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ostream width, align and fill added

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This commit is contained in:
Mateusz Pusz
2020-03-19 09:23:27 +01:00
parent 19398f4b78
commit c33f6f2d59
3 changed files with 185 additions and 138 deletions
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13
src/include/units/bits/unit_text.h → src/include/units/bits/to_string.h
View File

@ -26,6 +26,7 @@
#include <units/bits/external/text_tools.h>
#include <units/prefix.h>
#include <units/derived_dimension.h>
#include <sstream>
namespace units::detail {
@ -161,4 +162,16 @@ constexpr auto unit_text()
}
}
template<typename CharT, class Traits, Quantity Q>
std::basic_string<CharT> to_string(const Q& q)
{
std::basic_ostringstream<CharT, Traits> s;
s << q.count();
constexpr auto symbol = unit_text<typename Q::dimension, typename Q::unit>();
if constexpr (symbol.size()) {
s << " " << symbol;
}
return s.str();
}
} // namespace units::detail

11
src/include/units/quantity.h
View File

@ -25,7 +25,7 @@
#include <units/bits/common_quantity.h>
#include <units/bits/dimension_op.h>
#include <units/bits/unit_text.h>
#include <units/bits/to_string.h>
#include <units/quantity_cast.h>
#if __GNUC__ >= 10
@ -62,7 +62,7 @@ concept safe_divisible = // exposition only
*/
template<Dimension D, UnitOf<D> U, Scalar Rep = double>
class quantity {
Rep value_;
Rep value_{};
public:
using dimension = D;
@ -308,12 +308,7 @@ public:
template<class CharT, class Traits>
friend std::basic_ostream<CharT, Traits>& operator<<(std::basic_ostream<CharT, Traits>& os, const quantity& q)
{
constexpr auto symbol = detail::unit_text<quantity::dimension, quantity::unit>();
os << q.count();
if (symbol.size()) {
os << " " << symbol;
}
return os;
return os << detail::to_string<CharT, Traits>(q);
}
};

299
test/unit_test/runtime/fmt_test.cpp
View File

@ -32,6 +32,7 @@
#include "units/format.h"
#include "units/math.h"
#include <catch2/catch.hpp>
#include <iomanip>
#include <sstream>
using namespace units;
@ -40,49 +41,49 @@ using namespace Catch::Matchers;
TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
{
std::stringstream stream;
std::ostringstream os;
SECTION("quantity with a predefined unit")
{
SECTION("integral representation")
{
const auto q = 60q_W;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "60 W");
CHECK(os.str() == "60 W");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("floating-point representation")
{
const auto q = 1023.5q_Pa;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "1023.5 Pa");
CHECK(os.str() == "1023.5 Pa");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -90,21 +91,21 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("quantity with a predefined prefixed unit")
{
const auto q = 125q_us;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "125 µs");
CHECK(os.str() == "125 µs");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
@ -113,42 +114,42 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("in terms of base units")
{
const length<scaled_unit<ratio<1, 1, 6>, metre>> q(123);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "123 Mm");
CHECK(os.str() == "123 Mm");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("in terms of derived units")
{
const energy<scaled_unit<ratio<1, 1, -2>, joule>> q(60);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "60 cJ");
CHECK(os.str() == "60 cJ");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -160,63 +161,63 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("acceleration")
{
const auto q = 20q_m / 2q_s / 1q_s;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "10 m/s²");
CHECK(os.str() == "10 m/s²");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("volume")
{
const auto q = 2q_m * 1q_m * 1q_m;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "2 m³");
CHECK(os.str() == "2 m³");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("surface tension")
{
const auto q = 20q_N / 2q_m;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "10 N/m");
CHECK(os.str() == "10 N/m");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -226,21 +227,21 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("velocity")
{
const auto q = 20q_km / 2q_h;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "10 km/h");
CHECK(os.str() == "10 km/h");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
@ -248,21 +249,21 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
{
struct newton_per_centimetre : deduced_unit<newton_per_centimetre, dim_surface_tension, newton, centimetre> {};
const surface_tension<newton_per_centimetre> q(123);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "123 N/cm");
CHECK(os.str() == "123 N/cm");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -273,105 +274,105 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("unit::ratio as an SI prefix for a dimension with a special symbol")
{
const auto q = 4q_N * 2q_cm;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 cJ");
CHECK(os.str() == "8 cJ");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio for a dimension without a special symbol")
{
const auto q = 2q_cm * 2q_m * 2q_m;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 × 10⁻² m³");
CHECK(os.str() == "8 × 10⁻² m³");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio::num != 1 && unit::ratio::den == 1")
{
const auto q = 4 * 2q_min / (2q_s * 2q_s);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "2 [6 × 10¹] Hz");
CHECK(os.str() == "2 [6 × 10¹] Hz");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio::num == 1 && unit::ratio::den != 1")
{
const auto q = 20q_J / 2q_min;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "10 [1/6 × 10⁻¹] W");
CHECK(os.str() == "10 [1/6 × 10⁻¹] W");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio::num != 1 && unit::ratio::den != 1")
{
const auto q = 60q_kJ / 2q_min;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "30 [1/6 × 10²] W");
CHECK(os.str() == "30 [1/6 × 10²] W");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -383,42 +384,42 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("SI base units")
{
const auto q = 2q_s * 2q_m * 2q_kg;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 m⋅kg⋅s");
CHECK(os.str() == "8 m⋅kg⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("CGS base units")
{
const auto q = 2q_s * cgs::length<cgs::centimetre>(2) * cgs::mass<cgs::gram>(2);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 cm⋅g⋅s");
CHECK(os.str() == "8 cm⋅g⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -426,231 +427,231 @@ TEST_CASE("operator<< on a quantity", "[text][ostream][fmt]")
SECTION("unit::ratio as an SI prefix")
{
const auto q = 4q_km * 2q_s;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 × 10³ m⋅s");
CHECK(os.str() == "8 × 10³ m⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio::num != 1 && unit::ratio::den == 1")
{
const auto q = 4q_kg * 2q_min / (2q_s * 2q_s);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "2 [6 × 10¹] kg/s");
CHECK(os.str() == "2 [6 × 10¹] kg/s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio::num == 1 && unit::ratio::den != 1")
{
const auto q = 20q_kg / 2q_min;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "10 [1/6 × 10⁻¹] kg/s");
CHECK(os.str() == "10 [1/6 × 10⁻¹] kg/s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("CGS base units")
{
const auto q = 2q_s * cgs::length<si::metre>(2) * cgs::mass<si::kilogram>(2);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 × 10⁵ cm⋅g⋅s");
CHECK(os.str() == "8 × 10⁵ cm⋅g⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("unit::ratio::num != 1 && unit::ratio::den != 1")
{
const auto q = 60q_min / 2q_km;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "30 [6 × 10⁻²] 1/m⋅s");
CHECK(os.str() == "30 [6 × 10⁻²] 1/m⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("exp::num == 1 && exp::den == 1")
{
const auto q = 4q_m * 2q_s;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "8 m⋅s");
CHECK(os.str() == "8 m⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("exp::num == 2 && exp::den == 1 for positive exponent")
{
const auto q = 4q_m * 2q_s * 2q_s;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "16 m⋅s²");
CHECK(os.str() == "16 m⋅s²");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("exp::num == 2 && exp::den == 1 for negative exponent (first dimension)")
{
const auto q = 8q_s / 2q_m / 2q_m;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "2 1/m²⋅s");
CHECK(os.str() == "2 1/m²⋅s");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("exp::num == 2 && exp::den == 1 for negative exponent (not first dimension)")
{
const auto q = 8q_m / 2q_kg / 2q_kg;
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "2 m/kg²");
CHECK(os.str() == "2 m/kg²");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("fractional positive exponent")
{
const auto q = sqrt(9q_m);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "3 m^(1/2)");
CHECK(os.str() == "3 m^(1/2)");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
SECTION("fractional negative exponent")
{
const auto q = sqrt(9 / 1q_m);
stream << q;
os << q;
SECTION("iostream")
{
CHECK(stream.str() == "3 1/m^(1/2)");
CHECK(os.str() == "3 1/m^(1/2)");
}
SECTION("fmt with default format {} on a quantity")
{
CHECK(fmt::format("{}", q) == stream.str());
CHECK(fmt::format("{}", q) == os.str());
}
SECTION("fmt with format {:%Q %q} on a quantity")
{
CHECK(fmt::format("{:%Q %q}", q) == stream.str());
CHECK(fmt::format("{:%Q %q}", q) == os.str());
}
}
}
@ -738,8 +739,49 @@ TEST_CASE("%q an %Q can be put anywhere in a format string", "[text][fmt]")
}
}
TEST_CASE("fill and align specification", "[text][fmt]")
TEST_CASE("fill and align specification", "[text][fmt][ostream]")
{
SECTION("ostream")
{
std::ostringstream os;
SECTION("width = 10")
{
os << "|" << std::setw(10) << 123q_m << "|";
CHECK(os.str() == "| 123 m|");
}
SECTION("width = 10, align = right")
{
os << "|" << std::setw(10) << std::right << 123q_m << "|";
CHECK(os.str() == "| 123 m|");
}
SECTION("width = 10, align = left")
{
os << "|" << std::setw(10) << std::left << 123q_m << "|";
CHECK(os.str() == "|123 m |");
}
SECTION("width = 10, fill = *")
{
os << "|" << std::setw(10) << std::setfill('*') << 123q_m << "|";
CHECK(os.str() == "|*****123 m|");
}
SECTION("width = 10, fill = *, align = right")
{
os << "|" << std::setw(10) << std::setfill('*') << std::right << 123q_m << "|";
CHECK(os.str() == "|*****123 m|");
}
SECTION("width = 10, fill = *, align = left")
{
os << "|" << std::setw(10) << std::setfill('*') << std::left << 123q_m << "|";
CHECK(os.str() == "|123 m*****|");
}
}
SECTION("default format {} on a quantity")
{
CHECK(fmt::format("|{:0}|", 123q_m) == "|123 m|");
@ -993,13 +1035,10 @@ TEST_CASE("different base types with the # specifier")
CHECK(fmt::format("{:#X%Q}", 42q_m) == "0X2A");
}
}
// Restate operator<< definitions in terms of std::format to make I/O manipulators apply to whole objects
// rather than their parts
TEST_CASE("quantity_cast", "[text][ostream]")
{
std::stringstream stream;
std::ostringstream os;
SECTION("int to double representation")
{
@ -1007,20 +1046,20 @@ TEST_CASE("quantity_cast", "[text][ostream]")
SECTION("original")
{
stream << q;
CHECK(stream.str() == "60 km/h");
os << q;
CHECK(os.str() == "60 km/h");
}
SECTION("int")
{
stream << quantity_cast<int>(q);
CHECK(stream.str() == "60 km/h");
os << quantity_cast<int>(q);
CHECK(os.str() == "60 km/h");
}
SECTION("double")
{
stream << quantity_cast<double>(q);
CHECK(stream.str() == "60 km/h");
os << quantity_cast<double>(q);
CHECK(os.str() == "60 km/h");
}
}
@ -1030,20 +1069,20 @@ TEST_CASE("quantity_cast", "[text][ostream]")
SECTION("original")
{
stream << q;
CHECK(stream.str() == "60.5 km/h");
os << q;
CHECK(os.str() == "60.5 km/h");
}
SECTION("int")
{
stream << quantity_cast<int>(q);
CHECK(stream.str() == "60 km/h");
os << quantity_cast<int>(q);
CHECK(os.str() == "60 km/h");
}
SECTION("double")
{
stream << quantity_cast<double>(q);
CHECK(stream.str() == "60.5 km/h");
os << quantity_cast<double>(q);
CHECK(os.str() == "60.5 km/h");
}
}
}