refactor: 💥 all iec quantity specifications are now deprecated and moved to isq

IEC 80000-13 is a part of ISQ so quantity specifications should be in an `isq` namespace.
2025-08-03 20:34:26 +02:00 · 2024-09-28 15:06:22 +02:00
parent 5a48f19746
commit fb8f67c68a
7 changed files with 194 additions and 108 deletions
--- a/test/static/iec_test.cpp
+++ b/test/static/iec_test.cpp
@@ -21,7 +21,7 @@
 // SOFTWARE.

 #include <mp-units/systems/iec.h>
-#include <mp-units/systems/isq/base_quantities.h>
+#include <mp-units/systems/isq.h>
 #include <mp-units/systems/si.h>

 /* ************** DERIVED DIMENSIONS THAT INCLUDE UNITS WITH SPECIAL NAMES **************** */
@@ -29,73 +29,33 @@
 namespace {

 using namespace mp_units;
-using namespace mp_units::iec;
 using namespace mp_units::iec::unit_symbols;
 using namespace mp_units::si::unit_symbols;
 using enum mp_units::quantity_character;

-[[nodiscard]] consteval bool verify(QuantitySpec auto q, quantity_character ch, Unit auto... units)
-{
-  return q.character == ch && (... && requires { q[units]; });
-}
-
-// quantities
-static_assert(verify(traffic_intensity, scalar, E));
-static_assert(verify(traffic_offered_intensity, scalar, E));
-static_assert(verify(traffic_carried_intensity, scalar, E));
-static_assert(verify(traffic_load, scalar, E));
-static_assert(verify(mean_queue_length, scalar, one));
-static_assert(verify(loss_probability, scalar, one));
-static_assert(verify(waiting_probability, scalar, one));
-static_assert(verify(call_intensity, scalar, one / s));
-static_assert(verify(calling_rate, scalar, one / s));
-static_assert(verify(completed_call_intensity, scalar, one / s));
-static_assert(verify(storage_capacity, scalar, one, bit, o, B));
-static_assert(verify(storage_size, scalar, one, bit, o, B));
-static_assert(verify(equivalent_binary_storage_capacity, scalar, one, bit));
-static_assert(verify(transfer_rate, scalar, one / s, o / s, B / s));
-static_assert(verify(period_of_data_elements, scalar, s));
-static_assert(verify(binary_digit_rate, scalar, one / s, bit / s));
-static_assert(verify(bit_rate, scalar, one / s, bit / s));
-static_assert(verify(period_of_binary_digits, scalar, s));
-static_assert(verify(bit_period, scalar, s));
-static_assert(verify(equivalent_binary_digit_rate, scalar, one / s, bit / s));
-static_assert(verify(equivalent_bit_rate, scalar, one / s, bit / s));
-static_assert(verify(modulation_rate, scalar, one / s, Bd));
-static_assert(verify(line_digit_rate, scalar, one / s, Bd));
-static_assert(verify(quantizing_distortion_power, scalar, W));
-static_assert(verify(carrier_power, scalar, W));
-static_assert(verify(signal_energy_per_binary_digit, scalar, J));
-static_assert(verify(error_probability, scalar, one));
-static_assert(verify(Hamming_distance, scalar, one));
-static_assert(verify(clock_frequency, scalar, Hz));
-static_assert(verify(clock_rate, scalar, Hz));
-static_assert(verify(decision_content, scalar, one));
-
-
 // unit conversions
-static_assert(storage_capacity(1 * B) == storage_capacity(8 * bit));
-static_assert(storage_capacity(1024 * bit) == storage_capacity(1 * Kibit));
-static_assert(storage_capacity(1024 * B) == storage_capacity(1 * KiB));
-static_assert(storage_capacity(8 * 1024 * bit) == storage_capacity(1 * KiB));
-static_assert(storage_capacity(8 * Kibit) == storage_capacity(1 * KiB));
+static_assert(isq::storage_capacity(1 * B) == isq::storage_capacity(8 * bit));
+static_assert(isq::storage_capacity(1024 * bit) == isq::storage_capacity(1 * Kibit));
+static_assert(isq::storage_capacity(1024 * B) == isq::storage_capacity(1 * KiB));
+static_assert(isq::storage_capacity(8 * 1024 * bit) == isq::storage_capacity(1 * KiB));
+static_assert(isq::storage_capacity(8 * Kibit) == isq::storage_capacity(1 * KiB));

-static_assert(storage_capacity(1 * kbit) == storage_capacity(1000 * bit));
-static_assert(storage_capacity(2000 * Mibit) == storage_capacity(2097152 * kbit));
+static_assert(isq::storage_capacity(1 * kbit) == isq::storage_capacity(1000 * bit));
+static_assert(isq::storage_capacity(2000 * Mibit) == isq::storage_capacity(2097152 * kbit));

-static_assert(storage_capacity(1 * Kibit) == storage_capacity(1024 * bit));
-static_assert(storage_capacity(1 * Mibit) == storage_capacity(1024 * Kibit));
-static_assert(storage_capacity(1 * Gibit) == storage_capacity(1024 * Mibit));
-static_assert(storage_capacity(1 * Tibit) == storage_capacity(1024 * Gibit));
-static_assert(storage_capacity(1 * Pibit) == storage_capacity(1024 * Tibit));
-static_assert(storage_capacity(1 * Eibit) == storage_capacity(1024 * Pibit));
+static_assert(isq::storage_capacity(1 * Kibit) == isq::storage_capacity(1024 * bit));
+static_assert(isq::storage_capacity(1 * Mibit) == isq::storage_capacity(1024 * Kibit));
+static_assert(isq::storage_capacity(1 * Gibit) == isq::storage_capacity(1024 * Mibit));
+static_assert(isq::storage_capacity(1 * Tibit) == isq::storage_capacity(1024 * Gibit));
+static_assert(isq::storage_capacity(1 * Pibit) == isq::storage_capacity(1024 * Tibit));
+static_assert(isq::storage_capacity(1 * Eibit) == isq::storage_capacity(1024 * Pibit));

 // transfer rate
-static_assert(storage_capacity(16 * B) / isq::duration(2 * s) == transfer_rate(8 * B / s));
-static_assert(storage_capacity(120 * kB) / isq::duration(2 * min) == transfer_rate(1000 * B / s));
+static_assert(isq::storage_capacity(16 * B) / isq::duration(2 * s) == isq::transfer_rate(8 * B / s));
+static_assert(isq::storage_capacity(120 * kB) / isq::duration(2 * min) == isq::transfer_rate(1000 * B / s));

 // modulation rate
-static_assert(12 / isq::duration(2 * s) == modulation_rate(6 * Bd));
-static_assert(6000 / isq::duration(3 * s) == modulation_rate(2 * kBd));
+static_assert(12 / isq::duration(2 * s) == isq::modulation_rate(6 * Bd));
+static_assert(6000 / isq::duration(3 * s) == isq::modulation_rate(2 * kBd));

 }  // namespace
--- a/test/static/isq_test.cpp
+++ b/test/static/isq_test.cpp
@@ -21,6 +21,7 @@
 // SOFTWARE.

 #include <mp-units/framework.h>
+#include <mp-units/systems/iec.h>
 #include <mp-units/systems/isq.h>
 #include <mp-units/systems/si.h>

@@ -28,6 +29,7 @@ namespace {

 using namespace mp_units;
 using namespace mp_units::si::unit_symbols;
+using namespace mp_units::iec::unit_symbols;
 using enum mp_units::quantity_character;

 [[nodiscard]] consteval bool verify(QuantitySpec auto q, quantity_character ch, Unit auto... units)
@@ -353,4 +355,37 @@ static_assert(verify(isq::absorbed_dose, scalar, Gy, J / kg, m2 / s2));
 static_assert(verify(isq::quality_factor, scalar, one));
 static_assert(verify(isq::dose_equivalent, scalar, Sv, J / kg, m2 / s2));

+// information science and technology
+static_assert(verify(isq::traffic_intensity, scalar, E));
+static_assert(verify(isq::traffic_offered_intensity, scalar, E));
+static_assert(verify(isq::traffic_carried_intensity, scalar, E));
+static_assert(verify(isq::traffic_load, scalar, E));
+static_assert(verify(isq::mean_queue_length, scalar, one));
+static_assert(verify(isq::loss_probability, scalar, one));
+static_assert(verify(isq::waiting_probability, scalar, one));
+static_assert(verify(isq::call_intensity, scalar, one / s));
+static_assert(verify(isq::calling_rate, scalar, one / s));
+static_assert(verify(isq::completed_call_intensity, scalar, one / s));
+static_assert(verify(isq::storage_capacity, scalar, one, bit, o, B));
+static_assert(verify(isq::storage_size, scalar, one, bit, o, B));
+static_assert(verify(isq::equivalent_binary_storage_capacity, scalar, one, bit));
+static_assert(verify(isq::transfer_rate, scalar, one / s, o / s, B / s));
+static_assert(verify(isq::period_of_data_elements, scalar, s));
+static_assert(verify(isq::binary_digit_rate, scalar, one / s, bit / s));
+static_assert(verify(isq::bit_rate, scalar, one / s, bit / s));
+static_assert(verify(isq::period_of_binary_digits, scalar, s));
+static_assert(verify(isq::bit_period, scalar, s));
+static_assert(verify(isq::equivalent_binary_digit_rate, scalar, one / s, bit / s));
+static_assert(verify(isq::equivalent_bit_rate, scalar, one / s, bit / s));
+static_assert(verify(isq::modulation_rate, scalar, one / s, Bd));
+static_assert(verify(isq::line_digit_rate, scalar, one / s, Bd));
+static_assert(verify(isq::quantizing_distortion_power, scalar, W));
+static_assert(verify(isq::carrier_power, scalar, W));
+static_assert(verify(isq::signal_energy_per_binary_digit, scalar, J));
+static_assert(verify(isq::error_probability, scalar, one));
+static_assert(verify(isq::Hamming_distance, scalar, one));
+static_assert(verify(isq::clock_frequency, scalar, Hz));
+static_assert(verify(isq::clock_rate, scalar, Hz));
+static_assert(verify(isq::decision_content, scalar, one));
+
 }  // namespace