/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sts=2 sw=2 et cin: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifdef MOZ_LOGGING #define FORCE_PR_LOG /* Allow logging in the release build */ #endif // MOZ_LOGGING #include "prlog.h" #include "nsIMM32Handler.h" #include "nsWindow.h" #include "WinUtils.h" #include "KeyboardLayout.h" #include using namespace mozilla::widget; static nsIMM32Handler* gIMM32Handler = nullptr; #ifdef PR_LOGGING PRLogModuleInfo* gIMM32Log = nullptr; #endif static UINT sWM_MSIME_MOUSE = 0; // mouse message for MSIME 98/2000 //------------------------------------------------------------------------- // // from http://download.microsoft.com/download/6/0/9/60908e9e-d2c1-47db-98f6-216af76a235f/msime.h // The document for this has been removed from MSDN... // //------------------------------------------------------------------------- #define RWM_MOUSE TEXT("MSIMEMouseOperation") #define IMEMOUSE_NONE 0x00 // no mouse button was pushed #define IMEMOUSE_LDOWN 0x01 #define IMEMOUSE_RDOWN 0x02 #define IMEMOUSE_MDOWN 0x04 #define IMEMOUSE_WUP 0x10 // wheel up #define IMEMOUSE_WDOWN 0x20 // wheel down bool nsIMM32Handler::sIsIME = true; bool nsIMM32Handler::sIsIMEOpening = false; UINT nsIMM32Handler::sCodePage = 0; DWORD nsIMM32Handler::sIMEProperty = 0; /* static */ void nsIMM32Handler::EnsureHandlerInstance() { if (!gIMM32Handler) { gIMM32Handler = new nsIMM32Handler(); } } /* static */ void nsIMM32Handler::Initialize() { #ifdef PR_LOGGING if (!gIMM32Log) gIMM32Log = PR_NewLogModule("nsIMM32HandlerWidgets"); #endif if (!sWM_MSIME_MOUSE) { sWM_MSIME_MOUSE = ::RegisterWindowMessage(RWM_MOUSE); } InitKeyboardLayout(::GetKeyboardLayout(0)); } /* static */ void nsIMM32Handler::Terminate() { if (!gIMM32Handler) return; delete gIMM32Handler; gIMM32Handler = nullptr; } /* static */ bool nsIMM32Handler::IsComposingOnOurEditor() { return gIMM32Handler && gIMM32Handler->mIsComposing; } /* static */ bool nsIMM32Handler::IsComposingOnPlugin() { return gIMM32Handler && gIMM32Handler->mIsComposingOnPlugin; } /* static */ bool nsIMM32Handler::IsComposingWindow(nsWindow* aWindow) { return gIMM32Handler && gIMM32Handler->mComposingWindow == aWindow; } /* static */ bool nsIMM32Handler::IsTopLevelWindowOfComposition(nsWindow* aWindow) { if (!gIMM32Handler || !gIMM32Handler->mComposingWindow) { return false; } HWND wnd = gIMM32Handler->mComposingWindow->GetWindowHandle(); return WinUtils::GetTopLevelHWND(wnd, true) == aWindow->GetWindowHandle(); } /* static */ bool nsIMM32Handler::ShouldDrawCompositionStringOurselves() { // If current IME has special UI or its composition window should not // positioned to caret position, we should now draw composition string // ourselves. return !(sIMEProperty & IME_PROP_SPECIAL_UI) && (sIMEProperty & IME_PROP_AT_CARET); } /* static */ void nsIMM32Handler::InitKeyboardLayout(HKL aKeyboardLayout) { WORD langID = LOWORD(aKeyboardLayout); ::GetLocaleInfoW(MAKELCID(langID, SORT_DEFAULT), LOCALE_IDEFAULTANSICODEPAGE | LOCALE_RETURN_NUMBER, (PWSTR)&sCodePage, sizeof(sCodePage) / sizeof(WCHAR)); sIMEProperty = ::ImmGetProperty(aKeyboardLayout, IGP_PROPERTY); sIsIME = ::ImmIsIME(aKeyboardLayout); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: InitKeyboardLayout, aKeyboardLayout=%08x, sCodePage=%lu, sIMEProperty=%08x sIsIME=%s\n", aKeyboardLayout, sCodePage, sIMEProperty, sIsIME ? "TRUE" : "FALSE")); } /* static */ UINT nsIMM32Handler::GetKeyboardCodePage() { return sCodePage; } /* static */ bool nsIMM32Handler::CanOptimizeKeyAndIMEMessages() { // If IME is opening right now, we shouldn't optimize the key and IME message // order because ATOK (Japanese IME of third party) has some problem with the // optimization. When it finishes opening completely, it eats all key // messages in the message queue. And it causes starting composition. So, // we shouldn't eat the key messages before ATOK. return !sIsIMEOpening; } // used for checking the lParam of WM_IME_COMPOSITION #define IS_COMPOSING_LPARAM(lParam) \ ((lParam) & (GCS_COMPSTR | GCS_COMPATTR | GCS_COMPCLAUSE | GCS_CURSORPOS)) #define IS_COMMITTING_LPARAM(lParam) ((lParam) & GCS_RESULTSTR) // Some IMEs (e.g., the standard IME for Korean) don't have caret position, // then, we should not set caret position to text event. #define NO_IME_CARET -1 nsIMM32Handler::nsIMM32Handler() : mComposingWindow(nullptr), mCursorPosition(NO_IME_CARET), mCompositionStart(0), mIsComposing(false), mIsComposingOnPlugin(false), mNativeCaretIsCreated(false) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: nsIMM32Handler is created\n")); } nsIMM32Handler::~nsIMM32Handler() { if (mIsComposing) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: ~nsIMM32Handler, ERROR, the instance is still composing\n")); } PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: nsIMM32Handler is destroyed\n")); } nsresult nsIMM32Handler::EnsureClauseArray(int32_t aCount) { NS_ENSURE_ARG_MIN(aCount, 0); if (!mClauseArray.SetCapacity(aCount + 32)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: EnsureClauseArray, aCount=%ld, FAILED to allocate\n", aCount)); return NS_ERROR_OUT_OF_MEMORY; } return NS_OK; } nsresult nsIMM32Handler::EnsureAttributeArray(int32_t aCount) { NS_ENSURE_ARG_MIN(aCount, 0); if (!mAttributeArray.SetCapacity(aCount + 64)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: EnsureAttributeArray, aCount=%ld, FAILED to allocate\n", aCount)); return NS_ERROR_OUT_OF_MEMORY; } return NS_OK; } /* static */ void nsIMM32Handler::CommitComposition(nsWindow* aWindow, bool aForce) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: CommitComposition, aForce=%s, aWindow=%p, hWnd=%08x, mComposingWindow=%p%s\n", aForce ? "TRUE" : "FALSE", aWindow, aWindow->GetWindowHandle(), gIMM32Handler ? gIMM32Handler->mComposingWindow : nullptr, gIMM32Handler && gIMM32Handler->mComposingWindow ? IsComposingOnOurEditor() ? " (composing on editor)" : " (composing on plug-in)" : "")); if (!aForce && !IsComposingWindow(aWindow)) { return; } nsIMEContext IMEContext(aWindow->GetWindowHandle()); bool associated = IMEContext.AssociateDefaultContext(); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: CommitComposition, associated=%s\n", associated ? "YES" : "NO")); if (IMEContext.IsValid()) { ::ImmNotifyIME(IMEContext.get(), NI_COMPOSITIONSTR, CPS_COMPLETE, 0); ::ImmNotifyIME(IMEContext.get(), NI_COMPOSITIONSTR, CPS_CANCEL, 0); } if (associated) { IMEContext.Disassociate(); } } /* static */ void nsIMM32Handler::CancelComposition(nsWindow* aWindow, bool aForce) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: CancelComposition, aForce=%s, aWindow=%p, hWnd=%08x, mComposingWindow=%p%s\n", aForce ? "TRUE" : "FALSE", aWindow, aWindow->GetWindowHandle(), gIMM32Handler ? gIMM32Handler->mComposingWindow : nullptr, gIMM32Handler && gIMM32Handler->mComposingWindow ? IsComposingOnOurEditor() ? " (composing on editor)" : " (composing on plug-in)" : "")); if (!aForce && !IsComposingWindow(aWindow)) { return; } nsIMEContext IMEContext(aWindow->GetWindowHandle()); bool associated = IMEContext.AssociateDefaultContext(); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: CancelComposition, associated=%s\n", associated ? "YES" : "NO")); if (IMEContext.IsValid()) { ::ImmNotifyIME(IMEContext.get(), NI_COMPOSITIONSTR, CPS_CANCEL, 0); } if (associated) { IMEContext.Disassociate(); } } /* static */ bool nsIMM32Handler::ProcessInputLangChangeMessage(nsWindow* aWindow, WPARAM wParam, LPARAM lParam, LRESULT *aRetValue, bool &aEatMessage) { *aRetValue = 0; aEatMessage = false; // We don't need to create the instance of the handler here. if (gIMM32Handler) { aEatMessage = gIMM32Handler->OnInputLangChange(aWindow, wParam, lParam); } InitKeyboardLayout(reinterpret_cast(lParam)); // We can release the instance here, because the instance may be never // used. E.g., the new keyboard layout may not use IME, or it may use TSF. Terminate(); // Don't return as "processed", the messages should be processed on nsWindow // too. return false; } /* static */ bool nsIMM32Handler::ProcessMessage(nsWindow* aWindow, UINT msg, WPARAM &wParam, LPARAM &lParam, LRESULT *aRetValue, bool &aEatMessage) { // XXX We store the composing window in mComposingWindow. If IME messages are // sent to different window, we should commit the old transaction. And also // if the new window handle is not focused, probably, we should not start // the composition, however, such case should not be, it's just bad scenario. if (sIsIMEOpening) { switch (msg) { case WM_INPUTLANGCHANGE: case WM_IME_STARTCOMPOSITION: case WM_IME_COMPOSITION: case WM_IME_ENDCOMPOSITION: case WM_IME_CHAR: case WM_IME_SELECT: case WM_IME_SETCONTEXT: // For safety, we should reset sIsIMEOpening when we receive unexpected // message. sIsIMEOpening = false; } } // When a plug-in has focus or compsition, we should dispatch the IME events // to the plug-in. if (aWindow->PluginHasFocus() || IsComposingOnPlugin()) { return ProcessMessageForPlugin(aWindow, msg, wParam, lParam, aRetValue, aEatMessage); } *aRetValue = 0; switch (msg) { case WM_LBUTTONDOWN: case WM_MBUTTONDOWN: case WM_RBUTTONDOWN: { // We don't need to create the instance of the handler here. if (!gIMM32Handler) return false; if (!gIMM32Handler->OnMouseEvent(aWindow, lParam, msg == WM_LBUTTONDOWN ? IMEMOUSE_LDOWN : msg == WM_MBUTTONDOWN ? IMEMOUSE_MDOWN : IMEMOUSE_RDOWN)) { return false; } aEatMessage = false; return true; } case WM_INPUTLANGCHANGE: return ProcessInputLangChangeMessage(aWindow, wParam, lParam, aRetValue, aEatMessage); case WM_IME_STARTCOMPOSITION: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMEStartComposition(aWindow); return true; case WM_IME_COMPOSITION: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMEComposition(aWindow, wParam, lParam); return true; case WM_IME_ENDCOMPOSITION: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMEEndComposition(aWindow); return true; case WM_IME_CHAR: aEatMessage = OnIMEChar(aWindow, wParam, lParam); return true; case WM_IME_NOTIFY: aEatMessage = OnIMENotify(aWindow, wParam, lParam); return true; case WM_IME_REQUEST: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMERequest(aWindow, wParam, lParam, aRetValue); return true; case WM_IME_SELECT: aEatMessage = OnIMESelect(aWindow, wParam, lParam); return true; case WM_IME_SETCONTEXT: aEatMessage = OnIMESetContext(aWindow, wParam, lParam, aRetValue); return true; case WM_KEYDOWN: return OnKeyDownEvent(aWindow, wParam, lParam, aEatMessage); case WM_CHAR: if (!gIMM32Handler) { return false; } aEatMessage = gIMM32Handler->OnChar(aWindow, wParam, lParam); // If we eat this message, we should return "processed", otherwise, // the message should be handled on nsWindow, so, we should return // "not processed" at that time. return aEatMessage; default: return false; }; } /* static */ bool nsIMM32Handler::ProcessMessageForPlugin(nsWindow* aWindow, UINT msg, WPARAM &wParam, LPARAM &lParam, LRESULT *aRetValue, bool &aEatMessage) { *aRetValue = 0; aEatMessage = false; switch (msg) { case WM_INPUTLANGCHANGEREQUEST: case WM_INPUTLANGCHANGE: aWindow->DispatchPluginEvent(msg, wParam, lParam, false); return ProcessInputLangChangeMessage(aWindow, wParam, lParam, aRetValue, aEatMessage); case WM_IME_COMPOSITION: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMECompositionOnPlugin(aWindow, wParam, lParam); return true; case WM_IME_STARTCOMPOSITION: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMEStartCompositionOnPlugin(aWindow, wParam, lParam); return true; case WM_IME_ENDCOMPOSITION: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMEEndCompositionOnPlugin(aWindow, wParam, lParam); return true; case WM_IME_CHAR: EnsureHandlerInstance(); aEatMessage = gIMM32Handler->OnIMECharOnPlugin(aWindow, wParam, lParam); return true; case WM_IME_SETCONTEXT: aEatMessage = OnIMESetContextOnPlugin(aWindow, wParam, lParam, aRetValue); return true; case WM_IME_NOTIFY: if (wParam == IMN_SETOPENSTATUS) { // finished being opening sIsIMEOpening = false; } return false; case WM_KEYDOWN: if (wParam == VK_PROCESSKEY) { // If we receive when IME isn't open, it means IME is opening right now. nsIMEContext IMEContext(aWindow->GetWindowHandle()); sIsIMEOpening = IMEContext.IsValid() && ::ImmGetOpenStatus(IMEContext.get()); } return false; case WM_CHAR: if (!gIMM32Handler) { return false; } aEatMessage = gIMM32Handler->OnCharOnPlugin(aWindow, wParam, lParam); return false; // is going to be handled by nsWindow. case WM_IME_COMPOSITIONFULL: case WM_IME_CONTROL: case WM_IME_KEYDOWN: case WM_IME_KEYUP: case WM_IME_REQUEST: case WM_IME_SELECT: aEatMessage = aWindow->DispatchPluginEvent(msg, wParam, lParam, false); return true; } return false; } /**************************************************************************** * message handlers ****************************************************************************/ bool nsIMM32Handler::OnInputLangChange(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnInputLangChange, hWnd=%08x, wParam=%08x, lParam=%08x\n", aWindow->GetWindowHandle(), wParam, lParam)); aWindow->NotifyIME(REQUEST_TO_COMMIT_COMPOSITION); NS_ASSERTION(!mIsComposing, "ResetInputState failed"); if (mIsComposing) { HandleEndComposition(aWindow); } return false; } bool nsIMM32Handler::OnIMEStartComposition(nsWindow* aWindow) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEStartComposition, hWnd=%08x, mIsComposing=%s\n", aWindow->GetWindowHandle(), mIsComposing ? "TRUE" : "FALSE")); if (mIsComposing) { NS_WARNING("Composition has been already started"); return ShouldDrawCompositionStringOurselves(); } nsIMEContext IMEContext(aWindow->GetWindowHandle()); HandleStartComposition(aWindow, IMEContext); return ShouldDrawCompositionStringOurselves(); } bool nsIMM32Handler::OnIMEComposition(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEComposition, hWnd=%08x, lParam=%08x, mIsComposing=%s\n", aWindow->GetWindowHandle(), lParam, mIsComposing ? "TRUE" : "FALSE")); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEComposition, GCS_RESULTSTR=%s, GCS_COMPSTR=%s, GCS_COMPATTR=%s, GCS_COMPCLAUSE=%s, GCS_CURSORPOS=%s\n", lParam & GCS_RESULTSTR ? "YES" : "no", lParam & GCS_COMPSTR ? "YES" : "no", lParam & GCS_COMPATTR ? "YES" : "no", lParam & GCS_COMPCLAUSE ? "YES" : "no", lParam & GCS_CURSORPOS ? "YES" : "no")); NS_PRECONDITION(!aWindow->PluginHasFocus(), "OnIMEComposition should not be called when a plug-in has focus"); nsIMEContext IMEContext(aWindow->GetWindowHandle()); return HandleComposition(aWindow, IMEContext, lParam); } bool nsIMM32Handler::OnIMEEndComposition(nsWindow* aWindow) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEEndComposition, hWnd=%08x, mIsComposing=%s\n", aWindow->GetWindowHandle(), mIsComposing ? "TRUE" : "FALSE")); if (!mIsComposing) { return ShouldDrawCompositionStringOurselves(); } // Korean IME posts WM_IME_ENDCOMPOSITION first when we hit space during // composition. Then, we should ignore the message and commit the composition // string at following WM_IME_COMPOSITION. MSG compositionMsg; if (::PeekMessageW(&compositionMsg, aWindow->GetWindowHandle(), WM_IME_STARTCOMPOSITION, WM_IME_COMPOSITION, PM_NOREMOVE) && compositionMsg.message == WM_IME_COMPOSITION && IS_COMMITTING_LPARAM(compositionMsg.lParam)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEEndComposition, WM_IME_ENDCOMPOSITION is followed by " "WM_IME_COMPOSITION, ignoring the message...")); return ShouldDrawCompositionStringOurselves(); } // Otherwise, e.g., ChangJie doesn't post WM_IME_COMPOSITION before // WM_IME_ENDCOMPOSITION when composition string becomes empty. // Then, we should dispatch a compositionupdate event, a text event and // a compositionend event. // XXX Shouldn't we dispatch the text event with actual or latest composition // string? PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEEndComposition, mCompositionString=\"%s\"%s", NS_ConvertUTF16toUTF8(mCompositionString).get(), mCompositionString.IsEmpty() ? "" : ", but canceling it...")); mCompositionString.Truncate(); nsIMEContext IMEContext(aWindow->GetWindowHandle()); DispatchTextEvent(aWindow, IMEContext, false); HandleEndComposition(aWindow); return ShouldDrawCompositionStringOurselves(); } /* static */ bool nsIMM32Handler::OnIMEChar(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEChar, hWnd=%08x, char=%08x\n", aWindow->GetWindowHandle(), wParam)); // We don't need to fire any text events from here. This method will be // called when the composition string of the current IME is not drawn by us // and some characters are committed. In that case, the committed string was // processed in nsWindow::OnIMEComposition already. // We need to return TRUE here so that Windows don't send two WM_CHAR msgs return true; } /* static */ bool nsIMM32Handler::OnIMECompositionFull(nsWindow* aWindow) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMECompositionFull, hWnd=%08x\n", aWindow->GetWindowHandle())); // not implement yet return false; } /* static */ bool nsIMM32Handler::OnIMENotify(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { #ifdef PR_LOGGING switch (wParam) { case IMN_CHANGECANDIDATE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_CHANGECANDIDATE, lParam=%08x\n", aWindow->GetWindowHandle(), lParam)); break; case IMN_CLOSECANDIDATE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_CLOSECANDIDATE, lParam=%08x\n", aWindow->GetWindowHandle(), lParam)); break; case IMN_CLOSESTATUSWINDOW: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_CLOSESTATUSWINDOW\n", aWindow->GetWindowHandle())); break; case IMN_GUIDELINE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_GUIDELINE\n", aWindow->GetWindowHandle())); break; case IMN_OPENCANDIDATE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_OPENCANDIDATE, lParam=%08x\n", aWindow->GetWindowHandle(), lParam)); break; case IMN_OPENSTATUSWINDOW: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_OPENSTATUSWINDOW\n", aWindow->GetWindowHandle())); break; case IMN_SETCANDIDATEPOS: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETCANDIDATEPOS, lParam=%08x\n", aWindow->GetWindowHandle(), lParam)); break; case IMN_SETCOMPOSITIONFONT: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETCOMPOSITIONFONT\n", aWindow->GetWindowHandle())); break; case IMN_SETCOMPOSITIONWINDOW: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETCOMPOSITIONWINDOW\n", aWindow->GetWindowHandle())); break; case IMN_SETCONVERSIONMODE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETCONVERSIONMODE\n", aWindow->GetWindowHandle())); break; case IMN_SETOPENSTATUS: sIsIMEOpening = false; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETOPENSTATUS\n", aWindow->GetWindowHandle())); break; case IMN_SETSENTENCEMODE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETSENTENCEMODE\n", aWindow->GetWindowHandle())); break; case IMN_SETSTATUSWINDOWPOS: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_SETSTATUSWINDOWPOS\n", aWindow->GetWindowHandle())); break; case IMN_PRIVATE: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMENotify, hWnd=%08x, IMN_PRIVATE\n", aWindow->GetWindowHandle())); break; } #endif // PR_LOGGING // not implement yet return false; } bool nsIMM32Handler::OnIMERequest(nsWindow* aWindow, WPARAM wParam, LPARAM lParam, LRESULT *oResult) { switch (wParam) { case IMR_RECONVERTSTRING: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMERequest, hWnd=%08x, IMR_RECONVERTSTRING\n", aWindow->GetWindowHandle())); return HandleReconvert(aWindow, lParam, oResult); case IMR_QUERYCHARPOSITION: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMERequest, hWnd=%08x, IMR_QUERYCHARPOSITION\n", aWindow->GetWindowHandle())); return HandleQueryCharPosition(aWindow, lParam, oResult); case IMR_DOCUMENTFEED: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMERequest, hWnd=%08x, IMR_DOCUMENTFEED\n", aWindow->GetWindowHandle())); return HandleDocumentFeed(aWindow, lParam, oResult); default: PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMERequest, hWnd=%08x, wParam=%08x\n", aWindow->GetWindowHandle(), wParam)); return false; } } /* static */ bool nsIMM32Handler::OnIMESelect(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMESelect, hWnd=%08x, wParam=%08x, lParam=%08x\n", aWindow->GetWindowHandle(), wParam, lParam)); // not implement yet return false; } /* static */ bool nsIMM32Handler::OnIMESetContext(nsWindow* aWindow, WPARAM wParam, LPARAM lParam, LRESULT *aResult) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMESetContext, hWnd=%08x, %s, lParam=%08x\n", aWindow->GetWindowHandle(), wParam ? "Active" : "Deactive", lParam)); // NOTE: If the aWindow is top level window of the composing window because // when a window on deactive window gets focus, WM_IME_SETCONTEXT (wParam is // TRUE) is sent to the top level window first. After that, // WM_IME_SETCONTEXT (wParam is FALSE) is sent to the top level window. // Finally, WM_IME_SETCONTEXT (wParam is TRUE) is sent to the focused window. // The top level window never becomes composing window, so, we can ignore // the WM_IME_SETCONTEXT on the top level window. if (IsTopLevelWindowOfComposition(aWindow)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMESetContext, hWnd=%08x is top level window\n")); return false; } // When IME context is activating on another window, // we should commit the old composition on the old window. bool cancelComposition = false; if (wParam && gIMM32Handler) { cancelComposition = gIMM32Handler->CommitCompositionOnPreviousWindow(aWindow); } if (wParam && (lParam & ISC_SHOWUICOMPOSITIONWINDOW) && ShouldDrawCompositionStringOurselves()) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMESetContext, ISC_SHOWUICOMPOSITIONWINDOW is removed\n")); lParam &= ~ISC_SHOWUICOMPOSITIONWINDOW; } // We should sent WM_IME_SETCONTEXT to the DefWndProc here because the // ancestor windows shouldn't receive this message. If they receive the // message, we cannot know whether which window is the target of the message. *aResult = ::DefWindowProc(aWindow->GetWindowHandle(), WM_IME_SETCONTEXT, wParam, lParam); // Cancel composition on the new window if we committed our composition on // another window. if (cancelComposition) { CancelComposition(aWindow, true); } return true; } bool nsIMM32Handler::OnChar(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { if (IsIMECharRecordsEmpty()) { return false; } WPARAM recWParam; LPARAM recLParam; DequeueIMECharRecords(recWParam, recLParam); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnChar, aWindow=%p, wParam=%08x, lParam=%08x,\n", aWindow->GetWindowHandle(), wParam, lParam)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, (" recorded: wParam=%08x, lParam=%08x\n", recWParam, recLParam)); // If an unexpected char message comes, we should reset the records, // of course, this shouldn't happen. if (recWParam != wParam || recLParam != lParam) { ResetIMECharRecords(); return false; } // Eat the char message which is caused by WM_IME_CHAR because we should // have processed the IME messages, so, this message could be come from // a windowless plug-in. return true; } /**************************************************************************** * message handlers for plug-in ****************************************************************************/ bool nsIMM32Handler::OnIMEStartCompositionOnPlugin(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEStartCompositionOnPlugin, hWnd=%08x, mIsComposingOnPlugin=%s\n", aWindow->GetWindowHandle(), mIsComposingOnPlugin ? "TRUE" : "FALSE")); mIsComposingOnPlugin = true; mComposingWindow = aWindow; bool handled = aWindow->DispatchPluginEvent(WM_IME_STARTCOMPOSITION, wParam, lParam, false); return handled; } bool nsIMM32Handler::OnIMECompositionOnPlugin(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMECompositionOnPlugin, hWnd=%08x, lParam=%08x, mIsComposingOnPlugin=%s\n", aWindow->GetWindowHandle(), lParam, mIsComposingOnPlugin ? "TRUE" : "FALSE")); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMECompositionOnPlugin, GCS_RESULTSTR=%s, GCS_COMPSTR=%s, GCS_COMPATTR=%s, GCS_COMPCLAUSE=%s, GCS_CURSORPOS=%s\n", lParam & GCS_RESULTSTR ? "YES" : "no", lParam & GCS_COMPSTR ? "YES" : "no", lParam & GCS_COMPATTR ? "YES" : "no", lParam & GCS_COMPCLAUSE ? "YES" : "no", lParam & GCS_CURSORPOS ? "YES" : "no")); // We should end composition if there is a committed string. if (IS_COMMITTING_LPARAM(lParam)) { mIsComposingOnPlugin = false; mComposingWindow = nullptr; } // Continue composition if there is still a string being composed. if (IS_COMPOSING_LPARAM(lParam)) { mIsComposingOnPlugin = true; mComposingWindow = aWindow; } bool handled = aWindow->DispatchPluginEvent(WM_IME_COMPOSITION, wParam, lParam, true); return handled; } bool nsIMM32Handler::OnIMEEndCompositionOnPlugin(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMEEndCompositionOnPlugin, hWnd=%08x, mIsComposingOnPlugin=%s\n", aWindow->GetWindowHandle(), mIsComposingOnPlugin ? "TRUE" : "FALSE")); mIsComposingOnPlugin = false; mComposingWindow = nullptr; bool handled = aWindow->DispatchPluginEvent(WM_IME_ENDCOMPOSITION, wParam, lParam, false); return handled; } bool nsIMM32Handler::OnIMECharOnPlugin(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMECharOnPlugin, hWnd=%08x, char=%08x, scancode=%08x\n", aWindow->GetWindowHandle(), wParam, lParam)); bool handled = aWindow->DispatchPluginEvent(WM_IME_CHAR, wParam, lParam, true); if (!handled) { // Record the WM_CHAR messages which are going to be coming. EnsureHandlerInstance(); EnqueueIMECharRecords(wParam, lParam); } return handled; } /* static */ bool nsIMM32Handler::OnIMESetContextOnPlugin(nsWindow* aWindow, WPARAM wParam, LPARAM lParam, LRESULT *aResult) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnIMESetContextOnPlugin, hWnd=%08x, %s, lParam=%08x\n", aWindow->GetWindowHandle(), wParam ? "Active" : "Deactive", lParam)); // If the IME context becomes active on a plug-in, we should commit // our composition. And also we should cancel the composition on new // window. Note that if IsTopLevelWindowOfComposition(aWindow) returns // true, we should ignore the message here, see the comment in // OnIMESetContext() for the detail. if (wParam && gIMM32Handler && !IsTopLevelWindowOfComposition(aWindow)) { if (gIMM32Handler->CommitCompositionOnPreviousWindow(aWindow)) { CancelComposition(aWindow); } } // Dispatch message to the plug-in. // XXX When a windowless plug-in gets focus, we should send // WM_IME_SETCONTEXT aWindow->DispatchPluginEvent(WM_IME_SETCONTEXT, wParam, lParam, false); // We should send WM_IME_SETCONTEXT to the DefWndProc here. It shouldn't // be received on ancestor windows, see OnIMESetContext() for the detail. *aResult = ::DefWindowProc(aWindow->GetWindowHandle(), WM_IME_SETCONTEXT, wParam, lParam); // Don't synchronously dispatch the pending events when we receive // WM_IME_SETCONTEXT because we get it during plugin destruction. // (bug 491848) return true; } bool nsIMM32Handler::OnCharOnPlugin(nsWindow* aWindow, WPARAM wParam, LPARAM lParam) { if (IsIMECharRecordsEmpty()) { return false; } WPARAM recWParam; LPARAM recLParam; DequeueIMECharRecords(recWParam, recLParam); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnCharOnPlugin, aWindow=%p, wParam=%08x, lParam=%08x,\n", aWindow->GetWindowHandle(), wParam, lParam)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, (" recorded: wParam=%08x, lParam=%08x\n", recWParam, recLParam)); // If an unexpected char message comes, we should reset the records, // of course, this shouldn't happen. if (recWParam != wParam || recLParam != lParam) { ResetIMECharRecords(); } // WM_CHAR on plug-in is always handled by nsWindow. return false; } /**************************************************************************** * others ****************************************************************************/ void nsIMM32Handler::HandleStartComposition(nsWindow* aWindow, const nsIMEContext &aIMEContext) { NS_PRECONDITION(!mIsComposing, "HandleStartComposition is called but mIsComposing is TRUE"); NS_PRECONDITION(!aWindow->PluginHasFocus(), "HandleStartComposition should not be called when a plug-in has focus"); nsQueryContentEvent selection(true, NS_QUERY_SELECTED_TEXT, aWindow); nsIntPoint point(0, 0); aWindow->InitEvent(selection, &point); aWindow->DispatchWindowEvent(&selection); if (!selection.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleStartComposition, FAILED (NS_QUERY_SELECTED_TEXT)\n")); return; } mCompositionStart = selection.mReply.mOffset; mLastDispatchedCompositionString.Truncate(); nsCompositionEvent event(true, NS_COMPOSITION_START, aWindow); aWindow->InitEvent(event, &point); aWindow->DispatchWindowEvent(&event); SetIMERelatedWindowsPos(aWindow, aIMEContext); mIsComposing = true; mComposingWindow = aWindow; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleStartComposition, START composition, mCompositionStart=%ld\n", mCompositionStart)); } bool nsIMM32Handler::HandleComposition(nsWindow* aWindow, const nsIMEContext &aIMEContext, LPARAM lParam) { NS_PRECONDITION(!aWindow->PluginHasFocus(), "HandleComposition should not be called when a plug-in has focus"); // for bug #60050 // MS-IME 95/97/98/2000 may send WM_IME_COMPOSITION with non-conversion // mode before it send WM_IME_STARTCOMPOSITION. // However, ATOK sends a WM_IME_COMPOSITION before WM_IME_STARTCOMPOSITION, // and if we access ATOK via some APIs, ATOK will sometimes fail to // initialize its state. If WM_IME_STARTCOMPOSITION is already in the // message queue, we should ignore the strange WM_IME_COMPOSITION message and // skip to the next. So, we should look for next composition message // (WM_IME_STARTCOMPOSITION or WM_IME_ENDCOMPOSITION or WM_IME_COMPOSITION), // and if it's WM_IME_STARTCOMPOSITION, and one more next composition message // is WM_IME_COMPOSITION, current IME is ATOK, probably. Otherwise, we // should start composition forcibly. if (!mIsComposing) { MSG msg1, msg2; HWND wnd = aWindow->GetWindowHandle(); if (::PeekMessageW(&msg1, wnd, WM_IME_STARTCOMPOSITION, WM_IME_COMPOSITION, PM_NOREMOVE) && msg1.message == WM_IME_STARTCOMPOSITION && ::PeekMessageW(&msg2, wnd, WM_IME_ENDCOMPOSITION, WM_IME_COMPOSITION, PM_NOREMOVE) && msg2.message == WM_IME_COMPOSITION) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, Ignores due to find a WM_IME_STARTCOMPOSITION\n")); return ShouldDrawCompositionStringOurselves(); } } bool startCompositionMessageHasBeenSent = mIsComposing; // // This catches a fixed result // if (IS_COMMITTING_LPARAM(lParam)) { if (!mIsComposing) { HandleStartComposition(aWindow, aIMEContext); } GetCompositionString(aIMEContext, GCS_RESULTSTR); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_RESULTSTR\n")); DispatchTextEvent(aWindow, aIMEContext, false); HandleEndComposition(aWindow); if (!IS_COMPOSING_LPARAM(lParam)) { return ShouldDrawCompositionStringOurselves(); } } // // This provides us with a composition string // if (!mIsComposing) { HandleStartComposition(aWindow, aIMEContext); } //-------------------------------------------------------- // 1. Get GCS_COMPSTR //-------------------------------------------------------- PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_COMPSTR\n")); GetCompositionString(aIMEContext, GCS_COMPSTR); if (!IS_COMPOSING_LPARAM(lParam)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, lParam doesn't indicate composing, " "mCompositionString=\"%s\", mLastDispatchedCompositionString=\"%s\"", NS_ConvertUTF16toUTF8(mCompositionString).get(), NS_ConvertUTF16toUTF8(mLastDispatchedCompositionString).get())); // If composition string isn't changed, we can trust the lParam. // So, we need to do nothing. if (mLastDispatchedCompositionString == mCompositionString) { return ShouldDrawCompositionStringOurselves(); } // IME may send WM_IME_COMPOSITION without composing lParam values // when composition string becomes empty (e.g., using Backspace key). // If composition string is empty, we should dispatch a text event with // empty string. if (mCompositionString.IsEmpty()) { DispatchTextEvent(aWindow, aIMEContext, false); return ShouldDrawCompositionStringOurselves(); } // Otherwise, we cannot trust the lParam value. We might need to // dispatch text event with the latest composition string information. } // See https://bugzilla.mozilla.org/show_bug.cgi?id=296339 if (mCompositionString.IsEmpty() && !startCompositionMessageHasBeenSent) { // In this case, maybe, the sender is MSPinYin. That sends *only* // WM_IME_COMPOSITION with GCS_COMP* and GCS_RESULT* when // user inputted the Chinese full stop. So, that doesn't send // WM_IME_STARTCOMPOSITION and WM_IME_ENDCOMPOSITION. // If WM_IME_STARTCOMPOSITION was not sent and the composition // string is null (it indicates the composition transaction ended), // WM_IME_ENDCOMPOSITION may not be sent. If so, we cannot run // HandleEndComposition() in other place. PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, Aborting GCS_COMPSTR\n")); HandleEndComposition(aWindow); return IS_COMMITTING_LPARAM(lParam); } //-------------------------------------------------------- // 2. Get GCS_COMPCLAUSE //-------------------------------------------------------- long clauseArrayLength = ::ImmGetCompositionStringW(aIMEContext.get(), GCS_COMPCLAUSE, NULL, 0); clauseArrayLength /= sizeof(uint32_t); if (clauseArrayLength > 0) { nsresult rv = EnsureClauseArray(clauseArrayLength); NS_ENSURE_SUCCESS(rv, false); // Intelligent ABC IME (Simplified Chinese IME, the code page is 936) // will crash in ImmGetCompositionStringW for GCS_COMPCLAUSE (bug 424663). // See comment 35 of the bug for the detail. Therefore, we should use A // API for it, however, we should not kill Unicode support on all IMEs. bool useA_API = !(sIMEProperty & IME_PROP_UNICODE); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_COMPCLAUSE, useA_API=%s\n", useA_API ? "TRUE" : "FALSE")); long clauseArrayLength2 = useA_API ? ::ImmGetCompositionStringA(aIMEContext.get(), GCS_COMPCLAUSE, mClauseArray.Elements(), mClauseArray.Capacity() * sizeof(uint32_t)) : ::ImmGetCompositionStringW(aIMEContext.get(), GCS_COMPCLAUSE, mClauseArray.Elements(), mClauseArray.Capacity() * sizeof(uint32_t)); clauseArrayLength2 /= sizeof(uint32_t); if (clauseArrayLength != clauseArrayLength2) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_COMPCLAUSE, clauseArrayLength=%ld but clauseArrayLength2=%ld\n", clauseArrayLength, clauseArrayLength2)); if (clauseArrayLength > clauseArrayLength2) clauseArrayLength = clauseArrayLength2; } if (useA_API) { // Convert each values of sIMECompClauseArray. The values mean offset of // the clauses in ANSI string. But we need the values in Unicode string. nsAutoCString compANSIStr; if (ConvertToANSIString(mCompositionString, GetKeyboardCodePage(), compANSIStr)) { uint32_t maxlen = compANSIStr.Length(); mClauseArray[0] = 0; // first value must be 0 for (int32_t i = 1; i < clauseArrayLength; i++) { uint32_t len = std::min(mClauseArray[i], maxlen); mClauseArray[i] = ::MultiByteToWideChar(GetKeyboardCodePage(), MB_PRECOMPOSED, (LPCSTR)compANSIStr.get(), len, NULL, 0); } } } } // compClauseArrayLength may be negative. I.e., ImmGetCompositionStringW // may return an error code. mClauseArray.SetLength(std::max(0, clauseArrayLength)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_COMPCLAUSE, mClauseLength=%ld\n", mClauseArray.Length())); //-------------------------------------------------------- // 3. Get GCS_COMPATTR //-------------------------------------------------------- // This provides us with the attribute string necessary // for doing hiliting long attrArrayLength = ::ImmGetCompositionStringW(aIMEContext.get(), GCS_COMPATTR, NULL, 0); attrArrayLength /= sizeof(uint8_t); if (attrArrayLength > 0) { nsresult rv = EnsureAttributeArray(attrArrayLength); NS_ENSURE_SUCCESS(rv, false); attrArrayLength = ::ImmGetCompositionStringW(aIMEContext.get(), GCS_COMPATTR, mAttributeArray.Elements(), mAttributeArray.Capacity() * sizeof(uint8_t)); } // attrStrLen may be negative. I.e., ImmGetCompositionStringW may return an // error code. mAttributeArray.SetLength(std::max(0, attrArrayLength)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_COMPATTR, mAttributeLength=%ld\n", mAttributeArray.Length())); //-------------------------------------------------------- // 4. Get GCS_CURSOPOS //-------------------------------------------------------- // Some IMEs (e.g., the standard IME for Korean) don't have caret position. if (lParam & GCS_CURSORPOS) { mCursorPosition = ::ImmGetCompositionStringW(aIMEContext.get(), GCS_CURSORPOS, NULL, 0); if (mCursorPosition < 0) { mCursorPosition = NO_IME_CARET; // The result is error } } else { mCursorPosition = NO_IME_CARET; } NS_ASSERTION(mCursorPosition <= (long)mCompositionString.Length(), "illegal pos"); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleComposition, GCS_CURSORPOS, mCursorPosition=%d\n", mCursorPosition)); //-------------------------------------------------------- // 5. Send the text event //-------------------------------------------------------- DispatchTextEvent(aWindow, aIMEContext); return ShouldDrawCompositionStringOurselves(); } void nsIMM32Handler::HandleEndComposition(nsWindow* aWindow) { NS_PRECONDITION(mIsComposing, "HandleEndComposition is called but mIsComposing is FALSE"); NS_PRECONDITION(!aWindow->PluginHasFocus(), "HandleComposition should not be called when a plug-in has focus"); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleEndComposition\n")); nsCompositionEvent event(true, NS_COMPOSITION_END, aWindow); nsIntPoint point(0, 0); if (mNativeCaretIsCreated) { ::DestroyCaret(); mNativeCaretIsCreated = false; } aWindow->InitEvent(event, &point); // The last dispatched composition string must be the committed string. event.data = mLastDispatchedCompositionString; aWindow->DispatchWindowEvent(&event); mIsComposing = false; mComposingWindow = nullptr; mLastDispatchedCompositionString.Truncate(); } static void DumpReconvertString(RECONVERTSTRING* aReconv) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, (" dwSize=%ld, dwVersion=%ld, dwStrLen=%ld, dwStrOffset=%ld\n", aReconv->dwSize, aReconv->dwVersion, aReconv->dwStrLen, aReconv->dwStrOffset)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, (" dwCompStrLen=%ld, dwCompStrOffset=%ld, dwTargetStrLen=%ld, dwTargetStrOffset=%ld\n", aReconv->dwCompStrLen, aReconv->dwCompStrOffset, aReconv->dwTargetStrLen, aReconv->dwTargetStrOffset)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, (" result str=\"%s\"\n", NS_ConvertUTF16toUTF8( nsAutoString((PRUnichar*)((char*)(aReconv) + aReconv->dwStrOffset), aReconv->dwStrLen)).get())); } bool nsIMM32Handler::HandleReconvert(nsWindow* aWindow, LPARAM lParam, LRESULT *oResult) { *oResult = 0; RECONVERTSTRING* pReconv = reinterpret_cast(lParam); nsQueryContentEvent selection(true, NS_QUERY_SELECTED_TEXT, aWindow); nsIntPoint point(0, 0); aWindow->InitEvent(selection, &point); aWindow->DispatchWindowEvent(&selection); if (!selection.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, FAILED (NS_QUERY_SELECTED_TEXT)\n")); return false; } uint32_t len = selection.mReply.mString.Length(); uint32_t needSize = sizeof(RECONVERTSTRING) + len * sizeof(WCHAR); if (!pReconv) { // Return need size to reconvert. if (len == 0) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, There are not selected text\n")); return false; } *oResult = needSize; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, SUCCEEDED result=%ld\n", *oResult)); return true; } if (pReconv->dwSize < needSize) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, FAILED pReconv->dwSize=%ld, needSize=%ld\n", pReconv->dwSize, needSize)); return false; } *oResult = needSize; // Fill reconvert struct pReconv->dwVersion = 0; pReconv->dwStrLen = len; pReconv->dwStrOffset = sizeof(RECONVERTSTRING); pReconv->dwCompStrLen = len; pReconv->dwCompStrOffset = 0; pReconv->dwTargetStrLen = len; pReconv->dwTargetStrOffset = 0; ::CopyMemory(reinterpret_cast(lParam + sizeof(RECONVERTSTRING)), selection.mReply.mString.get(), len * sizeof(WCHAR)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, SUCCEEDED result=%ld\n", *oResult)); DumpReconvertString(pReconv); return true; } bool nsIMM32Handler::HandleQueryCharPosition(nsWindow* aWindow, LPARAM lParam, LRESULT *oResult) { uint32_t len = mIsComposing ? mCompositionString.Length() : 0; *oResult = false; IMECHARPOSITION* pCharPosition = reinterpret_cast(lParam); if (!pCharPosition) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleQueryCharPosition, FAILED (pCharPosition is null)\n")); return false; } if (pCharPosition->dwSize < sizeof(IMECHARPOSITION)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, FAILED, pCharPosition->dwSize=%ld, sizeof(IMECHARPOSITION)=%ld\n", pCharPosition->dwSize, sizeof(IMECHARPOSITION))); return false; } if (::GetFocus() != aWindow->GetWindowHandle()) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleReconvert, FAILED, ::GetFocus()=%08x, OurWindowHandle=%08x\n", ::GetFocus(), aWindow->GetWindowHandle())); return false; } if (pCharPosition->dwCharPos > len) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleQueryCharPosition, FAILED, pCharPosition->dwCharPos=%ld, len=%ld\n", pCharPosition->dwCharPos, len)); return false; } nsIntRect r; bool ret = GetCharacterRectOfSelectedTextAt(aWindow, pCharPosition->dwCharPos, r); NS_ENSURE_TRUE(ret, false); nsIntRect screenRect; // We always need top level window that is owner window of the popup window // even if the content of the popup window has focus. ResolveIMECaretPos(aWindow->GetTopLevelWindow(false), r, nullptr, screenRect); pCharPosition->pt.x = screenRect.x; pCharPosition->pt.y = screenRect.y; pCharPosition->cLineHeight = r.height; // XXX we should use NS_QUERY_EDITOR_RECT event here. ::GetWindowRect(aWindow->GetWindowHandle(), &pCharPosition->rcDocument); *oResult = TRUE; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleQueryCharPosition, SUCCEEDED\n")); return true; } bool nsIMM32Handler::HandleDocumentFeed(nsWindow* aWindow, LPARAM lParam, LRESULT *oResult) { *oResult = 0; RECONVERTSTRING* pReconv = reinterpret_cast(lParam); nsIntPoint point(0, 0); bool hasCompositionString = mIsComposing && ShouldDrawCompositionStringOurselves(); int32_t targetOffset, targetLength; if (!hasCompositionString) { nsQueryContentEvent selection(true, NS_QUERY_SELECTED_TEXT, aWindow); aWindow->InitEvent(selection, &point); aWindow->DispatchWindowEvent(&selection); if (!selection.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, FAILED (NS_QUERY_SELECTED_TEXT)\n")); return false; } targetOffset = int32_t(selection.mReply.mOffset); targetLength = int32_t(selection.mReply.mString.Length()); } else { targetOffset = int32_t(mCompositionStart); targetLength = int32_t(mCompositionString.Length()); } // XXX nsString::Find and nsString::RFind take int32_t for offset, so, // we cannot support this message when the current offset is larger than // INT32_MAX. if (targetOffset < 0 || targetLength < 0 || targetOffset + targetLength < 0) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, FAILED (The selection is out of range)\n")); return false; } // Get all contents of the focused editor. nsQueryContentEvent textContent(true, NS_QUERY_TEXT_CONTENT, aWindow); textContent.InitForQueryTextContent(0, UINT32_MAX); aWindow->InitEvent(textContent, &point); aWindow->DispatchWindowEvent(&textContent); if (!textContent.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, FAILED (NS_QUERY_TEXT_CONTENT)\n")); return false; } nsAutoString str(textContent.mReply.mString); if (targetOffset > int32_t(str.Length())) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, FAILED (The caret offset is invalid)\n")); return false; } // Get the focused paragraph, we decide that it starts from the previous CRLF // (or start of the editor) to the next one (or the end of the editor). int32_t paragraphStart = str.RFind("\n", false, targetOffset, -1) + 1; int32_t paragraphEnd = str.Find("\r", false, targetOffset + targetLength, -1); if (paragraphEnd < 0) { paragraphEnd = str.Length(); } nsDependentSubstring paragraph(str, paragraphStart, paragraphEnd - paragraphStart); uint32_t len = paragraph.Length(); uint32_t needSize = sizeof(RECONVERTSTRING) + len * sizeof(WCHAR); if (!pReconv) { *oResult = needSize; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, SUCCEEDED result=%ld\n", *oResult)); return true; } if (pReconv->dwSize < needSize) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, FAILED pReconv->dwSize=%ld, needSize=%ld\n", pReconv->dwSize, needSize)); return false; } // Fill reconvert struct pReconv->dwVersion = 0; pReconv->dwStrLen = len; pReconv->dwStrOffset = sizeof(RECONVERTSTRING); if (hasCompositionString) { pReconv->dwCompStrLen = targetLength; pReconv->dwCompStrOffset = (targetOffset - paragraphStart) * sizeof(WCHAR); // Set composition target clause information uint32_t offset, length; if (!GetTargetClauseRange(&offset, &length)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, FAILED, by GetTargetClauseRange\n")); return false; } pReconv->dwTargetStrLen = length; pReconv->dwTargetStrOffset = (offset - paragraphStart) * sizeof(WCHAR); } else { pReconv->dwTargetStrLen = targetLength; pReconv->dwTargetStrOffset = (targetOffset - paragraphStart) * sizeof(WCHAR); // There is no composition string, so, the length is zero but we should // set the cursor offset to the composition str offset. pReconv->dwCompStrLen = 0; pReconv->dwCompStrOffset = pReconv->dwTargetStrOffset; } *oResult = needSize; ::CopyMemory(reinterpret_cast(lParam + sizeof(RECONVERTSTRING)), paragraph.BeginReading(), len * sizeof(WCHAR)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: HandleDocumentFeed, SUCCEEDED result=%ld\n", *oResult)); DumpReconvertString(pReconv); return true; } bool nsIMM32Handler::CommitCompositionOnPreviousWindow(nsWindow* aWindow) { if (!mComposingWindow || mComposingWindow == aWindow) { return false; } PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: CommitCompositionOnPreviousWindow, mIsComposing=%s, mIsComposingOnPlugin=%s\n", mIsComposing ? "TRUE" : "FALSE", mIsComposingOnPlugin ? "TRUE" : "FALSE")); // If we have composition, we should dispatch composition events internally. if (mIsComposing) { nsIMEContext IMEContext(mComposingWindow->GetWindowHandle()); NS_ASSERTION(IMEContext.IsValid(), "IME context must be valid"); DispatchTextEvent(mComposingWindow, IMEContext, false); HandleEndComposition(mComposingWindow); return true; } // XXX When plug-in has composition, we should commit composition on the // plug-in. However, we need some more work for that. return mIsComposingOnPlugin; } static uint32_t PlatformToNSAttr(uint8_t aAttr) { switch (aAttr) { case ATTR_INPUT_ERROR: // case ATTR_FIXEDCONVERTED: case ATTR_INPUT: return NS_TEXTRANGE_RAWINPUT; case ATTR_CONVERTED: return NS_TEXTRANGE_CONVERTEDTEXT; case ATTR_TARGET_NOTCONVERTED: return NS_TEXTRANGE_SELECTEDRAWTEXT; case ATTR_TARGET_CONVERTED: return NS_TEXTRANGE_SELECTEDCONVERTEDTEXT; default: NS_ASSERTION(false, "unknown attribute"); return NS_TEXTRANGE_CARETPOSITION; } } #ifdef PR_LOGGING static const char* GetRangeTypeName(uint32_t aRangeType) { switch (aRangeType) { case NS_TEXTRANGE_RAWINPUT: return "NS_TEXTRANGE_RAWINPUT"; case NS_TEXTRANGE_CONVERTEDTEXT: return "NS_TEXTRANGE_CONVERTEDTEXT"; case NS_TEXTRANGE_SELECTEDRAWTEXT: return "NS_TEXTRANGE_SELECTEDRAWTEXT"; case NS_TEXTRANGE_SELECTEDCONVERTEDTEXT: return "NS_TEXTRANGE_SELECTEDCONVERTEDTEXT"; case NS_TEXTRANGE_CARETPOSITION: return "NS_TEXTRANGE_CARETPOSITION"; default: return "UNKNOWN SELECTION TYPE!!"; } } #endif void nsIMM32Handler::DispatchTextEvent(nsWindow* aWindow, const nsIMEContext &aIMEContext, bool aCheckAttr) { NS_ASSERTION(mIsComposing, "conflict state"); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: DispatchTextEvent, aCheckAttr=%s\n", aCheckAttr ? "TRUE": "FALSE")); // If we don't need to draw composition string ourselves and this is not // commit event (i.e., under composing), we don't need to fire text event // during composing. if (aCheckAttr && !ShouldDrawCompositionStringOurselves()) { // But we need to adjust composition window pos and native caret pos, here. SetIMERelatedWindowsPos(aWindow, aIMEContext); return; } nsRefPtr kungFuDeathGrip(aWindow); nsIntPoint point(0, 0); if (mCompositionString != mLastDispatchedCompositionString) { nsCompositionEvent compositionUpdate(true, NS_COMPOSITION_UPDATE, aWindow); aWindow->InitEvent(compositionUpdate, &point); compositionUpdate.data = mCompositionString; mLastDispatchedCompositionString = mCompositionString; aWindow->DispatchWindowEvent(&compositionUpdate); if (!mIsComposing || aWindow->Destroyed()) { return; } SetIMERelatedWindowsPos(aWindow, aIMEContext); } nsTextEvent event(true, NS_TEXT_TEXT, aWindow); aWindow->InitEvent(event, &point); nsAutoTArray textRanges; if (aCheckAttr) { SetTextRangeList(textRanges); } event.rangeCount = textRanges.Length(); event.rangeArray = textRanges.Elements(); event.theText = mCompositionString.get(); mozilla::widget::ModifierKeyState modKeyState; modKeyState.InitInputEvent(event); aWindow->DispatchWindowEvent(&event); SetIMERelatedWindowsPos(aWindow, aIMEContext); } void nsIMM32Handler::SetTextRangeList(nsTArray &aTextRangeList) { // Sogou (Simplified Chinese IME) returns contradictory values: The cursor // position is actual cursor position. However, other values (composition // string and attributes) are empty. So, if you want to remove following // assertion, be careful. NS_ASSERTION(ShouldDrawCompositionStringOurselves(), "SetTextRangeList is called when we don't need to fire text event"); nsTextRange range; if (mClauseArray.Length() == 0) { // Some IMEs don't return clause array information, then, we assume that // all characters in the composition string are in one clause. range.mStartOffset = 0; range.mEndOffset = mCompositionString.Length(); range.mRangeType = NS_TEXTRANGE_RAWINPUT; aTextRangeList.AppendElement(range); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetTextRangeList, mClauseLength=0\n")); } else { // iterate over the attributes uint32_t lastOffset = 0; for (uint32_t i = 0; i < mClauseArray.Length() - 1; i++) { uint32_t current = mClauseArray[i + 1]; if (current > mCompositionString.Length()) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetTextRangeList, mClauseArray[%ld]=%lu. This is larger than mCompositionString.Length()=%lu\n", i + 1, current, mCompositionString.Length())); current = int32_t(mCompositionString.Length()); } range.mRangeType = PlatformToNSAttr(mAttributeArray[lastOffset]); range.mStartOffset = lastOffset; range.mEndOffset = current; aTextRangeList.AppendElement(range); lastOffset = current; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetTextRangeList, index=%ld, rangeType=%s, range=[%lu-%lu]\n", i, GetRangeTypeName(range.mRangeType), range.mStartOffset, range.mEndOffset)); } } if (mCursorPosition == NO_IME_CARET) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetTextRangeList, no caret\n")); return; } int32_t cursor = mCursorPosition; if (uint32_t(cursor) > mCompositionString.Length()) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetTextRangeList, mCursorPosition=%ld. This is larger than mCompositionString.Length()=%lu\n", mCursorPosition, mCompositionString.Length())); cursor = mCompositionString.Length(); } range.mStartOffset = range.mEndOffset = cursor; range.mRangeType = NS_TEXTRANGE_CARETPOSITION; aTextRangeList.AppendElement(range); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetTextRangeList, caret position=%ld\n", range.mStartOffset)); } void nsIMM32Handler::GetCompositionString(const nsIMEContext &aIMEContext, DWORD aIndex) { // Retrieve the size of the required output buffer. long lRtn = ::ImmGetCompositionStringW(aIMEContext.get(), aIndex, NULL, 0); if (lRtn < 0 || !EnsureStringLength(mCompositionString, (lRtn / sizeof(WCHAR)) + 1)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCompositionString, FAILED by OOM\n")); return; // Error or out of memory. } // Actually retrieve the composition string information. lRtn = ::ImmGetCompositionStringW(aIMEContext.get(), aIndex, (LPVOID)mCompositionString.BeginWriting(), lRtn + sizeof(WCHAR)); mCompositionString.SetLength(lRtn / sizeof(WCHAR)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCompositionString, SUCCEEDED mCompositionString=\"%s\"\n", NS_ConvertUTF16toUTF8(mCompositionString).get())); } bool nsIMM32Handler::GetTargetClauseRange(uint32_t *aOffset, uint32_t *aLength) { NS_ENSURE_TRUE(aOffset, false); NS_ENSURE_TRUE(mIsComposing, false); NS_ENSURE_TRUE(ShouldDrawCompositionStringOurselves(), false); bool found = false; *aOffset = mCompositionStart; for (uint32_t i = 0; i < mAttributeArray.Length(); i++) { if (mAttributeArray[i] == ATTR_TARGET_NOTCONVERTED || mAttributeArray[i] == ATTR_TARGET_CONVERTED) { *aOffset = mCompositionStart + i; found = true; break; } } if (!aLength) { return true; } if (!found) { // The all composition string is targetted when there is no ATTR_TARGET_* // clause. E.g., there is only ATTR_INPUT *aLength = mCompositionString.Length(); return true; } uint32_t offsetInComposition = *aOffset - mCompositionStart; *aLength = mCompositionString.Length() - offsetInComposition; for (uint32_t i = offsetInComposition; i < mAttributeArray.Length(); i++) { if (mAttributeArray[i] != ATTR_TARGET_NOTCONVERTED && mAttributeArray[i] != ATTR_TARGET_CONVERTED) { *aLength = i - offsetInComposition; break; } } return true; } bool nsIMM32Handler::ConvertToANSIString(const nsAFlatString& aStr, UINT aCodePage, nsACString& aANSIStr) { int len = ::WideCharToMultiByte(aCodePage, 0, (LPCWSTR)aStr.get(), aStr.Length(), NULL, 0, NULL, NULL); NS_ENSURE_TRUE(len >= 0, false); if (!EnsureStringLength(aANSIStr, len)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: ConvertToANSIString, FAILED by OOM\n")); return false; } ::WideCharToMultiByte(aCodePage, 0, (LPCWSTR)aStr.get(), aStr.Length(), (LPSTR)aANSIStr.BeginWriting(), len, NULL, NULL); return true; } bool nsIMM32Handler::GetCharacterRectOfSelectedTextAt(nsWindow* aWindow, uint32_t aOffset, nsIntRect &aCharRect) { nsIntPoint point(0, 0); nsQueryContentEvent selection(true, NS_QUERY_SELECTED_TEXT, aWindow); aWindow->InitEvent(selection, &point); aWindow->DispatchWindowEvent(&selection); if (!selection.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCharacterRectOfSelectedTextAt, aOffset=%lu, FAILED (NS_QUERY_SELECTED_TEXT)\n", aOffset)); return false; } uint32_t offset = selection.mReply.mOffset + aOffset; bool useCaretRect = selection.mReply.mString.IsEmpty(); if (useCaretRect && ShouldDrawCompositionStringOurselves() && mIsComposing && !mCompositionString.IsEmpty()) { // There is not a normal selection, but we have composition string. // XXX mnakano - Should we implement NS_QUERY_IME_SELECTED_TEXT? useCaretRect = false; if (mCursorPosition != NO_IME_CARET) { uint32_t cursorPosition = std::min(mCursorPosition, mCompositionString.Length()); offset -= cursorPosition; NS_ASSERTION(offset >= 0, "offset is negative!"); } } nsIntRect r; if (!useCaretRect) { nsQueryContentEvent charRect(true, NS_QUERY_TEXT_RECT, aWindow); charRect.InitForQueryTextRect(offset, 1); aWindow->InitEvent(charRect, &point); aWindow->DispatchWindowEvent(&charRect); if (charRect.mSucceeded) { aCharRect = charRect.mReply.mRect; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCharacterRectOfSelectedTextAt, aOffset=%lu, SUCCEEDED\n", aOffset)); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCharacterRectOfSelectedTextAt, aCharRect={ x: %ld, y: %ld, width: %ld, height: %ld }\n", aCharRect.x, aCharRect.y, aCharRect.width, aCharRect.height)); return true; } } return GetCaretRect(aWindow, aCharRect); } bool nsIMM32Handler::GetCaretRect(nsWindow* aWindow, nsIntRect &aCaretRect) { nsIntPoint point(0, 0); nsQueryContentEvent selection(true, NS_QUERY_SELECTED_TEXT, aWindow); aWindow->InitEvent(selection, &point); aWindow->DispatchWindowEvent(&selection); if (!selection.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCaretRect, FAILED (NS_QUERY_SELECTED_TEXT)\n")); return false; } uint32_t offset = selection.mReply.mOffset; nsQueryContentEvent caretRect(true, NS_QUERY_CARET_RECT, aWindow); caretRect.InitForQueryCaretRect(offset); aWindow->InitEvent(caretRect, &point); aWindow->DispatchWindowEvent(&caretRect); if (!caretRect.mSucceeded) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCaretRect, FAILED (NS_QUERY_CARET_RECT)\n")); return false; } aCaretRect = caretRect.mReply.mRect; PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: GetCaretRect, SUCCEEDED, aCaretRect={ x: %ld, y: %ld, width: %ld, height: %ld }\n", aCaretRect.x, aCaretRect.y, aCaretRect.width, aCaretRect.height)); return true; } bool nsIMM32Handler::SetIMERelatedWindowsPos(nsWindow* aWindow, const nsIMEContext &aIMEContext) { nsIntRect r; // Get first character rect of current a normal selected text or a composing // string. bool ret = GetCharacterRectOfSelectedTextAt(aWindow, 0, r); NS_ENSURE_TRUE(ret, false); nsWindow* toplevelWindow = aWindow->GetTopLevelWindow(false); nsIntRect firstSelectedCharRect; ResolveIMECaretPos(toplevelWindow, r, aWindow, firstSelectedCharRect); // Set native caret size/position to our caret. Some IMEs honor it. E.g., // "Intelligent ABC" (Simplified Chinese) and "MS PinYin 3.0" (Simplified // Chinese) on XP. nsIntRect caretRect(firstSelectedCharRect); if (GetCaretRect(aWindow, r)) { ResolveIMECaretPos(toplevelWindow, r, aWindow, caretRect); } else { NS_WARNING("failed to get caret rect"); caretRect.width = 1; } if (!mNativeCaretIsCreated) { mNativeCaretIsCreated = ::CreateCaret(aWindow->GetWindowHandle(), nullptr, caretRect.width, caretRect.height); PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetIMERelatedWindowsPos, mNativeCaretIsCreated=%s, width=%ld height=%ld\n", mNativeCaretIsCreated ? "TRUE" : "FALSE", caretRect.width, caretRect.height)); } ::SetCaretPos(caretRect.x, caretRect.y); if (ShouldDrawCompositionStringOurselves()) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetIMERelatedWindowsPos, Set candidate window\n")); // Get a rect of first character in current target in composition string. if (mIsComposing && !mCompositionString.IsEmpty()) { // If there are no targetted selection, we should use it's first character // rect instead. uint32_t offset; if (!GetTargetClauseRange(&offset)) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetIMERelatedWindowsPos, FAILED, by GetTargetClauseRange\n")); return false; } ret = GetCharacterRectOfSelectedTextAt(aWindow, offset - mCompositionStart, r); NS_ENSURE_TRUE(ret, false); } else { // If there are no composition string, we should use a first character // rect. ret = GetCharacterRectOfSelectedTextAt(aWindow, 0, r); NS_ENSURE_TRUE(ret, false); } nsIntRect firstTargetCharRect; ResolveIMECaretPos(toplevelWindow, r, aWindow, firstTargetCharRect); // Move the candidate window to first character position of the target. CANDIDATEFORM candForm; candForm.dwIndex = 0; candForm.dwStyle = CFS_EXCLUDE; candForm.ptCurrentPos.x = firstTargetCharRect.x; candForm.ptCurrentPos.y = firstTargetCharRect.y; candForm.rcArea.right = candForm.rcArea.left = candForm.ptCurrentPos.x; candForm.rcArea.top = candForm.ptCurrentPos.y; candForm.rcArea.bottom = candForm.ptCurrentPos.y + firstTargetCharRect.height; ::ImmSetCandidateWindow(aIMEContext.get(), &candForm); } else { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: SetIMERelatedWindowsPos, Set composition window\n")); // Move the composition window to caret position (if selected some // characters, we should use first character rect of them). // And in this mode, IME adjusts the candidate window position // automatically. So, we don't need to set it. COMPOSITIONFORM compForm; compForm.dwStyle = CFS_POINT; compForm.ptCurrentPos.x = firstSelectedCharRect.x; compForm.ptCurrentPos.y = firstSelectedCharRect.y; ::ImmSetCompositionWindow(aIMEContext.get(), &compForm); } return true; } void nsIMM32Handler::ResolveIMECaretPos(nsIWidget* aReferenceWidget, nsIntRect& aCursorRect, nsIWidget* aNewOriginWidget, nsIntRect& aOutRect) { aOutRect = aCursorRect; if (aReferenceWidget == aNewOriginWidget) return; if (aReferenceWidget) aOutRect.MoveBy(aReferenceWidget->WidgetToScreenOffset()); if (aNewOriginWidget) aOutRect.MoveBy(-aNewOriginWidget->WidgetToScreenOffset()); } bool nsIMM32Handler::OnMouseEvent(nsWindow* aWindow, LPARAM lParam, int aAction) { if (!sWM_MSIME_MOUSE || !mIsComposing || !ShouldDrawCompositionStringOurselves()) { return false; } nsIntPoint cursor(LOWORD(lParam), HIWORD(lParam)); nsQueryContentEvent charAtPt(true, NS_QUERY_CHARACTER_AT_POINT, aWindow); aWindow->InitEvent(charAtPt, &cursor); aWindow->DispatchWindowEvent(&charAtPt); if (!charAtPt.mSucceeded || charAtPt.mReply.mOffset == nsQueryContentEvent::NOT_FOUND || charAtPt.mReply.mOffset < mCompositionStart || charAtPt.mReply.mOffset > mCompositionStart + mCompositionString.Length()) { return false; } // calcurate positioning and offset // char : JCH1|JCH2|JCH3 // offset: 0011 1122 2233 // positioning: 2301 2301 2301 nsIntRect cursorInTopLevel, cursorRect(cursor, nsIntSize(0, 0)); ResolveIMECaretPos(aWindow, cursorRect, aWindow->GetTopLevelWindow(false), cursorInTopLevel); int32_t cursorXInChar = cursorInTopLevel.x - charAtPt.mReply.mRect.x; // The event might hit to zero-width character, see bug 694913. // The reason might be: // * There are some zero-width characters are actually. // * font-size is specified zero. // But nobody reproduced this bug actually... // We should assume that user clicked on right most of the zero-width // character in such case. int positioning = 1; if (charAtPt.mReply.mRect.width > 0) { positioning = cursorXInChar * 4 / charAtPt.mReply.mRect.width; positioning = (positioning + 2) % 4; } int offset = charAtPt.mReply.mOffset - mCompositionStart; if (positioning < 2) { offset++; } PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnMouseEvent, x,y=%ld,%ld, offset=%ld, positioning=%ld\n", cursor.x, cursor.y, offset, positioning)); // send MS_MSIME_MOUSE message to default IME window. HWND imeWnd = ::ImmGetDefaultIMEWnd(aWindow->GetWindowHandle()); nsIMEContext IMEContext(aWindow->GetWindowHandle()); return ::SendMessageW(imeWnd, sWM_MSIME_MOUSE, MAKELONG(MAKEWORD(aAction, positioning), offset), (LPARAM) IMEContext.get()) == 1; } /* static */ bool nsIMM32Handler::OnKeyDownEvent(nsWindow* aWindow, WPARAM wParam, LPARAM lParam, bool &aEatMessage) { PR_LOG(gIMM32Log, PR_LOG_ALWAYS, ("IMM32: OnKeyDownEvent, hWnd=%08x, wParam=%08x, lParam=%08x\n", aWindow->GetWindowHandle(), wParam, lParam)); aEatMessage = false; switch (wParam) { case VK_PROCESSKEY: // If we receive when IME isn't open, it means IME is opening right now. if (sIsIME) { nsIMEContext IMEContext(aWindow->GetWindowHandle()); sIsIMEOpening = IMEContext.IsValid() && !::ImmGetOpenStatus(IMEContext.get()); } return false; case VK_TAB: case VK_PRIOR: case VK_NEXT: case VK_END: case VK_HOME: case VK_LEFT: case VK_UP: case VK_RIGHT: case VK_DOWN: // If IME didn't process the key message (the virtual key code wasn't // converted to VK_PROCESSKEY), and the virtual key code event causes // to move caret, we should cancel the composition here. Then, this // event will be dispatched. // XXX I think that we should dispatch all key events during composition, // and nsEditor should cancel/commit the composition if it *thinks* // it's needed. if (IsComposingOnOurEditor()) { // NOTE: We don't need to cancel the composition on another window. CancelComposition(aWindow, false); } return false; default: return false; } }