// // Generated by dtk // Translation Unit: d_lib.cpp // #include "d/d_lib.h" #include "d/d_com_inf_game.h" #include "d/d_s_play.h" #include "d/d_a_obj.h" #include "d/actor/d_a_sea.h" #include "m_Do/m_Do_mtx.h" #include "m_Do/m_Do_controller_pad.h" #include "SSystem/SComponent/c_math.h" Quaternion ZeroQuat = {0.0f, 0.0f, 0.0f, 1.0f}; /* 80057000-800570CC .text dLib_setCirclePath__FP18dLib_circle_path_c */ void dLib_setCirclePath(dLib_circle_path_c* path) { path->mAngle += path->mAngleSpeed; f32 rad = path->mRadius + path->mWobbleAmplitude * cM_ssin(path->mAngle); mDoMtx_stack_c::transS(path->mTranslation); mDoMtx_stack_c::YrotM(path->mAngle); mDoMtx_stack_c::transM(rad, 0.0f, 0.0f); mDoMtx_stack_c::multVecZero(&path->mPos); } /* 800570CC-8005716C .text dLib_getWaterY__FR4cXyzR12dBgS_ObjAcch */ f32 dLib_getWaterY(cXyz& pos, dBgS_ObjAcch& acch) { BOOL waterHit = acch.ChkWaterHit(); f32 waterHeight = waterHit ? acch.m_wtr.GetHeight() : C_BG_MIN_HEIGHT; if (daSea_ChkArea(pos.x, pos.z)) { f32 seaHeight = daSea_calcWave(pos.x, pos.z); if (!waterHit || seaHeight > waterHeight) { return seaHeight; } } return waterHit ? waterHeight : 0.0f; } /* 8005716C-80057368 .text dLib_waveRot__FP3VecfP11dLib_wave_c */ void dLib_waveRot(Vec* pos, f32 sway, dLib_wave_c* inf) { f32 pt_zn, pt_zp; // probably a fakematch? maybe an inline f32 wave_zn = daSea_calcWave(pos->x, (pt_zn = pos->z - 300.0f)); f32 wave_zp = daSea_calcWave(pos->x, (pt_zp = pos->z + 300.0f)); s16 az = -cM_atan2s(wave_zp - wave_zn, pt_zp - pt_zn); f32 pt_xn, pt_xp; // probably a fakematch? maybe an inline f32 wave_xn = daSea_calcWave((pt_xn = pos->x - 300.0f), pos->z); f32 wave_xp = daSea_calcWave((pt_xp = pos->x + 300.0f), pos->z); s32 ax = cM_atan2s(wave_xp - wave_xn, pt_xp - pt_xn); // maybe a fakematch with the s32 here? cLib_addCalcAngleS2(&inf->mAngX, az, 10, 0x200); cLib_addCalcAngleS2(&inf->mAngZ, ax, 10, 0x200); inf->mAnimX += 400; inf->mAnimZ += 430; f32 wave = sway + 150.0f + REG12_F(0); inf->mRotX = inf->mAngX + wave * cM_ssin(inf->mAnimX); inf->mRotZ = inf->mAngZ + wave * cM_scos(inf->mAnimZ); } /* 80057368-8005746C .text dLib_debugDrawAxis__FRA3_A4_ff */ void dLib_debugDrawAxis(Mtx& mtx, f32 length) { cXyz r1_98(length, 0.0f, 0.0f); cXyz r1_8c(0.0f, length, 0.0f); cXyz r1_80(0.0f, 0.0f, length); cXyz r1_74(0.0f, 0.0f, 0.0f); cXyz r1_68(0.0f, 0.0f, 0.0f); cXyz r1_5c(0.0f, 0.0f, 0.0f); cXyz r1_50; cXyz r1_4c; cXyz r1_40; cXyz r1_34; cXyz r1_28; cXyz r1_1c; cXyz r1_14; cXyz r1_08; mDoMtx_stack_c::copy(mtx); mDoMtx_stack_c::multVecZero(&r1_08); mDoMtx_stack_c::multVec(&r1_98, &r1_50); mDoMtx_stack_c::multVec(&r1_8c, &r1_40); mDoMtx_stack_c::multVec(&r1_80, &r1_34); mDoMtx_stack_c::multVec(&r1_74, &r1_28); mDoMtx_stack_c::multVec(&r1_68, &r1_1c); mDoMtx_stack_c::multVec(&r1_5c, &r1_14); // The rest of this function may have been commented out for release builds. } /* 8005746C-80057510 .text dLib_debugDrawFan__FR4cXyzssfRC8_GXColor */ void dLib_debugDrawFan(cXyz& center, s16 angleY, s16 fanSpreadAngle, f32 radius, const GXColor& color) { int angle1 = angleY + fanSpreadAngle; cXyz corner1(center); corner1.z += cM_scos(angle1) * radius; corner1.x += cM_ssin(angle1) * radius; int angle2 = angleY - fanSpreadAngle; cXyz corner2(center); corner2.z += cM_scos(angle2) * radius; corner2.x += cM_ssin(angle2) * radius; // The rest of this function may have been commented out for release builds. } /* 80057510-800575E0 .text dLib_brkInit__FP12J3DModelDataP13mDoExt_brkAnmPCci */ bool dLib_brkInit(J3DModelData* modelData, mDoExt_brkAnm* anm, const char* arcName, int fileno) { J3DAnmTevRegKey* brk = (J3DAnmTevRegKey*)dComIfG_getObjectRes(arcName, fileno); JUT_ASSERT(0xae, brk != NULL); if (anm->init(modelData, brk, 1, J3DFrameCtrl::EMode_NONE, 1.0f, 0, -1, false, 0) == 0) return false; return true; } /* 800575E0-800576B0 .text dLib_btkInit__FP12J3DModelDataP13mDoExt_btkAnmPCci */ bool dLib_btkInit(J3DModelData* modelData, mDoExt_btkAnm* anm, const char* arcName, int fileno) { J3DAnmTextureSRTKey* btk = (J3DAnmTextureSRTKey*)dComIfG_getObjectRes(arcName, fileno); JUT_ASSERT(0xbb, btk != NULL); if (anm->init(modelData, btk, 1, J3DFrameCtrl::EMode_NONE, 1.0f, 0, -1, false, 0) == 0) return false; return true; } static void dummy() { OSReport("bck != 0"); } /* 800576B0-80057844 .text dLib_setAnm__FPCcP14mDoExt_McaMorfPScPScPScPC14dLib_anm_idx_cPC14dLib_anm_prm_cb */ void dLib_setAnm(const char* arcName, mDoExt_McaMorf* morf, s8* pAnmIdx, s8* pPrmIdx, s8* pOldPrmIdx, const dLib_anm_idx_c* anmIdxTbl, const dLib_anm_prm_c* anmPrmTbl, bool force) { if ((*pOldPrmIdx != *pPrmIdx && anmPrmTbl[*pPrmIdx].mAnmIdx != -1) || force == true) { *pAnmIdx = anmPrmTbl[*pPrmIdx].mAnmIdx; void* sound = NULL; if (anmIdxTbl[*pAnmIdx].mSndIdx >= 0) sound = dComIfG_getObjectRes(arcName, anmIdxTbl[*pAnmIdx].mSndIdx); J3DAnmTransform* bck = (J3DAnmTransform*)dComIfG_getObjectRes(arcName, anmIdxTbl[*pAnmIdx].mBckIdx); morf->setAnm(bck, anmPrmTbl[*pPrmIdx].mLoopMode, anmPrmTbl[*pPrmIdx].mMorf, anmPrmTbl[*pPrmIdx].mPlaySpeed, 0.0f, -1.0f, sound); } *pOldPrmIdx = *pPrmIdx; if (morf->isStop()) { if (anmPrmTbl[*pPrmIdx].mNextPrmIdx != -1 && anmPrmTbl[*pPrmIdx].mLoopMode == J3DFrameCtrl::EMode_NONE) { *pPrmIdx = anmPrmTbl[*pPrmIdx].mNextPrmIdx; } } } /* 80057844-80057988 .text dLib_bcks_setAnm__FPCcP14mDoExt_McaMorfPScPScPScPCiPC14dLib_anm_prm_cb */ void dLib_bcks_setAnm(const char* arcName, mDoExt_McaMorf* morf, s8* pAnmIdx, s8* pPrmIdx, s8* pOldPrmIdx, const int* bcksTbl, const dLib_anm_prm_c* anmPrmTbl, bool force) { if ((*pOldPrmIdx != *pPrmIdx && anmPrmTbl[*pPrmIdx].mAnmIdx != -1) || force == true) { *pAnmIdx = anmPrmTbl[*pPrmIdx].mAnmIdx; J3DAnmTransform* bck = (J3DAnmTransform*)dComIfG_getObjectRes(arcName, bcksTbl[*pAnmIdx]); morf->setAnm(bck, anmPrmTbl[*pPrmIdx].mLoopMode, anmPrmTbl[*pPrmIdx].mMorf, anmPrmTbl[*pPrmIdx].mPlaySpeed, 0.0f, -1.0f, NULL); } *pOldPrmIdx = *pPrmIdx; if (morf->isStop()) { if (anmPrmTbl[*pPrmIdx].mNextPrmIdx != -1 && anmPrmTbl[*pPrmIdx].mLoopMode == J3DFrameCtrl::EMode_NONE) { *pPrmIdx = anmPrmTbl[*pPrmIdx].mNextPrmIdx; } } } /* 80057988-80057A14 .text dLib_scaleAnime__FPfPfiPifff */ void dLib_scaleAnime(f32* o_value, f32* p_targets, int targetNum, int* p_targetIdx, f32 scale, f32 maxStep, f32 minStep) { if (*p_targetIdx < targetNum) { f32 temp = cLib_addCalc(o_value, p_targets[*p_targetIdx], scale, maxStep, minStep); if (temp != 0.0f) { return; } (*p_targetIdx)--; if (*p_targetIdx < 0) { *p_targetIdx = 0; } } else { (*p_targetIdx)--; } } /* 80057A14-80057A30 .text dLib_getPosFromMtx__FPA4_fP4cXyz */ void dLib_getPosFromMtx(MtxP mtx, cXyz* pos) { pos->set(mtx[0][3], mtx[1][3], mtx[2][3]); } /* 80057A30-80057AA4 .text dLib_pathInfo__FPP5dPathUc */ bool dLib_pathInfo(dPath** dst, u8 no) { dStage_dPath_c * path = dComIfGp_getStage().getPathInf(); if (path != NULL) { *dst = path->m_path + no; return true; } else { return false; } } /* 80057AA4-80057D1C .text dLib_pathMove__FP4cXyzPScP5dPathfPFP4cXyzP4cXyzP4cXyzPv_iPv */ void dLib_pathMove(cXyz* pos, s8* pPntNo, dPath* pPath, f32 speed, int (*pCallBack)(cXyz*, cXyz*, cXyz*, void*), void* pCallBackData) { s8 pnt_no = *pPntNo; s8 pnt_next_no; if (pnt_no < (pPath->m_num - 1)) { pnt_next_no = pnt_no + 1; } else { pnt_next_no = 0; } cXyz pnt_pos = pPath->m_points[pnt_no].m_position; cXyz pnt_next_pos = pPath->m_points[pnt_next_no].m_position; cXyz move = (pnt_next_pos - pnt_pos).normZP(); if (pCallBack == NULL) { *pos = *pos + move * speed; f32 dist = pnt_pos.abs(*pos); f32 pnt_dist = pnt_pos.abs(pnt_next_pos); if (dist > pnt_dist) { *pPntNo = pnt_next_no; *pos = pnt_next_pos; } } else { if (pCallBack(pos, &pnt_pos, &pnt_next_pos, pCallBackData)) *pPntNo = pnt_next_no; } } /* 80057D1C-80057EC0 .text dLib_setNextStageBySclsNum__FUcSc */ void dLib_setNextStageBySclsNum(u8 i_sclsnum, s8 room_no) { stage_scls_info_dummy_class* sclsinfo; if (room_no == -1) { sclsinfo = dComIfGp_getStageSclsInfo(); } else { JUT_ASSERT(452, 0 <= room_no && room_no < 64); sclsinfo = dComIfGp_roomControl_getStatusRoomDt(room_no)->getSclsInfo(); } if (sclsinfo == NULL) { return; } stage_scls_info_class* scls_data = sclsinfo->m_entries; JUT_ASSERT(462, scls_data != NULL); JUT_ASSERT(463, 0 <= i_sclsnum && i_sclsnum < sclsinfo->num); stage_scls_info_class* scls_entry = &scls_data[i_sclsnum]; s32 wipe = dStage_sclsInfo_getWipe(scls_entry); wipe = wipe == 0xFF ? 0 : wipe; dComIfGp_setNextStage(scls_entry->mStage, scls_entry->mStart, scls_entry->mRoom, -1, 0.0f, 0, TRUE, wipe); } /* 80057EC0-80057F30 .text dLib_setFirstMsg__FUsUlUl */ u32 dLib_setFirstMsg(u16 eventBit, u32 firstMsgNo, u32 secondMsgNo) { if (!dComIfGs_isEventBit(eventBit)) { dComIfGs_onEventBit(eventBit); return firstMsgNo; } else { return secondMsgNo; } } /* 80057F30-80057F78 .text dLib_checkPlayerInCircle__F4cXyzff */ bool dLib_checkPlayerInCircle(cXyz center, f32 radius, f32 halfHeight) { fopAc_ac_c* link = dComIfGp_getLinkPlayer(); return dLib_checkActorInCircle(center, link, radius, halfHeight); } /* 80057F78-80058098 .text dLib_checkActorInCircle__F4cXyzP10fopAc_ac_cff */ bool dLib_checkActorInCircle(cXyz center, fopAc_ac_c* actor, f32 radius, f32 halfHeight) { f32 distXZ = (center - actor->current.pos).absXZ(); f32 distY = std::fabsf(center.y - actor->current.pos.y); if (distXZ < radius && distY < halfHeight) { return true; } return false; } /* 80058098-8005820C .text dLib_checkActorInFan__F4cXyzP10fopAc_ac_cssff */ bool dLib_checkActorInFan(cXyz center, fopAc_ac_c* actor, s16 angleY, s16 fanSpreadAngle, f32 radius, f32 halfHeight) { f32 distXZ = (center - actor->current.pos).absXZ(); f32 distY = std::fabsf(center.y - actor->current.pos.y); s16 targetY = cLib_targetAngleY(¢er, &actor->current.pos); int angleDistY = cLib_distanceAngleS(angleY, targetY); if (distXZ < radius && distY < halfHeight && angleDistY < fanSpreadAngle) { return true; } return false; } /* 8005820C-80058250 .text __ct__9STControlFssssffss */ STControl::STControl(s16 a, s16 b, s16 c, s16 d, f32 e, f32 f, s16 g, s16 h) { setWaitParm(a, b, c, d, e, f, g, h); init(); } /* 80058250-80058274 .text setWaitParm__9STControlFssssffss */ void STControl::setWaitParm(s16 a, s16 b, s16 c, s16 d, f32 e, f32 f, s16 g, s16 h) { field_0x12 = a; field_0x14 = b; field_0x16 = c; field_0x1c = d; field_0x04 = e; field_0x08 = f; field_0x24 = g; field_0x26 = h; } /* 80058274-800582B0 .text init__9STControlFv */ void STControl::init() { field_0x0e = 0; field_0x10 = 0; field_0x0d = 0; field_0x0c = 0; field_0x22 = 0; field_0x18 = field_0x12; field_0x1a = field_0x12; field_0x1e = field_0x1c; field_0x20 = field_0x1c; } /* 800582B0-800582D8 .text Xinit__9STControlFv */ void STControl::Xinit() { field_0x0e = 0; field_0x0c &= 0xFC; field_0x18 = field_0x12; field_0x1e = field_0x1c; } /* 800582D8-80058300 .text Yinit__9STControlFv */ void STControl::Yinit() { field_0x10 = 0; field_0x0c &= ~0x0C; field_0x1a = field_0x12; field_0x20 = field_0x1c; } /* 80058300-80058310 .text getValueStick__9STControlFv */ f32 STControl::getValueStick() { return g_mDoCPd_cpadInfo[0].mMainStickValue; } /* 80058310-80058320 .text getAngleStick__9STControlFv */ s16 STControl::getAngleStick() { return g_mDoCPd_cpadInfo[0].mMainStickAngle; } /* 80058320-80058330 .text getValueStick__10CSTControlFv */ f32 CSTControl::getValueStick() { return g_mDoCPd_cpadInfo[0].mCStickValue; } /* 80058330-80058340 .text getAngleStick__10CSTControlFv */ s16 CSTControl::getAngleStick() { return g_mDoCPd_cpadInfo[0].mCStickAngle; } /* 80058340-800585D0 .text checkTrigger__9STControlFv */ s32 STControl::checkTrigger() { field_0x0d = field_0x0c; f32 valueStick = getValueStick(); s16 angleStick = getAngleStick(); u8 newAngle = 0; s16 iVar6 = (0x2000 - field_0x26) >> 1; if (!cM3d_IsZero(valueStick)) { if (angleStick < field_0x22 + -0x7000 + iVar6) { newAngle |= 4; } else if (angleStick < field_0x22 + -0x5000 - iVar6) { newAngle |= 5; } else if (angleStick < field_0x22 + -0x3000 + iVar6) { newAngle |= 1; } else if (angleStick < field_0x22 + -0x1000 - iVar6) { newAngle |= 9; } else if (angleStick < field_0x22 + 0x1000 + iVar6) { newAngle |= 8; } else if (angleStick < field_0x22 + 0x3000 - iVar6) { newAngle |= 10; } else if (angleStick < field_0x22 + 0x5000 + iVar6) { newAngle |= 2; } else if (angleStick < field_0x22 + 0x7000 - iVar6) { newAngle |= 6; } else { newAngle |= 4; } if (valueStick >= field_0x04) { field_0x0c = newAngle; } else if (valueStick < field_0x08) { field_0x0c = 0; } else { field_0x0c &= ~newAngle; } if (field_0x0c != field_0x0d) { if (field_0x0c == 0) { field_0x22 = 0; } else if ((angleStick & 0x1FFF) > 0x1000) { field_0x22 = field_0x24; } else { field_0x22 = -field_0x24; } } if (!(field_0x0c & 0x03)) Xinit(); if (!(field_0x0c & 0x0C)) Yinit(); } else { field_0x0c = 0; Xinit(); Yinit(); } if ((field_0x0d & field_0x0c & 0x03) != 0 && field_0x0e > 0) field_0x0e--; if ((field_0x0d & field_0x0c & 0x0C) != 0 && field_0x10 > 0) field_0x10--; return field_0x0c; } /* 800585D0-8005863C .text checkLeftTrigger__9STControlFv */ bool STControl::checkLeftTrigger() { if (field_0x0e == 0 && (field_0x0c & 1)) { field_0x0e = field_0x18; if (field_0x1e == 0) { field_0x18 -= field_0x16; if (field_0x18 < field_0x14) field_0x18 = field_0x14; } else { field_0x1e--; } return true; } return false; } /* 8005863C-800586A8 .text checkRightTrigger__9STControlFv */ bool STControl::checkRightTrigger() { if (field_0x0e == 0 && (field_0x0c & 2)) { field_0x0e = field_0x18; if (field_0x1e == 0) { field_0x18 -= field_0x16; if (field_0x18 < field_0x14) field_0x18 = field_0x14; } else { field_0x1e--; } return true; } return false; } /* 800586A8-80058714 .text checkUpTrigger__9STControlFv */ bool STControl::checkUpTrigger() { if (field_0x10 == 0 && (field_0x0c & 4)) { field_0x10 = field_0x1a; if (field_0x20 == 0) { field_0x1a -= field_0x16; if (field_0x1a < field_0x14) field_0x1a = field_0x14; } else { field_0x20--; } return true; } return false; } /* 80058714-80058780 .text checkDownTrigger__9STControlFv */ bool STControl::checkDownTrigger() { if (field_0x10 == 0 && (field_0x0c & 8)) { field_0x10 = field_0x1a; if (field_0x20 == 0) { field_0x1a -= field_0x16; if (field_0x1a < field_0x14) field_0x1a = field_0x14; } else { field_0x20--; } return true; } return false; } /* 80058780-80058834 .text dLib_getIplDaysFromSaveTime__Fv */ u32 dLib_getIplDaysFromSaveTime() { OSTime dateIpl = dComIfGs_getDateIpl(); if (dateIpl == 0) return 0; OSTime curTime = OSGetTime(); OSTime temp2 = curTime - dateIpl; // TODO: below line might be a macro OSTime temp = (OSTime)((OSTime)(OS_TIMER_CLOCK * (OSTime)60) * (OSTime)60) * (OSTime)24; u32 days = temp2 / temp; return days; } /* 80058834-80058910 .text dLib_get_QuatFromTriangle__FP4cXyzP4cXyzP4cXyz */ Quaternion dLib_get_QuatFromTriangle(cXyz* p0, cXyz* p1, cXyz* p2) { Quaternion out; cXyz e1 = *p1 - *p0; cXyz e2 = *p2 - *p0; cXyz cross = e1.outprod(e2); daObj::quat_rotBaseY2(&out, cross); return out; } /* 80058910-800589A8 .text dLib_calc_QuatFromTriangle__FP10QuaternionfP4cXyzP4cXyzP4cXyz */ void dLib_calc_QuatFromTriangle(Quaternion* out, f32 t, cXyz* p0, cXyz* p1, cXyz* p2) { Quaternion q = dLib_get_QuatFromTriangle(p0, p1, p2); Quaternion d; C_QUATSlerp(out, &q, &d, t); *out = d; }