void getColumns(){ API_Element element; GSErrCode err; char buffer[256]; columnrepeated columnMsg; API_StoryInfo storyInfo; storyinfo* storyInfoMsg; err = ACAPI_Environment(APIEnv_GetStorySettingsID, &storyInfo, NULL); if (err != NoError) { ErrorBeep("APIEnv_GetStorySettingsID", err); return; } GS::Array<API_Guid> elemList; ACAPI_Element_GetElemList(API_ColumnID, &elemList); for (GS::Array<API_Guid>::ConstIterator it = elemList.Enumerate(); it != NULL; ++it) { BNZeroMemory(&element, sizeof(API_Element)); element.header.guid = *it; err = ACAPI_Element_Get(&element); if (err == NoError) { columnMsg.add_px(element.column.origoPos.x); columnMsg.add_py(element.column.origoPos.y); storyInfoMsg = columnMsg.add_bottomlevel(); storyInfoMsg->set_exists(true); storyInfoMsg->set_index(element.header.floorInd); storyInfoMsg->set_level((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].level); storyInfoMsg->set_name((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].name); storyInfoMsg = columnMsg.add_toplevel(); storyInfoMsg->set_exists(true); storyInfoMsg->set_index(element.header.floorInd + 1); storyInfoMsg->set_level((*storyInfo.data)[element.header.floorInd + 1 - storyInfo.firstStory].level); storyInfoMsg->set_name((*storyInfo.data)[element.header.floorInd + 1 - storyInfo.firstStory].name); columnMsg.add_circular(element.column.circleBased); columnMsg.add_angle(element.column.angle); columnMsg.add_depth(element.column.coreDepth); columnMsg.add_width(element.column.coreWidth); columnMsg.add_slantangle(element.column.slantAngle); columnMsg.add_slantdirection(element.column.slantDirectionAngle); char s[64]; APIGuid2GSGuid(element.header.guid).ConvertToString(s); columnMsg.add_guid(s); } else{ sprintf(buffer, ErrID_To_Name(err)); ACAPI_WriteReport(buffer, true); } } //writeDelimitedTo(wallInfo, raw_out); writeDelimitedTo(getClientSocket(), columnMsg); BMKillHandle(reinterpret_cast<GSHandle *> (&storyInfo.data)); }
void getLines(){ API_Element element; GSErrCode err; char buffer[256]; getlinesmsg msg; linemsg* lineMsg; pointsmessage* pts; GS::Array<API_Guid> elemList; ACAPI_Element_GetElemList(API_LineID, &elemList); for (GS::Array<API_Guid>::ConstIterator it = elemList.Enumerate(); it != NULL; ++it) { BNZeroMemory(&element, sizeof(API_Element)); element.header.guid = *it; err = ACAPI_Element_Get(&element); if (hasError(err)){ quit(); return; } char s[64]; APIGuid2GSGuid(element.header.guid).ConvertToString(s); msg.add_guids(s); lineMsg = msg.add_lines(); pts = new pointsmessage(); pts->add_px(element.line.begC.x); pts->add_py(element.line.begC.y); pts->add_pz(0); pts->add_px(element.line.endC.x); pts->add_py(element.line.endC.y); pts->add_pz(0); lineMsg->set_allocated_pts(pts); } writeDelimitedTo(getClientSocket(), msg); }
void getWalls(){ API_Element element; GSErrCode err; char buffer[256]; getwallmsg msg; wallmsg* aux; pointsmessage* pts; polyarcsmessage* arcs; GS::Array<API_Guid> elemList; ACAPI_Element_GetElemList(API_WallID, &elemList); for (GS::Array<API_Guid>::ConstIterator it = elemList.Enumerate(); it != NULL; ++it) { BNZeroMemory(&element, sizeof(API_Element)); element.header.guid = *it; err = ACAPI_Element_Get(&element); if (err == NoError) { double x0 = element.wall.begC.x; double y0 = element.wall.begC.y; double x1 = element.wall.endC.x; double y1 = element.wall.endC.y; char s[256]; APIGuid2GSGuid(element.header.guid).ConvertToString(s); msg.add_guid(s); aux = msg.add_walls(); aux->set_bottomindex(element.header.floorInd); aux->set_thickness(element.wall.thickness); aux->set_upperindex(element.header.floorInd + 1); std::string materialName; if (element.wall.modelElemStructureType == API_BasicStructure){ materialName = searchBuildingMaterialsValue(element.wall.buildingMaterial); aux->set_type("Basic"); } else{ materialName = searchCompositeMaterialsValue(element.wall.composite); aux->set_type("Composite"); } if (materialName == "Not Found"){ sprintf(buffer, "Found no material %d", element.wall.buildingMaterial); ACAPI_WriteReport(buffer, true); } else{ aux->set_material(materialName); } if (element.wall.referenceLineLocation == APIWallRefLine_Center || element.wall.referenceLineLocation == APIWallRefLine_CoreCenter){ aux->set_referenceline("Center"); } else if (element.wall.referenceLineLocation == APIWallRefLine_Outside || element.wall.referenceLineLocation == APIWallRefLine_CoreOutside){ aux->set_referenceline("Outside"); } else if (element.wall.referenceLineLocation == APIWallRefLine_Inside || element.wall.referenceLineLocation == APIWallRefLine_CoreInside){ aux->set_referenceline("Inside"); } else{ sprintf(buffer, "Found no referenceLine %d", element.wall.buildingMaterial); ACAPI_WriteReport(buffer, true); } aux->set_alphaangle(element.wall.slantAlpha); aux->set_betaangle(element.wall.slantBeta); aux->set_profilename(""); if (element.wall.profileType == APISect_Normal){ aux->set_typeprofile("Normal"); } else if (element.wall.profileType == APISect_Slanted){ aux->set_typeprofile("Slanted"); } else if (element.wall.profileType == APISect_Trapez){ aux->set_typeprofile("DoubleSlanted"); } else if (element.wall.profileType == APISect_Poly){ aux->set_typeprofile("Poly"); aux->set_profilename(searchProfileName(element.wall.profileAttr)); } aux->set_height(element.wall.height); pts = new pointsmessage(); pts->add_px(x0); pts->add_py(y0); pts->add_pz(0); pts->add_px(x1); pts->add_py(y1); pts->add_pz(0); aux->set_allocated_pts(pts); arcs = new polyarcsmessage(); arcs->add_arcangle(element.wall.angle); arcs->add_begindex(0); arcs->add_endindex(1); aux->set_allocated_arcs(arcs); aux->set_flipped(!element.wall.flipped); aux->set_bottomoffset(element.wall.bottomOffset); aux->set_refoffset(element.wall.offset); if (element.wall.oppMat.overrideMaterial){ aux->set_oppmat(searchOverrideMaterialsValue(element.wall.oppMat.material)); } else{ aux->set_oppmat(""); } if (element.wall.refMat.overrideMaterial){ aux->set_refmat(searchOverrideMaterialsValue(element.wall.refMat.material)); } else{ aux->set_refmat(""); } if (element.wall.sidMat.overrideMaterial){ aux->set_sidmat(searchOverrideMaterialsValue(element.wall.sidMat.material)); } else{ aux->set_sidmat(""); } /* API_Attribute attr; attr.header.typeID = API_LayerID; attr.header.index = 1; err = ACAPI_Attribute_Get(&attr); if (hasError(err)){ quit(); return; } msgArchiCAD(attr.layer.head.name); aux->set_layer(attr.header.name); */ aux->set_layer(searchLayers(element.header.layer)); GS::Array<API_Guid> windowList; ACAPI_Element_GetElemList(API_WindowID, &windowList); API_Element wElement; for (GS::Array<API_Guid>::ConstIterator it2 = windowList.Enumerate(); it2 != NULL; ++it2) { BNZeroMemory(&wElement, sizeof(API_Element)); wElement.header.guid = *it2; err = ACAPI_Element_Get(&wElement); if (hasError(err)){ quit(); return; } if (wElement.window.owner == element.header.guid){ windowmessage* wmsg = aux->add_windows(); wmsg->set_height(wElement.window.openingBase.height); wmsg->set_width(wElement.window.openingBase.width); wmsg->set_objloc(wElement.window.objLoc); wmsg->set_zpos(wElement.window.lower); wmsg->set_guid(s); wmsg->set_name(searchObjectsValue(wElement.window.openingBase.libInd)); wmsg->set_depthoffset(wElement.window.revealDepthOffset); wmsg->set_flipx(wElement.window.openingBase.oSide); wmsg->set_flipy(wElement.window.openingBase.reflected); aux->add_windoworder(0); API_ParamOwnerType paramOwner; API_GetParamsType getParams; BNZeroMemory(¶mOwner, sizeof(API_ParamOwnerType)); paramOwner.guid = wElement.header.guid; paramOwner.libInd = 0; paramOwner.typeID = wElement.header.typeID; BNZeroMemory(&getParams, sizeof(API_GetParamsType)); err = ACAPI_Goodies(APIAny_OpenParametersID, ¶mOwner, NULL); if (err == NoError) { err = ACAPI_Goodies(APIAny_GetActParametersID, &getParams, NULL); if (err == NoError) { additionalparams* wparams = new additionalparams(); prepareParams(wparams, ¶mOwner, &getParams); wmsg->set_allocated_params(wparams); } } } } } else{ sprintf(buffer, ErrID_To_Name(err)); ACAPI_WriteReport(buffer, true); } } writeDelimitedTo(getClientSocket(), msg); }
void getPolyLines(){ API_Element element; API_ElementMemo memo; API_StoryInfo storyInfo; GSErrCode err; char buffer[256]; getpolylinesmsg msg; polylinemsg* polylineMsg; pointsmessage* pts; polyarcsmessage* arcs; err = ACAPI_Environment(APIEnv_GetStorySettingsID, &storyInfo, NULL); if (err != NoError) { ErrorBeep("APIEnv_GetStorySettingsID", err); return; } GS::Array<API_Guid> elemList; ACAPI_Element_GetElemList(API_PolyLineID, &elemList); for (GS::Array<API_Guid>::ConstIterator it = elemList.Enumerate(); it != NULL; ++it) { BNZeroMemory(&element, sizeof(API_Element)); element.header.guid = *it; err = ACAPI_Element_Get(&element); if (hasError(err)){ quit(); return; } err = ACAPI_Element_GetMemo(element.header.guid, &memo); if (hasError(err)){ quit(); return; } char s[64]; APIGuid2GSGuid(element.header.guid).ConvertToString(s); msg.add_guids(s); polylineMsg = msg.add_polylines(); pts = new pointsmessage(); for (int i = 1; i <= element.polyLine.poly.nCoords; i++){ pts->add_px((*memo.coords)[i].x); pts->add_py((*memo.coords)[i].y); pts->add_pz((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].level); } polylineMsg->set_allocated_pts(pts); arcs = new polyarcsmessage(); int arcscounter = 1; for (int i = 0; i < element.polyLine.poly.nArcs; i++){ for (; arcscounter < (*memo.parcs)[i].begIndex; arcscounter++){ arcs->add_arcangle(0); arcs->add_begindex(arcscounter); arcs->add_endindex(arcscounter + 1); } arcs->add_arcangle((*memo.parcs)[i].arcAngle); arcs->add_begindex((*memo.parcs)[i].begIndex); arcs->add_endindex((*memo.parcs)[i].endIndex); arcscounter++; } polylineMsg->set_allocated_arcs(arcs); } writeDelimitedTo(getClientSocket(), msg); BMKillHandle(reinterpret_cast<GSHandle *> (&storyInfo.data)); }
void getRoofs(){ API_Element element; API_ElementMemo memo; GSErrCode err; char buffer[256]; roofrepeated roofMsg; API_StoryInfo storyInfo; storyinfo* storyInfoMsg; pointsmessage* points; intlistmsg* subpolygons; err = ACAPI_Environment(APIEnv_GetStorySettingsID, &storyInfo, NULL); if (err != NoError) { ErrorBeep("APIEnv_GetStorySettingsID", err); return; } GS::Array<API_Guid> elemList; ACAPI_Element_GetElemList(API_RoofID, &elemList); for (GS::Array<API_Guid>::ConstIterator it = elemList.Enumerate(); it != NULL; ++it) { BNZeroMemory(&element, sizeof(API_Element)); element.header.guid = *it; err = ACAPI_Element_Get(&element); if (err == NoError) { err = ACAPI_Element_GetMemo(element.header.guid, &memo); if (err == NoError){ points = roofMsg.add_points(); subpolygons = roofMsg.add_subpolygons(); for (int i = 1; i <= element.roof.u.planeRoof.poly.nCoords; i++){ points->add_px((*memo.coords)[i].x); points->add_py((*memo.coords)[i].y); points->add_pz((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].level); } for (int i = 1; i <= element.roof.u.planeRoof.poly.nSubPolys; i++){ subpolygons->add_ilist((*memo.pends)[i]); } storyInfoMsg = roofMsg.add_bottomlevel(); storyInfoMsg->set_exists(true); storyInfoMsg->set_index(element.header.floorInd); storyInfoMsg->set_level((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].level); storyInfoMsg->set_name((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].name); roofMsg.add_height(element.roof.shellBase.level); roofMsg.add_thickness(element.slab.thickness); std::string materialName; if (element.roof.shellBase.modelElemStructureType == API_BasicStructure){ materialName = searchBuildingMaterialsValue(element.roof.shellBase.buildingMaterial); roofMsg.add_type("Basic"); } else{ materialName = searchCompositeMaterialsValue(element.roof.shellBase.composite); roofMsg.add_type("Composite"); } if (materialName == "Not Found"){ sprintf(buffer, "Found no material"); ACAPI_WriteReport(buffer, true); } else{ roofMsg.add_material(materialName); } char s[64]; APIGuid2GSGuid(element.header.guid).ConvertToString(s); roofMsg.add_guid(s); } } else{ sprintf(buffer, ErrID_To_Name(err)); ACAPI_WriteReport(buffer, true); } } writeDelimitedTo(getClientSocket(), roofMsg); BMKillHandle(reinterpret_cast<GSHandle *> (&storyInfo.data)); }
void getObjects(){ API_Element element; GSErrCode err; char buffer[256]; objectrepeated objectMsg; API_StoryInfo storyInfo; storyinfo* storyInfoMsg; err = ACAPI_Environment(APIEnv_GetStorySettingsID, &storyInfo, NULL); if (err != NoError) { ErrorBeep("APIEnv_GetStorySettingsID", err); return; } GS::Array<API_Guid> elemList; ACAPI_Element_GetElemList(API_ObjectID, &elemList); for (GS::Array<API_Guid>::ConstIterator it = elemList.Enumerate(); it != NULL; ++it) { BNZeroMemory(&element, sizeof(API_Element)); element.header.guid = *it; err = ACAPI_Element_Get(&element); if (err == NoError) { std::string objectName = searchObjectsValue(element.object.libInd); if (objectName == "Not Found"){ sprintf(buffer, "Found no material"); ACAPI_WriteReport(buffer, true); } else{ objectMsg.add_name(objectName); } objectMsg.add_px(element.object.pos.x); objectMsg.add_py(element.object.pos.y); storyInfoMsg = objectMsg.add_bottomlevel(); storyInfoMsg->set_exists(true); storyInfoMsg->set_index(element.header.floorInd); storyInfoMsg->set_level((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].level); storyInfoMsg->set_name((*storyInfo.data)[element.header.floorInd - storyInfo.firstStory].name); objectMsg.add_angle(element.object.angle); objectMsg.add_xratio(element.object.xRatio); objectMsg.add_yratio(element.object.yRatio); objectMsg.add_bottomoffset(element.object.level); if (element.header.variationID == APIVarId_SymbStair){ objectMsg.add_stairs(true); } else{ objectMsg.add_stairs(false); } objectMsg.add_usexyfixsize(element.object.useXYFixSize); char s[64]; APIGuid2GSGuid(element.header.guid).ConvertToString(s); objectMsg.add_guid(s); } else{ sprintf(buffer, ErrID_To_Name(err)); ACAPI_WriteReport(buffer, true); } } writeDelimitedTo(getClientSocket(), objectMsg); BMKillHandle(reinterpret_cast<GSHandle *> (&storyInfo.data)); }