Remove bounds checking on a lot of linalg

core/math/linalg/general.odin

@@ -306,7 +306,7 @@ angle_between :: proc{
 // Splines
 
 @(require_results)
-vector_slerp :: proc "contextless" (x, y: $T/[$N]$E, a: E) -> T {
+vector_slerp :: proc "contextless" (x, y: $T/[$N]$E, a: E) -> T #no_bounds_check {
 	cos_alpha := dot(x, y)
 	alpha := math.acos(cos_alpha)
 	sin_alpha := math.sin(alpha)
@@ -318,7 +318,7 @@ vector_slerp :: proc "contextless" (x, y: $T/[$N]$E, a: E) -> T {
 }
 
 @(require_results)
-catmull_rom :: proc "contextless" (v1, v2, v3, v4: $T/[$N]$E, s: E) -> T {
+catmull_rom :: proc "contextless" (v1, v2, v3, v4: $T/[$N]$E, s: E) -> T #no_bounds_check {
 	s2 := s*s
 	s3 := s2*s
 
@@ -331,7 +331,7 @@ catmull_rom :: proc "contextless" (v1, v2, v3, v4: $T/[$N]$E, s: E) -> T {
 }
 
 @(require_results)
-hermite :: proc "contextless" (v1, t1, v2, t2: $T/[$N]$E, s: E) -> T {
+hermite :: proc "contextless" (v1, t1, v2, t2: $T/[$N]$E, s: E) -> T #no_bounds_check {
 	s2 := s*s
 	s3 := s2*s
 
@@ -344,7 +344,7 @@ hermite :: proc "contextless" (v1, t1, v2, t2: $T/[$N]$E, s: E) -> T {
 }
 
 @(require_results)
-cubic :: proc "contextless" (v1, v2, v3, v4: $T/[$N]$E, s: E) -> T {
+cubic :: proc "contextless" (v1, v2, v3, v4: $T/[$N]$E, s: E) -> T #no_bounds_check {
 	return ((v1 * s + v2) * s + v3) * s + v4
 }
 
@@ -425,12 +425,12 @@ inverse :: proc{
 }
 
 @(require_results)
-hermitian_adjoint :: proc "contextless" (m: $M/matrix[$N, N]$T) -> M where intrinsics.type_is_complex(T), N >= 1 {
+hermitian_adjoint :: proc "contextless" (m: $M/matrix[$N, N]$T) -> M where intrinsics.type_is_complex(T), N >= 1 #no_bounds_check {
 	return conj(transpose(m))
 }
 
 @(require_results)
-trace :: proc "contextless" (m: $M/matrix[$N, N]$T) -> (trace: T) {
+trace :: proc "contextless" (m: $M/matrix[$N, N]$T) -> (trace: T) #no_bounds_check {
 	for i in 0..<N {
 		trace += m[i, i]
 	}
@@ -438,7 +438,7 @@ trace :: proc "contextless" (m: $M/matrix[$N, N]$T) -> (trace: T) {
 }
 
 @(require_results)
-matrix_minor :: proc "contextless" (m: $M/matrix[$N, N]$T, #any_int row, column: int) -> (minor: T) where N > 1 {
+matrix_minor :: proc "contextless" (m: $M/matrix[$N, N]$T, #any_int row, column: int) -> (minor: T) where N > 1 #no_bounds_check {
 	K :: int(N-1)
 	cut_down: matrix[K, K]T
 	for col_idx in 0..<K {
@@ -454,25 +454,25 @@ matrix_minor :: proc "contextless" (m: $M/matrix[$N, N]$T, #any_int row, column:
 
 
 @(require_results)
-matrix1x1_determinant :: proc "contextless" (m: $M/matrix[1, 1]$T) -> (det: T) {
+matrix1x1_determinant :: proc "contextless" (m: $M/matrix[1, 1]$T) -> (det: T) #no_bounds_check {
 	return m[0, 0]
 }
 
 @(require_results)
-matrix2x2_determinant :: proc "contextless" (m: $M/matrix[2, 2]$T) -> (det: T) {
+matrix2x2_determinant :: proc "contextless" (m: $M/matrix[2, 2]$T) -> (det: T) #no_bounds_check {
 	return m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 }
 @(require_results)
-matrix3x3_determinant :: proc "contextless" (m: $M/matrix[3, 3]$T) -> (det: T) {
+matrix3x3_determinant :: proc "contextless" (m: $M/matrix[3, 3]$T) -> (det: T) #no_bounds_check {
 	a := +m[0, 0] * (m[1, 1] * m[2, 2] - m[1, 2] * m[2, 1])
 	b := -m[0, 1] * (m[1, 0] * m[2, 2] - m[1, 2] * m[2, 0])
 	c := +m[0, 2] * (m[1, 0] * m[2, 1] - m[1, 1] * m[2, 0])
 	return a + b + c
 }
 @(require_results)
-matrix4x4_determinant :: proc "contextless" (m: $M/matrix[4, 4]$T) -> (det: T) {
+matrix4x4_determinant :: proc "contextless" (m: $M/matrix[4, 4]$T) -> (det: T) #no_bounds_check {
 	a := adjugate(m)
-	#no_bounds_check for i in 0..<4 {
+	for i in 0..<4 {
 		det += m[0, i] * a[0, i]
 	}
 	return
@@ -482,13 +482,13 @@ matrix4x4_determinant :: proc "contextless" (m: $M/matrix[4, 4]$T) -> (det: T) {
 
 
 @(require_results)
-matrix1x1_adjugate :: proc "contextless" (x: $M/matrix[1, 1]$T) -> (y: M) {
+matrix1x1_adjugate :: proc "contextless" (x: $M/matrix[1, 1]$T) -> (y: M) #no_bounds_check {
 	y = x
 	return
 }
 
 @(require_results)
-matrix2x2_adjugate :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) {
+matrix2x2_adjugate :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) #no_bounds_check {
 	y[0, 0] = +x[1, 1]
 	y[0, 1] = -x[1, 0]
 	y[1, 0] = -x[0, 1]
@@ -497,7 +497,7 @@ matrix2x2_adjugate :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) {
 }
 
 @(require_results)
-matrix3x3_adjugate :: proc "contextless" (m: $M/matrix[3, 3]$T) -> (y: M) {
+matrix3x3_adjugate :: proc "contextless" (m: $M/matrix[3, 3]$T) -> (y: M) #no_bounds_check {
 	y[0, 0] = +(m[1, 1] * m[2, 2] - m[2, 1] * m[1, 2])
 	y[0, 1] = -(m[1, 0] * m[2, 2] - m[2, 0] * m[1, 2])
 	y[0, 2] = +(m[1, 0] * m[2, 1] - m[2, 0] * m[1, 1])
@@ -512,7 +512,7 @@ matrix3x3_adjugate :: proc "contextless" (m: $M/matrix[3, 3]$T) -> (y: M) {
 
 
 @(require_results)
-matrix4x4_adjugate :: proc "contextless" (x: $M/matrix[4, 4]$T) -> (y: M) {
+matrix4x4_adjugate :: proc "contextless" (x: $M/matrix[4, 4]$T) -> (y: M) #no_bounds_check {
 	for i in 0..<4 {
 		for j in 0..<4 {
 			sign: T = 1 if (i + j) % 2 == 0 else -1
@@ -523,13 +523,13 @@ matrix4x4_adjugate :: proc "contextless" (x: $M/matrix[4, 4]$T) -> (y: M) {
 }
 
 @(require_results)
-matrix1x1_inverse_transpose :: proc "contextless" (x: $M/matrix[1, 1]$T) -> (y: M) {
+matrix1x1_inverse_transpose :: proc "contextless" (x: $M/matrix[1, 1]$T) -> (y: M) #no_bounds_check {
 	y[0, 0] = 1/x[0, 0]
 	return
 }
 
 @(require_results)
-matrix2x2_inverse_transpose :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) {
+matrix2x2_inverse_transpose :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) #no_bounds_check {
 	d := x[0, 0]*x[1, 1] - x[0, 1]*x[1, 0]
 	when intrinsics.type_is_integer(T) {
 		y[0, 0] = +x[1, 1] / d
@@ -592,13 +592,13 @@ matrix4x4_inverse_transpose :: proc "contextless" (x: $M/matrix[4, 4]$T) -> (y:
 }
 
 @(require_results)
-matrix1x1_inverse :: proc "contextless" (x: $M/matrix[1, 1]$T) -> (y: M) {
+matrix1x1_inverse :: proc "contextless" (x: $M/matrix[1, 1]$T) -> (y: M) #no_bounds_check {
 	y[0, 0] = 1/x[0, 0]
 	return
 }
 
 @(require_results)
-matrix2x2_inverse :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) {
+matrix2x2_inverse :: proc "contextless" (x: $M/matrix[2, 2]$T) -> (y: M) #no_bounds_check {
 	d := x[0, 0]*x[1, 1] - x[0, 1]*x[1, 0]
 	when intrinsics.type_is_integer(T) {
 		y[0, 0] = +x[1, 1] / d

core/math/linalg/specific.odin

@@ -584,7 +584,7 @@ angle_axis_from_quaternion :: proc {
 
 
 @(require_results)
-quaternion_from_forward_and_up_f16 :: proc "contextless" (forward, up: Vector3f16) -> Quaternionf16 {
+quaternion_from_forward_and_up_f16 :: proc "contextless" (forward, up: Vector3f16) -> Quaternionf16 #no_bounds_check {
 	f := normalize(forward)
 	s := normalize(cross(f, up))
 	u := cross(s, f)
@@ -628,7 +628,7 @@ quaternion_from_forward_and_up_f16 :: proc "contextless" (forward, up: Vector3f1
 	return normalize(q)
 }
 @(require_results)
-quaternion_from_forward_and_up_f32 :: proc "contextless" (forward, up: Vector3f32) -> Quaternionf32 {
+quaternion_from_forward_and_up_f32 :: proc "contextless" (forward, up: Vector3f32) -> Quaternionf32 #no_bounds_check {
 	f := normalize(forward)
 	s := normalize(cross(f, up))
 	u := cross(s, f)
@@ -672,7 +672,7 @@ quaternion_from_forward_and_up_f32 :: proc "contextless" (forward, up: Vector3f3
 	return normalize(q)
 }
 @(require_results)
-quaternion_from_forward_and_up_f64 :: proc "contextless" (forward, up: Vector3f64) -> Quaternionf64 {
+quaternion_from_forward_and_up_f64 :: proc "contextless" (forward, up: Vector3f64) -> Quaternionf64 #no_bounds_check {
 	f := normalize(forward)
 	s := normalize(cross(f, up))
 	u := cross(s, f)
@@ -886,7 +886,7 @@ quaternion_squad :: proc{
 
 
 @(require_results)
-quaternion_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (q: Quaternionf16) {
+quaternion_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (q: Quaternionf16) #no_bounds_check {
 	m3: Matrix3f16 = ---
 	m3[0, 0], m3[1, 0], m3[2, 0] = m[0, 0], m[1, 0], m[2, 0]
 	m3[0, 1], m3[1, 1], m3[2, 1] = m[0, 1], m[1, 1], m[2, 1]
@@ -894,7 +894,7 @@ quaternion_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (q: Quatern
 	return quaternion_from_matrix3(m3)
 }
 @(require_results)
-quaternion_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (q: Quaternionf32) {
+quaternion_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (q: Quaternionf32) #no_bounds_check {
 	m3: Matrix3f32 = ---
 	m3[0, 0], m3[1, 0], m3[2, 0] = m[0, 0], m[1, 0], m[2, 0]
 	m3[0, 1], m3[1, 1], m3[2, 1] = m[0, 1], m[1, 1], m[2, 1]
@@ -902,7 +902,7 @@ quaternion_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (q: Quatern
 	return quaternion_from_matrix3(m3)
 }
 @(require_results)
-quaternion_from_matrix4_f64 :: proc "contextless" (m: Matrix4f64) -> (q: Quaternionf64) {
+quaternion_from_matrix4_f64 :: proc "contextless" (m: Matrix4f64) -> (q: Quaternionf64) #no_bounds_check {
 	m3: Matrix3f64 = ---
 	m3[0, 0], m3[1, 0], m3[2, 0] = m[0, 0], m[1, 0], m[2, 0]
 	m3[0, 1], m3[1, 1], m3[2, 1] = m[0, 1], m[1, 1], m[2, 1]
@@ -917,7 +917,7 @@ quaternion_from_matrix4 :: proc{
 
 
 @(require_results)
-quaternion_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (q: Quaternionf16) {
+quaternion_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (q: Quaternionf16) #no_bounds_check {
 	four_x_squared_minus_1 := m[0, 0] - m[1, 1] - m[2, 2]
 	four_y_squared_minus_1 := m[1, 1] - m[0, 0] - m[2, 2]
 	four_z_squared_minus_1 := m[2, 2] - m[0, 0] - m[1, 1]
@@ -967,7 +967,7 @@ quaternion_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (q: Quatern
 	return
 }
 @(require_results)
-quaternion_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (q: Quaternionf32) {
+quaternion_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (q: Quaternionf32) #no_bounds_check {
 	four_x_squared_minus_1 := m[0, 0] - m[1, 1] - m[2, 2]
 	four_y_squared_minus_1 := m[1, 1] - m[0, 0] - m[2, 2]
 	four_z_squared_minus_1 := m[2, 2] - m[0, 0] - m[1, 1]
@@ -1017,7 +1017,7 @@ quaternion_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (q: Quatern
 	return
 }
 @(require_results)
-quaternion_from_matrix3_f64 :: proc "contextless" (m: Matrix3f64) -> (q: Quaternionf64) {
+quaternion_from_matrix3_f64 :: proc "contextless" (m: Matrix3f64) -> (q: Quaternionf64) #no_bounds_check {
 	four_x_squared_minus_1 := m[0, 0] - m[1, 1] - m[2, 2]
 	four_y_squared_minus_1 := m[1, 1] - m[0, 0] - m[2, 2]
 	four_z_squared_minus_1 := m[2, 2] - m[0, 0] - m[1, 1]
@@ -1147,7 +1147,7 @@ quaternion_between_two_vector3 :: proc{
 
 
 @(require_results)
-matrix2_inverse_transpose_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) {
+matrix2_inverse_transpose_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) #no_bounds_check {
 	d := m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 	id := 1.0/d
 	c[0, 0] = +m[1, 1] * id
@@ -1157,7 +1157,7 @@ matrix2_inverse_transpose_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matri
 	return c
 }
 @(require_results)
-matrix2_inverse_transpose_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) {
+matrix2_inverse_transpose_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) #no_bounds_check {
 	d := m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 	id := 1.0/d
 	c[0, 0] = +m[1, 1] * id
@@ -1167,7 +1167,7 @@ matrix2_inverse_transpose_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matri
 	return c
 }
 @(require_results)
-matrix2_inverse_transpose_f64 :: proc "contextless" (m: Matrix2f64) -> (c: Matrix2f64) {
+matrix2_inverse_transpose_f64 :: proc "contextless" (m: Matrix2f64) -> (c: Matrix2f64) #no_bounds_check {
 	d := m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 	id := 1.0/d
 	c[0, 0] = +m[1, 1] * id
@@ -1184,15 +1184,15 @@ matrix2_inverse_transpose :: proc{
 
 
 @(require_results)
-matrix2_determinant_f16 :: proc "contextless" (m: Matrix2f16) -> f16 {
+matrix2_determinant_f16 :: proc "contextless" (m: Matrix2f16) -> f16 #no_bounds_check {
 	return m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 }
 @(require_results)
-matrix2_determinant_f32 :: proc "contextless" (m: Matrix2f32) -> f32 {
+matrix2_determinant_f32 :: proc "contextless" (m: Matrix2f32) -> f32 #no_bounds_check {
 	return m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 }
 @(require_results)
-matrix2_determinant_f64 :: proc "contextless" (m: Matrix2f64) -> f64 {
+matrix2_determinant_f64 :: proc "contextless" (m: Matrix2f64) -> f64 #no_bounds_check {
 	return m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 }
 matrix2_determinant :: proc{
@@ -1203,7 +1203,7 @@ matrix2_determinant :: proc{
 
 
 @(require_results)
-matrix2_inverse_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) {
+matrix2_inverse_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) #no_bounds_check {
 	d := m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 	id := 1.0/d
 	c[0, 0] = +m[1, 1] * id
@@ -1213,7 +1213,7 @@ matrix2_inverse_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) {
 	return c
 }
 @(require_results)
-matrix2_inverse_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) {
+matrix2_inverse_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) #no_bounds_check {
 	d := m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 	id := 1.0/d
 	c[0, 0] = +m[1, 1] * id
@@ -1223,7 +1223,7 @@ matrix2_inverse_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) {
 	return c
 }
 @(require_results)
-matrix2_inverse_f64 :: proc "contextless" (m: Matrix2f64) -> (c: Matrix2f64) {
+matrix2_inverse_f64 :: proc "contextless" (m: Matrix2f64) -> (c: Matrix2f64) #no_bounds_check {
 	d := m[0, 0]*m[1, 1] - m[0, 1]*m[1, 0]
 	id := 1.0/d
 	c[0, 0] = +m[1, 1] * id
@@ -1240,7 +1240,7 @@ matrix2_inverse :: proc{
 
 
 @(require_results)
-matrix2_adjoint_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) {
+matrix2_adjoint_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) #no_bounds_check {
 	c[0, 0] = +m[1, 1]
 	c[1, 0] = -m[0, 1]
 	c[0, 1] = -m[1, 0]
@@ -1248,7 +1248,7 @@ matrix2_adjoint_f16 :: proc "contextless" (m: Matrix2f16) -> (c: Matrix2f16) {
 	return c
 }
 @(require_results)
-matrix2_adjoint_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) {
+matrix2_adjoint_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) #no_bounds_check {
 	c[0, 0] = +m[1, 1]
 	c[1, 0] = -m[0, 1]
 	c[0, 1] = -m[1, 0]
@@ -1256,7 +1256,7 @@ matrix2_adjoint_f32 :: proc "contextless" (m: Matrix2f32) -> (c: Matrix2f32) {
 	return c
 }
 @(require_results)
-matrix2_adjoint_f64 :: proc "contextless" (m: Matrix2f64) -> (c: Matrix2f64) {
+matrix2_adjoint_f64 :: proc "contextless" (m: Matrix2f64) -> (c: Matrix2f64) #no_bounds_check {
 	c[0, 0] = +m[1, 1]
 	c[1, 0] = -m[0, 1]
 	c[0, 1] = -m[1, 0]
@@ -1308,7 +1308,7 @@ matrix2_rotate :: proc{
 
 
 @(require_results)
-matrix3_from_quaternion_f16 :: proc "contextless" (q: Quaternionf16) -> (m: Matrix3f16) {
+matrix3_from_quaternion_f16 :: proc "contextless" (q: Quaternionf16) -> (m: Matrix3f16) #no_bounds_check {
 	qxx := q.x * q.x
 	qyy := q.y * q.y
 	qzz := q.z * q.z
@@ -1333,7 +1333,7 @@ matrix3_from_quaternion_f16 :: proc "contextless" (q: Quaternionf16) -> (m: Matr
 	return m
 }
 @(require_results)
-matrix3_from_quaternion_f32 :: proc "contextless" (q: Quaternionf32) -> (m: Matrix3f32) {
+matrix3_from_quaternion_f32 :: proc "contextless" (q: Quaternionf32) -> (m: Matrix3f32) #no_bounds_check {
 	qxx := q.x * q.x
 	qyy := q.y * q.y
 	qzz := q.z * q.z
@@ -1358,7 +1358,7 @@ matrix3_from_quaternion_f32 :: proc "contextless" (q: Quaternionf32) -> (m: Matr
 	return m
 }
 @(require_results)
-matrix3_from_quaternion_f64 :: proc "contextless" (q: Quaternionf64) -> (m: Matrix3f64) {
+matrix3_from_quaternion_f64 :: proc "contextless" (q: Quaternionf64) -> (m: Matrix3f64) #no_bounds_check {
 	qxx := q.x * q.x
 	qyy := q.y * q.y
 	qzz := q.z * q.z
@@ -1409,21 +1409,21 @@ matrix3_inverse :: proc{
 
 
 @(require_results)
-matrix3_determinant_f16 :: proc "contextless" (m: Matrix3f16) -> f16 {
+matrix3_determinant_f16 :: proc "contextless" (m: Matrix3f16) -> f16 #no_bounds_check {
 	a := +m[0, 0] * (m[1, 1] * m[2, 2] - m[1, 2] * m[2, 1])
 	b := -m[0, 1] * (m[1, 0] * m[2, 2] - m[1, 2] * m[2, 0])
 	c := +m[0, 2] * (m[1, 0] * m[2, 1] - m[1, 1] * m[2, 0])
 	return a + b + c
 }
 @(require_results)
-matrix3_determinant_f32 :: proc "contextless" (m: Matrix3f32) -> f32 {
+matrix3_determinant_f32 :: proc "contextless" (m: Matrix3f32) -> f32 #no_bounds_check {
 	a := +m[0, 0] * (m[1, 1] * m[2, 2] - m[1, 2] * m[2, 1])
 	b := -m[0, 1] * (m[1, 0] * m[2, 2] - m[1, 2] * m[2, 0])
 	c := +m[0, 2] * (m[1, 0] * m[2, 1] - m[1, 1] * m[2, 0])
 	return a + b + c
 }
 @(require_results)
-matrix3_determinant_f64 :: proc "contextless" (m: Matrix3f64) -> f64 {
+matrix3_determinant_f64 :: proc "contextless" (m: Matrix3f64) -> f64 #no_bounds_check {
 	a := +m[0, 0] * (m[1, 1] * m[2, 2] - m[1, 2] * m[2, 1])
 	b := -m[0, 1] * (m[1, 0] * m[2, 2] - m[1, 2] * m[2, 0])
 	c := +m[0, 2] * (m[1, 0] * m[2, 1] - m[1, 1] * m[2, 0])
@@ -1437,7 +1437,7 @@ matrix3_determinant :: proc{
 
 
 @(require_results)
-matrix3_adjoint_f16 :: proc "contextless" (m: Matrix3f16) -> (adjoint: Matrix3f16) {
+matrix3_adjoint_f16 :: proc "contextless" (m: Matrix3f16) -> (adjoint: Matrix3f16) #no_bounds_check {
 	adjoint[0, 0] = +(m[1, 1] * m[2, 2] - m[2, 1] * m[1, 2])
 	adjoint[0, 1] = -(m[1, 0] * m[2, 2] - m[2, 0] * m[1, 2])
 	adjoint[0, 2] = +(m[1, 0] * m[2, 1] - m[2, 0] * m[1, 1])
@@ -1450,7 +1450,7 @@ matrix3_adjoint_f16 :: proc "contextless" (m: Matrix3f16) -> (adjoint: Matrix3f1
 	return adjoint
 }
 @(require_results)
-matrix3_adjoint_f32 :: proc "contextless" (m: Matrix3f32) -> (adjoint: Matrix3f32) {
+matrix3_adjoint_f32 :: proc "contextless" (m: Matrix3f32) -> (adjoint: Matrix3f32) #no_bounds_check {
 	adjoint[0, 0] = +(m[1, 1] * m[2, 2] - m[2, 1] * m[1, 2])
 	adjoint[0, 1] = -(m[1, 0] * m[2, 2] - m[2, 0] * m[1, 2])
 	adjoint[0, 2] = +(m[1, 0] * m[2, 1] - m[2, 0] * m[1, 1])
@@ -1463,7 +1463,7 @@ matrix3_adjoint_f32 :: proc "contextless" (m: Matrix3f32) -> (adjoint: Matrix3f3
 	return adjoint
 }
 @(require_results)
-matrix3_adjoint_f64 :: proc "contextless" (m: Matrix3f64) -> (adjoint: Matrix3f64) {
+matrix3_adjoint_f64 :: proc "contextless" (m: Matrix3f64) -> (adjoint: Matrix3f64) #no_bounds_check {
 	adjoint[0, 0] = +(m[1, 1] * m[2, 2] - m[2, 1] * m[1, 2])
 	adjoint[0, 1] = -(m[1, 0] * m[2, 2] - m[2, 0] * m[1, 2])
 	adjoint[0, 2] = +(m[1, 0] * m[2, 1] - m[2, 0] * m[1, 1])
@@ -1503,21 +1503,21 @@ matrix3_inverse_transpose :: proc{
 
 
 @(require_results)
-matrix3_scale_f16 :: proc "contextless" (s: Vector3f16) -> (m: Matrix3f16) {
+matrix3_scale_f16 :: proc "contextless" (s: Vector3f16) -> (m: Matrix3f16) #no_bounds_check {
 	m[0, 0] = s[0]
 	m[1, 1] = s[1]
 	m[2, 2] = s[2]
 	return m
 }
 @(require_results)
-matrix3_scale_f32 :: proc "contextless" (s: Vector3f32) -> (m: Matrix3f32) {
+matrix3_scale_f32 :: proc "contextless" (s: Vector3f32) -> (m: Matrix3f32) #no_bounds_check {
 	m[0, 0] = s[0]
 	m[1, 1] = s[1]
 	m[2, 2] = s[2]
 	return m
 }
 @(require_results)
-matrix3_scale_f64 :: proc "contextless" (s: Vector3f64) -> (m: Matrix3f64) {
+matrix3_scale_f64 :: proc "contextless" (s: Vector3f64) -> (m: Matrix3f64) #no_bounds_check {
 	m[0, 0] = s[0]
 	m[1, 1] = s[1]
 	m[2, 2] = s[2]
@@ -1531,7 +1531,7 @@ matrix3_scale :: proc{
 
 
 @(require_results)
-matrix3_rotate_f16 :: proc "contextless" (angle_radians: f16, v: Vector3f16) -> (rot: Matrix3f16) {
+matrix3_rotate_f16 :: proc "contextless" (angle_radians: f16, v: Vector3f16) -> (rot: Matrix3f16) #no_bounds_check {
 	c := math.cos(angle_radians)
 	s := math.sin(angle_radians)
 
@@ -1553,7 +1553,7 @@ matrix3_rotate_f16 :: proc "contextless" (angle_radians: f16, v: Vector3f16) ->
 	return rot
 }
 @(require_results)
-matrix3_rotate_f32 :: proc "contextless" (angle_radians: f32, v: Vector3f32) -> (rot: Matrix3f32) {
+matrix3_rotate_f32 :: proc "contextless" (angle_radians: f32, v: Vector3f32) -> (rot: Matrix3f32) #no_bounds_check {
 	c := math.cos(angle_radians)
 	s := math.sin(angle_radians)
 
@@ -1644,7 +1644,7 @@ matrix3_look_at :: proc{
 
 
 @(require_results)
-matrix4_from_quaternion_f16 :: proc "contextless" (q: Quaternionf16) -> (m: Matrix4f16) {
+matrix4_from_quaternion_f16 :: proc "contextless" (q: Quaternionf16) -> (m: Matrix4f16) #no_bounds_check {
 	qxx := q.x * q.x
 	qyy := q.y * q.y
 	qzz := q.z * q.z
@@ -1672,7 +1672,7 @@ matrix4_from_quaternion_f16 :: proc "contextless" (q: Quaternionf16) -> (m: Matr
 	return m
 }
 @(require_results)
-matrix4_from_quaternion_f32 :: proc "contextless" (q: Quaternionf32) -> (m: Matrix4f32) {
+matrix4_from_quaternion_f32 :: proc "contextless" (q: Quaternionf32) -> (m: Matrix4f32) #no_bounds_check {
 	qxx := q.x * q.x
 	qyy := q.y * q.y
 	qzz := q.z * q.z
@@ -1700,7 +1700,7 @@ matrix4_from_quaternion_f32 :: proc "contextless" (q: Quaternionf32) -> (m: Matr
 	return m
 }
 @(require_results)
-matrix4_from_quaternion_f64 :: proc "contextless" (q: Quaternionf64) -> (m: Matrix4f64) {
+matrix4_from_quaternion_f64 :: proc "contextless" (q: Quaternionf64) -> (m: Matrix4f64) #no_bounds_check {
 	qxx := q.x * q.x
 	qyy := q.y * q.y
 	qzz := q.z * q.z
@@ -1783,7 +1783,7 @@ matrix4_inverse :: proc{
 
 
 @(require_results)
-matrix4_minor_f16 :: proc "contextless" (m: Matrix4f16, c, r: int) -> f16 {
+matrix4_minor_f16 :: proc "contextless" (m: Matrix4f16, c, r: int) -> f16 #no_bounds_check {
 	cut_down: Matrix3f16
 	for i in 0..<3 {
 		col := i if i < c else i+1
@@ -1795,7 +1795,7 @@ matrix4_minor_f16 :: proc "contextless" (m: Matrix4f16, c, r: int) -> f16 {
 	return matrix3_determinant(cut_down)
 }
 @(require_results)
-matrix4_minor_f32 :: proc "contextless" (m: Matrix4f32, c, r: int) -> f32 {
+matrix4_minor_f32 :: proc "contextless" (m: Matrix4f32, c, r: int) -> f32 #no_bounds_check {
 	cut_down: Matrix3f32
 	for i in 0..<3 {
 		col := i if i < c else i+1
@@ -1807,7 +1807,7 @@ matrix4_minor_f32 :: proc "contextless" (m: Matrix4f32, c, r: int) -> f32 {
 	return matrix3_determinant(cut_down)
 }
 @(require_results)
-matrix4_minor_f64 :: proc "contextless" (m: Matrix4f64, c, r: int) -> f64 {
+matrix4_minor_f64 :: proc "contextless" (m: Matrix4f64, c, r: int) -> f64 #no_bounds_check {
 	cut_down: Matrix3f64
 	for i in 0..<3 {
 		col := i if i < c else i+1
@@ -1854,7 +1854,7 @@ matrix4_cofactor :: proc{
 
 
 @(require_results)
-matrix4_adjoint_f16 :: proc "contextless" (m: Matrix4f16) -> (adjoint: Matrix4f16) {
+matrix4_adjoint_f16 :: proc "contextless" (m: Matrix4f16) -> (adjoint: Matrix4f16) #no_bounds_check {
 	for i in 0..<4 {
 		for j in 0..<4 {
 			adjoint[i][j] = matrix4_cofactor(m, i, j)
@@ -1863,7 +1863,7 @@ matrix4_adjoint_f16 :: proc "contextless" (m: Matrix4f16) -> (adjoint: Matrix4f1
 	return
 }
 @(require_results)
-matrix4_adjoint_f32 :: proc "contextless" (m: Matrix4f32) -> (adjoint: Matrix4f32) {
+matrix4_adjoint_f32 :: proc "contextless" (m: Matrix4f32) -> (adjoint: Matrix4f32) #no_bounds_check {
 	for i in 0..<4 {
 		for j in 0..<4 {
 			adjoint[i][j] = matrix4_cofactor(m, i, j)
@@ -1872,7 +1872,7 @@ matrix4_adjoint_f32 :: proc "contextless" (m: Matrix4f32) -> (adjoint: Matrix4f3
 	return
 }
 @(require_results)
-matrix4_adjoint_f64 :: proc "contextless" (m: Matrix4f64) -> (adjoint: Matrix4f64) {
+matrix4_adjoint_f64 :: proc "contextless" (m: Matrix4f64) -> (adjoint: Matrix4f64) #no_bounds_check {
 	for i in 0..<4 {
 		for j in 0..<4 {
 			adjoint[i][j] = matrix4_cofactor(m, i, j)
@@ -1888,7 +1888,7 @@ matrix4_adjoint :: proc{
 
 
 @(require_results)
-matrix4_determinant_f16 :: proc "contextless" (m: Matrix4f16) -> (determinant: f16) {
+matrix4_determinant_f16 :: proc "contextless" (m: Matrix4f16) -> (determinant: f16) #no_bounds_check {
 	adjoint := matrix4_adjoint(m)
 	for i in 0..<4 {
 		determinant += m[i][0] * adjoint[i][0]
@@ -1896,7 +1896,7 @@ matrix4_determinant_f16 :: proc "contextless" (m: Matrix4f16) -> (determinant: f
 	return
 }
 @(require_results)
-matrix4_determinant_f32 :: proc "contextless" (m: Matrix4f32) -> (determinant: f32) {
+matrix4_determinant_f32 :: proc "contextless" (m: Matrix4f32) -> (determinant: f32) #no_bounds_check {
 	adjoint := matrix4_adjoint(m)
 	for i in 0..<4 {
 		determinant += m[i][0] * adjoint[i][0]
@@ -1904,7 +1904,7 @@ matrix4_determinant_f32 :: proc "contextless" (m: Matrix4f32) -> (determinant: f
 	return
 }
 @(require_results)
-matrix4_determinant_f64 :: proc "contextless" (m: Matrix4f64) -> (determinant: f64) {
+matrix4_determinant_f64 :: proc "contextless" (m: Matrix4f64) -> (determinant: f64) #no_bounds_check {
 	adjoint := matrix4_adjoint(m)
 	for i in 0..<4 {
 		determinant += m[i][0] * adjoint[i][0]
@@ -1919,7 +1919,7 @@ matrix4_determinant :: proc{
 
 
 @(require_results)
-matrix4_inverse_transpose_f16 :: proc "contextless" (m: Matrix4f16) -> (inverse_transpose: Matrix4f16) {
+matrix4_inverse_transpose_f16 :: proc "contextless" (m: Matrix4f16) -> (inverse_transpose: Matrix4f16) #no_bounds_check {
 	adjoint := matrix4_adjoint(m)
 	determinant: f16 = 0
 	for i in 0..<4 {
@@ -1934,7 +1934,7 @@ matrix4_inverse_transpose_f16 :: proc "contextless" (m: Matrix4f16) -> (inverse_
 	return
 }
 @(require_results)
-matrix4_inverse_transpose_f32 :: proc "contextless" (m: Matrix4f32) -> (inverse_transpose: Matrix4f32) {
+matrix4_inverse_transpose_f32 :: proc "contextless" (m: Matrix4f32) -> (inverse_transpose: Matrix4f32) #no_bounds_check {
 	adjoint := matrix4_adjoint(m)
 	determinant: f32 = 0
 	for i in 0..<4 {
@@ -1949,7 +1949,7 @@ matrix4_inverse_transpose_f32 :: proc "contextless" (m: Matrix4f32) -> (inverse_
 	return
 }
 @(require_results)
-matrix4_inverse_transpose_f64 :: proc "contextless" (m: Matrix4f64) -> (inverse_transpose: Matrix4f64) {
+matrix4_inverse_transpose_f64 :: proc "contextless" (m: Matrix4f64) -> (inverse_transpose: Matrix4f64) #no_bounds_check {
 	adjoint := matrix4_adjoint(m)
 	determinant: f64 = 0
 	for i in 0..<4 {
@@ -1971,7 +1971,7 @@ matrix4_inverse_transpose :: proc{
 
 
 @(require_results)
-matrix4_translate_f16 :: proc "contextless" (v: Vector3f16) -> Matrix4f16 {
+matrix4_translate_f16 :: proc "contextless" (v: Vector3f16) -> Matrix4f16 #no_bounds_check {
 	m := MATRIX4F16_IDENTITY
 	m[3][0] = v[0]
 	m[3][1] = v[1]
@@ -1979,7 +1979,7 @@ matrix4_translate_f16 :: proc "contextless" (v: Vector3f16) -> Matrix4f16 {
 	return m
 }
 @(require_results)
-matrix4_translate_f32 :: proc "contextless" (v: Vector3f32) -> Matrix4f32 {
+matrix4_translate_f32 :: proc "contextless" (v: Vector3f32) -> Matrix4f32 #no_bounds_check {
 	m := MATRIX4F32_IDENTITY
 	m[3][0] = v[0]
 	m[3][1] = v[1]
@@ -1987,7 +1987,7 @@ matrix4_translate_f32 :: proc "contextless" (v: Vector3f32) -> Matrix4f32 {
 	return m
 }
 @(require_results)
-matrix4_translate_f64 :: proc "contextless" (v: Vector3f64) -> Matrix4f64 {
+matrix4_translate_f64 :: proc "contextless" (v: Vector3f64) -> Matrix4f64 #no_bounds_check {
 	m := MATRIX4F64_IDENTITY
 	m[3][0] = v[0]
 	m[3][1] = v[1]
@@ -2002,7 +2002,7 @@ matrix4_translate :: proc{
 
 
 @(require_results)
-matrix4_rotate_f16 :: proc "contextless" (angle_radians: f16, v: Vector3f16) -> Matrix4f16 {
+matrix4_rotate_f16 :: proc "contextless" (angle_radians: f16, v: Vector3f16) -> Matrix4f16 #no_bounds_check {
 	c := math.cos(angle_radians)
 	s := math.sin(angle_radians)
 
@@ -2029,7 +2029,7 @@ matrix4_rotate_f16 :: proc "contextless" (angle_radians: f16, v: Vector3f16) ->
 	return rot
 }
 @(require_results)
-matrix4_rotate_f32 :: proc "contextless" (angle_radians: f32, v: Vector3f32) -> Matrix4f32 {
+matrix4_rotate_f32 :: proc "contextless" (angle_radians: f32, v: Vector3f32) -> Matrix4f32 #no_bounds_check {
 	c := math.cos(angle_radians)
 	s := math.sin(angle_radians)
 
@@ -2056,7 +2056,7 @@ matrix4_rotate_f32 :: proc "contextless" (angle_radians: f32, v: Vector3f32) ->
 	return rot
 }
 @(require_results)
-matrix4_rotate_f64 :: proc "contextless" (angle_radians: f64, v: Vector3f64) -> Matrix4f64 {
+matrix4_rotate_f64 :: proc "contextless" (angle_radians: f64, v: Vector3f64) -> Matrix4f64 #no_bounds_check {
 	c := math.cos(angle_radians)
 	s := math.sin(angle_radians)
 
@@ -2090,7 +2090,7 @@ matrix4_rotate :: proc{
 
 
 @(require_results)
-matrix4_scale_f16 :: proc "contextless" (v: Vector3f16) -> (m: Matrix4f16) {
+matrix4_scale_f16 :: proc "contextless" (v: Vector3f16) -> (m: Matrix4f16) #no_bounds_check {
 	m[0][0] = v[0]
 	m[1][1] = v[1]
 	m[2][2] = v[2]
@@ -2098,7 +2098,7 @@ matrix4_scale_f16 :: proc "contextless" (v: Vector3f16) -> (m: Matrix4f16) {
 	return
 }
 @(require_results)
-matrix4_scale_f32 :: proc "contextless" (v: Vector3f32) -> (m: Matrix4f32) {
+matrix4_scale_f32 :: proc "contextless" (v: Vector3f32) -> (m: Matrix4f32) #no_bounds_check {
 	m[0][0] = v[0]
 	m[1][1] = v[1]
 	m[2][2] = v[2]
@@ -2106,7 +2106,7 @@ matrix4_scale_f32 :: proc "contextless" (v: Vector3f32) -> (m: Matrix4f32) {
 	return
 }
 @(require_results)
-matrix4_scale_f64 :: proc "contextless" (v: Vector3f64) -> (m: Matrix4f64) {
+matrix4_scale_f64 :: proc "contextless" (v: Vector3f64) -> (m: Matrix4f64) #no_bounds_check {
 	m[0][0] = v[0]
 	m[1][1] = v[1]
 	m[2][2] = v[2]
@@ -2225,7 +2225,7 @@ matrix4_look_at_from_fru :: proc{
 
 
 @(require_results)
-matrix4_perspective_f16 :: proc "contextless" (fovy, aspect, near, far: f16, flip_z_axis := true) -> (m: Matrix4f16) {
+matrix4_perspective_f16 :: proc "contextless" (fovy, aspect, near, far: f16, flip_z_axis := true) -> (m: Matrix4f16) #no_bounds_check {
 	tan_half_fovy := math.tan(0.5 * fovy)
 	m[0, 0] = 1 / (aspect*tan_half_fovy)
 	m[1, 1] = 1 / (tan_half_fovy)
@@ -2240,7 +2240,7 @@ matrix4_perspective_f16 :: proc "contextless" (fovy, aspect, near, far: f16, fli
 	return
 }
 @(require_results)
-matrix4_perspective_f32 :: proc "contextless" (fovy, aspect, near, far: f32, flip_z_axis := true) -> (m: Matrix4f32) {
+matrix4_perspective_f32 :: proc "contextless" (fovy, aspect, near, far: f32, flip_z_axis := true) -> (m: Matrix4f32) #no_bounds_check {
 	tan_half_fovy := math.tan(0.5 * fovy)
 	m[0, 0] = 1 / (aspect*tan_half_fovy)
 	m[1, 1] = 1 / (tan_half_fovy)
@@ -2255,7 +2255,7 @@ matrix4_perspective_f32 :: proc "contextless" (fovy, aspect, near, far: f32, fli
 	return
 }
 @(require_results)
-matrix4_perspective_f64 :: proc "contextless" (fovy, aspect, near, far: f64, flip_z_axis := true) -> (m: Matrix4f64) {
+matrix4_perspective_f64 :: proc "contextless" (fovy, aspect, near, far: f64, flip_z_axis := true) -> (m: Matrix4f64) #no_bounds_check {
 	tan_half_fovy := math.tan(0.5 * fovy)
 	m[0, 0] = 1 / (aspect*tan_half_fovy)
 	m[1, 1] = 1 / (tan_half_fovy)
@@ -2278,7 +2278,7 @@ matrix4_perspective :: proc{
 
 
 @(require_results)
-matrix_ortho3d_f16 :: proc "contextless" (left, right, bottom, top, near, far: f16, flip_z_axis := true) -> (m: Matrix4f16) {
+matrix_ortho3d_f16 :: proc "contextless" (left, right, bottom, top, near, far: f16, flip_z_axis := true) -> (m: Matrix4f16) #no_bounds_check {
 	m[0, 0] = +2 / (right - left)
 	m[1, 1] = +2 / (top - bottom)
 	m[2, 2] = +2 / (far - near)
@@ -2294,7 +2294,7 @@ matrix_ortho3d_f16 :: proc "contextless" (left, right, bottom, top, near, far: f
 	return
 }
 @(require_results)
-matrix_ortho3d_f32 :: proc "contextless" (left, right, bottom, top, near, far: f32, flip_z_axis := true) -> (m: Matrix4f32) {
+matrix_ortho3d_f32 :: proc "contextless" (left, right, bottom, top, near, far: f32, flip_z_axis := true) -> (m: Matrix4f32) #no_bounds_check {
 	m[0, 0] = +2 / (right - left)
 	m[1, 1] = +2 / (top - bottom)
 	m[2, 2] = +2 / (far - near)
@@ -2310,7 +2310,7 @@ matrix_ortho3d_f32 :: proc "contextless" (left, right, bottom, top, near, far: f
 	return
 }
 @(require_results)
-matrix_ortho3d_f64 :: proc "contextless" (left, right, bottom, top, near, far: f64, flip_z_axis := true) -> (m: Matrix4f64) {
+matrix_ortho3d_f64 :: proc "contextless" (left, right, bottom, top, near, far: f64, flip_z_axis := true) -> (m: Matrix4f64) #no_bounds_check {
 	m[0, 0] = +2 / (right - left)
 	m[1, 1] = +2 / (top - bottom)
 	m[2, 2] = +2 / (far - near)
@@ -2334,7 +2334,7 @@ matrix_ortho3d :: proc{
 
 
 @(require_results)
-matrix4_infinite_perspective_f16 :: proc "contextless" (fovy, aspect, near: f16, flip_z_axis := true) -> (m: Matrix4f16) {
+matrix4_infinite_perspective_f16 :: proc "contextless" (fovy, aspect, near: f16, flip_z_axis := true) -> (m: Matrix4f16) #no_bounds_check {
 	tan_half_fovy := math.tan(0.5 * fovy)
 	m[0, 0] = 1 / (aspect*tan_half_fovy)
 	m[1, 1] = 1 / (tan_half_fovy)
@@ -2349,7 +2349,7 @@ matrix4_infinite_perspective_f16 :: proc "contextless" (fovy, aspect, near: f16,
 	return
 }
 @(require_results)
-matrix4_infinite_perspective_f32 :: proc "contextless" (fovy, aspect, near: f32, flip_z_axis := true) -> (m: Matrix4f32) {
+matrix4_infinite_perspective_f32 :: proc "contextless" (fovy, aspect, near: f32, flip_z_axis := true) -> (m: Matrix4f32) #no_bounds_check {
 	tan_half_fovy := math.tan(0.5 * fovy)
 	m[0, 0] = 1 / (aspect*tan_half_fovy)
 	m[1, 1] = 1 / (tan_half_fovy)
@@ -2364,7 +2364,7 @@ matrix4_infinite_perspective_f32 :: proc "contextless" (fovy, aspect, near: f32,
 	return
 }
 @(require_results)
-matrix4_infinite_perspective_f64 :: proc "contextless" (fovy, aspect, near: f64, flip_z_axis := true) -> (m: Matrix4f64) {
+matrix4_infinite_perspective_f64 :: proc "contextless" (fovy, aspect, near: f64, flip_z_axis := true) -> (m: Matrix4f64) #no_bounds_check {
 	tan_half_fovy := math.tan(0.5 * fovy)
 	m[0, 0] = 1 / (aspect*tan_half_fovy)
 	m[1, 1] = 1 / (tan_half_fovy)
@@ -2387,19 +2387,19 @@ matrix4_infinite_perspective :: proc{
 
 
 @(require_results)
-matrix2_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix2f16) {
+matrix2_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix2f16) #no_bounds_check {
 	m[0, 0], m[1, 0] = f, 0
 	m[0, 1], m[1, 1] = 0, f
 	return
 }
 @(require_results)
-matrix2_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix2f32) {
+matrix2_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix2f32) #no_bounds_check {
 	m[0, 0], m[1, 0] = f, 0
 	m[0, 1], m[1, 1] = 0, f
 	return
 }
 @(require_results)
-matrix2_from_scalar_f64 :: proc "contextless" (f: f64) -> (m: Matrix2f64) {
+matrix2_from_scalar_f64 :: proc "contextless" (f: f64) -> (m: Matrix2f64) #no_bounds_check {
 	m[0, 0], m[1, 0] = f, 0
 	m[0, 1], m[1, 1] = 0, f
 	return
@@ -2412,21 +2412,21 @@ matrix2_from_scalar :: proc{
 
 
 @(require_results)
-matrix3_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix3f16) {
+matrix3_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix3f16) #no_bounds_check {
 	m[0, 0], m[1, 0], m[2, 0] = f, 0, 0
 	m[0, 1], m[1, 1], m[2, 1] = 0, f, 0
 	m[0, 2], m[1, 2], m[2, 2] = 0, 0, f
 	return
 }
 @(require_results)
-matrix3_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix3f32) {
+matrix3_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix3f32) #no_bounds_check {
 	m[0, 0], m[1, 0], m[2, 0] = f, 0, 0
 	m[0, 1], m[1, 1], m[2, 1] = 0, f, 0
 	m[0, 2], m[1, 2], m[2, 2] = 0, 0, f
 	return
 }
 @(require_results)
-matrix3_from_scalar_f64 :: proc "contextless" (f: f64) -> (m: Matrix3f64) {
+matrix3_from_scalar_f64 :: proc "contextless" (f: f64) -> (m: Matrix3f64) #no_bounds_check {
 	m[0, 0], m[1, 0], m[2, 0] = f, 0, 0
 	m[0, 1], m[1, 1], m[2, 1] = 0, f, 0
 	m[0, 2], m[1, 2], m[2, 2] = 0, 0, f
@@ -2440,7 +2440,7 @@ matrix3_from_scalar :: proc{
 
 
 @(require_results)
-matrix4_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix4f16) {
+matrix4_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix4f16) #no_bounds_check {
 	m[0, 0], m[1, 0], m[2, 0], m[3, 0] = f, 0, 0, 0
 	m[0, 1], m[1, 1], m[2, 1], m[3, 1] = 0, f, 0, 0
 	m[0, 2], m[1, 2], m[2, 2], m[3, 2] = 0, 0, f, 0
@@ -2448,7 +2448,7 @@ matrix4_from_scalar_f16 :: proc "contextless" (f: f16) -> (m: Matrix4f16) {
 	return
 }
 @(require_results)
-matrix4_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix4f32) {
+matrix4_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix4f32) #no_bounds_check {
 	m[0, 0], m[1, 0], m[2, 0], m[3, 0] = f, 0, 0, 0
 	m[0, 1], m[1, 1], m[2, 1], m[3, 1] = 0, f, 0, 0
 	m[0, 2], m[1, 2], m[2, 2], m[3, 2] = 0, 0, f, 0
@@ -2456,7 +2456,7 @@ matrix4_from_scalar_f32 :: proc "contextless" (f: f32) -> (m: Matrix4f32) {
 	return
 }
 @(require_results)
-matrix4_from_scalar_f64 :: proc "contextless" (f: f64) -> (m: Matrix4f64) {
+matrix4_from_scalar_f64 :: proc "contextless" (f: f64) -> (m: Matrix4f64) #no_bounds_check {
 	m[0, 0], m[1, 0], m[2, 0], m[3, 0] = f, 0, 0, 0
 	m[0, 1], m[1, 1], m[2, 1], m[3, 1] = 0, f, 0, 0
 	m[0, 2], m[1, 2], m[2, 2], m[3, 2] = 0, 0, f, 0
@@ -2471,19 +2471,19 @@ matrix4_from_scalar :: proc{
 
 
 @(require_results)
-matrix2_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix2f16) {
+matrix2_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix2f16) #no_bounds_check {
 	r[0, 0], r[1, 0] = m[0, 0], m[1, 0]
 	r[0, 1], r[1, 1] = m[0, 1], m[1, 1]
 	return
 }
 @(require_results)
-matrix2_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix2f32) {
+matrix2_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix2f32) #no_bounds_check {
 	r[0, 0], r[1, 0] = m[0, 0], m[1, 0]
 	r[0, 1], r[1, 1] = m[0, 1], m[1, 1]
 	return
 }
 @(require_results)
-matrix2_from_matrix3_f64 :: proc "contextless" (m: Matrix3f64) -> (r: Matrix2f64) {
+matrix2_from_matrix3_f64 :: proc "contextless" (m: Matrix3f64) -> (r: Matrix2f64) #no_bounds_check {
 	r[0, 0], r[1, 0] = m[0, 0], m[1, 0]
 	r[0, 1], r[1, 1] = m[0, 1], m[1, 1]
 	return
@@ -2496,19 +2496,19 @@ matrix2_from_matrix3 :: proc{
 
 
 @(require_results)
-matrix2_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (r: Matrix2f16) {
+matrix2_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (r: Matrix2f16) #no_bounds_check {
 	r[0, 0], r[1, 0] = m[0, 0], m[1, 0]
 	r[0, 1], r[1, 1] = m[0, 1], m[1, 1]
 	return
 }
 @(require_results)
-matrix2_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (r: Matrix2f32) {
+matrix2_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (r: Matrix2f32) #no_bounds_check {
 	r[0, 0], r[1, 0] = m[0, 0], m[1, 0]
 	r[0, 1], r[1, 1] = m[0, 1], m[1, 1]
 	return
 }
 @(require_results)
-matrix2_from_matrix4_f64 :: proc "contextless" (m: Matrix4f64) -> (r: Matrix2f64) {
+matrix2_from_matrix4_f64 :: proc "contextless" (m: Matrix4f64) -> (r: Matrix2f64) #no_bounds_check {
 	r[0, 0], r[1, 0] = m[0, 0], m[1, 0]
 	r[0, 1], r[1, 1] = m[0, 1], m[1, 1]
 	return
@@ -2521,21 +2521,21 @@ matrix2_from_matrix4 :: proc{
 
 
 @(require_results)
-matrix3_from_matrix2_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix3f16) {
+matrix3_from_matrix2_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix3f16) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0] = m[0, 0], m[1, 0], 0
 	r[0, 1], r[1, 1], r[2, 1] = m[0, 1], m[1, 1], 0
 	r[0, 2], r[1, 2], r[2, 2] =       0,       0, 1
 	return
 }
 @(require_results)
-matrix3_from_matrix2_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix3f32) {
+matrix3_from_matrix2_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix3f32) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0] = m[0, 0], m[1, 0], 0
 	r[0, 1], r[1, 1], r[2, 1] = m[0, 1], m[1, 1], 0
 	r[0, 2], r[1, 2], r[2, 2] =       0,       0, 1
 	return
 }
 @(require_results)
-matrix3_from_matrix2_f64 :: proc "contextless" (m: Matrix2f64) -> (r: Matrix3f64) {
+matrix3_from_matrix2_f64 :: proc "contextless" (m: Matrix2f64) -> (r: Matrix3f64) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0] = m[0, 0], m[1, 0], 0
 	r[0, 1], r[1, 1], r[2, 1] = m[0, 1], m[1, 1], 0
 	r[0, 2], r[1, 2], r[2, 2] =       0,       0, 1
@@ -2549,21 +2549,21 @@ matrix3_from_matrix2 :: proc{
 
 
 @(require_results)
-matrix3_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (r: Matrix3f16) {
+matrix3_from_matrix4_f16 :: proc "contextless" (m: Matrix4f16) -> (r: Matrix3f16) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0] = m[0, 0], m[1, 0], m[2, 0]
 	r[0, 1], r[1, 1], r[2, 1] = m[0, 1], m[1, 1], m[2, 1]
 	r[0, 2], r[1, 2], r[2, 2] = m[0, 2], m[1, 2], m[2, 2]
 	return
 }
 @(require_results)
-matrix3_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (r: Matrix3f32) {
+matrix3_from_matrix4_f32 :: proc "contextless" (m: Matrix4f32) -> (r: Matrix3f32) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0] = m[0, 0], m[1, 0], m[2, 0]
 	r[0, 1], r[1, 1], r[2, 1] = m[0, 1], m[1, 1], m[2, 1]
 	r[0, 2], r[1, 2], r[2, 2] = m[0, 2], m[1, 2], m[2, 2]
 	return
 }
 @(require_results)
-matrix3_from_matrix4_f64 :: proc "contextless" (m: Matrix4f64) -> (r: Matrix3f64) {
+matrix3_from_matrix4_f64 :: proc "contextless" (m: Matrix4f64) -> (r: Matrix3f64) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0] = m[0, 0], m[1, 0], m[2, 0]
 	r[0, 1], r[1, 1], r[2, 1] = m[0, 1], m[1, 1], m[2, 1]
 	r[0, 2], r[1, 2], r[2, 2] = m[0, 2], m[1, 2], m[2, 2]
@@ -2577,7 +2577,7 @@ matrix3_from_matrix4 :: proc{
 
 
 @(require_results)
-matrix4_from_matrix2_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix4f16) {
+matrix4_from_matrix2_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix4f16) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0], r[3, 0] = m[0, 0], m[1, 0], 0, 0
 	r[0, 1], r[1, 1], r[2, 1], r[3, 1] = m[0, 1], m[1, 1], 0, 0
 	r[0, 2], r[1, 2], r[2, 2], r[3, 2] =       0,       0, 1, 0
@@ -2585,7 +2585,7 @@ matrix4_from_matrix2_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix4f16
 	return
 }
 @(require_results)
-matrix4_from_matrix2_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix4f32) {
+matrix4_from_matrix2_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix4f32) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0], r[3, 0] = m[0, 0], m[1, 0], 0, 0
 	r[0, 1], r[1, 1], r[2, 1], r[3, 1] = m[0, 1], m[1, 1], 0, 0
 	r[0, 2], r[1, 2], r[2, 2], r[3, 2] =       0,       0, 1, 0
@@ -2593,7 +2593,7 @@ matrix4_from_matrix2_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix4f32
 	return
 }
 @(require_results)
-matrix4_from_matrix2_f64 :: proc "contextless" (m: Matrix2f64) -> (r: Matrix4f64) {
+matrix4_from_matrix2_f64 :: proc "contextless" (m: Matrix2f64) -> (r: Matrix4f64) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0], r[3, 0] = m[0, 0], m[1, 0], 0, 0
 	r[0, 1], r[1, 1], r[2, 1], r[3, 1] = m[0, 1], m[1, 1], 0, 0
 	r[0, 2], r[1, 2], r[2, 2], r[3, 2] =       0,       0, 1, 0
@@ -2608,7 +2608,7 @@ matrix4_from_matrix2 :: proc{
 
 
 @(require_results)
-matrix4_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix4f16) {
+matrix4_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix4f16) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0], r[3, 0] = m[0, 0], m[1, 0], m[2, 0], 0
 	r[0, 1], r[1, 1], r[2, 1], r[3, 1] = m[0, 1], m[1, 1], m[2, 1], 0
 	r[0, 2], r[1, 2], r[2, 2], r[3, 2] = m[0, 2], m[1, 2], m[2, 2], 0
@@ -2616,7 +2616,7 @@ matrix4_from_matrix3_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix4f16
 	return
 }
 @(require_results)
-matrix4_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix4f32) {
+matrix4_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix4f32) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0], r[3, 0] = m[0, 0], m[1, 0], m[2, 0], 0
 	r[0, 1], r[1, 1], r[2, 1], r[3, 1] = m[0, 1], m[1, 1], m[2, 1], 0
 	r[0, 2], r[1, 2], r[2, 2], r[3, 2] = m[0, 2], m[1, 2], m[2, 2], 0
@@ -2624,7 +2624,7 @@ matrix4_from_matrix3_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix4f32
 	return
 }
 @(require_results)
-matrix4_from_matrix3_f64 :: proc "contextless" (m: Matrix3f64) -> (r: Matrix4f64) {
+matrix4_from_matrix3_f64 :: proc "contextless" (m: Matrix3f64) -> (r: Matrix4f64) #no_bounds_check {
 	r[0, 0], r[1, 0], r[2, 0], r[3, 0] = m[0, 0], m[1, 0], m[2, 0], 0
 	r[0, 1], r[1, 1], r[2, 1], r[3, 1] = m[0, 1], m[1, 1], m[2, 1], 0
 	r[0, 2], r[1, 2], r[2, 2], r[3, 2] = m[0, 2], m[1, 2], m[2, 2], 0
@@ -2710,7 +2710,7 @@ to_quaternion :: proc{
 
 
 @(require_results)
-matrix2_orthonormalize_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix2f16) {
+matrix2_orthonormalize_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix2f16) #no_bounds_check {
 	r[0] = normalize(m[0])
 
 	d0 := dot(r[0], r[1])
@@ -2720,7 +2720,7 @@ matrix2_orthonormalize_f16 :: proc "contextless" (m: Matrix2f16) -> (r: Matrix2f
 	return
 }
 @(require_results)
-matrix2_orthonormalize_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix2f32) {
+matrix2_orthonormalize_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix2f32) #no_bounds_check {
 	r[0] = normalize(m[0])
 
 	d0 := dot(r[0], r[1])
@@ -2730,7 +2730,7 @@ matrix2_orthonormalize_f32 :: proc "contextless" (m: Matrix2f32) -> (r: Matrix2f
 	return
 }
 @(require_results)
-matrix2_orthonormalize_f64 :: proc "contextless" (m: Matrix2f64) -> (r: Matrix2f64) {
+matrix2_orthonormalize_f64 :: proc "contextless" (m: Matrix2f64) -> (r: Matrix2f64) #no_bounds_check {
 	r[0] = normalize(m[0])
 
 	d0 := dot(r[0], r[1])
@@ -2747,7 +2747,7 @@ matrix2_orthonormalize :: proc{
 
 
 @(require_results)
-matrix3_orthonormalize_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix3f16) {
+matrix3_orthonormalize_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix3f16) #no_bounds_check {
 	r[0] = normalize(m[0])
 
 	d0 := dot(r[0], r[1])
@@ -2762,7 +2762,7 @@ matrix3_orthonormalize_f16 :: proc "contextless" (m: Matrix3f16) -> (r: Matrix3f
 	return
 }
 @(require_results)
-matrix3_orthonormalize_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix3f32) {
+matrix3_orthonormalize_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix3f32) #no_bounds_check {
 	r[0] = normalize(m[0])
 
 	d0 := dot(r[0], r[1])
@@ -2777,7 +2777,7 @@ matrix3_orthonormalize_f32 :: proc "contextless" (m: Matrix3f32) -> (r: Matrix3f
 	return
 }
 @(require_results)
-matrix3_orthonormalize_f64 :: proc "contextless" (m: Matrix3f64) -> (r: Matrix3f64) {
+matrix3_orthonormalize_f64 :: proc "contextless" (m: Matrix3f64) -> (r: Matrix3f64) #no_bounds_check {
 	r[0] = normalize(m[0])
 
 	d0 := dot(r[0], r[1])