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author | Indrajith K L | 2022-12-03 17:00:20 +0530 |
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committer | Indrajith K L | 2022-12-03 17:00:20 +0530 |
commit | f5c4671bfbad96bf346bd7e9a21fc4317b4959df (patch) | |
tree | 2764fc62da58f2ba8da7ed341643fc359873142f /v_windows/v/old/vlib/gg/m4/graphic.v | |
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Diffstat (limited to 'v_windows/v/old/vlib/gg/m4/graphic.v')
-rw-r--r-- | v_windows/v/old/vlib/gg/m4/graphic.v | 110 |
1 files changed, 110 insertions, 0 deletions
diff --git a/v_windows/v/old/vlib/gg/m4/graphic.v b/v_windows/v/old/vlib/gg/m4/graphic.v new file mode 100644 index 0000000..e134e80 --- /dev/null +++ b/v_windows/v/old/vlib/gg/m4/graphic.v @@ -0,0 +1,110 @@ +/********************************************************************** +* +* Simply vector/matrix graphic 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 + +// Translate degrees to radians +[inline] +pub fn rad(deg f32) f32 { + return (math.pi / 180.0) * deg +} + +// Translate radians to degrees +[inline] +pub fn deg(grad f32) f32 { + return (180.0 / math.pi) * grad +} + +// calculate the Orthographic projection matrix +pub fn ortho(left f32, right f32, bottom f32, top f32, z_near f32, z_far f32) Mat4 { + rml := right - left + rpl := right + left + tmb := top - bottom + tpb := top + bottom + fmn := z_far - z_near + fpn := z_far + z_near + if fmn != 0 { + return Mat4{ e: [ + 2 / rml, 0 , 0, -(rpl / rml), + 0 , 2 / tmb, 0, -(tpb / tmb), + 0 , 0, 2 / fmn, -(fpn / fmn), + 0 , 0, 0, 1, + ]! + } + } + return Mat4{ e: [ + 2 / rml, 0 , 0, -(rpl / rml), + 0 , 2 / tmb, 0, -(tpb / tmb), + 0 , 0, 0, 0, + 0 , 0, 0, 1, + ]! + } +} + +// Calculate the perspective matrix using (fov:fov, ar:aspect_ratio ,n:near_pane, f:far_plane) as parameters +pub fn perspective(fov f32, ar f32, n f32, f f32) Mat4 { + ctan := f32(1.0 / math.tan(fov * (f32(math.pi) / 360.0))) // for the FOV we use 360 instead 180 + return Mat4{ e: [ + ctan / ar, 0, 0, 0, + 0, ctan, 0, 0, + 0, 0, (n + f) / (n - f), -1.0, + 0, 0, (2.0 * n * f) / (n - f), 0, + ]! + } +} + +// Calculate the look-at matrix +pub fn look_at(eye Vec4, center Vec4, up Vec4) Mat4 { + f := (center - eye).normalize3() + s := (f % up).normalize3() + u := (s % f) + + return Mat4{ e: [ + /* [0][0] */ s.e[0], + /* [0][1] */ u.e[0], + /* [0][2] */ - f.e[0], + /* [0][3] */ 0, + + /* [1][1] */ s.e[1], + /* [1][1] */ u.e[1], + /* [1][2] */ - f.e[1], + /* [1][3] */ 0, + + /* [2][0] */ s.e[2], + /* [2][1] */ u.e[2], + /* [2][2] */ - f.e[2], + /* [2][3] */ 0, + + /* [3][0] */ - (s * eye), + /* [3][1] */ - (u * eye), + /* [3][2] */ f * eye, + /* [3][3] */ 1, + ]! + } +} + + +// Get the complete transformation matrix for GLSL demos +pub fn calc_tr_matrices(w f32, h f32, rx f32, ry f32, in_scale f32) Mat4 { + proj := perspective(60, w / h, 0.01, 10.0) + view := look_at(Vec4{ e: [f32(0.0), 1.5, 6, 0]! }, Vec4{ e: [f32(0), 0, 0, 0]! }, Vec4{ e: [f32(0), 1.0, 0, 0]! }) + view_proj := view * proj + + rxm := rotate(rad(rx), Vec4{ e: [f32(1), 0, 0, 0]! }) + rym := rotate(rad(ry), Vec4{ e: [f32(0), 1, 0, 0]! }) + + model := rym * rxm + scale_m := scale(Vec4{ e: [in_scale, in_scale, in_scale, 1]! }) + + res := (scale_m * model) * view_proj + return res +} |