[msvc][fix] a lot of brackets where msvc prefers

the type and not the value. (Issue reported)
2025-08-03 20:34:26 +02:00 · 2024-08-30 13:12:10 +02:00
parent 5d3ed201b6
commit 30ac2882bd
19 changed files with 680 additions and 655 deletions
--- a/example/avg_speed.cpp
+++ b/example/avg_speed.cpp
@@ -45,26 +45,26 @@ namespace {
 using namespace mp_units;
-constexpr quantity<si::metre / si::second, int> fixed_int_si_avg_speed(quantity<si::metre, int> d,
+constexpr quantity<si::metre / si::second, int> fixed_int_si_avg_speed(quantity<(si::metre), int> d,
-                                                                       quantity<si::second, int> t)
+                                                                       quantity<(si::second), int> t)
 {
  return d / t;
 }
-constexpr quantity<si::metre / si::second> fixed_double_si_avg_speed(quantity<si::metre> d, quantity<si::second> t)
+constexpr quantity<si::metre / si::second> fixed_double_si_avg_speed(quantity<(si::metre)> d, quantity<(si::second)> t)
 {
  return d / t;
 }
-constexpr QuantityOf<isq::speed> auto avg_speed(QuantityOf<isq::length> auto d, QuantityOf<isq::time> auto t)
+constexpr QuantityOf<(isq::speed)> auto avg_speed(QuantityOf<(isq::length)> auto d, QuantityOf<(isq::time)> auto t)
 {
  return d / t;
 }
-template<QuantityOf<isq::length> D, QuantityOf<isq::time> T, QuantityOf<isq::speed> V>
+template<QuantityOf<(isq::length)> D, QuantityOf<(isq::time)> T, QuantityOf<(isq::speed)> V>
 void print_result(D distance, T duration, V speed)
 {
-  const auto result_in_kmph = speed.force_in(si::kilo<si::metre> / non_si::hour);
+  const auto result_in_kmph = speed.force_in((si::kilo<(si::metre)> / non_si::hour));
  std::cout << "Average speed of a car that makes " << distance << " in " << duration << " is " << result_in_kmph
            << ".\n";
 }
--- a/example/capacitor_time_curve.cpp
+++ b/example/capacitor_time_curve.cpp
@@ -48,7 +48,7 @@ int main()
  constexpr auto RR = isq::resistance(4.7 * si::kilo<si::ohm>);
  for (auto tt = 0 * ms; tt <= 50 * ms; ++tt) {
-    const QuantityOf<isq::voltage> auto Vt = V0 * exp(dimensionless(-tt / (RR * CC)));
+    const QuantityOf<(isq::voltage)> auto Vt = V0 * exp(dimensionless(-tt / (RR * CC)));
    // TODO try to make the below work instead
    // const QuantityOf<isq::voltage> auto Vt = V0 * exp(-tt / (RR * CC));
--- a/example/clcpp_response.cpp
+++ b/example/clcpp_response.cpp
@@ -44,8 +44,8 @@ void simple_quantities()
  using namespace mp_units::si;
  using namespace mp_units::international;
-  using distance = quantity<isq::distance[kilo<metre>]>;
+  using distance = quantity<(isq::distance[kilo<metre>])>;
-  using duration = quantity<isq::duration[second]>;
+  using duration = quantity<(isq::duration[second])>;
  constexpr distance km = 1. * kilo<metre>;
  constexpr distance miles = 1. * mile;
--- a/example/glide_computer_lib/include/glide_computer_lib.h
+++ b/example/glide_computer_lib/include/glide_computer_lib.h
@@ -90,7 +90,7 @@ struct glider {
  std::array<polar_point, 1> polar;
 };
-constexpr mp_units::QuantityOf<mp_units::dimensionless> auto glide_ratio(const glider::polar_point& polar)
+constexpr mp_units::QuantityOf<(mp_units::dimensionless)> auto glide_ratio(const glider::polar_point& polar)
 {
  return polar.v / -polar.climb;
 }
--- a/example/hello_units.cpp
+++ b/example/hello_units.cpp
@@ -45,7 +45,7 @@ import mp_units;
 using namespace mp_units;
-constexpr QuantityOf<isq::speed> auto avg_speed(QuantityOf<isq::length> auto d, QuantityOf<isq::time> auto t)
+constexpr QuantityOf<(isq::speed)> auto avg_speed(QuantityOf<(isq::length)> auto d, QuantityOf<(isq::time)> auto t)
 {
  return d / t;
 }
--- a/example/include/geographic.h
+++ b/example/include/geographic.h
@@ -79,10 +79,10 @@ inline constexpr struct prime_meridian final : mp_units::absolute_point_origin<m
 template<typename T = double>
-using latitude = mp_units::quantity_point<mp_units::si::degree, equator, ranged_representation<T, -90, 90>>;
+using latitude = mp_units::quantity_point<(mp_units::si::degree), equator, ranged_representation<T, -90, 90>>;
 template<typename T = double>
-using longitude = mp_units::quantity_point<mp_units::si::degree, prime_meridian, ranged_representation<T, -180, 180>>;
+using longitude = mp_units::quantity_point<(mp_units::si::degree), prime_meridian, ranged_representation<T, -180, 180>>;
 template<class CharT, class Traits, typename T>
 std::basic_ostream<CharT, Traits>& operator<<(std::basic_ostream<CharT, Traits>& os, const latitude<T>& lat)
@@ -176,7 +176,7 @@ template<typename T>
 distance spherical_distance(position<T> from, position<T> to)
 {
  using namespace mp_units;
-  constexpr quantity earth_radius = 6'371 * isq::radius[si::kilo<si::metre>];
+  constexpr quantity earth_radius = 6'371 * isq::radius[si::kilo<(si::metre)>];
  using si::sin, si::cos, si::asin, si::acos;
@@ -193,7 +193,7 @@ distance spherical_distance(position<T> from, position<T> to)
    // const auto central_angle = 2 * asin(sqrt(0.5 - cos(to_lat - from_lat) / 2 + cos(from_lat) * cos(to_lat) * (1
    // - cos(lon2_rad - from_lon)) / 2));
-    return quantity_cast<isq::distance>(earth_radius * central_angle);
+    return quantity_cast<(isq::distance)>(earth_radius * central_angle);
  } else {
    // the haversine formula
    const quantity sin_lat = sin((to_lat - from_lat) / 2);
--- a/example/kalman_filter/kalman.h
+++ b/example/kalman_filter/kalman.h
@@ -116,15 +116,15 @@ template<mp_units::Quantity Q1, mp_units::Quantity Q2>
 }
 // state update
-template<typename QP, mp_units::QuantityPoint QM, mp_units::QuantityOf<mp_units::dimensionless> K>
+template<typename QP, mp_units::QuantityPoint QM, mp_units::QuantityOf<(mp_units::dimensionless)> K>
  requires(implicitly_convertible(QM::quantity_spec, QP::quantity_spec))
 [[nodiscard]] constexpr system_state<QP> state_update(const system_state<QP>& predicted, QM measured, K gain)
 {
  return system_state<QP>{get<0>(predicted) + gain * (measured - get<0>(predicted))};
 }
-template<typename QP1, typename QP2, mp_units::QuantityPoint QM, mp_units::QuantityOf<mp_units::dimensionless> K,
+template<typename QP1, typename QP2, mp_units::QuantityPoint QM, mp_units::QuantityOf<(mp_units::dimensionless)> K,
-         mp_units::QuantityOf<mp_units::isq::time> T>
+         mp_units::QuantityOf<(mp_units::isq::time)> T>
  requires(implicitly_convertible(QM::quantity_spec, QP1::quantity_spec))
 [[nodiscard]] constexpr system_state<QP1, QP2> state_update(const system_state<QP1, QP2>& predicted, QM measured,
                                                            std::array<K, 2> gain, T interval)
@@ -135,7 +135,7 @@ template<typename QP1, typename QP2, mp_units::QuantityPoint QM, mp_units::Quant
 }
 template<typename QP1, typename QP2, typename QP3, mp_units::QuantityPoint QM,
-         mp_units::QuantityOf<mp_units::dimensionless> K, mp_units::QuantityOf<mp_units::isq::time> T>
+         mp_units::QuantityOf<(mp_units::dimensionless)> K, mp_units::QuantityOf<(mp_units::isq::time)> T>
  requires(implicitly_convertible(QM::quantity_spec, QP1::quantity_spec))
 [[nodiscard]] constexpr system_state<QP1, QP2, QP3> state_update(const system_state<QP1, QP2, QP3>& predicted,
                                                                 QM measured, std::array<K, 3> gain, T interval)
@@ -147,13 +147,13 @@ template<typename QP1, typename QP2, typename QP3, mp_units::QuantityPoint QM,
 }
 // covariance update
-template<mp_units::Quantity Q, mp_units::QuantityOf<mp_units::dimensionless> K>
+template<mp_units::Quantity Q, mp_units::QuantityOf<(mp_units::dimensionless)> K>
 [[nodiscard]] constexpr Q covariance_update(Q uncertainty, K gain)
 {
  return (1 * mp_units::one - gain) * uncertainty;
 }
-template<mp_units::QuantityPoint... QPs, mp_units::QuantityPoint QP, mp_units::QuantityOf<mp_units::dimensionless> K>
+template<mp_units::QuantityPoint... QPs, mp_units::QuantityPoint QP, mp_units::QuantityOf<(mp_units::dimensionless)> K>
 [[nodiscard]] constexpr system_state_estimate<QPs...> state_estimate_update(
  const system_state_estimate<QPs...>& previous, QP measurement, K gain)
 {
@@ -162,7 +162,7 @@ template<mp_units::QuantityPoint... QPs, mp_units::QuantityPoint QP, mp_units::Q
 // state extrapolation
-template<typename QP1, typename QP2, mp_units::QuantityOf<mp_units::isq::time> T>
+template<typename QP1, typename QP2, mp_units::QuantityOf<(mp_units::isq::time)> T>
 [[nodiscard]] constexpr system_state<QP1, QP2> state_extrapolation(const system_state<QP1, QP2>& estimated, T interval)
 {
  auto to_quantity = [](const auto& qp) { return qp.quantity_ref_from(qp.point_origin); };
@@ -171,7 +171,7 @@ template<typename QP1, typename QP2, mp_units::QuantityOf<mp_units::isq::time> T
  return system_state<QP1, QP2>{qp1, qp2};
 }
-template<typename QP1, typename QP2, typename QP3, mp_units::QuantityOf<mp_units::isq::time> T>
+template<typename QP1, typename QP2, typename QP3, mp_units::QuantityOf<(mp_units::isq::time)> T>
 [[nodiscard]] constexpr system_state<QP1, QP2, QP3> state_extrapolation(const system_state<QP1, QP2, QP3>& estimated,
                                                                        T interval)
 {
--- a/example/spectroscopy_units.cpp
+++ b/example/spectroscopy_units.cpp
@@ -54,8 +54,8 @@ constexpr auto h = 1 * si::si2019::planck_constant;
 constexpr auto kb = 1 * si::si2019::boltzmann_constant;
 // prints quantities in the resulting unit
-template<QuantityOf<isq::energy> T1, QuantityOf<isq::wavenumber> T2, QuantityOf<isq::frequency> T3,
+template<QuantityOf<(isq::energy)> T1, QuantityOf<(isq::wavenumber)> T2, QuantityOf<(isq::frequency)> T3,
-         QuantityOf<isq::thermodynamic_temperature> T4, QuantityOf<isq::wavelength> T5>
+         QuantityOf<(isq::thermodynamic_temperature)> T4, QuantityOf<(isq::wavelength)> T5>
 void print_line(const std::tuple<T1, T2, T3, T4, T5>& t)
 {
  std::cout << MP_UNITS_STD_FMT::format(
@@ -65,8 +65,8 @@ void print_line(const std::tuple<T1, T2, T3, T4, T5>& t)
 // prints quantities in semi-SI units
 // (eV is not an official SI unit)
-template<QuantityOf<isq::energy> T1, QuantityOf<isq::wavenumber> T2, QuantityOf<isq::frequency> T3,
+template<QuantityOf<(isq::energy)> T1, QuantityOf<(isq::wavenumber)> T2, QuantityOf<(isq::frequency)> T3,
-         QuantityOf<isq::thermodynamic_temperature> T4, QuantityOf<isq::wavelength> T5>
+         QuantityOf<(isq::thermodynamic_temperature)> T4, QuantityOf<(isq::wavelength)> T5>
 void print_line_si(const std::tuple<T1, T2, T3, T4, T5>& t)
 {
  std::cout << MP_UNITS_STD_FMT::format(
--- a/example/storage_tank.cpp
+++ b/example/storage_tank.cpp
@@ -77,10 +77,10 @@ public:
    density_ = density;
  }
-  [[nodiscard]] constexpr QuantityOf<isq::weight> auto filled_weight() const
+  [[nodiscard]] constexpr QuantityOf<(isq::weight)> auto filled_weight() const
  {
    const auto volume = isq::volume(base_ * height_);  // TODO check if we can remove that cast
-    const QuantityOf<isq::mass> auto mass = density_ * volume;
+    const QuantityOf<(isq::mass)> auto mass = density_ * volume;
    return isq::weight(mass * g);
  }
@@ -130,9 +130,9 @@ int main()
  const quantity spare_capacity = tank.spare_capacity(measured_mass);
  const quantity filled_weight = tank.filled_weight();
-  const QuantityOf<isq::mass_change_rate> auto input_flow_rate = measured_mass / fill_time;
+  const QuantityOf<(isq::mass_change_rate)> auto input_flow_rate = measured_mass / fill_time;
-  const QuantityOf<isq::speed> auto float_rise_rate = fill_level / fill_time;
+  const QuantityOf<(isq::speed)> auto float_rise_rate = fill_level / fill_time;
-  const QuantityOf<isq::time> auto fill_time_left = (height / fill_level - 1 * one) * fill_time;
+  const QuantityOf<(isq::time)> auto fill_time_left = (height / fill_level - 1 * one) * fill_time;
  const quantity fill_ratio = fill_level / height;
--- a/example/total_energy.cpp
+++ b/example/total_energy.cpp
@@ -45,8 +45,8 @@ namespace {
 using namespace mp_units;
-QuantityOf<isq::mechanical_energy> auto total_energy(QuantityOf<isq::momentum> auto p, QuantityOf<isq::mass> auto m,
+QuantityOf<(isq::mechanical_energy)> auto total_energy(QuantityOf<(isq::momentum)> auto p, QuantityOf<(isq::mass)> auto m,
-                                                     QuantityOf<isq::speed> auto c)
+                                                     QuantityOf<(isq::speed)> auto c)
 {
  return isq::mechanical_energy(sqrt(pow<2>(p * c) + pow<2>(m * pow<2>(c))));
 }
--- a/src/systems/include/mp-units/systems/si/chrono.h
+++ b/src/systems/include/mp-units/systems/si/chrono.h
@@ -127,13 +127,13 @@ namespace detail {
 }  // namespace detail
-template<QuantityOf<isq::time> Q>
+template<QuantityOf<(isq::time)> Q>
 [[nodiscard]] constexpr auto to_chrono_duration(const Q& q)
 {
  return std::chrono::duration<typename Q::rep, decltype(detail::as_ratio(get_canonical_unit(Q::unit).mag))>{q};
 }
-template<QuantityPointOf<isq::time> QP>
+template<QuantityPointOf<(isq::time)> QP>
  requires is_specialization_of<std::remove_const_t<decltype(QP::absolute_point_origin)>, chrono_point_origin_>
 [[nodiscard]] constexpr auto to_chrono_time_point(const QP& qp)
 {
--- a/src/systems/include/mp-units/systems/si/math.h
+++ b/src/systems/include/mp-units/systems/si/math.h
@@ -43,7 +43,7 @@ import std;
 MP_UNITS_EXPORT
 namespace mp_units::si {
-template<ReferenceOf<isq::angular_measure> auto R, typename Rep>
+template<ReferenceOf<(isq::angular_measure)> auto R, typename Rep>
  requires requires(Rep v) { sin(v); } || requires(Rep v) { std::sin(v); }
 [[nodiscard]] inline QuantityOf<dimensionless> auto sin(const quantity<R, Rep>& q) noexcept
 {
@@ -57,7 +57,7 @@ template<ReferenceOf<isq::angular_measure> auto R, typename Rep>
    return quantity{sin(q.numerical_value_in(radian)), one};
 }
-template<ReferenceOf<isq::angular_measure> auto R, typename Rep>
+template<ReferenceOf<(isq::angular_measure)> auto R, typename Rep>
  requires requires(Rep v) { cos(v); } || requires(Rep v) { std::cos(v); }
 [[nodiscard]] inline QuantityOf<dimensionless> auto cos(const quantity<R, Rep>& q) noexcept
 {
@@ -71,7 +71,7 @@ template<ReferenceOf<isq::angular_measure> auto R, typename Rep>
    return quantity{cos(q.numerical_value_in(radian)), one};
 }
-template<ReferenceOf<isq::angular_measure> auto R, typename Rep>
+template<ReferenceOf<(isq::angular_measure)> auto R, typename Rep>
  requires requires(Rep v) { tan(v); } || requires(Rep v) { std::tan(v); }
 [[nodiscard]] inline QuantityOf<dimensionless> auto tan(const quantity<R, Rep>& q) noexcept
 {
@@ -87,7 +87,7 @@ template<ReferenceOf<isq::angular_measure> auto R, typename Rep>
 template<ReferenceOf<dimensionless> auto R, typename Rep>
  requires requires(Rep v) { asin(v); } || requires(Rep v) { std::asin(v); }
-[[nodiscard]] inline QuantityOf<isq::angular_measure> auto asin(const quantity<R, Rep>& q) noexcept
+[[nodiscard]] inline QuantityOf<(isq::angular_measure)> auto asin(const quantity<R, Rep>& q) noexcept
 {
  using std::asin;
  if constexpr (!treat_as_floating_point<Rep>) {
@@ -101,7 +101,7 @@ template<ReferenceOf<dimensionless> auto R, typename Rep>
 template<ReferenceOf<dimensionless> auto R, typename Rep>
  requires requires(Rep v) { acos(v); } || requires(Rep v) { std::acos(v); }
-[[nodiscard]] inline QuantityOf<isq::angular_measure> auto acos(const quantity<R, Rep>& q) noexcept
+[[nodiscard]] inline QuantityOf<(isq::angular_measure)> auto acos(const quantity<R, Rep>& q) noexcept
 {
  using std::acos;
  if constexpr (!treat_as_floating_point<Rep>) {
@@ -115,7 +115,7 @@ template<ReferenceOf<dimensionless> auto R, typename Rep>
 template<ReferenceOf<dimensionless> auto R, typename Rep>
  requires requires(Rep v) { atan(v); } || requires(Rep v) { std::atan(v); }
-[[nodiscard]] inline QuantityOf<isq::angular_measure> auto atan(const quantity<R, Rep>& q) noexcept
+[[nodiscard]] inline QuantityOf<(isq::angular_measure)> auto atan(const quantity<R, Rep>& q) noexcept
 {
  using std::atan;
  if constexpr (!treat_as_floating_point<Rep>) {
@@ -132,7 +132,7 @@ template<auto R1, typename Rep1, auto R2, typename Rep2>
    common_reference(R1, R2);
    requires requires { atan2(v1, v2); } || requires { std::atan2(v1, v2); };
  }
-[[nodiscard]] inline QuantityOf<isq::angular_measure> auto atan2(const quantity<R1, Rep1>& y,
+[[nodiscard]] inline QuantityOf<(isq::angular_measure)> auto atan2(const quantity<R1, Rep1>& y,
                                                                 const quantity<R2, Rep2>& x) noexcept
 {
  constexpr auto ref = common_reference(R1, R2);
--- a/test/static/chrono_test.cpp
+++ b/test/static/chrono_test.cpp
@@ -57,41 +57,41 @@ static_assert(!QuantityPoint<sys_seconds>);
 // construction - same rep type
 static_assert(
-  std::constructible_from<quantity<isq::time[si::second], std::chrono::seconds::rep>, std::chrono::seconds>);
+  std::constructible_from<quantity<(isq::time[si::second]), std::chrono::seconds::rep>, std::chrono::seconds>);
-static_assert(std::convertible_to<std::chrono::seconds, quantity<isq::time[si::second], std::chrono::seconds::rep>>);
+static_assert(std::convertible_to<std::chrono::seconds, quantity<(isq::time[si::second]), std::chrono::seconds::rep>>);
-static_assert(std::constructible_from<quantity<isq::time[si::hour], std::chrono::hours::rep>, std::chrono::hours>);
+static_assert(std::constructible_from<quantity<(isq::time[si::hour]), std::chrono::hours::rep>, std::chrono::hours>);
-static_assert(std::convertible_to<std::chrono::hours, quantity<isq::time[si::hour], std::chrono::hours::rep>>);
+static_assert(std::convertible_to<std::chrono::hours, quantity<(isq::time[si::hour]), std::chrono::hours::rep>>);
-static_assert(std::constructible_from<quantity<isq::time[si::second], std::chrono::hours::rep>, std::chrono::hours>);
+static_assert(std::constructible_from<quantity<(isq::time[si::second]), std::chrono::hours::rep>, std::chrono::hours>);
-static_assert(std::convertible_to<std::chrono::hours, quantity<isq::time[si::second], std::chrono::hours::rep>>);
+static_assert(std::convertible_to<std::chrono::hours, quantity<(isq::time[si::second]), std::chrono::hours::rep>>);
-static_assert(!std::constructible_from<quantity<isq::time[si::hour], std::chrono::seconds::rep>, std::chrono::seconds>);
+static_assert(!std::constructible_from<quantity<(isq::time[si::hour]), std::chrono::seconds::rep>, std::chrono::seconds>);
-static_assert(!std::convertible_to<std::chrono::seconds, quantity<isq::time[si::hour], std::chrono::seconds::rep>>);
+static_assert(!std::convertible_to<std::chrono::seconds, quantity<(isq::time[si::hour]), std::chrono::seconds::rep>>);
 static_assert(
-  std::constructible_from<time_point<si::second, std::chrono::system_clock, sys_seconds::rep>, sys_seconds>);
+  std::constructible_from<time_point<(si::second), std::chrono::system_clock, sys_seconds::rep>, sys_seconds>);
 static_assert(
-  !std::constructible_from<time_point<si::second, std::chrono::steady_clock, sys_seconds::rep>, sys_seconds>);
+  !std::constructible_from<time_point<(si::second), std::chrono::steady_clock, sys_seconds::rep>, sys_seconds>);
-static_assert(std::convertible_to<sys_seconds, time_point<si::second, std::chrono::system_clock, sys_seconds::rep>>);
+static_assert(std::convertible_to<sys_seconds, time_point<(si::second), std::chrono::system_clock, sys_seconds::rep>>);
-static_assert(std::constructible_from<time_point<si::day, std::chrono::system_clock, sys_days::rep>, sys_days>);
+static_assert(std::constructible_from<time_point<(si::day), std::chrono::system_clock, sys_days::rep>, sys_days>);
-static_assert(!std::constructible_from<time_point<si::day, std::chrono::steady_clock, sys_days::rep>, sys_days>);
+static_assert(!std::constructible_from<time_point<(si::day), std::chrono::steady_clock, sys_days::rep>, sys_days>);
-static_assert(std::convertible_to<sys_days, time_point<si::day, std::chrono::system_clock, sys_days::rep>>);
+static_assert(std::convertible_to<sys_days, time_point<(si::day), std::chrono::system_clock, sys_days::rep>>);
-static_assert(std::constructible_from<time_point<si::second, std::chrono::system_clock, sys_days::rep>, sys_days>);
+static_assert(std::constructible_from<time_point<(si::second), std::chrono::system_clock, sys_days::rep>, sys_days>);
-static_assert(!std::constructible_from<time_point<si::second, std::chrono::steady_clock, sys_days::rep>, sys_days>);
+static_assert(!std::constructible_from<time_point<(si::second), std::chrono::steady_clock, sys_days::rep>, sys_days>);
-static_assert(std::convertible_to<sys_days, time_point<si::second, std::chrono::system_clock, sys_days::rep>>);
+static_assert(std::convertible_to<sys_days, time_point<(si::second), std::chrono::system_clock, sys_days::rep>>);
-static_assert(!std::constructible_from<time_point<si::day, std::chrono::system_clock, sys_seconds::rep>, sys_seconds>);
+static_assert(!std::constructible_from<time_point<(si::day), std::chrono::system_clock, sys_seconds::rep>, sys_seconds>);
-static_assert(!std::convertible_to<sys_seconds, time_point<si::day, std::chrono::system_clock, sys_seconds::rep>>);
+static_assert(!std::convertible_to<sys_seconds, time_point<(si::day), std::chrono::system_clock, sys_seconds::rep>>);
 // construction - different rep type (integral to a floating-point)
-static_assert(std::constructible_from<quantity<isq::time[si::second]>, std::chrono::seconds>);
+static_assert(std::constructible_from<quantity<(isq::time[si::second])>, std::chrono::seconds>);
-static_assert(std::convertible_to<std::chrono::seconds, quantity<isq::time[si::second]>>);
+static_assert(std::convertible_to<std::chrono::seconds, quantity<(isq::time[si::second])>>);
-static_assert(std::constructible_from<quantity<isq::time[si::second]>, std::chrono::hours>);
+static_assert(std::constructible_from<quantity<(isq::time[si::second])>, std::chrono::hours>);
-static_assert(std::convertible_to<std::chrono::hours, quantity<isq::time[si::second]>>);
+static_assert(std::convertible_to<std::chrono::hours, quantity<(isq::time[si::second])>>);
-static_assert(std::constructible_from<quantity<isq::time[si::hour]>, std::chrono::seconds>);
+static_assert(std::constructible_from<quantity<(isq::time[si::hour])>, std::chrono::seconds>);
-static_assert(std::convertible_to<std::chrono::seconds, quantity<isq::time[si::hour]>>);
+static_assert(std::convertible_to<std::chrono::seconds, quantity<(isq::time[si::hour])>>);
-static_assert(std::constructible_from<time_point<si::second, std::chrono::system_clock>, sys_seconds>);
+static_assert(std::constructible_from<time_point<(si::second), std::chrono::system_clock>, sys_seconds>);
-static_assert(std::convertible_to<sys_seconds, time_point<si::second, std::chrono::system_clock>>);
+static_assert(std::convertible_to<sys_seconds, time_point<(si::second), std::chrono::system_clock>>);
-static_assert(std::constructible_from<time_point<si::second, std::chrono::system_clock>, sys_days>);
+static_assert(std::constructible_from<time_point<(si::second), std::chrono::system_clock>, sys_days>);
-static_assert(std::convertible_to<sys_days, time_point<si::second, std::chrono::system_clock>>);
+static_assert(std::convertible_to<sys_days, time_point<(si::second), std::chrono::system_clock>>);
-static_assert(std::constructible_from<time_point<si::day, std::chrono::system_clock>, sys_seconds>);
+static_assert(std::constructible_from<time_point<(si::day), std::chrono::system_clock>, sys_seconds>);
-static_assert(std::convertible_to<sys_seconds, time_point<si::day, std::chrono::system_clock>>);
+static_assert(std::convertible_to<sys_seconds, time_point<(si::day), std::chrono::system_clock>>);
 static_assert(quantity<si::second>{1s} == 1 * s);
 static_assert(quantity<isq::time[si::second]>{1s} == 1 * s);
--- a/test/static/concepts_test.cpp
+++ b/test/static/concepts_test.cpp
@@ -83,7 +83,7 @@ inline constexpr auto speed = isq::length / isq::time;
 static_assert(QuantitySpec<struct isq::length>);
 static_assert(QuantitySpec<struct isq::radius>);
 static_assert(QuantitySpec<struct isq::speed>);
-static_assert(QuantitySpec<decltype(kind_of<isq::length>)>);
+static_assert(QuantitySpec<decltype(kind_of<(isq::length)>)>);
 static_assert(QuantitySpec<decltype(isq::length / isq::time)>);
 static_assert(QuantitySpec<decltype(pow<2>(isq::length))>);
 static_assert(QuantitySpec<struct dimensionless>);
@@ -95,7 +95,7 @@ static_assert(!QuantitySpec<int>);
 static_assert(detail::NamedQuantitySpec<struct isq::length>);
 static_assert(detail::NamedQuantitySpec<struct isq::radius>);
 static_assert(detail::NamedQuantitySpec<struct isq::speed>);
-static_assert(!detail::NamedQuantitySpec<std::remove_const_t<decltype(kind_of<isq::length>)>>);
+static_assert(!detail::NamedQuantitySpec<std::remove_const_t<decltype(kind_of<(isq::length)>)>>);
 static_assert(!detail::NamedQuantitySpec<decltype(isq::length / isq::time)>);
 static_assert(!detail::NamedQuantitySpec<decltype(pow<2>(isq::length))>);
 static_assert(detail::NamedQuantitySpec<struct dimensionless>);
@@ -106,7 +106,7 @@ static_assert(!detail::NamedQuantitySpec<int>);
 // DerivedQuantitySpec
 static_assert(!detail::DerivedQuantitySpec<struct isq::length>);
 static_assert(!detail::DerivedQuantitySpec<struct isq::radius>);
-static_assert(!detail::DerivedQuantitySpec<decltype(kind_of<isq::length>)>);
+static_assert(!detail::DerivedQuantitySpec<decltype(kind_of<(isq::length)>)>);
 static_assert(!detail::DerivedQuantitySpec<struct isq::speed>);
 static_assert(detail::DerivedQuantitySpec<decltype(isq::length / isq::time)>);
 static_assert(detail::DerivedQuantitySpec<decltype(pow<2>(isq::length))>);
@@ -118,7 +118,7 @@ static_assert(!detail::DerivedQuantitySpec<int>);
 // QuantityKindSpec
 static_assert(!detail::QuantityKindSpec<struct isq::length>);
 static_assert(!detail::QuantityKindSpec<struct isq::radius>);
-static_assert(detail::QuantityKindSpec<std::remove_const_t<decltype(kind_of<isq::length>)>>);
+static_assert(detail::QuantityKindSpec<std::remove_const_t<decltype(kind_of<(isq::length)>)>>);
 static_assert(!detail::QuantityKindSpec<struct isq::speed>);
 static_assert(!detail::QuantityKindSpec<decltype(isq::length / isq::time)>);
 static_assert(!detail::QuantityKindSpec<decltype(pow<2>(isq::length))>);
@@ -133,7 +133,7 @@ static_assert(!detail::QuantityKindSpec<int>);
 // Unit
 static_assert(Unit<struct si::metre>);
 static_assert(Unit<decltype(si::kilogram)>);
-static_assert(Unit<decltype(si::kilo<si::gram>)>);
+static_assert(Unit<decltype(si::kilo<(si::gram)>)>);
 static_assert(Unit<struct natural::electronvolt>);
 static_assert(Unit<decltype(si::metre / si::second)>);
 static_assert(Unit<decltype(inverse(si::second))>);
@@ -144,22 +144,47 @@ static_assert(Unit<struct si::standard_gravity>);
 static_assert(Unit<scaled_unit<mag<10>, struct si::second>>);
 static_assert(Unit<derived_unit<struct si::metre, per<struct si::second>>>);
 static_assert(Unit<struct one>);
-static_assert(!Unit<named_unit<"?", kind_of<isq::length>>>);
+static_assert(!Unit<named_unit<"?", kind_of<(isq::length)>>>);
 static_assert(!Unit<named_unit<"?">>);
 static_assert(!Unit<named_unit<"?", si::metre / si::second>>);
-static_assert(!Unit<named_unit<"?", si::metre, kind_of<isq::length>>>);
+static_assert(!Unit<named_unit<"?", (si::metre), kind_of<(isq::length)>>>);
-static_assert(!Unit<prefixed_unit<"?", mag<10>, si::second>>);
+static_assert(!Unit<prefixed_unit<"?", mag<10>, (si::second)>>);
 static_assert(!Unit<struct isq::dim_length>);
 static_assert(!Unit<int>);
 #if MP_UNITS_HOSTED
 static_assert(!Unit<std::chrono::seconds>);
 #endif
 // NamedUnit
 static_assert(detail::NamedUnit<struct si::metre>);
 static_assert(detail::NamedUnit<struct natural::electronvolt>);
 static_assert(!detail::NamedUnit<decltype(si::kilogram)>);
 static_assert(!detail::NamedUnit<decltype((si::kilo<(si::gram)>))>);
 static_assert(!detail::NamedUnit<decltype(si::metre / si::second)>);
 static_assert(!detail::NamedUnit<decltype(inverse(si::second))>);
 static_assert(!detail::NamedUnit<decltype(mag<10> * si::second)>);
 static_assert(!detail::NamedUnit<decltype(square(si::metre))>);
 static_assert(!detail::NamedUnit<decltype(pow<2>(si::metre))>);
 static_assert(detail::NamedUnit<struct si::standard_gravity>);
 static_assert(!detail::NamedUnit<scaled_unit<mag<10>, struct si::second>>);
 static_assert(!detail::NamedUnit<derived_unit<struct si::metre, per<struct si::second>>>);
 static_assert(!detail::NamedUnit<struct one>);
 static_assert(!detail::NamedUnit<named_unit<"?", kind_of<(isq::length)>>>);
 static_assert(!detail::NamedUnit<named_unit<"?">>);
 static_assert(!detail::NamedUnit<named_unit<"?", si::metre / si::second>>);
 static_assert(!detail::NamedUnit<named_unit<"?", (si::metre), kind_of<(isq::length)>>>);
 static_assert(!detail::NamedUnit<prefixed_unit<"?", mag<10>, (si::second)>>);
 static_assert(!detail::NamedUnit<struct isq::dim_length>);
 static_assert(!detail::NamedUnit<int>);
 #if MP_UNITS_HOSTED
 static_assert(!detail::NamedUnit<std::chrono::seconds>);
 #endif
 // PrefixableUnit
 static_assert(PrefixableUnit<struct si::metre>);
 static_assert(PrefixableUnit<struct natural::electronvolt>);
 static_assert(!PrefixableUnit<decltype(si::kilogram)>);
-static_assert(!PrefixableUnit<decltype(si::kilo<si::gram>)>);
+static_assert(!PrefixableUnit<decltype(si::kilo<(si::gram)>)>);
 static_assert(!PrefixableUnit<decltype(si::metre / si::second)>);
 static_assert(!PrefixableUnit<decltype(inverse(si::second))>);
 static_assert(!PrefixableUnit<decltype(mag<10> * si::second)>);
@@ -169,11 +194,11 @@ static_assert(PrefixableUnit<struct si::standard_gravity>);
 static_assert(!PrefixableUnit<scaled_unit<mag<10>, struct si::second>>);
 static_assert(!PrefixableUnit<derived_unit<struct si::metre, per<struct si::second>>>);
 static_assert(!PrefixableUnit<struct one>);
-static_assert(!PrefixableUnit<named_unit<"?", kind_of<isq::length>>>);
+static_assert(!PrefixableUnit<named_unit<"?", kind_of<(isq::length)>>>);
 static_assert(!PrefixableUnit<named_unit<"?">>);
 static_assert(!PrefixableUnit<named_unit<"?", si::metre / si::second>>);
-static_assert(!PrefixableUnit<named_unit<"?", si::metre, kind_of<isq::length>>>);
+static_assert(!PrefixableUnit<named_unit<"?", (si::metre), kind_of<(isq::length)>>>);
-static_assert(!PrefixableUnit<prefixed_unit<"?", mag<10>, si::second>>);
+static_assert(!PrefixableUnit<prefixed_unit<"?", mag<10>, (si::second)>>);
 static_assert(!PrefixableUnit<struct isq::dim_length>);
 static_assert(!PrefixableUnit<int>);
 #if MP_UNITS_HOSTED
@@ -184,7 +209,7 @@ static_assert(!PrefixableUnit<std::chrono::seconds>);
 static_assert(AssociatedUnit<struct si::metre>);
 static_assert(!AssociatedUnit<struct natural::electronvolt>);
 static_assert(AssociatedUnit<decltype(si::kilogram)>);
-static_assert(AssociatedUnit<decltype(si::kilo<si::gram>)>);
+static_assert(AssociatedUnit<decltype(si::kilo<(si::gram)>)>);
 static_assert(AssociatedUnit<decltype(si::metre / si::second)>);
 static_assert(AssociatedUnit<decltype(inverse(si::second))>);
 static_assert(AssociatedUnit<decltype(mag<10> * si::second)>);
@@ -194,11 +219,11 @@ static_assert(AssociatedUnit<struct si::standard_gravity>);
 static_assert(AssociatedUnit<scaled_unit<mag<10>, struct si::second>>);
 static_assert(AssociatedUnit<derived_unit<struct si::metre, per<struct si::second>>>);
 static_assert(AssociatedUnit<struct one>);
-static_assert(!AssociatedUnit<named_unit<"?", kind_of<isq::length>>>);
+static_assert(!AssociatedUnit<named_unit<"?", kind_of<(isq::length)>>>);
 static_assert(!AssociatedUnit<named_unit<"?">>);
 static_assert(!AssociatedUnit<named_unit<"?", si::metre / si::second>>);
-static_assert(!AssociatedUnit<named_unit<"?", si::metre, kind_of<isq::length>>>);
+static_assert(!AssociatedUnit<named_unit<"?", (si::metre), kind_of<(isq::length)>>>);
-static_assert(!AssociatedUnit<prefixed_unit<"?", mag<10>, si::second>>);
+static_assert(!AssociatedUnit<prefixed_unit<"?", mag<10>, (si::second)>>);
 static_assert(!AssociatedUnit<struct isq::dim_length>);
 static_assert(!AssociatedUnit<int>);
 #if MP_UNITS_HOSTED
@@ -206,19 +231,19 @@ static_assert(!AssociatedUnit<std::chrono::seconds>);
 #endif
 // UnitOf
-static_assert(UnitOf<struct si::metre, isq::length>);
+static_assert(UnitOf<struct si::metre, (isq::length)>);
-static_assert(UnitOf<struct si::metre, isq::radius>);
+static_assert(UnitOf<struct si::metre, (isq::radius)>);
-static_assert(UnitOf<decltype(si::kilogram), isq::mass>);
+static_assert(UnitOf<decltype(si::kilogram), (isq::mass)>);
-static_assert(UnitOf<struct si::hertz, isq::frequency>);
+static_assert(UnitOf<struct si::hertz, (isq::frequency)>);
 static_assert(UnitOf<struct si::hertz, inverse(isq::time)>);
 static_assert(UnitOf<struct one, dimensionless>);
 static_assert(UnitOf<struct percent, dimensionless>);
-static_assert(UnitOf<struct si::radian, isq::angular_measure>);
+static_assert(UnitOf<struct si::radian, (isq::angular_measure)>);
-static_assert(UnitOf<struct one, isq::angular_measure>);
+static_assert(UnitOf<struct one, (isq::angular_measure)>);
-static_assert(UnitOf<struct percent, isq::angular_measure>);
+static_assert(UnitOf<struct percent, (isq::angular_measure)>);
 static_assert(!UnitOf<struct si::radian, dimensionless>);
-static_assert(!UnitOf<struct si::metre, isq::time>);
+static_assert(!UnitOf<struct si::metre, (isq::time)>);
-static_assert(!UnitOf<struct natural::electronvolt, isq::energy>);
+static_assert(!UnitOf<struct natural::electronvolt, (isq::energy)>);
 // Reference
 static_assert(Reference<struct si::metre>);
@@ -228,32 +253,32 @@ static_assert(Reference<decltype(isq::radius[si::metre])>);
 static_assert(Reference<decltype(isq::radius[si::metre] / isq::time[si::second])>);
 static_assert(!Reference<struct natural::electronvolt>);
 static_assert(!Reference<struct isq::length>);
-static_assert(!Reference<decltype(kind_of<isq::length>)>);
+static_assert(!Reference<decltype(kind_of<(isq::length)>)>);
 static_assert(!Reference<struct isq::dim_length>);
 static_assert(!Reference<int>);
 // ReferenceOf
-static_assert(ReferenceOf<struct si::metre, isq::length>);
+static_assert(ReferenceOf<struct si::metre, (isq::length)>);
-static_assert(ReferenceOf<struct si::metre, isq::radius>);
+static_assert(ReferenceOf<struct si::metre, (isq::radius)>);
-static_assert(!ReferenceOf<struct si::second, isq::length>);
+static_assert(!ReferenceOf<struct si::second, (isq::length)>);
-static_assert(ReferenceOf<decltype(isq::length[si::metre]), isq::length>);
+static_assert(ReferenceOf<decltype(isq::length[si::metre]), (isq::length)>);
-static_assert(!ReferenceOf<decltype(isq::length[si::metre]), isq::radius>);
+static_assert(!ReferenceOf<decltype(isq::length[si::metre]), (isq::radius)>);
-static_assert(ReferenceOf<decltype(isq::radius[si::metre]), isq::length>);
+static_assert(ReferenceOf<decltype(isq::radius[si::metre]), (isq::length)>);
-static_assert(ReferenceOf<decltype(isq::radius[si::metre]), isq::radius>);
+static_assert(ReferenceOf<decltype(isq::radius[si::metre]), (isq::radius)>);
-static_assert(!ReferenceOf<struct si::second, isq::dim_length>);
+static_assert(!ReferenceOf<struct si::second, (isq::dim_length)>);
 static_assert(ReferenceOf<struct one, dimensionless>);
 static_assert(ReferenceOf<decltype(dimensionless[one]), dimensionless>);
-static_assert(ReferenceOf<decltype(isq::rotation[one]), isq::rotation>);
+static_assert(ReferenceOf<decltype(isq::rotation[one]), (isq::rotation)>);
 static_assert(ReferenceOf<decltype(isq::rotation[one]), dimensionless>);
-static_assert(ReferenceOf<struct si::radian, isq::angular_measure>);
+static_assert(ReferenceOf<struct si::radian, (isq::angular_measure)>);
 static_assert(!ReferenceOf<struct si::radian, dimensionless>);
-static_assert(ReferenceOf<decltype(isq::angular_measure[si::radian]), isq::angular_measure>);
+static_assert(ReferenceOf<decltype(isq::angular_measure[si::radian]), (isq::angular_measure)>);
 static_assert(!ReferenceOf<decltype(isq::angular_measure[si::radian]), dimensionless>);
-static_assert(ReferenceOf<struct one, isq::rotation>);
+static_assert(ReferenceOf<struct one, (isq::rotation)>);
-static_assert(ReferenceOf<struct one, isq::angular_measure>);
+static_assert(ReferenceOf<struct one, (isq::angular_measure)>);
-static_assert(!ReferenceOf<decltype(dimensionless[one]), isq::rotation>);
+static_assert(!ReferenceOf<decltype(dimensionless[one]), (isq::rotation)>);
-static_assert(!ReferenceOf<decltype(dimensionless[one]), isq::angular_measure>);
+static_assert(!ReferenceOf<decltype(dimensionless[one]), (isq::angular_measure)>);
 // Representation
 static_assert(Representation<int>);
@@ -278,57 +303,57 @@ static_assert(!RepresentationOf<std::string, quantity_character::scalar>);
 #endif
 // Quantity
-static_assert(Quantity<quantity<si::metre>>);
+static_assert(Quantity<quantity<(si::metre)>>);
-static_assert(Quantity<quantity<isq::length[si::metre]>>);
+static_assert(Quantity<quantity<(isq::length[si::metre])>>);
-static_assert(Quantity<quantity<si::metre, int>>);
+static_assert(Quantity<quantity<(si::metre), int>>);
-static_assert(Quantity<quantity<isq::length[si::metre], int>>);
+static_assert(Quantity<quantity<(isq::length[si::metre]), int>>);
 #if MP_UNITS_HOSTED
 static_assert(!Quantity<std::chrono::seconds>);
 #endif
-static_assert(!Quantity<quantity_point<si::metre, my_origin>>);
+static_assert(!Quantity<quantity_point<(si::metre), my_origin>>);
 static_assert(!Quantity<decltype(isq::length[si::metre])>);
 // QuantityOf
-static_assert(QuantityOf<quantity<si::metre>, isq::length>);
+static_assert(QuantityOf<quantity<(si::metre)>, (isq::length)>);
-static_assert(QuantityOf<quantity<si::metre>, isq::radius>);
+static_assert(QuantityOf<quantity<(si::metre)>, (isq::radius)>);
-static_assert(!QuantityOf<quantity<si::second>, isq::length>);
+static_assert(!QuantityOf<quantity<(si::second)>, (isq::length)>);
-static_assert(QuantityOf<quantity<isq::length[si::metre]>, isq::length>);
+static_assert(QuantityOf<quantity<(isq::length[si::metre])>, (isq::length)>);
-static_assert(!QuantityOf<quantity<isq::length[si::metre]>, isq::radius>);
+static_assert(!QuantityOf<quantity<(isq::length[si::metre])>, (isq::radius)>);
-static_assert(QuantityOf<quantity<isq::radius[si::metre]>, isq::length>);
+static_assert(QuantityOf<quantity<(isq::radius[si::metre])>, (isq::length)>);
-static_assert(QuantityOf<quantity<isq::radius[si::metre]>, isq::radius>);
+static_assert(QuantityOf<quantity<(isq::radius[si::metre])>, (isq::radius)>);
-static_assert(!QuantityOf<quantity<si::second>, isq::dim_length>);
+static_assert(!QuantityOf<quantity<(si::second)>, (isq::dim_length)>);
 static_assert(QuantityOf<quantity<one>, dimensionless>);
 static_assert(QuantityOf<quantity<dimensionless[one]>, dimensionless>);
-static_assert(QuantityOf<quantity<isq::rotation[one]>, isq::rotation>);
+static_assert(QuantityOf<quantity<(isq::rotation[one])>, (isq::rotation)>);
-static_assert(QuantityOf<quantity<isq::rotation[one]>, dimensionless>);
+static_assert(QuantityOf<quantity<(isq::rotation[one])>, dimensionless>);
-static_assert(QuantityOf<quantity<si::radian>, isq::angular_measure>);
+static_assert(QuantityOf<quantity<(si::radian)>, (isq::angular_measure)>);
-static_assert(!QuantityOf<quantity<si::radian>, dimensionless>);
+static_assert(!QuantityOf<quantity<(si::radian)>, dimensionless>);
-static_assert(QuantityOf<quantity<isq::angular_measure[si::radian]>, isq::angular_measure>);
+static_assert(QuantityOf<quantity<(isq::angular_measure[si::radian])>, (isq::angular_measure)>);
-static_assert(!QuantityOf<quantity<isq::angular_measure[si::radian]>, dimensionless>);
+static_assert(!QuantityOf<quantity<(isq::angular_measure[si::radian])>, dimensionless>);
-static_assert(QuantityOf<quantity<one>, isq::rotation>);
+static_assert(QuantityOf<quantity<one>, (isq::rotation)>);
-static_assert(QuantityOf<quantity<one>, isq::angular_measure>);
+static_assert(QuantityOf<quantity<one>, (isq::angular_measure)>);
-static_assert(!QuantityOf<quantity<dimensionless[one]>, isq::rotation>);
+static_assert(!QuantityOf<quantity<dimensionless[one]>, (isq::rotation)>);
-static_assert(!QuantityOf<quantity<dimensionless[one]>, isq::angular_measure>);
+static_assert(!QuantityOf<quantity<dimensionless[one]>, (isq::angular_measure)>);
 // QuantityLike
 #if MP_UNITS_HOSTED
 static_assert(QuantityLike<std::chrono::seconds>);
 static_assert(QuantityLike<std::chrono::hours>);
 #endif
-static_assert(!QuantityLike<quantity<isq::time[si::second]>>);
+static_assert(!QuantityLike<quantity<(isq::time[si::second])>>);
-static_assert(!QuantityLike<quantity_point<isq::length[si::metre], my_origin>>);
+static_assert(!QuantityLike<quantity_point<(isq::length[si::metre]), my_origin>>);
 static_assert(!QuantityLike<int>);
 // QuantityPoint
-static_assert(QuantityPoint<quantity_point<si::metre, my_origin>>);
+static_assert(QuantityPoint<quantity_point<(si::metre), my_origin>>);
-static_assert(QuantityPoint<quantity_point<si::metre, my_relative_origin>>);
+static_assert(QuantityPoint<quantity_point<(si::metre), my_relative_origin>>);
-static_assert(QuantityPoint<quantity_point<isq::length[si::metre], my_origin>>);
+static_assert(QuantityPoint<quantity_point<(isq::length[si::metre]), my_origin>>);
-static_assert(QuantityPoint<quantity_point<isq::length[si::metre], my_relative_origin, int>>);
+static_assert(QuantityPoint<quantity_point<(isq::length[si::metre]), my_relative_origin, int>>);
-static_assert(QuantityPoint<quantity_point<isq::radius[si::metre], my_origin>>);
+static_assert(QuantityPoint<quantity_point<(isq::radius[si::metre]), my_origin>>);
-static_assert(QuantityPoint<quantity_point<isq::radius[si::metre], my_relative_origin>>);
+static_assert(QuantityPoint<quantity_point<(isq::radius[si::metre]), my_relative_origin>>);
 static_assert(!QuantityPoint<decltype(isq::length[si::metre])>);
-static_assert(!QuantityPoint<absolute_point_origin<isq::length>>);
+static_assert(!QuantityPoint<absolute_point_origin<(isq::length)>>);
 static_assert(!QuantityPoint<struct my_origin>);
 static_assert(!QuantityPoint<struct my_relative_origin>);
 #if MP_UNITS_HOSTED
@@ -338,35 +363,35 @@ static_assert(!QuantityPoint<std::chrono::time_point<std::chrono::system_clock>>
 static_assert(!QuantityPoint<int>);
 // QuantityPointOf
-static_assert(QuantityPointOf<quantity_point<si::metre, my_origin>, isq::length>);
+static_assert(QuantityPointOf<quantity_point<(si::metre), my_origin>, (isq::length)>);
-static_assert(QuantityPointOf<quantity_point<si::metre, my_origin>, isq::radius>);
+static_assert(QuantityPointOf<quantity_point<(si::metre), my_origin>, (isq::radius)>);
-static_assert(QuantityPointOf<quantity_point<isq::length[si::metre], my_origin>, isq::length>);
+static_assert(QuantityPointOf<quantity_point<(isq::length[si::metre]), my_origin>, (isq::length)>);
-static_assert(!QuantityPointOf<quantity_point<isq::length[si::metre], my_origin>, isq::radius>);
+static_assert(!QuantityPointOf<quantity_point<(isq::length[si::metre]), my_origin>, (isq::radius)>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_origin>, isq::length>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_origin>, (isq::length)>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_origin>, isq::radius>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_origin>, (isq::radius)>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_relative_origin>, isq::length>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_relative_origin>, (isq::length)>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_relative_origin>, isq::radius>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_relative_origin>, (isq::radius)>);
-static_assert(QuantityPointOf<quantity_point<si::metre, my_origin>, my_origin>);
+static_assert(QuantityPointOf<quantity_point<(si::metre), my_origin>, my_origin>);
-static_assert(QuantityPointOf<quantity_point<si::metre, my_origin>, my_relative_origin>);
+static_assert(QuantityPointOf<quantity_point<(si::metre), my_origin>, my_relative_origin>);
-static_assert(QuantityPointOf<quantity_point<si::metre, my_relative_origin>, my_relative_origin>);
+static_assert(QuantityPointOf<quantity_point<(si::metre), my_relative_origin>, my_relative_origin>);
-static_assert(QuantityPointOf<quantity_point<si::metre, my_relative_origin>, my_origin>);
+static_assert(QuantityPointOf<quantity_point<(si::metre), my_relative_origin>, my_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::length[si::metre], my_origin>, my_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::length[si::metre]), my_origin>, my_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::length[si::metre], my_origin>, my_relative_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::length[si::metre]), my_origin>, my_relative_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::length[si::metre], my_relative_origin>, my_relative_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::length[si::metre]), my_relative_origin>, my_relative_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::length[si::metre], my_relative_origin>, my_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::length[si::metre]), my_relative_origin>, my_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_origin>, my_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_origin>, my_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_origin>, my_relative_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_origin>, my_relative_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_relative_origin>, my_relative_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_relative_origin>, my_relative_origin>);
-static_assert(QuantityPointOf<quantity_point<isq::radius[si::metre], my_relative_origin>, my_origin>);
+static_assert(QuantityPointOf<quantity_point<(isq::radius[si::metre]), my_relative_origin>, my_origin>);
 // PointOrigin
 static_assert(PointOrigin<struct my_origin>);
 static_assert(PointOrigin<struct my_relative_origin>);
-static_assert(!PointOrigin<absolute_point_origin<isq::length>>);
+static_assert(!PointOrigin<absolute_point_origin<(isq::length)>>);
 static_assert(!PointOrigin<relative_point_origin<my_origin + 42 * si::metre>>);
-static_assert(!PointOrigin<quantity_point<si::metre, my_origin>>);
+static_assert(!PointOrigin<quantity_point<(si::metre), my_origin>>);
-static_assert(!PointOrigin<quantity_point<isq::length[si::metre], my_origin>>);
+static_assert(!PointOrigin<quantity_point<(isq::length[si::metre]), my_origin>>);
-static_assert(!PointOrigin<quantity_point<isq::radius[si::metre], my_origin>>);
+static_assert(!PointOrigin<quantity_point<(isq::radius[si::metre]), my_origin>>);
 static_assert(!PointOrigin<decltype(isq::length[si::metre])>);
 #if MP_UNITS_HOSTED
 static_assert(!PointOrigin<std::chrono::seconds>);
@@ -375,38 +400,38 @@ static_assert(!PointOrigin<std::chrono::time_point<std::chrono::system_clock>>);
 static_assert(!PointOrigin<int>);
 // PointOriginFor
-static_assert(PointOriginFor<struct my_origin, isq::length>);
+static_assert(PointOriginFor<struct my_origin, (isq::length)>);
-static_assert(PointOriginFor<struct my_origin, isq::radius>);
+static_assert(PointOriginFor<struct my_origin, (isq::radius)>);
-static_assert(!PointOriginFor<struct my_origin, isq::time>);
+static_assert(!PointOriginFor<struct my_origin, (isq::time)>);
-static_assert(PointOriginFor<struct my_relative_origin, isq::length>);
+static_assert(PointOriginFor<struct my_relative_origin, (isq::length)>);
-static_assert(PointOriginFor<struct my_relative_origin, isq::radius>);
+static_assert(PointOriginFor<struct my_relative_origin, (isq::radius)>);
-static_assert(!PointOriginFor<struct my_relative_origin, isq::time>);
+static_assert(!PointOriginFor<struct my_relative_origin, (isq::time)>);
-static_assert(!PointOriginFor<quantity_point<si::metre, my_origin>, isq::length>);
+static_assert(!PointOriginFor<quantity_point<(si::metre), my_origin>, (isq::length)>);
-static_assert(!PointOriginFor<quantity_point<si::metre, my_origin>, isq::radius>);
+static_assert(!PointOriginFor<quantity_point<(si::metre), my_origin>, (isq::radius)>);
-static_assert(!PointOriginFor<quantity_point<si::metre, my_origin>, isq::time>);
+static_assert(!PointOriginFor<quantity_point<(si::metre), my_origin>, (isq::time)>);
-static_assert(!PointOriginFor<quantity_point<isq::length[si::metre], my_origin>, isq::length>);
+static_assert(!PointOriginFor<quantity_point<(isq::length[si::metre]), my_origin>, (isq::length)>);
-static_assert(!PointOriginFor<quantity_point<isq::length[si::metre], my_origin>, isq::radius>);
+static_assert(!PointOriginFor<quantity_point<(isq::length[si::metre]), my_origin>, (isq::radius)>);
-static_assert(!PointOriginFor<quantity_point<isq::length[si::metre], my_origin>, isq::time>);
+static_assert(!PointOriginFor<quantity_point<(isq::length[si::metre]), my_origin>, (isq::time)>);
-static_assert(!PointOriginFor<quantity_point<isq::radius[si::metre], my_origin>, isq::length>);
+static_assert(!PointOriginFor<quantity_point<(isq::radius[si::metre]), my_origin>, (isq::length)>);
-static_assert(!PointOriginFor<quantity_point<isq::radius[si::metre], my_origin>, isq::radius>);
+static_assert(!PointOriginFor<quantity_point<(isq::radius[si::metre]), my_origin>, (isq::radius)>);
-static_assert(!PointOriginFor<quantity_point<isq::radius[si::metre], my_origin>, isq::time>);
+static_assert(!PointOriginFor<quantity_point<(isq::radius[si::metre]), my_origin>, (isq::time)>);
-static_assert(!PointOriginFor<quantity_point<isq::radius[si::metre], my_relative_origin>, isq::length>);
+static_assert(!PointOriginFor<quantity_point<(isq::radius[si::metre]), my_relative_origin>, (isq::length)>);
-static_assert(!PointOriginFor<quantity_point<isq::radius[si::metre], my_relative_origin>, isq::radius>);
+static_assert(!PointOriginFor<quantity_point<(isq::radius[si::metre]), my_relative_origin>, (isq::radius)>);
-static_assert(!PointOriginFor<quantity_point<isq::radius[si::metre], my_relative_origin>, isq::time>);
+static_assert(!PointOriginFor<quantity_point<(isq::radius[si::metre]), my_relative_origin>, (isq::time)>);
-static_assert(!PointOriginFor<decltype(isq::length[si::metre]), isq::length>);
+static_assert(!PointOriginFor<decltype((isq::length[si::metre])), (isq::length)>);
 #if MP_UNITS_HOSTED
-static_assert(!PointOriginFor<std::chrono::seconds, isq::length>);
+static_assert(!PointOriginFor<std::chrono::seconds, (isq::length)>);
-static_assert(!PointOriginFor<std::chrono::time_point<std::chrono::system_clock>, isq::length>);
+static_assert(!PointOriginFor<std::chrono::time_point<std::chrono::system_clock>, (isq::length)>);
 #endif
-static_assert(!PointOriginFor<int, isq::length>);
+static_assert(!PointOriginFor<int, (isq::length)>);
 // QuantityPointLike
 #if MP_UNITS_HOSTED
 static_assert(QuantityPointLike<std::chrono::time_point<std::chrono::system_clock>>);
 static_assert(!QuantityPointLike<std::chrono::seconds>);
 #endif
-static_assert(!QuantityPointLike<quantity<isq::time[si::second]>>);
+static_assert(!QuantityPointLike<quantity<(isq::time[si::second])>>);
-static_assert(!QuantityPointLike<quantity_point<si::metre, my_origin>>);
+static_assert(!QuantityPointLike<quantity_point<(si::metre), my_origin>>);
 static_assert(!QuantityPointLike<int>);
 }  // namespace
--- a/test/static/custom_rep_test_min_impl.cpp
+++ b/test/static/custom_rep_test_min_impl.cpp
@@ -78,18 +78,18 @@ static_assert(Representation<min_impl<int>>);
 static_assert(Representation<min_impl<double>>);
 // construction from a value is not allowed
-static_assert(!std::constructible_from<quantity<si::metre, min_impl<int>>, min_impl<int>>);
+static_assert(!std::constructible_from<quantity<(si::metre), min_impl<int>>, min_impl<int>>);
-static_assert(!std::convertible_to<min_impl<int>, quantity<si::metre, min_impl<int>>>);
+static_assert(!std::convertible_to<min_impl<int>, quantity<(si::metre), min_impl<int>>>);
-static_assert(!std::constructible_from<quantity<si::metre, min_impl<double>>, min_impl<double>>);
+static_assert(!std::constructible_from<quantity<(si::metre), min_impl<double>>, min_impl<double>>);
-static_assert(!std::convertible_to<min_impl<double>, quantity<si::metre, min_impl<double>>>);
+static_assert(!std::convertible_to<min_impl<double>, quantity<(si::metre), min_impl<double>>>);
 // multiply syntax should work
 template<typename T, auto U>
 concept creates_quantity = Unit<decltype(U)> && requires { T{} * U; };
-static_assert(creates_quantity<min_impl<int>, si::metre>);
+static_assert(creates_quantity<min_impl<int>, (si::metre)>);
-static_assert(creates_quantity<min_impl<double>, si::metre>);
+static_assert(creates_quantity<min_impl<double>, (si::metre)>);
 // multiply syntax
 static_assert(creates_quantity<min_impl<int>, one>);
@@ -99,46 +99,46 @@ static_assert(creates_quantity<min_impl<double>, percent>);
 // construction from a quantity
 // min_impl<T> -> min_impl<T>
-static_assert(std::constructible_from<quantity<si::metre, min_impl<int>>, quantity<si::metre, min_impl<int>>>);
+static_assert(std::constructible_from<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), min_impl<int>>>);
-static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, min_impl<int>>>);
+static_assert(std::convertible_to<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), min_impl<int>>>);
-static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<double>>>);
+static_assert(std::constructible_from<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), min_impl<double>>>);
-static_assert(std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<double>>>);
+static_assert(std::convertible_to<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), min_impl<double>>>);
-static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<int>>>);
+static_assert(std::constructible_from<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), min_impl<int>>>);
-static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, min_impl<double>>>);
+static_assert(std::convertible_to<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), min_impl<double>>>);
-static_assert(!std::constructible_from<quantity<si::metre, min_impl<int>>,
+static_assert(!std::constructible_from<quantity<(si::metre), min_impl<int>>,
-                                       quantity<si::metre, min_impl<double>>>);  // narrowing conversion
+                                       quantity<(si::metre), min_impl<double>>>);  // narrowing conversion
-static_assert(!std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, min_impl<int>>>);
+static_assert(!std::convertible_to<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), min_impl<int>>>);
 // T -> min_impl<T>
-static_assert(std::constructible_from<quantity<si::metre, min_impl<int>>, quantity<si::metre, int>>);
+static_assert(std::constructible_from<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), int>>);
-static_assert(std::convertible_to<quantity<si::metre, int>, quantity<si::metre, min_impl<int>>>);
+static_assert(std::convertible_to<quantity<(si::metre), int>, quantity<(si::metre), min_impl<int>>>);
-static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, double>>);
+static_assert(std::constructible_from<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), double>>);
-static_assert(std::convertible_to<quantity<si::metre, double>, quantity<si::metre, min_impl<double>>>);
+static_assert(std::convertible_to<quantity<(si::metre), double>, quantity<(si::metre), min_impl<double>>>);
-static_assert(std::constructible_from<quantity<si::metre, min_impl<double>>, quantity<si::metre, int>>);
+static_assert(std::constructible_from<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), int>>);
-static_assert(std::convertible_to<quantity<si::metre, int>, quantity<si::metre, min_impl<double>>>);
+static_assert(std::convertible_to<quantity<(si::metre), int>, quantity<(si::metre), min_impl<double>>>);
 static_assert(
-  !std::constructible_from<quantity<si::metre, min_impl<int>>, quantity<si::metre, double>>);  // narrowing conversion
+  !std::constructible_from<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), double>>);  // narrowing conversion
-static_assert(!std::convertible_to<quantity<si::metre, double>, quantity<si::metre, min_impl<int>>>);
+static_assert(!std::convertible_to<quantity<(si::metre), double>, quantity<(si::metre), min_impl<int>>>);
 // min_impl<T> -> T
-static_assert(std::constructible_from<quantity<si::metre, int>, quantity<si::metre, min_impl<int>>>);
+static_assert(std::constructible_from<quantity<(si::metre), int>, quantity<(si::metre), min_impl<int>>>);
-static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, int>>);
+static_assert(std::convertible_to<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), int>>);
-static_assert(std::constructible_from<quantity<si::metre, double>, quantity<si::metre, min_impl<double>>>);
+static_assert(std::constructible_from<quantity<(si::metre), double>, quantity<(si::metre), min_impl<double>>>);
-static_assert(std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, double>>);
+static_assert(std::convertible_to<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), double>>);
-static_assert(std::constructible_from<quantity<si::metre, double>, quantity<si::metre, min_impl<int>>>);
+static_assert(std::constructible_from<quantity<(si::metre), double>, quantity<(si::metre), min_impl<int>>>);
-static_assert(std::convertible_to<quantity<si::metre, min_impl<int>>, quantity<si::metre, double>>);
+static_assert(std::convertible_to<quantity<(si::metre), min_impl<int>>, quantity<(si::metre), double>>);
 static_assert(
-  !std::constructible_from<quantity<si::metre, int>, quantity<si::metre, min_impl<double>>>);  // narrowing conversion
+  !std::constructible_from<quantity<(si::metre), int>, quantity<(si::metre), min_impl<double>>>);  // narrowing conversion
-static_assert(!std::convertible_to<quantity<si::metre, min_impl<double>>, quantity<si::metre, int>>);
+static_assert(!std::convertible_to<quantity<(si::metre), min_impl<double>>, quantity<(si::metre), int>>);
 // arithmetic operators
--- a/test/static/quantity_point_test.cpp
+++ b/test/static/quantity_point_test.cpp
--- a/test/static/quantity_test.cpp
+++ b/test/static/quantity_test.cpp
@@ -84,14 +84,14 @@ static_assert(std::is_nothrow_destructible_v<quantity<isq::length[m]>>);
 static_assert(std::is_trivially_copyable_v<quantity<isq::length[m]>>);
 static_assert(std::is_standard_layout_v<quantity<isq::length[m]>>);
-static_assert(std::default_initializable<quantity<isq::length[m]>>);
+static_assert(std::default_initializable<quantity<(isq::length[m])>>);
-static_assert(std::move_constructible<quantity<isq::length[m]>>);
+static_assert(std::move_constructible<quantity<(isq::length[m])>>);
-static_assert(std::copy_constructible<quantity<isq::length[m]>>);
+static_assert(std::copy_constructible<quantity<(isq::length[m])>>);
-static_assert(std::equality_comparable<quantity<isq::length[m]>>);
+static_assert(std::equality_comparable<quantity<(isq::length[m])>>);
-static_assert(std::totally_ordered<quantity<isq::length[m]>>);
+static_assert(std::totally_ordered<quantity<(isq::length[m])>>);
-static_assert(std::regular<quantity<isq::length[m]>>);
+static_assert(std::regular<quantity<(isq::length[m])>>);
-static_assert(std::three_way_comparable<quantity<isq::length[m]>>);
+static_assert(std::three_way_comparable<quantity<(isq::length[m])>>);
 //////////////////
@@ -112,8 +112,8 @@ static_assert(quantity<isq::length[m]>::unit == si::metre);
 // member types
 /////////////////
-static_assert(is_same_v<quantity<isq::length[m]>::rep, double>);
+static_assert(is_same_v<quantity<(isq::length[m])>::rep, double>);
-static_assert(is_same_v<quantity<isq::length[m], int>::rep, int>);
+static_assert(is_same_v<quantity<(isq::length[m]), int>::rep, int>);
 ////////////////////////////
@@ -135,11 +135,11 @@ static_assert(quantity<isq::length[m], double>::max().numerical_value_in(m) == s
 /////////////////////////////////////////////////
 // construction from a value is private
-static_assert(!std::constructible_from<quantity<isq::length[m]>, double>);
+static_assert(!std::constructible_from<quantity<(isq::length[m])>, double>);
-static_assert(!std::convertible_to<double, quantity<isq::length[m]>>);
+static_assert(!std::convertible_to<double, quantity<(isq::length[m])>>);
-static_assert(!std::constructible_from<quantity<isq::length[m], int>, int>);
+static_assert(!std::constructible_from<quantity<(isq::length[m]), int>, int>);
-static_assert(!std::convertible_to<int, quantity<isq::length[m], int>>);
+static_assert(!std::convertible_to<int, quantity<(isq::length[m]), int>>);
 static_assert(std::constructible_from<quantity<one>, double>);
 static_assert(std::convertible_to<double, quantity<one>>);
@@ -159,45 +159,45 @@ static_assert(std::convertible_to<int, quantity<dimensionless[one]>>);
 ///////////////////////////////////////
 // conversion only between convertible quantities
-static_assert(std::constructible_from<quantity<isq::length[m]>, quantity<isq::length[m]>>);
+static_assert(std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::length[m])>>);
-static_assert(std::convertible_to<quantity<isq::length[m]>, quantity<isq::length[m]>>);
+static_assert(std::convertible_to<quantity<(isq::length[m])>, quantity<(isq::length[m])>>);
-static_assert(std::constructible_from<quantity<isq::length[m]>, quantity<isq::distance[m]>>);
+static_assert(std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::distance[m])>>);
-static_assert(std::convertible_to<quantity<isq::distance[m]>, quantity<isq::length[m]>>);
+static_assert(std::convertible_to<quantity<(isq::distance[m])>, quantity<(isq::length[m])>>);
-static_assert(std::constructible_from<quantity<isq::length[m]>, quantity<isq::length[km]>>);
+static_assert(std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::length[km])>>);
-static_assert(std::convertible_to<quantity<isq::length[km]>, quantity<isq::length[m]>>);
+static_assert(std::convertible_to<quantity<(isq::length[km])>, quantity<(isq::length[m])>>);
 // conversion between different quantities not allowed
-static_assert(!std::constructible_from<quantity<isq::length[m]>, quantity<isq::time[s]>>);
+static_assert(!std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::time[s])>>);
-static_assert(!std::convertible_to<quantity<isq::time[s]>, quantity<isq::length[m]>>);
+static_assert(!std::convertible_to<quantity<(isq::time[s])>, quantity<(isq::length[m])>>);
-static_assert(!std::constructible_from<quantity<isq::length[m]>, quantity<isq::speed[m / s]>>);
+static_assert(!std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::speed[m / s])>>);
-static_assert(!std::convertible_to<quantity<isq::speed[m / s]>, quantity<isq::length[m]>>);
+static_assert(!std::convertible_to<quantity<(isq::speed[m / s])>, quantity<(isq::length[m])>>);
 // implicit conversion from another quantity only if non-truncating
-static_assert(std::constructible_from<quantity<isq::length[m]>, quantity<isq::length[m], int>>);  // int -> double OK
+static_assert(std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::length[m]), int>>);  // int -> double OK
-static_assert(std::convertible_to<quantity<isq::length[m], int>, quantity<isq::length[m]>>);      // int -> double OK
+static_assert(std::convertible_to<quantity<(isq::length[m]), int>, quantity<(isq::length[m])>>);      // int -> double OK
-static_assert(!std::constructible_from<quantity<isq::length[m], int>,
+static_assert(!std::constructible_from<quantity<(isq::length[m]), int>,
-                                       quantity<isq::length[m]>>);  // truncating double -> int not allowed
+                                       quantity<(isq::length[m])>>);  // truncating double -> int not allowed
-static_assert(!std::convertible_to<quantity<isq::length[m]>,
+static_assert(!std::convertible_to<quantity<(isq::length[m])>,
-                                   quantity<isq::length[m], int>>);  // truncating double -> int not allowed
+                                   quantity<(isq::length[m]), int>>);  // truncating double -> int not allowed
-static_assert(std::constructible_from<quantity<isq::length[m], int>,
+static_assert(std::constructible_from<quantity<(isq::length[m]), int>,
-                                      quantity<isq::length[km], int>>);  // kilometre<int> -> metre<int> OK
+                                      quantity<(isq::length[km]), int>>);  // kilometre<int> -> metre<int> OK
-static_assert(std::convertible_to<quantity<isq::length[km], int>,
+static_assert(std::convertible_to<quantity<(isq::length[km]), int>,
-                                  quantity<isq::length[m], int>>);  // kilometre<int> -> metre<int> OK
+                                  quantity<(isq::length[m]), int>>);  // kilometre<int> -> metre<int> OK
-static_assert(!std::constructible_from<quantity<isq::length[km], int>,
+static_assert(!std::constructible_from<quantity<(isq::length[km]), int>,
-                                       quantity<isq::length[m], int>>);  // truncating metre<int> ->
+                                       quantity<(isq::length[m]), int>>);  // truncating metre<int> ->
                                                                         // kilometre<int> not allowed
 static_assert(
-  !std::convertible_to<quantity<isq::length[m], int>,
+  !std::convertible_to<quantity<(isq::length[m]), int>,
-                       quantity<isq::length[km], int>>);  // truncating metre<int> -> kilometre<int> not allowed
+                       quantity<(isq::length[km]), int>>);  // truncating metre<int> -> kilometre<int> not allowed
 // converting to double always OK
-static_assert(std::constructible_from<quantity<isq::length[m]>, quantity<isq::length[km], int>>);
+static_assert(std::constructible_from<quantity<(isq::length[m])>, quantity<(isq::length[km]), int>>);
-static_assert(std::convertible_to<quantity<isq::length[km], int>, quantity<isq::length[m]>>);
+static_assert(std::convertible_to<quantity<(isq::length[km]), int>, quantity<(isq::length[m])>>);
-static_assert(std::constructible_from<quantity<isq::length[km]>, quantity<isq::length[m], int>>);
+static_assert(std::constructible_from<quantity<(isq::length[km])>, quantity<(isq::length[m]), int>>);
-static_assert(std::convertible_to<quantity<isq::length[m], int>, quantity<isq::length[km]>>);
+static_assert(std::convertible_to<quantity<(isq::length[m]), int>, quantity<(isq::length[km])>>);
 ///////////////////////
 // obtaining a number
@@ -324,9 +324,9 @@ struct derived_quantity : quantity<Q::reference, Rep> {
  // NOLINTEND(google-explicit-constructor, hicpp-explicit-conversions)
 };
-static_assert(Quantity<derived_quantity<double, quantity<isq::length[m]>, "NTTP type description">>);
+static_assert(Quantity<derived_quantity<double, quantity<(isq::length[m])>, "NTTP type description">>);
-constexpr QuantityOf<isq::length> auto get_length_derived_quantity() noexcept
+constexpr QuantityOf<(isq::length)> auto get_length_derived_quantity() noexcept
 {
  derived_quantity<double, quantity<isq::length[m]>, "NTTP type description"> dist{};
  dist += 1 * m;
@@ -454,10 +454,10 @@ static_assert((std::uint8_t{255}* m %= 257 * m).numerical_value_in(m) != [] {
 #if !(defined MP_UNITS_COMP_CLANG && MP_UNITS_COMP_CLANG < 18 && defined MP_UNITS_MODULES)
 // next two lines trigger conversions warnings
 // (warning disabled in CMake for this file)
-static_assert((22 * m *= 33.33).numerical_value_in(m) == 733);
+static_assert(((22 * m) *= 33.33).numerical_value_in(m) ==733);
-static_assert((22 * m /= 3.33).numerical_value_in(m) == 6);
+static_assert(((22 * m) /= 3.33).numerical_value_in(m) == 6);
-static_assert((22 * m *= 33.33 * one).numerical_value_in(m) == 733);
+static_assert(((22 * m) *= 33.33 * one).numerical_value_in(m) == 733);
-static_assert((22 * m /= 3.33 * one).numerical_value_in(m) == 6);
+static_assert(((22 * m) /= 3.33 * one).numerical_value_in(m) == 6);
 #endif
 template<template<auto, typename> typename Q>
@@ -843,27 +843,27 @@ static_assert(2 * one / (1 * m) == 2 / (1 * m));
 // equality operators
 ///////////////////////
-static_assert(std::equality_comparable_with<quantity<si::metre>, quantity<si::metre>>);
+static_assert(std::equality_comparable_with<quantity<(si::metre)>, quantity<(si::metre)>>);
-static_assert(std::equality_comparable_with<quantity<si::metre>, quantity<si::metre, int>>);
+static_assert(std::equality_comparable_with<quantity<(si::metre)>, quantity<(si::metre), int>>);
-static_assert(std::equality_comparable_with<quantity<si::metre>, quantity<si::kilo<si::metre>, int>>);
+static_assert(std::equality_comparable_with<quantity<(si::metre)>, quantity<si::kilo<(si::metre)>, int>>);
-static_assert(std::equality_comparable_with<quantity<si::metre, int>, quantity<si::kilo<si::metre>, int>>);
+static_assert(std::equality_comparable_with<quantity<(si::metre), int>, quantity<si::kilo<(si::metre)>, int>>);
-static_assert(std::equality_comparable_with<quantity<isq::length[si::metre]>, quantity<si::metre>>);
+static_assert(std::equality_comparable_with<quantity<(isq::length[(si::metre)])>, quantity<(si::metre)>>);
-static_assert(std::equality_comparable_with<quantity<isq::length[si::metre]>, quantity<si::metre, int>>);
+static_assert(std::equality_comparable_with<quantity<(isq::length[(si::metre)])>, quantity<(si::metre), int>>);
-static_assert(std::equality_comparable_with<quantity<isq::length[si::metre]>, quantity<si::kilo<si::metre>, int>>);
+static_assert(std::equality_comparable_with<quantity<(isq::length[(si::metre)])>, quantity<si::kilo<(si::metre)>, int>>);
-static_assert(std::equality_comparable_with<quantity<isq::width[si::metre]>, quantity<si::metre>>);
+static_assert(std::equality_comparable_with<quantity<(isq::width[(si::metre)])>, quantity<(si::metre)>>);
-static_assert(std::equality_comparable_with<quantity<isq::width[si::metre]>, quantity<si::metre, int>>);
+static_assert(std::equality_comparable_with<quantity<(isq::width[(si::metre)])>, quantity<(si::metre), int>>);
-static_assert(std::equality_comparable_with<quantity<isq::width[si::metre]>, quantity<si::kilo<si::metre>, int>>);
+static_assert(std::equality_comparable_with<quantity<(isq::width[(si::metre)])>, quantity<(si::kilo<(si::metre)>), int>>);
-static_assert(std::equality_comparable_with<quantity<isq::width[si::metre]>, quantity<isq::height[si::metre]>>);
+static_assert(std::equality_comparable_with<quantity<(isq::width[(si::metre)])>, quantity<(isq::height[(si::metre)])>>);
-static_assert(std::equality_comparable_with<quantity<isq::width[si::metre]>, quantity<isq::height[si::metre], int>>);
+static_assert(std::equality_comparable_with<quantity<(isq::width[(si::metre)])>, quantity<(isq::height[(si::metre)]), int>>);
 static_assert(
-  std::equality_comparable_with<quantity<isq::width[si::metre]>, quantity<isq::height[si::kilo<si::metre>], int>>);
+  std::equality_comparable_with<quantity<(isq::width[(si::metre)])>, quantity<(isq::height[(si::kilo<(si::metre)>)]), int>>);
 template<auto M>
 concept no_crossdimensional_equality = requires {
  requires !requires { 1 * s == 1 * M; };
  requires !requires { 1 * s != 1 * M; };
 };
-static_assert(no_crossdimensional_equality<si::metre>);
+static_assert(no_crossdimensional_equality<(si::metre)>);
 // same type
 static_assert(123 * m == 123 * m);
@@ -916,7 +916,7 @@ concept no_crossdimensional_ordering = requires {
  requires !requires { 1 * s <= 1 * M; };
  requires !requires { 1 * s >= 1 * M; };
 };
-static_assert(no_crossdimensional_ordering<si::metre>);
+static_assert(no_crossdimensional_ordering<(si::metre)>);
 // same type
 static_assert(123 * m < 321 * m);
@@ -1030,34 +1030,34 @@ static_assert(is_of_type<quantity_cast<isq::distance>(lvalue_q), quantity<isq::d
 }  // namespace lvalue_tests
 // QuantityOf
-static_assert(QuantityOf<quantity<isq::length[m]>, isq::length>);
+static_assert(QuantityOf<quantity<(isq::length[m])>, (isq::length)>);
-static_assert(QuantityOf<quantity<isq::width[m]>, isq::length>);
+static_assert(QuantityOf<quantity<(isq::width[m])>, (isq::length)>);
-static_assert(QuantityOf<quantity<isq::position_vector[m], int>, isq::length>);
+static_assert(QuantityOf<quantity<(isq::position_vector[m]), int>, (isq::length)>);
-static_assert(!QuantityOf<quantity<isq::length[m]>, isq::width>);
+static_assert(!QuantityOf<quantity<(isq::length[m])>, (isq::width)>);
-static_assert(QuantityOf<quantity<m>, isq::width>);
+static_assert(QuantityOf<quantity<m>, (isq::width)>);
-static_assert(QuantityOf<quantity<m>, isq::position_vector>);
+static_assert(QuantityOf<quantity<m>, (isq::position_vector)>);
-static_assert(QuantityOf<quantity<kind_of<isq::length>[m]>, isq::width>);
+static_assert(QuantityOf<quantity<kind_of<(isq::length)>[m]>, (isq::width)>);
-static_assert(QuantityOf<quantity<kind_of<isq::length>[m]>, isq::position_vector>);
+static_assert(QuantityOf<quantity<kind_of<(isq::length)>[m]>, (isq::position_vector)>);
-static_assert(!QuantityOf<quantity<isq::width[m]>, isq::altitude>);
+static_assert(!QuantityOf<quantity<(isq::width[m])>, isq::altitude>);
-static_assert(QuantityOf<quantity<isq::speed[m / s]>, isq::speed>);
+static_assert(QuantityOf<quantity<(isq::speed[m / s])>, (isq::speed)>);
-static_assert(QuantityOf<quantity<isq::speed[m / s]>, isq::length / isq::time>);
+static_assert(QuantityOf<quantity<(isq::speed[m / s])>, (isq::length) / (isq::time)>);
 static_assert(QuantityOf<quantity<m / s>, isq::length / isq::time>);
-static_assert(QuantityOf<quantity<kind_of<isq::speed>[m / s]>, isq::length / isq::time>);
+static_assert(QuantityOf<quantity<kind_of<(isq::speed)>[m / s]>, (isq::length) / (isq::time)>);
-static_assert(!QuantityOf<quantity<isq::speed[m / s]>, isq::distance / isq::duration>);
+static_assert(!QuantityOf<quantity<(isq::speed[m / s])>, (isq::distance) / (isq::duration)>);
-static_assert(!QuantityOf<quantity<isq::speed[m / s]>, isq::width / isq::duration>);
+static_assert(!QuantityOf<quantity<(isq::speed[m / s])>, (isq::width) / (isq::duration)>);
 static_assert(QuantityOf<quantity<m / s>, isq::width / isq::duration>);
-static_assert(QuantityOf<quantity<kind_of<isq::speed>[m / s]>, isq::width / isq::duration>);
+static_assert(QuantityOf<quantity<kind_of<(isq::speed)>[m / s]>, (isq::width) / (isq::duration)>);
-static_assert(!QuantityOf<quantity<isq::speed[m / s]>, isq::position_vector / isq::duration>);
+static_assert(!QuantityOf<quantity<(isq::speed[m / s])>, (isq::position_vector) / (isq::duration)>);
 static_assert(QuantityOf<quantity<m / s>, isq::position_vector / isq::duration>);
-static_assert(QuantityOf<quantity<kind_of<isq::speed>[m / s]>, isq::position_vector / isq::duration>);
+static_assert(QuantityOf<quantity<kind_of<(isq::speed)>[m / s]>, isq::position_vector / isq::duration>);
-static_assert(QuantityOf<quantity<isq::velocity[m / s], int>, isq::position_vector / isq::duration>);
+static_assert(QuantityOf<quantity<(isq::velocity)[m / s], int>, isq::position_vector / isq::duration>);
-static_assert(QuantityOf<decltype(10 * m), isq::height>);                        // kind of
+static_assert(QuantityOf<decltype(10 * m), (isq::height)>);                        // kind of
-static_assert(QuantityOf<decltype(10 * kind_of<isq::length>[m]), isq::height>);  // kind of
+static_assert(QuantityOf<decltype(10 * kind_of<(isq::length)>[m]), (isq::height)>);  // kind of
-static_assert(!QuantityOf<decltype(10 * isq::length[m]), isq::height>);          // different kinds
+static_assert(!QuantityOf<decltype(10 * (isq::length[m])), (isq::height)>);          // different kinds
-static_assert(!QuantityOf<decltype(10 * isq::width[m]), isq::height>);           // different kinds
+static_assert(!QuantityOf<decltype(10 * (isq::width[m])), (isq::height)>);           // different kinds
-static_assert(QuantityOf<decltype(10 * isq::speed[m / s]), isq::speed>);
+static_assert(QuantityOf<decltype(10 * (isq::speed[m / s])), (isq::speed)>);
-static_assert(QuantityOf<decltype(20 * isq::length[m] / (2 * isq::time[s])), isq::speed>);  // derived unnamed quantity
+static_assert(QuantityOf<decltype(20 * (isq::length[m]) / (2 * isq::time[s])), (isq::speed)>);  // derived unnamed quantity
 }  // namespace
--- a/test/static/reference_test.cpp
+++ b/test/static/reference_test.cpp
@@ -238,7 +238,7 @@ template<auto dim, auto unit>
 concept invalid_nu_unit = !requires { dim[unit]; };
 static_assert(invalid_nu_unit<time, nu::second>);
-static_assert(invalid_nu_unit<nu::time, second>);
+static_assert(invalid_nu_unit<(nu::time), second>);
 static_assert(invalid_nu_unit<length / time, nu::second / nu::second>);
 static_assert(invalid_nu_unit<speed, nu::second / nu::second>);
 static_assert(invalid_nu_unit<speed, nu::second / second>);
--- a/test/static/si_test.cpp
+++ b/test/static/si_test.cpp
@@ -65,7 +65,7 @@ concept can_not_be_prefixed = Unit<decltype(V1)> && !requires { typename prefix<
 static_assert(can_not_be_prefixed<si::milli_, si::kilogram>);
 static_assert(can_not_be_prefixed<si::milli_, si::hectare>);
-static_assert(can_not_be_prefixed<si::milli_, si::kilo<si::metre>>);
+static_assert(can_not_be_prefixed<si::milli_, (si::kilo<(si::metre)>)>);
 static_assert(can_not_be_prefixed<si::milli_, si::metre / si::second>);
 static_assert(can_not_be_prefixed<si::milli_, mag_ratio<1, 60> * si::degree>);