summaryrefslogtreecommitdiffstatshomepage
path: root/3rdparty/bgfx/examples/common/bounds.cpp
diff options
context:
space:
mode:
author Miodrag Milanović <mmicko@gmail.com>2023-01-05 15:32:40 +0100
committer GitHub <noreply@github.com>2023-01-05 09:32:40 -0500
commit812e6094f47bb8d1da5a6b421aa4c724cf2035c0 (patch)
tree0f5bab2fe9393d1f629e9bf63e76cecca74ec0c9 /3rdparty/bgfx/examples/common/bounds.cpp
parent4a1b41854bba8fc2567906b88bab8ca81e75d187 (diff)
Update BGFX, BX and BIMG (#10789)
* Update to bgfx a93a714632b79b5ddbf5c86ac323fa9b76ed3433 Co-authored-by: Бранимир Караџић <branimirkaradzic@gmail.com>
Diffstat (limited to '3rdparty/bgfx/examples/common/bounds.cpp')
-rw-r--r--3rdparty/bgfx/examples/common/bounds.cpp2104
1 files changed, 0 insertions, 2104 deletions
diff --git a/3rdparty/bgfx/examples/common/bounds.cpp b/3rdparty/bgfx/examples/common/bounds.cpp
deleted file mode 100644
index 7c92cb3da9f..00000000000
--- a/3rdparty/bgfx/examples/common/bounds.cpp
+++ /dev/null
@@ -1,2104 +0,0 @@
-/*
- * Copyright 2011-2021 Branimir Karadzic. All rights reserved.
- * License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause
- */
-
-#include <bx/rng.h>
-#include <bx/math.h>
-#include "bounds.h"
-
-using namespace bx;
-
-Vec3 getCenter(const Aabb& _aabb)
-{
- return mul(add(_aabb.min, _aabb.max), 0.5f);
-}
-
-Vec3 getExtents(const Aabb& _aabb)
-{
- return mul(sub(_aabb.max, _aabb.min), 0.5f);
-}
-
-Vec3 getCenter(const Triangle& _triangle)
-{
- return mul(add(add(_triangle.v0, _triangle.v1), _triangle.v2), 1.0f/3.0f);
-}
-
-void toAabb(Aabb& _outAabb, const Vec3& _extents)
-{
- _outAabb.min = neg(_extents);
- _outAabb.max = _extents;
-}
-
-void toAabb(Aabb& _outAabb, const Vec3& _center, const Vec3& _extents)
-{
- _outAabb.min = sub(_center, _extents);
- _outAabb.max = add(_center, _extents);
-}
-
-void toAabb(Aabb& _outAabb, const Cylinder& _cylinder)
-{
- // Reference(s):
- // - https://web.archive.org/web/20181113055756/http://iquilezles.org/www/articles/diskbbox/diskbbox.htm
- //
- const Vec3 axis = sub(_cylinder.end, _cylinder.pos);
- const Vec3 asq = mul(axis, axis);
- const Vec3 nsq = mul(asq, 1.0f/dot(axis, axis) );
- const Vec3 tmp = sub(Vec3(1.0f), nsq);
-
- const float inv = 1.0f/(tmp.x*tmp.y*tmp.z);
-
- const Vec3 extent =
- {
- _cylinder.radius * tmp.x * bx::sqrt( (nsq.x + nsq.y * nsq.z) * inv),
- _cylinder.radius * tmp.y * bx::sqrt( (nsq.y + nsq.z * nsq.x) * inv),
- _cylinder.radius * tmp.z * bx::sqrt( (nsq.z + nsq.x * nsq.y) * inv),
- };
-
- const Vec3 minP = sub(_cylinder.pos, extent);
- const Vec3 minE = sub(_cylinder.end, extent);
- const Vec3 maxP = add(_cylinder.pos, extent);
- const Vec3 maxE = add(_cylinder.end, extent);
-
- _outAabb.min = min(minP, minE);
- _outAabb.max = max(maxP, maxE);
-}
-
-void toAabb(Aabb& _outAabb, const Disk& _disk)
-{
- // Reference(s):
- // - https://web.archive.org/web/20181113055756/http://iquilezles.org/www/articles/diskbbox/diskbbox.htm
- //
- const Vec3 nsq = mul(_disk.normal, _disk.normal);
- const Vec3 one = { 1.0f, 1.0f, 1.0f };
- const Vec3 tmp = sub(one, nsq);
- const float inv = 1.0f / (tmp.x*tmp.y*tmp.z);
-
- const Vec3 extent =
- {
- _disk.radius * tmp.x * bx::sqrt( (nsq.x + nsq.y * nsq.z) * inv),
- _disk.radius * tmp.y * bx::sqrt( (nsq.y + nsq.z * nsq.x) * inv),
- _disk.radius * tmp.z * bx::sqrt( (nsq.z + nsq.x * nsq.y) * inv),
- };
-
- _outAabb.min = sub(_disk.center, extent);
- _outAabb.max = add(_disk.center, extent);
-}
-
-void toAabb(Aabb& _outAabb, const Obb& _obb)
-{
- Vec3 xyz = { 1.0f, 1.0f, 1.0f };
- Vec3 tmp = mul(xyz, _obb.mtx);
-
- _outAabb.min = tmp;
- _outAabb.max = tmp;
-
- for (uint32_t ii = 1; ii < 8; ++ii)
- {
- xyz.x = ii & 1 ? -1.0f : 1.0f;
- xyz.y = ii & 2 ? -1.0f : 1.0f;
- xyz.z = ii & 4 ? -1.0f : 1.0f;
- tmp = mul(xyz, _obb.mtx);
-
- _outAabb.min = min(_outAabb.min, tmp);
- _outAabb.max = max(_outAabb.max, tmp);
- }
-}
-
-void toAabb(Aabb& _outAabb, const Sphere& _sphere)
-{
- const float radius = _sphere.radius;
- _outAabb.min = sub(_sphere.center, radius);
- _outAabb.max = add(_sphere.center, radius);
-}
-
-void toAabb(Aabb& _outAabb, const Triangle& _triangle)
-{
- _outAabb.min = min(_triangle.v0, _triangle.v1, _triangle.v2);
- _outAabb.max = max(_triangle.v0, _triangle.v1, _triangle.v2);
-}
-
-void aabbTransformToObb(Obb& _obb, const Aabb& _aabb, const float* _mtx)
-{
- toObb(_obb, _aabb);
- float result[16];
- mtxMul(result, _obb.mtx, _mtx);
- memCopy(_obb.mtx, result, sizeof(result) );
-}
-
-void toAabb(Aabb& _outAabb, const void* _vertices, uint32_t _numVertices, uint32_t _stride)
-{
- Vec3 mn(init::None);
- Vec3 mx(init::None);
- uint8_t* vertex = (uint8_t*)_vertices;
-
- mn = mx = load<Vec3>(vertex);
- vertex += _stride;
-
- for (uint32_t ii = 1; ii < _numVertices; ++ii)
- {
- const Vec3 pos = load<Vec3>(vertex);
- vertex += _stride;
-
- mn = min(pos, mn);
- mx = max(pos, mx);
- }
-
- _outAabb.min = mn;
- _outAabb.max = mx;
-}
-
-void toAabb(Aabb& _outAabb, const float* _mtx, const void* _vertices, uint32_t _numVertices, uint32_t _stride)
-{
- Vec3 mn(init::None);
- Vec3 mx(init::None);
- uint8_t* vertex = (uint8_t*)_vertices;
- mn = mx = mul(load<Vec3>(vertex), _mtx);
-
- vertex += _stride;
-
- for (uint32_t ii = 1; ii < _numVertices; ++ii)
- {
- Vec3 pos = mul(load<Vec3>(vertex), _mtx);
- vertex += _stride;
-
- mn = min(pos, mn);
- mx = max(pos, mx);
- }
-
- _outAabb.min = mn;
- _outAabb.max = mx;
-}
-
-float calcAreaAabb(const Aabb& _aabb)
-{
- const float ww = _aabb.max.x - _aabb.min.x;
- const float hh = _aabb.max.y - _aabb.min.y;
- const float dd = _aabb.max.z - _aabb.min.z;
- return 2.0f * (ww*hh + ww*dd + hh*dd);
-}
-
-void aabbExpand(Aabb& _outAabb, float _factor)
-{
- _outAabb.min.x -= _factor;
- _outAabb.min.y -= _factor;
- _outAabb.min.z -= _factor;
- _outAabb.max.x += _factor;
- _outAabb.max.y += _factor;
- _outAabb.max.z += _factor;
-}
-
-void aabbExpand(Aabb& _outAabb, const Vec3& _pos)
-{
- _outAabb.min = min(_outAabb.min, _pos);
- _outAabb.max = max(_outAabb.max, _pos);
-}
-
-void toObb(Obb& _outObb, const Aabb& _aabb)
-{
- memSet(_outObb.mtx, 0, sizeof(_outObb.mtx) );
- _outObb.mtx[ 0] = (_aabb.max.x - _aabb.min.x) * 0.5f;
- _outObb.mtx[ 5] = (_aabb.max.y - _aabb.min.y) * 0.5f;
- _outObb.mtx[10] = (_aabb.max.z - _aabb.min.z) * 0.5f;
- _outObb.mtx[12] = (_aabb.min.x + _aabb.max.x) * 0.5f;
- _outObb.mtx[13] = (_aabb.min.y + _aabb.max.y) * 0.5f;
- _outObb.mtx[14] = (_aabb.min.z + _aabb.max.z) * 0.5f;
- _outObb.mtx[15] = 1.0f;
-}
-
-void calcObb(Obb& _outObb, const void* _vertices, uint32_t _numVertices, uint32_t _stride, uint32_t _steps)
-{
- Aabb aabb;
- toAabb(aabb, _vertices, _numVertices, _stride);
- float minArea = calcAreaAabb(aabb);
-
- Obb best;
- toObb(best, aabb);
-
- float angleStep = float(kPiHalf/_steps);
- float ax = 0.0f;
- float mtx[16];
-
- for (uint32_t ii = 0; ii < _steps; ++ii)
- {
- float ay = 0.0f;
-
- for (uint32_t jj = 0; jj < _steps; ++jj)
- {
- float az = 0.0f;
-
- for (uint32_t kk = 0; kk < _steps; ++kk)
- {
- mtxRotateXYZ(mtx, ax, ay, az);
-
- float mtxT[16];
- mtxTranspose(mtxT, mtx);
- toAabb(aabb, mtxT, _vertices, _numVertices, _stride);
-
- float area = calcAreaAabb(aabb);
- if (area < minArea)
- {
- minArea = area;
- aabbTransformToObb(best, aabb, mtx);
- }
-
- az += angleStep;
- }
-
- ay += angleStep;
- }
-
- ax += angleStep;
- }
-
- memCopy(&_outObb, &best, sizeof(Obb) );
-}
-
-void calcMaxBoundingSphere(Sphere& _sphere, const void* _vertices, uint32_t _numVertices, uint32_t _stride)
-{
- Aabb aabb;
- toAabb(aabb, _vertices, _numVertices, _stride);
-
- Vec3 center = getCenter(aabb);
-
- float maxDistSq = 0.0f;
- uint8_t* vertex = (uint8_t*)_vertices;
-
- for (uint32_t ii = 0; ii < _numVertices; ++ii)
- {
- const Vec3& pos = load<Vec3>(vertex);
- vertex += _stride;
-
- const Vec3 tmp = sub(pos, center);
- const float distSq = dot(tmp, tmp);
- maxDistSq = max(distSq, maxDistSq);
- }
-
- _sphere.center = center;
- _sphere.radius = bx::sqrt(maxDistSq);
-}
-
-void calcMinBoundingSphere(Sphere& _sphere, const void* _vertices, uint32_t _numVertices, uint32_t _stride, float _step)
-{
- RngMwc rng;
-
- uint8_t* vertex = (uint8_t*)_vertices;
-
- Vec3 center(init::None);
- float* position = (float*)&vertex[0];
- center.x = position[0];
- center.y = position[1];
- center.z = position[2];
-
- position = (float*)&vertex[1*_stride];
- center.x += position[0];
- center.y += position[1];
- center.z += position[2];
-
- center.x *= 0.5f;
- center.y *= 0.5f;
- center.z *= 0.5f;
-
- float xx = position[0] - center.x;
- float yy = position[1] - center.y;
- float zz = position[2] - center.z;
- float maxDistSq = xx*xx + yy*yy + zz*zz;
-
- float radiusStep = _step * 0.37f;
-
- bool done;
- do
- {
- done = true;
- for (uint32_t ii = 0, index = rng.gen()%_numVertices; ii < _numVertices; ++ii, index = (index + 1)%_numVertices)
- {
- position = (float*)&vertex[index*_stride];
-
- xx = position[0] - center.x;
- yy = position[1] - center.y;
- zz = position[2] - center.z;
- float distSq = xx*xx + yy*yy + zz*zz;
-
- if (distSq > maxDistSq)
- {
- done = false;
-
- center.x += xx * radiusStep;
- center.y += yy * radiusStep;
- center.z += zz * radiusStep;
- maxDistSq = lerp(maxDistSq, distSq, _step);
-
- break;
- }
- }
-
- } while (!done);
-
- _sphere.center = center;
- _sphere.radius = bx::sqrt(maxDistSq);
-}
-
-void buildFrustumPlanes(Plane* _result, const float* _viewProj)
-{
- const float xw = _viewProj[ 3];
- const float yw = _viewProj[ 7];
- const float zw = _viewProj[11];
- const float ww = _viewProj[15];
-
- const float xz = _viewProj[ 2];
- const float yz = _viewProj[ 6];
- const float zz = _viewProj[10];
- const float wz = _viewProj[14];
-
- Plane& near = _result[0];
- Plane& far = _result[1];
- Plane& left = _result[2];
- Plane& right = _result[3];
- Plane& top = _result[4];
- Plane& bottom = _result[5];
-
- near.normal.x = xw - xz;
- near.normal.y = yw - yz;
- near.normal.z = zw - zz;
- near.dist = ww - wz;
-
- far.normal.x = xw + xz;
- far.normal.y = yw + yz;
- far.normal.z = zw + zz;
- far.dist = ww + wz;
-
- const float xx = _viewProj[ 0];
- const float yx = _viewProj[ 4];
- const float zx = _viewProj[ 8];
- const float wx = _viewProj[12];
-
- left.normal.x = xw - xx;
- left.normal.y = yw - yx;
- left.normal.z = zw - zx;
- left.dist = ww - wx;
-
- right.normal.x = xw + xx;
- right.normal.y = yw + yx;
- right.normal.z = zw + zx;
- right.dist = ww + wx;
-
- const float xy = _viewProj[ 1];
- const float yy = _viewProj[ 5];
- const float zy = _viewProj[ 9];
- const float wy = _viewProj[13];
-
- top.normal.x = xw + xy;
- top.normal.y = yw + yy;
- top.normal.z = zw + zy;
- top.dist = ww + wy;
-
- bottom.normal.x = xw - xy;
- bottom.normal.y = yw - yy;
- bottom.normal.z = zw - zy;
- bottom.dist = ww - wy;
-
- Plane* plane = _result;
- for (uint32_t ii = 0; ii < 6; ++ii)
- {
- const float invLen = 1.0f/length(plane->normal);
- plane->normal = normalize(plane->normal);
- plane->dist *= invLen;
- ++plane;
- }
-}
-
-Ray makeRay(float _x, float _y, const float* _invVp)
-{
- Ray ray;
-
- const Vec3 near = { _x, _y, 0.0f };
- ray.pos = mulH(near, _invVp);
-
- const Vec3 far = { _x, _y, 1.0f };
- Vec3 tmp = mulH(far, _invVp);
-
- const Vec3 dir = sub(tmp, ray.pos);
- ray.dir = normalize(dir);
-
- return ray;
-}
-
-inline Vec3 getPointAt(const Ray& _ray, float _t)
-{
- return mad(_ray.dir, _t, _ray.pos);
-}
-
-bool intersect(const Ray& _ray, const Aabb& _aabb, Hit* _hit)
-{
- const Vec3 invDir = rcp(_ray.dir);
- const Vec3 tmp0 = sub(_aabb.min, _ray.pos);
- const Vec3 t0 = mul(tmp0, invDir);
- const Vec3 tmp1 = sub(_aabb.max, _ray.pos);
- const Vec3 t1 = mul(tmp1, invDir);
-
- const Vec3 mn = min(t0, t1);
- const Vec3 mx = max(t0, t1);
-
- const float tmin = max(mn.x, mn.y, mn.z);
- const float tmax = min(mx.x, mx.y, mx.z);
-
- if (0.0f > tmax
- || tmin > tmax)
- {
- return false;
- }
-
- if (NULL != _hit)
- {
- _hit->plane.normal.x = float( (t1.x == tmin) - (t0.x == tmin) );
- _hit->plane.normal.y = float( (t1.y == tmin) - (t0.y == tmin) );
- _hit->plane.normal.z = float( (t1.z == tmin) - (t0.z == tmin) );
-
- _hit->plane.dist = tmin;
- _hit->pos = getPointAt(_ray, tmin);
- }
-
- return true;
-}
-
-static constexpr Aabb kUnitAabb =
-{
- { -1.0f, -1.0f, -1.0f },
- { 1.0f, 1.0f, 1.0f },
-};
-
-bool intersect(const Ray& _ray, const Obb& _obb, Hit* _hit)
-{
- Aabb aabb;
- toAabb(aabb, _obb);
-
- if (!intersect(_ray, aabb) )
- {
- return false;
- }
-
- float mtxInv[16];
- mtxInverse(mtxInv, _obb.mtx);
-
- Ray obbRay;
- obbRay.pos = mul(_ray.pos, mtxInv);
- obbRay.dir = mulXyz0(_ray.dir, mtxInv);
-
- if (intersect(obbRay, kUnitAabb, _hit) )
- {
- if (NULL != _hit)
- {
- _hit->pos = mul(_hit->pos, _obb.mtx);
-
- const Vec3 tmp = mulXyz0(_hit->plane.normal, _obb.mtx);
- _hit->plane.normal = normalize(tmp);
- }
-
- return true;
- }
-
- return false;
-}
-
-bool intersect(const Ray& _ray, const Disk& _disk, Hit* _hit)
-{
- Plane plane(_disk.normal, -dot(_disk.center, _disk.normal) );
-
- Hit tmpHit;
- _hit = NULL != _hit ? _hit : &tmpHit;
-
- if (intersect(_ray, plane, _hit) )
- {
- const Vec3 tmp = sub(_disk.center, _hit->pos);
- return dot(tmp, tmp) <= square(_disk.radius);
- }
-
- return false;
-}
-
-static bool intersect(const Ray& _ray, const Cylinder& _cylinder, bool _capsule, Hit* _hit)
-{
- Vec3 axis = sub(_cylinder.end, _cylinder.pos);
- const Vec3 rc = sub(_ray.pos, _cylinder.pos);
- const Vec3 dxa = cross(_ray.dir, axis);
-
- const float len = length(dxa);
- const Vec3 normal = normalize(dxa);
- const float dist = bx::abs(dot(rc, normal) );
-
- if (dist > _cylinder.radius)
- {
- return false;
- }
-
- Vec3 vo = cross(rc, axis);
- const float t0 = -dot(vo, normal) / len;
-
- vo = normalize(cross(normal, axis) );
-
- const float rsq = square(_cylinder.radius);
- const float ddoto = dot(_ray.dir, vo);
- const float ss = t0 - bx::abs(bx::sqrt(rsq - square(dist) ) / ddoto);
-
- if (0.0f > ss)
- {
- return false;
- }
-
- const Vec3 point = getPointAt(_ray, ss);
-
- const float axisLen = length(axis);
- axis = normalize(axis);
- const float pdota = dot(_cylinder.pos, axis);
- const float height = dot(point, axis) - pdota;
-
- if (0.0f < height
- && axisLen > height)
- {
- if (NULL != _hit)
- {
- const float t1 = height / axisLen;
- const Vec3 pointOnAxis = lerp(_cylinder.pos, _cylinder.end, t1);
-
- _hit->pos = point;
-
- const Vec3 tmp = sub(point, pointOnAxis);
- _hit->plane.normal = normalize(tmp);
-
- _hit->plane.dist = ss;
- }
-
- return true;
- }
-
- if (_capsule)
- {
- const float rdota = dot(_ray.pos, axis);
- const float pp = rdota - pdota;
- const float t1 = pp / axisLen;
-
- const Vec3 pointOnAxis = lerp(_cylinder.pos, _cylinder.end, t1);
- const Vec3 axisToRay = sub(_ray.pos, pointOnAxis);
-
- if (_cylinder.radius < length(axisToRay)
- && 0.0f > ss)
- {
- return false;
- }
-
- Sphere sphere;
- sphere.radius = _cylinder.radius;
-
- sphere.center = 0.0f >= height
- ? _cylinder.pos
- : _cylinder.end
- ;
-
- return intersect(_ray, sphere, _hit);
- }
-
- Plane plane(init::None);
- Vec3 pos(init::None);
-
- if (0.0f >= height)
- {
- plane.normal = neg(axis);
- pos = _cylinder.pos;
- }
- else
- {
- plane.normal = axis;
- pos = _cylinder.end;
- }
-
- plane.dist = -dot(pos, plane.normal);
-
- Hit tmpHit;
- _hit = NULL != _hit ? _hit : &tmpHit;
-
- if (intersect(_ray, plane, _hit) )
- {
- const Vec3 tmp = sub(pos, _hit->pos);
- return dot(tmp, tmp) <= rsq;
- }
-
- return false;
-}
-
-bool intersect(const Ray& _ray, const Cylinder& _cylinder, Hit* _hit)
-{
- return intersect(_ray, _cylinder, false, _hit);
-}
-
-bool intersect(const Ray& _ray, const Capsule& _capsule, Hit* _hit)
-{
- BX_STATIC_ASSERT(sizeof(Capsule) == sizeof(Cylinder) );
- return intersect(_ray, *( (const Cylinder*)&_capsule), true, _hit);
-}
-
-bool intersect(const Ray& _ray, const Cone& _cone, Hit* _hit)
-{
- const Vec3 axis = sub(_cone.pos, _cone.end);
-
- const float len = length(axis);
- const Vec3 normal = normalize(axis);
-
- Disk disk;
- disk.center = _cone.pos;
- disk.normal = normal;
- disk.radius = _cone.radius;
-
- Hit tmpInt;
- Hit* out = NULL != _hit ? _hit : &tmpInt;
- bool hit = intersect(_ray, disk, out);
-
- const Vec3 ro = sub(_ray.pos, _cone.end);
-
- const float hyp = bx::sqrt(square(_cone.radius) + square(len) );
- const float cosaSq = square(len/hyp);
- const float ndoto = dot(normal, ro);
- const float ndotd = dot(normal, _ray.dir);
-
- const float aa = square(ndotd) - cosaSq;
- const float bb = 2.0f * (ndotd*ndoto - dot(_ray.dir, ro)*cosaSq);
- const float cc = square(ndoto) - dot(ro, ro)*cosaSq;
-
- float det = bb*bb - 4.0f*aa*cc;
-
- if (0.0f > det)
- {
- return hit;
- }
-
- det = bx::sqrt(det);
- const float invA2 = 1.0f / (2.0f*aa);
- const float t1 = (-bb - det) * invA2;
- const float t2 = (-bb + det) * invA2;
-
- float tt = t1;
- if (0.0f > t1
- || (0.0f < t2 && t2 < t1) )
- {
- tt = t2;
- }
-
- if (0.0f > tt)
- {
- return hit;
- }
-
- const Vec3 hitPos = getPointAt(_ray, tt);
- const Vec3 point = sub(hitPos, _cone.end);
-
- const float hh = dot(normal, point);
-
- if (0.0f > hh
- || len < hh)
- {
- return hit;
- }
-
- if (NULL != _hit)
- {
- if (!hit
- || tt < _hit->plane.dist)
- {
- _hit->plane.dist = tt;
- _hit->pos = hitPos;
-
- const float scale = hh / dot(point, point);
- const Vec3 pointScaled = mul(point, scale);
-
- const Vec3 tmp = sub(pointScaled, normal);
- _hit->plane.normal = normalize(tmp);
- }
- }
-
- return true;
-}
-
-bool intersect(const Ray& _ray, const Plane& _plane, Hit* _hit)
-{
- const float dist = distance(_plane, _ray.pos);
- if (0.0f > dist)
- {
- return false;
- }
-
- const float ndotd = dot(_ray.dir, _plane.normal);
- if (0.0f < ndotd)
- {
- return false;
- }
-
- if (NULL != _hit)
- {
- _hit->plane.normal = _plane.normal;
-
- float tt = -dist/ndotd;
- _hit->plane.dist = tt;
- _hit->pos = getPointAt(_ray, tt);
- }
-
- return true;
-}
-
-bool intersect(const Ray& _ray, const Sphere& _sphere, Hit* _hit)
-{
- const Vec3 rs = sub(_ray.pos, _sphere.center);
-
- const float bb = dot(rs, _ray.dir);
- if (0.0f < bb)
- {
- return false;
- }
-
- const float aa = dot(_ray.dir, _ray.dir);
- const float cc = dot(rs, rs) - square(_sphere.radius);
-
- const float discriminant = bb*bb - aa*cc;
-
- if (0.0f >= discriminant)
- {
- return false;
- }
-
- const float sqrtDiscriminant = bx::sqrt(discriminant);
- const float invA = 1.0f / aa;
- const float tt = -(bb + sqrtDiscriminant)*invA;
-
- if (0.0f >= tt)
- {
- return false;
- }
-
- if (NULL != _hit)
- {
- _hit->plane.dist = tt;
-
- const Vec3 point = getPointAt(_ray, tt);
- _hit->pos = point;
-
- const Vec3 tmp = sub(point, _sphere.center);
- _hit->plane.normal = normalize(tmp);
- }
-
- return true;
-}
-
-bool intersect(const Ray& _ray, const Triangle& _triangle, Hit* _hit)
-{
- const Vec3 edge10 = sub(_triangle.v1, _triangle.v0);
- const Vec3 edge02 = sub(_triangle.v0, _triangle.v2);
- const Vec3 normal = cross(edge02, edge10);
- const Vec3 vo = sub(_triangle.v0, _ray.pos);
- const Vec3 dxo = cross(_ray.dir, vo);
- const float det = dot(normal, _ray.dir);
-
- if (0.0f < det)
- {
- return false;
- }
-
- const float invDet = 1.0f/det;
- const float bz = dot(dxo, edge02) * invDet;
- const float by = dot(dxo, edge10) * invDet;
- const float bx = 1.0f - by - bz;
-
- if (0.0f > bx
- || 0.0f > by
- || 0.0f > bz)
- {
- return false;
- }
-
- if (NULL != _hit)
- {
- _hit->plane.normal = normalize(normal);
-
- const float tt = dot(normal, vo) * invDet;
- _hit->plane.dist = tt;
- _hit->pos = getPointAt(_ray, tt);
- }
-
- return true;
-}
-
-Vec3 barycentric(const Triangle& _triangle, const Vec3& _pos)
-{
- const Vec3 v0 = sub(_triangle.v1, _triangle.v0);
- const Vec3 v1 = sub(_triangle.v2, _triangle.v0);
- const Vec3 v2 = sub(_pos, _triangle.v0);
-
- const float dot00 = dot(v0, v0);
- const float dot01 = dot(v0, v1);
- const float dot02 = dot(v0, v2);
- const float dot11 = dot(v1, v1);
- const float dot12 = dot(v1, v2);
-
- const float invDenom = 1.0f/(dot00*dot11 - square(dot01) );
-
- const float vv = (dot11*dot02 - dot01*dot12)*invDenom;
- const float ww = (dot00*dot12 - dot01*dot02)*invDenom;
- const float uu = 1.0f - vv - ww;
-
- return { uu, vv, ww };
-}
-
-Vec3 cartesian(const Triangle& _triangle, const Vec3& _uvw)
-{
- const Vec3 b0 = mul(_triangle.v0, _uvw.x);
- const Vec3 b1 = mul(_triangle.v1, _uvw.y);
- const Vec3 b2 = mul(_triangle.v2, _uvw.z);
-
- return add(add(b0, b1), b2);
-}
-
-void calcPlane(Plane& _outPlane, const Disk& _disk)
-{
- calcPlane(_outPlane, _disk.normal, _disk.center);
-}
-
-void calcPlane(Plane& _outPlane, const Triangle& _triangle)
-{
- calcPlane(_outPlane, _triangle.v0, _triangle.v1, _triangle.v2);
-}
-
-struct Interval
-{
- Interval(float _val)
- : start(_val)
- , end(_val)
- {
- }
-
- Interval(float _start, float _end)
- : start(_start)
- , end(_end)
- {
- }
-
- void set(float _val)
- {
- start = _val;
- end = _val;
- }
-
- void expand(float _val)
- {
- start = min(_val, start);
- end = max(_val, end);
- }
-
- float start;
- float end;
-};
-
-bool overlap(const Interval& _a, const Interval& _b)
-{
- return _a.end > _b.start
- && _b.end > _a.start
- ;
-}
-
-float projectToAxis(const Vec3& _axis, const Vec3& _point)
-{
- return dot(_axis, _point);
-}
-
-Interval projectToAxis(const Vec3& _axis, const Vec3* _points, uint32_t _num)
-{
- Interval interval(projectToAxis(_axis, _points[0]) );
-
- for (uint32_t ii = 1; ii < _num; ++ii)
- {
- interval.expand(projectToAxis(_axis, _points[ii]) );
- }
-
- return interval;
-}
-
-Interval projectToAxis(const Vec3& _axis, const Aabb& _aabb)
-{
- const float extent = bx::abs(projectToAxis(abs(_axis), getExtents(_aabb) ) );
- const float center = projectToAxis( _axis , getCenter (_aabb) );
- return
- {
- center - extent,
- center + extent,
- };
-}
-
-Interval projectToAxis(const Vec3& _axis, const Triangle& _triangle)
-{
- const float a0 = projectToAxis(_axis, _triangle.v0);
- const float a1 = projectToAxis(_axis, _triangle.v1);
- const float a2 = projectToAxis(_axis, _triangle.v2);
- return
- {
- min(a0, a1, a2),
- max(a0, a1, a2),
- };
-}
-
-struct Srt
-{
- Quaternion rotation = init::Identity;
- Vec3 translation = init::Zero;
- Vec3 scale = init::Zero;
-};
-
-Srt toSrt(const Aabb& _aabb)
-{
- return { init::Identity, getCenter(_aabb), getExtents(_aabb) };
-}
-
-Srt toSrt(const void* _mtx)
-{
- Srt result;
-
- const float* mtx = (const float*)_mtx;
-
- result.translation = { mtx[12], mtx[13], mtx[14] };
-
- float xx = mtx[ 0];
- float xy = mtx[ 1];
- float xz = mtx[ 2];
- float yx = mtx[ 4];
- float yy = mtx[ 5];
- float yz = mtx[ 6];
- float zx = mtx[ 8];
- float zy = mtx[ 9];
- float zz = mtx[10];
-
- result.scale =
- {
- bx::sqrt(xx*xx + xy*xy + xz*xz),
- bx::sqrt(yx*yx + yy*yy + yz*yz),
- bx::sqrt(zx*zx + zy*zy + zz*zz),
- };
-
- const Vec3 invScale = rcp(result.scale);
-
- xx *= invScale.x;
- xy *= invScale.x;
- xz *= invScale.x;
- yx *= invScale.y;
- yy *= invScale.y;
- yz *= invScale.y;
- zx *= invScale.z;
- zy *= invScale.z;
- zz *= invScale.z;
-
- const float trace = xx + yy + zz;
-
- if (0.0f < trace)
- {
- const float invS = 0.5f * rsqrt(trace + 1.0f);
- result.rotation =
- {
- (yz - zy) * invS,
- (zx - xz) * invS,
- (xy - yx) * invS,
- 0.25f / invS,
- };
- }
- else
- {
- if (xx > yy
- && xx > zz)
- {
- const float invS = 0.5f * bx::sqrt(max(1.0f + xx - yy - zz, 1e-8f) );
- result.rotation =
- {
- 0.25f / invS,
- (xy + yx) * invS,
- (xz + zx) * invS,
- (yz - zy) * invS,
- };
- }
- else if (yy > zz)
- {
- const float invS = 0.5f * bx::sqrt(max(1.0f + yy - xx - zz, 1e-8f) );
- result.rotation =
- {
- (xy + yx) * invS,
- 0.25f / invS,
- (yz + zy) * invS,
- (zx - xz) * invS,
- };
- }
- else
- {
- const float invS = 0.5f * bx::sqrt(max(1.0f + zz - xx - yy, 1e-8f) );
- result.rotation =
- {
- (xz + zx) * invS,
- (yz + zy) * invS,
- 0.25f / invS,
- (xy - yx) * invS,
- };
- }
- }
-
- return result;
-}
-
-void mtxFromSrt(float* _outMtx, const Srt& _srt)
-{
- mtxQuat(_outMtx, _srt.rotation);
-
- store<Vec3>(&_outMtx[0], mul(load<Vec3>(&_outMtx[0]), _srt.scale.x) );
- store<Vec3>(&_outMtx[4], mul(load<Vec3>(&_outMtx[4]), _srt.scale.y) );
- store<Vec3>(&_outMtx[8], mul(load<Vec3>(&_outMtx[8]), _srt.scale.z) );
-
- store<Vec3>(&_outMtx[12], _srt.translation);
-}
-
-bool isNearZero(float _v)
-{
- return equal(_v, 0.0f, 0.00001f);
-}
-
-bool isNearZero(const Vec3& _v)
-{
- return isNearZero(dot(_v, _v) );
-}
-
-struct Line
-{
- Vec3 pos = init::None;
- Vec3 dir = init::None;
-};
-
-inline Vec3 getPointAt(const Line& _line, float _t)
-{
- return mad(_line.dir, _t, _line.pos);
-}
-
-bool intersect(Line& _outLine, const Plane& _planeA, const Plane& _planeB)
-{
- const Vec3 axb = cross(_planeA.normal, _planeB.normal);
- const float denom = dot(axb, axb);
-
- if (isNearZero(denom) )
- {
- return false;
- }
-
- const Vec3 bxaxb = cross(_planeB.normal, axb);
- const Vec3 axbxa = cross(axb, _planeA.normal);
- const Vec3 tmp0 = mul(bxaxb, _planeA.dist);
- const Vec3 tmp1 = mul(axbxa, _planeB.dist);
- const Vec3 tmp2 = add(tmp0, tmp1);
-
- _outLine.pos = mul(tmp2, -1.0f/denom);
- _outLine.dir = normalize(axb);
-
- return true;
-}
-
-Vec3 intersectPlanes(const Plane& _pa, const Plane& _pb, const Plane& _pc)
-{
- const Vec3 axb = cross(_pa.normal, _pb.normal);
- const Vec3 bxc = cross(_pb.normal, _pc.normal);
- const Vec3 cxa = cross(_pc.normal, _pa.normal);
- const Vec3 tmp0 = mul(bxc, _pa.dist);
- const Vec3 tmp1 = mul(cxa, _pb.dist);
- const Vec3 tmp2 = mul(axb, _pc.dist);
- const Vec3 tmp3 = add(tmp0, tmp1);
- const Vec3 tmp4 = add(tmp3, tmp2);
-
- const float denom = dot(_pa.normal, bxc);
- const Vec3 result = mul(tmp4, -1.0f/denom);
-
- return result;
-}
-
-struct LineSegment
-{
- Vec3 pos;
- Vec3 end;
-};
-
-inline Vec3 getPointAt(const LineSegment& _line, float _t)
-{
- return lerp(_line.pos, _line.end, _t);
-}
-
-bool intersect(float& _outTa, float& _outTb, const LineSegment& _a, const LineSegment& _b)
-{
- // Reference(s):
- //
- // - The shortest line between two lines in 3D
- // https://web.archive.org/web/20120309093234/http://paulbourke.net/geometry/lineline3d/
-
- const Vec3 bd = sub(_b.end, _b.pos);
- if (isNearZero(bd) )
- {
- return false;
- }
-
- const Vec3 ad = sub(_a.end, _a.pos);
- if (isNearZero(ad) )
- {
- return false;
- }
-
- const Vec3 ab = sub(_a.pos, _b.pos);
-
- const float d0 = projectToAxis(ab, bd);
- const float d1 = projectToAxis(ad, bd);
- const float d2 = projectToAxis(ab, ad);
- const float d3 = projectToAxis(bd, bd);
- const float d4 = projectToAxis(ad, ad);
-
- const float denom = d4*d3 - square(d1);
-
- float ta = 0.0f;
-
- if (!isNearZero(denom) )
- {
- ta = (d0*d1 - d2*d3)/denom;
- }
-
- _outTa = ta;
- _outTb = (d0+d1*ta)/d3;
-
- return true;
-}
-
-bool intersect(const LineSegment& _a, const LineSegment& _b)
-{
- float ta, tb;
- if (!intersect(ta, tb, _a, _b) )
- {
- return false;
- }
-
- return 0.0f >= ta
- && 1.0f <= ta
- && 0.0f >= tb
- && 1.0f <= tb
- ;
-}
-
-bool intersect(const LineSegment& _line, const Plane& _plane, Hit* _hit)
-{
- const float dist = distance(_plane, _line.pos);
- const float flip = sign(dist);
- const Vec3 dir = normalize(sub(_line.end, _line.pos) );
- const float ndotd = dot(dir, _plane.normal);
- const float tt = -dist/ndotd;
- const float len = length(sub(_line.end, _line.pos) );
-
- if (tt < 0.0f || tt > len)
- {
- return false;
- }
-
- if (NULL != _hit)
- {
- _hit->pos = mad(dir, tt, _line.pos);
-
- _hit->plane.normal = mul(_plane.normal, flip);
- _hit->plane.dist = -dot(_hit->plane.normal, _hit->pos);
- }
-
- return true;
-}
-
-float distance(const Plane& _plane, const LineSegment& _line)
-{
- const float pd = distance(_plane, _line.pos);
- const float ed = distance(_plane, _line.end);
- return min(max(pd*ed, 0.0f), bx::abs(pd), bx::abs(ed) );
-}
-
-Vec3 closestPoint(const Line& _line, const Vec3& _point)
-{
- const float tt = projectToAxis(_line.dir, sub(_point, _line.pos) );
- return getPointAt(_line, tt);
-}
-
-Vec3 closestPoint(const LineSegment& _line, const Vec3& _point, float& _outT)
-{
- const Vec3 axis = sub(_line.end, _line.pos);
- const float lengthSq = dot(axis, axis);
- const float tt = clamp(projectToAxis(axis, sub(_point, _line.pos) ) / lengthSq, 0.0f, 1.0f);
- _outT = tt;
- return mad(axis, tt, _line.pos);
-}
-
-Vec3 closestPoint(const LineSegment& _line, const Vec3& _point)
-{
- float ignored;
- return closestPoint(_line, _point, ignored);
-}
-
-Vec3 closestPoint(const Plane& _plane, const Vec3& _point)
-{
- const float dist = distance(_plane, _point);
- return sub(_point, mul(_plane.normal, dist) );
-}
-
-Vec3 closestPoint(const Aabb& _aabb, const Vec3& _point)
-{
- return clamp(_point, _aabb.min, _aabb.max);
-}
-
-Vec3 closestPoint(const Obb& _obb, const Vec3& _point)
-{
- const Srt srt = toSrt(_obb.mtx);
-
- Aabb aabb;
- toAabb(aabb, srt.scale);
-
- const Quaternion invRotation = invert(srt.rotation);
- const Vec3 obbSpacePos = mul(sub(_point, srt.translation), srt.rotation);
- const Vec3 pos = closestPoint(aabb, obbSpacePos);
-
- return add(mul(pos, invRotation), srt.translation);
-}
-
-Vec3 closestPoint(const Triangle& _triangle, const Vec3& _point)
-{
- Plane plane(init::None);
- calcPlane(plane, _triangle);
-
- const Vec3 pos = closestPoint(plane, _point);
- const Vec3 uvw = barycentric(_triangle, pos);
-
- return cartesian(_triangle, clamp<Vec3>(uvw, Vec3(0.0f), Vec3(1.0f) ) );
-}
-
-bool overlap(const Aabb& _aabb, const Vec3& _pos)
-{
- const Vec3 ac = getCenter(_aabb);
- const Vec3 ae = getExtents(_aabb);
- const Vec3 abc = bx::abs(sub(ac, _pos) );
-
- return abc.x <= ae.x
- && abc.y <= ae.y
- && abc.z <= ae.z
- ;
-}
-
-bool overlap(const Aabb& _aabbA, const Aabb& _aabbB)
-{
- return true
- && overlap(Interval{_aabbA.min.x, _aabbA.max.x}, Interval{_aabbB.min.x, _aabbB.max.x})
- && overlap(Interval{_aabbA.min.y, _aabbA.max.y}, Interval{_aabbB.min.y, _aabbB.max.y})
- && overlap(Interval{_aabbA.min.z, _aabbA.max.z}, Interval{_aabbB.min.z, _aabbB.max.z})
- ;
-}
-
-bool overlap(const Aabb& _aabb, const Plane& _plane)
-{
- const Vec3 center = getCenter(_aabb);
- const float dist = distance(_plane, center);
-
- const Vec3 extents = getExtents(_aabb);
- const Vec3 normal = bx::abs(_plane.normal);
- const float radius = dot(extents, normal);
-
- return bx::abs(dist) <= radius;
-}
-
-static constexpr Vec3 kAxis[] =
-{
- { 1.0f, 0.0f, 0.0f },
- { 0.0f, 1.0f, 0.0f },
- { 0.0f, 0.0f, 1.0f },
-};
-
-bool overlap(const Aabb& _aabb, const Triangle& _triangle)
-{
- Aabb triAabb;
- toAabb(triAabb, _triangle);
-
- if (!overlap(_aabb, triAabb) )
- {
- return false;
- }
-
- Plane plane(init::None);
- calcPlane(plane, _triangle);
-
- if (!overlap(_aabb, plane) )
- {
- return false;
- }
-
- const Vec3 center = getCenter(_aabb);
- const Vec3 v0 = sub(_triangle.v0, center);
- const Vec3 v1 = sub(_triangle.v1, center);
- const Vec3 v2 = sub(_triangle.v2, center);
-
- const Vec3 edge[] =
- {
- sub(v1, v0),
- sub(v2, v1),
- sub(v0, v2),
- };
-
- for (uint32_t ii = 0; ii < 3; ++ii)
- {
- for (uint32_t jj = 0; jj < 3; ++jj)
- {
- const Vec3 axis = cross(kAxis[ii], edge[jj]);
-
- const Interval aabbR = projectToAxis(axis, _aabb);
- const Interval triR = projectToAxis(axis, _triangle);
-
- if (!overlap(aabbR, triR) )
- {
- return false;
- }
- }
- }
-
- return true;
-}
-
-bool overlap(const Aabb& _aabb, const Capsule& _capsule)
-{
- const Vec3 pos = closestPoint(LineSegment{_capsule.pos, _capsule.end}, getCenter(_aabb) );
- return overlap(_aabb, Sphere{pos, _capsule.radius});
-}
-
-bool overlap(const Aabb& _aabb, const Cone& _cone)
-{
- float tt;
- const Vec3 pos = closestPoint(LineSegment{_cone.pos, _cone.end}, getCenter(_aabb), tt);
- return overlap(_aabb, Sphere{pos, lerp(_cone.radius, 0.0f, tt)});
-}
-
-bool overlap(const Aabb& _aabb, const Disk& _disk)
-{
- if (!overlap(_aabb, Sphere{_disk.center, _disk.radius}) )
- {
- return false;
- }
-
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- return overlap(_aabb, plane);
-}
-
-static void calcObbVertices(
- bx::Vec3* _outVertices
- , const bx::Vec3& _axisX
- , const bx::Vec3& _axisY
- , const bx::Vec3& _axisZ
- , const bx::Vec3& _pos
- , const bx::Vec3& _scale
- )
-{
- const Vec3 ax = mul(_axisX, _scale.x);
- const Vec3 ay = mul(_axisY, _scale.y);
- const Vec3 az = mul(_axisZ, _scale.z);
-
- const Vec3 ppx = add(_pos, ax);
- const Vec3 pmx = sub(_pos, ax);
- const Vec3 ypz = add(ay, az);
- const Vec3 ymz = sub(ay, az);
-
- _outVertices[0] = sub(pmx, ymz);
- _outVertices[1] = sub(ppx, ymz);
- _outVertices[2] = add(ppx, ymz);
- _outVertices[3] = add(pmx, ymz);
- _outVertices[4] = sub(pmx, ypz);
- _outVertices[5] = sub(ppx, ypz);
- _outVertices[6] = add(ppx, ypz);
- _outVertices[7] = add(pmx, ypz);
-}
-
-static bool overlaps(const Vec3& _axis, const Vec3* _vertsA, const Vec3* _vertsB)
-{
- Interval ia = projectToAxis(_axis, _vertsA, 8);
- Interval ib = projectToAxis(_axis, _vertsB, 8);
-
- return overlap(ia, ib);
-}
-
-static bool overlap(const Srt& _srtA, const Srt& _srtB)
-{
- const Vec3 ax = toXAxis(_srtA.rotation);
- const Vec3 ay = toYAxis(_srtA.rotation);
- const Vec3 az = toZAxis(_srtA.rotation);
-
- const Vec3 bx = toXAxis(_srtB.rotation);
- const Vec3 by = toYAxis(_srtB.rotation);
- const Vec3 bz = toZAxis(_srtB.rotation);
-
- Vec3 vertsA[8] = { init::None, init::None, init::None, init::None, init::None, init::None, init::None, init::None };
- calcObbVertices(vertsA, ax, ay, az, init::Zero, _srtA.scale);
-
- Vec3 vertsB[8] = { init::None, init::None, init::None, init::None, init::None, init::None, init::None, init::None };
- calcObbVertices(vertsB, bx, by, bz, sub(_srtB.translation, _srtA.translation), _srtB.scale);
-
- return overlaps(ax, vertsA, vertsB)
- && overlaps(ay, vertsA, vertsB)
- && overlaps(az, vertsA, vertsB)
- && overlaps(bx, vertsA, vertsB)
- && overlaps(by, vertsA, vertsB)
- && overlaps(bz, vertsA, vertsB)
- && overlaps(cross(ax, bx), vertsA, vertsB)
- && overlaps(cross(ax, by), vertsA, vertsB)
- && overlaps(cross(ax, bz), vertsA, vertsB)
- && overlaps(cross(ay, bx), vertsA, vertsB)
- && overlaps(cross(ay, by), vertsA, vertsB)
- && overlaps(cross(ay, bz), vertsA, vertsB)
- && overlaps(cross(az, bx), vertsA, vertsB)
- && overlaps(cross(az, by), vertsA, vertsB)
- && overlaps(cross(az, bz), vertsA, vertsB)
- ;
-}
-
-bool overlap(const Aabb& _aabb, const Obb& _obb)
-{
- const Srt srtA = toSrt(_aabb);
- const Srt srtB = toSrt(_obb.mtx);
-
- return overlap(srtA, srtB);
-}
-
-bool overlap(const Capsule& _capsule, const Vec3& _pos)
-{
- const Vec3 pos = closestPoint(LineSegment{_capsule.pos, _capsule.end}, _pos);
- return overlap(Sphere{pos, _capsule.radius}, _pos);
-}
-
-bool overlap(const Capsule& _capsule, const Plane& _plane)
-{
- return distance(_plane, LineSegment{_capsule.pos, _capsule.end}) <= _capsule.radius;
-}
-
-bool overlap(const Capsule& _capsuleA, const Capsule& _capsuleB)
-{
- float ta, tb;
- if (!intersect(ta, tb, {_capsuleA.pos, _capsuleA.end}, {_capsuleB.pos, _capsuleB.end}) )
- {
- return false;
- }
-
- if (0.0f <= ta
- && 1.0f >= ta
- && 0.0f <= tb
- && 1.0f >= tb)
- {
- const Vec3 ad = sub(_capsuleA.end, _capsuleA.pos);
- const Vec3 bd = sub(_capsuleB.end, _capsuleB.pos);
-
- return overlap(
- Sphere{mad(ad, ta, _capsuleA.pos), _capsuleA.radius}
- , Sphere{mad(bd, tb, _capsuleB.pos), _capsuleB.radius}
- );
- }
-
- if (0.0f <= ta
- && 1.0f >= ta)
- {
- return overlap(_capsuleA, Sphere{0.0f >= tb ? _capsuleB.pos : _capsuleB.end, _capsuleB.radius});
- }
-
- if (0.0f <= tb
- && 1.0f >= tb)
- {
- return overlap(_capsuleB, Sphere{0.0f >= ta ? _capsuleA.pos : _capsuleA.end, _capsuleA.radius});
- }
-
- const Vec3 pa = 0.0f > ta ? _capsuleA.pos : _capsuleA.end;
- const Vec3 pb = 0.0f > tb ? _capsuleB.pos : _capsuleB.end;
- const Vec3 closestA = closestPoint(LineSegment{_capsuleA.pos, _capsuleA.end}, pb);
- const Vec3 closestB = closestPoint(LineSegment{_capsuleB.pos, _capsuleB.end}, pa);
-
- if (dot(closestA, pb) <= dot(closestB, pa) )
- {
- return overlap(_capsuleA, Sphere{closestB, _capsuleB.radius});
- }
-
- return overlap(_capsuleB, Sphere{closestA, _capsuleA.radius});
-}
-
-bool overlap(const Cone& _cone, const Vec3& _pos)
-{
- float tt;
- const Vec3 pos = closestPoint(LineSegment{_cone.pos, _cone.end}, _pos, tt);
- return overlap(Disk{pos, normalize(sub(_cone.end, _cone.pos) ), lerp(_cone.radius, 0.0f, tt)}, _pos);
-}
-
-bool overlap(const Cone& _cone, const Cylinder& _cylinder)
-{
- BX_UNUSED(_cone, _cylinder);
- return false;
-}
-
-bool overlap(const Cone& _cone, const Capsule& _capsule)
-{
- BX_UNUSED(_cone, _capsule);
- return false;
-}
-
-bool overlap(const Cone& _coneA, const Cone& _coneB)
-{
- BX_UNUSED(_coneA, _coneB);
- return false;
-}
-
-bool overlap(const Cone& _cone, const Disk& _disk)
-{
- BX_UNUSED(_cone, _disk);
- return false;
-}
-
-bool overlap(const Cone& _cone, const Obb& _obb)
-{
- BX_UNUSED(_cone, _obb);
- return false;
-}
-
-bool overlap(const Cylinder& _cylinder, const Vec3& _pos)
-{
- const Vec3 pos = closestPoint(LineSegment{_cylinder.pos, _cylinder.end}, _pos);
- return overlap(Disk{pos, normalize(sub(_cylinder.end, _cylinder.pos) ), _cylinder.radius}, _pos);
-}
-
-bool overlap(const Cylinder& _cylinder, const Sphere& _sphere)
-{
- const Vec3 pos = closestPoint(LineSegment{_cylinder.pos, _cylinder.end}, _sphere.center);
- return overlap(Disk{pos, normalize(sub(_cylinder.end, _cylinder.pos) ), _cylinder.radius}, _sphere);
-}
-
-bool overlap(const Cylinder& _cylinder, const Aabb& _aabb)
-{
- const Vec3 pos = closestPoint(LineSegment{_cylinder.pos, _cylinder.end}, getCenter(_aabb) );
- return overlap(Disk{pos, normalize(sub(_cylinder.end, _cylinder.pos) ), _cylinder.radius}, _aabb);
-}
-
-bool overlap(const Cylinder& _cylinder, const Plane& _plane)
-{
- BX_UNUSED(_cylinder, _plane);
- return false;
-}
-
-bool overlap(const Cylinder& _cylinderA, const Cylinder& _cylinderB)
-{
- BX_UNUSED(_cylinderA, _cylinderB);
- return false;
-}
-
-bool overlap(const Cylinder& _cylinder, const Capsule& _capsule)
-{
- BX_UNUSED(_cylinder, _capsule);
- return false;
-}
-
-bool overlap(const Cylinder& _cylinder, const Disk& _disk)
-{
- BX_UNUSED(_cylinder, _disk);
- return false;
-}
-
-bool overlap(const Cylinder& _cylinder, const Obb& _obb)
-{
- BX_UNUSED(_cylinder, _obb);
- return false;
-}
-
-bool overlap(const Disk& _disk, const Vec3& _pos)
-{
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- if (!isNearZero(distance(plane, _pos) ) )
- {
- return false;
- }
-
- return distanceSq(_disk.center, _pos) <= square(_disk.radius);
-}
-
-bool overlap(const Disk& _disk, const Plane& _plane)
-{
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- if (!overlap(plane, _plane) )
- {
- return false;
- }
-
- return overlap(_plane, Sphere{_disk.center, _disk.radius});
-}
-
-bool overlap(const Disk& _disk, const Capsule& _capsule)
-{
- if (!overlap(_capsule, Sphere{_disk.center, _disk.radius}) )
- {
- return false;
- }
-
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- return overlap(_capsule, plane);
-}
-
-bool overlap(const Disk& _diskA, const Disk& _diskB)
-{
- Plane planeA(init::None);
- calcPlane(planeA, _diskA.normal, _diskA.center);
-
- Plane planeB(init::None);
- calcPlane(planeB, _diskB);
-
- Line line;
-
- if (!intersect(line, planeA, planeB) )
- {
- return false;
- }
-
- const Vec3 pa = closestPoint(line, _diskA.center);
- const Vec3 pb = closestPoint(line, _diskB.center);
-
- const float lenA = distance(pa, _diskA.center);
- const float lenB = distance(pb, _diskB.center);
-
- return bx::sqrt(square(_diskA.radius) - square(lenA) )
- + bx::sqrt(square(_diskB.radius) - square(lenB) )
- >= distance(pa, pb)
- ;
-}
-
-bool overlap(const Disk& _disk, const Obb& _obb)
-{
- if (!overlap(_obb, Sphere{_disk.center, _disk.radius}) )
- {
- return false;
- }
-
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- return overlap(_obb, plane);
-}
-
-bool overlap(const Obb& _obb, const Vec3& _pos)
-{
- const Srt srt = toSrt(_obb.mtx);
-
- Aabb aabb;
- toAabb(aabb, srt.scale);
-
- const Quaternion invRotation = invert(srt.rotation);
- const Vec3 pos = mul(sub(_pos, srt.translation), invRotation);
-
- return overlap(aabb, pos);
-}
-
-bool overlap(const Obb& _obb, const Plane& _plane)
-{
- const Srt srt = toSrt(_obb.mtx);
-
- const Quaternion invRotation = invert(srt.rotation);
- const Vec3 axis =
- {
- projectToAxis(_plane.normal, mul(Vec3{1.0f, 0.0f, 0.0f}, invRotation) ),
- projectToAxis(_plane.normal, mul(Vec3{0.0f, 1.0f, 0.0f}, invRotation) ),
- projectToAxis(_plane.normal, mul(Vec3{0.0f, 0.0f, 1.0f}, invRotation) ),
- };
-
- const float dist = bx::abs(distance(_plane, srt.translation) );
- const float radius = dot(srt.scale, bx::abs(axis) );
-
- return dist <= radius;
-}
-
-bool overlap(const Obb& _obb, const Capsule& _capsule)
-{
- const Srt srt = toSrt(_obb.mtx);
-
- Aabb aabb;
- toAabb(aabb, srt.scale);
-
- const Quaternion invRotation = invert(srt.rotation);
-
- const Capsule capsule =
- {
- mul(sub(_capsule.pos, srt.translation), invRotation),
- mul(sub(_capsule.end, srt.translation), invRotation),
- _capsule.radius,
- };
-
- return overlap(aabb, capsule);
-}
-
-bool overlap(const Obb& _obbA, const Obb& _obbB)
-{
- const Srt srtA = toSrt(_obbA.mtx);
- const Srt srtB = toSrt(_obbB.mtx);
-
- return overlap(srtA, srtB);
-}
-
-bool overlap(const Plane& _plane, const LineSegment& _line)
-{
- return isNearZero(distance(_plane, _line) );
-}
-
-bool overlap(const Plane& _plane, const Vec3& _pos)
-{
- return isNearZero(distance(_plane, _pos) );
-}
-
-bool overlap(const Plane& _planeA, const Plane& _planeB)
-{
- const Vec3 dir = cross(_planeA.normal, _planeB.normal);
- const float len = length(dir);
-
- return !isNearZero(len);
-}
-
-bool overlap(const Plane& _plane, const Cone& _cone)
-{
- const Vec3 axis = sub(_cone.pos, _cone.end);
- const float len = length(axis);
- const Vec3 dir = normalize(axis);
-
- const Vec3 v1 = cross(_plane.normal, dir);
- const Vec3 v2 = cross(v1, dir);
-
- const float bb = len;
- const float aa = _cone.radius;
- const float cc = bx::sqrt(square(aa) + square(bb) );
-
- const Vec3 pos = add(add(_cone.end
- , mul(dir, len * bb/cc) )
- , mul(v2, len * aa/cc)
- );
-
- return overlap(_plane, LineSegment{pos, _cone.end});
-}
-
-bool overlap(const Sphere& _sphere, const Vec3& _pos)
-{
- const float distSq = distanceSq(_sphere.center, _pos);
- const float radiusSq = square(_sphere.radius);
- return distSq <= radiusSq;
-}
-
-bool overlap(const Sphere& _sphereA, const Sphere& _sphereB)
-{
- const float distSq = distanceSq(_sphereA.center, _sphereB.center);
- const float radiusSq = square(_sphereA.radius + _sphereB.radius);
- return distSq <= radiusSq;
-}
-
-bool overlap(const Sphere& _sphere, const Aabb& _aabb)
-{
- const Vec3 pos = closestPoint(_aabb, _sphere.center);
- return overlap(_sphere, pos);
-}
-
-bool overlap(const Sphere& _sphere, const Plane& _plane)
-{
- return bx::abs(distance(_plane, _sphere.center) ) <= _sphere.radius;
-}
-
-bool overlap(const Sphere& _sphere, const Triangle& _triangle)
-{
- Plane plane(init::None);
- calcPlane(plane, _triangle);
-
- if (!overlap(_sphere, plane) )
- {
- return false;
- }
-
- const Vec3 pos = closestPoint(plane, _sphere.center);
- const Vec3 uvw = barycentric(_triangle, pos);
- const float nr = -_sphere.radius;
-
- return uvw.x >= nr
- && uvw.y >= nr
- && uvw.z >= nr
- ;
-}
-
-bool overlap(const Sphere& _sphere, const Capsule& _capsule)
-{
- const Vec3 pos = closestPoint(LineSegment{_capsule.pos, _capsule.end}, _sphere.center);
- return overlap(_sphere, Sphere{pos, _capsule.radius});
-}
-
-bool overlap(const Sphere& _sphere, const Cone& _cone)
-{
- float tt;
- const Vec3 pos = closestPoint(LineSegment{_cone.pos, _cone.end}, _sphere.center, tt);
- return overlap(_sphere, Sphere{pos, lerp(_cone.radius, 0.0f, tt)});
-}
-
-bool overlap(const Sphere& _sphere, const Disk& _disk)
-{
- if (!overlap(_sphere, Sphere{_disk.center, _disk.radius}) )
- {
- return false;
- }
-
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- return overlap(_sphere, plane);
-}
-
-bool overlap(const Sphere& _sphere, const Obb& _obb)
-{
- const Vec3 pos = closestPoint(_obb, _sphere.center);
- return overlap(_sphere, pos);
-}
-
-bool overlap(const Triangle& _triangle, const Vec3& _pos)
-{
- const Vec3 uvw = barycentric(_triangle, _pos);
-
- return uvw.x >= 0.0f
- && uvw.y >= 0.0f
- && uvw.z >= 0.0f
- ;
-}
-
-bool overlap(const Triangle& _triangle, const Plane& _plane)
-{
- const float dist0 = distance(_plane, _triangle.v0);
- const float dist1 = distance(_plane, _triangle.v1);
- const float dist2 = distance(_plane, _triangle.v2);
-
- const float minDist = min(dist0, dist1, dist2);
- const float maxDist = max(dist0, dist1, dist2);
-
- return 0.0f > minDist
- && 0.0f < maxDist
- ;
-}
-
-inline bool overlap(const Triangle& _triangleA, const Triangle& _triangleB, const Vec3& _axis)
-{
- const Interval ia = projectToAxis(_axis, _triangleA);
- const Interval ib = projectToAxis(_axis, _triangleB);
- return overlap(ia, ib);
-}
-
-bool overlap(const Triangle& _triangleA, const Triangle& _triangleB)
-{
- const Vec3 baA = sub(_triangleA.v1, _triangleA.v0);
- const Vec3 cbA = sub(_triangleA.v2, _triangleA.v1);
- const Vec3 acA = sub(_triangleA.v0, _triangleA.v2);
-
- const Vec3 baB = sub(_triangleB.v1, _triangleB.v0);
- const Vec3 cbB = sub(_triangleB.v2, _triangleB.v1);
- const Vec3 acB = sub(_triangleB.v0, _triangleB.v2);
-
- return overlap(_triangleA, _triangleB, cross(baA, cbA) )
- && overlap(_triangleA, _triangleB, cross(baB, cbB) )
- && overlap(_triangleA, _triangleB, cross(baB, baA) )
- && overlap(_triangleA, _triangleB, cross(baB, cbA) )
- && overlap(_triangleA, _triangleB, cross(baB, acA) )
- && overlap(_triangleA, _triangleB, cross(cbB, baA) )
- && overlap(_triangleA, _triangleB, cross(cbB, cbA) )
- && overlap(_triangleA, _triangleB, cross(cbB, acA) )
- && overlap(_triangleA, _triangleB, cross(acB, baA) )
- && overlap(_triangleA, _triangleB, cross(acB, cbA) )
- && overlap(_triangleA, _triangleB, cross(acB, acA) )
- ;
-}
-
-template<typename Ty>
-bool overlap(const Triangle& _triangle, const Ty& _ty)
-{
- Plane plane(init::None);
- calcPlane(plane, _triangle);
-
- plane.normal = neg(plane.normal);
- plane.dist = -plane.dist;
-
- const LineSegment line =
- {
- _ty.pos,
- _ty.end,
- };
-
- Hit hit;
- if (intersect(line, plane, &hit) )
- {
- return true;
- }
-
- const Vec3 pos = closestPoint(plane, hit.pos);
- const Vec3 uvw = barycentric(_triangle, pos);
-
- const float nr = -_ty.radius;
-
- if (uvw.x >= nr
- && uvw.y >= nr
- && uvw.z >= nr)
- {
- return true;
- }
-
- const LineSegment ab = LineSegment{_triangle.v0, _triangle.v1};
- const LineSegment bc = LineSegment{_triangle.v1, _triangle.v2};
- const LineSegment ca = LineSegment{_triangle.v2, _triangle.v0};
-
- float ta0 = 0.0f, tb0 = 0.0f;
- const bool i0 = intersect(ta0, tb0, ab, line);
-
- float ta1, tb1;
- const bool i1 = intersect(ta1, tb1, bc, line);
-
- float ta2, tb2;
- const bool i2 = intersect(ta2, tb2, ca, line);
-
- if (!i0
- || !i1
- || !i2)
- {
- return false;
- }
-
- ta0 = clamp(ta0, 0.0f, 1.0f);
- ta1 = clamp(ta1, 0.0f, 1.0f);
- ta2 = clamp(ta2, 0.0f, 1.0f);
- tb0 = clamp(tb0, 0.0f, 1.0f);
- tb1 = clamp(tb1, 0.0f, 1.0f);
- tb2 = clamp(tb2, 0.0f, 1.0f);
-
- const Vec3 pa0 = getPointAt(ab, ta0);
- const Vec3 pa1 = getPointAt(bc, ta1);
- const Vec3 pa2 = getPointAt(ca, ta2);
-
- const Vec3 pb0 = getPointAt(line, tb0);
- const Vec3 pb1 = getPointAt(line, tb1);
- const Vec3 pb2 = getPointAt(line, tb2);
-
- const float d0 = distanceSq(pa0, pb0);
- const float d1 = distanceSq(pa1, pb1);
- const float d2 = distanceSq(pa2, pb2);
-
- if (d0 <= d1
- && d0 <= d2)
- {
- return overlap(_ty, pa0);
- }
- else if (d1 <= d2)
- {
- return overlap(_ty, pa1);
- }
-
- return overlap(_ty, pa2);
-}
-
-bool overlap(const Triangle& _triangle, const Cylinder& _cylinder)
-{
- return overlap<Cylinder>(_triangle, _cylinder);
-}
-
-bool overlap(const Triangle& _triangle, const Capsule& _capsule)
-{
- return overlap<Capsule>(_triangle, _capsule);
-}
-
-bool overlap(const Triangle& _triangle, const Cone& _cone)
-{
- const LineSegment ab = LineSegment{_triangle.v0, _triangle.v1};
- const LineSegment bc = LineSegment{_triangle.v1, _triangle.v2};
- const LineSegment ca = LineSegment{_triangle.v2, _triangle.v0};
-
- const LineSegment line =
- {
- _cone.pos,
- _cone.end,
- };
-
- float ta0 = 0.0f, tb0 = 0.0f;
- const bool i0 = intersect(ta0, tb0, ab, line);
-
- float ta1, tb1;
- const bool i1 = intersect(ta1, tb1, bc, line);
-
- float ta2, tb2;
- const bool i2 = intersect(ta2, tb2, ca, line);
-
- if (!i0
- || !i1
- || !i2)
- {
- return false;
- }
-
- ta0 = clamp(ta0, 0.0f, 1.0f);
- ta1 = clamp(ta1, 0.0f, 1.0f);
- ta2 = clamp(ta2, 0.0f, 1.0f);
- tb0 = clamp(tb0, 0.0f, 1.0f);
- tb1 = clamp(tb1, 0.0f, 1.0f);
- tb2 = clamp(tb2, 0.0f, 1.0f);
-
- const Vec3 pa0 = getPointAt(ab, ta0);
- const Vec3 pa1 = getPointAt(bc, ta1);
- const Vec3 pa2 = getPointAt(ca, ta2);
-
- const Vec3 pb0 = getPointAt(line, tb0);
- const Vec3 pb1 = getPointAt(line, tb1);
- const Vec3 pb2 = getPointAt(line, tb2);
-
- const float d0 = distanceSq(pa0, pb0);
- const float d1 = distanceSq(pa1, pb1);
- const float d2 = distanceSq(pa2, pb2);
-
- if (d0 <= d1
- && d0 <= d2)
- {
- return overlap(_cone, pa0);
- }
- else if (d1 <= d2)
- {
- return overlap(_cone, pa1);
- }
-
- return overlap(_cone, pa2);
-}
-
-bool overlap(const Triangle& _triangle, const Disk& _disk)
-{
- if (!overlap(_triangle, Sphere{_disk.center, _disk.radius}) )
- {
- return false;
- }
-
- Plane plane(init::None);
- calcPlane(plane, _disk.normal, _disk.center);
-
- return overlap(_triangle, plane);
-}
-
-bool overlap(const Triangle& _triangle, const Obb& _obb)
-{
- const Srt srt = toSrt(_obb.mtx);
-
- Aabb aabb;
- toAabb(aabb, srt.scale);
-
- const Quaternion invRotation = invert(srt.rotation);
-
- const Triangle triangle =
- {
- mul(sub(_triangle.v0, srt.translation), invRotation),
- mul(sub(_triangle.v1, srt.translation), invRotation),
- mul(sub(_triangle.v2, srt.translation), invRotation),
- };
-
- return overlap(triangle, aabb);
-}