aboutsummaryrefslogtreecommitdiff
path: root/v_windows/v/old/vlib/gg/m4/matrix.v
diff options
context:
space:
mode:
authorIndrajith K L2022-12-03 17:00:20 +0530
committerIndrajith K L2022-12-03 17:00:20 +0530
commitf5c4671bfbad96bf346bd7e9a21fc4317b4959df (patch)
tree2764fc62da58f2ba8da7ed341643fc359873142f /v_windows/v/old/vlib/gg/m4/matrix.v
downloadcli-tools-windows-master.tar.gz
cli-tools-windows-master.tar.bz2
cli-tools-windows-master.zip
Adds most of the toolsHEADmaster
Diffstat (limited to 'v_windows/v/old/vlib/gg/m4/matrix.v')
-rw-r--r--v_windows/v/old/vlib/gg/m4/matrix.v595
1 files changed, 595 insertions, 0 deletions
diff --git a/v_windows/v/old/vlib/gg/m4/matrix.v b/v_windows/v/old/vlib/gg/m4/matrix.v
new file mode 100644
index 0000000..c839b9d
--- /dev/null
+++ b/v_windows/v/old/vlib/gg/m4/matrix.v
@@ -0,0 +1,595 @@
+/**********************************************************************
+*
+* Simply vector/matrix utility
+*
+* Copyright (c) 2021 Dario Deledda. All rights reserved.
+* Use of this source code is governed by an MIT license
+* that can be found in the LICENSE file.
+*
+* TODO:
+**********************************************************************/
+module m4
+
+import math
+
+pub union Mat4 {
+pub mut:
+ e [16]f32
+ f [4][4]f32
+}
+
+pub const precision = f32(10e-7)
+
+// default precision for the module
+
+/*********************************************************************
+*
+* Utility
+*
+*********************************************************************/
+// String representation of the matrix
+pub fn (x Mat4) str() string {
+ unsafe {
+ return '|${x.e[0]:-6.3},${x.e[1]:-6.3},${x.e[2]:-6.3},${x.e[3]:-6.3}|\n' +
+ '|${x.e[4]:-6.3},${x.e[5]:-6.3},${x.e[6]:-6.3},${x.e[7]:-6.3}|\n' +
+ '|${x.e[8]:-6.3},${x.e[9]:-6.3},${x.e[10]:-6.3},${x.e[11]:-6.3}|\n' +
+ '|${x.e[12]:-6.3},${x.e[13]:-6.3},${x.e[14]:-6.3},${x.e[15]:-6.3}|'
+ }
+}
+
+// Remove all the raw zeros
+[direct_array_access]
+pub fn (a Mat4) clean() Mat4 {
+ unsafe {
+ x := Mat4{}
+ for c, value in a.e {
+ if f32_abs(value) < m4.precision {
+ x.e[c] = 0
+ } else {
+ x.e[c] = value
+ }
+ }
+ return x
+ }
+}
+
+// Sum all the elements of the matrix
+pub fn (x Mat4) sum_all() f32 {
+ mut res := f32(0)
+ for v in unsafe { x.e } {
+ res += v
+ }
+ return res
+}
+
+// Check if two matrix are equal using module precision
+[direct_array_access]
+pub fn (x Mat4) is_equal(y Mat4) bool {
+ unsafe {
+ for c, value in x.e {
+ if f32_abs(value - y.e[c]) > m4.precision {
+ return false
+ }
+ }
+ return true
+ }
+}
+
+//-------------------------------------
+// Set/Get values
+//-------------------------------------
+// Get an element of the matrix using [0..15] indexes, one dimension
+pub fn (x Mat4) get_e(elem_index int) f32 {
+ unsafe {
+ return x.e[elem_index]
+ }
+}
+
+// Get an element of the matrix using [0..3][0..3] indexes, two dimension
+pub fn (x Mat4) get_f(index_col int, index_row int) f32 {
+ unsafe {
+ return x.e[(index_row << 2) + index_col]
+ }
+}
+
+// Set an element of the matrix using [0..15] indexes, one dimension
+pub fn (mut x Mat4) set_e(index int, value f32) {
+ unsafe {
+ x.e[index] = value
+ }
+}
+
+// Set an element of the matrix using [0..3][0..3] indexes, two dimension
+pub fn (mut x Mat4) set_f(index_col int, index_row int, value f32) {
+ unsafe {
+ x.e[(index_row << 2) + index_col] = value
+ }
+}
+
+// Copy a matrix elements from another matrix
+pub fn (mut x Mat4) copy(y Mat4) {
+ unsafe {
+ x.e = [
+ y.e[0 ], y.e[1 ], y.e[2 ], y.e[3 ],
+ y.e[4 ], y.e[5 ], y.e[6 ], y.e[7 ],
+ y.e[8 ], y.e[9 ], y.e[10], y.e[11],
+ y.e[12], y.e[13], y.e[14], y.e[15],
+ ]!
+ }
+}
+
+// Set the trace of the matrix using a vec4
+pub fn (mut x Mat4) set_trace(v3 Vec4) {
+ unsafe {
+ x.e[0 ] = v3.e[0]
+ x.e[5 ] = v3.e[1]
+ x.e[10] = v3.e[2]
+ x.e[15] = v3.e[3]
+ }
+}
+
+// Get the trace of the matrix
+pub fn (x Mat4) get_trace() Vec4 {
+ unsafe {
+ return Vec4{ e: [ x.e[0], x.e[5], x.e[10], x.e[15], ]! }
+ }
+}
+
+// Set all the matrix elements to value
+pub fn (mut x Mat4) set_f32(value f32) {
+ unsafe {
+ x.e = [
+ value, value, value, value,
+ value, value, value, value,
+ value, value, value, value,
+ value, value, value, value,
+ ]!
+ }
+}
+
+//-------------------------------------
+// Rows/Column access
+//-------------------------------------
+// Set the row as the input vec4
+[direct_array_access]
+[unsafe]
+pub fn (mut x Mat4) set_row(row int, v3 Vec4) {
+ unsafe {
+ x.e[row * 4 + 0] = v3.e[0]
+ x.e[row * 4 + 1] = v3.e[1]
+ x.e[row * 4 + 2] = v3.e[2]
+ x.e[row * 4 + 3] = v3.e[3]
+ }
+}
+
+// Get a row from a matrix
+[direct_array_access]
+[unsafe]
+pub fn (x Mat4) get_row(row int) Vec4 {
+ unsafe {
+ return Vec4{
+ e: [
+ x.e[row * 4 + 0],
+ x.e[row * 4 + 1],
+ x.e[row * 4 + 2],
+ x.e[row * 4 + 3],
+ ]!
+ }
+ }
+}
+
+// Set the column as the input vec4
+[direct_array_access]
+[unsafe]
+pub fn (mut x Mat4) set_col(col int, v3 Vec4) {
+ unsafe {
+ x.e[col] = v3.e[0]
+ x.e[col + 4 ] = v3.e[1]
+ x.e[col + 8 ] = v3.e[2]
+ x.e[col + 12] = v3.e[3]
+ }
+}
+
+// Get a column from a matrix
+[direct_array_access]
+[unsafe]
+pub fn (x Mat4) get_col(col int) Vec4 {
+ unsafe {
+ return Vec4{
+ e: [
+ x.e[col],
+ x.e[col + 4 ],
+ x.e[col + 8 ],
+ x.e[col + 12],
+ ]!
+ }
+ }
+}
+
+// Swap two columns in the matrix
+[direct_array_access]
+[unsafe]
+pub fn (mut x Mat4) swap_col(col1 int, col2 int) {
+ unsafe {
+ v0 := x.e[col1]
+ v1 := x.e[col1 + 4 ]
+ v2 := x.e[col1 + 8 ]
+ v3 := x.e[col1 + 12]
+
+ x.e[col1] = x.e[col2]
+ x.e[col1 + 4 ] = x.e[col2 + 4 ]
+ x.e[col1 + 8 ] = x.e[col2 + 8 ]
+ x.e[col1 + 12] = x.e[col2 + 12]
+
+ x.e[col2] = v0
+ x.e[col2 + 4 ] = v1
+ x.e[col2 + 8 ] = v2
+ x.e[col2 + 12] = v3
+ }
+}
+
+// Swap two rows in the matrix
+[direct_array_access]
+[unsafe]
+pub fn (mut x Mat4) swap_row(row1 int, row2 int) {
+ unsafe {
+ v0 := x.e[row1 * 4 + 0]
+ v1 := x.e[row1 * 4 + 1]
+ v2 := x.e[row1 * 4 + 2]
+ v3 := x.e[row1 * 4 + 3]
+
+ x.e[row1 * 4 + 0] = x.e[row2 * 4 + 0]
+ x.e[row1 * 4 + 1] = x.e[row2 * 4 + 1]
+ x.e[row1 * 4 + 2] = x.e[row2 * 4 + 2]
+ x.e[row1 * 4 + 3] = x.e[row2 * 4 + 3]
+
+ x.e[row2 * 4 + 0] = v0
+ x.e[row2 * 4 + 1] = v1
+ x.e[row2 * 4 + 2] = v2
+ x.e[row2 * 4 + 3] = v3
+ }
+}
+
+//-------------------------------------
+// Modify data
+//-------------------------------------
+// Transpose the matrix
+pub fn (x Mat4) transpose() Mat4 {
+ unsafe {
+ return Mat4{ e: [
+ x.e[0 ], x.e[4 ], x.e[8 ], x.e[12],
+ x.e[1 ], x.e[5 ], x.e[9 ], x.e[13],
+ x.e[2 ], x.e[6 ], x.e[10], x.e[14],
+ x.e[3 ], x.e[7 ], x.e[11], x.e[15],
+ ]!
+ }
+ }
+}
+
+// Multiply the all the elements of the matrix by a scalar
+pub fn (x Mat4) mul_scalar(s f32) Mat4 {
+ unsafe {
+ return Mat4{ e: [
+ x.e[0 ] * s, x.e[1 ] * s, x.e[2 ] * s, x.e[3 ] * s,
+ x.e[4 ] * s, x.e[5 ] * s, x.e[6 ] * s, x.e[7 ] * s,
+ x.e[8 ] * s, x.e[9 ] * s, x.e[10] * s, x.e[11] * s,
+ x.e[12] * s, x.e[13] * s, x.e[14] * s, x.e[15] * s,
+ ]!
+ }
+ }
+}
+
+/*********************************************************************
+*
+* Init/set
+*
+*********************************************************************/
+// Return a zero matrix
+pub fn zero_m4() Mat4 {
+ return Mat4{ e: [
+ f32(0), 0, 0, 0,
+ 0, 0, 0, 0,
+ 0, 0, 0, 0,
+ 0, 0, 0, 0,
+ ]!
+ }
+}
+
+// Return a unity matrix
+pub fn unit_m4() Mat4 {
+ return Mat4{ e: [
+ f32(1), 0, 0, 0,
+ 0, 1, 0, 0,
+ 0, 0, 1, 0,
+ 0, 0, 0, 1,
+ ]!
+ }
+}
+
+// Return a matrix initialized with value
+pub fn set_m4(value f32) Mat4 {
+ return Mat4{ e: [
+ value, value, value, value,
+ value, value, value, value,
+ value, value, value, value,
+ value, value, value, value,
+ ]!
+ }
+}
+
+/*********************************************************************
+*
+* Math
+*
+*********************************************************************/
+
+// Sum of matrix, operator +
+pub fn (a Mat4) + (b Mat4) Mat4 {
+ unsafe {
+ return Mat4{ e: [
+ a.e[0 ] + b.e[0 ], a.e[1 ] + b.e[1 ], a.e[2 ] + b.e[2 ], a.e[3 ] + b.e[3 ],
+ a.e[4 ] + b.e[4 ], a.e[5 ] + b.e[5 ], a.e[6 ] + b.e[6 ], a.e[7 ] + b.e[7 ],
+ a.e[8 ] + b.e[8 ], a.e[9 ] + b.e[9 ], a.e[10] + b.e[10], a.e[11] + b.e[11],
+ a.e[12] + b.e[12], a.e[13] + b.e[13], a.e[14] + b.e[14], a.e[15] + b.e[15],
+ ]!
+ }
+ }
+}
+
+// Subtraction of matrix, operator -
+pub fn (a Mat4) - (b Mat4) Mat4 {
+ unsafe {
+ return Mat4{ e: [
+ a.e[0 ] - b.e[0 ], a.e[1 ] - b.e[1 ], a.e[2 ] - b.e[2 ], a.e[3 ] - b.e[3 ],
+ a.e[4 ] - b.e[4 ], a.e[5 ] - b.e[5 ], a.e[6 ] - b.e[6 ], a.e[7 ] - b.e[7 ],
+ a.e[8 ] - b.e[8 ], a.e[9 ] - b.e[9 ], a.e[10] - b.e[10], a.e[11] - b.e[11],
+ a.e[12] - b.e[12], a.e[13] - b.e[13], a.e[14] - b.e[14], a.e[15] - b.e[15],
+ ]!
+ }
+ }
+}
+
+// Multiplication of matrix, operator *
+pub fn (a Mat4) * (b Mat4) Mat4 {
+ unsafe {
+ return Mat4{
+ e: [
+ /* [0][0] */ a.f[0][0] * b.f[0][0] + a.f[0][1] * b.f[1][0] + a.f[0][2] * b.f[2][0] + a.f[0][3] * b.f[3][0]
+ /* [0][1] */, a.f[0][0] * b.f[0][1] + a.f[0][1] * b.f[1][1] + a.f[0][2] * b.f[2][1] + a.f[0][3] * b.f[3][1]
+ /* [0][2] */, a.f[0][0] * b.f[0][2] + a.f[0][1] * b.f[1][2] + a.f[0][2] * b.f[2][2] + a.f[0][3] * b.f[3][2]
+ /* [0][3] */, a.f[0][0] * b.f[0][3] + a.f[0][1] * b.f[1][3] + a.f[0][2] * b.f[2][3] + a.f[0][3] * b.f[3][3]
+
+ /* [1][0] */, a.f[1][0] * b.f[0][0] + a.f[1][1] * b.f[1][0] + a.f[1][2] * b.f[2][0] + a.f[1][3] * b.f[3][0]
+ /* [1][1] */, a.f[1][0] * b.f[0][1] + a.f[1][1] * b.f[1][1] + a.f[1][2] * b.f[2][1] + a.f[1][3] * b.f[3][1]
+ /* [1][2] */, a.f[1][0] * b.f[0][2] + a.f[1][1] * b.f[1][2] + a.f[1][2] * b.f[2][2] + a.f[1][3] * b.f[3][2]
+ /* [1][3] */, a.f[1][0] * b.f[0][3] + a.f[1][1] * b.f[1][3] + a.f[1][2] * b.f[2][3] + a.f[1][3] * b.f[3][3]
+
+ /* [2][0] */, a.f[2][0] * b.f[0][0] + a.f[2][1] * b.f[1][0] + a.f[2][2] * b.f[2][0] + a.f[2][3] * b.f[3][0]
+ /* [2][1] */, a.f[2][0] * b.f[0][1] + a.f[2][1] * b.f[1][1] + a.f[2][2] * b.f[2][1] + a.f[2][3] * b.f[3][1]
+ /* [2][2] */, a.f[2][0] * b.f[0][2] + a.f[2][1] * b.f[1][2] + a.f[2][2] * b.f[2][2] + a.f[2][3] * b.f[3][2]
+ /* [2][3] */, a.f[2][0] * b.f[0][3] + a.f[2][1] * b.f[1][3] + a.f[2][2] * b.f[2][3] + a.f[2][3] * b.f[3][3]
+
+ /* [3][0] */, a.f[3][0] * b.f[0][0] + a.f[3][1] * b.f[1][0] + a.f[3][2] * b.f[2][0] + a.f[3][3] * b.f[3][0]
+ /* [3][1] */, a.f[3][0] * b.f[0][1] + a.f[3][1] * b.f[1][1] + a.f[3][2] * b.f[2][1] + a.f[3][3] * b.f[3][1]
+ /* [3][2] */, a.f[3][0] * b.f[0][2] + a.f[3][1] * b.f[1][2] + a.f[3][2] * b.f[2][2] + a.f[3][3] * b.f[3][2]
+ /* [3][3] */, a.f[3][0] * b.f[0][3] + a.f[3][1] * b.f[1][3] + a.f[3][2] * b.f[2][3] + a.f[3][3] * b.f[3][3],
+ ]!
+ }
+ }
+}
+
+// Sum of matrix function
+pub fn add(a Mat4, b Mat4) Mat4 {
+ unsafe {
+ return a + b
+ }
+}
+
+// Subtraction of matrix function
+pub fn sub(a Mat4, b Mat4) Mat4 {
+ unsafe {
+ return a - b
+ }
+}
+
+// Multiplication of matrix function
+pub fn mul(a Mat4, b Mat4) Mat4 {
+ unsafe {
+ return a * b
+ }
+}
+
+// Multiply a Matrix by a vector
+pub fn mul_vec(a Mat4, v Vec4) Vec4 {
+ unsafe {
+ return Vec4{ e: [
+ a.e[0 ] * v.e[0] + a.e[1 ] * v.e[1] + a.e[2 ] * v.e[2] + a.e[3 ] * v.e[3],
+ a.e[4 ] * v.e[0] + a.e[5 ] * v.e[1] + a.e[6 ] * v.e[2] + a.e[7 ] * v.e[3],
+ a.e[8 ] * v.e[0] + a.e[9 ] * v.e[1] + a.e[10] * v.e[2] + a.e[11] * v.e[3],
+ a.e[12] * v.e[0] + a.e[13] * v.e[1] + a.e[14] * v.e[2] + a.e[15] * v.e[3],
+ ]!
+ }
+ }
+}
+
+// Calculate the determinant of the Matrix
+pub fn det(x Mat4) f32 {
+ unsafe {
+ mut t := [6]f32{}
+ x00 := x.f[0][0]
+ x10 := x.f[1][0]
+ x20 := x.f[2][0]
+ x30 := x.f[3][0]
+ x01 := x.f[0][1]
+ x11 := x.f[1][1]
+ x21 := x.f[2][1]
+ x31 := x.f[3][1]
+ x02 := x.f[0][2]
+ x12 := x.f[1][2]
+ x22 := x.f[2][2]
+ x32 := x.f[3][2]
+ x03 := x.f[0][3]
+ x13 := x.f[1][3]
+ x23 := x.f[2][3]
+ x33 := x.f[3][3]
+
+ t[0] = x22 * x33 - x23 * x32
+ t[1] = x12 * x33 - x13 * x32
+ t[2] = x12 * x23 - x13 * x22
+ t[3] = x02 * x33 - x03 * x32
+ t[4] = x02 * x23 - x03 * x22
+ t[5] = x02 * x13 - x03 * x12
+
+ return 0.0 +
+ x00 * (x11 * t[0] - x21 * t[1] + x31 * t[2]) -
+ x10 * (x01 * t[0] - x21 * t[3] + x31 * t[4]) +
+ x20 * (x01 * t[1] - x11 * t[3] + x31 * t[5]) -
+ x30 * (x01 * t[2] - x11 * t[4] + x21 * t[5])
+ }
+}
+
+// Calculate the inverse of the Matrix
+pub fn (x Mat4) inverse() Mat4 {
+ unsafe {
+ mut t := [6]f32{}
+ mut det := f32(0)
+
+ a := x.f[0][0]
+ b := x.f[1][0]
+ c := x.f[2][0]
+ d := x.f[3][0]
+ e := x.f[0][1]
+ f := x.f[1][1]
+ g := x.f[2][1]
+ h := x.f[3][1]
+ i := x.f[0][2]
+ j := x.f[1][2]
+ k := x.f[2][2]
+ l := x.f[3][2]
+ m := x.f[0][3]
+ n := x.f[1][3]
+ o := x.f[2][3]
+ p := x.f[3][3]
+
+ t[0] = k * p - o * l
+ t[1] = j * p - n * l
+ t[2] = j * o - n * k
+ t[3] = i * p - m * l
+ t[4] = i * o - m * k
+ t[5] = i * n - m * j
+
+ mut dest := Mat4{}
+ dest.f[0][0] = f * t[0] - g * t[1] + h * t[2]
+ dest.f[0][1] = -(e * t[0] - g * t[3] + h * t[4])
+ dest.f[0][2] = e * t[1] - f * t[3] + h * t[5]
+ dest.f[0][3] = -(e * t[2] - f * t[4] + g * t[5])
+
+ dest.f[1][0] = -(b * t[0] - c * t[1] + d * t[2])
+ dest.f[1][1] = a * t[0] - c * t[3] + d * t[4]
+ dest.f[1][2] = -(a * t[1] - b * t[3] + d * t[5])
+ dest.f[1][3] = a * t[2] - b * t[4] + c * t[5]
+
+ t[0] = g * p - o * h
+ t[1] = f * p - n * h
+ t[2] = f * o - n * g
+ t[3] = e * p - m * h
+ t[4] = e * o - m * g
+ t[5] = e * n - m * f
+
+ dest.f[2][0] = b * t[0] - c * t[1] + d * t[2]
+ dest.f[2][1] = -(a * t[0] - c * t[3] + d * t[4])
+ dest.f[2][2] = a * t[1] - b * t[3] + d * t[5]
+ dest.f[2][3] = -(a * t[2] - b * t[4] + c * t[5])
+
+ t[0] = g * l - k * h
+ t[1] = f * l - j * h
+ t[2] = f * k - j * g
+ t[3] = e * l - i * h
+ t[4] = e * k - i * g
+ t[5] = e * j - i * f
+
+ dest.f[3][0] = -(b * t[0] - c * t[1] + d * t[2])
+ dest.f[3][1] = a * t[0] - c * t[3] + d * t[4]
+ dest.f[3][2] = -(a * t[1] - b * t[3] + d * t[5])
+ dest.f[3][3] = a * t[2] - b * t[4] + c * t[5]
+
+ tmp := (a * dest.f[0][0] + b * dest.f[0][1] + c * dest.f[0][2] + d * dest.f[0][3])
+ if tmp != 0 {
+ det = f32(1.0) / tmp
+ }
+ return dest.mul_scalar(det)
+ }
+}
+
+/*********************************************************************
+*
+* Transformations
+*
+*********************************************************************/
+
+// Get a rotation matrix using w as rotation axis vector, the angle is in radians
+pub fn rotate(angle f32, w Vec4) Mat4 {
+ cs := f32(math.cos(angle))
+ sn := f32(math.sin(angle))
+ cv := f32(1.0) - cs
+ axis := w.normalize3()
+ unsafe {
+ ax := axis.e[0]
+ ay := axis.e[1]
+ az := axis.e[2]
+
+ return Mat4{ e: [
+ /* [0][0] */ (ax * ax * cv) + cs
+ /* [0][1] */, (ax * ay * cv) + az * sn
+ /* [0][2] */, (ax * az * cv) - ay * sn
+ /* [0][3] */, 0
+
+ /* [1][0] */, (ay * ax * cv) - az * sn
+ /* [1][1] */, (ay * ay * cv) + cs
+ /* [1][2] */, (ay * az * cv) + ax * sn
+ /* [1][3] */, 0
+
+ /* [2][0] */, (az * ax * cv) + ay * sn
+ /* [2][1] */, (az * ay * cv) - ax * sn
+ /* [2][2] */, (az * az * cv) + cs
+ /* [2][3] */, 0
+
+ /* [3][0] */, 0
+ /* [3][1] */, 0
+ /* [3][2] */, 0
+ /* [3][3] */, 1,
+ ]!
+ }
+ }
+}
+
+/*********************************************************************
+*
+* Graphic
+*
+*********************************************************************/
+// Get a matrix translated by a vector w
+pub fn (x Mat4) translate(w Vec4) Mat4 {
+ unsafe {
+ return Mat4{ e: [
+ x.e[0], x.e[1], x.e[2 ], x.e[3 ] ,
+ x.e[4], x.e[5], x.e[6 ], x.e[7 ] ,
+ x.e[8], x.e[9], x.e[10], x.e[11] ,
+ x.e[12] + w.e[0], x.e[13] + w.e[1], x.e[14] + w.e[2], x.e[15],
+ ]!
+ }
+ }
+}
+
+// Get a scale matrix, the scale vector is w, only xyz are evaluated.
+pub fn scale(w Vec4) Mat4 {
+ unsafe {
+ return Mat4{ e: [
+ w.e[0], 0, 0, 0,
+ 0, w.e[1], 0, 0,
+ 0, 0, w.e[2], 0,
+ 0, 0, 0, 1,
+ ]!
+ }
+ }
+}