// // Generated By: dol2asm // Translation Unit: JPADynamicsBlock // #include "JSystem/JParticle/JPADynamicsBlock.h" #include "JSystem/JMath/JMATrigonometric.h" #include "JSystem/JParticle/JPAEmitter.h" /* 8027B144-8027B220 275A84 00DC+00 1/1 0/0 0/0 .text JPAVolumePoint__FP18JPAEmitterWorkData */ void JPAVolumePoint(JPAEmitterWorkData* work) { work->mVolumeCalcData.mVolumePos.zero(); work->mVolumeCalcData.mVelOmni.set(work->mpEmtr->get_r_zh(), work->mpEmtr->get_r_zh(), work->mpEmtr->get_r_zh()); work->mVolumeCalcData.mVelAxis.set(work->mVolumeCalcData.mVelOmni.x, 0.0f, work->mVolumeCalcData.mVelOmni.z); } /* 8027B220-8027B33C 275B60 011C+00 1/1 0/0 0/0 .text JPAVolumeLine */ void JPAVolumeLine(JPAEmitterWorkData* work) { if (work->mpEmtr->checkFlag(JPADynFlag_FixedInterval)) { work->mVolumeCalcData.mVolumePos.set( 0.0f, 0.0f, work->mVolumeSize * ((work->mVolumeEmitIdx / (work->mEmitCount - 1.0f) - 0.5f))); work->mVolumeEmitIdx++; } else { work->mVolumeCalcData.mVolumePos.set(0.0f, 0.0f, work->mVolumeSize * work->mpEmtr->get_r_zh()); } work->mVolumeCalcData.mVelOmni.set(0.0f, 0.0f, work->mVolumeCalcData.mVolumePos.z * work->mGlobalScl.z); work->mVolumeCalcData.mVelAxis.set(0.0f, 0.0f, work->mVolumeCalcData.mVolumePos.z); } /* 8027B33C-8027B4E8 275C7C 01AC+00 1/1 0/0 0/0 .text JPAVolumeCircle */ // NONMATCHING regalloc. Could be issue with mul asm implementations void JPAVolumeCircle(JPAEmitterWorkData* work) { s16 theta; f32 distance; if (work->mpEmtr->checkFlag(JPADynFlag_FixedInterval)) { theta = (s16)((work->mVolumeEmitIdx << 16) / work->mEmitCount); theta = theta * work->mVolumeSweep; work->mVolumeEmitIdx++; } else { theta = work->mVolumeSweep * work->mpEmtr->get_r_ss(); } distance = work->mpEmtr->get_r_f(); if (work->mpEmtr->checkFlag(JPADynFlag_FixedDensity)) { distance = 1.0f - (distance * distance); } distance = work->mVolumeSize * (work->mVolumeMinRad + distance * (1.0f - work->mVolumeMinRad)); work->mVolumeCalcData.mVolumePos.set(distance * JMASSin(theta), 0.0f, distance * JMASCos(theta)); work->mVolumeCalcData.mVelOmni.mul(work->mVolumeCalcData.mVolumePos, work->mGlobalScl); work->mVolumeCalcData.mVelAxis.set(work->mVolumeCalcData.mVolumePos.x, 0.0f, work->mVolumeCalcData.mVolumePos.z); } /* 8027B4E8-8027B5F0 275E28 0108+00 1/1 0/0 0/0 .text JPAVolumeCube */ void JPAVolumeCube(JPAEmitterWorkData* work) { work->mVolumeCalcData.mVolumePos.set(work->mpEmtr->get_r_zh() * work->mVolumeSize, work->mpEmtr->get_r_zh() * work->mVolumeSize, work->mpEmtr->get_r_zh() * work->mVolumeSize); work->mVolumeCalcData.mVelOmni.mul(work->mVolumeCalcData.mVolumePos, work->mGlobalScl); work->mVolumeCalcData.mVelAxis.set(work->mVolumeCalcData.mVolumePos.x, 0.0f, work->mVolumeCalcData.mVolumePos.z); } /* 8027B5F0-8027B87C 275F30 028C+00 1/1 0/0 0/0 .text JPAVolumeSphere__FP18JPAEmitterWorkData */ static void JPAVolumeSphere(JPAEmitterWorkData* work) { s16 phi, theta; if (work->mpEmtr->checkFlag(JPADynFlag_FixedInterval)) { phi = (u16)(work->mVolumeX * 0x8000 / (work->mDivNumber - 1) + 0x4000); f32 tmp = (u16)(work->mVolumeAngleNum * 0x10000 / (work->mVolumeAngleMax - 1)); theta = tmp * work->mVolumeSweep + 0x8000; work->mVolumeAngleNum++; if (work->mVolumeAngleNum == work->mVolumeAngleMax) { work->mVolumeAngleNum = 0; work->mVolumeX++; if (work->mVolumeX * 2 < work->mDivNumber) { work->mVolumeAngleMax = work->mVolumeAngleMax != 1 ? work->mVolumeAngleMax + 4 : work->mVolumeAngleMax + 3; } else { work->mVolumeAngleMax = work->mVolumeAngleMax != 4 ? work->mVolumeAngleMax - 4 : 1; } } } else { phi = work->mpEmtr->get_r_ss() >> 1; theta = work->mVolumeSweep * work->mpEmtr->get_r_ss(); } f32 rnd = work->mpEmtr->get_r_f(); if (work->mpEmtr->checkFlag(JPADynFlag_FixedDensity)) { rnd = 1.0f - rnd * rnd * rnd; } f32 rad = work->mVolumeSize * (work->mVolumeMinRad + rnd * (1.0f - work->mVolumeMinRad)); work->mVolumeCalcData.mVolumePos.set(rad * JMASCos(phi) * JMASSin(theta), -rad * JMASSin(phi), rad * JMASCos(phi) * JMASCos(theta)); work->mVolumeCalcData.mVelOmni.mul(work->mVolumeCalcData.mVolumePos, work->mGlobalScl); work->mVolumeCalcData.mVelAxis.set(work->mVolumeCalcData.mVolumePos.x, 0.0f, work->mVolumeCalcData.mVolumePos.z); } /* 8027B87C-8027B9F8 2761BC 017C+00 1/1 0/0 0/0 .text JPAVolumeCylinder__FP18JPAEmitterWorkData */ static void JPAVolumeCylinder(JPAEmitterWorkData* work) { s16 theta = work->mVolumeSweep * work->mpEmtr->get_r_ss(); f32 rnd = work->mpEmtr->get_r_f(); if (work->mpEmtr->checkFlag(JPADynFlag_FixedDensity)) { rnd = 1.0f - rnd * rnd; } f32 rad = work->mVolumeSize * (work->mVolumeMinRad + rnd * (1.0f - work->mVolumeMinRad)); work->mVolumeCalcData.mVolumePos.set( rad * JMASSin(theta), work->mVolumeSize * work->mpEmtr->get_r_zp(), rad * JMASCos(theta)); work->mVolumeCalcData.mVelOmni.mul(work->mVolumeCalcData.mVolumePos, work->mGlobalScl); work->mVolumeCalcData.mVelAxis.set(work->mVolumeCalcData.mVolumePos.x, 0.0f, work->mVolumeCalcData.mVolumePos.z); } /* 8027B9F8-8027BB18 276338 0120+00 1/1 0/0 0/0 .text JPAVolumeTorus__FP18JPAEmitterWorkData */ static void JPAVolumeTorus(JPAEmitterWorkData* work) { s16 theta = work->mVolumeSweep * work->mpEmtr->get_r_ss(); s16 phi = work->mpEmtr->get_r_ss(); f32 rad = work->mVolumeSize * work->mVolumeMinRad; work->mVolumeCalcData.mVelAxis.set(rad * JMASSin(theta) * JMASCos(phi), rad * JMASSin(phi), rad * JMASCos(theta) * JMASCos(phi)); work->mVolumeCalcData.mVolumePos.set( work->mVolumeCalcData.mVelAxis.x + work->mVolumeSize * JMASSin(theta), work->mVolumeCalcData.mVelAxis.y, work->mVolumeCalcData.mVelAxis.z + work->mVolumeSize * JMASCos(theta)); work->mVolumeCalcData.mVelOmni.mul(work->mVolumeCalcData.mVolumePos, work->mGlobalScl); } /* 8027BB18-8027BB4C 276458 0034+00 0/0 1/1 0/0 .text __ct__16JPADynamicsBlockFPCUc */ JPADynamicsBlock::JPADynamicsBlock(u8 const* data) { mpData = (const JPADynamicsBlockData*)data; init(); } enum { VOL_Cube = 0x00, VOL_Sphere = 0x01, VOL_Cylinder = 0x02, VOL_Torus = 0x03, VOL_Point = 0x04, VOL_Circle = 0x05, VOL_Line = 0x06, }; /* 8027BB4C-8027BBE8 27648C 009C+00 2/1 0/0 0/0 .text init__16JPADynamicsBlockFv */ void JPADynamicsBlock::init() { switch (getVolumeType()) { case VOL_Cube: mpCalcVolumeFunc = &JPAVolumeCube; break; case VOL_Sphere: mpCalcVolumeFunc = &JPAVolumeSphere; break; case VOL_Cylinder: mpCalcVolumeFunc = &JPAVolumeCylinder; break; case VOL_Torus: mpCalcVolumeFunc = &JPAVolumeTorus; break; case VOL_Point: mpCalcVolumeFunc = &JPAVolumePoint; break; case VOL_Circle: mpCalcVolumeFunc = &JPAVolumeCircle; break; case VOL_Line: mpCalcVolumeFunc = &JPAVolumeLine; break; } } /* 8027BBE8-8027BDEC 276528 0204+00 0/0 1/1 0/0 .text * create__16JPADynamicsBlockFP18JPAEmitterWorkData */ void JPADynamicsBlock::create(JPAEmitterWorkData* work) { if (work->mpEmtr->checkStatus(JPAEmtrStts_RateStepEmit)) { s32 emitCount; s32 createCount; // Probably an inlined function. if (work->mpEmtr->checkFlag(JPADynFlag_FixedInterval)) { s32 count; if (getVolumeType() == VOL_Sphere) { count = 4 * getDivNumber() * getDivNumber() + 2; } else { count = getDivNumber(); } emitCount = count; work->mVolumeEmitIdx = 0; } else { f32 newPtclCount = work->mpEmtr->mRate * (getRateRndm() * work->mpEmtr->get_r_zp() + 1.0f); f32 newEmitCount = work->mpEmtr->mEmitCount + newPtclCount; work->mpEmtr->mEmitCount = newEmitCount; emitCount = (s32)newEmitCount; work->mpEmtr->mEmitCount -= emitCount; if (work->mpEmtr->checkStatus(JPAEmtrStts_FirstEmit) && 0.0f < newPtclCount && newPtclCount < 1.0f) emitCount = 1; } work->mEmitCount = emitCount; if (work->mpEmtr->checkStatus(JPAEmtrStts_StopEmit)) { emitCount = 0; } // Probably an inlined function. createCount = emitCount; while (createCount > 0) { JPABaseParticle* ptcl = work->mpEmtr->createParticle(); if (ptcl == NULL) break; createCount--; } } if (++work->mpEmtr->mRateStepTimer >= (work->mpEmtr->mRateStep + 1)) { work->mpEmtr->mRateStepTimer -= (work->mpEmtr->mRateStep + 1); work->mpEmtr->setStatus(JPAEmtrStts_RateStepEmit); } else { work->mpEmtr->clearStatus(JPAEmtrStts_RateStepEmit); } work->mpEmtr->clearStatus(JPAEmtrStts_FirstEmit); }