#include "global.h" #include "reset_rtc_screen.h" #include "event_data.h" #include "main.h" #include "menu.h" #include "palette.h" #include "rtc.h" #include "save.h" #include "sprite.h" #include "constants/songs.h" #include "sound.h" #include "string_util.h" #include "strings.h" #include "task.h" #include "text.h" #include "scanline_effect.h" #include "bg.h" #include "window.h" #include "gpu_regs.h" #include "constants/rgb.h" #define PALTAG_ARROW 0x1000 // Task data for the Task_ResetRtc_* series of tasks, when setting the time on the clock // Data from these tasks is also used by the cursors and the main task (Task_ResetRtcScreen) enum { DATAIDX_DAYS = 3, DATAIDX_HOURS, DATAIDX_MINS, DATAIDX_SECS, DATAIDX_CONFIRM, }; #define tFinished data[0] #define tSetTime data[1] #define tSelection data[2] #define tDays data[DATAIDX_DAYS] #define tHours data[DATAIDX_HOURS] #define tMinutes data[DATAIDX_MINS] #define tSeconds data[DATAIDX_SECS] #define tConfirm data[DATAIDX_CONFIRM] #define tWindowId data[8] enum { SELECTION_DAYS = 1, SELECTION_HOURS, SELECTION_MINS, SELECTION_SECS, SELECTION_CONFIRM, SELECTION_NONE }; enum { WIN_TIME, WIN_MSG, }; struct ResetRtcInputMap { /*0x0*/ u8 dataIndex; /*0x2*/ u16 minVal; /*0x4*/ u16 maxVal; /*0x6*/ u8 left; /*0x7*/ u8 right; /*0x8*/ u8 unk; // never read }; static void CB2_ResetRtcScreen(void); static void VBlankCB(void); static void Task_ResetRtcScreen(u8 taskId); static void InitResetRtcScreenBgAndWindows(void); static const struct BgTemplate sBgTemplates[] = { { .bg = 0, .charBaseIndex = 0, .mapBaseIndex = 31, .screenSize = 0, .paletteMode = 0, .priority = 0, .baseTile = 0 } }; static const struct WindowTemplate sWindowTemplates[] = { [WIN_TIME] = { .bg = 0, .tilemapLeft = 1, .tilemapTop = 1, .width = 19, .height = 9, .paletteNum = 15, .baseBlock = 0x155 }, [WIN_MSG] = { .bg = 0, .tilemapLeft = 2, .tilemapTop = 15, .width = 27, .height = 4, .paletteNum = 15, .baseBlock = 0xE9 }, DUMMY_WIN_TEMPLATE }; static const struct WindowTemplate sInputTimeWindow = { .bg = 0, .tilemapLeft = 4, .tilemapTop = 9, .width = 21, .height = 2, .paletteNum = 15, .baseBlock = 0xBF }; static const struct ResetRtcInputMap sInputMap[] = { [SELECTION_DAYS - 1] = { .dataIndex = DATAIDX_DAYS, .minVal = 1, .maxVal = 9999, .left = 0, .right = 2, .unk = 0, }, [SELECTION_HOURS - 1] = { .dataIndex = DATAIDX_HOURS, .minVal = 0, .maxVal = 23, .left = 1, .right = 3, .unk = 0, }, [SELECTION_MINS - 1] = { .dataIndex = DATAIDX_MINS, .minVal = 0, .maxVal = 59, .left = 2, .right = 4, .unk = 0, }, [SELECTION_SECS - 1] = { .dataIndex = DATAIDX_SECS, .minVal = 0, .maxVal = 59, .left = 3, .right = 5, .unk = 0, }, [SELECTION_CONFIRM - 1] = { .dataIndex = DATAIDX_CONFIRM, .minVal = 0, .maxVal = 0, .left = 4, .right = 0, .unk = 6, }, }; static const struct OamData sOamData_Arrow = { .y = 0, .affineMode = ST_OAM_AFFINE_OFF, .objMode = ST_OAM_OBJ_NORMAL, .mosaic = FALSE, .bpp = ST_OAM_4BPP, .shape = SPRITE_SHAPE(8x8), .x = 0, .matrixNum = 0, .size = SPRITE_SIZE(8x8), .tileNum = 0, .priority = 0, .paletteNum = 0, .affineParam = 0, }; static const u8 sArrowDown_Gfx[] = INCBIN_U8("graphics/reset_rtc_screen/arrow_down.4bpp"); static const u8 sArrowRight_Gfx[] = INCBIN_U8("graphics/reset_rtc_screen/arrow_right.4bpp"); static const u16 sArrow_Pal[] = INCBIN_U16("graphics/reset_rtc_screen/arrow.gbapal"); static const struct SpriteFrameImage sPicTable_Arrow[] = { obj_frame_tiles(sArrowDown_Gfx), obj_frame_tiles(sArrowRight_Gfx) }; const struct SpritePalette gSpritePalette_Arrow = { sArrow_Pal, PALTAG_ARROW }; static const union AnimCmd sAnim_Arrow_Down[] = { ANIMCMD_FRAME(0, 30), ANIMCMD_JUMP(0), }; static const union AnimCmd sAnim_Arrow_Up[] = { ANIMCMD_FRAME(0, 30, .vFlip = TRUE), ANIMCMD_JUMP(0), }; static const union AnimCmd sAnim_Arrow_Right[] = { ANIMCMD_FRAME(1, 30), ANIMCMD_JUMP(0), }; enum { ARROW_DOWN, ARROW_UP, ARROW_RIGHT, }; static const union AnimCmd *const sAnims_Arrow[] = { [ARROW_DOWN] = sAnim_Arrow_Down, [ARROW_UP] = sAnim_Arrow_Up, [ARROW_RIGHT] = sAnim_Arrow_Right, }; const struct SpriteTemplate gSpriteTemplate_Arrow = { .tileTag = TAG_NONE, .paletteTag = PALTAG_ARROW, .oam = &sOamData_Arrow, .anims = sAnims_Arrow, .images = sPicTable_Arrow, .affineAnims = gDummySpriteAffineAnimTable, .callback = SpriteCallbackDummy, }; #define sTaskId data[0] #define sState data[1] static void SpriteCB_Cursor_UpOrRight(struct Sprite *sprite) { int state = gTasks[sprite->sTaskId].tSelection; if (state != sprite->sState) { sprite->sState = state; switch (state) { case SELECTION_DAYS: sprite->invisible = FALSE; sprite->animNum = ARROW_UP; sprite->animDelayCounter = 0; sprite->x = 53; sprite->y = 68; break; case SELECTION_HOURS: sprite->invisible = FALSE; sprite->animNum = ARROW_UP; sprite->animDelayCounter = 0; sprite->x = 86; sprite->y = 68; break; case SELECTION_MINS: sprite->invisible = FALSE; sprite->animNum = ARROW_UP; sprite->animDelayCounter = 0; sprite->x = 101; sprite->y = 68; break; case SELECTION_SECS: sprite->invisible = FALSE; sprite->animNum = ARROW_UP; sprite->animDelayCounter = 0; sprite->x = 116; sprite->y = 68; break; case SELECTION_CONFIRM: sprite->invisible = FALSE; sprite->animNum = ARROW_RIGHT; sprite->animDelayCounter = 0; sprite->x = 153; sprite->y = 80; break; case SELECTION_NONE: DestroySprite(sprite); break; } } } static void SpriteCB_Cursor_Down(struct Sprite *sprite) { int state = gTasks[sprite->sTaskId].tSelection; if (state != sprite->sState) { sprite->sState = state; switch (state) { case SELECTION_DAYS: sprite->invisible = FALSE; sprite->animNum = ARROW_DOWN; sprite->animDelayCounter = 0; sprite->x = 53; sprite->y = 92; break; case SELECTION_HOURS: sprite->invisible = FALSE; sprite->animNum = ARROW_DOWN; sprite->animDelayCounter = 0; sprite->x = 86; sprite->y = 92; break; case SELECTION_MINS: sprite->invisible = FALSE; sprite->animNum = ARROW_DOWN; sprite->animDelayCounter = 0; sprite->x = 101; sprite->y = 92; break; case SELECTION_SECS: sprite->invisible = FALSE; sprite->animNum = ARROW_DOWN; sprite->animDelayCounter = 0; sprite->x = 116; sprite->y = 92; break; case SELECTION_CONFIRM: // The up arrow is used as a right arrow when Confirm is selected // Hide the down arrow sprite->invisible = TRUE; break; case SELECTION_NONE: DestroySprite(sprite); break; } } } static void CreateCursor(u8 taskId) { u32 spriteId; LoadSpritePalette(&gSpritePalette_Arrow); spriteId = CreateSpriteAtEnd(&gSpriteTemplate_Arrow, 53, 68, 0); gSprites[spriteId].callback = SpriteCB_Cursor_UpOrRight; gSprites[spriteId].sTaskId = taskId; gSprites[spriteId].sState = -1; spriteId = CreateSpriteAtEnd(&gSpriteTemplate_Arrow, 53, 68, 0); gSprites[spriteId].callback = SpriteCB_Cursor_Down; gSprites[spriteId].sTaskId = taskId; gSprites[spriteId].sState = -1; } static void FreeCursorPalette(void) { FreeSpritePaletteByTag(gSpritePalette_Arrow.tag); } static void HideChooseTimeWindow(u8 windowId) { ClearStdWindowAndFrameToTransparent(windowId, FALSE); RemoveWindow(windowId); ScheduleBgCopyTilemapToVram(0); } static void PrintTime(u8 windowId, u8 x, u8 y, u16 days, u8 hours, u8 minutes, u8 seconds) { u8 *dest = gStringVar4; // Print days ConvertIntToDecimalStringN(gStringVar1, days, STR_CONV_MODE_RIGHT_ALIGN, 4); dest = StringCopy(dest, gStringVar1); dest = StringCopy(dest, gText_Day); // Print hours ConvertIntToDecimalStringN(gStringVar1, hours, STR_CONV_MODE_RIGHT_ALIGN, 3); dest = StringCopy(dest, gStringVar1); dest = StringCopy(dest, gText_Colon3); // Print minutes ConvertIntToDecimalStringN(gStringVar1, minutes, STR_CONV_MODE_LEADING_ZEROS, 2); dest = StringCopy(dest, gStringVar1); dest = StringCopy(dest, gText_Colon3); // Print seconds ConvertIntToDecimalStringN(gStringVar1, seconds, STR_CONV_MODE_LEADING_ZEROS, 2); dest = StringCopy(dest, gStringVar1); AddTextPrinterParameterized(windowId, FONT_NORMAL, gStringVar4, x, y, TEXT_SKIP_DRAW, NULL); } static void ShowChooseTimeWindow(u8 windowId, u16 days, u8 hours, u8 minutes, u8 seconds) { DrawStdFrameWithCustomTileAndPalette(windowId, FALSE, 0x214, 0xE); PrintTime(windowId, 0, 1, days, hours, minutes, seconds); AddTextPrinterParameterized(windowId, FONT_NORMAL, gText_Confirm2, 126, 1, 0, NULL); ScheduleBgCopyTilemapToVram(0); } static bool32 MoveTimeUpDown(s16 *val, int minVal, int maxVal, u16 keys) { if (keys & DPAD_DOWN) { *val -= 1; if (*val < minVal) *val = maxVal; } else if (keys & DPAD_UP) { *val += 1; if (*val > maxVal) *val = minVal; } else if (keys & DPAD_LEFT) { *val -= 10; if (*val < minVal) *val = maxVal; } else if (keys & DPAD_RIGHT) { *val += 10; if (*val > maxVal) *val = minVal; } else { return FALSE; } return TRUE; } static void Task_ResetRtc_SetFinished(u8 taskId) { gTasks[taskId].tFinished = TRUE; } static void Task_ResetRtc_Exit(u8 taskId) { s16 *data = gTasks[taskId].data; HideChooseTimeWindow(tWindowId); FreeCursorPalette(); gTasks[taskId].func = Task_ResetRtc_SetFinished; } static void Task_ResetRtc_HandleInput(u8 taskId) { s16 *data = gTasks[taskId].data; u8 selection = tSelection; const struct ResetRtcInputMap *selectionInfo = &sInputMap[selection - 1]; if (JOY_NEW(B_BUTTON)) { gTasks[taskId].func = Task_ResetRtc_Exit; tSetTime = FALSE; tSelection = SELECTION_NONE; PlaySE(SE_SELECT); return; } if (JOY_NEW(DPAD_RIGHT)) { if (selectionInfo->right) { tSelection = selectionInfo->right; PlaySE(SE_SELECT); return; } } if (JOY_NEW(DPAD_LEFT)) { if (selectionInfo->left) { tSelection = selectionInfo->left; PlaySE(SE_SELECT); return; } } if (selection == SELECTION_CONFIRM) { if (JOY_NEW(A_BUTTON)) { gLocalTime.days = tDays; gLocalTime.hours = tHours; gLocalTime.minutes = tMinutes; gLocalTime.seconds = tSeconds; PlaySE(SE_SELECT); gTasks[taskId].func = Task_ResetRtc_Exit; tSetTime = TRUE; tSelection = SELECTION_NONE; } } else if (MoveTimeUpDown(&data[selectionInfo->dataIndex], selectionInfo->minVal, selectionInfo->maxVal, JOY_REPEAT(DPAD_UP | DPAD_DOWN))) { PlaySE(SE_SELECT); PrintTime(tWindowId, 0, 1, tDays, tHours, tMinutes, tSeconds); CopyWindowToVram(tWindowId, COPYWIN_GFX); } } static void Task_ResetRtc_Init(u8 taskId) { s16 *data = gTasks[taskId].data; tFinished = FALSE; tDays = gLocalTime.days; tHours = gLocalTime.hours; tMinutes = gLocalTime.minutes; tSeconds = gLocalTime.seconds; tWindowId = AddWindow(&sInputTimeWindow); ShowChooseTimeWindow(tWindowId, tDays, tHours, tMinutes, tSeconds); CreateCursor(taskId); tSelection = SELECTION_HOURS; gTasks[taskId].func = Task_ResetRtc_HandleInput; } void CB2_InitResetRtcScreen(void) { SetGpuReg(REG_OFFSET_DISPCNT, 0); SetVBlankCallback(NULL); DmaClear16(3, PLTT, PLTT_SIZE); DmaFillLarge16(3, 0, (u8 *)VRAM, VRAM_SIZE, 0x1000); ResetOamRange(0, 128); LoadOam(); ScanlineEffect_Stop(); ScanlineEffect_Clear(); ResetSpriteData(); ResetTasks(); ResetPaletteFade(); InitResetRtcScreenBgAndWindows(); SetVBlankCallback(VBlankCB); SetMainCallback2(CB2_ResetRtcScreen); CreateTask(Task_ResetRtcScreen, 80); } static void InitResetRtcScreenBgAndWindows(void) { ClearScheduledBgCopiesToVram(); ResetBgsAndClearDma3BusyFlags(0); InitBgsFromTemplates(0, sBgTemplates, ARRAY_COUNT(sBgTemplates)); ScheduleBgCopyTilemapToVram(0); SetGpuReg(REG_OFFSET_DISPCNT, DISPCNT_OBJ_ON | DISPCNT_OBJ_1D_MAP); ShowBg(0); InitWindows(sWindowTemplates); DeactivateAllTextPrinters(); LoadMessageBoxAndBorderGfx(); } static void CB2_ResetRtcScreen(void) { RunTasks(); AnimateSprites(); BuildOamBuffer(); DoScheduledBgTilemapCopiesToVram(); UpdatePaletteFade(); } static void VBlankCB(void) { ProcessSpriteCopyRequests(); LoadOam(); TransferPlttBuffer(); } static void ShowMessage(const u8 *str) { DrawDialogFrameWithCustomTileAndPalette(WIN_MSG, FALSE, 0x200, 0xF); AddTextPrinterParameterized(WIN_MSG, FONT_NORMAL, str, 0, 1, 0, NULL); ScheduleBgCopyTilemapToVram(0); } #define tState data[0] static void Task_ShowResetRtcPrompt(u8 taskId) { s16 *data = gTasks[taskId].data; switch (tState) { case 0: DrawStdFrameWithCustomTileAndPalette(WIN_TIME, FALSE, 0x214, 0xE); AddTextPrinterParameterized(WIN_TIME, FONT_NORMAL, gText_PresentTime, 0, 1, TEXT_SKIP_DRAW, 0); PrintTime( WIN_TIME, 0, 17, gLocalTime.days, gLocalTime.hours, gLocalTime.minutes, gLocalTime.seconds); AddTextPrinterParameterized(WIN_TIME, FONT_NORMAL, gText_PreviousTime, 0, 33, TEXT_SKIP_DRAW, 0); PrintTime( WIN_TIME, 0, 49, gSaveBlock2Ptr->lastBerryTreeUpdate.days, gSaveBlock2Ptr->lastBerryTreeUpdate.hours, gSaveBlock2Ptr->lastBerryTreeUpdate.minutes, gSaveBlock2Ptr->lastBerryTreeUpdate.seconds); ShowMessage(gText_ResetRTCConfirmCancel); CopyWindowToVram(WIN_TIME, COPYWIN_GFX); ScheduleBgCopyTilemapToVram(0); tState++; case 1: if (JOY_NEW(B_BUTTON)) { // Cancel, exit without resetting RTC DestroyTask(taskId); DoSoftReset(); } else if (JOY_NEW(A_BUTTON)) { // Confirm PlaySE(SE_SELECT); DestroyTask(taskId); } break; } } #undef tState // Task states for Task_ResetRtcScreen enum { MAINSTATE_FADE_IN, MAINSTATE_CHECK_SAVE, MAINSTATE_START_SET_TIME, MAINSTATE_WAIT_SET_TIME, MAINSTATE_SAVE, MAINSTATE_WAIT_EXIT, MAINSTATE_EXIT, }; #define tState data[0] #define tSubTaskId data[1] static void Task_ResetRtcScreen(u8 taskId) { s16 *data = gTasks[taskId].data; switch (tState) { case MAINSTATE_FADE_IN: BeginNormalPaletteFade(PALETTES_ALL, 1, 0x10, 0, RGB_WHITEALPHA); tState = MAINSTATE_CHECK_SAVE; break; case MAINSTATE_CHECK_SAVE: if (!gPaletteFade.active) { if (gSaveFileStatus == SAVE_STATUS_EMPTY || gSaveFileStatus == SAVE_STATUS_CORRUPT) { ShowMessage(gText_NoSaveFileCantSetTime); tState = MAINSTATE_WAIT_EXIT; } else { RtcCalcLocalTime(); tSubTaskId = CreateTask(Task_ShowResetRtcPrompt, 80); tState = MAINSTATE_START_SET_TIME; } } break; case MAINSTATE_START_SET_TIME: // Wait for A or B press on prompt first if (gTasks[tSubTaskId].isActive != TRUE) { ClearStdWindowAndFrameToTransparent(WIN_TIME, FALSE); ShowMessage(gText_PleaseResetTime); gLocalTime = gSaveBlock2Ptr->lastBerryTreeUpdate; tSubTaskId = CreateTask(Task_ResetRtc_Init, 80); tState = MAINSTATE_WAIT_SET_TIME; } break; case MAINSTATE_WAIT_SET_TIME: if (gTasks[tSubTaskId].tFinished) { if (!gTasks[tSubTaskId].tSetTime) { // Exited without setting time, return to "Please reset time" DestroyTask(tSubTaskId); tState = MAINSTATE_START_SET_TIME; } else { // Time has been chosen, reset rtc and save DestroyTask(tSubTaskId); RtcReset(); RtcCalcLocalTimeOffset( gLocalTime.days, gLocalTime.hours, gLocalTime.minutes, gLocalTime.seconds); gSaveBlock2Ptr->lastBerryTreeUpdate = gLocalTime; VarSet(VAR_DAYS, gLocalTime.days); DisableResetRTC(); ShowMessage(gText_ClockHasBeenReset); tState = MAINSTATE_SAVE; } } break; case MAINSTATE_SAVE: if (TrySavingData(SAVE_NORMAL) == SAVE_STATUS_OK) { ShowMessage(gText_SaveCompleted); PlaySE(SE_DING_DONG); } else { ShowMessage(gText_SaveFailed); PlaySE(SE_BOO); } tState = MAINSTATE_WAIT_EXIT; // fallthrough case MAINSTATE_WAIT_EXIT: if (JOY_NEW(A_BUTTON)) { BeginNormalPaletteFade(PALETTES_ALL, 1, 0, 0x10, RGB_WHITEALPHA); tState = MAINSTATE_EXIT; // fallthrough } else { break; } case MAINSTATE_EXIT: if (!gPaletteFade.active) { DestroyTask(taskId); FreeAllWindowBuffers(); DoSoftReset(); } } }