void SelectionStart::set(PropertyReceiver* receiver, const String& value) { Editbox* eb = static_cast<Editbox*>(receiver); uint selStart = PropertyHelper::stringToUint(value); eb->setSelection(selStart, selStart + eb->getSelectionLength()); }
//----------------------------------------------------------------------------// void FalagardEditbox::render() { Editbox* w = static_cast<Editbox*>(d_window); const StateImagery* imagery; // draw container etc // get WidgetLookFeel for the assigned look. const WidgetLookFeel& wlf = getLookNFeel(); // try and get imagery for the approprite state. imagery = &wlf.getStateImagery( w->isDisabled() ? "Disabled" : (w->isReadOnly() ? "ReadOnly" : "Enabled")); // peform the rendering operation for the container. imagery->render(*w); // get destination area for text const Rect textArea(wlf.getNamedArea("TextArea").getArea().getPixelRect(*w)); // // Required preliminary work for text rendering operations // Font* font = w->getFont(); // no font == no more rendering if (!font) return; // This will point to the final string to be used for rendering. Useful // because it means we do not have to have duplicate code or be copying // getText() for handling masked/unmasked text. String* editText; // Create a 'masked' version of the string if needed. String maskedText, windowText; if (w->isTextMasked()) { maskedText.insert(0, w->getText().length(), w->getMaskCodePoint()); editText = &maskedText; } // text not masked to editText will be the windows getText() String. else { windowText = w->getTextVisual(); editText = &windowText; } // calculate best position to render text to ensure carat is always visible float textOffset; size_t cartIndex = w->getCaratIndex(); #ifdef CEGUI_BIDI_SUPPORT // the char before the cart bidi type bool currCharIsRtl = false; if ((editText->size() > 0) && (cartIndex > 0)) { size_t curCartIndex = w->getCaratIndex(); BidiCharType charBeforeCartType = w->getBiDiVisualMapping()-> getBidiCharType((*editText)[curCartIndex - 1]); // for neutral chars you decide by the char after for (; BCT_NEUTRAL == charBeforeCartType && (editText->size() > curCartIndex); curCartIndex++) { charBeforeCartType = w->getBiDiVisualMapping()-> getBidiCharType((*editText)[curCartIndex - 1]); } currCharIsRtl = (BCT_RIGHT_TO_LEFT == charBeforeCartType); } bool isFirstChar = cartIndex == 0; // the pos is by the char before if (!isFirstChar) cartIndex--; // we need to find the cart pos by the logical to visual map if (w->getBiDiVisualMapping()->getV2lMapping().size() > cartIndex) cartIndex = w->getBiDiVisualMapping()->getL2vMapping()[cartIndex]; // for non RTL char - the cart pos is after the char if (!currCharIsRtl) cartIndex++; // if first char is not rtl - we need to stand at the start of the line if (isFirstChar) { bool firstCharRtl = (editText->size() > 0) && (BCT_RIGHT_TO_LEFT == w->getBiDiVisualMapping()-> getBidiCharType((*editText)[0])); if (!firstCharRtl) cartIndex--; } #endif float extentToCarat = font->getTextExtent(editText->substr(0, cartIndex)); // get carat imagery const ImagerySection& caratImagery = wlf.getImagerySection("Carat"); // store carat width float caratWidth = caratImagery.getBoundingRect(*w, textArea).getWidth(); // if box is inactive if (!w->hasInputFocus()) textOffset = d_lastTextOffset; // if carat is to the left of the box else if ((d_lastTextOffset + extentToCarat) < 0) textOffset = -extentToCarat; // if carat is off to the right. else if ((d_lastTextOffset + extentToCarat) >= (textArea.getWidth() - caratWidth)) textOffset = textArea.getWidth() - extentToCarat - caratWidth; // else carat is already within the box else textOffset = d_lastTextOffset; ColourRect colours; float alpha_comp = w->getEffectiveAlpha(); // // Draw label text // // setup initial rect for text formatting Rect text_part_rect(textArea); // allow for scroll position text_part_rect.d_left += textOffset; // centre text vertically within the defined text area text_part_rect.d_top += (textArea.getHeight() - font->getFontHeight()) * 0.5f; // get unhighlighted text colour (saves accessing property twice) colour unselectedColour(getUnselectedTextColour()); // see if the editbox is active or inactive. bool active = (!w->isReadOnly()) && w->hasInputFocus(); #ifdef CEGUI_BIDI_SUPPORT if (w->getSelectionLength() == 0) { // no highlighted text - we can draw the whole thing colours.setColours(unselectedColour); colours.modulateAlpha(alpha_comp); font->drawText(w->getGeometryBuffer(), *editText, text_part_rect.getPosition(), &textArea, colours); // adjust rect for next section text_part_rect.d_left += font->getTextExtent(*editText); } else { // there is highlighted text - because of the BiDi support - the // highlighted area can be in some cases nonconsecutive. // So - we need to draw it char by char (I guess we can optimize it more // but this is not that big performance hit because it only happens if // we have highlighted text - not that common...) for (size_t i = 0 ; i < editText->size() ; i++) { // get the char String currChar = editText->substr(i, 1); size_t realPos = 0; // get he visual pos of the char if (w->getBiDiVisualMapping()->getV2lMapping().size() > i) { realPos = w->getBiDiVisualMapping()->getV2lMapping()[i]; } // check if it is in the highlighted region bool highlighted = realPos >= w->getSelectionStartIndex() && realPos < w->getSelectionStartIndex() + w->getSelectionLength(); float charAdvance = font->getGlyphData(currChar[0])->getAdvance(1.0f); if (highlighted) { colours.setColours(getSelectedTextColour()); colours.modulateAlpha(alpha_comp); { // calculate area for selection imagery. Rect hlarea(textArea); hlarea.d_left = text_part_rect.d_left ; hlarea.d_right = text_part_rect.d_left + charAdvance ; // render the selection imagery. wlf.getStateImagery(active ? "ActiveSelection" : "InactiveSelection"). render(*w, hlarea, 0, &textArea); } } else { colours.setColours(unselectedColour); colours.modulateAlpha(alpha_comp); } font->drawText(w->getGeometryBuffer(), currChar, text_part_rect.getPosition(), &textArea, colours); // adjust rect for next section text_part_rect.d_left += charAdvance; } } #else // // Render selection imagery. // if (w->getSelectionLength() != 0) { // calculate required start and end offsets of selection imagery. float selStartOffset = font->getTextExtent(editText->substr(0, w->getSelectionStartIndex())); float selEndOffset = font->getTextExtent(editText->substr(0, w->getSelectionEndIndex())); // calculate area for selection imagery. Rect hlarea(textArea); hlarea.d_left += textOffset + selStartOffset; hlarea.d_right = hlarea.d_left + (selEndOffset - selStartOffset); // render the selection imagery. wlf.getStateImagery(active ? "ActiveSelection" : "InactiveSelection"). render(*w, hlarea, 0, &textArea); } // draw pre-highlight text String sect = editText->substr(0, w->getSelectionStartIndex()); colours.setColours(unselectedColour); colours.modulateAlpha(alpha_comp); font->drawText(w->getGeometryBuffer(), sect, text_part_rect.getPosition(), &textArea, colours); // adjust rect for next section text_part_rect.d_left += font->getTextExtent(sect); // draw highlight text sect = editText->substr(w->getSelectionStartIndex(), w->getSelectionLength()); colours.setColours(getSelectedTextColour()); colours.modulateAlpha(alpha_comp); font->drawText(w->getGeometryBuffer(), sect, text_part_rect.getPosition(), &textArea, colours); // adjust rect for next section text_part_rect.d_left += font->getTextExtent(sect); // draw post-highlight text sect = editText->substr(w->getSelectionEndIndex()); colours.setColours(unselectedColour); colours.modulateAlpha(alpha_comp); font->drawText(w->getGeometryBuffer(), sect, text_part_rect.getPosition(), &textArea, colours); // remember this for next time. d_lastTextOffset = textOffset; #endif // // Render carat // if (active && (!d_blinkCaret || d_showCaret)) { Rect caratRect(textArea); caratRect.d_left += extentToCarat + textOffset; caratImagery.render(*w, caratRect, 0, &textArea); } }