mirror of https://github.com/zeldaret/tp.git
253 lines
8.4 KiB
C
253 lines
8.4 KiB
C
#ifndef Z2AUDIENCE_H
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#define Z2AUDIENCE_H
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#include "JSystem/JAudio2/JAIAudience.h"
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#include "JSystem/JAudio2/JASGadget.h"
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#include "JSystem/JAudio2/JAIAudible.h"
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#include "JSystem/JAudio2/JASSoundParams.h"
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#include "JSystem/JAudio2/JASHeapCtrl.h"
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#include "JSystem/JAudio2/JAUAudibleParam.h"
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#include "JSystem/TPosition3.h"
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struct Z2Audible;
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struct Z2AudibleAbsPos {
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void calc(const JGeometry::TVec3<f32>& pos);
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void init(JGeometry::TVec3<f32>*, const JGeometry::TVec3<f32>&,
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const JGeometry::TVec3<f32>*);
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/* 0x00 */ JGeometry::TVec3<f32> field_0x0;
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/* 0x0C */ JGeometry::TVec3<f32> velocity_;
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};
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struct Z2AudioCamera {
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Z2AudioCamera();
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void init();
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void setCameraState(f32 (*)[4], Vec& pos, Vec&, f32, f32, bool, bool);
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void setCameraState(f32 const (*)[4], Vec& pos, bool);
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void convertAbsToRel(Z2Audible* audible, int channelNum);
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bool convertAbsToRel(Vec& src, Vec* dst) const;
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bool isInSight(Vec&) const;
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const JGeometry::TVec3<f32>* getPos() const { return &mPos; }
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f32 getVolCenterZ() const { return mVolCenterZ; }
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void setMainCamera(bool param_0) { mSetMainCamera = param_0; }
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void setTargetVolume(f32 vol) {
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JUT_ASSERT(281, vol <= 1.f);
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if (vol < 0.0f) {
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vol = 0.0f;
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}
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mTargetVolume = vol;
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}
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f32 getDolbyCenterZ() const { return mDolbyCenterZ; }
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f32 getFovySin() const { return mFovySin; }
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const JGeometry::TVec3<f32>* getVel() const { return &mVel; }
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/* 0x00 */ JGeometry::TPosition3f32 field_0x0;
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/* 0x30 */ JGeometry::TVec3<f32> mVel;
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/* 0x3C */ JGeometry::TVec3<f32> mPos;
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/* 0x48 */ JGeometry::TVec3<f32> field_0x48;
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/* 0x54 */ f32 mFovySin;
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/* 0x58 */ f32 mVolCenterZ;
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/* 0x5C */ f32 mTargetVolume;
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/* 0x60 */ f32 mDolbyCenterZ;
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/* 0x64 */ f32 mCamDist;
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/* 0x68 */ f32 field_0x68;
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/* 0x6C */ f32 field_0x6c;
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/* 0x70 */ bool mSetMainCamera;
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}; // Size: 0x74
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struct Z2SpotMic {
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Z2SpotMic();
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void clearMicState(int camID);
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void calcVolumeFactor(int camID);
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void setMicState(Z2AudioCamera* camera, int camID);
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f32 calcMicDist(Z2Audible* audible);
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u32 calcMicPriority(f32);
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f32 calcMicVolume(f32, int camID, f32);
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void setPosPtr(Vec* posPtr) { mPosPtr = posPtr; }
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bool isOn() { return mMicOn; }
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/* 0x00 */ f32 field_0x0;
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/* 0x04 */ f32 field_0x4;
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/* 0x08 */ f32 field_0x8;
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/* 0x0C */ f32 field_0xc;
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/* 0x10 */ Z2AudioCamera* field_0x10[1];
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/* 0x14 */ Vec* mPosPtr;
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/* 0x18 */ f32 field_0x18[1];
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/* 0x1C */ f32 field_0x1c;
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/* 0x20 */ f32 field_0x20[1];
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/* 0x24 */ bool mIgnoreIfOut;
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/* 0x25 */ bool mMicOn;
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/* 0x26 */ bool field_0x26[1];
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}; // Size: 0x28
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struct Z2Audience3DSetting {
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Z2Audience3DSetting();
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void init();
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void initVolumeDist();
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void updateVolumeDist(f32);
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void initDolbyDist();
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void updateDolbyDist(f32, f32);
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void calcVolumeFactorAll() {
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field_0x0[1] = 1.25f * field_0x0[0];
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field_0x0[2] = 1.5f * field_0x0[0];
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field_0x0[3] = 2.0f * field_0x0[0];
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field_0x0[4] = 3.0f * field_0x0[0];
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field_0x0[5] = 4.0f * field_0x0[0];
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field_0x0[6] = 6.0f * field_0x0[0];
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field_0x0[7] = 8.0f * field_0x0[0];
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field_0x0[8] = 0.9f * field_0x0[0];
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field_0x0[9] = 0.8f * field_0x0[0];
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field_0x0[10] = 0.7f * field_0x0[0];
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field_0x0[11] = 0.6f * field_0x0[0];
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field_0x0[12] = 0.5f * field_0x0[0];
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field_0x0[13] = 0.4f * field_0x0[0];
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field_0x0[14] = 0.3f * field_0x0[0];
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for (int i = 0; i < 15; i++) {
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field_0x70[i] = (field_0x40 - 1.0f) / (field_0x0[i] - field_0x3c);
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}
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}
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void calcPriorityFactorAll() {
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for (int i = 0; i < 15; i++) {
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field_0xac[i] = field_0x64 / (field_0x0[i] - field_0x3c);
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}
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}
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void calcFxMixFactorAll() {
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for (int i = 0; i < 15; i++) {
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field_0xe8[i] = (field_0x54 - field_0x50) / (field_0x0[i] - field_0x3c);
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}
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}
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/* 0x000 */ f32 field_0x0[15];
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/* 0x03C */ f32 field_0x3c;
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/* 0x040 */ f32 field_0x40;
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/* 0x044 */ f32 field_0x44;
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/* 0x048 */ f32 field_0x48;
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/* 0x04C */ f32 field_0x4c;
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/* 0x050 */ f32 field_0x50;
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/* 0x054 */ f32 field_0x54;
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/* 0x058 */ f32 field_0x58;
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/* 0x05C */ f32 field_0x5c;
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/* 0x060 */ f32 field_0x60;
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/* 0x064 */ u32 field_0x64;
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/* 0x068 */ f32 field_0x68;
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/* 0x06C */ f32 field_0x6c;
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/* 0x070 */ f32 field_0x70[15];
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/* 0x0AC */ f32 field_0xac[15];
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/* 0x0E8 */ f32 field_0xe8[15];
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/* 0x124 */ bool mVolumeDistInit;
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/* 0x125 */ bool mDolbyDistInit;
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}; // Size: 0x128
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struct Z2AudibleRelPos {
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/* 0x00 */ JGeometry::TVec3<f32> field_0x00;
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/* 0x0C */ f32 field_0xC;
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/* 0x10 */ f32 field_0x10;
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};
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struct Z2AudibleChannel {
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Z2AudibleChannel();
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void init() {
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mParams.init();
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field_0x28 = -1.0f;
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mPan = 0.5f;
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mDolby = 0.0f;
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field_0x34 = 1.0f;
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}
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/* 0x00 */ JASSoundParams mParams;
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/* 0x14 */ Z2AudibleRelPos field_0x14;
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/* 0x28 */ f32 field_0x28;
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/* 0x2c */ f32 mPan;
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/* 0x30 */ f32 mDolby;
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/* 0x34 */ f32 field_0x34;
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};
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struct Z2Audible : public JAIAudible, public JASPoolAllocObject<Z2Audible> {
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Z2Audible(const JGeometry::TVec3<f32>& pos, const JGeometry::TVec3<f32>*, u32 channel, bool);
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void calc();
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JASSoundParams* getOuterParams(int index);
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void setOuterParams(const JASSoundParams& outParams, const JASSoundParams& inParams, int index);
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Z2AudibleChannel* getChannel(int index);
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u32 getDistVolBit();
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~Z2Audible();
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bool isDoppler() {
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return ((*(u8*)&mParam.field_0x0) >> 4) & 0xf;
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}
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const JGeometry::TVec3<f32>& getPos() const { return mPos; }
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JAUAudibleParam* getAudibleParam() { return &mParam; }
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const JAUAudibleParam* getAudibleParam() const { return &mParam; }
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void setAudibleParam(JAUAudibleParam param) { mParam.field_0x0.raw = param.field_0x0.raw; }
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const JGeometry::TVec3<f32>* getVel() const { return &mAbsPos.velocity_; }
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/* 0x10 */ JAUAudibleParam mParam;
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/* 0x14 */ Z2AudibleAbsPos mAbsPos;
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/* 0x2C */ Z2AudibleChannel mChannel[1];
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/* 0x64 */ f32 field_0x64[1];
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};
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struct Z2Audience : public JAIAudience, public JASGlobalInstance<Z2Audience> {
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Z2Audience();
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void setAudioCamera(f32 (*)[4], Vec&, Vec&, f32, f32, bool, int camID, bool);
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f32 calcOffMicSound(f32);
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void setTargetVolume(f32 volume, int index);
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bool convertAbsToRel(Vec& src, Vec* dst, int camID);
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f32 calcRelPosVolume(const Vec&, f32, int camID);
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f32 calcRelPosPan(const Vec&, int camID);
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f32 calcRelPosDolby(const Vec&, int camID);
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f32 calcVolume_(f32, int distVolBit) const;
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u32 calcDeltaPriority_(f32, int distVolBit, bool) const;
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f32 calcPitchDoppler_(const JGeometry::TVec3<f32>&,
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const JGeometry::TVec3<f32>&,
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const JGeometry::TVec3<f32>&, f32) const;
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f32 calcFxMix_(f32, int distVolBit) const;
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f32 calcPitch_(Z2AudibleChannel* channel, const Z2Audible* audible, const Z2AudioCamera* camera) const;
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virtual ~Z2Audience();
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virtual JAIAudible* newAudible(const JGeometry::TVec3<f32>& pos, JAISoundID soundID,
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const JGeometry::TVec3<f32>*, u32);
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virtual int getMaxChannels();
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virtual void deleteAudible(JAIAudible* audible);
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virtual u32 calcPriority(JAIAudible* audible);
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virtual void mixChannelOut(const JASSoundParams& outParams, JAIAudible* audible, int channelNum);
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bool isActive() const;
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Z2SpotMic* getLinkMic() { return mLinkMic; }
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JGeometry::TVec3<f32> getAudioCamPos(int camID) {
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return *mAudioCamera[camID].getPos();
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}
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Z2Audience3DSetting* getSetting() { return &mSetting; }
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const Z2AudioCamera* getAudioCamera(int camID) const { return &mAudioCamera[camID]; }
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/* 0x004 */ f32 field_0x4;
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/* 0x008 */ u8 field_0x8;
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/* 0x00C */ Z2Audience3DSetting mSetting;
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/* 0x134 */ Z2AudioCamera mAudioCamera[1];
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/* 0x1A8 */ Z2SpotMic mSpotMic[1];
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/* 0x1D0 */ Z2SpotMic* mLinkMic;
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/* 0x1D4 */ s32 mNumPlayers;
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/* 0x1D8 */ u8 field_0x1d8[4];
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/* 0x1DC */ bool mUsingOffMicVol;
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}; // Size: 0x1E0
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inline Z2Audience* Z2GetAudience() {
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return JASGlobalInstance<Z2Audience>::getInstance();
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}
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extern s8 data_80451358;
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extern s8 data_80451359;
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#endif /* Z2AUDIENCE_H */
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