#include "asm.h" #include "area.h" #include "player.h" #include "coord.h" #include "common.h" #include "sound.h" #include "room.h" #include "functions.h" extern u8 gUnk_08114F78[]; extern u8 gUnk_08114F80[]; typedef struct { u32 _0; u16 _4[0x1000]; u8 _2004[0x2000]; } struct_02025EB0; extern struct_02025EB0 gUnk_02025EB0; extern s8 gUnk_08126EE4[]; extern u8 gUnk_08114F38[]; extern u8 gUnk_08114F58[]; void sub_080027EA(Entity*, u32, u32); u32 sub_0806F58C(Entity*, Entity*); u32 sub_0806FCA0(Entity*, Entity*); void sub_0806F364(void) { gArea.filler[2] ^= 0x80; MemClear(&gArea.filler5[(gArea.filler[2] + 7) / 8], 16); } void sub_0806F38C(void) { gArea.filler[2] ^= 0x80; } u32 sub_0806F39C(Entity* ent) { s32 dist; if (gPlayerEntity.animationState & 2) { dist = ent->x.HALF.HI - gPlayerEntity.x.HALF.HI; } else { dist = ent->y.HALF.HI - gPlayerEntity.y.HALF.HI; } if (dist < 0) { dist = -dist; } if (dist > 64) { sub_080027EA(&gPlayerEntity, ent->speed, ent->direction); return 1; } return 0; } u32 sub_0806F3E4(Entity* ent) { Entity tmp_ent; s8* p; if ((gPlayerState.field_0x1c & 0x7F) != 1) return 0; switch (gPlayerState.field_0x1d) { case 1: ent->field_0x46 += 64; break; case 2: ent->field_0x46 += 128; break; case 3: ent->field_0x46 += 192; break; } if (ent->field_0x46 > 0x500) ent->field_0x46 = 0x500; p = &gUnk_08126EE4[gPlayerEntity.animationState & 0xE]; tmp_ent.x.HALF.HI = p[0] + gPlayerEntity.x.HALF.HI; tmp_ent.y.HALF.HI = p[1] + gPlayerEntity.y.HALF.HI; LinearMoveDirection(ent, ent->field_0x46, GetFacingDirection(ent, &tmp_ent)); if (sub_0800419C(&tmp_ent, ent, 4, 4)) { u32 state = ent->field_0x1c & 0xF; if (state == 2) { Entity* item; ent->subAction = 3; (Entity*)gPlayerEntity.field_0x70.WORD = ent; gPlayerState.field_0x1c = 7; item = CreatePlayerItem(0x11, 0, 0, 0); if (item != NULL) { item->child = ent; ent->parent = item; } SoundReq(SFX_ED); } else if (state == 1) { gPlayerState.item->type = 1; SoundReq(SFX_EF); } return 1; } return 0; } void sub_0806F4E8(Entity* ent) { switch (ent->field_0x1d & 3) { case 2: ent->spriteOffsetX = -2; break; case 1: ent->spriteOffsetX = 0; break; case 0: ent->spriteOffsetX = 2; break; case 3: ent->spriteOffsetX = 0; break; } } u32 sub_0806F520(Entity* ent) { if (ent->bitfield == 0x93) return 1; ent->field_0x3a &= ~4; ent->spriteOffsetY = 0; return 0; } u32 sub_0806F548(Entity* a, Entity* b, u32 x, u32 y) { if (EntityInRectRadius(a, b, x, y)) return sub_0806F58C(a, b); return 0; } u32 sub_0806F564(Entity* ent, u32 b, u32 c) { u32 tmp = sub_080045D4(ent->x.HALF.HI, ent->y.HALF.HI, b, c); return ent->animationState == sub_0806F5A4(tmp); } u32 sub_0806F58C(Entity* a, Entity* b) { return a->animationState >> 1 == sub_0806FCA0(a, b); } u32 sub_0806F5A4(u32 idx) { return gUnk_08114F38[idx]; } u32 sub_0806F5B0(u32 idx) { return gUnk_08114F58[idx]; } void LinearMoveDirection(Entity* ent, u32 a, u32 b) { if ((b & 0x80) == 0) { u32 m1 = b; ent->x.WORD += FixedDiv(FixedMul(gSineTable[m1 *= 8], a), 256) << 8; ent->y.WORD -= FixedDiv(FixedMul(gSineTable[m1 + 64], a), 256) << 8; } } void LinearMoveAngle(Entity* ent, u32 a, u32 b) { ent->x.WORD += FixedDiv(FixedMul(gSineTable[(u8)b], a), 256) << 8; ent->y.WORD -= FixedDiv(FixedMul(gSineTable[(u8)b + 64], a), 256) << 8; } void LinearMoveUpdate(Entity* ent) { if ((ent->direction & 0x80) == 0) { ent->x.WORD += FixedDiv(FixedMul(gSineTable[ent->direction * 8], ent->speed), (1 << 8)) << 8; ent->y.WORD -= FixedDiv(FixedMul(gSineTable[ent->direction * 8 + 64], ent->speed), (1 << 8)) << 8; } } void sub_0806F704(Entity* ent, u32 a2) { ent->x.HALF.HI = (((16 * a2) & 0x3F0) | 8) + gRoomControls.origin_x; ent->y.HALF.HI = (((a2 >> 2) & 0x3F0) | 8) + gRoomControls.origin_y; } u32 sub_0806F730(Entity* ent) { u32 tmp = 0x3F; u32 x = ent->x.HALF.HI + ent->hitbox->offset_x - gRoomControls.origin_x; u32 y = ent->y.HALF.HI + ent->hitbox->offset_y - gRoomControls.origin_y; switch (ent->animationState) { case 0: y -= ent->hitbox->unk2[3]; break; case 4: y += ent->hitbox->unk2[3]; break; case 2: x += ent->hitbox->unk2[0]; break; case 6: x -= ent->hitbox->unk2[0]; break; } return ((x >> 4) & tmp) + (((y >> 4) & tmp) << 6); } u32 sub_0806F798(Entity* ent) { u32 hitboxX = ent->x.HALF.HI + ent->hitbox->offset_x - gRoomControls.origin_x; u32 hitboxY = ent->y.HALF.HI + ent->hitbox->offset_y - gRoomControls.origin_y; u32 mask = 0x3f; return (mask & (hitboxX >> 4)) + ((mask & (hitboxY >> 4)) << 6); } u32 sub_0806F7D0(Entity* ent) { return gUnk_02025EB0._2004[sub_0806F730(ent)]; } u32 sub_0806F7EC(Entity* ent) { return gUnk_02025EB0._4[sub_0806F730(ent)]; } u32 sub_0806F804(u32 x, u32 y) { u32 idx = ((x >> 4) & 0x3F) + 4 * (y & 0x3F0); return gUnk_02025EB0._4[idx]; } u32 sub_0806F824(Entity* a, Entity* b, s32 x, s32 y) { return sub_080045D4(a->x.HALF.HI, a->y.HALF.HI, b->x.HALF.HI + x, b->y.HALF.HI + y); } u32 sub_0806F854(Entity* ent, s32 x, s32 y) { if (ent->z.WORD == 0 || (ent->collisionLayer & 2)) return 0; if (!sub_080002F0(TILE(ent->x.HALF.HI + x, ent->y.HALF.HI + y), 2, 8)) { ent->spriteRendering.b3 = 1; ent->spriteOrientation.flipY = 1; return 0; } ent->spriteRendering.b3 = 2; ent->spriteOrientation.flipY = 2; return 1; } u32 sub_0806F8DC(Entity* ent) { if (ent->collisionLayer & 2) return 0; if (!GetTileTypeByPos(ent->x.HALF.HI, ent->y.HALF.HI - 4, 2)) { GetTileTypeByPos(ent->x.HALF.HI, ent->y.HALF.HI - 4, ent->collisionLayer); ent->spriteRendering.b3 = 1; ent->spriteOrientation.flipY = 1; return 0; } ent->spriteRendering.b3 = 2; ent->spriteOrientation.flipY = 2; return 1; } u32 sub_0806F948(Entity* ent) { u32 v1; if (gPlayerState.field_0xd == 0xFF) return ent->animationState; v1 = gPlayerState.field_0xd / 4; if ((v1 & 1) && !(((v1 + 1) - ent->animationState) & 4)) { return ent->animationState; } else { ent->spriteSettings.flipX = v1 > 4; ent->animationState = v1 & 6; } return ent->animationState; } u32 sub_0806F998(Entity* ent) { u8 state = ent->animationState; if ((ent->direction & 0x80) == 0) { if ((((ent->direction & 0x1c) >> 2) & 0x1) == 0 || ((((ent->direction & 0x1c) >> 2) - state + 1) & 0x4)) { u8 dir = ent->direction; state = ent->animationState = (dir >> 2) & 0x7e; if (ent->animationState <= 4) { ent->spriteSettings.flipX = 0; } else { ent->spriteSettings.flipX = 1; } } } return state; } s16 FixedMul(s16 r0, s16 r1) { s32 temp = r0 * r1; if (temp < 0) return (temp + 255) >> 8; else return temp >> 8; } s16 FixedDiv(s16 r0, s16 r1) { if (r1 == 0) return 0; else return (r0 * 256) / r1; } void CopyPosition(Entity* source, Entity* target) { PositionRelative(source, target, 0, 0); } void PositionEntityOnTop(Entity* source, Entity* target) { PositionRelative(source, target, 0, 0); SortEntityAbove(source, target); } void PositionRelative(Entity* source, Entity* target, s32 offsetX, s32 offsetY) { s32 x; s32 y; x = source->x.WORD; target->x.WORD = x + offsetX; y = source->y.WORD; target->y.WORD = y + offsetY; target->z = source->z; target->collisionLayer = source->collisionLayer; UpdateSpriteForCollisionLayer(target); } void CopyPositionAndSpriteOffset(Entity* source, Entity* target) { target->spriteOffsetX = source->spriteOffsetX; target->spriteOffsetY = source->spriteOffsetY; PositionRelative(source, target, 0, 0); } void sub_0806FA90(Entity* source, Entity* target, s32 offsetX, s32 offsetY) { target->spriteOffsetX = source->spriteOffsetX; target->spriteOffsetY = source->spriteOffsetY; PositionRelative(source, target, Q_16_16(offsetX), Q_16_16(offsetY)); } void SortEntityAbove(Entity* relativeTo, Entity* above) { above->spritePriority.b0 = gUnk_08114F78[relativeTo->spritePriority.b0]; } void SortEntityBelow(Entity* relativeTo, Entity* below) { below->spritePriority.b0 = gUnk_08114F80[relativeTo->spritePriority.b0]; } // Values of sin(x*(π/128)) as Q8.8 fixed-point numbers from x = 0 to x = 319 const s16 gSineTable[64] = { Q_8_8(0), // sin(0*(π/128)) Q_8_8(0.0234375), // sin(1*(π/128)) Q_8_8(0.046875), // sin(2*(π/128)) Q_8_8(0.0703125), // sin(3*(π/128)) Q_8_8(0.09765625), // sin(4*(π/128)) Q_8_8(0.12109375), // sin(5*(π/128)) Q_8_8(0.14453125), // sin(6*(π/128)) Q_8_8(0.16796875), // sin(7*(π/128)) Q_8_8(0.19140625), // sin(8*(π/128)) Q_8_8(0.21875), // sin(9*(π/128)) Q_8_8(0.2421875), // sin(10*(π/128)) Q_8_8(0.265625), // sin(11*(π/128)) Q_8_8(0.2890625), // sin(12*(π/128)) Q_8_8(0.3125), // sin(13*(π/128)) Q_8_8(0.3359375), // sin(14*(π/128)) Q_8_8(0.359375), // sin(15*(π/128)) Q_8_8(0.37890625), // sin(16*(π/128)) Q_8_8(0.40234375), // sin(17*(π/128)) Q_8_8(0.42578125), // sin(18*(π/128)) Q_8_8(0.44921875), // sin(19*(π/128)) Q_8_8(0.46875), // sin(20*(π/128)) Q_8_8(0.4921875), // sin(21*(π/128)) Q_8_8(0.51171875), // sin(22*(π/128)) Q_8_8(0.53125), // sin(23*(π/128)) Q_8_8(0.5546875), // sin(24*(π/128)) Q_8_8(0.57421875), // sin(25*(π/128)) Q_8_8(0.59375), // sin(26*(π/128)) Q_8_8(0.61328125), // sin(27*(π/128)) Q_8_8(0.6328125), // sin(28*(π/128)) Q_8_8(0.65234375), // sin(29*(π/128)) Q_8_8(0.66796875), // sin(30*(π/128)) Q_8_8(0.6875), // sin(31*(π/128)) Q_8_8(0.70703125), // sin(32*(π/128)) Q_8_8(0.72265625), // sin(33*(π/128)) Q_8_8(0.73828125), // sin(34*(π/128)) Q_8_8(0.75390625), // sin(35*(π/128)) Q_8_8(0.76953125), // sin(36*(π/128)) Q_8_8(0.78515625), // sin(37*(π/128)) Q_8_8(0.80078125), // sin(38*(π/128)) Q_8_8(0.81640625), // sin(39*(π/128)) Q_8_8(0.828125), // sin(40*(π/128)) Q_8_8(0.84375), // sin(41*(π/128)) Q_8_8(0.85546875), // sin(42*(π/128)) Q_8_8(0.8671875), // sin(43*(π/128)) Q_8_8(0.87890625), // sin(44*(π/128)) Q_8_8(0.890625), // sin(45*(π/128)) Q_8_8(0.90234375), // sin(46*(π/128)) Q_8_8(0.9140625), // sin(47*(π/128)) Q_8_8(0.921875), // sin(48*(π/128)) Q_8_8(0.9296875), // sin(49*(π/128)) Q_8_8(0.94140625), // sin(50*(π/128)) Q_8_8(0.94921875), // sin(51*(π/128)) Q_8_8(0.953125), // sin(52*(π/128)) Q_8_8(0.9609375), // sin(53*(π/128)) Q_8_8(0.96875), // sin(54*(π/128)) Q_8_8(0.97265625), // sin(55*(π/128)) Q_8_8(0.98046875), // sin(56*(π/128)) Q_8_8(0.984375), // sin(57*(π/128)) Q_8_8(0.98828125), // sin(58*(π/128)) Q_8_8(0.9921875), // sin(59*(π/128)) Q_8_8(0.9921875), // sin(60*(π/128)) Q_8_8(0.99609375), // sin(61*(π/128)) Q_8_8(0.99609375), // sin(62*(π/128)) Q_8_8(0.99609375), // sin(63*(π/128)) }; const s16 gCosineTable[256] = { Q_8_8(1), // sin(64*(π/128)) Q_8_8(0.99609375), // sin(65*(π/128)) Q_8_8(0.99609375), // sin(66*(π/128)) Q_8_8(0.99609375), // sin(67*(π/128)) Q_8_8(0.9921875), // sin(68*(π/128)) Q_8_8(0.9921875), // sin(69*(π/128)) Q_8_8(0.98828125), // sin(70*(π/128)) Q_8_8(0.984375), // sin(71*(π/128)) Q_8_8(0.98046875), // sin(72*(π/128)) Q_8_8(0.97265625), // sin(73*(π/128)) Q_8_8(0.96875), // sin(74*(π/128)) Q_8_8(0.9609375), // sin(75*(π/128)) Q_8_8(0.953125), // sin(76*(π/128)) Q_8_8(0.94921875), // sin(77*(π/128)) Q_8_8(0.94140625), // sin(78*(π/128)) Q_8_8(0.9296875), // sin(79*(π/128)) Q_8_8(0.921875), // sin(80*(π/128)) Q_8_8(0.9140625), // sin(81*(π/128)) Q_8_8(0.90234375), // sin(82*(π/128)) Q_8_8(0.890625), // sin(83*(π/128)) Q_8_8(0.87890625), // sin(84*(π/128)) Q_8_8(0.8671875), // sin(85*(π/128)) Q_8_8(0.85546875), // sin(86*(π/128)) Q_8_8(0.84375), // sin(87*(π/128)) Q_8_8(0.828125), // sin(88*(π/128)) Q_8_8(0.81640625), // sin(89*(π/128)) Q_8_8(0.80078125), // sin(90*(π/128)) Q_8_8(0.78515625), // sin(91*(π/128)) Q_8_8(0.76953125), // sin(92*(π/128)) Q_8_8(0.75390625), // sin(93*(π/128)) Q_8_8(0.73828125), // sin(94*(π/128)) Q_8_8(0.72265625), // sin(95*(π/128)) Q_8_8(0.70703125), // sin(96*(π/128)) Q_8_8(0.6875), // sin(97*(π/128)) Q_8_8(0.66796875), // sin(98*(π/128)) Q_8_8(0.65234375), // sin(99*(π/128)) Q_8_8(0.6328125), // sin(100*(π/128)) Q_8_8(0.61328125), // sin(101*(π/128)) Q_8_8(0.59375), // sin(102*(π/128)) Q_8_8(0.57421875), // sin(103*(π/128)) Q_8_8(0.5546875), // sin(104*(π/128)) Q_8_8(0.53125), // sin(105*(π/128)) Q_8_8(0.51171875), // sin(106*(π/128)) Q_8_8(0.4921875), // sin(107*(π/128)) Q_8_8(0.46875), // sin(108*(π/128)) Q_8_8(0.44921875), // sin(109*(π/128)) Q_8_8(0.42578125), // sin(110*(π/128)) Q_8_8(0.40234375), // sin(111*(π/128)) Q_8_8(0.37890625), // sin(112*(π/128)) Q_8_8(0.359375), // sin(113*(π/128)) Q_8_8(0.3359375), // sin(114*(π/128)) Q_8_8(0.3125), // sin(115*(π/128)) Q_8_8(0.2890625), // sin(116*(π/128)) Q_8_8(0.265625), // sin(117*(π/128)) Q_8_8(0.2421875), // sin(118*(π/128)) Q_8_8(0.21875), // sin(119*(π/128)) Q_8_8(0.19140625), // sin(120*(π/128)) Q_8_8(0.16796875), // sin(121*(π/128)) Q_8_8(0.14453125), // sin(122*(π/128)) Q_8_8(0.12109375), // sin(123*(π/128)) Q_8_8(0.09765625), // sin(124*(π/128)) Q_8_8(0.0703125), // sin(125*(π/128)) Q_8_8(0.046875), // sin(126*(π/128)) Q_8_8(0.0234375), // sin(127*(π/128)) Q_8_8(0), // sin(128*(π/128)) Q_8_8(-0.0234375), // sin(129*(π/128)) Q_8_8(-0.046875), // sin(130*(π/128)) Q_8_8(-0.0703125), // sin(131*(π/128)) Q_8_8(-0.09765625), // sin(132*(π/128)) Q_8_8(-0.12109375), // sin(133*(π/128)) Q_8_8(-0.14453125), // sin(134*(π/128)) Q_8_8(-0.16796875), // sin(135*(π/128)) Q_8_8(-0.19140625), // sin(136*(π/128)) Q_8_8(-0.21875), // sin(137*(π/128)) Q_8_8(-0.2421875), // sin(138*(π/128)) Q_8_8(-0.265625), // sin(139*(π/128)) Q_8_8(-0.2890625), // sin(140*(π/128)) Q_8_8(-0.3125), // sin(141*(π/128)) Q_8_8(-0.3359375), // sin(142*(π/128)) Q_8_8(-0.359375), // sin(143*(π/128)) Q_8_8(-0.37890625), // sin(144*(π/128)) Q_8_8(-0.40234375), // sin(145*(π/128)) Q_8_8(-0.42578125), // sin(146*(π/128)) Q_8_8(-0.44921875), // sin(147*(π/128)) Q_8_8(-0.46875), // sin(148*(π/128)) Q_8_8(-0.4921875), // sin(149*(π/128)) Q_8_8(-0.51171875), // sin(150*(π/128)) Q_8_8(-0.53125), // sin(151*(π/128)) Q_8_8(-0.5546875), // sin(152*(π/128)) Q_8_8(-0.57421875), // sin(153*(π/128)) Q_8_8(-0.59375), // sin(154*(π/128)) Q_8_8(-0.61328125), // sin(155*(π/128)) Q_8_8(-0.6328125), // sin(156*(π/128)) Q_8_8(-0.65234375), // sin(157*(π/128)) Q_8_8(-0.66796875), // sin(158*(π/128)) Q_8_8(-0.6875), // sin(159*(π/128)) Q_8_8(-0.70703125), // sin(160*(π/128)) Q_8_8(-0.72265625), // sin(161*(π/128)) Q_8_8(-0.73828125), // sin(162*(π/128)) Q_8_8(-0.75390625), // sin(163*(π/128)) Q_8_8(-0.76953125), // sin(164*(π/128)) Q_8_8(-0.78515625), // sin(165*(π/128)) Q_8_8(-0.80078125), // sin(166*(π/128)) Q_8_8(-0.81640625), // sin(167*(π/128)) Q_8_8(-0.828125), // sin(168*(π/128)) Q_8_8(-0.84375), // sin(169*(π/128)) Q_8_8(-0.85546875), // sin(170*(π/128)) Q_8_8(-0.8671875), // sin(171*(π/128)) Q_8_8(-0.87890625), // sin(172*(π/128)) Q_8_8(-0.890625), // sin(173*(π/128)) Q_8_8(-0.90234375), // sin(174*(π/128)) Q_8_8(-0.9140625), // sin(175*(π/128)) Q_8_8(-0.921875), // sin(176*(π/128)) Q_8_8(-0.9296875), // sin(177*(π/128)) Q_8_8(-0.94140625), // sin(178*(π/128)) Q_8_8(-0.94921875), // sin(179*(π/128)) Q_8_8(-0.953125), // sin(180*(π/128)) Q_8_8(-0.9609375), // sin(181*(π/128)) Q_8_8(-0.96875), // sin(182*(π/128)) Q_8_8(-0.97265625), // sin(183*(π/128)) Q_8_8(-0.98046875), // sin(184*(π/128)) Q_8_8(-0.984375), // sin(185*(π/128)) Q_8_8(-0.98828125), // sin(186*(π/128)) Q_8_8(-0.9921875), // sin(187*(π/128)) Q_8_8(-0.9921875), // sin(188*(π/128)) Q_8_8(-0.99609375), // sin(189*(π/128)) Q_8_8(-0.99609375), // sin(190*(π/128)) Q_8_8(-0.99609375), // sin(191*(π/128)) Q_8_8(-1), // sin(192*(π/128)) Q_8_8(-0.99609375), // sin(193*(π/128)) Q_8_8(-0.99609375), // sin(194*(π/128)) Q_8_8(-0.99609375), // sin(195*(π/128)) Q_8_8(-0.9921875), // sin(196*(π/128)) Q_8_8(-0.9921875), // sin(197*(π/128)) Q_8_8(-0.98828125), // sin(198*(π/128)) Q_8_8(-0.984375), // sin(199*(π/128)) Q_8_8(-0.98046875), // sin(200*(π/128)) Q_8_8(-0.97265625), // sin(201*(π/128)) Q_8_8(-0.96875), // sin(202*(π/128)) Q_8_8(-0.9609375), // sin(203*(π/128)) Q_8_8(-0.953125), // sin(204*(π/128)) Q_8_8(-0.94921875), // sin(205*(π/128)) Q_8_8(-0.94140625), // sin(206*(π/128)) Q_8_8(-0.9296875), // sin(207*(π/128)) Q_8_8(-0.921875), // sin(208*(π/128)) Q_8_8(-0.9140625), // sin(209*(π/128)) Q_8_8(-0.90234375), // sin(210*(π/128)) Q_8_8(-0.890625), // sin(211*(π/128)) Q_8_8(-0.87890625), // sin(212*(π/128)) Q_8_8(-0.8671875), // sin(213*(π/128)) Q_8_8(-0.85546875), // sin(214*(π/128)) Q_8_8(-0.84375), // sin(215*(π/128)) Q_8_8(-0.828125), // sin(216*(π/128)) Q_8_8(-0.81640625), // sin(217*(π/128)) Q_8_8(-0.80078125), // sin(218*(π/128)) Q_8_8(-0.78515625), // sin(219*(π/128)) Q_8_8(-0.76953125), // sin(220*(π/128)) Q_8_8(-0.75390625), // sin(221*(π/128)) Q_8_8(-0.73828125), // sin(222*(π/128)) Q_8_8(-0.72265625), // sin(223*(π/128)) Q_8_8(-0.70703125), // sin(224*(π/128)) Q_8_8(-0.6875), // sin(225*(π/128)) Q_8_8(-0.66796875), // sin(226*(π/128)) Q_8_8(-0.65234375), // sin(227*(π/128)) Q_8_8(-0.6328125), // sin(228*(π/128)) Q_8_8(-0.61328125), // sin(229*(π/128)) Q_8_8(-0.59375), // sin(230*(π/128)) Q_8_8(-0.57421875), // sin(231*(π/128)) Q_8_8(-0.5546875), // sin(232*(π/128)) Q_8_8(-0.53125), // sin(233*(π/128)) Q_8_8(-0.51171875), // sin(234*(π/128)) Q_8_8(-0.4921875), // sin(235*(π/128)) Q_8_8(-0.46875), // sin(236*(π/128)) Q_8_8(-0.44921875), // sin(237*(π/128)) Q_8_8(-0.42578125), // sin(238*(π/128)) Q_8_8(-0.40234375), // sin(239*(π/128)) Q_8_8(-0.37890625), // sin(240*(π/128)) Q_8_8(-0.359375), // sin(241*(π/128)) Q_8_8(-0.3359375), // sin(242*(π/128)) Q_8_8(-0.3125), // sin(243*(π/128)) Q_8_8(-0.2890625), // sin(244*(π/128)) Q_8_8(-0.265625), // sin(245*(π/128)) Q_8_8(-0.2421875), // sin(246*(π/128)) Q_8_8(-0.21875), // sin(247*(π/128)) Q_8_8(-0.19140625), // sin(248*(π/128)) Q_8_8(-0.16796875), // sin(249*(π/128)) Q_8_8(-0.14453125), // sin(250*(π/128)) Q_8_8(-0.12109375), // sin(251*(π/128)) Q_8_8(-0.09765625), // sin(252*(π/128)) Q_8_8(-0.0703125), // sin(253*(π/128)) Q_8_8(-0.046875), // sin(254*(π/128)) Q_8_8(-0.0234375), // sin(255*(π/128)) Q_8_8(0), // sin(256*(π/128)) Q_8_8(0.0234375), // sin(257*(π/128)) Q_8_8(0.046875), // sin(258*(π/128)) Q_8_8(0.0703125), // sin(259*(π/128)) Q_8_8(0.09765625), // sin(260*(π/128)) Q_8_8(0.12109375), // sin(261*(π/128)) Q_8_8(0.14453125), // sin(262*(π/128)) Q_8_8(0.16796875), // sin(263*(π/128)) Q_8_8(0.19140625), // sin(264*(π/128)) Q_8_8(0.21875), // sin(265*(π/128)) Q_8_8(0.2421875), // sin(266*(π/128)) Q_8_8(0.265625), // sin(267*(π/128)) Q_8_8(0.2890625), // sin(268*(π/128)) Q_8_8(0.3125), // sin(269*(π/128)) Q_8_8(0.3359375), // sin(270*(π/128)) Q_8_8(0.359375), // sin(271*(π/128)) Q_8_8(0.37890625), // sin(272*(π/128)) Q_8_8(0.40234375), // sin(273*(π/128)) Q_8_8(0.42578125), // sin(274*(π/128)) Q_8_8(0.44921875), // sin(275*(π/128)) Q_8_8(0.46875), // sin(276*(π/128)) Q_8_8(0.4921875), // sin(277*(π/128)) Q_8_8(0.51171875), // sin(278*(π/128)) Q_8_8(0.53125), // sin(279*(π/128)) Q_8_8(0.5546875), // sin(280*(π/128)) Q_8_8(0.57421875), // sin(281*(π/128)) Q_8_8(0.59375), // sin(282*(π/128)) Q_8_8(0.61328125), // sin(283*(π/128)) Q_8_8(0.6328125), // sin(284*(π/128)) Q_8_8(0.65234375), // sin(285*(π/128)) Q_8_8(0.66796875), // sin(286*(π/128)) Q_8_8(0.6875), // sin(287*(π/128)) Q_8_8(0.70703125), // sin(288*(π/128)) Q_8_8(0.72265625), // sin(289*(π/128)) Q_8_8(0.73828125), // sin(290*(π/128)) Q_8_8(0.75390625), // sin(291*(π/128)) Q_8_8(0.76953125), // sin(292*(π/128)) Q_8_8(0.78515625), // sin(293*(π/128)) Q_8_8(0.80078125), // sin(294*(π/128)) Q_8_8(0.81640625), // sin(295*(π/128)) Q_8_8(0.828125), // sin(296*(π/128)) Q_8_8(0.84375), // sin(297*(π/128)) Q_8_8(0.85546875), // sin(298*(π/128)) Q_8_8(0.8671875), // sin(299*(π/128)) Q_8_8(0.87890625), // sin(300*(π/128)) Q_8_8(0.890625), // sin(301*(π/128)) Q_8_8(0.90234375), // sin(302*(π/128)) Q_8_8(0.9140625), // sin(303*(π/128)) Q_8_8(0.921875), // sin(304*(π/128)) Q_8_8(0.9296875), // sin(305*(π/128)) Q_8_8(0.94140625), // sin(306*(π/128)) Q_8_8(0.94921875), // sin(307*(π/128)) Q_8_8(0.953125), // sin(308*(π/128)) Q_8_8(0.9609375), // sin(309*(π/128)) Q_8_8(0.96875), // sin(310*(π/128)) Q_8_8(0.97265625), // sin(311*(π/128)) Q_8_8(0.98046875), // sin(312*(π/128)) Q_8_8(0.984375), // sin(313*(π/128)) Q_8_8(0.98828125), // sin(314*(π/128)) Q_8_8(0.9921875), // sin(315*(π/128)) Q_8_8(0.9921875), // sin(316*(π/128)) Q_8_8(0.99609375), // sin(317*(π/128)) Q_8_8(0.99609375), // sin(318*(π/128)) Q_8_8(0.99609375), // sin(319*(π/128)) };