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sovereignx/src/battle_gfx_sfx_util.c
Eduardo Quezada d1c672d3ce Converted most battle preproc ifs to regular ifs
2023-10-08 21:32:15 -03:00

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#include "global.h"
#include "battle.h"
#include "battle_controllers.h"
#include "battle_ai_main.h"
#include "battle_anim.h"
#include "constants/battle_anim.h"
#include "battle_interface.h"
#include "main.h"
#include "dma3.h"
#include "malloc.h"
#include "graphics.h"
#include "random.h"
#include "util.h"
#include "pokemon.h"
#include "constants/moves.h"
#include "task.h"
#include "sprite.h"
#include "sound.h"
#include "party_menu.h"
#include "m4a.h"
#include "decompress.h"
#include "data.h"
#include "palette.h"
#include "contest.h"
#include "constants/songs.h"
#include "constants/rgb.h"
#include "constants/battle_palace.h"
extern const u8 gBattlePalaceNatureToMoveTarget[];
extern const struct CompressedSpriteSheet gSpriteSheet_EnemyShadow;
extern const struct SpriteTemplate gSpriteTemplate_EnemyShadow;
// this file's functions
static u8 GetBattlePalaceMoveGroup(u8 battler, u16 move);
static u16 GetBattlePalaceTarget(u32 battler);
static void SpriteCB_TrainerSlideVertical(struct Sprite *sprite);
static bool8 ShouldAnimBeDoneRegardlessOfSubstitute(u8 animId);
static void Task_ClearBitWhenBattleTableAnimDone(u8 taskId);
static void Task_ClearBitWhenSpecialAnimDone(u8 taskId);
static void ClearSpritesBattlerHealthboxAnimData(void);
// const rom data
static const struct CompressedSpriteSheet sSpriteSheet_SinglesPlayerHealthbox =
{
gHealthboxSinglesPlayerGfx, 0x1000, TAG_HEALTHBOX_PLAYER1_TILE
};
static const struct CompressedSpriteSheet sSpriteSheet_SinglesOpponentHealthbox =
{
gHealthboxSinglesOpponentGfx, 0x1000, TAG_HEALTHBOX_OPPONENT1_TILE
};
static const struct CompressedSpriteSheet sSpriteSheets_DoublesPlayerHealthbox[2] =
{
{gHealthboxDoublesPlayerGfx, 0x800, TAG_HEALTHBOX_PLAYER1_TILE},
{gHealthboxDoublesPlayerGfx, 0x800, TAG_HEALTHBOX_PLAYER2_TILE}
};
static const struct CompressedSpriteSheet sSpriteSheets_DoublesOpponentHealthbox[2] =
{
{gHealthboxDoublesOpponentGfx, 0x800, TAG_HEALTHBOX_OPPONENT1_TILE},
{gHealthboxDoublesOpponentGfx, 0x800, TAG_HEALTHBOX_OPPONENT2_TILE}
};
static const struct CompressedSpriteSheet sSpriteSheet_SafariHealthbox =
{
gHealthboxSafariGfx, 0x1000, TAG_HEALTHBOX_SAFARI_TILE
};
static const struct CompressedSpriteSheet sSpriteSheets_HealthBar[MAX_BATTLERS_COUNT] =
{
{gBlankGfxCompressed, 0x0100, TAG_HEALTHBAR_PLAYER1_TILE},
{gBlankGfxCompressed, 0x0120, TAG_HEALTHBAR_OPPONENT1_TILE},
{gBlankGfxCompressed, 0x0100, TAG_HEALTHBAR_PLAYER2_TILE},
{gBlankGfxCompressed, 0x0120, TAG_HEALTHBAR_OPPONENT2_TILE}
};
const struct SpritePalette sSpritePalettes_HealthBoxHealthBar[2] =
{
{gBattleInterface_BallStatusBarPal, TAG_HEALTHBOX_PAL},
{gBattleInterface_BallDisplayPal, TAG_HEALTHBAR_PAL}
};
// code
void AllocateBattleSpritesData(void)
{
gBattleSpritesDataPtr = AllocZeroed(sizeof(struct BattleSpriteData));
gBattleSpritesDataPtr->battlerData = AllocZeroed(sizeof(struct BattleSpriteInfo) * MAX_BATTLERS_COUNT);
gBattleSpritesDataPtr->healthBoxesData = AllocZeroed(sizeof(struct BattleHealthboxInfo) * MAX_BATTLERS_COUNT);
gBattleSpritesDataPtr->animationData = AllocZeroed(sizeof(struct BattleAnimationInfo));
gBattleSpritesDataPtr->battleBars = AllocZeroed(sizeof(struct BattleBarInfo) * MAX_BATTLERS_COUNT);
}
void FreeBattleSpritesData(void)
{
if (gBattleSpritesDataPtr == NULL)
return;
FREE_AND_SET_NULL(gBattleSpritesDataPtr->battleBars);
FREE_AND_SET_NULL(gBattleSpritesDataPtr->animationData);
FREE_AND_SET_NULL(gBattleSpritesDataPtr->healthBoxesData);
FREE_AND_SET_NULL(gBattleSpritesDataPtr->battlerData);
FREE_AND_SET_NULL(gBattleSpritesDataPtr);
}
// Pokemon chooses move to use in Battle Palace rather than player
u16 ChooseMoveAndTargetInBattlePalace(u32 battler)
{
s32 i, var1, var2;
s32 chosenMoveId = -1;
struct ChooseMoveStruct *moveInfo = (struct ChooseMoveStruct *)(&gBattleResources->bufferA[battler][4]);
u8 unusableMovesBits = CheckMoveLimitations(battler, 0, MOVE_LIMITATIONS_ALL);
s32 percent = Random() % 100;
// Heavy variable re-use here makes this hard to read without defines
// Possibly just optimization? might still match with additional vars
#define maxGroupNum var1
#define minGroupNum var2
#define selectedGroup percent
#define selectedMoves var2
#define moveTarget var1
#define numMovesPerGroup var1
#define numMultipleMoveGroups var2
#define randSelectGroup var2
// If battler is < 50% HP and not asleep, use second set of move group likelihoods
// otherwise use first set
i = (gBattleStruct->palaceFlags & gBitTable[battler]) ? 2 : 0;
minGroupNum = i;
maxGroupNum = i + 2; // + 2 because there are two percentages per set of likelihoods
// Each nature has a different percent chance to select a move from one of 3 move groups
// If percent is less than 1st check, use move from "Attack" group
// If percent is less than 2nd check, use move from "Defense" group
// Otherwise use move from "Support" group
for (; i < maxGroupNum; i++)
{
if (gBattlePalaceNatureToMoveGroupLikelihood[GetNatureFromPersonality(gBattleMons[battler].personality)][i] > percent)
break;
}
selectedGroup = i - minGroupNum;
if (i == maxGroupNum)
selectedGroup = PALACE_MOVE_GROUP_SUPPORT;
// Flag moves that match selected group, to be passed to AI
for (selectedMoves = 0, i = 0; i < MAX_MON_MOVES; i++)
{
if (moveInfo->moves[i] == MOVE_NONE)
break;
if (selectedGroup == GetBattlePalaceMoveGroup(battler, moveInfo->moves[i]) && moveInfo->currentPp[i] != 0)
selectedMoves |= gBitTable[i];
}
// Pass selected moves to AI, pick one
if (selectedMoves != 0)
{
// Lower 4 bits of palaceFlags are flags for each battler.
// Clear the rest of palaceFlags, then set the selected moves in the upper 4 bits.
gBattleStruct->palaceFlags &= (1 << MAX_BATTLERS_COUNT) - 1;
gBattleStruct->palaceFlags |= (selectedMoves << MAX_BATTLERS_COUNT);
BattleAI_SetupAIData(selectedMoves, battler);
chosenMoveId = BattleAI_ChooseMoveOrAction();
}
// If no moves matched the selected group, pick a new move from groups the pokemon has
// In this case the AI is not checked again, so the choice may be worse
// If a move is chosen this way, there's a 50% chance that it will be unable to use it anyway
if (chosenMoveId == -1 || chosenMoveId >= MAX_MON_MOVES)
{
chosenMoveId = -1;
if (unusableMovesBits != ALL_MOVES_MASK)
{
numMovesPerGroup = 0, numMultipleMoveGroups = 0;
for (i = 0; i < MAX_MON_MOVES; i++)
{
// Count the number of usable moves the battler has in each move group.
// The totals will be stored separately in 3 groups of 4 bits each in numMovesPerGroup.
if (GetBattlePalaceMoveGroup(battler, moveInfo->moves[i]) == PALACE_MOVE_GROUP_ATTACK && !(gBitTable[i] & unusableMovesBits))
numMovesPerGroup += (1 << 0);
if (GetBattlePalaceMoveGroup(battler, moveInfo->moves[i]) == PALACE_MOVE_GROUP_DEFENSE && !(gBitTable[i] & unusableMovesBits))
numMovesPerGroup += (1 << 4);
if (GetBattlePalaceMoveGroup(battler, moveInfo->moves[i]) == PALACE_MOVE_GROUP_SUPPORT && !(gBitTable[i] & unusableMovesBits))
numMovesPerGroup += (1 << 8);
}
// Count the number of move groups for which the battler has at least 2 usable moves.
// This is a roundabout way to determine if there is a move group that should be
// preferred, because it has multiple move options and the others do not.
// The condition intended to check the total for the Support group is accidentally
// checking the Defense total, and is never true. As a result the preferences for
// random move selection here will skew away from the Support move group.
if ((numMovesPerGroup & 0xF) >= 2)
numMultipleMoveGroups++;
if ((numMovesPerGroup & (0xF << 4)) >= (2 << 4))
numMultipleMoveGroups++;
#ifdef BUGFIX
if ((numMovesPerGroup & (0xF << 8)) >= (2 << 8))
#else
if ((numMovesPerGroup & (0xF << 4)) >= (2 << 8))
#endif
numMultipleMoveGroups++;
// By this point we already know the battler only has usable moves from at most 2 of the 3 move groups,
// because they had no usable moves from the move group that was selected based on Nature.
//
// The below condition is effectively 'numMultipleMoveGroups != 1'.
// There is no stand-out group with multiple moves to choose from, so we pick randomly.
// Note that because of the bug above the battler may actually have any number of Support moves.
if (numMultipleMoveGroups > 1 || numMultipleMoveGroups == 0)
{
do
{
i = Random() % MAX_MON_MOVES;
if (!(gBitTable[i] & unusableMovesBits))
chosenMoveId = i;
} while (chosenMoveId == -1);
}
else
{
// The battler has just 1 move group with multiple move options to choose from.
// Choose a move randomly from this group.
// Same bug as the previous set of conditions (the condition for Support is never true).
// This bug won't cause a softlock below, because if Support is the only group with multiple
// moves then it won't have been counted, and the 'numMultipleMoveGroups == 0' above will be true.
if ((numMovesPerGroup & 0xF) >= 2)
randSelectGroup = PALACE_MOVE_GROUP_ATTACK;
if ((numMovesPerGroup & (0xF << 4)) >= (2 << 4))
randSelectGroup = PALACE_MOVE_GROUP_DEFENSE;
#ifdef BUGFIX
if ((numMovesPerGroup & (0xF << 8)) >= (2 << 8))
#else
if ((numMovesPerGroup & (0xF << 4)) >= (2 << 8))
#endif
randSelectGroup = PALACE_MOVE_GROUP_SUPPORT;
do
{
i = Random() % MAX_MON_MOVES;
if (!(gBitTable[i] & unusableMovesBits) && randSelectGroup == GetBattlePalaceMoveGroup(battler, moveInfo->moves[i]))
chosenMoveId = i;
} while (chosenMoveId == -1);
}
// Because the selected move was not from the Nature-chosen move group there's a 50% chance
// that it will be unable to use it. This could have been checked earlier to avoid the above work.
if (Random() % 100 >= 50)
{
gProtectStructs[battler].palaceUnableToUseMove = TRUE;
return 0;
}
}
else
{
// All the battler's moves were flagged as unusable.
gProtectStructs[battler].palaceUnableToUseMove = TRUE;
return 0;
}
}
if (moveInfo->moves[chosenMoveId] == MOVE_CURSE)
{
if (moveInfo->monType1 != TYPE_GHOST && moveInfo->monType2 != TYPE_GHOST && moveInfo->monType3 != TYPE_GHOST)
moveTarget = MOVE_TARGET_USER;
else
moveTarget = MOVE_TARGET_SELECTED;
}
else
{
moveTarget = GetBattlerMoveTargetType(battler, moveInfo->moves[chosenMoveId]);
}
if (moveTarget & MOVE_TARGET_USER)
chosenMoveId |= (battler << 8);
else if (moveTarget == MOVE_TARGET_SELECTED)
chosenMoveId |= GetBattlePalaceTarget(battler);
else
chosenMoveId |= (GetBattlerAtPosition(BATTLE_OPPOSITE(GetBattlerSide(battler))) << 8);
return chosenMoveId;
}
#undef maxGroupNum
#undef minGroupNum
#undef selectedGroup
#undef selectedMoves
#undef moveTarget
#undef numMovesPerGroup
#undef numMultipleMoveGroups
#undef randSelectGroup
static u8 GetBattlePalaceMoveGroup(u8 battler, u16 move)
{
switch (GetBattlerMoveTargetType(battler, move))
{
case MOVE_TARGET_SELECTED:
case MOVE_TARGET_USER_OR_SELECTED:
case MOVE_TARGET_RANDOM:
case MOVE_TARGET_BOTH:
case MOVE_TARGET_FOES_AND_ALLY:
if (IS_MOVE_STATUS(move))
return PALACE_MOVE_GROUP_SUPPORT;
else
return PALACE_MOVE_GROUP_ATTACK;
break;
case MOVE_TARGET_DEPENDS:
case MOVE_TARGET_OPPONENTS_FIELD:
return PALACE_MOVE_GROUP_SUPPORT;
case MOVE_TARGET_USER:
return PALACE_MOVE_GROUP_DEFENSE;
default:
return PALACE_MOVE_GROUP_ATTACK;
}
}
static u16 GetBattlePalaceTarget(u32 battler)
{
if (gBattleTypeFlags & BATTLE_TYPE_DOUBLE)
{
u8 opposing1, opposing2;
if (GetBattlerSide(battler) == B_SIDE_PLAYER)
{
opposing1 = GetBattlerAtPosition(B_POSITION_OPPONENT_LEFT);
opposing2 = GetBattlerAtPosition(B_POSITION_OPPONENT_RIGHT);
}
else
{
opposing1 = GetBattlerAtPosition(B_POSITION_PLAYER_LEFT);
opposing2 = GetBattlerAtPosition(B_POSITION_PLAYER_RIGHT);
}
if (gBattleMons[opposing1].hp == gBattleMons[opposing2].hp)
return (BATTLE_OPPOSITE(battler & BIT_SIDE) + (Random() & 2)) << 8;
switch (gBattlePalaceNatureToMoveTarget[GetNatureFromPersonality(gBattleMons[battler].personality)])
{
case PALACE_TARGET_STRONGER:
if (gBattleMons[opposing1].hp > gBattleMons[opposing2].hp)
return opposing1 << 8;
else
return opposing2 << 8;
case PALACE_TARGET_WEAKER:
if (gBattleMons[opposing1].hp < gBattleMons[opposing2].hp)
return opposing1 << 8;
else
return opposing2 << 8;
case PALACE_TARGET_RANDOM:
return (BATTLE_OPPOSITE(battler & BIT_SIDE) + (Random() & 2)) << 8;
}
}
return BATTLE_OPPOSITE(battler) << 8;
}
// Wait for the pokemon to finish appearing out from the pokeball on send out
void SpriteCB_WaitForBattlerBallReleaseAnim(struct Sprite *sprite)
{
u8 spriteId = sprite->data[1];
if (!gSprites[spriteId].affineAnimEnded)
return;
if (gSprites[spriteId].invisible)
return;
if (gSprites[spriteId].animPaused)
{
gSprites[spriteId].animPaused = 0;
}
else
{
if (gSprites[spriteId].animEnded)
sprite->callback = SpriteCallbackDummy;
}
}
static void UNUSED UnusedDoBattleSpriteAffineAnim(struct Sprite *sprite, bool8 pointless)
{
sprite->animPaused = TRUE;
sprite->callback = SpriteCallbackDummy;
if (!pointless)
StartSpriteAffineAnim(sprite, 1);
else
StartSpriteAffineAnim(sprite, 1);
AnimateSprite(sprite);
}
#define sSpeedX data[0]
void SpriteCB_TrainerSlideIn(struct Sprite *sprite)
{
if (!(gIntroSlideFlags & 1))
{
sprite->x2 += sprite->sSpeedX;
if (sprite->x2 == 0)
{
if (sprite->y2 != 0)
sprite->callback = SpriteCB_TrainerSlideVertical;
else
sprite->callback = SpriteCallbackDummy;
}
}
}
// Slide up to 0 if necessary (used by multi battle intro)
static void SpriteCB_TrainerSlideVertical(struct Sprite *sprite)
{
sprite->y2 -= 2;
if (sprite->y2 == 0)
sprite->callback = SpriteCallbackDummy;
}
#undef sSpeedX
void InitAndLaunchChosenStatusAnimation(u32 battler, bool32 isStatus2, u32 status)
{
gBattleSpritesDataPtr->healthBoxesData[battler].statusAnimActive = 1;
if (!isStatus2)
{
if (status == STATUS1_FREEZE || status == STATUS1_FROSTBITE)
LaunchStatusAnimation(battler, B_ANIM_STATUS_FRZ);
else if (status == STATUS1_POISON || status & STATUS1_TOXIC_POISON)
LaunchStatusAnimation(battler, B_ANIM_STATUS_PSN);
else if (status == STATUS1_BURN)
LaunchStatusAnimation(battler, B_ANIM_STATUS_BRN);
else if (status & STATUS1_SLEEP)
LaunchStatusAnimation(battler, B_ANIM_STATUS_SLP);
else if (status == STATUS1_PARALYSIS)
LaunchStatusAnimation(battler, B_ANIM_STATUS_PRZ);
else // no animation
gBattleSpritesDataPtr->healthBoxesData[battler].statusAnimActive = 0;
}
else
{
if (status & STATUS2_INFATUATION)
LaunchStatusAnimation(battler, B_ANIM_STATUS_INFATUATION);
else if (status & STATUS2_CONFUSION)
LaunchStatusAnimation(battler, B_ANIM_STATUS_CONFUSION);
else if (status & STATUS2_CURSED)
LaunchStatusAnimation(battler, B_ANIM_STATUS_CURSED);
else if (status & STATUS2_NIGHTMARE)
LaunchStatusAnimation(battler, B_ANIM_STATUS_NIGHTMARE);
else if (status & STATUS2_WRAPPED)
LaunchStatusAnimation(battler, B_ANIM_STATUS_WRAPPED); // this animation doesn't actually exist
else // no animation
gBattleSpritesDataPtr->healthBoxesData[battler].statusAnimActive = 0;
}
}
#define tBattlerId data[0]
bool8 TryHandleLaunchBattleTableAnimation(u8 activeBattler, u8 atkBattler, u8 defBattler, u8 tableId, u16 argument)
{
u8 taskId;
if (gBattleSpritesDataPtr->battlerData[activeBattler].behindSubstitute
&& !ShouldAnimBeDoneRegardlessOfSubstitute(tableId))
{
return TRUE;
}
if (gBattleSpritesDataPtr->battlerData[activeBattler].behindSubstitute
&& tableId == B_ANIM_SUBSTITUTE_FADE
&& gSprites[gBattlerSpriteIds[activeBattler]].invisible)
{
LoadBattleMonGfxAndAnimate(activeBattler, TRUE, gBattlerSpriteIds[activeBattler]);
ClearBehindSubstituteBit(activeBattler);
return TRUE;
}
if (tableId == B_ANIM_ILLUSION_OFF)
{
gBattleStruct->illusion[activeBattler].broken = 1;
gBattleStruct->illusion[activeBattler].on = 0;
}
gBattleAnimAttacker = atkBattler;
gBattleAnimTarget = defBattler;
gBattleSpritesDataPtr->animationData->animArg = argument;
LaunchBattleAnimation(ANIM_TYPE_GENERAL, tableId);
taskId = CreateTask(Task_ClearBitWhenBattleTableAnimDone, 10);
gTasks[taskId].tBattlerId = activeBattler;
gBattleSpritesDataPtr->healthBoxesData[gTasks[taskId].tBattlerId].animFromTableActive = 1;
return FALSE;
}
static void Task_ClearBitWhenBattleTableAnimDone(u8 taskId)
{
gAnimScriptCallback();
if (!gAnimScriptActive)
{
gBattleSpritesDataPtr->healthBoxesData[gTasks[taskId].tBattlerId].animFromTableActive = 0;
DestroyTask(taskId);
}
}
#undef tBattlerId
static bool8 ShouldAnimBeDoneRegardlessOfSubstitute(u8 animId)
{
switch (animId)
{
case B_ANIM_SUBSTITUTE_FADE:
case B_ANIM_RAIN_CONTINUES:
case B_ANIM_SUN_CONTINUES:
case B_ANIM_SANDSTORM_CONTINUES:
case B_ANIM_HAIL_CONTINUES:
case B_ANIM_SNOW_CONTINUES:
case B_ANIM_SNATCH_MOVE:
return TRUE;
default:
return FALSE;
}
}
#define tBattlerId data[0]
void InitAndLaunchSpecialAnimation(u8 activeBattler, u8 atkBattler, u8 defBattler, u8 tableId)
{
u8 taskId;
gBattleAnimAttacker = atkBattler;
gBattleAnimTarget = defBattler;
LaunchBattleAnimation(ANIM_TYPE_SPECIAL, tableId);
taskId = CreateTask(Task_ClearBitWhenSpecialAnimDone, 10);
gTasks[taskId].tBattlerId = activeBattler;
gBattleSpritesDataPtr->healthBoxesData[gTasks[taskId].tBattlerId].specialAnimActive = 1;
}
static void Task_ClearBitWhenSpecialAnimDone(u8 taskId)
{
gAnimScriptCallback();
if (!gAnimScriptActive)
{
gBattleSpritesDataPtr->healthBoxesData[gTasks[taskId].tBattlerId].specialAnimActive = 0;
DestroyTask(taskId);
}
}
#undef tBattlerId
// Check if SE has finished or 30 calls, whichever comes first
bool8 IsBattleSEPlaying(u8 battler)
{
u8 zero = 0;
if (IsSEPlaying())
{
gBattleSpritesDataPtr->healthBoxesData[battler].soundTimer++;
if (gBattleSpritesDataPtr->healthBoxesData[battler].soundTimer < 30)
return TRUE;
m4aMPlayStop(&gMPlayInfo_SE1);
m4aMPlayStop(&gMPlayInfo_SE2);
}
if (zero == 0)
{
gBattleSpritesDataPtr->healthBoxesData[battler].soundTimer = 0;
return FALSE;
}
// Never reached
return TRUE;
}
void BattleLoadMonSpriteGfx(struct Pokemon *mon, u32 battler)
{
u32 monsPersonality, currentPersonality, otId, currentOtId, species, paletteOffset, position;
const void *lzPaletteData;
struct Pokemon *illusionMon = GetIllusionMonPtr(battler);
if (illusionMon != NULL)
mon = illusionMon;
if (GetMonData(mon, MON_DATA_IS_EGG) || GetMonData(mon, MON_DATA_SPECIES) == SPECIES_NONE) // Don't load GFX of egg pokemon.
return;
monsPersonality = GetMonData(mon, MON_DATA_PERSONALITY);
otId = GetMonData(mon, MON_DATA_OT_ID);
if (gBattleSpritesDataPtr->battlerData[battler].transformSpecies == SPECIES_NONE)
{
species = GetMonData(mon, MON_DATA_SPECIES);
currentPersonality = monsPersonality;
currentOtId = otId;
}
else
{
species = gBattleSpritesDataPtr->battlerData[battler].transformSpecies;
if (B_TRANSFORM_SHINY >= GEN_4)
{
currentPersonality = gTransformedPersonalities[battler];
currentOtId = gTransformedOtIds[battler];
}
else
{
currentPersonality = monsPersonality;
currentOtId = otId;
}
}
position = GetBattlerPosition(battler);
if (GetBattlerSide(battler) == B_SIDE_OPPONENT)
{
HandleLoadSpecialPokePic(TRUE,
gMonSpritesGfxPtr->sprites.ptr[position],
species, currentPersonality);
}
else
{
HandleLoadSpecialPokePic(FALSE,
gMonSpritesGfxPtr->sprites.ptr[position],
species, currentPersonality);
}
paletteOffset = OBJ_PLTT_ID(battler);
if (gBattleSpritesDataPtr->battlerData[battler].transformSpecies == SPECIES_NONE)
lzPaletteData = GetMonFrontSpritePal(mon);
else
lzPaletteData = GetMonSpritePalFromSpeciesAndPersonality(species, currentOtId, currentPersonality);
LZDecompressWram(lzPaletteData, gDecompressionBuffer);
LoadPalette(gDecompressionBuffer, paletteOffset, PLTT_SIZE_4BPP);
LoadPalette(gDecompressionBuffer, BG_PLTT_ID(8) + BG_PLTT_ID(battler), PLTT_SIZE_4BPP);
// transform's pink color
if (gBattleSpritesDataPtr->battlerData[battler].transformSpecies != SPECIES_NONE)
{
BlendPalette(paletteOffset, 16, 6, RGB_WHITE);
CpuCopy32(&gPlttBufferFaded[paletteOffset], &gPlttBufferUnfaded[paletteOffset], PLTT_SIZEOF(16));
}
}
void BattleGfxSfxDummy2(u16 species)
{
}
void DecompressTrainerFrontPic(u16 frontPicId, u8 battler)
{
u8 position = GetBattlerPosition(battler);
DecompressPicFromTable(&gTrainerFrontPicTable[frontPicId],
gMonSpritesGfxPtr->sprites.ptr[position],
SPECIES_NONE);
LoadCompressedSpritePalette(&gTrainerFrontPicPaletteTable[frontPicId]);
}
void DecompressTrainerBackPic(u16 backPicId, u8 battler)
{
u8 position = GetBattlerPosition(battler);
DecompressPicFromTable(&gTrainerBackPicTable[backPicId],
gMonSpritesGfxPtr->sprites.ptr[position],
SPECIES_NONE);
LoadCompressedPalette(gTrainerBackPicPaletteTable[backPicId].data,
OBJ_PLTT_ID(battler), PLTT_SIZE_4BPP);
}
void FreeTrainerFrontPicPalette(u16 frontPicId)
{
FreeSpritePaletteByTag(gTrainerFrontPicPaletteTable[frontPicId].tag);
}
// Unused.
void BattleLoadAllHealthBoxesGfxAtOnce(void)
{
u8 numberOfBattlers = 0;
u8 i;
LoadSpritePalette(&sSpritePalettes_HealthBoxHealthBar[0]);
LoadSpritePalette(&sSpritePalettes_HealthBoxHealthBar[1]);
if (!IsDoubleBattle())
{
LoadCompressedSpriteSheet(&sSpriteSheet_SinglesPlayerHealthbox);
LoadCompressedSpriteSheet(&sSpriteSheet_SinglesOpponentHealthbox);
numberOfBattlers = 2;
}
else
{
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesPlayerHealthbox[0]);
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesPlayerHealthbox[1]);
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesOpponentHealthbox[0]);
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesOpponentHealthbox[1]);
numberOfBattlers = MAX_BATTLERS_COUNT;
}
for (i = 0; i < numberOfBattlers; i++)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(i)]);
}
bool8 BattleLoadAllHealthBoxesGfx(u8 state)
{
bool8 retVal = FALSE;
if (state != 0)
{
if (state == 1)
{
LoadSpritePalette(&sSpritePalettes_HealthBoxHealthBar[0]);
LoadSpritePalette(&sSpritePalettes_HealthBoxHealthBar[1]);
MegaIndicator_LoadSpritesGfx();
}
else if (!IsDoubleBattle())
{
if (state == 2)
{
if (gBattleTypeFlags & BATTLE_TYPE_SAFARI)
LoadCompressedSpriteSheet(&sSpriteSheet_SafariHealthbox);
else
LoadCompressedSpriteSheet(&sSpriteSheet_SinglesPlayerHealthbox);
}
else if (state == 3)
LoadCompressedSpriteSheet(&sSpriteSheet_SinglesOpponentHealthbox);
else if (state == 4)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(0)]);
else if (state == 5)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(1)]);
else
retVal = TRUE;
}
else
{
if (state == 2)
{
if (WhichBattleCoords(0))
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesPlayerHealthbox[0]);
else
LoadCompressedSpriteSheet(&sSpriteSheet_SinglesPlayerHealthbox);
}
else if (state == 3)
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesPlayerHealthbox[1]);
else if (state == 4)
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesOpponentHealthbox[0]);
else if (state == 5)
LoadCompressedSpriteSheet(&sSpriteSheets_DoublesOpponentHealthbox[1]);
else if (state == 6)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(0)]);
else if (state == 7)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(1)]);
else if (state == 8)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(2)]);
else if (state == 9)
LoadCompressedSpriteSheet(&sSpriteSheets_HealthBar[GetBattlerPosition(3)]);
else
retVal = TRUE;
}
}
return retVal;
}
void LoadBattleBarGfx(u8 unused)
{
LZDecompressWram(gBattleInterfaceGfx_BattleBar, gMonSpritesGfxPtr->barFontGfx);
}
bool8 BattleInitAllSprites(u8 *state1, u8 *battler)
{
bool8 retVal = FALSE;
switch (*state1)
{
case 0:
ClearSpritesBattlerHealthboxAnimData();
(*state1)++;
break;
case 1:
if (!BattleLoadAllHealthBoxesGfx(*battler))
{
(*battler)++;
}
else
{
*battler = 0;
(*state1)++;
}
break;
case 2:
(*state1)++;
break;
case 3:
if ((gBattleTypeFlags & BATTLE_TYPE_SAFARI) && *battler == 0)
gHealthboxSpriteIds[*battler] = CreateSafariPlayerHealthboxSprites();
else
gHealthboxSpriteIds[*battler] = CreateBattlerHealthboxSprites(*battler);
(*battler)++;
if (*battler == gBattlersCount)
{
*battler = 0;
(*state1)++;
}
break;
case 4:
InitBattlerHealthboxCoords(*battler);
if (GetBattlerPosition(*battler) <= B_POSITION_OPPONENT_LEFT)
DummyBattleInterfaceFunc(gHealthboxSpriteIds[*battler], FALSE);
else
DummyBattleInterfaceFunc(gHealthboxSpriteIds[*battler], TRUE);
(*battler)++;
if (*battler == gBattlersCount)
{
*battler = 0;
(*state1)++;
}
break;
case 5:
if (GetBattlerSide(*battler) == B_SIDE_PLAYER)
{
if (!(gBattleTypeFlags & BATTLE_TYPE_SAFARI))
UpdateHealthboxAttribute(gHealthboxSpriteIds[*battler], &gPlayerParty[gBattlerPartyIndexes[*battler]], HEALTHBOX_ALL);
}
else
{
UpdateHealthboxAttribute(gHealthboxSpriteIds[*battler], &gEnemyParty[gBattlerPartyIndexes[*battler]], HEALTHBOX_ALL);
}
SetHealthboxSpriteInvisible(gHealthboxSpriteIds[*battler]);
(*battler)++;
if (*battler == gBattlersCount)
{
*battler = 0;
(*state1)++;
}
break;
case 6:
LoadAndCreateEnemyShadowSprites();
BufferBattlePartyCurrentOrder();
retVal = TRUE;
break;
}
return retVal;
}
void ClearSpritesHealthboxAnimData(void)
{
memset(gBattleSpritesDataPtr->healthBoxesData, 0, sizeof(struct BattleHealthboxInfo) * MAX_BATTLERS_COUNT);
memset(gBattleSpritesDataPtr->animationData, 0, sizeof(struct BattleAnimationInfo));
}
static void ClearSpritesBattlerHealthboxAnimData(void)
{
ClearSpritesHealthboxAnimData();
memset(gBattleSpritesDataPtr->battlerData, 0, sizeof(struct BattleSpriteInfo) * MAX_BATTLERS_COUNT);
}
void CopyAllBattleSpritesInvisibilities(void)
{
s32 i;
for (i = 0; i < gBattlersCount; i++)
gBattleSpritesDataPtr->battlerData[i].invisible = gSprites[gBattlerSpriteIds[i]].invisible;
}
void CopyBattleSpriteInvisibility(u8 battler)
{
gBattleSpritesDataPtr->battlerData[battler].invisible = gSprites[gBattlerSpriteIds[battler]].invisible;
}
void HandleSpeciesGfxDataChange(u8 battlerAtk, u8 battlerDef, bool32 megaEvo, bool8 trackEnemyPersonality)
{
u32 personalityValue, otId, position, paletteOffset, targetSpecies;
const void *lzPaletteData, *src;
void *dst;
if (IsContest())
{
position = B_POSITION_PLAYER_LEFT;
targetSpecies = gContestResources->moveAnim->targetSpecies;
personalityValue = gContestResources->moveAnim->personality;
otId = gContestResources->moveAnim->otId;
HandleLoadSpecialPokePic(FALSE,
gMonSpritesGfxPtr->sprites.ptr[position],
targetSpecies,
gContestResources->moveAnim->targetPersonality);
}
else
{
position = GetBattlerPosition(battlerAtk);
if (GetBattlerSide(battlerDef) == B_SIDE_OPPONENT)
targetSpecies = GetMonData(&gEnemyParty[gBattlerPartyIndexes[battlerDef]], MON_DATA_SPECIES);
else
targetSpecies = GetMonData(&gPlayerParty[gBattlerPartyIndexes[battlerDef]], MON_DATA_SPECIES);
if (GetBattlerSide(battlerAtk) == B_SIDE_PLAYER)
{
if (B_TRANSFORM_SHINY >= GEN_4 && trackEnemyPersonality)
{
personalityValue = GetMonData(&gEnemyParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_PERSONALITY);
otId = GetMonData(&gEnemyParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_OT_ID);
}
else
{
personalityValue = GetMonData(&gPlayerParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_PERSONALITY);
otId = GetMonData(&gPlayerParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_OT_ID);
}
otId = GetMonData(&gPlayerParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_OT_ID);
HandleLoadSpecialPokePic(FALSE,
gMonSpritesGfxPtr->sprites.ptr[position],
targetSpecies,
gTransformedPersonalities[battlerAtk]);
}
else
{
if (B_TRANSFORM_SHINY >= GEN_4 && trackEnemyPersonality)
{
personalityValue = GetMonData(&gPlayerParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_PERSONALITY);
otId = GetMonData(&gPlayerParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_OT_ID);
}
else
{
personalityValue = GetMonData(&gEnemyParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_PERSONALITY);
otId = GetMonData(&gEnemyParty[gBattlerPartyIndexes[battlerAtk]], MON_DATA_OT_ID);
}
HandleLoadSpecialPokePic(TRUE,
gMonSpritesGfxPtr->sprites.ptr[position],
targetSpecies,
gTransformedPersonalities[battlerAtk]);
}
}
src = gMonSpritesGfxPtr->sprites.ptr[position];
dst = (void *)(OBJ_VRAM0 + gSprites[gBattlerSpriteIds[battlerAtk]].oam.tileNum * 32);
DmaCopy32(3, src, dst, MON_PIC_SIZE);
paletteOffset = OBJ_PLTT_ID(battlerAtk);
lzPaletteData = GetMonSpritePalFromSpeciesAndPersonality(targetSpecies, otId, personalityValue);
LZDecompressWram(lzPaletteData, gDecompressionBuffer);
LoadPalette(gDecompressionBuffer, paletteOffset, PLTT_SIZE_4BPP);
if (!megaEvo)
{
BlendPalette(paletteOffset, 16, 6, RGB_WHITE);
CpuCopy32(&gPlttBufferFaded[paletteOffset], &gPlttBufferUnfaded[paletteOffset], PLTT_SIZEOF(16));
if (!IsContest())
{
gBattleSpritesDataPtr->battlerData[battlerAtk].transformSpecies = targetSpecies;
}
}
gSprites[gBattlerSpriteIds[battlerAtk]].y = GetBattlerSpriteDefault_Y(battlerAtk);
StartSpriteAnim(&gSprites[gBattlerSpriteIds[battlerAtk]], 0);
}
void BattleLoadSubstituteOrMonSpriteGfx(u8 battler, bool8 loadMonSprite)
{
s32 i, position, palOffset;
if (!loadMonSprite)
{
if (IsContest())
position = B_POSITION_PLAYER_LEFT;
else
position = GetBattlerPosition(battler);
if (IsContest())
LZDecompressVram(gBattleAnimSpriteGfx_SubstituteBack, gMonSpritesGfxPtr->sprites.ptr[position]);
else if (GetBattlerSide(battler) != B_SIDE_PLAYER)
LZDecompressVram(gBattleAnimSpriteGfx_Substitute, gMonSpritesGfxPtr->sprites.ptr[position]);
else
LZDecompressVram(gBattleAnimSpriteGfx_SubstituteBack, gMonSpritesGfxPtr->sprites.ptr[position]);
for (i = 1; i < 4; i++)
{
Dma3CopyLarge32_(gMonSpritesGfxPtr->sprites.ptr[position], &gMonSpritesGfxPtr->sprites.byte[position][MON_PIC_SIZE * i], MON_PIC_SIZE);
}
palOffset = OBJ_PLTT_ID(battler);
LoadCompressedPalette(gBattleAnimSpritePal_Substitute, palOffset, PLTT_SIZE_4BPP);
}
else
{
if (!IsContest())
BattleLoadMonSpriteGfx(&GetBattlerParty(battler)[gBattlerPartyIndexes[battler]], battler);
}
}
void LoadBattleMonGfxAndAnimate(u8 battler, bool8 loadMonSprite, u8 spriteId)
{
BattleLoadSubstituteOrMonSpriteGfx(battler, loadMonSprite);
StartSpriteAnim(&gSprites[spriteId], 0);
if (!loadMonSprite)
gSprites[spriteId].y = GetSubstituteSpriteDefault_Y(battler);
else
gSprites[spriteId].y = GetBattlerSpriteDefault_Y(battler);
}
void TrySetBehindSubstituteSpriteBit(u8 battler, u16 move)
{
if (move == MOVE_SUBSTITUTE)
gBattleSpritesDataPtr->battlerData[battler].behindSubstitute = 1;
}
void ClearBehindSubstituteBit(u8 battler)
{
gBattleSpritesDataPtr->battlerData[battler].behindSubstitute = 0;
}
void HandleLowHpMusicChange(struct Pokemon *mon, u8 battler)
{
u16 hp = GetMonData(mon, MON_DATA_HP);
u16 maxHP = GetMonData(mon, MON_DATA_MAX_HP);
if (GetHPBarLevel(hp, maxHP) == HP_BAR_RED)
{
if (!gBattleSpritesDataPtr->battlerData[battler].lowHpSong)
{
if (!gBattleSpritesDataPtr->battlerData[BATTLE_PARTNER(battler)].lowHpSong)
PlaySE(SE_LOW_HEALTH);
gBattleSpritesDataPtr->battlerData[battler].lowHpSong = 1;
}
}
else
{
gBattleSpritesDataPtr->battlerData[battler].lowHpSong = 0;
if (!IsDoubleBattle())
{
m4aSongNumStop(SE_LOW_HEALTH);
return;
}
if (IsDoubleBattle() && !gBattleSpritesDataPtr->battlerData[BATTLE_PARTNER(battler)].lowHpSong)
{
m4aSongNumStop(SE_LOW_HEALTH);
return;
}
}
}
void BattleStopLowHpSound(void)
{
u8 playerBattler = GetBattlerAtPosition(B_POSITION_PLAYER_LEFT);
gBattleSpritesDataPtr->battlerData[playerBattler].lowHpSong = 0;
if (IsDoubleBattle())
gBattleSpritesDataPtr->battlerData[BATTLE_PARTNER(playerBattler)].lowHpSong = 0;
m4aSongNumStop(SE_LOW_HEALTH);
}
u8 GetMonHPBarLevel(struct Pokemon *mon)
{
u16 hp = GetMonData(mon, MON_DATA_HP);
u16 maxHP = GetMonData(mon, MON_DATA_MAX_HP);
return GetHPBarLevel(hp, maxHP);
}
void HandleBattleLowHpMusicChange(void)
{
if (gMain.inBattle)
{
u8 playerBattler1 = GetBattlerAtPosition(B_POSITION_PLAYER_LEFT);
u8 playerBattler2 = GetBattlerAtPosition(B_POSITION_PLAYER_RIGHT);
u8 battler1PartyId = GetPartyIdFromBattlePartyId(gBattlerPartyIndexes[playerBattler1]);
u8 battler2PartyId = GetPartyIdFromBattlePartyId(gBattlerPartyIndexes[playerBattler2]);
if (GetMonData(&gPlayerParty[battler1PartyId], MON_DATA_HP) != 0)
HandleLowHpMusicChange(&gPlayerParty[battler1PartyId], playerBattler1);
if (IsDoubleBattle() && GetMonData(&gPlayerParty[battler2PartyId], MON_DATA_HP) != 0)
HandleLowHpMusicChange(&gPlayerParty[battler2PartyId], playerBattler2);
}
}
void SetBattlerSpriteAffineMode(u8 affineMode)
{
s32 i;
for (i = 0; i < gBattlersCount; i++)
{
if (IsBattlerSpritePresent(i))
{
gSprites[gBattlerSpriteIds[i]].oam.affineMode = affineMode;
if (affineMode == ST_OAM_AFFINE_OFF)
{
gBattleSpritesDataPtr->healthBoxesData[i].matrixNum = gSprites[gBattlerSpriteIds[i]].oam.matrixNum;
gSprites[gBattlerSpriteIds[i]].oam.matrixNum = 0;
}
else
{
gSprites[gBattlerSpriteIds[i]].oam.matrixNum = gBattleSpritesDataPtr->healthBoxesData[i].matrixNum;
}
}
}
}
#define tBattlerId data[0]
void LoadAndCreateEnemyShadowSprites(void)
{
u8 battler;
LoadCompressedSpriteSheet(&gSpriteSheet_EnemyShadow);
battler = GetBattlerAtPosition(B_POSITION_OPPONENT_LEFT);
gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId = CreateSprite(&gSpriteTemplate_EnemyShadow,
GetBattlerSpriteCoord(battler, BATTLER_COORD_X),
GetBattlerSpriteCoord(battler, BATTLER_COORD_Y) + 29,
0xC8);
gSprites[gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId].data[0] = battler;
if (IsDoubleBattle())
{
battler = GetBattlerAtPosition(B_POSITION_OPPONENT_RIGHT);
gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId = CreateSprite(&gSpriteTemplate_EnemyShadow,
GetBattlerSpriteCoord(battler, BATTLER_COORD_X),
GetBattlerSpriteCoord(battler, BATTLER_COORD_Y) + 29,
0xC8);
gSprites[gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId].data[0] = battler;
}
}
void SpriteCB_EnemyShadow(struct Sprite *shadowSprite)
{
bool8 invisible = FALSE;
u8 battler = shadowSprite->tBattlerId;
struct Sprite *battlerSprite = &gSprites[gBattlerSpriteIds[battler]];
if (!battlerSprite->inUse || !IsBattlerSpritePresent(battler))
{
shadowSprite->callback = SpriteCB_SetInvisible;
return;
}
if (gAnimScriptActive || battlerSprite->invisible)
invisible = TRUE;
else if (gBattleSpritesDataPtr->battlerData[battler].transformSpecies != SPECIES_NONE
&& gEnemyMonElevation[gBattleSpritesDataPtr->battlerData[battler].transformSpecies] == 0)
invisible = TRUE;
if (gBattleSpritesDataPtr->battlerData[battler].behindSubstitute)
invisible = TRUE;
shadowSprite->x = battlerSprite->x;
shadowSprite->x2 = battlerSprite->x2;
shadowSprite->invisible = invisible;
}
#undef tBattlerId
void SpriteCB_SetInvisible(struct Sprite *sprite)
{
sprite->invisible = TRUE;
}
void SetBattlerShadowSpriteCallback(u8 battler, u16 species)
{
// The player's shadow is never seen.
if (GetBattlerSide(battler) == B_SIDE_PLAYER || gBattleScripting.monCaught)
return;
if (gBattleSpritesDataPtr->battlerData[battler].transformSpecies != SPECIES_NONE)
species = gBattleSpritesDataPtr->battlerData[battler].transformSpecies;
if (gEnemyMonElevation[species] != 0)
gSprites[gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId].callback = SpriteCB_EnemyShadow;
else
gSprites[gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId].callback = SpriteCB_SetInvisible;
}
void HideBattlerShadowSprite(u8 battler)
{
gSprites[gBattleSpritesDataPtr->healthBoxesData[battler].shadowSpriteId].callback = SpriteCB_SetInvisible;
}
// Color the background tiles surrounding the action selection and move windows
void FillAroundBattleWindows(void)
{
u16 *vramPtr = (u16 *)(VRAM + 0x240);
s32 i;
s32 j;
for (i = 0; i < 9; i++)
{
for (j = 0; j < 16; j++)
{
if (!(*vramPtr & 0xF000))
*vramPtr |= 0xF000;
if (!(*vramPtr & 0x0F00))
*vramPtr |= 0x0F00;
if (!(*vramPtr & 0x00F0))
*vramPtr |= 0x00F0;
if (!(*vramPtr & 0x000F))
*vramPtr |= 0x000F;
vramPtr++;
}
}
}
void ClearTemporarySpeciesSpriteData(u8 battler, bool8 dontClearSubstitute)
{
gBattleSpritesDataPtr->battlerData[battler].transformSpecies = SPECIES_NONE;
if (!dontClearSubstitute)
ClearBehindSubstituteBit(battler);
}
void AllocateMonSpritesGfx(void)
{
u8 i = 0, j;
gMonSpritesGfxPtr = NULL;
gMonSpritesGfxPtr = AllocZeroed(sizeof(*gMonSpritesGfxPtr));
gMonSpritesGfxPtr->firstDecompressed = AllocZeroed(MON_PIC_SIZE * 4 * MAX_BATTLERS_COUNT);
for (i = 0; i < MAX_BATTLERS_COUNT; i++)
{
gMonSpritesGfxPtr->sprites.ptr[i] = gMonSpritesGfxPtr->firstDecompressed + (i * MON_PIC_SIZE * 4);
*(gMonSpritesGfxPtr->templates + i) = gBattlerSpriteTemplates[i];
for (j = 0; j < 4; j++)
{
if (gMonSpritesGfxPtr->sprites.ptr[i])
{
gMonSpritesGfxPtr->frameImages[i][j].data = gMonSpritesGfxPtr->sprites.ptr[i] + (j * MON_PIC_SIZE);
gMonSpritesGfxPtr->frameImages[i][j].size = MON_PIC_SIZE;
}
}
gMonSpritesGfxPtr->templates[i].images = gMonSpritesGfxPtr->frameImages[i];
}
gMonSpritesGfxPtr->barFontGfx = AllocZeroed(0x1000);
}
void FreeMonSpritesGfx(void)
{
if (gMonSpritesGfxPtr == NULL)
return;
TRY_FREE_AND_SET_NULL(gMonSpritesGfxPtr->buffer);
TRY_FREE_AND_SET_NULL(gMonSpritesGfxPtr->unusedPtr);
FREE_AND_SET_NULL(gMonSpritesGfxPtr->barFontGfx);
FREE_AND_SET_NULL(gMonSpritesGfxPtr->firstDecompressed);
gMonSpritesGfxPtr->sprites.ptr[B_POSITION_PLAYER_LEFT] = NULL;
gMonSpritesGfxPtr->sprites.ptr[B_POSITION_OPPONENT_LEFT] = NULL;
gMonSpritesGfxPtr->sprites.ptr[B_POSITION_PLAYER_RIGHT] = NULL;
gMonSpritesGfxPtr->sprites.ptr[B_POSITION_OPPONENT_RIGHT] = NULL;
FREE_AND_SET_NULL(gMonSpritesGfxPtr);
}
bool32 ShouldPlayNormalMonCry(struct Pokemon *mon)
{
s16 hp, maxHP;
s32 barLevel;
if (GetMonData(mon, MON_DATA_STATUS) & (STATUS1_ANY | STATUS1_TOXIC_COUNTER))
return FALSE;
hp = GetMonData(mon, MON_DATA_HP);
maxHP = GetMonData(mon, MON_DATA_MAX_HP);
barLevel = GetHPBarLevel(hp, maxHP);
if (barLevel <= HP_BAR_YELLOW)
return FALSE;
return TRUE;
}
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