#include "CCharAnimTime.hpp" #include namespace urde { CCharAnimTime CCharAnimTime::Infinity() { CCharAnimTime ret(1.f); ret.m_type = Type::Infinity; return ret; } bool CCharAnimTime::EqualsZero() const { if (m_type == Type::ZeroIncreasing || m_type == Type::ZeroSteady || m_type == Type::ZeroDecreasing) return false; return (m_time == 0.f); } bool CCharAnimTime::GreaterThanZero() const { if (EqualsZero()) return false; return (m_time > 0.f); } bool CCharAnimTime::operator ==(const CCharAnimTime& other) const { if (m_type == Type::NonZero) { if (other.m_type == Type::NonZero) return m_time == other.m_time; return !other.EqualsZero(); } if (EqualsZero()) { if (other.EqualsZero()) { int type = -1; if (m_type != Type::ZeroDecreasing) { if (m_type != Type::ZeroSteady) type = 1; else type = 0; } int otherType = -1; if (other.m_type != Type::ZeroDecreasing) { if (other.m_type != Type::ZeroSteady) otherType = 1; else otherType = 0; } return type == otherType; } return false; } if (other.m_type == Type::Infinity) return m_time * other.m_time < 0.f; return false; } bool CCharAnimTime::operator !=(const CCharAnimTime& other) const { return !(*this == other); } bool CCharAnimTime::operator>=(const CCharAnimTime& other) { if (*this == other) return true; return (*this > other); } bool CCharAnimTime::operator<=(const CCharAnimTime& other) { if (*this == other) return true; return (*this < other); } bool CCharAnimTime::operator >(const CCharAnimTime& other) const { return (!(*this == other) && !(*this < other)); } bool CCharAnimTime::operator <(const CCharAnimTime& other) const { if (m_type == Type::NonZero) { if (other.m_type == Type::NonZero) return m_time < other.m_time; if (other.EqualsZero()) return m_time < 0.f; else return other.m_time > 0.f; } if (EqualsZero()) { if (other.EqualsZero()) { int type = -1; if (m_type != Type::ZeroDecreasing) { if (m_type != Type::ZeroSteady) type = 1; else type = 0; } int otherType = -1; if (other.m_type != Type::ZeroDecreasing) { if (other.m_type != Type::ZeroSteady) otherType = 1; else otherType = 0; } return type < otherType; } if (other.m_type == Type::NonZero) return other.m_time > 0.f; return other.m_time < 0.f; } else { if (m_type == Type::Infinity) return m_time < 0.f && other.m_time > 0.f; return m_time < 0.f; } } CCharAnimTime& CCharAnimTime::operator*=(const CCharAnimTime& other) { *this = *this * other; return *this; } CCharAnimTime& CCharAnimTime::operator+=(const CCharAnimTime& other) { *this = *this + other; return *this; } CCharAnimTime CCharAnimTime::operator+(const CCharAnimTime& other) { if (m_type == Type::Infinity && other.m_type == Type::Infinity) { if (other.m_time != m_time) return CCharAnimTime(); return *this; } else if (m_type == Type::Infinity) return *this; else if (other.m_type == Type::Infinity) return other; if (!EqualsZero() || !other.EqualsZero()) return CCharAnimTime(m_time + other.m_time); int type = -1; if (m_type != Type::ZeroDecreasing) { if (m_type != Type::ZeroSteady) type = 1; else type = 0; } int otherType = -1; if (other.m_type != Type::ZeroDecreasing) { if (other.m_type != Type::ZeroSteady) otherType = 1; else otherType = 0; } type += otherType; otherType = std::max(-1, std::min(type, 1)); CCharAnimTime ret; if (otherType == -1) ret.m_type = Type::ZeroDecreasing; else if (otherType == 0) ret.m_type = Type::ZeroSteady; else ret.m_type = Type::ZeroIncreasing; return ret; } CCharAnimTime& CCharAnimTime::operator-=(const CCharAnimTime& other) { *this = *this - other; return *this; } CCharAnimTime CCharAnimTime::operator-(const CCharAnimTime& other) { if (m_type == Type::Infinity && other.m_type == Type::Infinity) { if (other.m_time == m_time) return CCharAnimTime(); return *this; } else if (m_type == Type::Infinity) return *this; else if (other.m_type == Type::Infinity) { CCharAnimTime ret(-other.m_time); ret.m_type = Type::Infinity; return ret; } if (!EqualsZero() || !other.EqualsZero()) return CCharAnimTime(m_time - other.m_time); int type = -1; if (m_type != Type::ZeroDecreasing) { if (m_type != Type::ZeroSteady) type = 1; else type = 0; } int otherType = -1; if (other.m_type != Type::ZeroDecreasing) { if (other.m_type != Type::ZeroSteady) otherType = 1; else otherType = 0; } CCharAnimTime ret; type -= otherType; if (type == -1) ret.m_type = Type::ZeroDecreasing; else if (type == 0) ret.m_type = Type::ZeroSteady; else ret.m_type = Type::ZeroIncreasing; return ret; } CCharAnimTime CCharAnimTime::operator*(const CCharAnimTime& other) { if (m_type == Type::Infinity && other.m_type == Type::Infinity) { if (other.m_time != m_time) return CCharAnimTime(); return *this; } else if (m_type == Type::Infinity) return *this; else if (other.m_type == Type::Infinity) return other; if (!EqualsZero() || !other.EqualsZero()) return CCharAnimTime(m_time * other.m_time); int type = -1; if (m_type != Type::ZeroDecreasing) { if (m_type != Type::ZeroSteady) type = 1; else type = 0; } int otherType = -1; if (other.m_type != Type::ZeroDecreasing) { if (other.m_type != Type::ZeroSteady) otherType = 1; else otherType = 0; } type += otherType; otherType = std::max(-1, std::min(type, 1)); CCharAnimTime ret; if (otherType == -1) ret.m_type = Type::ZeroDecreasing; else if (otherType == 0) ret.m_type = Type::ZeroSteady; else ret.m_type = Type::ZeroIncreasing; return ret; } CCharAnimTime CCharAnimTime::operator*(const float& other) { CCharAnimTime ret; if (other == 0.f) return ret; if (!EqualsZero()) return CCharAnimTime(m_time * other); if (other > 0.f) return *this; else if (other == 0.f) return ret; ret.m_type = m_type; return ret; } float CCharAnimTime::operator/(const CCharAnimTime& other) { if (other.EqualsZero()) return 0.f; return m_time / other.m_time; } }