int main(int argc, char* argv[]) { HumdrumFile infile; Array<double> timings; Array<double> tempo; // 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)); } analyzeTiming(infile, timings, tempo); generateSwing(infile, timings, percentage); printAnalysis(infile, timings, tempo); } return 0; }
int main(int argc, char** argv) { HumdrumFile infile; // initial processing of the command-line options checkOptions(options, argc, argv); if (options.getArgCount() < 1) { infile.read(cin); } else { infile.read(options.getArg(1)); } if (removeQ || overwriteQ) { stringstream tempstream; removeStems(tempstream, infile); infile.clear(); infile.read(tempstream); if (removeQ) { cout << infile; exit(0); } } autostem(infile); cout << infile; return 0; }
int main(int argc, char** argv) { HumdrumFile hfile; // process the command-line options checkOptions(options, argc, argv); // figure out the number of input files to process numinputs = options.getArgCount(); const char* filename = ""; for (int i=0; i<numinputs || i==0; i++) { hfile.clear(); // if no command-line arguments read data file from standard input if (numinputs < 1) { filename = ""; hfile.read(cin); } else { filename = options.getArg(i+1).data(); hfile.read(filename); } hfile.analyzeRhythm(); displayResults(hfile, numinputs, filename); } return 0; }
int main(int argc, char* argv[]) { HumdrumFile infile; // process the command-line options checkOptions(options, argc, argv); // figure out the number of input files to process int numinputs = options.getArgCount(); Array<double> absbeat; Array<int> pitch; Array<int> testset; Array<double> duration; Array<double> level; Array<double> coef; 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)); } infile.analyzeRhythm(); cout << "(cmn\n"; convertToCMN(infile); cout << ")\n"; } return 0; }
int main(int argc, char** argv) { HumdrumFile hfile; checkOptions(options, argc, argv); // process the command-line options // figure out the number of input files to process int numinputs = options.getArgCount(); for (int i=0; i<numinputs || i==0; i++) { hfile.clear(); // if no command-line arguments read data file from standard input if (numinputs < 1) { hfile.read(cin); } else { hfile.read(options.getArg(i+1)); } // hfile.analyzeRhythm(); Array<int> transform; getTransformation(hfile, transform); if (!determineQ) { printTransformation(hfile, transform); } } return 0; }
int main(int argc, char* argv[]) { HumdrumFile infile; // 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)); } infile.analyzeSpines(); printSpineAnalysis(infile); } return 0; }
int main(int argc, char* argv[]) { HumdrumFile infile; // process the command-line options checkOptions(options, argc, argv); // figure out the number of input files to process int numinputs = options.getArgCount(); Array<double> values; values.setSize(0); Array<double> midibins; midibins.setSize(128); midibins.setAll(0); midibins.allowGrowth(0); 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, midibins); } printAnalysis(midibins); return 0; }
int main(int argc, char** argv) { // process the command-line options checkOptions(options, argc, argv); // figure out the number of input files to process int numinputs = options.getArgCount(); HumdrumFile hfile; for (int i=0; i<numinputs || i==0; i++) { hfile.clear(); // if no command-line arguments read data file from standard input if (numinputs < 1) { hfile.read(cin); } else { hfile.read(options.getArg(i+1)); } hfile.analyzeRhythm(); divisions = hfile.getMinTimeBase(); if (divisions % 4 == 0) { divisions = divisions/4; } else { // don't know what this case may be } convertToMusicXML(hfile); } return 0; }
int main(int argc, char** argv) { // process the command-line options checkOptions(options, argc, argv); HumdrumFile infile; int i; Array<Array<char> > idtags; int idtagQ = 0; firstinput.read(options.getArg(1)); for (i=1; i<=options.getArgCount(); i++) { infile.clear(); infile.read(options.getArg(i)); if (i ==1) { idtagQ = getIdTags(idtags, infile); } if (idtagQ && i > 1) { printFileID(infile, i-1, options.getArgCount(), idtags); } else { printFile(infile, i-1, options.getArgCount()); } } return 0; }
void inputNewFile(void) { data.clear(); linenum = 0; if (!streamer.read(data)) { finishup(); exit(0); } data.analyzeRhythm("4"); if (fileNumber > 1) { millisleep((float)(1000 * options.getDouble("pause"))); } fileNumber++; }
void processFile(HumdrumFile& infile, int index) { vector<int> lines; vector<int> pitches; vector<int> tiestates; vector<int> tiecorrections; vector<int> localindex; for (int i=0; i<infile.getNumLines(); i++) { if (infile[i].getType() == E_humrec_interpretation) { if (strcmp(infile[i].getExInterp(index), "**kern") != 0) { // spine is not **kern data, so no tie fixing necessary return; } else { // primary spine is **kern data break; } } } // cout << "Spine is not kern data: " << infile[i].getExInterp(index) << endl; // cout << "LINE IS: " << infile[i] << endl; // cout << "INDEX = " << index << endl; // cout << "LINE = " << i << endl; // cout << "SPINE INFO = " << infile[i].getSpineInfo(index) << endl; getPitchesAndTies(infile, lines, pitches, tiestates, index, localindex); int corr = getTieCorrections(tiecorrections, pitches, tiestates); if (testQ) { if (corr) { cout << filename << ": " << corr << " incorrect ties\n"; exit(0); } else { exit(0); } } if (corr) { stringstream datastream; printFileWithCorrections(datastream, infile, lines, tiecorrections, localindex); datastream << ends; infile.clear(); infile.read(datastream); } else { // no corrections needed: do not alter infile } }
int main(int argc, char* argv[]) { HumdrumFile infile; // process the command-line options checkOptions(options, argc, argv); const char* filename; infile.clear(); // if no command-line arguments read data file from standard input int numinputs = options.getArgCount(); if (numinputs < 1) { infile.read(cin); } else { filename = options.getArg(1).data(); infile.read(filename); } processFile(infile); }
int main(int argc, char* argv[]) { HumdrumFile infile; Array<double> timings; Array<double> tempo; // process the command-line options checkOptions(options, argc, argv); // figure out the number of input files to process int numinputs = options.getArgCount(); double totaldur = 0.0; 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)); } if (interpQ) { doLinearInterpolation(infile); } else { analyzeTiming(infile, timings, tempo); if (totalQ) { totaldur += timings[timings.getSize()-1]; if (numinputs > 1) { printtime(options.getArg(i+1), timings[timings.getSize()-1]); } } else { printAnalysis(infile, timings, tempo); } } } if (totalQ) { printtime("", totaldur); } return 0; }
int main(int argc, char** argv) { checkOptions(options, argc, argv); // process the command-line options int i; int numinputs = options.getArgCount(); HumdrumFile hfile; for (i=0; i<numinputs || i==0; i++) { hfile.clear(); // if no command-line arguments read data file from standard input if (numinputs < 1) { hfile.read(cin); createIndex(hfile, ""); } else { processArgument(options.getArg(i+1)); } } return 0; }
int main(int argc, char* argv[]) { HumdrumFile infile; // process the command-line options checkOptions(options, argc, argv); infile.clear(); // if no command-line arguments read data file from standard input int numinputs = options.getArgCount(); if (numinputs < 1) { infile.read(cin); } else { filename = options.getArg(1); infile.read(options.getArg(1)); } int i; for (i=0; i<infile.getMaxTracks(); i++) { processFile(infile, i); } cout << infile; }