/** * @file llscrolllistctrl.cpp * @brief LLScrollListCtrl base class * * $LicenseInfo:firstyear=2001&license=viewergpl$ * * Copyright (c) 2001-2009, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include #include "linden_common.h" #include "llstl.h" #include "llboost.h" #include "llscrolllistctrl.h" #include "indra_constants.h" #include "llcheckboxctrl.h" #include "llclipboard.h" #include "llfocusmgr.h" #include "llrender.h" #include "llresmgr.h" #include "llscrollbar.h" #include "llstring.h" #include "llui.h" #include "lluictrlfactory.h" #include "llwindow.h" #include "llcontrol.h" #include "llkeyboard.h" #include "llresizebar.h" const S32 MIN_COLUMN_WIDTH = 20; const S32 LIST_SNAP_PADDING = 5; static LLRegisterWidget r("scroll_list"); // local structures & classes. struct SortScrollListItem { SortScrollListItem(const std::vector >& sort_orders) : mSortOrders(sort_orders) {} bool operator()(const LLScrollListItem* i1, const LLScrollListItem* i2) { // sort over all columns in order specified by mSortOrders S32 sort_result = 0; for (sort_order_t::const_reverse_iterator it = mSortOrders.rbegin(); it != mSortOrders.rend(); ++it) { S32 col_idx = it->first; BOOL sort_ascending = it->second; const LLScrollListCell *cell1 = i1->getColumn(col_idx); const LLScrollListCell *cell2 = i2->getColumn(col_idx); S32 order = sort_ascending ? 1 : -1; // ascending or descending sort for this column? if (cell1 && cell2) { sort_result = order * LLStringUtil::compareDict(cell1->getValue().asString(), cell2->getValue().asString()); if (sort_result != 0) { break; // we have a sort order! } } } return sort_result < 0; } typedef std::vector > sort_order_t; const sort_order_t& mSortOrders; }; // // LLScrollListIcon // LLScrollListIcon::LLScrollListIcon(LLUIImagePtr icon, S32 width) : LLScrollListCell(width), mIcon(icon), mColor(LLColor4::white) { } LLScrollListIcon::LLScrollListIcon(const LLSD& value, S32 width) : LLScrollListCell(width), mColor(LLColor4::white) { setValue(value); } LLScrollListIcon::~LLScrollListIcon() { } void LLScrollListIcon::setValue(const LLSD& value) { if (value.isUUID()) { // don't use default image specified by LLUUID::null, use no image in that case LLUUID image_id = value.asUUID(); mIcon = image_id.notNull() ? LLUI::sImageProvider->getUIImageByID(image_id) : LLUIImagePtr(NULL); } else { std::string value_string = value.asString(); if (LLUUID::validate(value_string)) { setValue(LLUUID(value_string)); } else if (!value_string.empty()) { mIcon = LLUI::getUIImage(value.asString()); } else { mIcon = NULL; } } } void LLScrollListIcon::setColor(const LLColor4& color) { mColor = color; } S32 LLScrollListIcon::getWidth() const { // if no specified fix width, use width of icon if (LLScrollListCell::getWidth() == 0 && mIcon.notNull()) { return mIcon->getWidth(); } return LLScrollListCell::getWidth(); } void LLScrollListIcon::draw(const LLColor4& color, const LLColor4& highlight_color) const { if (mIcon) { mIcon->draw(0, 0, mColor); } } // // LLScrollListCheck // LLScrollListCheck::LLScrollListCheck(LLCheckBoxCtrl* check_box, S32 width) { mCheckBox = check_box; LLRect rect(mCheckBox->getRect()); if (width) { rect.mRight = rect.mLeft + width; mCheckBox->setRect(rect); setWidth(width); } else { setWidth(rect.getWidth()); //check_box->getWidth(); } } LLScrollListCheck::~LLScrollListCheck() { delete mCheckBox; } void LLScrollListCheck::draw(const LLColor4& color, const LLColor4& highlight_color) const { mCheckBox->draw(); } BOOL LLScrollListCheck::handleClick() { if (mCheckBox->getEnabled()) { mCheckBox->toggle(); } // don't change selection when clicking on embedded checkbox return TRUE; } // // LLScrollListSeparator // LLScrollListSeparator::LLScrollListSeparator(S32 width) : LLScrollListCell(width) { } //virtual S32 LLScrollListSeparator::getHeight() const { return 5; } void LLScrollListSeparator::draw(const LLColor4& color, const LLColor4& highlight_color) const { //*FIXME: use dynamic item heights and make separators narrow, and inactive gl_line_2d(5, 8, llmax(5, getWidth() - 5), 8, color); } // // LLScrollListText // U32 LLScrollListText::sCount = 0; LLScrollListText::LLScrollListText( const std::string& text, const LLFontGL* font, S32 width, U8 font_style, LLFontGL::HAlign font_alignment, LLColor4& color, BOOL use_color, BOOL visible) : LLScrollListCell(width), mText( text ), mFont( font ), mColor(color), mUseColor(use_color), mFontStyle( font_style ), mFontAlignment( font_alignment ), mVisible( visible ), mHighlightCount( 0 ), mHighlightOffset( 0 ) { sCount++; // initialize rounded rect image if (!mRoundedRectImage) { mRoundedRectImage = LLUI::sImageProvider->getUIImage("rounded_square.tga"); } } //virtual void LLScrollListText::highlightText(S32 offset, S32 num_chars) { mHighlightOffset = offset; mHighlightCount = num_chars; } //virtual BOOL LLScrollListText::isText() const { return TRUE; } //virtual BOOL LLScrollListText::getVisible() const { return mVisible; } //virtual S32 LLScrollListText::getHeight() const { return llround(mFont->getLineHeight()); } LLScrollListText::~LLScrollListText() { sCount--; } S32 LLScrollListText::getContentWidth() const { return mFont->getWidth(mText.getString()); } void LLScrollListText::setColor(const LLColor4& color) { mColor = color; mUseColor = TRUE; } void LLScrollListText::setText(const LLStringExplicit& text) { mText = text; } //virtual void LLScrollListText::setValue(const LLSD& text) { setText(text.asString()); } //virtual const LLSD LLScrollListText::getValue() const { return LLSD(mText.getString()); } void LLScrollListText::draw(const LLColor4& color, const LLColor4& highlight_color) const { LLColor4 display_color; if (mUseColor) { display_color = mColor; } else { display_color = color; } if (mHighlightCount > 0) { S32 left = 0; switch(mFontAlignment) { case LLFontGL::LEFT: left = mFont->getWidth(mText.getString(), 0, mHighlightOffset); break; case LLFontGL::RIGHT: left = getWidth() - mFont->getWidth(mText.getString(), mHighlightOffset, S32_MAX); break; case LLFontGL::HCENTER: left = (getWidth() - mFont->getWidth(mText.getString())) / 2; break; } LLRect highlight_rect(left - 2, llround(mFont->getLineHeight()) + 1, left + mFont->getWidth(mText.getString(), mHighlightOffset, mHighlightCount) + 1, 1); mRoundedRectImage->draw(highlight_rect, highlight_color); } // Try to draw the entire string F32 right_x; U32 string_chars = mText.length(); F32 start_x = 0.f; switch(mFontAlignment) { case LLFontGL::LEFT: start_x = 0.f; break; case LLFontGL::RIGHT: start_x = (F32)getWidth(); break; case LLFontGL::HCENTER: start_x = (F32)getWidth() * 0.5f; break; } mFont->render(mText.getWString(), 0, start_x, 2.f, display_color, mFontAlignment, LLFontGL::BOTTOM, mFontStyle, string_chars, getWidth(), &right_x, FALSE, TRUE); } LLScrollListDate::LLScrollListDate( const LLDate& date, const LLFontGL* font, S32 width, U8 font_style, LLFontGL::HAlign font_alignment, LLColor4& color, BOOL use_color, BOOL visible) : LLScrollListText(date.asRFC1123(), font, width, font_style, font_alignment, color, use_color, visible), mDate(date) { } void LLScrollListDate::setValue(const LLSD& value) { mDate = value.asDate(); LLScrollListText::setValue(mDate.asRFC1123()); } const LLSD LLScrollListDate::getValue() const { return mDate; } LLScrollListItem::~LLScrollListItem() { std::for_each(mColumns.begin(), mColumns.end(), DeletePointer()); } void LLScrollListItem::setNumColumns(S32 columns) { S32 prev_columns = mColumns.size(); if (columns < prev_columns) { std::for_each(mColumns.begin()+columns, mColumns.end(), DeletePointer()); } mColumns.resize(columns); for (S32 col = prev_columns; col < columns; ++col) { mColumns[col] = NULL; } } void LLScrollListItem::setColumn( S32 column, LLScrollListCell *cell ) { if (column < (S32)mColumns.size()) { delete mColumns[column]; mColumns[column] = cell; } else { llerrs << "LLScrollListItem::setColumn: bad column: " << column << llendl; } } std::string LLScrollListItem::getContentsCSV() const { std::string ret; S32 count = getNumColumns(); for (S32 i=0; igetValue().asString(); if (i < count-1) { ret += ", "; } } return ret; } void LLScrollListItem::draw(const LLRect& rect, const LLColor4& fg_color, const LLColor4& bg_color, const LLColor4& highlight_color, S32 column_padding) { // draw background rect LLRect bg_rect = rect; { gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE); gGL.color4fv(bg_color.mV); gl_rect_2d( bg_rect ); } S32 cur_x = rect.mLeft; S32 num_cols = getNumColumns(); S32 cur_col = 0; for (LLScrollListCell* cell = getColumn(0); cur_col < num_cols; cell = getColumn(++cur_col)) { // Two ways a cell could be hidden if (cell->getWidth() < 0 || !cell->getVisible()) continue; LLUI::pushMatrix(); { LLUI::translate((F32) cur_x, (F32) rect.mBottom, 0.0f); cell->draw( fg_color, highlight_color ); } LLUI::popMatrix(); cur_x += cell->getWidth() + column_padding; } } void LLScrollListItem::setEnabled(BOOL b) { mEnabled = b; } //--------------------------------------------------------------------------- // LLScrollListItemComment //--------------------------------------------------------------------------- LLScrollListItemComment::LLScrollListItemComment(const std::string& comment_string, const LLColor4& color) : LLScrollListItem(FALSE), mColor(color) { addColumn( comment_string, LLResMgr::getInstance()->getRes( LLFONT_SANSSERIF_SMALL ) ); } void LLScrollListItemComment::draw(const LLRect& rect, const LLColor4& fg_color, const LLColor4& bg_color, const LLColor4& highlight_color, S32 column_padding) { LLScrollListCell* cell = getColumn(0); if (cell) { // Two ways a cell could be hidden if (cell->getWidth() < 0 || !cell->getVisible()) return; LLUI::pushMatrix(); { LLUI::translate((F32)rect.mLeft, (F32)rect.mBottom, 0.0f); // force first cell to be width of entire item cell->setWidth(rect.getWidth()); cell->draw( mColor, highlight_color ); } LLUI::popMatrix(); } } //--------------------------------------------------------------------------- // LLScrollListItemSeparator //--------------------------------------------------------------------------- LLScrollListItemSeparator::LLScrollListItemSeparator() : LLScrollListItem(FALSE) { LLScrollListSeparator* cell = new LLScrollListSeparator(0); setNumColumns(1); setColumn(0, cell); } void LLScrollListItemSeparator::draw(const LLRect& rect, const LLColor4& fg_color, const LLColor4& bg_color, const LLColor4& highlight_color, S32 column_padding) { //TODO* move LLScrollListSeparator::draw into here and get rid of it LLScrollListCell* cell = getColumn(0); if (cell) { // Two ways a cell could be hidden if (cell->getWidth() < 0 || !cell->getVisible()) return; LLUI::pushMatrix(); { LLUI::translate((F32)rect.mLeft, (F32)rect.mBottom, 0.0f); // force first cell to be width of entire item cell->setWidth(rect.getWidth()); cell->draw( fg_color, highlight_color ); } LLUI::popMatrix(); } } //--------------------------------------------------------------------------- // LLScrollListCtrl //--------------------------------------------------------------------------- LLScrollListCtrl::LLScrollListCtrl(const std::string& name, const LLRect& rect, void (*commit_callback)(LLUICtrl* ctrl, void* userdata), void* callback_user_data, BOOL allow_multiple_selection, BOOL show_border ) : LLUICtrl(name, rect, TRUE, commit_callback, callback_user_data), mLineHeight(0), mScrollLines(0), mPageLines(0), mHeadingHeight(20), mMaxSelectable(0), mAllowMultipleSelection( allow_multiple_selection ), mAllowKeyboardMovement(TRUE), mCommitOnKeyboardMovement(TRUE), mCommitOnSelectionChange(FALSE), mSelectionChanged(FALSE), mNeedsScroll(FALSE), mCanSelect(TRUE), mDisplayColumnHeaders(FALSE), mColumnsDirty(FALSE), mMaxItemCount(INT_MAX), mMaxContentWidth(0), mBackgroundVisible( TRUE ), mDrawStripes(TRUE), mBgWriteableColor( LLUI::sColorsGroup->getColor( "ScrollBgWriteableColor" ) ), mBgReadOnlyColor( LLUI::sColorsGroup->getColor( "ScrollBgReadOnlyColor" ) ), mBgSelectedColor( LLUI::sColorsGroup->getColor("ScrollSelectedBGColor") ), mBgStripeColor( LLUI::sColorsGroup->getColor("ScrollBGStripeColor") ), mFgSelectedColor( LLUI::sColorsGroup->getColor("ScrollSelectedFGColor") ), mFgUnselectedColor( LLUI::sColorsGroup->getColor("ScrollUnselectedColor") ), mFgDisabledColor( LLUI::sColorsGroup->getColor("ScrollDisabledColor") ), mHighlightedColor( LLUI::sColorsGroup->getColor("ScrollHighlightedColor") ), mBorderThickness( 2 ), mOnDoubleClickCallback( NULL ), mOnMaximumSelectCallback( NULL ), mOnSortChangedCallback( NULL ), mHighlightedItem(-1), mBorder(NULL), mSearchColumn(0), mNumDynamicWidthColumns(0), mTotalStaticColumnWidth(0), mTotalColumnPadding(0), mSorted(TRUE), mDirty(FALSE), mOriginalSelection(-1), mDrewSelected(FALSE) { mItemListRect.setOriginAndSize( mBorderThickness, mBorderThickness, getRect().getWidth() - 2 * mBorderThickness, getRect().getHeight() - 2 * mBorderThickness ); updateLineHeight(); mPageLines = mLineHeight? (mItemListRect.getHeight()) / mLineHeight : 0; // Init the scrollbar LLRect scroll_rect; scroll_rect.setOriginAndSize( getRect().getWidth() - mBorderThickness - SCROLLBAR_SIZE, mItemListRect.mBottom, SCROLLBAR_SIZE, mItemListRect.getHeight()); mScrollbar = new LLScrollbar( std::string("Scrollbar"), scroll_rect, LLScrollbar::VERTICAL, getItemCount(), mScrollLines, mPageLines, &LLScrollListCtrl::onScrollChange, this ); mScrollbar->setFollowsRight(); mScrollbar->setFollowsTop(); mScrollbar->setFollowsBottom(); mScrollbar->setEnabled( TRUE ); // scrollbar is visible only when needed mScrollbar->setVisible(FALSE); addChild(mScrollbar); // Border if (show_border) { LLRect border_rect( 0, getRect().getHeight(), getRect().getWidth(), 0 ); mBorder = new LLViewBorder( std::string("dlg border"), border_rect, LLViewBorder::BEVEL_IN, LLViewBorder::STYLE_LINE, 1 ); addChild(mBorder); } mColumnPadding = 5; mLastSelected = NULL; } S32 LLScrollListCtrl::getSearchColumn() { // search for proper search column if (mSearchColumn < 0) { LLScrollListItem* itemp = getFirstData(); if (itemp) { for(S32 column = 0; column < getNumColumns(); column++) { LLScrollListCell* cell = itemp->getColumn(column); if (cell && cell->isText()) { mSearchColumn = column; break; } } } } return llclamp(mSearchColumn, 0, getNumColumns()); } LLScrollListCtrl::~LLScrollListCtrl() { std::for_each(mItemList.begin(), mItemList.end(), DeletePointer()); if( gEditMenuHandler == this ) { gEditMenuHandler = NULL; } } BOOL LLScrollListCtrl::setMaxItemCount(S32 max_count) { if (max_count >= getItemCount()) { mMaxItemCount = max_count; } return (max_count == mMaxItemCount); } S32 LLScrollListCtrl::isEmpty() const { return mItemList.empty(); } S32 LLScrollListCtrl::getItemCount() const { return mItemList.size(); } // virtual LLScrolListInterface function (was deleteAllItems) void LLScrollListCtrl::clearRows() { std::for_each(mItemList.begin(), mItemList.end(), DeletePointer()); mItemList.clear(); //mItemCount = 0; // Scroll the bar back up to the top. mScrollbar->setDocParams(0, 0); mScrollLines = 0; mLastSelected = NULL; updateLayout(); mDirty = FALSE; } LLScrollListItem* LLScrollListCtrl::getFirstSelected() const { item_list::const_iterator iter; for(iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if (item->getSelected()) { return item; } } return NULL; } std::vector LLScrollListCtrl::getAllSelected() const { std::vector ret; item_list::const_iterator iter; for(iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if (item->getSelected()) { ret.push_back(item); } } return ret; } LLDynamicArray LLScrollListCtrl::getSelectedIDs() { LLUUID selected_id; LLDynamicArray ids; std::vector selected = this->getAllSelected(); for(std::vector::iterator itr = selected.begin(); itr != selected.end(); ++itr) { ids.push_back((*itr)->getUUID()); } return ids; } S32 LLScrollListCtrl::getFirstSelectedIndex() const { S32 CurSelectedIndex = 0; item_list::const_iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if (item->getSelected()) { return CurSelectedIndex; } CurSelectedIndex++; } return -1; } LLScrollListItem* LLScrollListCtrl::getFirstData() const { if (mItemList.size() == 0) { return NULL; } return mItemList[0]; } LLScrollListItem* LLScrollListCtrl::getLastData() const { if (mItemList.size() == 0) { return NULL; } return mItemList[mItemList.size() - 1]; } std::vector LLScrollListCtrl::getAllData() const { std::vector ret; item_list::const_iterator iter; for(iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; ret.push_back(item); } return ret; } // returns first matching item LLScrollListItem* LLScrollListCtrl::getItem(const LLSD& sd) const { std::string string_val = sd.asString(); item_list::const_iterator iter; for(iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; // assumes string representation is good enough for comparison if (item->getValue().asString() == string_val) { return item; } } return NULL; } void LLScrollListCtrl::reshape( S32 width, S32 height, BOOL called_from_parent ) { LLUICtrl::reshape( width, height, called_from_parent ); updateLayout(); } void LLScrollListCtrl::updateLayout() { // reserve room for column headers, if needed S32 heading_size = (mDisplayColumnHeaders ? mHeadingHeight : 0); mItemListRect.setOriginAndSize( mBorderThickness, mBorderThickness, getRect().getWidth() - 2 * mBorderThickness, getRect().getHeight() - (2 * mBorderThickness ) - heading_size ); // how many lines of content in a single "page" mPageLines = mLineHeight? mItemListRect.getHeight() / mLineHeight : 0; BOOL scrollbar_visible = getItemCount() > mPageLines; if (scrollbar_visible) { // provide space on the right for scrollbar mItemListRect.mRight = getRect().getWidth() - mBorderThickness - SCROLLBAR_SIZE; } mScrollbar->reshape(SCROLLBAR_SIZE, mItemListRect.getHeight() + (mDisplayColumnHeaders ? mHeadingHeight : 0)); mScrollbar->setPageSize( mPageLines ); mScrollbar->setDocSize( getItemCount() ); mScrollbar->setVisible(scrollbar_visible); dirtyColumns(); } // Attempt to size the control to show all items. // Do not make larger than width or height. void LLScrollListCtrl::fitContents(S32 max_width, S32 max_height) { S32 height = llmin( getRequiredRect().getHeight(), max_height ); S32 width = getRect().getWidth(); reshape( width, height ); } LLRect LLScrollListCtrl::getRequiredRect() { S32 heading_size = (mDisplayColumnHeaders ? mHeadingHeight : 0); S32 height = (mLineHeight * getItemCount()) + (2 * mBorderThickness ) + heading_size; S32 width = getRect().getWidth(); return LLRect(0, height, width, 0); } BOOL LLScrollListCtrl::addItem( LLScrollListItem* item, EAddPosition pos, BOOL requires_column ) { BOOL not_too_big = getItemCount() < mMaxItemCount; if (not_too_big) { switch( pos ) { case ADD_TOP: mItemList.push_front(item); setSorted(FALSE); break; case ADD_SORTED: { // sort by column 0, in ascending order std::vector single_sort_column; single_sort_column.push_back(std::make_pair(0, TRUE)); mItemList.push_back(item); std::stable_sort( mItemList.begin(), mItemList.end(), SortScrollListItem(single_sort_column)); // ADD_SORTED just sorts by first column... // this might not match user sort criteria, so flag list as being in unsorted state setSorted(FALSE); break; } case ADD_BOTTOM: mItemList.push_back(item); setSorted(FALSE); break; default: llassert(0); mItemList.push_back(item); setSorted(FALSE); break; } // create new column on demand if (mColumns.empty() && requires_column) { LLSD new_column; new_column["name"] = "default_column"; new_column["label"] = ""; new_column["dynamicwidth"] = TRUE; addColumn(new_column); } updateLineHeightInsert(item); updateLayout(); } return not_too_big; } // NOTE: This is *very* expensive for large lists, especially when we are dirtying the list every frame // while receiving a long list of names. // *TODO: Use bookkeeping to make this an incramental cost with item additions void LLScrollListCtrl::calcColumnWidths() { const S32 HEADING_TEXT_PADDING = 25; const S32 COLUMN_TEXT_PADDING = 10; mMaxContentWidth = 0; S32 max_item_width = 0; ordered_columns_t::iterator column_itor; for (column_itor = mColumnsIndexed.begin(); column_itor != mColumnsIndexed.end(); ++column_itor) { LLScrollListColumn* column = *column_itor; if (!column) continue; // update column width S32 new_width = column->getWidth(); if (column->mRelWidth >= 0) { new_width = (S32)llround(column->mRelWidth*mItemListRect.getWidth()); } else if (column->mDynamicWidth) { new_width = (mItemListRect.getWidth() - mTotalStaticColumnWidth - mTotalColumnPadding) / mNumDynamicWidthColumns; } column->setWidth(new_width); // update max content width for this column, by looking at all items column->mMaxContentWidth = column->mHeader ? LLFontGL::getFontSansSerifSmall()->getWidth(column->mLabel) + mColumnPadding + HEADING_TEXT_PADDING : 0; item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListCell* cellp = (*iter)->getColumn(column->mIndex); if (!cellp) continue; column->mMaxContentWidth = llmax(LLFontGL::getFontSansSerifSmall()->getWidth(cellp->getValue().asString()) + mColumnPadding + COLUMN_TEXT_PADDING, column->mMaxContentWidth); } max_item_width += column->mMaxContentWidth; } mMaxContentWidth = max_item_width; } const S32 SCROLL_LIST_ROW_PAD = 2; // Line height is the max height of all the cells in all the items. void LLScrollListCtrl::updateLineHeight() { mLineHeight = 0; item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem *itemp = *iter; S32 num_cols = itemp->getNumColumns(); S32 i = 0; for (const LLScrollListCell* cell = itemp->getColumn(i); i < num_cols; cell = itemp->getColumn(++i)) { mLineHeight = llmax( mLineHeight, cell->getHeight() + SCROLL_LIST_ROW_PAD ); } } } // when the only change to line height is from an insert, we needn't scan the entire list void LLScrollListCtrl::updateLineHeightInsert(LLScrollListItem* itemp) { S32 num_cols = itemp->getNumColumns(); S32 i = 0; for (const LLScrollListCell* cell = itemp->getColumn(i); i < num_cols; cell = itemp->getColumn(++i)) { mLineHeight = llmax( mLineHeight, cell->getHeight() + SCROLL_LIST_ROW_PAD ); } } void LLScrollListCtrl::updateColumns() { calcColumnWidths(); // update column headers std::vector::iterator column_ordered_it; S32 left = mItemListRect.mLeft; LLColumnHeader* last_header = NULL; for (column_ordered_it = mColumnsIndexed.begin(); column_ordered_it != mColumnsIndexed.end(); ++column_ordered_it) { if ((*column_ordered_it)->getWidth() < 0) { // skip hidden columns continue; } LLScrollListColumn* column = *column_ordered_it; if (column->mHeader) { column->mHeader->updateResizeBars(); last_header = column->mHeader; S32 top = mItemListRect.mTop; S32 right = left + column->getWidth(); if (column->mIndex != (S32)mColumnsIndexed.size()-1) { right += mColumnPadding; } right = llmax(left, llmin(mItemListRect.getWidth(), right)); S32 header_width = right - left; last_header->reshape(header_width, mHeadingHeight); last_header->translate( left - last_header->getRect().mLeft, top - last_header->getRect().mBottom); last_header->setVisible(mDisplayColumnHeaders && header_width > 0); left = right; } } // expand last column header we encountered to full list width if (last_header && last_header->canResize()) { S32 new_width = llmax(0, mItemListRect.mRight - last_header->getRect().mLeft); last_header->reshape(new_width, last_header->getRect().getHeight()); last_header->setVisible(mDisplayColumnHeaders && new_width > 0); last_header->getColumn()->setWidth(new_width); } // propagate column widths to individual cells item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem *itemp = *iter; S32 num_cols = itemp->getNumColumns(); S32 i = 0; for (LLScrollListCell* cell = itemp->getColumn(i); i < num_cols; cell = itemp->getColumn(++i)) { if (i >= (S32)mColumnsIndexed.size()) break; cell->setWidth(mColumnsIndexed[i]->getWidth()); } } } void LLScrollListCtrl::setDisplayHeading(BOOL display) { mDisplayColumnHeaders = display; updateLayout(); } void LLScrollListCtrl::setHeadingHeight(S32 heading_height) { mHeadingHeight = heading_height; updateLayout(); } BOOL LLScrollListCtrl::selectFirstItem() { BOOL success = FALSE; // our $%&@#$()^%#$()*^ iterators don't let us check against the first item inside out iteration BOOL first_item = TRUE; item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem *itemp = *iter; if( first_item && itemp->getEnabled() ) { if (!itemp->getSelected()) { selectItem(itemp); } success = TRUE; mOriginalSelection = 0; } else { deselectItem(itemp); } first_item = FALSE; } if (mCommitOnSelectionChange) { commitIfChanged(); } return success; } // Deselects all other items // virtual BOOL LLScrollListCtrl::selectNthItem( S32 target_index ) { return selectItemRange(target_index, target_index); } // virtual BOOL LLScrollListCtrl::selectItemRange( S32 first_index, S32 last_index ) { if (mItemList.empty()) { return FALSE; } S32 listlen = (S32)mItemList.size(); first_index = llclamp(first_index, 0, listlen-1); if (last_index < 0) last_index = listlen-1; else last_index = llclamp(last_index, first_index, listlen-1); BOOL success = FALSE; S32 index = 0; for (item_list::iterator iter = mItemList.begin(); iter != mItemList.end(); ) { LLScrollListItem *itemp = *iter; if(!itemp) { iter = mItemList.erase(iter); continue ; } if( index >= first_index && index <= last_index ) { if( itemp->getEnabled() ) { selectItem(itemp, FALSE); success = TRUE; } } else { deselectItem(itemp); } index++; iter++ ; } if (mCommitOnSelectionChange) { commitIfChanged(); } mSearchString.clear(); return success; } void LLScrollListCtrl::swapWithNext(S32 index) { if (index >= ((S32)mItemList.size() - 1)) { // At end of list, doesn't do anything return; } LLScrollListItem *cur_itemp = mItemList[index]; mItemList[index] = mItemList[index + 1]; mItemList[index + 1] = cur_itemp; } void LLScrollListCtrl::swapWithPrevious(S32 index) { if (index <= 0) { // At beginning of list, don't do anything } LLScrollListItem *cur_itemp = mItemList[index]; mItemList[index] = mItemList[index - 1]; mItemList[index - 1] = cur_itemp; } void LLScrollListCtrl::deleteSingleItem(S32 target_index) { if (target_index < 0 || target_index >= (S32)mItemList.size()) { return; } LLScrollListItem *itemp; itemp = mItemList[target_index]; if (itemp == mLastSelected) { mLastSelected = NULL; } delete itemp; mItemList.erase(mItemList.begin() + target_index); dirtyColumns(); } //FIXME: refactor item deletion void LLScrollListCtrl::deleteItems(const LLSD& sd) { item_list::iterator iter; for (iter = mItemList.begin(); iter < mItemList.end(); ) { LLScrollListItem* itemp = *iter; if (itemp->getValue().asString() == sd.asString()) { if (itemp == mLastSelected) { mLastSelected = NULL; } delete itemp; iter = mItemList.erase(iter); } else { iter++; } } dirtyColumns(); } void LLScrollListCtrl::deleteSelectedItems() { item_list::iterator iter; for (iter = mItemList.begin(); iter < mItemList.end(); ) { LLScrollListItem* itemp = *iter; if (itemp->getSelected()) { delete itemp; iter = mItemList.erase(iter); } else { iter++; } } mLastSelected = NULL; dirtyColumns(); } void LLScrollListCtrl::highlightNthItem(S32 target_index) { if (mHighlightedItem != target_index) { mHighlightedItem = target_index; } } S32 LLScrollListCtrl::selectMultiple( LLDynamicArray ids ) { item_list::iterator iter; S32 count = 0; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; LLDynamicArray::iterator iditr; for(iditr = ids.begin(); iditr != ids.end(); ++iditr) { if (item->getEnabled() && (item->getUUID() == (*iditr))) { selectItem(item,FALSE); ++count; break; } } if(ids.end() != iditr) ids.erase(iditr); } if (mCommitOnSelectionChange) { commitIfChanged(); } return count; } S32 LLScrollListCtrl::getItemIndex( LLScrollListItem* target_item ) const { S32 index = 0; item_list::const_iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem *itemp = *iter; if (target_item == itemp) { return index; } index++; } return -1; } S32 LLScrollListCtrl::getItemIndex( const LLUUID& target_id ) const { S32 index = 0; item_list::const_iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem *itemp = *iter; if (target_id == itemp->getUUID()) { return index; } index++; } return -1; } void LLScrollListCtrl::selectPrevItem( BOOL extend_selection) { LLScrollListItem* prev_item = NULL; if (!getFirstSelected()) { // select last item selectNthItem(getItemCount() - 1); } else { item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* cur_item = *iter; if (cur_item->getSelected()) { if (prev_item) { selectItem(prev_item, !extend_selection); } else { reportInvalidInput(); } break; } // don't allow navigation to disabled elements prev_item = cur_item->getEnabled() ? cur_item : prev_item; } } if ((mCommitOnSelectionChange || mCommitOnKeyboardMovement)) { commitIfChanged(); } mSearchString.clear(); } void LLScrollListCtrl::selectNextItem( BOOL extend_selection) { LLScrollListItem* next_item = NULL; if (!getFirstSelected()) { selectFirstItem(); } else { item_list::reverse_iterator iter; for (iter = mItemList.rbegin(); iter != mItemList.rend(); iter++) { LLScrollListItem* cur_item = *iter; if (cur_item->getSelected()) { if (next_item) { selectItem(next_item, !extend_selection); } else { reportInvalidInput(); } break; } // don't allow navigation to disabled items next_item = cur_item->getEnabled() ? cur_item : next_item; } } if (mCommitOnKeyboardMovement) { onCommit(); } mSearchString.clear(); } void LLScrollListCtrl::deselectAllItems(BOOL no_commit_on_change) { item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; deselectItem(item); } if (mCommitOnSelectionChange && !no_commit_on_change) { commitIfChanged(); } } /////////////////////////////////////////////////////////////////////////////////////////////////// // Use this to add comment text such as "Searching", which ignores column settings of list LLScrollListItem* LLScrollListCtrl::addCommentText(const std::string& comment_text, EAddPosition pos) { LLScrollListItem* item = NULL; if (getItemCount() < mMaxItemCount) { // always draw comment text with "enabled" color item = new LLScrollListItemComment( comment_text, mFgUnselectedColor ); addItem( item, pos, FALSE ); } return item; } LLScrollListItem* LLScrollListCtrl::addSeparator(EAddPosition pos) { LLScrollListItem* item = new LLScrollListItemSeparator(); addItem(item, pos, FALSE); return item; } // Selects first enabled item of the given name. // Returns false if item not found. BOOL LLScrollListCtrl::selectItemByLabel(const std::string& label, BOOL case_sensitive) { // ensure that no stale items are selected, even if we don't find a match deselectAllItems(TRUE); //RN: assume no empty items if (label.empty()) { return FALSE; } std::string target_text = label; if (!case_sensitive) { LLStringUtil::toLower(target_text); } BOOL found = FALSE; item_list::iterator iter; S32 index = 0; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; // Only select enabled items with matching names std::string item_text = item->getColumn(0)->getValue().asString(); if (!case_sensitive) { LLStringUtil::toLower(item_text); } BOOL select = !found && item->getEnabled() && item_text == target_text; if (select) { selectItem(item); } found = found || select; index++; } if (mCommitOnSelectionChange) { commitIfChanged(); } return found; } BOOL LLScrollListCtrl::selectItemByPrefix(const std::string& target, BOOL case_sensitive) { return selectItemByPrefix(utf8str_to_wstring(target), case_sensitive); } // Selects first enabled item that has a name where the name's first part matched the target string. // Returns false if item not found. BOOL LLScrollListCtrl::selectItemByPrefix(const LLWString& target, BOOL case_sensitive) { BOOL found = FALSE; LLWString target_trimmed( target ); S32 target_len = target_trimmed.size(); if( 0 == target_len ) { // Is "" a valid choice? item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; // Only select enabled items with matching names LLScrollListCell* cellp = item->getColumn(getSearchColumn()); BOOL select = cellp ? item->getEnabled() && ('\0' == cellp->getValue().asString()[0]) : FALSE; if (select) { selectItem(item); found = TRUE; break; } } } else { if (!case_sensitive) { // do comparisons in lower case LLWStringUtil::toLower(target_trimmed); } for (item_list::iterator iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; // Only select enabled items with matching names LLScrollListCell* cellp = item->getColumn(getSearchColumn()); if (!cellp) { continue; } LLWString item_label = utf8str_to_wstring(cellp->getValue().asString()); if (!case_sensitive) { LLWStringUtil::toLower(item_label); } // remove extraneous whitespace from searchable label LLWString trimmed_label = item_label; LLWStringUtil::trim(trimmed_label); BOOL select = item->getEnabled() && trimmed_label.compare(0, target_trimmed.size(), target_trimmed) == 0; if (select) { // find offset of matching text (might have leading whitespace) S32 offset = item_label.find(target_trimmed); cellp->highlightText(offset, target_trimmed.size()); selectItem(item); found = TRUE; break; } } } if (mCommitOnSelectionChange) { commitIfChanged(); } return found; } const std::string LLScrollListCtrl::getSelectedItemLabel(S32 column) const { LLScrollListItem* item; item = getFirstSelected(); if (item) { return item->getColumn(column)->getValue().asString(); } return LLStringUtil::null; } /////////////////////////////////////////////////////////////////////////////////////////////////// // "StringUUID" interface: use this when you're creating a list that contains non-unique strings each of which // has an associated, unique UUID, and only one of which can be selected at a time. LLScrollListItem* LLScrollListCtrl::addStringUUIDItem(const std::string& item_text, const LLUUID& id, EAddPosition pos, BOOL enabled, S32 column_width) { LLScrollListItem* item = NULL; if (getItemCount() < mMaxItemCount) { item = new LLScrollListItem( enabled, NULL, id ); item->addColumn(item_text, LLResMgr::getInstance()->getRes(LLFONT_SANSSERIF_SMALL), column_width); addItem( item, pos ); } return item; } // Select the line or lines that match this UUID BOOL LLScrollListCtrl::selectByID( const LLUUID& id ) { return selectByValue( LLSD(id) ); } BOOL LLScrollListCtrl::setSelectedByValue(const LLSD& value, BOOL selected) { BOOL found = FALSE; if (selected && !mAllowMultipleSelection) deselectAllItems(TRUE); item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if (item->getEnabled() && (item->getValue().asString() == value.asString())) { if (selected) { selectItem(item); } else { deselectItem(item); } found = TRUE; break; } } if (mCommitOnSelectionChange) { commitIfChanged(); } return found; } BOOL LLScrollListCtrl::isSelected(const LLSD& value) const { item_list::const_iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if (item->getValue().asString() == value.asString()) { return item->getSelected(); } } return FALSE; } LLUUID LLScrollListCtrl::getStringUUIDSelectedItem() const { LLScrollListItem* item = getFirstSelected(); if (item) { return item->getUUID(); } return LLUUID::null; } LLSD LLScrollListCtrl::getSelectedValue() { LLScrollListItem* item = getFirstSelected(); if (item) { return item->getValue(); } else { return LLSD(); } } void LLScrollListCtrl::drawItems() { S32 x = mItemListRect.mLeft; S32 y = mItemListRect.mTop - mLineHeight; // allow for partial line at bottom S32 num_page_lines = mPageLines + 1; LLRect item_rect; LLGLSUIDefault gls_ui; { LLLocalClipRect clip(mItemListRect); S32 cur_y = y; mDrewSelected = FALSE; S32 line = 0; S32 max_columns = 0; LLColor4 highlight_color = LLColor4::white; F32 type_ahead_timeout = LLUI::sConfigGroup->getF32("TypeAheadTimeout"); highlight_color.mV[VALPHA] = clamp_rescale(mSearchTimer.getElapsedTimeF32(), type_ahead_timeout * 0.7f, type_ahead_timeout, 0.4f, 0.f); item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; item_rect.setOriginAndSize( x, cur_y, mItemListRect.getWidth(), mLineHeight ); //llinfos << item_rect.getWidth() << llendl; if (item->getSelected()) { mDrewSelected = TRUE; } max_columns = llmax(max_columns, item->getNumColumns()); LLColor4 fg_color; LLColor4 bg_color(LLColor4::transparent); if( mScrollLines <= line && line < mScrollLines + num_page_lines ) { fg_color = (item->getEnabled() ? mFgUnselectedColor : mFgDisabledColor); if( item->getSelected() && mCanSelect) { bg_color = mBgSelectedColor; fg_color = (item->getEnabled() ? mFgSelectedColor : mFgDisabledColor); } else if (mHighlightedItem == line && mCanSelect) { bg_color = mHighlightedColor; } else { if (mDrawStripes && (line % 2 == 0) && (max_columns > 1)) { bg_color = mBgStripeColor; } } if (!item->getEnabled()) { bg_color = mBgReadOnlyColor; } item->draw(item_rect, fg_color, bg_color, highlight_color, mColumnPadding); cur_y -= mLineHeight; } line++; } } } void LLScrollListCtrl::draw() { LLLocalClipRect clip(getLocalRect()); // if user specifies sort, make sure it is maintained if (needsSorting() && !isSorted()) { sortItems(); } if (mNeedsScroll) { scrollToShowSelected(); mNeedsScroll = FALSE; } LLRect background(0, getRect().getHeight(), getRect().getWidth(), 0); // Draw background if (mBackgroundVisible) { gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE); gGL.color4fv( getEnabled() ? mBgWriteableColor.mV : mBgReadOnlyColor.mV ); gl_rect_2d(background); } if (mColumnsDirty) { updateColumns(); mColumnsDirty = FALSE; } drawItems(); if (mBorder) { mBorder->setKeyboardFocusHighlight(gFocusMgr.getKeyboardFocus() == this); } LLUICtrl::draw(); } void LLScrollListCtrl::setEnabled(BOOL enabled) { mCanSelect = enabled; setTabStop(enabled); mScrollbar->setTabStop(!enabled && mScrollbar->getPageSize() < mScrollbar->getDocSize()); } BOOL LLScrollListCtrl::handleScrollWheel(S32 x, S32 y, S32 clicks) { BOOL handled = FALSE; // Pretend the mouse is over the scrollbar handled = mScrollbar->handleScrollWheel( 0, 0, clicks ); return handled; } BOOL LLScrollListCtrl::handleToolTip(S32 x, S32 y, std::string& msg, LLRect* sticky_rect_screen) { S32 column_index = getColumnIndexFromOffset(x); LLScrollListColumn* columnp = getColumn(column_index); if (columnp == NULL) return FALSE; BOOL handled = FALSE; // show tooltip for full name of hovered item if it has been truncated LLScrollListItem* hit_item = hitItem(x, y); if (hit_item) { LLScrollListCell* hit_cell = hit_item->getColumn(column_index); if (!hit_cell) return FALSE; //S32 cell_required_width = hit_cell->getContentWidth(); if (hit_cell && hit_cell->isText()) { S32 rect_left = getColumnOffsetFromIndex(column_index) + mItemListRect.mLeft; S32 rect_bottom = getRowOffsetFromIndex(getItemIndex(hit_item)); LLRect cell_rect; cell_rect.setOriginAndSize(rect_left, rect_bottom, rect_left + columnp->getWidth(), mLineHeight); // Convert rect local to screen coordinates localPointToScreen( cell_rect.mLeft, cell_rect.mBottom, &(sticky_rect_screen->mLeft), &(sticky_rect_screen->mBottom) ); localPointToScreen( cell_rect.mRight, cell_rect.mTop, &(sticky_rect_screen->mRight), &(sticky_rect_screen->mTop) ); msg = hit_cell->getValue().asString(); } handled = TRUE; } // otherwise, look for a tooltip associated with this column LLColumnHeader* headerp = columnp->mHeader; if (headerp && !handled) { headerp->handleToolTip(x, y, msg, sticky_rect_screen); handled = !msg.empty(); } return handled; } BOOL LLScrollListCtrl::selectItemAt(S32 x, S32 y, MASK mask) { if (!mCanSelect) return FALSE; BOOL selection_changed = FALSE; LLScrollListItem* hit_item = hitItem(x, y); if( hit_item ) { if( mAllowMultipleSelection ) { if (mask & MASK_SHIFT) { if (mLastSelected == NULL) { selectItem(hit_item); } else { // Select everthing between mLastSelected and hit_item bool selecting = false; item_list::iterator itor; // If we multiselect backwards, we'll stomp on mLastSelected, // meaning that we never stop selecting until hitting max or // the end of the list. LLScrollListItem* lastSelected = mLastSelected; for (itor = mItemList.begin(); itor != mItemList.end(); ++itor) { if(mMaxSelectable > 0 && getAllSelected().size() >= mMaxSelectable) { if(mOnMaximumSelectCallback) { mOnMaximumSelectCallback(mCallbackUserData); } break; } LLScrollListItem *item = *itor; if (item == hit_item || item == lastSelected) { selectItem(item, FALSE); selecting = !selecting; if (hit_item == lastSelected) { // stop selecting now, since we just clicked on our last selected item selecting = FALSE; } } if (selecting) { selectItem(item, FALSE); } } } } else if (mask & MASK_CONTROL) { if (hit_item->getSelected()) { deselectItem(hit_item); } else { if(!(mMaxSelectable > 0 && getAllSelected().size() >= mMaxSelectable)) { selectItem(hit_item, FALSE); } else { if(mOnMaximumSelectCallback) { mOnMaximumSelectCallback(mCallbackUserData); } } } } else { deselectAllItems(TRUE); selectItem(hit_item); } } else { selectItem(hit_item); } selection_changed = mSelectionChanged; if (mCommitOnSelectionChange) { commitIfChanged(); } // clear search string on mouse operations mSearchString.clear(); } else { //mLastSelected = NULL; //deselectAllItems(TRUE); } return selection_changed; } BOOL LLScrollListCtrl::handleMouseDown(S32 x, S32 y, MASK mask) { BOOL handled = childrenHandleMouseDown(x, y, mask) != NULL; if( !handled ) { // set keyboard focus first, in case click action wants to move focus elsewhere setFocus(TRUE); // clear selection changed flag because user is starting a selection operation mSelectionChanged = FALSE; handleClick(x, y, mask); } return TRUE; } BOOL LLScrollListCtrl::handleMouseUp(S32 x, S32 y, MASK mask) { if (hasMouseCapture()) { // release mouse capture immediately so // scroll to show selected logic will work gFocusMgr.setMouseCapture(NULL); if(mask == MASK_NONE) { selectItemAt(x, y, mask); mNeedsScroll = TRUE; } } // always commit when mouse operation is completed inside list if (mItemListRect.pointInRect(x,y)) { mDirty |= mSelectionChanged; mSelectionChanged = FALSE; onCommit(); } return LLUICtrl::handleMouseUp(x, y, mask); } BOOL LLScrollListCtrl::handleDoubleClick(S32 x, S32 y, MASK mask) { //BOOL handled = FALSE; BOOL handled = handleClick(x, y, mask); if (!handled) { // Offer the click to the children, even if we aren't enabled // so the scroll bars will work. if (NULL == LLView::childrenHandleDoubleClick(x, y, mask)) { if( mCanSelect && mOnDoubleClickCallback ) { mOnDoubleClickCallback( mCallbackUserData ); } } } return TRUE; } BOOL LLScrollListCtrl::handleClick(S32 x, S32 y, MASK mask) { // which row was clicked on? LLScrollListItem* hit_item = hitItem(x, y); if (!hit_item) return FALSE; // get appropriate cell from that row S32 column_index = getColumnIndexFromOffset(x); LLScrollListCell* hit_cell = hit_item->getColumn(column_index); if (!hit_cell) return FALSE; // if cell handled click directly (i.e. clicked on an embedded checkbox) if (hit_cell->handleClick()) { // if item not currently selected, select it if (!hit_item->getSelected()) { selectItemAt(x, y, mask); gFocusMgr.setMouseCapture(this); mNeedsScroll = TRUE; } // propagate state of cell to rest of selected column { // propagate value of this cell to other selected items // and commit the respective widgets LLSD item_value = hit_cell->getValue(); for (item_list::iterator iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if (item->getSelected()) { LLScrollListCell* cellp = item->getColumn(column_index); cellp->setValue(item_value); cellp->onCommit(); } } //FIXME: find a better way to signal cell changes onCommit(); } // eat click (e.g. do not trigger double click callback) return TRUE; } else { // treat this as a normal single item selection selectItemAt(x, y, mask); gFocusMgr.setMouseCapture(this); mNeedsScroll = TRUE; // do not eat click (allow double click callback) return FALSE; } } LLScrollListItem* LLScrollListCtrl::hitItem( S32 x, S32 y ) { // Excludes disabled items. LLScrollListItem* hit_item = NULL; LLRect item_rect; item_rect.setLeftTopAndSize( mItemListRect.mLeft, mItemListRect.mTop, mItemListRect.getWidth(), mLineHeight ); // allow for partial line at bottom S32 num_page_lines = mPageLines + 1; S32 line = 0; item_list::iterator iter; for(iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem* item = *iter; if( mScrollLines <= line && line < mScrollLines + num_page_lines ) { if( item->getEnabled() && item_rect.pointInRect( x, y ) ) { hit_item = item; break; } item_rect.translate(0, -mLineHeight); } line++; } return hit_item; } S32 LLScrollListCtrl::getColumnIndexFromOffset(S32 x) { // which column did we hit? S32 left = 0; S32 right = 0; S32 width = 0; S32 column_index = 0; ordered_columns_t::const_iterator iter = mColumnsIndexed.begin(); ordered_columns_t::const_iterator end = mColumnsIndexed.end(); for ( ; iter != end; ++iter) { width = (*iter)->getWidth() + mColumnPadding; right += width; if (left <= x && x < right ) { break; } // set left for next column as right of current column left = right; column_index++; } return llclamp(column_index, 0, getNumColumns() - 1); } S32 LLScrollListCtrl::getColumnOffsetFromIndex(S32 index) { S32 column_offset = 0; ordered_columns_t::const_iterator iter = mColumnsIndexed.begin(); ordered_columns_t::const_iterator end = mColumnsIndexed.end(); for ( ; iter != end; ++iter) { if (index-- <= 0) { return column_offset; } column_offset += (*iter)->getWidth() + mColumnPadding; } // when running off the end, return the rightmost pixel return mItemListRect.mRight; } S32 LLScrollListCtrl::getRowOffsetFromIndex(S32 index) { S32 row_bottom = ((mItemListRect.mTop - (index - mScrollLines)) * mLineHeight) - mLineHeight; return row_bottom; } BOOL LLScrollListCtrl::handleHover(S32 x,S32 y,MASK mask) { BOOL handled = FALSE; if (hasMouseCapture()) { if(mask == MASK_NONE) { selectItemAt(x, y, mask); mNeedsScroll = TRUE; } } else if (mCanSelect) { LLScrollListItem* item = hitItem(x, y); if (item) { highlightNthItem(getItemIndex(item)); } else { highlightNthItem(-1); } } handled = LLUICtrl::handleHover( x, y, mask ); return handled; } BOOL LLScrollListCtrl::handleKeyHere(KEY key,MASK mask ) { BOOL handled = FALSE; // not called from parent means we have keyboard focus or a child does if (mCanSelect) { // Ignore capslock mask = mask; if (mask == MASK_NONE) { switch(key) { case KEY_UP: if (mAllowKeyboardMovement || hasFocus()) { // commit implicit in call selectPrevItem(FALSE); mNeedsScroll = TRUE; handled = TRUE; } break; case KEY_DOWN: if (mAllowKeyboardMovement || hasFocus()) { // commit implicit in call selectNextItem(FALSE); mNeedsScroll = TRUE; handled = TRUE; } break; case KEY_PAGE_UP: if (mAllowKeyboardMovement || hasFocus()) { selectNthItem(getFirstSelectedIndex() - (mScrollbar->getPageSize() - 1)); mNeedsScroll = TRUE; if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } handled = TRUE; } break; case KEY_PAGE_DOWN: if (mAllowKeyboardMovement || hasFocus()) { selectNthItem(getFirstSelectedIndex() + (mScrollbar->getPageSize() - 1)); mNeedsScroll = TRUE; if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } handled = TRUE; } break; case KEY_HOME: if (mAllowKeyboardMovement || hasFocus()) { selectFirstItem(); mNeedsScroll = TRUE; if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } handled = TRUE; } break; case KEY_END: if (mAllowKeyboardMovement || hasFocus()) { selectNthItem(getItemCount() - 1); mNeedsScroll = TRUE; if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } handled = TRUE; } break; case KEY_RETURN: // JC - Special case: Only claim to have handled it // if we're the special non-commit-on-move // type. AND we are visible if (!mCommitOnKeyboardMovement && mask == MASK_NONE) { onCommit(); mSearchString.clear(); handled = TRUE; } break; case KEY_BACKSPACE: mSearchTimer.reset(); if (mSearchString.size()) { mSearchString.erase(mSearchString.size() - 1, 1); } if (mSearchString.empty()) { if (getFirstSelected()) { LLScrollListCell* cellp = getFirstSelected()->getColumn(getSearchColumn()); if (cellp) { cellp->highlightText(0, 0); } } } else if (selectItemByPrefix(wstring_to_utf8str(mSearchString), FALSE)) { mNeedsScroll = TRUE; // update search string only on successful match mSearchTimer.reset(); if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } } break; default: break; } } // TODO: multiple: shift-up, shift-down, shift-home, shift-end, select all } return handled; } BOOL LLScrollListCtrl::handleUnicodeCharHere(llwchar uni_char) { if ((uni_char < 0x20) || (uni_char == 0x7F)) // Control character or DEL { return FALSE; } // perform incremental search based on keyboard input if (mSearchTimer.getElapsedTimeF32() > LLUI::sConfigGroup->getF32("TypeAheadTimeout")) { mSearchString.clear(); } // type ahead search is case insensitive uni_char = LLStringOps::toLower((llwchar)uni_char); if (selectItemByPrefix(wstring_to_utf8str(mSearchString + (llwchar)uni_char), FALSE)) { // update search string only on successful match mNeedsScroll = TRUE; mSearchString += uni_char; mSearchTimer.reset(); if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } } // handle iterating over same starting character else if (isRepeatedChars(mSearchString + (llwchar)uni_char) && !mItemList.empty()) { // start from last selected item, in case we previously had a successful match against // duplicated characters ('AA' matches 'Aaron') item_list::iterator start_iter = mItemList.begin(); S32 first_selected = getFirstSelectedIndex(); // if we have a selection (> -1) then point iterator at the selected item if (first_selected > 0) { // point iterator to first selected item start_iter += first_selected; } // start search at first item after current selection item_list::iterator iter = start_iter; ++iter; if (iter == mItemList.end()) { iter = mItemList.begin(); } // loop around once, back to previous selection while(iter != start_iter) { LLScrollListItem* item = *iter; LLScrollListCell* cellp = item->getColumn(getSearchColumn()); if (cellp) { // Only select enabled items with matching first characters LLWString item_label = utf8str_to_wstring(cellp->getValue().asString()); if (item->getEnabled() && LLStringOps::toLower(item_label[0]) == uni_char) { selectItem(item); mNeedsScroll = TRUE; cellp->highlightText(0, 1); mSearchTimer.reset(); if (mCommitOnKeyboardMovement && !mCommitOnSelectionChange) { onCommit(); } break; } } ++iter; if (iter == mItemList.end()) { iter = mItemList.begin(); } } } return TRUE; } void LLScrollListCtrl::reportInvalidInput() { make_ui_sound("UISndBadKeystroke"); } BOOL LLScrollListCtrl::isRepeatedChars(const LLWString& string) const { if (string.empty()) { return FALSE; } llwchar first_char = string[0]; for (U32 i = 0; i < string.size(); i++) { if (string[i] != first_char) { return FALSE; } } return TRUE; } void LLScrollListCtrl::selectItem(LLScrollListItem* itemp, BOOL select_single_item) { if (!itemp) return; if (!itemp->getSelected()) { if (mLastSelected) { LLScrollListCell* cellp = mLastSelected->getColumn(getSearchColumn()); if (cellp) { cellp->highlightText(0, 0); } } if (select_single_item) { deselectAllItems(TRUE); } itemp->setSelected(TRUE); mLastSelected = itemp; mSelectionChanged = TRUE; } } void LLScrollListCtrl::deselectItem(LLScrollListItem* itemp) { if (!itemp) return; if (itemp->getSelected()) { if (mLastSelected == itemp) { mLastSelected = NULL; } itemp->setSelected(FALSE); LLScrollListCell* cellp = itemp->getColumn(getSearchColumn()); if (cellp) { cellp->highlightText(0, 0); } mSelectionChanged = TRUE; } } void LLScrollListCtrl::commitIfChanged() { if (mSelectionChanged) { mDirty = TRUE; mSelectionChanged = FALSE; onCommit(); } } struct SameSortColumn { SameSortColumn(S32 column) : mColumn(column) {} S32 mColumn; bool operator()(std::pair sort_column) { return sort_column.first == mColumn; } }; BOOL LLScrollListCtrl::setSort(S32 column_idx, BOOL ascending) { LLScrollListColumn* sort_column = getColumn(column_idx); if (!sort_column) return FALSE; sort_column->mSortAscending = ascending; sort_column_t new_sort_column(column_idx, ascending); if (mSortColumns.empty()) { mSortColumns.push_back(new_sort_column); return TRUE; } else { // grab current sort column sort_column_t cur_sort_column = mSortColumns.back(); // remove any existing sort criterion referencing this column // and add the new one mSortColumns.erase(remove_if(mSortColumns.begin(), mSortColumns.end(), SameSortColumn(column_idx)), mSortColumns.end()); mSortColumns.push_back(new_sort_column); // did the sort criteria change? return (cur_sort_column != new_sort_column); } } // Called by scrollbar //static void LLScrollListCtrl::onScrollChange( S32 new_pos, LLScrollbar* scrollbar, void* userdata ) { LLScrollListCtrl* self = (LLScrollListCtrl*) userdata; self->mScrollLines = new_pos; } void LLScrollListCtrl::sortByColumn(const std::string& name, BOOL ascending) { std::map::iterator itor = mColumns.find(name); if (itor != mColumns.end()) { sortByColumnIndex((*itor).second.mIndex, ascending); } } // First column is column 0 void LLScrollListCtrl::sortByColumnIndex(U32 column, BOOL ascending) { if (setSort(column, ascending)) { sortItems(); } } void LLScrollListCtrl::sortItems() { // do stable sort to preserve any previous sorts std::stable_sort( mItemList.begin(), mItemList.end(), SortScrollListItem(mSortColumns)); setSorted(TRUE); } // for one-shot sorts, does not save sort column/order void LLScrollListCtrl::sortOnce(S32 column, BOOL ascending) { std::vector > sort_column; sort_column.push_back(std::make_pair(column, ascending)); // do stable sort to preserve any previous sorts std::stable_sort( mItemList.begin(), mItemList.end(), SortScrollListItem(sort_column)); } void LLScrollListCtrl::dirtyColumns() { mColumnsDirty = TRUE; // need to keep mColumnsIndexed up to date // just in case someone indexes into it immediately mColumnsIndexed.resize(mColumns.size()); std::map::iterator column_itor; for (column_itor = mColumns.begin(); column_itor != mColumns.end(); ++column_itor) { LLScrollListColumn *column = &column_itor->second; mColumnsIndexed[column_itor->second.mIndex] = column; } } S32 LLScrollListCtrl::getScrollPos() const { return mScrollbar->getDocPos(); } void LLScrollListCtrl::setScrollPos( S32 pos ) { mScrollbar->setDocPos( pos ); onScrollChange(mScrollbar->getDocPos(), mScrollbar, this); } void LLScrollListCtrl::scrollToShowSelected() { // don't scroll automatically when capturing mouse input // as that will change what is currently under the mouse cursor if (hasMouseCapture()) { return; } S32 index = getFirstSelectedIndex(); if (index < 0) { return; } LLScrollListItem* item = mItemList[index]; if (!item) { // I don't THINK this should ever happen. return; } S32 lowest = mScrollLines; S32 highest = mScrollLines + mPageLines; if (index < lowest) { // need to scroll to show item setScrollPos(index); } else if (highest <= index) { setScrollPos(index - mPageLines + 1); } } void LLScrollListCtrl::updateStaticColumnWidth(LLScrollListColumn* col, S32 new_width) { mTotalStaticColumnWidth += llmax(0, new_width) - llmax(0, col->getWidth()); } // virtual LLXMLNodePtr LLScrollListCtrl::getXML(bool save_children) const { LLXMLNodePtr node = LLUICtrl::getXML(); node->setName(LL_SCROLL_LIST_CTRL_TAG); // Attributes node->createChild("multi_select", TRUE)->setBoolValue(mAllowMultipleSelection); node->createChild("draw_border", TRUE)->setBoolValue((mBorder != NULL)); node->createChild("draw_heading", TRUE)->setBoolValue(mDisplayColumnHeaders); node->createChild("background_visible", TRUE)->setBoolValue(mBackgroundVisible); node->createChild("draw_stripes", TRUE)->setBoolValue(mDrawStripes); node->createChild("column_padding", TRUE)->setIntValue(mColumnPadding); addColorXML(node, mBgWriteableColor, "bg_writeable_color", "ScrollBgWriteableColor"); addColorXML(node, mBgReadOnlyColor, "bg_read_only_color", "ScrollBgReadOnlyColor"); addColorXML(node, mBgSelectedColor, "bg_selected_color", "ScrollSelectedBGColor"); addColorXML(node, mBgStripeColor, "bg_stripe_color", "ScrollBGStripeColor"); addColorXML(node, mFgSelectedColor, "fg_selected_color", "ScrollSelectedFGColor"); addColorXML(node, mFgUnselectedColor, "fg_unselected_color", "ScrollUnselectedColor"); addColorXML(node, mFgDisabledColor, "fg_disable_color", "ScrollDisabledColor"); addColorXML(node, mHighlightedColor, "highlighted_color", "ScrollHighlightedColor"); // Contents std::map::const_iterator itor; std::vector sorted_list; sorted_list.resize(mColumns.size()); for (itor = mColumns.begin(); itor != mColumns.end(); ++itor) { sorted_list[itor->second.mIndex] = &itor->second; } std::vector::iterator itor2; for (itor2 = sorted_list.begin(); itor2 != sorted_list.end(); ++itor2) { LLXMLNodePtr child_node = node->createChild("column", FALSE); const LLScrollListColumn *column = *itor2; child_node->createChild("name", TRUE)->setStringValue(column->mName); child_node->createChild("label", TRUE)->setStringValue(column->mLabel); child_node->createChild("width", TRUE)->setIntValue(column->getWidth()); } return node; } void LLScrollListCtrl::setScrollListParameters(LLXMLNodePtr node) { // James: This is not a good way to do colors. We need a central "UI style" // manager that sets the colors for ALL scroll lists, buttons, etc. LLColor4 color; if(node->hasAttribute("fg_unselected_color")) { LLUICtrlFactory::getAttributeColor(node,"fg_unselected_color", color); setFgUnselectedColor(color); } if(node->hasAttribute("fg_selected_color")) { LLUICtrlFactory::getAttributeColor(node,"fg_selected_color", color); setFgSelectedColor(color); } if(node->hasAttribute("bg_selected_color")) { LLUICtrlFactory::getAttributeColor(node,"bg_selected_color", color); setBgSelectedColor(color); } if(node->hasAttribute("fg_disable_color")) { LLUICtrlFactory::getAttributeColor(node,"fg_disable_color", color); setFgDisableColor(color); } if(node->hasAttribute("bg_writeable_color")) { LLUICtrlFactory::getAttributeColor(node,"bg_writeable_color", color); setBgWriteableColor(color); } if(node->hasAttribute("bg_read_only_color")) { LLUICtrlFactory::getAttributeColor(node,"bg_read_only_color", color); setReadOnlyBgColor(color); } if (LLUICtrlFactory::getAttributeColor(node,"bg_stripe_color", color)) { setBgStripeColor(color); } if (LLUICtrlFactory::getAttributeColor(node,"highlighted_color", color)) { setHighlightedColor(color); } if(node->hasAttribute("background_visible")) { BOOL background_visible; node->getAttributeBOOL("background_visible", background_visible); setBackgroundVisible(background_visible); } if(node->hasAttribute("draw_stripes")) { BOOL draw_stripes; node->getAttributeBOOL("draw_stripes", draw_stripes); setDrawStripes(draw_stripes); } if(node->hasAttribute("column_padding")) { S32 column_padding; node->getAttributeS32("column_padding", column_padding); setColumnPadding(column_padding); } } // static LLView* LLScrollListCtrl::fromXML(LLXMLNodePtr node, LLView *parent, LLUICtrlFactory *factory) { std::string name("scroll_list"); node->getAttributeString("name", name); LLRect rect; createRect(node, rect, parent, LLRect()); BOOL multi_select = FALSE; node->getAttributeBOOL("multi_select", multi_select); BOOL draw_border = TRUE; node->getAttributeBOOL("draw_border", draw_border); BOOL draw_heading = FALSE; node->getAttributeBOOL("draw_heading", draw_heading); S32 search_column = 0; node->getAttributeS32("search_column", search_column); S32 sort_column = -1; node->getAttributeS32("sort_column", sort_column); BOOL sort_ascending = TRUE; node->getAttributeBOOL("sort_ascending", sort_ascending); LLUICtrlCallback callback = NULL; LLScrollListCtrl* scroll_list = new LLScrollListCtrl( name, rect, callback, NULL, multi_select, draw_border); scroll_list->setDisplayHeading(draw_heading); if (node->hasAttribute("heading_height")) { S32 heading_height; node->getAttributeS32("heading_height", heading_height); scroll_list->setHeadingHeight(heading_height); } scroll_list->setScrollListParameters(node); scroll_list->initFromXML(node, parent); scroll_list->setSearchColumn(search_column); LLSD columns; S32 index = 0; LLXMLNodePtr child; for (child = node->getFirstChild(); child.notNull(); child = child->getNextSibling()) { if (child->hasName("column")) { std::string labelname(""); child->getAttributeString("label", labelname); std::string columnname(labelname); child->getAttributeString("name", columnname); std::string sortname(columnname); child->getAttributeString("sort", sortname); BOOL sort_ascending = TRUE; child->getAttributeBOOL("sort_ascending", sort_ascending); std::string imagename; child->getAttributeString("image", imagename); BOOL columndynamicwidth = FALSE; child->getAttributeBOOL("dynamicwidth", columndynamicwidth); S32 columnwidth = -1; child->getAttributeS32("width", columnwidth); std::string tooltip; child->getAttributeString("tool_tip", tooltip); F32 columnrelwidth = 0.f; child->getAttributeF32("relwidth", columnrelwidth); LLFontGL::HAlign h_align = LLFontGL::LEFT; h_align = LLView::selectFontHAlign(child); columns[index]["name"] = columnname; columns[index]["sort"] = sortname; columns[index]["sort_ascending"] = sort_ascending; columns[index]["image"] = imagename; columns[index]["label"] = labelname; columns[index]["width"] = columnwidth; columns[index]["relwidth"] = columnrelwidth; columns[index]["dynamicwidth"] = columndynamicwidth; columns[index]["halign"] = (S32)h_align; columns[index]["tool_tip"] = tooltip; index++; } } scroll_list->setColumnHeadings(columns); if (sort_column >= 0) { scroll_list->sortByColumnIndex(sort_column, sort_ascending); } for (child = node->getFirstChild(); child.notNull(); child = child->getNextSibling()) { if (child->hasName("row")) { LLUUID id; child->getAttributeUUID("id", id); LLSD row; row["id"] = id; S32 column_idx = 0; LLXMLNodePtr row_child; for (row_child = child->getFirstChild(); row_child.notNull(); row_child = row_child->getNextSibling()) { if (row_child->hasName("column")) { std::string value = row_child->getTextContents(); std::string columnname(""); row_child->getAttributeString("name", columnname); std::string font(""); row_child->getAttributeString("font", font); std::string font_style(""); row_child->getAttributeString("font-style", font_style); row["columns"][column_idx]["column"] = columnname; row["columns"][column_idx]["value"] = value; row["columns"][column_idx]["font"] = font; row["columns"][column_idx]["font-style"] = font_style; column_idx++; } } scroll_list->addElement(row); } } std::string contents = node->getTextContents(); if (!contents.empty()) { typedef boost::tokenizer > tokenizer; boost::char_separator sep("\t\n"); tokenizer tokens(contents, sep); tokenizer::iterator token_iter = tokens.begin(); while(token_iter != tokens.end()) { const std::string& line = *token_iter; scroll_list->addSimpleElement(line); ++token_iter; } } return scroll_list; } // LLEditMenuHandler functions // virtual void LLScrollListCtrl::copy() { std::string buffer; std::vector items = getAllSelected(); std::vector::iterator itor; for (itor = items.begin(); itor != items.end(); ++itor) { buffer += (*itor)->getContentsCSV() + "\n"; } gClipboard.copyFromSubstring(utf8str_to_wstring(buffer), 0, buffer.length()); } // virtual BOOL LLScrollListCtrl::canCopy() const { return (getFirstSelected() != NULL); } // virtual void LLScrollListCtrl::cut() { copy(); doDelete(); } // virtual BOOL LLScrollListCtrl::canCut() const { return canCopy() && canDoDelete(); } // virtual void LLScrollListCtrl::selectAll() { // Deselects all other items item_list::iterator iter; for (iter = mItemList.begin(); iter != mItemList.end(); iter++) { LLScrollListItem *itemp = *iter; if( itemp->getEnabled() ) { selectItem(itemp, FALSE); } } if (mCommitOnSelectionChange) { commitIfChanged(); } } // virtual BOOL LLScrollListCtrl::canSelectAll() const { return getCanSelect() && mAllowMultipleSelection && !(mMaxSelectable > 0 && mItemList.size() > mMaxSelectable); } // virtual void LLScrollListCtrl::deselect() { deselectAllItems(); } // virtual BOOL LLScrollListCtrl::canDeselect() const { return getCanSelect(); } void LLScrollListCtrl::addColumn(const LLSD& column, EAddPosition pos) { std::string name = column["name"].asString(); // if no column name provided, just use ordinal as name if (name.empty()) { std::ostringstream new_name; new_name << mColumnsIndexed.size(); name = new_name.str(); } if (mColumns.find(name) == mColumns.end()) { // Add column mColumns[name] = LLScrollListColumn(column, this); LLScrollListColumn* new_column = &mColumns[name]; new_column->mParentCtrl = this; new_column->mIndex = mColumns.size()-1; // Add button if (new_column->getWidth() > 0 || new_column->mRelWidth > 0 || new_column->mDynamicWidth) { if (getNumColumns() > 0) { mTotalColumnPadding += mColumnPadding; } if (new_column->mRelWidth >= 0) { new_column->setWidth((S32)llround(new_column->mRelWidth*mItemListRect.getWidth())); } else if(new_column->mDynamicWidth) { mNumDynamicWidthColumns++; new_column->setWidth((mItemListRect.getWidth() - mTotalStaticColumnWidth - mTotalColumnPadding) / mNumDynamicWidthColumns); } S32 top = mItemListRect.mTop; S32 left = mItemListRect.mLeft; { std::map::iterator itor; for (itor = mColumns.begin(); itor != mColumns.end(); ++itor) { if (itor->second.mIndex < new_column->mIndex && itor->second.getWidth() > 0) { left += itor->second.getWidth() + mColumnPadding; } } } std::string button_name = "btn_" + name; S32 right = left+new_column->getWidth(); if (new_column->mIndex != (S32)mColumns.size()-1) { right += mColumnPadding; } LLRect temp_rect = LLRect(left,top+mHeadingHeight,right,top); new_column->mHeader = new LLColumnHeader(button_name, temp_rect, new_column); if(column["image"].asString() != "") { //new_column->mHeader->setScaleImage(false); new_column->mHeader->setImage(column["image"].asString()); } else { new_column->mHeader->setLabel(new_column->mLabel); //new_column->mHeader->setLabel(new_column->mLabel); } new_column->mHeader->setToolTip(column["tool_tip"].asString()); //RN: although it might be useful to change sort order with the keyboard, // mixing tab stops on child items along with the parent item is not supported yet new_column->mHeader->setTabStop(FALSE); addChild(new_column->mHeader); new_column->mHeader->setVisible(mDisplayColumnHeaders); sendChildToFront(mScrollbar); } } dirtyColumns(); } // static void LLScrollListCtrl::onClickColumn(void *userdata) { LLScrollListColumn *info = (LLScrollListColumn*)userdata; if (!info) return; LLScrollListCtrl *parent = info->mParentCtrl; if (!parent) return; S32 column_index = info->mIndex; LLScrollListColumn* column = parent->mColumnsIndexed[info->mIndex]; bool ascending = column->mSortAscending; if (column->mSortingColumn != column->mName && parent->mColumns.find(column->mSortingColumn) != parent->mColumns.end()) { LLScrollListColumn& info_redir = parent->mColumns[column->mSortingColumn]; column_index = info_redir.mIndex; } // if this column is the primary sort key, reverse the direction sort_column_t cur_sort_column; if (!parent->mSortColumns.empty() && parent->mSortColumns.back().first == column_index) { ascending = !parent->mSortColumns.back().second; } parent->sortByColumnIndex(column_index, ascending); if (parent->mOnSortChangedCallback) { parent->mOnSortChangedCallback(parent->getCallbackUserData()); } } std::string LLScrollListCtrl::getSortColumnName() { LLScrollListColumn* column = mSortColumns.empty() ? NULL : mColumnsIndexed[mSortColumns.back().first]; if (column) return column->mName; else return ""; } BOOL LLScrollListCtrl::needsSorting() { return !mSortColumns.empty(); } void LLScrollListCtrl::clearColumns() { std::map::iterator itor; for (itor = mColumns.begin(); itor != mColumns.end(); ++itor) { LLColumnHeader *header = itor->second.mHeader; if (header) { removeChild(header); delete header; } } mColumns.clear(); mSortColumns.clear(); mTotalStaticColumnWidth = 0; mTotalColumnPadding = 0; } void LLScrollListCtrl::setColumnLabel(const std::string& column, const std::string& label) { std::map::iterator itor = mColumns.find(column); if (itor != mColumns.end()) { itor->second.mLabel = label; if (itor->second.mHeader) { itor->second.mHeader->setLabel(label); } } } LLScrollListColumn* LLScrollListCtrl::getColumn(S32 index) { if (index < 0 || index >= (S32)mColumnsIndexed.size()) { return NULL; } return mColumnsIndexed[index]; } void LLScrollListCtrl::setColumnHeadings(LLSD headings) { mColumns.clear(); LLSD::array_const_iterator itor; for (itor = headings.beginArray(); itor != headings.endArray(); ++itor) { addColumn(*itor); } } LLScrollListItem* LLScrollListCtrl::addElement(const LLSD& value, EAddPosition pos, void* userdata) { // ID LLSD id = value["id"]; LLScrollListItem *new_item = new LLScrollListItem(id, userdata); if (value.has("enabled")) { new_item->setEnabled( value["enabled"].asBoolean() ); } new_item->setNumColumns(mColumns.size()); // Add any columns we don't already have LLSD columns = value["columns"]; LLSD::array_const_iterator itor; S32 col_index = 0 ; for (itor = columns.beginArray(); itor != columns.endArray(); ++itor) { if (itor->isUndefined()) { // skip unused columns in item passed in continue; } std::string column = (*itor)["column"].asString(); LLScrollListColumn* columnp = NULL; // empty columns strings index by ordinal if (column.empty()) { std::ostringstream new_name; new_name << col_index; column = new_name.str(); } std::map::iterator column_itor; column_itor = mColumns.find(column); if (column_itor != mColumns.end()) { columnp = &column_itor->second; } // create new column on demand if (!columnp) { LLSD new_column; new_column["name"] = column; new_column["label"] = column; // if width supplied for column, use it, otherwise // use adaptive width if (itor->has("width")) { new_column["width"] = (*itor)["width"]; } else { new_column["dynamicwidth"] = true; } addColumn(new_column); columnp = &mColumns[column]; new_item->setNumColumns(mColumns.size()); } S32 index = columnp->mIndex; S32 width = columnp->getWidth(); LLFontGL::HAlign font_alignment = columnp->mFontAlignment; LLColor4 fcolor = LLColor4::black; LLSD value = (*itor)["value"]; std::string fontname = (*itor)["font"].asString(); std::string fontstyle = (*itor)["font-style"].asString(); std::string type = (*itor)["type"].asString(); if ((*itor).has("font-color")) { LLSD sd_color = (*itor)["font-color"]; fcolor.setValue(sd_color); } BOOL has_color = (*itor).has("color"); LLColor4 color = ((*itor)["color"]); BOOL enabled = !(*itor).has("enabled") || (*itor)["enabled"].asBoolean() == true; const LLFontGL *font = LLResMgr::getInstance()->getRes(fontname); if (!font) { font = LLResMgr::getInstance()->getRes( LLFONT_SANSSERIF_SMALL ); } U8 font_style = LLFontGL::getStyleFromString(fontstyle); if (type == "icon") { LLScrollListIcon* cell = new LLScrollListIcon(value, width); if (has_color) { cell->setColor(color); } new_item->setColumn(index, cell); } else if (type == "checkbox") { LLCheckBoxCtrl* ctrl = new LLCheckBoxCtrl(std::string("check"), LLRect(0, width, width, 0), std::string(" ")); ctrl->setEnabled(enabled); ctrl->setValue(value); LLScrollListCheck* cell = new LLScrollListCheck(ctrl,width); if (has_color) { cell->setColor(color); } new_item->setColumn(index, cell); } else if (type == "separator") { LLScrollListSeparator* cell = new LLScrollListSeparator(width); if (has_color) { cell->setColor(color); } new_item->setColumn(index, cell); } else if (type == "date") { LLScrollListDate* cell = new LLScrollListDate(value.asDate(), font, width, font_style, font_alignment); if (has_color) { cell->setColor(color); } new_item->setColumn(index, cell); if (columnp->mHeader && !value.asString().empty()) { columnp->mHeader->setHasResizableElement(TRUE); } } else { LLScrollListText* cell = new LLScrollListText(value.asString(), font, width, font_style, font_alignment, fcolor, TRUE); if (has_color) { cell->setColor(color); } new_item->setColumn(index, cell); if (columnp->mHeader && !value.asString().empty()) { columnp->mHeader->setHasResizableElement(TRUE); } } col_index++; } // add dummy cells for missing columns for (column_map_t::iterator column_it = mColumns.begin(); column_it != mColumns.end(); ++column_it) { S32 column_idx = column_it->second.mIndex; if (new_item->getColumn(column_idx) == NULL) { LLScrollListColumn* column_ptr = &column_it->second; new_item->setColumn(column_idx, new LLScrollListText(LLStringUtil::null, LLResMgr::getInstance()->getRes( LLFONT_SANSSERIF_SMALL ), column_ptr->getWidth(), LLFontGL::NORMAL)); } } addItem(new_item, pos); return new_item; } LLScrollListItem* LLScrollListCtrl::addSimpleElement(const std::string& value, EAddPosition pos, const LLSD& id) { LLSD entry_id = id; if (id.isUndefined()) { entry_id = value; } LLScrollListItem *new_item = new LLScrollListItem(entry_id); const LLFontGL *font = LLResMgr::getInstance()->getRes( LLFONT_SANSSERIF_SMALL ); new_item->addColumn(value, font, getRect().getWidth()); addItem(new_item, pos); return new_item; } void LLScrollListCtrl::setValue(const LLSD& value ) { LLSD::array_const_iterator itor; for (itor = value.beginArray(); itor != value.endArray(); ++itor) { addElement(*itor); } } LLSD LLScrollListCtrl::getValue() const { LLScrollListItem *item = getFirstSelected(); if (!item) return LLSD(); return item->getValue(); } BOOL LLScrollListCtrl::operateOnSelection(EOperation op) { if (op == OP_DELETE) { deleteSelectedItems(); return TRUE; } else if (op == OP_DESELECT) { deselectAllItems(); } return FALSE; } BOOL LLScrollListCtrl::operateOnAll(EOperation op) { if (op == OP_DELETE) { clearRows(); return TRUE; } else if (op == OP_DESELECT) { deselectAllItems(); } else if (op == OP_SELECT) { selectAll(); } return FALSE; } //virtual void LLScrollListCtrl::setFocus(BOOL b) { mSearchString.clear(); // for tabbing into pristine scroll lists (Finder) if (!getFirstSelected()) { selectFirstItem(); //onCommit(); // SJB: selectFirstItem() will call onCommit() if appropriate } LLUICtrl::setFocus(b); } // virtual BOOL LLScrollListCtrl::isDirty() const { BOOL grubby = mDirty; if ( !mAllowMultipleSelection ) { grubby = (mOriginalSelection != getFirstSelectedIndex()); } return grubby; } // Clear dirty state void LLScrollListCtrl::resetDirty() { mDirty = FALSE; mOriginalSelection = getFirstSelectedIndex(); } //virtual void LLScrollListCtrl::onFocusReceived() { // forget latent selection changes when getting focus mSelectionChanged = FALSE; LLUICtrl::onFocusReceived(); } //virtual void LLScrollListCtrl::onFocusLost() { if (hasMouseCapture()) { gFocusMgr.setMouseCapture(NULL); } LLUICtrl::onFocusLost(); } LLColumnHeader::LLColumnHeader(const std::string& label, const LLRect &rect, LLScrollListColumn* column, const LLFontGL* fontp) : LLComboBox(label, rect, label, NULL, NULL), mColumn(column), mOrigLabel(label), mShowSortOptions(FALSE), mHasResizableElement(FALSE) { mListPosition = LLComboBox::ABOVE; setCommitCallback(onSelectSort); setCallbackUserData(this); mButton->setTabStop(FALSE); // require at least two frames between mouse down and mouse up event to capture intentional "hold" not just bad framerate mButton->setHeldDownDelay(LLUI::sConfigGroup->getF32("ColumnHeaderDropDownDelay"), 2); mButton->setHeldDownCallback(onHeldDown); mButton->setClickedCallback(onClick); mButton->setMouseDownCallback(onMouseDown); mButton->setCallbackUserData(this); mButton->setToolTip(label); mAscendingText = std::string("[LOW]...[HIGH](Ascending)"); // *TODO: Translate mDescendingText = std::string("[HIGH]...[LOW](Descending)"); // *TODO: Translate mList->reshape(llmax(mList->getRect().getWidth(), 110, getRect().getWidth()), mList->getRect().getHeight()); // resize handles on left and right const S32 RESIZE_BAR_THICKNESS = 3; mResizeBar = new LLResizeBar( std::string("resizebar"), this, LLRect( getRect().getWidth() - RESIZE_BAR_THICKNESS, getRect().getHeight(), getRect().getWidth(), 0), MIN_COLUMN_WIDTH, S32_MAX, LLResizeBar::RIGHT ); addChild(mResizeBar); mResizeBar->setEnabled(FALSE); } LLColumnHeader::~LLColumnHeader() { } void LLColumnHeader::draw() { BOOL draw_arrow = !mColumn->mLabel.empty() && mColumn->mParentCtrl->isSorted() && mColumn->mParentCtrl->getSortColumnName() == mColumn->mSortingColumn; BOOL is_ascending = mColumn->mParentCtrl->getSortAscending(); mButton->setImageOverlay(is_ascending ? "up_arrow.tga" : "down_arrow.tga", LLFontGL::RIGHT, draw_arrow ? LLColor4::white : LLColor4::transparent); mArrowImage = mButton->getImageOverlay(); //BOOL clip = getRect().mRight > mColumn->mParentCtrl->getItemListRect().getWidth(); //LLGLEnable scissor_test(clip ? GL_SCISSOR_TEST : GL_FALSE); //LLRect column_header_local_rect(-getRect().mLeft, getRect().getHeight(), mColumn->mParentCtrl->getItemListRect().getWidth() - getRect().mLeft, 0); //LLUI::setScissorRegionLocal(column_header_local_rect); // Draw children LLComboBox::draw(); if (mList->getVisible()) { // sync sort order with list selection every frame mColumn->mParentCtrl->sortByColumn(mColumn->mSortingColumn, getCurrentIndex() == 0); } } BOOL LLColumnHeader::handleDoubleClick(S32 x, S32 y, MASK mask) { if (canResize() && mResizeBar->getRect().pointInRect(x, y)) { // reshape column to max content width LLRect column_rect = getRect(); column_rect.mRight = column_rect.mLeft + mColumn->mMaxContentWidth; userSetShape(column_rect); } else { onClick(this); } return TRUE; } void LLColumnHeader::setImage(const std::string &image_name) { if (mButton) { mButton->setImageSelected(image_name); mButton->setImageUnselected(image_name); } } //static void LLColumnHeader::onClick(void* user_data) { LLColumnHeader* headerp = (LLColumnHeader*)user_data; if (!headerp) return; LLScrollListColumn* column = headerp->mColumn; if (!column) return; if (headerp->mList->getVisible()) { headerp->hideList(); } LLScrollListCtrl::onClickColumn(column); // propagate new sort order to sort order list headerp->mList->selectNthItem(column->mParentCtrl->getSortAscending() ? 0 : 1); } //static void LLColumnHeader::onMouseDown(void* user_data) { // for now, do nothing but block the normal showList() behavior return; } //static void LLColumnHeader::onHeldDown(void* user_data) { LLColumnHeader* headerp = (LLColumnHeader*)user_data; headerp->showList(); } void LLColumnHeader::showList() { if (mShowSortOptions) { //LLSD item_val = mColumn->mParentCtrl->getFirstData()->getValue(); mOrigLabel = mButton->getLabelSelected(); // move sort column over to this column and do initial sort mColumn->mParentCtrl->sortByColumn(mColumn->mSortingColumn, mColumn->mParentCtrl->getSortAscending()); std::string low_item_text; std::string high_item_text; LLScrollListItem* itemp = mColumn->mParentCtrl->getFirstData(); if (itemp) { LLScrollListCell* cell = itemp->getColumn(mColumn->mIndex); if (cell && cell->isText()) { if (mColumn->mParentCtrl->getSortAscending()) { low_item_text = cell->getValue().asString(); } else { high_item_text = cell->getValue().asString(); } } } itemp = mColumn->mParentCtrl->getLastData(); if (itemp) { LLScrollListCell* cell = itemp->getColumn(mColumn->mIndex); if (cell && cell->isText()) { if (mColumn->mParentCtrl->getSortAscending()) { high_item_text = cell->getValue().asString(); } else { low_item_text = cell->getValue().asString(); } } } LLStringUtil::truncate(low_item_text, 3); LLStringUtil::truncate(high_item_text, 3); std::string ascending_string; std::string descending_string; if (low_item_text.empty() || high_item_text.empty()) { ascending_string = "Ascending"; descending_string = "Descending"; } else { mAscendingText.setArg("[LOW]", low_item_text); mAscendingText.setArg("[HIGH]", high_item_text); mDescendingText.setArg("[LOW]", low_item_text); mDescendingText.setArg("[HIGH]", high_item_text); ascending_string = mAscendingText.getString(); descending_string = mDescendingText.getString(); } S32 text_width = LLFontGL::getFontSansSerifSmall()->getWidth(ascending_string); text_width = llmax(text_width, LLFontGL::getFontSansSerifSmall()->getWidth(descending_string)) + 10; text_width = llmax(text_width, getRect().getWidth() - 30); mList->getColumn(0)->setWidth(text_width); ((LLScrollListText*)mList->getFirstData()->getColumn(0))->setText(ascending_string); ((LLScrollListText*)mList->getLastData()->getColumn(0))->setText(descending_string); mList->reshape(llmax(text_width + 30, 110, getRect().getWidth()), mList->getRect().getHeight()); LLComboBox::showList(); } } //static void LLColumnHeader::onSelectSort(LLUICtrl* ctrl, void* user_data) { LLColumnHeader* headerp = (LLColumnHeader*)user_data; if (!headerp) return; LLScrollListColumn* column = headerp->mColumn; if (!column) return; LLScrollListCtrl *parent = column->mParentCtrl; if (!parent) return; if (headerp->getCurrentIndex() == 0) { // ascending parent->sortByColumn(column->mSortingColumn, TRUE); } else { // descending parent->sortByColumn(column->mSortingColumn, FALSE); } // restore original column header headerp->setLabel(headerp->mOrigLabel); } LLView* LLColumnHeader::findSnapEdge(S32& new_edge_val, const LLCoordGL& mouse_dir, ESnapEdge snap_edge, ESnapType snap_type, S32 threshold, S32 padding) { // this logic assumes dragging on right llassert(snap_edge == SNAP_RIGHT); // use higher snap threshold for column headers threshold = llmin(threshold, 10); LLRect snap_rect = getSnapRect(); S32 snap_delta = mColumn->mMaxContentWidth - snap_rect.getWidth(); // x coord growing means column growing, so same signs mean we're going in right direction if (llabs(snap_delta) <= threshold && mouse_dir.mX * snap_delta > 0 ) { new_edge_val = snap_rect.mRight + snap_delta; } else { LLScrollListColumn* next_column = mColumn->mParentCtrl->getColumn(mColumn->mIndex + 1); while (next_column) { if (next_column->mHeader) { snap_delta = (next_column->mHeader->getSnapRect().mRight - next_column->mMaxContentWidth) - snap_rect.mRight; if (llabs(snap_delta) <= threshold && mouse_dir.mX * snap_delta > 0 ) { new_edge_val = snap_rect.mRight + snap_delta; } break; } next_column = mColumn->mParentCtrl->getColumn(next_column->mIndex + 1); } } return this; } void LLColumnHeader::userSetShape(const LLRect& new_rect) { S32 new_width = new_rect.getWidth(); S32 delta_width = new_width - (getRect().getWidth() /*+ mColumn->mParentCtrl->getColumnPadding()*/); if (delta_width != 0) { S32 remaining_width = -delta_width; S32 col; for (col = mColumn->mIndex + 1; col < mColumn->mParentCtrl->getNumColumns(); col++) { LLScrollListColumn* columnp = mColumn->mParentCtrl->getColumn(col); if (!columnp) continue; if (columnp->mHeader && columnp->mHeader->canResize()) { // how many pixels in width can this column afford to give up? S32 resize_buffer_amt = llmax(0, columnp->getWidth() - MIN_COLUMN_WIDTH); // user shrinking column, need to add width to other columns if (delta_width < 0) { if (/*!columnp->mDynamicWidth && */columnp->getWidth() > 0) { // statically sized column, give all remaining width to this column columnp->setWidth(columnp->getWidth() + remaining_width); if (columnp->mRelWidth > 0.f) { columnp->mRelWidth = (F32)columnp->getWidth() / (F32)mColumn->mParentCtrl->getItemListRect().getWidth(); } // all padding went to this widget, we're done break; } } else { // user growing column, need to take width from other columns remaining_width += resize_buffer_amt; if (/*!columnp->mDynamicWidth && */columnp->getWidth() > 0) { columnp->setWidth(columnp->getWidth() - llmin(columnp->getWidth() - MIN_COLUMN_WIDTH, delta_width)); if (columnp->mRelWidth > 0.f) { columnp->mRelWidth = (F32)columnp->getWidth() / (F32)mColumn->mParentCtrl->getItemListRect().getWidth(); } } if (remaining_width >= 0) { // width sucked up from neighboring columns, done break; } } } } // clamp resize amount to maximum that can be absorbed by other columns if (delta_width > 0) { delta_width += llmin(remaining_width, 0); } // propagate constrained delta_width to new width for this column new_width = getRect().getWidth() + delta_width - mColumn->mParentCtrl->getColumnPadding(); // use requested width mColumn->setWidth(new_width); // update proportional spacing if (mColumn->mRelWidth > 0.f) { mColumn->mRelWidth = (F32)new_width / (F32)mColumn->mParentCtrl->getItemListRect().getWidth(); } // tell scroll list to layout columns again // do immediate update to get proper feedback to resize handle // which needs to know how far the resize actually went mColumn->mParentCtrl->updateColumns(); } } void LLColumnHeader::setHasResizableElement(BOOL resizable) { // for now, dynamically spaced columns can't be resized // if (mColumn->mDynamicWidth) return; if (mHasResizableElement != resizable) { mColumn->mParentCtrl->dirtyColumns(); mHasResizableElement = resizable; } } void LLColumnHeader::updateResizeBars() { S32 num_resizable_columns = 0; S32 col; for (col = 0; col < mColumn->mParentCtrl->getNumColumns(); col++) { LLScrollListColumn* columnp = mColumn->mParentCtrl->getColumn(col); if (columnp->mHeader && columnp->mHeader->canResize()) { num_resizable_columns++; } } S32 num_resizers_enabled = 0; // now enable/disable resize handles on resizable columns if we have at least two for (col = 0; col < mColumn->mParentCtrl->getNumColumns(); col++) { LLScrollListColumn* columnp = mColumn->mParentCtrl->getColumn(col); if (!columnp->mHeader) continue; BOOL enable = num_resizable_columns >= 2 && num_resizers_enabled < (num_resizable_columns - 1) && columnp->mHeader->canResize(); columnp->mHeader->enableResizeBar(enable); if (enable) { num_resizers_enabled++; } } } void LLColumnHeader::enableResizeBar(BOOL enable) { // for now, dynamically spaced columns can't be resized //if (!mColumn->mDynamicWidth) { mResizeBar->setEnabled(enable); } } BOOL LLColumnHeader::canResize() { return getVisible() && (mHasResizableElement || mColumn->mDynamicWidth); } void LLScrollListColumn::setWidth(S32 width) { if (!mDynamicWidth && mRelWidth <= 0.f) { mParentCtrl->updateStaticColumnWidth(this, width); } mWidth = width; } // Default constructor LLScrollListColumn::LLScrollListColumn() : mName(), mSortingColumn(), mSortAscending(TRUE), mLabel(), mWidth(-1), mRelWidth(-1.0), mDynamicWidth(FALSE), mMaxContentWidth(0), mIndex(-1), mParentCtrl(NULL), mHeader(NULL), mFontAlignment(LLFontGL::LEFT) { } LLScrollListColumn::LLScrollListColumn(const LLSD &sd, LLScrollListCtrl* parent) : mWidth(0), mIndex (-1), mParentCtrl(parent), mHeader(NULL), mMaxContentWidth(0), mDynamicWidth(FALSE), mRelWidth(-1.f) { mName = sd.get("name").asString(); mSortingColumn = mName; if (sd.has("sort")) { mSortingColumn = sd.get("sort").asString(); } mSortAscending = TRUE; if (sd.has("sort_ascending")) { mSortAscending = sd.get("sort_ascending").asBoolean(); } mLabel = sd.get("label").asString(); if (sd.has("relwidth") && (F32)sd.get("relwidth").asReal() > 0) { mRelWidth = (F32)sd.get("relwidth").asReal(); if (mRelWidth < 0) mRelWidth = 0; if (mRelWidth > 1) mRelWidth = 1; mDynamicWidth = FALSE; } else if(sd.has("dynamicwidth") && (BOOL)sd.get("dynamicwidth").asBoolean() == TRUE) { mDynamicWidth = TRUE; mRelWidth = -1; } else { setWidth(sd.get("width").asInteger()); } if (sd.has("halign")) { mFontAlignment = (LLFontGL::HAlign)llclamp(sd.get("halign").asInteger(), (S32)LLFontGL::LEFT, (S32)LLFontGL::HCENTER); } else { mFontAlignment = LLFontGL::LEFT; } }