xlnt/source/worksheet/tests/test_worksheet.hpp
2016-07-22 20:26:02 -04:00

1197 lines
36 KiB
C++

#pragma once
#include <iostream>
#include <cxxtest/TestSuite.h>
#include <xlnt/worksheet/footer.hpp>
#include <xlnt/worksheet/header.hpp>
#include <xlnt/worksheet/header_footer.hpp>
#include <xlnt/worksheet/worksheet.hpp>
class test_worksheet : public CxxTest::TestSuite
{
public:
void test_new_worksheet()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT(ws.get_workbook() == wb);
}
void test_get_cell()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
auto cell = ws.get_cell(xlnt::cell_reference(1, 1));
TS_ASSERT_EQUALS(cell.get_reference(), "A1");
}
void test_invalid_cell()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_THROWS(xlnt::cell_reference invalid(xlnt::column_t((xlnt::column_t::index_t)0), 0), xlnt::value_error);
}
void test_worksheet_dimension()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_EQUALS("A1:A1", ws.calculate_dimension());
ws.get_cell("B12").set_value("AAA");
TS_ASSERT_EQUALS("B12:B12", ws.calculate_dimension());
}
void test_squared_range()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
const std::vector<std::vector<std::string>> expected =
{
{ "A1", "B1", "C1" },
{ "A2", "B2", "C2" },
{ "A3", "B3", "C3" },
{ "A4", "B4", "C4" }
};
auto rows = ws.get_squared_range(1, 1, 3, 4);
auto expected_row_iter = expected.begin();
for(auto row : rows)
{
auto expected_cell_iter = (*expected_row_iter).begin();
for(auto cell : row)
{
TS_ASSERT_EQUALS(cell.get_reference(), *expected_cell_iter);
expected_cell_iter++;
}
expected_row_iter++;
}
}
void test_fill_rows()
{
std::size_t row = 0;
std::size_t column = 0;
std::string coordinate = "A1";
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("A1").set_value("first");
ws.get_cell("C9").set_value("last");
TS_ASSERT_EQUALS(ws.calculate_dimension(), "A1:C9");
TS_ASSERT_EQUALS(ws.rows()[row][column].get_reference(), coordinate);
row = 8;
column = 2;
coordinate = "C9";
TS_ASSERT_EQUALS(ws.rows()[row][column].get_reference(), coordinate);
}
void test_iter_rows()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
const std::vector<std::vector<std::string>> expected =
{
{ "A1", "B1", "C1" },
{ "A2", "B2", "C2" },
{ "A3", "B3", "C3" },
{ "A4", "B4", "C4" }
};
auto rows = ws.rows("A1:C4");
auto expected_row_iter = expected.begin();
for(auto row : rows)
{
auto expected_cell_iter = (*expected_row_iter).begin();
for(auto cell : row)
{
TS_ASSERT_EQUALS(cell.get_reference(), *expected_cell_iter);
expected_cell_iter++;
}
expected_row_iter++;
}
}
void test_iter_rows_offset()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
auto rows = ws.rows("A1:C4", 1, 3);
const std::vector<std::vector<std::string>> expected =
{
{ "D2", "E2", "F2" },
{ "D3", "E3", "F3" },
{ "D4", "E4", "F4" },
{ "D5", "E5", "F5" }
};
auto expected_row_iter = expected.begin();
for(auto row : rows)
{
auto expected_cell_iter = (*expected_row_iter).begin();
for(auto cell : row)
{
TS_ASSERT_EQUALS(cell.get_reference(), *expected_cell_iter);
expected_cell_iter++;
}
expected_row_iter++;
}
}
void test_iter_rows_offset_int_int()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
auto rows = ws.rows(1, 3);
const std::vector<std::vector<std::string>> expected =
{
{ "D2", "E2", "F2" },
{ "D3", "E3", "F3" },
{ "D4", "E4", "F4" },
{ "D5", "E5", "F5" }
};
auto expected_row_iter = expected.begin();
for (auto row : rows)
{
auto expected_cell_iter = (*expected_row_iter).begin();
for (auto cell : row)
{
TS_ASSERT_EQUALS(cell.get_reference(), *expected_cell_iter);
expected_cell_iter++;
}
expected_row_iter++;
}
}
void test_get_named_range()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
wb.create_named_range("test_range", ws, "C5");
auto xlrange = ws.get_named_range("test_range");
TS_ASSERT_EQUALS(1, xlrange.length());
TS_ASSERT_EQUALS(1, xlrange[0].num_cells());
TS_ASSERT_EQUALS(5, xlrange[0][0].get_row());
ws.create_named_range("test_range2", "C6");
auto xlrange2 = ws.get_named_range("test_range2");
TS_ASSERT_EQUALS(1, xlrange2.length());
TS_ASSERT_EQUALS(1, xlrange2[0].num_cells());
TS_ASSERT_EQUALS(6, xlrange2[0][0].get_row());
}
void test_get_bad_named_range()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_THROWS(ws.get_named_range("bad_range"), xlnt::key_error);
}
void test_get_named_range_wrong_sheet()
{
xlnt::workbook wb;
wb.create_sheet();
wb.create_sheet();
auto ws1 = wb[0];
auto ws2 = wb[1];
wb.create_named_range("wrong_sheet_range", ws1, "C5");
TS_ASSERT_THROWS(ws2.get_named_range("wrong_sheet_range"), xlnt::named_range_error);
}
void test_remove_named_range_bad()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_THROWS(ws.remove_named_range("bad_range"), std::runtime_error);
}
void test_cell_alternate_coordinates()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
auto cell = ws.get_cell(xlnt::cell_reference(4, 8));
TS_ASSERT_EQUALS(cell.get_reference(), "D8");
}
// void test_cell_insufficient_coordinates() {}
void test_cell_range_name()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
wb.create_named_range("test_range_single", ws, "B12");
auto c_range_name = ws.get_named_range("test_range_single");
auto c_range_coord = ws.get_range("B12");
auto c_cell = ws.get_cell("B12");
TS_ASSERT_EQUALS(c_range_coord, c_range_name);
TS_ASSERT(c_range_coord[0][0] == c_cell);
}
void test_hyperlink_value()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("A1").set_hyperlink("http://test.com");
TS_ASSERT_EQUALS("http://test.com", ws.get_cell("A1").get_value<std::string>());
ws.get_cell("A1").set_value("test");
TS_ASSERT_EQUALS("test", ws.get_cell("A1").get_value<std::string>());
TS_ASSERT_EQUALS(ws.get_cell("A1").get_hyperlink().get_target_uri(), "http://test.com");
}
void test_append()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append(std::vector<std::string> {"value"});
TS_ASSERT_EQUALS("value", ws.get_cell("A1").get_value<std::string>());
}
void test_append_list()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append(std::vector<std::string> {"This is A1", "This is B1"});
TS_ASSERT_EQUALS("This is A1", ws.get_cell("A1").get_value<std::string>());
TS_ASSERT_EQUALS("This is B1", ws.get_cell("B1").get_value<std::string>());
}
void test_append_dict_letter()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
const std::unordered_map<std::string, std::string> dict_letter =
{
{ "A", "This is A1" },
{ "C", "This is C1" }
};
ws.append(dict_letter);
TS_ASSERT_EQUALS("This is A1", ws.get_cell("A1").get_value<std::string>());
TS_ASSERT_EQUALS("This is C1", ws.get_cell("C1").get_value<std::string>());
}
void test_append_dict_index()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
const std::unordered_map<int, std::string> dict_index =
{
{ 1, "This is A1" },
{ 3, "This is C1" }
};
ws.append(dict_index);
TS_ASSERT_EQUALS("This is A1", ws.get_cell("A1").get_value<std::string>());
TS_ASSERT_EQUALS("This is C1", ws.get_cell("C1").get_value<std::string>());
}
// void test_bad_append() {}
// void test_append_range() {}
void test_append_iterator()
{
std::vector<int> range;
for(int i = 0; i < 30; i++)
{
range.push_back(i);
}
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append(range.begin(), range.end());
TS_ASSERT_EQUALS(ws[xlnt::cell_reference("AD1")].get_value<int>(), 29);
}
void test_append_2d_list()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append(std::vector<std::string> {"This is A1", "This is B1"});
ws.append(std::vector<std::string> {"This is A2", "This is B2"});
auto vals = ws.get_range("A1:B2");
TS_ASSERT_EQUALS(vals[0][0].get_value<std::string>(), "This is A1");
TS_ASSERT_EQUALS(vals[0][1].get_value<std::string>(), "This is B1");
TS_ASSERT_EQUALS(vals[1][0].get_value<std::string>(), "This is A2");
TS_ASSERT_EQUALS(vals[1][1].get_value<std::string>(), "This is B2");
}
// void test_append_cell()
// {
// Right now, a cell cannot be created without a parent worksheet.
// This should be possible by instantiating a cell_impl, but the
// memory management is complicated.
// xlnt::workbook wb;
// xlnt::worksheet ws(wb);
// xlnt::cell cell;
// cell.set_value(25);
// ws.append({ cell });
// TS_ASSERT_EQUALS(cell.get_value<int>(), 25);
// }
void test_rows()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("A1").set_value("first");
ws.get_cell("C9").set_value("last");
auto rows = ws.rows();
TS_ASSERT_EQUALS(rows.length(), 9);
auto first_row = rows[0];
auto last_row = rows[8];
TS_ASSERT_EQUALS(first_row[0].get_value<std::string>(), "first");
TS_ASSERT_EQUALS(first_row[0].get_reference(), "A1");
TS_ASSERT_EQUALS(last_row[2].get_value<std::string>(), "last");
}
void test_no_rows()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_EQUALS(ws.rows().length(), 1);
TS_ASSERT_EQUALS(ws.rows()[0].length(), 1);
}
void test_no_cols()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_EQUALS(ws.columns().length(), 1);
TS_ASSERT_EQUALS(ws.columns()[0].length(), 1);
}
void test_one_cell()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
auto cell = ws.get_cell("A1");
TS_ASSERT_EQUALS(ws.columns().length(), 1);
TS_ASSERT_EQUALS(ws.columns()[0].length(), 1);
TS_ASSERT_EQUALS(ws.columns()[0][0], cell);
}
// void test_by_col() {}
void test_cols()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("A1").set_value("first");
ws.get_cell("C9").set_value("last");
auto cols = ws.columns();
TS_ASSERT_EQUALS(cols.length(), 3);
TS_ASSERT_EQUALS(cols[0][0].get_value<std::string>(), "first");
TS_ASSERT_EQUALS(cols[2][8].get_value<std::string>(), "last");
}
void test_auto_filter()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.auto_filter(ws.get_range("a1:f1"));
TS_ASSERT_EQUALS(ws.get_auto_filter(), "A1:F1");
ws.unset_auto_filter();
TS_ASSERT_EQUALS(ws.has_auto_filter(), false);
ws.auto_filter("c1:g9");
TS_ASSERT_EQUALS(ws.get_auto_filter(), "C1:G9");
}
void test_getitem()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
xlnt::cell cell = ws[xlnt::cell_reference("A1")];
TS_ASSERT_EQUALS(cell.get_reference().to_string(), "A1");
TS_ASSERT_EQUALS(cell.get_data_type(), xlnt::cell::type::null);
}
// void test_getitem_invalid() {}
void test_setitem()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws[xlnt::cell_reference("A12")].set_value(5);
TS_ASSERT(ws[xlnt::cell_reference("A12")].get_value<int>() == 5);
}
void test_getslice()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
auto cell_range = ws("A1", "B2");
TS_ASSERT_EQUALS(cell_range[0][0], ws.get_cell("A1"));
TS_ASSERT_EQUALS(cell_range[1][0], ws.get_cell("A2"));
TS_ASSERT_EQUALS(cell_range[0][1], ws.get_cell("B1"));
TS_ASSERT_EQUALS(cell_range[1][1], ws.get_cell("B2"));
}
// void test_get_column() {}
// void test_get_row() {}
void test_freeze()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.freeze_panes(ws.get_cell("b2"));
TS_ASSERT_EQUALS(ws.get_frozen_panes(), "B2");
ws.unfreeze_panes();
TS_ASSERT(!ws.has_frozen_panes());
ws.freeze_panes("c5");
TS_ASSERT_EQUALS(ws.get_frozen_panes(), "C5");
ws.freeze_panes(ws.get_cell("A1"));
TS_ASSERT(!ws.has_frozen_panes());
}
void test_merged_cells_lookup()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("A2").set_value("test");
ws.merge_cells("A1:N50");
auto all_merged = ws.get_merged_ranges();
TS_ASSERT_EQUALS(all_merged.size(), 1);
auto merged = ws.get_range(all_merged[0]);
TS_ASSERT(merged.contains("A1"));
TS_ASSERT(merged.contains("N50"));
TS_ASSERT(!merged.contains("A51"));
TS_ASSERT(!merged.contains("O1"));
}
void test_merged_cell_ranges()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_EQUALS(ws.get_merged_ranges().size(), 0);
}
void test_merge_range_string()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("A1").set_value(1);
ws.get_cell("D4").set_value(16);
ws.merge_cells("A1:D4");
std::vector<xlnt::range_reference> expected = { xlnt::range_reference("A1:D4") };
TS_ASSERT_EQUALS(ws.get_merged_ranges(), expected);
TS_ASSERT(!ws.get_cell("D4").has_value());
}
void test_merge_coordinate()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.merge_cells(1, 1, 4, 4);
std::vector<xlnt::range_reference> expected = { xlnt::range_reference("A1:D4") };
TS_ASSERT_EQUALS(ws.get_merged_ranges(), expected);
}
void test_unmerge_bad()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_THROWS(ws.unmerge_cells("A1:D3"), std::runtime_error);
}
void test_unmerge_range_string()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.merge_cells("A1:D4");
TS_ASSERT_EQUALS(ws.get_merged_ranges().size(), 1);
ws.unmerge_cells("A1:D4");
TS_ASSERT_EQUALS(ws.get_merged_ranges().size(), 0);
}
void test_unmerge_coordinate()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.merge_cells("A1:D4");
TS_ASSERT_EQUALS(ws.get_merged_ranges().size(), 1);
ws.unmerge_cells(1, 1, 4, 4);
TS_ASSERT_EQUALS(ws.get_merged_ranges().size(), 0);
}
void test_print_titles_old()
{
xlnt::workbook wb;
{
wb.clear();
auto ws = wb.create_sheet();
ws.add_print_title(3);
TS_ASSERT_EQUALS(ws.get_print_titles(), "Sheet!1:3");
}
{
wb.clear();
auto ws = wb.create_sheet();
ws.add_print_title(4, "cols");
TS_ASSERT_EQUALS(ws.get_print_titles(), "Sheet!A:D");
}
}
void test_print_titles_new()
{
xlnt::workbook wb;
{
wb.clear();
auto ws = wb.create_sheet();
ws.set_print_title_rows("1:4");
TS_ASSERT_EQUALS(ws.get_print_titles(), "Sheet!1:4");
}
{
wb.clear();
auto ws = wb.create_sheet();
ws.set_print_title_cols("A:F");
TS_ASSERT_EQUALS(ws.get_print_titles(), "Sheet!A:F");
}
{
wb.clear();
auto ws = wb.create_sheet();
ws.set_print_title_rows("1:2");
ws.set_print_title_cols("C:D");
TS_ASSERT_EQUALS(ws.get_print_titles(), "Sheet!1:2,Sheet!C:D");
}
}
void test_print_area()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
ws.set_print_area("A1:F5");
TS_ASSERT_EQUALS(ws.get_print_area(), "$A$1:$F$5");
}
void test_freeze_panes_horiz()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.freeze_panes("A4");
auto view = ws.get_sheet_view();
TS_ASSERT_EQUALS(view.get_selections().size(), 1);
TS_ASSERT_EQUALS(view.get_selections()[0].get_active_cell(), "A1");
TS_ASSERT_EQUALS(view.get_selections()[0].get_pane(), xlnt::pane_corner::bottom_left);
TS_ASSERT_EQUALS(view.get_selections()[0].get_sqref(), "A1");
TS_ASSERT_EQUALS(view.get_pane().active_pane, xlnt::pane_corner::bottom_left);
TS_ASSERT_EQUALS(view.get_pane().state, xlnt::pane_state::frozen);
TS_ASSERT_EQUALS(view.get_pane().top_left_cell, "A4");
TS_ASSERT_EQUALS(view.get_pane().y_split, 3);
}
void test_freeze_panes_vert()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.freeze_panes("D1");
auto view = ws.get_sheet_view();
TS_ASSERT_EQUALS(view.get_selections().size(), 1);
TS_ASSERT_EQUALS(view.get_selections()[0].get_active_cell(), "A1");
TS_ASSERT_EQUALS(view.get_selections()[0].get_pane(), xlnt::pane_corner::top_right);
TS_ASSERT_EQUALS(view.get_selections()[0].get_sqref(), "A1");
TS_ASSERT_EQUALS(view.get_pane().active_pane, xlnt::pane_corner::top_right);
TS_ASSERT_EQUALS(view.get_pane().state, xlnt::pane_state::frozen);
TS_ASSERT_EQUALS(view.get_pane().top_left_cell, "D1");
TS_ASSERT_EQUALS(view.get_pane().x_split, 3);
}
void test_freeze_panes_both()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.freeze_panes("D4");
auto view = ws.get_sheet_view();
TS_ASSERT_EQUALS(view.get_selections().size(), 3);
TS_ASSERT_EQUALS(view.get_selections()[0].get_pane(), xlnt::pane_corner::top_right);
TS_ASSERT_EQUALS(view.get_selections()[1].get_pane(), xlnt::pane_corner::bottom_left);
TS_ASSERT_EQUALS(view.get_selections()[2].get_active_cell(), "A1");
TS_ASSERT_EQUALS(view.get_selections()[2].get_pane(), xlnt::pane_corner::bottom_right);
TS_ASSERT_EQUALS(view.get_selections()[2].get_sqref(), "A1");
TS_ASSERT_EQUALS(view.get_pane().active_pane, xlnt::pane_corner::bottom_right);
TS_ASSERT_EQUALS(view.get_pane().state, xlnt::pane_state::frozen);
TS_ASSERT_EQUALS(view.get_pane().top_left_cell, "D4");
TS_ASSERT_EQUALS(view.get_pane().x_split, 3);
TS_ASSERT_EQUALS(view.get_pane().y_split, 3);
}
void test_min_column()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_EQUALS(ws.get_lowest_column(), 1);
}
void test_max_column()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws[xlnt::cell_reference("F1")].set_value(10);
ws[xlnt::cell_reference("F2")].set_value(32);
ws[xlnt::cell_reference("F3")].set_formula("=F1+F2");
ws[xlnt::cell_reference("A4")].set_formula("=A1+A2+A3");
TS_ASSERT_EQUALS(ws.get_highest_column(), 6);
}
void test_min_row()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
TS_ASSERT_EQUALS(ws.get_lowest_row(), 1);
}
void test_max_row()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append();
ws.append(std::vector<int> { 5 });
ws.append();
ws.append(std::vector<int> { 4 });
TS_ASSERT_EQUALS(ws.get_highest_row(), 4);
}
void test_const_iterators()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append({"A1", "B1", "C1"});
ws.append({"A2", "B2", "C2"});
const xlnt::worksheet ws_const = ws;
const auto rows = ws_const.rows();
const auto first_row = *rows.begin();
const auto first_cell = *first_row.begin();
TS_ASSERT_EQUALS(first_cell.get_value<std::string>(), "A1");
const auto last_row = *(--rows.end());
const auto last_cell = *(--last_row.end());
TS_ASSERT_EQUALS(last_cell.get_value<std::string>(), "C2");
for (const auto row : rows)
{
for (const auto cell : row)
{
TS_ASSERT_EQUALS(cell.get_value<std::string>(), cell.get_reference().to_string());
}
}
}
void test_const_reverse_iterators()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append({"A1", "B1", "C1"});
ws.append({"A2", "B2", "C2"});
const xlnt::worksheet ws_const = ws;
const auto rows = ws_const.rows();
const auto first_row = *rows.rbegin();
const auto first_cell = *first_row.rbegin();
TS_ASSERT_EQUALS(first_cell.get_value<std::string>(), "C2");
auto row_iter = rows.rend();
row_iter--;
const auto last_row = *row_iter;
auto cell_iter = last_row.rend();
cell_iter--;
const auto last_cell = *cell_iter;
TS_ASSERT_EQUALS(last_cell.get_value<std::string>(), "A1");
for (auto ws_iter = rows.rbegin(); ws_iter != rows.rend(); ws_iter++)
{
const auto row = *ws_iter;
for (auto row_iter = row.rbegin(); row_iter != row.rend(); row_iter++)
{
const auto cell = *row_iter;
TS_ASSERT_EQUALS(cell.get_value<std::string>(), cell.get_reference().to_string());
}
}
}
void test_column_major_iterators()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append({"A1", "B1", "C1"});
ws.append({"A2", "B2", "C2"});
auto columns = ws.columns();
auto first_column = *columns.begin();
auto first_column_iter = first_column.begin();
auto first_cell = *first_column_iter;
TS_ASSERT_EQUALS(first_cell.get_value<std::string>(), "A1");
first_column_iter++;
auto second_cell = *first_column_iter;
TS_ASSERT_EQUALS(second_cell.get_value<std::string>(), "A2");
auto last_column = *(--columns.end());
auto last_column_iter = last_column.end();
last_column_iter--;
auto last_cell = *last_column_iter;
TS_ASSERT_EQUALS(last_cell.get_value<std::string>(), "C2");
last_column_iter--;
auto penultimate_cell = *last_column_iter;
TS_ASSERT_EQUALS(penultimate_cell.get_value<std::string>(), "C1");
for (auto column : columns)
{
for (auto cell : column)
{
TS_ASSERT_EQUALS(cell.get_value<std::string>(), cell.get_reference().to_string());
}
}
}
void test_reverse_column_major_iterators()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append({"A1", "B1", "C1"});
ws.append({"A2", "B2", "C2"});
auto columns = ws.columns();
auto column_iter = columns.rbegin();
auto first_column = *column_iter;
auto first_column_iter = first_column.rbegin();
auto first_cell = *first_column_iter;
TS_ASSERT_EQUALS(first_cell.get_value<std::string>(), "C2");
first_column_iter++;
auto second_cell = *first_column_iter;
TS_ASSERT_EQUALS(second_cell.get_value<std::string>(), "C1");
auto last_column = *(--columns.rend());
auto last_column_iter = last_column.rend();
last_column_iter--;
auto last_cell = *last_column_iter;
TS_ASSERT_EQUALS(last_cell.get_value<std::string>(), "A1");
last_column_iter--;
auto penultimate_cell = *last_column_iter;
TS_ASSERT_EQUALS(penultimate_cell.get_value<std::string>(), "A2");
for (auto column_iter = columns.rbegin(); column_iter != columns.rend(); ++column_iter)
{
auto column = *column_iter;
for (auto cell_iter = column.rbegin(); cell_iter != column.rend(); ++cell_iter)
{
auto cell = *cell_iter;
TS_ASSERT_EQUALS(cell.get_value<std::string>(), cell.get_reference().to_string());
}
}
}
void test_const_column_major_iterators()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append({"A1", "B1", "C1"});
ws.append({"A2", "B2", "C2"});
const xlnt::worksheet ws_const = ws;
const auto columns = ws_const.columns();
const auto first_column = *columns.begin();
auto first_column_iter = first_column.begin();
const auto first_cell = *first_column_iter;
TS_ASSERT_EQUALS(first_cell.get_value<std::string>(), "A1");
first_column_iter++;
const auto second_cell = *first_column_iter;
TS_ASSERT_EQUALS(second_cell.get_value<std::string>(), "A2");
const auto last_column = *(--columns.end());
auto last_column_iter = last_column.end();
last_column_iter--;
const auto last_cell = *last_column_iter;
TS_ASSERT_EQUALS(last_cell.get_value<std::string>(), "C2");
last_column_iter--;
const auto penultimate_cell = *last_column_iter;
TS_ASSERT_EQUALS(penultimate_cell.get_value<std::string>(), "C1");
for (const auto column : columns)
{
for (const auto cell : column)
{
TS_ASSERT_EQUALS(cell.get_value<std::string>(), cell.get_reference().to_string());
}
}
}
void test_const_reverse_column_major_iterators()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.append({"A1", "B1", "C1"});
ws.append({"A2", "B2", "C2"});
const xlnt::worksheet ws_const = ws;
const auto columns = ws_const.columns();
const auto first_column = *columns.crbegin();
auto first_column_iter = first_column.crbegin();
const auto first_cell = *first_column_iter;
TS_ASSERT_EQUALS(first_cell.get_value<std::string>(), "C2");
first_column_iter++;
const auto second_cell = *first_column_iter;
TS_ASSERT_EQUALS(second_cell.get_value<std::string>(), "C1");
const auto last_column = *(--columns.crend());
auto last_column_iter = last_column.crend();
last_column_iter--;
const auto last_cell = *last_column_iter;
TS_ASSERT_EQUALS(last_cell.get_value<std::string>(), "A1");
last_column_iter--;
const auto penultimate_cell = *last_column_iter;
TS_ASSERT_EQUALS(penultimate_cell.get_value<std::string>(), "A2");
for (auto column_iter = columns.crbegin(); column_iter != columns.crend(); ++column_iter)
{
const auto column = *column_iter;
for (auto cell_iter = column.crbegin(); cell_iter != column.crend(); ++cell_iter)
{
const auto cell = *cell_iter;
TS_ASSERT_EQUALS(cell.get_value<std::string>(), cell.get_reference().to_string());
}
}
}
void test_header()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
auto &header_footer = ws.get_header_footer();
for (auto header_pointer : { &header_footer.get_left_header(),
&header_footer.get_center_header(), &header_footer.get_right_header() })
{
auto &header = *header_pointer;
TS_ASSERT(header.is_default());
header.set_text("abc");
header.set_font_name("def");
header.set_font_size(121);
header.set_font_color("ghi");
TS_ASSERT(!header.is_default());
}
}
void test_footer()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
auto &header_footer = ws.get_header_footer();
for (auto header_pointer : { &header_footer.get_left_footer(),
&header_footer.get_center_footer(), &header_footer.get_right_footer() })
{
auto &header = *header_pointer;
TS_ASSERT(header.is_default());
header.set_text("abc");
header.set_font_name("def");
header.set_font_size(121);
header.set_font_color("ghi");
TS_ASSERT(!header.is_default());
}
}
void test_page_setup()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
TS_ASSERT(ws.get_page_setup().is_default());
ws.get_page_setup().set_break(xlnt::page_break::column);
TS_ASSERT_EQUALS(ws.get_page_setup().get_break(), xlnt::page_break::column);
TS_ASSERT(!ws.get_page_setup().is_default());
ws.get_page_setup().set_scale(1.23);
TS_ASSERT_EQUALS(ws.get_page_setup().get_scale(), 1.23);
TS_ASSERT(!ws.get_page_setup().is_default());
}
void test_unique_sheet_name()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
auto active_name = ws.get_title();
auto next_name = ws.unique_sheet_name(active_name);
TS_ASSERT_DIFFERS(active_name, next_name);
}
void test_page_margins()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
auto &margins = ws.get_page_margins();
TS_ASSERT(margins.is_default());
margins.set_top(0);
margins.set_bottom(1);
margins.set_header(2);
margins.set_footer(3);
margins.set_left(4);
margins.set_right(5);
TS_ASSERT(!margins.is_default());
}
void test_to_string()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
auto ws_string = ws.to_string();
TS_ASSERT_EQUALS(ws_string, "<Worksheet \"Sheet\">");
}
void test_garbage_collect()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
auto dimensions = ws.calculate_dimension();
TS_ASSERT_EQUALS(dimensions, xlnt::range_reference("A1", "A1"));
ws.get_cell("B2").set_value("text");
ws.garbage_collect();
dimensions = ws.calculate_dimension();
TS_ASSERT_EQUALS(dimensions, xlnt::range_reference("B2", "B2"));
}
void test_get_title_bad()
{
xlnt::worksheet ws;
TS_ASSERT_THROWS(ws.get_title(), std::runtime_error);
}
void test_has_cell()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
ws.get_cell("A3").set_value("test");
TS_ASSERT(!ws.has_cell("A2"));
TS_ASSERT(ws.has_cell("A3"));
}
void test_get_range_by_string()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
ws.get_cell("A2").set_value(3.14);
ws.get_cell("A3").set_value(true);
ws.get_cell("B2").set_value("text");
ws.get_cell("B3").set_value(false);
auto range = ws.get_range("A2:B3");
auto range_iter = range.begin();
auto row = *range_iter;
auto row_iter = row.begin();
auto cell = *row_iter;
TS_ASSERT_EQUALS(cell.get_value<double>(), 3.14);
TS_ASSERT_EQUALS(row.front().get_reference(), "A2");
row_iter++;
cell = *row_iter;
TS_ASSERT_EQUALS(cell.get_value<std::string>(), "text");
TS_ASSERT_EQUALS(row.back().get_reference(), "B2");
range_iter = range.end();
range_iter--;
row = *range_iter;
row_iter = row.end();
row_iter--;
cell = *row_iter;
TS_ASSERT_EQUALS(cell.get_value<bool>(), false);
}
void test_get_squared_range()
{
xlnt::workbook wb;
auto ws = wb.get_active_sheet();
ws.get_cell("A2").set_value(3.14);
ws.get_cell("B3").set_value(false);
auto range = ws.get_squared_range(1, 2, 2, 3);
TS_ASSERT_EQUALS((*(*range.begin()).begin()).get_value<double>(), 3.14);
TS_ASSERT_EQUALS((*(--(*(--range.end())).end())).get_value<bool>(), false);
}
void test_operators()
{
xlnt::workbook wb;
wb.create_sheet();
wb.create_sheet();
auto ws1 = wb[1];
auto ws2 = wb[2];
TS_ASSERT_DIFFERS(ws1, ws2);
ws1[xlnt::cell_reference("A2")].set_value(true);
const auto ws1_const = ws1;
TS_ASSERT_EQUALS(ws1[xlnt::cell_reference("A2")].get_value<bool>(), true);
TS_ASSERT_EQUALS((*(*ws1[xlnt::range_reference("A2:A2")].begin()).begin()).get_value<bool>(), true);
ws1.create_named_range("rangey", "A2:A2");
TS_ASSERT_EQUALS(ws1[std::string("rangey")], ws1.get_range("A2:A2"));
TS_ASSERT_EQUALS(ws1[std::string("A2:A2")], ws1.get_range("A2:A2"));
TS_ASSERT(ws1[std::string("rangey")] != ws1.get_range("A2:A3"));
TS_ASSERT_EQUALS(ws1[std::string("rangey")].get_cell("A1"), ws1.get_cell("A2"));
}
void test_reserve()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.reserve(1000);
//TODO: actual tests go here
}
void test_iterate()
{
xlnt::workbook wb;
xlnt::worksheet ws(wb);
ws.get_cell("B3").set_value("B3");
ws.get_cell("C7").set_value("C7");
for (auto row : ws)
{
for (auto cell : row)
{
if (cell.has_value())
{
TS_ASSERT_EQUALS(cell.get_reference().to_string(), cell.get_value<std::string>());
}
}
}
const auto ws_const = ws;
for (auto row : ws_const)
{
for (auto cell : row)
{
if (cell.has_value())
{
TS_ASSERT_EQUALS(cell.get_reference().to_string(), cell.get_value<std::string>());
}
}
}
auto const_range = ws_const.get_range("B3:C7");
auto const_range_iter = const_range.begin();
const_range_iter++;
const_range_iter--;
TS_ASSERT_EQUALS(const_range_iter, const_range.begin());
}
void test_range_reference()
{
xlnt::range_reference ref1("A1:A1");
TS_ASSERT(ref1.is_single_cell());
xlnt::range_reference ref2("A1:B2");
TS_ASSERT(!ref2.is_single_cell());
TS_ASSERT(ref1 == xlnt::range_reference("A1:A1"));
TS_ASSERT(ref1 != ref2);
TS_ASSERT(ref1 == "A1:A1");
TS_ASSERT(ref1 == std::string("A1:A1"));
TS_ASSERT(std::string("A1:A1") == ref1);
TS_ASSERT("A1:A1" == ref1);
TS_ASSERT(ref1 != "A1:B2");
TS_ASSERT(ref1 != std::string("A1:B2"));
TS_ASSERT(std::string("A1:B2") != ref1);
TS_ASSERT("A1:B2" != ref1);
}
};