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style: whitespaces and formatting fixed to make pre-commit happy

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Mateusz Pusz
2023-06-21 11:28:24 +02:00
parent 6a17eec09c
commit 3725db4243
8 changed files with 29 additions and 27 deletions
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4
.github/workflows/documentation.yml vendored
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@ -25,7 +25,7 @@ name: Documentation
on:
push:
branches:
- master
- master
- main
permissions:
contents: write
@ -37,7 +37,7 @@ jobs:
- uses: actions/setup-python@v4
with:
python-version: 3.x
- run: echo "cache_id=$(date --utc '+%V')" >> $GITHUB_ENV
- run: echo "cache_id=$(date --utc '+%V')" >> $GITHUB_ENV
- uses: actions/cache@v3
with:
key: mkdocs-material-${{ env.cache_id }}

2
docs/.overrides/main.html
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@ -5,4 +5,4 @@ You're not viewing the latest version.
<a href="{{ '../' ~ base_url }}">
<strong>Click here to go to latest.</strong>
</a>
{% endblock %}
{% endblock %}

2
docs/getting_started/code_example.md
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@ -28,7 +28,7 @@ static_assert(1000 / (1 * s) == 1 * kHz);
```
!!! example "[Try it on Compiler Explorer](https://godbolt.org/z/j8afKnarv)"
This library requires some C++20 features ([concepts and constraints](https://en.cppreference.com/w/cpp/language/constraints),
[classes as NTTP](https://en.cppreference.com/w/cpp/language/template_parameters), ...). Thanks to them,

10
docs/getting_started/installation_and_usage.md
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@ -6,18 +6,18 @@
To achieve that, it extensively uses C++20 features and the
[explicit object parameter](https://en.cppreference.com/w/cpp/language/member_functions#Explicit_object_parameter)
from C++23.
Even though the library benefits from C++23 (if available), C++20 is enough to compile and
use all of the library's functionality. C++23 features are hidden behind a preprocessor macro
providing a backward-compatible way to use it.
Sadly, as of today, not many compilers provide full C++20 support. The library compiles fine
on the following compilers (or newer):
- gcc-12.2
In the upcoming weeks, we will be actively working to extend the support to other compilers as well.
## Repository Structure and Dependencies
@ -286,7 +286,7 @@ To obtain an official library release, the following steps may be performed:
```ini title="conanfile.txt"
[requires]
mp-units/0.8.0
[layout]
cmake_layout

2
docs/getting_started/quick_start.md
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@ -73,4 +73,4 @@ auto speed = 60 * kmph;
!!! note
In case you wonder why this library does not use UDLs to create quantities, please check
our [FAQ](../faq/#why-dont-we-use-udls-to-create-quantities).
our [FAQ](../faq/#why-dont-we-use-udls-to-create-quantities).

6
docs/index.md
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@ -19,14 +19,14 @@ The library source code is hosted on [GitHub](https://github.com/mpusz/mp-units)
To achieve that, it extensively uses C++20 features and the
[explicit object parameter](https://en.cppreference.com/w/cpp/language/member_functions#Explicit_object_parameter)
from C++23.
Even though the library benefits from C++23 (if available), C++20 is enough to compile and
use all of the library's functionality. C++23 features are hidden behind a preprocessor macro
providing a backward-compatible way to use it.
Sadly, as of today, only a few compilers provide full C++20 support. The library compiles fine
on the following compilers (or newer):
- gcc-12.2
In the upcoming weeks, we will be actively working to extend the support to other compilers as well.

24
docs/users_guide/simple_and_typed_quantities.md
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@ -185,22 +185,22 @@ Let's see another example:
#include <mp-units/math.h>
#include <mp-units/systems/si/si.h>
#include <numbers>
using namespace mp_units;
class StorageTank {
quantity<square(si::metre)> base_;
quantity<si::metre> height_;
public:
constexpr StorageTank(const quantity<square(si::metre)>& base,
constexpr StorageTank(const quantity<square(si::metre)>& base,
const quantity<si::metre>& height) :
base_(base), height_(height)
{
}
// ...
};
class CylindricalStorageTank : public StorageTank {
public:
constexpr CylindricalStorageTank(const quantity<si::metre>& radius,
@ -209,7 +209,7 @@ Let's see another example:
{
}
};
class RectangularStorageTank : public StorageTank {
public:
constexpr RectangularStorageTank(const quantity<si::metre>& length,
@ -219,7 +219,7 @@ Let's see another example:
{
}
};
int main()
{
using namespace mp_units::si::unit_symbols;
@ -235,7 +235,7 @@ Let's see another example:
#include <mp-units/systems/isq/space_and_time.h>
#include <mp-units/systems/si/si.h>
#include <numbers>
using namespace mp_units;
using namespace mp_units::si::unit_symbols;
@ -257,10 +257,10 @@ Let's see another example:
base_(base), height_(height)
{
}
// ...
};
class CylindricalStorageTank : public StorageTank {
public:
constexpr CylindricalStorageTank(const quantity<isq::radius[m]>& radius,
@ -270,7 +270,7 @@ Let's see another example:
{
}
};
class RectangularStorageTank : public StorageTank {
public:
constexpr RectangularStorageTank(const quantity<horizontal_length[m]>& length,
@ -280,7 +280,7 @@ Let's see another example:
{
}
};
int main()
{
auto tank = RectangularStorageTank(horizontal_length(1'000 * mm),

6
test/unit_test/static/unit_symbol_test.cpp
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@ -145,7 +145,8 @@ static_assert(unit_symbol(kilogram * metre / square(second), {.solidus = always}
static_assert(unit_symbol(kilogram * metre / square(second), {.encoding = ascii, .solidus = always}) == "kg m/s^2");
static_assert(unit_symbol(kilogram * metre / square(second), {.solidus = never}) == "kg m s⁻²");
static_assert(unit_symbol(kilogram * metre / square(second), {.encoding = ascii, .solidus = never}) == "kg m s^-2");
static_assert(unit_symbol(kilogram * metre / square(second), {.solidus = never, .separator = half_high_dot}) == "kg⋅m⋅s⁻²");
static_assert(unit_symbol(kilogram * metre / square(second), {.solidus = never, .separator = half_high_dot}) ==
"kg⋅m⋅s⁻²");
static_assert(unit_symbol(kilogram / metre / square(second)) == "kg m⁻¹ s⁻²");
static_assert(unit_symbol(kilogram / metre / square(second), {.separator = half_high_dot}) == "kg⋅m⁻¹⋅s⁻²");
static_assert(unit_symbol(kilogram / metre / square(second), {.encoding = ascii}) == "kg m^-1 s^-2");
@ -153,7 +154,8 @@ static_assert(unit_symbol(kilogram / metre / square(second), {.solidus = always}
static_assert(unit_symbol(kilogram / metre / square(second), {.encoding = ascii, .solidus = always}) == "kg/(m s^2)");
static_assert(unit_symbol(kilogram / metre / square(second), {.solidus = never}) == "kg m⁻¹ s⁻²");
static_assert(unit_symbol(kilogram / metre / square(second), {.encoding = ascii, .solidus = never}) == "kg m^-1 s^-2");
static_assert(unit_symbol(kilogram / metre / square(second), {.solidus = never, .separator = half_high_dot}) == "kg⋅m⁻¹⋅s⁻²");
static_assert(unit_symbol(kilogram / metre / square(second), {.solidus = never, .separator = half_high_dot}) ==
"kg⋅m⁻¹⋅s⁻²");
static_assert(unit_symbol(pow<123>(metre)) == "m¹²³");
static_assert(unit_symbol(pow<1, 2>(metre)) == "m^(1/2)");
static_assert(unit_symbol(pow<3, 5>(metre)) == "m^(3/5)");