Humanoid creatures/players collide as body Spheres (ShadowShapeBuilder emits Sphere-type shadows for a Setup with Spheres + no CylSpheres), so player-vs-monster crowd contact ran through Transition.SphereCollision — a hand-rolled 3-D wall-slide (register TS-45), NOT a port of retail CSphere::intersects_sphere. It shaved no eps, force-pushed each contact RADIALLY to a fixed combinedR+1cm shell, ignored the head sphere, and always returned Slid. In a crowd the opposing radial de-penetration pushes from neighbours fight each other -> the player wedges and can't wiggle free (the user's live report). Port the full CSphere family verbatim — dispatcher 0x00537A80 + step_sphere_up / slide_sphere / land_on_sphere / collide_with_point / step_sphere_down — the direct analog of the 2026-07-05 CCylSphere port (#172). The grounded slide now routes through the shared crease SlideSphere (0x00537440, #116-Ghidra-confirmed) -> tangential shuffle along the contact toward gaps, retail-faithful. isCreature (target creature/missile) gates OFF the stand-on/land-on branches (2 & 5). ACE Sphere.cs = readable oracle; pseudocode doc 2026-07-07-csphere-collision-family. Retail-faithfulness verified: CTransition::validate_transition (0x0050aa70:272593) reverts curr_pos on any non-clean-OK step, so a deep-mutual-overlap start wedges in retail too — the realistic crowd-edge graze slides free (SphereCollisionFamilyTests slide-around trajectory: player grazes a creature's SW, curves around its west side, continues N). TS-45 retired, AP-84 added (PerfectClip TOI dead in M1.5). Core 2603/0, App 741/0. Pending user visual gate. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
266 lines
13 KiB
Markdown
266 lines
13 KiB
Markdown
# CSphere collision family — retail pseudocode (port prep)
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**Date:** 2026-07-07 · **Trigger:** the user's live report — *"in a packed
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crowd of monsters it's too easy to get stuck; you can't wiggle free. In
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retail the same crowd leaves a bit more room to shuffle/slide out."*
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Humanoid creatures/players collide as **body spheres** (`Setup.Spheres`,
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no CylSpheres → `ShadowShapeBuilder.FromSetup` emits `ShadowCollisionType.Sphere`),
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so the crowd contact runs through `Transition.SphereCollision` — which was a
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**hand-rolled 3-D wall-slide with a forced fixed de-penetration**, NOT a port
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of the retail `CSphere::intersects_sphere` family. Register row **TS-45**
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already documented this divergence and predicted the exact symptom
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(*"absorbs to a zero offset … until an oblique input clears it"*); it was
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deferred to avoid disturbing the freshly-gated #171 sticky-melee work.
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This is the **direct analog of the 2026-07-05 CCylSphere family port**
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(`docs/research/2026-07-05-ccylsphere-collision-family-pseudocode.md`). Same
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shape, same siblings, same ACE-as-readable-oracle method. The transition loop
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(`transitional_insert`) is **unchanged** — only the per-contact Sphere
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response is replaced.
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**Sources:** named-retail pseudo-C (addresses below) = ground truth;
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`references/ACE/Source/ACE.Server/Physics/Sphere.cs` = readable cross-reference
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(settles the x87 garbles). One ACE quirk noted in §8.
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## Retail function inventory
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| Function | Address | pseudo-C line |
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|---|---|---|
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| `CSphere::intersects_sphere(Position*, scale, CTransition*, isCreature)` — wrapper | `0x00537fd0` | :321881 |
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| `CSphere::intersects_sphere(CTransition*, isCreature)` — dispatcher | `0x00537a80` | :321678 |
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| `CSphere::collides_with_sphere(disp, radsum)` | `0x005369e0` | :320964 |
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| `CSphere::step_sphere_up` | `0x00537900` | :321611 |
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| `CSphere::slide_sphere(sp, ci, normal, currCenter)` — core crease slide | `0x00537440` | :321403 |
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| `CSphere::land_on_sphere` | `0x005379a0` | :321642 |
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| `CSphere::collide_with_point` | `0x00537230` | :321327 |
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| `CSphere::step_sphere_down` | `0x00536d20` | :321133 |
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**Dispatch context** — `CPhysicsObj::FindObjCollisions` (`0x0050f050`, pc:276776):
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`isCreature = (target.state & MISSILE_PS 0x40) || target.IsCreature()`
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(pc:276846-276853; ACE `PhysicsObj.cs:409`). The target's shape is chosen
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CylSphere-first, else Sphere (pc:276868/276917; ACE `PhysicsObj.cs:414-436`).
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Humanoids have `GetNumCylsphere()==0` + `GetNumSphere()>0` → **the sphere
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branch**, `isCreature` passed in.
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## 1. collides_with_sphere (0x005369e0) — pure 3-D overlap
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```
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collides_with_sphere(disp, radsum): // disp = globalSphere.center − this.center
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return |disp|² <= radsum² // full 3-D distance (unlike CCylSphere's XY+Z-band)
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```
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`radsum` at every call site = `globalSphere.radius + this.radius − F_EPSILON`
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(ε shaved ONCE in the dispatcher preamble, 0x00537acd). The ε is what makes
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*resting exactly touching* a non-overlap, so a shuffle that ends flush against
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a monster settles instead of re-colliding every frame. **The hand-rolled
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version omitted this ε — the first stickiness source.**
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## 2. Dispatcher (0x00537a80)
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```
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intersects_sphere(this, CTransition* t, isCreature): // this.center in world frame
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sp = t.sphere_path; oi = t.object_info
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s0 = sp.global_sphere[0]; disp0 = s0.center − this.center
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if sp.num_sphere > 1: s1 = sp.global_sphere[1]; disp1 = s1.center − this.center
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radsum = s0.radius + this.radius − F_EPSILON
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// ── branch 1: placement / ethereal — detection only ──
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if (sp.obstruction_ethereal || sp.insert_type == PLACEMENT_INSERT):
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if collides(disp0) → COLLIDED
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if num_sphere>1 && collides(disp1) → COLLIDED
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return OK
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// ── branch 2: step-down probe — land on the top ──
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if (sp.step_down):
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if isCreature → OK // §8.1 — you never stand ON a creature/missile
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return step_sphere_down(this, s0, disp0, radsum)
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// ── branch 3: walkable probe — occupancy blocks ──
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if (sp.check_walkable):
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if collides(disp0) → COLLIDED
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if num_sphere>1 && collides(disp1) → COLLIDED
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return OK
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// ── branch 4: normal sweep (collide flag clear) ──
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if (!sp.collide):
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if (oi.state & (CONTACT|ON_WALKABLE)): // grounded
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if collides(disp0) → step_sphere_up(this, disp0, radsum)
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if num_sphere>1 && collides(disp1) → slide_sphere(this, disp1, sphereNum=1)
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elif (oi.state & PATH_CLIPPED):
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if collides(disp0) → collide_with_point(this, s0, radsum, 0)
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else: // airborne
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if collides(disp0) → land_on_sphere(this)
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if num_sphere>1 && collides(disp1) → collide_with_point(this, s1, radsum, 1)
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return OK
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// ── branch 5: collide-flag re-test — exact-TOI cap landing ──
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if isCreature → OK // §8.1 — never land ON a creature/missile
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if !collides(disp0) && !(num_sphere>1 && collides(disp1)) → OK
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movement = sp.global_curr_center[0] − s0.center − block_offset(cur→check)
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radsum += F_EPSILON
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lenSq = |movement|²
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diff = −dot(movement, disp0)
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if |lenSq| < F_EPSILON → COLLIDED
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t = sqrt(diff² − (|disp0|² − radsum²)·lenSq) + diff // quadratic solve for TOI
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if t > 1: t = diff·2 − t
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time = t / lenSq
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timecheck = (1 − time)·sp.walk_interp
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if timecheck >= sp.walk_interp || timecheck < −0.1 → COLLIDED
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movement *= time
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disp0 = (disp0 + movement) / radsum
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if !is_walkable_allowable(disp0.z) → OK // too steep to rest on
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contactPt = s0.center − disp0·s0.radius
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ci.set_contact_plane(Plane(n=disp0, d=−dot(disp0, contactPt)), is_water=1)
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ci.contact_plane_cell_id = sp.check_pos.objcell_id
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sp.walk_interp = timecheck
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sp.add_offset_to_check_pos(movement, s0.radius)
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return ADJUSTED
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```
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State bits (verified against our `ObjectInfoState`): CONTACT=0x1,
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ON_WALKABLE=0x2, PATH_CLIPPED=0x8. Note branch 5's landing surface is a
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**tilted** plane (`n = disp0`, the sphere-to-sphere direction) — unlike the
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cylinder's flat top — because a sphere top is curved.
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## 3. step_sphere_up (0x00537900)
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```
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step_sphere_up(this, disp0, radsum):
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radsum += F_EPSILON
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if (oi.step_up_height < radsum − disp0.z) // too tall to step over
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→ slide_sphere(this, disp0, 0)
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n = sp.global_curr_center[0] − this.center
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if CTransition::step_up(t, n) → OK
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else → sp.step_up_slide(t)
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```
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For a full-height creature the head clearance `radsum − disp0.z` far exceeds
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`step_up_height` (~0.4 m) → always `slide_sphere`. This is the grounded-crowd
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path: **slide, don't stop.**
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## 4. slide_sphere (grounded) — the wiggle-room primitive
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The grounded foot/head hit reduces to `CSphere::slide_sphere` (0x00537440),
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which acdream **already has** as `Transition.SlideSphere(normal, currPos,
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sphereNum)` (Ghidra-confirmed via #116). It computes the collision normal
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`n = global_curr_center[sphereNum] − this.center`, normalizes, then projects
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the displacement onto the **crease** = `cross(n, contactPlane.normal)` — the
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tangent where the monster's side meets the ground — and slides ALONG it.
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Returns SLID (or COLLIDED when the projected offset degenerates < ~1.41 cm).
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**This is the whole fix.** The hand-rolled version projected onto the plane
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⊥ the raw 3-D normal and then FORCE-pushed to a fixed `combinedR + 0.01 m`
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shell (radial de-penetration). Radial pushes from neighbours on opposite
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sides cancel/fight; the crease slide moves you tangentially toward the gap.
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```
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slide_sphere(this, disp, sphereNum):
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n = sp.global_curr_center[sphereNum] − this.center
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if normalize_check_small(n) → COLLIDED
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return SlideSphere(n, sp.global_curr_center[sphereNum], sphereNum) // shared crease slide
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```
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## 5. land_on_sphere (0x005379a0) — airborne foot hit
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```
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land_on_sphere(this):
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n = sp.global_curr_center[0] − this.center
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if normalize_check_small(n) → COLLIDED
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sp.set_collide(n) // backup + Collide flag → next attempt runs branch 5
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sp.walkable_allowance = LANDING_Z (0.0871557)
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return ADJUSTED
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```
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Identical shape to `CCylSphere::land_on_cylinder`.
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## 6. collide_with_point (0x00537230) — PathClipped / airborne head hits
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```
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collide_with_point(this, checkSphere, radsum, sphereNum):
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globalOffset = sp.global_curr_center[sphereNum] − this.center
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if !PerfectClip:
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if !normalize_check_small(globalOffset): ci.set_collision_normal(globalOffset)
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return COLLIDED
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// PerfectClip → exact TOI reposition (missiles only; §8.2)
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blockOffset = get_block_offset(cur, check)
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checkOffset = checkSphere.center − global_curr_center[sphereNum] + blockOffset
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collisionTime = find_time_of_collision(checkOffset, globalOffset, radsum + F_EPSILON)
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if collisionTime < F_EPSILON || collisionTime > 1 → COLLIDED
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collisionOffset = checkOffset·collisionTime − checkOffset
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old_disp = collisionOffset + checkSphere.center − this.center
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ci.set_collision_normal(old_disp / radsum)
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sp.add_offset_to_check_pos(old_disp, checkSphere.radius)
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return ADJUSTED
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```
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Non-PerfectClip = `set_collision_normal` + COLLIDED (decomp-verified). The
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PerfectClip TOI tail is dead code in M1.5 (no mover sets PerfectClip) — same
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status as the cylinder family's AP-83.
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## 7. step_sphere_down (0x00536d20) — land on the top during a step-down probe
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```
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step_sphere_down(this, s0, disp0, radsum):
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if !collides(disp0) && !(num_sphere>1 && collides(disp1)) → OK
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stepDown = sp.step_down_amt · sp.walk_interp
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if |stepDown| < F_EPSILON → COLLIDED
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radsum += F_EPSILON
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val = sqrt(radsum² − (disp0.x² + disp0.y²)) // curved-top height at this XY
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scaledStep = (val − disp0.z) / stepDown
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timecheck = (1 − scaledStep)·sp.walk_interp
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if timecheck >= sp.walk_interp || timecheck < −0.1 → COLLIDED
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interp = stepDown · scaledStep
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disp0 = (disp0.x, disp0.y, disp0.z + interp) / radsum
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if disp0.z <= sp.walkable_allowance → OK // too steep — sphere top is a dome
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contactPt = disp0·this.radius + this.center
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ci.set_contact_plane(Plane(n=disp0, d=−dot(disp0, contactPt)), is_water=1)
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ci.contact_plane_cell_id = sp.check_pos.objcell_id
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sp.walk_interp = timecheck
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sp.add_offset_to_check_pos((0,0,interp), checkSphere.radius)
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return ADJUSTED
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```
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Gated OFF for creatures at the dispatcher (branch 2: `isCreature → OK`), so in
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M1.5 this only lands the player on non-creature Sphere-shape statics. Ported
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for completeness/faithfulness (ACE `Sphere.cs:617`).
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## 8. Divergences + settled ambiguities (register-relevant)
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1. **`isCreature` gates "stand-on/land-on" (branches 2 and 5).** A creature or
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missile is a solid you push against horizontally but never rest on
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vertically. Retail short-circuits both to OK for `isCreature` (0x00537b8c
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/ 0x00537af5). Port verbatim.
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2. **PerfectClip TOI tail is dead in M1.5** — no mover arms PerfectClip
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(players never do). The load-bearing path is non-PerfectClip
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`set_collision_normal + COLLIDED` (decomp-verified). Same status/row style
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as the cylinder family's **AP-83**; re-decompile 0x00537230 in Ghidra
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before shipping missiles (F.3).
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3. **`is_water=1` on contact planes is RETAIL** (0x00536ecf / branch-5 site;
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`set_contact_plane` arg3 → `contact_plane_is_water`). Port verbatim; do
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not "fix" — same as the cylinder family §8.1.
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4. **Block offset = 0** in branch 5 / collide_with_point: retail subtracts the
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cur→check landblock offset; acdream's physics frame is continuous
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world-space → 0. Standing adaptation (same note as `SlideSphere`'s gDelta
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and the cylinder family §8.3).
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5. **ACE bug NOT copied:** ACE `Sphere.cs` has no equivalent of the cylinder
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family's foot-vs-head disp mixup; the grounded head slide passes `globSphere_`
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(the head sphere) at `IntersectsSphere:348` — correct. Retail 0x00537ec4
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agrees. No divergence here.
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6. **`normalize_check_small`** = normalize; returns true (fail) when |v| <
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F_EPSILON — maps to our existing `NormalizeCheckSmall`.
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## 9. acdream port surface
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`Transition.SphereCollision(ShadowEntry, SpherePath, bool isCreature)` becomes
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the branch-2/3/4/5 dispatcher body (branch 1 ethereal keeps the existing
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early-OK consume + the caller's Layer-2 override, identical to the cylinder
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family). New private siblings mirror the `Cyl*` set:
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`SphereCollidesWithSphere`, `SphereStepSphereUp`, `SphereSlideSphere`,
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`SphereLandOnSphere`, `SphereCollideWithPoint`, `SphereStepSphereDown`.
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Reused as-is: the shared `SlideSphere` (crease projection), `DoStepUp`
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(= CTransition::step_up), `SpherePath.StepUpSlide`, `NormalizeCheckSmall`,
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`CollisionInfo.SetContactPlane/SetCollisionNormal`. The caller
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(`FindObjCollisionsInCell`, Sphere branch) computes
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`isCreature = (obj.State & 0x40) != 0 || (obj.Flags & IsCreature) != 0` and
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passes it in. The `BspOnlyDispatch` gate and the ethereal step-down skip sit
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ABOVE this dispatch and are unaffected. **Retires TS-45.**
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