#define VG_PIf 3.14159265358979323846264338327950288f
#define VG_TAUf 6.28318530717958647692528676655900576f
+
/*
* -----------------------------------------------------------------------------
* Section 0. Misc Operations
return deg * VG_PIf / 180.0f;
}
+/*
+ * quantize float to bit count
+ */
+static u32 vg_quantf( f32 a, u32 bits, f32 min, f32 max ){
+ u32 mask = (0x1 << bits) - 1;
+ return vg_clampf((a - min) * ((f32)mask/(max-min)), 0.0f, mask );
+}
+
+/*
+ * un-quantize discreet to float
+ */
+static f32 vg_dequantf( u32 q, u32 bits, f32 min, f32 max ){
+ u32 mask = (0x1 << bits) - 1;
+ return min + (f32)q * ((max-min) / (f32)mask);
+}
+
/*
* -----------------------------------------------------------------------------
* Section 2.a 2D Vectors
a[1][1] = c;
}
+static inline void m2x2_mulv( m2x2f m, v2f v, v2f d )
+{
+ v2f res;
+
+ res[0] = m[0][0]*v[0] + m[1][0]*v[1];
+ res[1] = m[0][1]*v[0] + m[1][1]*v[1];
+
+ v2_copy( res, d );
+}
+
/*
* -----------------------------------------------------------------------------
* Section 4.b 3x3 matrices
static int plane_segment( v4f plane, v3f a, v3f b, v3f co )
{
f32 d0 = v3_dot( a, plane ) - plane[3],
- d1 = v3_dot( b, plane ) - plane[3];
+ d1 = v3_dot( b, plane ) - plane[3];
if( d0*d1 < 0.0f )
{
;
}
+static f32 ray_plane( v4f plane, v3f co, v3f dir ){
+ f32 d = v3_dot( plane, dir );
+ if( fabsf(d) > 1e-6f ){
+ v3f v0;
+ v3_muls( plane, plane[3], v0 );
+ v3_sub( v0, co, v0 );
+ return v3_dot( v0, plane ) / d;
+ }
+ else return INFINITY;
+}
+
/*
* -----------------------------------------------------------------------------
* Section 5.c Closest point functions
* These closest point tests were learned from Real-Time Collision Detection by
* Christer Ericson
*/
-VG_STATIC f32 closest_segment_segment( v3f p1, v3f q1, v3f p2, v3f q2,
+static f32 closest_segment_segment( v3f p1, v3f q1, v3f p2, v3f q2,
f32 *s, f32 *t, v3f c1, v3f c2)
{
v3f d1,d2,r;
return v3_length2( v0 );
}
-VG_STATIC int point_inside_aabb( boxf box, v3f point )
+static int point_inside_aabb( boxf box, v3f point )
{
if((point[0]<=box[1][0]) && (point[1]<=box[1][1]) && (point[2]<=box[1][2]) &&
(point[0]>=box[0][0]) && (point[1]>=box[0][1]) && (point[2]>=box[0][2]) )
return 0;
}
-VG_STATIC void closest_point_aabb( v3f p, boxf box, v3f dest )
+static void closest_point_aabb( v3f p, boxf box, v3f dest )
{
v3_maxv( p, box[0], dest );
v3_minv( dest, box[1], dest );
}
-VG_STATIC void closest_point_obb( v3f p, boxf box,
+static void closest_point_obb( v3f p, boxf box,
m4x3f mtx, m4x3f inv_mtx, v3f dest )
{
v3f local;
m4x3_mulv( mtx, local, dest );
}
-VG_STATIC f32 closest_point_segment( v3f a, v3f b, v3f point, v3f dest )
+static f32 closest_point_segment( v3f a, v3f b, v3f point, v3f dest )
{
v3f v0, v1;
v3_sub( b, a, v0 );
return t;
}
-VG_STATIC void closest_on_triangle( v3f p, v3f tri[3], v3f dest )
+static void closest_on_triangle( v3f p, v3f tri[3], v3f dest )
{
v3f ab, ac, ap;
f32 d1, d2;
k_contact_type_edge
};
-VG_STATIC enum contact_type closest_on_triangle_1( v3f p, v3f tri[3], v3f dest )
+static enum contact_type closest_on_triangle_1( v3f p, v3f tri[3], v3f dest )
{
v3f ab, ac, ap;
f32 d1, d2;