASUTF8: return TargetAsUTF8(reinterpret_cast(lParam)); case SCI_ENCODEDFROMUTF8: return EncodedFromUTF8(reinterpret_cast(wParam), reinterpret_cast(lParam)); default: return ScintillaBase::WndProc(iMessage, wParam, lParam); } } catch (std::bad_alloc &) { errorStatus = SC_STATUS_BADALLOC; } catch (...) { errorStatus = SC_STATUS_FAILURE; } return 0l; } bool ScintillaWin::ValidCodePage(int codePage) const { return codePage == 0 || codePage == SC_CP_UTF8 || codePage == 932 || codePage == 936 || codePage == 949 || codePage == 950 || codePage == 1361; } sptr_t ScintillaWin::DefWndProc(unsigned int iMessage, uptr_t wParam, sptr_t lParam) { return ::DefWindowProc(MainHWND(), iMessage, wParam, lParam); } /** * Report that this Editor subclass has a working implementation of FineTickerStart. */ bool ScintillaWin::FineTickerAvailable() { return true; } bool ScintillaWin::FineTickerRunning(TickReason reason) { return timers[reason] != 0; } void ScintillaWin::FineTickerStart(TickReason reason, int millis, int tolerance) { FineTickerCancel(reason); if (SetCoalescableTimerFn && tolerance) { timers[reason] = SetCoalescableTimerFn(MainHWND(), fineTimerStart + reason, millis, NULL, tolerance); } else { timers[reason] = ::SetTimer(MainHWND(), fineTimerStart + reason, millis, NULL); } } void ScintillaWin::FineTickerCancel(TickReason reason) { if (timers[reason]) { ::KillTimer(MainHWND(), timers[reason]); timers[reason] = 0; } } bool ScintillaWin::SetIdle(bool on) { // On Win32 the Idler is implemented as a Timer on the Scintilla window. This // takes advantage of the fact that WM_TIMER messages are very low priority, // and are only posted when the message queue is empty, i.e. during idle time. if (idler.state != on) { if (on) { idler.idlerID = ::SetTimer(MainHWND(), idleTimerID, 10, NULL) ? reinterpret_cast(idleTimerID) : 0; } else { ::KillTimer(MainHWND(), reinterpret_cast(idler.idlerID)); idler.idlerID = 0; } idler.state = idler.idlerID != 0; } return idler.state; } void ScintillaWin::SetMouseCapture(bool on) { if (mouseDownCaptures) { if (on) { ::SetCapture(MainHWND()); } else { ::ReleaseCapture(); } } capturedMouse = on; } bool ScintillaWin::HaveMouseCapture() { // Cannot just see if GetCapture is this window as the scroll bar also sets capture for the window return capturedMouse; //return capturedMouse && (::GetCapture() == MainHWND()); } void ScintillaWin::SetTrackMouseLeaveEvent(bool on) { if (on && TrackMouseEventFn && !trackedMouseLeave) { TRACKMOUSEEVENT tme; tme.cbSize = sizeof(tme); tme.dwFlags = TME_LEAVE; tme.hwndTrack = MainHWND(); tme.dwHoverTime = HOVER_DEFAULT; // Unused but triggers Dr. Memory if not initialized TrackMouseEventFn(&tme); } trackedMouseLeave = on; } bool ScintillaWin::PaintContains(PRectangle rc) { if (paintState == painting) { return BoundsContains(rcPaint, hRgnUpdate, rc); } return true; } void ScintillaWin::ScrollText(int /* linesToMove */) { //Platform::DebugPrintf("ScintillaWin::ScrollText %d\n", linesToMove); //::ScrollWindow(MainHWND(), 0, // vs.lineHeight * linesToMove, 0, 0); //::UpdateWindow(MainHWND()); Redraw(); UpdateSystemCaret(); } void ScintillaWin::UpdateSystemCaret() { if (hasFocus) { if (HasCaretSizeChanged()) { DestroySystemCaret(); CreateSystemCaret(); } Point pos = PointMainCaret(); ::SetCaretPos(static_cast(pos.x), static_cast(pos.y)); } } int ScintillaWin::SetScrollInfo(int nBar, LPCSCROLLINFO lpsi, BOOL bRedraw) { return ::SetScrollInfo(MainHWND(), nBar, lpsi, bRedraw); } bool ScintillaWin::GetScrollInfo(int nBar, LPSCROLLINFO lpsi) { return ::GetScrollInfo(MainHWND(), nBar, lpsi) ? true : false; } // Change the scroll position but avoid repaint if changing to same value void ScintillaWin::ChangeScrollPos(int barType, int pos) { SCROLLINFO sci = { sizeof(sci), 0, 0, 0, 0, 0, 0 }; sci.fMask = SIF_POS; GetScrollInfo(barType, &sci); if (sci.nPos != pos) { DwellEnd(true); sci.nPos = pos; SetScrollInfo(barType, &sci, TRUE); } } void ScintillaWin::SetVerticalScrollPos() { ChangeScrollPos(SB_VERT, topLine); } void ScintillaWin::SetHorizontalScrollPos() { ChangeScrollPos(SB_HORZ, xOffset); } bool ScintillaWin::ModifyScrollBars(int nMax, int nPage) { bool modified = false; SCROLLINFO sci = { sizeof(sci), 0, 0, 0, 0, 0, 0 }; sci.fMask = SIF_PAGE | SIF_RANGE; GetScrollInfo(SB_VERT, &sci); int vertEndPreferred = nMax; if (!verticalScrollBarVisible) nPage = vertEndPreferred + 1; if ((sci.nMin != 0) || (sci.nMax != vertEndPreferred) || (sci.nPage != static_cast(nPage)) || (sci.nPos != 0)) { sci.fMask = SIF_PAGE | SIF_RANGE; sci.nMin = 0; sci.nMax = vertEndPreferred; sci.nPage = nPage; sci.nPos = 0; sci.nTrackPos = 1; SetScrollInfo(SB_VERT, &sci, TRUE); modified = true; } PRectangle rcText = GetTextRectangle(); int horizEndPreferred = scrollWidth; if (horizEndPreferred < 0) horizEndPreferred = 0; unsigned int pageWidth = static_cast(rcText.Width()); if (!horizontalScrollBarVisible || Wrapping()) pageWidth = horizEndPreferred + 1; sci.fMask = SIF_PAGE | SIF_RANGE; GetScrollInfo(SB_HORZ, &sci); if ((sci.nMin != 0) || (sci.nMax != horizEndPreferred) || (sci.nPage != pageWidth) || (sci.nPos != 0)) { sci.fMask = SIF_PAGE | SIF_RANGE; sci.nMin = 0; sci.nMax = horizEndPreferred; sci.nPage = pageWidth; sci.nPos = 0; sci.nTrackPos = 1; SetScrollInfo(SB_HORZ, &sci, TRUE); modified = true; if (scrollWidth < static_cast(pageWidth)) { HorizontalScrollTo(0); } } return modified; } void ScintillaWin::NotifyChange() { ::SendMessage(::GetParent(MainHWND()), WM_COMMAND, MAKELONG(GetCtrlID(), SCEN_CHANGE), reinterpret_cast(MainHWND())); } void ScintillaWin::NotifyFocus(bool focus) { ::SendMessage(::GetParent(MainHWND()), WM_COMMAND, MAKELONG(GetCtrlID(), focus ? SCEN_SETFOCUS : SCEN_KILLFOCUS), reinterpret_cast(MainHWND())); Editor::NotifyFocus(focus); } void ScintillaWin::SetCtrlID(int identifier) { ::SetWindowID(reinterpret_cast(wMain.GetID()), identifier); } int ScintillaWin::GetCtrlID() { return ::GetDlgCtrlID(reinterpret_cast(wMain.GetID())); } void ScintillaWin::NotifyParent(SCNotification scn) { scn.nmhdr.hwndFrom = MainHWND(); scn.nmhdr.idFrom = GetCtrlID(); ::SendMessage(::GetParent(MainHWND()), WM_NOTIFY, GetCtrlID(), reinterpret_cast(&scn)); } void ScintillaWin::NotifyDoubleClick(Point pt, int modifiers) { //Platform::DebugPrintf("ScintillaWin Double click 0\n"); ScintillaBase::NotifyDoubleClick(pt, modifiers); // Send myself a WM_LBUTTONDBLCLK, so the container can handle it too. ::SendMessage(MainHWND(), WM_LBUTTONDBLCLK, (modifiers & SCI_SHIFT) ? MK_SHIFT : 0, MAKELPARAM(pt.x, pt.y)); } class CaseFolderDBCS : public CaseFolderTable { // Allocate the expandable storage here so that it does not need to be reallocated // for each call to Fold. std::vector utf16Mixed; std::vector utf16Folded; UINT cp; public: explicit CaseFolderDBCS(UINT cp_) : cp(cp_) { StandardASCII(); } virtual size_t Fold(char *folded, size_t sizeFolded, const char *mixed, size_t lenMixed) { if ((lenMixed == 1) && (sizeFolded > 0)) { folded[0] = mapping[static_cast(mixed[0])]; return 1; } else { if (lenMixed > utf16Mixed.size()) { utf16Mixed.resize(lenMixed + 8); } size_t nUtf16Mixed = ::MultiByteToWideChar(cp, 0, mixed, static_cast(lenMixed), &utf16Mixed[0], static_cast(utf16Mixed.size())); if (nUtf16Mixed == 0) { // Failed to convert -> bad input folded[0] = '\0'; return 1; } unsigned int lenFlat = 0; for (size_t mixIndex=0; mixIndex < nUtf16Mixed; mixIndex++) { if ((lenFlat + 20) > utf16Folded.size()) utf16Folded.resize(lenFlat + 60); const char *foldedUTF8 = CaseConvert(utf16Mixed[mixIndex], CaseConversionFold); if (foldedUTF8) { // Maximum length of a case conversion is 6 bytes, 3 characters wchar_t wFolded[20]; size_t charsConverted = UTF16FromUTF8(foldedUTF8, strlen(foldedUTF8), wFolded, ELEMENTS(wFolded)); for (size_t j=0; j(lenOut), NULL, 0); return lenOut; } else { return 0; } } } }; CaseFolder *ScintillaWin::CaseFolderForEncoding() { UINT cpDest = CodePageOfDocument(); if (cpDest == SC_CP_UTF8) { return new CaseFolderUnicode(); } else { if (pdoc->dbcsCodePage == 0) { CaseFolderTable *pcf = new CaseFolderTable(); pcf->StandardASCII(); // Only for single byte encodings UINT cpDoc = CodePageOfDocument(); for (int i=0x80; i<0x100; i++) { char sCharacter[2] = "A"; sCharacter[0] = static_cast(i); wchar_t wCharacter[20]; unsigned int lengthUTF16 = ::MultiByteToWideChar(cpDoc, 0, sCharacter, 1, wCharacter, ELEMENTS(wCharacter)); if (lengthUTF16 == 1) { const char *caseFolded = CaseConvert(wCharacter[0], CaseConversionFold); if (caseFolded) { wchar_t wLower[20]; size_t charsConverted = UTF16FromUTF8(caseFolded, strlen(caseFolded), wLower, ELEMENTS(wLower)); if (charsConverted == 1) { char sCharacterLowered[20]; unsigned int lengthConverted = ::WideCharToMultiByte(cpDoc, 0, wLower, static_cast(charsConverted), sCharacterLowered, ELEMENTS(sCharacterLowered), NULL, 0); if ((lengthConverted == 1) && (sCharacter[0] != sCharacterLowered[0])) { pcf->SetTranslation(sCharacter[0], sCharacterLowered[0]); } } } } } return pcf; } else { return new CaseFolderDBCS(cpDest); } } } std::string ScintillaWin::CaseMapString(const std::string &s, int caseMapping) { if ((s.size() == 0) || (caseMapping == cmSame)) return s; UINT cpDoc = CodePageOfDocument(); if (cpDoc == SC_CP_UTF8) { std::string retMapped(s.length() * maxExpansionCaseConversion, 0); size_t lenMapped = CaseConvertString(&retMapped[0], retMapped.length(), s.c_str(), s.length(), (caseMapping == cmUpper) ? CaseConversionUpper : CaseConversionLower); retMapped.resize(lenMapped); return retMapped; } unsigned int lengthUTF16 = ::MultiByteToWideChar(cpDoc, 0, s.c_str(), static_cast(s.size()), NULL, 0); if (lengthUTF16 == 0) // Failed to convert return s; DWORD mapFlags = LCMAP_LINGUISTIC_CASING | ((caseMapping == cmUpper) ? LCMAP_UPPERCASE : LCMAP_LOWERCASE); // Change text to UTF-16 std::vector vwcText(lengthUTF16); ::MultiByteToWideChar(cpDoc, 0, s.c_str(), static_cast(s.size()), &vwcText[0], lengthUTF16); // Change case int charsConverted = ::LCMapStringW(LOCALE_SYSTEM_DEFAULT, mapFlags, &vwcText[0], lengthUTF16, NULL, 0); std::vector vwcConverted(charsConverted); ::LCMapStringW(LOCALE_SYSTEM_DEFAULT, mapFlags, &vwcText[0], lengthUTF16, &vwcConverted[0], charsConverted); // Change back to document encoding unsigned int lengthConverted = ::WideCharToMultiByte(cpDoc, 0, &vwcConverted[0], static_cast(vwcConverted.size()), NULL, 0, NULL, 0); std::vector vcConverted(lengthConverted); ::WideCharToMultiByte(cpDoc, 0, &vwcConverted[0], static_cast(vwcConverted.size()), &vcConverted[0], static_cast(vcConverted.size()), NULL, 0); return std::string(&vcConverted[0], vcConverted.size()); } void ScintillaWin::Copy() { //Platform::DebugPrintf("Copy\n"); if (!sel.Empty()) { SelectionText selectedText; CopySelectionRange(&selectedText); CopyToClipboard(selectedText); } } void ScintillaWin::CopyAllowLine() { SelectionText selectedText; CopySelectionRange(&selectedText, true); CopyToClipboard(selectedText); } bool ScintillaWin::CanPaste() { if (!Editor::CanPaste()) return false; if (::IsClipboardFormatAvailable(CF_TEXT)) return true; if (IsUnicodeMode()) return ::IsClipboardFormatAvailable(CF_UNICODETEXT) != 0; return false; } class GlobalMemory { HGLOBAL hand; public: void *ptr; GlobalMemory() : hand(0), ptr(0) { } explicit GlobalMemory(HGLOBAL hand_) : hand(hand_), ptr(0) { if (hand) { ptr = ::GlobalLock(hand); } } ~GlobalMemory() { PLATFORM_ASSERT(!ptr); assert(!hand); } void Allocate(size_t bytes) { assert(!hand); hand = ::GlobalAlloc(GMEM_MOVEABLE | GMEM_ZEROINIT, bytes); if (hand) { ptr = ::GlobalLock(hand); } } HGLOBAL Unlock() { PLATFORM_ASSERT(ptr); HGLOBAL handCopy = hand; ::GlobalUnlock(hand); ptr = 0; hand = 0; return handCopy; } void SetClip(UINT uFormat) { ::SetClipboardData(uFormat, Unlock()); } operator bool() const { return ptr != 0; } SIZE_T Size() { return ::GlobalSize(hand); } }; void ScintillaWin::Paste() { if (!::OpenClipboard(MainHWND())) return; UndoGroup ug(pdoc); const bool isLine = SelectionEmpty() && (::IsClipboardFormatAvailable(cfLineSelect) || ::IsClipboardFormatAvailable(cfVSLineTag)); ClearSelection(multiPasteMode == SC_MULTIPASTE_EACH); bool isRectangular = (::IsClipboardFormatAvailable(cfColumnSelect) != 0); if (!isRectangular) { // Evaluate "Borland IDE Block Type" explicitly GlobalMemory memBorlandSelection(::GetClipboardData(cfBorlandIDEBlockType)); if (memBorlandSelection) { isRectangular = (memBorlandSelection.Size() == 1) && (static_cast(memBorlandSelection.ptr)[0] == 0x02); memBorlandSelection.Unlock(); } } const PasteShape pasteShape = isRectangular ? pasteRectangular : (isLine ? pasteLine : pasteStream); // Always use CF_UNICODETEXT if available GlobalMemory memUSelection(::GetClipboardData(CF_UNICODETEXT)); if (memUSelection) { wchar_t *uptr = static_cast(memUSelection.ptr); if (uptr) { unsigned int len; std::vector putf; // Default Scintilla behaviour in Unicode mode if (IsUnicodeMode()) { unsigned int bytes = static_cast(memUSelection.Size()); len = UTF8Length(uptr, bytes / 2); putf.resize(len + 1); UTF8FromUTF16(uptr, bytes / 2, &putf[0], len); } else { // CF_UNICODETEXT available, but not in Unicode mode // Convert from Unicode to current Scintilla code page UINT cpDest = CodePageOfDocument(); len = ::WideCharToMultiByte(cpDest, 0, uptr, -1, NULL, 0, NULL, NULL) - 1; // subtract 0 terminator putf.resize(len + 1); ::WideCharToMultiByte(cpDest, 0, uptr, -1, &putf[0], len + 1, NULL, NULL); } InsertPasteShape(&putf[0], len, pasteShape); } memUSelection.Unlock(); } else { // CF_UNICODETEXT not available, paste ANSI text GlobalMemory memSelection(::GetClipboardData(CF_TEXT)); if (memSelection) { char *ptr = static_cast(memSelection.ptr); if (ptr) { unsigned int bytes = static_cast(memSelection.Size()); unsigned int len = bytes; for (unsigned int i = 0; i < bytes; i++) { if ((len == bytes) && (0 == ptr[i])) len = i; } // In Unicode mode, convert clipboard text to UTF-8 if (IsUnicodeMode()) { std::vector uptr(len+1); unsigned int ulen = ::MultiByteToWideChar(CP_ACP, 0, ptr, len, &uptr[0], len+1); unsigned int mlen = UTF8Length(&uptr[0], ulen); std::vector putf(mlen+1); UTF8FromUTF16(&uptr[0], ulen, &putf[0], mlen); InsertPasteShape(&putf[0], mlen, pasteShape); } else { InsertPasteShape(ptr, len, pasteShape); } } memSelection.Unlock(); } } ::CloseClipboard(); Redraw(); } void ScintillaWin::CreateCallTipWindow(PRectangle) { if (!ct.wCallTip.Created()) { ct.wCallTip = ::CreateWindow(callClassName, TEXT("ACallTip"), WS_POPUP, 100, 100, 150, 20, MainHWND(), 0, GetWindowInstance(MainHWND()), this); ct.wDraw = ct.wCallTip; } } void ScintillaWin::AddToPopUp(const char *label, int cmd, bool enabled) { HMENU hmenuPopup = reinterpret_cast(popup.GetID()); if (!label[0]) ::AppendMenuA(hmenuPopup, MF_SEPARATOR, 0, ""); else if (enabled) ::AppendMenuA(hmenuPopup, MF_STRING, cmd, label); else ::AppendMenuA(hmenuPopup, MF_STRING | MF_DISABLED | MF_GRAYED, cmd, label); } void ScintillaWin::ClaimSelection() { // Windows does not have a primary selection } /// Implement IUnknown STDMETHODIMP_(ULONG)FormatEnumerator_AddRef(FormatEnumerator *fe); STDMETHODIMP FormatEnumerator_QueryInterface(FormatEnumerator *fe, REFIID riid, PVOID *ppv) { //Platform::DebugPrintf("EFE QI"); *ppv = NULL; if (riid == IID_IUnknown) *ppv = reinterpret_cast(fe); if (riid == IID_IEnumFORMATETC) *ppv = reinterpret_cast(fe); if (!*ppv) return E_NOINTERFACE; FormatEnumerator_AddRef(fe); return S_OK; } STDMETHODIMP_(ULONG)FormatEnumerator_AddRef(FormatEnumerator *fe) { return ++fe->ref; } STDMETHODIMP_(ULONG)FormatEnumerator_Release(FormatEnumerator *fe) { fe->ref--; if (fe->ref > 0) return fe->ref; delete fe; return 0; } /// Implement IEnumFORMATETC STDMETHODIMP FormatEnumerator_Next(FormatEnumerator *fe, ULONG celt, FORMATETC *rgelt, ULONG *pceltFetched) { if (rgelt == NULL) return E_POINTER; unsigned int putPos = 0; while ((fe->pos < fe->formats.size()) && (putPos < celt)) { rgelt->cfFormat = fe->formats[fe->pos]; rgelt->ptd = 0; rgelt->dwAspect = DVASPECT_CONTENT; rgelt->lindex = -1; rgelt->tymed = TYMED_HGLOBAL; rgelt++; fe->pos++; putPos++; } if (pceltFetched) *pceltFetched = putPos; return putPos ? S_OK : S_FALSE; } STDMETHODIMP FormatEnumerator_Skip(FormatEnumerator *fe, ULONG celt) { fe->pos += celt; return S_OK; } STDMETHODIMP FormatEnumerator_Reset(FormatEnumerator *fe) { fe->pos = 0; return S_OK; } STDMETHODIMP FormatEnumerator_Clone(FormatEnumerator *fe, IEnumFORMATETC **ppenum) { FormatEnumerator *pfe; try { pfe = new FormatEnumerator(fe->pos, &fe->formats[0], fe->formats.size()); } catch (...) { return E_OUTOFMEMORY; } return FormatEnumerator_QueryInterface(pfe, IID_IEnumFORMATETC, reinterpret_cast(ppenum)); } static VFunction *vtFormatEnumerator[] = { (VFunction *)(FormatEnumerator_QueryInterface), (VFunction *)(FormatEnumerator_AddRef), (VFunction *)(FormatEnumerator_Release), (VFunction *)(FormatEnumerator_Next), (VFunction *)(FormatEnumerator_Skip), (VFunction *)(FormatEnumerator_Reset), (VFunction *)(FormatEnumerator_Clone) }; FormatEnumerator::FormatEnumerator(int pos_, CLIPFORMAT formats_[], size_t formatsLen_) { vtbl = vtFormatEnumerator; ref = 0; // First QI adds first reference... pos = pos_; formats.insert(formats.begin(), formats_, formats_+formatsLen_); } /// Implement IUnknown STDMETHODIMP DropSource_QueryInterface(DropSource *ds, REFIID riid, PVOID *ppv) { return ds->sci->QueryInterface(riid, ppv); } STDMETHODIMP_(ULONG)DropSource_AddRef(DropSource *ds) { return ds->sci->AddRef(); } STDMETHODIMP_(ULONG)DropSource_Release(DropSource *ds) { return ds->sci->Release(); } /// Implement IDropSource STDMETHODIMP DropSource_QueryContinueDrag(DropSource *, BOOL fEsc, DWORD grfKeyState) { if (fEsc) return DRAGDROP_S_CANCEL; if (!(grfKeyState & MK_LBUTTON)) return DRAGDROP_S_DROP; return S_OK; } STDMETHODIMP DropSource_GiveFeedback(DropSource *, DWORD) { return DRAGDROP_S_USEDEFAULTCURSORS; } static VFunction *vtDropSource[] = { (VFunction *)(DropSource_QueryInterface), (VFunction *)(DropSource_AddRef), (VFunction *)(DropSource_Release), (VFunction *)(DropSource_QueryContinueDrag), (VFunction *)(DropSource_GiveFeedback) }; DropSource::DropSource() { vtbl = vtDropSource; sci = 0; } /// Implement IUnkown STDMETHODIMP DataObject_QueryInterface(DataObject *pd, REFIID riid, PVOID *ppv) { //Platform::DebugPrintf("DO QI %x\n", pd); return pd->sci->QueryInterface(riid, ppv); } STDMETHODIMP_(ULONG)DataObject_AddRef(DataObject *pd) { return pd->sci->AddRef(); } STDMETHODIMP_(ULONG)DataObject_Release(DataObject *pd) { return pd->sci->Release(); } /// Implement IDataObject STDMETHODIMP DataObject_GetData(DataObject *pd, FORMATETC *pFEIn, STGMEDIUM *pSTM) { return pd->sci->GetData(pFEIn, pSTM); } STDMETHODIMP DataObject_GetDataHere(DataObject *, FORMATETC *, STGMEDIUM *) { //Platform::DebugPrintf("DOB GetDataHere\n"); return E_NOTIMPL; } STDMETHODIMP DataObject_QueryGetData(DataObject *pd, FORMATETC *pFE) { if (pd->sci->DragIsRectangularOK(pFE->cfFormat) && pFE->ptd == 0 && (pFE->dwAspect & DVASPECT_CONTENT) != 0 && pFE->lindex == -1 && (pFE->tymed & TYMED_HGLOBAL) != 0 ) { return S_OK; } bool formatOK = (pFE->cfFormat == CF_TEXT) || ((pFE->cfFormat == CF_UNICODETEXT) && pd->sci->IsUnicodeMode()); if (!formatOK || pFE->ptd != 0 || (pFE->dwAspect & DVASPECT_CONTENT) == 0 || pFE->lindex != -1 || (pFE->tymed & TYMED_HGLOBAL) == 0 ) { //Platform::DebugPrintf("DOB QueryGetData No %x\n",pFE->cfFormat); //return DATA_E_FORMATETC; return S_FALSE; } //Platform::DebugPrintf("DOB QueryGetData OK %x\n",pFE->cfFormat); return S_OK; } STDMETHODIMP DataObject_GetCanonicalFormatEtc(DataObject *pd, FORMATETC *, FORMATETC *pFEOut) { //Platform::DebugPrintf("DOB GetCanon\n"); if (pd->sci->IsUnicodeMode()) pFEOut->cfFormat = CF_UNICODETEXT; else pFEOut->cfFormat = CF_TEXT; pFEOut->ptd = 0; pFEOut->dwAspect = DVASPECT_CONTENT; pFEOut->lindex = -1; pFEOut->tymed = TYMED_HGLOBAL; return S_OK; } STDMETHODIMP DataObject_SetData(DataObject *, FORMATETC *, STGMEDIUM *, BOOL) { //Platform::DebugPrintf("DOB SetData\n"); return E_FAIL; } STDMETHODIMP DataObject_EnumFormatEtc(DataObject *pd, DWORD dwDirection, IEnumFORMATETC **ppEnum) { try { //Platform::DebugPrintf("DOB EnumFormatEtc %d\n", dwDirection); if (dwDirection != DATADIR_GET) { *ppEnum = 0; return E_FAIL; } FormatEnumerator *pfe; if (pd->sci->IsUnicodeMode()) { CLIPFORMAT formats[] = {CF_UNICODETEXT, CF_TEXT}; pfe = new FormatEnumerator(0, formats, ELEMENTS(formats)); } else { CLIPFORMAT formats[] = {CF_TEXT}; pfe = new FormatEnumerator(0, formats, ELEMENTS(formats)); } return FormatEnumerator_QueryInterface(pfe, IID_IEnumFORMATETC, reinterpret_cast(ppEnum)); } catch (std::bad_alloc &) { pd->sci->errorStatus = SC_STATUS_BADALLOC; return E_OUTOFMEMORY; } catch (...) { pd->sci->errorStatus = SC_STATUS_FAILURE; return E_FAIL; } } STDMETHODIMP DataObject_DAdvise(DataObject *, FORMATETC *, DWORD, IAdviseSink *, PDWORD) { //Platform::DebugPrintf("DOB DAdvise\n"); return E_FAIL; } STDMETHODIMP DataObject_DUnadvise(DataObject *, DWORD) { //Platform::DebugPrintf("DOB DUnadvise\n"); return E_FAIL; } STDMETHODIMP DataObject_EnumDAdvise(DataObject *, IEnumSTATDATA **) { //Platform::DebugPrintf("DOB EnumDAdvise\n"); return E_FAIL; } static VFunction *vtDataObject[] = { (VFunction *)(DataObject_QueryInterface), (VFunction *)(DataObject_AddRef), (VFunction *)(DataObject_Release), (VFunction *)(DataObject_GetData), (VFunction *)(DataObject_GetDataHere), (VFunction *)(DataObject_QueryGetData), (VFunction *)(DataObject_GetCanonicalFormatEtc), (VFunction *)(DataObject_SetData), (VFunction *)(DataObject_EnumFormatEtc), (VFunction *)(DataObject_DAdvise), (VFunction *)(DataObject_DUnadvise), (VFunction *)(DataObject_EnumDAdvise) }; DataObject::DataObject() { vtbl = vtDataObject; sci = 0; } /// Implement IUnknown STDMETHODIMP DropTarget_QueryInterface(DropTarget *dt, REFIID riid, PVOID *ppv) { //Platform::DebugPrintf("DT QI %x\n", dt); return dt->sci->QueryInterface(riid, ppv); } STDMETHODIMP_(ULONG)DropTarget_AddRef(DropTarget *dt) { return dt->sci->AddRef(); } STDMETHODIMP_(ULONG)DropTarget_Release(DropTarget *dt) { return dt->sci->Release(); } /// Implement IDropTarget by forwarding to Scintilla STDMETHODIMP DropTarget_DragEnter(DropTarget *dt, LPDATAOBJECT pIDataSource, DWORD grfKeyState, POINTL pt, PDWORD pdwEffect) { try { return dt->sci->DragEnter(pIDataSource, grfKeyState, pt, pdwEffect); } catch (...) { dt->sci->errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } STDMETHODIMP DropTarget_DragOver(DropTarget *dt, DWORD grfKeyState, POINTL pt, PDWORD pdwEffect) { try { return dt->sci->DragOver(grfKeyState, pt, pdwEffect); } catch (...) { dt->sci->errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } STDMETHODIMP DropTarget_DragLeave(DropTarget *dt) { try { return dt->sci->DragLeave(); } catch (...) { dt->sci->errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } STDMETHODIMP DropTarget_Drop(DropTarget *dt, LPDATAOBJECT pIDataSource, DWORD grfKeyState, POINTL pt, PDWORD pdwEffect) { try { return dt->sci->Drop(pIDataSource, grfKeyState, pt, pdwEffect); } catch (...) { dt->sci->errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } static VFunction *vtDropTarget[] = { (VFunction *)(DropTarget_QueryInterface), (VFunction *)(DropTarget_AddRef), (VFunction *)(DropTarget_Release), (VFunction *)(DropTarget_DragEnter), (VFunction *)(DropTarget_DragOver), (VFunction *)(DropTarget_DragLeave), (VFunction *)(DropTarget_Drop) }; DropTarget::DropTarget() { vtbl = vtDropTarget; sci = 0; } /** * DBCS: support Input Method Editor (IME). * Called when IME Window opened. */ void ScintillaWin::ImeStartComposition() { if (caret.active) { // Move IME Window to current caret position HIMC hIMC = ::ImmGetContext(MainHWND()); Point pos = PointMainCaret(); COMPOSITIONFORM CompForm; CompForm.dwStyle = CFS_POINT; CompForm.ptCurrentPos.x = static_cast(pos.x); CompForm.ptCurrentPos.y = static_cast(pos.y); ::ImmSetCompositionWindow(hIMC, &CompForm); // Set font of IME window to same as surrounded text. if (stylesValid) { // Since the style creation code has been made platform independent, // The logfont for the IME is recreated here. int styleHere = (pdoc->StyleAt(sel.MainCaret())) & 31; LOGFONTW lf = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, L""}; int sizeZoomed = vs.styles[styleHere].size + vs.zoomLevel * SC_FONT_SIZE_MULTIPLIER; if (sizeZoomed <= 2 * SC_FONT_SIZE_MULTIPLIER) // Hangs if sizeZoomed <= 1 sizeZoomed = 2 * SC_FONT_SIZE_MULTIPLIER; AutoSurface surface(this); int deviceHeight = sizeZoomed; if (surface) { deviceHeight = (sizeZoomed * surface->LogPixelsY()) / 72; } // The negative is to allow for leading lf.lfHeight = -(abs(deviceHeight / SC_FONT_SIZE_MULTIPLIER)); lf.lfWeight = vs.styles[styleHere].weight; lf.lfItalic = static_cast(vs.styles[styleHere].italic ? 1 : 0); lf.lfCharSet = DEFAULT_CHARSET; lf.lfFaceName[0] = L'\0'; if (vs.styles[styleHere].fontName) { const char* fontName = vs.styles[styleHere].fontName; UTF16FromUTF8(fontName, strlen(fontName)+1, lf.lfFaceName, LF_FACESIZE); } ::ImmSetCompositionFontW(hIMC, &lf); } ::ImmReleaseContext(MainHWND(), hIMC); // Caret is displayed in IME window. So, caret in Scintilla is useless. DropCaret(); } } /** Called when IME Window closed. */ void ScintillaWin::ImeEndComposition() { ShowCaretAtCurrentPosition(); } void ScintillaWin::GetIntelliMouseParameters() { // This retrieves the number of lines per scroll as configured inthe Mouse Properties sheet in Control Panel ::SystemParametersInfo(SPI_GETWHEELSCROLLLINES, 0, &linesPerScroll, 0); } void ScintillaWin::CopyToClipboard(const SelectionText &selectedText) { if (!::OpenClipboard(MainHWND())) return; ::EmptyClipboard(); GlobalMemory uniText; // Default Scintilla behaviour in Unicode mode if (IsUnicodeMode()) { size_t uchars = UTF16Length(selectedText.Data(), static_cast(selectedText.LengthWithTerminator())); uniText.Allocate(2 * uchars); if (uniText) { UTF16FromUTF8(selectedText.Data(), selectedText.LengthWithTerminator(), static_cast(uniText.ptr), uchars); } } else { // Not Unicode mode // Convert to Unicode using the current Scintilla code page UINT cpSrc = CodePageFromCharSet( selectedText.characterSet, selectedText.codePage); int uLen = ::MultiByteToWideChar(cpSrc, 0, selectedText.Data(), static_cast(selectedText.LengthWithTerminator()), 0, 0); uniText.Allocate(2 * uLen); if (uniText) { ::MultiByteToWideChar(cpSrc, 0, selectedText.Data(), static_cast(selectedText.LengthWithTerminator()), static_cast(uniText.ptr), uLen); } } if (uniText) { uniText.SetClip(CF_UNICODETEXT); } else { // There was a failure - try to copy at least ANSI text GlobalMemory ansiText; ansiText.Allocate(selectedText.LengthWithTerminator()); if (ansiText) { memcpy(static_cast(ansiText.ptr), selectedText.Data(), selectedText.LengthWithTerminator()); ansiText.SetClip(CF_TEXT); } } if (selectedText.rectangular) { ::SetClipboardData(cfColumnSelect, 0); GlobalMemory borlandSelection; borlandSelection.Allocate(1); if (borlandSelection) { static_cast(borlandSelection.ptr)[0] = 0x02; borlandSelection.SetClip(cfBorlandIDEBlockType); } } if (selectedText.lineCopy) { ::SetClipboardData(cfLineSelect, 0); ::SetClipboardData(cfVSLineTag, 0); } ::CloseClipboard(); } void ScintillaWin::ScrollMessage(WPARAM wParam) { //DWORD dwStart = timeGetTime(); //Platform::DebugPrintf("Scroll %x %d\n", wParam, lParam); SCROLLINFO sci = {}; sci.cbSize = sizeof(sci); sci.fMask = SIF_ALL; GetScrollInfo(SB_VERT, &sci); //Platform::DebugPrintf("ScrollInfo %d mask=%x min=%d max=%d page=%d pos=%d track=%d\n", b,sci.fMask, //sci.nMin, sci.nMax, sci.nPage, sci.nPos, sci.nTrackPos); int topLineNew = topLine; switch (LoWord(wParam)) { case SB_LINEUP: topLineNew -= 1; break; case SB_LINEDOWN: topLineNew += 1; break; case SB_PAGEUP: topLineNew -= LinesToScroll(); break; case SB_PAGEDOWN: topLineNew += LinesToScroll(); break; case SB_TOP: topLineNew = 0; break; case SB_BOTTOM: topLineNew = MaxScrollPos(); break; case SB_THUMBPOSITION: topLineNew = sci.nTrackPos; break; case SB_THUMBTRACK: topLineNew = sci.nTrackPos; break; } ScrollTo(topLineNew); } void ScintillaWin::HorizontalScrollMessage(WPARAM wParam) { int xPos = xOffset; PRectangle rcText = GetTextRectangle(); int pageWidth = static_cast(rcText.Width() * 2 / 3); switch (LoWord(wParam)) { case SB_LINEUP: xPos -= 20; break; case SB_LINEDOWN: // May move past the logical end xPos += 20; break; case SB_PAGEUP: xPos -= pageWidth; break; case SB_PAGEDOWN: xPos += pageWidth; if (xPos > scrollWidth - rcText.Width()) { // Hit the end exactly xPos = scrollWidth - static_cast(rcText.Width()); } break; case SB_TOP: xPos = 0; break; case SB_BOTTOM: xPos = scrollWidth; break; case SB_THUMBPOSITION: case SB_THUMBTRACK: { // Do NOT use wParam, its 16 bit and not enough for very long lines. Its still possible to overflow the 32 bit but you have to try harder =] SCROLLINFO si; si.cbSize = sizeof(si); si.fMask = SIF_TRACKPOS; if (GetScrollInfo(SB_HORZ, &si)) { xPos = si.nTrackPos; } } break; } HorizontalScrollTo(xPos); } /** * Redraw all of text area. * This paint will not be abandoned. */ void ScintillaWin::FullPaint() { if ((technology == SC_TECHNOLOGY_DEFAULT) || (technology == SC_TECHNOLOGY_DIRECTWRITEDC)) { HDC hdc = ::GetDC(MainHWND()); FullPaintDC(hdc); ::ReleaseDC(MainHWND(), hdc); } else { FullPaintDC(0); } } /** * Redraw all of text area on the specified DC. * This paint will not be abandoned. */ void ScintillaWin::FullPaintDC(HDC hdc) { paintState = painting; rcPaint = GetClientRectangle(); paintingAllText = true; if (technology == SC_TECHNOLOGY_DEFAULT) { AutoSurface surfaceWindow(hdc, this); if (surfaceWindow) { Paint(surfaceWindow, rcPaint); surfaceWindow->Release(); } } else { #if defined(USE_D2D) EnsureRenderTarget(hdc); AutoSurface surfaceWindow(pRenderTarget, this); if (surfaceWindow) { pRenderTarget->BeginDraw(); Paint(surfaceWindow, rcPaint); surfaceWindow->Release(); HRESULT hr = pRenderTarget->EndDraw(); if (hr == D2DERR_RECREATE_TARGET) { DropRenderTarget(); } } #endif } paintState = notPainting; } static bool CompareDevCap(HDC hdc, HDC hOtherDC, int nIndex) { return ::GetDeviceCaps(hdc, nIndex) == ::GetDeviceCaps(hOtherDC, nIndex); } bool ScintillaWin::IsCompatibleDC(HDC hOtherDC) { HDC hdc = ::GetDC(MainHWND()); bool isCompatible = CompareDevCap(hdc, hOtherDC, TECHNOLOGY) && CompareDevCap(hdc, hOtherDC, LOGPIXELSY) && CompareDevCap(hdc, hOtherDC, LOGPIXELSX) && CompareDevCap(hdc, hOtherDC, BITSPIXEL) && CompareDevCap(hdc, hOtherDC, PLANES); ::ReleaseDC(MainHWND(), hdc); return isCompatible; } DWORD ScintillaWin::EffectFromState(DWORD grfKeyState) const { // These are the Wordpad semantics. DWORD dwEffect; if (inDragDrop == ddDragging) // Internal defaults to move dwEffect = DROPEFFECT_MOVE; else dwEffect = DROPEFFECT_COPY; if (grfKeyState & MK_ALT) dwEffect = DROPEFFECT_MOVE; if (grfKeyState & MK_CONTROL) dwEffect = DROPEFFECT_COPY; return dwEffect; } /// Implement IUnknown STDMETHODIMP ScintillaWin::QueryInterface(REFIID riid, PVOID *ppv) { *ppv = NULL; if (riid == IID_IUnknown) *ppv = reinterpret_cast(&dt); if (riid == IID_IDropSource) *ppv = reinterpret_cast(&ds); if (riid == IID_IDropTarget) *ppv = reinterpret_cast(&dt); if (riid == IID_IDataObject) *ppv = reinterpret_cast(&dob); if (!*ppv) return E_NOINTERFACE; return S_OK; } STDMETHODIMP_(ULONG) ScintillaWin::AddRef() { return 1; } STDMETHODIMP_(ULONG) ScintillaWin::Release() { return 1; } /// Implement IDropTarget STDMETHODIMP ScintillaWin::DragEnter(LPDATAOBJECT pIDataSource, DWORD grfKeyState, POINTL, PDWORD pdwEffect) { if (pIDataSource == NULL) return E_POINTER; FORMATETC fmtu = {CF_UNICODETEXT, NULL, DVASPECT_CONTENT, -1, TYMED_HGLOBAL }; HRESULT hrHasUText = pIDataSource->QueryGetData(&fmtu); hasOKText = (hrHasUText == S_OK); if (!hasOKText) { FORMATETC fmte = {CF_TEXT, NULL, DVASPECT_CONTENT, -1, TYMED_HGLOBAL }; HRESULT hrHasText = pIDataSource->QueryGetData(&fmte); hasOKText = (hrHasText == S_OK); } if (!hasOKText) { *pdwEffect = DROPEFFECT_NONE; return S_OK; } *pdwEffect = EffectFromState(grfKeyState); return S_OK; } STDMETHODIMP ScintillaWin::DragOver(DWORD grfKeyState, POINTL pt, PDWORD pdwEffect) { try { if (!hasOKText || pdoc->IsReadOnly()) { *pdwEffect = DROPEFFECT_NONE; return S_OK; } *pdwEffect = EffectFromState(grfKeyState); // Update the cursor. POINT rpt = {pt.x, pt.y}; ::ScreenToClient(MainHWND(), &rpt); SetDragPosition(SPositionFromLocation(PointFromPOINT(rpt), false, false, UserVirtualSpace())); return S_OK; } catch (...) { errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } STDMETHODIMP ScintillaWin::DragLeave() { try { SetDragPosition(SelectionPosition(invalidPosition)); return S_OK; } catch (...) { errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } STDMETHODIMP ScintillaWin::Drop(LPDATAOBJECT pIDataSource, DWORD grfKeyState, POINTL pt, PDWORD pdwEffect) { try { *pdwEffect = EffectFromState(grfKeyState); if (pIDataSource == NULL) return E_POINTER; SetDragPosition(SelectionPosition(invalidPosition)); STGMEDIUM medium = {0, {0}, 0}; std::vector data; // Includes terminating NUL FORMATETC fmtu = {CF_UNICODETEXT, NULL, DVASPECT_CONTENT, -1, TYMED_HGLOBAL }; HRESULT hr = pIDataSource->GetData(&fmtu, &medium); if (SUCCEEDED(hr) && medium.hGlobal) { GlobalMemory memUDrop(medium.hGlobal); wchar_t *udata = static_cast(memUDrop.ptr); if (udata) { if (IsUnicodeMode()) { int tlen = static_cast(memUDrop.Size()); // Convert UTF-16 to UTF-8 int dataLen = UTF8Length(udata, tlen/2); data.resize(dataLen+1); UTF8FromUTF16(udata, tlen/2, &data[0], dataLen); } else { // Convert UTF-16 to ANSI // // Default Scintilla behavior in Unicode mode // CF_UNICODETEXT available, but not in Unicode mode // Convert from Unicode to current Scintilla code page UINT cpDest = CodePageOfDocument(); int tlen = ::WideCharToMultiByte(cpDest, 0, udata, -1, NULL, 0, NULL, NULL) - 1; // subtract 0 terminator data.resize(tlen + 1); ::WideCharToMultiByte(cpDest, 0, udata, -1, &data[0], tlen + 1, NULL, NULL); } } memUDrop.Unlock(); } else { FORMATETC fmte = {CF_TEXT, NULL, DVASPECT_CONTENT, -1, TYMED_HGLOBAL }; hr = pIDataSource->GetData(&fmte, &medium); if (SUCCEEDED(hr) && medium.hGlobal) { GlobalMemory memDrop(medium.hGlobal); const char *cdata = static_cast(memDrop.ptr); if (cdata) data.assign(cdata, cdata+strlen(cdata)+1); memDrop.Unlock(); } } if (!SUCCEEDED(hr) || data.empty()) { //Platform::DebugPrintf("Bad data format: 0x%x\n", hres); return hr; } FORMATETC fmtr = {cfColumnSelect, NULL, DVASPECT_CONTENT, -1, TYMED_HGLOBAL}; HRESULT hrRectangular = pIDataSource->QueryGetData(&fmtr); POINT rpt = {pt.x, pt.y}; ::ScreenToClient(MainHWND(), &rpt); SelectionPosition movePos = SPositionFromLocation(PointFromPOINT(rpt), false, false, UserVirtualSpace()); DropAt(movePos, &data[0], data.size() - 1, *pdwEffect == DROPEFFECT_MOVE, hrRectangular == S_OK); // Free data if (medium.pUnkForRelease != NULL) medium.pUnkForRelease->Release(); else ::GlobalFree(medium.hGlobal); return S_OK; } catch (...) { errorStatus = SC_STATUS_FAILURE; } return E_FAIL; } /// Implement important part of IDataObject STDMETHODIMP ScintillaWin::GetData(FORMATETC *pFEIn, STGMEDIUM *pSTM) { bool formatOK = (pFEIn->cfFormat == CF_TEXT) || ((pFEIn->cfFormat == CF_UNICODETEXT) && IsUnicodeMode()); if (!formatOK || pFEIn->ptd != 0 || (pFEIn->dwAspect & DVASPECT_CONTENT) == 0 || pFEIn->lindex != -1 || (pFEIn->tymed & TYMED_HGLOBAL) == 0 ) { //Platform::DebugPrintf("DOB GetData No %d %x %x fmt=%x\n", lenDrag, pFEIn, pSTM, pFEIn->cfFormat); return DATA_E_FORMATETC; } pSTM->tymed = TYMED_HGLOBAL; //Platform::DebugPrintf("DOB GetData OK %d %x %x\n", lenDrag, pFEIn, pSTM); GlobalMemory text; if (pFEIn->cfFormat == CF_UNICODETEXT) { size_t uchars = UTF16Length(drag.Data(), static_cast(drag.LengthWithTerminator())); text.Allocate(2 * uchars); if (text) { UTF16FromUTF8(drag.Data(), drag.LengthWithTerminator(), static_cast(text.ptr), uchars); } } else { text.Allocate(drag.LengthWithTerminator()); if (text) { memcpy(static_cast(text.ptr), drag.Data(), drag.LengthWithTerminator()); } } pSTM->hGlobal = text ? text.Unlock() : 0; pSTM->pUnkForRelease = 0; return S_OK; } bool ScintillaWin::Register(HINSTANCE hInstance_) { hInstance = hInstance_; bool result; // Register the Scintilla class // Register Scintilla as a wide character window WNDCLASSEXW wndclass; wndclass.cbSize = sizeof(wndclass); wndclass.style = CS_GLOBALCLASS | CS_HREDRAW | CS_VREDRAW; wndclass.lpfnWndProc = ScintillaWin::SWndProc; wndclass.cbClsExtra = 0; wndclass.cbWndExtra = sizeof(ScintillaWin *); wndclass.hInstance = hInstance; wndclass.hIcon = NULL; wndclass.hCursor = NULL; wndclass.hbrBackground = NULL; wndclass.lpszMenuName = NULL; wndclass.lpszClassName = L"Scintilla"; wndclass.hIconSm = 0; scintillaClassAtom = ::RegisterClassExW(&wndclass); result = 0 != scintillaClassAtom; if (result) { // Register the CallTip class WNDCLASSEX wndclassc; wndclassc.cbSize = sizeof(wndclassc); wndclassc.style = CS_GLOBALCLASS | CS_HREDRAW | CS_VREDRAW; wndclassc.cbClsExtra = 0; wndclassc.cbWndExtra = sizeof(ScintillaWin *); wndclassc.hInstance = hInstance; wndclassc.hIcon = NULL; wndclassc.hbrBackground = NULL; wndclassc.lpszMenuName = NULL; wndclassc.lpfnWndProc = ScintillaWin::CTWndProc; wndclassc.hCursor = ::LoadCursor(NULL, IDC_ARROW); wndclassc.lpszClassName = callClassName; wndclassc.hIconSm = 0; callClassAtom = ::RegisterClassEx(&wndclassc); result = 0 != callClassAtom; } return result; } bool ScintillaWin::Unregister() { bool result = true; if (0 != scintillaClassAtom) { if (::UnregisterClass(MAKEINTATOM(scintillaClassAtom), hInstance) == 0) { result = false; } scintillaClassAtom = 0; } if (0 != callClassAtom) { if (::UnregisterClass(MAKEINTATOM(callClassAtom), hInstance) == 0) { result = false; } callClassAtom = 0; } return result; } bool ScintillaWin::HasCaretSizeChanged() const { if ( ( (0 != vs.caretWidth) && (sysCaretWidth != vs.caretWidth) ) || ((0 != vs.lineHeight) && (sysCaretHeight != vs.lineHeight)) ) { return true; } return false; } BOOL ScintillaWin::CreateSystemCaret() { sysCaretWidth = vs.caretWidth; if (0 == sysCaretWidth) { sysCaretWidth = 1; } sysCaretHeight = vs.lineHeight; int bitmapSize = (((sysCaretWidth + 15) & ~15) >> 3) * sysCaretHeight; std::vector bits(bitmapSize); sysCaretBitmap = ::CreateBitmap(sysCaretWidth, sysCaretHeight, 1, 1, reinterpret_cast(&bits[0])); BOOL retval = ::CreateCaret( MainHWND(), sysCaretBitmap, sysCaretWidth, sysCaretHeight); if (technology == SC_TECHNOLOGY_DEFAULT) { // System caret interferes with Direct2D drawing so only show it for GDI. ::ShowCaret(MainHWND()); } return retval; } BOOL ScintillaWin::DestroySystemCaret() { ::HideCaret(MainHWND()); BOOL retval = ::DestroyCaret(); if (sysCaretBitmap) { ::DeleteObject(sysCaretBitmap); sysCaretBitmap = 0; } return retval; } sptr_t PASCAL ScintillaWin::CTWndProc( HWND hWnd, UINT iMessage, WPARAM wParam, sptr_t lParam) { // Find C++ object associated with window. ScintillaWin *sciThis = reinterpret_cast(PointerFromWindow(hWnd)); try { // ctp will be zero if WM_CREATE not seen yet if (sciThis == 0) { if (iMessage == WM_CREATE) { // Associate CallTip object with window CREATESTRUCT *pCreate = reinterpret_cast(lParam); SetWindowPointer(hWnd, pCreate->lpCreateParams); return 0; } else { return ::DefWindowProc(hWnd, iMessage, wParam, lParam); } } else { if (iMessage == WM_NCDESTROY) { ::SetWindowLong(hWnd, 0, 0); return ::DefWindowProc(hWnd, iMessage, wParam, lParam); } else if (iMessage == WM_PAINT) { PAINTSTRUCT ps; ::BeginPaint(hWnd, &ps); Surface *surfaceWindow = Surface::Allocate(sciThis->technology); if (surfaceWindow) { #if defined(USE_D2D) ID2D1HwndRenderTarget *pCTRenderTarget = 0; #endif RECT rc; GetClientRect(hWnd, &rc); // Create a Direct2D render target. if (sciThis->technology == SC_TECHNOLOGY_DEFAULT) { surfaceWindow->Init(ps.hdc, hWnd); } else { #if defined(USE_D2D) D2D1_HWND_RENDER_TARGET_PROPERTIES dhrtp; dhrtp.hwnd = hWnd; dhrtp.pixelSize = D2D1::SizeU(rc.right - rc.left, rc.bottom - rc.top); dhrtp.presentOptions = (sciThis->technology == SC_TECHNOLOGY_DIRECTWRITERETAIN) ? D2D1_PRESENT_OPTIONS_RETAIN_CONTENTS : D2D1_PRESENT_OPTIONS_NONE; D2D1_RENDER_TARGET_PROPERTIES drtp; drtp.type = D2D1_RENDER_TARGET_TYPE_DEFAULT; drtp.pixelFormat.format = DXGI_FORMAT_UNKNOWN; drtp.pixelFormat.alphaMode = D2D1_ALPHA_MODE_UNKNOWN; drtp.dpiX = 96.0; drtp.dpiY = 96.0; drtp.usage = D2D1_RENDER_TARGET_USAGE_NONE; drtp.minLevel = D2D1_FEATURE_LEVEL_DEFAULT; if (!SUCCEEDED(pD2DFactory->CreateHwndRenderTarget(drtp, dhrtp, &pCTRenderTarget))) { surfaceWindow->Release(); delete surfaceWindow; ::EndPaint(hWnd, &ps); return 0; } surfaceWindow->Init(pCTRenderTarget, hWnd); pCTRenderTarget->BeginDraw(); #endif } surfaceWindow->SetUnicodeMode(SC_CP_UTF8 == sciThis->ct.codePage); surfaceWindow->SetDBCSMode(sciThis->ct.codePage); sciThis->ct.PaintCT(surfaceWindow); #if defined(USE_D2D) if (pCTRenderTarget) pCTRenderTarget->EndDraw(); #endif surfaceWindow->Release(); delete surfaceWindow; #if defined(USE_D2D) if (pCTRenderTarget) pCTRenderTarget->Release(); #endif } ::EndPaint(hWnd, &ps); return 0; } else if ((iMessage == WM_NCLBUTTONDOWN) || (iMessage == WM_NCLBUTTONDBLCLK)) { POINT pt; pt.x = static_cast(LOWORD(lParam)); pt.y = static_cast(HIWORD(lParam)); ScreenToClient(hWnd, &pt); sciThis->ct.MouseClick(PointFromPOINT(pt)); sciThis->CallTipClick(); return 0; } else if (iMessage == WM_LBUTTONDOWN) { // This does not fire due to the hit test code sciThis->ct.MouseClick(Point::FromLong(static_cast(lParam))); sciThis->CallTipClick(); return 0; } else if (iMessage == WM_SETCURSOR) { ::SetCursor(::LoadCursor(NULL, IDC_ARROW)); return 0; } else if (iMessage == WM_NCHITTEST) { return HTCAPTION; } else { return ::DefWindowProc(hWnd, iMessage, wParam, lParam); } } } catch (...) { sciThis->errorStatus = SC_STATUS_FAILURE; } return ::DefWindowProc(hWnd, iMessage, wParam, lParam); } sptr_t ScintillaWin::DirectFunction( sptr_t ptr, UINT iMessage, uptr_t wParam, sptr_t lParam) { PLATFORM_ASSERT(::GetCurrentThreadId() == ::GetWindowThreadProcessId(reinterpret_cast(ptr)->MainHWND(), NULL)); return reinterpret_cast(ptr)->WndProc(iMessage, wParam, lParam); } extern "C" #ifndef STATIC_BUILD __declspec(dllexport) #endif sptr_t __stdcall Scintilla_DirectFunction( ScintillaWin *sci, UINT iMessage, uptr_t wParam, sptr_t lParam) { return sci->WndProc(iMessage, wParam, lParam); } sptr_t PASCAL ScintillaWin::SWndProc( HWND hWnd, UINT iMessage, WPARAM wParam, sptr_t lParam) { //Platform::DebugPrintf("S W:%x M:%x WP:%x L:%x\n", hWnd, iMessage, wParam, lParam); // Find C++ object associated with window. ScintillaWin *sci = reinterpret_cast(PointerFromWindow(hWnd)); // sci will be zero if WM_CREATE not seen yet if (sci == 0) { try { if (iMessage == WM_CREATE) { // Create C++ object associated with window sci = new ScintillaWin(hWnd); SetWindowPointer(hWnd, sci); return sci->WndProc(iMessage, wParam, lParam); } } catch (...) { } return ::DefWindowProc(hWnd, iMessage, wParam, lParam); } else { if (iMessage == WM_NCDESTROY) { try { sci->Finalise(); delete sci; } catch (...) { } ::SetWindowLong(hWnd, 0, 0); return ::DefWindowProc(hWnd, iMessage, wParam, lParam); } else { return sci->WndProc(iMessage, wParam, lParam); } } } // This function is externally visible so it can be called from container when building statically. // Must be called once only. int Scintilla_RegisterClasses(void *hInstance) { Platform_Initialise(hInstance); bool result = ScintillaWin::Register(reinterpret_cast(hInstance)); #ifdef SCI_LEXER Scintilla_LinkLexers(); #endif return result; } static int ResourcesRelease(bool fromDllMain) { bool result = ScintillaWin::Unregister(); if (commctrl32) { FreeLibrary(commctrl32); commctrl32 = NULL; } Platform_Finalise(fromDllMain); return result; } // This function is externally visible so it can be called from container when building statically. int Scintilla_ReleaseResources() { return ResourcesRelease(false); } #ifndef STATIC_BUILD extern "C" int APIENTRY DllMain(HINSTANCE hInstance, DWORD dwReason, LPVOID lpvReserved) { //Platform::DebugPrintf("Scintilla::DllMain %d %d\n", hInstance, dwReason); if (dwReason == DLL_PROCESS_ATTACH) { if (!Scintilla_RegisterClasses(hInstance)) return FALSE; } else if (dwReason == DLL_PROCESS_DETACH) { if (lpvReserved == NULL) { ResourcesRelease(true); } } return TRUE; } #endif