# include # include # include # include # include # include # include using namespace std; #include "xy_io.hpp" //****************************************************************************80 bool ch_eqi ( char c1, char c2 ) //****************************************************************************80 // // Purpose: // // CH_EQI is true if two characters are equal, disregarding case. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 13 June 2003 // // Author: // // John Burkardt // // Parameters: // // Input, char C1, char C2, the characters to compare. // // Output, bool CH_EQI, is true if the two characters are equal, // disregarding case. // { if ( 97 <= c1 && c1 <= 122 ) { c1 = c1 - 32; } if ( 97 <= c2 && c2 <= 122 ) { c2 = c2 - 32; } return ( c1 == c2 ); } //****************************************************************************80 int ch_to_digit ( char c ) //****************************************************************************80 // // Purpose: // // CH_TO_DIGIT returns the integer value of a base 10 digit. // // Example: // // C DIGIT // --- ----- // '0' 0 // '1' 1 // ... ... // '9' 9 // ' ' 0 // 'X' -1 // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 13 June 2003 // // Author: // // John Burkardt // // Parameters: // // Input, char C, the decimal digit, '0' through '9' or blank are legal. // // Output, int CH_TO_DIGIT, the corresponding integer value. If C was // 'illegal', then DIGIT is -1. // { int digit; if ( '0' <= c && c <= '9' ) { digit = c - '0'; } else if ( c == ' ' ) { digit = 0; } else { digit = -1; } return digit; } //****************************************************************************80 void i4vec_copy ( int n, int a1[], int a2[] ) //****************************************************************************80 // // Purpose: // // I4VEC_COPY copies an I4VEC. // // Discussion: // // An I4VEC is a vector of I4's. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 25 April 2007 // // Author: // // John Burkardt // // Parameters: // // Input, int N, the number of entries in the vectors. // // Input, int A1[N], the vector to be copied. // // Output, int A2[N], the copy of A1. // { int i; for ( i = 0; i < n; i++ ) { a2[i] = a1[i]; } return; } //****************************************************************************80 void r8vec_copy ( int n, double a1[], double a2[] ) //****************************************************************************80 // // Purpose: // // R8VEC_COPY copies an R8VEC. // // Discussion: // // An R8VEC is a vector of R8's. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 03 July 2005 // // Author: // // John Burkardt // // Parameters: // // Input, int N, the number of entries in the vectors. // // Input, double A1[N], the vector to be copied. // // Output, double A2[N], the copy of A1. // { int i; for ( i = 0; i < n; i++ ) { a2[i] = a1[i]; } return; } //****************************************************************************80 int s_len_trim ( string s ) //****************************************************************************80 // // Purpose: // // S_LEN_TRIM returns the length of a string to the last nonblank. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 July 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string S, a string. // // Output, int S_LEN_TRIM, the length of the string to the last nonblank. // If S_LEN_TRIM is 0, then the string is entirely blank. // { int n; n = s.length ( ); while ( 0 < n ) { if ( s[n-1] != ' ' ) { return n; } n = n - 1; } return n; } //****************************************************************************80 int s_to_i4 ( string s, int *last, bool *error ) //****************************************************************************80 // // Purpose: // // S_TO_I4 reads an I4 from a string. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 July 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string S, a string to be examined. // // Output, int *LAST, the last character of S used to make IVAL. // // Output, bool *ERROR is TRUE if an error occurred. // // Output, int *S_TO_I4, the integer value read from the string. // If the string is blank, then IVAL will be returned 0. // { char c; int i; int isgn; int istate; int ival; *error = false; istate = 0; isgn = 1; i = 0; ival = 0; for ( ; ; ) { c = s[i]; i = i + 1; // // Haven't read anything. // if ( istate == 0 ) { if ( c == ' ' ) { } else if ( c == '-' ) { istate = 1; isgn = -1; } else if ( c == '+' ) { istate = 1; isgn = + 1; } else if ( '0' <= c && c <= '9' ) { istate = 2; ival = c - '0'; } else { *error = true; return ival; } } // // Have read the sign, expecting digits. // else if ( istate == 1 ) { if ( c == ' ' ) { } else if ( '0' <= c && c <= '9' ) { istate = 2; ival = c - '0'; } else { *error = true; return ival; } } // // Have read at least one digit, expecting more. // else if ( istate == 2 ) { if ( '0' <= c && c <= '9' ) { ival = 10 * (ival) + c - '0'; } else { ival = isgn * ival; *last = i - 1; return ival; } } } // // If we read all the characters in the string, see if we're OK. // if ( istate == 2 ) { ival = isgn * ival; *last = s_len_trim ( s ); } else { *error = true; *last = 0; } return ival; } //****************************************************************************80 bool s_to_i4vec ( string s, int n, int ivec[] ) //****************************************************************************80 // // Purpose: // // S_TO_I4VEC reads an I4VEC from a string. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 July 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string S, the string to be read. // // Input, int N, the number of values expected. // // Output, int IVEC[N], the values read from the string. // // Output, bool S_TO_I4VEC, is TRUE if an error occurred. // { int begin; bool error; int i; int lchar; int length; begin = 0; length = s.length ( ); error = 0; for ( i = 0; i < n; i++ ) { ivec[i] = s_to_i4 ( s.substr(begin,length), &lchar, &error ); if ( error ) { return error; } begin = begin + lchar; length = length - lchar; } return error; } //****************************************************************************80 double s_to_r8 ( string s, int *lchar, bool *error ) //****************************************************************************80 // // Purpose: // // S_TO_R8 reads an R8 from a string. // // Discussion: // // This routine will read as many characters as possible until it reaches // the end of the string, or encounters a character which cannot be // part of the real number. // // Legal input is: // // 1 blanks, // 2 '+' or '-' sign, // 2.5 spaces // 3 integer part, // 4 decimal point, // 5 fraction part, // 6 'E' or 'e' or 'D' or 'd', exponent marker, // 7 exponent sign, // 8 exponent integer part, // 9 exponent decimal point, // 10 exponent fraction part, // 11 blanks, // 12 final comma or semicolon. // // with most quantities optional. // // Example: // // S R // // '1' 1.0 // ' 1 ' 1.0 // '1A' 1.0 // '12,34,56' 12.0 // ' 34 7' 34.0 // '-1E2ABCD' -100.0 // '-1X2ABCD' -1.0 // ' 2E-1' 0.2 // '23.45' 23.45 // '-4.2E+2' -420.0 // '17d2' 1700.0 // '-14e-2' -0.14 // 'e2' 100.0 // '-12.73e-9.23' -12.73 * 10.0**(-9.23) // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 July 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string S, the string containing the // data to be read. Reading will begin at position 1 and // terminate at the end of the string, or when no more // characters can be read to form a legal real. Blanks, // commas, or other nonnumeric data will, in particular, // cause the conversion to halt. // // Output, int *LCHAR, the number of characters read from // the string to form the number, including any terminating // characters such as a trailing comma or blanks. // // Output, bool *ERROR, is true if an error occurred. // // Output, double S_TO_R8, the real value that was read from the string. // { char c; int ihave; int isgn; int iterm; int jbot; int jsgn; int jtop; int nchar; int ndig; double r; double rbot; double rexp; double rtop; char TAB = 9; nchar = s_len_trim ( s ); *error = false; r = 0.0; *lchar = -1; isgn = 1; rtop = 0.0; rbot = 1.0; jsgn = 1; jtop = 0; jbot = 1; ihave = 1; iterm = 0; for ( ; ; ) { c = s[*lchar+1]; *lchar = *lchar + 1; // // Blank or TAB character. // if ( c == ' ' || c == TAB ) { if ( ihave == 2 ) { } else if ( ihave == 6 || ihave == 7 ) { iterm = 1; } else if ( 1 < ihave ) { ihave = 11; } } // // Comma. // else if ( c == ',' || c == ';' ) { if ( ihave != 1 ) { iterm = 1; ihave = 12; *lchar = *lchar + 1; } } // // Minus sign. // else if ( c == '-' ) { if ( ihave == 1 ) { ihave = 2; isgn = -1; } else if ( ihave == 6 ) { ihave = 7; jsgn = -1; } else { iterm = 1; } } // // Plus sign. // else if ( c == '+' ) { if ( ihave == 1 ) { ihave = 2; } else if ( ihave == 6 ) { ihave = 7; } else { iterm = 1; } } // // Decimal point. // else if ( c == '.' ) { if ( ihave < 4 ) { ihave = 4; } else if ( 6 <= ihave && ihave <= 8 ) { ihave = 9; } else { iterm = 1; } } // // Exponent marker. // else if ( ch_eqi ( c, 'E' ) || ch_eqi ( c, 'D' ) ) { if ( ihave < 6 ) { ihave = 6; } else { iterm = 1; } } // // Digit. // else if ( ihave < 11 && '0' <= c && c <= '9' ) { if ( ihave <= 2 ) { ihave = 3; } else if ( ihave == 4 ) { ihave = 5; } else if ( ihave == 6 || ihave == 7 ) { ihave = 8; } else if ( ihave == 9 ) { ihave = 10; } ndig = ch_to_digit ( c ); if ( ihave == 3 ) { rtop = 10.0 * rtop + ( double ) ndig; } else if ( ihave == 5 ) { rtop = 10.0 * rtop + ( double ) ndig; rbot = 10.0 * rbot; } else if ( ihave == 8 ) { jtop = 10 * jtop + ndig; } else if ( ihave == 10 ) { jtop = 10 * jtop + ndig; jbot = 10 * jbot; } } // // Anything else is regarded as a terminator. // else { iterm = 1; } // // If we haven't seen a terminator, and we haven't examined the // entire string, go get the next character. // if ( iterm == 1 || nchar <= *lchar + 1 ) { break; } } // // If we haven't seen a terminator, and we have examined the // entire string, then we're done, and LCHAR is equal to NCHAR. // if ( iterm != 1 && (*lchar) + 1 == nchar ) { *lchar = nchar; } // // Number seems to have terminated. Have we got a legal number? // Not if we terminated in states 1, 2, 6 or 7! // if ( ihave == 1 || ihave == 2 || ihave == 6 || ihave == 7 ) { *error = true; return r; } // // Number seems OK. Form it. // if ( jtop == 0 ) { rexp = 1.0; } else { if ( jbot == 1 ) { rexp = pow ( 10.0, jsgn * jtop ); } else { rexp = jsgn * jtop; rexp = rexp / jbot; rexp = pow ( 10.0, rexp ); } } r = isgn * rexp * rtop / rbot; return r; } //****************************************************************************80 bool s_to_r8vec ( string s, int n, double rvec[] ) //****************************************************************************80 // // Purpose: // // S_TO_R8VEC reads an R8VEC from a string. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 July 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string S, the string to be read. // // Input, int N, the number of values expected. // // Output, double RVEC[N], the values read from the string. // // Output, bool S_TO_R8VEC, is true if an error occurred. // { int begin; bool error; int i; int lchar; int length; begin = 0; length = s.length ( ); error = 0; for ( i = 0; i < n; i++ ) { rvec[i] = s_to_r8 ( s.substr(begin,length), &lchar, &error ); if ( error ) { return error; } begin = begin + lchar; length = length - lchar; } return error; } //****************************************************************************80 int s_word_count ( string s ) //****************************************************************************80 // // Purpose: // // S_WORD_COUNT counts the number of "words" in a string. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 July 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string S, the string to be examined. // // Output, int S_WORD_COUNT, the number of "words" in the string. // Words are presumed to be separated by one or more blanks. // { bool blank; int char_count; int i; int word_count; word_count = 0; blank = true; char_count = s.length ( ); for ( i = 0; i < char_count; i++ ) { if ( isspace ( s[i] ) ) { blank = true; } else if ( blank ) { word_count = word_count + 1; blank = false; } } return word_count; } //****************************************************************************80 void timestamp ( void ) //****************************************************************************80 // // Purpose: // // TIMESTAMP prints the current YMDHMS date as a time stamp. // // Example: // // May 31 2001 09:45:54 AM // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 04 October 2003 // // Author: // // John Burkardt // // Parameters: // // None // { # define TIME_SIZE 40 static char time_buffer[TIME_SIZE]; const struct tm *tm; size_t len; time_t now; now = time ( NULL ); tm = localtime ( &now ); len = strftime ( time_buffer, TIME_SIZE, "%d %B %Y %I:%M:%S %p", tm ); cout << time_buffer << "\n"; return; # undef TIME_SIZE } //****************************************************************************80 void xy_data_print ( int point_num, double xy[] ) //****************************************************************************80 // // Purpose: // // XY_DATA_PRINT prints the data for an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 03 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, double XY[2*POINT_NUM], the arrays of coordinate data. // { int j; for ( j = 0; j < point_num; j++ ) { cout << setw(10) << xy[0+2*j] << " " << setw(10) << xy[1+2*j] << "\n"; } return; } //****************************************************************************80 void xy_data_read ( string input_filename, int point_num, double xy[] ) //****************************************************************************80 // // Purpose: // // XY_DATA_READ reads the data in an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 25 October 2010 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the input file. // // Input, int POINT_NUM, the number of points. // // Output, double XY[2*POINT_NUM], the point coordinates. // { bool error; int i; ifstream input; int j; string text; double temp[2]; input.open ( input_filename.c_str() ); if ( !input ) { cout << "\n"; cout << "XY_DATA_READ - Fatal error!\n"; cout << " Cannot open the input file \"" << input_filename << "\".\n"; exit ( 1 ); } j = 0; while ( j < point_num ) { getline ( input, text ); if ( input.eof ( ) ) { break; } if ( text[0] == '#' || s_len_trim ( text ) == 0 ) { continue; } // // Extract two real numbers. // error = s_to_r8vec ( text, 2, temp ); if ( error ) { cout << "\n"; cout << "XY_DATA_READ - Fatal error!\n"; cout << " S_TO_R8VEC returned error flag.\n"; exit ( 1 ); } xy[0+j*2] = temp[0]; xy[1+j*2] = temp[1]; j = j + 1; } input.close ( ); return; } //****************************************************************************80 void xy_data_write ( ofstream &output_unit, int point_num, double xy[] ) //****************************************************************************80 // // Purpose: // // XY_DATA_WRITE writes the data for an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 31 December 2008 // // Author: // // John Burkardt // // Parameters: // // Input, ofstream &OUTPUT_UNIT, a pointer to the XY file. // // Input, int POINT_NUM, the number of points. // // Input, double XY[2*POINT_NUM], the arrays of coordinate data. // { int j; for ( j = 0; j < point_num; j++ ) { output_unit << setw(10) << xy[0+2*j] << " " << setw(10) << xy[1+2*j] << "\n"; } return; } //****************************************************************************80 void xy_example ( int point_num, double xy[] ) //****************************************************************************80 // // Purpose: // // XY_EXAMPLE sets up sample XY data suitable for an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 31 December 2008 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Output, double XY[2*POINT_NUM], the arrays of coordinate data. // { int j; double pi = 3.141592653589793; double r; double theta; int turns = 5; for ( j = 0; j < point_num; j++ ) { r = ( double ) ( j ) / ( double ) ( point_num - 1 ); theta = ( double ) ( turns ) * r * ( 2.0 * pi ); xy[0+j*2] = r * cos ( theta ); xy[1+j*2] = r * sin ( theta ); } for ( j = 0; j < point_num; j++ ) { xy[0+j*2] = 0.5 * ( 1.0 + xy[0+j*2] ); xy[1+j*2] = 0.5 * ( 1.0 + xy[1+j*2] ); } return; } //****************************************************************************80 void xy_header_print ( int point_num ) //****************************************************************************80 // // Purpose: // // XY_HEADER_PRINT prints the header of an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 03 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // { cout << "#\n"; cout << "# Number of points = " << point_num << "\n"; return; } //****************************************************************************80 void xy_header_read ( string input_filename, int *point_num ) //****************************************************************************80 // // Purpose: // // XY_HEADER_READ reads the header of an XY file. // // Discussion: // // All we do here is count the number of records that are not comments // and not blank. Each such record is assumed to represent a single point // coordinate record. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 25 October 2010 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the input file. // // Output, int *POINT_NUM, the number of points. // { ifstream input; string text; *point_num = 0; input.open ( input_filename.c_str() ); if ( !input ) { cout << "\n"; cout << "XY_HEADER_READ - Fatal error!\n"; cout << " Cannot open the input file \"" << input_filename << "\".\n"; exit ( 1 ); } while ( 1 ) { getline ( input, text ); if ( input.eof ( ) ) { break; } if ( text[0] == '#' || s_len_trim ( text ) == 0 ) { continue; } *point_num = *point_num + 1; } input.close ( ); return; } //****************************************************************************80 void xy_header_write ( string output_filename, ofstream &output_unit, int point_num ) //****************************************************************************80 // // Purpose: // // XY_HEADER_WRITE writes the header of an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file. // // Input, ofstream &OUTPUT_UNIT, a pointer to the file to contain the data. // // Input, int POINT_NUM, the number of points. // { output_unit << "# " << output_filename << "\n"; output_unit << "# created by xy_io::xy_header_write.C\n"; output_unit << "#\n"; output_unit << "# Number of points = " << point_num << "\n"; output_unit << "#\n"; return; } //****************************************************************************80 void xy_read ( string input_filename, int *point_num, double *xy[] ) //****************************************************************************80 // // Purpose: // // XY_READ reads the header and data from an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the XY file. // // Output, int *POINT_NUM, the number of points. // // Output, double *XY[2*(*POINT_NUM)], the point coordinates. // { xy_header_read ( input_filename, point_num ); *xy = new double[2 * (*point_num) ]; xy_data_read ( input_filename, *point_num, *xy ); return; } //****************************************************************************80 void xy_read_test ( string input_filename ) //****************************************************************************80 // // Purpose: // // XY_READ_TEST tests the XY file read routines. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the XY file. // { int point_num; double *xy = NULL; xy_read ( input_filename, &point_num, &xy ); delete [] xy; return; } //****************************************************************************80 void xy_write ( string output_filename, int point_num, double xy[] ) //****************************************************************************80 // // Purpose: // // XY_WRITE writes the header and data for an XY file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file. // // Input, int POINT_NUM, the number of points. // // Input, double XY[2*POINT_NUM], the arrays of coordinate data. // { ofstream output_unit; // // Open the output file. // output_unit.open ( output_filename.c_str() ); if ( !output_unit ) { cout << "\n"; cout << "XY_WRITE - Fatal error!\n"; cout << " Cannot open the output file \"" << output_filename << "\".\n"; exit ( 1 ); } // // Write the header. // xy_header_write ( output_filename, output_unit, point_num ); // // Write the data. // xy_data_write ( output_unit, point_num, xy ); // // Close the file. // output_unit.close ( ); return; } //****************************************************************************80 void xy_write_test ( string output_filename ) //****************************************************************************80 // // Purpose: // // XY_WRITE_TEST tests the XY write routines. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file to contain the data. // { int point_num; double *xy; point_num = 100; // // Allocate memory. // xy = new double[2*point_num]; // // Set the data. // xy_example ( point_num, xy ); // // Write the data to the file. // xy_write ( output_filename, point_num, xy ); delete [] xy; return; } //****************************************************************************80 void xyf_data_print ( int point_num, int face_num, int face_data_num, int face_pointer[], int face_data[] ) //****************************************************************************80 // // Purpose: // // XYF_DATA_PRINT prints the data of an XYF file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // // Input, int FACE_POINTER[FACE_NUM+1], pointers to the // first face item for each face. // // Input, int FACE_DATA[FACE_DATA_NUM], indices // of points that form faces. // { int i; int face; for ( face = 0; face < face_num; face++ ) { cout << " " << setw(4) << face << " " << setw(8) << face_pointer[face] << " " << setw(8) << face_pointer[face+1] - 1 << "\n"; } cout << "\n"; for ( face = 0; face < face_num; face++ ) { for ( i = face_pointer[face]; i < face_pointer[face+1]; i++ ) { cout << " " << face_data[i]; } cout << "\n"; } return; } //****************************************************************************80 void xyf_data_read ( string input_filename, int face_num, int face_data_num, int face_pointer[], int face_data[] ) //****************************************************************************80 // // Purpose: // // XYF_DATA_READ reads the data in an XYF file. // // Discussion: // // This routine assumes that the file contains exactly three kinds of // records: // // COMMENTS which begin with a '#' character in column 1; // BLANKS which contain nothing but 'whitespace'; // FACE ITEMS, which are indices of points on a face. // // The routine ignores comments and blank faces and returns // the number of face items. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 25 October 2010 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the input file. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // // Output, int FACE_POINTER[FACE_NUM+1], pointers to the // first face item for each face. // // Output, int FACE_DATA[FACE_DATA_NUM], the face items. // { int ierror; int ilo; ifstream input; int n; int face; string text; input.open ( input_filename.c_str() ); if ( !input ) { cout << "\n"; cout << "XYF_DATA_READ - Fatal error!\n"; cout << " Cannot open the input file \"" << input_filename << "\".\n"; exit ( 1 ); } face = 0; face_pointer[0] = 0; while ( face < face_num ) { getline ( input, text ); if ( input.eof ( ) ) { cout << "\n"; cout << "XYF_DATA_READ - Fatal error!\n"; cout << " Unexpected end of information.\n"; exit ( 1 ); } if ( text[0] == '#' || s_len_trim ( text ) == 0 ) { continue; } n = s_word_count ( text ); face_pointer[face+1] = face_pointer[face] + n; ilo = face_pointer[face]; ierror = s_to_i4vec ( text, n, face_data+ilo ); if ( ierror != 0 ) { cout << "\n"; cout << "XYF_DATA_READ - Fatal error!\n"; cout << " Error from S_TO_I4VEC.\n"; exit ( 1 ); } face = face + 1; } input.close ( ); return; } //****************************************************************************80 void xyf_data_write ( ofstream &output_unit, int point_num, int face_num, int face_data_num, int face_pointer[], int face_data[] ) //****************************************************************************80 // // Purpose: // // XYF_DATA_WRITE writes the data of an XYF file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, ofstream &OUTPUT_UNIT, a pointer to the XY file. // // Input, int POINT_NUM, the number of points. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // // Input, int FACE_POINTER[FACE_NUM+1], pointers to the // first face item for each face. // // Input, int FACE_DATA[FACE_DATA_NUM], indices // of points that form faces. // { int i; int face; for ( face = 0; face < face_num; face++ ) { for ( i = face_pointer[face]; i < face_pointer[face+1]; i++ ) { output_unit << " " << face_data[i]; } output_unit << "\n"; } return; } //****************************************************************************80 void xyf_example ( int point_num, int face_num, int face_data_num, double xy[], int face_pointer[], int face_data[] ) //****************************************************************************80 // // Purpose: // // XYF_EXAMPLE sets data suitable for a pair of XY and XYF files. // // Discussion: // // There are 65 points. // There are 48 faces. // There are 48*4=192 face items. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // // Output, double XY[2*POINT_NUM], the point coordinates. // // Output, int FACE_POINTER[FACE_NUM+1], pointers to the // first face item for each face. // // Output, int FACE_DATA[FACE_DATA_NUM], indices // of points that form faces. // { int face; int i; int j; int k; int n_t = 13; int n_r = 5; double r; double r_min = 1.0; double r_max = 3.0; double t; double t_min = 3.141592653589793; double t_max = 0.0; k = 0; for ( j = 1; j <= n_r; j++ ) { r = ( ( double ) ( n_r - j ) * r_min + ( double ) ( j - 1 ) * r_max ) / ( double ) ( n_r - 1 ); for ( i = 1; i <= n_t; i++ ) { t = ( ( double ) ( n_t - i ) * t_min + ( double ) ( i - 1 ) * t_max ) / ( double ) ( n_t - 1 ); xy[0+k*2] = r * cos ( t ); xy[1+k*2] = r * sin ( t ); k = k + 1; } } face = 0; k = 0; face_pointer[face] = k; for ( j = 1; j < n_r; j++ ) { for ( i = 1; i < n_t; i++ ) { face = face + 1; face_data[k] = i + ( j - 1 ) * n_t - 1; k = k + 1; face_data[k] = i + 1 + ( j - 1 ) * n_t - 1; k = k + 1; face_data[k] = i + 1 + ( j ) * n_t - 1; k = k + 1; face_data[k] = i + ( j ) * n_t - 1; k = k + 1; face_pointer[face] = k; } } return; } //****************************************************************************80 void xyf_example_size ( int *point_num, int *face_num, int *face_data_num ) //****************************************************************************80 // // Purpose: // // XYF_EXAMPLE_SIZE sizes the data to be created by XYF_EXAMPLE. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Output, int *POINT_NUM, the number of points. // // Output, int *FACE_NUM, the number of faces. // // Output, int *FACE_DATA_NUM, the number of face items. // { int n_t = 13; int n_r = 5; *face_data_num = 4 * ( n_t - 1 ) * ( n_r - 1 ); *face_num = ( n_t - 1 ) * ( n_r - 1 ); *point_num = n_t * n_r; return; } //****************************************************************************80 void xyf_header_print ( int point_num, int face_num, int face_data_num ) //****************************************************************************80 // // Purpose: // // XYF_HEADER_PRINT prints the header of an XYF file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // { cout << "\n"; cout << " Number of points = " << point_num << "\n"; cout << " Number of faces = " << face_num << "\n"; cout << " Number of face items = " << face_data_num << "\n"; return; } //****************************************************************************80 void xyf_header_read ( string input_filename, int *face_num, int *face_data_num ) //****************************************************************************80 // // Purpose: // // XYF_HEADER_READ determines the number of face items in an XYF file. // // Discussion: // // This routine assumes that the file contains exactly three kinds of // records: // // COMMENTS which begin with a '#' character in column 1; // BLANKS which contain nothing but 'whitespace'; // FACE ITEMS, which are indices of points on a face. // // The routine ignores comments and blanks and returns // the number of face items. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 25 October 2010 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the input file. // // Output, int *FACE_NUM, the number of faces. // // Output, int *FACE_DATA_NUM, the number of face items. // { int i; int i4_val; int ierror; ifstream input; int length; int n; string text; *face_data_num = 0; *face_num = 0; input.open ( input_filename.c_str() ); if ( !input ) { cout << "\n"; cout << "XYF_HEADER_READ - Fatal error!\n"; cout << " Cannot open the input file \"" << input_filename << "\".\n"; exit ( 1 ); } for ( ; ; ) { getline ( input, text ); if ( input.eof ( ) ) { break; } if ( text[0] == '#' || s_len_trim ( text ) == 0 ) { continue; } n = s_word_count ( text ); *face_data_num = *face_data_num + n; *face_num = *face_num + 1; } input.close ( ); return; } //****************************************************************************80 void xyf_header_write ( string output_filename, ofstream &output_unit, int point_num, int face_num, int face_data_num ) //****************************************************************************80 // // Purpose: // // XYF_HEADER_WRITE writes the header of an XYF file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file. // // Input, ofstream &OUTPUT_UNIT, a pointer to the file to contain the data. // // Input, int POINT_NUM, the number of points. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // { output_unit << "# " << output_filename << "\n"; output_unit << "# created by xy_io::xyf_header_write.C\n"; output_unit << "#\n"; output_unit << "# Number of points = " << point_num << "\n"; output_unit << "# Number of faces = " << face_num << "\n"; output_unit << "# Number of face items = " << face_data_num << "\n"; output_unit << "#\n"; return; } //****************************************************************************80 void xyf_write ( string output_filename, int point_num, int face_num, int face_data_num, int face_pointer[], int face_data[] ) //****************************************************************************80 // // Purpose: // // XYF_WRITE writes the header and data for an XYF file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 06 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file. // // Input, int POINT_NUM, the number of points. // // Input, int FACE_NUM, the number of faces. // // Input, int FACE_DATA_NUM, the number of face items. // // Input, int FACE_POINTER[FACE_NUM+1], pointers to the // first face item for each face. // // Input, int FACE_DATA[FACE_DATA_NUM], indices // of points that form faces. // { ofstream output_unit; // // Open the output file. // output_unit.open ( output_filename.c_str() ); if ( !output_unit ) { cout << "\n"; cout << "XYF_WRITE - Fatal error!\n"; cout << " Cannot open the output file \"" << output_filename << "\".\n"; exit ( 1 ); } // // Write the header. // xyf_header_write ( output_filename, output_unit, point_num, face_num, face_data_num ); // // Write the data. // xyf_data_write ( output_unit, point_num, face_num, face_data_num, face_pointer, face_data ); // // Close the file. // output_unit.close ( ); return; } //****************************************************************************80 void xyl_data_print ( int point_num, int line_num, int line_data_num, int line_pointer[], int line_data[] ) //****************************************************************************80 // // Purpose: // // XYL_DATA_PRINT prints the data of an XYL file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 08 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // // Input, int LINE_POINTER[LINE_NUM+1], pointers to the // first line item for each line. // // Input, int LINE_DATA[LINE_DATA_NUM], indices // of points that form lines. // { int i; int line; for ( line = 0; line < line_num; line++ ) { cout << " " << setw(4) << line << " " << setw(8) << line_pointer[line] << " " << setw(8) << line_pointer[line+1] - 1 << "\n"; } cout << "\n"; for ( line = 0; line < line_num; line++ ) { for ( i = line_pointer[line]; i < line_pointer[line+1]; i++ ) { cout << " " << line_data[i]; } cout << "\n"; } return; } //****************************************************************************80 void xyl_data_read ( string input_filename, int line_num, int line_data_num, int line_pointer[], int line_data[] ) //****************************************************************************80 // // Purpose: // // XYL_DATA_READ reads the data in an XYL file. // // Discussion: // // This routine assumes that the file contains exactly three kinds of // records: // // COMMENTS which begin with a '#' character in column 1; // BLANKS which contain nothing but 'whitespace'; // LINE ITEMS, which are indices of points on a line. // // The routine ignores comments and blanks and returns // the number of line items. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 25 October 2010 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the input file. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // // Output, int LINE_POINTER[LINE_NUM+1], pointers to the // first line item for each line. // // Output, int LINE_DATA[LINE_DATA_NUM], the line items. // { int ierror; int ilo; ifstream input; int line; int n; string text; input.open ( input_filename.c_str() ); if ( !input ) { cout << "\n"; cout << "XYL_DATA_READ - Fatal error!\n"; cout << " Cannot open the input file \"" << input_filename << "\".\n"; exit ( 1 ); } line = 0; line_pointer[0] = 0; while ( line < line_num ) { getline ( input, text ); if ( input.eof ( ) ) { cout << "\n"; cout << "XYL_DATA_READ - Fatal error!\n"; cout << " Unexpected end of information.\n"; exit ( 1 ); } if ( text[0] == '#' || s_len_trim ( text ) == 0 ) { continue; } n = s_word_count ( text ); line_pointer[line+1] = line_pointer[line] + n; ilo = line_pointer[line]; ierror = s_to_i4vec ( text, n, line_data+ilo ); if ( ierror != 0 ) { cout << "\n"; cout << "XYL_DATA_READ - Fatal error!\n"; cout << " Error from S_TO_I4VEC.\n"; exit ( 1 ); } line = line + 1; } input.close ( ); return; } //****************************************************************************80 void xyl_data_write ( ofstream &output_unit, int point_num, int line_num, int line_data_num, int line_pointer[], int line_data[] ) //****************************************************************************80 // // Purpose: // // XYL_DATA_WRITE writes the data of an XYL file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 08 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, ofstream &OUTPUT_UNIT, a pointer to the XY file. // // Input, int POINT_NUM, the number of points. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // // Input, int LINE_POINTER[LINE_NUM+1], pointers to the // first line item for each line. // // Input, int LINE_DATA[LINE_DATA_NUM], indices // of points that form lines. // { int i; int line; for ( line = 0; line < line_num; line++ ) { for ( i = line_pointer[line]; i < line_pointer[line+1]; i++ ) { output_unit << " " << line_data[i]; } output_unit << "\n"; } return; } //****************************************************************************80 void xyl_example ( int point_num, int line_num, int line_data_num, double xy[], int line_pointer[], int line_data[] ) //****************************************************************************80 // // Purpose: // // XYL_EXAMPLE sets data suitable for a pair of XY and XYL files. // // Discussion: // // There are 13 points. // There are 3 lines. // There are 15 line data items. // // 4 12-11 // /\ | | // / \| | // / 13 | // / \10 // / \ // 5 3 // | | // | 9--8 | // | | | | // | | | | // | 6--7 | // | | // 1----------2 // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 31 December 2008 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // // Output, double XY[2*POINT_NUM], the point coordinates. // // Output, int LINE_POINTER[LINE_NUM+1], pointers to the // first line item for each line. // // Output, int LINE_DATA[LINE_DATA_NUM], indices // of points that form lines. // { # define LINE_DATA_NUM 15 # define LINE_NUM 3 # define POINT_NUM 13 int LINE_DATA[LINE_DATA_NUM] = { 0, 1, 2, 3, 4, 0, 5, 6, 7, 8, 5, 9, 10, 11, 12 }; int LINE_POINTER[LINE_NUM+1] = { 0, 6, 11, 15 }; double XY[2*POINT_NUM] = { 0.0, 0.0, 6.0, 0.0, 6.0, 7.0, 3.0, 10.0, 0.0, 7.0, 4.0, 1.0, 5.0, 1.0, 5.0, 4.0, 4.0, 4.0, 5.0, 8.0, 5.0, 11.0, 4.0, 11.0, 4.0, 9.0 }; i4vec_copy ( line_data_num, LINE_DATA, line_data ); i4vec_copy ( line_num + 1, LINE_POINTER, line_pointer ); r8vec_copy ( 2 * point_num, XY, xy ); return; # undef LINE_DATA_NUM # undef LINE_NUM # undef POINT_NUM } //****************************************************************************80 void xyl_example_size ( int *point_num, int *line_num, int *line_data_num ) //****************************************************************************80 // // Purpose: // // XYL_EXAMPLE_SIZE sizes the data to be created by XYL_EXAMPLE. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 31 December 2008 // // Author: // // John Burkardt // // Parameters: // // Output, int *POINT_NUM, the number of points. // // Output, int *LINE_NUM, the number of lines. // // Output, int *LINE_DATA_NUM, the number of line items. // { *line_data_num = 15; *line_num = 3; *point_num = 13; return; } //****************************************************************************80 void xyl_header_print ( int point_num, int line_num, int line_data_num ) //****************************************************************************80 // // Purpose: // // XYL_HEADER_PRINT prints the header of an XYL file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 03 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, int POINT_NUM, the number of points. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // { cout << "\n"; cout << " Number of points = " << point_num << "\n"; cout << " Number of lines = " << line_num << "\n"; cout << " Number of line items = " << line_data_num << "\n"; return; } //****************************************************************************80 void xyl_header_read ( string input_filename, int *line_num, int *line_data_num ) //****************************************************************************80 // // Purpose: // // XYL_HEADER_READ determines the number of line items in an XYL file. // // Discussion: // // This routine assumes that the file contains exactly three kinds of // records: // // COMMENTS which begin with a '#' character in column 1; // BLANKS which contain nothing but 'whitespace'; // LINE ITEMS, which are indices of points on a line. // // The routine ignores comments and blanks and returns // the number of line items. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 08 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string INPUT_FILENAME, the name of the input file. // // Output, int *LINE_NUM, the number of lines. // // Output, int *LINE_DATA_NUM, the number of line items. // { int i; int i4_val; int ierror; ifstream input; int length; int n; string text; *line_data_num = 0; *line_num = 0; input.open ( input_filename.c_str() ); if ( !input ) { cout << "\n"; cout << "XYL_HEADER_READ - Fatal error!\n"; cout << " Cannot open the input file \"" << input_filename << "\".\n"; exit ( 1 ); } for ( ; ; ) { getline ( input, text ); if ( input.eof ( ) ) { break; } if ( text[0] == '#' || s_len_trim ( text ) == 0 ) { continue; } n = s_word_count ( text ); *line_data_num = *line_data_num + n; *line_num = *line_num + 1; } input.close ( ); return; } //****************************************************************************80 void xyl_header_write ( string output_filename, ofstream &output_unit, int point_num, int line_num, int line_data_num ) //****************************************************************************80 // // Purpose: // // XYL_HEADER_WRITE writes the header of an XYL file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file. // // Input, ofstream &OUTPUT_UNIT, a pointer to the file to contain the data. // // Input, int POINT_NUM, the number of points. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // { output_unit << "# " << output_filename << "\n"; output_unit << "# created by xy_io::xyl_header_write.C\n"; output_unit << "#\n"; output_unit << "# Number of points = " << point_num << "\n"; output_unit << "# Number of lines = " << line_num << "\n"; output_unit << "# Number of line items = " << line_data_num << "\n"; output_unit << "#\n"; return; } //****************************************************************************80 void xyl_write ( string output_filename, int point_num, int line_num, int line_data_num, int line_pointer[], int line_data[] ) //****************************************************************************80 // // Purpose: // // XYL_WRITE writes the header and data for an XYL file. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 January 2009 // // Author: // // John Burkardt // // Parameters: // // Input, string OUTPUT_FILENAME, the name of the file. // // Input, int POINT_NUM, the number of points. // // Input, int LINE_NUM, the number of lines. // // Input, int LINE_DATA_NUM, the number of line items. // // Input, int LINE_POINTER[LINE_NUM+1], pointers to the // first line item for each line. // // Input, int LINE_DATA[LINE_DATA_NUM], indices // of points that form lines. // { ofstream output_unit; // // Open the output file. // output_unit.open ( output_filename.c_str() ); if ( !output_unit ) { cout << "\n"; cout << "XYL_WRITE - Fatal error!\n"; cout << " Cannot open the output file \"" << output_filename << "\".\n"; exit ( 1 ); } // // Write the header. // xyl_header_write ( output_filename, output_unit, point_num, line_num, line_data_num ); // // Write the data. // xyl_data_write ( output_unit, point_num, line_num, line_data_num, line_pointer, line_data ); // // Close the file. // output_unit.close ( ); return; }