#include "game/audio.h" #include "game/chrman.h" #include "game/data.h" #include "game/esprite.h" #include "game/gamework_data.h" #include "game/hsfdraw.h" #include "game/hsfman.h" #include "game/hsfmotion.h" #include "game/memory.h" #include "game/minigame_seq.h" #include "game/object.h" #include "game/objsub.h" #include "game/pad.h" #include "game/process.h" #include "game/sprite.h" #include "game/wipe.h" #include "ext_math.h" #ifndef __MWERKS__ #include "game/frand.h" #endif #define frand7() (frand() & 0x7F) SHARED_SYM extern u32 GlobalCounter; typedef struct { /* 0x00 */ s32 unk00; /* 0x04 */ s32 unk04; /* 0x08 */ s32 unk08; /* 0x0C */ s32 unk0C; /* 0x10 */ void *unk10; } StructBssD0Data; // Size 0x14 typedef struct { /* 0x00 */ Vec unk00; /* 0x0C */ Vec unk0C; /* 0x18 */ float unk18; } StructData0; // Size 0x1C typedef struct { /* 0x00 */ StructBssD0Data *unk00; /* 0x04 */ AnimData *unk04; } StructM423_00; // Size 8 typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ s16 unk04; /* 0x06 */ s16 unk06; /* 0x08 */ Vec unk08; } StructM423_01; // Size 0x14 typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ s16 unk04; /* 0x06 */ char unk06[2]; /* 0x08 */ Vec unk08; /* 0x14 */ Vec *unk14; /* 0x18 */ Vec *unk18; /* 0x1C */ GXColor *unk1C; /* 0x20 */ StructM423_01 *unk20; /* 0x24 */ float unk24[4]; /* 0x34 */ u32 unk34; /* 0x38 */ void *unk38; } StructM423_02; // Size 0x3C typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ StructM423_02 *unk04; } StructM423_03; // Size 8 typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ Vec unk04; /* 0x10 */ char unk10[8]; /* 0x18 */ float unk18; /* 0x1C */ char unk1C[0xC]; /* 0x28 */ float unk28; /* 0x2C */ float unk2C; /* 0x30 */ float unk30; /* 0x34 */ float unk34; /* 0x38 */ Vec unk38; /* 0x44 */ GXColor unk44; /* 0x48 */ s32 unk48; } StructM423_04; // Size 0x4C typedef struct struct_m423_05 { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x00 */ char unk04[0x1C]; /* 0x20 */ u8 unk20; /* 0x21 */ u8 unk21; /* 0x22 */ u8 unk22; /* 0x23 */ s8 unk23; /* 0x24 */ char unk24[2]; /* 0x26 */ s16 unk26; /* 0x28 */ s32 unk28; /* 0x2C */ s32 unk2C; /* 0x30 */ u32 unk30; /* 0x34 */ s32 unk34; /* 0x38 */ AnimData *unk38; /* 0x3C */ StructM423_04 *unk3C; /* 0x40 */ Vec *unk40; /* 0x44 */ float (*unk44)[2]; /* 0x48 */ void *unk48; /* 0x4C */ void *unk4C; /* 0x50 */ ModelData *unk50; } StructM423_05; // Size 0x54 typedef struct { /* 0x00 */ float unk00; /* 0x04 */ float unk04; /* 0x08 */ char unk08[4]; /* 0x0C */ float unk0C; /* 0x10 */ float unk10; /* 0x14 */ char unk14[4]; /* 0x18 */ float unk18; /* 0x1C */ float unk1C; /* 0x20 */ char unk20[4]; /* 0x24 */ float unk24; /* 0x28 */ float unk28; /* 0x2C */ char unk2C[4]; /* 0x30 */ float unk30; /* 0x34 */ float unk34; /* 0x38 */ char unk38[4]; } StructM423_08; // Size 0x3C typedef struct { /* 0x00 */ float unk00; /* 0x04 */ float unk04; /* 0x08 */ float unk08; /* 0x0C */ float unk0C; /* 0x10 */ float unk10; /* 0x14 */ float unk14; /* 0x18 */ float unk18; /* 0x1C */ float unk1C; /* 0x20 */ float unk20; /* 0x24 */ float unk24; } StructM423_09; // Size 0x28 typedef struct { /* 0x000 */ u16 unk00; /* 0x002 */ u16 unk02; /* 0x004 */ float unk04; /* 0x008 */ float unk08; /* 0x00C */ float unk0C; /* 0x010 */ float unk10; /* 0x014 */ Vec unk14; } StructM423_0A; // Size 0x20 typedef struct { /* 0x000 */ StructM423_0A unk00[16]; /* 0x200 */ AnimData *unk200; /* 0x204 */ s32 unk204; /* 0x208 */ void *unk208; /* 0x20C */ StructM423_08 *unk20C; /* 0x210 */ StructM423_09 *unk210; /* 0x214 */ GXColor *unk214; /* 0x218 */ s32 unk218; /* 0x21C */ s32 unk21C; /* 0x220 */ void *unk220; } StructM423_0B; // Size 0x224 typedef struct { /* 0x000 */ s32 unk00; /* 0x004 */ s32 unk04; /* 0x008 */ s32 unk08; /* 0x00C */ s32 unk0C; /* 0x010 */ s32 unk10[24]; /* 0x070 */ s32 unk70[24][3]; /* 0x190 */ s16 unk190[10][2]; } StructM423_0C; // Size 0x1B8 typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ s16 unk04; /* 0x06 */ s16 unk06; /* 0x08 */ s16 unk08; /* 0x0A */ s16 unk0A; /* 0x0C */ s16 unk0C; /* 0x0E */ s16 unk0E; /* 0x10 */ s16 unk10; /* 0x12 */ s16 unk12; /* 0x14 */ s32 unk14; /* 0x18 */ s32 unk18; /* 0x1C */ s32 unk1C; /* 0x20 */ Vec unk20; /* 0x2C */ Vec unk2C; /* 0x38 */ Vec unk38; /* 0x44 */ float unk44; /* 0x48 */ float unk48; /* 0x4C */ float unk4C; /* 0x50 */ Vec unk50; /* 0x5C */ Vec unk5C; /* 0x68 */ Vec unk68; /* 0x74 */ Vec unk74; /* 0x80 */ Vec unk80; /* 0x8C */ float unk8C; /* 0x90 */ float unk90; } StructBssA8Data; // Size 0x94 typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ s16 unk04; /* 0x06 */ s16 unk06; /* 0x08 */ s16 unk08; /* 0x0A */ s16 unk0A; } StructBssCCData; // Size 0xC typedef struct { /* 0x00 */ s16 unk00; /* 0x02 */ s16 unk02; /* 0x04 */ s16 unk04; /* 0x06 */ s16 unk06; /* 0x08 */ s16 unk08; /* 0x0A */ s16 unk0A; /* 0x0C */ s16 unk0C; /* 0x0E */ s16 unk0E; /* 0x10 */ s16 unk10; /* 0x12 */ s16 unk12; /* 0x14 */ s16 unk14; /* 0x16 */ s16 unk16; /* 0x18 */ s16 unk18; /* 0x1A */ char unk1A[2]; /* 0x1C */ float unk1C[15]; /* 0x58 */ s32 unk58; /* 0x5C */ s32 unk5C; /* 0x60 */ float unk60; /* 0x64 */ s32 unk64; /* 0x68 */ s32 unk68; /* 0x6C */ s32 unk6C; /* 0x70 */ s32 unk70; /* 0x74 */ s32 unk74; /* 0x78 */ float unk78; /* 0x7C */ float unk7C; /* 0x80 */ s32 unk80; /* 0x84 */ s32 unk84; /* 0x88 */ float unk88; /* 0x8C */ float unk8C; /* 0x90 */ s32 unk90; /* 0x94 */ s32 unk94; /* 0x98 */ s32 unk98; /* 0x9C */ s32 unk9C; /* 0xA0 */ s32 unkA0; /* 0xA4 */ s32 unkA4; /* 0xA8 */ float unkA8; /* 0xAC */ s32 unkAC; /* 0xB0 */ float unkB0; /* 0xB4 */ float unkB4; /* 0xB8 */ float unkB8; /* 0xBC */ float unkBC; /* 0xC0 */ float unkC0; /* 0xC4 */ float unkC4; /* 0xC8 */ Vec unkC8; /* 0xD4 */ Vec unkD4; /* 0xE0 */ float unkE0; /* 0xE4 */ float unkE4; /* 0xE8 */ float unkE8; /* 0xEC */ float unkEC; /* 0xF0 */ float unkF0; /* 0xF4 */ float unkF4; } StructBssBCData; // Size 0xF8 typedef struct { /* 0x000 */ s16 unk00; /* 0x002 */ s16 unk02; /* 0x004 */ Vec unk04; /* 0x010 */ Vec unk10; /* 0x004 */ char unk1C[0xC]; /* 0x028 */ float unk28; /* 0x02C */ float unk2C; /* 0x030 */ float unk30; /* 0x034 */ float unk34; /* 0x038 */ char unk38[4]; /* 0x03C */ float unk3C; /* 0x040 */ s32 unk40; /* 0x044 */ float unk44[12][4]; /* 0x104 */ Vec unk104[12][3]; } StructBss94Data; // Size 0x2B4 typedef struct { /* 0x00 */ s32 unk00; /* 0x04 */ s32 unk04; /* 0x08 */ AnimData *unk08; } StructBssA4Data; // Size 0xC void fn_1_318(omObjData *arg0); void fn_1_3B0(omObjData *arg0); void fn_1_DFC(omObjData *arg0); void fn_1_E60(omObjData *arg0); void fn_1_F10(void); void fn_1_F60(omObjData *arg0); void fn_1_11A4(omObjData *arg0); void fn_1_1238(void); void fn_1_12A0(ModelData *arg0, Mtx arg1); s32 fn_1_13A0(StructBssD0Data *arg0); void fn_1_1444(s32 arg0); void fn_1_14A0(ModelData *arg0, Mtx arg1); s32 fn_1_18FC(void); void fn_1_1B5C(ModelData *arg0, StructM423_02 *arg1); void fn_1_1F5C(ModelData *arg0, StructM423_02 *arg1); void fn_1_2290(ModelData *arg0, StructM423_02 *arg1); void fn_1_2624(ModelData *arg0, StructM423_02 *arg1); void fn_1_29B8(s32 arg0); void fn_1_29BC(ModelData *arg0, Mtx arg1); void fn_1_2C08(s32 arg0); void fn_1_34D8(void); void fn_1_3528(omObjData *arg0); void fn_1_3898(omObjData *arg0); void fn_1_3A64(void); void fn_1_3A8C(void); void fn_1_3BFC(void); void fn_1_3FE0(omObjData *arg0); void fn_1_4778(omObjData *arg0); void fn_1_5D18(omObjData *arg0); void fn_1_77D0(void); s32 fn_1_781C(void); s32 fn_1_791C(void); void fn_1_7AA8(s32 arg0); void fn_1_82C8(s32 arg0, s32 arg1, s32 arg2); void fn_1_8338(omObjData *arg0); void fn_1_8CB4(omObjData *arg0); void fn_1_95C4(void); void fn_1_9614(omObjData *arg0); void fn_1_98A0(omObjData *arg0); void fn_1_A9AC(void); s32 fn_1_A9D4(s32 arg0, Vec arg1, Vec arg2); void fn_1_AC0C(s32 arg0, Vec arg1); void fn_1_AC80(s32 arg0, Vec arg1); s32 fn_1_AE64(s32 arg0); void fn_1_AEE8(s32 arg0); StructBssA8Data *fn_1_B13C(s32 arg0); void fn_1_B1A4(void); s32 fn_1_B304(StructBssA8Data **arg0); void fn_1_B430(void); void fn_1_BCD8(Vec *arg0, Vec *arg1, Vec *arg2, float arg3, s32 arg4, s32 arg5); s32 fn_1_C498(Vec *arg0, Vec *arg1, Vec *arg2, Vec *arg3, float arg4, s32 arg5); void fn_1_D930(void); void fn_1_DA38(omObjData *arg0); void fn_1_DBC8(void); s32 fn_1_DC24(Vec arg0, Vec arg1, float arg2, float arg3, float arg4, GXColor arg5); s32 fn_1_DD70(Vec arg0, Vec arg1, float arg2, float arg3, float arg4, float arg5, GXColor arg6); void fn_1_E1BC(void); void fn_1_E290(omObjData *arg0); void fn_1_E330(void); s32 fn_1_E334(Vec arg0, Vec arg1, float arg2); void fn_1_E460(void); void fn_1_E4EC(omObjData *arg0); void fn_1_E60C(void); s32 fn_1_E678(void); void fn_1_EF44(ModelData *arg0, Mtx arg1); s32 fn_1_F574(Vec arg0, float arg1, s32 arg2); void fn_1_F690(void); void fn_1_F6E0(omObjData *arg0); void fn_1_FA40(omObjData *arg0); void fn_1_FF98(void); void fn_1_10028(s32 arg0); void fn_1_100DC(void); void fn_1_10480(omObjData *arg0); void fn_1_10540(s32 arg0, s32 arg1, s32 arg2, float arg3); void fn_1_106D8(s32 arg0); void fn_1_10BC8(void); void fn_1_11008(StructBssD0Data *arg0, void *arg1, s16 arg2, GXTexWrapMode arg3, s32 arg4, s32 arg5); s16 fn_1_11114(AnimData *arg0, s16 arg1); void fn_1_11900(ModelData *arg0, Mtx arg1); float fn_1_121DC(float arg0, float arg1); float fn_1_122F4(float arg0, float arg1, float arg2); float fn_1_12544(float arg0, float arg1, float arg2); void fn_1_1293C(Mtx arg0, Vec *arg1); s32 fn_1_12C6C(Vec *arg0, Vec *arg1, float *arg2); float fn_1_12E68(Vec *arg0, Vec *arg1, s32 arg2); void fn_1_129F0(Vec *arg0, Vec *arg1, Vec *arg2, float *arg3); void fn_1_1334C(float *arg0, Vec *arg1, Vec *arg2, Vec *arg3, Vec *arg4); float fn_1_1367C(Vec *arg0, Vec *arg1, Vec *arg2, Vec *arg3, float *arg4); s32 fn_1_137C4(Vec *arg0, Vec *arg1, Vec *arg2, Vec *arg3, float arg4, s32 arg5); Process *lbl_1_bss_120; s32 lbl_1_bss_11C; s32 lbl_1_bss_118; s32 lbl_1_bss_114; s32 lbl_1_bss_110; s32 lbl_1_bss_10C; // unused s32 lbl_1_bss_108; s32 lbl_1_bss_104; s32 lbl_1_bss_100; s32 lbl_1_bss_FC; s32 lbl_1_bss_EC[4]; s32 lbl_1_bss_DC[4]; s32 lbl_1_bss_D8; omObjData *lbl_1_bss_D4; omObjData *lbl_1_bss_D0; omObjData *lbl_1_bss_CC; omObjData *lbl_1_bss_BC[4]; omObjData *lbl_1_bss_B8; omObjData *lbl_1_bss_AC[3]; omObjData *lbl_1_bss_A8; omObjData *lbl_1_bss_A4; omObjData *lbl_1_bss_A0; omObjData *lbl_1_bss_9C; omObjData *lbl_1_bss_98; StructBss94Data *lbl_1_bss_94; s32 lbl_1_bss_90; omObjData *lbl_1_bss_8C; s32 lbl_1_bss_88; s32 lbl_1_bss_84; s32 lbl_1_bss_80; s32 lbl_1_bss_7C; StructBssA8Data *lbl_1_bss_40[15]; StructBssA8Data *lbl_1_bss_4[15]; s32 lbl_1_bss_0; StructData0 lbl_1_data_0[] = { { { 342.45f, 0.0f, 0.0f }, { 0.0f, 275.0f, 128.0f }, 550.0f }, { { 6.0f, 0.0f, 0.0f }, { 0.0f, 190.0f, 0.0f }, 550.0f } }; StructData0 lbl_1_data_38[] = { { { 22.0f, 180.0f, 0.0f }, { -250.0f, 120.00001f, 0.0f }, 160.0f }, { { 22.0f, 180.0f, 0.0f }, { 0.0f, 120.00001f, 0.0f }, 160.0f }, { { 22.0f, 180.0f, 0.0f }, { 250.0f, 120.00001f, 0.0f }, 160.0f }, { { -45.0f, 180.0f, 0.0f }, { -250.0f, 75.0f, 0.0f }, 180.0f }, { { -45.0f, 180.0f, 0.0f }, { 0.0f, 75.0f, 0.0f }, 180.0f }, { { -45.0f, 180.0f, 0.0f }, { 250.0f, 75.0f, 0.0f }, 180.0f }, { { -45.0f, 0.0f, 0.0f }, { -250.0f, 95.0f, 0.0f }, 150.0f }, { { -45.0f, 0.0f, 0.0f }, { 0.0f, 95.0f, 0.0f }, 150.0f }, { { -45.0f, 0.0f, 0.0f }, { 250.0f, 95.0f, 0.0f }, 150.0f }, { { -45.0f, 0.0f, 0.0f }, { 0.0f, 95.0f, -850.0f }, 150.0f } }; Vec lbl_1_data_150[] = { 0.0f, 0.0f, -850.0f, -250.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 250.0f, 0.0f, 0.0f }; Vec lbl_1_data_180[] = { 0.0f, 0.0f, -850.0f, 850.0f, 0.0f, 0.0f, 1200.0f, 0.0f, 0.0f, 1650.0f, 0.0f, 0.0f }; Vec lbl_1_data_1B0[] = { { -250.0f, 45.0f, 500.0f }, { 0.0f, 45.0f, 500.0f }, { 250.0f, 45.0f, 500.0f } }; Vec lbl_1_data_1D4 = { 1000.0f, 2000.0f, 1000.0f }; Vec lbl_1_data_1E0 = { 0.0f, 1.0f, 0.0f }; Vec lbl_1_data_1EC = { 0.0f, 0.0f, -450.0f }; void ObjectSetup(void) { Process *var_r30; CameraData *var_r29; s32 i; OSReport("******* M426ObjectSetup *********\n"); var_r30 = omInitObjMan(50, 0x2000); lbl_1_bss_120 = var_r30; omGameSysInit(var_r30); fn_1_100DC(); Hu3DLightAllKill(); Hu3DLighInit(); HuAudSndGrpSet(0x30); lbl_1_bss_D4 = omAddObjEx(var_r30, 0xFF, 2, 0, -1, fn_1_318); lbl_1_bss_11C = lbl_1_bss_118 = -1; lbl_1_bss_D0 = NULL; lbl_1_bss_CC = NULL; lbl_1_bss_A8 = NULL; lbl_1_bss_B8 = NULL; lbl_1_bss_AC[0] = lbl_1_bss_AC[1] = lbl_1_bss_AC[2] = NULL; lbl_1_bss_114 = 0; lbl_1_bss_110 = 0; lbl_1_bss_108 = 0; lbl_1_bss_104 = 10; lbl_1_bss_100 = -1; lbl_1_bss_FC = 0; lbl_1_bss_90 = -1; lbl_1_bss_D8 = -1; for (i = 0; i < 4; i++) { lbl_1_bss_DC[i] = 0; lbl_1_bss_EC[i] = -1; } Hu3DShadowCreate(30.0f, 1000.0f, 250000.0f); Hu3DShadowTPLvlSet(0.5f); Hu3DShadowPosSet(&lbl_1_data_1D4, &lbl_1_data_1E0, &lbl_1_data_1EC); for (i = 0; i < 3; i++) { var_r29 = &Hu3DCamera[i]; var_r29->fov = -1.0f; } } Vec lbl_1_data_21C = { 0.0f, 0.0f, 0.0f }; Vec lbl_1_data_228 = { -1.0f, -2.0f, -1.0f }; GXColor lbl_1_data_234 = { 0xFF, 0xFF, 0xFF, 0xFF }; void fn_1_318(omObjData *arg0) { s32 var_r31; var_r31 = Hu3DGLightCreateV(&lbl_1_data_21C, &lbl_1_data_228, &lbl_1_data_234); Hu3DGLightStaticSet(var_r31, 1); Hu3DGLightInfinitytSet(var_r31); fn_1_F10(); fn_1_34D8(); fn_1_3BFC(); fn_1_95C4(); fn_1_D930(); fn_1_E1BC(); fn_1_E460(); fn_1_F690(); HuAudFXPlay(0x618); arg0->func = fn_1_3B0; } s32 lbl_1_data_238[] = { 0, 4, 2, 3, 1, 5 }; s32 lbl_1_data_250[] = { 186, 186, 186, 240, 240, 240 }; void fn_1_3B0(omObjData *arg0) { CameraData *var_r28; float var_f31; s32 temp_r27; s32 var_r30; s32 var_r29; s32 i; switch (lbl_1_bss_114) { case 0: fn_1_10540(2, 1, 1, 0.0f); if (++lbl_1_bss_110 > 3) { for (i = 0; i < 3; i++) { var_r28 = &Hu3DCamera[i]; var_r28->fov = 45.0f; } WipeCreate(WIPE_MODE_IN, WIPE_TYPE_NORMAL, 60); lbl_1_bss_114 = 1; lbl_1_bss_110 = 0; } break; case 1: fn_1_10540(2, 1, 1, 0.0f); if (WipeStatGet() == 0) { lbl_1_bss_114 = 2; lbl_1_bss_110 = 0; } break; case 2: if (++lbl_1_bss_110 >= 30.0f) { lbl_1_bss_114 = 3; lbl_1_bss_110 = 0; } break; case 3: var_f31 = lbl_1_bss_110 / 90.0f; if (var_f31 > 1.0f) { var_f31 = 1.0f; } var_f31 = sind(90.0f * var_f31); var_f31 *= var_f31; fn_1_10540(2, 1, 0, var_f31); if (++lbl_1_bss_110 >= 90.0f) { lbl_1_bss_114 = 4; lbl_1_bss_110 = 0; } break; case 4: if (fn_1_781C() != 0) { lbl_1_bss_11C = MGSeqStartCreate(); lbl_1_bss_114 = 5; lbl_1_bss_110 = 0; } break; case 5: if (lbl_1_bss_11C != -1) { var_r30 = MGSeqStatGet(lbl_1_bss_11C); if ((var_r30 & 0x10) && lbl_1_bss_D8 == -1) { lbl_1_bss_D8 = HuAudSeqPlay(0x46); } } else { var_r30 = 0; } if (lbl_1_bss_11C == -1 || var_r30 == 0) { lbl_1_bss_11C = -1; lbl_1_bss_114 = 6; lbl_1_bss_110 = 0; lbl_1_bss_108 = 1800; fn_1_10028(1); lbl_1_bss_118 = MGSeqTimerCreate(lbl_1_bss_108 / 60); } break; case 6: temp_r27 = lbl_1_data_238[lbl_1_bss_0]; fn_1_106D8(temp_r27); if (lbl_1_bss_80 >= lbl_1_data_250[temp_r27] && ++lbl_1_bss_0 > 5) { lbl_1_bss_0 = 0; } var_r29 = (lbl_1_bss_108 + 59) / 60; if (var_r29 < 0) { var_r29 = 0; } MGSeqParamSet(lbl_1_bss_118, 1, var_r29); if (--lbl_1_bss_108 < -1 || lbl_1_bss_104 <= 0) { MGSeqParamSet(lbl_1_bss_118, 2, -1); lbl_1_bss_118 = -1; fn_1_B1A4(); if (lbl_1_bss_D8 != -1) { HuAudSeqFadeOut(lbl_1_bss_D8, 100); } lbl_1_bss_11C = MGSeqFinishCreate(); lbl_1_bss_114 = 7; lbl_1_bss_110 = 0; } break; case 7: if (fn_1_791C() != 0 && (lbl_1_bss_11C == -1 || MGSeqStatGet(lbl_1_bss_11C) == 0)) { lbl_1_bss_114 = 9; lbl_1_bss_110 = 0; } break; case 9: if (lbl_1_bss_104 <= 0) { lbl_1_bss_11C = MGSeqWinCreate(lbl_1_bss_EC[0], lbl_1_bss_EC[1], lbl_1_bss_EC[2], -1); fn_1_7AA8(1); for (i = 0; i < 4; i++) { if (lbl_1_bss_EC[3] != GWPlayerCfg[i].character) { GWPlayerCoinWinAdd(i, 10); } } if (lbl_1_bss_DC[0] > lbl_1_bss_DC[1] && lbl_1_bss_DC[0] > lbl_1_bss_DC[2]) { i = 0; } else if (lbl_1_bss_DC[1] > lbl_1_bss_DC[0] && lbl_1_bss_DC[1] > lbl_1_bss_DC[2]) { i = 1; } else if (lbl_1_bss_DC[2] > lbl_1_bss_DC[0] && lbl_1_bss_DC[2] > lbl_1_bss_DC[1]) { i = 2; } else { i = frand() & 3; if (i > 2) { i = 2; } else if (i < 0) { i = 0; } } fn_1_106D8(i + 6); lbl_1_bss_114 = 10; lbl_1_bss_108 = 0; } else { lbl_1_bss_11C = MGSeqWinCreate(lbl_1_bss_EC[3], -1, -1, -1); fn_1_7AA8(0); for (i = 0; i < 4; i++) { if (lbl_1_bss_EC[3] == GWPlayerCfg[i].character) { GWPlayerCoinWinAdd(i, 10); } } fn_1_106D8(9); lbl_1_bss_114 = 10; lbl_1_bss_108 = 0; } HuAudSStreamPlay(1); HuAudFXPlay(0x618); break; case 10: fn_1_3A8C(); if (++lbl_1_bss_108 >= 210.0f) { lbl_1_bss_11C = -1; lbl_1_bss_114 = 11; lbl_1_bss_108 = 0; } break; case 11: WipeCreate(WIPE_MODE_OUT, WIPE_TYPE_NORMAL, 60); arg0->func = fn_1_DFC; break; } fn_1_E60(arg0); } void fn_1_DFC(omObjData *arg0) { if (WipeStatGet() == 0) { fn_1_1238(); fn_1_3A64(); fn_1_77D0(); fn_1_A9AC(); fn_1_DBC8(); fn_1_E330(); fn_1_E60C(); fn_1_FF98(); MGSeqKillAll(); HuAudFadeOut(1); omOvlReturnEx(1, 1); } } void fn_1_E60(omObjData *arg0) { s32 var_r30; var_r30 = 0; if (WipeStatGet() != 0 || arg0->func == fn_1_DFC) { return; } if (omSysExitReq != 0) { var_r30 = 1; } if (var_r30 != 0) { WipeCreate(WIPE_MODE_OUT, WIPE_TYPE_NORMAL, 60); HuAudStreamFadeOut(30); arg0->func = fn_1_DFC; } } s32 fn_1_F00(void) { return lbl_1_bss_114; } void fn_1_F10(void) { lbl_1_bss_D0 = omAddObjEx(lbl_1_bss_120, 0x7F, 8, 0, -1, fn_1_F60); } void fn_1_F60(omObjData *arg0) { StructBssD0Data *temp_r30; ModelData *temp_r29; temp_r30 = arg0->data = HuMemDirectMallocNum(HEAP_SYSTEM, sizeof(*temp_r30), MEMORY_DEFAULT_NUM); memset(temp_r30, 0, sizeof(*temp_r30)); arg0->model[0] = Hu3DModelCreateFile(DATA_MAKE_NUM(DATADIR_M423, 0)); Hu3DModelCameraSet(arg0->model[0], 5); Hu3DModelShadowMapSet(arg0->model[0]); arg0->model[1] = Hu3DModelCreateFile(DATA_MAKE_NUM(DATADIR_M423, 1)); Hu3DModelCameraSet(arg0->model[1], 5); arg0->model[2] = Hu3DModelCreateFile(DATA_MAKE_NUM(DATADIR_M423, 2)); Hu3DModelScaleSet(arg0->model[2], 1.125f, 1.0f, 1.0f); Hu3DModelCameraSet(arg0->model[2], 5); Hu3DModelShadowSet(arg0->model[2]); arg0->model[3] = Hu3DHookFuncCreate(fn_1_12A0); Hu3DModelCameraSet(arg0->model[3], 2); temp_r29 = &Hu3DData[arg0->model[3]]; temp_r29->unk_120 = temp_r30; temp_r30->unk00 = 160; temp_r30->unk04 = 160; temp_r30->unk08 = GXGetTexBufferSize(temp_r30->unk00, temp_r30->unk04, 5, 0, 0); temp_r30->unk10 = HuMemDirectMallocNum(HEAP_DATA, temp_r30->unk08, (u32)temp_r29->unk_48); temp_r30->unk0C = 0.0f; arg0->model[4] = fn_1_13A0(temp_r30); Hu3DModelCameraSet(arg0->model[4], 5); Hu3DModelPosSet(arg0->model[4], 0.0f, 200.0f, -1700.0f); arg0->model[5] = fn_1_18FC(); Hu3DModelCameraSet(arg0->model[5], 4); arg0->func = fn_1_11A4; } void fn_1_11A4(omObjData *arg0) { fn_1_2C08(arg0->model[5]); } void fn_1_11D8(omObjData *arg0) { fn_1_1444(arg0->model[4]); arg0->model[4] = -1; fn_1_29B8(arg0->model[5]); arg0->model[5] = -1; arg0->func = NULL; } void fn_1_1238(void) { fn_1_11D8(lbl_1_bss_D0); } GXColor lbl_1_data_298 = { 0x00, 0x00, 0x00, 0xFF }; void fn_1_12A0(ModelData *arg0, Mtx arg1) { StructBssD0Data *temp_r31; CameraData *var_r30; temp_r31 = arg0->unk_120; var_r30 = &Hu3DCamera[1]; if (var_r30->fov <= 0.0f) { return; } GXSetTexCopySrc(0, 0, 320, 240); GXSetTexCopyDst(temp_r31->unk00, temp_r31->unk04, GX_TF_RGB5A3, GX_TRUE); GXSetCopyClear(lbl_1_data_298, 0xFFFFFF); GXCopyTex(temp_r31->unk10, GX_TRUE); DCFlushRange(temp_r31->unk10, temp_r31->unk08); GXPixModeSync(); temp_r31->unk0C = 1; fn_1_10BC8(); } s32 fn_1_13A0(StructBssD0Data *arg0) { StructM423_00 *var_r31; ModelData *temp_r30; s32 var_r29; var_r29 = Hu3DHookFuncCreate(fn_1_14A0); temp_r30 = &Hu3DData[var_r29]; var_r31 = temp_r30->unk_120 = HuMemDirectMallocNum(HEAP_DATA, sizeof(*var_r31), temp_r30->unk_48); memset(var_r31, 0, sizeof(*var_r31)); var_r31->unk00 = arg0; var_r31->unk04 = HuSprAnimRead(HuDataReadNum(DATA_MAKE_NUM(DATADIR_M423, 21), MEMORY_DEFAULT_NUM)); return var_r29; } void fn_1_1444(s32 arg0) { StructM423_00 *var_r31; ModelData *var_r30; if (arg0 >= 0) { var_r30 = &Hu3DData[arg0]; var_r31 = var_r30->unk_120; HuSprAnimKill(var_r31->unk04); } } f32 lbl_1_data_29C[] = { -400.0f, 400.0f, 0.0f, 400.0f, 400.0f, 0.0f, 400.0f, 0.0f, 0.0f, -400.0f, 0.0f, 0.0f }; f32 lbl_1_data_2CC[] = { 0.0f, 0.0f, 1.0f, 0.0f, 1.0f, 0.75f, 0.0f, 0.75f }; f32 lbl_1_data_2EC[] = { 0.0f, 0.0f, 1.2f, 0.0f, 1.2f, 0.75f, 0.0f, 0.75f }; GXColor lbl_1_data_30C[] = { { 0x40, 0x40, 0x40, 0xFF } }; GXColor lbl_1_data_310 = { 0x00, 0x00, 0x00, 0x80 }; void fn_1_14A0(ModelData *arg0, Mtx arg1) { CameraData *var_r28; StructM423_00 *temp_r29; StructBssD0Data *temp_r30; Mtx spC; s16 i; var_r28 = &Hu3DCamera[2]; temp_r29 = arg0->unk_120; temp_r30 = temp_r29->unk00; if (temp_r30->unk0C != 0) { if (var_r28->fov <= 0.0f) { return; } GXLoadPosMtxImm(arg1, GX_PNMTX0); MTXInvXpose(arg1, spC); GXLoadNrmMtxImm(spC, GX_PNMTX0); GXSetTevColor(GX_TEVREG2, lbl_1_data_310); GXSetNumTevStages(2); GXSetNumTexGens(2); GXSetTexCoordGen2(GX_TEXCOORD0, GX_TG_MTX2x4, GX_TG_TEX0, GX_IDENTITY, GX_FALSE, GX_PTIDENTITY); GXSetTevOrder(GX_TEVSTAGE0, GX_TEXCOORD0, GX_TEXMAP0, GX_COLOR0A0); GXSetTexCoordGen2(GX_TEXCOORD1, GX_TG_MTX2x4, GX_TG_TEX1, GX_IDENTITY, GX_FALSE, GX_PTIDENTITY); GXSetTevOrder(GX_TEVSTAGE1, GX_TEXCOORD1, GX_TEXMAP1, GX_COLOR0A0); GXSetZMode(GX_TRUE, GX_LEQUAL, GX_TRUE); GXSetTevOp(GX_TEVSTAGE0, GX_REPLACE); GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_TEXC, GX_CC_ZERO, GX_CC_ZERO, GX_CC_RASC); GXSetTevColorOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetTevAlphaIn(GX_TEVSTAGE0, GX_CA_KONST, GX_CA_ZERO, GX_CA_ZERO, GX_CA_ZERO); GXSetTevAlphaOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); if (Hu3DCameraNo != 0) { GXSetTevOp(GX_TEVSTAGE1, GX_REPLACE); GXSetTevColorIn(GX_TEVSTAGE1, GX_CC_CPREV, GX_CC_C2, GX_CC_TEXA, GX_CC_ZERO); GXSetTevColorOp(GX_TEVSTAGE1, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); } else { GXSetTevOp(GX_TEVSTAGE1, GX_REPLACE); GXSetTevColorIn(GX_TEVSTAGE1, GX_CC_CPREV, GX_CC_ZERO, GX_CC_ZERO, GX_CC_ZERO); GXSetTevColorOp(GX_TEVSTAGE1, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); } GXSetTevAlphaIn(GX_TEVSTAGE1, GX_CA_APREV, GX_CA_ZERO, GX_CA_ZERO, GX_CA_ZERO); GXSetTevAlphaOp(GX_TEVSTAGE1, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetNumChans(1); GXSetChanCtrl(GX_COLOR0A0, GX_FALSE, GX_SRC_VTX, GX_SRC_VTX, GX_LIGHT_NULL, GX_DF_CLAMP, GX_AF_NONE); fn_1_11008(temp_r30, temp_r30->unk10, GX_TEXMAP0, GX_CLAMP, 0, 1); HuSprTexLoad(temp_r29->unk04, 0, 1, GX_REPEAT, GX_REPEAT, GX_LINEAR); GXSetAlphaCompare(GX_GEQUAL, 1, GX_AOP_AND, GX_GEQUAL, 1); GXSetZCompLoc(GX_FALSE); GXSetBlendMode(GX_BM_BLEND, GX_BL_SRCALPHA, GX_BL_INVSRCALPHA, GX_LO_NOOP); GXClearVtxDesc(); GXSetVtxDesc(GX_VA_POS, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_POS, GX_POS_XYZ, GX_F32, 0); GXSETARRAY(GX_VA_POS, lbl_1_data_29C, sizeof(lbl_1_data_29C), sizeof(Vec)); GXSetVtxDesc(GX_VA_CLR0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_CLR0, GX_CLR_RGBA, GX_RGBA8, 0); GXSETARRAY(GX_VA_CLR0, lbl_1_data_30C, sizeof(lbl_1_data_30C), sizeof(GXColor)); GXSetVtxDesc(GX_VA_TEX0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_TEX0, GX_TEX_ST, GX_F32, 0); GXSETARRAY(GX_VA_TEX0, lbl_1_data_2CC, sizeof(lbl_1_data_2CC), sizeof(Vec2f)); GXSetVtxDesc(GX_VA_TEX1, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_TEX1, GX_TEX_ST, GX_F32, 0); GXSETARRAY(GX_VA_TEX1, lbl_1_data_2EC, sizeof(lbl_1_data_2EC), sizeof(Vec2f)); GXBegin(GX_QUADS, GX_VTXFMT0, 4); for (i = 0; i < 4; i++) { GXPosition1x16(i); GXColor1x16(0); GXTexCoord1x16(i); GXTexCoord1x16(i); } GXEnd(); } } s32 lbl_1_data_314[][2] = { { 20, 10 }, { 20, 7 }, { 10, 10 }, { 10, 10 } }; Vec lbl_1_data_334[] = { { 0.0f, 100.0f, -1100.0f }, { 0.0f, 200.0f, -1000.0f }, { -225.0f, 100.0f, -1000.0f }, { 225.0f, 100.0f, -1000.0f } }; s32 fn_1_18FC(void) { ModelData *temp_r30; StructM423_03 *var_r29; StructM423_02 *temp_r31; s32 var_r27; s32 i; var_r27 = Hu3DHookFuncCreate(fn_1_29BC); temp_r30 = &Hu3DData[var_r27]; var_r29 = temp_r30->unk_120 = HuMemDirectMallocNum(HEAP_DATA, sizeof(*var_r29), temp_r30->unk_48); memset(var_r29, 0, sizeof(*var_r29)); var_r29->unk00 = var_r27; var_r29->unk02 = 4; temp_r31 = var_r29->unk04 = HuMemDirectMallocNum(HEAP_DATA, var_r29->unk02 * sizeof(*temp_r31), temp_r30->unk_48); memset(temp_r31, 0, var_r29->unk02 * sizeof(*temp_r31)); for (i = 0; i < var_r29->unk02; i++) { temp_r31 = &var_r29->unk04[i]; temp_r31->unk02 = lbl_1_data_314[i][0]; temp_r31->unk04 = lbl_1_data_314[i][1]; temp_r31->unk00 = temp_r31->unk02 * temp_r31->unk04; temp_r31->unk08 = lbl_1_data_334[i]; temp_r31->unk14 = HuMemDirectMallocNum(HEAP_DATA, temp_r31->unk00 * sizeof(*temp_r31->unk14), temp_r30->unk_48); memset(temp_r31->unk14, 0, temp_r31->unk00 * sizeof(*temp_r31->unk14)); temp_r31->unk18 = HuMemDirectMallocNum(HEAP_DATA, temp_r31->unk00 * sizeof(*temp_r31->unk18), temp_r30->unk_48); memset(temp_r31->unk18, 0, temp_r31->unk00 * sizeof(*temp_r31->unk18)); temp_r31->unk1C = HuMemDirectMallocNum(HEAP_DATA, temp_r31->unk00 * sizeof(*temp_r31->unk1C), temp_r30->unk_48); memset(temp_r31->unk1C, 0, temp_r31->unk00 * sizeof(*temp_r31->unk1C)); temp_r31->unk20 = HuMemDirectMallocNum(HEAP_DATA, temp_r31->unk00 * sizeof(*temp_r31->unk20), temp_r30->unk_48); memset(temp_r31->unk20, 0, temp_r31->unk00 * sizeof(*temp_r31->unk20)); switch (i) { case 0: fn_1_1B5C(temp_r30, temp_r31); break; case 1: fn_1_1F5C(temp_r30, temp_r31); break; case 2: fn_1_2290(temp_r30, temp_r31); break; default: fn_1_2624(temp_r30, temp_r31); break; } } return var_r27; } Vec lbl_1_data_364[] = { { -200.0f, 0.0f, -1100.0f }, { -200.0f, 200.0f, -1050.0f }, { 200.0f, 200.0f, -1050.0f } }; GXColor lbl_1_data_388 = { 0xFF, 0xFF, 0xFF, 0xFF }; void fn_1_1B5C(ModelData *arg0, StructM423_02 *arg1) { float var_f31; float var_f30; float var_f29; Vec *var_r27; GXColor *var_r26; StructM423_01 *var_r28; void *var_r25; void *var_r23; s32 i; s32 j; var_r27 = arg1->unk14; var_r26 = arg1->unk1C; var_r28 = arg1->unk20; for (i = 0; i < 10; i++) { var_f30 = 200.0f * (i / 9.0f); var_f29 = -1100.0f + 50.0f * (i / 9.0f); for (j = 0; j < 20; var_r27++, var_r26++, var_r28++, j++) { var_f31 = -225.0f + 450.0f * (j / 19.0f); var_r27->x = var_f31; var_r27->y = var_f30; var_r27->z = var_f29; *var_r26 = lbl_1_data_388; var_r28->unk00 = j; var_r28->unk02 = i; if (i == 0 || i == 9 || j == 0 || j == 19) { var_r28->unk04 = 1; } else { var_r28->unk04 = 0; } var_r28->unk06 = 0; var_r28->unk08.x = var_r28->unk08.y = var_r28->unk08.z = 0.0f; } } memcpy(arg1->unk18, arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk1C, arg1->unk00 * sizeof(*arg1->unk1C)); PPCSync(); var_r23 = var_r25 = HuMemDirectMallocNum(HEAP_DATA, 0x10000, arg0->unk_48); DCFlushRange(var_r25, 0x10000); GXBeginDisplayList(var_r23, 0x10000); GXBegin(GX_LINES, GX_VTXFMT0, 9 * 19 * 4); for (i = 1; i < 10; i++) { for (j = 1; j < 20; j++) { GXPosition1x16(i * 20 + j); GXColor1x16(i * 20 + j); GXPosition1x16(i * 20 + (j - 1)); GXColor1x16(i * 20 + (j - 1)); GXPosition1x16(i * 20 + j); GXColor1x16(i * 20 + j); GXPosition1x16((i - 1) * 20 + j); GXColor1x16((i - 1) * 20 + j); } } GXEnd(); arg1->unk34 = GXEndDisplayList(); if (arg1->unk34 >= 0x10000) { OSReport("ERROR! GList test size over! \n"); } arg1->unk38 = HuMemDirectMallocNum(HEAP_DATA, arg1->unk34, arg0->unk_48); memcpy(arg1->unk38, var_r25, arg1->unk34); DCFlushRange(arg1->unk38, arg1->unk34); HuMemDirectFree(var_r25); fn_1_129F0(&lbl_1_data_364[0], &lbl_1_data_364[1], &lbl_1_data_364[2], arg1->unk24); } GXColor lbl_1_data_3AB = { 0xFF, 0xFF, 0xFF, 0xFF }; void fn_1_1F5C(ModelData *arg0, StructM423_02 *arg1) { float var_f31; float var_f30; float var_f29; Vec *var_r27; GXColor *var_r26; void *var_r25; void *var_r23; s32 i; s32 j; var_r27 = arg1->unk14; var_r26 = arg1->unk1C; for (i = 0; i < 7; i++) { var_f30 = 200.0f; var_f29 = -900.0f - 150.0f * (i / 6.0f); for (j = 0; j < 20; var_r27++, var_r26++, j++) { var_f31 = -225.0f + 450.0f * (j / 19.0f); var_r27->x = var_f31; var_r27->y = var_f30; var_r27->z = var_f29; *var_r26 = lbl_1_data_3AB; } } memcpy(arg1->unk18, arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk1C, arg1->unk00 * sizeof(*arg1->unk1C)); PPCSync(); var_r23 = var_r25 = HuMemDirectMallocNum(HEAP_DATA, 0x10000, arg0->unk_48); DCFlushRange(var_r25, 0x10000); GXBeginDisplayList(var_r23, 0x10000); GXBegin(GX_LINES, GX_VTXFMT0, 6 * 19 * 4); for (i = 1; i < 7; i++) { for (j = 1; j < 20; j++) { GXPosition1x16(i * 20 + j); GXColor1x16(i * 20 + j); GXPosition1x16(i * 20 + (j - 1)); GXColor1x16(i * 20 + (j - 1)); GXPosition1x16(i * 20 + j); GXColor1x16(i * 20 + j); GXPosition1x16((i - 1) * 20 + j); GXColor1x16((i - 1) * 20 + j); } } GXEnd(); arg1->unk34 = GXEndDisplayList(); if (arg1->unk34 >= 0x10000) { OSReport("ERROR! GList test size over! \n"); } arg1->unk38 = HuMemDirectMallocNum(HEAP_DATA, arg1->unk34, arg0->unk_48); memcpy(arg1->unk38, var_r25, arg1->unk34); DCFlushRange(arg1->unk38, arg1->unk34); HuMemDirectFree(var_r25); } GXColor lbl_1_data_3AF = { 0xFF, 0xFF, 0xFF, 0xFF }; void fn_1_2290(ModelData *arg0, StructM423_02 *arg1) { float var_f31; float var_f30; float var_f29; float var_f28; Vec *var_r27; GXColor *var_r26; void *var_r25; void *var_r23; s32 i; s32 j; var_r27 = arg1->unk14; var_r26 = arg1->unk1C; for (i = 0; i < 10; i++) { var_f28 = 200.0f * (i / 9.0f); var_f29 = -225.0f; var_f30 = -1100.0f + 50.0f * (i / 9.0f); for (j = 0; j < 10; var_r27++, var_r26++, j++) { var_f31 = -900.0f - 200.0f * (j / 9.0f); if (var_f31 < var_f30) { var_f31 = var_f30; } var_r27->x = var_f29; var_r27->y = var_f28; var_r27->z = var_f31; *var_r26 = lbl_1_data_3AF; } } memcpy(arg1->unk18, arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk1C, arg1->unk00 * sizeof(*arg1->unk1C)); PPCSync(); var_r23 = var_r25 = HuMemDirectMallocNum(HEAP_DATA, 0x10000, arg0->unk_48); DCFlushRangeNoSync(var_r25, 0x10000); GXBeginDisplayList(var_r23, 0x10000); GXBegin(GX_LINES, GX_VTXFMT0, 9 * 9 * 4); for (i = 1; i < 10; i++) { for (j = 1; j < 10; j++) { GXPosition1x16(i * 10 + j); GXColor1x16(i * 10 + j); GXPosition1x16(i * 10 + (j - 1)); GXColor1x16(i * 10 + (j - 1)); GXPosition1x16(i * 10 + j); GXColor1x16(i * 10 + j); GXPosition1x16((i - 1) * 10 + j); GXColor1x16((i - 1) * 10 + j); } } GXEnd(); arg1->unk34 = GXEndDisplayList(); if (arg1->unk34 >= 0x10000) { OSReport("ERROR! GList test size over! \n"); } arg1->unk38 = HuMemDirectMallocNum(HEAP_DATA, arg1->unk34, arg0->unk_48); memcpy(arg1->unk38, var_r25, arg1->unk34); DCFlushRange(arg1->unk38, arg1->unk34); HuMemDirectFree(var_r25); } GXColor lbl_1_data_3B3 = { 0xFF, 0xFF, 0xFF, 0xFF }; void fn_1_2624(ModelData *arg0, StructM423_02 *arg1) { float var_f31; float var_f30; float var_f29; float var_f28; Vec *var_r27; GXColor *var_r26; void *var_r25; void *var_r23; s32 i; s32 j; var_r27 = arg1->unk14; var_r26 = arg1->unk1C; for (i = 0; i < 10; i++) { var_f28 = 200.0f * (i / 9.0f); var_f29 = 225.0f; var_f30 = -1100.0f + 50.0f * (i / 9.0f); for (j = 0; j < 10; var_r27++, var_r26++, j++) { var_f31 = -900.0f - 200.0f * (j / 9.0f); if (var_f31 < var_f30) { var_f31 = var_f30; } var_r27->x = var_f29; var_r27->y = var_f28; var_r27->z = var_f31; *var_r26 = lbl_1_data_3B3; } } memcpy(arg1->unk18, arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk14, arg1->unk00 * sizeof(*arg1->unk14)); DCFlushRangeNoSync(arg1->unk1C, arg1->unk00 * sizeof(*arg1->unk1C)); PPCSync(); var_r23 = var_r25 = HuMemDirectMallocNum(HEAP_DATA, 0x10000, arg0->unk_48); DCFlushRange(var_r25, 0x10000); GXBeginDisplayList(var_r23, 0x10000); GXBegin(GX_LINES, GX_VTXFMT0, 9 * 9 * 4); for (i = 1; i < 10; i++) { for (j = 1; j < 10; j++) { GXPosition1x16(i * 10 + j); GXColor1x16(i * 10 + j); GXPosition1x16(i * 10 + (j - 1)); GXColor1x16(i * 10 + (j - 1)); GXPosition1x16(i * 10 + j); GXColor1x16(i * 10 + j); GXPosition1x16((i - 1) * 10 + j); GXColor1x16((i - 1) * 10 + j); } } GXEnd(); arg1->unk34 = GXEndDisplayList(); if (arg1->unk34 >= 0x10000) { OSReport("ERROR! GList test size over! \n"); } arg1->unk38 = HuMemDirectMallocNum(HEAP_DATA, arg1->unk34, arg0->unk_48); memcpy(arg1->unk38, var_r25, arg1->unk34); DCFlushRange(arg1->unk38, arg1->unk34); HuMemDirectFree(var_r25); } void fn_1_29B8(s32 arg0) { } void fn_1_29BC(ModelData *arg0, Mtx arg1) { StructM423_03 *temp_r30; StructM423_02 *temp_r31; Mtx sp8; s16 i; temp_r30 = arg0->unk_120; GXLoadPosMtxImm(arg1, GX_PNMTX0); MTXInvXpose(arg1, sp8); GXLoadNrmMtxImm(sp8, GX_PNMTX0); GXSetLineWidth(6, GX_TO_ZERO); GXSetNumTevStages(1); GXSetNumTexGens(0); GXSetTevOrder(GX_TEVSTAGE0, GX_TEXCOORD_NULL, GX_TEXMAP_NULL, GX_COLOR0A0); GXSetZMode(GX_TRUE, GX_LEQUAL, GX_TRUE); GXSetTevOp(GX_TEVSTAGE0, GX_REPLACE); GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_RASC, GX_CC_ZERO, GX_CC_ZERO, GX_CC_ZERO); GXSetTevColorOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetTevAlphaIn(GX_TEVSTAGE0, GX_CA_RASA, GX_CA_ZERO, GX_CA_ZERO, GX_CA_ZERO); GXSetTevAlphaOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetNumChans(1); GXSetChanCtrl(GX_COLOR0A0, GX_FALSE, GX_SRC_VTX, GX_SRC_VTX, GX_LIGHT_NULL, GX_DF_CLAMP, GX_AF_NONE); GXSetAlphaCompare(GX_GEQUAL, 1, GX_AOP_AND, GX_GEQUAL, 1); GXSetZCompLoc(GX_FALSE); GXSetBlendMode(GX_BM_BLEND, GX_BL_SRCALPHA, GX_BL_INVSRCALPHA, GX_LO_NOOP); GXClearVtxDesc(); GXSetVtxDesc(GX_VA_POS, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_POS, GX_POS_XYZ, GX_F32, 0); GXSetVtxDesc(GX_VA_CLR0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_CLR0, GX_CLR_RGBA, GX_RGBA8, 0); for (i = 0; i < temp_r30->unk02; i++) { temp_r31 = &temp_r30->unk04[i]; if (temp_r31->unk38 && temp_r31->unk34 != 0) { DCFlushRangeNoSync(temp_r31->unk14, temp_r31->unk00 * sizeof(*temp_r31->unk14)); DCFlushRangeNoSync(temp_r31->unk1C, temp_r31->unk00 * sizeof(*temp_r31->unk1C)); PPCSync(); GXSETARRAY(GX_VA_POS, temp_r31->unk14, temp_r31->unk00 * sizeof(*temp_r31->unk14), sizeof(*temp_r31->unk14)); GXSETARRAY(GX_VA_CLR0, temp_r31->unk1C, temp_r31->unk00 * sizeof(*temp_r31->unk1C), sizeof(*temp_r31->unk1C)); GXCallDisplayListNative(temp_r31->unk38, temp_r31->unk34); } } } void fn_1_2C08(s32 arg0) { Vec sp3C; Vec sp30; Vec sp24; Vec *var_r25; Vec *var_r24; Vec *temp_r27; Vec *temp_r29; float temp_f31; float temp_f28; float temp_f30; float var_f29; float var_f27; StructM423_02 *temp_r30; StructM423_01 *var_r28; StructBssA8Data *var_r31; StructM423_03 *var_r17; ModelData *sp20; ModelData *sp1C; StructM423_01 *sp18; s32 var_r20; s32 temp_r19; s32 temp_r18; s32 i; s32 j; s32 k; s32 temp_r21; s32 sp14; s32 sp10; s32 spC; Mtx sp48; sp20 = &Hu3DData[arg0]; var_r17 = sp20->unk_120; temp_r30 = var_r17->unk04; var_r25 = temp_r30->unk14; var_r24 = temp_r30->unk18; var_r28 = temp_r30->unk20; if (lbl_1_bss_A8 == NULL) { return; } var_r31 = lbl_1_bss_A8->data; for (i = 0; i < temp_r30->unk00; i++, var_r25++, var_r24++, var_r28++) { if (var_r28->unk04 != 0) { continue; } VECSubtract(var_r24, var_r25, &sp30); temp_f31 = VECMag(&sp30); if (temp_f31 >= 0.0f) { VECScale(&sp30, &sp30, 0.05f); VECAdd(&var_r28->unk08, &sp30, &var_r28->unk08); temp_f31 = VECMag(&var_r28->unk08); if (temp_f31 > 10.0f) { VECNormalize(&var_r28->unk08, &var_r28->unk08); VECScale(&var_r28->unk08, &var_r28->unk08, 10.0f); } } VECAdd(var_r25, &var_r28->unk08, var_r25); VECScale(&var_r28->unk08, &var_r28->unk08, 0.5f); } for (i = 0; i < 15; i++, var_r31++) { if (var_r31->unk06 == 0 || var_r31->unk0C != 3) { continue; } spC = 0; VECSubtract(&var_r31->unk38, &var_r31->unk74, &sp30); if (var_r31->unk38.x > -225.0f && var_r31->unk38.x < 225.0f && var_r31->unk38.y > 0.0f && var_r31->unk38.y < 200.0f && var_r31->unk38.z > -1150.0f && var_r31->unk38.z < -950.0f) { var_f27 = 0.005f * var_r31->unk38.y; var_f29 = -900.0f - (150.0f + var_f27 * 50.0f); if (var_r31->unk38.z - 20.0 < var_f29) { if (var_r31->unk38.z < 20.0 + (var_f29 - 75.0f)) { var_r31->unk38.z = 20.0 + (var_f29 - 75.0f); } spC = 1; } } if (spC != 0) { if (var_r31->unk0A == 0 && var_r31->unk08 == 0) { fn_1_AEE8(i); } if (var_r31->unk10 == 0) { var_r31->unk5C = var_r31->unk50; var_r31->unk10 = 1; } sp1C = &Hu3DData[var_r31->unk00]; sp24.x = var_r31->unk5C.z; sp24.z = -var_r31->unk5C.x; sp24.y = 0.0f; temp_f31 = 0.05 * VECMag(&sp24); if (temp_f31 > 0.00001f) { MTXRotAxisRad(sp48, &sp24, temp_f31); MTXConcat(sp48, sp1C->unk_F0, sp1C->unk_F0); } temp_f31 = 0.0133333336f * fabs(var_f29 - (var_r31->unk38.z - 20.0)); var_r31->unk50.z += temp_f31 * 0.4f; VECScale(&var_r31->unk50, &var_r31->unk50, 0.95f); var_r31->unk50.y *= 0.0f; var_r31->unk50.x *= 0.75f; sp14 = (var_r31->unk38.x - -225.0f) / 22.5f; sp10 = var_r31->unk38.y / 20.0f; var_r20 = sp14 + sp10 * temp_r30->unk02; var_r25 = &temp_r30->unk14[var_r20]; var_r24 = &temp_r30->unk18[var_r20]; var_r28 = &temp_r30->unk20[var_r20]; temp_f28 = var_r24->z - (var_r31->unk38.z - 20.0); sp3C = var_r31->unk38; if (temp_f28 < 0.0f) { continue; } for (j = -19; j < 20; j++) { for (k = -19; k < 20; k++) { temp_r19 = sp14 + k; temp_r18 = sp10 + j; temp_r21 = temp_r19 + temp_r18 * temp_r30->unk02; if (temp_r19 < 0 || temp_r19 >= temp_r30->unk02 || temp_r18 < 0 || temp_r18 >= temp_r30->unk04 || temp_r21 >= temp_r30->unk00) { continue; } sp18 = &temp_r30->unk20[temp_r21]; if (sp18->unk04 != 0) { continue; } temp_r29 = &temp_r30->unk14[temp_r21]; temp_r27 = &temp_r30->unk18[temp_r21]; VECSubtract(&sp3C, temp_r29, &sp30); sp30.z = 0.0f; temp_f31 = VECMag(&sp30); if (temp_f31 > 400.0f) { continue; } if (temp_f31 > 20.0) { temp_f30 = 0.0025f * (400.0f - temp_f31); temp_f30 = temp_f30 * temp_f30; VECNormalize(&sp30, &sp30); VECScale(&sp30, &sp30, 20.0f * (temp_f30 * temp_f30)); temp_r29->x += 0.5f * (temp_r27->x + sp30.x - temp_r29->x); temp_r29->y += 0.5f * (temp_r27->y + sp30.y - temp_r29->y); temp_r29->z += 0.5f * (temp_r27->z - temp_f30 * temp_f28 - temp_r29->z); } else { temp_f30 = cosd(0.0025f * temp_f31 * 90.0f); if (temp_f31 != 0.0f) { VECNormalize(&sp30, &sp30); } else { sp30.x = sp30.y = sp30.z = 0.0f; } VECScale(&sp30, &sp30, temp_f30 * temp_f30 * 20.0f); temp_r29->z += 0.5f * (temp_r27->z - temp_f30 * temp_f28 - temp_r29->z); } } } } else { var_r31->unk10 = 0; } } DCFlushRangeNoSync(temp_r30->unk14, temp_r30->unk00 * sizeof(*temp_r30->unk14)); PPCSync(); } void fn_1_34D8(void) { lbl_1_bss_CC = omAddObjEx(lbl_1_bss_120, 0x81, 20, 6, -1, fn_1_3528); } Vec lbl_1_data_3B8[] = { -1300.0f, 300.0f, -2350.0f, -800.0f, 200.0f, -2250.0f, 800.0f, 200.0f, -2250.0f, 1300.0f, 300.0f, -2350.0f, -1000.0f, 300.0f, -2350.0f, 1000.0f, 300.0f, -2350.0f, -1200.0f, 400.0f, -2450.0f, -800.0f, 400.0f, -2450.0f, 800.0f, 400.0f, -2450.0f, 1200.0f, 400.0f, -2450.0f, -1400.0f, 200.0f, -2250.0f, 1400.0f, 200.0f, -2250.0f, -1400.0f, 400.0f, -2450.0f, 1400.0f, 400.0f, -2450.0f, -900.0f, 500.0f, -2550.0f, 900.0f, 500.0f, -2550.0f, -1200.0f, 500.0f, -2550.0f, 1200.0f, 500.0f, -2550.0f, -1100.0f, 200.0f, -2250.0f, 1100.0f, 200.0f, -2250.0f }; s32 lbl_1_data_4A8[] = { 0, 1, 0, 1, 2, 2, 1, 0, 1, 2, 0, 1, 2, 0, 1, 2, 0, 1, 2, 1, 0 }; s32 lbl_1_data_4FC[] = { DATA_MAKE_NUM(DATADIR_M423, 12), DATA_MAKE_NUM(DATADIR_M423, 15), DATA_MAKE_NUM(DATADIR_M423, 18) }; s32 lbl_1_data_508[] = { DATA_MAKE_NUM(DATADIR_M423, 13), DATA_MAKE_NUM(DATADIR_M423, 14), DATA_MAKE_NUM(DATADIR_M423, 16), DATA_MAKE_NUM(DATADIR_M423, 17), DATA_MAKE_NUM(DATADIR_M423, 19), DATA_MAKE_NUM(DATADIR_M423, 20) }; s16 lbl_1_data_520[] = { 0, 2, 4 }; void fn_1_3528(omObjData *arg0) { float var_f30; float var_f29; float temp_f31; StructBssCCData *var_r30; s32 temp_r27; s32 var_r28; s32 i; var_r30 = arg0->data = HuMemDirectMallocNum(HEAP_SYSTEM, 20 * sizeof(*var_r30), MEMORY_DEFAULT_NUM); memset(var_r30, 0, 20 * sizeof(*var_r30)); for (i = 0; i < 6; i++) { arg0->motion[i] = Hu3DMotionCreateFile(lbl_1_data_508[i]); } for (i = 0; i < 20; i++, var_r30++) { temp_r27 = lbl_1_data_4A8[i]; var_r30->unk00 = temp_r27; var_r30->unk02 = 0; var_r30->unk04 = 0; var_r30->unk08 = 0; var_r30->unk0A = 0; var_r30->unk06 = 210.0f + (1.0f / 127) * frand7() * 60.0f; var_f30 = -lbl_1_data_3B8[i].x; var_f29 = -lbl_1_data_3B8[i].z; temp_f31 = atan2d(var_f30, var_f29); var_r28 = Hu3DModelCreateFile(lbl_1_data_4FC[temp_r27]); arg0->model[i] = var_r28; Hu3DModelCameraSet(var_r28, 4); Hu3DModelPosSet(var_r28, lbl_1_data_3B8[i].x, lbl_1_data_3B8[i].y, lbl_1_data_3B8[i].z); if (var_r30->unk00 != 1) { Hu3DModelRotSet(var_r28, 0.0f, temp_f31, 0.0f); } else { Hu3DModelRotSet(var_r28, 10.0f, temp_f31, 0.0f); } Hu3DModelScaleSet(var_r28, 1.8f, 1.8f, 1.8f); Hu3DMotionSet(arg0->model[i], arg0->motion[lbl_1_data_520[var_r30->unk00]]); if ((i >= 14 && i <= 17) || i == 11 || i == 10) { Hu3DModelAttrSet(var_r28, 1); } } arg0->stat |= 0x100; arg0->func = fn_1_3898; } s16 lbl_1_data_526[] = { 0, 2, 4 }; s16 lbl_1_data_52C[] = { 1, 3, 5, 0 }; void fn_1_3898(omObjData *arg0) { StructBssCCData *var_r31; s32 var_r28; s32 i; var_r31 = arg0->data; for (i = 0; i < 20; i++, var_r31++) { var_r28 = 0; if (var_r31->unk06 > 0) { var_r28 = 1; var_r31->unk06--; } else if (var_r31->unk0A > 0) { if (var_r31->unk08 > 0) { var_r31->unk08--; } else if (var_r31->unk0A > 0) { var_r28 = 1; var_r31->unk0A--; } else { var_r31->unk08 = 0; var_r31->unk0A = 0; } } if (var_r28 != var_r31->unk02 && Hu3DMotionShiftIDGet(arg0->model[i]) == -1) { var_r31->unk02 = var_r28; if (var_r31->unk02 == 0) { Hu3DMotionShiftSet(arg0->model[i], arg0->motion[lbl_1_data_526[var_r31->unk00]], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } else { Hu3DMotionShiftSet(arg0->model[i], arg0->motion[lbl_1_data_52C[var_r31->unk00]], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } } } } void fn_1_3A58(omObjData *arg0) { arg0->func = NULL; } void fn_1_3A64(void) { fn_1_3A58(lbl_1_bss_CC); } void fn_1_3A8C(void) { omObjData *var_r29; StructBssCCData *var_r31; s32 i; if (lbl_1_bss_CC == NULL) { return; } var_r29 = lbl_1_bss_CC; var_r31 = var_r29->data; for (i = 0; i < 20; i++, var_r31++) { if (var_r31->unk06 > 0 || var_r31->unk0A > 0) { var_r31->unk08 = 0; } else { var_r31->unk08 = (1.0f / 127) * frand7() * 0.25f * 60.0f; } var_r31->unk0A = ((1.0f / 127) * frand7() + 2.0f) * 60.0f; } } void fn_1_3BFC(void) { s32 sp8[4]; s32 temp_r28; s32 temp_r27; s32 var_r25; s32 var_r26; s32 var_r29; s32 i; s32 j; for (i = 0; i < 4; i++) { sp8[i] = -1; } for (i = 0, var_r29 = 0; i < 4; i++) { if (GWPlayerCfgGroupGet(i) == 0) { sp8[3] = i; } else { sp8[var_r29] = i; var_r29++; } } for (i = 0; i < 4; i++) { if (sp8[i] == -1) { break; } } if (i < 4) { sp8[0] = 1; sp8[1] = 2; sp8[2] = 3; sp8[3] = 0; } else { for (i = 0; i < 32; i++) { temp_r28 = (s16)(frand() & 0xFFF) % 3; temp_r27 = (s16)(frand() & 0xFFF) % 3; if (temp_r28 != temp_r27) { var_r29 = sp8[temp_r27]; sp8[temp_r27] = sp8[temp_r28]; sp8[temp_r28] = var_r29; } } } var_r25 = 1; for (i = 0, var_r26 = 0; i < 4; i++) { lbl_1_bss_BC[i] = omAddObjEx(lbl_1_bss_120, 0x40, 4, 11, -1, fn_1_3FE0); lbl_1_bss_BC[i]->work[0] = i; if (i == sp8[3]) { lbl_1_bss_EC[3] = GWPlayerCfg[lbl_1_bss_BC[i]->work[0]].character; lbl_1_bss_BC[i]->work[1] = 0; lbl_1_bss_BC[i]->work[2] = 0; if (GWPlayerCfg[lbl_1_bss_BC[i]->work[0]].iscom) { lbl_1_bss_FC = 1; } } else { lbl_1_bss_EC[var_r26] = GWPlayerCfg[lbl_1_bss_BC[i]->work[0]].character; var_r26++; lbl_1_bss_BC[i]->work[1] = 1; for (j = 0; j < 3; j++) { if (i == sp8[j]) { break; } } if (j >= 3) { j = i - 1; } lbl_1_bss_BC[i]->work[2] = j; lbl_1_bss_AC[j] = lbl_1_bss_BC[i]; if (!GWPlayerCfg[lbl_1_bss_BC[i]->work[0]].iscom) { var_r25 = 0; } } } if (var_r25 != 0) { lbl_1_bss_FC = 0; } } u32 lbl_1_data_534[][2] = { { DATA_MAKE_NUM(DATADIR_MARIOMOT, 0), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 2), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 3), -1 }, { 0, 0 }, { 0, 1 }, { 0, 2 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 23), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 24), -1 } }; s32 lbl_1_data_574[] = { DATA_MAKE_NUM(DATADIR_M423, 58), DATA_MAKE_NUM(DATADIR_M423, 26), DATA_MAKE_NUM(DATADIR_M423, 34) }; u32 lbl_1_data_580[][2] = { { DATA_MAKE_NUM(DATADIR_MARIOMOT, 0), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 2), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 3), -1 }, { 0, 0 }, { 0, 1 }, { 0, 2 }, { 0, 3 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 11), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 6), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 23), -1 }, { DATA_MAKE_NUM(DATADIR_MARIOMOT, 24), -1 } }; s32 lbl_1_data_5D8[] = { DATA_MAKE_NUM(DATADIR_M423, 42), DATA_MAKE_NUM(DATADIR_M423, 66), DATA_MAKE_NUM(DATADIR_M423, 50), DATA_MAKE_NUM(DATADIR_M423, 74) }; void fn_1_3FE0(omObjData *arg0) { float var_f31; StructBssBCData *temp_r31; s32 i; temp_r31 = arg0->data = HuMemDirectMallocNum(HEAP_SYSTEM, sizeof(*temp_r31), MEMORY_DEFAULT_NUM); memset(temp_r31, 0, sizeof(*temp_r31)); temp_r31->unk00 = arg0->work[0]; temp_r31->unk02 = GWPlayerCfg[arg0->work[0]].character; temp_r31->unk04 = GWPlayerCfg[arg0->work[0]].pad_idx; temp_r31->unk06 = GWPlayerCfg[arg0->work[0]].iscom; temp_r31->unk08 = GWPlayerCfg[arg0->work[0]].diff; temp_r31->unk0A = arg0->work[1]; temp_r31->unk0C = arg0->work[2]; memset(&temp_r31->unk1C, 0, sizeof(temp_r31->unk1C)); temp_r31->unk58 = 0; temp_r31->unk5C = -1; temp_r31->unk60 = 0.0f; temp_r31->unk64 = -1; temp_r31->unk68 = 0; temp_r31->unk6C = 0; temp_r31->unk70 = 0; temp_r31->unk74 = 0; temp_r31->unk16 = -1; temp_r31->unk88 = 0.0f; temp_r31->unk8C = 0.0f; temp_r31->unk90 = 0; temp_r31->unk94 = 0; temp_r31->unk98 = 0; temp_r31->unk9C = 0; temp_r31->unkA0 = 0; temp_r31->unkA4 = 0; temp_r31->unkA8 = 0.0f; temp_r31->unkAC = 0; arg0->model[0] = CharModelCreate(temp_r31->unk02, 4); Hu3DModelCameraSet(arg0->model[0], 5); Hu3DModelShadowSet(arg0->model[0]); Hu3DModelAttrSet(arg0->model[0], HU3D_ATTR_CURVE_MOTOFF); CharModelStepTypeSet(temp_r31->unk02, 2); if (temp_r31->unk0A == 0) { for (i = 0; i < 11; i++) { if (lbl_1_data_580[i][1] == -1) { arg0->motion[i] = CharModelMotionCreate(temp_r31->unk02, lbl_1_data_580[i][0]); } else { arg0->motion[i] = Hu3DJointMotionFile(arg0->model[0], lbl_1_data_5D8[lbl_1_data_580[i][1]] + temp_r31->unk02); } } temp_r31->unk16 = 0; temp_r31->unk18 = 0; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); Hu3DModelAttrSet(arg0->model[0], HU3D_MOTATTR_LOOP); temp_r31->unkB0 = arg0->trans.x = lbl_1_data_150[0].x; temp_r31->unkB4 = arg0->trans.y = lbl_1_data_150[0].y; temp_r31->unkB8 = arg0->trans.z = lbl_1_data_150[0].z; temp_r31->unkBC = lbl_1_data_180[0].x; temp_r31->unkC0 = lbl_1_data_180[0].y; temp_r31->unkC4 = lbl_1_data_180[0].z; temp_r31->unk78 = 0.0f; temp_r31->unk7C = 0.0f; temp_r31->unkE0 = temp_r31->unkE4 = temp_r31->unkE8 = 0.0f; temp_r31->unkEC = temp_r31->unkF0 = temp_r31->unkF4 = 0.0f; temp_r31->unk7C = 6.5f; var_f31 = 0.0f; for (i = 0; i < 1000; i++) { var_f31 += temp_r31->unk7C; temp_r31->unk7C -= 0.49f; if (var_f31 <= 0.0f) { break; } } temp_r31->unk80 = i; temp_r31->unk7C = 10.5f; var_f31 = 0.0f; for (i = 0; i < 1000; i++) { var_f31 += temp_r31->unk7C; temp_r31->unk7C -= 0.65333337f; if (var_f31 <= 0.0f) { break; } } temp_r31->unk84 = i; arg0->func = fn_1_5D18; } else { for (i = 0; i < 8; i++) { if (lbl_1_data_534[i][1] == -1) { arg0->motion[i] = CharModelMotionCreate(temp_r31->unk02, lbl_1_data_534[i][0]); } else { arg0->motion[i] = Hu3DJointMotionFile(arg0->model[0], lbl_1_data_574[lbl_1_data_534[i][1]] + temp_r31->unk02); } } temp_r31->unk16 = 0; temp_r31->unk18 = 0; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); Hu3DModelAttrSet(arg0->model[0], HU3D_MOTATTR_LOOP); temp_r31->unkB0 = lbl_1_data_150[temp_r31->unk0C + 1].x; temp_r31->unkB4 = lbl_1_data_150[temp_r31->unk0C + 1].y; temp_r31->unkB8 = lbl_1_data_150[temp_r31->unk0C + 1].z; temp_r31->unkBC = arg0->trans.x = lbl_1_data_180[temp_r31->unk0C + 1].x; temp_r31->unkC0 = arg0->trans.y = lbl_1_data_180[temp_r31->unk0C + 1].y; temp_r31->unkC4 = arg0->trans.z = lbl_1_data_180[temp_r31->unk0C + 1].z; temp_r31->unk78 = atan2d(lbl_1_data_150[0].x - temp_r31->unkB0, lbl_1_data_150[0].z - temp_r31->unkB8); temp_r31->unk7C = 0.0f; temp_r31->unk98 = 0; temp_r31->unk9C = 300.0f + (1.0f / 127) * frand7() * 60.0f * 15.0f; if (lbl_1_bss_FC != 0) { temp_r31->unk08 = 3; } arg0->func = fn_1_4778; } CharModelMotionDataClose(temp_r31->unk02); } Vec lbl_1_data_5E8 = { 0.0f, 20.0f, 50.0f }; GXColor lbl_1_data_5F4 = { 0xFF, 0xFF, 0xFF, 0x10 }; GXColor lbl_1_data_5F8 = { 0xFF, 0xFF, 0xFF, 0x40 }; void fn_1_4778(omObjData *arg0) { Mtx sp11C; Vec sp110; Vec sp104; Vec spF8; float temp_f27; float temp_f29; float temp_f30; float var_f25; StructBssBCData *temp_r31; ModelData *temp_r27; s32 temp_r26; s16 var_r25; s16 var_r24; s16 var_r29; s16 var_r28; temp_r31 = arg0->data; temp_r27 = &Hu3DData[arg0->model[0]]; temp_r31->unk0E = HuPadBtn[temp_r31->unk04]; temp_r31->unk10 = HuPadBtnDown[temp_r31->unk04]; temp_r31->unk12 = HuPadStkX[temp_r31->unk04]; temp_r31->unk14 = HuPadStkY[temp_r31->unk04]; if (fn_1_F00() == 6) { if (temp_r31->unk06 != 0) { temp_r31->unk0E &= ~PAD_BUTTON_A; temp_r31->unk10 &= ~PAD_BUTTON_A; temp_r31->unk12 = 0; temp_r31->unk14 = 0; fn_1_8338(arg0); } var_r25 = temp_r31->unk0E; var_r24 = temp_r31->unk10; var_r29 = temp_r31->unk12; var_r28 = temp_r31->unk14; } if (fabs(var_r29) < 8.0) { var_r29 = 0; } if (fabs(var_r29) > 80.0) { var_r29 = 80; } if (fabs(var_r28) < 8.0) { var_r28 = 0; } if (fabs(var_r28) > 80.0) { var_r28 = 80; } if (fn_1_F00() != 6) { var_r29 = var_r28 = 0; var_r25 = var_r24 = 0; } switch (temp_r31->unk18) { case 0: if (fn_1_F00() < 3) { break; } spF8.x = temp_r31->unkB0 - arg0->trans.x; spF8.z = temp_r31->unkB8 - arg0->trans.z; temp_f29 = VECMagXZ(&spF8); if (temp_f29 > 25.0f) { spF8.x = temp_r31->unkB0 - arg0->trans.x; spF8.z = temp_r31->unkB8 - arg0->trans.z; temp_f30 = atan2d(spF8.x, spF8.z); arg0->rot.y = fn_1_122F4(temp_f30, arg0->rot.y, 15.0f); arg0->trans.x += 25.0 * sind(arg0->rot.y) * 0.5; arg0->trans.z += 25.0 * cosd(arg0->rot.y) * 0.5; if (temp_r31->unk16 != 2) { temp_r31->unk16 = 2; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); Hu3DModelAttrSet(arg0->model[0], HU3D_MOTATTR_LOOP); } break; } arg0->trans.x = temp_r31->unkB0; arg0->trans.z = temp_r31->unkB8; temp_r31->unk18 = 1; if (temp_r31->unk16 != 0) { temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } break; case 1: arg0->rot.y = fn_1_122F4(0.0f, arg0->rot.y, 5.0f); if (fabs(fn_1_121DC(arg0->rot.y, 0.0f)) < 1.0) { arg0->rot.y = 0.0f; temp_r31->unk18 = 2; } break; case 2: temp_r31->unk18 = 3; break; case 3: arg0->rot.y = fn_1_122F4(0.0f, arg0->rot.y, 10.0f); if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (fabs(fn_1_121DC(arg0->rot.y, 0.0f)) < 1.0) { arg0->rot.y = 0.0f; sp104 = lbl_1_data_5E8; mtxRot(sp11C, arg0->rot.x, arg0->rot.y, arg0->rot.z); fn_1_1293C(sp11C, &sp104); sp104.x += arg0->trans.x; sp104.y += arg0->trans.y; sp104.z += arg0->trans.z; if (fn_1_F00() <= 6 && (temp_r31->unk5C = fn_1_A9D4(temp_r31->unk02, lbl_1_data_1B0[temp_r31->unk0C], sp104)) != -1) { temp_r31->unk18 = 4; temp_r31->unk68 = 0; } } break; case 4: temp_r26 = fn_1_AE64(temp_r31->unk5C); if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (temp_r26 == -1 || temp_r31->unk5C == -1) { temp_r31->unk18 = 3; break; } if (temp_r26 == 2) { if (++temp_r31->unk68 >= 6.0f) { HuAudFXPlay(0x61A); temp_r31->unk18 = 5; temp_r31->unk68 = 0; } break; } if (++temp_r31->unk68 >= 54.0f && temp_r31->unk16 != 3) { temp_r31->unk16 = 3; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); } break; case 5: temp_f30 = fabs(fn_1_121DC(arg0->rot.y, temp_r31->unk78)); if (temp_f30 < 10.0f) { arg0->rot.y += temp_f30; } else { arg0->rot.y += 10.0f; } sp104 = lbl_1_data_5E8; mtxRot(sp11C, arg0->rot.x, arg0->rot.y, arg0->rot.z); fn_1_1293C(sp11C, &sp104); sp104.x += arg0->trans.x; sp104.y += arg0->trans.y; sp104.z += arg0->trans.z; fn_1_AC0C(temp_r31->unk5C, sp104); spF8.x = 0.0f; spF8.y = 1.0f; spF8.z = 1.0f; sp104.y = 0.0f; fn_1_DD70(sp104, spF8, 50.0f, -0.5f, 10.0f, 1.0f, lbl_1_data_5F4); if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (fabs(fn_1_121DC(arg0->rot.y, temp_r31->unk78)) < 1.0) { temp_r31->unkC8 = sp104; temp_r31->unk18 = 6; temp_r31->unk68 = 0; } break; case 6: sp110.x = 0.0125f * var_r29 * 300.0f; sp110.y = -900.0f; sp110.z = -900.0f; temp_f30 = atan2d(sp110.x - temp_r31->unkC8.x, sp110.z - temp_r31->unkC8.z); arg0->rot.y = fn_1_122F4(temp_f30, arg0->rot.y, 5.0f); if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (var_r24 & PAD_BUTTON_A) { temp_r31->unk16 = 4; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); temp_r27->unk_88 = 0.5f; temp_r31->unkD4 = sp110; temp_r31->unk18 = 7; temp_r31->unk68 = 0; } break; case 7: temp_r31->unk68++; if (temp_r31->unk68 > 90.0f) { temp_r31->unk68 = 90; } temp_f29 = 0.011111111f * temp_r31->unk68; sp110.x = 0.0125f * var_r29 * 300.0f; sp110.y = -900.0f; sp110.z = -900.0f; temp_f30 = atan2d(sp110.x - temp_r31->unkC8.x, sp110.z - temp_r31->unkC8.z); arg0->rot.y = fn_1_122F4(temp_f30, arg0->rot.y, 5.0f); temp_r31->unkD4 = sp110; if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (!(var_r25 & PAD_BUTTON_A)) { var_f25 = 15.000001f + 30.0f * temp_f29; temp_r31->unk60 = var_f25; temp_r31->unk16 = 5; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); temp_r27->unk_88 = 0.5f + 1.5f * temp_f29; temp_r31->unk18 = 8; temp_r31->unk68 = 0; } break; case 8: if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (CharModelMotionTimeGet(temp_r31->unk02) >= 10.0f && CharModelMotionShiftIDGet(temp_r31->unk02) == -1) { temp_r26 = fn_1_AE64(temp_r31->unk5C); if (temp_r26 == -1 || temp_r31->unk5C == -1) { temp_r31->unk18 = 3; } VECSubtract(&temp_r31->unkD4, &temp_r31->unkC8, &spF8); VECNormalize(&spF8, &spF8); temp_f27 = 15.0f; spF8.x *= temp_r31->unk60 * cosd(temp_f27); spF8.z *= temp_r31->unk60 * cosd(temp_f27); spF8.y = temp_r31->unk60 * sind(temp_f27); fn_1_AC80(temp_r31->unk5C, spF8); temp_r31->unk5C = -1; HuAudFXPlay(0x61F); sp104 = temp_r31->unkC8; sp104.y += 75.0f; spF8.x = 0.0f; spF8.y = 1.0f; spF8.z = 1.0f; sp104.y = 0.0f; fn_1_DC24(sp104, spF8, 50.0f, -0.5f, 1.0f, lbl_1_data_5F8); temp_f29 = (temp_r31->unk60 - 15.000001f) / 30.0f; if (temp_f29 > 0.66f) { HuAudFXPlay(0x61B); } else if (temp_f29 > 0.33f) { HuAudFXPlay(0x61C); } else { HuAudFXPlay(0x61D); } temp_r31->unk18 = 9; temp_r31->unk68 = 0; } break; case 9: if (fn_1_F00() >= 7) { temp_r31->unk18 = 10; temp_r31->unk68 = 0; break; } if (++temp_r31->unk68 >= 12.0f) { temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); temp_r31->unk18 = 3; temp_r31->unk68 = 0; } break; case 10: arg0->rot.y = fn_1_122F4(0.0f, arg0->rot.y, 10.0f); if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 0) { temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } break; case 11: if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 6) { temp_r31->unk16 = 6; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); } break; case 12: if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 7) { temp_r31->unk16 = 7; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); } break; } } GXColor lbl_1_data_630 = { 0xFF, 0xFF, 0xFF, 0x14 }; void fn_1_5D18(omObjData *arg0) { Vec sp60; Vec sp54; Vec sp48; float var_f30; float var_f31; float var_f29; StructBssBCData *temp_r31; ModelData *temp_r27; s16 var_r26; s16 var_r25; s16 var_r28; s16 var_r24; s16 i; temp_r31 = arg0->data; temp_r27 = &Hu3DData[arg0->model[0]]; temp_r31->unk0E = HuPadBtn[temp_r31->unk04]; temp_r31->unk10 = HuPadBtnDown[temp_r31->unk04]; temp_r31->unk12 = HuPadStkX[temp_r31->unk04]; temp_r31->unk14 = HuPadStkY[temp_r31->unk04]; if (fn_1_F00() == 6) { if (temp_r31->unk06 != 0) { temp_r31->unk0E &= ~PAD_BUTTON_A; temp_r31->unk10 &= ~PAD_BUTTON_A; temp_r31->unk12 = 0; temp_r31->unk14 = 0; fn_1_8CB4(arg0); } var_r28 = temp_r31->unk12; var_r24 = temp_r31->unk14; } if (fabs(var_r28) < 8.0) { var_r28 = 0; } if (fabs(var_r28) > 80.0) { var_r28 = 80; } if (fabs(var_r24) < 8.0) { var_r24 = 0; } if (fabs(var_r24) > 80.0) { var_r24 = 80; } switch (temp_r31->unk18) { case 0: if (fn_1_F00() >= 6) { temp_r31->unk18 = 1; } break; case 1: if (fabs(var_r28) > 8.0) { var_f30 = 0.125f * var_r28; } else { var_f30 = 0.0f; } temp_r31->unk1C[temp_r31->unk58] = var_f30; if (++temp_r31->unk58 >= 15) { temp_r31->unk58 = 0; } for (i = 0, var_f30 = 0.0f; i < 15; i++) { var_f30 += temp_r31->unk1C[i]; } var_f30 *= 0.06666667f; if (var_f30 > 25.0f) { var_f30 = 25.0f; } else if (var_f30 < -25.0f) { var_f30 = -25.0f; } if (0.0f == var_f30) { var_r25 = 0; } else if (fabs(var_f30) < 10.0) { var_r25 = 1; } else { var_r25 = 2; } if (temp_r31->unk16 != var_r25 && CharModelMotionShiftIDGet(temp_r31->unk02) == -1) { temp_r31->unk16 = var_r25; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } if (temp_r31->unk16 == 1 && CharModelMotionShiftIDGet(temp_r31->unk02) == -1) { var_f31 = fabs(0.1f * var_f30); if (var_f31 < 0.25f) { var_f31 = 0.25f; } CharModelMotionSpeedSet(temp_r31->unk02, var_f31); } if (var_r28 == 0.0f) { var_f29 = 0.0f; } else if (var_r28 < 0.0f) { var_f29 = -90.0f; } else { var_f29 = 90.0f; } if (arg0->rot.y < var_f29 && (arg0->rot.y += 20.0f) > var_f29) { arg0->rot.y = var_f29; } if (arg0->rot.y > var_f29 && (arg0->rot.y -= 20.0f) < var_f29) { arg0->rot.y = var_f29; } arg0->trans.x += var_f30; arg0->trans.y = 0.0f; arg0->trans.z = temp_r31->unkB8; if (arg0->trans.x < -225.0f) { arg0->trans.x = -225.0f; } if (arg0->trans.x > 225.0f) { arg0->trans.x = 225.0f; } if (fn_1_F00() >= 7) { temp_r31->unk18 = 9; temp_r31->unk68 = 0; } else if (temp_r31->unk10 & PAD_BUTTON_A) { if (var_r28 > 0) { temp_r27->unk_0C = -1; temp_r31->unk16 = 3; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); CharModelMotionSpeedSet(temp_r31->unk02, 1.0f); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); temp_r31->unk7C = 6.5f; temp_r31->unk68 = 0; arg0->rot.y = 90.0f; i = 99; if ((var_r26 = fn_1_B304(lbl_1_bss_40)) != 0) { for (i = 0; i < var_r26; i++) { if (lbl_1_bss_40[0]->unk1C < lbl_1_bss_40[0]->unk14 || lbl_1_bss_40[0]->unk1C - lbl_1_bss_40[0]->unk14 > 6.0f) { continue; } if (lbl_1_bss_40[0]->unk1C < 36.0f) { var_f31 = lbl_1_bss_40[0]->unk68.z - arg0->trans.z; } else { var_f31 = lbl_1_bss_40[0]->unk38.z - arg0->trans.z; } if (var_f31 < -100.0f) { continue; } var_f31 = fabs(var_f31); if (var_f31 >= 300.0f) { temp_r31->unk8C = 13.5f; } else if (var_f31 <= 100.0f) { temp_r31->unk8C = 6.5f; } else { temp_r31->unk8C = 10.0f; } } } if (i >= var_r26) { temp_r31->unk8C = 10.0f; } temp_r31->unk18 = 2; } else if (var_r28 < 0) { temp_r27->unk_0C = -1; temp_r31->unk16 = 5; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); CharModelMotionSpeedSet(temp_r31->unk02, 1.0f); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); temp_r31->unk7C = 6.5f; temp_r31->unk68 = 0; arg0->rot.y = -90.0f; i = 99; if ((var_r26 = fn_1_B304(lbl_1_bss_40)) != 0) { for (i = 0; i < var_r26; i++) { if (lbl_1_bss_40[0]->unk1C < lbl_1_bss_40[0]->unk14 || lbl_1_bss_40[0]->unk1C - lbl_1_bss_40[0]->unk14 > 6.0f) { continue; } if (lbl_1_bss_40[0]->unk1C < 36.0f) { var_f31 = lbl_1_bss_40[0]->unk68.z - arg0->trans.z; } else { var_f31 = lbl_1_bss_40[0]->unk38.z - arg0->trans.z; } if (var_f31 > 100.0f) { continue; } var_f31 = fabs(var_f31); if (var_f31 >= 300.0f) { temp_r31->unk8C = 13.5f; } else if (var_f31 <= 100.0f) { temp_r31->unk8C = 6.5f; } else { temp_r31->unk8C = 10.0f; } } } if (i >= var_r26) { temp_r31->unk8C = 10.0f; } temp_r31->unk18 = 4; } else { temp_r27->unk_0C = -1; temp_r31->unk16 = 7; CharModelMotionSet(temp_r31->unk02, arg0->motion[temp_r31->unk16]); CharModelMotionSpeedSet(temp_r31->unk02, 1.0f); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); temp_r31->unk7C = 10.5f; temp_r31->unk68 = 0; arg0->rot.y = 0.0f; temp_r31->unk18 = 7; } } break; case 2: arg0->trans.x += temp_r31->unk8C; if (arg0->trans.x > 225.0f) { arg0->trans.x = 225.0f; } arg0->trans.y += temp_r31->unk7C; temp_r31->unk7C -= 0.49f; temp_r31->unk68++; if (temp_r31->unk68 == temp_r31->unk80 - 12.0f) { temp_r31->unk16 = 4; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); } if (arg0->trans.y <= 0.0f) { for (i = 0; i < 6; i++) { sp48.x = sind(-90.0f + 30.0f * i); sp48.z = cosd(-90.0f + 30.0f * i); sp48.y = 0.0f; sp54.x = 100.0f * sp48.x * 0.01f; sp54.z = 100.0f * sp48.z * 0.01f; sp54.y = 1.0f; sp60.x = arg0->trans.x + 100.0f * sp48.x * 0.2; sp60.z = arg0->trans.z + 100.0f * sp48.z * 0.2; sp60.y = 0.0f; fn_1_DD70(sp60, sp54, 50.0f, -0.25f, 20.0f, 0.5f, lbl_1_data_630); } arg0->trans.y = 0.0f; temp_r31->unk18 = 3; } break; case 3: if (CharModelMotionEndCheck(temp_r31->unk02) && CharModelMotionShiftIDGet(temp_r31->unk02) == -1) { memset(&temp_r31->unk1C, 0, sizeof(temp_r31->unk1C)); temp_r31->unk58 = 0; temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); temp_r31->unk18 = 6; temp_r31->unkAC = 0; } break; case 4: arg0->trans.x -= temp_r31->unk8C; if (arg0->trans.x < -225.0f) { arg0->trans.x = -225.0f; } arg0->trans.y += temp_r31->unk7C; temp_r31->unk7C -= 0.49f; temp_r31->unk68++; if (temp_r31->unk68 == temp_r31->unk80 - 12.0f) { temp_r31->unk16 = 6; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); } if (arg0->trans.y <= 0.0f) { for (i = 0; i < 6; i++) { sp48.x = sind(-90.0f + 30.0f * i); sp48.z = cosd(-90.0f + 30.0f * i); sp48.y = 0.0f; sp54.x = 100.0f * sp48.x * 0.01f; sp54.z = 100.0f * sp48.z * 0.01f; sp54.y = 1.0f; sp60.x = arg0->trans.x + 100.0f * sp48.x * 0.2; sp60.z = arg0->trans.z + 100.0f * sp48.z * 0.2; sp60.y = 0.0f; fn_1_DD70(sp60, sp54, 50.0f, -0.25f, 20.0f, 0.5f, lbl_1_data_630); } arg0->trans.y = 0.0f; temp_r31->unk18 = 5; } break; case 5: if (CharModelMotionEndCheck(temp_r31->unk02) && CharModelMotionShiftIDGet(temp_r31->unk02) == -1) { memset(&temp_r31->unk1C, 0, sizeof(temp_r31->unk1C)); temp_r31->unk58 = 0; temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); temp_r31->unk18 = 6; temp_r31->unkAC = 0; } break; case 6: if (++temp_r31->unkAC > 0.0f) { temp_r31->unkAC = 0; temp_r31->unk18 = 1; } break; case 7: arg0->trans.y += temp_r31->unk7C; temp_r31->unk7C -= 0.65333337f; temp_r31->unk68++; if (arg0->trans.y <= 0.0f) { temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); arg0->trans.y = 0.0f; temp_r31->unk68 = 0; temp_r31->unk18 = 8; } break; case 8: if (++temp_r31->unk68 > 12.0f) { memset(&temp_r31->unk1C, 0, sizeof(temp_r31->unk1C)); temp_r31->unk58 = 0; temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); temp_r31->unk18 = 1; } break; case 9: arg0->rot.y = fn_1_122F4(0.0f, arg0->rot.y, 10.0f); if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 1) { temp_r31->unk16 = 1; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 == 1) { arg0->trans.z += 5.0f; } if (arg0->trans.z > lbl_1_data_150->z + 100.0f) { temp_r31->unk18 = 10; } break; case 10: arg0->rot.y = fn_1_122F4(0.0f, arg0->rot.y, 10.0f); if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 0) { temp_r31->unk16 = 0; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_LOOP); } break; case 11: if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 9) { temp_r31->unk16 = 9; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); } break; case 12: if (CharModelMotionShiftIDGet(temp_r31->unk02) == -1 && temp_r31->unk16 != 10) { temp_r31->unk16 = 10; CharModelMotionShiftSet(temp_r31->unk02, arg0->motion[temp_r31->unk16], 0.0f, 8.0f, HU3D_MOTATTR_NONE); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_LOOP); Hu3DModelAttrReset(arg0->model[0], HU3D_MOTATTR_SHIFT_LOOP); } break; } lbl_1_bss_B8 = arg0; temp_r31->unkEC = arg0->trans.x - temp_r31->unkE0; temp_r31->unkF0 = arg0->trans.y - temp_r31->unkE4; temp_r31->unkF4 = arg0->trans.z - temp_r31->unkE8; temp_r31->unkE0 = arg0->trans.x; temp_r31->unkE4 = arg0->trans.y; temp_r31->unkE8 = arg0->trans.z; } void fn_1_77C4(omObjData *arg0) { arg0->func = NULL; } void fn_1_77D0(void) { s32 i; for (i = 0; i < 4; i++) { fn_1_77C4(lbl_1_bss_BC[i]); } } s32 fn_1_781C(void) { omObjData *temp_r29; StructBssBCData *temp_r31; s32 i; for (i = 0; i < 4; i++) { temp_r29 = lbl_1_bss_BC[i]; temp_r31 = temp_r29->data; if (temp_r31->unk0A == 0) { if (temp_r31->unk18 != 0 || fabs(fn_1_121DC(temp_r29->rot.y, 0.0f)) > 1.0) { break; } } else { if (temp_r31->unk18 < 5) { break; } } } if (i >= 4) { return 1; } return 0; } s32 fn_1_791C(void) { omObjData *temp_r30; StructBssBCData *temp_r31; s32 i; for (i = 0; i < 4; i++) { temp_r30 = lbl_1_bss_BC[i]; temp_r31 = temp_r30->data; if (temp_r31->unk0A == 0) { if (temp_r31->unk18 != 10 || fabs(fn_1_121DC(temp_r30->rot.y, 0.0f)) > 1.0 || CharModelMotionShiftIDGet(temp_r31->unk02) != -1) { break; } } else { if (temp_r31->unk18 != 10 || fabs(fn_1_121DC(temp_r30->rot.y, 0.0f)) > 1.0 || CharModelMotionShiftIDGet(temp_r31->unk02) != -1) { break; } } } if (i >= 4) { return 1; } return 0; } void fn_1_7AA8(s32 arg0) { omObjData *var_r29; StructBssBCData *temp_r31; s32 i; for (i = 0; i < 4; i++) { var_r29 = lbl_1_bss_BC[i]; temp_r31 = var_r29->data; if (temp_r31->unk0A == 0) { if (temp_r31->unk0A == arg0) { temp_r31->unk18 = 11; } else { temp_r31->unk18 = 12; } } else { if (temp_r31->unk0A == arg0) { temp_r31->unk18 = 11; } else { temp_r31->unk18 = 12; } } } } s32 fn_1_7B48(Vec *arg0, Vec *arg1, Vec *arg2, float arg3) { Vec spA8[4]; Vec sp78[4]; Vec sp48[4]; Vec sp3C; Vec sp30; Vec sp24; Vec sp18; Vec spC; float var_f31; float var_f28; float var_f30; float var_f27; float var_f26; omObjData *temp_r31; StructBssBCData *temp_r28; ModelData *sp8; if (lbl_1_bss_B8 == NULL) { return 0; } temp_r31 = lbl_1_bss_B8; temp_r28 = temp_r31->data; sp8 = &Hu3DData[temp_r31->model[0]]; *arg2 = *arg1; switch (temp_r28->unk18) { case 2: case 4: var_f31 = 150.0f; var_f28 = 130.0f; var_f30 = 60.000004f; var_f27 = 130.0f; break; default: var_f31 = 100.0f; var_f28 = 130.0f; var_f30 = 60.000004f; var_f27 = 0.0f; break; } sp78[0].x = temp_r31->trans.x - 0.5f * var_f31; sp78[0].y = temp_r31->trans.y + var_f28; sp78[0].z = temp_r31->trans.z + 0.5f * var_f30; sp78[1].x = temp_r31->trans.x + 0.5f * var_f31; sp78[1].y = temp_r31->trans.y + var_f28; sp78[1].z = temp_r31->trans.z + 0.5f * var_f30; sp78[2].x = temp_r31->trans.x + 0.5f * var_f31; sp78[2].y = temp_r31->trans.y - var_f27; sp78[2].z = temp_r31->trans.z + 0.5f * var_f30; sp78[3].x = temp_r31->trans.x - 0.5f * var_f31; sp78[3].y = temp_r31->trans.y - var_f27; sp78[3].z = temp_r31->trans.z + 0.5f * var_f30; spA8[0].x = temp_r31->trans.x + 0.5f * var_f31; spA8[0].y = temp_r31->trans.y + var_f28; spA8[0].z = temp_r31->trans.z - 0.5f * var_f30; spA8[1].x = temp_r31->trans.x - 0.5f * var_f31; spA8[1].y = temp_r31->trans.y + var_f28; spA8[1].z = temp_r31->trans.z - 0.5f * var_f30; spA8[2].x = temp_r31->trans.x - 0.5f * var_f31; spA8[2].y = temp_r31->trans.y - var_f27; spA8[2].z = temp_r31->trans.z - 0.5f * var_f30; spA8[3].x = temp_r31->trans.x + 0.5f * var_f31; spA8[3].y = temp_r31->trans.y - var_f27; spA8[3].z = temp_r31->trans.z - 0.5f * var_f30; VECNormalize(arg1, &spC); VECScale(&spC, &spC, arg3); VECAdd(arg0, arg1, &sp30); VECAdd(arg0, arg1, &sp24); VECAdd(arg0, &spC, &sp3C); VECAdd(&sp30, &spC, &sp30); sp48[0] = sp78[0]; sp48[1] = sp78[1]; sp48[2] = sp78[2]; sp48[3] = sp78[3]; if (fn_1_137C4(sp48, arg0, arg1, &sp18, arg3, 4) != 0) { arg2->x *= 0.5f; arg2->z *= -0.5f; fn_1_82C8(15, 1, 0); return 1; } if (sp24.x >= sp78[0].x - arg3 && sp24.x <= sp78[2].x + arg3 && sp24.y <= sp78[0].y + arg3 && sp24.y >= sp78[2].y - arg3 && sp24.z <= sp78[0].z + arg3 && sp24.z >= spA8[3].z - arg3) { if (temp_r28->unkEC > 0.0f && sp24.x > temp_r31->trans.x) { spC = *arg1; spC.y = 0.0f; var_f26 = VECMag(&spC); arg2->x = 0.5f * var_f26 + temp_r28->unkEC; arg2->z = 0.0f; } else if (temp_r28->unkEC < 0.0f && sp24.x < temp_r31->trans.x) { spC = *arg1; spC.y = 0.0f; var_f26 = VECMag(&spC); arg2->x = -(0.5f * var_f26) + temp_r28->unkEC; arg2->z = 0.0f; } else { if (fabs(arg1->x) > fabs(arg1->z)) { arg2->x *= -1.0f; } else { arg2->z *= -1.0f; } arg2->x *= 0.5f; arg2->z *= 0.5f; } fn_1_82C8(15, 1, 0); return 1; } return 0; } void fn_1_82C8(s32 arg0, s32 arg1, s32 arg2) { omObjData *var_r31; StructBssBCData *var_r30; if (lbl_1_bss_B8 != NULL) { var_r31 = lbl_1_bss_B8; var_r30 = var_r31->data; omVibrate(var_r30->unk00, 12, 6, 6); HuAudFXPlay(0x61A); } } s32 lbl_1_data_668[] = { 3, 4, 5, 6 }; float lbl_1_data_678[] = { 0.6f, 0.65f, 0.7f, 0.7f }; s32 lbl_1_data_688[][2] = { { 30, 60 }, { 24, 48 }, { 12, 24 }, { 0, 12 } }; s32 lbl_1_data_6A8[][2] = { { 36, 84 }, { 36, 78 }, { 33, 72 }, { 33, 66 } }; void fn_1_8338(omObjData *arg0) { float var_f31; float temp_f30; StructBssBCData *temp_r31; ModelData *sp8; s32 var_r29; temp_r31 = arg0->data; sp8 = &Hu3DData[arg0->model[0]]; var_r29 = temp_r31->unk18; if (temp_r31->unkA0 == 0) { temp_r31->unkA0 = 1; temp_r31->unk70 = 0; var_r29 = 5; } switch (var_r29) { case 5: if (temp_r31->unk70 != 0) { break; } if (temp_r31->unk9C > lbl_1_bss_108 && lbl_1_data_668[temp_r31->unk08] > temp_r31->unk98 && lbl_1_bss_B8 != NULL) { temp_r31->unkA4 = 1; temp_r31->unkA8 = (1.0f / 127) * frand7(); if (lbl_1_bss_B8->trans.x >= 270.0f) { temp_r31->unk88 = -(0.4f + 0.3f * temp_r31->unkA8); } else if (lbl_1_bss_B8->trans.x <= -270.0f) { temp_r31->unk88 = 0.4f + 0.3f * temp_r31->unkA8; } else if (frand() & 1) { temp_r31->unk88 = -(0.3f + 0.1f * temp_r31->unkA8); } else { temp_r31->unk88 = 0.3f + 0.1f * temp_r31->unkA8; } var_f31 = lbl_1_data_6A8[3][0]; temp_f30 = lbl_1_data_6A8[3][1]; temp_r31->unk70 = var_f31 + (1.0f / 127) * frand7() * (temp_f30 - var_f31); var_f31 = lbl_1_data_688[temp_r31->unk08][0]; temp_f30 = lbl_1_data_688[temp_r31->unk08][1]; temp_r31->unk74 = var_f31 + (1.0f / 127) * frand7() * (temp_f30 - var_f31); temp_r31->unk98++; } else { if (frand() & 1) { temp_r31->unk88 = (1.0f / 127) * frand7() * lbl_1_data_678[temp_r31->unk08]; } else { temp_r31->unk88 = -((1.0f / 127) * frand7()) * lbl_1_data_678[temp_r31->unk08]; } var_f31 = lbl_1_data_6A8[temp_r31->unk08][0]; temp_f30 = lbl_1_data_6A8[temp_r31->unk08][1]; temp_r31->unk70 = var_f31 + (1.0f / 127) * frand7() * (temp_f30 - var_f31); var_f31 = lbl_1_data_688[temp_r31->unk08][0]; temp_f30 = lbl_1_data_688[temp_r31->unk08][1]; temp_r31->unk74 = var_f31 + (1.0f / 127) * frand7() * (temp_f30 - var_f31); } temp_r31->unk6C = 0; break; case 6: if (++temp_r31->unk6C >= temp_r31->unk74) { temp_r31->unk12 = 80.0f * temp_r31->unk88; temp_r31->unk10 |= PAD_BUTTON_A; temp_r31->unk0E |= PAD_BUTTON_A; temp_r31->unk6C = 0; return; } var_f31 = sind(180.0f * ((temp_r31->unk74 - temp_r31->unk6C) / 60.0f)); if (temp_r31->unk74 & 1) { var_f31 *= -1.0f; } temp_r31->unk12 = 80.0f * (temp_r31->unk88 + var_f31); return; case 7: if (temp_r31->unkA4 != 0) { if (lbl_1_bss_B8->trans.x >= 148.5f) { temp_r31->unk88 = -(0.4f + 0.3f * temp_r31->unkA8); } else if (lbl_1_bss_B8->trans.x <= -148.5f) { temp_r31->unk88 = 0.4f + 0.3f * temp_r31->unkA8; } else if (lbl_1_bss_B8->trans.x > 0.0f) { temp_r31->unk88 = -(0.5f + 0.2f * temp_r31->unkA8); } else { temp_r31->unk88 = 0.5f + 0.2f * temp_r31->unkA8; } } temp_r31->unk12 = 80.0f * temp_r31->unk88; if (++temp_r31->unk6C > temp_r31->unk70) { temp_r31->unk88 = 0.0f; temp_r31->unk6C = 0; temp_r31->unk70 = 0; temp_r31->unk74 = 0; temp_r31->unkA4 = 0; } else { temp_r31->unk0E |= PAD_BUTTON_A; } break; default: temp_r31->unk6C = 0; break; } } s32 lbl_1_data_6C8[] = { 60, 45, 30, 15 }; float lbl_1_data_6D8[][2] = { { 200.0f, 150.0f }, { 125.0f, 100.0f }, { 0.0f, 0.0f }, { 0.0f, 0.0f } }; s32 lbl_1_data_6F8[][2] = { { 48, 150 }, { 39, 114 }, { 33, 90 }, { 21, 42 } }; s32 lbl_1_data_718[][2] = { { 27, 39 }, { 15, 27 }, { 9, 15 }, { 0, 3 } }; void fn_1_8CB4(omObjData *arg0) { Vec spC; float temp_f29; float temp_f28; float var_f30; float var_f31; float var_f26; // ! - uninitialized float temp_f27; StructBssBCData *temp_r31; ModelData *sp8; StructBssA8Data *temp_r30; s32 var_r28; s32 var_r24; s32 i, j; s32 var_r25; var_r25 = 0; temp_r31 = arg0->data; sp8 = &Hu3DData[arg0->model[0]]; if (temp_r31->unk64 != -1) { temp_r30 = fn_1_B13C(temp_r31->unk64); if (temp_r30 != NULL) { if (temp_r30->unk0C != 3 || temp_r30->unk08 != 0 || temp_r30->unk38.z <= -900.0f) { var_r25 = 1; } } else { var_r25 = 1; } } else { var_r25 = 1; } if (var_r25 != 0) { temp_r31->unk64 = -1; temp_r31->unk6C = 0; temp_f29 = lbl_1_data_6F8[temp_r31->unk08][0]; temp_f28 = lbl_1_data_6F8[temp_r31->unk08][1]; temp_r31->unk90 = temp_f29 + (1.0f / 127) * frand7() * (temp_f28 - temp_f29); temp_f29 = lbl_1_data_718[temp_r31->unk08][0]; temp_f28 = lbl_1_data_718[temp_r31->unk08][1]; temp_r31->unk94 = temp_f29 + (1.0f / 127) * frand7() * (temp_f28 - temp_f29); temp_r31->unkD4.x = lbl_1_data_6D8[temp_r31->unk08][0] * (0.5f - (1.0f / 127) * frand7()); temp_r31->unkD4.y = lbl_1_data_6D8[temp_r31->unk08][1] * (0.5f - (1.0f / 127) * frand7()); if (lbl_1_bss_104 >= 5) { temp_r31->unkD4.x *= 1.5f; } var_r24 = fn_1_B304(lbl_1_bss_4); if (var_r24 != 0) { for (i = 0; i < var_r24; i++) { temp_r30 = lbl_1_bss_4[i]; if (temp_r30 == NULL || temp_r30->unk06 == 0 || 0.0f == temp_r30->unk50.z || fabs(temp_r30->unk38.x) >= 325.0 || temp_r30->unk14 < temp_r31->unk94) { continue; } var_r28 = (var_f26 - temp_r30->unk38.z) / temp_r30->unk50.z; if (var_r28 > 300.0f) { continue; } spC = temp_r30->unk50; var_f30 = temp_r30->unk38.x; var_f31 = temp_r30->unk38.y; for (j = 0; j < var_r28; j++) { var_f30 += spC.x; var_f31 += spC.y; spC.x *= temp_r30->unk8C; spC.z *= temp_r30->unk8C; spC.y -= 0.32666668f; if (var_f31 < 20.0) { var_f31 = 0.32666668f; spC.y *= temp_r30->unk90; } } var_f30 += temp_r31->unkD4.x; var_f31 += temp_r31->unkD4.y; if (temp_r31->unk08 <= 2 || !(fabs(var_f30) >= 225.0 || var_f31 >= 200.0f)) { temp_r31->unk64 = temp_r30->unk02; break; } } } } if (temp_r31->unk64 != -1 && (temp_r30 = fn_1_B13C(temp_r31->unk64)) != NULL) { if (temp_r30->unk38.z > 60.000004f + arg0->trans.z) { var_f26 = 60.000004f + arg0->trans.z; var_r28 = (var_f26 - temp_r30->unk38.z) / temp_r30->unk50.z; if (var_r28 > 300.0f) { temp_r31->unk64 = -1; return; } spC = temp_r30->unk50; var_f30 = temp_r30->unk38.x; var_f31 = temp_r30->unk38.y; for (j = 0; j < var_r28; j++) { var_f30 += spC.x; var_f31 += spC.y; spC.x *= temp_r30->unk8C; spC.z *= temp_r30->unk8C; spC.y -= 0.32666668f; if (var_f31 < 20.0) { var_f31 = 0.32666668f; spC.y *= temp_r30->unk90; } } var_r28 += temp_r31->unk90; var_f30 += temp_r31->unkD4.x; var_f31 += temp_r31->unkD4.y; } else { var_r28 = 0; var_f30 = temp_r30->unk38.x; var_f31 = temp_r30->unk38.y; } if (arg0->trans.x - 25.0f > var_f30) { temp_r31->unk12 = -64; } if (arg0->trans.x + 25.0f < var_f30) { temp_r31->unk12 = 64; } temp_f27 = fabs(var_f30 - arg0->trans.x); if (var_r28 < 10 && temp_f27 > 120.00001f) { temp_r31->unk10 |= 0x100; } else if (var_r28 < 5 && temp_f27 < 25.0f && var_f31 > 100.0f) { temp_r31->unk10 |= 0x100; } else if (var_r28 > 20 && temp_f27 < 50.0) { temp_r31->unk10 /= 2; } if (++temp_r31->unk6C > lbl_1_data_6C8[temp_r31->unk08]) { temp_r31->unk64 = -1; } } } void fn_1_95C4(void) { lbl_1_bss_A8 = omAddObjEx(lbl_1_bss_120, 0x50, 0, 0, -1, fn_1_9614); } s32 lbl_1_data_738[] = { DATA_MAKE_NUM(DATADIR_M423, 4), DATA_MAKE_NUM(DATADIR_M423, 5), DATA_MAKE_NUM(DATADIR_M423, 6), DATA_MAKE_NUM(DATADIR_M423, 7), DATA_MAKE_NUM(DATADIR_M423, 8), DATA_MAKE_NUM(DATADIR_M423, 9), DATA_MAKE_NUM(DATADIR_M423, 10), DATA_MAKE_NUM(DATADIR_M423, 11) }; void fn_1_9614(omObjData *arg0) { StructBssA8Data *var_r28; StructBssA8Data *var_r31; ModelData *var_r27; s32 i; if (lbl_1_bss_EC[0] == -1) { return; } var_r31 = var_r28 = arg0->data = HuMemDirectMallocNum(HEAP_SYSTEM, 15 * sizeof(*var_r31), MEMORY_DEFAULT_NUM); memset(var_r31, 0, 15 * sizeof(*var_r31)); for (i = 0; i < 15; i++, var_r31++) { var_r31->unk04 = i % 3; var_r31->unk02 = i; var_r31->unk06 = 0; var_r31->unk0A = 0; var_r31->unk08 = 0; var_r31->unk0C = 0; var_r31->unk0E = 0; var_r31->unk10 = 0; var_r31->unk12 = 0; var_r31->unk14 = 0; var_r31->unk18 = 0; var_r31->unk1C = 0; var_r31->unk38.x = var_r31->unk38.y = var_r31->unk38.z = 0.0f; var_r31->unk44 = var_r31->unk48 = var_r31->unk4C = 0.0f; var_r31->unk50.x = var_r31->unk50.y = var_r31->unk50.z = 0.0f; var_r31->unk74 = var_r31->unk38; var_r31->unk80 = var_r31->unk50; var_r31->unk8C = 0.995f; var_r31->unk90 = -0.5f; var_r31->unk68.x = var_r31->unk68.y = var_r31->unk68.z = 0.0f; if (i < 3) { var_r31->unk00 = Hu3DModelCreateFile(lbl_1_data_738[lbl_1_bss_EC[var_r31->unk04]]); } else { var_r31->unk00 = Hu3DModelLink(var_r28[var_r31->unk04].unk00); } Hu3DModelScaleSet(var_r31->unk00, 0.8f, 0.8f, 0.8f); Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); Hu3DModelCameraSet(var_r31->unk00, 5); Hu3DModelShadowSet(var_r31->unk00); var_r27 = &Hu3DData[var_r31->unk00]; MTXIdentity(var_r27->unk_F0); } fn_1_B430(); arg0->func = fn_1_98A0; } void fn_1_98A0(omObjData *arg0) { Mtx spC4; Vec spB8; Vec spAC; Vec spA0; Vec sp94; Vec sp88; float temp_f30; float var_f25; float var_f31; float var_f22; StructBssA8Data *var_r31; StructBssA8Data *var_r30; ModelData *temp_r27; s32 i, j; s32 var_r25; s32 var_r23; s32 var_r28; var_r31 = arg0->data; for (i = 0; i < 15; i++, var_r31++) { if (var_r31->unk06 == 0) { continue; } temp_r27 = &Hu3DData[var_r31->unk00]; var_r25 = 0; switch (var_r31->unk0C) { case 0: break; case 1: temp_f30 = var_r31->unk14 / 60.0f; var_r31->unk14++; if (temp_f30 > 1.0f) { var_f31 = 1.0f; } else { var_f31 = temp_f30; } var_r31->unk38.x = var_r31->unk20.x + var_f31 * (var_r31->unk2C.x - var_r31->unk20.x); var_r31->unk38.z = var_r31->unk20.z + var_f31 * (var_r31->unk2C.z - var_r31->unk20.z); if (temp_f30 < 0.6f) { var_f31 = temp_f30 / 0.6f; var_f25 = 100.0f; } else if (temp_f30 < 1.0f) { var_f31 = (temp_f30 - 0.6f) / 0.4f; var_f25 = 50.0f; } else { var_f31 = (temp_f30 - 1.0f) / 0.25f; var_f25 = 10.0f; } var_r31->unk38.y = 20.0 + var_f25 * sind(180.0f * var_f31); if (var_r31->unk14 >= 75.0f) { var_r31->unk0C = 2; var_r31->unk14 = 0; var_r31->unk38.y = 20.0f; var_r31->unk50.y = 0.0f; } if (var_r31->unk14 < 73.2f) { spAC.x = var_r31->unk50.z; spAC.z = -var_r31->unk50.x; spAC.y = 0.0f; var_f31 = 0.05 * VECMag(&spAC); if (var_f31 > 0.00001f) { MTXRotAxisRad(spC4, &spAC, var_f31); MTXConcat(spC4, temp_r27->unk_F0, temp_r27->unk_F0); } } Hu3DModelPosSet(var_r31->unk00, var_r31->unk38.x, var_r31->unk38.y, var_r31->unk38.z); Hu3DModelRotSet(var_r31->unk00, var_r31->unk44, var_r31->unk48, var_r31->unk4C); break; case 2: Hu3DModelPosSet(var_r31->unk00, var_r31->unk38.x, var_r31->unk38.y, var_r31->unk38.z); Hu3DModelRotSet(var_r31->unk00, var_r31->unk44, var_r31->unk48, var_r31->unk4C); break; case 3: var_r31->unk74 = var_r31->unk38; var_r31->unk80 = var_r31->unk50; var_r23 = 0; if (var_r28 = fn_1_C498(&var_r31->unk38, &var_r31->unk50, &spB8, &sp88, 20.0f, 3)) { if (var_r28 & 0x8000) { var_r25 = 1; } if (var_r28 & 0x2000) { } if ((var_r28 & 0x4000) && var_r31->unk12 == 0 && var_r31->unk08 == 0) { var_f31 = VECMagXZ(&var_r31->unk50); sp94.x = 0.0f; sp94.y = 0.0f; sp94.z = (1.0f / 127) * frand7() * 360.0f; fn_1_E334(spB8, sp94, 0.5f); HuAudFXPlay(0x620); var_r31->unk12 = 1; } var_r31->unk38 = spB8; var_r31->unk50 = sp88; var_r31->unk8C = 0.975f; var_r31->unk90 = -0.5f; } else { if (fabs(var_r31->unk38.x) > 1000.0) { Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); var_r31->unk0C = 0; var_r31->unk06 = 0; var_r31->unk14 = 0; } else { var_r31->unk38.x += var_r31->unk50.x; var_r31->unk38.y += var_r31->unk50.y; var_r31->unk38.z += var_r31->unk50.z; } } if (var_r31->unk08 == 0) { for (j = 0, var_r30 = arg0->data; j < 15; j++, var_r30++) { if (i == j || var_r30->unk06 == 0 || var_r30->unk08 != 0 || var_r30->unk0C != 3) { continue; } VECSubtract(&var_r31->unk38, &var_r30->unk38, &spAC); var_f31 = VECMag(&spAC); if (var_f31 < 40.0) { spA0 = var_r31->unk38; if (var_f31 != 0.0f) { temp_f30 = 40.0 - var_f31; VECNormalize(&spAC, &spAC); VECScale(&spAC, &spAC, temp_f30); VECAdd(&var_r31->unk38, &spAC, &var_r31->unk38); } else { var_r31->unk38.x += 40.0; } temp_f30 = VECMag(&var_r31->unk50); var_f22 = VECMag(&var_r30->unk50); var_f31 = 0.5f * (temp_f30 + var_f22); if (VECMag(&var_r31->unk50) == 0.0f) { var_r31->unk50.x = 1.0f; } VECNormalize(&var_r31->unk50, &var_r31->unk50); VECSubtract(&var_r31->unk38, &var_r30->unk38, &spAC); if (VECMag(&spAC) == 0.0f) { spAC.x = 1.0f; } VECNormalize(&spAC, &spAC); VECAdd(&var_r31->unk50, &spAC, &var_r31->unk50); if (VECMag(&var_r31->unk50) == 0.0f) { var_r31->unk50.x = 1.0f; } VECNormalize(&var_r31->unk50, &var_r31->unk50); VECScale(&var_r31->unk50, &var_r31->unk50, var_f31); if (VECMag(&var_r30->unk50) == 0.0f) { var_r30->unk50.x = -1.0f; } VECNormalize(&var_r30->unk50, &var_r30->unk50); VECSubtract(&var_r30->unk38, &var_r31->unk38, &spAC); if (VECMag(&spAC) == 0.0f) { spAC.x = 1.0f; } VECNormalize(&spAC, &spAC); VECAdd(&var_r30->unk50, &spAC, &var_r30->unk50); if (VECMag(&var_r30->unk50) == 0.0f) { var_r30->unk50.x = -1.0f; } VECNormalize(&var_r30->unk50, &var_r30->unk50); VECScale(&var_r30->unk50, &var_r30->unk50, var_f31); if (var_r28 = fn_1_C498(&spA0, &spAC, &spB8, &sp88, 20.0f, 1)) { if (var_r28 & 0x8000) { var_r25 = 1; } var_r31->unk38 = spB8; var_r31->unk50 = sp88; } } } } if (var_r31->unk38.y < 20.0) { var_r31->unk38.y = 20.0f; var_r31->unk50.y *= var_r31->unk90; var_r23 = 1; if (var_r31->unk38.x >= -225.0f && var_r31->unk38.x <= 225.0f && var_r31->unk38.z >= -1100.0f && var_r31->unk38.z <= -900.0f) { var_r25 = 1; } if (fabs(var_r31->unk50.y) < 0.05f) { var_r31->unk50.y = 0.0f; } } if (var_r31->unk08 == 0) { VECSubtract(&var_r31->unk38, &var_r31->unk74, &spAC); if (fn_1_7B48(&var_r31->unk38, &var_r31->unk50, &sp88, 20.0f) != 0) { var_r31->unk50 = sp88; var_r31->unk08 = 1; var_r31->unk8C = 0.975f; var_r31->unk90 = -0.5f; } } if (var_r31->unk50.z > 0.0f) { var_r31->unk08 = 1; } var_r31->unk50.y -= 0.32666668f; if (var_r23 == 0) { var_r31->unk50.x *= var_r31->unk8C; var_r31->unk50.z *= var_r31->unk8C; } else { var_r31->unk50.x *= 0.995f * var_r31->unk8C; var_r31->unk50.z *= 0.995f * var_r31->unk8C; } if (var_r25 != 0 && var_r31->unk0A == 0 && var_r31->unk08 == 0) { fn_1_AEE8(i); } if (var_r31->unk08 != 0) { var_r31->unk18++; if (var_r31->unk18 & 1) { Hu3DModelAttrReset(var_r31->unk00, HU3D_ATTR_DISPOFF); } else { Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); } if (var_r31->unk18 >= 120.0f) { Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); var_r31->unk0C = 0; var_r31->unk06 = 0; var_r31->unk14 = 0; var_r31->unk18 = 0; } } temp_f30 = VECMagXZ(&var_r31->unk50); if (fabs(temp_f30) < 0.1f && var_r31->unk38.y <= 20.0 && var_r31->unk08 == 0) { var_r31->unk0C = 4; var_r31->unk14 = 0; var_r31->unk18 = 0; } if (fabs(var_r31->unk38.x) > 2000.0 || fabs(var_r31->unk38.y) > 2000.0 || fabs(var_r31->unk38.z) > 2000.0) { var_r31->unk0C = 4; var_r31->unk14 = 0; var_r31->unk18 = 120; } var_r31->unk14++; spAC.x = var_r31->unk50.z; spAC.z = -var_r31->unk50.x; spAC.y = 0.0f; var_f31 = 0.05 * VECMag(&spAC); if (var_f31 > 0.00001f) { MTXRotAxisRad(spC4, &spAC, var_f31); MTXConcat(spC4, temp_r27->unk_F0, temp_r27->unk_F0); } Hu3DModelPosSet(var_r31->unk00, var_r31->unk38.x, var_r31->unk38.y, var_r31->unk38.z); break; case 4: var_r31->unk18++; if (var_r31->unk18 & 1) { Hu3DModelAttrReset(var_r31->unk00, HU3D_ATTR_DISPOFF); } else { Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); } if (var_r31->unk18 >= 120.0f) { Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); var_r31->unk0C = 0; var_r31->unk06 = 0; var_r31->unk14 = 0; var_r31->unk18 = 0; } break; } } } void fn_1_A9A0(omObjData *arg0) { arg0->func = NULL; } void fn_1_A9AC(void) { fn_1_A9A0(lbl_1_bss_A8); } s32 fn_1_A9D4(s32 arg0, Vec arg1, Vec arg2) { StructBssA8Data *var_r31; ModelData *temp_r26; s32 var_r27; s32 i; if (lbl_1_bss_A8 == NULL) { return -1; } var_r31 = lbl_1_bss_A8->data; for (i = 0, var_r27 = -1; i < 3; i++) { if (arg0 == lbl_1_bss_EC[i]) { var_r27 = i; } } if (var_r27 == -1) { return -1; } for (i = 0; i < 15; i++, var_r31++) { if (var_r31->unk04 == var_r27 && var_r31->unk06 == 0) { break; } } if (i >= 15) { return -1; } temp_r26 = &Hu3DData[var_r31->unk00]; var_r31->unk06 = 1; var_r31->unk0A = 0; var_r31->unk08 = 0; var_r31->unk10 = 0; var_r31->unk12 = 0; var_r31->unk0C = 1; var_r31->unk14 = 0; var_r31->unk18 = 0; var_r31->unk20 = arg1; var_r31->unk2C = arg2; var_r31->unk38 = arg1; var_r31->unk44 = var_r31->unk48 = var_r31->unk4C = 0.0f; var_r31->unk50.x = 0.016666668f * (arg2.x - arg1.x); var_r31->unk50.z = 0.016666668f * (arg2.z - arg1.z); var_r31->unk50.y = 5.0f; Hu3DModelPosSet(var_r31->unk00, var_r31->unk38.x, var_r31->unk38.y, var_r31->unk38.z); Hu3DModelRotSet(var_r31->unk00, var_r31->unk44, var_r31->unk48, var_r31->unk4C); Hu3DModelAttrReset(var_r31->unk00, HU3D_ATTR_DISPOFF); MTXIdentity(temp_r26->unk_F0); return i; } void fn_1_AC0C(s32 arg0, Vec arg1) { StructBssA8Data *var_r31; if (lbl_1_bss_A8 != NULL) { var_r31 = lbl_1_bss_A8->data; if (arg0 < 0 || arg0 >= 15) { return; } var_r31[arg0].unk38 = arg1; } } void fn_1_AC80(s32 arg0, Vec arg1) { Vec sp14; Vec sp8; float var_f31; StructBssA8Data *var_r28; StructBssA8Data *temp_r31; if (lbl_1_bss_A8 == NULL) { return; } var_r28 = lbl_1_bss_A8->data; if (arg0 < 0 || arg0 >= 15) { return; } temp_r31 = &var_r28[arg0]; temp_r31->unk0C = 3; temp_r31->unk14 = 0; temp_r31->unk18 = 0; temp_r31->unk50 = arg1; temp_r31->unk74 = temp_r31->unk38; temp_r31->unk8C = 0.995f; temp_r31->unk90 = -0.5f; if (temp_r31->unk50.z < 0.0f) { sp14 = temp_r31->unk38; var_f31 = -800.0f - sp14.z; temp_r31->unk1C = fabs(var_f31 / temp_r31->unk50.z); VECScale(&arg1, &sp8, temp_r31->unk1C); VECAdd(&sp14, &sp8, &temp_r31->unk68); } else { temp_r31->unk1C = 1000; } } s32 fn_1_AE64(s32 arg0) { StructBssA8Data *temp_r31; if (lbl_1_bss_A8 == NULL) { return -1; } temp_r31 = lbl_1_bss_A8->data; if (arg0 < 0 || arg0 >= 15) { return -1; } if (temp_r31[arg0].unk06 == 0) { return -1; } return temp_r31[arg0].unk0C; } void fn_1_AEE8(s32 arg0) { StructBssA8Data *var_r26; StructBssA8Data *temp_r31; if (lbl_1_bss_A8 == NULL) { return; } var_r26 = lbl_1_bss_A8->data; if (arg0 < 0 || arg0 >= 15) { return; } temp_r31 = &var_r26[arg0]; temp_r31->unk0A = 1; temp_r31->unk08 = 1; temp_r31->unk14 = 0; fn_1_F574(temp_r31->unk38, 0.75f, lbl_1_bss_EC[temp_r31->unk04]); HuAudFXPlay(9); fn_1_3A8C(); lbl_1_bss_DC[temp_r31->unk04]++; lbl_1_bss_104--; } StructBssA8Data *fn_1_B13C(s32 arg0) { StructBssA8Data *temp_r31; StructBssA8Data *sp8; if (lbl_1_bss_A8 == NULL) { return NULL; } temp_r31 = lbl_1_bss_A8->data; sp8 = temp_r31; if (arg0 < 0 || arg0 >= 15) { return NULL; } return &temp_r31[arg0]; } GXColor lbl_1_data_758 = { 0xFF, 0xFF, 0xFF, 0xFF }; void fn_1_B1A4(void) { Vec sp2C; StructBssA8Data *sp10; StructBssA8Data *var_r31; s32 spC; s32 i; if (lbl_1_bss_A8 == NULL) { return; } var_r31 = sp10 = lbl_1_bss_A8->data; for (i = 0, spC = 0; i < 15; i++, var_r31++) { if (var_r31->unk06 == 0) { continue; } sp2C.x = sp2C.y = sp2C.z = 0.0f; fn_1_DC24(var_r31->unk38, sp2C, 100.0f, 0.0f, 1.0f, lbl_1_data_758); Hu3DModelAttrSet(var_r31->unk00, HU3D_ATTR_DISPOFF); var_r31->unk0C = 0; var_r31->unk06 = 0; var_r31->unk14 = 0; var_r31->unk18 = 0; } } s32 fn_1_B304(StructBssA8Data **arg0) { s32 var_r29; s32 i; StructBssA8Data *var_r30; StructBssA8Data *var_r28; StructBssA8Data *var_r27; if (lbl_1_bss_A8 == NULL) { return; } var_r30 = lbl_1_bss_A8->data; var_r28 = var_r30; for (i = 0, var_r29 = 0; i < 15; i++, var_r30++) { if (var_r30->unk06 == 0 || var_r30->unk0C != 3 || var_r30->unk08 != 0 || var_r30->unk38.z <= -900.0f) { continue; } arg0[var_r29] = var_r30; var_r29++; } var_r28 = var_r30; for (i = 0; i < var_r29 - 1; i++) { if (arg0[i]->unk38.z > arg0[i + 1]->unk38.z) { var_r27 = arg0[i]; arg0[i] = arg0[i + 1]; arg0[i + 1] = var_r27; } } return var_r29; } void fn_1_B430(void) { Vec sp2C[8]; Vec sp20; Vec sp14; Vec sp8; StructBss94Data *var_r31; s32 i; var_r31 = lbl_1_bss_94 = HuMemDirectMallocNum(HEAP_SYSTEM, 16 * sizeof(*lbl_1_bss_94), MEMORY_DEFAULT_NUM); memset(var_r31, 0, 16 * sizeof(*var_r31)); for (i = 0; i < 16; i++, var_r31++) { var_r31->unk02 = 0; } sp20.x = sp20.y = 0.0f; sp20.z = -1400.0f; fn_1_BCD8(&sp20, NULL, NULL, 0.8f, 0, 0x2003); sp2C[0].x = 1000.0f; sp2C[0].y = 1000.0f; sp2C[0].z = -200.0f; sp2C[1].x = -1000.0f; sp2C[1].y = 1000.0f; sp2C[1].z = -200.0f; sp2C[2].x = -1000.0f; sp2C[2].y = 0.0f; sp2C[2].z = -200.0f; sp2C[3].x = 1000.0f; sp2C[3].y = 0.0f; sp2C[3].z = -200.0f; fn_1_BCD8(sp2C, NULL, NULL, 1.0f, 0, 6); sp20.x = -650.0f; sp20.y = 75.0f; sp20.z = -1300.0f; sp14.x = 370.0f; sp14.y = 1095.0f; sp14.z = 120.0f; fn_1_BCD8(&sp20, &sp14, NULL, 0.8f, 25, 0x2004); sp20.x = 650.0f; sp20.y = 75.0f; sp20.z = -1300.0f; sp14.x = 370.0f; sp14.y = 1095.0f; sp14.z = 120.0f; fn_1_BCD8(&sp20, &sp14, NULL, 0.8f, 21, 0x2004); sp20.x = 0.0f; sp20.y = 100.0f; sp20.z = -1070.0f; sp14.x = 245.0f; sp14.y = 130.0f; sp14.z = 170.0f; fn_1_BCD8(&sp20, &sp14, NULL, 1.0f, 45, 4); sp20.x = -235.0f; sp20.y = 0.0f; sp20.z = -900.0f; sp14.x = -235.0f; sp14.y = 200.0f; sp14.z = -900.0f; sp8.x = 30.000002f; sp8.y = sp8.z = 0.0f; fn_1_BCD8(&sp20, &sp14, &sp8, 0.5f, 0, 0x4007); sp20.x = 235.0f; sp20.y = 0.0f; sp20.z = -900.0f; sp14.x = 235.0f; sp14.y = 200.0f; sp14.z = -900.0f; sp8.x = 30.000002f; sp8.y = sp8.z = 0.0f; fn_1_BCD8(&sp20, &sp14, &sp8, 0.5f, 0, 0x4007); sp20.x = 0.0f; sp20.y = 200.0f; sp20.z = -900.0f; sp14.x = 245.0f; sp14.y = 30.0f; sp14.z = 30.0f; fn_1_BCD8(&sp20, &sp14, NULL, 0.5f, 29, 0x4004); sp2C[0].x = -225.0f; sp2C[0].y = 200.0f; sp2C[0].z = -900.0f; sp2C[1].x = -225.0f; sp2C[1].y = 200.0f; sp2C[1].z = -1150.0f; sp2C[2].x = -225.0f; sp2C[2].y = 0.0f; sp2C[2].z = -1150.0f; sp2C[3].x = -225.0f; sp2C[3].y = 0.0f; sp2C[3].z = -900.0f; fn_1_BCD8(sp2C, NULL, NULL, 0.5f, 0, 0x8006); sp2C[0].x = 225.0f; sp2C[0].y = 200.0f; sp2C[0].z = -1150.0f; sp2C[1].x = 225.0f; sp2C[1].y = 200.0f; sp2C[1].z = -900.0f; sp2C[2].x = 225.0f; sp2C[2].y = 0.0f; sp2C[2].z = -900.0f; sp2C[3].x = 225.0f; sp2C[3].y = 0.0f; sp2C[3].z = -1150.0f; fn_1_BCD8(sp2C, NULL, NULL, 0.5f, 0, 0x8006); sp2C[0].x = -225.0f; sp2C[0].y = 200.0f; sp2C[0].z = -1150.0f; sp2C[1].x = 225.0f; sp2C[1].y = 200.0f; sp2C[1].z = -1150.0f; sp2C[2].x = 225.0f; sp2C[2].y = 0.0f; sp2C[2].z = -1150.0f; sp2C[3].x = -225.0f; sp2C[3].y = 0.0f; sp2C[3].z = -1150.0f; fn_1_BCD8(sp2C, NULL, NULL, 0.1f, 0, 0x8006); sp2C[0].x = -225.0f; sp2C[0].y = 200.0f; sp2C[0].z = -900.0f; sp2C[1].x = 225.0f; sp2C[1].y = 200.0f; sp2C[1].z = -900.0f; sp2C[2].x = 225.0f; sp2C[2].y = 200.0f; sp2C[2].z = -1150.0f; sp2C[3].x = -225.0f; sp2C[3].y = 200.0f; sp2C[3].z = -1150.0f; fn_1_BCD8(sp2C, NULL, NULL, 0.1f, 0, 0x8006); } s16 lbl_1_data_75C[][3] = { { 0, 1, 2 }, { 1, 3, 2 }, { 6, 5, 4 }, { 5, 6, 7 }, { 0, 2, 4 }, { 2, 6, 4 }, { 3, 1, 7 }, { 7, 1, 5 }, { 2, 3, 6 }, { 3, 7, 6 }, { 1, 0, 4 }, { 1, 4, 5 } }; void fn_1_BCD8(Vec *arg0, Vec *arg1, Vec *arg2, float arg3, s32 arg4, s32 arg5) { Vec sp24[8]; Vec sp18; float var_f29; StructBss94Data *var_r30; s32 i; s32 j; var_r30 = lbl_1_bss_94; for (i = 0; i < 16; i++, var_r30++) { if (var_r30->unk02 == 0) { break; } } if (i >= 16) { return; } var_r30->unk00 = i; var_r30->unk02 = arg5; var_r30->unk3C = arg3; switch (var_r30->unk02 & 0xFFF) { case 1: var_r30->unk34 = arg0[0].x; break; case 2: var_r30->unk34 = arg0[0].y; break; case 3: var_r30->unk34 = arg0[0].z; break; case 4: var_r30->unk04 = arg0[0]; var_r30->unk10 = *arg1; sp24[0].x = arg0[0].x - arg1->x; sp24[0].y = arg0[0].y + arg1->y; sp24[0].z = arg0[0].z - arg1->z; sp24[1].x = arg0[0].x + arg1->x; sp24[1].y = arg0[0].y + arg1->y; sp24[1].z = arg0[0].z - arg1->z; sp24[2].x = arg0[0].x - arg1->x; sp24[2].y = arg0[0].y + arg1->y; sp24[2].z = arg0[0].z + arg1->z; sp24[3].x = arg0[0].x + arg1->x; sp24[3].y = arg0[0].y + arg1->y; sp24[3].z = arg0[0].z + arg1->z; sp24[4].x = arg0[0].x - arg1->x; sp24[4].y = arg0[0].y - arg1->y; sp24[4].z = arg0[0].z - arg1->z; sp24[5].x = arg0[0].x + arg1->x; sp24[5].y = arg0[0].y - arg1->y; sp24[5].z = arg0[0].z - arg1->z; sp24[6].x = arg0[0].x - arg1->x; sp24[6].y = arg0[0].y - arg1->y; sp24[6].z = arg0[0].z + arg1->z; sp24[7].x = arg0[0].x + arg1->x; sp24[7].y = arg0[0].y - arg1->y; sp24[7].z = arg0[0].z + arg1->z; for (j = 0; j < 12; j++) { fn_1_129F0(&sp24[lbl_1_data_75C[j][0]], &sp24[lbl_1_data_75C[j][1]], &sp24[lbl_1_data_75C[j][2]], var_r30->unk44[j]); var_r30->unk104[j][0] = sp24[lbl_1_data_75C[j][0]]; var_r30->unk104[j][1] = sp24[lbl_1_data_75C[j][1]]; var_r30->unk104[j][2] = sp24[lbl_1_data_75C[j][2]]; } var_r30->unk40 = arg4; break; case 5: var_r30->unk104[0][0] = arg0[0]; var_r30->unk104[1][0] = arg0[1]; var_r30->unk104[2][0] = arg0[2]; var_r30->unk104[3][0] = arg0[3]; fn_1_129F0(&arg0[0], &arg0[1], &arg0[3], var_r30->unk44[0]); fn_1_129F0(&arg0[1], &arg0[2], &arg0[3], var_r30->unk44[1]); break; case 6: var_r30->unk104[0][0] = arg0[0]; var_r30->unk104[1][0] = arg0[1]; var_r30->unk104[2][0] = arg0[2]; var_r30->unk104[3][0] = arg0[3]; fn_1_129F0(&arg0[0], &arg0[1], &arg0[3], var_r30->unk44[0]); fn_1_129F0(&arg0[1], &arg0[2], &arg0[3], var_r30->unk44[1]); if (var_r30->unk44[0][1] < -0.5f) { var_r30->unk40 = 0; } if (var_r30->unk44[0][1] > 0.5f) { var_r30->unk40 = 1; } if (var_r30->unk44[0][0] > 0.5f) { var_r30->unk40 = 2; } if (var_r30->unk44[0][0] < -0.5f) { var_r30->unk40 = 3; } if (var_r30->unk44[0][2] < -0.5f) { var_r30->unk40 = 4; } if (var_r30->unk44[0][2] > 0.5f) { var_r30->unk40 = 5; } break; case 7: var_r30->unk04 = arg0[0]; var_r30->unk10 = *arg1; var_r30->unk34 = arg2->x; sp18.x = arg1->x - arg0[0].x; sp18.y = arg1->y - arg0[0].y; sp18.z = arg1->z - arg0[0].z; var_f29 = VECMagXZ(&sp18); var_r30->unk28 = -atan2d(sp18.y, var_f29); var_r30->unk2C = atan2d(sp18.x, sp18.z); var_r30->unk30 = 0.0f; break; } } s32 lbl_1_data_7C4[] = { 1, 1, 0, 0, 2, 2 }; s32 fn_1_C498(Vec *arg0, Vec *arg1, Vec *arg2, Vec *arg3, float arg4, s32 arg5) { StructBss94Data *var_r31; Vec sp140[6]; Vec sp134; Vec sp128; Vec sp11C; Vec sp110; Vec sp104; Vec spF8; Vec spEC; Vec spE0; Vec spD4; Vec spC8; float var_f30; float var_f19; float sp34; float sp30; float sp2C; s32 var_r26; s32 var_r24; s32 var_r23; s32 i; s32 j; var_r31 = lbl_1_bss_94; var_r26 = -1; sp134.x = arg0->x + arg1->x; sp134.y = arg0->y + arg1->y; sp134.z = arg0->z + arg1->z; for (i = 0; i < 16; i++, var_r31++) { if (var_r31->unk02 == 0) { continue; } switch (var_r31->unk02 & 0xFFF) { case 1: if (arg1->x < 0.0f) { if (arg0->x > var_r31->unk34 + arg4 && sp134.x <= var_r31->unk34 + arg4 + 1.0f) { sp134.x = var_r31->unk34 + arg4; *arg2 = sp134; var_r26 = 0; } } else { if (arg0->x < var_r31->unk34 - arg4 && sp134.x >= var_r31->unk34 - arg4 - 1.0f) { sp134.x = var_r31->unk34 - arg4; *arg2 = sp134; var_r26 = 0; } } break; case 2: if (arg1->y < 0.0f) { if (arg0->y > var_r31->unk34 + arg4 && sp134.y <= var_r31->unk34 + arg4 + 1.0f) { sp134.y = var_r31->unk34 + arg4; *arg2 = sp134; var_r26 = 1; } } else { if (arg0->y < var_r31->unk34 - arg4 && sp134.y >= var_r31->unk34 - arg4 - 1.0f) { sp134.y = var_r31->unk34 - arg4; *arg2 = sp134; var_r26 = 1; } } break; case 3: if (arg1->z < 0.0f) { if (arg0->z > var_r31->unk34 + arg4 && sp134.z <= var_r31->unk34 + arg4 + 1.0f) { sp134.z = var_r31->unk34 + arg4; *arg2 = sp134; var_r26 = 2; } } else { if (arg0->z < var_r31->unk34 - arg4 && sp134.z >= var_r31->unk34 - arg4 - 1.0f) { sp134.z = var_r31->unk34 - arg4; *arg2 = sp134; var_r26 = 2; } } break; case 4: arg4 = 0.0f; VECSubtract(&sp134, &var_r31->unk04, &sp128); if (fabs(sp128.x) < var_r31->unk10.x + arg4 && fabs(sp128.y) < var_r31->unk10.y + arg4 && fabs(sp128.z) < var_r31->unk10.z + arg4) { for (j = 0; j < 6; j++) { if (var_r31->unk40 & (1 << j)) { var_r24 = fn_1_12C6C(arg0, &sp134, var_r31->unk44[j * 2]); if (var_r24 != 0) { break; } } } switch (j) { case 0: sp134.y = var_r31->unk04.y + var_r31->unk10.y + arg4 + 1.0f; break; case 1: sp134.y = var_r31->unk04.y - var_r31->unk10.y - arg4 - 1.0f; break; case 2: sp134.x = var_r31->unk04.x - var_r31->unk10.x - arg4 - 1.0f; break; case 3: sp134.x = var_r31->unk04.x + var_r31->unk10.x + arg4 + 1.0f; break; case 4: sp134.z = var_r31->unk04.z + var_r31->unk10.z + arg4 + 1.0f; break; case 5: sp134.z = var_r31->unk04.z - var_r31->unk10.z - arg4 - 1.0f; break; } if (j < 6) { *arg2 = sp134; var_r26 = lbl_1_data_7C4[j]; } } break; case 5: if (fn_1_12C6C(arg0, &sp134, var_r31->unk44[0]) != 1) { break; } fn_1_1334C(var_r31->unk44[0], arg0, arg1, var_r31->unk104[0], &sp104); sp110.x = fabs(var_r31->unk44[0][0]); sp110.y = fabs(var_r31->unk44[0][1]); sp110.z = fabs(var_r31->unk44[0][2]); if (sp110.x > sp110.y && sp110.x > sp110.z) { var_r24 = 0; } else if (sp110.y > sp110.x && sp110.y > sp110.z) { var_r24 = 1; } else { var_r24 = 2; } sp140[0] = var_r31->unk104[0][0]; sp140[1] = var_r31->unk104[1][0]; sp140[2] = var_r31->unk104[3][0]; sp140[3] = var_r31->unk104[1][0]; sp140[4] = var_r31->unk104[2][0]; sp140[5] = var_r31->unk104[3][0]; sp34 = fn_1_12E68(&sp140[0], &sp104, var_r24); sp30 = fn_1_12E68(&sp140[3], &sp104, var_r24); if (sp34 != 0.0f || sp30 != 0.0f) { arg2->x = sp104.x + var_r31->unk44[0][0] * (arg4 + 1.0f); arg2->y = sp104.y + var_r31->unk44[0][1] * (arg4 + 1.0f); arg2->z = sp104.z + var_r31->unk44[0][2] * (arg4 + 1.0f); var_r26 = var_r24; } break; case 6: sp140[0] = var_r31->unk104[0][0]; sp140[1] = var_r31->unk104[1][0]; sp140[2] = var_r31->unk104[2][0]; sp140[3] = var_r31->unk104[3][0]; if (fn_1_137C4(&sp140[0], arg0, arg1, &sp104, arg4, var_r31->unk40) != 0) { *arg2 = sp104; var_r26 = lbl_1_data_7C4[var_r31->unk40]; } break; case 7: spEC.x = arg0->x; spEC.y = arg0->z; spEC.z = 0.0f; spE0.x = sp134.x; spE0.y = sp134.z; spE0.z = 0.0f; spD4.x = var_r31->unk04.x; spD4.y = var_r31->unk04.z; spD4.z = 0.0f; var_f30 = fn_1_1367C(&spEC, &spE0, &spD4, &spC8, &sp2C); if (sp2C >= 0.0f && sp2C <= 1.0f && var_f30 < var_r31->unk34 + arg4) { var_f19 = arg0->y + arg1->y * sp2C; if (var_f19 >= var_r31->unk04.y && var_f19 <= var_r31->unk10.y) { spC8.z = spC8.y; spC8.y = 0.0f; VECSubtract(&spC8, &var_r31->unk04, &sp128); sp128.y = 0.0f; if (VECMag(&sp128) == 0.0f) { sp128.z = 1.0f; } else { VECNormalize(&sp128, &sp128); } VECScale(&sp128, &sp128, var_r31->unk34 + arg4 + 1.0f); arg2->x = sp128.x + var_r31->unk04.x; arg2->z = sp128.z + var_r31->unk04.z; arg2->y = var_f19; sp2C = var_f30; var_r26 = 99; } } else { sp2C = var_f30; VECSubtract(&sp134, &var_r31->unk04, &sp128); var_f30 = VECMagXZ(&sp128); if (var_f30 < var_r31->unk34 + arg4 && sp134.y >= var_r31->unk04.y && sp134.y <= var_r31->unk10.y) { VECSubtract(&sp134, &var_r31->unk04, &sp128); sp128.y = 0.0f; if (VECMag(&sp128) == 0.0f) { sp128.z = 1.0f; } else { VECNormalize(&sp128, &sp128); } VECScale(&sp128, &sp128, var_r31->unk34 + arg4 + 1.0f); arg2->x = var_r31->unk04.x + sp128.x; arg2->z = var_r31->unk04.z + sp128.z; arg2->y = sp134.y; var_r26 = 99; } } if (var_r26 == -1) { break; } sp128.x = spC8.x - var_r31->unk04.x; sp128.z = spC8.y - var_r31->unk04.z; var_f30 = VECMagXZ(&sp128); if (var_f30 == 0.0f) { var_f30 = 1.0f; sp128.x = 0.0f; sp128.z = 1.0f; } else { var_f30 = 1.0f / var_f30; } spC8.x = sp128.x * var_f30; spC8.z = sp128.z * var_f30; var_f30 = VECMagXZ(arg1); if (var_f30 != 0.0f) { var_f30 = 1.0f / var_f30; } spD4.x = -(arg1->x * var_f30); spD4.z = -(arg1->z * var_f30); sp2C = var_f30 / (var_r31->unk34 + arg4); sp128.x = spD4.x + sp2C * (spC8.x - spD4.x); sp128.z = spD4.z + sp2C * (spC8.z - spD4.z); var_f30 = VECMagXZ(&sp128); if (var_f30 == 0.0f) { var_f30 = 1.0f; sp128.x = 0.0f; sp128.z = 1.0f; } else { var_f30 = 1.0f / var_f30; } sp128.x = sp128.x * var_f30 - spD4.x; sp128.z = sp128.z * var_f30 - spD4.z; sp128.y = 0.0f; if (VECMag(&sp128) == 0.0f) { sp128.z = 1.0f; } else { VECNormalize(&sp128, &sp128); } var_f30 = VECMagXZ(arg1); arg3->x = sp128.x * var_f30 * var_r31->unk3C; arg3->z = sp128.z * var_f30 * var_r31->unk3C; arg3->y = arg1->y; break; } if (var_r26 != -1) { break; } } if (i < 16) { switch (var_r26) { case 0: arg3->x = -arg1->x * var_r31->unk3C; arg3->y = arg1->y; arg3->z = arg1->z * var_r31->unk3C; var_r23 = var_r31->unk02; break; case 1: arg3->x = arg1->x * var_r31->unk3C; arg3->y = arg1->y * -0.5f; arg3->z = arg1->z * var_r31->unk3C; var_r23 = var_r31->unk02; break; case 2: arg3->x = arg1->x * var_r31->unk3C; arg3->y = arg1->y; arg3->z = -arg1->z * var_r31->unk3C; var_r23 = var_r31->unk02; break; default: var_r23 = var_r31->unk02; break; } arg5--; if (arg5 > 0) { sp11C = *arg0; sp110.x = arg2->x - arg0->x; sp110.y = arg2->y - arg0->y; sp110.z = arg2->z - arg0->z; var_r26 = fn_1_C498(&sp11C, &sp110, &sp104, &spF8, arg4, arg5); if (var_r26 != 0) { *arg2 = sp104; *arg3 = spF8; if (var_r23 & 0x4000) { var_r26 |= 0x4000; } if (var_r23 & 0x8000) { var_r26 |= 0x8000; } var_r23 = var_r26; } } return var_r23; } return 0; } void fn_1_D930(void) { omObjData *var_r30; StructBssA4Data *var_r31; AnimData *var_r27; StructM423_05 *var_r29; ModelData *var_r28; s32 sp8; var_r30 = lbl_1_bss_A4 = omAddObjEx(lbl_1_bss_120, 0xBF, 0, 0, -1, fn_1_DA38); var_r31 = var_r30->data = HuMemDirectMallocNum(HEAP_SYSTEM, sizeof(*var_r31), MEMORY_DEFAULT_NUM); memset(var_r31, 0, sizeof(*var_r31)); var_r31->unk08 = var_r27 = HuSprAnimRead(HuDataReadNum(DATA_MAKE_NUM(DATADIR_M423, 22), MEMORY_DEFAULT_NUM)); var_r31->unk00 = sp8 = fn_1_11114(var_r27, 0x100); Hu3DModelCameraSet(var_r31->unk00, 4); Hu3DModelLayerSet(var_r31->unk00, 1); var_r31->unk04 = 0; var_r28 = &Hu3DData[var_r31->unk00]; var_r29 = var_r28->unk_120; var_r29->unk20 = 0; } void fn_1_DA38(omObjData *arg0) { StructBssA4Data *temp_r30; ModelData *var_r27; StructM423_05 *temp_r29; StructM423_04 *var_r31; s32 i; temp_r30 = arg0->data; if (temp_r30->unk04 <= 0) { Hu3DModelAttrSet(temp_r30->unk00, HU3D_ATTR_DISPOFF); return; } Hu3DModelAttrReset(temp_r30->unk00, HU3D_ATTR_DISPOFF); var_r27 = &Hu3DData[temp_r30->unk00]; temp_r29 = var_r27->unk_120; var_r31 = temp_r29->unk3C; temp_r29->unk23 = 0; for (i = 0; i < temp_r29->unk26; i++, var_r31++) { if (var_r31->unk30 <= 0.0f) { continue; } var_r31->unk38.x += var_r31->unk04.x; var_r31->unk38.y += var_r31->unk04.y; var_r31->unk38.z += var_r31->unk04.z; var_r31->unk34 += var_r31->unk18; if (var_r31->unk34 >= 360.0f) { var_r31->unk34 -= 360.0f; } var_r31->unk48 = var_r31->unk28; var_r31->unk28 += var_r31->unk2C; if (var_r31->unk48 >= 16) { var_r31->unk48 = 0; var_r31->unk00 = 0; var_r31->unk30 = 0.0f; temp_r30->unk04--; } } } void fn_1_DBC8(void) { omObjData *temp_r31; StructBssA4Data *temp_r30; temp_r31 = lbl_1_bss_A4; temp_r30 = temp_r31->data; Hu3DModelAttrSet(temp_r30->unk00, HU3D_ATTR_DISPOFF); HuSprAnimKill(temp_r30->unk08); temp_r31->func = NULL; } inline s32 fn_1_DC24(Vec arg0, Vec arg1, float arg2, float arg3, float arg4, GXColor arg5) { omObjData *var_r27; StructBssA4Data *temp_r28; ModelData *var_r26; StructM423_05 *temp_r30; StructM423_04 *var_r31; s32 i; var_r27 = lbl_1_bss_A4; temp_r28 = var_r27->data; var_r26 = &Hu3DData[temp_r28->unk00]; temp_r30 = var_r26->unk_120; var_r31 = temp_r30->unk3C; for (i = 0; i < temp_r30->unk26; i++, var_r31++) { if (var_r31->unk30 <= 0.0f) { break; } } if (i >= temp_r30->unk26) { return -1; } var_r31->unk00 = var_r31->unk02 = 0; var_r31->unk38.x = arg0.x; var_r31->unk38.y = arg0.y; var_r31->unk38.z = arg0.z; var_r31->unk04.x = arg1.x; var_r31->unk04.y = arg1.y; var_r31->unk04.z = arg1.z; var_r31->unk18 = arg3; var_r31->unk30 = arg2; var_r31->unk44.r = arg5.r; var_r31->unk44.g = arg5.g; var_r31->unk44.b = arg5.b; var_r31->unk44.a = arg5.a; var_r31->unk34 = 0.0f; var_r31->unk48 = 0; var_r31->unk00 = 0; var_r31->unk28 = 0.0f; var_r31->unk2C = arg4; temp_r28->unk04++; return i; } s32 fn_1_DD70(Vec arg0, Vec arg1, float arg2, float arg3, float arg4, float arg5, GXColor arg6) { Vec sp60; Vec sp54; float temp_f31; s32 sp20; s32 sp1C; sp54.x = arg1.z; sp54.z = arg1.x; sp54.y = 0.0f; VECNormalize(&sp54, &sp54); temp_f31 = 0.5f * arg4; sp60.x = arg0.x + sp54.x * temp_f31; sp60.y = arg0.y + sp54.y * temp_f31; sp60.z = arg0.z + sp54.z * temp_f31; sp20 = fn_1_DC24(sp60, arg1, arg2, arg3, arg5, arg6); sp60.x = arg0.x - sp54.x * temp_f31; sp60.y = arg0.y - sp54.y * temp_f31; sp60.z = arg0.z - sp54.z * temp_f31; sp1C = fn_1_DC24(sp60, arg1, arg2, -arg3, arg5, arg6); return (sp20 << 16) | sp1C; } void fn_1_E1BC(void) { omObjData *var_r31; s32 var_r29; s32 i; var_r31 = lbl_1_bss_A0 = omAddObjEx(lbl_1_bss_120, 0xBF, 16, 0, -1, fn_1_E290); for (i = 0; i < var_r31->mdlcnt; i++) { var_r29 = var_r31->model[i] = Hu3DModelCreateFile(DATA_MAKE_NUM(DATADIR_M423, 3)); Hu3DModelAttrSet(var_r29, HU3D_ATTR_DISPOFF); Hu3DModelCameraSet(var_r29, 4); } var_r31->stat |= 0x100; } void fn_1_E290(omObjData *arg0) { ModelData *var_r28; s32 temp_r30; s32 i; for (i = 0; i < arg0->mdlcnt; i++) { temp_r30 = arg0->model[i]; var_r28 = &Hu3DData[temp_r30]; if (!(var_r28->attr & 1) && Hu3DMotionEndCheck(temp_r30)) { Hu3DModelAttrSet(temp_r30, HU3D_ATTR_DISPOFF); } } } void fn_1_E330(void) { } s32 fn_1_E334(Vec arg0, Vec arg1, float arg2) { omObjData *var_r31; ModelData *var_r26; s32 temp_r29; s32 i; var_r31 = lbl_1_bss_A0; for (i = 0; i < var_r31->mdlcnt; i++) { var_r26 = &Hu3DData[var_r31->model[i]]; if (var_r26->attr & 1) { break; } } if (i >= var_r31->mdlcnt) { return -1; } temp_r29 = var_r31->model[i]; Hu3DModelPosSet(temp_r29, arg0.x, arg0.y, arg0.z); Hu3DModelRotSet(temp_r29, arg1.x, arg1.y, arg1.z); Hu3DModelScaleSet(temp_r29, arg2, arg2, arg2); Hu3DMotionTimeSet(temp_r29, 0.0f); Hu3DMotionSpeedSet(temp_r29, 2.0f); Hu3DModelAttrReset(temp_r29, HU3D_ATTR_DISPOFF); return i; } void fn_1_E460(void) { omObjData *temp_r3; temp_r3 = lbl_1_bss_9C = omAddObjEx(lbl_1_bss_120, 0xBF, 1, 0, -1, fn_1_E4EC); temp_r3->model[0] = fn_1_E678(); Hu3DModelCameraSet(temp_r3->model[0], 4); Hu3DModelLayerSet(temp_r3->model[0], 2); } void fn_1_E4EC(omObjData *arg0) { ModelData *var_r29; StructM423_0B *var_r28; StructM423_0A *var_r31; s32 i; var_r29 = &Hu3DData[arg0->model[0]]; var_r28 = var_r29->unk_120; var_r31 = var_r28->unk00; for (i = 0; i < 16; i++, var_r31++) { if (var_r31->unk00 == 0) { continue; } var_r31->unk00++; if (var_r31->unk00 < 12.0f) { var_r31->unk04 += 0.058333337f; } else { var_r31->unk04 += 0.025000002f; var_r31->unk10 -= 0.050000004f; } if (var_r31->unk10 < 0.0f) { var_r31->unk00 = 0; } } } void fn_1_E60C(void) { omObjData *temp_r31; ModelData *var_r30; StructM423_0B *var_r29; temp_r31 = lbl_1_bss_9C; var_r30 = &Hu3DData[temp_r31->model[0]]; var_r29 = var_r30->unk_120; HuSprAnimKill(var_r29->unk200); temp_r31->func = NULL; } s32 fn_1_E678(void) { float sp88[32][2]; float sp8[32]; float temp_f28; float temp_f30; float temp_f29; float var_f31; ModelData *temp_r27; StructM423_0B *var_r30; StructM423_09 *var_r29; StructM423_08 *var_r28; s32 var_r26; s32 i; var_r26 = Hu3DHookFuncCreate(fn_1_EF44); temp_r27 = &Hu3DData[var_r26]; var_r30 = temp_r27->unk_120 = HuMemDirectMallocNum(HEAP_DATA, sizeof(*var_r30), temp_r27->unk_48); memset(var_r30, 0, sizeof(*var_r30)); var_r30->unk20C = HuMemDirectMallocNum(HEAP_DATA, 32 * sizeof(*var_r30->unk20C), temp_r27->unk_48); memset(var_r30->unk20C, 0, 32 * sizeof(*var_r30->unk20C)); var_r30->unk210 = HuMemDirectMallocNum(HEAP_DATA, 32 * sizeof(*var_r30->unk210), temp_r27->unk_48); memset(var_r30->unk210, 0, 32 * sizeof(*var_r30->unk210)); var_r30->unk214 = HuMemDirectMallocNum(HEAP_DATA, 5 * sizeof(*var_r30->unk214), temp_r27->unk_48); memset(var_r30->unk214, 0, 5 * sizeof(*var_r30->unk214)); var_r30->unk204 = GXGetTexBufferSize(640, 480, GX_TF_RGB5A3, GX_FALSE, 0); var_r30->unk208 = HuMemDirectMallocNum(HEAP_DATA, var_r30->unk204, temp_r27->unk_48); DCFlushRange(var_r30->unk208, var_r30->unk204); var_r30->unk200 = HuSprAnimRead(HuDataReadNum(DATA_MAKE_NUM(DATADIR_M423, 23), MEMORY_DEFAULT_NUM)); var_f31 = 0.0f; for (i = 0; i < 32; i++) { temp_f28 = 1.0f + 0.001f * frandmod(1000); sp8[i] = temp_f28; var_f31 += temp_f28; sp88[i][1] = 80.0f * temp_f28; sp88[i][0] = 10.0f + 0.02f * frandmod(1000); } var_f31 = 360.0f / var_f31; for (i = 0; i < 32; i++) { sp8[i] *= var_f31; } var_f31 = frandmod(90); var_r28 = var_r30->unk20C; var_r29 = var_r30->unk210; for (i = 0; i < 32; var_r28++, var_r29++, i++) { temp_f29 = -cosd(var_f31); temp_f30 = sind(var_f31); var_r28->unk24 = temp_f29 * sp88[i][0]; var_r28->unk28 = temp_f30 * sp88[i][0]; var_r28->unk0C = temp_f29 * (sp88[i][0] + sp88[i][1]); var_r28->unk10 = temp_f30 * (sp88[i][0] + sp88[i][1]); var_r28->unk00 = temp_f29 * (sp88[i][0] + 0.85f * sp88[i][1]); var_r28->unk04 = temp_f30 * (sp88[i][0] + 0.85f * sp88[i][1]); var_r29->unk00 = -0.3f * -temp_f29; var_r29->unk04 = -0.3f * temp_f30; temp_f29 = -cosd(var_f31 - 0.4f * sp8[i]); temp_f30 = sind(var_f31 - 0.4f * sp8[i]); var_r28->unk30 = temp_f29 * (sp88[i][0] + 0.7f * sp88[i][1]); var_r28->unk34 = temp_f30 * (sp88[i][0] + 0.7f * sp88[i][1]); temp_f29 = -cosd(var_f31 + 0.4f * sp8[i]); temp_f30 = sind(var_f31 + 0.4f * sp8[i]); var_r28->unk18 = temp_f29 * (sp88[i][0] + 0.7f * sp88[i][1]); var_r28->unk1C = temp_f30 * (sp88[i][0] + 0.7f * sp88[i][1]); var_r29->unk08 = var_r29->unk0C = var_r29->unk10 = var_r29->unk14 = 0.0f; var_r29->unk18 = var_r29->unk1C = var_r29->unk20 = var_r29->unk24 = 0.0f; var_f31 += sp8[i]; } for (i = 0; i < 5; i++) { var_r30->unk214[i].r = var_r30->unk214[i].g = var_r30->unk214[i].b = 0xFF; var_r30->unk214[i].a = 0xFF; } var_r30->unk218 = 32 * 54; var_r30->unk220 = HuMemDirectMallocNum(HEAP_SYSTEM, var_r30->unk218, MEMORY_DEFAULT_NUM); GXBeginDisplayList(var_r30->unk220, var_r30->unk218); for (i = 0; i < 32; i++) { GXBegin(GX_TRIANGLEFAN, GX_VTXFMT0, 6); GXPosition1x16(i * 5); GXColor1x16(0); GXTexCoord1x16(i * 5); GXPosition1x16(i * 5 + 1); GXColor1x16(1); GXTexCoord1x16(i * 5 + 1); GXPosition1x16(i * 5 + 2); GXColor1x16(2); GXTexCoord1x16(i * 5 + 2); GXPosition1x16(i * 5 + 3); GXColor1x16(3); GXTexCoord1x16(i * 5 + 3); GXPosition1x16(i * 5 + 4); GXColor1x16(4); GXTexCoord1x16(i * 5 + 4); GXPosition1x16(i * 5 + 1); GXColor1x16(1); GXTexCoord1x16(i * 5 + 1); GXEnd(); } var_r30->unk21C = GXEndDisplayList(); DCFlushRangeNoSync(var_r30->unk20C, 32 * sizeof(*var_r30->unk20C)); DCFlushRangeNoSync(var_r30->unk210, 32 * sizeof(*var_r30->unk210)); DCFlushRangeNoSync(var_r30->unk214, 5 * sizeof(*var_r30->unk214)); DCFlushRangeNoSync(var_r30->unk220, var_r30->unk218); DCStoreRangeNoSync(var_r30, sizeof(*var_r30)); PPCSync(); return var_r26; } GXColor lbl_1_data_7FC[] = { { 0x66, 0x00, 0x00, 0xFF }, { 0x00, 0x00, 0x66, 0xFF }, { 0x66, 0x00, 0x5B, 0xFF }, { 0x00, 0x66, 0x00, 0xFF }, { 0x42, 0x00, 0x4C, 0xFF }, { 0x47, 0x28, 0x00, 0xFF }, { 0x66, 0x66, 0x00, 0xFF }, { 0x00, 0x00, 0x00, 0xFF } }; void fn_1_EF44(ModelData *arg0, Mtx arg1) { Mtx sp124; Mtx spF4; Mtx spC4; Mtx sp94; Mtx sp64; Mtx sp34; GXTexObj sp14; GXColor sp10 = { 0xCC, 0xCC, 0xCC, 0x7F }; StructM423_0B *temp_r30; StructM423_0A *var_r31; s32 i; temp_r30 = arg0->unk_120; GXSetTexCopySrc(0, 0, 640, 480); GXSetTexCopyDst(640, 480, GX_TF_RGB5A3, GX_FALSE); GXCopyTex(temp_r30->unk208, GX_FALSE); GXPixModeSync(); MTXTrans(spF4, -400.0f, 400.0f, -700.0f); MTXConcat(Hu3DCameraMtx, spF4, sp64); GXLoadPosMtxImm(sp64, GX_PNMTX0); GXSetNumChans(1); GXSetChanCtrl(GX_COLOR0A0, GX_FALSE, GX_SRC_REG, GX_SRC_VTX, GX_LIGHT_NULL, GX_DF_CLAMP, GX_AF_NONE); GXInitTexObj(&sp14, temp_r30->unk208, 640, 480, GX_TF_RGB5A3, GX_CLAMP, GX_CLAMP, GX_FALSE); GXInitTexObjLOD(&sp14, GX_LINEAR, GX_LINEAR, 0.0f, 0.0f, 0.0f, GX_FALSE, GX_FALSE, GX_ANISO_1); GXLoadTexObj(&sp14, GX_TEXMAP0); HuSprTexLoad(temp_r30->unk200, 0, 1, GX_REPEAT, GX_REPEAT, GX_LINEAR); GXSetNumTexGens(2); C_MTXLightPerspective(sp94, 41.5f, 1.2f, 0.5555555f, -0.5f, 0.5555555f, 0.5f); MTXConcat(sp94, Hu3DCameraMtx, sp94); MTXInverse(Hu3DCameraMtx, sp34); MTXConcat(sp34, sp64, sp124); MTXConcat(sp94, sp124, spF4); GXLoadTexMtxImm(spF4, GX_TEXMTX0, GX_MTX3x4); GXSetTexCoordGen2(GX_TEXCOORD0, GX_TG_MTX3x4, GX_TG_POS, GX_TEXMTX0, GX_FALSE, GX_PTIDENTITY); GXSetTexCoordGen2(GX_TEXCOORD1, GX_TG_MTX2x4, GX_TG_TEXCOORD0, GX_TEXMTX1, GX_FALSE, GX_PTIDENTITY); GXSetNumIndStages(1); GXSetIndTexOrder(GX_INDTEXSTAGE0, GX_TEXCOORD1, GX_TEXMAP1); GXSetTevIndWarp(GX_TEVSTAGE0, GX_INDTEXSTAGE0, GX_TRUE, GX_FALSE, GX_ITM_0); GXSetIndTexCoordScale(GX_INDTEXSTAGE0, GX_ITS_1, GX_ITS_1); MTXScale(spF4, -0.5f, -0.5f, 0.5f); GXSetIndTexMtx(GX_ITM_0, (float(*)[3])spF4, -1); GXSetNumTevStages(1); GXSetTevColor(GX_TEVREG1, sp10); GXSetTevOrder(GX_TEVSTAGE0, GX_TEXCOORD0, GX_TEXMAP0, GX_COLOR0A0); GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_ZERO, GX_CC_TEXC, GX_CC_C1, GX_CC_C0); GXSetTevColorOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetTevAlphaIn(GX_TEVSTAGE0, GX_CA_ZERO, GX_CA_RASA, GX_CA_A0, GX_CA_ZERO); GXSetTevAlphaOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_FALSE, GX_TEVPREV); GXSetBlendMode(GX_BM_BLEND, GX_BL_SRCALPHA, GX_BL_INVSRCALPHA, GX_LO_SET); GXSetZMode(GX_FALSE, GX_LEQUAL, GX_FALSE); GXClearVtxDesc(); GXSetVtxDesc(GX_VA_POS, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_POS, GX_POS_XYZ, GX_F32, 0); GXSetVtxDesc(GX_VA_CLR0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_CLR0, GX_CLR_RGBA, GX_RGBA8, 0); GXSetVtxDesc(GX_VA_TEX0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_TEX0, GX_TEX_ST, GX_F32, 0); GXSETARRAY(GX_VA_POS, temp_r30->unk20C, 32 * sizeof(*temp_r30->unk20C), sizeof(Vec)); GXSETARRAY(GX_VA_CLR0, temp_r30->unk214, 5 * sizeof(*temp_r30->unk214), sizeof(GXColor)); GXSETARRAY(GX_VA_TEX0, temp_r30->unk210, 32 * sizeof(*temp_r30->unk210), sizeof(Vec2f)); var_r31 = temp_r30->unk00; for (i = 0; i < 16; i++, var_r31++) { if (var_r31->unk00 == 0) { continue; } lbl_1_data_7FC[var_r31->unk02].a = 255.0f * var_r31->unk10; GXSetTevColor(GX_TEVREG0, lbl_1_data_7FC[var_r31->unk02]); MTXTrans(spF4, var_r31->unk14.x, var_r31->unk14.y, var_r31->unk14.z); MTXRotRad(sp124, 'Z', MTXDegToRad(var_r31->unk0C)); MTXConcat(spF4, sp124, spF4); MTXScale(spC4, var_r31->unk04 * var_r31->unk08, var_r31->unk04 * var_r31->unk08, var_r31->unk04 * var_r31->unk08); MTXConcat(spF4, spC4, spF4); MTXConcat(Hu3DCameraMtx, spF4, sp64); GXLoadPosMtxImm(sp64, GX_PNMTX0); MTXConcat(sp34, sp64, sp124); MTXConcat(sp94, sp124, spF4); GXLoadTexMtxImm(spF4, GX_TEXMTX0, GX_MTX3x4); MTXRotRad(sp124, 'Z', MTXDegToRad(-var_r31->unk0C)); GXLoadTexMtxImm(sp124, GX_TEXMTX1, GX_MTX2x4); GXCallDisplayListNative(temp_r30->unk220, temp_r30->unk21C); } GXSetNumIndStages(0); GXSetTevDirect(GX_TEVSTAGE0); #ifdef TARGET_PC GXDestroyTexObj(&sp14); #endif } s32 fn_1_F574(Vec arg0, float arg1, s32 arg2) { omObjData *var_r29; ModelData *var_r28; StructM423_0B *var_r26; StructM423_0A *var_r31; s32 i; var_r29 = lbl_1_bss_9C; var_r28 = &Hu3DData[var_r29->model[0]]; var_r26 = var_r28->unk_120; var_r31 = var_r26->unk00; for (i = 0; i < 16; i++, var_r31++) { if (var_r31->unk00 == 0) { break; } } if (i < 16) { if (arg2 < 0) { arg2 = 0; } var_r31->unk00 = 1; var_r31->unk02 = arg2; var_r31->unk10 = 1.0f; var_r31->unk08 = arg1; var_r31->unk04 = 0.25f; var_r31->unk0C = frandmod(360); var_r31->unk14 = arg0; } } void fn_1_F690(void) { lbl_1_bss_98 = omAddObjEx(lbl_1_bss_120, 0xFE, 0, 0, -1, fn_1_F6E0); } s32 lbl_1_data_81C[] = { DATA_MAKE_NUM(DATADIR_MGCONST, 12), DATA_MAKE_NUM(DATADIR_MGCONST, 13), DATA_MAKE_NUM(DATADIR_MGCONST, 14), DATA_MAKE_NUM(DATADIR_MGCONST, 15), DATA_MAKE_NUM(DATADIR_MGCONST, 16), DATA_MAKE_NUM(DATADIR_MGCONST, 17), DATA_MAKE_NUM(DATADIR_MGCONST, 18), DATA_MAKE_NUM(DATADIR_MGCONST, 19) }; s16 lbl_1_data_83C[] = { 0x7F, 0x7F, 0x7F, 0x100 }; s16 lbl_1_data_844[][2] = { { -75, 10 }, { -61, -14 }, { -47, 10 }, { 0, 0 }, { -12, -8 }, { -12, -8 }, { 6, -8 }, { 6, -8 }, { 24, -8 }, { 24, -8 }, { 42, -8 }, { 42, -8 }, { 60, -8 }, { 60, -8 }, { -12, 10 }, { -12, 10 }, { 6, 10 }, { 6, 10 }, { 24, 10 }, { 24, 10 }, { 42, 10 }, { 42, 10 }, { 60, 10 }, { 60, 10 } }; void fn_1_F6E0(omObjData *arg0) { StructM423_0C *var_r31; s32 sp8; s32 var_r29; s32 i; if ((sp8 = lbl_1_bss_EC[3]) != -1) { var_r31 = arg0->data = HuMemDirectMallocNum(HEAP_SYSTEM, sizeof(*var_r31), MEMORY_DEFAULT_NUM); memset(var_r31, 0, sizeof(*var_r31)); var_r31->unk00 = 480; var_r31->unk04 = 70; var_r31->unk08 = 0; var_r31->unk0C = 0; for (i = 0; i < 24; i++) { switch (i) { case 0: case 1: case 2: var_r29 = espEntry(lbl_1_data_81C[lbl_1_bss_EC[i]], lbl_1_data_83C[i], 0); var_r31->unk10[i] = var_r29; var_r31->unk70[i][0] = lbl_1_data_844[i][0]; var_r31->unk70[i][1] = lbl_1_data_844[i][1]; break; case 3: var_r29 = espEntry(DATA_MAKE_NUM(DATADIR_MGCONST, 38), lbl_1_data_83C[i], 0); var_r31->unk10[i] = var_r29; var_r31->unk70[i][0] = lbl_1_data_844[i][0]; var_r31->unk70[i][1] = lbl_1_data_844[i][1]; break; default: if (!(i & 1)) { var_r29 = espEntry(DATA_MAKE_NUM(DATADIR_M423, 24), 0x40, 0); var_r31->unk10[i] = var_r29; } else { var_r29 = espEntry(DATA_MAKE_NUM(DATADIR_M423, 25), 0x20, 0); var_r31->unk10[i] = var_r29; } var_r31->unk70[i][0] = lbl_1_data_844[i][0]; var_r31->unk70[i][1] = lbl_1_data_844[i][1]; break; } espDispOn(var_r29); espDrawNoSet(var_r29, 0); espAttrSet(var_r29, 1); espPosSet(var_r29, var_r31->unk00 + var_r31->unk70[i][0], var_r31->unk04 + var_r31->unk70[i][1]); espBankSet(var_r29, 0); } for (i = 0; i < 10; i++) { var_r31->unk190[i][0] = 0; var_r31->unk190[i][1] = 0; } fn_1_10028(0); arg0->func = fn_1_FA40; } } void fn_1_FA40(omObjData *arg0) { float var_f31; float var_f28; float temp_f30; float temp_f29; StructM423_0C *temp_r31; s32 temp_r28; s32 temp_r29; s32 i; temp_r31 = arg0->data; if (lbl_1_bss_104 != temp_r31->unk08) { temp_r31->unk08 = lbl_1_bss_104; temp_r31->unk0C = 20; } if (temp_r31->unk0C != 0) { var_f31 = 1.0 + 0.8f * sind(180.0f * (temp_r31->unk0C / 20.0f)); temp_r31->unk0C--; } else { var_f31 = 1.0f; } var_f31 = 1.0f; temp_r28 = 10 - lbl_1_bss_104; for (i = 0; i < 4; i++) { temp_f30 = temp_r31->unk00 + temp_r31->unk70[i][0]; temp_f29 = temp_r31->unk04 + temp_r31->unk70[i][1]; espPosSet(temp_r31->unk10[i], temp_f30, temp_f29); espScaleSet(temp_r31->unk10[i], 1.0f, 1.0f); } for (i = 4; i < 24; i++) { temp_f30 = temp_r31->unk00 + temp_r31->unk70[i][0]; temp_f29 = temp_r31->unk04 + temp_r31->unk70[i][1]; if (!(i & 1)) { espPosSet(temp_r31->unk10[i], temp_f30, temp_f29); espScaleSet(temp_r31->unk10[i], 1.0f, 1.0f); } else { temp_r29 = (i - 4) / 2; if (temp_r28 > temp_r29) { temp_r31->unk190[temp_r29][0] = 1; } else { temp_r31->unk190[temp_r29][0] = 0; } if (temp_r31->unk190[temp_r29][0] != 0) { if (temp_r31->unk190[temp_r29][1] < 15) { temp_r31->unk190[temp_r29][1]++; var_f31 = 3.0f - 2.0f * (temp_r31->unk190[temp_r29][1] / 15.0f); var_f28 = temp_r31->unk190[temp_r29][1] / 15.0f; } else { var_f31 = 1.0f; var_f28 = 1.0f; } espDispOn(temp_r31->unk10[i]); espPosSet(temp_r31->unk10[i], temp_f30, temp_f29); espTPLvlSet(temp_r31->unk10[i], var_f28); espScaleSet(temp_r31->unk10[i], var_f31, var_f31); } else { espDispOff(temp_r31->unk10[i]); } } } } void fn_1_FF10(omObjData *arg0) { StructM423_0C *temp_r29; s32 i; if (arg0 && arg0->data) { temp_r29 = arg0->data; for (i = 0; i < 24; i++) { espKill(temp_r29->unk10[i]); } arg0->data = NULL; arg0->func = NULL; } } void fn_1_FF98(void) { fn_1_FF10(lbl_1_bss_98); } void fn_1_10028(s32 arg0) { StructM423_0C *temp_r30; s32 i; temp_r30 = lbl_1_bss_98->data; for (i = 0; i < 24; i++) { if (arg0 != 0) { espDispOn(temp_r30->unk10[i]); } else { espDispOff(temp_r30->unk10[i]); } if (i >= 4 && (i & 1)) { espDispOff(temp_r30->unk10[i]); } } } void fn_1_100DC(void) { omObjData *temp_r3; s32 i; Hu3DCameraCreate(1); Hu3DCameraPerspectiveSet(1, 45.0f, 50.0f, 50000.0f, 1.2f); Hu3DCameraViewportSet(1, 0.0f, 0.0f, 320.0f, 240.0f, 0.0f, 1.0f); Hu3DCameraScissorSet(1, 0, 0, 320, 240); Hu3DCameraCreate(2); Hu3DCameraPerspectiveSet(2, 45.0f, 50.0f, 50000.0f, 1.2f); Hu3DCameraViewportSet(2, 0.0f, 0.0f, 640.0f, 480.0f, 0.0f, 1.0f); Hu3DCameraScissorSet(2, 0, 0, 640, 480); Hu3DCameraCreate(4); Hu3DCameraPerspectiveSet(4, 45.0f, 100.0f, 50000.0f, 1.2f); Hu3DCameraViewportSet(4, 0.0f, 0.0f, 640.0f, 480.0f, 0.0f, 1.0f); Hu3DCameraScissorSet(4, 0, 0, 640, 480); temp_r3 = lbl_1_bss_8C = omAddObjEx(lbl_1_bss_120, 0x7FDA, 0, 0, -1, omOutViewMulti); temp_r3->work[0] = 3; for (i = 0; i < temp_r3->work[0]; i++) { CRotM[i].x = lbl_1_data_0[0].unk00.x; CRotM[i].y = lbl_1_data_0[0].unk00.y; CRotM[i].z = lbl_1_data_0[0].unk00.z; CenterM[i].x = lbl_1_data_0[0].unk0C.x; CenterM[i].y = lbl_1_data_0[0].unk0C.y; CenterM[i].z = lbl_1_data_0[0].unk0C.z; CZoomM[i] = lbl_1_data_0[0].unk18; } lbl_1_bss_84 = 0; lbl_1_bss_88 = -1; omAddObjEx(lbl_1_bss_120, 0xFF, 0, 0, -1, fn_1_10480); } void fn_1_10480(omObjData *arg0) { CRotM[1].x = CRotM[0].x; CRotM[1].y = CRotM[0].y; CRotM[1].z = CRotM[0].z; CenterM[1].x = CenterM[0].x; CenterM[1].y = CenterM[0].y; CenterM[1].z = CenterM[0].z; CZoomM[1] = CZoomM[0]; } void fn_1_1052C(void) { } s32 fn_1_10530(void) { return lbl_1_bss_84; } void fn_1_10540(s32 arg0, s32 arg1, s32 arg2, f32 arg3) { StructData0 *temp_r31; StructData0 *temp_r30; temp_r31 = &lbl_1_data_0[arg1]; temp_r30 = &lbl_1_data_0[arg2]; CRotM[arg0].x = fn_1_12544(arg3, temp_r31->unk00.x, temp_r30->unk00.x); CRotM[arg0].y = fn_1_12544(arg3, temp_r31->unk00.y, temp_r30->unk00.y); CRotM[arg0].z = fn_1_12544(arg3, temp_r31->unk00.z, temp_r30->unk00.z); CenterM[arg0].x = temp_r31->unk0C.x + arg3 * (temp_r30->unk0C.x - temp_r31->unk0C.x); CenterM[arg0].y = temp_r31->unk0C.y + arg3 * (temp_r30->unk0C.y - temp_r31->unk0C.y); CenterM[arg0].z = temp_r31->unk0C.z + arg3 * (temp_r30->unk0C.z - temp_r31->unk0C.z); CZoomM[arg0] = temp_r31->unk18 + arg3 * (temp_r30->unk18 - temp_r31->unk18); } float lbl_1_data_8A4[] = { 95.0f, 95.0f, 135.0f, 95.0f, 95.0f, 125.0f, 135.0f, 125.0f }; void fn_1_106D8(s32 arg0) { float var_f31; StructBssBCData *var_r30; s32 var_r29; if (lbl_1_bss_90 != arg0) { CRotM->x = lbl_1_data_38[arg0].unk00.x; CRotM->y = lbl_1_data_38[arg0].unk00.y; CRotM->z = lbl_1_data_38[arg0].unk00.z; CenterM->x = lbl_1_data_38[arg0].unk0C.x; CenterM->y = lbl_1_data_38[arg0].unk0C.y; CenterM->z = lbl_1_data_38[arg0].unk0C.z; CZoomM[0] = lbl_1_data_38[arg0].unk18; lbl_1_bss_80 = 0; if (arg0 != 0) { lbl_1_bss_7C = frand(); } else { lbl_1_bss_7C = 0; } lbl_1_bss_90 = arg0; } var_r29 = lbl_1_bss_90; switch (var_r29) { case 0: case 1: case 2: lbl_1_bss_80++; if (lbl_1_bss_7C & 1) { var_f31 = cosd((float)lbl_1_bss_80); } else { var_f31 = -cosd((float)lbl_1_bss_80); } CRotM->y = 23.0f * var_f31 + lbl_1_data_38[arg0].unk00.y; break; case 3: case 4: case 5: lbl_1_bss_80++; if (lbl_1_bss_7C & 1) { CRotM->y = lbl_1_data_38[arg0].unk00.y - 45.0f + 0.5f * lbl_1_bss_80; } else { CRotM->y = lbl_1_data_38[arg0].unk00.y + 45.0f - 0.5f * lbl_1_bss_80; } break; case 6: case 7: case 8: if (lbl_1_bss_AC[var_r29 - 6] != NULL) { var_r30 = lbl_1_bss_AC[var_r29 - 6]->data; CenterM->y = lbl_1_data_8A4[var_r30->unk02]; } break; case 9: if (lbl_1_bss_B8 != NULL) { var_r30 = lbl_1_bss_B8->data; CenterM->x = lbl_1_bss_B8->trans.x; CenterM->z = lbl_1_bss_B8->trans.z; CenterM->y = lbl_1_data_8A4[var_r30->unk02]; } break; } } void fn_1_10BC8(void) { Mtx44 sp64; Mtx sp34; Vec sp28; Vec sp1C; Vec sp10; GXColor spC; CameraData *var_r31; var_r31 = &Hu3DCamera[0]; if (var_r31->fov <= 0.0f) { return; } C_MTXPerspective(sp64, var_r31->fov, var_r31->aspect, var_r31->nnear, var_r31->ffar); GXSetProjection(sp64, GX_PERSPECTIVE); GXSetViewport(0.0f, 0.0f, 640.0f, 480.0f, 0.0f, 1.0f); GXSetScissor(0, 0, 640, 480); GXClearVtxDesc(); GXSetVtxDesc(GX_VA_POS, GX_DIRECT); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_POS, GX_POS_XYZ, GX_F32, 0); spC.r = spC.g = spC.b = 0; spC.a = 0xFF; GXSetTevColor(GX_TEVREG0, spC); GXSetTevOrder(GX_TEVSTAGE0, GX_TEXCOORD_NULL, GX_TEXMAP_NULL, GX_COLOR0A0); GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_ZERO, GX_CC_ZERO, GX_CC_ZERO, GX_CC_C0); GXSetTevColorOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetTevAlphaIn(GX_TEVSTAGE0, GX_CA_ZERO, GX_CA_ZERO, GX_CA_ZERO, GX_CA_A0); GXSetTevAlphaOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetNumTexGens(0); GXSetNumTevStages(1); GXSetCullMode(GX_CULL_NONE); GXSetZMode(GX_TRUE, GX_ALWAYS, GX_TRUE); sp28.x = sp28.y = sp28.z = 0.0f; sp1C.x = sp1C.y = 0.0f; sp1C.z = -100.0f; sp10.x = sp10.z = 0.0f; sp10.y = 1.0f; C_MTXLookAt(sp34, &sp28, &sp10, &sp1C); GXLoadPosMtxImm(sp34, GX_PNMTX0); sp28.x = 10000.0 * -sin(var_r31->fov / 2.0f) * 1.2f; sp28.y = 10000.0 * -sin(var_r31->fov / 2.0f) * 0.8333333f; GXBegin(GX_QUADS, GX_VTXFMT0, 4); GXPosition3f32(-sp28.x, -sp28.y, -10000.0f); GXPosition3f32(sp28.x, -sp28.y, -10000.0f); GXPosition3f32(sp28.x, sp28.y, -10000.0f); GXPosition3f32(-sp28.x, sp28.y, -10000.0f); GXEnd(); } void fn_1_11008(StructBssD0Data *arg0, void *arg1, s16 arg2, GXTexWrapMode arg3, s32 arg4, s32 arg5) { GXTexObj sp18; StructBssD0Data *var_r31; var_r31 = arg0; GXInitTexObj(&sp18, arg1, var_r31->unk00, var_r31->unk04, GX_TF_RGB5A3, arg3, arg3, GX_FALSE); if (arg5 != 0) { GXInitTexObjLOD(&sp18, GX_LINEAR, GX_LINEAR, 0.0f, 0.0f, 0.0f, GX_FALSE, GX_FALSE, GX_ANISO_1); } else { GXInitTexObjLOD(&sp18, GX_NEAR, GX_NEAR, 0.0f, 0.0f, 0.0f, GX_FALSE, GX_FALSE, GX_ANISO_1); } GXLoadTexObj(&sp18, arg2); #ifdef TARGET_PC GXDestroyTexObj(&sp18); #endif } s16 fn_1_11114(AnimData *arg0, s16 arg1) { s16 var_r23; s16 i; ModelData *temp_r27; StructM423_05 *var_r31; StructM423_04 *var_r29; Vec *var_r25; float(*var_r28)[2]; void *var_r24; void *var_r22; var_r23 = Hu3DHookFuncCreate(fn_1_11900); temp_r27 = &Hu3DData[var_r23]; temp_r27->unk_120 = var_r31 = HuMemDirectMallocNum(HEAP_DATA, sizeof(*var_r31), temp_r27->unk_48); var_r31->unk38 = arg0; var_r31->unk26 = arg1; var_r31->unk20 = 0; var_r31->unk22 = 0; var_r31->unk4C = NULL; var_r31->unk50 = NULL; var_r31->unk28 = 0; var_r31->unk21 = 0; var_r31->unk23 = 0; var_r31->unk30 = 0; var_r31->unk00 = var_r31->unk02 = 0; var_r31->unk3C = var_r29 = HuMemDirectMallocNum(HEAP_DATA, arg1 * sizeof(*var_r29), temp_r27->unk_48); memset(var_r29, 0, arg1 * sizeof(*var_r29)); for (i = 0; i < arg1; i++, var_r29++) { var_r29->unk30 = 0.0f; var_r29->unk34 = 0.0f; var_r29->unk28 = 0.0f; var_r29->unk2C = 1.0f; var_r29->unk38.x = (frand7() - 64) * 20; var_r29->unk38.y = (frand7() - 64) * 30; var_r29->unk38.z = (frand7() - 64) * 20; var_r29->unk44.r = var_r29->unk44.g = var_r29->unk44.b = var_r29->unk44.a = 0xFF; var_r29->unk48 = 0; } var_r31->unk40 = var_r25 = HuMemDirectMallocNum(HEAP_DATA, arg1 * sizeof(*var_r25) * 4, temp_r27->unk_48); for (i = 0; i < arg1 * 4; i++, var_r25++) { var_r25->x = var_r25->y = var_r25->z = 0.0f; } var_r31->unk44 = var_r28 = HuMemDirectMallocNum(HEAP_DATA, arg1 * sizeof(*var_r28) * 4, temp_r27->unk_48); for (i = 0; i < arg1; i++) { (*var_r28)[0] = 0.0f; (*var_r28)[1] = 0.0f; var_r28++; (*var_r28)[0] = 1.0f; (*var_r28)[1] = 0.0f; var_r28++; (*var_r28)[0] = 1.0f; (*var_r28)[1] = 1.0f; var_r28++; (*var_r28)[0] = 0.0f; (*var_r28)[1] = 1.0f; var_r28++; } var_r22 = var_r24 = HuMemDirectMallocNum(HEAP_DATA, 0x10000, temp_r27->unk_48); DCFlushRange(var_r24, 0x10000); GXBeginDisplayList(var_r22, 0x10000); GXBegin(GX_QUADS, GX_VTXFMT0, arg1 * 4); for (i = 0; i < arg1; i++) { GXPosition1x16(i * 4); GXColor1x16(i); GXTexCoord1x16(i * 4); GXPosition1x16(i * 4 + 1); GXColor1x16(i); GXTexCoord1x16(i * 4 + 1); GXPosition1x16(i * 4 + 2); GXColor1x16(i); GXTexCoord1x16(i * 4 + 2); GXPosition1x16(i * 4 + 3); GXColor1x16(i); GXTexCoord1x16(i * 4 + 3); } GXEnd(); var_r31->unk34 = GXEndDisplayList(); var_r31->unk48 = HuMemDirectMallocNum(HEAP_DATA, var_r31->unk34, temp_r27->unk_48); memcpy(var_r31->unk48, var_r24, var_r31->unk34); DCFlushRange(var_r31->unk48, var_r31->unk34); HuMemDirectFree(var_r24); return var_r23; } s16 fn_1_115C4(s16 arg0) { s32 temp_r24; s16 var_r22; s16 i; ModelData *temp_r23; ModelData *temp_r27; StructM423_05 *temp_r26; StructM423_05 *var_r31; StructM423_04 *var_r30; Vec *var_r25; float(*var_r29)[2]; temp_r23 = &Hu3DData[arg0]; temp_r26 = temp_r23->unk_120; var_r22 = Hu3DHookFuncCreate(temp_r23->hook); temp_r27 = &Hu3DData[var_r22]; temp_r27->unk_120 = var_r31 = HuMemDirectMallocNum(HEAP_DATA, sizeof(*var_r31), temp_r27->unk_48); var_r31->unk38 = temp_r26->unk38; var_r31->unk26 = temp_r26->unk26; temp_r24 = var_r31->unk26; var_r31->unk20 = 0; var_r31->unk22 = temp_r26->unk22; var_r31->unk4C = NULL; var_r31->unk50 = NULL; var_r31->unk28 = 0; var_r31->unk21 = 0; var_r31->unk30 = 0; var_r31->unk00 = var_r31->unk02 = 0; var_r31->unk3C = var_r30 = HuMemDirectMallocNum(HEAP_DATA, temp_r24 * sizeof(*var_r30), temp_r27->unk_48); for (i = 0; i < temp_r24; i++, var_r30++) { var_r30->unk30 = 0.0f; var_r30->unk34 = 0.0f; var_r30->unk28 = 0.0f; var_r30->unk2C = 1.0f; var_r30->unk38.x = (frand7() - 64) * 20; var_r30->unk38.y = (frand7() - 64) * 30; var_r30->unk38.z = (frand7() - 64) * 20; var_r30->unk44.r = var_r30->unk44.g = var_r30->unk44.b = var_r30->unk44.a = 0xFF; var_r30->unk48 = 0; } var_r31->unk40 = var_r25 = HuMemDirectMallocNum(HEAP_DATA, temp_r24 * sizeof(*var_r25) * 4, temp_r27->unk_48); for (i = 0; i < (temp_r24 * 4); i++, var_r25++) { var_r25->x = var_r25->y = var_r25->z = 0.0f; } var_r31->unk44 = var_r29 = HuMemDirectMallocNum(HEAP_DATA, temp_r24 * sizeof(*var_r29) * 4, temp_r27->unk_48); for (i = 0; i < temp_r24; i++) { (*var_r29)[0] = 0.0f; (*var_r29)[1] = 0.0f; var_r29++; (*var_r29)[0] = 1.0f; (*var_r29)[1] = 0.0f; var_r29++; (*var_r29)[0] = 1.0f; (*var_r29)[1] = 1.0f; var_r29++; (*var_r29)[0] = 0.0f; (*var_r29)[1] = 1.0f; var_r29++; } var_r31->unk34 = temp_r26->unk34; var_r31->unk48 = temp_r26->unk48; return var_r22; } Vec lbl_1_data_8C4[] = { { -0.5f, 0.5f, 0.0f }, { 0.5f, 0.5f, 0.0f }, { 0.5f, -0.5f, 0.0f }, { -0.5f, -0.5f, 0.0f } }; float lbl_1_data_8F4[][2] = { { 0.0f, 0.0f }, { 0.25f, 0.0f }, { 0.25f, 0.25f }, { 0.0f, 0.25f } }; void fn_1_11900(ModelData *arg0, Mtx arg1) { Mtx sp128; Mtx spF8; Mtx spC8; Vec sp98[4]; Vec sp68[4]; Vec sp38[4]; ROMtx sp8; StructM423_05 *temp_r31; StructM423_04 *var_r29; Vec *var_r30; float(*var_r28)[2]; Vec *temp_r27; Vec *temp_r24; s16 var_r21; s16 var_r20; s16 var_r19; void (*var_r18)(ModelData *, struct struct_m423_05 *, Mtx); s16 i; s16 j; temp_r31 = arg0->unk_120; if (temp_r31->unk2C == GlobalCounter && shadowModelDrawF == 0) { return; } if (temp_r31->unk50 && temp_r31->unk50 != arg0) { fn_1_11900(temp_r31->unk50, arg1); } GXLoadPosMtxImm(arg1, GX_PNMTX0); GXSetNumTevStages(1); GXSetNumTexGens(1); GXSetTexCoordGen2(GX_TEXCOORD0, GX_TG_MTX2x4, GX_TG_TEX0, GX_IDENTITY, GX_FALSE, GX_PTIDENTITY); GXSetTevOrder(GX_TEVSTAGE0, GX_TEXCOORD0, GX_TEXMAP0, GX_COLOR0A0); if (shadowModelDrawF != 0) { GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_ONE, GX_CC_ZERO, GX_CC_ZERO, GX_CC_ZERO); GXSetZMode(GX_FALSE, GX_LEQUAL, GX_FALSE); } else { var_r21 = temp_r31->unk38->bmp->dataFmt & 0xF; if (var_r21 == 7 || var_r21 == 8) { GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_ZERO, GX_CC_ONE, GX_CC_RASC, GX_CC_ZERO); } else { GXSetTevColorIn(GX_TEVSTAGE0, GX_CC_ZERO, GX_CC_TEXC, GX_CC_RASC, GX_CC_ZERO); } if (temp_r31->unk22 & 1) { GXSetZMode(GX_FALSE, GX_LEQUAL, GX_FALSE); } else if (arg0->attr & 2) { GXSetZMode(GX_TRUE, GX_LEQUAL, GX_TRUE); } else { GXSetZMode(GX_TRUE, GX_LEQUAL, GX_FALSE); } } GXSetTevColorOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetTevAlphaIn(GX_TEVSTAGE0, GX_CA_ZERO, GX_CA_TEXA, GX_CA_RASA, GX_CA_ZERO); GXSetTevAlphaOp(GX_TEVSTAGE0, GX_TEV_ADD, GX_TB_ZERO, GX_CS_SCALE_1, GX_TRUE, GX_TEVPREV); GXSetNumChans(1); GXSetChanCtrl(GX_COLOR0A0, GX_FALSE, GX_SRC_REG, GX_SRC_VTX, GX_LIGHT_NULL, GX_DF_CLAMP, GX_AF_NONE); HuSprTexLoad(temp_r31->unk38, 0, 0, GX_REPEAT, GX_REPEAT, GX_LINEAR); GXSetAlphaCompare(GX_GEQUAL, 1, GX_AOP_AND, GX_GEQUAL, 1); GXSetZCompLoc(GX_FALSE); switch (temp_r31->unk20) { case 0: GXSetBlendMode(GX_BM_BLEND, GX_BL_SRCALPHA, GX_BL_INVSRCALPHA, GX_LO_NOOP); break; case 1: GXSetBlendMode(GX_BM_BLEND, GX_BL_SRCALPHA, GX_BL_ONE, GX_LO_NOOP); break; case 2: GXSetBlendMode(GX_BM_BLEND, GX_BL_ZERO, GX_BL_INVDSTCLR, GX_LO_NOOP); break; } if (HmfInverseMtxF3X3(arg1, sp128) == 0) { MTXIdentity(sp128); } MTXReorder(sp128, sp8); if (temp_r31->unk4C) { var_r18 = temp_r31->unk4C; var_r18(arg0, temp_r31, arg1); } var_r29 = temp_r31->unk3C; var_r30 = temp_r31->unk40; var_r28 = temp_r31->unk44; MTXROMultVecArray(sp8, lbl_1_data_8C4, sp38, 4); for (i = 0; i < temp_r31->unk26; i++, var_r29++) { if (!var_r29->unk30) { var_r30->x = var_r30->y = var_r30->z = 0.0f; var_r30++; var_r30->x = var_r30->y = var_r30->z = 0.0f; var_r30++; var_r30->x = var_r30->y = var_r30->z = 0.0f; var_r30++; var_r30->x = var_r30->y = var_r30->z = 0.0f; var_r30++; } else if (!var_r29->unk34) { temp_r27 = sp98; temp_r24 = sp38; VECScale(temp_r24++, temp_r27, var_r29->unk30); VECAdd(temp_r27++, &var_r29->unk38, var_r30++); VECScale(temp_r24++, temp_r27, var_r29->unk30); VECAdd(temp_r27++, &var_r29->unk38, var_r30++); VECScale(temp_r24++, temp_r27, var_r29->unk30); VECAdd(temp_r27++, &var_r29->unk38, var_r30++); VECScale(temp_r24++, temp_r27, var_r29->unk30); VECAdd(temp_r27++, &var_r29->unk38, var_r30++); } else { VECScale(&lbl_1_data_8C4[0], &sp98[0], var_r29->unk30); VECScale(&lbl_1_data_8C4[1], &sp98[1], var_r29->unk30); VECScale(&lbl_1_data_8C4[2], &sp98[2], var_r29->unk30); VECScale(&lbl_1_data_8C4[3], &sp98[3], var_r29->unk30); MTXRotRad(spC8, 'Z', var_r29->unk34); MTXConcat(sp128, spC8, spF8); MTXMultVecArray(spF8, sp98, sp68, 4); VECAdd(&sp68[0], &var_r29->unk38, var_r30++); VECAdd(&sp68[1], &var_r29->unk38, var_r30++); VECAdd(&sp68[2], &var_r29->unk38, var_r30++); VECAdd(&sp68[3], &var_r29->unk38, var_r30++); } } var_r29 = temp_r31->unk3C; var_r28 = temp_r31->unk44; if (!(temp_r31->unk22 & 2)) { for (i = 0; i < temp_r31->unk26; i++, var_r29++) { var_r20 = var_r29->unk48 & 3; var_r19 = (var_r29->unk48 >> 2) & 3; for (j = 0; j < 4; j++, var_r28++) { (*var_r28)[0] = 0.25f * var_r20 + lbl_1_data_8F4[j][0]; (*var_r28)[1] = 0.25f * var_r19 + lbl_1_data_8F4[j][1]; } } } else { for (i = 0; i < temp_r31->unk26; i++, var_r29++) { for (j = 0; j < 4; j++, var_r28++) { (*var_r28)[0] = 4.0f * lbl_1_data_8F4[j][0]; (*var_r28)[1] = 4.0f * lbl_1_data_8F4[j][1]; } } } DCFlushRangeNoSync(temp_r31->unk40, temp_r31->unk26 * sizeof(*temp_r31->unk40) * 4); DCFlushRangeNoSync(temp_r31->unk44, temp_r31->unk26 * sizeof(*temp_r31->unk44) * 4); DCFlushRangeNoSync(temp_r31->unk3C, temp_r31->unk26 * sizeof(*temp_r31->unk3C)); PPCSync(); GXClearVtxDesc(); GXSetVtxDesc(GX_VA_POS, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_POS, GX_POS_XYZ, GX_F32, 0); GXSETARRAY(GX_VA_POS, temp_r31->unk40, temp_r31->unk26 * sizeof(Vec) * 4, sizeof(Vec)); GXSetVtxDesc(GX_VA_CLR0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_CLR0, GX_CLR_RGBA, GX_RGBA8, 0); GXSETARRAY(GX_VA_CLR0, &temp_r31->unk3C->unk44, sizeof(GXColor), 76); GXSetVtxDesc(GX_VA_TEX0, GX_INDEX16); GXSetVtxAttrFmt(GX_VTXFMT0, GX_VA_TEX0, GX_TEX_ST, GX_F32, 0); GXSETARRAY(GX_VA_TEX0, temp_r31->unk44, temp_r31->unk26 * sizeof(Vec2f) * 4, sizeof(Vec2f)); GXCallDisplayListNative(temp_r31->unk48, temp_r31->unk34); if (shadowModelDrawF == 0) { if (!(temp_r31->unk21 & 2)) { temp_r31->unk28++; } if (temp_r31->unk30 != 0 && temp_r31->unk30 <= temp_r31->unk28) { if (temp_r31->unk21 & 1) { temp_r31->unk28 = 0; } temp_r31->unk28 = temp_r31->unk30; } temp_r31->unk2C = GlobalCounter; } } float fn_1_121DC(float arg0, float arg1) { float var_f31; if (arg0 >= 360.0f) { arg0 -= 360.0f; } else if (arg0 < 0.0f) { arg0 += 360.0f; } if (arg1 >= 360.0f) { arg1 -= 360.0f; } else if (arg1 < 0.0f) { arg1 += 360.0f; } var_f31 = arg0 - arg1; if (var_f31 <= -180.0f) { var_f31 += 360.0f; } else if (var_f31 >= 180.0f) { var_f31 -= 360.0f; } return var_f31; } float fn_1_122F4(float arg0, float arg1, float arg2) { float var_f30; float var_f31; if (arg0 >= 360.0) { arg0 -= 360.0; } else if (arg0 < 0.0) { arg0 += 360.0; } if (arg1 >= 360.0) { arg1 -= 360.0; } else if (arg1 < 0.0) { arg1 += 360.0; } var_f30 = arg0 - arg1 + 360.0; if (fabs(var_f30) >= 360.0) { var_f30 = fmod(var_f30, 360.0); } if (var_f30 < 180.0) { if (var_f30 <= arg2) { var_f31 = var_f30; } else { var_f31 = arg2; } } else { if (360.0 - var_f30 <= arg2) { var_f31 = -(360.0 - var_f30); } else { var_f31 = -arg2; } } var_f31 += arg1; if (var_f31 >= 360.0) { var_f31 -= 360.0; } else if (var_f31 < 0.0) { var_f31 += 360.0; } return var_f31; } float fn_1_12544(float arg0, float arg1, float arg2) { float var_f28; var_f28 = fn_1_121DC(arg2, arg1); return fn_1_122F4(arg2, arg1, fabs(var_f28 * arg0)); } void fn_1_1293C(Mtx arg0, Vec *arg1) { Vec sp8; sp8.x = arg0[0][0] * arg1->x + arg0[0][1] * arg1->y + arg0[0][2] * arg1->z; sp8.y = arg0[1][0] * arg1->x + arg0[1][1] * arg1->y + arg0[1][2] * arg1->z; sp8.z = arg0[2][0] * arg1->x + arg0[2][1] * arg1->y + arg0[2][2] * arg1->z; *arg1 = sp8; } void fn_1_129F0(Vec *arg0, Vec *arg1, Vec *arg2, float *arg3) { Vec sp18; Vec spC; float var_f30; float var_f29; sp18.x = arg1->x - arg0->x; sp18.y = arg1->y - arg0->y; sp18.z = arg1->z - arg0->z; spC.x = arg2->x - arg1->x; spC.y = arg2->y - arg1->y; spC.z = arg2->z - arg1->z; arg3[0] = sp18.y * spC.z - sp18.z * spC.y; arg3[1] = sp18.z * spC.x - sp18.x * spC.z; arg3[2] = sp18.x * spC.y - sp18.y * spC.x; var_f29 = arg3[0] * arg3[0] + arg3[1] * arg3[1] + arg3[2] * arg3[2]; var_f30 = sqrtf(var_f29); if (var_f30 != 0.0f) { var_f30 = 1.0f / var_f30; } else { var_f30 = 0.0f; } arg3[0] *= var_f30; arg3[1] *= var_f30; arg3[2] *= var_f30; arg3[3] = -(arg3[0] * arg0->x + arg3[1] * arg0->y + arg3[2] * arg0->z); } s32 fn_1_12C6C(Vec *arg0, Vec *arg1, float *arg2) { float temp_f31; float temp_f30; temp_f31 = arg0->x * arg2[0] + arg0->y * arg2[1] + arg0->z * arg2[2] + arg2[3]; temp_f30 = arg1->x * arg2[0] + arg1->y * arg2[1] + arg1->z * arg2[2] + arg2[3]; if (temp_f31 <= 0.0f && temp_f30 > 0.0f) { return 1; } if (temp_f31 >= 0.0f && temp_f30 < 0.0f) { return -1; } return 0; } float fn_1_12D6C(Vec *arg0, Vec *arg1, s32 arg2, float arg3, float arg4) { float var_f31; float var_f30; float var_f29; float var_f28; float var_f27; switch (arg2) { case 0: var_f31 = arg0->y - arg3; var_f30 = arg0->z - arg4; var_f29 = arg1->y - arg3; var_f28 = arg1->z - arg4; break; case 1: var_f31 = arg0->x - arg3; var_f30 = arg0->z - arg4; var_f29 = arg1->x - arg3; var_f28 = arg1->z - arg4; break; case 2: var_f31 = arg0->x - arg3; var_f30 = arg0->y - arg4; var_f29 = arg1->x - arg3; var_f28 = arg1->y - arg4; break; } var_f27 = -(var_f30 * var_f29 - var_f31 * var_f28); return var_f27; } u8 lbl_1_data_914[][2] = { { 0, 1 }, { 1, 2 }, { 2, 0 } }; float fn_1_12E68(Vec *arg0, Vec *arg1, s32 arg2) { float var_f31; float var_f30; float var_f29; s32 i; switch (arg2) { case 0: var_f31 = arg1->y; var_f30 = arg1->z; break; case 1: var_f31 = arg1->x; var_f30 = arg1->z; break; case 2: var_f31 = arg1->x; var_f30 = arg1->y; break; } var_f29 = fn_1_12D6C(&arg0[lbl_1_data_914[0][0]], &arg0[lbl_1_data_914[0][1]], arg2, var_f31, var_f30); if (var_f29 > 0.0f) { for (i = 1; i < 3; i++) { var_f29 = fn_1_12D6C(&arg0[lbl_1_data_914[i][0]], &arg0[lbl_1_data_914[i][1]], arg2, var_f31, var_f30); if (var_f29 == 0.0f) { return 1.0f; } if (var_f29 < 0.0f) { return 0.0f; } } return 1.0f; } else { for (i = 1; i < 3; i++) { var_f29 = fn_1_12D6C(&arg0[lbl_1_data_914[i][0]], &arg0[lbl_1_data_914[i][1]], arg2, var_f31, var_f30); if (var_f29 == 0.0f) { return -1.0f; } if (var_f29 > 0.0f) { return 0.0f; } } return -1.0f; } } void fn_1_1334C(float *arg0, Vec *arg1, Vec *arg2, Vec *arg3, Vec *arg4) { float temp_f26; float temp_f25; float temp_f24; float temp_f31; float temp_f30; float temp_f29; float var_f22; float var_f21; float var_f20; float var_f19; float var_f18; float spC; float var_f28; temp_f26 = arg0[0]; temp_f25 = arg0[1]; temp_f24 = arg0[2]; var_f19 = arg3->x; var_f18 = arg3->y; spC = arg3->z; temp_f31 = arg2->x; temp_f30 = arg2->y; temp_f29 = arg2->z; var_f22 = arg1->x; var_f21 = arg1->y; var_f20 = arg1->z; var_f28 = sqrtf(temp_f31 * temp_f31 + temp_f30 * temp_f30 + temp_f29 * temp_f29); if (var_f28 != 0.0f) { var_f28 = 1.0f / var_f28; } temp_f31 *= var_f28; temp_f30 *= var_f28; temp_f29 *= var_f28; var_f28 = temp_f26 * temp_f31 + temp_f25 * temp_f30 + temp_f24 * temp_f29; if (var_f28 != 0.0f) { var_f28 = -(temp_f26 * (var_f22 - var_f19) + temp_f25 * (var_f21 - var_f18) + temp_f24 * (var_f20 - spC)) / var_f28; } else { var_f28 = 0.0f; } arg4->x = arg1->x + var_f28 * arg2->x; arg4->y = arg1->y + var_f28 * arg2->y; arg4->z = arg1->z + var_f28 * arg2->z; } float fn_1_1367C(Vec *arg0, Vec *arg1, Vec *arg2, Vec *arg3, f32 *arg4) { Vec sp38; Vec sp2C; Vec sp20; Vec sp14; Vec sp8; float temp_f31; arg0->z = 0.0f; arg1->z = 0.0f; arg2->z = 0.0f; VECSubtract(arg1, arg0, &sp2C); VECSubtract(arg2, arg0, &sp20); temp_f31 = (sp2C.x * sp20.x + sp2C.y * sp20.y) / (sp2C.x * sp2C.x + sp2C.y * sp2C.y); if (arg4 != NULL) { *arg4 = temp_f31; } VECScale(&sp2C, &sp14, temp_f31); VECAdd(&sp2C, &sp14, &sp38); if (arg3 != NULL) { *arg3 = sp38; } VECSubtract(arg2, &sp38, &sp8); return VECMag(&sp8); } s32 fn_1_137C4(Vec *arg0, Vec *arg1, Vec *arg2, Vec *arg3, float arg4, s32 arg5) { Vec sp40; Vec sp34; Vec sp28; Vec sp1C; Vec sp10; f32 temp_f30; f32 temp_f29; f32 temp_f28; f32 var_f31; VECAdd(arg1, arg2, &sp28); *arg3 = sp28; VECNormalize(arg2, &sp1C); VECScale(&sp1C, &sp1C, arg4); VECAdd(arg1, &sp1C, &sp40); VECAdd(&sp28, &sp1C, &sp34); VECNormalize(arg2, &sp1C); VECScale(&sp1C, &sp10, -arg4); switch (arg5) { case 0: if (sp40.y >= arg0[0].y && sp34.y < arg0[0].y) { if (sp1C.y == 0.0f) { var_f31 = 0.0f; } else { var_f31 = (arg0[0].y - arg1->y) / sp1C.y; } temp_f30 = arg1->x + var_f31 * sp1C.x; temp_f28 = arg1->z + var_f31 * sp1C.z; if (temp_f30 >= arg0[0].x && temp_f30 <= arg0[2].x && temp_f28 >= arg0[0].z && temp_f28 <= arg0[2].z) { arg3->x = temp_f30; arg3->y = arg0[0].y + arg4 + 1.0f; arg3->z = temp_f28; VECAdd((Vec *)&arg3, &sp10, (Vec *)&arg3); return 1; } } break; case 1: if (sp40.y <= arg0[0].y && sp34.y > arg0[0].y) { if (sp1C.y == 0.0f) { var_f31 = 0.0f; } else { var_f31 = (arg0[0].y - arg1->y) / sp1C.y; } temp_f30 = arg1->x + var_f31 * sp1C.x; temp_f28 = arg1->z + var_f31 * sp1C.z; if (temp_f30 >= arg0[0].x && temp_f30 <= arg0[2].x && temp_f28 <= arg0[0].z && temp_f28 >= arg0[2].z) { arg3->x = temp_f30; arg3->y = arg0[0].y - arg4 - 1.0f; arg3->z = temp_f28; VECAdd((Vec *)&arg3, &sp10, (Vec *)&arg3); return 1; } } break; case 2: if (sp40.x <= arg0[0].x && sp34.x > arg0[0].x) { if (sp1C.x == 0.0f) { var_f31 = 0.0f; } else { var_f31 = (arg0[0].x - arg1->x) / sp1C.x; } temp_f29 = arg1->y + var_f31 * sp1C.y; temp_f28 = arg1->z + var_f31 * sp1C.z; if (temp_f29 <= arg0[0].y && temp_f29 >= arg0[2].y && temp_f28 >= arg0[0].z && temp_f28 <= arg0[2].z) { arg3->x = arg0[0].x - arg4 - 1.0f; arg3->y = temp_f29; arg3->z = temp_f28; VECAdd((Vec *)&arg3, &sp10, (Vec *)&arg3); return 1; } } break; case 3: if (sp40.x >= arg0[0].x && sp34.x < arg0[0].x) { if (sp1C.x == 0.0f) { var_f31 = 0.0f; } else { var_f31 = (arg0[0].x - arg1->x) / sp1C.x; } temp_f29 = arg1->y + var_f31 * sp1C.y; temp_f28 = arg1->z + var_f31 * sp1C.z; if (temp_f29 <= arg0[0].y && temp_f29 >= arg0[2].y && temp_f28 <= arg0[0].z && temp_f28 >= arg0[2].z) { arg3->x = arg0[0].x + arg4 + 1.0f; arg3->y = temp_f29; arg3->z = temp_f28; VECAdd((Vec *)&arg3, &sp10, (Vec *)&arg3); return 1; } } break; case 4: if (sp40.z >= arg0[0].z && sp34.z < arg0[0].z) { if (sp1C.z == 0.0f) { var_f31 = 0.0f; } else { var_f31 = (arg0[0].z - arg1->z) / sp1C.z; } temp_f30 = arg1->x + var_f31 * sp1C.x; temp_f29 = arg1->y + var_f31 * sp1C.y; if (temp_f30 >= arg0[0].x && temp_f30 <= arg0[2].x && temp_f29 <= arg0[0].y && temp_f29 >= arg0[2].y) { arg3->x = temp_f30; arg3->y = temp_f29; arg3->z = arg0[0].z + arg4 + 1.0f; VECAdd((Vec *)&arg3, &sp10, (Vec *)&arg3); return 1; } } break; case 5: if (sp40.z <= arg0[0].z && sp34.z > arg0[0].z) { if (sp1C.z == 0.0f) { var_f31 = 0.0f; } else { var_f31 = (arg0[0].z - arg1->z) / sp1C.z; } temp_f30 = arg1->x + var_f31 * sp1C.x; temp_f29 = arg1->y + var_f31 * sp1C.y; if (temp_f30 <= arg0[0].x && temp_f30 >= arg0[2].x && temp_f29 <= arg0[0].y && temp_f29 >= arg0[2].y) { arg3->x = temp_f30; arg3->y = temp_f29; arg3->z = arg0[0].z - arg4 - 1.0f; VECAdd((Vec *)&arg3, &sp10, (Vec *)&arg3); return 1; } } break; } return 0; }