#include "assert.h" #include "stdlib.h" #include "string.h" #include "ctype.h" #include "trace.h" #include #include #include #include "strparse.h" #include "allegro.h" #include "algrd_internal.h" using namespace std; #define streql(s1, s2) (strcmp(s1, s2) == 0) #define field_max 80 class Alg_reader { public: istream *file; string input_line; int line_no; String_parse line_parser; bool line_parser_flag; string field; bool error_flag; Alg_seq_ptr seq; double tsnum; double tsden; Alg_reader(istream *a_file, Alg_seq_ptr new_seq); void readline(); Alg_parameters_ptr process_attributes(Alg_parameters_ptr attributes, double time); bool parse(); long parse_chan(string &field); long parse_int(string &field); int find_real_in(string &field, int n); double parse_real(string &field); void parse_error(string &field, long offset, char *message); double parse_dur(string &field, double base); double parse_after_dur(double dur, string &field, int n, double base); double parse_loud(string &field); long parse_key(string &field); double parse_pitch(string &field); long parse_after_key(int key, string &field, int n); long find_int_in(string &field, int n); bool parse_attribute(string &field, Alg_parameter_ptr parm); bool parse_val(Alg_parameter_ptr param, string &s, int i); bool check_type(char type_char, Alg_parameter_ptr param); }; double Alg_reader::parse_pitch(string &field) { if (isdigit(field[1])) { int last = find_real_in(field, 1); string real_string = field.substr(1, last - 1); return atof(real_string.c_str()); } else { return (double) parse_key(field); } } // it is the responsibility of the caller to delete // the seq Alg_reader::Alg_reader(istream *a_file, Alg_seq_ptr new_seq) { file = a_file; // save the file line_parser_flag = false; line_no = 0; tsnum = 4; // default time signature tsden = 4; seq = new_seq; } Alg_error alg_read(istream &file, Alg_seq_ptr new_seq) // read a sequence from allegro file { assert(new_seq); Alg_reader alg_reader(&file, new_seq); bool err = alg_reader.parse(); return (err ? alg_error_syntax : alg_no_error); } void Alg_reader::readline() { // a word about memory management: this Alg_reader has a // member variable input_line that holds a line of input // it is reused for each line. input_line is parsed by // line_parser, which holds a reference to input_line line_parser_flag = false; if (getline(*file, input_line)) { line_parser.init(&input_line); line_parser_flag = true; error_flag = false; } } Alg_parameters_ptr Alg_reader::process_attributes( Alg_parameters_ptr attributes, double time) { // print "process_attributes:", attributes bool ts_flag = false; if (attributes) { Alg_parameters_ptr a; bool in_seconds = seq->get_units_are_seconds(); if (a = Alg_parameters::remove_key(&attributes, "tempor")) { double tempo = a->parm.r; seq->insert_tempo(tempo, seq->get_time_map()->time_to_beat(time)); } if (a = Alg_parameters::remove_key(&attributes, "beatr")) { double beat = a->parm.r; seq->insert_beat(time, beat); } if (a = Alg_parameters::remove_key(&attributes, "timesig_numr")) { tsnum = a->parm.r; ts_flag = true; } if (a = Alg_parameters::remove_key(&attributes, "timesig_denr")) { tsden = a->parm.r; ts_flag = true; } if (ts_flag) { seq->set_time_sig(seq->get_time_map()->time_to_beat(time), tsnum, tsden); } if (in_seconds) seq->convert_to_seconds(); } return attributes; // in case it was modified } bool Alg_reader::parse() { int voice = 0; int key = 60; double loud = 100.0; double pitch = 60.0; double dur = 1.0; double time = 0.0; int track_num = 0; seq->convert_to_seconds(); //seq->set_real_dur(0.0); // just in case it's not initialized already readline(); bool valid = false; // ignore blank lines while (line_parser_flag) { bool time_flag = false; bool next_flag = false; double next; bool voice_flag = false; bool loud_flag = false; bool dur_flag = false; bool new_pitch_flag = false; // "P" syntax or "A"-"G" syntax double new_pitch = 0.0; bool new_key_flag = false; // "K" syntax int new_key = 0; Alg_parameters_ptr attributes = NULL; if (line_parser.peek() == '#') { // look for #track line_parser.get_nonspace_quoted(field); if (streql(field.c_str(), "#track")) { line_parser.get_nonspace_quoted(field); // number field.insert(0, " "); // need char at beginning because // parse_int ignores the first character of the argument track_num = parse_int(field); seq->add_track(track_num); } // maybe we have a sequence or track name line_parser.get_remainder(field); // if there is a non-space character after #track n then // use it as sequence or track name. Note that because we // skip over spaces, a sequence or track name cannot begin // with leading blanks. Another decision is that the name // must be at time zero if (field.length() > 0) { // insert the field as sequence name or track name Alg_update_ptr update = new Alg_update; update->chan = -1; update->time = 0; update->set_identifier(-1); // sequence name is whatever is on track 0 // other tracks have track names const char *attr = (track_num == 0 ? "seqnames" : "tracknames"); update->parameter.set_attr(symbol_table.insert_string(attr)); update->parameter.s = heapify(field.c_str()); seq->add_event(update, track_num); } } else { // we must have a track to insert into if (seq->tracks() == 0) seq->add_track(0); line_parser.get_nonspace_quoted(field); char pk = line_parser.peek(); // attributes are parsed as two adjacent nonspace_quoted tokens // so we have to conditionally call get_nonspace_quoted() again if (pk && !isspace(pk)) { string field2; line_parser.get_nonspace_quoted(field2); field.append(field2); } while (field[0]) { char first = toupper(field[0]); if (strchr("ABCDEFGKLPUSIQHW-", first)) { valid = true; // it's a note or event } if (first == 'V') { if (voice_flag) { parse_error(field, 0, "Voice specified twice"); } else { voice = parse_chan(field); } voice_flag = true; } else if (first == 'T') { if (time_flag) { parse_error(field, 0, "Time specified twice"); } else { time = parse_dur(field, 0.0); } time_flag = true; } else if (first == 'N') { if (next_flag) { parse_error(field, 0, "Next specified twice"); } else { next = parse_dur(field, time); } next_flag = true; } else if (first == 'K') { if (new_key_flag) { parse_error(field, 0, "Key specified twice"); } else { new_key = parse_key(field); new_key_flag = true; } } else if (first == 'L') { if (loud_flag) { parse_error(field, 0, "Loudness specified twice"); } else { loud = parse_loud(field); } loud_flag = true; } else if (first == 'P') { if (new_pitch_flag) { parse_error(field, 0, "Pitch specified twice"); } else { new_pitch = parse_pitch(field); new_pitch_flag = true; } } else if (first == 'U') { if (dur_flag) { parse_error(field, 0, "Dur specified twice"); } else { dur = parse_dur(field, time); dur_flag = true; } } else if (strchr("SIQHW", first)) { if (dur_flag) { parse_error(field, 0, "Dur specified twice"); } else { // prepend 'U' to field, copy EOS too field.insert((unsigned int) 0, 1, 'U'); dur = parse_dur(field, time); dur_flag = true; } } else if (strchr("ABCDEFG", first)) { if (new_pitch_flag) { parse_error(field, 0, "Pitch specified twice"); } else { // prepend 'P' to field field.insert((unsigned int) 0, 1, 'P'); new_pitch = parse_pitch(field); new_pitch_flag = true; } } else if (first == '-') { Alg_parameter parm; if (parse_attribute(field, &parm)) { // enter attribute-value pair attributes = new Alg_parameters(attributes); attributes->parm = parm; parm.s = NULL; // protect string from deletion by destructor } } else { parse_error(field, 0, "Unknown field"); } if (error_flag) { field[0] = 0; // exit the loop } else { line_parser.get_nonspace_quoted(field); pk = line_parser.peek(); // attributes are parsed as two adjacent nonspace_quoted // tokens so we have to conditionally call // get_nonspace_quoted() again if (pk && !isspace(pk)) { string field2; line_parser.get_nonspace_quoted(field2); field.append(field2); } } } // a case analysis: // Key < 128 implies pitch unless pitch is explicitly given // Pitch implies Key unless key is explicitly given, // Pitch is rounded to nearest integer to determine the Key // if necessary, so MIDI files will lose the pitch fraction // A-G is a Pitch specification (therefore it implies Key) // K60 P60 -- both are specified, use 'em // K60 P60 C4 -- overconstrained, an error // K60 C4 -- OK, but K60 is already implied by C4 // K60 -- OK, pitch is 60 // C4 P60 -- over constrained // P60 -- OK, key is 60 // P60.1 -- OK, key is 60 // C4 -- OK, key is 60, pitch is 60 // -- OK, key and pitch from before // K200 P60 -- ok, pitch is 60 // K200 with neither P60 nor C4 uses // pitch from before // figure out what the key/instance is: if (new_key_flag) { // it was directly specified key = new_key; } else if (new_pitch_flag) { // pitch was specified, but key was not; get key from pitch key = (int) (new_pitch + 0.5); // round to integer key number } if (new_pitch_flag) { pitch = new_pitch; } else if (key < 128 && new_key_flag) { // no explicit pitch, but key < 128, so it implies pitch pitch = key; new_pitch_flag = true; } // now we've acquired new parameters // if (it is a note, then enter the note if (valid) { // change tempo or beat attributes = process_attributes(attributes, time); // if there's a duration or pitch, make a note: if (new_pitch_flag || dur_flag) { Alg_note_ptr note_ptr = new Alg_note; note_ptr->chan = voice; note_ptr->time = time; note_ptr->dur = dur; note_ptr->set_identifier(key); note_ptr->pitch = (float) pitch; note_ptr->loud = (float) loud; note_ptr->parameters = attributes; seq->add_event(note_ptr, track_num); // sort later if (seq->get_real_dur() < (time + dur)) seq->set_real_dur(time + dur); } else { int update_key = -1; // key must appear explicitly; otherwise // update applies to channel if (new_key_flag) { update_key = key; } if (loud_flag) { Alg_update_ptr new_upd = new Alg_update; new_upd->chan = voice; new_upd->time = time; new_upd->set_identifier(update_key); new_upd->parameter.set_attr(symbol_table.insert_string("loudr")); new_upd->parameter.r = pitch; seq->add_event(new_upd, track_num); if (seq->get_real_dur() < time) seq->set_real_dur(time); } if (attributes) { while (attributes) { Alg_update_ptr new_upd = new Alg_update; new_upd->chan = voice; new_upd->time = time; new_upd->set_identifier(update_key); new_upd->parameter = attributes->parm; seq->add_event(new_upd, track_num); Alg_parameters_ptr p = attributes; attributes = attributes->next; p->parm.s = NULL; // so we don't delete the string delete p; } } } if (next_flag) { time = time + next; } else if (dur_flag || new_pitch_flag) { // a note: incr by dur time = time + dur; } } } readline(); } if (!error_flag) { // why not convert even if there was an error? -RBD seq->convert_to_seconds(); // make sure format is correct } // real_dur is valid, translate to beat_dur seq->set_beat_dur((seq->get_time_map())->time_to_beat(seq->get_real_dur())); return error_flag; } long Alg_reader::parse_chan(string &field) { const char *int_string = field.c_str() + 1; char *msg = "Integer or - expected"; const char *p = int_string; char c; // check that all chars in int_string are digits or '-': while (c = *p++) { if (!isdigit(c) && c != '-') { parse_error(field, p - field.c_str() - 1, msg); return 0; } } p--; // p now points to end-of-string character if (p - int_string == 0) { // bad: string length is zero parse_error(field, 1, msg); return 0; } if (p - int_string == 1 && int_string[0] == '-') { // special case: entire string is "-", interpret as -1 return -1; } return atoi(int_string); } long Alg_reader::parse_int(string &field) { const char *int_string = field.c_str() + 1; char *msg = "Integer expected"; const char *p = int_string; char c; // check that all chars in int_string are digits: while (c = *p++) { if (!isdigit(c)) { parse_error(field, p - field.c_str() - 1, msg); return 0; } } p--; // p now points to end-of-string character if (p - int_string == 0) { // bad: string length is zero parse_error(field, 1, msg); return 0; } return atoi(int_string); } int Alg_reader::find_real_in(string &field, int n) { // scans from offset n to the end of a real constant bool decimal = false; int len = field.length(); for (int i = n; i < len; i++) { char c = field[i]; if (!isdigit(c)) { if (c == '.' && !decimal) { decimal = true; } else { return i; } } } return field.length(); } double Alg_reader::parse_real(string &field) { char *msg = "Real expected"; int last = find_real_in(field, 1); string real_string = field.substr(1, last - 1); if (last <= 1 || last < (int) field.length()) { parse_error(field, 1, msg); return 0; } return atof(real_string.c_str()); } void Alg_reader::parse_error(string &field, long offset, char *message) { int position = line_parser.pos - field.length() + offset; error_flag = true; puts(line_parser.str->c_str()); for (int i = 0; i < position; i++) { putc(' ', stdout); } putc('^', stdout); printf(" %s\n", message); } double duration_lookup[] = { 0.25, 0.5, 1.0, 2.0, 4.0 }; double Alg_reader::parse_dur(string &field, double base) { char *msg = "Duration expected"; char *durs = "SIQHW"; char *p; int last; double dur; if (field.length() < 2) { // fall through to error message return -1; } else if (isdigit(field[1])) { last = find_real_in(field, 1); string real_string = field.substr(1, last - 1); dur = atof(real_string.c_str()); // convert dur from seconds to beats dur = seq->get_time_map()->time_to_beat(base + dur) - seq->get_time_map()->time_to_beat(base); } else if (p = strchr(durs, toupper(field[1]))) { dur = duration_lookup[p - durs]; last = 2; } else { parse_error(field, 1, msg); return 0; } dur = parse_after_dur(dur, field, last, base); dur = seq->get_time_map()->beat_to_time( seq->get_time_map()->time_to_beat(base) + dur) - base; return dur; } double Alg_reader::parse_after_dur(double dur, string &field, int n, double base) { if ((int) field.length() == n) { return dur; } if (toupper(field[n]) == 'T') { return parse_after_dur(dur * 2/3, field, n + 1, base); } if (field[n] == '.') { return parse_after_dur(dur * 1.5, field, n + 1, base); } if (isdigit(field[n])) { int last = find_real_in(field, n); string a_string = field.substr(n, last - n); double f = atof(a_string.c_str()); return parse_after_dur(dur * f, field, last, base); } if (field[n] == '+') { string a_string = field.substr(n + 1); return dur + parse_dur( a_string, seq->get_time_map()->beat_to_time( seq->get_time_map()->time_to_beat(base) + dur)); } parse_error(field, n, "Unexpected character in duration"); return dur; } struct loud_lookup_struct { char *str; int val; } loud_lookup[] = { {"FFF", 127}, {"FF", 120}, {"F", 110}, {"MF", 100}, {"MP", 90}, {"P", 80}, {"PP", 70}, {"PPP", 60}, {NULL, 0} }; double Alg_reader::parse_loud(string &field) { char *msg = "Loudness expected"; if (isdigit(field[1])) { return parse_int(field); } else { string dyn = field.substr(1); transform(dyn.begin(), dyn.end(), dyn.begin(), ::toupper); for (int i = 0; loud_lookup[i].str; i++) { if (streql(loud_lookup[i].str, dyn.c_str())) { return (double) loud_lookup[i].val; } } } parse_error(field, 1, msg); return 100.0; } int key_lookup[] = {21, 23, 12, 14, 16, 17, 19}; // the field can be K or K[A-G] or P[A-G] // (this can be called from parse_pitch() to handle [A-G]) // Notice that the routine ignores the first character: K or P // long Alg_reader::parse_key(string &field) { char *msg = "Pitch expected"; char *pitches = "ABCDEFG"; char *p; if (isdigit(field[1])) { // This routine would not have been called if field = "P" // so it must be "K" so must be an integer. return parse_int(field); } else if (p = strchr(pitches, toupper(field[1]))) { long key = key_lookup[p - pitches]; key = parse_after_key(key, field, 2); return key; } parse_error(field, 1, msg); return 0; } long Alg_reader::parse_after_key(int key, string &field, int n) { if ((int) field.length() == n) { return key; } char c = toupper(field[n]); if (c == 'S') { return parse_after_key(key + 1, field, n + 1); } if (c == 'F') { return parse_after_key(key - 1, field, n + 1); } if (isdigit(field[n])) { int last = find_int_in(field, n); string octave = field.substr(n, last - n); int oct = atoi(octave.c_str()); return parse_after_key(key + oct * 12, field, last); } parse_error(field, n, "Unexpected character in pitch"); return key; } long Alg_reader::find_int_in(string &field, int n) { while ((int) field.length() > n && isdigit(field[n])) { n = n + 1; } return n; } bool Alg_reader::parse_attribute(string &field, Alg_parameter_ptr param) { int i = 1; while (i < (int) field.length()) { if (field[i] == ':') { string attr = field.substr(1, i - 1); char type_char = field[i - 1]; if (strchr("iarsl", type_char)) { param->set_attr(symbol_table.insert_string(attr.c_str())); parse_val(param, field, i + 1); } else { parse_error(field, 0, "attribute needs to end with typecode: i,a,r,s, or l"); } return !error_flag; } i = i + 1; } return false; } bool Alg_reader::parse_val(Alg_parameter_ptr param, string &s, int i) { int len = (int) s.length(); if (i >= len) { return false; } if (s[i] == '"') { if (!check_type('s', param)) { return false; } // note: (len - i) includes 2 quote characters but no EOS character // so total memory to allocate is (len - i) - 1 char *r = new char[(len - i) - 1]; strncpy(r, s.c_str() + i + 1, (len - i) - 2); r[(len - i) - 2] = 0; // terminate the string param->s = r; } else if (s[i] == '\'') { if (!check_type('a', param)) { return false; } string r = s.substr(i + 1, len - i - 2); param->a = symbol_table.insert_string(r.c_str()); } else if (param->attr_type() == 'l') { if (streql(s.c_str() + i, "true") || streql(s.c_str() + i, "t")) { param->l = true; } else if (streql(s.c_str() + i, "false") || streql(s.c_str() + i, "nil")) { param->l = false; } else return false; } else if (isdigit(s[i]) || s[i] == '-' || s[i] == '.') { int pos = i; bool period = false; int sign = 1; if (s[pos] == '-') { sign = -1; pos++; } while (pos < len) { if (isdigit(s[pos])) { ; } else if (!period && s[pos] == '.') { period = true; } else { parse_error(s, pos, "Unexpected char in number"); return false; } pos = pos + 1; } string r = s.substr(i, len - i); if (period) { if (!check_type('r', param)) { return false; } param->r = atof(r.c_str()); } else { if (param->attr_type() == 'r') { param->r = atoi(r.c_str()); } else if (!check_type('i', param)) { return false; } else { param->i = atoi(r.c_str()); } } } else { parse_error(s, i, "invalid value"); return false; } return true; } bool Alg_reader::check_type(char type_char, Alg_parameter_ptr param) { return param->attr_type() == type_char; } //duration_lookup = {"S": 0.5, "I": 0.5, "Q": 1, "H": 2, "W": 4} //key_lookup = {"C": 12, "D": 14, "E": 16, "F": 17, "G": 19, "A": 21, "B": 23} /* def test(): reader = Alg_reader(open("data\\test.gro", "r")) reader.parse() score = reader->seq.notes print "score:", score reader = nil */