#include #include #include /* DATA */ // Non-matchings functions marked with CLOSE are either a matter of regalloc or stack size and can possibly be fixed // with the permutator. typedef struct { Vec3f unk_00; Vec3f unk_0C; CollisionPoly* unk_18; char unk_1C[0x8]; s32 unk_24; } struct_80043D18; // names for this struct's values come from a debug function, may want to rename typedef struct { s8 code; s8 z; u16 T; f32 zoom; Vec3s pos; } SplineData; // originally called SplinedatZ f32 func_800437F0(f32 arg0, f32 arg1) { f32 percent = 0.4f; f32 ret = fabsf(arg1); if (arg0 < ret) { ret = 1; } else if (ret < (f32)arg0 * (1 - percent)) { //! float cast needed to match ret = (SQ(arg1) * (1 - percent)) / SQ((1 - percent) * arg0); } else { ret = 1 - (0.4f * SQ(arg0 - ret)) / SQ(0.4f * arg0); } return ret; } f32 func_8004389C(f32 a, f32 b, f32 c, f32 d) { f32 temp1 = a - b; f32 temp2; f32 ret; if (fabsf(temp1) >= d) { temp2 = temp1 * c; ret = b + temp2; } else { ret = a; } return ret; } f32 func_800438DC(f32 a, f32 b, f32 c, f32 d) { f32 temp1 = a - b; f32 temp2; f32 ret; if (fabsf(temp1) >= d) { temp2 = temp1 * c; ret = b + temp2; } else { ret = b; } return ret; } s16 func_8004391C(s16 a, s16 b, f32 c, s16 d) { s16 temp1 = a - b; s16 temp2; s32 ret; if (ABS(temp1) >= d) { temp2 = temp1 * c + 0.5f; ret = b + temp2; } else { ret = a; } return ret; } s16 func_800439AC(s16 a, s16 b, f32 c, s16 d) { s16 temp1 = a - b; s16 temp2; s32 ret; if (ABS(temp1) >= d) { temp2 = temp1 * c + 0.5f; ret = b + temp2; } else { ret = b; } return ret; } void func_80043A3C(Vec3f* a, Vec3f* b, f32 c, f32 d, f32 e) { b->x = func_8004389C(a->x, b->x, d, e); b->y = func_8004389C(a->y, b->y, c, e); b->z = func_8004389C(a->z, b->z, d, e); } void func_80043ABC(Camera* camera) { camera->unk_C0.z = 100.0f; camera->unk_C0.y = OREG(7); camera->unk_C0.x = OREG(6); camera->unk_CC.x = OREG(2) * 0.01f; camera->unk_CC.y = OREG(3) * 0.01f; camera->unk_CC.z = OREG(4) * 0.01f; } void func_80043B60(Camera* camera) { camera->unk_C0.x = OREG(27); camera->unk_C0.z = OREG(27); camera->unk_C0.y = OREG(27); camera->unk_CC.x = 0.001f; camera->unk_CC.y = 0.001f; camera->unk_CC.z = 0.001f; } Vec3f* func_80043BC4(Vec3f* a, Vec3s* b) { Vec3f sp4; sp4.x = b->x; sp4.y = b->y; sp4.z = b->z; *a = sp4; return a; } Vec3f* func_80043C28(Vec3f* a, Vec3f* b, VecSph* c) { Vec3f sp24, sp18; func_8007C25C(&sp18, c); sp24.x = b->x + sp18.x; sp24.y = b->y + sp18.y; sp24.z = b->z + sp18.z; *a = sp24; return a; } Vec3f* func_80043CAC(Vec3f* a, Vec3f* b, Vec3f* c, f32 d) { Vec3f sp4; sp4.x = b->x + (c->x * d); sp4.y = b->y + (c->y * d); sp4.z = b->z + (c->z * d); *a = sp4; return a; } s32 func_80043D18(Camera* camera, Vec3f* b, struct_80043D18* c) { CollisionContext* colCtx; Vec3f sp68, sp5C, sp50; f32 temp_ret; CollisionPoly* sp48; s32 sp44; VecSph sp3C; colCtx = &camera->globalCtx->colCtx; func_8007C490(&sp3C, b, &c->unk_00); sp3C.r += 8.0f; func_80043C28(&sp5C, b, &sp3C); if (func_8003DD6C(colCtx, b, &sp5C, &sp68, &c->unk_18, 1, 1, 1, -1, &c->unk_24) == 0) { func_8007C0F8(&sp50, b, &c->unk_00); c->unk_0C.x = -sp50.x; c->unk_0C.y = -sp50.y; c->unk_0C.z = -sp50.z; sp68 = c->unk_00; sp68.y += 5.0f; temp_ret = func_8003CCA4(colCtx, &sp48, &sp44, &sp68); if ((c->unk_00.y - temp_ret) > 5.0f) { c->unk_00.x += c->unk_0C.x; c->unk_00.y += c->unk_0C.y; c->unk_00.z += c->unk_0C.z; return 0; } c->unk_18 = sp48; sp68.y = temp_ret + 1.0f; c->unk_24 = sp44; } c->unk_0C.x = c->unk_18->norm.x * (1.f / 32767); c->unk_0C.y = c->unk_18->norm.y * (1.f / 32767); c->unk_0C.z = c->unk_18->norm.z * (1.f / 32767); c->unk_00.x = c->unk_0C.x + sp68.x; c->unk_00.y = c->unk_0C.y + sp68.y; c->unk_00.z = c->unk_0C.z + sp68.z; return sp44 + 1; } void func_80043F34(Camera* camera, Vec3f* b, Vec3f* c) { struct_80043D18 sp20; Vec3s unused; sp20.unk_00 = *c; func_80043D18(camera, b, &sp20); *c = sp20.unk_00; } // 242 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80043F94.s") void func_80044340(Camera* camera, Vec3f* b, Vec3f* c) { struct_80043D18 sp20; Vec3s unused; sp20.unk_00 = *c; func_80043F94(camera, b, &sp20); *c = sp20.unk_00; } f32 func_80038B7C(); #ifdef NON_MATCHING // ordering s32 func_800443A0(Camera* camera, Vec3f* b, Vec3f* c) { s32 sp4C; Vec3f sp40; s32 sp3C; s32 sp38; CollisionPoly* sp34; sp34 = NULL; // this is moved to the top when it should be done in the middle of the function args being loaded if (func_8003DD6C(&camera->globalCtx->colCtx, b, c, &sp40, &sp34, 1, 1, 1, 0, &sp38) != 0) { if (func_80038B7C(sp34, b) < 0.0f) { return 1; } } return 0; } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800443A0.s") #endif f32 func_80044434(Camera* camera, Vec3f* b, Vec3f* c, s32* d) { s32 sp2C; // unused CollisionPoly* sp28; f32 temp_ret = func_8003C940(&camera->globalCtx->colCtx, &sp28, d, c); if (temp_ret == -32000.0f) { b->x = 0.0f; b->z = 0.0f; b->y = 1.0f; } else { b->x = sp28->norm.x * (1.f / 32767); b->y = sp28->norm.y * (1.f / 32767); b->z = sp28->norm.z * (1.f / 32767); } return temp_ret; } void func_80044510(Camera* camera, Vec3f* b) { Vec3f sp2C, sp20; s32 sp1C; sp2C = *b; sp2C.y += 80.0f; func_80044434(camera, &sp20, &sp2C, &sp1C); } // 125 lines (loop) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80044568.s") s16 func_80044740(Camera* camera, s32 b) { return func_80041A4C(&camera->globalCtx->colCtx, b, 50); } s32 func_8004476C(Camera* camera) { return func_80041C10(&camera->globalCtx->colCtx, camera->unk_148, 50); } s32 func_8004479C(Camera* camera, s32* b, Vec3f* c) { s32 temp_ret; PosRot sp20; s32 ret; func_8002EF44(&sp20, &camera->player->actor); temp_ret = func_80041A28(&camera->globalCtx->colCtx, c, *b); if (func_80041A4C(&camera->globalCtx->colCtx, temp_ret, *b) == 0) { ret = -1; } else { ret = temp_ret; } return ret; } s32 func_8004481C(Camera* camera, s16* arg1) { CollisionPoly* sp44; s32 sp40; // unused s32 sp3C; PosRot sp28; func_8002EF44(&sp28, &camera->player->actor); sp28.pos.y += Player_GetCameraYOffset(camera->player); if (func_8003C940(&camera->globalCtx->colCtx, &sp44, &sp3C, &sp28.pos) == -32000.0f) { return 0; } *arg1 = func_80041B80(&camera->globalCtx->colCtx, sp44, sp3C); return func_80041C98(&camera->globalCtx->colCtx, sp44, sp3C); } s32 func_800448CC(Camera* camera, f32* b) { PosRot sp34; s32 sp30; s32 temp_ret; func_8002EF44(&sp34, &camera->player->actor); *b = sp34.pos.y; if (func_8004213C(camera->globalCtx, &camera->globalCtx->colCtx, sp34.pos.x, sp34.pos.z, b, &sp30) == 0) { *b = -32000.0f; return -1; } if (!(camera->player->stateFlags1 & 0x8000000)) { *b = -32000.0f; return -1; } temp_ret = func_80042538(&camera->globalCtx->colCtx, sp30); if ((temp_ret <= 0) || (func_80042548(&camera->globalCtx->colCtx, sp30) <= 0)) { return -2; } return temp_ret; } f32 func_800449AC(Camera* camera, Vec3f* b, s32* arg2) { PosRot sp2C; f32 sp28; s32 sp24; func_8002EF44(&sp2C, &camera->player->actor); sp28 = sp2C.pos.y; if (func_8004213C(camera->globalCtx, &camera->globalCtx->colCtx, b->x, b->z, &sp28, &sp24) == 0) { return -32000.f; } if (sp28 < b->y) { return -32000.f; } *arg2 = func_8004259C(&camera->globalCtx->colCtx, sp24); return sp28; } s16 func_80044A74(Vec3f* a, Vec3f* b) { return Math_atan2f(b->x - a->x, b->z - a->z) * (180 / M_PI) * (32767.5f / 180) + 0.5f; } // 234 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80044ADC.s") // 143 lines (extremely confusing) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80044E68.s") f32 func_800450A4(Camera* camera, f32 b) { f32 ret; if (camera->unk_100 < (OREG(41) * 0.01f)) { ret = OREG(41) * 0.01f; } else if (b <= camera->unk_100) { ret = b; } else { ret = OREG(42) * 0.01f * camera->unk_100; } return ret; } // 79 lines (unknown arrays) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80045128.s") // 66 lines (unknown arrays) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80045254.s") // 76 lines (unknown types) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80045350.s") void* func_8004545C(Vec3f* a, s32 b, s32 c, struct_80043D18* d, struct_80043D18* e) { Vec3f sp24; if (func_800427B4(d->unk_18, e->unk_18, b, c, &sp24) == 0) { osSyncPrintf(VT_COL(YELLOW, BLACK) "camera: corner check no cross point %x %x\n" VT_RST, d, e); *a = d->unk_00; return a; } *a = sp24; return a; } // 141 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80045508.s") #ifdef NON_MATCHING // CLOSE: stack is 4 bytes too big f32 func_80045714(Vec3f* a, s16 b, s16 c, f32 arg3) { VecSph sp1C; f32 sp18; func_8007C3F4(&sp1C, a); sp18 = Math_Coss(sp1C.phi); sp18 = fabsf(Math_Coss(b - sp1C.theta) * sp18); return Math_Coss(b - c) * (sp18 * arg3); } #else f32 func_80045714(Vec3f* a, s16 b, s16 c, f32 arg3); #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80045714.s") #endif f32 func_8007C0A8(f32, f32); s32 func_800457A8(Camera* camera, VecSph* b, f32 c, s16 d) { f32 unused; Vec3f sp50; Vec3f sp44; s32 unused2; PosRot* sp2C; f32 temp_ret; temp_ret = Player_GetCameraYOffset(camera->player); sp50.x = 0.f; sp50.z = 0.f; sp50.y = temp_ret + c; sp2C = &camera->unk_94; if (d != 0) { sp50.y -= func_8007C0A8(func_80045714(&camera->unk_108, sp2C->rot.y, b->theta, OREG(9)), temp_ret); } func_80043A3C(&sp50, &camera->unk_E4, camera->unk_CC.y, camera->unk_CC.x, 0.1f); sp44.x = sp2C->pos.x + camera->unk_E4.x; sp44.y = sp2C->pos.y + camera->unk_E4.y; sp44.z = sp2C->pos.z + camera->unk_E4.z; func_80043A3C(&sp44, &camera->at, camera->unk_100, camera->unk_100, 0.2f); return 1; } f32 func_8007C028(Vec3f*, Vec3f*); #ifdef NON_MATCHING // CLOSE: regalloc s32 func_800458D4(Camera* camera, VecSph* b, f32 c, f32* d, s16 e) { f32 phi_f2; Vec3f sp60; Vec3f sp54; f32 temp_ret; PosRot* temp_s1; f32 sp48; s32 pad[2]; sp60.y = Player_GetCameraYOffset(camera->player) + c; sp60.x = 0.0f; sp60.z = 0.0f; temp_s1 = &camera->unk_94; if (e != 0) { sp60.y -= func_80045714(&camera->unk_108, temp_s1->rot.y, b->theta, OREG(9)); } sp48 = temp_s1->pos.y - *d; temp_ret = Math_atan2f(sp48, func_8007C028(&camera->at, &camera->eye)); // f2 and f14 are swapped if (OREG(32) * (M_PI / 180) < temp_ret) { phi_f2 = 1.0f - sinf(temp_ret - OREG(32) * (M_PI / 180)); } else if (OREG(33) * (M_PI / 180) > temp_ret) { phi_f2 = 1.0f - sinf(OREG(33) * (M_PI / 180) - temp_ret); } else { phi_f2 = 1.0f; } sp60.y -= sp48 * phi_f2; func_80043A3C(&sp60, &camera->unk_E4, OREG(29) * 0.01f, OREG(30) * 0.01f, 0.1f); sp54.x = temp_s1->pos.x + camera->unk_E4.x; sp54.y = temp_s1->pos.y + camera->unk_E4.y; sp54.z = temp_s1->pos.z + camera->unk_E4.z; func_80043A3C(&sp54, &camera->at, camera->unk_100, camera->unk_100, 0.2f); return 1; } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800458D4.s") #endif s32 func_80045B08(Camera* camera, VecSph* b, f32 c, s16 d) { f32 phi_f2; Vec3f sp48; Vec3f sp3C; f32 sp38; // unused f32 temp_ret; PosRot* temp_s1; sp48.y = Player_GetCameraYOffset(camera->player) + c; sp48.x = 0.0f; sp48.z = 0.0f; temp_ret = Math_Sins((s32)d); temp_s1 = &camera->unk_94; if (temp_ret < 0.0f) { phi_f2 = Math_Coss(temp_s1->rot.y - b->theta); } else { phi_f2 = -Math_Coss(temp_s1->rot.y - b->theta); } sp48.y -= temp_ret * phi_f2 * OREG(9); func_80043A3C(&sp48, &camera->unk_E4, camera->unk_CC.y, camera->unk_CC.x, 0.1f); sp3C.x = temp_s1->pos.x + camera->unk_E4.x; sp3C.y = temp_s1->pos.y + camera->unk_E4.y; sp3C.z = temp_s1->pos.z + camera->unk_E4.z; func_80043A3C(&sp3C, &camera->at, camera->unk_100, camera->unk_100, 0.2f); return 1; } /* // someone who's not me can have fun with this function s32 func_80045C74(Camera* camera, VecSph* b, f32 c, f32* d, s16 arg4) { Vec3f sp70; Vec3f sp64; f32 sp54; PosRot* sp3C; f32 temp; f32 temp_f2; f32 temp_ret_3; f32 phi_f16; f32 phi_f20; sp70.y = Player_GetCameraYOffset(camera->player) + c; sp70.x = 0.0f; sp70.z = 0.0f; if (PREG(76) != 0) { if (arg4 != 0) { sp70.y -= func_80045714(&camera->unk_108, sp3C->rot.y, b->unk_06, OREG(9)); } } sp3C = &camera->unk_94; if ((sp3C->pos.y == camera->unk_104) || (camera->player->actor.gravity > -0.1f) || (camera->player->stateFlags1 & 0x200000)) { *d = func_8004389C(sp3C->pos.y, *d, OREG(43) * 0.01f, 0.1f); sp70.y -= sp3C->pos.y - *d; func_80043A3C(&sp70, &camera->unk_E4, camera->unk_CC.y, camera->unk_CC.x, 0.1f); } else { temp = sp3C->pos.y - *d; if (PREG(75) == 0) { sp54 = func_8007C028(&camera->at, &camera->eye); Math_atan2f(temp, sp54); temp_f2 = Math_tanf(camera->unk_FC * 0.4f * (M_PI / 180)) * sp54; if (temp > temp_f2) { *d += temp - temp_f2; phi_f20 = temp_f2; } else { phi_f20 = temp; if (temp < -temp_f2) { *d += temp + temp_f2; phi_f20 = -temp_f2; } } sp70.y -= phi_f20; } else { temp_ret_3 = Math_atan2f(temp, func_8007C028(&camera->at, &camera->eye)); if (OREG(32) * (M_PI / 180) < temp_ret_3) phi_f16 = 1.0f - sinf(temp_ret_3 - OREG(32) * (M_PI / 180)); else if (temp_ret_3 < OREG(33) * (M_PI / 180)) phi_f16 = 1.0f - sinf(OREG(33) * (M_PI / 180) - temp_ret_3); else phi_f16 = 1.0f; sp70.y -= temp * phi_f16; } func_80043A3C(&sp70, &camera->unk_E4, OREG(29) * 0.01f, OREG(30) * 0.01f, 0.1f); camera->unk_CC.y = OREG(29) * 0.01f; camera->unk_CC.x = OREG(30) * 0.01f; } sp64.x = sp3C->pos.x + camera->unk_E4.x; sp64.y = sp3C->pos.y + camera->unk_E4.y; sp64.z = sp3C->pos.z + camera->unk_E4.z; func_80043A3C(&sp64, &camera->at, camera->unk_100, camera->unk_100, 0.2f); return 1; } */ #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80045C74.s") // 421 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800460A8.s") s32 func_800466F8(Camera* camera, VecSph* b, f32 c, f32* d, s16 e) { s32 phi_v0; Vec3f sp60; Vec3f sp54; f32 sp50; // unused f32 sp4C; // unused f32 sp48; // I doubt this is a Vec3f Player* sp44; PosRot sp30; sp48 = Player_GetCameraYOffset(camera->player); sp44 = camera->player; func_8002EF44(&sp30, sp44->rideActor); if ((*(s32*)((s32)(sp44->rideActor) + 0x1F0) & 4) != 0) { // actors aren't this big, is rideActor a different type? phi_v0 = 1; } else { phi_v0 = 0; } if (phi_v0 != 0) { sp30.pos.y -= 49.f; *d = func_8004389C(sp30.pos.y, *d, 0.1f, 0.2f); camera->unk_100 = func_8004389C(0.4f, camera->unk_100, 0.2f, 0.02f); } else { *d = func_8004389C(sp30.pos.y, *d, 0.5f, 0.2f); } sp60.x = 0.0f; sp60.z = 0.0f; sp60.y = sp48 + c; if (e != 0) { sp60.y -= func_80045714(&camera->unk_108, camera->unk_94.rot.y, b->theta, OREG(9)); } func_80043A3C(&sp60, &camera->unk_E4, camera->unk_CC.y, camera->unk_CC.x, 0.1f); sp54.x = camera->unk_E4.x + sp30.pos.x; sp54.y = camera->unk_E4.y + sp30.pos.y; sp54.z = camera->unk_E4.z + sp30.pos.z; func_80043A3C(&sp54, &camera->at, camera->unk_100, camera->unk_100, 0.2f); return 1; } void func_800468CC(Camera* camera, f32 b, f32 c, f32 d) { f32 sp1C; f32 phi_f12; if (b < c) { sp1C = c; phi_f12 = OREG(6); } else if (d < b) { sp1C = d; phi_f12 = OREG(6); } else { sp1C = b; phi_f12 = 1.0f; } camera->unk_C0.x = func_8004389C(phi_f12, camera->unk_C0.x, OREG(25) * 0.01f, 0.1f); func_8004389C(sp1C, camera->unk_DC, 1.f / camera->unk_C0.x, 0.2f); } void func_800469C0(Camera* camera, f32 b, f32 c, f32 d, s16 e) { f32 sp1C; f32 phi_f12; if (b < c) { sp1C = c; if (e != 0) { phi_f12 = OREG(6) * 0.5f; } else { phi_f12 = OREG(6); } } else if (d < b) { sp1C = d; if (e != 0) { phi_f12 = OREG(6) * 0.5f; } else { phi_f12 = OREG(6); } } else { sp1C = b; if (e != 0) { phi_f12 = OREG(6); } else { phi_f12 = 1.0f; } } camera->unk_C0.x = func_8004389C(phi_f12, camera->unk_C0.x, OREG(25) * 0.01f, 0.1f); func_8004389C(sp1C, camera->unk_DC, 1.f / camera->unk_C0.x, 0.2f); } #ifdef NON_MATCHING // lots of regalloc and stack issues, but that's it void func_80046B44(Camera* camera, s16 b, s16 c, s16 d) { s16 sp1C; s16 phi_v1; s16 phi_v0; f32 phi_a2; phi_v1 = ABS(b); if (d > 0) { phi_v0 = Math_Coss(d) * d; } else { phi_v0 = d; } sp1C = c - phi_v0; if (ABS(sp1C) < phi_v1) { phi_a2 = (1.0f / camera->unk_C0.y) * 3.0f; } else { phi_a2 = (1.0f / camera->unk_C0.y) * func_800437F0(0.8f, 1.0f - phi_v0 * (1.0f / OREG(5))); } func_8004391C(sp1C, b, phi_a2, 0xa); } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80046B44.s") #endif #ifdef NON_MATCHING // stack, regalloc, tiny bit of ordering s16 func_80046CB4(Camera* camera, s16 b, s16 c, f32 d, f32 e) { f32 sp34; s16 sp1C; f32 temp_ret; f32 phi_f14; s16 temp; if (camera->unk_D8 > 0.001f) { temp = b - 0x7fff; // this is probably some kind of cast that I'm too stupid to know sp1C = c - temp; phi_f14 = (s16)(sp1C - 0x7fff) * (1.0f / 32767.0f); } else { temp = b - 0x7fff; sp1C = c - temp; phi_f14 = OREG(48) * 0.01f; } temp_ret = func_800437F0(d, phi_f14); sp34 = ((1.0f - temp_ret) * e) + temp_ret; if (sp34 < 0.0f) { sp34 = 0.0f; } // ordering stuff here return (s16)((sp1C * sp34) * (1.0f / camera->unk_C0.z) * func_800437F0(0.5f, camera->unk_E0)) + b; } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80046CB4.s") #endif // 364 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80046E20.s") s32 func_80047394(Camera* camera) { return 1; } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800473A0.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80047F64.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80048804.s") s32 func_80048FCC(Camera* camera) { return func_80047394(camera); } s32 func_80048FEC(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004900C.s") s32 func_80049984(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800499A4.s") s32 func_80049A08(Camera* camera) { return func_80047394(camera); } s32 func_80049A28(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80049A48.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004A250.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004ACE0.s") s32 func_8004B560(Camera* camera) { return func_80047394(camera); } s32 func_8004B580(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004B5A0.s") s32 func_8004C5F4(Camera* camera) { return func_80047394(camera); } s32 func_8004C614(Camera* camera) { func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004C634.s") s32 func_8004CA4C(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004CA6C.s") s32 func_8004D9C4(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004D9E4.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004E460.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004F3A4.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004F6A4.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004F9D8.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8004FDE4.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80050068.s") s32 func_8005043C(Camera* camera) { return func_80047394(camera); } s32 func_8005045C(Camera* camera) { return func_80047394(camera); } s32 func_8005047C(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005049C.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80050B24.s") s32 func_800511A0(Camera* camera) { return func_80047394(camera); } s32 func_800511C0(Camera* camera) { return func_80047394(camera); } s32 func_800511E0(Camera* camera) { osSyncPrintf("chau!chau!\n"); return func_800473A0(camera); } s32 func_80051210(Camera* camera) { return func_80047394(camera); } s32 func_80051230(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80051250.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800515A4.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80051B3C.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80051F58.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80052460.s") s32 func_800529D8(Camera* camera) { return func_80047394(camera); } s32 func_800529F8(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80052A18.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80052B90.s") s32 func_80052DEC(Camera* camera) { return func_80047394(camera); } // Very long function (1,444 lines), 1 jtbl #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80052E0C.s") void Camera_DebugPrintSplineArray(char* name, s16 length, SplineData splines[]) { s32 i; osSyncPrintf("static SplinedatZ %s[] = {\n", name); for (i = 0; i < length; i++) { osSyncPrintf(" /* key frame %2d */ {\n", i); osSyncPrintf(" /* code */ %d,\n", splines[i].code); osSyncPrintf(" /* z */ %d,\n", splines[i].z); osSyncPrintf(" /* T */ %d,\n", splines[i].T); osSyncPrintf(" /* zoom */ %f,\n", splines[i].zoom); osSyncPrintf(" /* pos */ { %d, %d, %d }\n", splines[i].pos.x, splines[i].pos.y, splines[i].pos.z); osSyncPrintf(" },\n"); } osSyncPrintf("};\n\n"); } void Camera_Vec3fCopy(Vec3f* src, Vec3f* dst) { dst->x = src->x; dst->y = src->y; dst->z = src->z; } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80054478.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800544D0.s") s32 func_80054774(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80054794.s") s32 func_8005527C(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005529C.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80055C78.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80055F64.s") s32 func_80055F98(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80055FB8.s") s32 func_80056430(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80056450.s") s32 func_800565F4(Camera* camera) { return func_80047394(camera); } s32 func_80056614(Camera* camera) { return func_80051B3C(camera); } s32 func_80056634(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80056654.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800567F8.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80056C20.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80056F6C.s") s32 func_80057428(Camera* camera) { return func_80047394(camera); } #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80057448.s") Camera* func_80057B98(View* view, CollisionContext* colCtx, GlobalContext* globalCtx) { Camera* newCamera = ZeldaArena_MallocDebug(sizeof(*newCamera), "../z_camera.c", 9370); if (newCamera != NULL) { osSyncPrintf(VT_FGCOL(BLUE) "camera: create --- allocate %d byte" VT_RST "\n", sizeof(*newCamera) * 4); func_80057C6C(newCamera, view, colCtx, globalCtx); } else { osSyncPrintf(VT_COL(RED, WHITE) "camera: create: not enough memory\n" VT_RST); } return newCamera; } void func_80057C14(Camera* camera) { if (camera != NULL) { osSyncPrintf(VT_FGCOL(BLUE) "camera: destroy ---" VT_RST "\n"); ZeldaArena_FreeDebug(camera, "../z_camera.c", 9391); } else { osSyncPrintf(VT_COL(YELLOW, BLACK) "camera: destroy: already cleared\n" VT_RST); } } // 225 lines #ifdef NON_MATCHING s16 D_80119EE0[] = { 0xC471, 0xC000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0001, 0x0005, 0x0005, 0x0005, 0x38A4, 0x0014, 0x0010, 0x0096, 0x0019, 0x0096, 0x0006, 0x000A, 0x000A, 0x0000, 0x0000, 0x0001, 0x0064, 0x00FA, 0x0078, 0x0050, 0x001E, 0x0078, 0x0004, 0x0001, 0x0032, 0x0014, 0x0708, 0x0032, 0x0032, 0x0032, 0x0014, 0x0014, 0xFFF6, 0xEAAC, 0xDC74, 0xFFFA, 0x0008, 0x000F, 0x004B, 0x003C, 0x000C, 0x006E, 0x0028, 0x0032, 0x00FA, }; s16 D_80119F4C = 53; s16 D_80119F50[] = { 0xFFEC, 0x00C8, 0x012C, 0x000A, 0x000C, 0x000A, 0x0023, 0x003C, 0x003C, 0x0003, 0x0000, 0xFFD8, 0x0014, 0x0019, 0x002D, 0xFFFB, 0x000F, 0x000F, 0x0014, 0x0000, 0x0000, 0x0000, 0x0006, 0x003C, 0x001E, 0x0000, 0x0005, }; s16 D_80119F88 = 27; // gameInfoRegs init'd? s32 D_8011D390 = 0; // Number of times func_80057C6C has been called? used for the camera ID s16 D_8011D39C = 0; s32 D_8011D3A4 = 0x02; s32 D_8011D3A8 = 0x20; s16 D_8011D3A0 = 0; s32 D_8011D398 = -1; s32 D_8011D3F0 = 0; GlobalContext* D_8015BD7C; void* D_8015BD80; void func_800B958C(Camera* camera, void*); void func_80057C6C(Camera* camera, View* view, CollisionContext* colCtx, GlobalContext* globalCtx) { s32 temp_a1; s32 temp_a1_2; s32 temp_v1; s32 temp_v1_2; s16 temp_v1_3; Camera* temp_t8; void* phi_a0; s32 phi_v0; s32 phi_v1; void* phi_a0_2; s32 phi_v0_2; s32 phi_v1_2; s32 phi_a1; s16 phi_v1_3; s32 phi_v1_4; s16 phi_a1_2; func_80106860(camera, 0, sizeof(*camera)); if (D_8011D390 != 0) { for (phi_v1 = 0; phi_v1 < D_80119F4C; phi_v1++) { QREG(phi_v1) = D_80119EE0[phi_v1]; } for (phi_v1 = 0; phi_v1 < D_80119F88; phi_v1++) { YREG(phi_v1) = D_80119F50[phi_v1]; } func_800B958C(camera, &D_8015BD80); D_8011D390 = 0; PREG(88) = -1; } camera->globalCtx = D_8015BD7C = globalCtx; func_800B4D58(&D_8015BD80, camera); temp_a1 = (s32)(D_8011D39C << 0x10) >> 0x10; D_8011D39C++; phi_a1_2 = temp_a1; if (temp_a1 != 0) { phi_a1 = temp_a1; loop_11: if (phi_a1 == 0) { D_8011D39C = (s16)(D_8011D39C + 1); } phi_v1_3 = 0; loop_14: temp_t8 = camera->globalCtx->cameraPtrs[phi_v1_3]; if ((temp_t8 == 0) || (phi_v1_4 = phi_v1_3, (phi_a1 != temp_t8->uid))) { temp_v1_3 = phi_v1_3 + 1; phi_v1_3 = temp_v1_3; phi_v1_4 = temp_v1_3; if (temp_v1_3 < 4) { goto loop_14; } } phi_a1_2 = (s16)phi_a1; if (phi_v1_4 != 4) { temp_a1_2 = D_8011D39C; D_8011D39C++; phi_a1 = temp_a1_2; phi_a1_2 = temp_a1_2; if (temp_a1_2 != 0) { goto loop_11; } } } camera->unk_134.y = 0x3FFF; camera->unk_13A = camera->unk_134; camera->uid = phi_a1_2; camera->unk_C0.x = 10.0f; camera->unk_C0.z = 10.0f; camera->unk_68.y = 1.0f; camera->unk_68.x = 0.0f; camera->unk_68.z = 0.0f; camera->unk_FC = 60.0f; camera->unk_C0.y = OREG(7); camera->unk_CC.x = OREG(2) * 0.01f; camera->unk_CC.y = OREG(3) * 0.01f; camera->unk_CC.z = OREG(4) * 0.01f; D_8011D3A8 = 0x20; D_8011D3A4 = 0; camera->unk_14C = 0; camera->unk_154 = 0x21; camera->unk_166 = -1; camera->unk_144 = 0; camera->unk_146 = 0x32; camera->unk_168 = 0x7FFF; camera->unk_160 = -1; camera->unk_14C |= 0x4000; camera->unk_68.y = 1.0f; camera->unk_68.z = 0.0f; camera->unk_68.x = 0.0f; camera->unk_80.x = 0.0f; camera->unk_80.y = 0.0f; camera->unk_80.z = 0.0f; camera->unk_142 = camera->unk_154; camera->unk_148 = camera->unk_166; camera->unk_100 = 1.0f; D_8011D3A0 = 0xFF00; D_8011D398 = -1; D_8011D3F0 = 3; osSyncPrintf("\x1b[34mcamera: initialize --- \x1b[m UID %d\n", camera->uid); } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80057C6C.s") #endif s32 func_8005AD40(Camera* camera, s32 a, s16 b, f32 c, s16 d, s16 e, s16 f); void func_80057FC4(Camera* camera) { if (camera != &camera->globalCtx->cameras[0]) { camera->unk_154 = camera->unk_142 = 33; camera->unk_14C &= ~0x4; } else if (camera->globalCtx->roomCtx.curRoom.mesh->polygon.type != 1) { switch (camera->globalCtx->roomCtx.curRoom.unk_03) { case 1: func_8005AD40(camera, 0, -99, 0, 0, 18, 10); camera->unk_154 = camera->unk_142 = 3; break; case 0: osSyncPrintf("camera: room type: default set field\n"); func_8005AD40(camera, 0, -99, 0, 0, 18, 10); camera->unk_154 = camera->unk_142 = 1; break; default: osSyncPrintf("camera: room type: default set etc (%d)\n", camera->globalCtx->roomCtx.curRoom.unk_03); func_8005AD40(camera, 0, -99, 0, 0, 18, 10); camera->unk_154 = camera->unk_142 = 1; camera->unk_14C |= 4; break; } } else { osSyncPrintf("camera: room type: prerender\n"); camera->unk_154 = camera->unk_142 = 33; camera->unk_14C &= ~0x4; } } void Camera_Stub80058140(Camera* camera) { } // 135 lines (has lwl/lwr) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80058148.s") typedef struct { s16 val; s16 preg; } PRegSet; typedef struct { s16 unk_00; s16 unk_02; PRegSet* unk_04; } unk_D_8011D064_unk4; typedef struct { s32 unk_00; unk_D_8011D064_unk4* unk_04; } unk_D_8011D064; extern unk_D_8011D064 D_8011D064[]; // 109 lines (unknown arrays) #ifdef NON_MATCHING void Camera_ChangeStatus(Camera* camera, s16 status) { s32 temp_s1; unk_D_8011D064_unk4* temp_v0; s32 phi_a1; s32 phi_a2; s16 phi_v0; PRegSet* phi_s0; s32 phi_s1; if (PREG(82)) { phi_a1 = status == 7 ? 0x6F : 0x78; phi_a2 = camera->status != 7 ? 0x6F : 0x78; osSyncPrintf("camera: change camera status: cond %c%c\n", phi_a1, phi_a2); } if (PREG(82)) { osSyncPrintf("camera: res: stat (%d/%d/%d)\n", camera->unk_164, camera->unk_142, camera->unk_144); } if (status == 7 && camera->status != 7) { temp_v0 = &D_8011D064[camera->unk_142].unk_04[camera->unk_144]; if (temp_v0->unk_02 > 0) { phi_s0 = temp_v0->unk_04; phi_s1 = 0; loop_12: PREG(phi_s0->preg) = phi_s0->val; if (PREG(82) != 0) { osSyncPrintf("camera: change camera status: PREG(%02d) = %d\n", phi_s0->preg, phi_s0->val); } temp_s1 = phi_s1 + 1; phi_s0 = phi_s0 + 4; phi_s1 = temp_s1; if (temp_s1 < D_8011D064[camera->unk_142].unk_04[camera->unk_144].unk_02) { goto loop_12; } } } camera->status = status; } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/Camera_ChangeStatus.s") #endif // 261 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800584E8.s") // 296 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800588B4.s") s32 func_80058CF8(Camera* camera) { camera->unk_152 &= ~1; if (camera->globalCtx->roomCtx.curRoom.unk_02 == 3) { camera->unk_152 |= 1; } return 1; } // 92 lines (unknown arrays) extern s16 D_8011DAFC[]; extern char D_80119F8C[][12]; #if 0 char D_80119F8C[][12] = { "NONE ", "NORMAL0 ", "NORMAL1 ", "DUNGEON0 ", "DUNGEON1 ", "NORMAL3 ", "HORSE0 ", "BOSS_GOMA ", "BOSS_DODO ", "BOSS_BARI ", "BOSS_FGANON", "BOSS_BAL ", "BOSS_SHADES", "BOSS_MOFA ", "BOSS_TWIN0 ", "BOSS_TWIN1 ", "BOSS_GANON1", "BOSS_GANON2", "TOWER0 ", "TOWER1 ", "FIXED0 ", "FIXED1 ", "CIRCLE0 ", "CIRCLE2 ", "CIRCLE3 ", "PREREND0 ", "PREREND1 ", "PREREND3 ", "DOOR0 ", "DOORC ", "RAIL3 ", "START0 ", "START1 ", "FREE0 ", "FREE2 ", "CIRCLE4 ", "CIRCLE5 ", "DEMO0 ", "DEMO1 ", "MORI1 ", "ITEM0 ", "ITEM1 ", "DEMO3 ", "DEMO4 ", "UFOBEAN ", "LIFTBEAN ", "SCENE0 ", "SCENE1 ", "HIDAN1 ", "HIDAN2 ", "MORI2 ", "MORI3 ", "TAKO ", "SPOT05A ", "SPOT05B ", "HIDAN3 ", "ITEM2 ", "CIRCLE6 ", "NORMAL2 ", "FISHING ", "DEMOC ", "UO_FIBER ", "DUNGEON2 ", "TEPPEN ", "CIRCLE7 ", "NORMAL4 ", }; #endif extern GlobalContext* D_8015BD7C; extern s32 D_8011D398; s32 func_80058D34(Camera* camera) { s32 phi_a2 = 0; if (D_8011D394 == 0) { if (camera->globalCtx->activeCamera == 0) { if (~(D_8015BD7C->state.input[2].press.in.button | ~U_CBUTTONS) == 0) { osSyncPrintf("attention sound URGENCY\n"); func_80078884(NA_SE_SY_ATTENTION_URGENCY); } if (~(D_8015BD7C->state.input[2].press.in.button | ~D_CBUTTONS) == 0) { osSyncPrintf("attention sound NORMAL\n"); func_80078884(NA_SE_SY_ATTENTION_ON); } if (~(D_8015BD7C->state.input[2].press.in.button | ~R_CBUTTONS) == 0) { phi_a2 = 1; } if (~(D_8015BD7C->state.input[2].press.in.button | ~L_CBUTTONS) == 0) { phi_a2 = -1; } if (phi_a2 != 0) { D_8011D398 = (D_8011D398 + phi_a2) % 6; if (func_8005A77C(camera, D_8011DAFC[D_8011D398]) > 0) { osSyncPrintf("camera: force change SET to %s!\n", D_80119F8C[D_8011DAFC[D_8011D398]]); } } } } return 1; } // 224 lines #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_80058E8C.s") // Long function, 866 lines (lots of debug symbols) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_800591EC.s") void func_80059EC8(Camera* camera) { Camera* sp24 = camera->globalCtx->cameraPtrs[0]; Player* player = (Player*)camera->globalCtx->actorCtx.actorList[2].first; if (camera->unk_160 == 0) { Gameplay_ChangeCameraStatus(camera->globalCtx, camera->unk_162, 7); if ((camera->unk_162 == 0) && (camera->unk_168 != 0)) { player->actor.freeze = 0; player->stateFlags1 &= ~0x20000000; if (player->action != 0) { func_8002DF54(camera->globalCtx, &player->actor, 7); osSyncPrintf("camera: player demo end!!\n"); } sp24->unk_14C |= 8; } if (camera->globalCtx->cameraPtrs[camera->unk_14E]->unk_162 == camera->unk_164) { camera->globalCtx->cameraPtrs[camera->unk_14E]->unk_162 = camera->unk_162; } if (camera->globalCtx->cameraPtrs[camera->unk_162]->unk_14E == camera->unk_164) { camera->globalCtx->cameraPtrs[camera->unk_162]->unk_14E = camera->unk_14E; } if (camera->globalCtx->cameraPtrs[camera->unk_162]->unk_164 == 0) { camera->globalCtx->cameraPtrs[camera->unk_162]->unk_15E = 0; } camera->unk_162 = 0; camera->unk_14E = camera->unk_162; camera->unk_160 = -1; camera->globalCtx->envCtx.unk_E1 = 0; Gameplay_ClearCamera(camera->globalCtx, camera->unk_164); } } s32 func_8005A02C(Camera* camera) { camera->unk_14C |= 0xC; camera->unk_14C &= ~(0x1000 | 0x8); return 1; } // 275 lines (has 2 jtbls) #ifdef NON_MATCHING extern char D_8011A2A4[21][12]; extern char D_80119F8C[66][12]; extern s32 D_8011DB14; s32 func_8005A04C(Camera* camera, s16 type, u8 arg2) { s32 phi_v0; u32 temp_t8; s32 phi_at; if (QREG(89)) { osSyncPrintf("+=+(%d)+=+ recive request -> %s\n", camera->globalCtx->state.frames, D_8011A2A4[type]); } if ((camera->unk_14C & 0x20) && (arg2 == 0)) { camera->unk_14A |= 0x20; return -1; } else if (!((D_8011D064[camera->unk_142].unk_00 & 0x3FFFFFFF) & (1 << type))) { if (type == 6) { camera = camera; osSyncPrintf("camera: error sound\n", camera); func_80078884(NA_SE_SY_ERROR); } if (camera->unk_144 != 0) { osSyncPrintf("\x1b[43;30mcamera: change camera mode: force NORMAL: %s %s refused\n\x1b[m", D_80119F8C[camera->unk_142], D_8011A2A4[type]); camera->unk_144 = 0; func_80045128(camera, camera->unk_144); func_8005A02C(camera); phi_at = 0xC0000000; } else { camera->unk_14A = (s16)(camera->unk_14A | 0x20); camera->unk_14A = (s16)(camera->unk_14A | 2); return 0; } } else if ((type == camera->unk_144) && (arg2 == 0)) { camera->unk_14A |= 0x20; camera->unk_14A |= 2; return -1; } else { camera->unk_14A |= 0x20; camera->unk_14A |= 2; camera = camera; func_80045128(camera, type); temp_t8 = type - 1; phi_v0 = 0; switch (type) { default: break; case 5: // switch 1 phi_v0 = 0x20; break; case 3: // switch 1 phi_v0 = 4; break; case 1: // switch 1 phi_v0 = 0; if (camera->unk_A8 != NULL) { phi_v0 = 0; if (camera->unk_A8->x != 0x32) { phi_v0 = 8; } } break; case 0: // switch 1 case 2: // switch 1 case 7: // switch 1 case 14: // switch 1 case 18: // switch 1 phi_v0 = 2; break; } switch (camera->unk_144) { default: break; case 6: // switch 2 if ((phi_v0 & 0x20) != 0) { camera->unk_15E = (u16)0xAU; } break; case 1: // switch 2 if ((phi_v0 & 0x10) != 0) { camera->unk_15E = (u16)0xAU; } phi_v0 |= 1; break; case 17: // switch 2 phi_v0 |= 1; break; case 2: // switch 2 if ((phi_v0 & 8) != 0) { camera->unk_15E = (u16)0xAU; } phi_v0 |= 1; break; case 4: // switch 2 if ((phi_v0 & 4) != 0) { camera->unk_15E = (u16)0xAU; } phi_v0 |= 1; break; case 8: // switch 2 case 15: // switch 2 case 19: // switch 2 phi_v0 |= 1; break; case 0: // switch 2 if ((phi_v0 & 0x10) != 0) { camera->unk_15E = (u16)0xAU; } break; } phi_v0 &= ~0x10; D_8011DB14 = phi_v0; if (camera->status == 7) { switch (phi_v0) { case 1: func_80078884(NA_SE_PL_WALK_GROUND); break; case 2: if (1 == camera->globalCtx->roomCtx.curRoom.unk_03) { func_80078884(NA_SE_SY_ATTENTION_URGENCY); } else { func_80078884(NA_SE_SY_ATTENTION_ON); } break; case 4: func_80078884(NA_SE_SY_ATTENTION_URGENCY); break; case 8: func_80078884(NA_SE_SY_ATTENTION_ON); break; } } func_8005A02C(camera); camera->unk_144 = type; phi_at = 0x80000000; } return type | phi_at; } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A04C.s") #endif void func_8005A444(Camera* camera, s16 b) { func_8005A04C(camera, b, 0); } // 57 lines (unknown arrays) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A470.s") // 154 lines (unknown arrays) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A548.s") s32 func_8005A77C(Camera* camera, s16 b) { return func_8005A548(camera, b, 0); } // 79 lines (unknown arrays) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A7A8.s") // 47 lines (has lwl/lwr) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A8C4.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A948.s") // 80 lines (has lwl/lwr) #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A970.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005A9CC.s") #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005AA1C.s") #ifdef NON_MATCHING // Ordering s32 func_8005AA90(Camera* arg0, s32 arg1, Vec3f* arg2) { Vec3f sp4; if (arg2 != NULL) { switch (arg1) { case 1: arg0->unk_15C &= ~0x19; arg0->at = *arg2; break; case 16: arg0->unk_15C &= ~0x19; arg0->unk_AC = *arg2; break; case 8: if (arg0->unk_142 == 0x3C || arg0->unk_142 == 0x2B) { break; } arg0->unk_A8 = arg2; arg0->unk_15C &= ~0x19; break; case 2: sp4 = *arg2; arg0->eye = arg0->unk_74 = sp4; break; case 4: arg0->unk_68 = *arg2; break; case 32: arg0->unk_FC = arg2->x; break; case 0x40: arg0->unk_15A = arg2->x * (M_PI / 180.0f) + 0.5f; break; default: return 0; } arg0->unk_15C |= arg1; return 1; } return 0; } #else #pragma GLOBAL_ASM("asm/non_matchings/code/z_camera/func_8005AA90.s") #endif s32 func_8005AC48(Camera* camera, s16 b) { camera->unk_14C = b; return 1; } s32 func_8005AC60(Camera* camera) { camera->unk_15E = 0; return 1; } s32 func_8005AC6C(Camera* camera, s32 b, s32 c, Player* d, s16 e) { PosRot sp24; camera->unk_124 = b; camera->unk_128 = c; camera->unk_12C = e; if (camera->unk_12C != 0) { camera->player = d; func_8002EF44(&sp24, &d->actor); camera->unk_94 = sp24; camera->unk_156 = -1; camera->unk_D8 = 0.0f; camera->unk_E0 = 0.0f; } return 1; } s16 func_8005ACFC(Camera* camera, s16 b) { camera->unk_14C |= b; return camera->unk_14C; } s16 func_8005AD1C(Camera* camera, s16 b) { camera->unk_14C &= ~b; return camera->unk_14C; } s32 func_8005AD40(Camera* camera, s32 a, s16 b, f32 c, s16 d, s16 e, s16 f) { if ((camera->unk_142 == 43) || (camera->unk_142 == 29)) { return 0; } camera->unk_00 = a; camera->unk_06 = d; camera->unk_08 = e; camera->unk_0A = f; camera->unk_04 = b; if (b == -99) { func_80045128(camera, camera->unk_144); return -99; } if (b == -1) { func_8005A77C(camera, 29); osSyncPrintf(".... change default door camera (set %d)\n", 29); } else { s32 ret = func_80044740(camera, b); camera->unk_14A |= 0x40; if (func_8005A77C(camera, ret) >= 0) { camera->unk_148 = b; camera->unk_14A |= 4; } // this is likely important for labelling unk_148 and unk_142 osSyncPrintf("....change door camera ID %d (set %d)\n", camera->unk_148, camera->unk_142); } func_80045128(camera, camera->unk_144); return -1; } s32 func_8005AE64(Camera* camera, Camera* otherCamera) { s32 unused; Vec3f sp30; camera->unk_E4.x = 0.0f; camera->unk_E4.y = 0.0f; camera->unk_E4.z = 0.0f; camera->unk_100 = 0.1f; camera->at = otherCamera->at; sp30 = otherCamera->eye; camera->unk_74 = sp30; camera->eye = sp30; camera->unk_DC = func_8007BF90(&camera->at, &camera->eye); camera->unk_FC = otherCamera->unk_FC; camera->unk_15A = otherCamera->unk_15A; func_80043B60(camera); if (camera->player != NULL) { func_8002EF14(&camera->unk_94, &camera->player->actor); camera->unk_E4.x = camera->at.x - camera->unk_94.pos.x; camera->unk_E4.y = camera->at.y - camera->unk_94.pos.y; camera->unk_E4.z = camera->at.z - camera->unk_94.pos.z; camera->unk_DC = func_8007BF90(&camera->unk_94.pos, &camera->eye); camera->unk_CC.x = 1.0f; camera->unk_CC.y = 1.0f; } return 1; } s32 func_8005AFA8() { return D_8011D394; } Vec3f* func_8005AFB4(Vec3f* dst, Camera* camera) { *dst = camera->unk_80; return dst; } // Unused void Camera_SetCameraData(Camera* camera, s16 b, s32 c, s32 d, s16 e, s16 f) { if (b & 0x1) { camera->unk_124 = c; } if (b & 0x2) { camera->unk_128 = d; } if (b & 0x4) { camera->unk_12C = e; } if (b & 0x8) { camera->unk_12E = f; } if (b & 0x10) { osSyncPrintf(VT_COL(RED, WHITE) "camera: setCameraData: last argument not alive!\n" VT_RST, b); } } s32 func_8005B044() { if (QREG(0) == 0) { QREG(2) = 1; QREG(10) = -1; QREG(11) = 100; QREG(12) = 80; QREG(20) = 90; QREG(21) = 10; QREG(22) = 10; QREG(23) = 50; QREG(24) = 6000; QREG(25) = 240; QREG(26) = 40; QREG(27) = 85; QREG(28) = 55; QREG(29) = 87; QREG(30) = 23; QREG(31) = 20; QREG(32) = 4; QREG(33) = 5; QREG(50) = 1; QREG(51) = 20; QREG(52) = 200; QREG(53) = 1; QREG(54) = 15; QREG(55) = 60; QREG(56) = 15; QREG(57) = 30; QREG(58) = 0; } QREG(65) = 50; return 1; } s32 func_8005B198() { return D_8011D3AC; } s16 func_8005B1A4(Camera* camera) { camera->unk_14C |= 0x8; if ((camera->unk_164 == 0) && (camera->globalCtx->activeCamera != 0)) { camera->globalCtx->cameraPtrs[camera->globalCtx->activeCamera]->unk_14C |= 0x8; return camera->globalCtx->activeCamera; } return camera->unk_164; }