// dem.hxx -- DEM management class // // Written by Curtis Olson, started March 1998. // // Copyright (C) 1998 Curtis L. Olson - curt@flightgear.org // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. // // $Id$ #ifndef _DEM_HXX #define _DEM_HXX #ifndef __cplusplus # error This library requires C++ #endif #include #include #define DEM_SIZE 1200 #define DEM_SIZE_1 1201 class FGDem { private: // file pointer for input // gzFile fd; fg_gzifstream *in; // coordinates (in arc seconds) of south west corner double originx, originy; // number of columns and rows int cols, rows; // Distance between column and row data points (in arc seconds) double col_step, row_step; // pointers to the actual grid data allocated here float (*dem_data)[DEM_SIZE_1]; float (*output_data)[DEM_SIZE_1]; // Current "A" Record Information char dem_description[80], dem_quadrangle[80]; double dem_x1, dem_y1, dem_x2, dem_y2, dem_x3, dem_y3, dem_x4, dem_y4; double dem_z1, dem_z2; int dem_resolution, dem_num_profiles; // Current "B" Record Information int prof_col, prof_row; int prof_num_cols, prof_num_rows; double prof_x1, prof_y1; int prof_data; // temporary values for the class to use char option_name[32]; int do_data; int cur_col, cur_row; // return next token from input stream string next_token(); // return next integer from input stream int next_int(); // return next double from input stream double next_double(); // return next exponential num from input stream double next_exp(); public: // Constructor FGDem( void ); FGDem( const string& file ); // Destructor ~FGDem( void ); // open a DEM file (use "-" if input is coming from stdin) int open ( const string& file ); // close a DEM file int close(); // parse a DEM file int parse(); // read and parse DEM "A" record int read_a_record(); // read and parse DEM "B" record void read_b_record(); // write out the area of data covered by the specified bucket. // Data is written out column by column starting at the lower left // hand corner. int write_area( const string& root, FGBucket& b, bool compress ); #if 0 // return the current altitude based on grid data. We should // rewrite this to interpolate exact values, but for now this is // good enough double interpolate_altitude( double lon, double lat ); // Use least squares to fit a simpler data set to dem data void fit( double error, FGBucket& p ); // Initialize output mesh structure void outputmesh_init( void ); // Get the value of a mesh node double outputmesh_get_pt( int i, int j ); // Set the value of a mesh node void outputmesh_set_pt( int i, int j, double value ); // Write out a node file that can be used by the "triangle" program void outputmesh_output_nodes( const string& fg_root, FGBucket& p ); #endif // Informational methods inline double get_originx() const { return originx; } inline double get_originy() const { return originy; } inline int get_cols() const { return cols; } inline int get_rows() const { return rows; } inline double get_col_step() const { return col_step; } inline double get_row_step() const { return row_step; } }; #endif // _DEM_HXX