virtual void Execute(LPCSTR arguments) { if (!arguments || !*arguments) { Msg ("! no arguments passed"); return; } string_path name; string_path fn; if (0==strext(arguments)) strconcat (sizeof(name),name,arguments,".ogf"); else strcpy_s (name,sizeof(name),arguments); if (!FS.exist(arguments) && !FS.exist(fn, "$level$", name) && !FS.exist(fn, "$game_meshes$", name)) { Msg ("! Cannot find visual \"%s\"",arguments); return; } IRender_Visual *visual = Render->model_Create(arguments); CKinematics *kinematics = smart_cast<CKinematics*>(visual); if (!kinematics) { Render->model_Delete(visual); Msg ("! Invalid visual type \"%s\" (not a CKinematics)",arguments); return; } Msg ("bones for model \"%s\"",arguments); for (u16 i=0, n=kinematics->LL_BoneCount(); i<n; ++i) Msg ("%s",*kinematics->LL_GetData(i).name); Render->model_Delete (visual); }
void CDamageManager::init_bones(LPCSTR section,CInifile* ini) { CKinematics *kinematics = smart_cast<CKinematics*>(m_object->Visual()); VERIFY (kinematics); for(u16 i = 0; i<kinematics->LL_BoneCount(); i++) { CBoneInstance &bone_instance = kinematics->LL_GetBoneInstance(i); bone_instance.set_param (0,m_default_hit_factor); bone_instance.set_param (1,1.f); bone_instance.set_param (2,m_default_wound_factor); } }
void CLightProjector::calculate () { #ifdef _GPA_ENABLED TAL_SCOPED_TASK_NAMED( "CLightProjector::calculate()" ); #endif // _GPA_ENABLED if (receivers.empty()) return; // perform validate / markup for (u32 r_it=0; r_it<receivers.size(); r_it++) { // validate BOOL bValid = TRUE; IRenderable* O = receivers[r_it]; CROS_impl* LT = (CROS_impl*)O->renderable_ROS(); int slot = LT->shadow_recv_slot; if (slot<0 || slot>=P_o_count) bValid = FALSE; // invalid slot else if (cache[slot].O!=O) bValid = FALSE; // not the same object else { // seems to be valid Fbox bb; bb.xform (O->renderable.visual->getVisData().box,O->renderable.xform); if (cache[slot].BB.contains(bb)) { // inside, but maybe timelimit exceeded? if (Device.dwTimeGlobal > cache[slot].dwTimeValid) bValid = FALSE; // timeout } else bValid = FALSE; // out of bounds } // if (bValid) { // Ok, use cached version cache[slot].dwFrame = Device.dwFrame; } else { taskid.push_back (r_it); } } if (taskid.empty()) return; // Begin Device.Statistic->RenderDUMP_Pcalc.Begin (); RCache.set_RT (RT->pRT); RCache.set_ZB (RImplementation.Target->pTempZB); CHK_DX(HW.pDevice->Clear (0,0, D3DCLEAR_ZBUFFER | (HW.Caps.bStencil?D3DCLEAR_STENCIL:0), 0,1,0 )); RCache.set_xform_world (Fidentity); // reallocate/reassociate structures + perform all the work for (u32 c_it=0; c_it<cache.size(); c_it++) { if (taskid.empty()) break; if (Device.dwFrame==cache[c_it].dwFrame) continue; // found not used slot int tid = taskid.back(); taskid.pop_back(); recv& R = cache [c_it]; IRenderable* O = receivers [tid]; const vis_data& vis = O->renderable.visual->getVisData(); CROS_impl* LT = (CROS_impl*)O->renderable_ROS(); VERIFY2 (_valid(O->renderable.xform),"Invalid object transformation"); VERIFY2 (_valid(vis.sphere.P),"Invalid object's visual sphere"); Fvector C; O->renderable.xform.transform_tiny (C,vis.sphere.P); R.O = O; R.C = C; R.C.y += vis.sphere.R*0.1f; //. YURA: 0.1 can be more R.BB.xform (vis.box,O->renderable.xform).scale(0.1f); R.dwTimeValid = Device.dwTimeGlobal + ::Random.randI(time_min,time_max); LT->shadow_recv_slot = c_it; // Msg ("[%f,%f,%f]-%f",C.C.x,C.C.y,C.C.z,C.O->renderable.visual->vis.sphere.R); // calculate projection-matrix Fmatrix mProject; float p_R = R.O->renderable.visual->getVisData().sphere.R * 1.1f; //VERIFY2 (p_R>EPS_L,"Object has no physical size"); VERIFY3 (p_R>EPS_L,"Object has no physical size", R.O->renderable.visual->getDebugName().c_str()); float p_hat = p_R/P_cam_dist; float p_asp = 1.f; float p_near = P_cam_dist-EPS_L; float p_far = P_cam_dist+p_R+P_cam_range; mProject.build_projection_HAT (p_hat,p_asp,p_near,p_far); RCache.set_xform_project (mProject); // calculate view-matrix Fmatrix mView; Fvector v_C, v_Cs, v_N; v_C.set (R.C); v_Cs = v_C; v_C.y += P_cam_dist; v_N.set (0,0,1); VERIFY (_valid(v_C) && _valid(v_Cs) && _valid(v_N)); // validate Fvector v; v.sub (v_Cs,v_C);; #ifdef DEBUG if ((v.x*v.x+v.y*v.y+v.z*v.z)<=flt_zero) { CObject* OO = dynamic_cast<CObject*>(R.O); Msg("Object[%s] Visual[%s] has invalid position. ",*OO->cName(),*OO->cNameVisual()); Fvector cc; OO->Center(cc); Log("center=",cc); Log("visual_center=",OO->Visual()->getVisData().sphere.P); Log("full_matrix=",OO->XFORM()); Log ("v_N",v_N); Log ("v_C",v_C); Log ("v_Cs",v_Cs); Log("all bones transform:--------"); CKinematics* K = dynamic_cast<CKinematics*>(OO->Visual()); for(u16 ii=0; ii<K->LL_BoneCount();++ii){ Fmatrix tr; tr = K->LL_GetTransform(ii); Log("bone ",K->LL_BoneName_dbg(ii)); Log("bone_matrix",tr); } Log("end-------"); } #endif // handle invalid object-bug if ((v.x*v.x+v.y*v.y+v.z*v.z)<=flt_zero) { // invalidate record, so that object will be unshadowed, but doesn't crash R.dwTimeValid = Device.dwTimeGlobal; LT->shadow_recv_frame = Device.dwFrame-1; LT->shadow_recv_slot = -1; continue ; } mView.build_camera (v_C,v_Cs,v_N); RCache.set_xform_view (mView); // Select slot, set viewport int s_x = c_it%P_o_line; int s_y = c_it/P_o_line; D3DVIEWPORT9 VP = {s_x*P_o_size,s_y*P_o_size,P_o_size,P_o_size,0,1 }; CHK_DX (HW.pDevice->SetViewport(&VP)); // Clear color to ambience Fvector& cap = LT->get_approximate(); CHK_DX (HW.pDevice->Clear(0,0, D3DCLEAR_TARGET, color_rgba_f(cap.x,cap.y,cap.z, (cap.x+cap.y+cap.z)/4.f), 1, 0 )); // calculate uv-gen matrix and clamper Fmatrix mCombine; mCombine.mul (mProject,mView); Fmatrix mTemp; float fSlotSize = float(P_o_size)/float(P_rt_size); float fSlotX = float(s_x*P_o_size)/float(P_rt_size); float fSlotY = float(s_y*P_o_size)/float(P_rt_size); float fTexelOffs = (.5f / P_rt_size); Fmatrix m_TexelAdjust = { 0.5f/*x-scale*/, 0.0f, 0.0f, 0.0f, 0.0f, -0.5f/*y-scale*/, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f/*z-range*/, 0.0f, 0.5f/*x-bias*/, 0.5f + fTexelOffs/*y-bias*/, 0.0f/*z-bias*/, 1.0f }; R.UVgen.mul (m_TexelAdjust,mCombine); mTemp.scale (fSlotSize,fSlotSize,1); R.UVgen.mulA_44 (mTemp); mTemp.translate (fSlotX+fTexelOffs,fSlotY+fTexelOffs,0); R.UVgen.mulA_44 (mTemp); // Build bbox and render Fvector min,max; Fbox BB; min.set (R.C.x-p_R, R.C.y-(p_R+P_cam_range), R.C.z-p_R); max.set (R.C.x+p_R, R.C.y+0, R.C.z+p_R); BB.set (min,max); R.UVclamp_min.set (min).add (.05f); // shrink a little R.UVclamp_max.set (max).sub (.05f); // shrink a little ISpatial* spatial = dynamic_cast<ISpatial*> (O); if (spatial) { spatial->spatial_updatesector (); if (spatial->spatial.sector) RImplementation.r_dsgraph_render_R1_box (spatial->spatial.sector,BB,SE_R1_LMODELS); } //if (spatial) RImplementation.r_dsgraph_render_subspace (spatial->spatial.sector,mCombine,v_C,FALSE); } // Blur /* { // Fill vertex buffer u32 Offset; FVF::TL4uv* pv = (FVF::TL4uv*) RCache.Vertex.Lock (4,geom_Blur.stride(),Offset); RImplementation.ApplyBlur4 (pv,P_rt_size,P_rt_size,P_blur_kernel); RCache.Vertex.Unlock (4,geom_Blur.stride()); // Actual rendering (pass0, temp2real) RCache.set_RT (RT->pRT); RCache.set_ZB (NULL); RCache.set_Shader (sh_BlurTR ); RCache.set_Geometry (geom_Blur ); RCache.Render (D3DPT_TRIANGLELIST,Offset,0,4,0,2); } */ // Finita la comedia Device.Statistic->RenderDUMP_Pcalc.End (); RCache.set_xform_project (Device.mProject); RCache.set_xform_view (Device.mView); }