ooot/include/z64collision_check.h

#pragma once
#include "z64math.h"
#include "globalctx.h"

#define COLLISION_CHECK_AT_MAX 50
#define COLLISION_CHECK_AC_MAX 60
#define COLLISION_CHECK_OC_MAX 50
#define COLLISION_CHECK_OC_LINE_MAX 3

struct Collider
{
	/* 0x00 */ struct Actor* actor; // Attached actor
	/* 0x04 */ struct Actor* at;	// Actor attached to what it collided with as an AT collider.
	/* 0x08 */ struct Actor* ac;	// Actor attached to what it collided with as an AC collider.
	/* 0x0C */ struct Actor* oc;	// Actor attached to what it collided with as an OC collider.
	/* 0x10 */ u8 atFlags;		// Information flags for AT collisions.
	/* 0x11 */ u8 acFlags;		// Information flags for AC collisions.
	/* 0x12 */ u8 ocFlags1;		// Information flags for OC collisions.
	/* 0x13 */ u8 ocFlags2;		// Flags related to which colliders it can OC collide with.
	/* 0x14 */ u8 colType;		// Determines hitmarks and sound effects during AC collisions.
	/* 0x15 */ u8 shape;		// JntSph, Cylinder, Tris, or Quad
};					// size = 0x18

struct ColliderInit
{
	/* 0x00 */ u8 colType;	// Determines hitmarks and sound effects during AC collisions.
	/* 0x01 */ u8 atFlags;	// Information flags for AT collisions.
	/* 0x02 */ u8 acFlags;	// Information flags for OC collisions.
	/* 0x03 */ u8 ocFlags1; // Information flags for OC collisions.
	/* 0x04 */ u8 ocFlags2; // Flags related to which colliders it can OC collide with.
	/* 0x05 */ u8 shape;	// JntSph, Cylinder, Tris, or Quad
};				// size = 0x06

struct ColliderInitType1
{
	/* 0x00 */ u8 colType;	// Determines hitmarks and sound effects during AC collisions.
	/* 0x01 */ u8 atFlags;	// Information flags for AT collisions.
	/* 0x02 */ u8 acFlags;	// Information flags for AC collisions.
	/* 0x03 */ u8 ocFlags1; // Information flags for OC collisions.
	/* 0x04 */ u8 shape;	// JntSph, Cylinder, Tris, or Quad
};				// size = 0x05

struct ColliderInitToActor
{
	/* 0x00 */ struct Actor* actor;
	/* 0x04 */ u8 atFlags;	// Information flags for AT collisions.
	/* 0x05 */ u8 acFlags;	// Information flags for AC collisions.
	/* 0x06 */ u8 ocFlags1; // Information flags for OC collisions.
	/* 0x07 */ u8 shape;	// JntSph, Cylinder, Tris, or Quad
};				// size = 0x08

struct ColliderTouch
{
	/* 0x00 */ u32 dmgFlags; // Toucher damage type flags.
	/* 0x04 */ u8 effect;	 // Damage Effect (Knockback, Fire, etc.)
	/* 0x05 */ u8 damage;	 // Damage or Stun Timer
};				 // size = 0x08

struct ColliderBump
{
	/* 0x00 */ u32 dmgFlags; // Bumper damage type flags.
	/* 0x04 */ u8 effect;	 // Damage Effect (Knockback, Fire, etc.)
	/* 0x05 */ u8 defense;	 // Damage Resistance
	/* 0x06 */ Vec3s hitPos; // Point of contact
};				 // size = 0x0C

struct ColliderBumpInit
{
	/* 0x00 */ u32 dmgFlags; // Bumper exclusion mask
	/* 0x04 */ u8 effect;	 // Damage Effect (Knockback, Fire, etc.)
	/* 0x05 */ u8 defense;	 // Damage Resistance
};				 // size = 0x08

struct ColliderInfo
{
	/* 0x00 */ ColliderTouch toucher;	   // Damage properties when acting as an AT collider
	/* 0x08 */ ColliderBump bumper;		   // Damage properties when acting as an AC collider
	/* 0x14 */ u8 elemType;			   // Affects sfx reaction when attacked by Link and hookability. Full purpose unknown.
	/* 0x15 */ u8 toucherFlags;		   // Information flags for AT collisions
	/* 0x16 */ u8 bumperFlags;		   // Information flags for AC collisions
	/* 0x17 */ u8 ocElemFlags;		   // Information flags for OC collisions
	/* 0x18 */ Collider* atHit;		   // object touching this element's AT collider
	/* 0x1C */ Collider* acHit;		   // object touching this element's AC collider
	/* 0x20 */ struct ColliderInfo* atHitInfo; // element that hit the AT collider
	/* 0x24 */ struct ColliderInfo* acHitInfo; // element that hit the AC collider
};						   // size = 0x28

struct ColliderInfoInit
{
	/* 0x00 */ u8 elemType;		    // Affects sfx reaction when attacked by Link and hookability. Full purpose unknown.
	/* 0x04 */ ColliderTouch toucher;   // Damage properties when acting as an AT collider
	/* 0x0C */ ColliderBumpInit bumper; // Damage properties when acting as an AC collider
	/* 0x14 */ u8 toucherFlags;	    // Information flags for AT collisions
	/* 0x15 */ u8 bumperFlags;	    // Information flags for AC collisions
	/* 0x16 */ u8 ocElemFlags;	    // Information flags for OC collisions
};					    // size = 0x18

struct ColliderJntSphElementDim
{
	/* 0x00 */ Sphere16 modelSphere; // model space sphere
	/* 0x08 */ Sphere16 worldSphere; // world space sphere
	/* 0x10 */ f32 scale;		 // world space sphere = model * scale * 0.01
	/* 0x14 */ u8 limb;		 // attached limb
};					 // size = 0x18

struct ColliderJntSphElementDimInit
{
	/* 0x00 */ u8 limb;		 // attached limb
	/* 0x02 */ Sphere16 modelSphere; // model space sphere
	/* 0x0A */ s16 scale;		 // world space sphere = model * scale * 0.01
};					 // size = 0x0C

struct ColliderJntSphElement
{
	/* 0x00 */ ColliderInfo info;
	/* 0x28 */ ColliderJntSphElementDim dim;
}; // size = 0x40

struct ColliderJntSphElementInit
{
	/* 0x00 */ ColliderInfoInit info;
	/* 0x18 */ ColliderJntSphElementDimInit dim;
}; // size = 0x24

struct ColliderJntSph
{
	/* 0x00 */ Collider base;
	/* 0x18 */ s32 count;
	/* 0x1C */ ColliderJntSphElement* elements;
}; // size = 0x20

struct ColliderJntSphInit
{
	/* 0x00 */ ColliderInit base;
	/* 0x08 */ s32 count;
	/* 0x0C */ ColliderJntSphElementInit* elements;
}; // size = 0x10

struct ColliderJntSphInitType1
{
	/* 0x00 */ ColliderInitType1 base;
	/* 0x08 */ s32 count;
	/* 0x0C */ ColliderJntSphElementInit* elements;
}; // size = 0x10

struct ColliderJntSphInitToActor
{
	/* 0x00 */ ColliderInitToActor base;
	/* 0x08 */ s32 count;
	/* 0x0C */ ColliderJntSphElementInit* elements;
}; // size = 0x10

struct ColliderCylinder
{
	/* 0x00 */ Collider base;
	/* 0x18 */ ColliderInfo info;
	/* 0x40 */ Cylinder16 dim;
}; // size = 0x4C

struct ColliderCylinderInit
{
	/* 0x00 */ ColliderInit base;
	/* 0x08 */ ColliderInfoInit info;
	/* 0x20 */ Cylinder16 dim;
}; // size = 0x2C

struct ColliderCylinderInitType1
{
	/* 0x00 */ ColliderInitType1 base;
	/* 0x08 */ ColliderInfoInit info;
	/* 0x20 */ Cylinder16 dim;
}; // size = 0x2C

struct ColliderCylinderInitToActor
{
	/* 0x00 */ ColliderInitToActor base;
	/* 0x08 */ ColliderInfoInit info;
	/* 0x20 */ Cylinder16 dim;
}; // size = 0x2C

struct ColliderTrisElementDimInit
{
	/* 0x00 */ Vec3f vtx[3];
}; // size = 0x24

struct ColliderTrisElement
{
	/* 0x00 */ ColliderInfo info;
	/* 0x28 */ TriNorm dim;
}; // size = 0x5C

struct ColliderTrisElementInit
{
	/* 0x00 */ ColliderInfoInit info;
	/* 0x18 */ ColliderTrisElementDimInit dim;
}; // size = 0x3C

struct ColliderTris
{
	/* 0x00 */ Collider base;
	/* 0x18 */ s32 count;
	/* 0x1C */ ColliderTrisElement* elements;
}; // size = 0x20

struct ColliderTrisInit
{
	/* 0x00 */ ColliderInit base;
	/* 0x08 */ s32 count;
	/* 0x0C */ ColliderTrisElementInit* elements;
}; // size = 0x10

struct ColliderTrisInitType1
{
	/* 0x00 */ ColliderInitType1 base;
	/* 0x08 */ s32 count;
	/* 0x0C */ ColliderTrisElementInit* elements;
}; // size = 0x10

struct ColliderQuadDim
{
	/* 0x00 */ Vec3f quad[4];
	/* 0x30 */ Vec3s dcMid; // midpoint of vectors d, c
	/* 0x36 */ Vec3s baMid; // midpoint of vectors b, a
	/* 0x3C */ f32 acDist;	// distance to nearest AC collision this frame.
};				// size = 0x40

struct ColliderQuadDimInit
{
	/* 0x00 */ Vec3f quad[4];
}; // size = 0x30

struct ColliderQuadElement
{
	/* 0x00 */ ColliderInfo info;
	/* 0x24 */ ColliderQuadDim dim;
}; // size = 0x68

struct ColliderQuad
{
	/* 0x00 */ Collider base;
	/* 0x18 */ ColliderInfo info;
	/* 0x40 */ ColliderQuadDim dim;
}; // size = 0x80

struct ColliderQuadInit
{
	/* 0x00 */ ColliderInit base;
	/* 0x08 */ ColliderInfoInit info;
	/* 0x20 */ ColliderQuadDimInit dim;
}; // size = 0x50

struct ColliderQuadInitType1
{
	/* 0x00 */ ColliderInitType1 base;
	/* 0x08 */ ColliderInfoInit info;
	/* 0x20 */ ColliderQuadDimInit dim;
}; // size = 0x50

struct OcLine
{
	/* 0x00 */ Linef line;
	/* 0x18 */ u16 ocFlags;
}; // size = 0x1C

enum ColliderType
{
	/* 0  */ COLTYPE_HIT0, // Blue blood, white hitmark
	/* 1  */ COLTYPE_HIT1, // No blood, dust hitmark
	/* 2  */ COLTYPE_HIT2, // Green blood, dust hitmark
	/* 3  */ COLTYPE_HIT3, // No blood, white hitmark
	/* 4  */ COLTYPE_HIT4, // Water burst, no hitmark
	/* 5  */ COLTYPE_HIT5, // No blood, red hitmark
	/* 6  */ COLTYPE_HIT6, // Green blood, white hitmark
	/* 7  */ COLTYPE_HIT7, // Red blood, white hitmark
	/* 8  */ COLTYPE_HIT8, // Blue blood, red hitmark
	/* 9  */ COLTYPE_METAL,
	/* 10 */ COLTYPE_NONE,
	/* 11 */ COLTYPE_WOOD,
	/* 12 */ COLTYPE_HARD,
	/* 13 */ COLTYPE_TREE
};

enum ColliderShape
{
	/* 0 */ COLSHAPE_JNTSPH,
	/* 1 */ COLSHAPE_CYLINDER,
	/* 2 */ COLSHAPE_TRIS,
	/* 3 */ COLSHAPE_QUAD,
	/* 4 */ COLSHAPE_INVALID
};

/**
 * Affects the sound Link's sword makes when hitting it, hookability,
 * and possibly other things. It's definitely not flags, as all checks
 * are == or !=. Will probably need more actors decomped to truly
 * understand what this is.
 */
enum ElementType
{
	/* 0 */ ELEMTYPE_UNK0,
	/* 1 */ ELEMTYPE_UNK1,
	/* 2 */ ELEMTYPE_UNK2,
	/* 3 */ ELEMTYPE_UNK3,
	/* 4 */ ELEMTYPE_UNK4,
	/* 5 */ ELEMTYPE_UNK5,
	/* 6 */ ELEMTYPE_UNK6,
	/* 7 */ ELEMTYPE_UNK7
};

#define AT_NONE 0						     // No flags set. Cannot have AT collisions when set as AT
#define AT_ON (1 << 0)						     // Can have AT collisions when set as AT
#define AT_HIT (1 << 1)						     // Had an AT collision
#define AT_BOUNCED (1 << 2)					     // Had an AT collision with an AC_HARD collider
#define AT_TYPE_PLAYER (1 << 3)					     // Has player-aligned damage
#define AT_TYPE_ENEMY (1 << 4)					     // Has enemy-aligned damage
#define AT_TYPE_OTHER (1 << 5)					     // Has non-aligned damage
#define AT_SELF (1 << 6)					     // Can have AT collisions with colliders attached to the same actor
#define AT_TYPE_ALL (AT_TYPE_PLAYER | AT_TYPE_ENEMY | AT_TYPE_OTHER) // Has all three damage alignments

#define AC_NONE 0						     // No flags set. Cannot have AC collisions when set as AC
#define AC_ON (1 << 0)						     // Can have AC collisions when set as AC
#define AC_HIT (1 << 1)						     // Had an AC collision
#define AC_HARD (1 << 2)					     // Causes AT colliders to bounce off it
#define AC_TYPE_PLAYER AT_TYPE_PLAYER				     // Takes player-aligned damage
#define AC_TYPE_ENEMY AT_TYPE_ENEMY				     // Takes enemy-aligned damage
#define AC_TYPE_OTHER AT_TYPE_OTHER				     // Takes non-aligned damage
#define AC_NO_DAMAGE (1 << 6)					     // Collider does not take damage
#define AC_BOUNCED (1 << 7)					     // Caused an AT collider to bounce off it
#define AC_TYPE_ALL (AC_TYPE_PLAYER | AC_TYPE_ENEMY | AC_TYPE_OTHER) // Takes damage from all three alignments

#define OC1_NONE 0						 // No flags set. Cannot have OC collisions when set as OC
#define OC1_ON (1 << 0)						 // Can have OC collisions when set as OC
#define OC1_HIT (1 << 1)					 // Had an OC collision
#define OC1_NO_PUSH (1 << 2)					 // Does not push other colliders away during OC collisions
#define OC1_TYPE_PLAYER (1 << 3)				 // Can have OC collisions with OC type player
#define OC1_TYPE_1 (1 << 4)					 // Can have OC collisions with OC type 1
#define OC1_TYPE_2 (1 << 5)					 // Can have OC collisions with OC type 2
#define OC1_TYPE_ALL (OC1_TYPE_PLAYER | OC1_TYPE_1 | OC1_TYPE_2) // Can have collisions with all three OC types

#define OC2_NONE 0			// No flags set. Has no OC type
#define OC2_HIT_PLAYER (1 << 0)		// Had an OC collision with OC type player
#define OC2_UNK1 (1 << 1)		// Prevents OC collisions with OC2_UNK2. Some horses and toki_sword have it.
#define OC2_UNK2 (1 << 2)		// Prevents OC collisions with OC2_UNK1. Nothing has it.
#define OC2_TYPE_PLAYER OC1_TYPE_PLAYER // Has OC type player
#define OC2_TYPE_1 OC1_TYPE_1		// Has OC type 1
#define OC2_TYPE_2 OC1_TYPE_2		// Has OC type 2
#define OC2_FIRST_ONLY (1 << 6)		// Skips AC checks on elements after the first collision. Only used by Ganon

#define TOUCH_NONE 0		    // No flags set. Cannot have AT collisions
#define TOUCH_ON (1 << 0)	    // Can have AT collisions
#define TOUCH_HIT (1 << 1)	    // Had an AT collision
#define TOUCH_NEAREST (1 << 2)	    // If a Quad, only collides with the closest bumper
#define TOUCH_SFX_NORMAL (0 << 3)   // Hit sound effect based on AC collider's type
#define TOUCH_SFX_HARD (1 << 3)	    // Always uses hard deflection sound
#define TOUCH_SFX_WOOD (2 << 3)	    // Always uses wood deflection sound
#define TOUCH_SFX_NONE (3 << 3)	    // No hit sound effect
#define TOUCH_AT_HITMARK (1 << 5)   // Draw hitmarks for every AT collision
#define TOUCH_DREW_HITMARK (1 << 6) // Already drew hitmark for this frame
#define TOUCH_UNK7 (1 << 7)	    // Unknown purpose. Used by some enemy quads

#define BUMP_NONE 0		   // No flags set. Cannot have AC collisions
#define BUMP_ON (1 << 0)	   // Can have AC collisions
#define BUMP_HIT (1 << 1)	   // Had an AC collision
#define BUMP_HOOKABLE (1 << 2)	   // Can be hooked if actor has hookability flags set.
#define BUMP_NO_AT_INFO (1 << 3)   // Does not give its info to the AT collider that hit it.
#define BUMP_NO_DAMAGE (1 << 4)	   // Does not take damage.
#define BUMP_NO_SWORD_SFX (1 << 5) // Does not have a sound when hit by player-attached AT colliders.
#define BUMP_NO_HITMARK (1 << 6)   // Skips hit effects.
#define BUMP_DRAW_HITMARK (1 << 7) // Draw hitmark for AC collision this frame.

#define OCELEM_NONE 0	     // No flags set. Cannot have OC collisions
#define OCELEM_ON (1 << 0)   // Can have OC collisions
#define OCELEM_HIT (1 << 1)  // Had an OC collision
#define OCELEM_UNK3 (1 << 3) // Unknown purpose. Used by Dead Hand element 0 and Dodongo element 5

#define OCLINE_NONE 0	    // Did not have an OcLine collision
#define OCLINE_HIT (1 << 0) // Had an OcLine collision

#define DMG_ENTRY(damage, effect) ((damage) | ((effect) << 4))

// These flags are not to be used in code until we figure out how we want to format them. They are only here for reference
#define DMG_DEKU_NUT (1 << 0x00)
#define DMG_DEKU_STICK (1 << 0x01)
#define DMG_SLINGSHOT (1 << 0x02)
#define DMG_EXPLOSIVE (1 << 0x03)
#define DMG_BOOMERANG (1 << 0x04)
#define DMG_ARROW_NORMAL (1 << 0x05)
#define DMG_HAMMER_SWING (1 << 0x06)
#define DMG_HOOKSHOT (1 << 0x07)
#define DMG_SLASH_KOKIRI (1 << 0x08)
#define DMG_SLASH_MASTER (1 << 0x09)
#define DMG_SLASH_GIANT (1 << 0x0A)
#define DMG_ARROW_FIRE (1 << 0x0B)
#define DMG_ARROW_ICE (1 << 0x0C)
#define DMG_ARROW_LIGHT (1 << 0x0D)
#define DMG_ARROW_UNK1 (1 << 0x0E)
#define DMG_ARROW_UNK2 (1 << 0x0F)
#define DMG_ARROW_UNK3 (1 << 0x10)
#define DMG_MAGIC_FIRE (1 << 0x11)
#define DMG_MAGIC_ICE (1 << 0x12)
#define DMG_MAGIC_LIGHT (1 << 0x13)
#define DMG_SHIELD (1 << 0x14)
#define DMG_MIR_RAY (1 << 0x15)
#define DMG_SPIN_KOKIRI (1 << 0x16)
#define DMG_SPIN_GIANT (1 << 0x17)
#define DMG_SPIN_MASTER (1 << 0x18)
#define DMG_JUMP_KOKIRI (1 << 0x19)
#define DMG_JUMP_GIANT (1 << 0x1A)
#define DMG_JUMP_MASTER (1 << 0x1B)
#define DMG_UNKNOWN_1 (1 << 0x1C)
#define DMG_UNBLOCKABLE (1 << 0x1D)
#define DMG_HAMMER_JUMP (1 << 0x1E)
#define DMG_UNKNOWN_2 (1 << 0x1F)

#define DMG_SLASH (DMG_SLASH_KOKIRI | DMG_SLASH_MASTER | DMG_SLASH_GIANT)
#define DMG_SPIN_ATTACK (DMG_SPIN_KOKIRI | DMG_SPIN_MASTER | DMG_SPIN_GIANT)
#define DMG_JUMP_SLASH (DMG_JUMP_KOKIRI | DMG_JUMP_MASTER | DMG_JUMP_GIANT)
#define DMG_SWORD (DMG_SLASH | DMG_SPIN_ATTACK | DMG_JUMP_SLASH)
#define DMG_HAMMER (DMG_HAMMER_SWING | DMG_HAMMER_JUMP)
#define DMG_FIRE (DMG_ARROW_FIRE | DMG_MAGIC_FIRE)
#define DMG_ARROW (DMG_ARROW_NORMAL | DMG_ARROW_FIRE | DMG_ARROW_ICE | DMG_ARROW_LIGHT | DMG_ARROW_UNK1 | DMG_ARROW_UNK2 | DMG_ARROW_UNK3)
#define DMG_RANGED (DMG_ARROW | DMG_HOOKSHOT | DMG_SLINGSHOT)
#define DMG_DEFAULT ~(DMG_SHIELD | DMG_MIR_RAY)

struct CollisionCheckContext
{
	/* 0x000 */ s16 colATCount;
	/* 0x002 */ u16 sacFlags;
	/* 0x004 */ Collider* colAT[COLLISION_CHECK_AT_MAX];
	/* 0x0CC */ s32 colACCount;
	/* 0x0D0 */ Collider* colAC[COLLISION_CHECK_AC_MAX];
	/* 0x1C0 */ s32 colOCCount;
	/* 0x1C4 */ Collider* colOC[COLLISION_CHECK_OC_MAX];
	/* 0x28C */ s32 colLineCount;
	/* 0x290 */ OcLine* colLine[COLLISION_CHECK_OC_LINE_MAX];
}; // size = 0x29C

void Collider_DrawRedPoly(struct GraphicsContext* gfxCtx, Vec3f* vA, Vec3f* vB, Vec3f* vC);
void Collider_DrawPoly(struct GraphicsContext* gfxCtx, Vec3f* vA, Vec3f* vB, Vec3f* vC, u8 r, u8 g, u8 b);
s32 Collider_InitJntSph(GlobalContext* globalCtx, ColliderJntSph* collider);
s32 Collider_FreeJntSph(GlobalContext* globalCtx, ColliderJntSph* collider);
s32 Collider_DestroyJntSph(GlobalContext* globalCtx, ColliderJntSph* collider);
s32 Collider_SetJntSphToActor(GlobalContext* globalCtx, ColliderJntSph* dest, ColliderJntSphInitToActor* src);
s32 Collider_SetJntSphAllocType1(GlobalContext* globalCtx, ColliderJntSph* dest, struct Actor* actor, ColliderJntSphInitType1* src);
s32 Collider_SetJntSphAlloc(GlobalContext* globalCtx, ColliderJntSph* dest, struct Actor* actor, ColliderJntSphInit* src);
s32 Collider_SetJntSph(GlobalContext* globalCtx, ColliderJntSph* dest, struct Actor* actor, ColliderJntSphInit* src, ColliderJntSphElement* elements);
s32 Collider_ResetJntSphAT(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetJntSphAC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetJntSphOC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_InitCylinder(GlobalContext* globalCtx, ColliderCylinder* collider);
s32 Collider_DestroyCylinder(GlobalContext* globalCtx, ColliderCylinder* collider);
s32 Collider_SetCylinderToActor(GlobalContext* globalCtx, ColliderCylinder* collider, ColliderCylinderInitToActor* src);
s32 Collider_SetCylinderType1(GlobalContext* globalCtx, ColliderCylinder* collider, struct Actor* actor, ColliderCylinderInitType1* src);
s32 Collider_SetCylinder(GlobalContext* globalCtx, ColliderCylinder* collider, struct Actor* actor, ColliderCylinderInit* src);
s32 Collider_ResetCylinderAT(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetCylinderAC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetCylinderOC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_InitTris(GlobalContext* globalCtx, ColliderTris* tris);
s32 Collider_FreeTris(GlobalContext* globalCtx, ColliderTris* tris);
s32 Collider_DestroyTris(GlobalContext* globalCtx, ColliderTris* tris);
s32 Collider_SetTrisAllocType1(GlobalContext* globalCtx, ColliderTris* dest, struct Actor* actor, ColliderTrisInitType1* src);
s32 Collider_SetTrisAlloc(GlobalContext* globalCtx, ColliderTris* dest, struct Actor* actor, ColliderTrisInit* src);
s32 Collider_SetTris(GlobalContext* globalCtx, ColliderTris* dest, struct Actor* actor, ColliderTrisInit* src, ColliderTrisElement* elements);
s32 Collider_ResetTrisAT(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetTrisAC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetTrisOC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_InitQuad(GlobalContext* globalCtx, ColliderQuad* collider);
s32 Collider_DestroyQuad(GlobalContext* globalCtx, ColliderQuad* collider);
s32 Collider_SetQuadType1(GlobalContext* globalCtx, ColliderQuad* collider, struct Actor* actor, ColliderQuadInitType1* src);
s32 Collider_SetQuad(GlobalContext* globalCtx, ColliderQuad* collider, struct Actor* actor, ColliderQuadInit* src);
s32 Collider_ResetQuadAT(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetQuadAC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_ResetQuadOC(GlobalContext* globalCtx, Collider* collider);
s32 Collider_InitLine(GlobalContext* globalCtx, OcLine* line);
s32 Collider_DestroyLine(GlobalContext* globalCtx, OcLine* line);
s32 Collider_SetLinePoints(GlobalContext* globalCtx, OcLine* ocLine, Vec3f* a, Vec3f* b);
s32 Collider_SetLine(GlobalContext* globalCtx, OcLine* dest, OcLine* src);
s32 Collider_ResetLineOC(GlobalContext* globalCtx, OcLine* line);
void CollisionCheck_InitContext(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void CollisionCheck_DestroyContext(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void CollisionCheck_ClearContext(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void CollisionCheck_EnableSAC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void CollisionCheck_DisableSAC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void Collider_Draw(GlobalContext* globalCtx, Collider* collider);
void CollisionCheck_DrawCollision(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
s32 CollisionCheck_SetAT(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Collider* collider);
s32 CollisionCheck_SetAT_SAC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Collider* collider, s32 index);
s32 CollisionCheck_SetAC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Collider* collider);
s32 CollisionCheck_SetAC_SAC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Collider* collider, s32 index);
s32 CollisionCheck_SetOC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Collider* collider);
s32 CollisionCheck_SetOC_SAC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Collider* collider, s32 index);
s32 CollisionCheck_SetOCLine(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, OcLine* collider);
void CollisionCheck_BlueBlood(GlobalContext* globalCtx, Collider* collider, Vec3f* v);
void CollisionCheck_AT(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void CollisionCheck_OC(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
void CollisionCheck_InitInfo(struct CollisionCheckInfo* info);
void CollisionCheck_ResetDamage(struct CollisionCheckInfo* info);
void CollisionCheck_SetInfoNoDamageTable(struct CollisionCheckInfo* info, struct CollisionCheckInfoInit* init);
void CollisionCheck_SetInfo(struct CollisionCheckInfo* info, struct DamageTable* damageTable, struct CollisionCheckInfoInit* init);
void CollisionCheck_SetInfo2(struct CollisionCheckInfo* info, struct DamageTable* damageTable, struct CollisionCheckInfoInit2* init);
void CollisionCheck_SetInfoGetDamageTable(struct CollisionCheckInfo* info, s32 index, struct CollisionCheckInfoInit2* init);
void CollisionCheck_Damage(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx);
s32 CollisionCheck_LineOCCheckAll(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Vec3f* a, Vec3f* b);
s32 CollisionCheck_LineOCCheck(GlobalContext* globalCtx, CollisionCheckContext* colChkCtx, Vec3f* a, Vec3f* b, struct Actor** exclusions, s32 numExclusions);
void Collider_UpdateCylinder(struct Actor* actor, ColliderCylinder* collider);
void Collider_SetCylinderPosition(ColliderCylinder* collider, Vec3s* pos);
void Collider_SetQuadVertices(ColliderQuad* collider, Vec3f* a, Vec3f* b, Vec3f* c, Vec3f* d);
void Collider_SetTrisVertices(ColliderTris* collider, s32 index, Vec3f* a, Vec3f* b, Vec3f* c);
void Collider_SetTrisDim(GlobalContext* globalCtx, ColliderTris* collider, s32 index, struct ColliderTrisElementDimInit* init);
void Collider_UpdateSpheres(s32 limb, ColliderJntSph* collider);
void CollisionCheck_SpawnRedBlood(GlobalContext* globalCtx, Vec3f* v);
void CollisionCheck_SpawnWaterDroplets(GlobalContext* globalCtx, Vec3f* v);
void CollisionCheck_SpawnShieldParticles(GlobalContext* globalCtx, Vec3f* v);
void CollisionCheck_SpawnShieldParticlesMetal(GlobalContext* globalCtx, Vec3f* v);
void CollisionCheck_SpawnShieldParticlesMetalSound(GlobalContext* globalCtx, Vec3f* v, Vec3f* actorPos);
void CollisionCheck_SpawnShieldParticlesMetal2(GlobalContext* globalCtx, Vec3f* v);
void CollisionCheck_SpawnShieldParticlesWood(GlobalContext* globalCtx, Vec3f* b, Vec3f* actorPos);
s32 CollisionCheck_CylSideVsLineSeg(f32 radius, f32 height, f32 offset, Vec3f* actorPos, Vec3f* itemPos, Vec3f* itemProjPos, Vec3f* out1, Vec3f* out2);
u8 CollisionCheck_GetSwordDamage(s32 dmgFlags);