/////////////////////////////////////////////////////////////////////////////// // Name: tests/sizers/boxsizer.cpp // Purpose: Unit tests for wxBoxSizer // Author: Vadim Zeitlin // Created: 2010-03-06 // Copyright: (c) 2010 Vadim Zeitlin /////////////////////////////////////////////////////////////////////////////// // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- #include "testprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #include "wx/app.h" #include "wx/sizer.h" #include "wx/listbox.h" #endif // WX_PRECOMP #include "asserthelper.h" // ---------------------------------------------------------------------------- // test fixture // ---------------------------------------------------------------------------- class BoxSizerTestCase { public: BoxSizerTestCase() : m_win(new wxWindow(wxTheApp->GetTopWindow(), wxID_ANY)), m_sizer(new wxBoxSizer(wxHORIZONTAL)) { m_win->SetClientSize(127, 35); m_win->SetSizer(m_sizer); } ~BoxSizerTestCase() { delete m_win; } protected: wxWindow* const m_win; wxSizer* const m_sizer; }; // ---------------------------------------------------------------------------- // tests themselves // ---------------------------------------------------------------------------- TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::Size1", "[sizer]") { const wxSize sizeTotal = m_win->GetClientSize(); const wxSize sizeChild = sizeTotal / 2; wxWindow * const child = new wxWindow(m_win, wxID_ANY, wxDefaultPosition, sizeChild); m_sizer->Add(child); m_win->Layout(); CHECK(child->GetSize() == sizeChild); m_sizer->Clear(); m_sizer->Add(child, wxSizerFlags(1)); m_win->Layout(); CHECK( child->GetSize() == wxSize(sizeTotal.x, sizeChild.y) ); m_sizer->Clear(); m_sizer->Add(child, wxSizerFlags(1).Expand()); m_win->Layout(); CHECK(child->GetSize() == sizeTotal); m_sizer->Clear(); m_sizer->Add(child, wxSizerFlags()); m_sizer->SetItemMinSize(child, sizeTotal*2); m_win->Layout(); CHECK(child->GetSize() == sizeTotal); m_sizer->Clear(); m_sizer->Add(child, wxSizerFlags().Expand()); m_sizer->SetItemMinSize(child, sizeTotal*2); m_win->Layout(); CHECK(child->GetSize() == sizeTotal); } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::Size3", "[sizer]") { wxGCC_WARNING_SUPPRESS(missing-field-initializers) // check that various combinations of minimal sizes and proportions work as // expected for different window sizes static const struct LayoutTestData { // proportions of the elements int prop[3]; // minimal sizes of the elements in the sizer direction int minsize[3]; // total size and the expected sizes of the elements int x, sizes[3]; // if true, don't try the permutations of our test data bool dontPermute; // Add the given window to the sizer with the corresponding parameters void AddToSizer(wxSizer *sizer, wxWindow *win, int n) const { sizer->Add(win, wxSizerFlags(prop[n])); sizer->SetItemMinSize(win, wxSize(minsize[n], -1)); } } layoutTestData[] = { // some really simple cases (no need to permute those, they're // symmetrical anyhow) { { 1, 1, 1, }, { 50, 50, 50, }, 150, { 50, 50, 50, }, true }, { { 2, 2, 2, }, { 50, 50, 50, }, 600, { 200, 200, 200, }, true }, // items with different proportions and min sizes when there is enough // space to lay them out { { 1, 2, 3, }, { 0, 0, 0, }, 600, { 100, 200, 300, } }, { { 1, 2, 3, }, { 100, 100, 100, }, 600, { 100, 200, 300, } }, { { 1, 2, 3, }, { 100, 50, 50, }, 600, { 100, 200, 300, } }, { { 0, 1, 1, }, { 200, 100, 100, }, 600, { 200, 200, 200, } }, { { 0, 1, 2, }, { 300, 100, 100, }, 600, { 300, 100, 200, } }, { { 0, 1, 1, }, { 100, 50, 50, }, 300, { 100, 100, 100, } }, { { 0, 1, 2, }, { 100, 50, 50, }, 400, { 100, 100, 200, } }, // cases when there is not enough space to lay out the items correctly // while still respecting their min sizes { { 0, 1, 1, }, { 100, 150, 50, }, 300, { 100, 150, 50, } }, { { 1, 2, 3, }, { 100, 100, 100, }, 300, { 100, 100, 100, } }, { { 1, 2, 3, }, { 100, 50, 50, }, 300, { 100, 80, 120, } }, { { 1, 2, 3, }, { 100, 10, 10, }, 150, { 100, 20, 30, } }, // cases when there is not enough space even for the min sizes (don't // permute in these cases as the layout does depend on the item order // because the first ones have priority) { { 1, 2, 3, }, { 100, 50, 50, }, 150, { 100, 50, 0, }, true }, { { 1, 2, 3, }, { 100, 100, 100, }, 200, { 100, 100, 0, }, true }, { { 1, 2, 3, }, { 100, 100, 100, }, 150, { 100, 50, 0, }, true }, { { 1, 2, 3, }, { 100, 100, 100, }, 50, { 50, 0, 0, }, true }, { { 1, 2, 3, }, { 100, 100, 100, }, 0, { 0, 0, 0, }, true }, }; wxGCC_WARNING_RESTORE(missing-field-initializers) wxWindow *child[3]; child[0] = new wxWindow(m_win, wxID_ANY); child[1] = new wxWindow(m_win, wxID_ANY); child[2] = new wxWindow(m_win, wxID_ANY); for ( unsigned i = 0; i < WXSIZEOF(layoutTestData); i++ ) { LayoutTestData ltd = layoutTestData[i]; // the results shouldn't depend on the order of items except in the // case when there is not enough space for even the fixed width items // (in which case the first ones might get enough of it but not the // last ones) so test a couple of permutations of test data unless // specifically disabled for this test case for ( unsigned p = 0; p < 3; p++) { switch ( p ) { case 0: // nothing to do, use original data break; case 1: // exchange first and last elements wxSwap(ltd.prop[0], ltd.prop[2]); wxSwap(ltd.minsize[0], ltd.minsize[2]); wxSwap(ltd.sizes[0], ltd.sizes[2]); break; case 2: // exchange the original third and second elements wxSwap(ltd.prop[0], ltd.prop[1]); wxSwap(ltd.minsize[0], ltd.minsize[1]); wxSwap(ltd.sizes[0], ltd.sizes[1]); break; } m_sizer->Clear(); unsigned j; for ( j = 0; j < WXSIZEOF(child); j++ ) ltd.AddToSizer(m_sizer, child[j], j); m_win->SetClientSize(ltd.x, -1); m_win->Layout(); for ( j = 0; j < WXSIZEOF(child); j++ ) { WX_ASSERT_EQUAL_MESSAGE ( ( "test %lu, permutation #%lu: wrong size for child #%d " "for total size %d", static_cast(i), static_cast(p), j, ltd.x ), ltd.sizes[j], child[j]->GetSize().x ); } // don't try other permutations if explicitly disabled if ( ltd.dontPermute ) break; } } } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::CalcMin", "[sizer]") { static const unsigned NUM_TEST_ITEM = 3; static const struct CalcMinTestData { // proportions of the elements, if one of them is -1 it means to not // use this window at all in this test int prop[NUM_TEST_ITEM]; // minimal sizes of the elements in the sizer direction int minsize[NUM_TEST_ITEM]; // the expected minimal sizer size int total; } calcMinTestData[] = { { { 1, 1, -1 }, { 30, 50, 0 }, 100 }, { { 1, 1, 0 }, { 30, 50, 20 }, 120 }, { { 10, 10, -1 }, { 30, 50, 0 }, 100 }, { { 1, 2, 2 }, { 50, 50, 80 }, 250 }, { { 1, 2, 2 }, { 100, 50, 80 }, 500 }, }; unsigned n; wxWindow *child[NUM_TEST_ITEM]; for ( n = 0; n < NUM_TEST_ITEM; n++ ) child[n] = new wxWindow(m_win, wxID_ANY); for ( unsigned i = 0; i < WXSIZEOF(calcMinTestData); i++ ) { m_sizer->Clear(); const CalcMinTestData& cmtd = calcMinTestData[i]; for ( n = 0; n < NUM_TEST_ITEM; n++ ) { if ( cmtd.prop[n] != -1 ) { child[n]->SetInitialSize(wxSize(cmtd.minsize[n], -1)); m_sizer->Add(child[n], wxSizerFlags(cmtd.prop[n])); } } WX_ASSERT_EQUAL_MESSAGE ( ("In test #%u", i), cmtd.total, m_sizer->CalcMin().x ); } } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::SetMinSize", "[sizer]") { wxWindow* const child = new wxWindow(m_win, wxID_ANY); child->SetInitialSize(wxSize(10, -1)); m_sizer->Add(child); // Setting minimal size explicitly must make GetMinSize() return at least // this size even if it needs a much smaller one. m_sizer->SetMinSize(100, 0); CHECK(m_sizer->GetMinSize().x == 100); m_sizer->Layout(); CHECK(m_sizer->GetMinSize().x == 100); } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::BestSizeRespectsMaxSize", "[sizer]") { m_sizer->Clear(); const int maxWidth = 100; wxSizer* sizer = new wxBoxSizer(wxVERTICAL); wxListBox* listbox = new wxListBox(m_win, wxID_ANY); listbox->Append("some very very very very very very very very very very very long string"); listbox->SetMaxSize(wxSize(maxWidth, -1)); sizer->Add(listbox); m_sizer->Add(sizer); m_win->Layout(); CHECK(listbox->GetSize().GetWidth() == maxWidth); } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::RecalcSizesRespectsMaxSize1", "[sizer]") { m_sizer->Clear(); const int maxWidth = 100; m_win->SetClientSize(300, 300); wxSizer* sizer1 = new wxBoxSizer(wxVERTICAL); m_sizer->Add(sizer1); wxListBox* listbox1 = new wxListBox(m_win, wxID_ANY); listbox1->Append("some very very very very very very very very very very very long string"); sizer1->Add(listbox1); wxSizer* sizer2 = new wxBoxSizer(wxHORIZONTAL); sizer1->Add(sizer2, wxSizerFlags().Expand()); wxListBox* listbox2 = new wxListBox(m_win, wxID_ANY); listbox2->Append("some string"); listbox2->SetMaxSize(wxSize(100, -1)); sizer2->Add(listbox2, wxSizerFlags().Proportion(1)); m_win->Layout(); CHECK(listbox2->GetSize().GetWidth() == maxWidth); } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::RecalcSizesRespectsMaxSize2", "[sizer]") { m_sizer->Clear(); m_win->SetClientSize(300, 300); wxSizer* sizer1 = new wxBoxSizer(wxVERTICAL); m_sizer->Add(sizer1, wxSizerFlags().Expand()); wxWindow* child1 = new wxWindow(m_win, wxID_ANY); sizer1->Add(child1, wxSizerFlags().Proportion(1)); wxWindow* child2 = new wxWindow(m_win, wxID_ANY); child2->SetMaxSize(wxSize(-1, 50)); sizer1->Add(child2, wxSizerFlags().Proportion(1)); wxWindow* child3 = new wxWindow(m_win, wxID_ANY); sizer1->Add(child3, wxSizerFlags().Proportion(1)); m_win->Layout(); CHECK(child1->GetSize().GetHeight() == 125); CHECK(child2->GetSize().GetHeight() == 50); CHECK(child3->GetSize().GetHeight() == 125); } TEST_CASE_METHOD(BoxSizerTestCase, "BoxSizer::IncompatibleFlags", "[sizer]") { // This unhygienic macro relies on having a local variable called "sizer". #define ASSERT_SIZER_INVALID_FLAGS(f, msg) \ WX_ASSERT_FAILS_WITH_ASSERT_MESSAGE( \ "Expected assertion not generated for " msg, \ sizer->Add(10, 10, 0, f) \ ) #define ASSERT_SIZER_INCOMPATIBLE_FLAGS(f1, f2) \ ASSERT_SIZER_INVALID_FLAGS(f1 | f2, \ "using incompatible flags " #f1 " and " #f2 \ ) // First check with the horizontal sizer, which is what we use by default. wxSizer* sizer = m_sizer; // In horizontal sizers alignment is only used in vertical direction. ASSERT_SIZER_INVALID_FLAGS( wxALIGN_RIGHT, "using wxALIGN_RIGHT in a horizontal sizer" ); ASSERT_SIZER_INVALID_FLAGS( wxALIGN_CENTRE_HORIZONTAL, "using wxALIGN_CENTRE_HORIZONTAL in a horizontal sizer" ); // However using wxALIGN_CENTRE_HORIZONTAL together with // wxALIGN_CENTRE_VERTICAL as done by wxSizerFlags::Centre() should work. sizer->Add(10, 10, wxSizerFlags().Centre()); // Combining two vertical alignment flags doesn't make sense. ASSERT_SIZER_INCOMPATIBLE_FLAGS(wxALIGN_BOTTOM, wxALIGN_CENTRE_VERTICAL); // Combining wxEXPAND with vertical alignment doesn't make sense neither. ASSERT_SIZER_INCOMPATIBLE_FLAGS(wxEXPAND, wxALIGN_CENTRE_VERTICAL); ASSERT_SIZER_INCOMPATIBLE_FLAGS(wxEXPAND, wxALIGN_BOTTOM); // But combining it with these flags and wxSHAPED does make sense and so // shouldn't result in an assert. CHECK_NOTHROW( sizer->Add(10, 10, 0, wxEXPAND | wxSHAPED | wxALIGN_CENTRE_VERTICAL) ); CHECK_NOTHROW( sizer->Add(10, 10, 0, wxEXPAND | wxSHAPED | wxALIGN_TOP) ); // And now exactly the same thing in the other direction. sizer = new wxBoxSizer(wxVERTICAL); m_win->SetSizer(sizer); ASSERT_SIZER_INVALID_FLAGS( wxALIGN_BOTTOM, "using wxALIGN_BOTTOM in a vertical sizer" ); ASSERT_SIZER_INVALID_FLAGS( wxALIGN_CENTRE_VERTICAL, "using wxALIGN_CENTRE_VERTICAL in a vertical sizer" ); sizer->Add(10, 10, wxSizerFlags().Centre()); ASSERT_SIZER_INCOMPATIBLE_FLAGS(wxALIGN_RIGHT, wxALIGN_CENTRE_HORIZONTAL); ASSERT_SIZER_INCOMPATIBLE_FLAGS(wxEXPAND, wxALIGN_CENTRE_HORIZONTAL); ASSERT_SIZER_INCOMPATIBLE_FLAGS(wxEXPAND, wxALIGN_RIGHT); CHECK_NOTHROW( sizer->Add(10, 10, 0, wxEXPAND | wxSHAPED | wxALIGN_CENTRE_HORIZONTAL) ); CHECK_NOTHROW( sizer->Add(10, 10, 0, wxEXPAND | wxSHAPED | wxALIGN_RIGHT) ); #undef ASSERT_SIZER_INCOMPATIBLE_FLAGS #undef ASSERT_SIZER_INVALID_FLAGS }