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battle_anim_normal.c
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#include "global.h"
#include "battle_anim.h"
#include "palette.h"
#include "random.h"
#include "task.h"
#include "trig.h"
#include "constants/rgb.h"
static void AnimConfusionDuck(struct Sprite *);
static void AnimSimplePaletteBlend(struct Sprite *);
static void AnimSimplePaletteBlend_Step(struct Sprite *);
static void AnimComplexPaletteBlend(struct Sprite *);
static void AnimComplexPaletteBlend_Step1(struct Sprite *);
static void AnimComplexPaletteBlend_Step2(struct Sprite *);
static void AnimCirclingSparkle(struct Sprite *);
static void AnimShakeMonOrBattleTerrain(struct Sprite *);
static void AnimShakeMonOrBattleTerrain_Step(struct Sprite *);
static void AnimShakeMonOrBattleTerrain_UpdateCoordOffsetEnabled(void);
static void AnimHitSplatBasic(struct Sprite *);
static void AnimHitSplatPersistent(struct Sprite *);
static void AnimHitSplatHandleInvert(struct Sprite *);
static void AnimHitSplatRandom(struct Sprite *);
static void AnimHitSplatOnMonEdge(struct Sprite *);
static void AnimCrossImpact(struct Sprite *);
static void AnimFlashingHitSplat(struct Sprite *);
static void AnimFlashingHitSplat_Step(struct Sprite *);
static void AnimConfusionDuck_Step(struct Sprite *);
static void BlendColorCycle(u8, u8, u8);
static void AnimTask_BlendColorCycleLoop(u8);
static void BlendColorCycleExclude(u8, u8, u8);
static void AnimTask_BlendColorCycleExcludeLoop(u8);
static void BlendColorCycleByTag(u8, u8, u8);
static void AnimTask_BlendColorCycleByTagLoop(u8);
static void AnimTask_FlashAnimTagWithColor_Step1(u8);
static void AnimTask_FlashAnimTagWithColor_Step2(u8);
static void AnimTask_ShakeBattleTerrain_Step(u8);
static const union AnimCmd sAnim_ConfusionDuck_0[] =
{
ANIMCMD_FRAME(0, 8),
ANIMCMD_FRAME(4, 8),
ANIMCMD_FRAME(0, 8, .hFlip = TRUE),
ANIMCMD_FRAME(8, 8),
ANIMCMD_JUMP(0),
};
static const union AnimCmd sAnim_ConfusionDuck_1[] =
{
ANIMCMD_FRAME(0, 8, .hFlip = TRUE),
ANIMCMD_FRAME(4, 8),
ANIMCMD_FRAME(0, 8),
ANIMCMD_FRAME(8, 8),
ANIMCMD_JUMP(0),
};
static const union AnimCmd *const sAnims_ConfusionDuck[] =
{
sAnim_ConfusionDuck_0,
sAnim_ConfusionDuck_1,
};
const struct SpriteTemplate gConfusionDuckSpriteTemplate =
{
.tileTag = ANIM_TAG_DUCK,
.paletteTag = ANIM_TAG_DUCK,
.oam = &gOamData_AffineOff_ObjNormal_16x16,
.anims = sAnims_ConfusionDuck,
.images = NULL,
.affineAnims = gDummySpriteAffineAnimTable,
.callback = AnimConfusionDuck,
};
const struct SpriteTemplate gSimplePaletteBlendSpriteTemplate =
{
.tileTag = 0,
.paletteTag = 0,
.oam = &gDummyOamData,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = gDummySpriteAffineAnimTable,
.callback = AnimSimplePaletteBlend,
};
const struct SpriteTemplate gComplexPaletteBlendSpriteTemplate =
{
.tileTag = 0,
.paletteTag = 0,
.oam = &gDummyOamData,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = gDummySpriteAffineAnimTable,
.callback = AnimComplexPaletteBlend,
};
static const union AnimCmd sAnim_CirclingSparkle[] =
{
ANIMCMD_FRAME(0, 3),
ANIMCMD_FRAME(16, 3),
ANIMCMD_FRAME(32, 3),
ANIMCMD_FRAME(48, 3),
ANIMCMD_FRAME(64, 3),
ANIMCMD_JUMP(0),
};
static const union AnimCmd *const sAnims_CirclingSparkle[] =
{
sAnim_CirclingSparkle,
};
// Unused
static const struct SpriteTemplate sCirclingSparkleSpriteTemplate =
{
.tileTag = ANIM_TAG_SPARKLE_4,
.paletteTag = ANIM_TAG_SPARKLE_4,
.oam = &gOamData_AffineOff_ObjNormal_32x32,
.anims = sAnims_CirclingSparkle,
.images = NULL,
.affineAnims = gDummySpriteAffineAnimTable,
.callback = AnimCirclingSparkle,
};
const struct SpriteTemplate gShakeMonOrTerrainSpriteTemplate =
{
.tileTag = 0,
.paletteTag = 0,
.oam = &gDummyOamData,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = gDummySpriteAffineAnimTable,
.callback = AnimShakeMonOrBattleTerrain,
};
static const union AffineAnimCmd sAffineAnim_HitSplat_0[] =
{
AFFINEANIMCMD_FRAME(0x0, 0x0, 0, 8),
AFFINEANIMCMD_END,
};
static const union AffineAnimCmd sAffineAnim_HitSplat_1[] =
{
AFFINEANIMCMD_FRAME(0xD8, 0xD8, 0, 0),
AFFINEANIMCMD_FRAME(0x0, 0x0, 0, 8),
AFFINEANIMCMD_END,
};
static const union AffineAnimCmd sAffineAnim_HitSplat_2[] =
{
AFFINEANIMCMD_FRAME(0xB0, 0xB0, 0, 0),
AFFINEANIMCMD_FRAME(0x0, 0x0, 0, 8),
AFFINEANIMCMD_END,
};
static const union AffineAnimCmd sAffineAnim_HitSplat_3[] =
{
AFFINEANIMCMD_FRAME(0x80, 0x80, 0, 0),
AFFINEANIMCMD_FRAME(0x0, 0x0, 0, 8),
AFFINEANIMCMD_END,
};
static const union AffineAnimCmd *const sAffineAnims_HitSplat[] =
{
sAffineAnim_HitSplat_0,
sAffineAnim_HitSplat_1,
sAffineAnim_HitSplat_2,
sAffineAnim_HitSplat_3,
};
const struct SpriteTemplate gBasicHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_IMPACT,
.paletteTag = ANIM_TAG_IMPACT,
.oam = &gOamData_AffineNormal_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimHitSplatBasic,
};
const struct SpriteTemplate gHandleInvertHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_IMPACT,
.paletteTag = ANIM_TAG_IMPACT,
.oam = &gOamData_AffineNormal_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimHitSplatHandleInvert,
};
const struct SpriteTemplate gWaterHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_WATER_IMPACT,
.paletteTag = ANIM_TAG_WATER_IMPACT,
.oam = &gOamData_AffineNormal_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimHitSplatBasic,
};
const struct SpriteTemplate gRandomPosHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_IMPACT,
.paletteTag = ANIM_TAG_IMPACT,
.oam = &gOamData_AffineNormal_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimHitSplatRandom,
};
const struct SpriteTemplate gMonEdgeHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_IMPACT,
.paletteTag = ANIM_TAG_IMPACT,
.oam = &gOamData_AffineNormal_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimHitSplatOnMonEdge,
};
const struct SpriteTemplate gCrossImpactSpriteTemplate =
{
.tileTag = ANIM_TAG_CROSS_IMPACT,
.paletteTag = ANIM_TAG_CROSS_IMPACT,
.oam = &gOamData_AffineOff_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = gDummySpriteAffineAnimTable,
.callback = AnimCrossImpact,
};
const struct SpriteTemplate gFlashingHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_IMPACT,
.paletteTag = ANIM_TAG_IMPACT,
.oam = &gOamData_AffineNormal_ObjNormal_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimFlashingHitSplat,
};
const struct SpriteTemplate gPersistHitSplatSpriteTemplate =
{
.tileTag = ANIM_TAG_IMPACT,
.paletteTag = ANIM_TAG_IMPACT,
.oam = &gOamData_AffineNormal_ObjBlend_32x32,
.anims = gDummySpriteAnimTable,
.images = NULL,
.affineAnims = sAffineAnims_HitSplat,
.callback = AnimHitSplatPersistent,
};
// Moves a spinning duck around the mon's head.
// arg 0: initial x pixel offset
// arg 1: initial y pixel offset
// arg 2: initial wave offset
// arg 3: wave period (higher means faster wave)
// arg 4: duration
static void AnimConfusionDuck(struct Sprite *sprite)
{
sprite->x += gBattleAnimArgs[0];
sprite->y += gBattleAnimArgs[1];
sprite->data[0] = gBattleAnimArgs[2];
if (GetBattlerSide(gBattleAnimAttacker) != B_SIDE_PLAYER)
{
sprite->data[1] = -gBattleAnimArgs[3];
sprite->data[4] = 1;
}
else
{
sprite->data[1] = gBattleAnimArgs[3];
sprite->data[4] = 0;
StartSpriteAnim(sprite, 1);
}
sprite->data[3] = gBattleAnimArgs[4];
sprite->callback = AnimConfusionDuck_Step;
sprite->callback(sprite);
}
static void AnimConfusionDuck_Step(struct Sprite *sprite)
{
sprite->x2 = Cos(sprite->data[0], 30);
sprite->y2 = Sin(sprite->data[0], 10);
if ((u16)sprite->data[0] < 128)
sprite->oam.priority = 1;
else
sprite->oam.priority = 3;
sprite->data[0] = (sprite->data[0] + sprite->data[1]) & 0xFF;
if (++sprite->data[2] == sprite->data[3])
DestroyAnimSprite(sprite);
}
// Performs a simple color blend on a specified sprite.
// arg 0: palette selector
// arg 1: delay
// arg 2: start blend amount
// arg 3: end blend amount
// arg 4: blend color
static void AnimSimplePaletteBlend(struct Sprite *sprite)
{
u32 selectedPalettes = UnpackSelectedBattlePalettes(gBattleAnimArgs[0]);
BeginNormalPaletteFade(selectedPalettes, gBattleAnimArgs[1], gBattleAnimArgs[2], gBattleAnimArgs[3], gBattleAnimArgs[4]);
sprite->invisible = TRUE;
sprite->callback = AnimSimplePaletteBlend_Step;
}
// Unpacks a bitfield and returns a bitmask of its selected palettes.
// Bits 0-6 of the selector parameter result in the following palettes being selected:
// 0: F_PAL_BG, battle background palettes (BG palettes 1, 2, and 3)
// 1: F_PAL_ATTACKER, gBattleAnimAttacker OBJ palette
// 2: F_PAL_TARGET, gBattleAnimTarget OBJ palette
// 3: F_PAL_ATK_PARTNER, gBattleAnimAttacker partner OBJ palette
// 4: F_PAL_DEF_PARTNER, gBattleAnimTarget partner OBJ palette
// 5: F_PAL_ANIM_1, BG palette 8 (or 14, if in Contest)
// 6: F_PAL_ANIM_2, BG palette 9
u32 UnpackSelectedBattlePalettes(s16 selector)
{
bool8 battleBackground = selector & 1;
bool8 attacker = (selector >> 1) & 1;
bool8 target = (selector >> 2) & 1;
bool8 attackerPartner = (selector >> 3) & 1;
bool8 targetPartner = (selector >> 4) & 1;
bool8 anim1 = (selector >> 5) & 1;
bool8 anim2 = (selector >> 6) & 1;
return GetBattlePalettesMask(battleBackground, attacker, target, attackerPartner, targetPartner, anim1, anim2);
}
static void AnimSimplePaletteBlend_Step(struct Sprite *sprite)
{
if (!gPaletteFade.active)
DestroyAnimSprite(sprite);
}
static void AnimComplexPaletteBlend(struct Sprite *sprite)
{
u32 selectedPalettes;
sprite->data[0] = gBattleAnimArgs[1];
sprite->data[1] = gBattleAnimArgs[1];
sprite->data[2] = gBattleAnimArgs[2];
sprite->data[3] = gBattleAnimArgs[3];
sprite->data[4] = gBattleAnimArgs[4];
sprite->data[5] = gBattleAnimArgs[5];
sprite->data[6] = gBattleAnimArgs[6];
sprite->data[7] = gBattleAnimArgs[0];
selectedPalettes = UnpackSelectedBattlePalettes(sprite->data[7]);
BlendPalettes(selectedPalettes, gBattleAnimArgs[4], gBattleAnimArgs[3]);
sprite->invisible = TRUE;
sprite->callback = AnimComplexPaletteBlend_Step1;
}
static void AnimComplexPaletteBlend_Step1(struct Sprite *sprite)
{
u32 selectedPalettes;
if (sprite->data[0] > 0)
{
sprite->data[0]--;
return;
}
if (gPaletteFade.active)
return;
if (sprite->data[2] == 0)
{
sprite->callback = AnimComplexPaletteBlend_Step2;
return;
}
selectedPalettes = UnpackSelectedBattlePalettes(sprite->data[7]);
if (sprite->data[1] & 0x100)
BlendPalettes(selectedPalettes, sprite->data[4], sprite->data[3]);
else
BlendPalettes(selectedPalettes, sprite->data[6], sprite->data[5]);
sprite->data[1] ^= 0x100;
sprite->data[0] = sprite->data[1] & 0xFF;
sprite->data[2]--;
}
static void AnimComplexPaletteBlend_Step2(struct Sprite *sprite)
{
u32 selectedPalettes;
if (!gPaletteFade.active)
{
selectedPalettes = UnpackSelectedBattlePalettes(sprite->data[7]);
BlendPalettes(selectedPalettes, 0, 0);
DestroyAnimSprite(sprite);
}
}
static void AnimCirclingSparkle(struct Sprite *sprite)
{
sprite->x += gBattleAnimArgs[0];
sprite->y += gBattleAnimArgs[1];
sprite->data[0] = 0;
sprite->data[1] = 10;
sprite->data[2] = 8;
sprite->data[3] = 40;
sprite->data[4] = 112;
sprite->data[5] = 0;
StoreSpriteCallbackInData6(sprite, DestroySpriteAndMatrix);
sprite->callback = TranslateSpriteInGrowingCircle;
sprite->callback(sprite);
}
// Task data for AnimTask_BlendColorCycle, AnimTask_BlendColorCycleExclude, and AnimTask_BlendColorCycleByTag
#define tPalSelector data[0] // AnimTask_BlendColorCycle
#define tPalTag data[0] // AnimTask_BlendColorCycleByTag
#define tDelay data[1]
#define tNumBlends data[2]
#define tInitialBlendY data[3]
#define tTargetBlendY data[4]
#define tBlendColor data[5]
#define tRestoreBlend data[8]
#define tPalSelectorHi data[9]
#define tPalSelectorLo data[10]
// Blends mon/screen to designated color or back alternately tNumBlends times
// Many uses of this task only set a tNumBlends of 2, which has the effect of blending to a color and back once
void AnimTask_BlendColorCycle(u8 taskId)
{
gTasks[taskId].tPalSelector = gBattleAnimArgs[0];
gTasks[taskId].tDelay = gBattleAnimArgs[1];
gTasks[taskId].tNumBlends = gBattleAnimArgs[2];
gTasks[taskId].tInitialBlendY = gBattleAnimArgs[3];
gTasks[taskId].tTargetBlendY = gBattleAnimArgs[4];
gTasks[taskId].tBlendColor = gBattleAnimArgs[5];
gTasks[taskId].tRestoreBlend = FALSE;
BlendColorCycle(taskId, 0, gTasks[taskId].tTargetBlendY);
gTasks[taskId].func = AnimTask_BlendColorCycleLoop;
}
static void BlendColorCycle(u8 taskId, u8 startBlendAmount, u8 targetBlendAmount)
{
u32 selectedPalettes = UnpackSelectedBattlePalettes(gTasks[taskId].tPalSelector);
BeginNormalPaletteFade(
selectedPalettes,
gTasks[taskId].tDelay,
startBlendAmount,
targetBlendAmount,
gTasks[taskId].tBlendColor);
gTasks[taskId].tNumBlends--;
gTasks[taskId].tRestoreBlend ^= 1;
}
static void AnimTask_BlendColorCycleLoop(u8 taskId)
{
u8 startBlendAmount, targetBlendAmount;
if (!gPaletteFade.active)
{
if (gTasks[taskId].tNumBlends > 0)
{
if (!gTasks[taskId].tRestoreBlend)
{
// Blend to designated color
startBlendAmount = gTasks[taskId].tInitialBlendY;
targetBlendAmount = gTasks[taskId].tTargetBlendY;
}
else
{
// Blend back to original color
startBlendAmount = gTasks[taskId].tTargetBlendY;
targetBlendAmount = gTasks[taskId].tInitialBlendY;
}
if (gTasks[taskId].tNumBlends == 1)
targetBlendAmount = 0;
BlendColorCycle(taskId, startBlendAmount, targetBlendAmount);
}
else
{
DestroyAnimVisualTask(taskId);
}
}
}
// See AnimTask_BlendColorCycle. Same, but excludes Attacker and Target
void AnimTask_BlendColorCycleExclude(u8 taskId)
{
int battler;
u32 selectedPalettes = 0;
gTasks[taskId].data[0] = gBattleAnimArgs[0];
gTasks[taskId].tDelay = gBattleAnimArgs[1];
gTasks[taskId].tNumBlends = gBattleAnimArgs[2];
gTasks[taskId].tInitialBlendY = gBattleAnimArgs[3];
gTasks[taskId].tTargetBlendY = gBattleAnimArgs[4];
gTasks[taskId].tBlendColor = gBattleAnimArgs[5];
gTasks[taskId].tRestoreBlend = 0;
for (battler = 0; battler < gBattlersCount; battler++)
{
if (battler != gBattleAnimAttacker && battler != gBattleAnimTarget)
selectedPalettes |= 1 << (battler + 16);
}
if (gBattleAnimArgs[0] == 1)
selectedPalettes |= 0xE;
gTasks[taskId].tPalSelectorHi = selectedPalettes >> 16;
gTasks[taskId].tPalSelectorLo = selectedPalettes & 0xFF;
BlendColorCycleExclude(taskId, 0, gTasks[taskId].tTargetBlendY);
gTasks[taskId].func = AnimTask_BlendColorCycleExcludeLoop;
}
static void BlendColorCycleExclude(u8 taskId, u8 startBlendAmount, u8 targetBlendAmount)
{
u32 selectedPalettes = ((u16)gTasks[taskId].tPalSelectorHi << 16) | (u16)gTasks[taskId].tPalSelectorLo;
BeginNormalPaletteFade(
selectedPalettes,
gTasks[taskId].tDelay,
startBlendAmount,
targetBlendAmount,
gTasks[taskId].tBlendColor);
gTasks[taskId].tNumBlends--;
gTasks[taskId].tRestoreBlend ^= 1;
}
static void AnimTask_BlendColorCycleExcludeLoop(u8 taskId)
{
u8 startBlendAmount, targetBlendAmount;
if (!gPaletteFade.active)
{
if (gTasks[taskId].tNumBlends > 0)
{
if (!gTasks[taskId].tRestoreBlend)
{
// Blend to designated color
startBlendAmount = gTasks[taskId].tInitialBlendY;
targetBlendAmount = gTasks[taskId].tTargetBlendY;
}
else
{
// Blend back to original color
startBlendAmount = gTasks[taskId].tTargetBlendY;
targetBlendAmount = gTasks[taskId].tInitialBlendY;
}
if (gTasks[taskId].tNumBlends == 1)
targetBlendAmount = 0;
BlendColorCycleExclude(taskId, startBlendAmount, targetBlendAmount);
}
else
{
DestroyAnimVisualTask(taskId);
}
}
}
// See AnimTask_BlendColorCycle. Same, but selects palette by ANIM_TAG_*
void AnimTask_BlendColorCycleByTag(u8 taskId)
{
gTasks[taskId].tPalTag = gBattleAnimArgs[0];
gTasks[taskId].tDelay = gBattleAnimArgs[1];
gTasks[taskId].tNumBlends = gBattleAnimArgs[2];
gTasks[taskId].tInitialBlendY = gBattleAnimArgs[3];
gTasks[taskId].tTargetBlendY = gBattleAnimArgs[4];
gTasks[taskId].tBlendColor = gBattleAnimArgs[5];
gTasks[taskId].tRestoreBlend = FALSE;
BlendColorCycleByTag(taskId, 0, gTasks[taskId].tTargetBlendY);
gTasks[taskId].func = AnimTask_BlendColorCycleByTagLoop;
}
static void BlendColorCycleByTag(u8 taskId, u8 startBlendAmount, u8 targetBlendAmount)
{
u8 paletteIndex = IndexOfSpritePaletteTag(gTasks[taskId].tPalTag);
BeginNormalPaletteFade(
1 << (paletteIndex + 16),
gTasks[taskId].tDelay,
startBlendAmount,
targetBlendAmount,
gTasks[taskId].tBlendColor);
gTasks[taskId].tNumBlends--;
gTasks[taskId].tRestoreBlend ^= 1;
}
static void AnimTask_BlendColorCycleByTagLoop(u8 taskId)
{
u8 startBlendAmount, targetBlendAmount;
if (!gPaletteFade.active)
{
if (gTasks[taskId].tNumBlends > 0)
{
if (!gTasks[taskId].tRestoreBlend)
{
// Blend to designated color
startBlendAmount = gTasks[taskId].tInitialBlendY;
targetBlendAmount = gTasks[taskId].tTargetBlendY;
}
else
{
// Blend back to original color
startBlendAmount = gTasks[taskId].tTargetBlendY;
targetBlendAmount = gTasks[taskId].tInitialBlendY;
}
if (gTasks[taskId].tNumBlends == 1)
targetBlendAmount = 0;
BlendColorCycleByTag(taskId, startBlendAmount, targetBlendAmount);
}
else
{
DestroyAnimVisualTask(taskId);
}
}
}
#undef tPalSelector
#undef tPalTag
#undef tDelay
#undef tNumBlends
#undef tInitialBlendY
#undef tTargetBlendY
#undef tBlendColor
#undef tRestoreBlend
#undef tPalSelectorHi
#undef tPalSelectorLo
// Flashes the specified anim tag with given color. Used e.g. to flash the particles red in Hyper Beam
void AnimTask_FlashAnimTagWithColor(u8 taskId)
{
u8 paletteIndex;
gTasks[taskId].data[0] = gBattleAnimArgs[1];
gTasks[taskId].data[1] = gBattleAnimArgs[1];
gTasks[taskId].data[2] = gBattleAnimArgs[2];
gTasks[taskId].data[3] = gBattleAnimArgs[3];
gTasks[taskId].data[4] = gBattleAnimArgs[4];
gTasks[taskId].data[5] = gBattleAnimArgs[5];
gTasks[taskId].data[6] = gBattleAnimArgs[6];
gTasks[taskId].data[7] = gBattleAnimArgs[0];
paletteIndex = IndexOfSpritePaletteTag(gBattleAnimArgs[0]);
BeginNormalPaletteFade(
1 << (paletteIndex + 16),
0,
gBattleAnimArgs[4],
gBattleAnimArgs[4],
gBattleAnimArgs[3]);
gTasks[taskId].func = AnimTask_FlashAnimTagWithColor_Step1;
}
static void AnimTask_FlashAnimTagWithColor_Step1(u8 taskId)
{
u32 selectedPalettes;
if (gTasks[taskId].data[0] > 0)
{
gTasks[taskId].data[0]--;
return;
}
if (gPaletteFade.active)
return;
if (gTasks[taskId].data[2] == 0)
{
gTasks[taskId].func = AnimTask_FlashAnimTagWithColor_Step2;
return;
}
selectedPalettes = 1 << (IndexOfSpritePaletteTag(gTasks[taskId].data[7]) + 16);
if (gTasks[taskId].data[1] & 0x100)
{
BeginNormalPaletteFade(
selectedPalettes,
0,
gTasks[taskId].data[4],
gTasks[taskId].data[4],
gTasks[taskId].data[3]);
}
else
{
BeginNormalPaletteFade(
selectedPalettes,
0,
gTasks[taskId].data[6],
gTasks[taskId].data[6],
gTasks[taskId].data[5]);
}
gTasks[taskId].data[1] ^= 0x100;
gTasks[taskId].data[0] = gTasks[taskId].data[1] & 0xFF;
gTasks[taskId].data[2]--;
}
static void AnimTask_FlashAnimTagWithColor_Step2(u8 taskId)
{
u32 selectedPalettes;
if (!gPaletteFade.active)
{
selectedPalettes = 1 << (IndexOfSpritePaletteTag(gTasks[taskId].data[7]) + 16);
BeginNormalPaletteFade(selectedPalettes, 0, 0, 0, RGB_BLACK);
DestroyAnimVisualTask(taskId);
}
}
void AnimTask_InvertScreenColor(u8 taskId)
{
u32 selectedPalettes = 0;
u8 attackerBattler = gBattleAnimAttacker;
u8 targetBattler = gBattleAnimTarget;
if (gBattleAnimArgs[0] & 0x100)
selectedPalettes = GetBattlePalettesMask(TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE);
if (gBattleAnimArgs[1] & 0x100)
selectedPalettes |= (0x10000 << attackerBattler);
if (gBattleAnimArgs[2] & 0x100)
selectedPalettes |= (0x10000 << targetBattler);
InvertPlttBuffer(selectedPalettes);
DestroyAnimVisualTask(taskId);
}
// Unused
#define tTimer data[0]
#define tLength data[1]
#define tFlagsScenery data[2]
#define tFlagsAttacker data[3]
#define tFlagsTarget data[4]
#define tColorR data[5]
#define tColorG data[6]
#define tColorB data[7]
void AnimTask_TintPalettes(u8 taskId)
{
u8 attackerBattler;
u8 targetBattler;
u8 paletteIndex;
u32 selectedPalettes = 0;
if (gTasks[taskId].tTimer == 0)
{
gTasks[taskId].tFlagsScenery = gBattleAnimArgs[0];
gTasks[taskId].tFlagsAttacker = gBattleAnimArgs[1];
gTasks[taskId].tFlagsTarget = gBattleAnimArgs[2];
gTasks[taskId].tLength = gBattleAnimArgs[3];
gTasks[taskId].tColorR = gBattleAnimArgs[4];
gTasks[taskId].tColorG = gBattleAnimArgs[5];
gTasks[taskId].tColorB = gBattleAnimArgs[6];
}
gTasks[taskId].tTimer++;
attackerBattler = gBattleAnimAttacker;
targetBattler = gBattleAnimTarget;
if (gTasks[taskId].tFlagsScenery & (1 << 8))
selectedPalettes = PALETTES_BG;
if (gTasks[taskId].tFlagsScenery & 1)
{
paletteIndex = IndexOfSpritePaletteTag(gSprites[gHealthboxSpriteIds[attackerBattler]].template->paletteTag);
selectedPalettes |= (1 << paletteIndex) << 16;
}
if (gTasks[taskId].tFlagsAttacker & (1 << 8))
selectedPalettes |= (1 << attackerBattler) << 16;
if (gTasks[taskId].tFlagsTarget & (1 << 8))
selectedPalettes |= (1 << targetBattler) << 16;
TintPlttBuffer(selectedPalettes, gTasks[taskId].tColorR, gTasks[taskId].tColorG, gTasks[taskId].tColorB);
if (gTasks[taskId].tTimer == gTasks[taskId].tLength)
{
UnfadePlttBuffer(selectedPalettes);
DestroyAnimVisualTask(taskId);
}
}
#undef tTimer
#undef tLength
#undef tFlagsScenery
#undef tFlagsAttacker
#undef tFlagsTarget
#undef tColorR
#undef tColorG
#undef tColorB
static void AnimShakeMonOrBattleTerrain(struct Sprite *sprite)
{
u16 var0;
sprite->invisible = TRUE;
sprite->data[0] = -gBattleAnimArgs[0];
sprite->data[1] = gBattleAnimArgs[1];
sprite->data[2] = gBattleAnimArgs[1];
sprite->data[3] = gBattleAnimArgs[2];
switch (gBattleAnimArgs[3])
{
case 0:
StoreSpriteCallbackInData6(sprite, (void *)&gBattle_BG3_X);
break;
case 1:
StoreSpriteCallbackInData6(sprite, (void *)&gBattle_BG3_Y);
break;
case 2:
StoreSpriteCallbackInData6(sprite, (void *)&gSpriteCoordOffsetX);
break;
default:
StoreSpriteCallbackInData6(sprite, (void *)&gSpriteCoordOffsetY);
break;
}
sprite->data[4] = *(u16 *)(sprite->data[6] | (sprite->data[7] << 16));
sprite->data[5] = gBattleAnimArgs[3];
var0 = sprite->data[5] - 2;
if (var0 < 2)
AnimShakeMonOrBattleTerrain_UpdateCoordOffsetEnabled();
sprite->callback = AnimShakeMonOrBattleTerrain_Step;
}
static void AnimShakeMonOrBattleTerrain_Step(struct Sprite *sprite)
{
u8 i;
u16 var0;
if (sprite->data[3] > 0)
{
sprite->data[3]--;
if (sprite->data[1] > 0)
{
sprite->data[1]--;
}
else
{
sprite->data[1] = sprite->data[2];
*(u16 *)(sprite->data[6] | (sprite->data[7] << 16)) += sprite->data[0];
sprite->data[0] = -sprite->data[0];
}
}
else
{
*(u16 *)(sprite->data[6] | (sprite->data[7] << 16)) = sprite->data[4];
var0 = sprite->data[5] - 2;
if (var0 < 2)
{
for (i = 0; i < gBattlersCount; i++)
gSprites[gBattlerSpriteIds[i]].coordOffsetEnabled = FALSE;
}
DestroyAnimSprite(sprite);
}
}
static void AnimShakeMonOrBattleTerrain_UpdateCoordOffsetEnabled(void)
{
gSprites[gBattlerSpriteIds[gBattleAnimAttacker]].coordOffsetEnabled = FALSE;
gSprites[gBattlerSpriteIds[gBattleAnimTarget]].coordOffsetEnabled = FALSE;
if (gBattleAnimArgs[4] == 2)
{
gSprites[gBattlerSpriteIds[gBattleAnimAttacker]].coordOffsetEnabled = TRUE;
gSprites[gBattlerSpriteIds[gBattleAnimTarget]].coordOffsetEnabled = TRUE;
}
else
{
if (gBattleAnimArgs[4] == 0)
gSprites[gBattlerSpriteIds[gBattleAnimAttacker]].coordOffsetEnabled = TRUE;
else
gSprites[gBattlerSpriteIds[gBattleAnimTarget]].coordOffsetEnabled = TRUE;
}
}
// Task data for AnimTask_ShakeBattleTerrain
#define tXOffset data[0]
#define tYOffset data[1]
#define tNumShakes data[2]
#define tTimer data[3]
#define tShakeDelay data[8]
// Can shake battle terrain back and forth on the X or down and back to original pos on Y (cant shake up from orig pos)
// arg0: x offset of shake
// arg1: y offset of shake
// arg2: number of shakes
// arg3: time between shakes
void AnimTask_ShakeBattleTerrain(u8 taskId)
{
gTasks[taskId].tXOffset = gBattleAnimArgs[0];
gTasks[taskId].tYOffset = gBattleAnimArgs[1];
gTasks[taskId].tNumShakes = gBattleAnimArgs[2];
gTasks[taskId].tTimer = gBattleAnimArgs[3];
gTasks[taskId].tShakeDelay = gBattleAnimArgs[3];
gBattle_BG3_X = gBattleAnimArgs[0];
gBattle_BG3_Y = gBattleAnimArgs[1];
gTasks[taskId].func = AnimTask_ShakeBattleTerrain_Step;
gTasks[taskId].func(taskId);
}
static void AnimTask_ShakeBattleTerrain_Step(u8 taskId)
{
if (gTasks[taskId].tTimer == 0)
{
if (gBattle_BG3_X == gTasks[taskId].tXOffset)
gBattle_BG3_X = -gTasks[taskId].tXOffset;
else
gBattle_BG3_X = gTasks[taskId].tXOffset;
if (gBattle_BG3_Y == -gTasks[taskId].tYOffset)
gBattle_BG3_Y = 0;
else
gBattle_BG3_Y = -gTasks[taskId].tYOffset;
gTasks[taskId].tTimer = gTasks[taskId].tShakeDelay;
if (--gTasks[taskId].tNumShakes == 0)
{
gBattle_BG3_X = 0;
gBattle_BG3_Y = 0;
DestroyAnimVisualTask(taskId);
}
}
else
{
gTasks[taskId].tTimer--;
}
}
#undef tXOffset
#undef tYOffset
#undef tNumShakes
#undef tTimer
#undef tShakeDelay
static void AnimHitSplatBasic(struct Sprite *sprite)
{
StartSpriteAffineAnim(sprite, gBattleAnimArgs[3]);
if (gBattleAnimArgs[2] == ANIM_ATTACKER)
InitSpritePosToAnimAttacker(sprite, TRUE);
else
InitSpritePosToAnimTarget(sprite, TRUE);
sprite->callback = RunStoredCallbackWhenAffineAnimEnds;
StoreSpriteCallbackInData6(sprite, DestroyAnimSprite);
}
// Same as basic hit splat but takes a length of time to persist for (arg4)
static void AnimHitSplatPersistent(struct Sprite *sprite)
{
StartSpriteAffineAnim(sprite, gBattleAnimArgs[3]);
if (gBattleAnimArgs[2] == ANIM_ATTACKER)
InitSpritePosToAnimAttacker(sprite, TRUE);
else
InitSpritePosToAnimTarget(sprite, TRUE);
sprite->data[0] = gBattleAnimArgs[4];
sprite->callback = RunStoredCallbackWhenAffineAnimEnds;
StoreSpriteCallbackInData6(sprite, DestroyAnimSpriteAfterTimer);
}
// For paired hit splats whose position is inverted when used by the opponent on the player.
// Used by Twineedle and Spike Cannon
static void AnimHitSplatHandleInvert(struct Sprite *sprite)
{
if (GetBattlerSide(gBattleAnimAttacker) != B_SIDE_PLAYER && !IsContest())
gBattleAnimArgs[1] = -gBattleAnimArgs[1];
AnimHitSplatBasic(sprite);
}
static void AnimHitSplatRandom(struct Sprite *sprite)
{
if (gBattleAnimArgs[1] == -1)
gBattleAnimArgs[1] = Random2() & 3;
StartSpriteAffineAnim(sprite, gBattleAnimArgs[1]);
if (gBattleAnimArgs[0] == ANIM_ATTACKER)
InitSpritePosToAnimAttacker(sprite, FALSE);
else
InitSpritePosToAnimTarget(sprite, FALSE);
sprite->x2 += (Random2() % 48) - 24;
sprite->y2 += (Random2() % 24) - 12;
StoreSpriteCallbackInData6(sprite, DestroySpriteAndMatrix);
sprite->callback = RunStoredCallbackWhenAffineAnimEnds;
}
static void AnimHitSplatOnMonEdge(struct Sprite *sprite)
{
sprite->data[0] = GetAnimBattlerSpriteId(gBattleAnimArgs[0]);