/** * Translate the source matrix and stash the result in the destination matrix * * @param vec The vector to translate by * @param src The source matrix * @param dest The destination matrix or null if a new matrix is to be created * @return The translated matrix */ public static Matrix4f translate(Vector2f vec, Matrix4f src, Matrix4f dest) { if (dest == null) dest = new Matrix4f(); dest.m30 += src.m00 * vec.x + src.m10 * vec.y; dest.m31 += src.m01 * vec.x + src.m11 * vec.y; dest.m32 += src.m02 * vec.x + src.m12 * vec.y; dest.m33 += src.m03 * vec.x + src.m13 * vec.y; return dest; }
/** * Multiply the right matrix by the left and place the result in a third matrix. * * @param left The left source matrix * @param right The right source matrix * @param dest The destination matrix, or null if a new one is to be created * @return the destination matrix */ public static Matrix4f mul(Matrix4f left, Matrix4f right, Matrix4f dest) { if (dest == null) dest = new Matrix4f(); float m00 = left.m00 * right.m00 + left.m10 * right.m01 + left.m20 * right.m02 + left.m30 * right.m03; float m01 = left.m01 * right.m00 + left.m11 * right.m01 + left.m21 * right.m02 + left.m31 * right.m03; float m02 = left.m02 * right.m00 + left.m12 * right.m01 + left.m22 * right.m02 + left.m32 * right.m03; float m03 = left.m03 * right.m00 + left.m13 * right.m01 + left.m23 * right.m02 + left.m33 * right.m03; float m10 = left.m00 * right.m10 + left.m10 * right.m11 + left.m20 * right.m12 + left.m30 * right.m13; float m11 = left.m01 * right.m10 + left.m11 * right.m11 + left.m21 * right.m12 + left.m31 * right.m13; float m12 = left.m02 * right.m10 + left.m12 * right.m11 + left.m22 * right.m12 + left.m32 * right.m13; float m13 = left.m03 * right.m10 + left.m13 * right.m11 + left.m23 * right.m12 + left.m33 * right.m13; float m20 = left.m00 * right.m20 + left.m10 * right.m21 + left.m20 * right.m22 + left.m30 * right.m23; float m21 = left.m01 * right.m20 + left.m11 * right.m21 + left.m21 * right.m22 + left.m31 * right.m23; float m22 = left.m02 * right.m20 + left.m12 * right.m21 + left.m22 * right.m22 + left.m32 * right.m23; float m23 = left.m03 * right.m20 + left.m13 * right.m21 + left.m23 * right.m22 + left.m33 * right.m23; float m30 = left.m00 * right.m30 + left.m10 * right.m31 + left.m20 * right.m32 + left.m30 * right.m33; float m31 = left.m01 * right.m30 + left.m11 * right.m31 + left.m21 * right.m32 + left.m31 * right.m33; float m32 = left.m02 * right.m30 + left.m12 * right.m31 + left.m22 * right.m32 + left.m32 * right.m33; float m33 = left.m03 * right.m30 + left.m13 * right.m31 + left.m23 * right.m32 + left.m33 * right.m33; dest.m00 = m00; dest.m01 = m01; dest.m02 = m02; dest.m03 = m03; dest.m10 = m10; dest.m11 = m11; dest.m12 = m12; dest.m13 = m13; dest.m20 = m20; dest.m21 = m21; dest.m22 = m22; dest.m23 = m23; dest.m30 = m30; dest.m31 = m31; dest.m32 = m32; dest.m33 = m33; return dest; }
/** * Set the given matrix to 0. * * @param m The matrix to set to 0 * @return m */ public static Matrix4f setZero(Matrix4f m) { m.m00 = 0.0f; m.m01 = 0.0f; m.m02 = 0.0f; m.m03 = 0.0f; m.m10 = 0.0f; m.m11 = 0.0f; m.m12 = 0.0f; m.m13 = 0.0f; m.m20 = 0.0f; m.m21 = 0.0f; m.m22 = 0.0f; m.m23 = 0.0f; m.m30 = 0.0f; m.m31 = 0.0f; m.m32 = 0.0f; m.m33 = 0.0f; return m; }
/** * Set the given matrix to be the identity matrix. * * @param m The matrix to set to the identity * @return m */ public static Matrix4f setIdentity(Matrix4f m) { m.m00 = 1.0f; m.m01 = 0.0f; m.m02 = 0.0f; m.m03 = 0.0f; m.m10 = 0.0f; m.m11 = 1.0f; m.m12 = 0.0f; m.m13 = 0.0f; m.m20 = 0.0f; m.m21 = 0.0f; m.m22 = 1.0f; m.m23 = 0.0f; m.m30 = 0.0f; m.m31 = 0.0f; m.m32 = 0.0f; m.m33 = 1.0f; return m; }
/** * Copy the source matrix to the destination matrix * * @param src The source matrix * @param dest The destination matrix, or null of a new one is to be created * @return The copied matrix */ public static Matrix4f load(Matrix4f src, Matrix4f dest) { if (dest == null) dest = new Matrix4f(); dest.m00 = src.m00; dest.m01 = src.m01; dest.m02 = src.m02; dest.m03 = src.m03; dest.m10 = src.m10; dest.m11 = src.m11; dest.m12 = src.m12; dest.m13 = src.m13; dest.m20 = src.m20; dest.m21 = src.m21; dest.m22 = src.m22; dest.m23 = src.m23; dest.m30 = src.m30; dest.m31 = src.m31; dest.m32 = src.m32; dest.m33 = src.m33; return dest; }
/** * Subtract the right matrix from the left and place the result in a third matrix. * * @param left The left source matrix * @param right The right source matrix * @param dest The destination matrix, or null if a new one is to be created * @return the destination matrix */ public static Matrix4f sub(Matrix4f left, Matrix4f right, Matrix4f dest) { if (dest == null) dest = new Matrix4f(); dest.m00 = left.m00 - right.m00; dest.m01 = left.m01 - right.m01; dest.m02 = left.m02 - right.m02; dest.m03 = left.m03 - right.m03; dest.m10 = left.m10 - right.m10; dest.m11 = left.m11 - right.m11; dest.m12 = left.m12 - right.m12; dest.m13 = left.m13 - right.m13; dest.m20 = left.m20 - right.m20; dest.m21 = left.m21 - right.m21; dest.m22 = left.m22 - right.m22; dest.m23 = left.m23 - right.m23; dest.m30 = left.m30 - right.m30; dest.m31 = left.m31 - right.m31; dest.m32 = left.m32 - right.m32; dest.m33 = left.m33 - right.m33; return dest; }
/** * Add two matrices together and place the result in a third matrix. * * @param left The left source matrix * @param right The right source matrix * @param dest The destination matrix, or null if a new one is to be created * @return the destination matrix */ public static Matrix4f add(Matrix4f left, Matrix4f right, Matrix4f dest) { if (dest == null) dest = new Matrix4f(); dest.m00 = left.m00 + right.m00; dest.m01 = left.m01 + right.m01; dest.m02 = left.m02 + right.m02; dest.m03 = left.m03 + right.m03; dest.m10 = left.m10 + right.m10; dest.m11 = left.m11 + right.m11; dest.m12 = left.m12 + right.m12; dest.m13 = left.m13 + right.m13; dest.m20 = left.m20 + right.m20; dest.m21 = left.m21 + right.m21; dest.m22 = left.m22 + right.m22; dest.m23 = left.m23 + right.m23; dest.m30 = left.m30 + right.m30; dest.m31 = left.m31 + right.m31; dest.m32 = left.m32 + right.m32; dest.m33 = left.m33 + right.m33; return dest; }
/** * Transpose the source matrix and place the result in the destination matrix * * @param src The source matrix * @param dest The destination matrix or null if a new matrix is to be created * @return the transposed matrix */ public static Matrix4f transpose(Matrix4f src, Matrix4f dest) { if (dest == null) dest = new Matrix4f(); float m00 = src.m00; float m01 = src.m10; float m02 = src.m20; float m03 = src.m30; float m10 = src.m01; float m11 = src.m11; float m12 = src.m21; float m13 = src.m31; float m20 = src.m02; float m21 = src.m12; float m22 = src.m22; float m23 = src.m32; float m30 = src.m03; float m31 = src.m13; float m32 = src.m23; float m33 = src.m33; dest.m00 = m00; dest.m01 = m01; dest.m02 = m02; dest.m03 = m03; dest.m10 = m10; dest.m11 = m11; dest.m12 = m12; dest.m13 = m13; dest.m20 = m20; dest.m21 = m21; dest.m22 = m22; dest.m23 = m23; dest.m30 = m30; dest.m31 = m31; dest.m32 = m32; dest.m33 = m33; return dest; }
/** * Invert the source matrix and put the result in the destination * * @param src The source matrix * @param dest The destination matrix, or null if a new matrix is to be created * @return The inverted matrix if successful, null otherwise */ public static Matrix4f invert(Matrix4f src, Matrix4f dest) { float determinant = src.determinant(); if (determinant != 0) { /* * m00 m01 m02 m03 * m10 m11 m12 m13 * m20 m21 m22 m23 * m30 m31 m32 m33 */ if (dest == null) dest = new Matrix4f(); float determinant_inv = 1f / determinant; // first row float t00 = determinant3x3( src.m11, src.m12, src.m13, src.m21, src.m22, src.m23, src.m31, src.m32, src.m33); float t01 = -determinant3x3( src.m10, src.m12, src.m13, src.m20, src.m22, src.m23, src.m30, src.m32, src.m33); float t02 = determinant3x3( src.m10, src.m11, src.m13, src.m20, src.m21, src.m23, src.m30, src.m31, src.m33); float t03 = -determinant3x3( src.m10, src.m11, src.m12, src.m20, src.m21, src.m22, src.m30, src.m31, src.m32); // second row float t10 = -determinant3x3( src.m01, src.m02, src.m03, src.m21, src.m22, src.m23, src.m31, src.m32, src.m33); float t11 = determinant3x3( src.m00, src.m02, src.m03, src.m20, src.m22, src.m23, src.m30, src.m32, src.m33); float t12 = -determinant3x3( src.m00, src.m01, src.m03, src.m20, src.m21, src.m23, src.m30, src.m31, src.m33); float t13 = determinant3x3( src.m00, src.m01, src.m02, src.m20, src.m21, src.m22, src.m30, src.m31, src.m32); // third row float t20 = determinant3x3( src.m01, src.m02, src.m03, src.m11, src.m12, src.m13, src.m31, src.m32, src.m33); float t21 = -determinant3x3( src.m00, src.m02, src.m03, src.m10, src.m12, src.m13, src.m30, src.m32, src.m33); float t22 = determinant3x3( src.m00, src.m01, src.m03, src.m10, src.m11, src.m13, src.m30, src.m31, src.m33); float t23 = -determinant3x3( src.m00, src.m01, src.m02, src.m10, src.m11, src.m12, src.m30, src.m31, src.m32); // fourth row float t30 = -determinant3x3( src.m01, src.m02, src.m03, src.m11, src.m12, src.m13, src.m21, src.m22, src.m23); float t31 = determinant3x3( src.m00, src.m02, src.m03, src.m10, src.m12, src.m13, src.m20, src.m22, src.m23); float t32 = -determinant3x3( src.m00, src.m01, src.m03, src.m10, src.m11, src.m13, src.m20, src.m21, src.m23); float t33 = determinant3x3( src.m00, src.m01, src.m02, src.m10, src.m11, src.m12, src.m20, src.m21, src.m22); // transpose and divide by the determinant dest.m00 = t00 * determinant_inv; dest.m11 = t11 * determinant_inv; dest.m22 = t22 * determinant_inv; dest.m33 = t33 * determinant_inv; dest.m01 = t10 * determinant_inv; dest.m10 = t01 * determinant_inv; dest.m20 = t02 * determinant_inv; dest.m02 = t20 * determinant_inv; dest.m12 = t21 * determinant_inv; dest.m21 = t12 * determinant_inv; dest.m03 = t30 * determinant_inv; dest.m30 = t03 * determinant_inv; dest.m13 = t31 * determinant_inv; dest.m31 = t13 * determinant_inv; dest.m32 = t23 * determinant_inv; dest.m23 = t32 * determinant_inv; return dest; } else return null; }