/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include "atkwrapper.hxx" #include "atktextattributes.hxx" #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; static sal_Int16 text_type_from_boundary(AtkTextBoundary boundary_type) { switch(boundary_type) { case ATK_TEXT_BOUNDARY_CHAR: return accessibility::AccessibleTextType::CHARACTER; case ATK_TEXT_BOUNDARY_WORD_START: case ATK_TEXT_BOUNDARY_WORD_END: return accessibility::AccessibleTextType::WORD; case ATK_TEXT_BOUNDARY_SENTENCE_START: case ATK_TEXT_BOUNDARY_SENTENCE_END: return accessibility::AccessibleTextType::SENTENCE; case ATK_TEXT_BOUNDARY_LINE_START: case ATK_TEXT_BOUNDARY_LINE_END: return accessibility::AccessibleTextType::LINE; default: return -1; } } /*****************************************************************************/ #if ATK_CHECK_VERSION(2,32,0) static accessibility::AccessibleScrollType scroll_type_from_scroll_type(AtkScrollType type) { switch(type) { case ATK_SCROLL_TOP_LEFT: return accessibility::AccessibleScrollType_SCROLL_TOP_LEFT; case ATK_SCROLL_BOTTOM_RIGHT: return accessibility::AccessibleScrollType_SCROLL_BOTTOM_RIGHT; case ATK_SCROLL_TOP_EDGE: return accessibility::AccessibleScrollType_SCROLL_TOP_EDGE; case ATK_SCROLL_BOTTOM_EDGE: return accessibility::AccessibleScrollType_SCROLL_BOTTOM_EDGE; case ATK_SCROLL_LEFT_EDGE: return accessibility::AccessibleScrollType_SCROLL_LEFT_EDGE; case ATK_SCROLL_RIGHT_EDGE: return accessibility::AccessibleScrollType_SCROLL_RIGHT_EDGE; case ATK_SCROLL_ANYWHERE: return accessibility::AccessibleScrollType_SCROLL_ANYWHERE; default: throw lang::NoSupportException(); } } #endif /*****************************************************************************/ static gchar * adjust_boundaries( css::uno::Reference const & pText, accessibility::TextSegment const & rTextSegment, AtkTextBoundary boundary_type, gint * start_offset, gint * end_offset ) { accessibility::TextSegment aTextSegment; OUString aString; gint start = 0, end = 0; if( !rTextSegment.SegmentText.isEmpty() ) { switch(boundary_type) { case ATK_TEXT_BOUNDARY_CHAR: case ATK_TEXT_BOUNDARY_LINE_START: case ATK_TEXT_BOUNDARY_LINE_END: case ATK_TEXT_BOUNDARY_SENTENCE_START: start = rTextSegment.SegmentStart; end = rTextSegment.SegmentEnd; aString = rTextSegment.SegmentText; break; // the OOo break iterator behaves as SENTENCE_START case ATK_TEXT_BOUNDARY_SENTENCE_END: start = rTextSegment.SegmentStart; end = rTextSegment.SegmentEnd; if( start > 0 ) --start; if( end > 0 && end < pText->getCharacterCount() - 1 ) --end; aString = pText->getTextRange(start, end); break; case ATK_TEXT_BOUNDARY_WORD_START: start = rTextSegment.SegmentStart; // Determine the start index of the next segment aTextSegment = pText->getTextBehindIndex(rTextSegment.SegmentEnd, text_type_from_boundary(boundary_type)); if( !aTextSegment.SegmentText.isEmpty() ) end = aTextSegment.SegmentStart; else end = pText->getCharacterCount(); aString = pText->getTextRange(start, end); break; case ATK_TEXT_BOUNDARY_WORD_END: end = rTextSegment.SegmentEnd; // Determine the end index of the previous segment aTextSegment = pText->getTextBeforeIndex(rTextSegment.SegmentStart, text_type_from_boundary(boundary_type)); if( !aTextSegment.SegmentText.isEmpty() ) start = aTextSegment.SegmentEnd; else start = 0; aString = pText->getTextRange(start, end); break; default: return nullptr; } } *start_offset = start; *end_offset = end; return OUStringToGChar(aString); } /*****************************************************************************/ /// @throws uno::RuntimeException static css::uno::Reference getText( AtkText *pText ) { AtkObjectWrapper *pWrap = ATK_OBJECT_WRAPPER( pText ); if( pWrap ) { if( !pWrap->mpText.is() ) { pWrap->mpText.set(pWrap->mpContext, css::uno::UNO_QUERY); } return pWrap->mpText; } return css::uno::Reference(); } /*****************************************************************************/ /// @throws uno::RuntimeException static css::uno::Reference getTextMarkup( AtkText *pText ) { AtkObjectWrapper *pWrap = ATK_OBJECT_WRAPPER( pText ); if( pWrap ) { if( !pWrap->mpTextMarkup.is() ) { pWrap->mpTextMarkup.set(pWrap->mpContext, css::uno::UNO_QUERY); } return pWrap->mpTextMarkup; } return css::uno::Reference(); } /*****************************************************************************/ /// @throws uno::RuntimeException static css::uno::Reference getTextAttributes( AtkText *pText ) { AtkObjectWrapper *pWrap = ATK_OBJECT_WRAPPER( pText ); if( pWrap ) { if( !pWrap->mpTextAttributes.is() ) { pWrap->mpTextAttributes.set(pWrap->mpContext, css::uno::UNO_QUERY); } return pWrap->mpTextAttributes; } return css::uno::Reference(); } /*****************************************************************************/ /// @throws uno::RuntimeException static css::uno::Reference getMultiLineText( AtkText *pText ) { AtkObjectWrapper *pWrap = ATK_OBJECT_WRAPPER( pText ); if( pWrap ) { if( !pWrap->mpMultiLineText.is() ) { pWrap->mpMultiLineText.set(pWrap->mpContext, css::uno::UNO_QUERY); } return pWrap->mpMultiLineText; } return css::uno::Reference(); } /*****************************************************************************/ extern "C" { static gchar * text_wrapper_get_text (AtkText *text, gint start_offset, gint end_offset) { gchar * ret = nullptr; g_return_val_if_fail( (end_offset == -1) || (end_offset >= start_offset), nullptr ); try { css::uno::Reference pText = getText( text ); if( pText.is() ) { OUString aText; sal_Int32 n = pText->getCharacterCount(); if( start_offset < n ) { if( -1 == end_offset ) aText = pText->getTextRange(start_offset, n - start_offset); else aText = pText->getTextRange(start_offset, end_offset); } ret = g_strdup( OUStringToOString(aText, RTL_TEXTENCODING_UTF8 ).getStr() ); } } catch(const uno::Exception&) { g_warning( "Exception in getText()" ); } return ret; } static gchar * text_wrapper_get_text_after_offset (AtkText *text, gint offset, AtkTextBoundary boundary_type, gint *start_offset, gint *end_offset) { try { css::uno::Reference pText = getText( text ); if( pText.is() ) { accessibility::TextSegment aTextSegment = pText->getTextBehindIndex(offset, text_type_from_boundary(boundary_type)); return adjust_boundaries(pText, aTextSegment, boundary_type, start_offset, end_offset); } } catch(const uno::Exception&) { g_warning( "Exception in get_text_after_offset()" ); } return nullptr; } static gchar * text_wrapper_get_text_at_offset (AtkText *text, gint offset, AtkTextBoundary boundary_type, gint *start_offset, gint *end_offset) { try { css::uno::Reference pText = getText( text ); if( pText.is() ) { /* If the user presses the 'End' key, the caret will be placed behind the last character, * which is the same index as the first character of the next line. In atk the magic offset * '-2' is used to cover this special case. */ if ( -2 == offset && (ATK_TEXT_BOUNDARY_LINE_START == boundary_type || ATK_TEXT_BOUNDARY_LINE_END == boundary_type) ) { css::uno::Reference< css::accessibility::XAccessibleMultiLineText> pMultiLineText = getMultiLineText( text ); if( pMultiLineText.is() ) { accessibility::TextSegment aTextSegment = pMultiLineText->getTextAtLineWithCaret(); return adjust_boundaries(pText, aTextSegment, boundary_type, start_offset, end_offset); } } accessibility::TextSegment aTextSegment = pText->getTextAtIndex(offset, text_type_from_boundary(boundary_type)); return adjust_boundaries(pText, aTextSegment, boundary_type, start_offset, end_offset); } } catch(const uno::Exception&) { g_warning( "Exception in get_text_at_offset()" ); } return nullptr; } static gunichar text_wrapper_get_character_at_offset (AtkText *text, gint offset) { gint start, end; gunichar uc = 0; gchar * char_as_string = text_wrapper_get_text_at_offset(text, offset, ATK_TEXT_BOUNDARY_CHAR, &start, &end); if( char_as_string ) { uc = g_utf8_get_char( char_as_string ); g_free( char_as_string ); } return uc; } static gchar * text_wrapper_get_text_before_offset (AtkText *text, gint offset, AtkTextBoundary boundary_type, gint *start_offset, gint *end_offset) { try { css::uno::Reference pText = getText( text ); if( pText.is() ) { accessibility::TextSegment aTextSegment = pText->getTextBeforeIndex(offset, text_type_from_boundary(boundary_type)); return adjust_boundaries(pText, aTextSegment, boundary_type, start_offset, end_offset); } } catch(const uno::Exception&) { g_warning( "Exception in text_before_offset()" ); } return nullptr; } static gint text_wrapper_get_caret_offset (AtkText *text) { gint offset = -1; try { css::uno::Reference pText = getText( text ); if( pText.is() ) offset = pText->getCaretPosition(); } catch(const uno::Exception&) { g_warning( "Exception in getCaretPosition()" ); } return offset; } static gboolean text_wrapper_set_caret_offset (AtkText *text, gint offset) { try { css::uno::Reference pText = getText( text ); if( pText.is() ) return pText->setCaretPosition( offset ); } catch(const uno::Exception&) { g_warning( "Exception in setCaretPosition()" ); } return FALSE; } // #i92232# static AtkAttributeSet* handle_text_markup_as_run_attribute( css::uno::Reference const & pTextMarkup, const gint nTextMarkupType, const gint offset, AtkAttributeSet* pSet, gint *start_offset, gint *end_offset ) { const gint nTextMarkupCount( pTextMarkup->getTextMarkupCount( nTextMarkupType ) ); if ( nTextMarkupCount > 0 ) { for ( gint nTextMarkupIndex = 0; nTextMarkupIndex < nTextMarkupCount; ++nTextMarkupIndex ) { accessibility::TextSegment aTextSegment = pTextMarkup->getTextMarkup( nTextMarkupIndex, nTextMarkupType ); const gint nStartOffsetTextMarkup = aTextSegment.SegmentStart; const gint nEndOffsetTextMarkup = aTextSegment.SegmentEnd; if ( nStartOffsetTextMarkup <= offset ) { if ( offset < nEndOffsetTextMarkup ) { // text markup at *start_offset = ::std::max( *start_offset, nStartOffsetTextMarkup ); *end_offset = ::std::min( *end_offset, nEndOffsetTextMarkup ); switch ( nTextMarkupType ) { case css::text::TextMarkupType::SPELLCHECK: { pSet = attribute_set_prepend_misspelled( pSet ); } break; case css::text::TextMarkupType::TRACK_CHANGE_INSERTION: { pSet = attribute_set_prepend_tracked_change_insertion( pSet ); } break; case css::text::TextMarkupType::TRACK_CHANGE_DELETION: { pSet = attribute_set_prepend_tracked_change_deletion( pSet ); } break; case css::text::TextMarkupType::TRACK_CHANGE_FORMATCHANGE: { pSet = attribute_set_prepend_tracked_change_formatchange( pSet ); } break; default: { OSL_ASSERT( false ); } } break; // no further iteration needed. } else { *start_offset = ::std::max( *start_offset, nEndOffsetTextMarkup ); // continue iteration. } } else { *end_offset = ::std::min( *end_offset, nStartOffsetTextMarkup ); break; // no further iteration. } } // eof iteration over text markups } return pSet; } static AtkAttributeSet * text_wrapper_get_run_attributes( AtkText *text, gint offset, gint *start_offset, gint *end_offset) { AtkAttributeSet *pSet = nullptr; try { bool bOffsetsAreValid = false; css::uno::Reference pText = getText( text ); if( pText.is()) { uno::Sequence< beans::PropertyValue > aAttributeList; css::uno::Reference pTextAttributes = getTextAttributes( text ); if(pTextAttributes.is()) // Text attributes are available for paragraphs only { aAttributeList = pTextAttributes->getRunAttributes( offset, uno::Sequence< OUString > () ); } else // For other text objects use character attributes { aAttributeList = pText->getCharacterAttributes( offset, uno::Sequence< OUString > () ); } pSet = attribute_set_new_from_property_values( aAttributeList, true, text ); // #i100938# // - always provide start_offset and end_offset { accessibility::TextSegment aTextSegment = pText->getTextAtIndex(offset, accessibility::AccessibleTextType::ATTRIBUTE_RUN); *start_offset = aTextSegment.SegmentStart; // #i100938# // Do _not_ increment the end_offset provide by instance *end_offset = aTextSegment.SegmentEnd; bOffsetsAreValid = true; } } // Special handling for misspelled text // #i92232# // - add special handling for tracked changes and refactor the // corresponding code for handling misspelled text. css::uno::Reference pTextMarkup = getTextMarkup( text ); if( pTextMarkup.is() ) { // Get attribute run here if it hasn't been done before if (!bOffsetsAreValid && pText.is()) { accessibility::TextSegment aAttributeTextSegment = pText->getTextAtIndex(offset, accessibility::AccessibleTextType::ATTRIBUTE_RUN); *start_offset = aAttributeTextSegment.SegmentStart; *end_offset = aAttributeTextSegment.SegmentEnd; } // handle misspelled text pSet = handle_text_markup_as_run_attribute( pTextMarkup, css::text::TextMarkupType::SPELLCHECK, offset, pSet, start_offset, end_offset ); // handle tracked changes pSet = handle_text_markup_as_run_attribute( pTextMarkup, css::text::TextMarkupType::TRACK_CHANGE_INSERTION, offset, pSet, start_offset, end_offset ); pSet = handle_text_markup_as_run_attribute( pTextMarkup, css::text::TextMarkupType::TRACK_CHANGE_DELETION, offset, pSet, start_offset, end_offset ); pSet = handle_text_markup_as_run_attribute( pTextMarkup, css::text::TextMarkupType::TRACK_CHANGE_FORMATCHANGE, offset, pSet, start_offset, end_offset ); } } catch(const uno::Exception&){ g_warning( "Exception in get_run_attributes()" ); if( pSet ) { atk_attribute_set_free( pSet ); pSet = nullptr; } } return pSet; } /*****************************************************************************/ static AtkAttributeSet * text_wrapper_get_default_attributes( AtkText *text ) { AtkAttributeSet *pSet = nullptr; try { css::uno::Reference pTextAttributes = getTextAttributes( text ); if( pTextAttributes.is() ) { uno::Sequence< beans::PropertyValue > aAttributeList = pTextAttributes->getDefaultAttributes( uno::Sequence< OUString > () ); pSet = attribute_set_new_from_property_values( aAttributeList, false, text ); } } catch(const uno::Exception&) { g_warning( "Exception in get_default_attributes()" ); if( pSet ) { atk_attribute_set_free( pSet ); pSet = nullptr; } } return pSet; } /*****************************************************************************/ static void text_wrapper_get_character_extents( AtkText *text, gint offset, gint *x, gint *y, gint *width, gint *height, AtkCoordType coords ) { *x = *y = *width = *height = -1; try { css::uno::Reference pText = getText( text ); if( pText.is() ) { awt::Rectangle aRect = pText->getCharacterBounds( offset ); gint origin_x = 0; gint origin_y = 0; if (coords == ATK_XY_SCREEN || coords == ATK_XY_WINDOW) { g_return_if_fail( ATK_IS_COMPONENT( text ) ); gint nWidth = -1; gint nHeight = -1; atk_component_get_extents(ATK_COMPONENT(text), &origin_x, &origin_y, &nWidth, &nHeight, coords); } *x = aRect.X + origin_x; *y = aRect.Y + origin_y; *width = aRect.Width; *height = aRect.Height; } } catch(const uno::Exception&) { g_warning( "Exception in getCharacterBounds" ); } } static gint text_wrapper_get_character_count (AtkText *text) { gint rv = 0; try { css::uno::Reference pText = getText( text ); if( pText.is() ) rv = pText->getCharacterCount(); } catch(const uno::Exception&) { g_warning( "Exception in getCharacterCount" ); } return rv; } static gint text_wrapper_get_offset_at_point (AtkText *text, gint x, gint y, AtkCoordType coords) { try { css::uno::Reference pText = getText( text ); if( pText.is() ) { gint origin_x = 0; gint origin_y = 0; if (coords == ATK_XY_SCREEN || coords == ATK_XY_WINDOW) { g_return_val_if_fail( ATK_IS_COMPONENT( text ), -1 ); gint nWidth = -1; gint nHeight = -1; atk_component_get_extents(ATK_COMPONENT(text), &origin_x, &origin_y, &nWidth, &nHeight, coords); } return pText->getIndexAtPoint( awt::Point(x - origin_x, y - origin_y) ); } } catch(const uno::Exception&) { g_warning( "Exception in getIndexAtPoint" ); } return -1; } // FIXME: the whole series of selections API is problematic ... static gint text_wrapper_get_n_selections (AtkText *text) { gint rv = 0; try { css::uno::Reference pText = getText( text ); if( pText.is() ) rv = ( pText->getSelectionEnd() > pText->getSelectionStart() ) ? 1 : 0; } catch(const uno::Exception&) { g_warning( "Exception in getSelectionEnd() or getSelectionStart()" ); } return rv; } static gchar * text_wrapper_get_selection (AtkText *text, gint selection_num, gint *start_offset, gint *end_offset) { g_return_val_if_fail( selection_num == 0, FALSE ); try { css::uno::Reference pText = getText( text ); if( pText.is() ) { *start_offset = pText->getSelectionStart(); *end_offset = pText->getSelectionEnd(); return OUStringToGChar( pText->getSelectedText() ); } } catch(const uno::Exception&) { g_warning( "Exception in getSelectionEnd(), getSelectionStart() or getSelectedText()" ); } return nullptr; } static gboolean text_wrapper_add_selection (AtkText *text, gint start_offset, gint end_offset) { // FIXME: can we try to be more compatible by expanding an // existing adjacent selection ? try { css::uno::Reference pText = getText( text ); if( pText.is() ) return pText->setSelection( start_offset, end_offset ); // ? } catch(const uno::Exception&) { g_warning( "Exception in setSelection()" ); } return FALSE; } static gboolean text_wrapper_remove_selection (AtkText *text, gint selection_num) { g_return_val_if_fail( selection_num == 0, FALSE ); try { css::uno::Reference pText = getText( text ); if( pText.is() ) return pText->setSelection( 0, 0 ); // ? } catch(const uno::Exception&) { g_warning( "Exception in setSelection()" ); } return FALSE; } static gboolean text_wrapper_set_selection (AtkText *text, gint selection_num, gint start_offset, gint end_offset) { g_return_val_if_fail( selection_num == 0, FALSE ); try { css::uno::Reference pText = getText( text ); if( pText.is() ) return pText->setSelection( start_offset, end_offset ); } catch(const uno::Exception&) { g_warning( "Exception in setSelection()" ); } return FALSE; } #if ATK_CHECK_VERSION(2,32,0) static gboolean text_wrapper_scroll_substring_to(AtkText *text, gint start_offset, gint end_offset, AtkScrollType scroll_type) { try { css::uno::Reference pText = getText( text ); if( pText.is() ) return pText->scrollSubstringTo( start_offset, end_offset, scroll_type_from_scroll_type( scroll_type ) ); } catch(const uno::Exception&) { g_warning( "Exception in scrollSubstringTo()" ); } return FALSE; } #endif } // extern "C" void textIfaceInit (AtkTextIface *iface) { g_return_if_fail (iface != nullptr); iface->get_text = text_wrapper_get_text; iface->get_character_at_offset = text_wrapper_get_character_at_offset; iface->get_text_before_offset = text_wrapper_get_text_before_offset; iface->get_text_at_offset = text_wrapper_get_text_at_offset; iface->get_text_after_offset = text_wrapper_get_text_after_offset; iface->get_caret_offset = text_wrapper_get_caret_offset; iface->set_caret_offset = text_wrapper_set_caret_offset; iface->get_character_count = text_wrapper_get_character_count; iface->get_n_selections = text_wrapper_get_n_selections; iface->get_selection = text_wrapper_get_selection; iface->add_selection = text_wrapper_add_selection; iface->remove_selection = text_wrapper_remove_selection; iface->set_selection = text_wrapper_set_selection; iface->get_run_attributes = text_wrapper_get_run_attributes; iface->get_default_attributes = text_wrapper_get_default_attributes; iface->get_character_extents = text_wrapper_get_character_extents; iface->get_offset_at_point = text_wrapper_get_offset_at_point; #if ATK_CHECK_VERSION(2,32,0) iface->scroll_substring_to = text_wrapper_scroll_substring_to; #endif } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */