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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_vcl.hxx" #include #include #include #include #include #include #include #include #include "unx/salunx.h" #include "unx/XIM.h" #include "unx/i18n_cb.hxx" #include "unx/i18n_status.hxx" #include "unx/i18n_ic.hxx" #include "unx/i18n_im.hxx" #include "salframe.hxx" // ------------------------------------------------------------------------- // // i. preedit start callback // // ------------------------------------------------------------------------- int PreeditStartCallback ( XIC, XPointer client_data, XPointer ) { preedit_data_t* pPreeditData = (preedit_data_t*)client_data; if ( pPreeditData->eState == ePreeditStatusActivationRequired ) { pPreeditData->eState = ePreeditStatusActive; pPreeditData->aText.nCursorPos = 0; pPreeditData->aText.nLength = 0; } return -1; } // ------------------------------------------------------------------------- // // ii. preedit done callback // // ------------------------------------------------------------------------- void PreeditDoneCallback ( XIC, XPointer client_data, XPointer ) { preedit_data_t* pPreeditData = (preedit_data_t*)client_data; if (pPreeditData->eState == ePreeditStatusActive ) { if( pPreeditData->pFrame ) pPreeditData->pFrame->CallCallback( SALEVENT_ENDEXTTEXTINPUT, (void*)NULL ); } pPreeditData->eState = ePreeditStatusStartPending; } // ------------------------------------------------------------------------- // // iii. preedit draw callback // // ------------------------------------------------------------------------- // // Handle deletion of text in a preedit_draw_callback // from and howmuch are guaranteed to be nonnegative // void Preedit_DeleteText(preedit_text_t *ptext, int from, int howmuch) { // If we've been asked to delete no text then just set // nLength correctly and return if (ptext->nLength == 0) { ptext->nLength = from; return; } int to = from + howmuch; if (to == (int)ptext->nLength) { // delete from the end of the text ptext->nLength = from; } else if (to < (int)ptext->nLength) { // cut out of the middle of the text memmove( (void*)(ptext->pUnicodeBuffer + from), (void*)(ptext->pUnicodeBuffer + to), (ptext->nLength - to) * sizeof(sal_Unicode)); memmove( (void*)(ptext->pCharStyle + from), (void*)(ptext->pCharStyle + to), (ptext->nLength - to) * sizeof(XIMFeedback)); ptext->nLength -= howmuch; } else // if ( to > pText->nLength ) { // XXX this indicates an error, are we out of sync ? fprintf(stderr, "Preedit_DeleteText( from=%i to=%i length=%i )\n", from, to, ptext->nLength ); fprintf (stderr, "\t XXX internal error, out of sync XXX\n"); ptext->nLength = from; } // NULL-terminate the string ptext->pUnicodeBuffer[ptext->nLength] = (sal_Unicode)0; } // reallocate the textbuffer with sufficiently large size 2^x // nnewlimit is presupposed to be larger than ptext->size void enlarge_buffer ( preedit_text_t *ptext, int nnewlimit ) { size_t nnewsize = ptext->nSize; while ( nnewsize <= (size_t)nnewlimit ) nnewsize *= 2; ptext->nSize = nnewsize; ptext->pUnicodeBuffer = (sal_Unicode*)realloc((void*)ptext->pUnicodeBuffer, nnewsize * sizeof(sal_Unicode)); ptext->pCharStyle = (XIMFeedback*)realloc((void*)ptext->pCharStyle, nnewsize * sizeof(XIMFeedback)); } // // Handle insertion of text in a preedit_draw_callback // string field of XIMText struct is guaranteed to be != NULL // void Preedit_InsertText(preedit_text_t *pText, XIMText *pInsertText, int where, Bool isMultilingual) { sal_Unicode *pInsertTextString; int nInsertTextLength = 0; XIMFeedback *pInsertTextCharStyle = pInsertText->feedback; nInsertTextLength = pInsertText->length; if (isMultilingual) { XIMUnicodeText *pUniText = (XIMUnicodeText*)pInsertText; pInsertTextString = pUniText->string.utf16_char; } else { // can't handle wchar_t strings, so convert to multibyte chars first char *pMBString; size_t nMBLength; if (pInsertText->encoding_is_wchar) { wchar_t *pWCString = pInsertText->string.wide_char; size_t nBytes = wcstombs ( NULL, pWCString, 1024 /* dont care */); pMBString = (char*)alloca( nBytes + 1 ); nMBLength = wcstombs ( pMBString, pWCString, nBytes + 1); } else { pMBString = pInsertText->string.multi_byte; nMBLength = strlen(pMBString); // xxx } // convert multibyte chars to unicode rtl_TextEncoding nEncoding = osl_getThreadTextEncoding(); if (nEncoding != RTL_TEXTENCODING_UNICODE) { rtl_TextToUnicodeConverter aConverter = rtl_createTextToUnicodeConverter( nEncoding ); rtl_TextToUnicodeContext aContext = rtl_createTextToUnicodeContext(aConverter); sal_Size nBufferSize = nInsertTextLength * 2; pInsertTextString = (sal_Unicode*)alloca(nBufferSize); sal_uInt32 nConversionInfo; sal_Size nConvertedChars; rtl_convertTextToUnicode( aConverter, aContext, pMBString, nMBLength, pInsertTextString, nBufferSize, RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_IGNORE | RTL_TEXTTOUNICODE_FLAGS_INVALID_IGNORE, &nConversionInfo, &nConvertedChars ); rtl_destroyTextToUnicodeContext(aConverter, aContext); rtl_destroyTextToUnicodeConverter(aConverter); } else { pInsertTextString = (sal_Unicode*)pMBString; } } // enlarge target text-buffer if necessary if (pText->nSize <= (pText->nLength + nInsertTextLength)) enlarge_buffer(pText, pText->nLength + nInsertTextLength); // insert text: displace old mem and put new bytes in int from = where; int to = where + nInsertTextLength; int howmany = pText->nLength - where; memmove((void*)(pText->pUnicodeBuffer + to), (void*)(pText->pUnicodeBuffer + from), howmany * sizeof(sal_Unicode)); memmove((void*)(pText->pCharStyle + to), (void*)(pText->pCharStyle + from), howmany * sizeof(XIMFeedback)); to = from; howmany = nInsertTextLength; memcpy((void*)(pText->pUnicodeBuffer + to), (void*)pInsertTextString, howmany * sizeof(sal_Unicode)); memcpy((void*)(pText->pCharStyle + to), (void*)pInsertTextCharStyle, howmany * sizeof(XIMFeedback)); pText->nLength += howmany; // NULL-terminate the string pText->pUnicodeBuffer[pText->nLength] = (sal_Unicode)0; } // // Handle the change of attributes in a preedit_draw_callback // void Preedit_UpdateAttributes ( preedit_text_t* ptext, XIMFeedback* feedback, int from, int amount ) { if ( (from + amount) > (int)ptext->nLength ) { // XXX this indicates an error, are we out of sync ? fprintf (stderr, "Preedit_UpdateAttributes( %i + %i > %i )\n", from, amount, ptext->nLength ); fprintf (stderr, "\t XXX internal error, out of sync XXX\n"); return; } memcpy ( ptext->pCharStyle + from, feedback, amount * sizeof(XIMFeedback) ); } // Convert the XIM feedback values into appropriate VCL // SAL_EXTTEXTINPUT_ATTR values // returns an allocate list of attributes, which must be freed by caller sal_uInt16* Preedit_FeedbackToSAL ( XIMFeedback* pfeedback, int nlength, std::vector& rSalAttr ) { sal_uInt16 *psalattr; sal_uInt16 nval; sal_uInt16 noldval = 0; XIMFeedback nfeedback; // only work with reasonable length if (nlength > 0 && nlength > sal::static_int_cast(rSalAttr.size()) ) { rSalAttr.reserve( nlength ); psalattr = &rSalAttr[0]; } else return (sal_uInt16*)NULL; for (int npos = 0; npos < nlength; npos++) { nval = 0; nfeedback = pfeedback[npos]; // means to use the feedback of the previous char if (nfeedback == 0) { nval = noldval; } // convert feedback to attributes else { if (nfeedback & XIMReverse) nval |= SAL_EXTTEXTINPUT_ATTR_HIGHLIGHT; if (nfeedback & XIMUnderline) nval |= SAL_EXTTEXTINPUT_ATTR_UNDERLINE; if (nfeedback & XIMHighlight) nval |= SAL_EXTTEXTINPUT_ATTR_HIGHLIGHT; if (nfeedback & XIMPrimary) nval |= SAL_EXTTEXTINPUT_ATTR_DOTTEDUNDERLINE; if (nfeedback & XIMSecondary) nval |= SAL_EXTTEXTINPUT_ATTR_DASHDOTUNDERLINE; if (nfeedback & XIMTertiary) // same as 2ery nval |= SAL_EXTTEXTINPUT_ATTR_DASHDOTUNDERLINE; /* // visibility feedback not supported now if ( (nfeedback & XIMVisibleToForward) || (nfeedback & XIMVisibleToBackward) || (nfeedback & XIMVisibleCenter) ) { } */ } // copy in list psalattr[npos] = nval; noldval = nval; } // return list of sal attributes return psalattr; } void PreeditDrawCallback(XIC ic, XPointer client_data, XIMPreeditDrawCallbackStruct *call_data) { preedit_data_t* pPreeditData = (preedit_data_t*)client_data; // if there's nothing to change then change nothing if ( ( (call_data->text == NULL) && (call_data->chg_length == 0) ) || pPreeditData->pFrame == NULL ) return; // #88564# Solaris 7 deletes the preedit buffer after commit // since the next call to preeditstart will have the same effect just skip this. // if (pPreeditData->eState == ePreeditStatusStartPending && call_data->text == NULL) // return; if ( pPreeditData->eState == ePreeditStatusStartPending ) pPreeditData->eState = ePreeditStatusActivationRequired; PreeditStartCallback( ic, client_data, NULL ); // Edit the internal textbuffer as indicated by the call_data, // chg_first and chg_length are guaranteed to be nonnegative // handle text deletion if (call_data->text == NULL) { Preedit_DeleteText(&(pPreeditData->aText), call_data->chg_first, call_data->chg_length ); } else { // handle text insertion if ( (call_data->chg_length == 0) && (call_data->text->string.wide_char != NULL)) { Preedit_InsertText(&(pPreeditData->aText), call_data->text, call_data->chg_first, pPreeditData->bIsMultilingual); } else // handle text replacement by deletion and insertion of text, // not smart, just good enough if ( (call_data->chg_length != 0) && (call_data->text->string.wide_char != NULL)) { Preedit_DeleteText(&(pPreeditData->aText), call_data->chg_first, call_data->chg_length); Preedit_InsertText(&(pPreeditData->aText), call_data->text, call_data->chg_first, pPreeditData->bIsMultilingual); } else // not really a text update, only attributes are concerned if ( (call_data->chg_length != 0) && (call_data->text->string.wide_char == NULL)) { Preedit_UpdateAttributes(&(pPreeditData->aText), call_data->text->feedback, call_data->chg_first, call_data->chg_length); } } // // build the SalExtTextInputEvent and send it up // pPreeditData->aInputEv.mnTime = 0; pPreeditData->aInputEv.mpTextAttr = Preedit_FeedbackToSAL( pPreeditData->aText.pCharStyle, pPreeditData->aText.nLength, pPreeditData->aInputFlags); pPreeditData->aInputEv.mnCursorPos = call_data->caret; pPreeditData->aInputEv.maText = String (pPreeditData->aText.pUnicodeBuffer, pPreeditData->aText.nLength); pPreeditData->aInputEv.mnCursorFlags = 0; // default: make cursor visible pPreeditData->aInputEv.mnDeltaStart = 0; // call_data->chg_first; pPreeditData->aInputEv.mbOnlyCursor = False; if ( pPreeditData->eState == ePreeditStatusActive && pPreeditData->pFrame ) pPreeditData->pFrame->CallCallback(SALEVENT_EXTTEXTINPUT, (void*)&pPreeditData->aInputEv); if (pPreeditData->aText.nLength == 0 && pPreeditData->pFrame ) pPreeditData->pFrame->CallCallback( SALEVENT_ENDEXTTEXTINPUT, (void*)NULL ); if (pPreeditData->aText.nLength == 0) pPreeditData->eState = ePreeditStatusStartPending; GetPreeditSpotLocation(ic, (XPointer)pPreeditData); } void GetPreeditSpotLocation(XIC ic, XPointer client_data) { // // Send SalEventExtTextInputPos event to get spotlocation // SalExtTextInputPosEvent mPosEvent; preedit_data_t* pPreeditData = (preedit_data_t*)client_data; if( pPreeditData->pFrame ) pPreeditData->pFrame->CallCallback(SALEVENT_EXTTEXTINPUTPOS, (void*)&mPosEvent); XPoint point; point.x = mPosEvent.mnX + mPosEvent.mnWidth; point.y = mPosEvent.mnY + mPosEvent.mnHeight; XVaNestedList preedit_attr; preedit_attr = XVaCreateNestedList(0, XNSpotLocation, &point, NULL); XSetICValues(ic, XNPreeditAttributes, preedit_attr, NULL); XFree(preedit_attr); return; } // ------------------------------------------------------------------------- // // iv. preedit caret callback // // ------------------------------------------------------------------------- #if OSL_DEBUG_LEVEL > 1 void PreeditCaretCallback ( XIC ic, XPointer client_data, XIMPreeditCaretCallbackStruct *call_data ) #else void PreeditCaretCallback ( XIC, XPointer,XIMPreeditCaretCallbackStruct* ) #endif { #if OSL_DEBUG_LEVEL > 1 // XXX PreeditCaretCallback is pure debug code for now const char *direction = "?"; const char *style = "?"; switch ( call_data->style ) { case XIMIsInvisible: style = "Invisible"; break; case XIMIsPrimary: style = "Primary"; break; case XIMIsSecondary: style = "Secondary"; break; } switch ( call_data->direction ) { case XIMForwardChar: direction = "Forward char"; break; case XIMBackwardChar: direction = "Backward char"; break; case XIMForwardWord: direction = "Forward word"; break; case XIMBackwardWord: direction = "Backward word"; break; case XIMCaretUp: direction = "Caret up"; break; case XIMCaretDown: direction = "Caret down"; break; case XIMNextLine: direction = "Next line"; break; case XIMPreviousLine: direction = "Previous line"; break; case XIMLineStart: direction = "Line start"; break; case XIMLineEnd: direction = "Line end"; break; case XIMAbsolutePosition: direction = "Absolute"; break; case XIMDontChange: direction = "Dont change"; break; } fprintf (stderr, "PreeditCaretCallback( ic=%p, client=%p,\n", ic, client_data ); fprintf (stderr, "\t position=%i, direction=\"%s\", style=\"%s\" )\n", call_data->position, direction, style ); #endif } // ----------------------------------------------------------------------- // // v. commit string callback: convert an extended text input (iiimp ... ) // into an ordinary key-event // // ----------------------------------------------------------------------- Bool IsControlCode(sal_Unicode nChar) { if ( nChar <= 0x1F // C0 controls /* || (0x80 <= nChar && nChar <= 0x9F) C1 controls */ ) return True; else return False; } int CommitStringCallback( XIC ic, XPointer client_data, XPointer call_data ) { preedit_data_t* pPreeditData = (preedit_data_t*)client_data; XIMUnicodeText *cbtext = (XIMUnicodeText *)call_data; sal_Unicode *p_unicode_data = (sal_Unicode*)cbtext->string.utf16_char; // #86964# filter unexpected pure control events if (cbtext->length == 1 && IsControlCode(p_unicode_data[0]) ) { if( pPreeditData->pFrame ) { pPreeditData->pFrame->CallCallback( SALEVENT_ENDEXTTEXTINPUT, (void*)NULL ); } } else { if( pPreeditData->pFrame ) { pPreeditData->aInputEv.mnTime = 0; pPreeditData->aInputEv.mpTextAttr = 0; pPreeditData->aInputEv.mnCursorPos = cbtext->length; pPreeditData->aInputEv.maText = UniString(p_unicode_data, cbtext->length); pPreeditData->aInputEv.mnCursorFlags = 0; // default: make cursor visible pPreeditData->aInputEv.mnDeltaStart = 0; pPreeditData->aInputEv.mbOnlyCursor = False; pPreeditData->pFrame->CallCallback( SALEVENT_EXTTEXTINPUT, (void*)&pPreeditData->aInputEv); pPreeditData->pFrame->CallCallback( SALEVENT_ENDEXTTEXTINPUT, (void*)NULL ); } } pPreeditData->eState = ePreeditStatusStartPending; GetPreeditSpotLocation(ic, (XPointer)pPreeditData); return 0; } // ---------------------------------------------------------------------------------- // // vi. status callbacks: for now these are empty, they are just needed for turbo linux // // ---------------------------------------------------------------------------------- void StatusStartCallback (XIC, XPointer, XPointer) { return; } void StatusDoneCallback (XIC, XPointer, XPointer) { return; } void StatusDrawCallback (XIC ic, XPointer client_data, XIMStatusDrawCallbackStruct *call_data) { preedit_data_t* pPreeditData = (preedit_data_t*)client_data; if( pPreeditData->bIsMultilingual ) { // IIIMP XIMUnicodeText *cbtext = (XIMUnicodeText *)call_data->data.text; ::vcl::I18NStatus::get().setStatusText( String( cbtext->string.utf16_char, call_data->data.text->length ) ); XIMUnicodeCharacterSubset* pSubset = NULL; if( ! XGetICValues( ic, XNUnicodeCharacterSubset, & pSubset, NULL ) && pSubset ) { ::vcl::I18NStatus::get().changeIM( String( ByteString( pSubset->name ), RTL_TEXTENCODING_UTF8 ) ); #if OSL_DEBUG_LEVEL > 1 fprintf( stderr, "got XNUnicodeCharacterSubset\n %d\n %d\n %s\n %d\n", pSubset->index, pSubset->subset_id, pSubset->name, pSubset->is_active ); #endif } } else if( call_data->type == XIMTextType ) { String aText; if( call_data->data.text ) { // XIM with text sal_Char* pMBString = NULL; size_t nLength = 0; if( call_data->data.text->encoding_is_wchar ) { if( call_data->data.text->string.wide_char ) { wchar_t* pWString = call_data->data.text->string.wide_char; size_t nBytes = wcstombs( NULL, pWString, 1024 ); pMBString = (sal_Char*)alloca( nBytes+1 ); nLength = wcstombs( pMBString, pWString, nBytes+1 ); } } else { if( call_data->data.text->string.multi_byte ) { pMBString = call_data->data.text->string.multi_byte; nLength = strlen( pMBString ); } } if( nLength ) aText = String( pMBString, nLength, gsl_getSystemTextEncoding() ); } ::vcl::I18NStatus::get().setStatusText( aText ); } #if OSL_DEBUG_LEVEL > 1 else fprintf( stderr, "XIMStatusDataType %s not supported\n", call_data->type == XIMBitmapType ? "XIMBitmapType" : ByteString::CreateFromInt32( call_data->type ).GetBuffer() ); #endif return; } void SwitchIMCallback (XIC, XPointer, XPointer call_data) { XIMSwitchIMNotifyCallbackStruct* pCallData = (XIMSwitchIMNotifyCallbackStruct*)call_data; ::vcl::I18NStatus::get().changeIM( String( ByteString( pCallData->to->name ), RTL_TEXTENCODING_UTF8 ) ); } // ---------------------------------------------------------------------------------- // // vii. destroy callbacks: internally disable all IC/IM calls // // ---------------------------------------------------------------------------------- void IC_IMDestroyCallback (XIM, XPointer client_data, XPointer) { SalI18N_InputContext *pContext = (SalI18N_InputContext*)client_data; if (pContext != NULL) pContext->HandleDestroyIM(); } void IM_IMDestroyCallback (XIM, XPointer client_data, XPointer) { SalI18N_InputMethod *pMethod = (SalI18N_InputMethod*)client_data; if (pMethod != NULL) pMethod->HandleDestroyIM(); }