// Copyright (c) 2012-2021 Wojciech Figat. All rights reserved.
#pragma once
#include "Math.h"
#include "Engine/Core/Formatting.h"
#include "Engine/Core/Templates.h"
struct Vector2;
struct Vector3;
struct Vector4;
///
/// Two-components vector (32 bit integer type).
///
API_STRUCT(InBuild) struct FLAXENGINE_API Int2
{
public:
union
{
struct
{
// X component
int32 X;
// Y component
int32 Y;
};
// Raw values
int32 Raw[2];
};
public:
// Vector with all components equal 0
static const Int2 Zero;
// Vector with all components equal 1
static const Int2 One;
public:
///
/// Empty constructor.
///
Int2()
{
}
// Init
// @param xy Value to assign to the all components
Int2(int32 xy)
: X(xy)
, Y(xy)
{
}
// Init
// @param x X component value
// @param y Y component value
Int2(int32 x, int32 y)
: X(x)
, Y(y)
{
}
// Init
// @param v Vector to use X and Y components
explicit Int2(const Vector2& v);
public:
String ToString() const;
public:
// Arithmetic operators with Int2
Int2 operator+(const Int2& b) const
{
return Add(*this, b);
}
Int2 operator-(const Int2& b) const
{
return Subtract(*this, b);
}
Int2 operator*(const Int2& b) const
{
return Multiply(*this, b);
}
Int2 operator/(const Int2& b) const
{
return Divide(*this, b);
}
Int2 operator-() const
{
return Int2(-X, -Y);
}
// op= operators with Int2
Int2& operator+=(const Int2& b)
{
*this = Add(*this, b);
return *this;
}
Int2& operator-=(const Int2& b)
{
*this = Subtract(*this, b);
return *this;
}
Int2& operator*=(const Int2& b)
{
*this = Multiply(*this, b);
return *this;
}
Int2& operator/=(const Int2& b)
{
*this = Divide(*this, b);
return *this;
}
// Arithmetic operators with int32
Int2 operator+(int32 b) const
{
return Add(*this, b);
}
Int2 operator-(int32 b) const
{
return Subtract(*this, b);
}
Int2 operator*(int32 b) const
{
return Multiply(*this, b);
}
Int2 operator/(int32 b) const
{
return Divide(*this, b);
}
// op= operators with int32
Int2& operator+=(int32 b)
{
*this = Add(*this, b);
return *this;
}
Int2& operator-=(int32 b)
{
*this = Subtract(*this, b);
return *this;
}
Int2& operator*=(int32 b)
{
*this = Multiply(*this, b);
return *this;
}
Int2& operator/=(int32 b)
{
*this = Divide(*this, b);
return *this;
}
// Comparison operators
bool operator==(const Int2& b) const
{
return X == b.X && Y == b.Y;
}
bool operator!=(const Int2& b) const
{
return X != b.X || Y != b.Y;
}
bool operator>(const Int2& b) const
{
return X > b.X && Y > b.Y;
}
bool operator>=(const Int2& b) const
{
return X >= b.X && Y >= b.Y;
}
bool operator<(const Int2& b) const
{
return X < b.X && Y < b.Y;
}
bool operator<=(const Int2& b) const
{
return X <= b.X && Y <= b.Y;
}
public:
static void Add(const Int2& a, const Int2& b, Int2* result)
{
result->X = a.X + b.X;
result->Y = a.Y + b.Y;
}
static Int2 Add(const Int2& a, const Int2& b)
{
Int2 result;
Add(a, b, &result);
return result;
}
static void Subtract(const Int2& a, const Int2& b, Int2* result)
{
result->X = a.X - b.X;
result->Y = a.Y - b.Y;
}
static Int2 Subtract(const Int2& a, const Int2& b)
{
Int2 result;
Subtract(a, b, &result);
return result;
}
static Int2 Multiply(const Int2& a, const Int2& b)
{
return Int2(a.X * b.X, a.Y * b.Y);
}
static Int2 Multiply(const Int2& a, int32 b)
{
return Int2(a.X * b, a.Y * b);
}
static Int2 Divide(const Int2& a, const Int2& b)
{
return Int2(a.X / b.X, a.Y / b.Y);
}
static Int2 Divide(const Int2& a, int32 b)
{
return Int2(a.X / b, a.Y / b);
}
// Creates vector from minimum components of two vectors
static Int2 Min(const Int2& a, const Int2& b)
{
return Int2(a.X < b.X ? a.X : b.X, a.Y < b.Y ? a.Y : b.Y);
}
// Creates vector from maximum components of two vectors
static Int2 Max(const Int2& a, const Int2& b)
{
return Int2(a.X > b.X ? a.X : b.X, a.Y > b.Y ? a.Y : b.Y);
}
};
template<>
struct TIsPODType
{
enum { Value = true };
};
DEFINE_DEFAULT_FORMATTING(Int2, "X:{0} Y:{1}", v.X, v.Y);