//------------------------------------------------------------------------------ // // This code was generated by a tool. // // Changes to this file may cause incorrect behavior and will be lost if // the code is regenerated. // //------------------------------------------------------------------------------ using System; using System.Runtime.CompilerServices; using Unity.IL2CPP.CompilerServices; #pragma warning disable 0660, 0661 namespace Unity.Mathematics { ///

A 4x2 matrix of floats.

[System.Serializable] [Il2CppEagerStaticClassConstruction] public partial struct float4x2 : System.IEquatable, IFormattable { ///

Column 0 of the matrix.

public float4 c0; ///

Column 1 of the matrix.

public float4 c1; ///

float4x2 zero value.

public static readonly float4x2 zero; ///

Constructs a float4x2 matrix from two float4 vectors.

/// The matrix column c0 will be set to this value. /// The matrix column c1 will be set to this value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(float4 c0, float4 c1) { this.c0 = c0; this.c1 = c1; } ///

Constructs a float4x2 matrix from 8 float values given in row-major order.

/// The matrix at row 0, column 0 will be set to this value. /// The matrix at row 0, column 1 will be set to this value. /// The matrix at row 1, column 0 will be set to this value. /// The matrix at row 1, column 1 will be set to this value. /// The matrix at row 2, column 0 will be set to this value. /// The matrix at row 2, column 1 will be set to this value. /// The matrix at row 3, column 0 will be set to this value. /// The matrix at row 3, column 1 will be set to this value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(float m00, float m01, float m10, float m11, float m20, float m21, float m30, float m31) { this.c0 = new float4(m00, m10, m20, m30); this.c1 = new float4(m01, m11, m21, m31); } ///

Constructs a float4x2 matrix from a single float value by assigning it to every component.

/// float to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(float v) { this.c0 = v; this.c1 = v; } ///

Constructs a float4x2 matrix from a single bool value by converting it to float and assigning it to every component.

/// bool to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(bool v) { this.c0 = math.select(new float4(0.0f), new float4(1.0f), v); this.c1 = math.select(new float4(0.0f), new float4(1.0f), v); } ///

Constructs a float4x2 matrix from a bool4x2 matrix by componentwise conversion.

/// bool4x2 to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(bool4x2 v) { this.c0 = math.select(new float4(0.0f), new float4(1.0f), v.c0); this.c1 = math.select(new float4(0.0f), new float4(1.0f), v.c1); } ///

Constructs a float4x2 matrix from a single int value by converting it to float and assigning it to every component.

/// int to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(int v) { this.c0 = v; this.c1 = v; } ///

Constructs a float4x2 matrix from a int4x2 matrix by componentwise conversion.

/// int4x2 to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(int4x2 v) { this.c0 = v.c0; this.c1 = v.c1; } ///

Constructs a float4x2 matrix from a single uint value by converting it to float and assigning it to every component.

/// uint to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(uint v) { this.c0 = v; this.c1 = v; } ///

Constructs a float4x2 matrix from a uint4x2 matrix by componentwise conversion.

/// uint4x2 to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(uint4x2 v) { this.c0 = v.c0; this.c1 = v.c1; } ///

Constructs a float4x2 matrix from a single double value by converting it to float and assigning it to every component.

/// double to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(double v) { this.c0 = (float4)v; this.c1 = (float4)v; } ///

Constructs a float4x2 matrix from a double4x2 matrix by componentwise conversion.

/// double4x2 to convert to float4x2 [MethodImpl(MethodImplOptions.AggressiveInlining)] public float4x2(double4x2 v) { this.c0 = (float4)v.c0; this.c1 = (float4)v.c1; } ///

Implicitly converts a single float value to a float4x2 matrix by assigning it to every component.

/// float to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static implicit operator float4x2(float v) { return new float4x2(v); } ///

Explicitly converts a single bool value to a float4x2 matrix by converting it to float and assigning it to every component.

/// bool to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static explicit operator float4x2(bool v) { return new float4x2(v); } ///

Explicitly converts a bool4x2 matrix to a float4x2 matrix by componentwise conversion.

/// bool4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static explicit operator float4x2(bool4x2 v) { return new float4x2(v); } ///

Implicitly converts a single int value to a float4x2 matrix by converting it to float and assigning it to every component.

/// int to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static implicit operator float4x2(int v) { return new float4x2(v); } ///

Implicitly converts a int4x2 matrix to a float4x2 matrix by componentwise conversion.

/// int4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static implicit operator float4x2(int4x2 v) { return new float4x2(v); } ///

Implicitly converts a single uint value to a float4x2 matrix by converting it to float and assigning it to every component.

/// uint to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static implicit operator float4x2(uint v) { return new float4x2(v); } ///

Implicitly converts a uint4x2 matrix to a float4x2 matrix by componentwise conversion.

/// uint4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static implicit operator float4x2(uint4x2 v) { return new float4x2(v); } ///

Explicitly converts a single double value to a float4x2 matrix by converting it to float and assigning it to every component.

/// double to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static explicit operator float4x2(double v) { return new float4x2(v); } ///

Explicitly converts a double4x2 matrix to a float4x2 matrix by componentwise conversion.

/// double4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static explicit operator float4x2(double4x2 v) { return new float4x2(v); } ///

Returns the result of a componentwise multiplication operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise multiplication. /// Right hand side float4x2 to use to compute componentwise multiplication. /// float4x2 result of the componentwise multiplication. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator * (float4x2 lhs, float4x2 rhs) { return new float4x2 (lhs.c0 * rhs.c0, lhs.c1 * rhs.c1); } ///

Returns the result of a componentwise multiplication operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise multiplication. /// Right hand side float to use to compute componentwise multiplication. /// float4x2 result of the componentwise multiplication. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator * (float4x2 lhs, float rhs) { return new float4x2 (lhs.c0 * rhs, lhs.c1 * rhs); } ///

Returns the result of a componentwise multiplication operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise multiplication. /// Right hand side float4x2 to use to compute componentwise multiplication. /// float4x2 result of the componentwise multiplication. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator * (float lhs, float4x2 rhs) { return new float4x2 (lhs * rhs.c0, lhs * rhs.c1); } ///

Returns the result of a componentwise addition operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise addition. /// Right hand side float4x2 to use to compute componentwise addition. /// float4x2 result of the componentwise addition. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator + (float4x2 lhs, float4x2 rhs) { return new float4x2 (lhs.c0 + rhs.c0, lhs.c1 + rhs.c1); } ///

Returns the result of a componentwise addition operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise addition. /// Right hand side float to use to compute componentwise addition. /// float4x2 result of the componentwise addition. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator + (float4x2 lhs, float rhs) { return new float4x2 (lhs.c0 + rhs, lhs.c1 + rhs); } ///

Returns the result of a componentwise addition operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise addition. /// Right hand side float4x2 to use to compute componentwise addition. /// float4x2 result of the componentwise addition. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator + (float lhs, float4x2 rhs) { return new float4x2 (lhs + rhs.c0, lhs + rhs.c1); } ///

Returns the result of a componentwise subtraction operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise subtraction. /// Right hand side float4x2 to use to compute componentwise subtraction. /// float4x2 result of the componentwise subtraction. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator - (float4x2 lhs, float4x2 rhs) { return new float4x2 (lhs.c0 - rhs.c0, lhs.c1 - rhs.c1); } ///

Returns the result of a componentwise subtraction operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise subtraction. /// Right hand side float to use to compute componentwise subtraction. /// float4x2 result of the componentwise subtraction. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator - (float4x2 lhs, float rhs) { return new float4x2 (lhs.c0 - rhs, lhs.c1 - rhs); } ///

Returns the result of a componentwise subtraction operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise subtraction. /// Right hand side float4x2 to use to compute componentwise subtraction. /// float4x2 result of the componentwise subtraction. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator - (float lhs, float4x2 rhs) { return new float4x2 (lhs - rhs.c0, lhs - rhs.c1); } ///

Returns the result of a componentwise division operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise division. /// Right hand side float4x2 to use to compute componentwise division. /// float4x2 result of the componentwise division. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator / (float4x2 lhs, float4x2 rhs) { return new float4x2 (lhs.c0 / rhs.c0, lhs.c1 / rhs.c1); } ///

Returns the result of a componentwise division operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise division. /// Right hand side float to use to compute componentwise division. /// float4x2 result of the componentwise division. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator / (float4x2 lhs, float rhs) { return new float4x2 (lhs.c0 / rhs, lhs.c1 / rhs); } ///

Returns the result of a componentwise division operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise division. /// Right hand side float4x2 to use to compute componentwise division. /// float4x2 result of the componentwise division. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator / (float lhs, float4x2 rhs) { return new float4x2 (lhs / rhs.c0, lhs / rhs.c1); } ///

Returns the result of a componentwise modulus operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise modulus. /// Right hand side float4x2 to use to compute componentwise modulus. /// float4x2 result of the componentwise modulus. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator % (float4x2 lhs, float4x2 rhs) { return new float4x2 (lhs.c0 % rhs.c0, lhs.c1 % rhs.c1); } ///

Returns the result of a componentwise modulus operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise modulus. /// Right hand side float to use to compute componentwise modulus. /// float4x2 result of the componentwise modulus. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator % (float4x2 lhs, float rhs) { return new float4x2 (lhs.c0 % rhs, lhs.c1 % rhs); } ///

Returns the result of a componentwise modulus operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise modulus. /// Right hand side float4x2 to use to compute componentwise modulus. /// float4x2 result of the componentwise modulus. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator % (float lhs, float4x2 rhs) { return new float4x2 (lhs % rhs.c0, lhs % rhs.c1); } ///

Returns the result of a componentwise increment operation on a float4x2 matrix.

/// Value to use when computing the componentwise increment. /// float4x2 result of the componentwise increment. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator ++ (float4x2 val) { return new float4x2 (++val.c0, ++val.c1); } ///

Returns the result of a componentwise decrement operation on a float4x2 matrix.

/// Value to use when computing the componentwise decrement. /// float4x2 result of the componentwise decrement. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator -- (float4x2 val) { return new float4x2 (--val.c0, --val.c1); } ///

Returns the result of a componentwise less than operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise less than. /// Right hand side float4x2 to use to compute componentwise less than. /// bool4x2 result of the componentwise less than. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator < (float4x2 lhs, float4x2 rhs) { return new bool4x2 (lhs.c0 < rhs.c0, lhs.c1 < rhs.c1); } ///

Returns the result of a componentwise less than operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise less than. /// Right hand side float to use to compute componentwise less than. /// bool4x2 result of the componentwise less than. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator < (float4x2 lhs, float rhs) { return new bool4x2 (lhs.c0 < rhs, lhs.c1 < rhs); } ///

Returns the result of a componentwise less than operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise less than. /// Right hand side float4x2 to use to compute componentwise less than. /// bool4x2 result of the componentwise less than. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator < (float lhs, float4x2 rhs) { return new bool4x2 (lhs < rhs.c0, lhs < rhs.c1); } ///

Returns the result of a componentwise less or equal operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise less or equal. /// Right hand side float4x2 to use to compute componentwise less or equal. /// bool4x2 result of the componentwise less or equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator <= (float4x2 lhs, float4x2 rhs) { return new bool4x2 (lhs.c0 <= rhs.c0, lhs.c1 <= rhs.c1); } ///

Returns the result of a componentwise less or equal operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise less or equal. /// Right hand side float to use to compute componentwise less or equal. /// bool4x2 result of the componentwise less or equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator <= (float4x2 lhs, float rhs) { return new bool4x2 (lhs.c0 <= rhs, lhs.c1 <= rhs); } ///

Returns the result of a componentwise less or equal operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise less or equal. /// Right hand side float4x2 to use to compute componentwise less or equal. /// bool4x2 result of the componentwise less or equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator <= (float lhs, float4x2 rhs) { return new bool4x2 (lhs <= rhs.c0, lhs <= rhs.c1); } ///

Returns the result of a componentwise greater than operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise greater than. /// Right hand side float4x2 to use to compute componentwise greater than. /// bool4x2 result of the componentwise greater than. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator > (float4x2 lhs, float4x2 rhs) { return new bool4x2 (lhs.c0 > rhs.c0, lhs.c1 > rhs.c1); } ///

Returns the result of a componentwise greater than operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise greater than. /// Right hand side float to use to compute componentwise greater than. /// bool4x2 result of the componentwise greater than. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator > (float4x2 lhs, float rhs) { return new bool4x2 (lhs.c0 > rhs, lhs.c1 > rhs); } ///

Returns the result of a componentwise greater than operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise greater than. /// Right hand side float4x2 to use to compute componentwise greater than. /// bool4x2 result of the componentwise greater than. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator > (float lhs, float4x2 rhs) { return new bool4x2 (lhs > rhs.c0, lhs > rhs.c1); } ///

Returns the result of a componentwise greater or equal operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise greater or equal. /// Right hand side float4x2 to use to compute componentwise greater or equal. /// bool4x2 result of the componentwise greater or equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator >= (float4x2 lhs, float4x2 rhs) { return new bool4x2 (lhs.c0 >= rhs.c0, lhs.c1 >= rhs.c1); } ///

Returns the result of a componentwise greater or equal operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise greater or equal. /// Right hand side float to use to compute componentwise greater or equal. /// bool4x2 result of the componentwise greater or equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator >= (float4x2 lhs, float rhs) { return new bool4x2 (lhs.c0 >= rhs, lhs.c1 >= rhs); } ///

Returns the result of a componentwise greater or equal operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise greater or equal. /// Right hand side float4x2 to use to compute componentwise greater or equal. /// bool4x2 result of the componentwise greater or equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator >= (float lhs, float4x2 rhs) { return new bool4x2 (lhs >= rhs.c0, lhs >= rhs.c1); } ///

Returns the result of a componentwise unary minus operation on a float4x2 matrix.

/// Value to use when computing the componentwise unary minus. /// float4x2 result of the componentwise unary minus. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator - (float4x2 val) { return new float4x2 (-val.c0, -val.c1); } ///

Returns the result of a componentwise unary plus operation on a float4x2 matrix.

/// Value to use when computing the componentwise unary plus. /// float4x2 result of the componentwise unary plus. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 operator + (float4x2 val) { return new float4x2 (+val.c0, +val.c1); } ///

Returns the result of a componentwise equality operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise equality. /// Right hand side float4x2 to use to compute componentwise equality. /// bool4x2 result of the componentwise equality. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator == (float4x2 lhs, float4x2 rhs) { return new bool4x2 (lhs.c0 == rhs.c0, lhs.c1 == rhs.c1); } ///

Returns the result of a componentwise equality operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise equality. /// Right hand side float to use to compute componentwise equality. /// bool4x2 result of the componentwise equality. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator == (float4x2 lhs, float rhs) { return new bool4x2 (lhs.c0 == rhs, lhs.c1 == rhs); } ///

Returns the result of a componentwise equality operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise equality. /// Right hand side float4x2 to use to compute componentwise equality. /// bool4x2 result of the componentwise equality. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator == (float lhs, float4x2 rhs) { return new bool4x2 (lhs == rhs.c0, lhs == rhs.c1); } ///

Returns the result of a componentwise not equal operation on two float4x2 matrices.

/// Left hand side float4x2 to use to compute componentwise not equal. /// Right hand side float4x2 to use to compute componentwise not equal. /// bool4x2 result of the componentwise not equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator != (float4x2 lhs, float4x2 rhs) { return new bool4x2 (lhs.c0 != rhs.c0, lhs.c1 != rhs.c1); } ///

Returns the result of a componentwise not equal operation on a float4x2 matrix and a float value.

/// Left hand side float4x2 to use to compute componentwise not equal. /// Right hand side float to use to compute componentwise not equal. /// bool4x2 result of the componentwise not equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator != (float4x2 lhs, float rhs) { return new bool4x2 (lhs.c0 != rhs, lhs.c1 != rhs); } ///

Returns the result of a componentwise not equal operation on a float value and a float4x2 matrix.

/// Left hand side float to use to compute componentwise not equal. /// Right hand side float4x2 to use to compute componentwise not equal. /// bool4x2 result of the componentwise not equal. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static bool4x2 operator != (float lhs, float4x2 rhs) { return new bool4x2 (lhs != rhs.c0, lhs != rhs.c1); } ///

Returns the float4 element at a specified index.

unsafe public ref float4 this[int index] { get { #if ENABLE_UNITY_COLLECTIONS_CHECKS if ((uint)index >= 2) throw new System.ArgumentException("index must be between[0...1]"); #endif fixed (float4x2* array = &this) { return ref ((float4*)array)[index]; } } } ///

Returns true if the float4x2 is equal to a given float4x2, false otherwise.

/// Right hand side argument to compare equality with. /// The result of the equality comparison. [MethodImpl(MethodImplOptions.AggressiveInlining)] public bool Equals(float4x2 rhs) { return c0.Equals(rhs.c0) && c1.Equals(rhs.c1); } ///

Returns true if the float4x2 is equal to a given float4x2, false otherwise.

/// Right hand side argument to compare equality with. /// The result of the equality comparison. public override bool Equals(object o) { return o is float4x2 converted && Equals(converted); } ///

Returns a hash code for the float4x2.

/// The computed hash code. [MethodImpl(MethodImplOptions.AggressiveInlining)] public override int GetHashCode() { return (int)math.hash(this); } ///

Returns a string representation of the float4x2.

/// String representation of the value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public override string ToString() { return string.Format("float4x2({0}f, {1}f, {2}f, {3}f, {4}f, {5}f, {6}f, {7}f)", c0.x, c1.x, c0.y, c1.y, c0.z, c1.z, c0.w, c1.w); } ///

Returns a string representation of the float4x2 using a specified format and culture-specific format information.

/// Format string to use during string formatting. /// Format provider to use during string formatting. /// String representation of the value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public string ToString(string format, IFormatProvider formatProvider) { return string.Format("float4x2({0}f, {1}f, {2}f, {3}f, {4}f, {5}f, {6}f, {7}f)", c0.x.ToString(format, formatProvider), c1.x.ToString(format, formatProvider), c0.y.ToString(format, formatProvider), c1.y.ToString(format, formatProvider), c0.z.ToString(format, formatProvider), c1.z.ToString(format, formatProvider), c0.w.ToString(format, formatProvider), c1.w.ToString(format, formatProvider)); } } public static partial class math { ///

Returns a float4x2 matrix constructed from two float4 vectors.

/// The matrix column c0 will be set to this value. /// The matrix column c1 will be set to this value. /// float4x2 constructed from arguments. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(float4 c0, float4 c1) { return new float4x2(c0, c1); } ///

Returns a float4x2 matrix constructed from from 8 float values given in row-major order.

/// The matrix at row 0, column 0 will be set to this value. /// The matrix at row 0, column 1 will be set to this value. /// The matrix at row 1, column 0 will be set to this value. /// The matrix at row 1, column 1 will be set to this value. /// The matrix at row 2, column 0 will be set to this value. /// The matrix at row 2, column 1 will be set to this value. /// The matrix at row 3, column 0 will be set to this value. /// The matrix at row 3, column 1 will be set to this value. /// float4x2 constructed from arguments. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(float m00, float m01, float m10, float m11, float m20, float m21, float m30, float m31) { return new float4x2(m00, m01, m10, m11, m20, m21, m30, m31); } ///

Returns a float4x2 matrix constructed from a single float value by assigning it to every component.

/// float to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(float v) { return new float4x2(v); } ///

Returns a float4x2 matrix constructed from a single bool value by converting it to float and assigning it to every component.

/// bool to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(bool v) { return new float4x2(v); } ///

Return a float4x2 matrix constructed from a bool4x2 matrix by componentwise conversion.

/// bool4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(bool4x2 v) { return new float4x2(v); } ///

Returns a float4x2 matrix constructed from a single int value by converting it to float and assigning it to every component.

/// int to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(int v) { return new float4x2(v); } ///

Return a float4x2 matrix constructed from a int4x2 matrix by componentwise conversion.

/// int4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(int4x2 v) { return new float4x2(v); } ///

Returns a float4x2 matrix constructed from a single uint value by converting it to float and assigning it to every component.

/// uint to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(uint v) { return new float4x2(v); } ///

Return a float4x2 matrix constructed from a uint4x2 matrix by componentwise conversion.

/// uint4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(uint4x2 v) { return new float4x2(v); } ///

Returns a float4x2 matrix constructed from a single double value by converting it to float and assigning it to every component.

/// double to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(double v) { return new float4x2(v); } ///

Return a float4x2 matrix constructed from a double4x2 matrix by componentwise conversion.

/// double4x2 to convert to float4x2 /// Converted value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float4x2 float4x2(double4x2 v) { return new float4x2(v); } ///

Return the float2x4 transpose of a float4x2 matrix.

/// Value to transpose. /// Transposed value. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static float2x4 transpose(float4x2 v) { return float2x4( v.c0.x, v.c0.y, v.c0.z, v.c0.w, v.c1.x, v.c1.y, v.c1.z, v.c1.w); } ///

Returns a uint hash code of a float4x2 matrix.

/// Matrix value to hash. /// uint hash of the argument. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static uint hash(float4x2 v) { return csum(asuint(v.c0) * uint4(0xAAC3C25Du, 0xD21D0945u, 0x88FCAB2Du, 0x614DA60Du) + asuint(v.c1) * uint4(0x5BA2C50Bu, 0x8C455ACBu, 0xCD266C89u, 0xF1852A33u)) + 0x77E35E77u; } ///

/// Returns a uint4 vector hash code of a float4x2 matrix. /// When multiple elements are to be hashes together, it can more efficient to calculate and combine wide hash /// that are only reduced to a narrow uint hash at the very end instead of at every step. ///

/// Matrix value to hash. /// uint4 hash of the argument. [MethodImpl(MethodImplOptions.AggressiveInlining)] public static uint4 hashwide(float4x2 v) { return (asuint(v.c0) * uint4(0x863E3729u, 0xE191B035u, 0x68586FAFu, 0xD4DFF6D3u) + asuint(v.c1) * uint4(0xCB634F4Du, 0x9B13B92Du, 0x4ABF0813u, 0x86068063u)) + 0xD75513F9u; } } }