prosperon/source/engine/transform.c

74 lines
2.5 KiB
C

#include "transform.h"
#include <string.h>
const transform2d t2d_unit = {
.pos = {0,0},
.scale = {1,1},
.angle = 0
};
HMM_Vec3 trans_forward(const transform3d *const trans) { return HMM_QVRot(vFWD, trans->rotation); }
HMM_Vec3 trans_back(const transform3d *trans) { return HMM_QVRot(vBKWD, trans->rotation); }
HMM_Vec3 trans_up(const transform3d *trans) { return HMM_QVRot(vUP, trans->rotation); }
HMM_Vec3 trans_down(const transform3d *trans) { return HMM_QVRot(vDOWN, trans->rotation); }
HMM_Vec3 trans_right(const transform3d *trans) { return HMM_QVRot(vRIGHT, trans->rotation); }
HMM_Vec3 trans_left(const transform3d *trans) { return HMM_QVRot(vLEFT, trans->rotation); }
HMM_Vec2 mat_t_pos(HMM_Mat3 m, HMM_Vec2 pos) { return HMM_MulM3V3(m, (HMM_Vec3){pos.x, pos.y, 1}).xy; }
HMM_Vec2 mat_t_dir(HMM_Mat3 m, HMM_Vec2 dir)
{
m.Columns[2] = (HMM_Vec3){0,0,1};
return HMM_MulM3V3(m, (HMM_Vec3){dir.x, dir.y, 1}).XY;
}
HMM_Vec2 mat_up(HMM_Mat3 m) { return HMM_NormV2(m.Columns[1].XY); }
HMM_Vec2 mat_right(HMM_Mat3 m) { return HMM_NormV2(m.Columns[0].XY); }
float vec_angle(HMM_Vec2 a, HMM_Vec2 b) { return acos(HMM_DotV2(a,b)/(HMM_LenV2(a)*HMM_LenV2(b))); }
float vec_dirangle(HMM_Vec2 a, HMM_Vec2 b) { return atan2(b.x, b.y) - atan2(a.x, a.y); }
HMM_Vec3 mat3_t_pos(HMM_Mat4 m, HMM_Vec3 pos) { return HMM_MulM4V4(m, (HMM_Vec4){pos.X, pos.Y, pos.Z, 1}).XYZ; }
HMM_Vec3 mat3_t_dir(HMM_Mat4 m, HMM_Vec3 dir)
{
m.Columns[3] = (HMM_Vec4){0,0,0,1};
return mat3_t_pos(m, dir);
}
HMM_Mat3 transform2d2mat(transform2d trn) {
return HMM_MulM3(HMM_Translate2D(trn.pos), HMM_MulM3(HMM_RotateM3(trn.angle), HMM_ScaleM3(trn.scale)));
}
HMM_Mat4 transform2d2mat4(transform2d trn)
{
transform3d t3d;
t3d.pos.xy = trn.pos;
t3d.scale.xy = trn.scale;
t3d.rotation = HMM_QFromAxisAngle_RH((HMM_Vec3){0,0,-1}, trn.angle);
return transform3d2mat(t3d);
}
transform2d mat2transform2d(HMM_Mat3 m)
{
transform2d t;
t.pos = m.Columns[2].xy;
t.scale = (HMM_Vec2){HMM_LenV2(m.Columns[0].xy), HMM_LenV2(m.Columns[1].xy)};
t.angle = acos(m.Columns[0].x/t.scale.x);
return t;
}
HMM_Mat4 transform3d2mat(transform3d t) { return HMM_MulM4(HMM_Translate(t.pos), HMM_MulM4(HMM_QToM4(t.rotation), HMM_Scale(t.scale))); }
transform3d mat2transform3d(HMM_Mat4 m)
{
transform3d t;
t.pos = m.Columns[3].xyz;
for (int i = 0; i < 2; i++)
t.scale.Elements[i] = HMM_LenV3(m.Columns[i].xyz);
// for (int i = 0; i < 2; i++)
// m.Columns[i].xyz = HMM_MulV3(m.Columns[i].xyz, t.scale.Elements[i]);
t.rotation = HMM_M4ToQ_RH(m);
return t;
}