#include "d/dolzel.h" // IWYU pragma: keep #include "d/actor/d_a_npc.h" #include "d/actor/d_a_npc_tk.h" #include "d/actor/d_a_tag_evtarea.h" #include "d/d_debug_viewer.h" #include "d/d_k_wmark.h" #include "d/d_msg_object.h" #include "SSystem/SComponent/c_math.h" #include "JSystem/J3DGraphBase/J3DMaterial.h" #include "f_op/f_op_camera_mng.h" #include "f_op/f_op_kankyo_mng.h" #include "m_Do/m_Do_lib.h" #if DEBUG void daNpcT_cmnListenPropertyEvent(char* param_0, int* param_1, daNpcT_HIOParam* param_2) { sprintf(¶m_0[*param_1], "%.3ff,\t// 注目オフセット\n", param_2->attention_offset); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 重力\n", param_2->gravity); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// スケ−ル\n", param_2->scale); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// リアル影サイズ\n", param_2->real_shadow_size); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 体重\n", param_2->weight); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 高さ\n", param_2->height); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// ひざ丈\n", param_2->knee_length); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 幅\n", param_2->width); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 腰のX角上限\n", param_2->body_angleX_max); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 腰のX角下限\n", param_2->body_angleX_min); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 腰のY角上限\n", param_2->body_angleY_max); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 腰のY角下限\n", param_2->body_angleY_min); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 頭のX角上限\n", param_2->head_angleX_max); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 頭のX角下限\n", param_2->head_angleX_min); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 頭のY角上限\n", param_2->head_angleY_max); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 頭のY角下限\n", param_2->head_angleY_min); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 首の移動割合\n", param_2->neck_rotation_ratio); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 補間フレ−ム\n", param_2->morf_frame); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 会話距離\n", param_2->talk_distance); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 会話角度\n", param_2->talk_angle); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 注目距離\n", param_2->attention_distance); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 注目角度\n", param_2->attention_angle); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 視界\n", param_2->fov); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// サ−チ距離\n", param_2->search_distance); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// サ−チ高さ\n", param_2->search_height); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// サ−チ低さ\n", param_2->search_depth); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// ?\n", param_2->attention_time); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// ?\n", param_2->damage_time); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 表情\n", param_2->face_expression); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 動作\n", param_2->motion); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// 注視モ−ド\n", param_2->look_mode); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// デバグモ−ドON\n", param_2->debug_mode_ON); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%d, \t// デバグ情報ON\n", param_2->debug_info_ON); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 表情補間フレ−ム\n", param_2->expression_morf_frame); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱最小x\n", param_2->box_min_x); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱最小y\n", param_2->box_min_y); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱最小z\n", param_2->box_min_z); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱最大x\n", param_2->box_max_x); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱最大y\n", param_2->box_max_y); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱最大z\n", param_2->box_max_z); *param_1 = strlen(param_0); sprintf(¶m_0[*param_1], "%.3ff,\t// 箱オフセット\n", param_2->box_offset); *param_1 = strlen(param_0); } void daNpcT_cmnGenMessage(JORMContext* ctx, daNpcT_HIOParam* i_hioParam) { ctx->genSlider("注目オフセット ", &i_hioParam->attention_offset, 0.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("重力 ", &i_hioParam->gravity, -100.0f, 100.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("スケ−ル ", &i_hioParam->scale, 0.0f, 100.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("リアル影サイズ ", &i_hioParam->real_shadow_size, 0.0f, 10000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("体重 ", &i_hioParam->weight, 0.0f, 255.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("高さ ", &i_hioParam->height, 0.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("ひざ丈 ", &i_hioParam->knee_length, 0.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("幅 ", &i_hioParam->width, 0.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("腰のX角上限 ", &i_hioParam->body_angleX_max, -90.0f, 90.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("腰のX角下限 ", &i_hioParam->body_angleX_min, -90.0f, 90.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("腰のY角上限 ", &i_hioParam->body_angleY_max, -180.0f, 179.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("腰のY角下限 ", &i_hioParam->body_angleY_min, -180.0f, 179.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("頭のX角上限 ", &i_hioParam->head_angleX_max, -90.0f, 90.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("頭のX角下限 ", &i_hioParam->head_angleX_min, -90.0f, 90.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("頭のY角上限 ", &i_hioParam->head_angleY_max, -180.0f, 179.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("頭のY角下限 ", &i_hioParam->head_angleY_min, -180.0f, 179.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("首の移動割合 ", &i_hioParam->neck_rotation_ratio, 0.0f, 1.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("補間フレ-ム ", &i_hioParam->morf_frame, 0.0f, 100.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->startComboBox("会話距離 ", &i_hioParam->talk_distance, 0, NULL, 0xffff, 0xffff, 0x100, 26); ctx->genComboBoxItem(" 50", 0); ctx->genComboBoxItem(" 100", 1); ctx->genComboBoxItem(" 150", 2); ctx->genComboBoxItem(" 200", 3); ctx->genComboBoxItem(" 250", 4); ctx->genComboBoxItem(" 300", 5); ctx->genComboBoxItem(" 350", 6); ctx->genComboBoxItem(" 400", 7); ctx->genComboBoxItem(" 450", 8); ctx->genComboBoxItem(" 500", 9); ctx->genComboBoxItem(" 550", 10); ctx->genComboBoxItem(" 600", 11); ctx->genComboBoxItem(" 650", 12); ctx->genComboBoxItem(" 700", 13); ctx->genComboBoxItem(" 750", 14); ctx->genComboBoxItem(" 800", 15); ctx->genComboBoxItem(" 850", 16); ctx->genComboBoxItem(" 900", 17); ctx->genComboBoxItem(" 950", 18); ctx->genComboBoxItem("1000", 19); ctx->endComboBox(); ctx->startComboBox("会話角度 ", &i_hioParam->talk_angle, 0, NULL, 0xffff, 0xffff, 0x100, 26); ctx->genComboBoxItem(" 30", 0); ctx->genComboBoxItem(" 45", 1); ctx->genComboBoxItem(" 60", 2); ctx->genComboBoxItem(" 90", 3); ctx->genComboBoxItem(" 110", 4); ctx->genComboBoxItem(" 135", 5); ctx->genComboBoxItem(" 180", 6); ctx->endComboBox(); ctx->startComboBox("注目距離 ", &i_hioParam->attention_distance, 0, NULL, 0xffff, 0xffff, 0x100, 26); ctx->genComboBoxItem(" 50", 0); ctx->genComboBoxItem(" 100", 1); ctx->genComboBoxItem(" 150", 2); ctx->genComboBoxItem(" 200", 3); ctx->genComboBoxItem(" 250", 4); ctx->genComboBoxItem(" 300", 5); ctx->genComboBoxItem(" 350", 6); ctx->genComboBoxItem(" 400", 7); ctx->genComboBoxItem(" 450", 8); ctx->genComboBoxItem(" 500", 9); ctx->genComboBoxItem(" 550", 10); ctx->genComboBoxItem(" 600", 11); ctx->genComboBoxItem(" 650", 12); ctx->genComboBoxItem(" 700", 13); ctx->genComboBoxItem(" 750", 14); ctx->genComboBoxItem(" 800", 15); ctx->genComboBoxItem(" 850", 16); ctx->genComboBoxItem(" 900", 17); ctx->genComboBoxItem(" 950", 18); ctx->genComboBoxItem("1000", 19); ctx->endComboBox(); ctx->startComboBox("注目角度 ", &i_hioParam->attention_angle, 0, NULL, 0xffff, 0xffff, 0x100, 26); ctx->genComboBoxItem(" 30", 0); ctx->genComboBoxItem(" 45", 1); ctx->genComboBoxItem(" 60", 2); ctx->genComboBoxItem(" 90", 3); ctx->genComboBoxItem(" 110", 4); ctx->genComboBoxItem(" 135", 5); ctx->genComboBoxItem(" 180", 6); ctx->endComboBox(); ctx->genSlider("視界 ", &i_hioParam->fov, 0.0f, 180.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("サ-チ距離 ", &i_hioParam->search_distance, 0.0f, 10000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("サ-チ高さ ", &i_hioParam->search_height, -10000.0f, 10000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("サ-チ低さ ", &i_hioParam->search_depth, -10000.0f, 10000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("? ", &i_hioParam->attention_time, 0, 10000, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("? ", &i_hioParam->damage_time, 0, 10000, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("表情 ", &i_hioParam->face_expression, 0, 0xff, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("動作 ", &i_hioParam->motion, 0, 0xff, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("注視モ-ド ", &i_hioParam->look_mode, 0, 0xff, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genCheckBox("デバグモ-ドON", &i_hioParam->debug_mode_ON, 1, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genCheckBox("デバグ情報ON ", &i_hioParam->debug_info_ON, 1, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("表情補間フレ-ム", &i_hioParam->expression_morf_frame, 0.0f, 100.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱最小x ", &i_hioParam->box_min_x, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱最小y ", &i_hioParam->box_min_y, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱最小z ", &i_hioParam->box_min_z, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱最大x ", &i_hioParam->box_max_x, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱最大y ", &i_hioParam->box_max_y, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱最大z ", &i_hioParam->box_max_z, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); ctx->genSlider("箱オフセット ", &i_hioParam->box_offset, -1000.0f, 1000.0f, 0, NULL, 0xffff, 0xffff, 512, 24); } #endif void daNpcT_ActorMngr_c::initialize() { mActorID = fpcM_ERROR_PROCESS_ID_e; } void daNpcT_ActorMngr_c::entry(fopAc_ac_c* i_actor) { mActorID = fopAcM_GetID(i_actor); } void daNpcT_ActorMngr_c::remove() { mActorID = fpcM_ERROR_PROCESS_ID_e; } fopAc_ac_c* daNpcT_ActorMngr_c::getActorP() { fopAc_ac_c* actor = NULL; s32 actor2 = fopAcM_SearchByID(mActorID, &actor); if (actor2 == 1 && actor != NULL && fopAcM_IsActor(actor)) { return actor; } return NULL; } void daNpcT_MatAnm_c::initialize() { field_0xF4 = 0.0f; field_0xF8 = 0.0f; mNowOffsetX = 0.0f; mNowOffsetY = 0.0f; mEyeMoveFlg = 0; mMorfFrm = 0; } void daNpcT_MatAnm_c::calc(J3DMaterial* i_material) const { J3DMaterialAnm::calc(i_material); for (u32 i = 0; i < 8; i++) { if (getTexMtxAnm(i).getAnmFlag()) { J3DTextureSRTInfo* curr_mtx_info = &i_material->getTexGenBlock()->getTexMtx(i)->getTexMtxInfo().mSRT; if (mEyeMoveFlg != 0) { curr_mtx_info->mTranslationX = mNowOffsetX; curr_mtx_info->mTranslationY = mNowOffsetY; } if (mMorfFrm != 0) { f32 tmp8 = 1.0f / (mMorfFrm + 1); curr_mtx_info->mTranslationX = field_0xF4 * (1.0f - tmp8) + curr_mtx_info->mTranslationX * tmp8; curr_mtx_info->mTranslationY = field_0xF8 * (1.0f - tmp8) + curr_mtx_info->mTranslationY * tmp8; } field_0xF4 = curr_mtx_info->mTranslationX; field_0xF8 = curr_mtx_info->mTranslationY; } } } void daNpcT_MotionSeqMngr_c::initialize() { mNo = 0; mOffset = 0; mStepNo = 0; mPrevStepNo = -1; mInitialMorf = -1.0f; mEndSequence = false; } int daNpcT_MotionSeqMngr_c::play(u16 i_loopNo, int* o_motionNo_p, f32* o_morfFrm_p) { int ret = 0; JUT_ASSERT(471, NULL != o_motionNo_p); JUT_ASSERT(472, NULL != o_morfFrm_p); if (mPrevStepNo == mStepNo && mStepNo < mStepNum) { if ((&mpSeqData[mNo * mStepNum])[mStepNo].mAnmIdx != -1) { if ((&mpSeqData[mNo * mStepNum])[mStepNo].mLoopCount > 0 && (&mpSeqData[mNo * mStepNum])[mStepNo].mLoopCount <= i_loopNo) { mStepNo++; } else if ((&mpSeqData[mNo * mStepNum])[mStepNo].mLoopCount == 0 && i_loopNo != 0) { mEndSequence = true; } } } if (mPrevStepNo != mStepNo && mStepNo < mStepNum) { if ((&mpSeqData[mNo * mStepNum])[mStepNo].mAnmIdx != -1) { *o_motionNo_p = (&mpSeqData[mNo * mStepNum])[mStepNo].mAnmIdx; *o_morfFrm_p = (&mpSeqData[mNo * mStepNum])[mStepNo].mMorf; if (mPrevStepNo == -1 && -1.0f < mInitialMorf) { *o_morfFrm_p = mInitialMorf; } ret = 1; } else { mEndSequence = true; } } mPrevStepNo = mStepNo; return ret; } s32 daNpcT_MotionSeqMngr_c::checkEndSequence() { return (u8)mEndSequence == true; } static BOOL daNpcT_addIdx(int i_step, int i_num, u16& i_idx, BOOL i_closed) { BOOL rt = FALSE; int new_idx = i_idx; new_idx += i_step; if (i_num <= new_idx) { if (i_closed) { new_idx %= i_num; } else { new_idx = i_num - 1; rt = TRUE; } } i_idx = new_idx; return rt; } static BOOL daNpcT_subIdx(int i_step, int i_num, u16& i_idx, BOOL i_closed) { BOOL rt = FALSE; int new_idx = i_idx; new_idx -= i_step; if (0 > new_idx) { if (i_closed) { new_idx = (i_num + new_idx % i_num) % i_num; } else { new_idx = 0; rt = TRUE; } } i_idx = new_idx; return rt; } static int daNpcT_incIdx(int i_num, u16& i_idx, BOOL i_closed, int i_direction) { int result = 0; if (i_direction) { result = daNpcT_subIdx(1, i_num, i_idx, i_closed); } else { result = daNpcT_addIdx(1, i_num, i_idx, i_closed); } return result; } static int daNpcT_decIdx(int i_num, u16& i_idx, BOOL i_closed, int i_direction) { int result = 0; if (i_direction) { result = daNpcT_addIdx(1, i_num, i_idx, i_closed); } else { result = daNpcT_subIdx(1, i_num, i_idx, i_closed); } return result; } void daNpcT_Path_c::hermite(cXyz& i_start, cXyz& i_startTan, cXyz& i_end, cXyz& i_endTan, daNpcT_Hermite_c& i_hermite, cXyz& o_result) { o_result.x = i_start.x * i_hermite.GetH00() + i_end.x * i_hermite.GetH01() + i_startTan.x * i_hermite.GetH10() + i_endTan.x * i_hermite.GetH11(); o_result.y = i_start.y * i_hermite.GetH00() + i_end.y * i_hermite.GetH01() + i_startTan.y * i_hermite.GetH10() + i_endTan.y * i_hermite.GetH11(); o_result.z = i_start.z * i_hermite.GetH00() + i_end.z * i_hermite.GetH01() + i_startTan.z * i_hermite.GetH10() + i_endTan.z * i_hermite.GetH11(); } void daNpcT_Path_c::initialize() { mPathInfo = NULL; mPosition.setall(0.0f); field_0x10 = 0.0f; field_0x14 = 0.0f; field_0x18 = 0.0f; mIdx = 0; mDirection = 0; mIsClosed = FALSE; } int daNpcT_Path_c::setPathInfo(u8 i_pathIdx, s8 i_roomNo, u8 i_direction) { mPathInfo = NULL; mIdx = 0; mDirection = i_direction; if (i_pathIdx != 0xFF) { mPathInfo = dPath_GetRoomPath(i_pathIdx, i_roomNo); if (mPathInfo == NULL) { return 0; } mIsClosed = dPath_ChkClose(mPathInfo); mPosition = getPntPos(getIdx()); } return 1; } int daNpcT_Path_c::setNextPathInfo(s8 i_roomNo, u8 i_direction) { mIdx = 0; mDirection = i_direction; if (mPathInfo->m_nextID != 0xFFFF) { mPathInfo = dPath_GetRoomPath(mPathInfo->m_nextID, i_roomNo); if (mPathInfo == NULL) { return 0; } mIsClosed = dPath_ChkClose(mPathInfo); } return 1; } void daNpcT_Path_c::reverse() { if (chkReverse()) { offReverse(); } else { onReverse(); } } int daNpcT_Path_c::setNextIdx(int i_idx) { int numPnts = getNumPnts(); if (chkClose() && numPnts == i_idx) { return daNpcT_incIdx(i_idx, mIdx, TRUE, mDirection); } else { return daNpcT_incIdx(i_idx, mIdx, FALSE, mDirection); } } int daNpcT_Path_c::getDstPos(cXyz i_pnt, cXyz* o_pos_p, int i_idx) { int passed1; if (i_idx == mIdx) { *o_pos_p = getPntPos(getIdx() - 1); return 1; } while (true) { passed1 = chkPassed1(i_pnt, i_idx); if (!passed1) { break; } field_0x1E = 1; if (setNextIdx(i_idx)) { mIdx = i_idx; *o_pos_p = getPntPos(getIdx() - 1); return 1; } } *o_pos_p = getPntPos(getIdx()); return 0; } int daNpcT_Path_c::getDstPosH(cXyz i_pnt, cXyz* o_pos_p, int i_idx, int param_3) { int passed1; if (i_idx == mIdx) { *o_pos_p = getPntPos(getIdx() - 1); return 1; } while (true) { passed1 = chkPassed1(i_pnt, i_idx); if (!passed1) { break; } field_0x1E = 1; if (setNextIdx(i_idx)) { mIdx = i_idx; *o_pos_p = getPntPos(getIdx() - 1); return 1; } } while (true) { if (field_0x1E < param_3) { if (chkPassed2(i_pnt, o_pos_p, i_idx, param_3)) { field_0x1E++; continue; } } else { *o_pos_p = getPntPos(getIdx()); } return 0; } } int daNpcT_Path_c::chkPassed1(cXyz i_pnt, int i_num) { cXyz prev_pos; cXyz cur_pos; cXyz next_pos; cXyz sp5C; u16 cur_idx = (int)(u16)getIdx(); u16 prev_idx, next_idx; prev_idx = next_idx = cur_idx; if (chkClose() && i_num == getNumPnts()) { daNpcT_decIdx(getNumPnts(), prev_idx, TRUE, chkReverse()); daNpcT_incIdx(getNumPnts(), next_idx, TRUE, chkReverse()); } else { daNpcT_decIdx(i_num, prev_idx, FALSE, chkReverse()); daNpcT_incIdx(i_num, next_idx, FALSE, chkReverse()); } if (!chkClose()) { if (chkReverse()) { if (cur_idx < next_idx || prev_idx < cur_idx) { JUT_ASSERT(964, FALSE); } } else { if (cur_idx < prev_idx || next_idx < cur_idx) { JUT_ASSERT(971, FALSE); } } } if (prev_idx == cur_idx && cur_idx == next_idx) { JUT_ASSERT(978, FALSE); } prev_pos = getPntPos(prev_idx); cur_pos = getPntPos(cur_idx); next_pos = getPntPos(next_idx); s16 var_r29; if (prev_idx == cur_idx) { sp5C.set(0.0f, 0.0f, 100.0f); var_r29 = cLib_targetAngleY(&next_pos, &cur_pos); mDoMtx_stack_c::YrotS(var_r29); mDoMtx_stack_c::multVec(&sp5C, &sp5C); prev_pos = sp5C + cur_pos; } if (cur_idx == next_idx) { sp5C.set(0.0f, 0.0f, 100.0f); var_r29 = cLib_targetAngleY(&prev_pos, &cur_pos); mDoMtx_stack_c::YrotS(var_r29); mDoMtx_stack_c::multVec(&sp5C, &sp5C); next_pos = sp5C + cur_pos; } f32 proj_pnt_x, proj_cur_x, proj_pnt_z, proj_cur_z, spC; if (cM3d_Len2dSqPntAndSegLine(i_pnt.x, i_pnt.z, prev_pos.x, prev_pos.z, next_pos.x, next_pos.z, &proj_pnt_x, &proj_pnt_z, &spC) && cM3d_Len2dSqPntAndSegLine(cur_pos.x, cur_pos.z, prev_pos.x, prev_pos.z, next_pos.x, next_pos.z, &proj_cur_x, &proj_cur_z, &spC)) { var_r29 = cM_atan2s(next_pos.x - prev_pos.x, next_pos.z - prev_pos.z); var_r29 = var_r29 - cM_atan2s(proj_cur_x - proj_pnt_x, proj_cur_z - proj_pnt_z); if (0x4000 < (u16)abs(var_r29)) { return 1; } } return 0; } int daNpcT_Path_c::chkPassed2(cXyz i_pnt, cXyz* param_2, int i_num, int param_4) { cXyz cStack_80; cXyz prev_pos; cXyz cur_pos; cXyz next_pos; cXyz h_startTan; cXyz h_endTan; u16 cur_idx = getIdx(); u16 sp10; u16 prev_idx; u16 next_idx; prev_idx = next_idx = cur_idx; if (chkClose() && getNumPnts() == i_num) { daNpcT_decIdx(getNumPnts(), prev_idx, TRUE, chkReverse()); daNpcT_incIdx(getNumPnts(), next_idx, TRUE, chkReverse()); } else { daNpcT_decIdx(i_num, prev_idx, FALSE, chkReverse()); daNpcT_incIdx(i_num, next_idx, FALSE, chkReverse()); } sp10 = prev_idx; if (chkClose() && getNumPnts() == i_num) { daNpcT_decIdx(getNumPnts(), sp10, TRUE, chkReverse()); } else { daNpcT_decIdx(i_num, sp10, FALSE, chkReverse()); } if (!chkClose()) { if (chkReverse()) { if (cur_idx < next_idx || prev_idx < cur_idx || sp10 < prev_idx) { JUT_ASSERT(1082, FALSE); } } else { if (prev_idx < sp10 || cur_idx < prev_idx || next_idx < cur_idx) { JUT_ASSERT(1090, FALSE); } } } if (sp10 == prev_idx && prev_idx == cur_idx && cur_idx == next_idx) { JUT_ASSERT(1098, FALSE); } cStack_80 = getPntPos(sp10); prev_pos = getPntPos(prev_idx); cur_pos = getPntPos(cur_idx); next_pos = getPntPos(next_idx); if (prev_idx == cur_idx) { h_startTan = next_pos - prev_pos; } else { h_startTan = cur_pos - prev_pos; } if (next_idx == cur_idx) { h_endTan = next_pos - prev_pos; } else { h_endTan = next_pos - cur_pos; } daNpcT_Hermite_c h; cXyz hermite_result; f32 var_f31 = 1.0f / param_4; f32 var_f30 = field_0x1E * var_f31; h.Set(var_f30); hermite(prev_pos, h_startTan, cur_pos, h_endTan, h, hermite_result); param_2->x = hermite_result.x; param_2->y = hermite_result.y; param_2->z = hermite_result.z; f32 proj_pnt_x; f32 proj_cur_x; f32 proj_pnt_z; f32 proj_cur_z; f32 auStack_13c; s16 var_r28; if (cM3d_Len2dSqPntAndSegLine(i_pnt.x, i_pnt.z, prev_pos.x, prev_pos.z, cur_pos.x, cur_pos.z, &proj_pnt_x, &proj_pnt_z, &auStack_13c) && cM3d_Len2dSqPntAndSegLine(param_2->x, param_2->z, prev_pos.x, prev_pos.z, cur_pos.x, cur_pos.z, &proj_cur_x, &proj_cur_z, &auStack_13c)) { var_r28 = cM_atan2s(cur_pos.x - prev_pos.x, cur_pos.z - prev_pos.z); var_r28 = var_r28 - cM_atan2s(proj_cur_x - proj_pnt_x, proj_cur_z - proj_pnt_z); if ((u16)abs(var_r28) > 0x4000) { return 1; } } return 0; } #if DEBUG int daNpcT_Path_c::drawDbgInfo(f32 param_0, int param_1) { GXColor green = {0x80, 0xff, 0x80, 0xff}; GXColor blue = {0x80, 0x80, 0xff, 0xff}; GXColor red = {0xff, 0x80, 0x80, 0xff}; GXColor yellow = {0xff, 0xff, 0x80, 0xff}; cXyz unkXyz1; cXyz unkXyz2; for (int i = 0; i <= getNumPnts(); i++) { if (i < getNumPnts()) { unkXyz1.set(getPntPos(i).x, param_0, getPntPos(i).z); if (i != 0) { unkXyz2.set(getPntPos(i - 1).x, param_0, getPntPos(i - 1).z); dDbVw_drawLineOpa(unkXyz1, unkXyz2, red, 1, 12); } dDbVw_drawSphereOpa(unkXyz1, 9.0f, green, 1); } else if (mIsClosed) { unkXyz1.set(getPntPos(i - 1).x, param_0, getPntPos(i - 1).z); unkXyz2.set(getPntPos(0).x, param_0, getPntPos(0).z); dDbVw_drawLineOpa(unkXyz1, unkXyz2, red, 1, 12); } } } #endif static BOOL daNpcT_chkPassed(cXyz i_pos, dPnt* i_points, u16 i_idx, u16 i_num, BOOL i_closed, int param_5, cXyz* o_proj, int* o_prevIdx, int* o_nextIdx) { u16 idx = i_idx; u16 prev_idx = i_idx; u16 next_idx = i_idx; daNpcT_incIdx(i_num, next_idx, i_closed, 0); daNpcT_decIdx(i_num, prev_idx, i_closed, 0); cXyz prev_pnt(i_points[prev_idx].m_position.x, i_points[prev_idx].m_position.y, i_points[prev_idx].m_position.z); cXyz next_pnt(i_points[next_idx].m_position.x, i_points[next_idx].m_position.y, i_points[next_idx].m_position.z); cXyz cur_pnt(i_points[idx].m_position.x, i_points[idx].m_position.y, i_points[idx].m_position.z); cXyz vec(0.0f, 0.0f, 2.0f); s16 angle; if (prev_idx < idx && idx < next_idx) { angle = cM_atan2s(next_pnt.x - prev_pnt.x, next_pnt.z - prev_pnt.z); } else if (prev_idx < idx) { angle = cM_atan2s(cur_pnt.x - prev_pnt.x, cur_pnt.z - prev_pnt.z); } else if (idx < next_idx) { angle = cM_atan2s(next_pnt.x - cur_pnt.x, next_pnt.z - cur_pnt.z); } else { JUT_ASSERT(1470, FALSE); } mDoMtx_stack_c::transS(next_pnt); mDoMtx_stack_c::YrotM(angle); mDoMtx_stack_c::multVec(&vec, &next_pnt); mDoMtx_stack_c::transS(prev_pnt); mDoMtx_stack_c::YrotM(angle + 0x8000); mDoMtx_stack_c::multVec(&vec, &prev_pnt); f32 len, proj1_x, proj1_z, proj2_x, proj2_z; cM3d_Len2dSqPntAndSegLine(i_pos.x, i_pos.z, prev_pnt.x, prev_pnt.z, next_pnt.x, next_pnt.z, &proj1_x, &proj1_z, &len); if (cM3d_IsZero(len)) { return FALSE; } cM3d_Len2dSqPntAndSegLine(cur_pnt.x, cur_pnt.z, prev_pnt.x, prev_pnt.z, next_pnt.x, next_pnt.z, &proj2_x, &proj2_z, &len); if (param_5) { angle = cM_atan2s(prev_pnt.x - next_pnt.x, prev_pnt.z - next_pnt.z); } else { angle = cM_atan2s(next_pnt.x - prev_pnt.x, next_pnt.z - prev_pnt.z); } angle = angle - cM_atan2s(proj2_x - proj1_x, proj2_z - proj1_z); if (o_proj != NULL) { o_proj->set(proj1_x, 0.0f, proj1_z); } if (o_prevIdx != NULL) { *o_prevIdx = prev_idx; } if (o_nextIdx != NULL) { *o_nextIdx = next_idx; } return (u16)abs(angle) > 0x4000; } static f32 dummy_literal() { cXyz vec; return vec.abs(); } void daNpcT_JntAnm_c::initialize() { mActrMngr.initialize(); memset(&mAttnPos, 0, (uintptr_t)&field_0x158 - (uintptr_t)&mAttnPos); } void daNpcT_JntAnm_c::setParam(fopAc_ac_c* i_actor, J3DModel* i_model, cXyz* i_eyeOffset_p, int i_backboneJointNo, int i_neckJointNo, int i_headJointNo, f32 i_bodyUpAngle, f32 i_bodyDownAngle, f32 i_bodyLeftAngle, f32 i_bodyRightAngle, f32 i_headUpAngle, f32 i_headDownAngle, f32 i_headLeftAngle, f32 i_headRightAngle, f32 param_14, f32 param_15, cXyz* param_16) { fopAc_ac_c* actor = NULL; camera_class* camera = NULL; cXyz vec1, vec2, vec3; csXyz angle; mPos = i_actor->current.pos; if (i_headJointNo >= 0) { mDoMtx_stack_c::copy(i_model->getAnmMtx(i_headJointNo)); mDoMtx_stack_c::multVecZero(&mJntPos[0]); mHeadPos.setall(0.0f); mDoMtx_stack_c::multVec(&mHeadPos, &mHeadPos); JUT_ASSERT(1620, NULL != i_eyeOffset_p); mEyePos.set(i_eyeOffset_p->x, i_eyeOffset_p->y, i_eyeOffset_p->z); mDoMtx_stack_c::multVec(&mEyePos, &mEyePos); field_0x150.x = cLib_targetAngleX(&mJntPos[0], &mEyePos); field_0x150.y = cLib_targetAngleY(&mJntPos[0], &mEyePos); } else { field_0x150.y = 0; } if (i_neckJointNo >= 0) { mDoMtx_stack_c::copy(i_model->getAnmMtx(i_neckJointNo)); mDoMtx_stack_c::multVecZero(&mJntPos[1]); } if (i_backboneJointNo >= 0) { mDoMtx_stack_c::copy(i_model->getAnmMtx(i_backboneJointNo)); mDoMtx_stack_c::multVecZero(&mJntPos[2]); } mMinRad[2].x = cM_s2rad(cM_deg2s(-i_bodyDownAngle)); mMaxRad[2].x = cM_s2rad(cM_deg2s(-i_bodyUpAngle)); mMinRad[2].y = cM_s2rad(cM_deg2s(i_bodyLeftAngle)); mMaxRad[2].y = cM_s2rad(cM_deg2s(i_bodyRightAngle)); mMinRad[1].setall(0.0f); mMaxRad[1].setall(0.0f); mMinRad[0].x = cM_s2rad(cM_deg2s(-i_headDownAngle)); mMaxRad[0].x = cM_s2rad(cM_deg2s(-i_headUpAngle)); mMinRad[0].y = cM_s2rad(cM_deg2s(i_headLeftAngle)); mMaxRad[0].y = cM_s2rad(cM_deg2s(i_headRightAngle)); mAttnPos.setall(0.0f); switch (mMode) { case LOOK_NONE: mAttnPosP = NULL; break; case LOOK_PLAYER: mAttnPosP = &daPy_getPlayerActorClass()->attention_info.position; mAttnPos = *mAttnPosP; break; case LOOK_ACTOR: { actor = mActrMngr.getActorP(); if (actor != NULL) { mAttnPosP = &actor->attention_info.position; mAttnPos = *mAttnPosP; mAttnPos.y += field_0x14c; } else { mAttnPosP = NULL; } break; } case LOOK_POS: if (mAttnPosP != NULL) { mAttnPos = *mAttnPosP; } break; case LOOK_CAMERA: { int cameraId = dComIfGp_getPlayerCameraID(0); camera = dComIfGp_getCamera(cameraId); if (camera != NULL) { mAttnPosP = fopCamM_GetEye_p(camera); mAttnPos = *mAttnPosP; } break; } case LOOK_MODE_5: if (mAttnPosP != NULL) { mMinRad[2].y = 0.0f; mMaxRad[2].y = 0.0f; mMinRad[0].y = 0.0f; mMaxRad[0].y = 0.0f; mAttnPos = *mAttnPosP; } break; case LOOK_MODE_6: if (mAttnPosP != NULL) { mMinRad[2].y = 0.0f; mMaxRad[2].y = 0.0f; mMinRad[0].x = 0.0f; mMaxRad[0].x = 0.0f; mAttnPos = *mAttnPosP; } break; case LOOK_MODE_7: case LOOK_MODE_8: { if (cLib_calcTimer(&mTimer) == 0) { field_0x13c ^= 1; mTimer = getTime(); } s16 angle_y_offset; if (field_0x13c != 0) { angle_y_offset = cM_deg2s(-110.0f); } else { angle_y_offset = cM_deg2s(110.0f); } angle.y = (int)angle_y_offset; angle.y += static_cast(i_actor)->mCurAngle.y; vec3.set(0.0f, mJntPos[0].y, 1000.0f); if (mMode == 8) { vec3.y = i_actor->current.pos.y; } mDoMtx_stack_c::YrotS(angle.y); mDoMtx_stack_c::multVec(&vec3, &mAttnPos); mAttnPos += i_actor->current.pos; mAttnPosP = &mAttnPos; break; } default: mAttnPosP = NULL; break; } field_0x120 = mAttnPos; Mtx mtx; cMtx_copy(i_model->getBaseTRMtx(), mtx); mtx[0][3] = 0.0f; mtx[1][3] = 0.0f; mtx[2][3] = 0.0f; mDoMtx_stack_c::copy(mtx); mDoMtx_stack_c::inverse(); vec3 = field_0x120 - i_actor->current.pos; mDoMtx_stack_c::multVec(&vec3, &vec3); field_0x120 = vec3 + i_actor->current.pos; for (int i = 0; i < 3; i++) { vec3 = mJntPos[i] - i_actor->current.pos; mDoMtx_stack_c::multVec(&vec3, &vec3); mJntPos[i] = vec3 + i_actor->current.pos; } vec3 = mHeadPos - i_actor->current.pos; mDoMtx_stack_c::multVec(&vec3, &vec3); mHeadPos = vec3 + i_actor->current.pos; vec3 = mEyePos - i_actor->current.pos; mDoMtx_stack_c::multVec(&vec3, &vec3); mEyePos = vec3 + i_actor->current.pos; vec3 = field_0x120 - i_actor->current.pos; mDoMtx_stack_c::YrotS(-cM_rad2s(param_15)); mDoMtx_stack_c::multVec(&vec3, &vec3); field_0x120 = vec3 + i_actor->current.pos; mEyePos = mEyePos - mHeadPos; mHeadPos = mHeadPos - mJntPos[0]; for (int i = 0; i < 3; i++) { field_0x54[i] = mJntPos[i]; } for (int i = 2; i >= 0; i--) { angle.set(getJntRadX2S(i), getJntRadY2S(i), 0); mDoMtx_stack_c::ZXYrotS(angle); mDoMtx_stack_c::inverse(); if (i != 0) { vec3 = field_0x54[i - 1] - field_0x54[i]; mDoMtx_stack_c::multVec(&vec3, &vec3); mJntPos[i - 1] = mJntPos[i] + vec3; } else { mDoMtx_stack_c::multVec(&mEyePos, &vec1); mDoMtx_stack_c::multVec(&mHeadPos, &vec2); } } for (int i = 0; i < 3; i++) { field_0x54[i] = mJntPos[i]; } mJntPos[0] += vec2; field_0x24 = mJntPos[0] + vec1; field_0x148 = param_14; } void daNpcT_JntAnm_c::calc(f32 param_0) { cXyz vec1, vec2; cXyz vec3 = field_0x24; s16 angle = cLib_targetAngleY(&mPos, &field_0x120); vec1.set(0.0f, 0.0f, 1000.0f); mDoMtx_stack_c::YrotS(angle); mDoMtx_stack_c::multVec(&vec1, &vec1); vec1 += mPos; for (int i = 0; i < 3; i++) { if (i != 1) { angle = cLib_targetAngleY(&mJntPos[i], &vec1); angle = angle - cLib_targetAngleY(&mJntPos[i], &vec3); mRad[i].y = cM_s2rad(angle); if (mMaxRad[i].y < mRad[i].y) { mRad[i].y = mMaxRad[i].y; } if (mRad[i].y < mMinRad[i].y) { mRad[i].y = mMinRad[i].y; } } else { mRad[i].y = 0.0f; } switch (i) { case 0: mDoMtx_stack_c::YrotS(cM_rad2s(mRad[i].y * (1.0f - field_0x148))); break; case 1: mDoMtx_stack_c::YrotS(cM_rad2s(mRad[0].y * field_0x148)); break; default: mDoMtx_stack_c::YrotS(cM_rad2s(mRad[i].y)); break; } vec2 = vec3 - mJntPos[i]; mDoMtx_stack_c::multVec(&vec2, &vec3); vec3 += mJntPos[i]; } vec3 = field_0x24; mJntPos[0].y = field_0x24.y; for (int i = 0; i < 3; i++) { if (i != 1) { (void)mJntPos[i]; s16 var_r26 = -cLib_targetAngleX(&mJntPos[i], &field_0x120); var_r26 = var_r26 - (s16)-cLib_targetAngleX(&mJntPos[i], &field_0x24); mRad[i].x = cM_s2rad(var_r26); if (mMaxRad[i].x < mRad[i].x) { mRad[i].x = mMaxRad[i].x; } if (mRad[i].x < mMinRad[i].x) { mRad[i].x = mMinRad[i].x; } } else { mRad[i].x = 0.0f; } switch (i) { case 0: mDoMtx_stack_c::XrotS(cM_rad2s(mRad[i].x * (1.0f - field_0x148))); break; case 1: mDoMtx_stack_c::XrotS(cM_rad2s(mRad[0].x * field_0x148)); break; default: mDoMtx_stack_c::XrotS(cM_rad2s(mRad[i].x)); } vec2 = vec3 - mJntPos[i]; mDoMtx_stack_c::multVec(&vec2, &vec3); vec3 += mJntPos[i]; } } void daNpcT_JntAnm_c::calcJntRad(f32 param_0, f32 param_1, f32 param_2) { if (mMode == 0) { clrRad(); } else { calc(param_2); } for (int i = 0; i < 3; i++) { if (param_0 < 1.0f && mDirectFlag == 0) { cLib_addCalc2(&field_0xe4[i].x, mRad[i].x, param_0, M_PI); cLib_addCalc2(&field_0xe4[i].y, mRad[i].y, param_0, M_PI); cLib_addCalc2(&field_0xe4[i].z, mRad[i].z, param_0, M_PI); if (0.0f < param_2 && 0.0f < mRad[i].y && mRad[i].y - field_0xe4[i].y < 0.0f) { field_0xe4[i].y = mRad[i].y; } if (param_2 < 0.0f && mRad[i].y < 0.0f && 0.0f < mRad[i].y - field_0xe4[i].y) { field_0xe4[i].y = mRad[i].y; } } else { field_0xe4[i].x = mRad[i].x; field_0xe4[i].y = mRad[i].y; field_0xe4[i].z = mRad[i].z; } } } #if DEBUG void daNpcT_JntAnm_c::drawDbgInfo() { GXColor green = {0x80, 0xff, 0x80, 0xff}; GXColor blue = {0x80, 0x80, 0xff, 0xff}; GXColor red = {0xff, 0x80, 0x80, 0xff}; GXColor yellow = {0xff, 0xff, 0x80, 0xff}; cXyz unusedXyz1; cXyz unusedXyz2; for (int i = 2; i >= 0; i--) { if (i != 2) { dDbVw_drawLineOpa(mJntPos[i + 1], mJntPos[i], red, 1, 12); } dDbVw_drawSphereOpa(mJntPos[i], 4.5f, green, 1); } dDbVw_drawLineOpa(mJntPos[0], field_0x24, red, 1, 12); dDbVw_drawSphereOpa(field_0x24, 9.0f, green, 1); dDbVw_drawSphereOpa(mAttnPos, 18.0f, green, 1); } #endif void daNpcT_DmgStagger_c::setParam(fopAc_ac_c* i_actor1, fopAc_ac_c* i_actor2, s16 i_angle) { if (i_actor2 && i_actor1) { mPower[0] = cM_deg2s(60.0f); mPower[1] = cM_deg2s(40.0f); field_0x16 = fopAcM_searchActorAngleY(i_actor1, i_actor2) - i_angle; mStagger = 0x4000; } } void daNpcT_DmgStagger_c::calc(BOOL param_0) { cXyz vec1, vec2; mDoMtx_stack_c::YrotS(field_0x16); cLib_addCalc2(&mPower[1], 0.0f, 0.1f, 125.0f); cLib_addCalc2(&mPower[0], 0.0f, 0.1f, 125.0f); for (int i = 0; i < 2; i++) { vec1.set(0.0f, 0.0f, mPower[i] * cM_ssin(mStagger)); mDoMtx_stack_c::multVec(&vec1, &vec2); mAngle[i].x = -vec2.z; mAngle[i].z = -vec2.x; } if (mStagger != 0) { cLib_chaseS(&mStagger, 0, 0x555); if (mStagger == 0) { if (param_0) { mStagger = 1; } else { mRebirth = true; } } } else { mRebirth = false; } } dCcD_SrcCyl daNpcT_c::mCcDCyl = { daNpcT_c::mCcDObjData, { {0.0f, 0.0f, 0.0f}, // mCenter 0.0f, // mRadius 0.0f // mHeight } // mCyl }; dCcD_SrcSph daNpcT_c::mCcDSph = { daNpcT_c::mCcDObjData, { {{0.0f, 0.0f, 0.0f}, 0.0f} // mSph } // mSphAttr }; void daNpcT_c::tgHitCallBack(fopAc_ac_c* i_actor1, dCcD_GObjInf* i_obj1, fopAc_ac_c* i_actor2, dCcD_GObjInf* i_obj2) { fopAc_ac_c* actor1 = i_actor1; u8 cut_type = 0; if (i_actor2 != NULL) { if (fopAcM_GetProfName(i_actor2) == PROC_ALINK) { cut_type = static_cast(i_actor2)->getCutType(); } else { cut_type = daPy_py_c::CUT_TYPE_NM_VERTICAL; } } static_cast(actor1)->setCutType(cut_type); } fopAc_ac_c* daNpcT_c::mFindActorPtrs[50]; char l_fileNameBuf[0x15]; s16 daNpcT_c::mSrchName; int daNpcT_c::mFindCount; void* daNpcT_c::srchActor(void* i_actor1, void* i_actor2) { fopAc_ac_c* actor2 = (fopAc_ac_c*)i_actor2; void* foundActor = NULL; if (mFindCount < 50 && fopAcM_IsActor(i_actor1) && i_actor1 != i_actor2) { if (mSrchName == fopAcM_GetName((fopAc_ac_c*)i_actor1)) { foundActor = (fopAc_ac_c*)i_actor1; mFindActorPtrs[mFindCount] = (fopAc_ac_c*)foundActor; mFindCount++; } } return NULL; } J3DAnmTransform* daNpcT_c::getTrnsfrmAnmP(char const* i_arcName, int i_resIdx) { return (J3DAnmTransform*)dComIfG_getObjectRes(i_arcName, i_resIdx); } J3DAnmTransformKey* daNpcT_c::getTrnsfrmKeyAnmP(char const* i_arcName, int i_resIdx) { return (J3DAnmTransformKey*)dComIfG_getObjectRes(i_arcName, i_resIdx); } J3DAnmTexPattern* daNpcT_c::getTexPtrnAnmP(char const* i_arcName, int i_resIdx) { return (J3DAnmTexPattern*)dComIfG_getObjectRes(i_arcName, i_resIdx); } J3DAnmTextureSRTKey* daNpcT_c::getTexSRTKeyAnmP(char const* i_arcName, int i_resIdx) { return (J3DAnmTextureSRTKey*)dComIfG_getObjectRes(i_arcName, i_resIdx); } J3DAnmTevRegKey* daNpcT_c::getTevRegKeyAnmP(char const* i_arcName, int i_resIdx) { return (J3DAnmTevRegKey*)dComIfG_getObjectRes(i_arcName, i_resIdx); } J3DAnmColor* daNpcT_c::getColorAnmP(char const* i_arcName, int i_resIdx) { return (J3DAnmColor*)dComIfG_getObjectRes(i_arcName, i_resIdx); } int daNpcT_c::setBckAnm(J3DAnmTransform* i_bck, f32 i_speed, int i_mode, int i_start, int i_end, bool i_modify) { s16 start = i_start; s16 end = i_end; return mBckAnm.init(i_bck, TRUE, i_mode, i_speed, start, end, i_modify); } int daNpcT_c::setMcaMorfAnm(J3DAnmTransformKey* i_bck, f32 i_speed, f32 i_morf, int i_mode, int i_start, int i_end) { f32 start = i_start; f32 end = i_end; mpMorf[0]->setAnm(i_bck, i_mode, i_morf, i_speed, start, end); if (mpMorf[1] != NULL) { mpMorf[1]->setAnm(i_bck, i_mode, i_morf, i_speed, start, end); } return 1; } int daNpcT_c::setBtpAnm(J3DAnmTexPattern* i_btp, J3DModelData* i_modelData, f32 i_speed, int i_mode) { return mBtpAnm.init(i_modelData, i_btp, TRUE, i_mode, i_speed, 0, -1); } int daNpcT_c::setBtkAnm(J3DAnmTextureSRTKey* i_btk, J3DModelData* i_modelData, f32 i_speed, int i_mode) { return mBtkAnm.init(i_modelData, i_btk, TRUE, i_mode, i_speed, 0, -1); } int daNpcT_c::setBrkAnm(J3DAnmTevRegKey* i_brk, J3DModelData* i_modelData, f32 i_speed, int i_mode) { return mBrkAnm.init(i_modelData, i_brk, TRUE, i_mode, i_speed, 0, -1); } int daNpcT_c::setBpkAnm(J3DAnmColor* i_bpk, J3DModelData* i_modelData, f32 i_speed, int i_mode) { return mBpkAnm.init(i_modelData, i_bpk, TRUE, i_mode, i_speed, 0, -1); } int daNpcT_c::loadRes(s8 const* i_resNoList, char const** i_resNameList) { int phase_state; int resLoad_cnt = 0; for (int i = 0; i < 10; i++) { if (i_resNoList[i] == -1) { if (i != resLoad_cnt) { break; } return cPhs_COMPLEATE_e; } phase_state = dComIfG_resLoad(&mPhase[i], i_resNameList[i_resNoList[i]]); if (phase_state == cPhs_COMPLEATE_e) { resLoad_cnt++; } if (phase_state == cPhs_ERROR_e || phase_state == cPhs_UNK3_e) { return cPhs_ERROR_e; } } return cPhs_INIT_e; } void daNpcT_c::deleteRes(s8 const* i_resNoList, char const** i_resNameList) { for (int i = 0; i < 10 && i_resNoList[i] != -1; i++) { dComIfG_resDelete(&mPhase[i], i_resNameList[i_resNoList[i]]); } } int daNpcT_c::execute() { BOOL procResult = FALSE; setParam(); procResult = evtProc(); if (!procResult) { action(); } beforeMove(); fopAcM_posMoveF(this, mCcStts.GetCCMoveP()); mAcch.CrrPos(dComIfG_Bgsp()); mGndChk = mAcch.m_gnd; mGroundAngle = fopAcM_getPolygonAngle(mGndChk, current.angle.y); mGroundH = mAcch.GetGroundH(); if (mGroundH != -G_CM3D_F_INF) { mPolSound = dKy_pol_sound_get(&mAcch.m_gnd); mReverb = dComIfGp_getReverb(mCcStts.GetRoomId()); if (mAcch.ChkWaterHit() && mAcch.m_wtr.GetHeight() > mGroundH) { mPolSound = dKy_pol_sound_get(&mAcch.m_wtr); } } afterMoved(); if (mGroundH != -G_CM3D_F_INF) { setEnvTevColor(); setRoomNo(); } if (mFaceMotionSeqMngr.checkEntryNewMotion()) { ctrlFaceMotion(); ctrlSubFaceMotion(1); } if (mMotionSeqMngr.checkEntryNewMotion()) { ctrlMotion(); } playAllAnm(); ctrlFaceMotion(); ctrlSubFaceMotion(0); ctrlMotion(); setAttnPos(); cLib_chaseF(&field_0xdfc, 0.0f, 1.0f); twilight(); setCollision(); if (!field_0xe2c) { if ((field_0xe33 && dComIfGp_getEvent()->isOrderOK()) || dComIfGp_event_runCheck() == FALSE) { evtOrder(); } } clrParam(); decTmr(); return 1; } int daNpcT_c::draw(BOOL param_0, BOOL i_setEffMtx, f32 param_2, GXColorS10* i_color, f32 param_4, BOOL i_drawGhost, BOOL i_noShadow, BOOL i_simpleShadow) { J3DModel* model = mpMorf[0]->getModel(); J3DModelData* modelData = model->getModelData(); field_0xe34 = 1; if (drawDbgInfo() || checkHide() || mNoDraw) { return 1; } tevStr.TevColor.r = 0; tevStr.TevColor.g = 0; tevStr.TevColor.b = 0; tevStr.TevColor.a = 0; if (i_color != NULL) { tevStr.TevColor.r = i_color->r; tevStr.TevColor.g = i_color->g; tevStr.TevColor.b = i_color->b; tevStr.TevColor.a = i_color->a; } if (mDamageTimerStart != 0 && mDamageTimer != 0) { f32 r = (f32)mDamageTimer / (f32)mDamageTimerStart; if (cM3d_IsZero(r) == false) { tevStr.TevColor.r = r * 20.0f; } } else if (param_0) { tevStr.TevColor.g = 20; } if (mAnmFlags & ANM_PLAY_BTP) { mBtpAnm.entry(modelData); } if (mAnmFlags & ANM_PLAY_BTK) { mBtkAnm.entry(modelData); } if (mAnmFlags & ANM_PLAY_BRK) { mBrkAnm.entry(modelData); } if (mAnmFlags & ANM_PLAY_BPK) { mBpkAnm.entry(modelData); } if (i_setEffMtx) { fopAcM_setEffectMtx(this, modelData); } if (i_drawGhost) { drawGhost(); } else if (mTwilight) { g_env_light.settingTevStruct(4, ¤t.pos, &tevStr); g_env_light.setLightTevColorType_MAJI(model, &tevStr); dComIfGd_setListDark(); mpMorf[0]->entryDL(); dComIfGd_setList(); } else { g_env_light.settingTevStruct(0, ¤t.pos, &tevStr); g_env_light.setLightTevColorType_MAJI(model, &tevStr); mpMorf[0]->entryDL(); } if (mAnmFlags & ANM_PLAY_BTP) { mBtpAnm.remove(modelData); } if (mAnmFlags & ANM_PLAY_BTK) { mBtkAnm.remove(modelData); } if (mAnmFlags & ANM_PLAY_BRK) { mBrkAnm.remove(modelData); } if (mAnmFlags & ANM_PLAY_BPK) { mBpkAnm.remove(modelData); } if (!i_noShadow) { if (!i_simpleShadow) { mShadowKey = dComIfGd_setShadow(mShadowKey, 1, model, ¤t.pos, param_2, param_4, current.pos.y, mGroundH, mGndChk, &tevStr, 0, 1.0f, dDlst_shadowControl_c::getSimpleTex()); } else { dComIfGd_setSimpleShadow(¤t.pos, mGroundH, param_4, mGndChk, 0, 1.0f, dDlst_shadowControl_c::getSimpleTex()); } } drawOtherMdl(); return 1; } void daNpcT_c::setEnvTevColor() { tevStr.YukaCol = dComIfG_Bgsp().GetPolyColor(mGndChk); tevStr.room_no = dComIfG_Bgsp().GetRoomId(mGndChk); } void daNpcT_c::setRoomNo() { s8 roomId = (s8)dComIfG_Bgsp().GetRoomId(mGndChk); fopAcM_SetRoomNo(this, roomId); mCcStts.SetRoomId(roomId); } int daNpcT_c::checkEndAnm(f32 i_speed) { switch ((u8)mpMorf[0]->getPlayMode()) { case J3DFrameCtrl::EMode_LOOP: return mpMorf[0]->isLoop(); case J3DFrameCtrl::EMode_NONE: case J3DFrameCtrl::EMode_RESET: return mpMorf[0]->isStop() && cM3d_IsZero(mpMorf[0]->getPlaySpeed()) && !cM3d_IsZero(i_speed); case J3DFrameCtrl::EMode_REVERSE: case J3DFrameCtrl::EMode_LOOP_REVERSE: break; } return 0; } int daNpcT_c::checkEndAnm(J3DFrameCtrl* i_anm, f32 i_speed) { switch (i_anm->getAttribute()) { case J3DFrameCtrl::EMode_LOOP: return i_anm->checkState(2); case J3DFrameCtrl::EMode_NONE: case J3DFrameCtrl::EMode_RESET: return (i_anm->checkState(1) && i_anm->getRate() == 0.0f) && i_speed != 0.0f; case J3DFrameCtrl::EMode_REVERSE: case J3DFrameCtrl::EMode_LOOP_REVERSE: break; } return 0; } void daNpcT_c::playAllAnm() { f32 speed; if (!(mAnmFlags & ANM_FLAG_4000)) { if (mAnmFlags & ANM_PLAY_BCK) { speed = mBckAnm.getPlaySpeed(); if (mAnmFlags & ANM_PAUSE_BCK) { mBckAnm.setPlaySpeed(0.0f); } mBckAnm.play(); if (checkEndAnm(mBckAnm.getFrameCtrl(), speed)) { mBckLoops++; } mBckAnm.setPlaySpeed(speed); } if (mAnmFlags & ANM_PLAY_BTP) { speed = mBtpAnm.getPlaySpeed(); if (mAnmFlags & ANM_PAUSE_BTP) { mBtpAnm.setPlaySpeed(0.0f); if (mAnmFlags & ANM_PAUSE_TIMER_BTP) { mBtpPauseTimer = cLib_getRndValue(90, 90); } } if (cLib_calcTimer(&mBtpPauseTimer) != 0) { mBtpAnm.setPlaySpeed(0.0f); } mBtpAnm.play(); if (mAnmFlags & ANM_PAUSE_TIMER_BTP) { if (checkEndAnm(mBtpAnm.getFrameCtrl(), mBtpAnm.getPlaySpeed())) { mBtpPauseTimer = cLib_getRndValue(90, 90); } } else { mBtpPauseTimer = 0; } mBtpAnm.setPlaySpeed(speed); } } if (mAnmFlags & ANM_PLAY_MORF) { speed = mpMorf[0]->getPlaySpeed(); if (mAnmFlags & ANM_PAUSE_MORF) { mpMorf[0]->setPlaySpeed(0.0f); mpMorf[0]->play(mPolSound, mReverb); mpMorf[0]->setPlaySpeed(speed); if (mpMorf[1] != NULL) { mpMorf[1]->setPlaySpeed(0.0f); mpMorf[1]->play(0, 0); mpMorf[1]->setPlaySpeed(speed); } } else { mpMorf[0]->play(mPolSound, mReverb); if (mpMorf[1] != NULL) { mpMorf[1]->play(0, 0); } if (checkEndAnm(speed)) { mMorfLoops++; } } } if (mAnmFlags & ANM_PLAY_BTK) { speed = mBtkAnm.getPlaySpeed(); if (mAnmFlags & ANM_PAUSE_BTK) { mBtkAnm.setPlaySpeed(0.0f); } ctrlBtk(); mBtkAnm.play(); mBtkAnm.setPlaySpeed(speed); } if (mAnmFlags & ANM_PLAY_BRK) { speed = mBrkAnm.getPlaySpeed(); if (mAnmFlags & ANM_PAUSE_BRK) { mBrkAnm.setPlaySpeed(0.0f); } mBrkAnm.play(); mBrkAnm.setPlaySpeed(speed); } if (mAnmFlags & ANM_PLAY_BPK) { speed = mBpkAnm.getPlaySpeed(); if (mAnmFlags & ANM_PAUSE_BPK) { mBpkAnm.setPlaySpeed(0.0f); } mBpkAnm.play(); mBpkAnm.setPlaySpeed(speed); } mAnmFlags &= ~(ANM_PAUSE_MORF | ANM_PAUSE_BTK | ANM_PAUSE_BRK | ANM_PAUSE_BPK | ANM_PAUSE_BCK | ANM_PAUSE_BTP | ANM_FLAG_4000); } BOOL daNpcT_c::ctrlBtk() { if (mpMatAnm[0] != NULL) { if (field_0xe29 != 0) { J3DAnmTextureSRTKey* btkAnm = mBtkAnm.getBtkAnm(); if (btkAnm != NULL) { mpMatAnm[0]->setNowOffsetX(field_0xde4 * cM_ssin(mJntAnm.getEyeAngleY())); mpMatAnm[0]->setNowOffsetY(field_0xde0 * cM_ssin(mJntAnm.getEyeAngleX())); if (field_0xe2a != 0) { mpMatAnm[0]->setMorfFrm(field_0xe2a); field_0xe2a = 0; } mpMatAnm[0]->onEyeMoveFlag(); return TRUE; } } if (field_0xe2a != 0) { mpMatAnm[0]->setMorfFrm(field_0xe2a); field_0xe2a = 0; } mpMatAnm[0]->offEyeMoveFlag(); } return FALSE; } void daNpcT_c::setMtx() { J3DModel* model = mpMorf[0]->getModel(); J3DModelData* modelData = model->getModelData(); mDoMtx_stack_c::transS(current.pos); mDoMtx_stack_c::ZXYrotM(mCurAngle); mDoMtx_stack_c::scaleM(scale); model->setBaseTRMtx(mDoMtx_stack_c::get()); model->setUserArea((uintptr_t)this); mpMorf[0]->onMorfNone(); if (cM3d_IsZero(field_0xdfc) != FALSE) { mpMorf[0]->offMorfNone(); } if (mAnmFlags & ANM_PLAY_BCK) { mBckAnm.getBckAnm()->setFrame(mBckAnm.getFrame()); } mpMorf[0]->modelCalc(); } void daNpcT_c::ctrlFaceMotion() { int motionNo; f32 morfFrm; if (mFaceMotionSeqMngr.play(mBckLoops, &motionNo, &morfFrm)) { setFaceMotionAnm(motionNo, true); if (morfFrm < 0.0f) { mpMorf[0]->setMorf(mExpressionMorfFrame); field_0xdfc = mExpressionMorfFrame; if (mpMorf[1]) { mpMorf[1]->setMorf(mExpressionMorfFrame); } } else { mpMorf[0]->setMorf(morfFrm); field_0xdfc = morfFrm; if (mpMorf[1]) { mpMorf[1]->setMorf(morfFrm); } } } } void daNpcT_c::ctrlMotion() { int motionNo; f32 morfFrm; if (mMotionSeqMngr.play(mMorfLoops, &motionNo, &morfFrm)) { BOOL restart = FALSE; if (morfFrm < -1.0f) { restart = TRUE; } setMotionAnm(motionNo, morfFrm < 0.0f ? mMorfFrames : morfFrm, restart); field_0xdfc = 0.0f; if (mCreating) { mpMorf[0]->setMorf(0.0f); field_0xdfc = 0.0f; if (mpMorf[1]) { mpMorf[1]->setMorf(0.0f); } } } } int daNpcT_c::ctrlMsgAnm(int* o_faceAnmAttr_p, int* o_anmAttr_p, fopAc_ac_c* i_talkPartner_p, int param_3) { *o_faceAnmAttr_p = -1; *o_anmAttr_p = -1; if (param_3 != 0 || eventInfo.checkCommandTalk() || mStaffId != -1) { if (dComIfGp_event_getTalkPartner() == i_talkPartner_p) { msg_class* msg_p = dMsgObject_c::getActor(); JUT_ASSERT(3147, NULL != msg_p); if (msg_p->mode == 2 || msg_p->mode == 3) { mMsgId = fpcM_ERROR_PROCESS_ID_e; } else if (msg_p->mode == 6) { if (msg_p->msg_idx != mMsgId) { *o_faceAnmAttr_p = dComIfGp_getMesgFaceAnimeAttrInfo(); *o_anmAttr_p = dComIfGp_getMesgAnimeAttrInfo(); mMsgId = msg_p->msg_idx; } if (dMsgObject_isMouthCheck()) { mAnmFlags &= ~ANM_FLAG_4000; } else { mAnmFlags |= ANM_FLAG_4000; } field_0xdb4 = 0x14; } else { if (mAnmFlags & ANM_FLAG_4000) { mAnmFlags &= ~ANM_FLAG_4000; } mMsgId = fpcM_ERROR_PROCESS_ID_e; } } else { mMsgId = fpcM_ERROR_PROCESS_ID_e; if (field_0xdb4) { field_0xdb4 = 1; } } } if (param_3 == 0) { cLib_calcTimer(&field_0xdb4); } return field_0xdb4; } int daNpcT_c::ctrlJoint(J3DJoint* i_joint, J3DModel* i_model) { J3DJoint* joint = i_joint; int joint_no = joint->getJntNo(); cXyz pos; csXyz angle; mDoMtx_stack_c::copy(i_model->getAnmMtx(joint_no)); if (joint_no == getBackboneJointNo() || joint_no == getNeckJointNo() || joint_no == getHeadJointNo()) { Mtx joint_mtx; cMtx_copy(mDoMtx_stack_c::get(), joint_mtx); pos.set(joint_mtx[0][3], joint_mtx[1][3], joint_mtx[2][3]); joint_mtx[0][3] = joint_mtx[1][3] = joint_mtx[2][3] = 0.0f; mDoMtx_stack_c::ZXYrotS(mCurAngle.x, mCurAngle.y + field_0xd8a.y, mCurAngle.z); if (joint_no == getNeckJointNo()) { angle.set(mJntAnm.getJntRadX2S(2), mJntAnm.getJntRadY2S(2), 0); mDoMtx_stack_c::ZXYrotM(angle); } if (joint_no == getHeadJointNo()) { angle.set(mJntAnm.getJntRadX2S(2), mJntAnm.getJntRadY2S(2), 0); mDoMtx_stack_c::ZXYrotM(angle); } mDoMtx_stack_c::inverse(); Mtx inverse_mtx; cMtx_copy(mDoMtx_stack_c::get(), inverse_mtx); mDoMtx_stack_c::transS(pos); mDoMtx_stack_c::ZXYrotM(mCurAngle.x, mCurAngle.y + field_0xd8a.y, mCurAngle.z); if (joint_no == getBackboneJointNo()) { angle.set(mJntAnm.getJntRadX2S(2), mJntAnm.getJntRadY2S(2), 0); mDoMtx_stack_c::ZXYrotM(angle); } if (joint_no == getNeckJointNo()) { angle.set(mJntAnm.getJntRadX2S(1), mJntAnm.getJntRadY2S(1), 0); mDoMtx_stack_c::ZXYrotM(angle); } if (joint_no == getHeadJointNo()) { angle.set(mJntAnm.getJntRadX2S(0), mJntAnm.getJntRadY2S(0), 0); mDoMtx_stack_c::ZXYrotM(angle); } mDoMtx_stack_c::concat(inverse_mtx); mDoMtx_stack_c::concat(joint_mtx); } afterJntAnm(joint_no); i_model->setAnmMtx(joint_no, mDoMtx_stack_c::get()); cMtx_copy(mDoMtx_stack_c::get(), J3DSys::mCurrentMtx); if ((mAnmFlags & ANM_PLAY_BCK) && (checkChangeJoint(joint_no) || checkRemoveJoint(joint_no))) { J3DAnmTransform* bck = mBckAnm.getBckAnm(); mBckAnm.changeBckOnly(mpMorf[0]->getAnm()); mpMorf[0]->changeAnm(bck); } if (cM3d_IsZero(field_0xdfc) == false) { if (checkChangeJoint(joint_no)) { mpMorf[0]->offMorfNone(); } else if (checkRemoveJoint(joint_no)) { mpMorf[0]->onMorfNone(); } } return 1; } BOOL daNpcT_c::evtProc() { BOOL ret = FALSE; if (dComIfGp_event_runCheck()) { if (eventInfo.checkCommandTalk()) { if (!checkChangeEvt()) { evtTalk(); } ret = TRUE; } else if (eventInfo.checkCommandDemoAccrpt() && dComIfGp_getEventManager().endCheck(mEvtId)) { if (evtEndProc()) { dComIfGp_event_reset(); mEvtId = -1; } } else { if (!strcmp(dComIfGp_getEventManager().getRunEventName(), "DEFAULT_GETITEM") && mItemPartnerId != fpcM_ERROR_PROCESS_ID_e) { dComIfGp_event_setTalkPartner(NULL); dComIfGp_event_setItemPartnerId(mItemPartnerId); mItemPartnerId = fpcM_ERROR_PROCESS_ID_e; } ret = evtCutProc(); } int tmp = field_0xdb4; int face_motion, motion; if (ctrlMsgAnm(&face_motion, &motion, this, field_0xe2d)) { if (field_0xe26) { mFaceMotionSeqMngr.setNo(face_motion, -1.0f, TRUE, mFaceMotionSeqMngr.getOffset()); mMotionSeqMngr.setNo(motion, -1.0f, FALSE, mMotionSeqMngr.getOffset()); } } else if (tmp != 0 && field_0xe26) { setAfterTalkMotion(); } field_0xe26 = true; } else { if (mStaffId != -1) { mMode = MODE_INIT; mStaffId = -1; } field_0xdb4 = 0; field_0xe26 = true; } return ret; } void daNpcT_c::setFootPos() { if (getFootLJointNo() >= 0) { mOldFootLOffset = mFootLOffset; mDoMtx_stack_c::copy(mpMorf[0]->getModel()->getAnmMtx(getFootLJointNo())); mDoMtx_stack_c::multVecZero(&mFootLPos); mFootLOffset = mFootLPos - current.pos; } if (getFootRJointNo() >= 0) { mOldFootROffset = mFootROffset; mDoMtx_stack_c::copy(mpMorf[0]->getModel()->getAnmMtx(getFootRJointNo())); mDoMtx_stack_c::multVecZero(&mFootRPos); mFootROffset = mFootRPos - current.pos; } if (mCreating) { mOldFootLOffset = mFootLOffset; mOldFootROffset = mFootROffset; } } void daNpcT_c::setFootPrtcl(cXyz* param_0, f32 param_1, f32 param_2) { cXyz foot_l_pos = mFootLPos; cXyz foot_r_pos = mFootRPos; cXyz start, end; u8 cross1; u8 foot_l_att; u8 cross2; u8 foot_r_att; start = mFootLPos; end = start; end.y -= param_1; mLinChk.Set(&start, &end, this); cross1 = dComIfG_Bgsp().LineCross(&mLinChk); if (cross1) { foot_l_pos.y = mLinChk.GetCross().y; mFootLPolyAngle = fopAcM_getPolygonAngle(mLinChk, mCurAngle.y); foot_l_att = dComIfG_Bgsp().GetPolyAtt0(mLinChk); } else { mFootLPolyAngle = 0; } start = mFootRPos; end = start; end.y -= param_1; mLinChk.Set(&start, &end, this); cross2 = dComIfG_Bgsp().LineCross(&mLinChk); if (cross2) { foot_r_pos.y = mLinChk.GetCross().y; mFootRPolyAngle = fopAcM_getPolygonAngle(mLinChk, mCurAngle.y); foot_r_att = dComIfG_Bgsp().GetPolyAtt0(mLinChk); } else { mFootRPolyAngle = 0; } field_0x9c0.setEffectTwo(&tevStr, ¤t.pos, 0, 0, NULL, mFootLOnGround == 0 && cross1 == 1 ? &foot_l_pos : NULL, mFootROnGround == 0 && cross2 == 1 ? &foot_r_pos : NULL, &mCurAngle, param_0, fopAcM_GetRoomNo(this), param_2, speedF); if (mFootLOnGround == 0 && cross1 == 1) { switch (foot_l_att) { case 3: break; case 13: dkWmark_c::setFootMark(&foot_l_pos, mCurAngle.y, 3); break; } } if (mFootROnGround == 0 && cross2 == 1) { switch (foot_r_att) { case 3: break; case 13: dkWmark_c::setFootMark(&foot_r_pos, mCurAngle.y, 3); break; } } mFootLOnGround = cross1; mFootROnGround = cross2; } bool daNpcT_c::checkCullDraw() { bool result = false; return result; } void daNpcT_c::twilight() { if (mTwilight) { attention_info.flags |= fopAc_AttnFlag_UNK_0x400000; mNoDraw = false; attention_info.flags |= fopAc_AttnFlag_UNK_0x800000; setHitodamaPrtcl(); } } void daNpcT_c::evtOrder() { if (strlen(mpEvtData[mEvtNo].eventName) != 0) { if (strlen(mpArcNames[mpEvtData[mEvtNo].num]) != 0) { eventInfo.setArchiveName(mpArcNames[mpEvtData[mEvtNo].num]); dComIfGp_getEventManager().setObjectArchive(eventInfo.getArchiveName()); } mEvtId = dComIfGp_getEventManager().getEventIdx(this, mpEvtData[mEvtNo].eventName, 0xFF); fopAcM_orderOtherEventId(this, mEvtId, 0xFF, 0xFFFF, 40, 1); } else if ( #if !PLATFORM_SHIELD (!mTwilight || daPy_py_c::checkNowWolfEyeUp()) && #endif ((attention_info.flags & fopAc_AttnFlag_SPEAK_e) || (attention_info.flags & fopAc_AttnFlag_TALK_e))) { eventInfo.onCondition(dEvtCnd_CANTALK_e); if (chkXYItems()) { eventInfo.onCondition(dEvtCnd_CANTALKITEM_e); } if (mSpeakEvent) { fopAcM_orderSpeakEvent(this, 0, 0); } } } void daNpcT_c::evtChange() { if (strlen(mpEvtData[mEvtNo].eventName) != 0) { if (strlen(mpArcNames[mpEvtData[mEvtNo].num]) != 0) { eventInfo.setArchiveName(mpArcNames[mpEvtData[mEvtNo].num]); dComIfGp_getEventManager().setObjectArchive(eventInfo.getArchiveName()); } mEvtId = dComIfGp_getEventManager().getEventIdx(this, mpEvtData[mEvtNo].eventName, 0xFF); dComIfGp_getEvent()->reset(this); fopAcM_orderChangeEventId(this, mEvtId, 1, 0xFFFF); } } void daNpcT_c::clrParam() { field_0xd7e = mCurAngle; mCutType = 0; memset(&mEvtNo, 0, (uintptr_t)&field_0xe38 - (uintptr_t)&mEvtNo); mJntAnm.clrDirectFlag(); } bool daNpcT_c::setFaceMotionAnm(int i_idx, bool i_modify) { J3DAnmTransform* bck = NULL; J3DAnmTexPattern* btp = NULL; mAnmFlags &= ~(ANM_PAUSE_BCK | ANM_PAUSE_BTP | ANM_PLAY_BCK | ANM_PLAY_BTP | ANM_FLAG_1000 | ANM_PAUSE_TIMER_BTP | ANM_FLAG_4000); daNpcT_faceMotionAnmData_c anm_data = getFaceMotionAnm(mpFaceMotionAnmData[i_idx]); if (anm_data.mBckFileIdx != -1) { int arc_idx = anm_data.mBckArcIdx; int file_idx = anm_data.mBckFileIdx; changeBck(&file_idx, &arc_idx); bck = getTrnsfrmAnmP(mpArcNames[arc_idx], file_idx); } if (bck != NULL) { if (setBckAnm(bck, 1.0f, anm_data.mBckAttr, 0, -1, i_modify)) { mAnmFlags |= ANM_PAUSE_BCK | ANM_PLAY_BCK; mBckLoops = 0; } else { bck = NULL; } } if (bck == NULL && anm_data.mBckFileIdx != -1) { return false; } if (anm_data.mBtpFileIdx != -1) { int arc_idx = anm_data.mBtpArcIdx; int file_idx = anm_data.mBtpFileIdx; changeBtp(&file_idx, &arc_idx); btp = getTexPtrnAnmP(mpArcNames[arc_idx], file_idx); } if (btp != NULL) { if (btp == mBtpAnm.getBtpAnm() && anm_data.field_0x18) { mAnmFlags |= ANM_PLAY_BTP | ANM_PAUSE_TIMER_BTP; } else if (setBtpAnm(btp, mpMorf[0]->getModel()->getModelData(), 1.0f, anm_data.mBtpAttr)) { mAnmFlags |= ANM_PAUSE_BTP | ANM_PLAY_BTP; if (anm_data.field_0x18) { mAnmFlags |= ANM_PAUSE_TIMER_BTP; } } else { btp = NULL; } } if (btp == NULL && anm_data.mBtpFileIdx != -1) { return false; } return afterSetFaceMotionAnm(i_idx, anm_data.mBckAttr, 0.0f, anm_data.mBtpAttr); } bool daNpcT_c::setMotionAnm(int i_idx, f32 i_morf, BOOL i_restart) { J3DAnmTransformKey* bck = NULL; J3DAnmTextureSRTKey* btk = NULL; BOOL restarted = FALSE; mAnmFlags &= ~(ANM_PAUSE_MORF | ANM_PAUSE_BTK | ANM_PAUSE_BRK | ANM_PAUSE_BPK | ANM_PLAY_MORF | ANM_PLAY_BTK | ANM_PLAY_BRK | ANM_PLAY_BPK); daNpcT_motionAnmData_c anm_data = getMotionAnm(mpMotionAnmData[i_idx]); if (anm_data.mBckFileIdx != -1) { int arc_idx = anm_data.mBckArcIdx; int file_idx = anm_data.mBckFileIdx; changeAnm(&file_idx, &arc_idx); bck = getTrnsfrmKeyAnmP(mpArcNames[arc_idx], file_idx); } if (bck != NULL) { if (i_restart && bck == mpMorf[0]->getAnm()) { mAnmFlags |= ANM_PLAY_MORF; mMorfLoops = 0; restarted = TRUE; } else if (setMcaMorfAnm(bck, 1.0f, i_morf, anm_data.mBckAttr, 0, -1)) { mAnmFlags |= ANM_PAUSE_MORF | ANM_PLAY_MORF; mMorfLoops = 0; } else { bck = NULL; } } if (bck == NULL && anm_data.mBckFileIdx != -1) { return false; } field_0xe29 = 0; field_0xe2a = 0; if (anm_data.mBtkFileIdx != -1) { int arc_idx = anm_data.mBtkArcIdx; int file_idx = anm_data.mBtkFileIdx; changeBtk(&file_idx, &arc_idx); field_0xe29 = anm_data.field_0x18; field_0xe2a = anm_data.field_0x1a; btk = getTexSRTKeyAnmP(mpArcNames[arc_idx], file_idx); } if (btk != NULL) { if (restarted) { mAnmFlags |= ANM_PLAY_BTK; } else if (setBtkAnm(btk, mpMorf[0]->getModel()->getModelData(), 1.0f, anm_data.mBtkAttr)) { mAnmFlags |= ANM_PAUSE_BTK | ANM_PLAY_BTK; } else { btk = NULL; } } if (btk == NULL && anm_data.mBtkFileIdx != -1) { return false; } return afterSetMotionAnm(i_idx, anm_data.mBckAttr, i_morf, anm_data.mBtkAttr); } void daNpcT_c::setPos(cXyz i_pos) { i_pos.y += 300.0f; mGndChk.SetPos(&i_pos); i_pos.y = dComIfG_Bgsp().GroundCross(&mGndChk); JUT_ASSERT(3922, -G_CM3D_F_INF != i_pos.y) current.pos = i_pos; old.pos = current.pos; } void daNpcT_c::setAngle(csXyz i_angle) { current.angle = i_angle; shape_angle = current.angle; mCurAngle = current.angle; field_0xd7e = mCurAngle; old.angle = current.angle; } void daNpcT_c::setAngle(s16 i_angle) { current.angle.y = i_angle; shape_angle.y = current.angle.y; mCurAngle.y = current.angle.y; field_0xd7e.y = mCurAngle.y; old.angle.y = current.angle.y; } fopAc_ac_c* daNpcT_c::hitChk(dCcD_GObjInf* i_objInf, u32 param_1) { fopAc_ac_c* hit_actor_p = NULL; ((dCcD_Stts*)i_objInf->GetStts())->Move(); if (mDamageTimer == 0) { hit_actor_p = i_objInf->GetTgHitAc(); if (hit_actor_p != NULL) { if (fopAcM_GetName(hit_actor_p) == PROC_NPC_TK && (param_1 & 1)) { ((daNPC_TK_c*)hit_actor_p)->setBump(); return hit_actor_p; } return hit_actor_p; } } return NULL; } void daNpcT_c::setDamage(int param_0, int i_faceMotion, int i_motion) { mDamageTimerStart = 8; if (mCutType == daPy_py_c::CUT_TYPE_TURN_RIGHT || mCutType == daPy_py_c::CUT_TYPE_TURN_LEFT || mCutType == daPy_py_c::CUT_TYPE_LARGE_TURN_LEFT || mCutType == daPy_py_c::CUT_TYPE_LARGE_TURN_RIGHT) { mDamageTimerStart = 20; } mDamageTimer = mDamageTimerStart; if (i_faceMotion > -1) { mFaceMotionSeqMngr.setNo(i_faceMotion, 0.0f, FALSE, mFaceMotionSeqMngr.getOffset()); } if (i_motion > -1) { //! @bug The parameters to this function are passed in the wrong order mMotionSeqMngr.setNo(i_motion, 0.0f, mMotionSeqMngr.getOffset(), FALSE); } speed.setall(0.0f); speedF = 0.0f; } BOOL daNpcT_c::chkActorInSight(fopAc_ac_c* i_actor, f32 i_fovY, s16 i_angleY) { if (cM3d_IsZero(i_fovY)) { return FALSE; } if (i_fovY < 180.0f) { s16 fov_s = cM_deg2s(i_fovY); cXyz attn_pos = getAttnPos(i_actor); cSGlobe globe(attention_info.position - attn_pos); cSAngle angle_diff = cSAngle(globe.U().Inv()) - i_angleY; s16 angle_diff_s = angle_diff.Val(); if (angle_diff_s < 0) { angle_diff_s = -angle_diff_s; } return (angle_diff_s > fov_s) == false; } return TRUE; } BOOL daNpcT_c::chkPointInArea(cXyz i_pos, cXyz i_center, f32 i_boundXZ, f32 i_boundY1, f32 i_boundY2, s16 i_angle) { cXyz bounds, center; f32 max_y = i_boundY1; f32 min_y = i_boundY2; if (max_y < min_y) { min_y = i_boundY1; max_y = i_boundY2; } bounds.set(i_boundXZ, fabsf(max_y - min_y), i_boundXZ); center = i_center; center.y += min_y; return chkPointInArea(i_pos, center, bounds, i_angle); } BOOL daNpcT_c::chkPointInArea(cXyz i_pos, cXyz i_center, cXyz i_bounds, s16 i_angle) { return daNpcT_chkPointInArea(i_pos, i_center, i_bounds, i_angle, TRUE); } BOOL daNpcT_c::chkFindActor(fopAc_ac_c* i_actor, BOOL i_release, s16 i_angleY) { cXyz attn_pos = getAttnPos(i_actor); int dist_index = i_release == FALSE ? attention_info.distances[fopAc_attn_SPEAK_e] : attention_info.distances[fopAc_attn_TALK_e]; f32 dist_max = i_release == FALSE ? dComIfGp_getAttention()->getDistTable(dist_index).mDistMax : dComIfGp_getAttention()->getDistTable(dist_index).mDistMaxRelease; f32 lower_y = dComIfGp_getAttention()->getDistTable(dist_index).mLowerY * -1.0f; f32 upper_y = dComIfGp_getAttention()->getDistTable(dist_index).mUpperY * -1.0f; u32 angle_select = dComIfGp_getAttention()->getDistTable(dist_index).mAngleSelect; f32 fov = 180.0f; if (angle_select & 8) { fov = 30.0f; } else if (angle_select & 0x10) { fov = 45.0f; } else if (angle_select & 0x20) { fov = 60.0f; } else if (angle_select & 0x40) { fov = 90.0f; } else if (angle_select & 0x80) { fov = 110.0f; } else if (angle_select & 0x100) { fov = 135.0f; } if (chkPointInArea(attn_pos, attention_info.position, dist_max, lower_y, upper_y, 0)) { if (chkActorInSight(i_actor, fov, i_angleY)) { return TRUE; } } return FALSE; } BOOL daNpcT_c::chkWolfAction() { if (daPy_py_c::checkNowWolf()) { return (!daPy_getPlayerActorClass()->checkWolfWait() && !dComIfGp_checkPlayerStatus0(0, 0x8000000)) && !daPy_getPlayerActorClass()->checkWolfRSit(); } return FALSE; } BOOL daNpcT_c::chkFindWolf(s16 i_angleY, int i_distIndex, int param_2, f32 i_boundXZ, f32 i_fovY, f32 i_boundY1, f32 i_boundY2, BOOL param_7) { cXyz attn_pos = getAttnPos(daPy_getPlayerActorClass()); if (daPy_py_c::checkNowWolf()) { if (chkPointInArea(attn_pos, attention_info.position, i_boundXZ, i_boundY1, i_boundY2, 0)) { if (chkActorInSight(daPy_getPlayerActorClass(), i_fovY, i_angleY)) { return TRUE; } } f32 dist_max = dComIfGp_getAttention()->getDistTable(i_distIndex).mDistMax; f32 upper_y = dComIfGp_getAttention()->getDistTable(i_distIndex).mUpperY; f32 lower_y = dComIfGp_getAttention()->getDistTable(i_distIndex).mLowerY; if (chkPointInArea(attn_pos, attention_info.position, dist_max, upper_y, lower_y, 0)) { return TRUE; } int dist_index = attention_info.distances[fopAc_attn_TALK_e]; dist_max = dComIfGp_getAttention()->getDistTable(dist_index).mDistMax; upper_y = dComIfGp_getAttention()->getDistTable(dist_index).mUpperY; lower_y = dComIfGp_getAttention()->getDistTable(dist_index).mLowerY; if (chkPointInArea(attn_pos, attention_info.position, dist_max, upper_y, lower_y, 0)) { if (param_2 < 2 && param_7 && chkWolfAction()) { return TRUE; } } } return FALSE; } BOOL daNpcT_c::srchPlayerActor() { if (mPlayerActorMngr.getActorP() != NULL) { if (!chkFindPlayer(TRUE, mCurAngle.y)) { mPlayerActorMngr.remove(); } } else { if (chkFindPlayer(FALSE, mCurAngle.y)) { mPlayerActorMngr.entry(daPy_getPlayerActorClass()); } } return NULL != mPlayerActorMngr.getActorP(); } cXyz daNpcT_c::getAttnPos(fopAc_ac_c* i_actor) { cXyz attn_pos = i_actor->attention_info.position; if (fopAcM_GetName(i_actor) == PROC_ALINK) { attn_pos.y -= daPy_py_c::getAttentionOffsetY(); if (daPy_py_c::checkNowWolf()) { attn_pos = i_actor->current.pos; attn_pos.y = i_actor->attention_info.position.y; } } return attn_pos; } BOOL daNpcT_c::turn(s16 i_angle, int i_count, int i_direction) { if (mTurnAmount == 0) { mTurnCount = fabsf(cM_sht2d((s16)(i_angle - mStartAngle))); mTurnCount = mTurnCount / 180.0f * i_count; mTurnCount = (int)mTurnCount + 1; if (mTurnCount < 8.0f) { mTurnCount = 8.0f; } } int tmp1 = mStartAngle; int tmp2 = i_angle; if (i_direction == 0) { i_direction = (s16)(i_angle - mStartAngle) >= 0 ? 1 : -1; } int angle_diff = (u16)(tmp2 - tmp1); if (i_direction == -1) { angle_diff = -(u16)(0xffff - angle_diff); } s16 turn = angle_diff * cM_ssin((s16)mTurnAmount); mTurnAmount += (s16)(0x4000 / mTurnCount); if ((u16)mTurnAmount < 0x4000) { mCurAngle.y = mStartAngle + turn; } else { mCurAngle.y = i_angle; mTurnAmount = 0x4000; } return i_angle == mCurAngle.y; } BOOL daNpcT_c::step(s16 i_angle, int i_faceMotion, int i_motion, int i_turnCount, int i_turnDirection) { if (mStepMode >= 2 && i_angle != mCurAngle.y) { mStepMode = 0; } if (mStepMode == 0) { s16 angle_diff = i_angle - mCurAngle.y; if (angle_diff == 0) { mStepMode = 2; } else { mTargetAngle = i_angle; mStartAngle = mCurAngle.y; mTurnAmount = 0; if ((int)fabsf(cM_sht2d(angle_diff)) > 64) { mFaceMotionSeqMngr.setNo(i_faceMotion, -1.0f, TRUE, mFaceMotionSeqMngr.getOffset()); mMotionSeqMngr.setNo(i_motion, -1.0f, TRUE, mMotionSeqMngr.getOffset()); } current.angle.y = mCurAngle.y; shape_angle.y = current.angle.y; mStepMode++; } } else if (mStepMode == 1) { if (turn(mTargetAngle, i_turnCount, i_turnDirection)) { current.angle.y = mCurAngle.y; shape_angle.y = current.angle.y; field_0xd7e.y = current.angle.y; mStepMode++; } else { current.angle.y = mCurAngle.y; shape_angle.y = current.angle.y; } } return mStepMode > 1; } void daNpcT_c::calcSpeedAndAngle(cXyz i_target, BOOL i_stop, s16 i_angleScale, s16 i_angleStep) { if (i_stop) { speedF = 0.0f; return; } current.angle.y = cLib_targetAngleY(¤t.pos, &i_target); cLib_addCalcAngleS2(&shape_angle.y, current.angle.y, i_angleScale, i_angleStep); mCurAngle.y = shape_angle.y; if (mFootLOffset.y < mFootROffset.y) { speedF = (mFootLOffset - mOldFootLOffset).absXZ(); } else { speedF = (mFootROffset - mOldFootROffset).absXZ(); } speedF *= cM_scos(mGroundAngle); if (mGroundAngle < 0) { speedF *= 0.85f; } } int daNpcT_c::getActorDistance(fopAc_ac_c* i_actor, int i_distIndex1, int i_distIndex2) { int ret = 0; f32 dist1 = dComIfGp_getAttention()->getDistTable(i_distIndex1).mDistMax; f32 dist2 = dComIfGp_getAttention()->getDistTable(i_distIndex2).mDistMax; f32 actor_dist = fopAcM_searchActorDistanceXZ(this, i_actor); if (actor_dist < dist1) { return ret; } actor_dist -= dist1; dist2 -= dist1; dist2 /= 6.0f; for (int i = 0; i < 5; i++, ret++) { if (actor_dist < dist2 * (i + 1)) { return ret; } } return ret; } BOOL daNpcT_c::initTalk(int i_flowID, fopAc_ac_c** i_partnerList_p) { mFlow.init(this, i_flowID, 0, i_partnerList_p); mPlayerAngle = fopAcM_searchPlayerAngleY(this); if (checkStep()) { mStepMode = 0; } speedF = 0.0f; speed.setall(0.0f); return TRUE; } BOOL daNpcT_c::talkProc(int* param_0, BOOL param_1, fopAc_ac_c** i_partnerList_p, BOOL param_3) { BOOL ret = FALSE; if (dMsgObject_isMsgSendControl()) { if (param_1) { dMsgObject_offMsgSendControl(); } } else if (mFlow.doFlow(this, i_partnerList_p, 0)) { ret = TRUE; } else { if (mFlow.getMsg() != NULL) { switch (mFlow.getMsg()->mode) { case 2: case 6: if (param_0 != NULL) { for (int i = 0; param_0[i] > 0; i++) { if (param_0[i] == mFlow.getMsgNo()) { ret = TRUE; break; } } } break; case 17: if (param_3) { ret = TRUE; } break; } } int tmp1, face_motion, motion, tmp2; if (mFlow.checkEventRender(&tmp1, &motion, &face_motion, &tmp2)) { if (face_motion != mFaceMotionSeqMngr.getNo()) { mFaceMotionSeqMngr.setNo(face_motion, -1.0f, FALSE, mFaceMotionSeqMngr.getOffset()); } if (motion != mMotionSeqMngr.getNo()) { mMotionSeqMngr.setNo(motion, -1.0f, FALSE, mMotionSeqMngr.getOffset()); } } } return ret; } fopAc_ac_c* daNpcT_c::getNearestActorP(s16 i_srchActorName) { fopAc_ac_c* actor = NULL; f32 minDistance = G_CM3D_F_INF; mFindCount = 0; mSrchName = i_srchActorName; fpcM_Search(srchActor, this); for (s32 i = 0; i < mFindCount; i++) { if (fopAcM_searchActorDistance(this, mFindActorPtrs[i]) < minDistance) { minDistance = fopAcM_searchActorDistance(this, mFindActorPtrs[i]); actor = mFindActorPtrs[i]; } } return actor; } fopAc_ac_c* daNpcT_c::getEvtAreaTagP(int i_type, int i_no) { int var_r29 = 0; f32 var_f31 = G_CM3D_F_INF; mFindCount = 0; mSrchName = PROC_TAG_EVTAREA; fpcM_Search(srchActor, this); for (int i = 0; i < mFindCount; i++) { if (((daTag_EvtArea_c*)(mFindActorPtrs[i]))->getType() == i_type && ((daTag_EvtArea_c*)(mFindActorPtrs[i]))->getNo() == i_no) { return mFindActorPtrs[i]; } } return NULL; } fopAc_ac_c* daNpcT_c::getShopItemTagP() { int unusedInt1 = 0; mFindCount = 0; mSrchName = PROC_TAG_SHOPITM; fpcM_Search(srchActor, this); for (s32 i = 0; i < mFindCount; i++) { u32 param = fopAcM_GetParam(mFindActorPtrs[i]) & 0xF0000000; if (0xF0000000 == param) { return mFindActorPtrs[i]; } } return NULL; } void daNpcT_c::setHitodamaPrtcl() { JPABaseEmitter* emitter = NULL; cXyz pos; field_0xe18 = (u16)(field_0xe1a * 2); field_0xe00.x = cM_ssin(field_0xe1a) * 8.0f; field_0xe00.y = cM_ssin(field_0xe18) * 4.0f; field_0xe00.z = field_0xe00.x * -cM_ssin(shape_angle.y); field_0xe00.x = field_0xe00.x * cM_scos(shape_angle.y); field_0xe1a += (s16)0x400; pos.x = eyePos.x + field_0xe00.x + field_0xe0c.x; pos.y = eyePos.y + field_0xe00.y + field_0xe0c.y; pos.z = eyePos.z + field_0xe00.z + field_0xe0c.z; for (int i = 0; i < 2; i++) { static const u16 id[2] = {0x8497, 0x8498}; mHitodamaPrtclKey[i] = dComIfGp_particle_set(mHitodamaPrtclKey[i], id[i], &pos, &mCurAngle, NULL); emitter = dComIfGp_particle_getEmitter(mHitodamaPrtclKey[i]); if (emitter != NULL) { u8 alpha = dComIfGs_wolfeye_effect_check() == FALSE ? 0xFF : 0; emitter->setGlobalTranslation(pos.x, pos.y, pos.z); emitter->setGlobalAlpha(alpha); } } } BOOL daNpcT_chkActorInScreen(fopAc_ac_c* i_ActorP, f32 param_1, f32 param_2, f32 param_3, f32 param_4, f32 param_5, f32 param_6, f32 param_7, int param_8) { if (fopAcM_GetMtx(i_ActorP)) { cXyz pos_array[8]; cXyz proj; pos_array[0].set(param_1, param_5, param_3); pos_array[1].set(param_4, param_5, param_3); pos_array[2].set(param_1, param_5, param_6); pos_array[3].set(param_4, param_5, param_6); pos_array[4].set(param_1, param_2, param_3); pos_array[5].set(param_4, param_2, param_3); pos_array[6].set(param_1, param_2, param_6); pos_array[7].set(param_4, param_2, param_6); mDoMtx_stack_c::copy(fopAcM_GetMtx(i_ActorP)); mDoMtx_stack_c::transM(0.0f, param_7, 0.0f); cMtx_multVecArray(mDoMtx_stack_c::get(), pos_array, pos_array, 8); if (param_8) { #if DEBUG dDbVw_drawCube8pOpa(pos_array, (GXColor){0x0, 0xc0, 0x0, 0xff}); #endif return false; } for (int i = 0; i < 8; i++) { mDoLib_project(&pos_array[i], &proj); if (0.0f < proj.x && proj.x < FB_WIDTH && 0.0f < proj.y && proj.y < FB_HEIGHT) { continue; } return false; } return true; } return false; } BOOL daNpcT_chkPointInArea(cXyz i_pos, cXyz i_center, cXyz i_bounds, s16 i_angle, BOOL i_checkHeight) { cXyz l_pos; mDoMtx_stack_c::YrotS(-i_angle); mDoMtx_stack_c::transM(-i_center.x, -i_center.y, -i_center.z); mDoMtx_stack_c::multVec(&i_pos, &l_pos); f32 axis_x = fabsf(i_bounds.x); f32 axis_z = fabsf(i_bounds.z); f32 pos_x = fabsf(l_pos.x); f32 pos_z = fabsf(l_pos.z); if (i_checkHeight) { cXyz diff = i_pos - i_center; if (!(0.0f <= diff.y && diff.y < i_bounds.y)) { return FALSE; } } if ((pos_x * pos_x) / (axis_x * axis_x) + (pos_z * pos_z) / (axis_z * axis_z) <= 1.0f) { return TRUE; } else { return FALSE; } } BOOL daNpcT_getPlayerInfoFromPlayerList(int param_0, int i_roomNo, cXyz* o_spawnPos, csXyz* o_angle) { BOOL ret = FALSE; dStage_roomDt_c* room_dt = dComIfGp_roomControl_getStatusRoomDt(i_roomNo); stage_actor_data_class* entry = room_dt->getPlayer()->m_entries; for (int i = 0; i < room_dt->getPlayerNum();) { if (param_0 == (entry->base.angle.z & 0xFF)) { *o_spawnPos = entry->base.position; *o_angle = entry->base.angle; ret = TRUE; break; } entry++; i++; } return ret; } BOOL daNpcT_chkDoBtnIsSpeak(fopAc_ac_c* i_actor_p) { BOOL ret = FALSE; if (dComIfGp_getDoStatus() == 28) { if (daPy_getPlayerActorClass()->checkPriActorOwn(i_actor_p)) { JUT_ASSERT(4965, NULL != dComIfGp_getAttention()); for (int i = 0; i < dComIfGp_getAttention()->GetActionCount(); i++) { if (dComIfGp_getAttention()->ActionTarget(i) == i_actor_p && dComIfGp_getAttention()->getActionBtnB() != NULL && dComIfGp_getAttention()->getActionBtnB()->mType == fopAc_attn_SPEAK_e) { ret = TRUE; } } for (int i = 0; i < dComIfGp_getAttention()->GetLockonCount(); i++) { if (dComIfGp_getAttention()->LockonTarget(i) == i_actor_p && dComIfGp_getAttention()->getActionBtnB() != NULL && dComIfGp_getAttention()->getActionBtnB()->mType == fopAc_attn_TALK_e) { ret = TRUE; } } } } return ret; } int daNpcT_judgeRace(dPath* i_path, fopAc_ac_c** param_1, daNpcT_pntData_c* i_pntData, int param_3, int* param_4) { cXyz proj; int prev_idx; int next_idx; f32 proj1_x, proj2_x, proj1_z, proj2_z, tmp; for (int i = 0; i < param_3; i++) { proj.setall(0.0f); prev_idx = 0; next_idx = 0; u16 idx = i_pntData[i].field_0x0; if (i_pntData[i].field_0x0 < 0) { idx = i_path->m_num; } while (idx < i_path->m_num) { BOOL passed = daNpcT_chkPassed(param_1[i]->current.pos, i_path->m_points, idx, i_path->m_num, dPath_ChkClose(i_path), 0, &proj, &prev_idx, &next_idx); if (!passed) { break; } if (daNpcT_incIdx(i_path->m_num, idx, dPath_ChkClose(i_path), 0)) { idx = i_path->m_num; } } if (idx != i_path->m_num) { i_pntData[i].field_0x0 = idx; } else { i_pntData[i].field_0x0 = -1; } i_pntData[i].field_0x4 = prev_idx; } if (param_4 != NULL) { for (int i = 0; i < param_3; i++) { int count = 0; if (i_pntData[i].field_0x0 >= 0) { for (int j = 0; j < param_3; j++) { if (i == j) { continue; } if (i_pntData[j].field_0x0 < 0) { count++; } else if (i_pntData[i].field_0x0 == i_pntData[j].field_0x0) { if (cM3d_Len2dSqPntAndSegLine(param_1[i]->current.pos.x, param_1[i]->current.pos.z, i_path->m_points[i_pntData[i].field_0x4].m_position.x, i_path->m_points[i_pntData[i].field_0x4].m_position.z, i_path->m_points[i_pntData[i].field_0x0].m_position.x, i_path->m_points[i_pntData[i].field_0x0].m_position.z, &proj1_x, &proj1_z, &tmp) && cM3d_Len2dSqPntAndSegLine(param_1[j]->current.pos.x, param_1[j]->current.pos.z, i_path->m_points[i_pntData[i].field_0x4].m_position.x, i_path->m_points[i_pntData[i].field_0x4].m_position.z, i_path->m_points[i_pntData[i].field_0x0].m_position.x, i_path->m_points[i_pntData[i].field_0x0].m_position.z, &proj2_x, &proj2_z, &tmp)) { s16 angle = cM_atan2s( i_path->m_points[i_pntData[i].field_0x0].m_position.x - i_path->m_points[i_pntData[i].field_0x4].m_position.x, i_path->m_points[i_pntData[i].field_0x0].m_position.z - i_path->m_points[i_pntData[i].field_0x4].m_position.z); angle -= (int)cM_atan2s(proj2_x - proj1_x, proj2_z - proj1_z); if ((u16)abs(angle) >= 0x4000) { continue; } count++; } } else if (i_pntData[i].field_0x0 < i_pntData[j].field_0x0) { count++; } } param_4[i] = count; } } } return 1; } u8 daNpcT_getDistTableIdx(int param_0, int param_1) { return param_0 + param_1 * 0x14 + 0x5e; } void daNpcT_onEvtBit(u32 i_no) { dComIfGs_onEventBit(dSv_event_flag_c::saveBitLabels[i_no]); } void daNpcT_offEvtBit(u32 i_no) { dComIfGs_offEventBit(dSv_event_flag_c::saveBitLabels[i_no]); } BOOL daNpcT_chkEvtBit(u32 i_no) { return dComIfGs_isEventBit(dSv_event_flag_c::saveBitLabels[i_no]); } void daNpcT_onTmpBit(u32 i_no) { dComIfGs_onTmpBit((u16)dSv_event_tmp_flag_c::tempBitLabels[i_no]); } void daNpcT_offTmpBit(u32 i_no) { dComIfGs_offTmpBit((u16)dSv_event_tmp_flag_c::tempBitLabels[i_no]); } BOOL daNpcT_chkTmpBit(u32 i_no) { return dComIfGs_isTmpBit((u16)dSv_event_tmp_flag_c::tempBitLabels[i_no]); } const dCcD_SrcGObjInf daNpcT_c::mCcDObjData = { {0, {{0, 0, 0}, {0, 0x00}, {0x79}}}, {dCcD_SE_NONE, 0, 0, 0, 0}, {dCcD_SE_NONE, 0, 0, 0, 0}, {0}, }; #include "d/actor/d_a_npc2.cpp" #include "d/actor/d_a_npc4.cpp"