1
0
Fork 0
mirror of https://github.com/zeldaret/oot.git synced 2024-12-02 07:46:01 +00:00
oot/include/macros.h

253 lines
13 KiB
C

#ifndef MACROS_H
#define MACROS_H
#ifndef AVOID_UB
#define BAD_RETURN(type) type
#else
#define BAD_RETURN(type) void
#endif
#define ARRAY_COUNT(arr) (s32)(sizeof(arr) / sizeof(arr[0]))
#define ARRAY_COUNTU(arr) (u32)(sizeof(arr) / sizeof(arr[0]))
#define PHYSICAL_TO_VIRTUAL(addr) (void*)((uintptr_t)(addr) + 0x80000000)
#define VIRTUAL_TO_PHYSICAL(addr) (uintptr_t)((u8*)(addr) - 0x80000000)
#define SEGMENTED_TO_VIRTUAL(addr) PHYSICAL_TO_VIRTUAL(gSegments[SEGMENT_NUMBER(addr)] + SEGMENT_OFFSET(addr))
#define SQ(x) ((x)*(x))
#define ABS(x) ((x) >= 0 ? (x) : -(x))
#define DECR(x) ((x) == 0 ? 0 : --(x))
#define CLAMP(x, min, max) ((x) < (min) ? (min) : (x) > (max) ? (max) : (x))
#define CLAMP_MAX(x, max) ((x) > (max) ? (max) : (x))
#define CLAMP_MIN(x, min) ((x) < (min) ? (min) : (x))
#define RGBA8(r, g, b, a) ((((r) & 0xFF) << 24) | (((g) & 0xFF) << 16) | (((b) & 0xFF) << 8) | (((a) & 0xFF) << 0))
#define GET_PLAYER(play) ((Player*)(play)->actorCtx.actorLists[ACTORCAT_PLAYER].head)
#define GET_ACTIVE_CAM(play) ((play)->cameraPtrs[(play)->activeCamId])
#define LINK_IS_ADULT (gSaveContext.save.linkAge == LINK_AGE_ADULT)
#define LINK_IS_CHILD (gSaveContext.save.linkAge == LINK_AGE_CHILD)
#define YEARS_CHILD 5
#define YEARS_ADULT 17
#define LINK_AGE_IN_YEARS (!LINK_IS_ADULT ? YEARS_CHILD : YEARS_ADULT)
#define CLOCK_TIME(hr, min) ((s32)(((hr) * 60 + (min)) * (f32)0x10000 / (24 * 60) + 0.5f))
#define IS_DAY (gSaveContext.save.nightFlag == 0)
#define IS_NIGHT (gSaveContext.save.nightFlag == 1)
#define SLOT(item) gItemSlots[item]
#define INV_CONTENT(item) gSaveContext.save.info.inventory.items[SLOT(item)]
#define AMMO(item) gSaveContext.save.info.inventory.ammo[SLOT(item)]
#define BEANS_BOUGHT AMMO(ITEM_MAGIC_BEAN + 1)
#define ALL_EQUIP_VALUE(equip) ((s32)(gSaveContext.save.info.inventory.equipment & gEquipMasks[equip]) >> gEquipShifts[equip])
#define CUR_EQUIP_VALUE(equip) ((s32)(gSaveContext.save.info.equips.equipment & gEquipMasks[equip]) >> gEquipShifts[equip])
#define OWNED_EQUIP_FLAG(equip, value) (gBitFlags[value] << gEquipShifts[equip])
#define OWNED_EQUIP_FLAG_ALT(equip, value) ((1 << (value)) << gEquipShifts[equip])
#define CHECK_OWNED_EQUIP(equip, value) (OWNED_EQUIP_FLAG(equip, value) & gSaveContext.save.info.inventory.equipment)
#define CHECK_OWNED_EQUIP_ALT(equip, value) (gBitFlags[(value) + (equip) * 4] & gSaveContext.save.info.inventory.equipment)
#define SWORD_EQUIP_TO_PLAYER(swordEquip) (swordEquip)
#define SHIELD_EQUIP_TO_PLAYER(shieldEquip) (shieldEquip)
#define TUNIC_EQUIP_TO_PLAYER(tunicEquip) ((tunicEquip) - 1)
#define BOOTS_EQUIP_TO_PLAYER(bootsEquip) ((bootsEquip) - 1)
#define CUR_UPG_VALUE(upg) ((s32)(gSaveContext.save.info.inventory.upgrades & gUpgradeMasks[upg]) >> gUpgradeShifts[upg])
#define CAPACITY(upg, value) gUpgradeCapacities[upg][value]
#define CUR_CAPACITY(upg) CAPACITY(upg, CUR_UPG_VALUE(upg))
#define CHECK_QUEST_ITEM(item) (gBitFlags[item] & gSaveContext.save.info.inventory.questItems)
#define CHECK_DUNGEON_ITEM(item, dungeonIndex) (gSaveContext.save.info.inventory.dungeonItems[dungeonIndex] & gBitFlags[item])
#define GET_GS_FLAGS(index) \
((gSaveContext.save.info.gsFlags[(index) >> 2] & gGsFlagsMasks[(index) & 3]) >> gGsFlagsShifts[(index) & 3])
#define SET_GS_FLAGS(index, value) \
(gSaveContext.save.info.gsFlags[(index) >> 2] |= (value) << gGsFlagsShifts[(index) & 3])
#define HIGH_SCORE(score) (gSaveContext.save.info.highScores[score])
#define GET_EVENTCHKINF(flag) (gSaveContext.save.info.eventChkInf[(flag) >> 4] & (1 << ((flag) & 0xF)))
#define SET_EVENTCHKINF(flag) (gSaveContext.save.info.eventChkInf[(flag) >> 4] |= (1 << ((flag) & 0xF)))
#define CLEAR_EVENTCHKINF(flag) (gSaveContext.save.info.eventChkInf[(flag) >> 4] &= ~(1 << ((flag) & 0xF)))
#define GET_ITEMGETINF(flag) (gSaveContext.save.info.itemGetInf[(flag) >> 4] & (1 << ((flag) & 0xF)))
#define SET_ITEMGETINF(flag) (gSaveContext.save.info.itemGetInf[(flag) >> 4] |= (1 << ((flag) & 0xF)))
#define GET_INFTABLE(flag) (gSaveContext.save.info.infTable[(flag) >> 4] & (1 << ((flag) & 0xF)))
#define SET_INFTABLE(flag) (gSaveContext.save.info.infTable[(flag) >> 4] |= (1 << ((flag) & 0xF)))
#define CLEAR_INFTABLE(flag) (gSaveContext.save.info.infTable[(flag) >> 4] &= ~(1 << ((flag) & 0xF)))
#define GET_EVENTINF(flag) (gSaveContext.eventInf[(flag) >> 4] & (1 << ((flag) & 0xF)))
#define SET_EVENTINF(flag) (gSaveContext.eventInf[(flag) >> 4] |= (1 << ((flag) & 0xF)))
#define CLEAR_EVENTINF(flag) (gSaveContext.eventInf[(flag) >> 4] &= ~(1 << ((flag) & 0xF)))
#define B_BTN_ITEM ((gSaveContext.buttonStatus[0] == ITEM_NONE) \
? ITEM_NONE \
: (gSaveContext.save.info.equips.buttonItems[0] == ITEM_GIANTS_KNIFE) \
? ITEM_SWORD_BIGGORON \
: gSaveContext.save.info.equips.buttonItems[0])
#define C_BTN_ITEM(button) ((gSaveContext.buttonStatus[(button) + 1] != BTN_DISABLED) \
? gSaveContext.save.info.equips.buttonItems[(button) + 1] \
: ITEM_NONE)
#define CHECK_BTN_ALL(state, combo) (~((state) | ~(combo)) == 0)
#define CHECK_BTN_ANY(state, combo) (((state) & (combo)) != 0)
#define CHECK_FLAG_ALL(flags, mask) (((flags) & (mask)) == (mask))
#ifdef OOT_DEBUG
#define PRINTF osSyncPrintf
#else
#ifdef __sgi /* IDO compiler */
// IDO doesn't support variadic macros, but it merely throws a warning for the
// number of arguments not matching the definition (warning 609) instead of
// throwing an error. We suppress this warning and rely on GCC to catch macro
// argument errors instead.
#define PRINTF(args) (void)0
#else
#define PRINTF(format, ...) (void)0
#endif
#endif
#ifdef OOT_DEBUG
#define LOG(exp, value, format, file, line) \
do { \
LogUtils_LogThreadId(file, line); \
osSyncPrintf(exp " = " format "\n", value); \
} while (0)
#else
#define LOG(exp, value, format, file, line) (void)0
#endif
#define LOG_STRING(string, file, line) LOG(#string, string, "%s", file, line)
#define LOG_ADDRESS(exp, value, file, line) LOG(exp, value, "%08x", file, line)
#define LOG_TIME(exp, value, file, line) LOG(exp, value, "%lld", file, line)
#define LOG_NUM(exp, value, file, line) LOG(exp, value, "%d", file, line)
#define LOG_HEX(exp, value, file, line) LOG(exp, value, "%x", file, line)
#define LOG_HEX32(exp, value, file, line) LOG(exp, value, "%08x", file, line)
#define LOG_FLOAT(exp, value, file, line) LOG(exp, value, "%f", file, line)
#define SET_NEXT_GAMESTATE(curState, newInit, newStruct) \
do { \
(curState)->init = newInit; \
(curState)->size = sizeof(newStruct); \
} while (0)
#define SET_FULLSCREEN_VIEWPORT(view) \
{ \
Viewport viewport; \
viewport.bottomY = SCREEN_HEIGHT; \
viewport.rightX = SCREEN_WIDTH; \
viewport.topY = 0; \
viewport.leftX = 0; \
View_SetViewport(view, &viewport); \
} \
(void)0
struct GraphicsContext;
extern struct GraphicsContext* __gfxCtx;
#define WORK_DISP __gfxCtx->work.p
#define POLY_OPA_DISP __gfxCtx->polyOpa.p
#define POLY_XLU_DISP __gfxCtx->polyXlu.p
#define OVERLAY_DISP __gfxCtx->overlay.p
#ifdef OOT_DEBUG
// __gfxCtx shouldn't be used directly.
// Use the DISP macros defined above when writing to display buffers.
#define OPEN_DISPS(gfxCtx, file, line) \
{ \
GraphicsContext* __gfxCtx; \
Gfx* dispRefs[4]; \
__gfxCtx = gfxCtx; \
(void)__gfxCtx; \
Graph_OpenDisps(dispRefs, gfxCtx, file, line)
#define CLOSE_DISPS(gfxCtx, file, line) \
Graph_CloseDisps(dispRefs, gfxCtx, file, line); \
} \
(void)0
#define GRAPH_ALLOC(gfxCtx, size) Graph_Alloc(gfxCtx, size)
#define MATRIX_TO_MTX(gfxCtx, file, line) Matrix_ToMtx(gfxCtx, file, line)
#define MATRIX_NEW(gfxCtx, file, line) Matrix_NewMtx(gfxCtx, file, line)
#define MATRIX_CHECK_FLOATS(mtx, file, line) Matrix_CheckFloats(mtx, file, line)
#define DMA_REQUEST_SYNC(ram, vrom, size, file, line) DmaMgr_RequestSyncDebug(ram, vrom, size, file, line)
#define DMA_REQUEST_ASYNC(req, ram, vrom, size, unk5, queue, msg, file, line) DmaMgr_RequestAsyncDebug(req, ram, vrom, size, unk5, queue, msg, file, line)
#define GAME_STATE_ALLOC(gameState, size, file, line) GameState_Alloc(gameState, size, file, line)
#define SYSTEM_ARENA_MALLOC(size, file, line) SystemArena_MallocDebug(size, file, line)
#define SYSTEM_ARENA_MALLOC_R(size, file, line) SystemArena_MallocRDebug(size, file, line)
#define SYSTEM_ARENA_FREE(size, file, line) SystemArena_FreeDebug(size, file, line)
#define ZELDA_ARENA_MALLOC(size, file, line) ZeldaArena_MallocDebug(size, file, line)
#define ZELDA_ARENA_MALLOC_R(size, file, line) ZeldaArena_MallocRDebug(size, file, line)
#define ZELDA_ARENA_FREE(size, file, line) ZeldaArena_FreeDebug(size, file, line)
#define LOG_UTILS_CHECK_NULL_POINTER(exp, ptr, file, line) LogUtils_CheckNullPointer(exp, ptr, file, line)
#define LOG_UTILS_CHECK_VALID_POINTER(exp, ptr, file, line) LogUtils_CheckValidPointer(exp, ptr, file, line)
#else
#define OPEN_DISPS(gfxCtx, file, line) \
{ \
GraphicsContext* __gfxCtx = gfxCtx; \
s32 __dispPad
#define CLOSE_DISPS(gfxCtx, file, line) \
(void)0; \
} \
(void)0
#define GRAPH_ALLOC(gfxCtx, size) ((void*)((gfxCtx)->polyOpa.d = (Gfx*)((u8*)(gfxCtx)->polyOpa.d - ALIGN16(size))))
#define MATRIX_TO_MTX(gfxCtx, file, line) Matrix_ToMtx(gfxCtx)
#define MATRIX_NEW(gfxCtx, file, line) Matrix_NewMtx(gfxCtx)
#define MATRIX_CHECK_FLOATS(mtx, file, line) (mtx)
#define DMA_REQUEST_SYNC(ram, vrom, size, file, line) DmaMgr_RequestSync(ram, vrom, size)
#define DMA_REQUEST_ASYNC(req, ram, vrom, size, unk5, queue, msg, file, line) DmaMgr_RequestAsync(req, ram, vrom, size, unk5, queue, msg)
#define GAME_STATE_ALLOC(gameState, size, file, line) THA_AllocTailAlign16(&(gameState)->tha, size)
#define SYSTEM_ARENA_MALLOC(size, file, line) SystemArena_Malloc(size)
#define SYSTEM_ARENA_MALLOC_R(size, file, line) SystemArena_MallocR(size)
#define SYSTEM_ARENA_FREE(size, file, line) SystemArena_Free(size)
#define ZELDA_ARENA_MALLOC(size, file, line) ZeldaArena_Malloc(size)
#define ZELDA_ARENA_MALLOC_R(size, file, line) ZeldaArena_MallocR(size)
#define ZELDA_ARENA_FREE(size, file, line) ZeldaArena_Free(size)
#define LOG_UTILS_CHECK_NULL_POINTER(exp, ptr, file, line) (void)0
#define LOG_UTILS_CHECK_VALID_POINTER(exp, ptr, file, line) (void)0
#endif /* OOT_DEBUG */
/**
* `x` vertex x
* `y` vertex y
* `z` vertex z
* `s` texture s coordinate
* `t` texture t coordinate
* `crnx` red component of color vertex, or x component of normal vertex
* `cgny` green component of color vertex, or y component of normal vertex
* `cbnz` blue component of color vertex, or z component of normal vertex
* `a` alpha
*/
#define VTX(x,y,z,s,t,crnx,cgny,cbnz,a) { { { x, y, z }, 0, { s, t }, { crnx, cgny, cbnz, a } } }
#define VTX_T(x,y,z,s,t,cr,cg,cb,a) { { x, y, z }, 0, { s, t }, { cr, cg, cb, a } }
#define gDPSetTileCustom(pkt, fmt, siz, width, height, pal, cms, cmt, masks, maskt, shifts, shiftt) \
do { \
gDPPipeSync(pkt); \
gDPTileSync(pkt); \
gDPSetTile(pkt, fmt, siz, (((width)*siz##_TILE_BYTES) + 7) >> 3, 0, G_TX_LOADTILE, 0, cmt, maskt, shiftt, cms, \
masks, shifts); \
gDPTileSync(pkt); \
gDPSetTile(pkt, fmt, siz, (((width)*siz##_TILE_BYTES) + 7) >> 3, 0, G_TX_RENDERTILE, pal, cmt, maskt, shiftt, \
cms, masks, shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, ((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC); \
} while (0)
#endif