math: some refactoring in the vector operations, to make it easier to

implement automatic promotion in the future.
12 anos atrás · 12414bc6b9
--- a/src/lol/math/vector.h
+++ b/src/lol/math/vector.h
@@ -925,53 +925,58 @@ static inline Quat<T> operator /(Quat<T> x, Quat<T> const &y)
 * Common operators for all vector types, including quaternions
 */

 #define DECLARE_VECTOR_OP(tname, op, tprefix, T) \
 #define DECLARE_VECTOR_VECTOR_OP(tname, op, tprefix, type) \
    tprefix \
    static inline tname<T> operator op(tname<T> const &a, tname<T> const &b) \
    static inline tname<type> operator op(tname<type> const &a, \
                                          tname<type> const &b) \
    { \
        tname<T> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
        tname<type> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            ret[n] = a[n] op b[n]; \
        return ret; \
    } \
    \
    tprefix \
    static inline tname<T> operator op##=(tname<T> &a, tname<T> const &b) \
    static inline tname<type> operator op##=(tname<type> &a, \
                                             tname<type> const &b) \
    { \
        return a = a op b; \
    }

 #define DECLARE_BOOL_OP(tname, op, op2, ret, tprefix, T) \
 #define DECLARE_VECTOR_VECTOR_BOOLOP(tname, op, op2, ret, tprefix, type) \
    tprefix \
    static inline bool operator op(tname<T> const &a, tname<T> const &b) \
    static inline bool operator op(tname<type> const &a, \
                                   tname<type> const &b) \
    { \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            if (!(a[n] op2 b[n])) \
                return !ret; \
        return ret; \
    }

 #define DECLARE_SCALAR_OP(tname, op, tprefix, T) \
 #define DECLARE_VECTOR_SCALAR_OP(tname, op, tprefix, type) \
    tprefix \
    static inline tname<T> operator op(tname<T> const &a, T const &val) \
    static inline tname<type> operator op(tname<type> const &a, \
                                          type const &val) \
    { \
        tname<T> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
        tname<type> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            ret[n] = a[n] op val; \
        return ret; \
    } \
    \
    tprefix \
    static inline tname<T> operator op(T const &val, tname<T> const &a) \
    static inline tname<type> operator op(type const &val, \
                                          tname<type> const &a) \
    { \
        tname<T> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
        tname<type> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            ret[n] = a[n] op val; \
        return ret; \
    } \
    \
    tprefix \
    static inline tname<T> operator op##=(tname<T> &a, T const &val) \
    static inline tname<type> operator op##=(tname<type> &a, type const &val) \
    { \
        return a = a op val; \
    }
@@ -979,7 +984,8 @@ static inline Quat<T> operator /(Quat<T> x, Quat<T> const &y)
 /* FIXME: this is not used yet */
 #define SCALAR_PROMOTE_OP(tname, op, U) \
    template<typename T> \
    static inline tname<U> operator op(U const &val, tname<T> const &a) \
    static inline tname<U> operator op(U const &val, \
                                       tname<T> const &a) \
    { \
        tname<U> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
@@ -987,100 +993,106 @@ static inline Quat<T> operator /(Quat<T> x, Quat<T> const &y)
        return ret; \
    }

 #define DECLARE_OTHER_GLOBAL_OPS(tname, tprefix, T) \
    DECLARE_SCALAR_OP(tname, *, tprefix, T) \
    DECLARE_SCALAR_OP(tname, /, tprefix, T) \
    \
    DECLARE_VECTOR_OP(tname, -, tprefix, T) \
    DECLARE_VECTOR_OP(tname, +, tprefix, T) \
    \
    DECLARE_BOOL_OP(tname, ==, ==, true, tprefix, T) \
    DECLARE_BOOL_OP(tname, !=, ==, false, tprefix, T) \
    \
 #define DECLARE_UNARY_OPS(tname, tprefix, type) \
    tprefix \
    static inline tname<T> operator -(tname<T> const &a) \
    static inline tname<type> operator -(tname<type> const &a) \
    { \
        tname<T> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
        tname<type> ret; \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            ret[n] = -a[n]; \
        return ret; \
    } \
    \
    tprefix \
    static inline T sqlen(tname<T> const &a) \
    static inline type sqlen(tname<type> const &a) \
    { \
        T acc = 0; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
        type acc = 0; \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            acc += a[n] * a[n]; \
        return acc; \
    } \
    \
    tprefix \
    static inline double len(tname<T> const &a) \
    static inline double len(tname<type> const &a) \
    { \
        using namespace std; \
        return sqrt((double)sqlen(a)); \
    } \
    \
    tprefix \
    static inline T dot(tname<T> const &a, tname<T> const &b) \
    static inline tname<type> normalize(tname<type> const &val) \
    { \
        T ret = 0; \
        for (size_t n = 0; n < sizeof(a) / sizeof(T); n++) \
            ret += a[n] * b[n]; \
        return ret; \
    } \
        type norm = (type)len(val); \
        return norm ? val / norm : val * (type)0; \
    }

 #define DECLARE_BINARY_OPS(tname, tprefix, type) \
    DECLARE_VECTOR_SCALAR_OP(tname, *, tprefix, type) \
    DECLARE_VECTOR_SCALAR_OP(tname, /, tprefix, type) \
    \
    DECLARE_VECTOR_VECTOR_OP(tname, -, tprefix, type) \
    DECLARE_VECTOR_VECTOR_OP(tname, +, tprefix, type) \
    \
    DECLARE_VECTOR_VECTOR_BOOLOP(tname, ==, ==, true, tprefix, type) \
    DECLARE_VECTOR_VECTOR_BOOLOP(tname, !=, ==, false, tprefix, type) \
    \
    tprefix \
    static inline tname<T> normalize(tname<T> const &val) \
    static inline type dot(tname<type> const &a, tname<type> const &b) \
    { \
        T norm = (T)len(val); \
        return norm ? val / norm : val * (T)0; \
        type ret = 0; \
        for (size_t n = 0; n < sizeof(a) / sizeof(type); n++) \
            ret += a[n] * b[n]; \
        return ret; \
    }

 #define DECLARE_GLOBAL_TEMPLATE_OPS(tname) \
    DECLARE_OTHER_GLOBAL_OPS(tname, template<typename T>, T)

 #define DECLARE_ALL_GLOBAL_OPS(tname, tprefix, T) \
    DECLARE_VECTOR_OP(tname, *, tprefix, T) \
    DECLARE_VECTOR_OP(tname, /, tprefix, T) \
    \
    DECLARE_OTHER_GLOBAL_OPS(tname, tprefix, T) \
 #define DECLARE_VECTOR_OPS(tname, tprefix, type) \
    DECLARE_VECTOR_VECTOR_OP(tname, *, tprefix, type) \
    DECLARE_VECTOR_VECTOR_OP(tname, /, tprefix, type) \
    \
    DECLARE_BOOL_OP(tname, <=, <=, true, tprefix, T) \
    DECLARE_BOOL_OP(tname, >=, >=, true, tprefix, T) \
    DECLARE_BOOL_OP(tname, <, <, true, tprefix, T) \
    DECLARE_BOOL_OP(tname, >, >, true, tprefix, T)

 #define DECLARE_GLOBAL_TYPED_OPS(tname) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, half) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, float) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, double) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, int8_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, uint8_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, int16_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, uint16_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, int32_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, uint32_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, int64_t) \
    DECLARE_ALL_GLOBAL_OPS(tname, /* empty */, uint64_t)

 DECLARE_GLOBAL_TEMPLATE_OPS(Cmplx)
 DECLARE_GLOBAL_TEMPLATE_OPS(Quat)

 DECLARE_GLOBAL_TYPED_OPS(Vec2)
 DECLARE_GLOBAL_TYPED_OPS(Vec3)
 DECLARE_GLOBAL_TYPED_OPS(Vec4)
    DECLARE_VECTOR_VECTOR_BOOLOP(tname, <=, <=, true, tprefix, type) \
    DECLARE_VECTOR_VECTOR_BOOLOP(tname, >=, >=, true, tprefix, type) \
    DECLARE_VECTOR_VECTOR_BOOLOP(tname, <, <, true, tprefix, type) \
    DECLARE_VECTOR_VECTOR_BOOLOP(tname, >, >, true, tprefix, type)

 #define DECLARE_ALL_NONVECTOR_OPS(tname) \
    DECLARE_BINARY_OPS(tname, template<typename T>, T) \
    DECLARE_UNARY_OPS(tname, template<typename T>, T)

 #define DECLARE_ALL_VECTOR_OPS_INNER(tname, tprefix, type) \
    DECLARE_BINARY_OPS(tname, tprefix, type) \
    DECLARE_UNARY_OPS(tname, tprefix, type) \
    DECLARE_VECTOR_OPS(tname, tprefix, type) \

 #define DECLARE_ALL_VECTOR_OPS(tname) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, half) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, float) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, double) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, int8_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, uint8_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, int16_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, uint16_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, int32_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, uint32_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, int64_t) \
    DECLARE_ALL_VECTOR_OPS_INNER(tname, /* empty */, uint64_t)

 DECLARE_ALL_NONVECTOR_OPS(Cmplx)
 DECLARE_ALL_NONVECTOR_OPS(Quat)

 DECLARE_ALL_VECTOR_OPS(Vec2)
 DECLARE_ALL_VECTOR_OPS(Vec3)
 DECLARE_ALL_VECTOR_OPS(Vec4)

 #undef DECLARE_VECTOR_TYPEDEFS
 #undef DECLARE_MEMBER_OPS
 #undef DECLARE_VECTOR_OP
 #undef DECLARE_BOOL_OP
 #undef DECLARE_SCALAR_OP
 #undef DECLARE_GLOBAL_OPS
 #undef DECLARE_GLOBAL_TEMPLATE_OPS
 #undef DECLARE_ALL_GLOBAL_OPS
 #undef DECLARE_GLOBAL_TYPED_OPS
 #undef DECLARE_VECTOR_VECTOR_OP
 #undef DECLARE_VECTOR_VECTOR_BOOLOP
 #undef DECLARE_VECTOR_SCALAR_OP
 #undef DECLARE_BINARY_OPS
 #undef DECLARE_UNARY_OPS
 #undef DECLARE_ALL_NONVECTOR_OPS
 #undef DECLARE_ALL_VECTOR_OPS_INNER
 #undef DECLARE_ALL_VECTOR_OPS

 /*
 * Magic vector swizzling (part 2/2)