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xlnt/tests/test_number_format.hpp
Thomas Fussell 89be485062 restructure to match openpyxl 2.1
2014-06-05 16:19:31 -04:00

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4.4 KiB
C++
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#pragma once
#include <iostream>
#include <cxxtest/TestSuite.h>
#include <xlnt/xlnt.hpp>
class test_number_format : public CxxTest::TestSuite
{
public:
test_number_format()
{
}
void setup_class(int cls)
{
//cls.workbook = Workbook()
// cls.worksheet = Worksheet(cls.workbook, "Test")
// cls.sd = SharedDate()
}
void test_convert_date_to_julian()
{
//TS_ASSERT_EQUALS(40167, sd.to_julian(2009, 12, 20))
}
void test_convert_date_from_julian()
{
}
void test_date_equal(int julian, int datetime)
{
//TS_ASSERT_EQUALS(sd.from_julian(julian), datetime);
//date_pairs = (
// (40167, datetime(2009, 12, 20)),
// (21980, datetime(1960, 3, 5)),
// );
//for count, dt in date_pairs
//{
// yield test_date_equal, count, dt;
//}
}
void test_convert_datetime_to_julian()
{
//TS_ASSERT_EQUALS(40167, sd.datetime_to_julian(datetime(2009, 12, 20)))
// TS_ASSERT_EQUALS(40196.5939815, sd.datetime_to_julian(datetime(2010, 1, 18, 14, 15, 20, 1600)))
}
void test_insert_float()
{
//worksheet.cell("A1").value = 3.14
// TS_ASSERT_EQUALS(Cell.TYPE_NUMERIC, worksheet.cell("A1")._data_type)
}
void test_insert_percentage()
{
//worksheet.cell("A1").value = "3.14%"
// TS_ASSERT_EQUALS(Cell.TYPE_NUMERIC, worksheet.cell("A1")._data_type)
// assert_almost_equal(0.0314, worksheet.cell("A1").value)
}
void test_insert_datetime()
{
//worksheet.cell("A1").value = date.today()
// TS_ASSERT_EQUALS(Cell.TYPE_NUMERIC, worksheet.cell("A1")._data_type)
}
void test_insert_date()
{
//worksheet.cell("A1").value = datetime.now()
// TS_ASSERT_EQUALS(Cell.TYPE_NUMERIC, worksheet.cell("A1")._data_type)
}
void test_internal_date()
{
//dt = datetime(2010, 7, 13, 6, 37, 41)
// worksheet.cell("A3").value = dt
// TS_ASSERT_EQUALS(40372.27616898148, worksheet.cell("A3")._value)
}
void test_datetime_interpretation()
{
//dt = datetime(2010, 7, 13, 6, 37, 41)
// worksheet.cell("A3").value = dt
// TS_ASSERT_EQUALS(dt, worksheet.cell("A3").value)
}
void test_date_interpretation()
{
//dt = date(2010, 7, 13)
// worksheet.cell("A3").value = dt
// TS_ASSERT_EQUALS(datetime(2010, 7, 13, 0, 0), worksheet.cell("A3").value)
}
void test_number_format_style()
{
//worksheet.cell("A1").value = "12.6%"
// TS_ASSERT_EQUALS(NumberFormat.FORMAT_PERCENTAGE, \
// worksheet.cell("A1").style.number_format.format_code)
}
void test_date_format_on_non_date()
{
//cell = worksheet.cell("A1");
}
void check_date_pair(int count, const std::string &date_string)
{
//cell.value = strptime(date_string, "%Y-%m-%d");
//TS_ASSERT_EQUALS(count, cell._value);
//date_pairs = (
// (15, "1900-01-15"),
// (59, "1900-02-28"),
// (61, "1900-03-01"),
// (367, "1901-01-01"),
// (2958465, "9999-12-31"), );
//for count, date_string in date_pairs
//{
// yield check_date_pair, count, date_string;
//}
}
void test_1900_leap_year()
{
//assert_raises(ValueError, sd.from_julian, 60)
// assert_raises(ValueError, sd.to_julian, 1900, 2, 29)
}
void test_bad_date()
{
//void check_bad_date(year, month, day)
//{
// assert_raises(ValueError, sd.to_julian, year, month, day)
//}
//bad_dates = ((1776, 7, 4), (1899, 12, 31), )
// for year, month, day in bad_dates
// {
// yield check_bad_date, year, month, day
// }
}
void test_bad_julian_date()
{
//assert_raises(ValueError, sd.from_julian, -1)
}
void test_mac_date()
{
// sd.excel_base_date = CALENDAR_MAC_1904
// datetuple = (2011, 10, 31)
// dt = date(datetuple[0], datetuple[1], datetuple[2])
// julian = sd.to_julian(datetuple[0], datetuple[1], datetuple[2])
// reverse = sd.from_julian(julian).date()
// TS_ASSERT_EQUALS(dt, reverse)
// sd.excel_base_date = CALENDAR_WINDOWS_1900
}
};
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