332 lines
8.6 KiB
C++
332 lines
8.6 KiB
C++
#include"mesh_read.h"
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//兼容linux
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string add_mesh_directory_modify_for_linux()
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{
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#if defined(_WIN32)
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return "";
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#else
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return "../";
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#endif
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}
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void Read_structured_mesh(string& filename,
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Fluid2d** fluids, Interface2d** xinterfaces, Interface2d** yinterfaces,
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Flux2d_gauss*** xfluxes, Flux2d_gauss*** yfluxes, Block2d& block)
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{
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//参考 因特网无名前辈
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int block_num = 1;
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ifstream in;
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in.open(filename, ifstream::binary);
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if (!in.is_open())
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{
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cout << "cannot find input structured grid file (.plt) " << endl;
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while (1);
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exit(0);
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}
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cout << "reading mesh..." << endl;
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//prepare node information
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double*** node2d = new double** [block_num];
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// Header section
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// section i
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char buffer[9];
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in.read(buffer, 8);
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buffer[8] = '\0';
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string version = string(buffer);
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if (version != "#!TDV112")
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cout << "Parser based on version #!TDV112, current version is: " << version << endl;
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// section ii
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int IntegerValue;
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in.read((char*)&IntegerValue, sizeof(IntegerValue));
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if (IntegerValue != 1)
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cout << "the interger value is not equal to 1 but " << IntegerValue << endl;
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// section iii
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//file type 0=FULL 1=GRID 2=SOLUTION
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int file_type;
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in.read((char*)&file_type, sizeof(file_type));
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//file title ---> defined name of the plt
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string title;
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read_ascii_to_string(title, in);
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cout << "the mesh title is " << title;
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//the number of total variables (x, y, z) as defult
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int number_variables;
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in.read((char*)&number_variables, sizeof(number_variables));
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if (number_variables != 3)
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{
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cout << "warning, the input grid file has the number of variables " << number_variables << endl;
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}
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string variable_names[3];
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for (int i = 0; i < number_variables; i++)
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read_ascii_to_string(variable_names[i], in);
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// section iv
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// we try to read multi-zone; the marker for a start of new zone is a float number
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// validation_marker==299.0
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float validation_marker;
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in.read((char*)&validation_marker, sizeof(validation_marker));
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assert(validation_marker == 299.0);
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int zone_num = 0;
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int imax[100];
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int jmax[100];
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int kmax[100];
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size_t number_nodes[100];
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while (validation_marker == 299.0)
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{
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zone_num++;
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string zone_name;
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int parent_zone;
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int strand_id;
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double solution_time;
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int not_used;
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int zone_type; // 0=ORDERED 1=FELINESEG 2=FETRIANGLE 3=FEQUADRILATERAL
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// 4=FETETRAHEDRON 5=FEBRICK 6=FEPOLYGON 7=FEPOLYHEDRON
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int data_packing; // 0=Block, 1=Point
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int var_location;
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read_ascii_to_string(zone_name, in);
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in.read((char*)&parent_zone, sizeof(parent_zone));
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in.read((char*)&strand_id, sizeof(strand_id));
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in.read((char*)&solution_time, sizeof(solution_time));
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in.read((char*)¬_used, sizeof(not_used));
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in.read((char*)&zone_type, sizeof(zone_type));
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in.read((char*)&data_packing, sizeof(data_packing));
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in.read((char*)&var_location, sizeof(var_location));
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if (var_location == 0)
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{
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}
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else
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{
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cout << "we donnt support this function" << endl;
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exit(0);
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}
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// face neighbors
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int face_neighbors;
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in.read((char*)&face_neighbors, sizeof(face_neighbors));
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if (face_neighbors == 0)
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{
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}
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else
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{
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cout << "we donnt support this function" << endl;
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exit(0);
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}
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// ordered zone
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if (zone_type == 0)
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{
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in.read((char*)&imax[zone_num - 1], sizeof(imax[zone_num - 1]));
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in.read((char*)&jmax[zone_num - 1], sizeof(jmax[zone_num - 1]));
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in.read((char*)&kmax[zone_num - 1], sizeof(kmax[zone_num - 1]));
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number_nodes[zone_num - 1]
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= imax[zone_num - 1] * jmax[zone_num - 1] * kmax[zone_num - 1];
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cout << zone_name << " has total "
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<< imax[zone_num - 1] << " * " << jmax[zone_num - 1] << " * " << kmax[zone_num - 1] << "points " << endl;
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}
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else
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{
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cout << "we donnt support unstructure mesh currently" << endl;
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exit(0);
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}
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// to do create an auxiliary structure
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// add all the structures to a vector
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in.read((char*)&validation_marker, sizeof(validation_marker));
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// read the next marker to check if
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// there is more than one zone
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in.read((char*)&validation_marker, sizeof(validation_marker));
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} // end of zone section
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int sum_mesh_number = 0;
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for (int iblock = 0; iblock < block_num; iblock++)
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{
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block.nodex = imax[iblock] - 1;
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block.nodey = jmax[iblock] - 1;
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for (int iblock = 0; iblock < block_num; iblock++)
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{
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block.nx = block.nodex + 2 * block.ghost;
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block.ny = block.nodey + 2 * block.ghost;
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sum_mesh_number += block.nodex * block.nodey;
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}
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node2d[iblock] = new double* [(block.nx + 1) * (block.ny + 1)];
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for (int icell = 0; icell < (block.nx + 1) * (block.ny + 1); icell++)
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{
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node2d[iblock][icell] = new double[2];
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}
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}
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// section v
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if (validation_marker == 399)
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{
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// read geometries
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cout << "Geometry section not implemented. Stopping." << endl;
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exit(-1);
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}
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// end of geometrie
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////////////////////////
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// end of header section
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////////////////////////
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cout << "total " << zone_num << " zones are read in" << endl;
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cout << "the total cell for all zones is " << sum_mesh_number << endl;
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// Data section
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assert(validation_marker == 357.0);
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for (size_t index = 0; index < zone_num; index++)
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{
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in.read((char*)&validation_marker, sizeof(validation_marker));
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assert(validation_marker == 299.0);
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int format[3];
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for (int i_var = 0; i_var < number_variables; i_var++)
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{
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in.read((char*)&format[i_var], sizeof(format[i_var]));
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if (format[i_var] != 2)
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{
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cout << "we only support double pricision coordinates now" << endl;
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exit(0);
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}
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}
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int has_passive_variables;
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in.read((char*)&has_passive_variables, sizeof(has_passive_variables));
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if (has_passive_variables)
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{
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cout << "we donnt support has_passive_variables != 0 now" << endl;
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exit(0);
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}
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int has_variable_sharing;
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in.read((char*)&has_variable_sharing, sizeof(has_variable_sharing));
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if (has_variable_sharing)
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{
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cout << "we donnt support has_variable_sharing != 0 now" << endl;
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exit(0);
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}
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int zone_share_connectivity;
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in.read((char*)&zone_share_connectivity, sizeof(zone_share_connectivity));
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double min_value[3], max_value[3];
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for (int i = 0; i < number_variables; i++)
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{
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in.read((char*)&min_value[i], sizeof(min_value[i]));
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in.read((char*)&max_value[i], sizeof(max_value[i]));
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}
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for (int i_var = 0; i_var < number_variables; i_var++)
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{
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for (int k = 0; k < kmax[index]; k++)
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{
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for (int j = 0; j < jmax[index]; j++)
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{
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for (int i = 0; i < imax[index]; i++)
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{
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double coord;
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in.read((char*)&coord, sizeof(coord));
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int icell = block.ghost + i;
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int jcell = block.ghost + j;
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int inode = icell * (block.ny + 1) + jcell;
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if (i_var < 2)
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{
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node2d[index][inode][i_var] = coord;
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}
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}
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}
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}
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}
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}
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create_mirror_ghost_cell(block, node2d[0]);
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//once we have the dimension infomation, we can use it
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// to allocate memory
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*fluids = Setfluid(block);
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// then the interfaces reconstructioned value, (N+1)*(N+1)
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*xinterfaces = Setinterface_array(block);
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*yinterfaces = Setinterface_array(block);
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// then the flux, which the number is identical to interfaces
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*xfluxes = Setflux_gauss_array(block);
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*yfluxes = Setflux_gauss_array(block);
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//we shall use the node coordinate to compute the geometric infos for cells/interfaces
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SetNonUniformMesh(block, fluids[0],
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xinterfaces[0], yinterfaces[0],
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xfluxes[0], yfluxes[0], node2d[0]);
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}
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void read_ascii_to_string(string& value, ifstream& in)
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{
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int ascii(-1);
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in.read((char*)&ascii, sizeof(ascii));
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while (ascii != 0)
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{
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char temp = (char)ascii;
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value.append(sizeof(char), temp);
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in.read(reinterpret_cast<char*>(&ascii), sizeof(ascii));
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}
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}
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void create_mirror_ghost_cell(Block2d& block, double** node2d)
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{
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//create the coordinate for ghost nodes
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for (int j = 0; j < block.ny + 1; j++)
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{
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for (int i = 0; i < block.nx + 1; i++)
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{
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int inode = i * (block.ny + 1) + j;
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int base_node = 0, bc_node = 0;
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int base_index_x = i, base_index_y = j;
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int bc_index_x = i, bc_index_y = j;
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if (i < block.ghost)
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{
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base_index_x = 2 * block.ghost - i;
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bc_index_x = block.ghost;
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}
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else if (i > block.nx - block.ghost)
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{
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base_index_x = 2 * (block.nx - block.ghost) - i;
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bc_index_x = block.nx - block.ghost;
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}
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if (j < block.ghost)
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{
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base_index_y = 2 * block.ghost - j;
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bc_index_y = block.ghost;
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}
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else if (j > block.ny - block.ghost)
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{
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base_index_y = 2 * (block.ny - block.ghost) - j;
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bc_index_y = block.ny - block.ghost;
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}
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if (base_index_x != i || base_index_y != j)
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{
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base_node = base_index_x * (block.ny + 1) + base_index_y;
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bc_node = bc_index_x * (block.ny + 1) + bc_index_y;
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//cacluate mirror point
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node2d[inode][0] = 2 * node2d[bc_node][0] - node2d[base_node][0];
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node2d[inode][1] = 2 * node2d[bc_node][1] - node2d[base_node][1];
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}
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}
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}
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}
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