//
// Programmer:    Craig Stuart Sapp <craig@ccrma.stanford.edu>
// Creation Date: Mon Nov 20 16:12:43 PST 2000
// Last Modified: Mon Nov 20 16:12:46 PST 2000
// Filename:      ...sig/doc/examples/all/maxent/maxent.cpp
// Web Address:   http://sig/doc/examples/all/maxent/maxent.cpp
// Syntax:        C++ 
//
// Description:   determination of metrical accentuation through rules given
//                by John Maxwell in:
//
//                "An Expert System for Harmonizing Analysis of Tonal
//                Music." pp 335-353 in: "Understanding Music with AI: 
//                Perspectives on Music Cognition." Ed. by Mira Balaban, 
//                Kemal Ebcioglu, and Otto Laske.  MIT Press; 1992.
//                [ISBN 0-262-52170-9]
//
// 

#include "humdrum.h"
#include <string.h>
#include <ctype.h>

// function declarations
void   checkOptions(Options& opts, int argc, char* argv[]);
void   example(void);
void   generateAnalysis(HumdrumFile& infile, Array<int>& maxent);
int    measureAccentuation(HumdrumFile& infile, int line);
void   printAnalysis(HumdrumFile& infile, Array<int>& accentuation);
void   usage(const char* command);


// global variables
Options      options;            // database for command-line arguments
int          debugQ     = 0;     // used with the --debug option
int          appendQ    = 0;     // used with the -a option
int          compoundQ  = 1;     // used with the -c option


// variables for keeping track of the change in meter during the score:
int metercount = 4;
int meterbase = 4;

///////////////////////////////////////////////////////////////////////////

int main(int argc, char* argv[]) {
   HumdrumFile infile;
   Array<int>  accentuation;

   // process the command-line options
   checkOptions(options, argc, argv);

   // figure out the number of input files to process
   int numinputs = options.getArgCount();

   for (int i=0; i<numinputs || i==0; i++) {
      infile.clear();

      // if no command-line arguments read data file from standard input
      if (numinputs < 1) {
         infile.read(cin);
      } else {
         infile.read(options.getArg(i+1));
      }

      generateAnalysis(infile, accentuation);
      printAnalysis(infile, accentuation);
   }

   return 0;
}


///////////////////////////////////////////////////////////////////////////


//////////////////////////////
//
// checkOptions -- validate and process command-line options.
//

void checkOptions(Options& opts, int argc, char* argv[]) {
   opts.define("a|append=b",    "append analysis to data in output");   
   opts.define("C|compound=b",  "don't try to use compound meters");   

   opts.define("debug=b",  "trace input parsing");   
   opts.define("author=b",  "author of the program");   
   opts.define("version=b", "compilation information"); 
   opts.define("example=b", "example usage"); 
   opts.define("h|help=b",  "short description"); 
   opts.process(argc, argv);
   
   // handle basic options:
   if (opts.getBoolean("author")) {
      cout << "Written by Craig Stuart Sapp, "
           << "craig@ccrma.stanford.edu, Nov 2000" << endl;
      exit(0);
   } else if (opts.getBoolean("version")) {
      cout << argv[0] << ", version: Nov 2000" << endl;
      cout << "compiled: " << __DATE__ << endl;
      cout << HUMDRUM_VERSION << endl;
      exit(0);
   } else if (opts.getBoolean("help")) {
      usage(opts.getCommand());
      exit(0);
   } else if (opts.getBoolean("example")) {
      example();
      exit(0);
   }

   debugQ = opts.getBoolean("debug");
   appendQ = opts.getBoolean("append");

   if (opts.getBoolean("compound")) {
      compoundQ = 0;
   } else {
      compoundQ = 0;
   }

}



//////////////////////////////
//
// example -- example usage of the maxent program
//

void example(void) {
   cout <<
   "                                                                        \n"
   << endl;
}



//////////////////////////////
//
// generateAnalysis -- 
//

void generateAnalysis(HumdrumFile& infile, Array& accentuation) {
   accentuation.setSize(infile.getNumLines());

   for (int i=0; i<infile.getNumLines(); i++) {
      if (options.getBoolean("debug")) {
         cout << "processing line " << (i+1) << " of input ..." << endl;
      }

      if (infile[i].getType() == E_humrec_interpretation) {
         for (j=0; j<infile[i].getFieldCount(); j++) {
            if (infile[i].getExInterpNum() != E_KERN_EXINT) {
               continue;
            }
            if ((strncmp(infile[i], "*M", 2) == 0) && isdigit(infile[i][2]) && 
                  (strchr(infile[i], '/') != NULL)) {
               sscanf(infile[i], "*M%d/%d", &metercount, &meterbase);
               break;
            }
         }
      }

      if (infile[i].getType() != E_humrec_data) {
         accentuation[i] = -1;
         continue;
      }

      accentuation[i] = measureAccentuation(infile, i);
   }
}


//////////////////////////////
//
// measureAccentuation -- apply the rule 6 on page 337:
//
// Rule 6.  IF a musical event falls on the "primary beat unit" of
//    the meter (as defined by a table relating meters to beat units)
//    THEN it is accented.
//

#define ACCENT_YES       0
#define ACCENT_NO        1
#define ACCENT_UNKNOWN  -1

int measureAccentuation(HumdrumFile& infile, int line) {
   if (infile[line].getType() != E_humrec_data) {
      return ACCENT_UNKNOWN;
   }

}



//////////////////////////////
//
// printAnalysis -- 
//

void printAnalysis(HumdrumFile& infile, Array& tertian) {
   int i;
   if (appendQ) {
      for (i=0; i<infile.getNumLines(); i++) {
         switch (infile[i].getType()) {
         case E_humrec_global_comment:
         case E_humrec_bibliography:
         case E_humrec_none:
         case E_humrec_empty:
            cout << infile[i].getLine() << "\n";
            break;
         case E_humrec_data:
            cout << infile[i].getLine() << "\t";
            if (tertian[i] == TERTIAN_YES) {
               cout << "y";
            } else {
               cout << "n";
            }
            cout << "\n";
            break;
         case E_humrec_data_comment:
            if (infile[i].equalFieldsQ("**kern")) {
               cout << infile[i].getLine() << "\t"
                    << infile[i][0] << "\n";
            } else {
               cout << infile[i].getLine() << "\t!\n";
            }
            break;
         case E_humrec_data_measure:
            if (infile[i].equalFieldsQ("**kern")) {
               cout << infile[i].getLine() << "\t"
                    << infile[i][0] << "\n";
            } else {
               cout << infile[i].getLine() << "\t=\n";
            }
            break;
         case E_humrec_data_interpretation:
            if (strncmp(infile[i][0], "**", 2) == 0) {
               cout << infile[i].getLine() << "\t";
               cout << "**tertian" << "\n";
            } else if (infile[i].equalFieldsQ("**kern")) {
               cout << infile[i].getLine() << "\t"
                    << infile[i][0] << "\n";
            } else {
               cout << infile[i].getLine() << "\t*\n";
            }
            break;
         }
      }

   } else {

      for (i=0; i<infile.getNumLines(); i++) {
         switch (infile[i].getType()) {
         case E_humrec_global_comment:
         case E_humrec_bibliography:
         case E_humrec_none:
         case E_humrec_empty:
            cout << infile[i].getLine() << "\n";
            break;
         case E_humrec_data:
            if (tertian[i] == TERTIAN_YES) {
               cout << "y";
            } else {
               cout << "n";
            }
            cout << "\n";
            break;
         case E_humrec_data_comment:
            if (infile[i].equalFieldsQ("**kern")) {
               cout << infile[i][0] << "\n";
            } else {
               // do nothing
            }
            break;
         case E_humrec_data_measure:
            if (infile[i].equalFieldsQ("**kern")) {
               cout << infile[i][0] << "\n";
            } else {
               cout << "\t=\n";
            }
            break;
         case E_humrec_data_interpretation:
            if (strncmp(infile[i][0], "**", 2) == 0) {
               cout << "**tertian" << "\n";
            } else if (infile[i].equalFieldsQ("**kern")) {
               cout << infile[i][0] << "\n";
            } else {
               // do nothing
            }
            break;
         }
      }
   }
}



//////////////////////////////
//
// usage -- gives the usage statement for the quality program
//

void usage(const char* command) {
   cout <<
   "                                                                        \n"
   << endl;
}