#include "global.h" #include "malloc.h" #include "bg.h" #include "dodrio_berry_picking.h" #include "dynamic_placeholder_text_util.h" #include "event_data.h" #include "gpu_regs.h" #include "international_string_util.h" #include "item.h" #include "link.h" #include "link_rfu.h" #include "m4a.h" #include "main.h" #include "palette.h" #include "minigame_countdown.h" #include "random.h" #include "save.h" #include "script.h" #include "sound.h" #include "string_util.h" #include "strings.h" #include "task.h" #include "text_window.h" #include "window.h" #include "constants/items.h" #include "constants/songs.h" #include "constants/species.h" struct DodrioSubstruct_0160 { /*0x0000 : 0x3000*/ u16 ALIGNED(4) tilemapBuffers[3][BG_SCREEN_SIZE]; /*0x3000 : 0x3160*/ bool32 finished; /*0x3004 : 0x3164*/ u8 ALIGNED(4) unk3004; /*0x3008 : 0x3168*/ u8 ALIGNED(4) unk3008[10]; /*0x3014 : 0x3174*/ u8 ALIGNED(4) state; /*0x3018 : 0x3178*/ u8 ALIGNED(4) unk3018; /*0x301C : 0x317C*/ u16 ALIGNED(4) unk301C; /*0x3020 : 0x3180*/ u8 ALIGNED(4) unk3020; /*0x3024 : 0x3184*/ u8 ALIGNED(4) unk3024; /*0x3024 : 0x3184*/ void (*unk3028)(void); }; // size = 0x302C struct DodrioStruct_2022CF4 { u8 filler_00[0xc]; u8 unkC[10]; s16 unk16[10]; u16 unk2A[10]; u16 unk3E; }; // size = 0x40 struct DodrioSubstruct_31A0_14 { u8 unk0[11]; u8 unkB[11]; }; struct DodrioSubstruct_31A0_2C { u8 unk0; u8 ALIGNED(4) unk4; u8 ALIGNED(4) unk8; }; struct DodrioSubstruct_31A0 { u8 name[0x10]; u32 unk10; struct DodrioSubstruct_31A0_14 unk14; struct DodrioSubstruct_31A0_2C unk2C; u8 filler_35[4]; }; // size = 0x3C struct DodrioSubstruct_318C { bool8 isShiny; }; struct DodrioSubstruct_3308 { u8 unk0; u32 unk4; }; struct DodrioStruct { /*0x0000*/ void (*savedCallback)(void); /*0x0004*/ u8 ALIGNED(4) unk04; /*0x0008*/ u8 ALIGNED(4) unk08; /*0x000C*/ u8 ALIGNED(4) unk0C; /*0x0010*/ u8 ALIGNED(4) unk10; /*0x0014*/ u8 ALIGNED(4) unk14; /*0x0018*/ u8 ALIGNED(4) unk18; /*0x001C*/ u8 ALIGNED(4) unk1C; /*0x0020*/ u8 ALIGNED(4) unk20; /*0x0024*/ u8 ALIGNED(4) unk24; /*0x0028*/ u8 ALIGNED(4) multiplayerId; /*0x0029*/ u8 filler_0029[7]; /*0x0030*/ u8 ALIGNED(4) unk30; /*0x0034*/ u8 ALIGNED(4) unk34[5]; /*0x003C*/ u8 ALIGNED(4) unk3C; /*0x0040*/ u8 ALIGNED(4) unk40; /*0x0044*/ u8 ALIGNED(4) unk44; /*0x0048*/ u8 ALIGNED(4) unk48; /*0x004A*/ u16 unk4A[5][6]; /*0x0086*/ u16 unk86[5]; /*0x0090*/ u8 ALIGNED(4) unk90[5]; /*0x0098*/ u8 ALIGNED(4) unk98[4]; /*0x009C*/ u8 ALIGNED(4) unk9C[11]; /*0x00A8*/ u8 ALIGNED(4) unkA8[5]; /*0x00B0*/ u8 ALIGNED(4) unkB0[5]; /*0x00B8*/ u8 ALIGNED(4) unkB8[11]; /*0x00C4*/ u8 ALIGNED(4) unkC4[11]; /*0x00D0*/ u8 ALIGNED(4) unkD0[11]; /*0x00DC*/ u8 ALIGNED(4) unkDC[11]; /*0x00E8*/ u8 ALIGNED(4) unkE8[11]; /*0x00F4*/ u8 ALIGNED(4) unkF4[11][2]; /*0x010C*/ u8 ALIGNED(4) unk10C[5]; /*0x0112*/ u16 unk112; /*0x0114*/ u16 unk114; /*0x0118*/ u32 unk118; /*0x011C*/ u32 unk11C; /*0x0120*/ u32 unk120; /*0x0124*/ u8 ALIGNED(4) unk124; /*0x0128*/ u8 ALIGNED(4) unk128; /*0x012C*/ u32 unk12C; /*0x0130*/ u32 unk130[5]; /*0x0144*/ u8 ALIGNED(4) unk144; /*0x0148*/ u8 ALIGNED(4) unk148[11]; /*0x0154*/ u8 ALIGNED(4) unk154; /*0x0158*/ u8 ALIGNED(4) unk158[5]; /*0x0160*/ struct DodrioSubstruct_0160 unk160; /*0x318C*/ struct DodrioSubstruct_318C unk318C[5]; /*0x31A0*/ struct DodrioSubstruct_31A0 unk31A0[5]; /*0x32CC*/ struct DodrioSubstruct_31A0 unk32CC; /*0x3308*/ struct DodrioSubstruct_3308 unk3308[5]; }; // size = 0x3330 EWRAM_DATA static struct DodrioStruct * gUnknown_02022C98 = NULL; EWRAM_DATA static u16 *gUnknown_02022C9C[5] = {NULL}; EWRAM_DATA static u16 *gUnknown_02022CB0[2] = {NULL}; EWRAM_DATA static u16 *gUnknown_02022CB8[11] = {NULL}; EWRAM_DATA static u16 *gUnknown_02022CE4[4] = {NULL}; EWRAM_DATA static struct DodrioStruct_2022CF4 *gUnknown_02022CF4 = NULL; EWRAM_DATA static struct DodrioSubstruct_0160 *gUnknown_02022CF8 = NULL; static bool32 gUnknown_03000DB0; static void sub_8024A1C(void); static void sub_8024A30(struct DodrioStruct *); static void sub_8024BC8(u8 taskId); static void sub_8024DBC(void); static void sub_8024E00(void); static void sub_8024E38(void); static void sub_8024F10(void); static void sub_8024F38(void); static void sub_8024FFC(void); static void sub_80250D4(void); static void sub_8025158(void); static void sub_8025198(void); static void sub_8025230(void); static void sub_8025324(void); static void sub_8025470(void); static void sub_8025644(void); static void sub_80256AC(void); static void sub_8025758(void); static void sub_802589C(u8 taskId); static void sub_8025910(u8 taskId); static void sub_8025D04(void); static void sub_8025D50(void); static void sub_8025E0C(void); static void sub_8025ED8(void); static void sub_8025F48(void); static void sub_8026044(void); static void sub_80261CC(void); static void sub_80261E4(void); static void sub_80261F8(struct DodrioSubstruct_318C *, struct Pokemon *); static void sub_802620C(TaskFunc, u8); static void sub_802621C(TaskFunc); static void sub_8026240(u8); static bool32 sub_8026264(void); static void sub_80262C0(void); static bool32 sub_8026634(u8, u8, u8); static void sub_802671C(void); static void sub_8026AF4(void); static void sub_8026B28(void); static void sub_8026B5C(u8, u8*, u8*); static bool32 sub_8026BB8(void); static void sub_8026C28(void); static bool32 sub_8026C50(void); static bool32 sub_8026C90(void); static void sub_8026D1C(u8); static u8 sub_8026D8C(u8); static u8 sub_8026DB0(u8, u8); static void sub_8026F1C(u8, u8, u8); static void sub_8027234(bool32 arg0); static void sub_80272A4(void); static void sub_80272E8(void); static void sub_80273F0(void); static void sub_802749C(void); static u8 sub_8027518(u8); static void sub_8027554(void); static void sub_8027608(void); static u32 sub_8027748(void); static void sub_8027DD0(u32 arg0); static void sub_8027E30(struct DodrioSubstruct_31A0 *arg0, struct DodrioSubstruct_31A0_2C *arg1, struct DodrioSubstruct_31A0_2C *arg2, struct DodrioSubstruct_31A0_2C *arg3, struct DodrioSubstruct_31A0_2C *arg4, struct DodrioSubstruct_31A0_2C *arg5, u8 arg6, u32 arg7, u32 arg8); static u32 sub_8028164(u32 unused, struct DodrioSubstruct_31A0 *arg0, struct DodrioSubstruct_31A0_2C *arg1, struct DodrioSubstruct_31A0_2C *arg2, struct DodrioSubstruct_31A0_2C *arg3, struct DodrioSubstruct_31A0_2C *arg4, struct DodrioSubstruct_31A0_2C *arg5, u8 *arg6, u32 *arg7, u32 *arg8); static void sub_80282EC(u8); static u32 sub_8028318(u32 arg0, u8 *arg1); static void sub_8028350(u32 arg0); static u32 sub_8028374(u32 arg0); static void sub_80283A8(void); static void sub_8028408(struct DodrioSubstruct_318C *arg0, u8 arg1, u8 id, u8 arg3); static void sub_80284CC(u8); static void sub_8028504(u8); static void sub_8028614(u8 count); static void sub_802868C(bool8 invisible, u8 count); static void sub_8028734(void); static void sub_80287E4(void); static void sub_80289E8(bool8 invisible); static void sub_80286E4(void); static bool32 sub_8028828(void); static void sub_8028A34(void); static void sub_8028A88(void); static void sub_8028B80(void); static void sub_8028D44(void); static void sub_8028DFC(void); static void sub_8028E4C(void); static void sub_8028E84(void); static void sub_8028EC8(bool8 invisible); static void sub_8028FCC(void); static void sub_802903C(void); static void sub_8029274(struct DodrioSubstruct_0160 *PTR); static void sub_80292E0(u8); static bool32 sub_802A770(void); static u8 sub_802A794(void); static void sub_8028BF8(u8 id, bool8 invisible); static void sub_8028C30(bool8 invisible); static void sub_8028CA4(u16 id, u8 frameNum); static void sub_8028C7C(u8 id, u8 y); static void sub_80286B4(u8 id, u8 frameNum); static u8 sub_8026E70(u8 arg0, u8 arg1); static void sub_80288D4(u8 arg0); static u32 sub_8027DFC(u32 arg0); static u32 IncrementWithLimit(u32 arg0, u32 arg1); static u32 Min(u32 arg0, u32 arg1); static u32 sub_80276C0(u8 arg0); static void Task_ShowDodrioBerryPickingRecords(u8 taskId); static void sub_8029314(u8 taskId); static void sub_8027BEC(u8 windowId, s32 width); static void nullsub_15(struct Sprite *sprite); static void sub_80284A8(struct Sprite *sprite); static u32 sub_802853C(struct Sprite *sprite); static u32 sub_80285AC(struct Sprite *sprite); static s16 sub_8028F14(u8 arg0, u8 arg1); static void sub_8028654(bool8 invisible, u8 id); static void sub_8029338(void); static bool32 sub_802A8E8(void); static void sub_802A7A8(void); static void sub_802A72C(void (*func)(void)); static void (*sub_802A75C(void))(void); static void sub_8029338(void); static void sub_8029440(void); static void sub_802988C(void); static void sub_802A010(void); static void sub_802A380(void); static void sub_802A454(void); static void sub_802A534(void); static void sub_802A588(void); static void sub_802A6FC(void); static void nullsub_16(void); // const rom data static const u8 gUnknown_082F449C[5][5][11] = { { {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0}, }, { {0, 1, 2, 3, 4, 5, 6, 3, 8, 9, 0}, {0, 1, 2, 5, 6, 3, 4, 5, 8, 9, 0}, }, { {0, 1, 2, 3, 4, 5, 6, 7, 2, 9, 0}, {0, 1, 4, 5, 6, 7, 2, 3, 4, 9, 0}, {0, 1, 6, 7, 2, 3, 4, 5, 6, 9, 0}, }, { {0, 1, 2, 3, 4, 5, 6, 7, 8, 1, 0}, {0, 3, 4, 5, 6, 7, 8, 1, 2, 3, 0}, {0, 5, 6, 7, 8, 1, 2, 3, 4, 5, 0}, {0, 7, 8, 1, 2, 3, 4, 5, 6, 7, 0}, }, { {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0}, {2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2}, {4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4}, {6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6}, {8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8}, }, }; static const u8 gUknnown_082F45AF[5][5][3] = { { {4, 5, 6}, }, { {3, 4, 5}, {5, 6, 3}, }, { {4, 5, 6}, {6, 7, 2}, {2, 3, 4}, }, { {3, 4, 5}, {5, 6, 7}, {7, 8, 1}, {1, 2, 3}, }, { {4, 5, 6}, {6, 7, 8}, {8, 9, 0}, {0, 1, 2}, {2, 3, 4}, }, }; static const u8 gUnknown_082F45FA[5][5][3] = { { {1, 0, 1}, }, { {1, 0, 1}, {0, 1, 0}, }, { {2, 0, 1}, {0, 1, 2}, {1, 2, 0}, }, { {3, 0, 1}, {0, 1, 2}, {1, 2, 3}, {2, 3, 0}, }, { {4, 0, 1}, {0, 1, 2}, {1, 2, 3}, {2, 3, 4}, {3, 4, 0}, }, }; ALIGNED(4) static const u8 gUnknown_082F4648[5][11] = { {9, 9, 9, 9, 1, 1, 1, 9, 9, 9, 9}, {9, 9, 9, 0, 0, 1, 1, 0, 9, 9, 9}, {9, 9, 2, 2, 0, 0, 1, 1, 1, 9, 9}, {9, 3, 3, 0, 0, 1, 1, 2, 2, 3, 9}, {3, 3, 4, 4, 0, 0, 1, 1, 2, 2, 3}, }; static const u8 gUnknown_082F467F[5][5] = { {5}, {4, 6}, {3, 5, 7}, {2, 4, 6, 8}, {1, 3, 5, 6, 9}, }; // Duplicate and unused gfx. Feel free to remove. static const u32 sDuplicateGfx[] = INCBIN_U32("graphics/link_games/dodrioberry_bg1.gbapal", "graphics/link_games/dodrioberry_bg2.gbapal", "graphics/link_games/dodrioberry_pkmn.gbapal", "graphics/link_games/dodrioberry_shiny.gbapal", "graphics/link_games/dodrioberry_status.gbapal", "graphics/link_games/dodrioberry_berrysprites.gbapal", "graphics/link_games/dodrioberry_berrysprites.4bpp.lz", "graphics/link_games/dodrioberry_platform.gbapal", "graphics/link_games/dodrioberry_bg1.4bpp.lz", "graphics/link_games/dodrioberry_bg2.4bpp.lz", "graphics/link_games/dodrioberry_status.4bpp.lz", "graphics/link_games/dodrioberry_platform.4bpp.lz", "graphics/link_games/dodrioberry_pkmn.4bpp.lz", "graphics/link_games/dodrioberry_bg1.bin.lz", "graphics/link_games/dodrioberry_bg2right.bin.lz", "graphics/link_games/dodrioberry_bg2left.bin.lz"); static const u8 gUnknown_082F7A88[][3] = { {40, 24, 13}, {32, 19, 10}, {22, 13, 7}, }; ALIGNED(4) static const u8 gUnknown_082F7A94[] = {8, 5, 8, 11, 15}; ALIGNED(4) static const u8 gUnknown_082F7A9C[] = {5, 10, 20, 30, 50, 70, 100}; ALIGNED(4) static const u8 gUnknown_082F7AA4[][10] = { {15, 16, 17, 18, 19, 19, 18, 17, 16, 15}, {20, 21, 22, 23, 24, 25, 26, 27, 28, 29}, {30, 31, 32, 33, 34, 34, 33, 32, 31, 30}, }; static void (*const gUnknown_082F7AC4[])(void) = { sub_8024DBC, sub_8024E00, sub_8024E38, sub_8024F10, sub_8024F38, sub_8025198, sub_8025324, sub_8025470, sub_8025644, sub_80256AC, sub_8025758, sub_80250D4 }; static void (*const gUnknown_082F7AF4[])(void) = { sub_8024DBC, sub_8024E00, sub_8024E38, sub_8024F10, sub_8024FFC, sub_8025230, sub_8025324, sub_8025470, sub_8025644, sub_80256AC, sub_8025758, sub_8025158 }; // code void StartDodrioBerryPicking(u16 a0, void (*callback)(void)) { gUnknown_03000DB0 = FALSE; if (gReceivedRemoteLinkPlayers != 0 && (gUnknown_02022C98 = AllocZeroed(sizeof(*gUnknown_02022C98))) != NULL) { sub_8024A1C(); sub_8024A30(gUnknown_02022C98); gUnknown_02022C98->savedCallback = callback; gUnknown_02022C98->multiplayerId = GetMultiplayerId(); gUnknown_02022C98->unk32CC = gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId]; sub_80261F8(&gUnknown_02022C98->unk318C[gUnknown_02022C98->multiplayerId], &gPlayerParty[a0]); CreateTask(sub_8024BC8, 1); SetMainCallback2(sub_80261CC); sub_80273F0(); sub_8026B5C(gUnknown_02022C98->unk24, &gUnknown_02022C98->unk44, &gUnknown_02022C98->unk48); StopMapMusic(); PlayNewMapMusic(MUS_RG_KINOMIKUI); } else { SetMainCallback2(callback); return; } } static void sub_8024A1C(void) { ResetTasks(); ResetSpriteData(); FreeAllSpritePalettes(); } static void sub_8024A30(struct DodrioStruct * data) { u8 i; data->unk0C = 0; data->unk10 = 0; data->unk14 = 0; data->unk18 = 0; data->unk1C = 0; data->unk11C = 0; data->unk120 = 0; data->unk30 = 0; data->unk40 = 0; data->unk3C = 0; data->unk12C = 0; for (i = 0; i < 4; i++) { data->unk98[i] = 0; } for (i = 0; i < 5; i++) { data->unkA8[i] = 0; data->unkB0[i] = 0; data->unk4A[i][0] = 0; data->unk4A[i][1] = 0; data->unk4A[i][2] = 0; data->unk4A[i][3] = 0; data->unk4A[i][5] = 0; data->unk10C[i] = 0; data->unk130[i] = 0; } for (i = 0; i < 11; i++) { data->unkD0[i] = 0; data->unkDC[i] = 0; data->unkC4[i] = 0; data->unkF4[i][0] = 0xFF; data->unkF4[i][1] = 0xFF; } data->unk20 = GetMultiplayerId() == 0 ? 1 : 0; data->unk24 = GetLinkPlayerCount(); data->unk34[0] = GetMultiplayerId(); for (i = 1; i < data->unk24; i++) { data->unk34[i] = data->unk34[i - 1] + 1; if (data->unk34[i] > data->unk24 - 1) data->unk34[i] %= data->unk24; } } static void sub_8024BC8(u8 taskId) { u8 r4, r5; switch (gUnknown_02022C98->unk0C) { case 0: SetVBlankCallback(NULL); sub_802620C(sub_8025910, 4); gUnknown_02022C98->unk0C++; break; case 1: if (!FuncIsActiveTask(sub_8025910)) { sub_8029274(&gUnknown_02022C98->unk160); gUnknown_02022C98->unk0C++; } break; case 2: if (!sub_802A770()) { sub_8010434(); gUnknown_02022C98->unk0C++; } break; case 3: if (IsLinkTaskFinished()) { if (gReceivedRemoteLinkPlayers != 0) { LoadWirelessStatusIndicatorSpriteGfx(); CreateWirelessStatusIndicatorSprite(0, 0); } gUnknown_02022C98->unk0C++; } break; case 4: r5 = gUnknown_02022C98->unk24; sub_80283A8(); for (r4 = 0; r4 < r5; r4++) { sub_8028408(&gUnknown_02022C98->unk318C[gUnknown_02022C98->unk34[r4]], r4, gUnknown_02022C98->unk34[r4], gUnknown_02022C98->unk24); } sub_802868C(FALSE, gUnknown_02022C98->unk24); gUnknown_02022C98->unk0C++; break; case 5: sub_8028A34(); sub_8028A88(); sub_8028D44(); sub_8028734(); gUnknown_02022C98->unk0C++; break; case 6: BlendPalettes(0xFFFFFFFF, 0x10, 0x00); BeginNormalPaletteFade(0xFFFFFFFF, 0, 16, 0, 0); SetVBlankCallback(sub_80261E4); gUnknown_02022C98->unk0C++; break; case 7: UpdatePaletteFade(); if (!gPaletteFade.active) { gUnknown_02022C98->unk0C++; } break; default: DestroyTask(taskId); sub_802621C(sub_802589C); break; } } static void sub_8024D4C(u8 taskId) { sub_8025D04(); gUnknown_082F7AC4[gUnknown_02022C98->unk18](); if (!gUnknown_03000DB0) { sub_8026AF4(); } sub_8025D50(); } static void sub_8024D84(u8 taskId) { sub_8025E0C(); gUnknown_082F7AF4[gUnknown_02022C98->unk18](); if (!gUnknown_03000DB0) { sub_8026B28(); } sub_8025ED8(); } static void sub_8024DBC(void) { switch (gUnknown_02022C98->unk10) { case 0: sub_8028504(1); sub_80292E0(1); gUnknown_02022C98->unk10++; break; case 1: if (!sub_802A770()) sub_8026240(1); break; } } static void sub_8024E00(void) { if (gUnknown_02022C98->unk10 == 0) { sub_80262C0(); gUnknown_02022C98->unk10++; } else { gUnknown_02022C98->unk118 = 1; sub_8026240(2); } } static void sub_8024E38(void) { switch (gUnknown_02022C98->unk10) { case 0: StartMinigameCountdown(7, 8, 120, 80, 0); gUnknown_02022C98->unk10++; break; case 1: sub_8010434(); gUnknown_02022C98->unk10++; break; case 2: if (IsLinkTaskFinished()) { gUnknown_02022C98->unk10++; gUnknown_02022C98->unk30 = 0; } break; case 3: if (!IsMinigameCountdownRunning()) { gUnknown_02022C98->unk10++; } break; case 4: if (++gUnknown_02022C98->unk30 > 5) { sub_8010434(); gUnknown_02022C98->unk10++; } break; case 5: if (IsLinkTaskFinished()) { sub_8026240(3); } break; } } static void sub_8024F10(void) { if (gUnknown_02022C98->unk10 == 0) { if (gUnknown_02022C98->unk11C != 0) { sub_8026240(4); } } } static void sub_8024F38(void) { if (gUnknown_02022C98->unk10 == 0) { if (gUnknown_02022C98->unk40 < 10) { if (gUnknown_02022C98->unkA8[0] == 0) { if (JOY_NEW(DPAD_UP)) { if (gUnknown_02022C98->unk31A0[0].unk2C.unk0 == 0) { gUnknown_02022C98->unk31A0[0].unk2C.unk4 = 0; gUnknown_02022C98->unk31A0[0].unk2C.unk0 = sub_8027518(2); } } else if (JOY_NEW(DPAD_RIGHT)) { if (gUnknown_02022C98->unk31A0[0].unk2C.unk0 == 0) { gUnknown_02022C98->unk31A0[0].unk2C.unk4 = 0; gUnknown_02022C98->unk31A0[0].unk2C.unk0 = sub_8027518(1); } } else if (JOY_NEW(DPAD_LEFT)) { if (gUnknown_02022C98->unk31A0[0].unk2C.unk0 == 0) { gUnknown_02022C98->unk31A0[0].unk2C.unk4 = 0; gUnknown_02022C98->unk31A0[0].unk2C.unk0 = sub_8027518(3); } } else { gUnknown_02022C98->unk31A0[0].unk2C.unk0 = sub_8027518(0); } } } else { sub_8026240(11); } sub_802671C(); sub_8025F48(); } } static void sub_8024FFC(void) { if (gUnknown_02022C98->unk40 < 10) { if (JOY_NEW(DPAD_UP)) { if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 == 0) { gUnknown_02022C98->unk32CC.unk2C.unk0 = 2; } } else if (JOY_NEW(DPAD_RIGHT)) { if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 == 0) { gUnknown_02022C98->unk32CC.unk2C.unk0 = 1; } } else if (JOY_NEW(DPAD_LEFT)) { if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 == 0) { gUnknown_02022C98->unk32CC.unk2C.unk0 = 3; } } else { gUnknown_02022C98->unk32CC.unk2C.unk0 = 0; } } else { sub_8026240(11); } sub_8026044(); } static void sub_80250D4(void) { u8 i; sub_802671C(); sub_8025F48(); if (sub_8026C50() == 1) { sub_80272A4(); sub_8026240(5); } else { gUnknown_02022C98->unk12C = 1; for (i = 1; i < gUnknown_02022C98->unk24; i++) { if (gUnknown_02022C98->unk130[i] != 1) { gUnknown_02022C98->unk12C = 0; break; } } } } static void sub_8025158(void) { sub_8026044(); if (sub_8026C90() == 1) sub_8026240(5); } static bool32 sub_8025170(void) { u8 recvStatus = GetBlockReceivedStatus(); u8 playerFlags = GetLinkPlayerCountAsBitFlags(); if (recvStatus == playerFlags) { ResetBlockReceivedFlags(); return TRUE; } else { return FALSE; } } static void sub_8025198(void) { switch (gUnknown_02022C98->unk10) { case 0: if (SendBlock(0, gUnknown_02022C98->unk4A, sizeof(gUnknown_02022C98->unk4A))) { gUnknown_02022C98->unk08 = 0; gUnknown_02022C98->unk10++; } break; case 1: if (IsLinkTaskFinished()) { gUnknown_02022C98->unk10++; } break; case 2: if (sub_8025170()) { gUnknown_02022C98->unk08 = gUnknown_02022C98->unk24; } if (gUnknown_02022C98->unk08 >= gUnknown_02022C98->unk24) { gUnknown_02022C98->unk14++; gUnknown_02022C98->unk10++; } break; default: if (WaitFanfare(TRUE)) { sub_8026240(6); FadeOutAndPlayNewMapMusic(MUS_RG_WIN_YASEI, 4); } break; } } static void sub_8025230(void) { u8 i; switch (gUnknown_02022C98->unk10) { case 0: if (SendBlock(0, gUnknown_02022C98->unk4A[gUnknown_02022C98->unk14], sizeof(gUnknown_02022C98->unk4A))) { gUnknown_02022C98->unk08 = 0; gUnknown_02022C98->unk10++; } break; case 1: if (IsLinkTaskFinished()) { gUnknown_02022C98->unk10++; } break; case 2: if (sub_8025170()) { for (i = 0; i < gUnknown_02022C98->unk24; i++) { memcpy(gUnknown_02022C98->unk4A, gBlockRecvBuffer, sizeof(gUnknown_02022C98->unk4A)); gUnknown_02022C98->unk08 = gUnknown_02022C98->unk24; } } if (gUnknown_02022C98->unk08 >= gUnknown_02022C98->unk24) { gUnknown_02022C98->unk14++; gUnknown_02022C98->unk10++; } break; default: if (WaitFanfare(TRUE)) { gUnknown_02022C98->unk114 = gUnknown_02022C98->unk4A[gUnknown_02022C98->multiplayerId][5]; sub_8026240(6); FadeOutAndPlayNewMapMusic(MUS_RG_WIN_YASEI, 4); } break; } } static void sub_8025324(void) { u8 sp00 = 1; u8 i; switch (gUnknown_02022C98->unk10) { case 0: sub_802749C(); sub_80289E8(TRUE); sub_8028DFC(); sub_8028EC8(TRUE); sub_80292E0(2); gUnknown_02022C98->unk10++; break; case 1: if (!sub_802A770()) { sub_80292E0(5); gUnknown_02022C98->unk10++; } break; case 2: sp00 = sub_802A794(); if (SendBlock(0, &sp00, sizeof(sp00))) { gUnknown_02022C98->unk10++; } break; case 3: if (IsLinkTaskFinished()) { gUnknown_02022C98->unk10++; gUnknown_02022C98->unk08 = 0; } break; case 4: if (sub_8025170()) { for (i = 0; i < gUnknown_02022C98->unk24; i++) { *(gUnknown_02022C98->unk10C + i) = *(u8 *)gBlockRecvBuffer[i]; gUnknown_02022C98->unk08 = gUnknown_02022C98->unk24; } } if (gUnknown_02022C98->unk08 >= gUnknown_02022C98->unk24) { if (++gUnknown_02022C98->unk14 >= 120) { sub_80292E0(6); gUnknown_02022C98->unk10++; } } break; default: if (!sub_802A770()) { sub_8026240(7); } break; } } static void sub_8025470(void) { u8 sp0; u8 i; switch (gUnknown_02022C98->unk10) { case 0: if (sub_8027748() >= 3000) { sub_80292E0(4); } gUnknown_02022C98->unk10++; break; case 1: if (!sub_802A770()) { sub_80292E0(3); gUnknown_02022C98->unk10++; } break; case 2: sub_8028FCC(); sub_80272E8(); gUnknown_02022C98->unk10++; break; case 3: if ((sp0 = sub_802A794()) != 0) { gUnknown_02022C98->unk10++; } break; case 4: if (!sub_802A770()) { sub_80292E0(5); gUnknown_02022C98->unk10++; } break; case 5: sp0 = sub_802A794(); if (SendBlock(0, &sp0, sizeof(sp0))) { gUnknown_02022C98->unk08 = 0; gUnknown_02022C98->unk10++; } break; case 6: if (IsLinkTaskFinished()) { gUnknown_02022C98->unk10++; } break; case 7: if (sub_8025170()) { for (i = 0; i < gUnknown_02022C98->unk24; i++) { *(gUnknown_02022C98->unk10C + i) = *(u8 *)gBlockRecvBuffer[i]; gUnknown_02022C98->unk08 = gUnknown_02022C98->unk24; } } if (gUnknown_02022C98->unk08 >= gUnknown_02022C98->unk24) { if (++gUnknown_02022C98->unk14 >= 120) { sub_8027608(); sub_80292E0(6); gUnknown_02022C98->unk10++; } } else { sub_8027554(); } break; default: if (!sub_802A770()) { for (i = 0; i < gUnknown_02022C98->unk24; i++) { if (gUnknown_02022C98->unk10C[i] == 2) { sub_8026240(8); return; } } sub_8026240(10); } break; } } static void sub_8025644(void) { switch (gUnknown_02022C98->unk10) { case 0: sub_800AC34(); sub_80292E0(7); gUnknown_02022C98->unk10++; break; case 1: if (!sub_802A770()) { gUnknown_02022C98->unk10++; } break; case 2: if (sub_802A794() == 5) { gUnknown_02022C98->unk10++; } break; default: if (gReceivedRemoteLinkPlayers == 0) { sub_8026240(9); } break; } } static void sub_80256AC(void) { switch (gUnknown_02022C98->unk10) { case 0: BeginNormalPaletteFade(0xFFFFFFFF, 0, 0, 16, 0); gUnknown_02022C98->unk10++; break; case 1: UpdatePaletteFade(); if (!gPaletteFade.active) { gUnknown_02022C98->unk10++; } break; case 2: sub_8028B80(); sub_80287E4(); sub_8028614(gUnknown_02022C98->unk24); sub_8028E84(); gUnknown_03000DB0 = TRUE; sub_80292E0(8); gUnknown_02022C98->unk10++; break; default: if (!sub_802A770()) { SetMainCallback2(gUnknown_02022C98->savedCallback); DestroyTask(gUnknown_02022C98->unk04); Free(gUnknown_02022C98); FreeAllWindowBuffers(); } break; } } static void sub_8025758(void) { switch (gUnknown_02022C98->unk10) { case 0: sub_80292E0(9); BeginNormalPaletteFade(0xFFFFFFFF, 0, 0, 16, 0); gUnknown_02022C98->unk10++; break; case 1: UpdatePaletteFade(); if (!gPaletteFade.active) { gUnknown_02022C98->unk10++; } break; case 2: ChangeBgX(0, 0, 0); ChangeBgY(0, 0, 0); ChangeBgX(1, 0, 0); ChangeBgY(1, 0, 0); ChangeBgX(2, 0, 0); ChangeBgY(2, 0, 0); ChangeBgX(3, 0, 0); ChangeBgY(3, 0, 0); gUnknown_02022C98->unk10++; break; case 3: StopMapMusic(); gUnknown_02022C98->unk10++; break; case 4: PlayNewMapMusic(MUS_RG_KINOMIKUI); sub_8028E4C(); gUnknown_02022C98->unk10++; break; case 5: BlendPalettes(0xFFFFFFFF, 16, 0); BeginNormalPaletteFade(0xFFFFFFFF, 0, 16, 0, 0); gUnknown_02022C98->unk10++; break; case 6: UpdatePaletteFade(); if (!gPaletteFade.active) { gUnknown_02022C98->unk10++; } break; default: DestroyTask(gUnknown_02022C98->unk04); sub_802621C(sub_802589C); sub_802903C(); sub_8024A30(gUnknown_02022C98); if (gReceivedRemoteLinkPlayers == 0) { gUnknown_02022C98->unk24 = 1; } sub_80273F0(); sub_8028EC8(FALSE); break; } } static void sub_802589C(u8 taskId) { switch (gUnknown_02022C98->unk10) { case 0: if (sub_8026264() == 1) { gUnknown_02022C98->unk10++; } break; case 1: sub_80286E4(); gUnknown_02022C98->unk10++; break; case 2: if (sub_8028828() == TRUE) { gUnknown_02022C98->unk10++; } break; default: if (gUnknown_02022C98->unk20 != 0) { sub_802621C(sub_8024D4C); } else { sub_802621C(sub_8024D84); } DestroyTask(taskId); break; } } static void sub_8025910(u8 taskId) { s16 * data = gTasks[taskId].data; u8 i; switch (data[0]) { case 0: if (SendBlock(0, &gUnknown_02022C98->unk318C[gUnknown_02022C98->multiplayerId].isShiny, sizeof(gUnknown_02022C98->unk318C[gUnknown_02022C98->multiplayerId].isShiny))) { gUnknown_02022C98->unk08 = 0; data[0]++; } break; case 1: if (IsLinkTaskFinished()) { data[0]++; } break; case 2: if (sub_8025170()) { for (i = 0; i < gUnknown_02022C98->unk24; i++) { *(u8 *)&gUnknown_02022C98->unk318C[i] = *(u8 *)gBlockRecvBuffer[i]; gUnknown_02022C98->unk08 = gUnknown_02022C98->unk24; } } if (gUnknown_02022C98->unk08 >= gUnknown_02022C98->unk24) { DestroyTask(taskId); sub_80292E0(6); gUnknown_02022C98->unk10++; } break; } } static void sub_80259FC(void) { u8 i; u8 r7 = gUnknown_02022C98->unk24; gUnknown_02022C98->unk31A0[0].unk10 = sub_8028164(0, &gUnknown_02022C98->unk31A0[0], &gUnknown_02022C98->unk31A0[0].unk2C, &gUnknown_02022C98->unk31A0[1].unk2C, &gUnknown_02022C98->unk31A0[2].unk2C, &gUnknown_02022C98->unk31A0[3].unk2C, &gUnknown_02022C98->unk31A0[4].unk2C, &gUnknown_02022C98->unk40, &gUnknown_02022C98->unk120, &gUnknown_02022C98->unk12C); gUnknown_02022C98->unk128 = 1; for (i = 1; i < r7; i++) { if ( gUnknown_02022C98->unkA8[i] == 0 && sub_8028318(i, &gUnknown_02022C98->unk31A0[i].unk2C.unk0) == 0) { gUnknown_02022C98->unk31A0[i].unk2C.unk0 = 0; gUnknown_02022C98->unk128 = 0; } } if (++gUnknown_02022C98->unk124 >= 60) { if (gUnknown_02022C98->unk128 != 0) { sub_8011AC8(); gUnknown_02022C98->unk124 = 0; } else if (gUnknown_02022C98->unk124 > 70) { sub_8011AC8(); gUnknown_02022C98->unk124 = 0; } } for (i = 0; i < r7; i++) { if ( gUnknown_02022C98->unk31A0[i].unk2C.unk0 != 0 && gUnknown_02022C98->unkA8[i] == 0) { gUnknown_02022C98->unkA8[i] = 1; } switch (gUnknown_02022C98->unkA8[i]) { case 0: default: break; case 1 ... 3: if (++gUnknown_02022C98->unkB0[i] >= 6) { gUnknown_02022C98->unkB0[i] = 0; gUnknown_02022C98->unkA8[i] = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk0 = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk4 = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk8 = 0; } break; case 4: if (++gUnknown_02022C98->unkB0[i] >= 40) { gUnknown_02022C98->unkB0[i] = 0; gUnknown_02022C98->unkA8[i] = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk0 = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk4 = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk8 = 0; } break; } } } static void sub_8025C0C(void) { u8 i; u8 r6 = gUnknown_02022C98->unk24; gUnknown_02022C98->unk31A0[0].unk10 = sub_8028164(0, &gUnknown_02022C98->unk31A0[0], &gUnknown_02022C98->unk31A0[0].unk2C, &gUnknown_02022C98->unk31A0[1].unk2C, &gUnknown_02022C98->unk31A0[2].unk2C, &gUnknown_02022C98->unk31A0[3].unk2C, &gUnknown_02022C98->unk31A0[4].unk2C, &gUnknown_02022C98->unk40, &gUnknown_02022C98->unk120, &gUnknown_02022C98->unk12C); gUnknown_02022C98->unk128 = 1; for (i = 1; i < r6; i++) { if (sub_8028374(i) != 0) { gUnknown_02022C98->unk130[i] = 1; gUnknown_02022C98->unk128 = 0; } } if (++gUnknown_02022C98->unk124 >= 60) { if (gUnknown_02022C98->unk128 != 0) { sub_8011AC8(); gUnknown_02022C98->unk124 = 0; } else if (gUnknown_02022C98->unk124 > 70) { sub_8011AC8(); gUnknown_02022C98->unk124 = 0; } } } static void sub_8025D04(void) { switch (gUnknown_02022C98->unk18) { case 3: if (sub_8026BB8() == TRUE) { sub_8026C28(); gUnknown_02022C98->unk11C = 1; } break; case 4: sub_80259FC(); break; case 11: sub_8025C0C(); break; } } static void sub_8025D50(void) { switch (gUnknown_02022C98->unk18) { case 4: sub_8027E30(&gUnknown_02022C98->unk32CC, &gUnknown_02022C98->unk31A0[0].unk2C, &gUnknown_02022C98->unk31A0[1].unk2C, &gUnknown_02022C98->unk31A0[2].unk2C, &gUnknown_02022C98->unk31A0[3].unk2C, &gUnknown_02022C98->unk31A0[4].unk2C, gUnknown_02022C98->unk40, gUnknown_02022C98->unk120, gUnknown_02022C98->unk12C); break; case 11: sub_8027E30(&gUnknown_02022C98->unk32CC, &gUnknown_02022C98->unk31A0[0].unk2C, &gUnknown_02022C98->unk31A0[1].unk2C, &gUnknown_02022C98->unk31A0[2].unk2C, &gUnknown_02022C98->unk31A0[3].unk2C, &gUnknown_02022C98->unk31A0[4].unk2C, gUnknown_02022C98->unk40, gUnknown_02022C98->unk120, gUnknown_02022C98->unk12C); break; } } static void sub_8025E0C(void) { switch (gUnknown_02022C98->unk18) { case 4: sub_8028164(gUnknown_02022C98->multiplayerId, &gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId], &gUnknown_02022C98->unk31A0[0].unk2C, &gUnknown_02022C98->unk31A0[1].unk2C, &gUnknown_02022C98->unk31A0[2].unk2C, &gUnknown_02022C98->unk31A0[3].unk2C, &gUnknown_02022C98->unk31A0[4].unk2C, &gUnknown_02022C98->unk40, &gUnknown_02022C98->unk120, &gUnknown_02022C98->unk12C); break; case 11: sub_8028164(gUnknown_02022C98->multiplayerId, &gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId], &gUnknown_02022C98->unk31A0[0].unk2C, &gUnknown_02022C98->unk31A0[1].unk2C, &gUnknown_02022C98->unk31A0[2].unk2C, &gUnknown_02022C98->unk31A0[3].unk2C, &gUnknown_02022C98->unk31A0[4].unk2C, &gUnknown_02022C98->unk40, &gUnknown_02022C98->unk120, &gUnknown_02022C98->unk12C); break; } } static void sub_8025ED8(void) { switch (gUnknown_02022C98->unk18) { case 3: sub_8027DD0(1); gUnknown_02022C98->unk11C = 1; break; case 4: if (gUnknown_02022C98->unk32CC.unk2C.unk0 != 0) { sub_80282EC(gUnknown_02022C98->unk32CC.unk2C.unk0); } break; case 11: if (gUnknown_02022C98->unk120 == 0 && gUnknown_02022C98->unk12C == 0) { sub_8028350(1); } break; } } static void sub_8025F48(void) { if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 == 0) { if (!IsSEPlaying()) { gUnknown_02022C98->unk144 = 0; } } else if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk4 == 1) { if (gUnknown_02022C98->unk144 == 0) { m4aSongNumStop(SE_SEIKAI); PlaySE(SE_SEIKAI); gUnknown_02022C98->unk144 = 1; } } else if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk8 == 1) { if (gUnknown_02022C98->unk144 == 0 && !IsSEPlaying()) { PlaySE(SE_BOO); sub_80284CC(1); gUnknown_02022C98->unk144 = 1; } } if (gUnknown_02022C98->unk154 == 0 && gUnknown_02022C98->unk40 >= 10) { StopMapMusic(); gUnknown_02022C98->unk154 = 1; } else if (gUnknown_02022C98->unk154 == 1) { PlayFanfareByFanfareNum(11); // MUS_ME_ZANNEN gUnknown_02022C98->unk154 = 2; } } static void sub_8026044(void) { u8 r8 = gUnknown_02022C98->unk44; u8 r7 = gUnknown_02022C98->unk48; u8 r4; if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 == 0) { if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk4 != 1 && gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk8 != 1) { gUnknown_02022C98->unk144 = 0; } } else if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk4 == 1) { if (gUnknown_02022C98->unk144 == 0) { m4aSongNumStop(SE_SEIKAI); PlaySE(SE_SEIKAI); gUnknown_02022C98->unk144 = 1; } } else if (gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk8 == 1) { if (gUnknown_02022C98->unk144 == 0 && !IsSEPlaying()) { PlaySE(SE_BOO); sub_80284CC(1); gUnknown_02022C98->unk144 = 1; } } for (r4 = r8; r4 < r7; r4++) { struct DodrioSubstruct_31A0_14 * ptr = &gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk14; if (ptr->unkB[r4] >= 10) { if (gUnknown_02022C98->unk148[r4] == 0) { PlaySE(SE_FUUSEN1 + ptr->unk0[r4]); gUnknown_02022C98->unk148[r4] = 1; } } else { gUnknown_02022C98->unk148[r4] = 0; } } if (gUnknown_02022C98->unk154 == 0 && gUnknown_02022C98->unk40 >= 10) { StopMapMusic(); gUnknown_02022C98->unk154 = 1; } else if (gUnknown_02022C98->unk154 == 1) { PlayFanfareByFanfareNum(11); // MUS_ME_ZANNEN gUnknown_02022C98->unk154 = 2; } } static void sub_80261CC(void) { RunTasks(); AnimateSprites(); BuildOamBuffer(); UpdatePaletteFade(); } static void sub_80261E4(void) { TransferPlttBuffer(); LoadOam(); ProcessSpriteCopyRequests(); } static void sub_80261F8(struct DodrioSubstruct_318C * a0, struct Pokemon * a1) { a0->isShiny = IsMonShiny(a1); } static void sub_802620C(TaskFunc func, u8 priority) { CreateTask(func, priority); } static void sub_802621C(TaskFunc func) { gUnknown_02022C98->unk04 = CreateTask(func, 1); gUnknown_02022C98->unk10 = 0; gUnknown_02022C98->unk0C = 0; gUnknown_02022C98->unk14 = 0; } static void sub_8026240(u8 a0) { gUnknown_02022C98->unk1C = gUnknown_02022C98->unk18; gUnknown_02022C98->unk18 = a0; gUnknown_02022C98->unk10 = 0; gUnknown_02022C98->unk14 = 0; } static bool32 sub_8026264(void) { u8 r2 = gUnknown_02022C98->unk14 / 4; gUnknown_02022C98->unk14++; if (r2 != 0 && gUnknown_02022C98->unk14 % 4 == 0) { if (r2 < gUnknown_082F7A94[gUnknown_02022C98->unk24 - 1]) { SetGpuReg(REG_OFFSET_BG1HOFS, (r2 * 8)); SetGpuReg(REG_OFFSET_BG2HOFS, -(r2 * 8)); return FALSE; } else { return TRUE; } } else { return FALSE; } } static void sub_80262C0(void) { u8 i; u8 start = gUnknown_02022C98->unk44; u8 finish = gUnknown_02022C98->unk48; for (i = start; i < finish; i++) { struct DodrioSubstruct_31A0_14 * ptr = &gUnknown_02022C98->unk32CC.unk14; ptr->unkB[i] = (i % 2 == 0) ? 1 : 0; ptr->unk0[i] = 0; } } static void sub_8026324(void) { u8 sp0 = gUnknown_02022C98->unk44; u8 sp4 = gUnknown_02022C98->unk48; u8 sp8 = gUnknown_02022C98->unk24; u8 i, j, k, r5; if (gUnknown_02022C98->unk40 >= 10) return; for (i = 0; i < sp8; i++) { u8 *ptr = &gUnknown_02022C98->unk31A0[i].unk2C.unk0; if (*ptr != 0 && gUnknown_02022C98->unkA8[i] == 1) { for (j = sp0; j < sp4; j++) { r5 = gUnknown_082F449C[0][0][j]; if (gUnknown_02022C98->unkF4[r5][0] == i || gUnknown_02022C98->unkF4[r5][1] == i) break; if (sub_8026634(i, *ptr, r5) == TRUE) { for (k = 0; k < 2; k++) { if (gUnknown_02022C98->unkF4[r5][k] == 0xFF) { gUnknown_02022C98->unkF4[r5][k] = i; gUnknown_02022C98->unkA8[i] = 2; gUnknown_02022C98->unkC4[r5] = 1; break; } } break; } if (gUnknown_02022C98->unk31A0[i].unk2C.unk8 == 1) break; } } } for (j = sp0; j < sp4; j++) { u8 id = 0xFF; r5 = gUnknown_082F449C[0][0][j]; if (gUnknown_02022C98->unkC4[r5] == 1) { s32 r2; u8 r4, r3 = gUnknown_02022C98->unk90[sub_8026D8C(r5)] / 7; if (r3 >= ARRAY_COUNT(gUnknown_082F7A88) - 1) r3 = ARRAY_COUNT(gUnknown_082F7A88) - 1; r2 = gUnknown_082F7A88[r3][gUnknown_02022C98->unk31A0[0].unk14.unk0[r5]] - gUnknown_02022C98->unkD0[r5]; if (r2 < 6) gUnknown_02022C98->unk9C[r5] += r2; if (++gUnknown_02022C98->unk9C[r5] >= 6) { gUnknown_02022C98->unk9C[r5] = 0; if (gUnknown_02022C98->unkF4[r5][0] == 0xFF && gUnknown_02022C98->unkF4[r5][1] == 0xFF) { continue; } else if (gUnknown_02022C98->unkF4[r5][0] != 0xFF && gUnknown_02022C98->unkF4[r5][1] == 0xFF) { r4 = gUnknown_02022C98->unkF4[r5][0]; } else { u8 unk0 = gUnknown_02022C98->unkF4[r5][0]; i = gUnknown_02022C98->unkF4[r5][1]; // Have to re-use the variable to match. if (!(Random() & 1)) { r4 = unk0; id = i; } else { r4 = i; id = unk0; } } gUnknown_02022C98->unk32CC.unk14.unkB[r5] = 7; gUnknown_02022C98->unkC4[r5] = 2; gUnknown_02022C98->unkA8[r4] = 3; gUnknown_02022C98->unkB8[r5] = r4; gUnknown_02022C98->unk31A0[r4].unk2C.unk4 = 1; gUnknown_02022C98->unk31A0[id].unk2C.unk8 = 1; gUnknown_02022C98->unk86[r4]++; sub_8026F1C(0, r5, r4); sub_8027234(TRUE); sub_8026D1C(r4); gUnknown_02022C98->unkE8[r5] = gUnknown_02022C98->unk32CC.unk14.unk0[r5]; gUnknown_02022C98->unk32CC.unk14.unk0[r5] = 3; gUnknown_02022C98->unkF4[r5][0] = 0xFF; gUnknown_02022C98->unkF4[r5][1] = 0xFF; } } } } static bool32 sub_8026634(u8 a0, u8 a1, u8 a2) { s32 r7 = 0; u8 r5 = gUnknown_02022C98->unk24 - 1; struct DodrioSubstruct_31A0_14 * ptr = &gUnknown_02022C98->unk32CC.unk14; switch (a1) { case 3: default: r7 = 0; break; case 2: r7 = 1; break; case 1: r7 = 2; break; } if (ptr->unkB[a2] == 6 || ptr->unkB[a2] == 7) { if (a2 == gUknnown_082F45AF[r5][a0][r7]) { if (gUnknown_02022C98->unkC4[a2] == 1 || gUnknown_02022C98->unkC4[a2] == 2) { gUnknown_02022C98->unk31A0[a0].unk2C.unk8 = 1; return FALSE; } else { return TRUE; } } } else { if (a2 == gUknnown_082F45AF[r5][a0][r7]) { gUnknown_02022C98->unkA8[a0] = 4; gUnknown_02022C98->unk31A0[a0].unk2C.unk8 = 1; } } return FALSE; } static void sub_802671C(void) { u8 r1 = gUnknown_02022C98->unk44; u8 r9 = gUnknown_02022C98->unk48; u8 r3 = 0; u8 r10 = 0; u8 i; u8 r2; struct DodrioStruct *ptr; gUnknown_02022C98->unk120 = 0; for (i = r1; i < r9 - 1; i++) { ptr = gUnknown_02022C98; if (gUnknown_02022C98->unkC4[i] == 0 || gUnknown_02022C98->unkC4[i] == 1) { gUnknown_02022C98->unk120 = 1; if (ptr->unk32CC.unk14.unkB[i] >= 10) { ptr->unk32CC.unk14.unkB[i] = 10; gUnknown_02022C98->unkC4[i] = 3; if (gUnknown_02022C98->unk148[i] == 0) { gUnknown_02022C98->unk148[i] = 1; PlaySE(SE_FUUSEN1 + ptr->unk32CC.unk14.unk0[i]); } if (gUnknown_02022C98->unk40 < 10 || r10 == 1) { r10 = 1; gUnknown_02022C98->unk148[i] = 0; if (gUnknown_02022C98->unk40 < 10) { gUnknown_02022C98->unk40++; } sub_8026F1C(3, i, 0); sub_8027234(FALSE); } } else { r3 = gUnknown_02022C98->unk90[sub_8026D8C(i)] / 7; if (r3 >= 2) { r3 = 2; } r2 = gUnknown_082F7A88[r3][ptr->unk32CC.unk14.unk0[i]]; if (++gUnknown_02022C98->unkD0[i] >= r2) { ptr->unk32CC.unk14.unkB[i]++; gUnknown_02022C98->unkD0[i] = 0; } sub_8026324(); } } else if (gUnknown_02022C98->unkC4[i] == 2) { gUnknown_02022C98->unk120 = 1; if (++gUnknown_02022C98->unkDC[i] >= 20) { gUnknown_02022C98->unk31A0[gUnknown_02022C98->unkB8[i]].unk2C.unk4 = 0; gUnknown_02022C98->unkDC[i] = 0; gUnknown_02022C98->unkD0[i] = 0; gUnknown_02022C98->unkC4[i] = 0; ptr->unk32CC.unk14.unkB[i] = 1; ptr->unk32CC.unk14.unk0[i] = sub_8026DB0(sub_8026D8C(i), i); } } else if (gUnknown_02022C98->unkC4[i] == 3) { if (++gUnknown_02022C98->unkDC[i] >= 20) { if (gUnknown_02022C98->unk40 < 10) { gUnknown_02022C98->unkDC[i] = 0; gUnknown_02022C98->unkD0[i] = 0; gUnknown_02022C98->unkC4[i] = 0; ptr->unk32CC.unk14.unkB[i] = 1; gUnknown_02022C98->unkE8[i] = ptr->unk32CC.unk14.unk0[i]; ptr->unk32CC.unk14.unk0[i] = sub_8026DB0(sub_8026D8C(i), i); } } } } } static void sub_8026988(void) { u8 i, first, count; first = gUnknown_02022C98->unk44; count = gUnknown_02022C98->unk48; for (i = first; i < count; i++) { struct DodrioSubstruct_31A0 *ptr = &gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId]; u8 var = gUnknown_082F449C[gUnknown_02022C98->unk24 - 1][gUnknown_02022C98->multiplayerId][i]; if (ptr->unk14.unkB[var] != 0) sub_8028BF8(i, FALSE); else sub_8028BF8(i, TRUE); if (ptr->unk14.unkB[var] > 9) { sub_8028CA4(i, ptr->unk14.unk0[var] + 3); sub_8028C7C(i, ptr->unk14.unkB[var] * 2 - 1); } else if (ptr->unk14.unk0[var] == 3) { ptr->unk14.unkB[var] = 7; sub_8028CA4(i, 6); sub_8028C7C(i, ptr->unk14.unkB[var] * 2 - 1); } else { sub_8028CA4(i, ptr->unk14.unk0[var]); sub_8028C7C(i, ptr->unk14.unkB[var] * 2); } } } static void sub_8026A88(void) { u8 i, count; count = gUnknown_02022C98->unk24; for (i = 0; i < count; i++) { struct DodrioSubstruct_31A0 *ptr = &gUnknown_02022C98->unk31A0[i]; sub_80286B4(i, ptr->unk2C.unk0); } } static void sub_8026AC8(void) { u8 i, count; count = gUnknown_02022C98->unk24; for (i = 0; i < count; i++) sub_80286B4(i, 4); } static void sub_8026AF4(void) { sub_8026988(); if (gUnknown_02022C98->unk40 > 9) sub_8026AC8(); else sub_8026A88(); sub_80288D4(gUnknown_02022C98->unk40); } // This function is literally the same as the one above...Why? static void sub_8026B28(void) { sub_8026988(); if (gUnknown_02022C98->unk40 > 9) sub_8026AC8(); else sub_8026A88(); sub_80288D4(gUnknown_02022C98->unk40); } static void sub_8026B5C(u8 arg0, u8 *arg1, u8 *arg2) { switch (arg0) { case 1: *arg1 = 4, *arg2 = 7; break; case 2: *arg1 = 3, *arg2 = 8; break; case 3: *arg1 = 2, *arg2 = 9; break; case 4: *arg1 = 1, *arg2 = 10; break; case 5: *arg1 = 0, *arg2 = 11; break; } } static bool32 sub_8026BB8(void) { u8 i, count; count = gUnknown_02022C98->unk24; for (i = 1; i < count; i++) { if (gUnknown_02022C98->unk158[i] == 0) gUnknown_02022C98->unk158[i] = sub_8027DFC(i); } // This loop won't ever run, the seemingly poitnless assingment below is to make the compiler // generate code for it. count = count; for (; i < count; i++) { if (gUnknown_02022C98->unk158[i] == 0) return FALSE; } return TRUE; } static void sub_8026C28(void) { u8 i; for (i = 0; i < 5; i++) gUnknown_02022C98->unk158[i] = 0; } static bool32 sub_8026C50(void) { if (gUnknown_02022C98->unk40 > 9 && gUnknown_02022C98->unk120 == 0) { gUnknown_02022C98->unk40 = 10; if (gUnknown_02022C98->unk12C != 0) return TRUE; } return FALSE; } static bool32 sub_8026C90(void) { u8 i, first, count; if (gUnknown_02022C98->unk40 > 9) { first = gUnknown_02022C98->unk44; count = gUnknown_02022C98->unk48; gUnknown_02022C98->unk40 = 10; if (gUnknown_02022C98->unk12C != 0) { for (i = first; i < count; i++) { struct DodrioSubstruct_31A0 *ptr = &gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId]; u8 var = gUnknown_082F449C[gUnknown_02022C98->unk24 - 1][gUnknown_02022C98->multiplayerId][i]; if (ptr->unk14.unkB[var] != 10) return FALSE; } return TRUE; } } return FALSE; } static void sub_8026D1C(u8 arg0) { u8 var = gUnknown_082F7A9C[gUnknown_02022C98->unk90[arg0] % 7] + (gUnknown_02022C98->unk90[arg0] / 7) * 100; if (gUnknown_02022C98->unk86[arg0] >= var) gUnknown_02022C98->unk90[arg0]++; } static u8 sub_8026D8C(u8 arg0) { return gUnknown_082F4648[gUnknown_02022C98->unk24 - 1][arg0]; } static u8 sub_8026DB0(u8 arg0, u8 arg1) { u8 i, var3; u8 count = gUnknown_02022C98->unk24 - 1; u8 var0 = gUnknown_082F45FA[count][arg0][0]; u8 var1 = gUnknown_082F45FA[count][arg0][1]; u8 var2 = gUnknown_082F45FA[count][arg0][2]; for (i = 0; gUnknown_082F467F[count][i] != 0; i++) { if (arg1 == gUnknown_082F467F[count][i]) return sub_8026E70(gUnknown_02022C98->unk90[var1], arg1); } // Gets the highest of the three. if (gUnknown_02022C98->unk90[var0] > gUnknown_02022C98->unk90[var1]) var3 = gUnknown_02022C98->unk90[var0]; else var3 = gUnknown_02022C98->unk90[var1]; if (gUnknown_02022C98->unk90[var2] > var3) var3 = gUnknown_02022C98->unk90[var2]; return sub_8026E70(var3, arg1); } static u8 sub_8026E70(u8 arg0, u8 arg1) { u8 var = gUnknown_02022C98->unkE8[arg1]; switch (arg0 % 7) { default: return 0; case 0: return 0; case 1: return 1; case 2: return 2; case 3: if (var == 0) return 1; else return 0; case 4: if (var == 0) return 2; else return 0; case 5: if (var == 2) return 1; else return 2; case 6: if (var == 0) return 1; else if (var == 1) return 2; else return 0; } } static bool32 sub_8026EEC(u16 arg0[5][6]) { int sum, i; for (sum = 0, i = 0; i < GetLinkPlayerCount(); sum += arg0[i][3], i++) ; if (sum >= 11) return TRUE; else return FALSE; } static void sub_8026F1C(u8 arg0, u8 arg1, u8 arg2) { u8 var; u8 count = gUnknown_02022C98->unk24; switch (arg0) { case 0: case 1: case 2: var = gUnknown_02022C98->unk31A0[0].unk14.unk0[arg1]; gUnknown_02022C98->unk4A[arg2][var] = IncrementWithLimit(gUnknown_02022C98->unk4A[arg2][var], 20000); break; case 3: if (sub_8026EEC(gUnknown_02022C98->unk4A)) break; switch (count) { case 5: switch (arg1) { case 0: gUnknown_02022C98->unk4A[2][3]++; gUnknown_02022C98->unk4A[3][3]++; break; case 1: gUnknown_02022C98->unk4A[3][3]++; break; case 2: gUnknown_02022C98->unk4A[3][3]++; gUnknown_02022C98->unk4A[4][3]++; break; case 3: gUnknown_02022C98->unk4A[4][3]++; break; case 4: gUnknown_02022C98->unk4A[4][3]++; gUnknown_02022C98->unk4A[0][3]++; break; case 5: gUnknown_02022C98->unk4A[0][3]++; break; case 6: gUnknown_02022C98->unk4A[0][3]++; gUnknown_02022C98->unk4A[1][3]++; break; case 7: gUnknown_02022C98->unk4A[1][3]++; break; case 8: gUnknown_02022C98->unk4A[1][3]++; gUnknown_02022C98->unk4A[2][3]++; break; case 9: gUnknown_02022C98->unk4A[2][3]++; break; } break; case 4: switch (arg1) { case 1: gUnknown_02022C98->unk4A[2][3]++; gUnknown_02022C98->unk4A[3][3]++; break; case 2: gUnknown_02022C98->unk4A[3][3]++; break; case 3: gUnknown_02022C98->unk4A[3][3]++; gUnknown_02022C98->unk4A[0][3]++; break; case 4: gUnknown_02022C98->unk4A[0][3]++; break; case 5: gUnknown_02022C98->unk4A[0][3]++; gUnknown_02022C98->unk4A[1][3]++; break; case 6: gUnknown_02022C98->unk4A[1][3]++; break; case 7: gUnknown_02022C98->unk4A[1][3]++; gUnknown_02022C98->unk4A[2][3]++; break; case 8: gUnknown_02022C98->unk4A[2][3]++; break; } break; case 3: switch (arg1) { case 2: gUnknown_02022C98->unk4A[1][3]++; gUnknown_02022C98->unk4A[2][3]++; break; case 3: gUnknown_02022C98->unk4A[2][3]++; break; case 4: gUnknown_02022C98->unk4A[2][3]++; gUnknown_02022C98->unk4A[0][3]++; break; case 5: gUnknown_02022C98->unk4A[0][3]++; break; case 6: gUnknown_02022C98->unk4A[0][3]++; gUnknown_02022C98->unk4A[1][3]++; break; case 7: gUnknown_02022C98->unk4A[1][3]++; break; } break; case 2: switch (arg1) { case 3: gUnknown_02022C98->unk4A[0][3]++; gUnknown_02022C98->unk4A[1][3]++; break; case 4: gUnknown_02022C98->unk4A[0][3]++; break; case 5: gUnknown_02022C98->unk4A[0][3]++; gUnknown_02022C98->unk4A[1][3]++; break; case 6: gUnknown_02022C98->unk4A[1][3]++; break; } break; } break; } } static void sub_8027234(bool32 arg0) { if (gUnknown_02022C98->unk24 != 5) return; if (arg0 == TRUE) { if (++gUnknown_02022C98->unk112 > gUnknown_02022C98->unk114) gUnknown_02022C98->unk114 = gUnknown_02022C98->unk112; if (gUnknown_02022C98->unk112 > 9999) gUnknown_02022C98->unk112 = 9999; } else { if (gUnknown_02022C98->unk112 > gUnknown_02022C98->unk114) gUnknown_02022C98->unk114 = gUnknown_02022C98->unk112; gUnknown_02022C98->unk112 = 0; } } static void sub_80272A4(void) { u8 i; for (i = 0; i < gUnknown_02022C98->unk24; i++) gUnknown_02022C98->unk4A[i][5] = gUnknown_02022C98->unk114; } static void sub_80272E8(void) { u8 i, j; for (i = 0; i < 5; i++) { for (j = 0; j < 11; j++) gUnknown_02022C98->unk31A0[i].unk14.unkB[j] = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk0 = 0; gUnknown_02022C98->unk31A0[i].unk2C.unk4 = 0; gUnknown_02022C98->unk90[i] = 0; gUnknown_02022C98->unk86[i] = 0; gUnknown_02022C98->unk3308[i].unk0 = 0; gUnknown_02022C98->unk3308[i].unk4 = 0; gUnknown_02022C98->unk4A[i][0] = 0; gUnknown_02022C98->unk4A[i][1] = 0; gUnknown_02022C98->unk4A[i][2] = 0; gUnknown_02022C98->unk4A[i][3] = 0; gUnknown_02022C98->unk4A[i][4] = 0; gUnknown_02022C98->unk4A[i][5] = 0; } gUnknown_02022C98->unk154 = 0; gUnknown_02022C98->unk112 = 0; gUnknown_02022C98->unk40 = 0; sub_8026A88(); sub_8026988(); } static const s16 gUnknown_082F7B24[] = {10, 30, 50, 50}; static void sub_80273F0(void) { u8 i, var = 0, var2 = 0; switch (gUnknown_02022C98->unk24) { case 4: var = 1; break; case 5: var = 2; break; } var2 = Random() % 10; for (i = 0; i < 5; i++) gUnknown_02022C98->unk4A[i][4] = gUnknown_082F7AA4[var][var2]; } static u32 sub_802745C(u8 arg0) { u32 sum = gUnknown_02022C98->unk4A[arg0][0] + gUnknown_02022C98->unk4A[arg0][1] + gUnknown_02022C98->unk4A[arg0][2]; return min(sum, 9999); } static void sub_802749C(void) { u32 berriesPicked = Min(sub_802745C(gUnknown_02022C98->multiplayerId), 9999); u32 score = Min(sub_80276C0(gUnknown_02022C98->multiplayerId), 999990); if (gSaveBlock2Ptr->berryPick.bestScore < score) gSaveBlock2Ptr->berryPick.bestScore = score; if (gSaveBlock2Ptr->berryPick.berriesPicked < berriesPicked) gSaveBlock2Ptr->berryPick.berriesPicked = berriesPicked; if (gSaveBlock2Ptr->berryPick.berriesPickedInRow < gUnknown_02022C98->unk114) gSaveBlock2Ptr->berryPick.berriesPickedInRow = gUnknown_02022C98->unk114; } static u8 sub_8027518(u8 arg0) { u8 i, saved; saved = gUnknown_02022C98->unk98[3]; for (i = 3; i != 0; i--) gUnknown_02022C98->unk98[i] = gUnknown_02022C98->unk98[i - 1]; gUnknown_02022C98->unk98[0] = arg0; return saved; } static void sub_8027554(void) { if (gUnknown_02022C98->unkB0[gUnknown_02022C98->multiplayerId] == 0) { if (gMain.newKeys & DPAD_UP) { gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 = 2; gUnknown_02022C98->unkB0[gUnknown_02022C98->multiplayerId] = 6; PlaySE(SE_W204); } else if (gMain.newKeys & DPAD_LEFT) { gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 = 3; gUnknown_02022C98->unkB0[gUnknown_02022C98->multiplayerId] = 6; PlaySE(SE_W204); } else if (gMain.newKeys & DPAD_RIGHT) { gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 = 1; gUnknown_02022C98->unkB0[gUnknown_02022C98->multiplayerId] = 6; PlaySE(SE_W204); } else { gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 = 0; } } else { gUnknown_02022C98->unkB0[gUnknown_02022C98->multiplayerId]--; } } static void sub_8027608(void) { gUnknown_02022C98->unk31A0[gUnknown_02022C98->multiplayerId].unk2C.unk0 = 0; } static u16 sub_802762C(void) { return gUnknown_02022C98->unk4A[gUnknown_02022C98->multiplayerId][4] + FIRST_BERRY_INDEX; } static u8 sub_8027650(void) { return gUnknown_02022C98->unk24; } static u8 *sub_8027660(u8 id) { if (gReceivedRemoteLinkPlayers) return gLinkPlayers[id].name; else return gUnknown_02022C98->unk31A0[id].name; } static u16 sub_80276A0(u8 arg0, u8 arg1) { return gUnknown_02022C98->unk4A[arg0][arg1]; } static u32 sub_80276C0(u8 arg0) { u8 i; u32 var, sum = 0; for (i = 0; i < 3; i++) sum += gUnknown_02022C98->unk4A[arg0][i] * gUnknown_082F7B24[i]; var = gUnknown_02022C98->unk4A[arg0][3] * gUnknown_082F7B24[3]; if (sum <= var) return 0; else return sum - var; } static u32 sub_8027748(void) { u8 i, count = gUnknown_02022C98->unk24; u32 maxVar = sub_80276C0(0); for (i = 1; i < count; i++) { u32 var = sub_80276C0(i); if (var > maxVar) maxVar = var; } return Min(maxVar, 999990); } static u32 sub_802778C(u8 arg0) { u8 i, count = gUnknown_02022C98->unk24; u16 maxVar = gUnknown_02022C98->unk4A[0][arg0]; for (i = 0; i < count; i++) { u16 var = gUnknown_02022C98->unk4A[i][arg0]; if (var > maxVar) maxVar = var; } return maxVar; } static u32 sub_80277D0(u8 arg0) { u32 vals[5], temp; s16 r6 = TRUE; u8 i, count = gUnknown_02022C98->unk24; for (i = 0; i < count; i++) vals[i] = temp = sub_80276C0(i); while (r6) { r6 = FALSE; for (i = 0; i < count - 1; i++) { if (vals[i] < vals[i + 1]) { SWAP(vals[i], vals[i + 1], temp); r6 = TRUE; } } } return vals[arg0]; } static u32 sub_802784C(void) { u8 i, r10 = 0, r8 = 0, r9 = 0, count = gUnknown_02022C98->unk24; // Function called two times for some reason. sub_8027748(); if (sub_8027748() == 0) { for (i = 0; i < count; i++) { gUnknown_02022C98->unk3308[i].unk0 = 4; gUnknown_02022C98->unk3308[i].unk4 = 0; } } for (i = 0; i < count; i++) gUnknown_02022C98->unk3308[i].unk4 = Min(sub_80276C0(i), 999990); do { u32 r6 = sub_80277D0(r10); u8 r3 = r8; for (i = 0; i < count; i++) { if (r6 == gUnknown_02022C98->unk3308[i].unk4) { gUnknown_02022C98->unk3308[i].unk0 = r3; r8++; r9++; } } r10 = r8; } while (r9 < count); return 0; } static void sub_802793C(struct DodrioSubstruct_3308 *dst, u8 id) { *dst = gUnknown_02022C98->unk3308[id]; } // Unused function static u8 sub_802795C(u8 arg0) { u8 i, ret = 0, count = gUnknown_02022C98->unk24; u32 var, vars[5] = {0}; for (i = 0; i < count; i++) vars[i] = sub_80276C0(i); var = vars[arg0]; for (i = 0; i < 5; i++) { if (i != arg0 && var < vars[i]) ret++; } return ret; } static u8 sub_80279C8(void) { u8 multiplayerId = gUnknown_02022C98->multiplayerId; u16 itemId = sub_802762C(); if (sub_80276C0(multiplayerId) != sub_8027748()) return 3; if (!CheckBagHasSpace(itemId, 1)) return 2; AddBagItem(itemId, 1); if (!CheckBagHasSpace(itemId, 1)) return 1; return 0; } // Really? What next, u32 Add(u32 a)return a+1;? static u32 IncrementWithLimit(u32 a, u32 max) { if (a < max) return a + 1; else return max; } // Gamefreak pls, min(a, b) ((a) < (b) ? (a) : (b)) is a well-known macro static u32 Min(u32 a, u32 b) { if (a < b) return a; else return b; } static u8 sub_8027A48(u8 id) { return gUnknown_02022C98->unk34[id]; } void IsDodrioInParty(void) { int i; for (i = 0; i < PARTY_SIZE; i++) { if (GetMonData(&gPlayerParty[i], MON_DATA_SANITY_HAS_SPECIES) && GetMonData(&gPlayerParty[i], MON_DATA_SPECIES2) == SPECIES_DODRIO) { gSpecialVar_Result = TRUE; return; } } gSpecialVar_Result = FALSE; } void ShowDodrioBerryPickingRecords(void) { u8 taskId = CreateTask(Task_ShowDodrioBerryPickingRecords, 0); Task_ShowDodrioBerryPickingRecords(taskId); } // Data related to printing saved results. static const struct WindowTemplate gUnknown_082F7B2C = { .bg = 0, .tilemapLeft = 5, .tilemapTop = 1, .width = 20, .height = 11, .paletteNum = 15, .baseBlock = 0x1, }; static const u8 *const gUnknown_082F7B34[3] = {gText_BerriesPicked, gText_BestScore, gText_BerriesInRowFivePlayers}; static const u8 gUnknown_082F7B40[] = {4, 7, 4}; ALIGNED(4) static const u8 gUnknown_082F7B44[][2] = {{25}, {41}, {57}}; static const u8 gUnknown_082F7B4A[][2] = {{25}, {41}, {73}}; static void Task_ShowDodrioBerryPickingRecords(u8 taskId) { struct WindowTemplate window; s32 i, width, widthCurr; s16 *data = gTasks[taskId].data; switch (data[0]) { case 0: window = gUnknown_082F7B2C; width = GetStringWidth(1, gText_BerryPickingRecords, 0); for (i = 0; i < ARRAY_COUNT(gUnknown_082F7B34); i++) { widthCurr = GetStringWidth(1, gUnknown_082F7B34[i], 0) + 50; if (widthCurr > width) width = widthCurr; } width = (width + 7) / 8; if (width & 1) width++; window.tilemapLeft = (30 - width) / 2; window.width = width; data[1] = AddWindow(&window); sub_8027BEC(data[1], width); CopyWindowToVram(data[1], 3); data[0]++; break; case 1: if (!IsDma3ManagerBusyWithBgCopy()) data[0]++; break; case 2: if (gMain.newKeys & (A_BUTTON | B_BUTTON)) { rbox_fill_rectangle(data[1]); CopyWindowToVram(data[1], 1); data[0]++; } break; case 3: if (!IsDma3ManagerBusyWithBgCopy()) { RemoveWindow(data[1]); DestroyTask(taskId); EnableBothScriptContexts(); } break; } } static void sub_8027BEC(u8 windowId, s32 width) { s32 i, x, numWidth; s32 results[3]; results[0] = gSaveBlock2Ptr->berryPick.berriesPicked; results[1] = gSaveBlock2Ptr->berryPick.bestScore; results[2] = gSaveBlock2Ptr->berryPick.berriesPickedInRow; LoadUserWindowBorderGfx_(windowId, 0x21D, 0xD0); DrawTextBorderOuter(windowId, 0x21D, 0xD); FillWindowPixelBuffer(windowId, PIXEL_FILL(1)); AddTextPrinterParameterized(windowId, 1, gText_BerryPickingRecords, GetStringCenterAlignXOffset(1, gText_BerryPickingRecords, width * 8), 1, TEXT_SPEED_FF, NULL); for (i = 0; i < 3; i++) { ConvertIntToDecimalStringN(gStringVar1, results[i], STR_CONV_MODE_LEFT_ALIGN, gUnknown_082F7B40[i]); numWidth = GetStringWidth(1, gStringVar1, -1); AddTextPrinterParameterized(windowId, 1, gUnknown_082F7B34[i], 0, gUnknown_082F7B44[i][0], TEXT_SPEED_FF, NULL); x = (width * 8) - numWidth; AddTextPrinterParameterized(windowId, 1, gStringVar1, x, gUnknown_082F7B4A[i][0], TEXT_SPEED_FF, NULL); } PutWindowTilemap(windowId); } // Debug functions? static const u16 gUnknown_082F7B50[][4] = { {9999, 0, 90, 9999}, {9999, 9999, 70, 9999}, {9999, 0, 9999, 0}, {9999, 9999, 60, 0}, {9999, 9999, 9999, 0}, }; static const u8 sJPText_Vowels[] = _("あいうえおかき"); static const u8 sText_ABCDEFG[] = _("ABCDEFG"); static const u8 sText_0123456[] = _("0123456"); static const u8 *const sPlaceholderPlayerNames[] = { sJPText_Vowels, sJPText_Vowels, sJPText_Vowels, sText_ABCDEFG, sText_0123456 }; static void sub_8027D20(void) { gUnknown_02022C98->unk24 = GetLinkPlayerCount(); } static void sub_8027D38(void) { u8 i, playerId; for (playerId = gUnknown_02022C98->unk24; playerId < ARRAY_COUNT(sPlaceholderPlayerNames); playerId++) StringCopy(gLinkPlayers[playerId].name, sPlaceholderPlayerNames[playerId]); gUnknown_02022C98->unk24 = 5; for (i = 0; i < 4; i++) { for (playerId = 0; playerId < gUnknown_02022C98->unk24; playerId++) gUnknown_02022C98->unk4A[playerId][i] = gUnknown_082F7B50[playerId][i]; } } struct UnkPacket1 { u8 id; u8 ALIGNED(4) unk4; }; static void sub_8027DD0(u32 arg0) { struct UnkPacket1 packet; packet.id = 1; packet.unk4 = arg0; sub_800FE50(&packet); } static u32 sub_8027DFC(u32 arg0) { struct UnkPacket1 *packet; if ((gRecvCmds[0][0] & 0xFF00) != 0x2F00) return 0; packet = (void *)&gRecvCmds[arg0][1]; if (packet->id == 1) return packet->unk4; return 0; } struct UnkPacket2 { u8 id; u8 unk1_0:4; u8 unk1_1:4; u16 unk2_0:4; u16 unk2_1:4; u16 unk3_0:4; u16 unk3_1:4; u16 unk4_0:4; u16 unk4_1:4; u16 unk5_0:4; u16 unk5_1:4; u16 unk6_0:2; u16 unk6_1:2; u16 unk6_2:2; u16 unk6_3:2; u16 unk7_0:2; u16 unk7_1:2; u16 unk7_2:2; u16 unk7_3:2; u8 unk8_0:2; u8 unk8_1:2; u8 unk8_2:2; u8 unk8_3:2; u8 unk9_0:2; u8 unk9_1:2; u8 unk9_2:2; u8 unk9_3:1; u8 unk9_4:1; u8 unkA_0:1; u8 unkA_1:1; u8 unkA_2:1; u8 unkA_3:5; u8 unkB_0:1; u8 unkB_1:1; u8 unkB_2:1; u8 unkB_3:1; u8 unkB_4:1; u8 unkB_5:1; u8 unkB_6:1; }; static void sub_8027E30(struct DodrioSubstruct_31A0 *arg0, struct DodrioSubstruct_31A0_2C *arg1, struct DodrioSubstruct_31A0_2C *arg2, struct DodrioSubstruct_31A0_2C *arg3, struct DodrioSubstruct_31A0_2C *arg4, struct DodrioSubstruct_31A0_2C *arg5, u8 arg6, u32 arg7, u32 arg8) { struct UnkPacket2 packet; struct DodrioSubstruct_31A0_14 *ptr = &arg0->unk14; packet.id = 2; packet.unk1_0 = ptr->unkB[0]; packet.unk1_1 = ptr->unkB[1]; packet.unk2_0 = ptr->unkB[2]; packet.unk2_1 = ptr->unkB[3]; packet.unk3_0 = ptr->unkB[4]; packet.unk3_1 = ptr->unkB[5]; packet.unk4_0 = ptr->unkB[6]; packet.unk4_1 = ptr->unkB[7]; packet.unk5_0 = ptr->unkB[8]; packet.unk5_1 = ptr->unkB[9]; packet.unk6_0 = ptr->unk0[0]; packet.unk6_1 = ptr->unk0[1]; packet.unk6_2 = ptr->unk0[2]; packet.unk6_3 = ptr->unk0[3]; packet.unk7_0 = ptr->unk0[4]; packet.unk7_1 = ptr->unk0[5]; packet.unk7_2 = ptr->unk0[6]; packet.unk7_3 = ptr->unk0[7]; packet.unk8_0 = ptr->unk0[8]; packet.unk8_1 = ptr->unk0[9]; packet.unk8_2 = arg1->unk0; packet.unk8_3 = arg2->unk0; packet.unk9_0 = arg3->unk0; packet.unk9_1 = arg4->unk0; packet.unk9_2 = arg5->unk0; packet.unk9_3 = arg1->unk4; packet.unk9_4 = arg2->unk4; packet.unkA_0 = arg3->unk4; packet.unkA_1 = arg4->unk4; packet.unkA_2 = arg5->unk4; packet.unkB_2 = arg1->unk8; packet.unkB_3 = arg2->unk8; packet.unkB_4 = arg3->unk8; packet.unkB_5 = arg4->unk8; packet.unkB_6 = arg5->unk8; packet.unkA_3 = arg6; packet.unkB_1 = arg7; packet.unkB_0 = arg8; sub_800FE50(&packet); } static u32 sub_8028164(u32 unused, struct DodrioSubstruct_31A0 *arg0, struct DodrioSubstruct_31A0_2C *arg1, struct DodrioSubstruct_31A0_2C *arg2, struct DodrioSubstruct_31A0_2C *arg3, struct DodrioSubstruct_31A0_2C *arg4, struct DodrioSubstruct_31A0_2C *arg5, u8 *arg6, u32 *arg7, u32 *arg8) { struct UnkPacket2 *packet; struct DodrioSubstruct_31A0_14 *ptr = &arg0->unk14; if ((gRecvCmds[0][0] & 0xFF00) != 0x2F00) return 0; packet = (void *)&gRecvCmds[0][1]; if (packet->id == 2) { ptr->unkB[0] = packet->unk1_0; ptr->unkB[1] = packet->unk1_1; ptr->unkB[2] = packet->unk2_0; ptr->unkB[3] = packet->unk2_1; ptr->unkB[4] = packet->unk3_0; ptr->unkB[5] = packet->unk3_1; ptr->unkB[6] = packet->unk4_0; ptr->unkB[7] = packet->unk4_1; ptr->unkB[8] = packet->unk5_0; ptr->unkB[9] = packet->unk5_1; ptr->unkB[10] = packet->unk1_0; ptr->unk0[0] = packet->unk6_0; ptr->unk0[1] = packet->unk6_1; ptr->unk0[2] = packet->unk6_2; ptr->unk0[3] = packet->unk6_3; ptr->unk0[4] = packet->unk7_0; ptr->unk0[5] = packet->unk7_1; ptr->unk0[6] = packet->unk7_2; ptr->unk0[7] = packet->unk7_3; ptr->unk0[8] = packet->unk8_0; ptr->unk0[9] = packet->unk8_1; ptr->unk0[10] = packet->unk6_0; arg1->unk0 = packet->unk8_2; arg1->unk4 = packet->unk9_3; arg1->unk8 = packet->unkB_2; arg2->unk0 = packet->unk8_3; arg2->unk4 = packet->unk9_4; arg2->unk8 = packet->unkB_3; arg3->unk0 = packet->unk9_0; arg3->unk4 = packet->unkA_0; arg3->unk8 = packet->unkB_4; arg4->unk0 = packet->unk9_1; arg4->unk4 = packet->unkA_1; arg4->unk8 = packet->unkB_5; arg5->unk0 = packet->unk9_2; arg5->unk4 = packet->unkA_2; arg5->unk8 = packet->unkB_6; *arg6 = packet->unkA_3; *arg7 = packet->unkB_1; *arg8 = packet->unkB_0; return 1; } return 0; } struct UnkPacket3 { u8 id; u8 ALIGNED(4) unk4; }; static void sub_80282EC(u8 arg0) { struct UnkPacket3 packet; packet.id = 3; packet.unk4 = arg0; sub_800FE50(&packet); } static u32 sub_8028318(u32 arg0, u8 *arg1) { struct UnkPacket3 *packet; if ((gRecvCmds[0][0] & 0xFF00) != 0x2F00) return 0; packet = (void *)&gRecvCmds[arg0][1]; if (packet->id == 3) { *arg1 = packet->unk4; return 1; } return 0; } struct UnkPacket4 { u8 id; u32 unk4; }; static void sub_8028350(u32 arg0) { struct UnkPacket4 packet; packet.id = 4; packet.unk4 = arg0; sub_800FE50(&packet); } static u32 sub_8028374(u32 arg0) { struct UnkPacket4 *packet; if ((gRecvCmds[0][0] & 0xFF00) != 0x2F00) return 0; packet = (void *)&gRecvCmds[arg0][1]; if (packet->id == 4) return packet->unk4; return 0; } // Large chunk of data static const struct BgTemplate gUnknown_082F7BA4[] = { { .bg = 0, .charBaseIndex = 0, .mapBaseIndex = 30, .screenSize = 0, .paletteMode = 0, .priority = 0, .baseTile = 0 }, { .bg = 1, .charBaseIndex = 2, .mapBaseIndex = 12, .screenSize = 1, .paletteMode = 0, .priority = 1, .baseTile = 0 }, { .bg = 2, .charBaseIndex = 2, .mapBaseIndex = 14, .screenSize = 1, .paletteMode = 0, .priority = 1, .baseTile = 0 }, { .bg = 3, .charBaseIndex = 3, .mapBaseIndex = 31, .screenSize = 0, .paletteMode = 0, .priority = 2, .baseTile = 0 }, }; // Unknown unreferenced data, feel free to remove. static const u32 sUnused[] = {255, 0}; static const struct WindowTemplate gUnknown_082F7BBC[] = { { .bg = 0, .tilemapLeft = 1, .tilemapTop = 1, .width = 28, .height = 2, .paletteNum = 13, .baseBlock = 0x13, }, { .bg = 0, .tilemapLeft = 1, .tilemapTop = 5, .width = 28, .height = 14, .paletteNum = 13, .baseBlock = 0x4B, } }; static const struct WindowTemplate gUnknown_082F7BCC = { .bg = 0, .tilemapLeft = 1, .tilemapTop = 5, .width = 28, .height = 7, .paletteNum = 13, .baseBlock = 0x4B, }; static const struct WindowTemplate gUnknown_082F7BD4[] = { { .bg = 0, .tilemapLeft = 1, .tilemapTop = 8, .width = 19, .height = 3, .paletteNum = 13, .baseBlock = 0x13, }, { .bg = 0, .tilemapLeft = 22, .tilemapTop = 7, .width = 6, .height = 4, .paletteNum = 13, .baseBlock = 0x4C, } }; static const struct WindowTemplate gUnknown_082F7BE4 = { .bg = 0, .tilemapLeft = 4, .tilemapTop = 6, .width = 22, .height = 5, .paletteNum = 13, .baseBlock = 0x13, }; static const struct WindowTemplate gUnknown_082F7BEC = { .bg = 0, .tilemapLeft = 5, .tilemapTop = 8, .width = 19, .height = 3, .paletteNum = 13, .baseBlock = 0x13, }; // This is an unused copy of the tables from the top of the file. Feel free to remove. static const u8 sDuplicateArray[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 3, 8, 9, 0, 0, 1, 2, 5, 6, 3, 4, 5, 8, 9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 7, 2, 9, 0, 0, 1, 4, 5, 6, 7, 2, 3, 4, 9, 0, 0, 1, 6, 7, 2, 3, 4, 5, 6, 9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 7, 8, 1, 0, 0, 3, 4, 5, 6, 7, 8, 1, 2, 3, 0, 0, 5, 6, 7, 8, 1, 2, 3, 4, 5, 0, 0, 7, 8, 1, 2, 3, 4, 5, 6, 7, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2, 4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4, 6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6, 8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8, 4, 5, 6, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 4, 5, 5, 6, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 4, 5, 6, 6, 7, 2, 2, 3, 4, 0, 0, 0, 0, 0, 0, 3, 4, 5, 5, 6, 7, 7, 8, 1, 1, 2, 3, 0, 0, 0, 4, 5, 6, 6, 7, 8, 8, 9, 0, 0, 1, 2, 2, 3, 4, 1, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 1, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 1, 0, 1, 2, 1, 2, 0, 0, 0, 0, 0, 0, 0, 3, 0, 1, 0, 1, 2, 1, 2, 3, 2, 3, 0, 0, 0, 0, 4, 0, 1, 0, 1, 2, 1, 2, 3, 2, 3, 4, 3, 4, 0, 0, 0, 0, 9, 9, 9, 9, 1, 1, 1, 9, 9, 9, 9, 9, 9, 9, 0, 0, 1, 1, 0, 9, 9, 9, 9, 9, 2, 2, 0, 0, 1, 1, 1, 9, 9, 9, 3, 3, 0, 0, 1, 1, 2, 2, 3, 9, 3, 3, 4, 4, 0, 0, 1, 1, 2, 2, 3, 5, 0, 0, 0, 0, 4, 6, 0, 0, 0, 3, 5, 7, 0, 0, 2, 4, 6, 8, 0, 1, 3, 5, 6, 9 }; static const u16 gDodrioBerryBgPal1[] = INCBIN_U16("graphics/link_games/dodrioberry_bg1.gbapal", "graphics/link_games/dodrioberry_bg2.gbapal"); static const u16 gDodrioBerryPkmnPal[] = INCBIN_U16("graphics/link_games/dodrioberry_pkmn.gbapal"); static const u16 gDodrioBerryShinyPal[] = INCBIN_U16("graphics/link_games/dodrioberry_shiny.gbapal"); static const u16 gDodrioBerryStatusPal[] = INCBIN_U16("graphics/link_games/dodrioberry_status.gbapal"); static const u16 gDodrioBerrySpritesPal[] = INCBIN_U16("graphics/link_games/dodrioberry_berrysprites.gbapal"); static const u32 gDodrioBerrySpritesGfx[] = INCBIN_U32("graphics/link_games/dodrioberry_berrysprites.4bpp.lz"); static const u16 gDodrioBerryPlatformPal[] = INCBIN_U16("graphics/link_games/dodrioberry_platform.gbapal"); static const u32 gDodrioBerryBgGfx1[] = INCBIN_U32("graphics/link_games/dodrioberry_bg1.4bpp.lz"); static const u32 gDodrioBerryBgGfx2[] = INCBIN_U32("graphics/link_games/dodrioberry_bg2.4bpp.lz"); static const u32 gDodrioBerryStatusGfx[] = INCBIN_U32("graphics/link_games/dodrioberry_status.4bpp.lz"); static const u32 gDodrioBerryPlatformGfx[] = INCBIN_U32("graphics/link_games/dodrioberry_platform.4bpp.lz"); static const u32 gDodrioBerryPkmnGfx[] = INCBIN_U32("graphics/link_games/dodrioberry_pkmn.4bpp.lz"); static const u32 gDodrioBerryBgTilemap1[] = INCBIN_U32("graphics/link_games/dodrioberry_bg1.bin.lz"); static const u32 gDodrioBerryBgTilemap2Right[] = INCBIN_U32("graphics/link_games/dodrioberry_bg2right.bin.lz"); static const u32 gDodrioBerryBgTilemap2Left[] = INCBIN_U32("graphics/link_games/dodrioberry_bg2left.bin.lz"); static const struct OamData sOamData_82FB1E0 = { .y = 0, .affineMode = ST_OAM_AFFINE_OFF, .objMode = ST_OAM_OBJ_NORMAL, .mosaic = 0, .bpp = ST_OAM_4BPP, .shape = SPRITE_SHAPE(64x64), .x = 0, .matrixNum = 0, .size = SPRITE_SIZE(64x64), .tileNum = 0, .priority = 2, .paletteNum = 0, .affineParam = 0 }; static const struct OamData sOamData_82FB1E8 = { .y = 0, .affineMode = ST_OAM_AFFINE_OFF, .objMode = ST_OAM_OBJ_NORMAL, .mosaic = 0, .bpp = ST_OAM_4BPP, .shape = SPRITE_SHAPE(16x16), .x = 0, .matrixNum = 0, .size = SPRITE_SIZE(16x16), .tileNum = 0, .priority = 0, .paletteNum = 0, .affineParam = 0 }; static const struct OamData sOamData_82FB1F0 = { .y = 0, .affineMode = ST_OAM_AFFINE_OFF, .objMode = ST_OAM_OBJ_NORMAL, .mosaic = 0, .bpp = ST_OAM_4BPP, .shape = SPRITE_SHAPE(16x16), .x = 0, .matrixNum = 0, .size = SPRITE_SIZE(16x16), .tileNum = 0, .priority = 2, .paletteNum = 0, .affineParam = 0 }; static const struct OamData sOamData_82FB1F8 = { .y = 0, .affineMode = ST_OAM_AFFINE_OFF, .objMode = ST_OAM_OBJ_NORMAL, .mosaic = 0, .bpp = ST_OAM_4BPP, .shape = SPRITE_SHAPE(64x32), .x = 0, .matrixNum = 0, .size = SPRITE_SIZE(64x32), .tileNum = 0, .priority = 3, .paletteNum = 0, .affineParam = 0 }; static const union AnimCmd sSpriteAnim_82FB200[] = { ANIMCMD_FRAME(0, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB208[] = { ANIMCMD_FRAME(64, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB210[] = { ANIMCMD_FRAME(128, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB218[] = { ANIMCMD_FRAME(192, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB220[] = { ANIMCMD_FRAME(256, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd *const sSpriteAnimTable_82FB228[] = { sSpriteAnim_82FB200, sSpriteAnim_82FB208, sSpriteAnim_82FB210, sSpriteAnim_82FB218, sSpriteAnim_82FB220 }; static const union AnimCmd sSpriteAnim_82FB23C[] = { ANIMCMD_FRAME(0, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB244[] = { ANIMCMD_FRAME(4, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB24C[] = { ANIMCMD_FRAME(8, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd *const sSpriteAnimTable_82FB254[] = { sSpriteAnim_82FB23C, sSpriteAnim_82FB244, sSpriteAnim_82FB24C }; static const union AnimCmd sSpriteAnim_82FB260[] = { ANIMCMD_FRAME(0, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB268[] = { ANIMCMD_FRAME(4, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB270[] = { ANIMCMD_FRAME(8, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB278[] = { ANIMCMD_FRAME(12, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB280[] = { ANIMCMD_FRAME(16, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB288[] = { ANIMCMD_FRAME(20, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB290[] = { ANIMCMD_FRAME(24, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB298[] = { ANIMCMD_FRAME(28, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd sSpriteAnim_82FB2A0[] = { ANIMCMD_FRAME(32, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd *const sSpriteAnimTable_82FB2A8[] = { sSpriteAnim_82FB260, sSpriteAnim_82FB268, sSpriteAnim_82FB270, sSpriteAnim_82FB278, sSpriteAnim_82FB280, sSpriteAnim_82FB288, sSpriteAnim_82FB290, sSpriteAnim_82FB298, sSpriteAnim_82FB2A0 }; static const union AnimCmd sSpriteAnim_82FB2CC[] = { ANIMCMD_FRAME(0, 20), ANIMCMD_JUMP(0) }; static const union AnimCmd *const sSpriteAnimTable_82FB2D4[] = { sSpriteAnim_82FB2CC }; static void sub_80283A8(void) { void *ptr = AllocZeroed(0x3000); struct SpritePalette pal1 = {gDodrioBerryPkmnPal, 0}; struct SpritePalette pal2 = {gDodrioBerryShinyPal, 1}; LZ77UnCompWram(gDodrioBerryPkmnGfx, ptr); // This check should be one line up. if (ptr != NULL) { struct SpriteSheet sheet = {ptr, 0x3000, 0}; LoadSpriteSheet(&sheet); Free(ptr); } LoadSpritePalette(&pal1); LoadSpritePalette(&pal2); } static void sub_8028408(struct DodrioSubstruct_318C *arg0, u8 arg1, u8 id, u8 arg3) { struct SpriteTemplate sprTemplate = { .tileTag = 0, .paletteTag = arg0->isShiny, .oam = &sOamData_82FB1E0, .anims = sSpriteAnimTable_82FB228, .images = NULL, .affineAnims = gDummySpriteAffineAnimTable, .callback = sub_80284A8, }; gUnknown_02022C9C[id] = AllocZeroed(4); *gUnknown_02022C9C[id] = CreateSprite(&sprTemplate, sub_8028F14(arg1, arg3), 136, 3); sub_8028654(TRUE, id); } static void sub_80284A8(struct Sprite *sprite) { switch (sprite->data[0]) { case 0: break; case 1: sub_802853C(sprite); break; case 2: sub_80285AC(sprite); break; } } static void sub_80284CC(u8 unused) { struct Sprite *sprite = &gSprites[*gUnknown_02022C9C[GetMultiplayerId()]]; sprite->data[0] = 1; sprite->data[1] = 0; sprite->data[2] = 0; sprite->data[3] = 0; sprite->data[4] = 0; } static void sub_8028504(u8 unused) { struct Sprite *sprite = &gSprites[*gUnknown_02022C9C[GetMultiplayerId()]]; sprite->data[0] = 2; sprite->data[1] = 0; sprite->data[2] = 0; sprite->data[3] = 0; sprite->data[4] = 0; } static u32 sub_802853C(struct Sprite *sprite) { s8 var; u8 mod = (++sprite->data[1] / 2) % 4; if (sprite->data[1] >= 3) { switch (mod) { default: var = 1; break; case 1: case 2: var = -1; break; } sprite->pos1.x += var; if (++sprite->data[1] >= 40) { sprite->data[0] = 0; sprite->pos1.x = sub_8028F14(0, sub_8027650()); } } return 0; } static u32 sub_80285AC(struct Sprite *sprite) { u8 mod = (++sprite->data[1] / 13) % 4; if (sprite->data[1] % 13 == 0 && mod != 0) PlaySE(SE_W204); if (sprite->data[1] >= 104) { sprite->data[0] = 0; mod = 0; } sub_80286B4(GetMultiplayerId(), mod); return 0; } static void sub_8028614(u8 count) { u8 i; for (i = 0; i < count; i++) { struct Sprite *sprite = &gSprites[*gUnknown_02022C9C[i]]; if (sprite != NULL) DestroySpriteAndFreeResources(sprite); // Memory should be freed here but is not. } } static void sub_8028654(bool8 invisible, u8 id) { gSprites[*gUnknown_02022C9C[id]].invisible = invisible; } static void sub_802868C(bool8 invisible, u8 count) { u8 i; for (i = 0; i < count; i++) sub_8028654(invisible, i); } static void sub_80286B4(u8 id, u8 frameNum) { StartSpriteAnim(&gSprites[*gUnknown_02022C9C[id]], frameNum); } static void nullsub_15(struct Sprite *sprite) { } static void sub_80286E4(void) { u8 i; for (i = 0; i < 10; i++) { struct Sprite *sprite = &gSprites[gUnknown_02022CF4->unk2A[i]]; sprite->pos1.x = (i * 16) + 48; sprite->pos1.y = -8 - (i * 8); gUnknown_02022CF4->unkC[i] = 0; } } static void sub_8028734(void) { u8 i; void *ptr = AllocZeroed(0x180); struct SpritePalette spPal = {gDodrioBerryStatusPal, 2}; LZ77UnCompWram(gDodrioBerryStatusGfx, ptr); // This check should be one line up. if (ptr != NULL) { struct SpriteSheet spSheet = {ptr, 0x180, 1}; struct SpriteTemplate spTemplate = { .tileTag = 1, .paletteTag = 2, .oam = &sOamData_82FB1E8, .anims = sSpriteAnimTable_82FB254, .images = NULL, .affineAnims = gDummySpriteAffineAnimTable, .callback = nullsub_15, }; gUnknown_02022CF4 = AllocZeroed(sizeof(*gUnknown_02022CF4)); LoadSpriteSheet(&spSheet); LoadSpritePalette(&spPal); for (i = 0; i < 10; i++) gUnknown_02022CF4->unk2A[i] = CreateSprite(&spTemplate, (i * 16) + 48, -8 - (i * 8), 0); } Free(ptr); } static void sub_80287E4(void) { u8 i; for (i = 0; i < 10; i++) { struct Sprite *sprite = &gSprites[gUnknown_02022CF4->unk2A[i]]; if (sprite != NULL) DestroySpriteAndFreeResources(sprite); } FREE_AND_SET_NULL(gUnknown_02022CF4); } static bool32 sub_8028828(void) { u8 i; bool32 r3 = FALSE; for (i = 0; i < 10; i++) { struct Sprite *sprite = &gSprites[gUnknown_02022CF4->unk2A[i]]; gUnknown_02022CF4->unk16[i] = 2; if (gUnknown_02022CF4->unkC[i] != 0 && sprite->pos1.y == 8) continue; r3 = TRUE; if (sprite->pos1.y == 8) { if (gUnknown_02022CF4->unkC[i] != 0) continue; gUnknown_02022CF4->unkC[i] = 1; gUnknown_02022CF4->unk16[i] = -16; PlaySE(SE_TK_KASYA); } sprite->pos1.y += gUnknown_02022CF4->unk16[i]; } if (r3) return FALSE; else return TRUE; } static void sub_80288D4(u8 arg0) { u8 i; if (arg0 > 10) { for (i = 0; i < 10; i++) StartSpriteAnim(&gSprites[gUnknown_02022CF4->unk2A[i]], 1); } else { for (i = 0; i < 10 - arg0; i++) { if (arg0 > 6) { gUnknown_02022CF4->unk3E += arg0 - 6; if (gUnknown_02022CF4->unk3E > 30) gUnknown_02022CF4->unk3E = 0; else if (gUnknown_02022CF4->unk3E > 10) StartSpriteAnim(&gSprites[gUnknown_02022CF4->unk2A[i]], 2); else StartSpriteAnim(&gSprites[gUnknown_02022CF4->unk2A[i]], 0); } else { StartSpriteAnim(&gSprites[gUnknown_02022CF4->unk2A[i]], 0); } } for (; i < 10; i++) StartSpriteAnim(&gSprites[gUnknown_02022CF4->unk2A[i]], 1); } } static void sub_80289E8(bool8 invisible) { u8 i; for (i = 0; i < 10; i++) gSprites[gUnknown_02022CF4->unk2A[i]].invisible = invisible; } // Unknown unused data, feel free to remove. static const u8 sUnused2[] = {0xD4, 0x3E, 0x3F, 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0xFB, 0x0, 0x0}; static void sub_8028A34(void) { void *ptr = AllocZeroed(0x480); struct SpritePalette sprPal = {gDodrioBerrySpritesPal, 3}; LZ77UnCompWram(gDodrioBerrySpritesGfx, ptr); if (ptr != NULL) { struct SpriteSheet sprSheet = {ptr, 0x480, 2}; LoadSpriteSheet(&sprSheet); } LoadSpritePalette(&sprPal); Free(ptr); } static const s16 gUnknown_082FB31C[] = {88, 128, 168, 208}; static void sub_8028A88(void) { u8 i; s16 x; struct SpriteTemplate sprTemplate1 = { .tileTag = 2, .paletteTag = 3, .oam = &sOamData_82FB1F0, .anims = sSpriteAnimTable_82FB2A8, .images = NULL, .affineAnims = gDummySpriteAffineAnimTable, .callback = SpriteCallbackDummy, }; struct SpriteTemplate sprTemplate2 = { .tileTag = 2, .paletteTag = 3, .oam = &sOamData_82FB1E8, .anims = sSpriteAnimTable_82FB2A8, .images = NULL, .affineAnims = gDummySpriteAffineAnimTable, .callback = SpriteCallbackDummy, }; for (i = 0; i < 11; i++) { gUnknown_02022CB8[i] = AllocZeroed(4); x = i * 16; *gUnknown_02022CB8[i] = CreateSprite(&sprTemplate1, x + (i * 8), 8, 1); sub_8028BF8(i, TRUE); } for (i = 0; i < 4; i++) { gUnknown_02022CE4[i] = AllocZeroed(4); if (i == 3) *gUnknown_02022CE4[i] = CreateSprite(&sprTemplate2, gUnknown_082FB31C[i], 49, 0); else *gUnknown_02022CE4[i] = CreateSprite(&sprTemplate2, gUnknown_082FB31C[i], 52, 0); StartSpriteAnim(&gSprites[*gUnknown_02022CE4[i]], i); } sub_8028C30(TRUE); } static void sub_8028B80(void) { struct Sprite *sprite; u8 i; for (i = 0; i < 11; i++) { sprite = &gSprites[*gUnknown_02022CB8[i]]; if (sprite != NULL) DestroySprite(sprite); FREE_AND_SET_NULL(gUnknown_02022CB8[i]); } for (i = 0; i < 4; i++) { sprite = &gSprites[*gUnknown_02022CE4[i]]; if (sprite != NULL) DestroySprite(sprite); FREE_AND_SET_NULL(gUnknown_02022CE4[i]); } } static void sub_8028BF8(u8 id, bool8 invisible) { gSprites[*gUnknown_02022CB8[id]].invisible = invisible; } static void sub_8028C30(bool8 invisible) { u8 i; for (i = 0; i < 4; i++) gSprites[*gUnknown_02022CE4[i]].invisible = invisible; } static void sub_8028C7C(u8 id, u8 y) { gSprites[*gUnknown_02022CB8[id]].pos1.y = y * 8; } static void sub_8028CA4(u16 id, u8 frameNum) { StartSpriteAnim(&gSprites[*gUnknown_02022CB8[id]], frameNum); } // Unused static void sub_8028CD0(u8 spriteId) { gSprites[spriteId].pos1.x = 20 * spriteId + 50; gSprites[spriteId].pos1.y = 50; } // Gamefreak made a mistake there and goes out of bounds for the data array as it holds 8 elements // in turn overwriting sprite's subpriority and subsprites fields. #if defined(NONMATCHING) || MODERN #define sKeepPosX data[1] #else #define sKeepPosX data[10] #endif // NONMATCHING static void sub_8028CF4(struct Sprite *sprite) { u8 i; static const u8 array[] = {30, 20}; if (sprite->sKeepPosX != TRUE) { for (i = 0; i < 2; i++) { if (++gUnknown_02022CB0[i][1] > array[i]) { sprite->pos1.x--; gUnknown_02022CB0[i][1] = 0; } } } } static const s16 gUnknown_082FB356[][2] = {{230, 55}, {30, 74}}; static void sub_8028D44(void) { u8 i; void *ptr = AllocZeroed(0x400); struct SpritePalette sprPal = {gDodrioBerryPlatformPal, 6}; LZ77UnCompWram(gDodrioBerryPlatformGfx, ptr); if (ptr != NULL) { struct SpriteSheet sprSheet = {ptr, 0x400, 5}; struct SpriteTemplate sprTemplate = { .tileTag = 5, .paletteTag = 6, .oam = &sOamData_82FB1F8, .anims = sSpriteAnimTable_82FB2D4, .images = NULL, .affineAnims = gDummySpriteAffineAnimTable, .callback = sub_8028CF4, }; LoadSpriteSheet(&sprSheet); LoadSpritePalette(&sprPal); for (i = 0; i < 2; i++) { gUnknown_02022CB0[i] = AllocZeroed(4); *gUnknown_02022CB0[i] = CreateSprite(&sprTemplate, gUnknown_082FB356[i][0], gUnknown_082FB356[i][1], 4); } } Free(ptr); } static void sub_8028DFC(void) { u8 i; for (i = 0; i < 2; i++) { struct Sprite *sprite = &gSprites[*gUnknown_02022CB0[i]]; sprite->sKeepPosX = TRUE; sprite->pos1.x = gUnknown_082FB356[i][0]; sprite->pos1.y = gUnknown_082FB356[i][1]; } } static void sub_8028E4C(void) { u8 i; for (i = 0; i < 2; i++) { struct Sprite *sprite = &gSprites[*gUnknown_02022CB0[i]]; sprite->sKeepPosX = FALSE; } } static void sub_8028E84(void) { u8 i; for (i = 0; i < 2; i++) { struct Sprite *sprite = &gSprites[*gUnknown_02022CB0[i]]; if (sprite) DestroySprite(sprite); FREE_AND_SET_NULL(gUnknown_02022CB0[i]); } } static void sub_8028EC8(bool8 invisible) { u8 i; for (i = 0; i < 2; i++) gSprites[*gUnknown_02022CB0[i]].invisible = invisible; } #undef sKeepPosX static s16 sub_8028F14(u8 arg0, u8 arg1) { s16 x = 0; switch (arg1) { case 1: x = 15; break; case 2: switch (arg0) { case 0: x = 12; break; case 1: x = 18; break; } break; case 3: switch (arg0) { case 0: x = 15; break; case 1: x = 21; break; case 2: x = 9; break; } break; case 4: switch (arg0) { case 0: x = 12; break; case 1: x = 18; break; case 2: x = 24; break; case 3: x = 6; break; } break; case 5: switch (arg0) { case 0: x = 15; break; case 1: x = 21; break; case 2: x = 27; break; case 3: x = 3; break; case 4: x = 9; break; } break; } return x * 8; } static void sub_8028FCC(void) { u8 i; for (i = 0; i < 11; i++) { sub_8028BF8(i, TRUE); sub_8028C7C(i, 1); } sub_80289E8(FALSE); } static void sub_8028FF8(u8 frameId) { LoadBgTiles(0, GetWindowFrameTilesPal(frameId)->tiles, 0x120, 1); LoadPalette(GetWindowFrameTilesPal(frameId)->pal, 0xA0, 0x20); } static void sub_802902C(void) { LoadUserWindowBorderGfx_(0, 0xA, 0xB0); } static void sub_802903C(void) { gUnknown_02022CF8->finished = FALSE; gUnknown_02022CF8->state = 0; gUnknown_02022CF8->unk3018 = 0; gUnknown_02022CF8->unk3020 = 0; gUnknown_02022CF8->unk3024 = 0; } static void sub_8029074(const struct WindowTemplate *winTempl) { u8 pal = 0xA; FillBgTilemapBufferRect(0, 1, winTempl->tilemapLeft - 1, winTempl->tilemapTop - 1, 1, 1, pal); FillBgTilemapBufferRect(0, 2, winTempl->tilemapLeft, winTempl->tilemapTop - 1, winTempl->width, 1, pal); FillBgTilemapBufferRect(0, 3, winTempl->tilemapLeft + winTempl->width, winTempl->tilemapTop - 1, 1, 1, pal); FillBgTilemapBufferRect(0, 4, winTempl->tilemapLeft - 1, winTempl->tilemapTop, 1, winTempl->height, pal); FillBgTilemapBufferRect(0, 6, winTempl->tilemapLeft + winTempl->width, winTempl->tilemapTop, 1, winTempl->height, pal); FillBgTilemapBufferRect(0, 7, winTempl->tilemapLeft - 1, winTempl->tilemapTop + winTempl->height, 1, 1, pal); FillBgTilemapBufferRect(0, 8, winTempl->tilemapLeft, winTempl->tilemapTop + winTempl->height, winTempl->width, 1, pal); FillBgTilemapBufferRect(0, 9, winTempl->tilemapLeft + winTempl->width, winTempl->tilemapTop + winTempl->height, 1, 1, pal); } static void sub_8029174(const struct WindowTemplate *winTempl) { u8 pal = 0xB; FillBgTilemapBufferRect(0, 10, winTempl->tilemapLeft - 1, winTempl->tilemapTop - 1, 1, 1, pal); FillBgTilemapBufferRect(0, 11, winTempl->tilemapLeft, winTempl->tilemapTop - 1, winTempl->width, 1, pal); FillBgTilemapBufferRect(0, 12, winTempl->tilemapLeft + winTempl->width, winTempl->tilemapTop - 1, 1, 1, pal); FillBgTilemapBufferRect(0, 13, winTempl->tilemapLeft - 1, winTempl->tilemapTop, 1, winTempl->height, pal); FillBgTilemapBufferRect(0, 15, winTempl->tilemapLeft + winTempl->width, winTempl->tilemapTop, 1, winTempl->height, pal); FillBgTilemapBufferRect(0, 16, winTempl->tilemapLeft - 1, winTempl->tilemapTop + winTempl->height, 1, 1, pal); FillBgTilemapBufferRect(0, 17, winTempl->tilemapLeft, winTempl->tilemapTop + winTempl->height, winTempl->width, 1, pal); FillBgTilemapBufferRect(0, 18, winTempl->tilemapLeft + winTempl->width, winTempl->tilemapTop + winTempl->height, 1, 1, pal); } static void sub_8029274(struct DodrioSubstruct_0160 *ptr) { gUnknown_02022CF8 = ptr; gUnknown_02022CF8->finished = FALSE; gUnknown_02022CF8->state = 0; gUnknown_02022CF8->unk3018 = 0; gUnknown_02022CF8->unk3020 = 0; gUnknown_02022CF8->unk3024 = 0; gUnknown_02022CF8->unk3004 = CreateTask(sub_8029314, 3); sub_802A72C(sub_8029338); } static void sub_80292D4(void) { FreeAllWindowBuffers(); } // Data used by functions below. struct WinCoords { u8 left; u8 top; }; static const u8 sTextColorTable[][3] = { {TEXT_COLOR_WHITE, TEXT_COLOR_DARK_GREY, TEXT_COLOR_LIGHT_GREY}, {TEXT_COLOR_WHITE, TEXT_COLOR_RED, TEXT_COLOR_LIGHT_RED}, {TEXT_COLOR_WHITE, TEXT_COLOR_BLUE, TEXT_COLOR_LIGHT_BLUE}, {TEXT_COLOR_WHITE, TEXT_COLOR_GREEN, TEXT_COLOR_LIGHT_GREEN}, }; static const struct WinCoords gUnknown_082FB38C[] = {{12, 6}}; static const struct WinCoords gUnknown_082FB390[] = {{9, 10}, {15, 6}}; static const struct WinCoords gUnknown_082FB398[] = {{12, 6}, {18, 10}, {6, 10}}; static const struct WinCoords gUnknown_082FB3A4[] = {{9, 10}, {15, 6}, {21, 10}, {3, 6}}; static const struct WinCoords gUnknown_082FB3B4[] = {{12, 6}, {18, 10}, {23, 6}, {1, 6}, {6, 10}}; static const struct WinCoords *const gUnknown_082FB3C8[] = { gUnknown_082FB38C, gUnknown_082FB390, gUnknown_082FB398, gUnknown_082FB3A4, gUnknown_082FB3B4, }; static const u8 *const gUnknown_082FB3DC[] = { gText_1Colon, gText_2Colon, gText_3Colon, gText_4Colon, gText_5Colon, }; static const u16 gUnknown_082FB3F0[] = {92, 132, 172, 212}; static const u16 gUnknown_082FB3F8[] = {33, 49, 65, 81, 97}; static const u16 gUnknown_082FB402[] = {17, 33, 49, 65, 81}; struct { u8 id; void (*func)(void); } const gUnknown_082FB40C[] = { {0, sub_8029338}, {1, sub_8029440}, {2, sub_802988C}, {3, sub_802A010}, {4, sub_802A380}, {5, sub_802A454}, {6, sub_802A534}, {7, sub_802A588}, {8, sub_802A6FC}, {9, nullsub_16}, }; static void sub_80292E0(u8 arg0) { u8 i; for (i = 0; i < 10; i++) { if (gUnknown_082FB40C[i].id == arg0) sub_802A72C(gUnknown_082FB40C[i].func); } } static void sub_8029314(u8 taskId) { if (!gUnknown_02022CF8->finished) sub_802A75C()(); } static void sub_8029338(void) { switch (gUnknown_02022CF8->state) { case 0: sub_802A7A8(); gUnknown_02022CF8->state++; break; case 1: if (sub_802A8E8() == TRUE) gUnknown_02022CF8->state++; break; case 2: CopyToBgTilemapBuffer(3, gDodrioBerryBgTilemap1, 0, 0); CopyToBgTilemapBuffer(1, gDodrioBerryBgTilemap2Left, 0, 0); CopyToBgTilemapBuffer(2, gDodrioBerryBgTilemap2Right, 0, 0); CopyBgTilemapBufferToVram(3); CopyBgTilemapBufferToVram(1); CopyBgTilemapBufferToVram(2); gUnknown_02022CF8->state++; break; case 3: ShowBg(0); ShowBg(3); ShowBg(1); ShowBg(2); gUnknown_02022CF8->state++; break; case 4: sub_8028FF8(gSaveBlock2Ptr->optionsWindowFrameType); sub_802902C(); gUnknown_02022CF8->state++; break; default: gUnknown_02022CF8->finished = TRUE; break; } } static void sub_8029440(void) { u8 i, playersCount, id, colorsId, *name; u32 left; struct WindowTemplate window; const struct WinCoords *ptr; switch (gUnknown_02022CF8->state) { case 0: playersCount = sub_8027650(); ptr = gUnknown_082FB3C8[playersCount - 1]; window.bg = 0; window.width = 7; window.height = 2; window.paletteNum = 0xD; window.baseBlock = 0x13; for (i = 0; i < playersCount; ptr++, i++) { colorsId = 0; id = sub_8027A48(i); left = (56 - GetStringWidth(1, sub_8027660(id), -1)) / 2u; window.tilemapLeft = ptr->left; window.tilemapTop = ptr->top; gUnknown_02022CF8->unk3008[i] = AddWindow(&window); ClearWindowTilemap(gUnknown_02022CF8->unk3008[i]); FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[i], PIXEL_FILL(1)); if (id == GetMultiplayerId()) colorsId = 2; name = sub_8027660(id); AddTextPrinterParameterized3(gUnknown_02022CF8->unk3008[i], 1, left, 1, sTextColorTable[colorsId], -1, name); CopyWindowToVram(gUnknown_02022CF8->unk3008[i], 2); window.baseBlock += 0xE; sub_8029174(&window); } gUnknown_02022CF8->state++; break; case 1: if (!IsDma3ManagerBusyWithBgCopy()) { playersCount = sub_8027650(); for (i = 0; i < playersCount; i++) PutWindowTilemap(gUnknown_02022CF8->unk3008[i]); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->state++; } break; default: if (++gUnknown_02022CF8->state > 180) { playersCount = sub_8027650(); for (i = 0; i < playersCount; i++) { ClearWindowTilemap(gUnknown_02022CF8->unk3008[i]); RemoveWindow(gUnknown_02022CF8->unk3008[i]); } FillBgTilemapBufferRect_Palette0(0, 0, 0, 0, 30, 20); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->finished = TRUE; } break; } } static void sub_80296A8(u8 playersCount_) { u8 i, r8 = 0, r6 = 0; u8 playersCount = playersCount_; // Pointless variable, I know, but it's needed to match. u8 *name; u32 x, numWidth; u8 numString[32]; u8 array[5] = {0, 1, 2, 3, 4}; struct DodrioSubstruct_3308 temp, structArray[5]; for (i = 0; i < playersCount; i++) { array[i] = i; sub_802793C(&temp, i); structArray[i] = temp; } if (sub_8027748() != 0) { do { for (i = 0; i < playersCount; i++) { if (structArray[i].unk0 == r8) { array[r6] = i; r6++; } } r8 = r6; } while (r6 < playersCount); } for (i = 0; i < playersCount; i++) { if (structArray[i].unk4 == 0) structArray[i].unk0 = playersCount - 1; } x = 216 - GetStringWidth(1, gText_SpacePoints, 0); for (i = 0; i < playersCount; i++) { u8 colorsId = 0; u8 id = array[i]; u32 points = structArray[id].unk4; AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gUnknown_082FB3DC[structArray[id].unk0], 8, gUnknown_082FB402[i], -1, NULL); if (id == GetMultiplayerId()) colorsId = 2; name = sub_8027660(id); AddTextPrinterParameterized3(gUnknown_02022CF8->unk3008[1], 1, 28, gUnknown_082FB402[i], sTextColorTable[colorsId], -1, name); ConvertIntToDecimalStringN(numString, points, STR_CONV_MODE_LEFT_ALIGN, 7); numWidth = GetStringWidth(1, numString, -1); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, numString, x - numWidth, gUnknown_082FB402[i], -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_SpacePoints, x, gUnknown_082FB402[i], -1, NULL); } } static void sub_802988C(void) { u8 i, j, itemGiveRet, playersCount = sub_8027650(); u8 *name; u32 strWidth, x; switch (gUnknown_02022CF8->state) { case 0: sub_802784C(); gUnknown_02022CF8->unk301C = 0; gUnknown_02022CF8->state++; break; case 1: gUnknown_02022CF8->unk3008[0] = AddWindow(&gUnknown_082F7BBC[0]); gUnknown_02022CF8->unk3008[1] = AddWindow(&gUnknown_082F7BBC[1]); ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); ClearWindowTilemap(gUnknown_02022CF8->unk3008[1]); sub_8029174(&gUnknown_082F7BBC[0]); sub_8029174(&gUnknown_082F7BBC[1]); gUnknown_02022CF8->state++; break; case 2: FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[0], PIXEL_FILL(1)); FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[1], PIXEL_FILL(1)); strWidth = GetStringWidth(1, gText_BerryPickingResults, -1); x = (224 - strWidth) / 2; AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[0], 1, gText_BerryPickingResults, x, 1, -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_10P30P50P50P, 68, 17, -1, NULL); for (i = 0; i < playersCount; i++) { u8 colorsId = 0; if (i == GetMultiplayerId()) colorsId = 2; name = sub_8027660(i); AddTextPrinterParameterized3(gUnknown_02022CF8->unk3008[1], 1, 0, gUnknown_082FB3F8[i], sTextColorTable[colorsId], -1, name); for (j = 0; j < 4; j++) { u32 width; u16 result1 = Min(sub_80276A0(i, j), 9999); u16 result2 = Min(sub_802778C(j), 9999); ConvertIntToDecimalStringN(gStringVar4, result1, STR_CONV_MODE_LEFT_ALIGN, 4); width = GetStringWidth(1, gStringVar4, -1); if (result2 == result1 && result2 != 0) AddTextPrinterParameterized3(gUnknown_02022CF8->unk3008[1], 1, gUnknown_082FB3F0[j] - width, gUnknown_082FB3F8[i], sTextColorTable[1], -1, gStringVar4); else AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gStringVar4, gUnknown_082FB3F0[j] - width, gUnknown_082FB3F8[i], -1, NULL); } } CopyWindowToVram(gUnknown_02022CF8->unk3008[0], 2); CopyWindowToVram(gUnknown_02022CF8->unk3008[1], 2); gUnknown_02022CF8->state++; break; case 3: if (!IsDma3ManagerBusyWithBgCopy()) { PutWindowTilemap(gUnknown_02022CF8->unk3008[0]); PutWindowTilemap(gUnknown_02022CF8->unk3008[1]); } CopyBgTilemapBufferToVram(0); sub_8028C30(FALSE); gUnknown_02022CF8->state++; break; case 4: if (++gUnknown_02022CF8->unk301C >= 30 && gMain.newKeys & A_BUTTON) { gUnknown_02022CF8->unk301C = 0; PlaySE(SE_SELECT); sub_8028C30(TRUE); gUnknown_02022CF8->state++; } break; case 5: FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[0], PIXEL_FILL(1)); FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[1], PIXEL_FILL(1)); strWidth = GetStringWidth(1, gText_AnnouncingRankings, -1); x = (224 - strWidth) / 2; AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[0], 1, gText_AnnouncingRankings, x, 1, -1, NULL); gUnknown_02022CF8->state++; break; case 6: sub_80296A8(playersCount); CopyWindowToVram(gUnknown_02022CF8->unk3008[0], 2); CopyWindowToVram(gUnknown_02022CF8->unk3008[1], 2); gUnknown_02022CF8->state++; break; case 7: if (!IsDma3ManagerBusyWithBgCopy()) { PutWindowTilemap(gUnknown_02022CF8->unk3008[0]); PutWindowTilemap(gUnknown_02022CF8->unk3008[1]); } CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->state++; break; case 8: if (++gUnknown_02022CF8->unk301C >= 30 && gMain.newKeys & A_BUTTON) { gUnknown_02022CF8->unk301C = 0; PlaySE(SE_SELECT); if (sub_8027748() < 3000) { gUnknown_02022CF8->state = 127; } else { StopMapMusic(); gUnknown_02022CF8->state++; } FillBgTilemapBufferRect_Palette0(0, 0, 0, 5, 30, 15); RemoveWindow(gUnknown_02022CF8->unk3008[1]); gUnknown_02022CF8->unk3008[1] = AddWindow(&gUnknown_082F7BCC); ClearWindowTilemap(gUnknown_02022CF8->unk3008[1]); sub_8029174(&gUnknown_082F7BCC); } break; case 9: PlayNewMapMusic(MUS_FANFA1); FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[0], PIXEL_FILL(1)); FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[1], PIXEL_FILL(1)); strWidth = GetStringWidth(1, gText_AnnouncingPrizes, -1); x = (224 - strWidth) / 2; AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[0], 1, gText_AnnouncingPrizes, x, 1, -1, NULL); DynamicPlaceholderTextUtil_Reset(); CopyItemName(sub_802762C(), gStringVar1); DynamicPlaceholderTextUtil_SetPlaceholderPtr(0, gStringVar1); DynamicPlaceholderTextUtil_ExpandPlaceholders(gStringVar4, gText_FirstPlacePrize); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gStringVar4, 0, 1, -1, NULL); itemGiveRet = sub_80279C8(); if (itemGiveRet != 0 && itemGiveRet != 3) { DynamicPlaceholderTextUtil_Reset(); CopyItemName(sub_802762C(), gStringVar1); DynamicPlaceholderTextUtil_SetPlaceholderPtr(0, gStringVar1); if (itemGiveRet == 2) DynamicPlaceholderTextUtil_ExpandPlaceholders(gStringVar4, gText_CantHoldAnyMore); else if (itemGiveRet == 1) DynamicPlaceholderTextUtil_ExpandPlaceholders(gStringVar4, gText_FilledStorageSpace); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gStringVar4, 0, 41, -1, NULL); } CopyWindowToVram(gUnknown_02022CF8->unk3008[0], 2); CopyWindowToVram(gUnknown_02022CF8->unk3008[1], 2); gUnknown_02022CF8->state++; break; case 10: if (!IsDma3ManagerBusyWithBgCopy()) { PutWindowTilemap(gUnknown_02022CF8->unk3008[0]); PutWindowTilemap(gUnknown_02022CF8->unk3008[1]); } CopyBgTilemapBufferToVram(0); FadeOutAndFadeInNewMapMusic(MUS_RG_WIN_YASEI, 20, 10); gUnknown_02022CF8->state++; break; case 11: if (++gUnknown_02022CF8->unk301C >= 30 && gMain.newKeys & A_BUTTON) { gUnknown_02022CF8->unk301C = 0; PlaySE(SE_SELECT); gUnknown_02022CF8->state++; } break; default: ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); ClearWindowTilemap(gUnknown_02022CF8->unk3008[1]); RemoveWindow(gUnknown_02022CF8->unk3008[0]); RemoveWindow(gUnknown_02022CF8->unk3008[1]); FillBgTilemapBufferRect_Palette0(0, 0, 0, 0, 30, 20); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->finished = TRUE; break; } } static void sub_802A010(void) { u8 y; switch (gUnknown_02022CF8->state) { case 0: gUnknown_02022CF8->unk3008[0] = AddWindow(&gUnknown_082F7BD4[0]); gUnknown_02022CF8->unk3008[1] = AddWindow(&gUnknown_082F7BD4[1]); ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); ClearWindowTilemap(gUnknown_02022CF8->unk3008[1]); sub_8029174(&gUnknown_082F7BD4[0]); sub_8029074(&gUnknown_082F7BD4[1]); gUnknown_02022CF8->state++; gUnknown_02022CF8->unk3020 = 0; gUnknown_02022CF8->unk3024 = 0; break; case 1: FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[0], PIXEL_FILL(1)); FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[1], PIXEL_FILL(1)); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[0], 1, gText_WantToPlayAgain, 0, 5, -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_Yes, 8, 1, -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_No, 8, 17, -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_SelectorArrow2, 0, 1, -1, NULL); CopyWindowToVram(gUnknown_02022CF8->unk3008[0], 2); CopyWindowToVram(gUnknown_02022CF8->unk3008[1], 2); gUnknown_02022CF8->state++; break; case 2: if (!IsDma3ManagerBusyWithBgCopy()) { PutWindowTilemap(gUnknown_02022CF8->unk3008[0]); PutWindowTilemap(gUnknown_02022CF8->unk3008[1]); } CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->state++; break; case 3: y = gUnknown_02022CF8->unk3020; if (y == 0) y = 1; FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[1], PIXEL_FILL(1)); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_Yes, 8, 1, -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_No, 8, 17, -1, NULL); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[1], 1, gText_SelectorArrow2, 0, ((y - 1) * 16) + 1, -1, NULL); CopyWindowToVram(gUnknown_02022CF8->unk3008[1], 3); // Increment state only if A or B button have been pressed. if (gMain.newKeys & A_BUTTON) { PlaySE(SE_SELECT); if (gUnknown_02022CF8->unk3020 == 0) gUnknown_02022CF8->unk3020 = 1; gUnknown_02022CF8->state++; } else if (gMain.newKeys & (DPAD_UP | DPAD_DOWN)) { PlaySE(SE_SELECT); switch (gUnknown_02022CF8->unk3020) { case 0: gUnknown_02022CF8->unk3020 = 2; break; case 1: gUnknown_02022CF8->unk3020 = 2; break; case 2: gUnknown_02022CF8->unk3020 = 1; break; } } else if (gMain.newKeys & B_BUTTON) { PlaySE(SE_SELECT); gUnknown_02022CF8->unk3020 = 2; gUnknown_02022CF8->state++; } break; default: gUnknown_02022CF8->unk3024 = gUnknown_02022CF8->unk3020; ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); ClearWindowTilemap(gUnknown_02022CF8->unk3008[1]); RemoveWindow(gUnknown_02022CF8->unk3008[0]); RemoveWindow(gUnknown_02022CF8->unk3008[1]); FillBgTilemapBufferRect_Palette0(0, 0, 0, 0, 30, 20); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->finished = TRUE; break; } } static void sub_802A380(void) { switch (gUnknown_02022CF8->state) { case 0: DrawDialogueFrame(0, FALSE); AddTextPrinterParameterized2(0, 1, gText_SavingDontTurnOffPower, 0, NULL, 2, 1, 3); gUnknown_02022CF8->state++; break; case 1: CopyWindowToVram(0, 3); gUnknown_02022CF8->state++; break; case 2: if (!IsDma3ManagerBusyWithBgCopy()) { CreateTask(Task_LinkSave, 0); gUnknown_02022CF8->state++; } break; case 3: if (!FuncIsActiveTask(Task_LinkSave)) gUnknown_02022CF8->state++; break; default: FillBgTilemapBufferRect_Palette0(0, 0, 0, 0, 30, 20); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->finished = TRUE; break; } } static void sub_802A454(void) { switch (gUnknown_02022CF8->state) { case 0: gUnknown_02022CF8->unk3008[0] = AddWindow(&gUnknown_082F7BEC); ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); sub_8029174(&gUnknown_082F7BEC); gUnknown_02022CF8->state++; break; case 1: FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[0], PIXEL_FILL(1)); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[0], 1, gText_CommunicationStandby3, 0, 5, -1, NULL); CopyWindowToVram(gUnknown_02022CF8->unk3008[0], 2); gUnknown_02022CF8->state++; break; case 2: if (!IsDma3ManagerBusyWithBgCopy()) PutWindowTilemap(gUnknown_02022CF8->unk3008[0]); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->state++; break; default: gUnknown_02022CF8->finished = TRUE; break; } } static void sub_802A534(void) { ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); RemoveWindow(gUnknown_02022CF8->unk3008[0]); FillBgTilemapBufferRect_Palette0(0, 0, 0, 0, 30, 20); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->finished = TRUE; } static void sub_802A588(void) { switch (gUnknown_02022CF8->state) { case 0: gUnknown_02022CF8->unk3008[0] = AddWindow(&gUnknown_082F7BE4); ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); sub_8029174(&gUnknown_082F7BE4); gUnknown_02022CF8->state++; gUnknown_02022CF8->unk301C = 0; gUnknown_02022CF8->unk3020 = 0; gUnknown_02022CF8->unk3024 = 0; break; case 1: FillWindowPixelBuffer(gUnknown_02022CF8->unk3008[0], PIXEL_FILL(1)); AddTextPrinterParameterized(gUnknown_02022CF8->unk3008[0], 1, gText_SomeoneDroppedOut, 0, 5, -1, NULL); CopyWindowToVram(gUnknown_02022CF8->unk3008[0], 2); gUnknown_02022CF8->state++; break; case 2: if (!IsDma3ManagerBusyWithBgCopy()) PutWindowTilemap(gUnknown_02022CF8->unk3008[0]); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->state++; break; case 3: if (++gUnknown_02022CF8->unk301C >= 120) gUnknown_02022CF8->state++; break; default: gUnknown_02022CF8->unk3024 = 5; ClearWindowTilemap(gUnknown_02022CF8->unk3008[0]); RemoveWindow(gUnknown_02022CF8->unk3008[0]); FillBgTilemapBufferRect_Palette0(0, 0, 0, 0, 30, 20); CopyBgTilemapBufferToVram(0); gUnknown_02022CF8->finished = TRUE; break; } } static void sub_802A6FC(void) { DestroyTask(gUnknown_02022CF8->unk3004); gUnknown_02022CF8->finished = TRUE; } static void nullsub_16(void) { } static void sub_802A72C(void (*func)(void)) { gUnknown_02022CF8->state = 0; gUnknown_02022CF8->finished = FALSE; gUnknown_02022CF8->unk3028 = func; } static void (*sub_802A75C(void))(void) { return gUnknown_02022CF8->unk3028; } static bool32 sub_802A770(void) { if (gUnknown_02022CF8->finished == TRUE) return FALSE; else return TRUE; } static u8 sub_802A794(void) { return gUnknown_02022CF8->unk3024; } static void sub_802A7A8(void) { DmaClearLarge16(3, (void *)VRAM, VRAM_SIZE, 0x1000); DmaClear32(3,(void *)OAM, OAM_SIZE); DmaClear16(3, (void *)PLTT, PLTT_SIZE); SetGpuReg(REG_OFFSET_DISPCNT, 0); ResetBgsAndClearDma3BusyFlags(0); InitBgsFromTemplates(0, gUnknown_082F7BA4, ARRAY_COUNT(gUnknown_082F7BA4)); ChangeBgX(0, 0, 0); ChangeBgY(0, 0, 0); ChangeBgX(1, 0, 0); ChangeBgY(1, 0, 0); ChangeBgX(2, 0, 0); ChangeBgY(2, 0, 0); ChangeBgX(3, 0, 0); ChangeBgY(3, 0, 0); InitStandardTextBoxWindows(); sub_8197200(); SetGpuReg(REG_OFFSET_DISPCNT, DISPCNT_OBJ_ON | DISPCNT_OBJ_1D_MAP); SetBgTilemapBuffer(3, gUnknown_02022CF8->tilemapBuffers[0]); SetBgTilemapBuffer(1, gUnknown_02022CF8->tilemapBuffers[1]); SetBgTilemapBuffer(2, gUnknown_02022CF8->tilemapBuffers[2]); } static bool32 sub_802A8E8(void) { switch (gUnknown_02022CF8->unk3018) { case 0: LoadPalette(gDodrioBerryBgPal1, 0, sizeof(gDodrioBerryBgPal1)); break; case 1: ResetTempTileDataBuffers(); break; case 2: DecompressAndCopyTileDataToVram(3, gDodrioBerryBgGfx1, 0, 0, 0); break; case 3: DecompressAndCopyTileDataToVram(1, gDodrioBerryBgGfx2, 0, 0, 0); break; case 4: if (FreeTempTileDataBuffersIfPossible() == TRUE) return FALSE; break; case 5: LoadPalette(stdpal_get(3), 0xD0, 0x20); break; default: gUnknown_02022CF8->unk3018 = 0; return TRUE; } gUnknown_02022CF8->unk3018++; return FALSE; }