Преглед изворни кода

feature: assume all compilers can now initialise arrays C++11-style.

legacy
Sam Hocevar пре 5 година
родитељ
комит
8294264837
2 измењених фајлова са 0 додато и 102 уклоњено
  1. +0
    -4
      src/lol/base/features.h
  2. +0
    -98
      src/lol/math/matrix.h

+ 0
- 4
src/lol/base/features.h Прегледај датотеку

@@ -23,7 +23,6 @@

/* These features aren't necessarily supported by all compilers */
#undef LOL_FEATURE_CXX11_INHERIT_CONSTRUCTORS
#undef LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
#undef LOL_FEATURE_CXX11_ISNAN /* FIXME: is this the right place? */
#undef LOL_FEATURE_CXX11_NULLPTR
#undef LOL_FEATURE_CXX11_TEMPLATE_ALIASES
@@ -49,7 +48,6 @@
# endif
# define LOL_FEATURE_CXX11_INHERIT_CONSTRUCTORS 1
# define LOL_FEATURE_CXX11_ISNAN 1
# define LOL_FEATURE_CXX11_ARRAY_INITIALIZERS 1
# define LOL_FEATURE_CXX11_NULLPTR 1
# define LOL_FEATURE_CXX11_SFINAE_FOR_CTORS 1
# if (__GNUC__ * 100 + __GNUC_MINOR__) >= 470
@@ -60,7 +58,6 @@
/* Features supported by Clang */
#if !defined __GNUC__ && defined __has_feature
# define LOL_FEATURE_CXX11_INHERIT_CONSTRUCTORS 1
# define LOL_FEATURE_CXX11_ARRAY_INITIALIZERS 1
# if !__has_feature(cxx_constexpr)
# error "sorry, this version of clang does not support constexpr"
# endif
@@ -82,7 +79,6 @@
# define LOL_FEATURE_CXX11_NULLPTR 1
# define LOL_FEATURE_CXX11_SFINAE_FOR_CTORS 1
# define LOL_FEATURE_CXX11_INHERIT_CONSTRUCTORS 1
# define LOL_FEATURE_CXX11_ARRAY_INITIALIZERS 1
#endif




+ 0
- 98
src/lol/math/matrix.h Прегледај датотеку

@@ -89,44 +89,22 @@ struct LOL_ATTR_NODISCARD mat_t<T, 2, 2>

inline mat_t() {}
inline mat_t(vec_t<T,2> v0, vec_t<T,2> v1)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ v0, v1 } {}
#else
: m_v0(v0), m_v1(v1) {}
#endif

explicit inline mat_t(T const &val)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ vec_t<T,2>(val, T(0)),
vec_t<T,2>(T(0), val) } {}
#else
: m_v0(val, T(0)),
m_v1(T(0), val) {}
#endif

explicit inline mat_t(mat_t<T,4,4> const &m)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ m[0].xy, m[1].xy } {}
#else
: m_v0(m[0].xy), m_v1(m[1].xy) {}
#endif

/* Explicit constructor for type conversion */
template<typename U>
explicit inline mat_t(mat_t<U,2,2> const &m)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ (element)m[0], (element)m[1] } {}
#else
: m_v0((element)m[0]), m_v1((element)m[1]) {}
#endif

#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
inline vec_t<T,2>& operator[](size_t n) { return m_data[n]; }
inline vec_t<T,2> const& operator[](size_t n) const { return m_data[n]; }
#else
inline vec_t<T,2>& operator[](size_t n) { return (&m_v0)[n]; }
inline vec_t<T,2> const& operator[](size_t n) const { return (&m_v0)[n]; }
#endif

/* Helpers for transformation matrices */
static mat_t<T,2,2> rotate(T radians);
@@ -141,11 +119,7 @@ struct LOL_ATTR_NODISCARD mat_t<T, 2, 2>
static const mat_t<T,2,2> identity;

private:
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
vec_t<T,2> m_data[2];
#else
vec_t<T,2> m_v0, m_v1;
#endif
};

static_assert(sizeof(imat2) == 16, "sizeof(imat2) == 16");
@@ -168,59 +142,30 @@ struct LOL_ATTR_NODISCARD mat_t<T, 3, 3>

inline mat_t() {}
inline mat_t(vec_t<T,3> v0, vec_t<T,3> v1, vec_t<T,3> v2)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ v0, v1, v2 } {}
#else
: m_v0(v0), m_v1(v1), m_v2(v2) {}
#endif

explicit inline mat_t(T const &val)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ vec_t<T,3>(val, (T)0, (T)0),
vec_t<T,3>((T)0, val, (T)0),
vec_t<T,3>((T)0, (T)0, val) } {}
#else
: m_v0(val, (T)0, (T)0),
m_v1((T)0, val, (T)0),
m_v2((T)0, (T)0, val) {}
#endif

explicit inline mat_t(mat_t<T,2,2> m, T const &val = T(1))
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ vec_t<T,3>(m[0], (T)0),
vec_t<T,3>(m[1], (T)0),
vec_t<T,3>((T)0, (T)0, val) } {}
#else
: m_v0(m[0], (T)0),
m_v1(m[1], (T)0),
m_v2((T)0, (T)0, val) {}
#endif

explicit inline mat_t(mat_t<T,4,4> const &m)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ m[0].xyz, m[1].xyz, m[2].xyz } {}
#else
: m_v0(m[0].xyz), m_v1(m[1].xyz), m_v2(m[2].xyz) {}
#endif

/* Explicit constructor for type conversion */
template<typename U>
explicit inline mat_t(mat_t<U,3,3> const &m)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ (element)m[0], (element)m[1], (element)m[2] } {}
#else
: m_v0((element)m[0]), m_v1((element)m[1]), m_v2((element)m[2]) {}
#endif

explicit mat_t(quat_t<T> const &q);

#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
inline vec_t<T,3>& operator[](size_t n) { return m_data[n]; }
inline vec_t<T,3> const& operator[](size_t n) const { return m_data[n]; }
#else
inline vec_t<T,3>& operator[](size_t n) { return (&m_v0)[n]; }
inline vec_t<T,3> const& operator[](size_t n) const { return (&m_v0)[n]; }
#endif

/* Helpers for transformation matrices */
static mat_t<T,3,3> scale(T x);
@@ -266,11 +211,7 @@ struct LOL_ATTR_NODISCARD mat_t<T, 3, 3>
static const mat_t<T,3,3> identity;

private:
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
vec_t<T,3> m_data[3];
#else
vec_t<T,3> m_v0, m_v1, m_v2;
#endif
};

static_assert(sizeof(imat3) == 36, "sizeof(imat3) == 36");
@@ -293,71 +234,36 @@ struct LOL_ATTR_NODISCARD mat_t<T, 4, 4>

inline mat_t() {}
inline mat_t(vec_t<T,4> v0, vec_t<T,4> v1, vec_t<T,4> v2, vec_t<T,4> v3)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ v0, v1, v2, v3 } {}
#else
: m_v0(v0), m_v1(v1), m_v2(v2), m_v3(v3) {}
#endif

explicit inline mat_t(T const &val)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ vec_t<T,4>(val, (T)0, (T)0, (T)0),
vec_t<T,4>((T)0, val, (T)0, (T)0),
vec_t<T,4>((T)0, (T)0, val, (T)0),
vec_t<T,4>((T)0, (T)0, (T)0, val) } {}
#else
: m_v0(val, (T)0, (T)0, (T)0),
m_v1((T)0, val, (T)0, (T)0),
m_v2((T)0, (T)0, val, (T)0),
m_v3((T)0, (T)0, (T)0, val) {}
#endif

explicit inline mat_t(mat_t<T,2,2> m, T const &val = T(1))
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ vec_t<T,4>(m[0], (T)0, (T)0),
vec_t<T,4>(m[1], (T)0, (T)0),
vec_t<T,4>((T)0, (T)0, val, (T)0),
vec_t<T,4>((T)0, (T)0, (T)0, val) } {}
#else
: m_v0(m[0], (T)0, (T)0),
m_v1(m[1], (T)0, (T)0),
m_v2((T)0, (T)0, val, (T)0),
m_v3((T)0, (T)0, (T)0, val) {}
#endif

explicit inline mat_t(mat_t<T,3,3> m, T const &val = T(1))
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ vec_t<T,4>(m[0], (T)0),
vec_t<T,4>(m[1], (T)0),
vec_t<T,4>(m[2], (T)0),
vec_t<T,4>((T)0, (T)0, (T)0, val) } {}
#else
: m_v0(m[0], (T)0),
m_v1(m[1], (T)0),
m_v2(m[2], (T)0),
m_v3((T)0, (T)0, (T)0, val) {}
#endif

/* Explicit constructor for type conversion */
template<typename U>
explicit inline mat_t(mat_t<U,4,4> const &m)
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
: m_data{ (element)m[0], (element)m[1],
(element)m[2], (element)m[3] } {}
#else
: m_v0((element)m[0]), m_v1((element)m[1]),
m_v2((element)m[2]), m_v3((element)m[3]) {}
#endif

explicit mat_t(quat_t<T> const &q);

#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
inline vec_t<T,4>& operator[](size_t n) { return m_data[n]; }
inline vec_t<T,4> const& operator[](size_t n) const { return m_data[n]; }
#else
inline vec_t<T,4>& operator[](size_t n) { return (&m_v0)[n]; }
inline vec_t<T,4> const& operator[](size_t n) const { return (&m_v0)[n]; }
#endif

/* Helpers for transformation matrices */
static mat_t<T,4,4> translate(T x, T y, T z);
@@ -440,11 +346,7 @@ struct LOL_ATTR_NODISCARD mat_t<T, 4, 4>
static const mat_t<T,4,4> identity;

private:
#if LOL_FEATURE_CXX11_ARRAY_INITIALIZERS
vec_t<T,4> m_data[4];
#else
vec_t<T,4> m_v0, m_v1, m_v2, m_v3;
#endif
};

static_assert(sizeof(imat4) == 64, "sizeof(imat4) == 64");


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