/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020 Joshua Redstone redstone at gmail.com * Copyright (C) 1992-2020 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include #include #include #include BOOST_AUTO_TEST_SUITE( GroupSaveLoad ) // The tests below set up a test case with a spec for the set of groups to create. // A group can contain members from this list of candidates. enum ItemType { TEXT0, TEXT1, TEXT2, TEXT3, TEXT4, TEXT5, TEXT6, TEXT7, TEXT8, REMOVED_TEXT, // Text not added to board GROUP0, GROUP1, GROUP2, NAME_GROUP3, NAME_GROUP4, NAME_GROUP3_DUP, // Group with name identical to NAME_GROUP3 REMOVED_GROUP, // Group not added to board NUM_ITEMS }; // The objects associated with item REMOVED_TEXT and REMOVED_GROUP are not added to the board, // so they are not cleaned up when the board is deleted. These pointers stores the objects // so they can be deleted once they are done being used. static TEXTE_PCB* s_removedText = nullptr; static PCB_GROUP* s_removedGroup = nullptr; /* * Takes a vector of group specifications for groups to create. * Each group is a vector of which ItemTypes to put in the group. * The first group corresponds to GROUP0, the second to GROUP1, and os on. */ std::unique_ptr createBoard( const std::vector>& spec ) { std::unique_ptr board = std::make_unique(); std::vector items; // Create text items and add to board. for( int idx = 0; idx <= REMOVED_TEXT; idx++ ) { TEXTE_PCB* textItem = new TEXTE_PCB( board.get() ); textItem->SetText( wxString::Format( _( "some text-%d" ), idx ) ); // Don't add REMOVED_TEXT to the board if( idx < REMOVED_TEXT ) board->Add( textItem ); items.push_back( textItem ); } // Create groups for( int idx = 0; idx < ( NUM_ITEMS - GROUP0 ); idx++ ) { PCB_GROUP* gr = new PCB_GROUP( board.get() ); if( idx >= ( NAME_GROUP3 - GROUP0 ) ) { wxString name = wxString::Format( _( "group-%d" ), ( idx == ( NAME_GROUP3_DUP - GROUP0 ) ) ? 3 : idx ); gr->SetName( name ); BOOST_CHECK_EQUAL( gr->GetName(), name ); } items.push_back( gr ); } std::bitset used; // Populate groups based on spec for( int offset = 0; offset < ( NUM_ITEMS - GROUP0 ); offset++ ) { int groupIdx = GROUP0 + offset; PCB_GROUP* group = static_cast( items[groupIdx] ); if( offset < spec.size() ) { const std::vector& groupSpec = spec[offset]; for( ItemType item : groupSpec ) { used.set( static_cast( item ) ); group->AddItem( items[item] ); } BOOST_CHECK_EQUAL( group->GetItems().size(), groupSpec.size() ); board->Add( group ); } else if( groupIdx != REMOVED_GROUP && used.test( groupIdx ) ) { // This group is used in another group, so it must be on the board board->Add( group ); } else if( groupIdx != REMOVED_GROUP ) { // If the group isn't used, delete it delete group; } } // Delete the removed text item if it isn't used if( used.test( REMOVED_TEXT ) ) s_removedText = static_cast( items[REMOVED_TEXT] ); else delete items[REMOVED_TEXT]; // Delete the removed group item if it isn't used if( used.test( REMOVED_GROUP ) ) s_removedGroup = static_cast( items[REMOVED_GROUP] ); else delete items[REMOVED_GROUP]; BOOST_TEST_CHECKPOINT( "Returning fresh board" ); return board; } // Check if two groups are identical by comparing the fields (by Uuid). void testGroupEqual( const PCB_GROUP& group1, const PCB_GROUP& group2 ) { BOOST_CHECK_EQUAL( group1.m_Uuid.AsString(), group2.m_Uuid.AsString() ); BOOST_CHECK_EQUAL( group1.GetName(), group2.GetName() ); const std::unordered_set& items1 = group1.GetItems(); const std::unordered_set& items2 = group2.GetItems(); BOOST_CHECK_EQUAL( items1.size(), items2.size() ); // Test that the sets items1 and items2 are identical, by checking m_Uuid for( BOARD_ITEM* item1 : items1 ) { auto cmp = [&]( BOARD_ITEM* elem ) { return elem->m_Uuid.AsString() == item1->m_Uuid.AsString(); }; auto item2 = std::find_if( items2.begin(), items2.end(), cmp ); BOOST_CHECK( item2 != items2.end() ); } } // Check if two GROUPS are identical by comparing the groups in each of them. void testGroupsEqual( const GROUPS& groups1, const GROUPS& groups2 ) { BOOST_CHECK_EQUAL( groups1.size(), groups2.size() ); for( PCB_GROUP* group1 : groups1 ) { auto cmp = [&]( BOARD_ITEM* elem ) { return elem->m_Uuid.AsString() == group1->m_Uuid.AsString(); }; auto group2 = std::find_if( groups2.begin(), groups2.end(), cmp ); BOOST_CHECK( group2 != groups2.end() ); testGroupEqual( *group1, **group2 ); } } /* * Create board based on spec, save it to a file, load it, and make sure the * groups in the resulting board are the same as the groups we started with. */ void testSaveLoad( const std::vector>& spec ) { std::unique_ptr board1 = createBoard( spec ); auto path = boost::filesystem::temp_directory_path() / "group_saveload_tst.kicad_pcb"; ::KI_TEST::DumpBoardToFile( *board1, path.string() ); std::unique_ptr board2 = ::KI_TEST::ReadBoardFromFileOrStream( path.string() ); testGroupsEqual( board1->Groups(), board2->Groups() ); } // Test saving & loading of a few configurations BOOST_AUTO_TEST_CASE( HealthyGroups ) { // Test board with no groups testSaveLoad( {} ); // Single group testSaveLoad( { { TEXT0 } } ); testSaveLoad( { { TEXT0, TEXT1 } } ); // Two groups testSaveLoad( { { TEXT0, TEXT1 }, { TEXT2, TEXT3 } } ); testSaveLoad( { { TEXT0, TEXT1 }, { TEXT2, GROUP0 } } ); // Subgroups by no cycle testSaveLoad( { { TEXT0, GROUP1 }, { TEXT2 }, { TEXT3, GROUP0 } } ); testSaveLoad( { { TEXT0 }, { TEXT2 }, { GROUP1, GROUP0 } } ); testSaveLoad( { { TEXT0 }, { TEXT1 }, { TEXT2, NAME_GROUP3 }, { TEXT3 } } ); testSaveLoad( { { TEXT0 }, { TEXT1 }, { TEXT2, NAME_GROUP3 }, { TEXT3, GROUP0 } } ); testSaveLoad( { { TEXT0 }, { TEXT1 }, { TEXT2 }, { TEXT3 }, { NAME_GROUP3, GROUP0 } } ); } BOOST_AUTO_TEST_CASE( InvalidGroups ) { // A cycle std::unique_ptr board1 = createBoard( { { TEXT0, GROUP1 }, { TEXT2, GROUP0 } } ); BOOST_CHECK_EQUAL( board1->GroupsSanityCheck(), "Cycle detected in group membership" ); // More complex cycle board1 = createBoard( { { TEXT0, GROUP1 }, { TEXT1 }, { TEXT2, NAME_GROUP4 }, { TEXT3, GROUP2 }, { TEXT4, NAME_GROUP3 } } ); BOOST_CHECK_EQUAL( board1->GroupsSanityCheck(), "Cycle detected in group membership" ); // Delete the removed group since the test is over board1.reset( nullptr ); delete s_removedGroup; s_removedGroup = nullptr; // Delete the removed text since the test is over board1.reset( nullptr ); delete s_removedText; s_removedText = nullptr; } BOOST_AUTO_TEST_SUITE_END()