#pragma once #include #include "maptypes.h" #include "build.h" #include "actorinfo.h" enum { MAXSTATUS = 1024 }; struct FWallSpriteDesc { walltype* wall; float offsetOnWall; }; // This is for quick determination of walls a wall sprite is attached to. struct FWallSpriteInfo { tspritetype base; // this is needed for checking if something has changed. TArray connections[2]; // two lists - for front and back }; class DCoreActor : public DObject { DECLARE_CLASS(DCoreActor, DObject) HAS_OBJECT_POINTERS // common part of the game actors public: // These two are needed because we cannot rely on the ones in the sprites for unlinking. int link_stat; sectortype* link_sector; DCoreActor* prevStat, * nextStat; DCoreActor* prevSect, * nextSect; FWallSpriteInfo* wallspriteinfo; // this is render data but needs to be attached to the actor so it can be found. spritetype spr; spriteext_t sprext; spritesmooth_t spsmooth; DVector3 opos; int time; int16_t oang; int16_t spritesetindex; DCoreActor() = default; virtual ~DCoreActor() = default; DCoreActor(const DCoreActor& other) = delete; // we also do not want to allow copies. DCoreActor& operator=(const DCoreActor& other) = delete; virtual void Serialize(FSerializer& arc); virtual void BeginPlay() {} void OnDestroy() override; size_t PropagateMark() override; int GetOffsetAndHeight(int& height); bool exists() const { return (unsigned)spr.statnum < MAXSTATUS; } int GetIndex() const { // This is only identical with the sprite index for items spawned at map start. return time; } const vec3_t int_pos() const { return { int(spr.pos.X * worldtoint), int(spr.pos.Y * worldtoint), int(spr.pos.Z * zworldtoint) }; } void set_int_z(int z) { spr.pos.Z = z * zinttoworld; } void add_int_z(int z) { spr.pos.Z += z * zinttoworld; } void add_int_pos(const vec3_t& add) { spr.pos += { add.X* inttoworld, add.Y* inttoworld, add.Z* zinttoworld }; } void set_int_pos(const vec3_t& add) { spr.pos = { add.X* inttoworld, add.Y* inttoworld, add.Z* zinttoworld }; } void copyXY(DCoreActor* other) { spr.pos.X = other->spr.pos.X; spr.pos.Y = other->spr.pos.Y; } void set_int_xy(int x, int y) { spr.pos.X = x * inttoworld; spr.pos.Y = y * inttoworld; } const int16_t int_ang() const { return spr.__int_angle; } void set_int_ang(int a) { spr.__int_angle = int16_t(a); } // Same as above but with invertex y and z axes to match the renderer's coordinate system. DVector3 render_pos() const { return { spr.pos.X, -spr.pos.Y, -spr.pos.Z }; } double interpolatedx(double const smoothratio, int const scale = 16) { return interpolatedvaluef(opos.X, spr.pos.X, smoothratio, scale); } double interpolatedy(double const smoothratio, int const scale = 16) { return interpolatedvaluef(opos.Y, spr.pos.Y, smoothratio, scale); } double interpolatedz(double const smoothratio, int const scale = 16) { return interpolatedvalue(opos.Z, spr.pos.Z, smoothratio, scale); } DVector2 interpolatedvec2(double const smoothratio, int const scale = 16) { return { interpolatedx(smoothratio, scale), interpolatedy(smoothratio, scale) }; } DVector3 interpolatedvec3(double const smoothratio, int const scale = 16) { return { interpolatedx(smoothratio, scale), interpolatedy(smoothratio, scale), interpolatedz(smoothratio, scale) }; } int32_t __interpolatedx(double const smoothratio, int const scale = 16) { return interpolatedx(smoothratio, scale) * worldtoint; } int32_t __interpolatedy(double const smoothratio, int const scale = 16) { return interpolatedy(smoothratio, scale) * worldtoint; } int32_t __interpolatedz(double const smoothratio, int const scale = 16) { return interpolatedz(smoothratio, scale) * zworldtoint; } vec2_t __interpolatedvec2(double const smoothratio, int const scale = 16) { return { (int)(interpolatedx(smoothratio, scale) * worldtoint), (int)(interpolatedy(smoothratio, scale) * worldtoint) }; } int16_t interpolatedang(double const smoothratio) { return interpolatedangle(oang, int_ang(), smoothratio, 16); } void backupx() { opos.X = spr.pos.X; } void backupy() { opos.Y = spr.pos.Y; } void backupz() { opos.Z = spr.pos.Z; } void backupvec2() { backupx(); backupy(); } void backuppos() { opos = spr.pos; } void backupang() { oang = int_ang(); } void backuploc() { backuppos(); backupang(); } sectortype* sector() const { return spr.sectp; } bool insector() const { return spr.sectp != nullptr; } void setsector(sectortype* sect) { // place for asserts. spr.sectp = sect; } int sectno() const { return spr.sectp ? ::sector.IndexOf(spr.sectp) : -1; } auto spriteset() const { return static_cast(GetClass())->ActorInfo()->SpriteSet; } }; // holds pointers to the game-side actors. extern TArray sector; extern TArray wall; // Masking these into the object index to keep it in 16 bit was probably the single most dumbest and pointless thing Build ever did. // Gonna be fun to globally replace these to finally lift the limit this imposes on map size. // Names taken from DukeGDX enum EHitBits { kHitNone = 0, kHitTypeMask = 0xC000, kHitTypeMaskSW = 0x1C000, // SW has one more relevant bit kHitIndexMask = 0x3FFF, kHitSector = 0x4000, kHitWall = 0x8000, kHitSprite = 0xC000, kHitVoid = 0x10000, // SW only }; // This serves as input/output for all functions dealing with collisions, hits, etc. // Not all utilities use all variables. struct HitInfoBase { vec3_t hitpos; sectortype* hitSector; walltype* hitWall; DCoreActor* hitActor; void clearObj() { hitSector = nullptr; hitWall = nullptr; hitActor = nullptr; } }; template struct THitInfo : public HitInfoBase { T* actor() const { return static_cast(hitActor); } }; struct CollisionBase { int type; int exbits; // extended game-side info (only used by Exhumed) union { // can only have one at a time sectortype* hitSector; walltype* hitWall; DCoreActor* hitActor; }; void invalidate() { type = -1; // something invalid that's not a valid hit type. hitSector = nullptr; } int setNone() { *this = {}; return kHitNone; } int setSector(int num) { *this = {}; type = kHitSector; hitSector = §or[num]; return kHitSector; } int setSector(sectortype* num) { *this = {}; type = kHitSector; hitSector = num; return kHitSector; } int setWall(int num) { *this = {}; type = kHitWall; hitWall = &wall[num]; return kHitWall; } int setWall(walltype* num) { *this = {}; type = kHitWall; hitWall = num; return kHitWall; } int setSprite(DCoreActor* num) { *this = {}; type = kHitSprite; hitActor = num; return kHitSprite; } int setVoid() { hitSector = nullptr; type = kHitVoid; return kHitVoid; } }; template struct TCollision : public CollisionBase { T* actor() const { return static_cast(hitActor); } // normally collision data is short lived, this is only needed in some very rare circumstances. T* safeActor() { return static_cast(GC::ReadBarrier(hitActor)); } auto operator=(const CollisionBase& other) { *(CollisionBase*)this = other; return *this; } }; struct ActorStatList { DCoreActor* firstEntry, * lastEntry; }; extern ActorStatList statList[MAXSTATUS]; template class TStatIterator { DCoreActor* next; public: TStatIterator(int stat) { next = statList[stat].firstEntry; } void Reset(int stat) { next = statList[stat].firstEntry; } TActor* Next() { auto n = next; if (next) next = next->nextStat; return static_cast(n); } TActor* Peek() { return static_cast(next); } }; template class TSectIterator { DCoreActor* next; public: //[[deprecated]] TSectIterator(int stat) { next = sector[stat].firstEntry; } TSectIterator(sectortype* stat) { next = stat->firstEntry; } //[[deprecated]] void Reset(int stat) { next = sector[stat].firstEntry; } void Reset(sectortype* stat) { next = stat->firstEntry; } TActor* Next() { auto n = next; if (next) next = next->nextSect; return static_cast(n); } TActor* Peek() { return static_cast(next); } }; // An iterator to iterate over all sprites. template class TSpriteIterator { TStatIterator it; int stat = 0; public: TSpriteIterator() : it(0) {} TActor* Next() { while (stat < MAXSTATUS) { auto ac = it.Next(); if (ac) return ac; stat++; if (stat < MAXSTATUS) it.Reset(stat); } return nullptr; } void Reset() { stat = 0; it.Reset(0); } }; using CoreSectIterator = TSectIterator; DCoreActor* InsertActor(PClass* type, sectortype* sector, int stat, bool forcetail = false); void ChangeActorSect(DCoreActor* actor, sectortype* sector, bool forcetail = false); int ChangeActorStat(DCoreActor* actor, int nStatus, bool forcetail = false); void InitSpriteLists(); void SetActorZ(DCoreActor* actor, const vec3_t* newpos); void SetActor(DCoreActor* actor, const vec3_t* newpos); inline void SetActor(DCoreActor* actor, const vec3_t& newpos) { SetActor(actor, &newpos); } inline void SetActorZ(DCoreActor* actor, const vec3_t& newpos) { SetActorZ(actor, &newpos); } inline void SetActor(DCoreActor* actor, const DVector3& newpos) { vec3_t ipos = { int(newpos.X * worldtoint), int(newpos.Y * worldtoint), int(newpos.Z * zworldtoint) }; SetActor(actor, &ipos); } inline void SetActorZ(DCoreActor* actor, const DVector3& newpos) { vec3_t ipos = { int(newpos.X * worldtoint), int(newpos.Y * worldtoint), int(newpos.Z * zworldtoint) }; SetActorZ(actor, &ipos); } inline int clipmove(vec3_t& pos, sectortype** const sect, int xvect, int yvect, int const walldist, int const ceildist, int const flordist, unsigned const cliptype, CollisionBase& result, int clipmoveboxtracenum = 3) { int sectno = *sect ? sector.IndexOf(*sect) : -1; result = clipmove_(&pos, §no, xvect, yvect, walldist, ceildist, flordist, cliptype, clipmoveboxtracenum); *sect = sectno == -1 ? nullptr : §or[sectno]; return result.type; } inline int clipmove(DVector3& pos, sectortype** const sect, int xvect, int yvect, int const walldist, int const ceildist, int const flordist, unsigned const cliptype, CollisionBase& result, int clipmoveboxtracenum = 3) { auto vect = vec3_t(pos.X * worldtoint, pos.Y * worldtoint, pos.Z * zworldtoint); int res = clipmove(vect, sect, xvect, yvect, walldist, ceildist, flordist, cliptype, result, clipmoveboxtracenum); pos = { vect.X * inttoworld, vect.Y * inttoworld, vect.Z * zinttoworld }; return res; } inline int pushmove(vec3_t* const vect, sectortype** const sect, int32_t const walldist, int32_t const ceildist, int32_t const flordist, uint32_t const cliptype, bool clear = true) { int sectno = *sect ? sector.IndexOf(*sect) : -1; int res = pushmove_(vect, §no, walldist, ceildist, flordist, cliptype, clear); *sect = sectno == -1 ? nullptr : §or[sectno]; return res; } inline int pushmove(DVector3& pos, sectortype** const sect, int32_t const walldist, int32_t const ceildist, int32_t const flordist, uint32_t const cliptype, bool clear = true) { auto vect = vec3_t(pos.X * worldtoint, pos.Y * worldtoint, pos.Z * zworldtoint); int sectno = *sect ? sector.IndexOf(*sect) : -1; int res = pushmove_(&vect, §no, walldist, ceildist, flordist, cliptype, clear); pos = { vect.X * inttoworld, vect.Y * inttoworld, vect.Z * zinttoworld }; *sect = sectno == -1 ? nullptr : §or[sectno]; return res; } inline int pushmove(DCoreActor* actor, sectortype** const sect, int32_t const walldist, int32_t const ceildist, int32_t const flordist, uint32_t const cliptype, bool clear = true) { return pushmove(actor->spr.pos, sect, walldist, ceildist, flordist, cliptype, clear); } tspritetype* renderAddTsprite(tspriteArray& tsprites, DCoreActor* actor); inline PClassActor* PClass::FindActor(FName name) { auto cls = FindClass(name); return cls && cls->IsDescendantOf(RUNTIME_CLASS(DCoreActor)) ? static_cast(cls) : nullptr; } inline DCoreActor* GetDefaultByType(const PClass* type) { return (DCoreActor*)(type->Defaults); }