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Rename Math3D_CylOutsideCyl and Math3D_CylOutsideCylDist (#1557)
* Rename Math3D_CylOutsideCyl and Math3D_CylOutsideCylDist * radix -> radii Co-authored-by: Tharo <17233964+Thar0@users.noreply.github.com> * Make Math3D sphere/cylinder collision check function names more consistent --------- Co-authored-by: Tharo <17233964+Thar0@users.noreply.github.com>
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3 changed files with 38 additions and 39 deletions
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@ -1419,11 +1419,11 @@ s32 Math3D_CylVsTri(Cylinder16* cyl, TriNorm* tri);
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s32 Math3D_CylTriVsIntersect(Cylinder16* cyl, TriNorm* tri, Vec3f* intersect);
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s32 Math3D_CylTriVsIntersect(Cylinder16* cyl, TriNorm* tri, Vec3f* intersect);
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s32 Math3D_SphVsSph(Sphere16* sphereA, Sphere16* sphereB);
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s32 Math3D_SphVsSph(Sphere16* sphereA, Sphere16* sphereB);
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s32 Math3D_SphVsSphOverlap(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize);
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s32 Math3D_SphVsSphOverlap(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize);
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s32 Math3D_SphVsSphOverlapCenter(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize, f32* centerDist);
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s32 Math3D_SphVsSphOverlapCenterDist(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize, f32* centerDist);
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s32 Math3D_SphVsCylOverlapDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize);
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s32 Math3D_SphVsCylOverlap(Sphere16* sph, Cylinder16* cyl, f32* overlapSize);
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s32 Math3D_SphVsCylOverlapCenterDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize, f32* centerDist);
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s32 Math3D_SphVsCylOverlapCenterDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize, f32* centerDist);
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s32 Math3D_CylOutsideCyl(Cylinder16* ca, Cylinder16* cb, f32* deadSpace);
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s32 Math3D_CylVsCylOverlap(Cylinder16* ca, Cylinder16* cb, f32* overlapSize);
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s32 Math3D_CylOutsideCylDist(Cylinder16* ca, Cylinder16* cb, f32* deadSpace, f32* xzDist);
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s32 Math3D_CylVsCylOverlapCenterDist(Cylinder16* ca, Cylinder16* cb, f32* overlapSize, f32* centerDist);
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s32 Math3D_TriVsTriIntersect(TriNorm* ta, TriNorm* tb, Vec3f* intersect);
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s32 Math3D_TriVsTriIntersect(TriNorm* ta, TriNorm* tb, Vec3f* intersect);
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s32 Math3D_XZInSphere(Sphere16* sphere, f32 x, f32 z);
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s32 Math3D_XZInSphere(Sphere16* sphere, f32 x, f32 z);
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s32 Math3D_XYInSphere(Sphere16* sphere, f32 x, f32 y);
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s32 Math3D_XYInSphere(Sphere16* sphere, f32 x, f32 y);
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@ -1925,14 +1925,14 @@ s32 Math3D_SphVsSph(Sphere16* sphereA, Sphere16* sphereB) {
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s32 Math3D_SphVsSphOverlap(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize) {
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s32 Math3D_SphVsSphOverlap(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize) {
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f32 centerDist;
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f32 centerDist;
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return Math3D_SphVsSphOverlapCenter(sphereA, sphereB, overlapSize, ¢erDist);
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return Math3D_SphVsSphOverlapCenterDist(sphereA, sphereB, overlapSize, ¢erDist);
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}
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}
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/*
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/*
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* Determines if two spheres are touching The distance from the centers is placed in `centerDist`,
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* Determines if two spheres are touching The distance from the centers is placed in `centerDist`,
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* and the amount that they're overlapping is placed in `overlapSize`
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* and the amount that they're overlapping is placed in `overlapSize`
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*/
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*/
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s32 Math3D_SphVsSphOverlapCenter(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize, f32* centerDist) {
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s32 Math3D_SphVsSphOverlapCenterDist(Sphere16* sphereA, Sphere16* sphereB, f32* overlapSize, f32* centerDist) {
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Vec3f diff;
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Vec3f diff;
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diff.x = (f32)sphereA->center.x - (f32)sphereB->center.x;
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diff.x = (f32)sphereA->center.x - (f32)sphereB->center.x;
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@ -1951,9 +1951,9 @@ s32 Math3D_SphVsSphOverlapCenter(Sphere16* sphereA, Sphere16* sphereB, f32* over
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}
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}
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/**
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/**
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* Checks if `sph` and `cyl` are touching, output the amount of overlap to `overlapSize`
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* Checks if `sph` and `cyl` are touching, output the amount of xz overlap to `overlapSize`
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*/
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*/
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s32 Math3D_SphVsCylOverlapDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize) {
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s32 Math3D_SphVsCylOverlap(Sphere16* sph, Cylinder16* cyl, f32* overlapSize) {
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f32 centerDist;
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f32 centerDist;
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return Math3D_SphVsCylOverlapCenterDist(sph, cyl, overlapSize, ¢erDist);
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return Math3D_SphVsCylOverlapCenterDist(sph, cyl, overlapSize, ¢erDist);
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@ -1961,7 +1961,7 @@ s32 Math3D_SphVsCylOverlapDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize)
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/**
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/**
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* Checks if `sph` and `cyl` are touching, output the xz distance of the centers to `centerDist`, and the amount of
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* Checks if `sph` and `cyl` are touching, output the xz distance of the centers to `centerDist`, and the amount of
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* overlap to `overlapSize`
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* xz overlap to `overlapSize`
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*/
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*/
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s32 Math3D_SphVsCylOverlapCenterDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize, f32* centerDist) {
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s32 Math3D_SphVsCylOverlapCenterDist(Sphere16* sph, Cylinder16* cyl, f32* overlapSize, f32* centerDist) {
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static Cylinderf cylf;
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static Cylinderf cylf;
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@ -2007,22 +2007,20 @@ s32 Math3D_SphVsCylOverlapCenterDist(Sphere16* sph, Cylinder16* cyl, f32* overla
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return false;
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return false;
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}
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}
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/*
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/**
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* returns 1 if cylinder `ca` is outside cylinder `cb`.
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* Checks if `ca` and `cb` are touching, output the amount of xz overlap to `overlapSize`
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* Sets `deadSpace` to the mininum space between the cylinders not occupied by the other.
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*/
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*/
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s32 Math3D_CylOutsideCyl(Cylinder16* ca, Cylinder16* cb, f32* deadSpace) {
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s32 Math3D_CylVsCylOverlap(Cylinder16* ca, Cylinder16* cb, f32* overlapSize) {
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f32 xzDist;
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f32 xzDist;
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return Math3D_CylOutsideCylDist(ca, cb, deadSpace, &xzDist);
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return Math3D_CylVsCylOverlapCenterDist(ca, cb, overlapSize, &xzDist);
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}
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}
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/*
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/**
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* returns 1 if cylinder `ca` is outside cylinder `cb`.
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* Checks if `ca` and `cb` are touching, output the xz distance of the centers to `centerDist`, and the amount of
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* Sets `xzDist` to the xz distance between the centers of the cylinders.
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* xz overlap to `overlapSize`
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* Sets `deadSpace` to the minimum space between the cylinders not occupied by the other.
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*/
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*/
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s32 Math3D_CylOutsideCylDist(Cylinder16* ca, Cylinder16* cb, f32* deadSpace, f32* xzDist) {
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s32 Math3D_CylVsCylOverlapCenterDist(Cylinder16* ca, Cylinder16* cb, f32* overlapSize, f32* centerDist) {
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static Cylinderf caf;
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static Cylinderf caf;
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static Cylinderf cbf;
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static Cylinderf cbf;
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@ -2036,10 +2034,10 @@ s32 Math3D_CylOutsideCylDist(Cylinder16* ca, Cylinder16* cb, f32* deadSpace, f32
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cbf.yShift = cb->yShift;
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cbf.yShift = cb->yShift;
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cbf.height = cb->height;
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cbf.height = cb->height;
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*xzDist = sqrtf(SQ(caf.pos.x - cbf.pos.x) + SQ(caf.pos.z - cbf.pos.z));
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*centerDist = sqrtf(SQ(caf.pos.x - cbf.pos.x) + SQ(caf.pos.z - cbf.pos.z));
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// The combined radix are within the xz distance
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// The combined radii are within the xz distance
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if ((caf.radius + cbf.radius) < *xzDist) {
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if ((caf.radius + cbf.radius) < *centerDist) {
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return false;
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return false;
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}
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}
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@ -2049,7 +2047,7 @@ s32 Math3D_CylOutsideCylDist(Cylinder16* ca, Cylinder16* cb, f32* deadSpace, f32
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return false;
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return false;
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}
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}
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*deadSpace = caf.radius + cbf.radius - *xzDist;
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*overlapSize = caf.radius + cbf.radius - *centerDist;
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return true;
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return true;
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}
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}
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@ -1745,7 +1745,7 @@ void CollisionCheck_AC_JntSphVsJntSph(PlayState* play, CollisionCheckContext* co
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if (CollisionCheck_NoSharedFlags(&atItem->info, &acElem->info) == true) {
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if (CollisionCheck_NoSharedFlags(&atItem->info, &acElem->info) == true) {
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continue;
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continue;
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}
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}
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if (Math3D_SphVsSphOverlapCenter(&atItem->dim.worldSphere, &acElem->dim.worldSphere, &overlapSize,
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if (Math3D_SphVsSphOverlapCenterDist(&atItem->dim.worldSphere, &acElem->dim.worldSphere, &overlapSize,
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¢erDist) == true) {
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¢erDist) == true) {
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f32 acToHit;
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f32 acToHit;
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Vec3f hitPos;
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Vec3f hitPos;
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@ -2070,8 +2070,8 @@ void CollisionCheck_AC_QuadVsJntSph(PlayState* play, CollisionCheckContext* colC
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void CollisionCheck_AC_CylVsCyl(PlayState* play, CollisionCheckContext* colChkCtx, Collider* colAT, Collider* colAC) {
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void CollisionCheck_AC_CylVsCyl(PlayState* play, CollisionCheckContext* colChkCtx, Collider* colAT, Collider* colAC) {
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ColliderCylinder* at = (ColliderCylinder*)colAT;
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ColliderCylinder* at = (ColliderCylinder*)colAT;
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ColliderCylinder* ac = (ColliderCylinder*)colAC;
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ColliderCylinder* ac = (ColliderCylinder*)colAC;
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f32 deadSpace;
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f32 overlapSize;
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f32 centerDistXZ;
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f32 centerDist;
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Vec3f hitPos;
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Vec3f hitPos;
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if (at->dim.radius > 0 && at->dim.height > 0 && ac->dim.radius > 0 && ac->dim.height > 0) {
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if (at->dim.radius > 0 && at->dim.height > 0 && ac->dim.radius > 0 && ac->dim.height > 0) {
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@ -2084,15 +2084,15 @@ void CollisionCheck_AC_CylVsCyl(PlayState* play, CollisionCheckContext* colChkCt
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if (CollisionCheck_NoSharedFlags(&at->info, &ac->info) == true) {
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if (CollisionCheck_NoSharedFlags(&at->info, &ac->info) == true) {
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return;
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return;
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}
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}
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if (Math3D_CylOutsideCylDist(&at->dim, &ac->dim, &deadSpace, ¢erDistXZ) == true) {
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if (Math3D_CylVsCylOverlapCenterDist(&at->dim, &ac->dim, &overlapSize, ¢erDist) == true) {
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Vec3f atPos;
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Vec3f atPos;
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Vec3f acPos;
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Vec3f acPos;
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f32 acToHit;
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f32 acToHit;
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Math_Vec3s_ToVec3f(&atPos, &at->dim.pos);
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Math_Vec3s_ToVec3f(&atPos, &at->dim.pos);
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Math_Vec3s_ToVec3f(&acPos, &ac->dim.pos);
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Math_Vec3s_ToVec3f(&acPos, &ac->dim.pos);
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if (!IS_ZERO(centerDistXZ)) {
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if (!IS_ZERO(centerDist)) {
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acToHit = ac->dim.radius / centerDistXZ;
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acToHit = ac->dim.radius / centerDist;
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hitPos.y = (f32)ac->dim.pos.y + ac->dim.yShift + ac->dim.height * 0.5f;
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hitPos.y = (f32)ac->dim.pos.y + ac->dim.yShift + ac->dim.height * 0.5f;
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hitPos.x = ((f32)at->dim.pos.x - ac->dim.pos.x) * acToHit + ac->dim.pos.x;
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hitPos.x = ((f32)at->dim.pos.x - ac->dim.pos.x) * acToHit + ac->dim.pos.x;
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hitPos.z = ((f32)at->dim.pos.z - ac->dim.pos.z) * acToHit + ac->dim.pos.z;
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hitPos.z = ((f32)at->dim.pos.z - ac->dim.pos.z) * acToHit + ac->dim.pos.z;
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@ -2732,7 +2732,7 @@ void CollisionCheck_OC_JntSphVsJntSph(PlayState* play, CollisionCheckContext* co
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ColliderJntSphElement* leftElem;
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ColliderJntSphElement* leftElem;
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ColliderJntSph* right = (ColliderJntSph*)r;
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ColliderJntSph* right = (ColliderJntSph*)r;
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ColliderJntSphElement* rightElem;
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ColliderJntSphElement* rightElem;
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f32 overlap;
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f32 overlapSize;
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if (left->count > 0 && left->elements != NULL && right->count > 0 && right->elements != NULL) {
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if (left->count > 0 && left->elements != NULL && right->count > 0 && right->elements != NULL) {
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for (leftElem = left->elements; leftElem < left->elements + left->count; leftElem++) {
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for (leftElem = left->elements; leftElem < left->elements + left->count; leftElem++) {
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@ -2743,14 +2743,15 @@ void CollisionCheck_OC_JntSphVsJntSph(PlayState* play, CollisionCheckContext* co
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if (!(rightElem->info.ocElemFlags & OCELEM_ON)) {
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if (!(rightElem->info.ocElemFlags & OCELEM_ON)) {
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continue;
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continue;
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}
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}
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if (Math3D_SphVsSphOverlap(&leftElem->dim.worldSphere, &rightElem->dim.worldSphere, &overlap) == true) {
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if (Math3D_SphVsSphOverlap(&leftElem->dim.worldSphere, &rightElem->dim.worldSphere, &overlapSize) ==
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true) {
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Vec3f leftPos;
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Vec3f leftPos;
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Vec3f rightPos;
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Vec3f rightPos;
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Math_Vec3s_ToVec3f(&leftPos, &leftElem->dim.worldSphere.center);
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Math_Vec3s_ToVec3f(&leftPos, &leftElem->dim.worldSphere.center);
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Math_Vec3s_ToVec3f(&rightPos, &rightElem->dim.worldSphere.center);
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Math_Vec3s_ToVec3f(&rightPos, &rightElem->dim.worldSphere.center);
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CollisionCheck_SetOCvsOC(&left->base, &leftElem->info, &leftPos, &right->base, &rightElem->info,
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CollisionCheck_SetOCvsOC(&left->base, &leftElem->info, &leftPos, &right->base, &rightElem->info,
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&rightPos, overlap);
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&rightPos, overlapSize);
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}
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}
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}
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}
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}
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}
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ColliderJntSph* left = (ColliderJntSph*)l;
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ColliderJntSph* left = (ColliderJntSph*)l;
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ColliderJntSphElement* leftElem;
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ColliderJntSphElement* leftElem;
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ColliderCylinder* right = (ColliderCylinder*)r;
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ColliderCylinder* right = (ColliderCylinder*)r;
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f32 overlap;
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f32 overlapSize;
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if (left->count > 0 && left->elements != NULL) {
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if (left->count > 0 && left->elements != NULL) {
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if ((right->base.ocFlags1 & OC1_ON) && (right->info.ocElemFlags & OCELEM_ON)) {
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if ((right->base.ocFlags1 & OC1_ON) && (right->info.ocElemFlags & OCELEM_ON)) {
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if (!(leftElem->info.ocElemFlags & OCELEM_ON)) {
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if (!(leftElem->info.ocElemFlags & OCELEM_ON)) {
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continue;
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continue;
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}
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}
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if (Math3D_SphVsCylOverlapDist(&leftElem->dim.worldSphere, &right->dim, &overlap) == true) {
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if (Math3D_SphVsCylOverlap(&leftElem->dim.worldSphere, &right->dim, &overlapSize) == true) {
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Vec3f leftPos;
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Vec3f leftPos;
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Vec3f rightPos;
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Vec3f rightPos;
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Math_Vec3s_ToVec3f(&leftPos, &leftElem->dim.worldSphere.center);
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Math_Vec3s_ToVec3f(&leftPos, &leftElem->dim.worldSphere.center);
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Math_Vec3s_ToVec3f(&rightPos, &right->dim.pos);
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Math_Vec3s_ToVec3f(&rightPos, &right->dim.pos);
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CollisionCheck_SetOCvsOC(&left->base, &leftElem->info, &leftPos, &right->base, &right->info,
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CollisionCheck_SetOCvsOC(&left->base, &leftElem->info, &leftPos, &right->base, &right->info,
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&rightPos, overlap);
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&rightPos, overlapSize);
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}
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}
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}
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}
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}
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}
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void CollisionCheck_OC_CylVsCyl(PlayState* play, CollisionCheckContext* colChkCtx, Collider* l, Collider* r) {
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void CollisionCheck_OC_CylVsCyl(PlayState* play, CollisionCheckContext* colChkCtx, Collider* l, Collider* r) {
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ColliderCylinder* left = (ColliderCylinder*)l;
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ColliderCylinder* left = (ColliderCylinder*)l;
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ColliderCylinder* right = (ColliderCylinder*)r;
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ColliderCylinder* right = (ColliderCylinder*)r;
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f32 deadSpace;
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f32 overlapSize;
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if ((left->base.ocFlags1 & OC1_ON) && (right->base.ocFlags1 & OC1_ON)) {
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if ((left->base.ocFlags1 & OC1_ON) && (right->base.ocFlags1 & OC1_ON)) {
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if ((left->info.ocElemFlags & OCELEM_ON) && (right->info.ocElemFlags & OCELEM_ON)) {
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if ((left->info.ocElemFlags & OCELEM_ON) && (right->info.ocElemFlags & OCELEM_ON)) {
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if (Math3D_CylOutsideCyl(&left->dim, &right->dim, &deadSpace) == true) {
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if (Math3D_CylVsCylOverlap(&left->dim, &right->dim, &overlapSize) == true) {
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Vec3f leftPos;
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Vec3f leftPos;
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Vec3f rightPos;
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Vec3f rightPos;
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Math_Vec3s_ToVec3f(&leftPos, &left->dim.pos);
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Math_Vec3s_ToVec3f(&leftPos, &left->dim.pos);
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Math_Vec3s_ToVec3f(&rightPos, &right->dim.pos);
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Math_Vec3s_ToVec3f(&rightPos, &right->dim.pos);
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CollisionCheck_SetOCvsOC(&left->base, &left->info, &leftPos, &right->base, &right->info, &rightPos,
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CollisionCheck_SetOCvsOC(&left->base, &left->info, &leftPos, &right->base, &right->info, &rightPos,
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deadSpace);
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overlapSize);
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}
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}
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}
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}
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}
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}
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