X-Git-Url: https://git.cworth.org/git?a=blobdiff_plain;f=scherzo.c;h=098008930e4d4d77b4dd21ec82ad40ca52d19554;hb=fc6b1da08cd8552050d2669363a85e405f19736d;hp=55a2cc98d40d00b7f80f40d572a07846a6351c76;hpb=f60f0cb3dd6fb75ee17e237e87ef0c9088e5bec4;p=scherzo diff --git a/scherzo.c b/scherzo.c index 55a2cc9..0980089 100644 --- a/scherzo.c +++ b/scherzo.c @@ -41,6 +41,14 @@ typedef struct challenge int mistaken; } challenge_t; +typedef struct note_group +{ + void *ctx; + score_note_t **notes; + int size; + int num_notes; +} note_group_t; + typedef struct scherzo { void *ctx; @@ -52,9 +60,11 @@ typedef struct scherzo score_staff_t *bass; score_chord_t *chord; - /* This is for a "computer keyboard". Any "piano keyboard" key - * knows its own octave. */ + /* The word "keyboard" here is referring to a "computer + * keyboard". Any "piano keyboard" key knows its own octave and + * accidental already. */ int keyboard_octave; + score_pitch_accidental_t keyboard_accidental; int midi_fd; snd_midi_event_t *snd_midi_event; @@ -62,16 +72,24 @@ typedef struct scherzo mnemon_t mnemon; challenge_t challenge; - int num_notes_pressed; - score_note_t **notes_pressed; + note_group_t notes_pressed; + note_group_t notes_pedaled; + + int pedal_pressed; } scherzo_t; /* Forward declarations. */ static score_note_t * -scherzo_add_note (scherzo_t *scherzo, score_pitch_t pitch, int octave); +scherzo_press_note (scherzo_t *scherzo, score_pitch_t pitch, int octave); + +static void +scherzo_release_note (scherzo_t *scherzo, score_pitch_t pitch, int octave); static void -scherzo_remove_note (scherzo_t *scherzo, score_pitch_t pitch, int octave); +scherzo_press_pedal (scherzo_t *scherzo); + +static void +scherzo_release_pedal (scherzo_t *scherzo); static void _judge_note (scherzo_t *scherzo, score_note_t *note); @@ -129,6 +147,8 @@ on_key_press_event (GtkWidget *widget, { scherzo_t *scherzo = user_data; int octave; + /* Initialize to keep the compiler quiet. */ + score_pitch_name_t pitch_name = SCORE_PITCH_C; score_pitch_t pitch; if (scherzo->challenge.note) @@ -158,31 +178,31 @@ on_key_press_event (GtkWidget *widget, return FALSE; case GDK_KEY_c: case GDK_KEY_C: - pitch = SCORE_PITCH_C; + pitch_name = SCORE_PITCH_NAME_C; break; case GDK_KEY_d: case GDK_KEY_D: - pitch = SCORE_PITCH_D; + pitch_name = SCORE_PITCH_NAME_D; break; case GDK_KEY_e: case GDK_KEY_E: - pitch = SCORE_PITCH_E; + pitch_name = SCORE_PITCH_NAME_E; break; case GDK_KEY_f: case GDK_KEY_F: - pitch = SCORE_PITCH_F; + pitch_name = SCORE_PITCH_NAME_F; break; case GDK_KEY_g: case GDK_KEY_G: - pitch = SCORE_PITCH_G; + pitch_name = SCORE_PITCH_NAME_G; break; case GDK_KEY_a: case GDK_KEY_A: - pitch = SCORE_PITCH_A; + pitch_name = SCORE_PITCH_NAME_A; break; case GDK_KEY_b: case GDK_KEY_B: - pitch = SCORE_PITCH_B; + pitch_name = SCORE_PITCH_NAME_B; break; case GDK_KEY_0: case GDK_KEY_1: @@ -195,14 +215,27 @@ on_key_press_event (GtkWidget *widget, case GDK_KEY_8: scherzo->keyboard_octave = key->keyval - GDK_KEY_0; break; + case GDK_KEY_space: + scherzo_press_pedal (scherzo); + break; + case GDK_KEY_Up: + if (scherzo->keyboard_accidental < SCORE_PITCH_ACCIDENTAL_DOUBLE_SHARP) + scherzo->keyboard_accidental++; + break; + case GDK_KEY_Down: + if (scherzo->keyboard_accidental > SCORE_PITCH_ACCIDENTAL_DOUBLE_FLAT) + scherzo->keyboard_accidental--; + break; } + pitch = SCORE_PITCH (pitch_name, scherzo->keyboard_accidental); + if ((key->keyval >= GDK_KEY_A && key->keyval <= GDK_KEY_G) || (key->keyval >= GDK_KEY_a && key->keyval <= GDK_KEY_g)) { score_note_t *note; - note = scherzo_add_note (scherzo, pitch, octave); + note = scherzo_press_note (scherzo, pitch, octave); _judge_note (scherzo, note); gtk_widget_queue_draw (scherzo->window); @@ -221,6 +254,8 @@ on_key_release_event (unused (GtkWidget *widget), { scherzo_t *scherzo = user_data; int octave; + /* Initialize to keep the compiler quiet. */ + score_pitch_name_t pitch_name = SCORE_PITCH_NAME_C; score_pitch_t pitch; if (scherzo->challenge.note) @@ -231,38 +266,43 @@ on_key_release_event (unused (GtkWidget *widget), switch (key->keyval) { case GDK_KEY_c: case GDK_KEY_C: - pitch = SCORE_PITCH_C; + pitch_name = SCORE_PITCH_NAME_C; break; case GDK_KEY_d: case GDK_KEY_D: - pitch = SCORE_PITCH_D; + pitch_name = SCORE_PITCH_NAME_D; break; case GDK_KEY_e: case GDK_KEY_E: - pitch = SCORE_PITCH_E; + pitch_name = SCORE_PITCH_NAME_E; break; case GDK_KEY_f: case GDK_KEY_F: - pitch = SCORE_PITCH_F; + pitch_name = SCORE_PITCH_NAME_F; break; case GDK_KEY_g: case GDK_KEY_G: - pitch = SCORE_PITCH_G; + pitch_name = SCORE_PITCH_NAME_G; break; case GDK_KEY_a: case GDK_KEY_A: - pitch = SCORE_PITCH_A; + pitch_name = SCORE_PITCH_NAME_A; break; case GDK_KEY_b: case GDK_KEY_B: - pitch = SCORE_PITCH_B; + pitch_name = SCORE_PITCH_NAME_B; + break; + case GDK_KEY_space: + scherzo_release_pedal (scherzo); break; } + pitch = SCORE_PITCH (pitch_name, scherzo->keyboard_accidental); + if ((key->keyval >= GDK_KEY_A && key->keyval <= GDK_KEY_G) || (key->keyval >= GDK_KEY_a && key->keyval <= GDK_KEY_g)) { - scherzo_remove_note (scherzo, pitch, octave); + scherzo_release_note (scherzo, pitch, octave); _score_challenge (scherzo); gtk_widget_queue_draw (scherzo->window); @@ -385,41 +425,199 @@ typedef struct analyzed_note { } analyzed_note_t; static int -_compare_analyzed_note (const void *va, const void *vb) +_compare_analyzed_note_by_midi_pitch (const void *va, const void *vb) { const analyzed_note_t *a = va, *b = vb; return a->midi_pitch - b->midi_pitch; } +static int +_compare_analyzed_note_by_relative_pitch (const void *va, const void *vb) +{ + const analyzed_note_t *a = va, *b = vb; + + return a->relative_pitch - b->relative_pitch; +} + +typedef struct modified_degree +{ + int degree; + int modification; +} modified_degree_t; + +static int +_modified_degree_to_half_steps (const modified_degree_t *degree) +{ + int half_steps; + + /* Number of half steps from root to specified degree within a + * diatonic scaled. */ + switch (degree->degree) { + case 1: + half_steps = 0; + break; + case 2: + half_steps = 2; + break; + case 3: + half_steps = 4; + break; + case 4: + half_steps = 5; + break; + case 5: + half_steps = 7; + break; + case 6: + half_steps = 9; + break; + case 7: + half_steps = 11; + break; + default: + fprintf (stderr, "Internal: Invalid degree %d\n", degree->degree); + exit (1); + break; + } + + return half_steps + degree->modification; +} + static int _chord_signature_matches (analyzed_note_t *notes, int num_notes, - int *signature_pitches, - int num_signature_pitches) + modified_degree_t *degrees, + int num_degrees, + int *inversion_ret, + score_pitch_t *root) { - int n, s; +#define MAX_DEGREES 4 + int relative_pitches[MAX_DEGREES]; + int inversion, max_inversions; + int i, root_index; - for (n = 0, s = 0; s < num_signature_pitches; s++) { - if (n >= num_notes) - return 0; - if (notes[n].relative_pitch != signature_pitches[s]) + assert (num_degrees <= MAX_DEGREES); + + if (num_notes != num_degrees) return 0; - n++; - /* Skip repeated notes in chord being tested. */ - while (n < num_notes && - notes[n].relative_pitch == signature_pitches[s]) - { - n++; + + max_inversions = num_degrees; + + /* We never spell simple intervals as inversions. */ + if (num_degrees == 2) + max_inversions = 1; + + for (inversion = 0; inversion < max_inversions; inversion++) { + for (i = 0; i < num_degrees; i++) { + /* The num_degrees is in the addition just to ensure all + * inputs to the modulus operator remain positive. */ + int index = (i + num_degrees - inversion) % num_degrees; + + /* Again, adding a 12 to keep things positive. */ + relative_pitches[index] = + (12 + + _modified_degree_to_half_steps (°rees[i]) - + _modified_degree_to_half_steps (°rees[inversion])) % 12; + } + + for (i = 0; i < num_notes; i++) + if (notes[i].relative_pitch != relative_pitches[i]) + goto NEXT_INVERSION; + + root_index = (num_notes - inversion) % num_notes; + *root = notes[root_index].note->pitch; + + *inversion_ret = inversion; + + return 1; + + NEXT_INVERSION: + ; } - /* If there are fewer notes in the signature than in the chord, - * then there is no match. */ - if (n < num_notes) - return 0; + return 0; +} + +static const char * +_pitch_str (score_pitch_t pitch) +{ + switch (pitch) { + case SCORE_PITCH_Cff: + return "C𝄫"; + case SCORE_PITCH_Cf: + return "C♭"; + case SCORE_PITCH_C: + return "C"; + case SCORE_PITCH_Cs: + return "C♯"; + case SCORE_PITCH_Css: + return "C𝄪"; + case SCORE_PITCH_Dff: + return "D𝄫"; + case SCORE_PITCH_Df: + return "D♭"; + case SCORE_PITCH_D: + return "D"; + case SCORE_PITCH_Ds: + return "D♯"; + case SCORE_PITCH_Dss: + return "D𝄪"; + case SCORE_PITCH_Eff: + return "E𝄫"; + case SCORE_PITCH_Ef: + return "E♭"; + case SCORE_PITCH_E: + return "E"; + case SCORE_PITCH_Es: + return "E♯"; + case SCORE_PITCH_Ess: + return "E𝄪"; + case SCORE_PITCH_Fff: + return "F𝄫"; + case SCORE_PITCH_Ff: + return "F♭"; + case SCORE_PITCH_F: + return "F"; + case SCORE_PITCH_Fs: + return "F♯"; + case SCORE_PITCH_Fss: + return "F𝄪"; + case SCORE_PITCH_Gff: + return "G𝄫"; + case SCORE_PITCH_Gf: + return "G♭"; + case SCORE_PITCH_G: + return "G"; + case SCORE_PITCH_Gs: + return "G♯"; + case SCORE_PITCH_Gss: + return "G𝄪"; + case SCORE_PITCH_Aff: + return "A𝄫"; + case SCORE_PITCH_Af: + return "A♭"; + case SCORE_PITCH_A: + return "A"; + case SCORE_PITCH_As: + return "A♯"; + case SCORE_PITCH_Ass: + return "A𝄪"; + case SCORE_PITCH_Bff: + return "B𝄫"; + case SCORE_PITCH_Bf: + return "B♭"; + case SCORE_PITCH_B: + return "B"; + case SCORE_PITCH_Bs: + return "B♯"; + case SCORE_PITCH_Bss: + return "B𝄪"; + } - return 1; + fprintf (stderr, "Internal error: Unknown pitch %d\n", pitch); + exit (1); } static void @@ -427,41 +625,67 @@ scherzo_analyze_chord (scherzo_t *scherzo) { void *local = talloc_new (NULL); analyzed_note_t *notes; - unsigned i, num_notes = scherzo->num_notes_pressed; - int bass_pitch; + note_group_t *note_group; + unsigned i, j, num_notes; + int bass_pitch, inversion; + score_pitch_t root; const char *chord_name = NULL; - struct { int pitches[2]; const char *name; } intervals[] = { - { {0, 1}, "Minor 2nd"}, - { {0, 2}, "Major 2nd"}, - { {0, 3}, "Minor 3rd"}, - { {0, 4}, "Major 3rd"}, - { {0, 5}, "Perfect 4th"}, - { {0, 6}, "Diminished 5th/Augmented 4th"}, - { {0, 7}, "Perfect 5th"}, - { {0, 8}, "Minor 6th"}, - { {0, 9}, "Major 6th"}, - { {0, 10}, "Minor 7th"}, - { {0, 11}, "Major 7th"} + if (scherzo->pedal_pressed) + note_group = &scherzo->notes_pedaled; + else + note_group = &scherzo->notes_pressed; + + num_notes = note_group->num_notes; + + struct { modified_degree_t degrees[1]; const char *name; } octaves[] = { + { {{1, 0}}, " Octave"} }; - struct { int pitches[3]; const char *name; } triads[] = { - { {0, 4, 8}, "Augmented triad" }, - { {0, 4, 7}, "Major triad" }, - { {0, 3, 7}, "Minor triad" }, - { {0, 3, 6}, "Diminished triad" } + struct { modified_degree_t degrees[2]; const char *name; } intervals[] = { + { {{1, 0}, {2, -1}}, " Minor 2nd"}, + { {{1, 0}, {2, 0}}, " Major 2nd"}, + { {{1, 0}, {3, -1}}, " Minor 3rd"}, + { {{1, 0}, {3, 0}}, " Major 3rd"}, + { {{1, 0}, {4, 0}}, " Perfect 4th"}, + { {{1, 0}, {5, -1}}, " Diminished 5th"}, + { {{1, 0}, {5, 0}}, " Perfect 5th"}, + { {{1, 0}, {6, -1}}, " Minor 6th"}, + { {{1, 0}, {6, 0}}, " Major 6th"}, + { {{1, 0}, {7, -1}}, " Minor 7th"}, + { {{1, 0}, {7, 0}}, " Major 7th"} }; - struct { int pitches[4]; const char *name; } sevenths[] = { - { {0, 4, 8, 11}, "Augmented/major 7" }, - { {0, 4, 7, 11}, "Major 7" }, - { {0, 4, 7, 10}, "Dominant 7" }, - { {0, 3, 7, 11}, "Minor/major 7" }, - { {0, 3, 7, 10}, "Minor 7" }, - { {0, 3, 6, 10}, "Half-diminished 7" }, - { {0, 3, 6, 9}, "Diminished 7" }, - { {0, 4, 8, 10}, "Augmented 7" }, - { {0, 3, 6, 11}, "Diminished/major 7" }, +/* XXX: The superscript rise value should be relative to the current + * font size. Best would be for pango to support this. See: + * + * https://bugzilla.gnome.org/show_bug.cgi?id=708780 + * + * For now, these are emipirically-derived values that look reasonable + * at the default size that score.c is using to draw the staff. If the + * user scales the staff up or down then these will look wrong. + */ + +#define SUP "" +#define PUS "" + + struct { modified_degree_t degrees[3]; const char *name; } triads[] = { + { {{1, 0}, {3, 0}, {5, +1}}, SUP "+" PUS }, + { {{1, 0}, {3, 0}, {5, 0}}, "" }, + { {{1, 0}, {3, -1}, {5, 0}}, "m" }, + { {{1, 0}, {3, -1}, {5, -1}}, "°" } + }; + + struct { modified_degree_t degrees[4]; const char *name; } sevenths[] = { + { {{1, 0}, {3, 0}, {5, +1}, {7, 0}}, SUP "+M7" PUS }, + { {{1, 0}, {3, 0}, {5, +1}, {7, -1}}, SUP "+7" PUS }, + { {{1, 0}, {3, 0}, {5, 0}, {7, 0}}, "M7" }, + { {{1, 0}, {3, 0}, {5, 0}, {7, -1}}, "7" }, + { {{1, 0}, {3, -1}, {5, 0}, {7, 0}}, "m" SUP "M7" PUS }, + { {{1, 0}, {3, -1}, {5, 0}, {7, -1}}, "m7" }, + { {{1, 0}, {3, -1}, {5, -1}, {7, 0}}, "°" SUP "M7" PUS }, + { {{1, 0}, {3, -1}, {5, -1}, {7, -1}}, "𝆩" SUP "7" PUS }, + { {{1, 0}, {3, -1}, {5, -1}, {7, -2}}, "°" SUP "7" PUS } }; if (scherzo->chord) { @@ -477,7 +701,7 @@ scherzo_analyze_chord (scherzo_t *scherzo) goto DONE; for (i = 0; i < num_notes; i++) { - score_note_t *note = scherzo->notes_pressed[i]; + score_note_t *note = note_group->notes[i]; notes[i].note = note; notes[i].midi_pitch = _score_pitch_and_octave_to_midi (note->pitch, note->octave); @@ -485,40 +709,186 @@ scherzo_analyze_chord (scherzo_t *scherzo) notes[i].relative_pitch = 0; } - qsort (notes, num_notes, sizeof (analyzed_note_t), _compare_analyzed_note); + /* First, sort by midi pitch to find the bass note. */ + qsort (notes, num_notes, sizeof (analyzed_note_t), + _compare_analyzed_note_by_midi_pitch); bass_pitch = notes[0].midi_pitch; + /* With the bass note identified, we can find all relative pitches. */ for (i = 0; i < num_notes; i++) { notes[i].relative_pitch = notes[i].midi_pitch - bass_pitch; + while (notes[i].relative_pitch >= 12) + notes[i].relative_pitch -= 12; } - for (i = 0; i < ARRAY_SIZE (intervals); i++) { - if (_chord_signature_matches (notes, num_notes, intervals[i].pitches, 2)) - chord_name = intervals[i].name; + /* Now, sort again by relative pitch. */ + qsort (notes, num_notes, sizeof (analyzed_note_t), + _compare_analyzed_note_by_relative_pitch); + + /* Finally, eliminate all duplicate notes. */ + for (i = 0; i < num_notes - 1; i++) { + if (notes[i+1].relative_pitch == notes[i].relative_pitch) { + j = i+1; + while (j < num_notes && + notes[j].relative_pitch == notes[i].relative_pitch) + { + j++; + } + /* The loop incremented j one past the last + * duplicate. Decrement so that it points to the + * last duplicate (and is guaranteed to not exceed + * the array bounds).*/ + j--; + + if (j < num_notes - 1) { + memmove (¬es[i+1], ¬es[j+1], + (num_notes - j) * sizeof (analyzed_note_t)); + } + + num_notes -= (j - i); + } } - for (i = 0; i < ARRAY_SIZE (triads); i++) { - if (_chord_signature_matches (notes, num_notes, triads[i].pitches, 3)) - chord_name = triads[i].name; + switch (num_notes) { + case 1: + for (i = 0; i < ARRAY_SIZE (octaves); i++) { + if (_chord_signature_matches (notes, num_notes, + octaves[i].degrees, 1, + &inversion, &root)) + { + chord_name = octaves[i].name; + break; + } + } + break; + case 2: + for (i = 0; i < ARRAY_SIZE (intervals); i++) { + if (_chord_signature_matches (notes, num_notes, + intervals[i].degrees, 2, + &inversion, &root)) + { + chord_name = intervals[i].name; + break; + } + } + break; + case 3: + for (i = 0; i < ARRAY_SIZE (triads); i++) { + if (_chord_signature_matches (notes, num_notes, + triads[i].degrees, 3, + &inversion, &root)) + { + chord_name = triads[i].name; + break; + } + } + break; + case 4: + for (i = 0; i < ARRAY_SIZE(sevenths); i++) { + if (_chord_signature_matches (notes, num_notes, + sevenths[i].degrees, 4, + &inversion, &root)) + { + chord_name = sevenths[i].name; + break; + } + } + break; } - for (i = 0; i < ARRAY_SIZE(sevenths); i++) { - if (_chord_signature_matches (notes, num_notes, sevenths[i].pitches, 4)) - chord_name = sevenths[i].name; + if (chord_name) { + if (inversion) { + const char *inversion_str; + switch (inversion) { + case 1: + inversion_str = "1st inversion"; + break; + case 2: + inversion_str = "2nd inversion"; + break; + case 3: + inversion_str = "3rd inversion"; + break; + default: + fprintf (stderr, "Internal error: Unexpected inversion: %d\n", + inversion); + exit(1); + } + chord_name = talloc_asprintf (local, "%s%s %s", + _pitch_str (root), + chord_name, inversion_str); + } else { + chord_name = talloc_asprintf (local, "%s%s", + _pitch_str (root), + chord_name); + } + } else { + chord_name = talloc_strdup (local, "Unknown chord"); } - if (chord_name) - scherzo->chord = score_add_chord (scherzo->treble, chord_name); - else - scherzo->chord = score_add_chord (scherzo->treble, "Unknown or not a chord"); + scherzo->chord = score_add_chord (scherzo->treble, chord_name); DONE: talloc_free (local); } +static void +note_group_init (void *ctx, note_group_t *group) +{ + group->ctx = ctx; + group->notes = NULL; + group->size = 0; + group->num_notes = 0; +} + +static void +note_group_add_note (note_group_t *group, score_note_t *note) +{ + int i; + + /* Do nothing if note is already in group. */ + for (i = 0; i < group->num_notes; i++) { + if (group->notes[i]->pitch == note->pitch && + group->notes[i]->octave == note->octave) + { + return; + } + } + + group->num_notes++; + + if (group->num_notes > group->size) { + group->size++; + group->notes = talloc_realloc (group->ctx, group->notes, + score_note_t*, group->size); + + if (group->notes == NULL) { + fprintf (stderr, "Out of memory.\n"); + exit (1); + } + } + + group->notes[group->num_notes - 1] = note; +} + +static void +note_group_remove_note_at (note_group_t *group, int i) +{ + if (i >= group->num_notes) { + fprintf (stderr, "Internal error: No note to remove at index %d\n", i); + exit (1); + } + + if (i < group->num_notes - 1) { + memmove (group->notes + i, group->notes + i + 1, + (group->num_notes - 1 - i) * sizeof (score_note_t*)); + } + group->num_notes--; +} + static score_note_t * -scherzo_add_note (scherzo_t *scherzo, score_pitch_t pitch, int octave) +scherzo_press_note (scherzo_t *scherzo, score_pitch_t pitch, int octave) { score_staff_t *staff; score_note_t *note; @@ -533,78 +903,109 @@ scherzo_add_note (scherzo_t *scherzo, score_pitch_t pitch, int octave) } /* Do nothing if this note is already pressed. */ - for (i = 0; i < scherzo->num_notes_pressed; i++) { - if (scherzo->notes_pressed[i]->pitch == pitch && - scherzo->notes_pressed[i]->octave == octave) + for (i = 0; i < scherzo->notes_pressed.num_notes; i++) { + if (scherzo->notes_pressed.notes[i]->pitch == pitch && + scherzo->notes_pressed.notes[i]->octave == octave) { - return scherzo->notes_pressed[i]; + return scherzo->notes_pressed.notes[i]; } } note = score_add_note (staff, pitch, octave, SCORE_DURATION_WHOLE); - scherzo->num_notes_pressed++; - scherzo->notes_pressed = talloc_realloc (scherzo->ctx, - scherzo->notes_pressed, - score_note_t*, - scherzo->num_notes_pressed); - if (scherzo->notes_pressed == NULL) { - fprintf (stderr, "Out of memory.\n"); - exit (1); - } + note_group_add_note (&scherzo->notes_pressed, note); - scherzo->notes_pressed[scherzo->num_notes_pressed - 1] = note; + if (scherzo->pedal_pressed) + note_group_add_note (&scherzo->notes_pedaled, note); scherzo_analyze_chord (scherzo); return note; } - static void -scherzo_remove_note (scherzo_t *scherzo, score_pitch_t pitch, int octave) +scherzo_release_note (scherzo_t *scherzo, score_pitch_t pitch, int octave) { score_note_t *note; int i; + int found = 0; - for (i = 0; i < scherzo->num_notes_pressed; i++) { - note = scherzo->notes_pressed[i]; + for (i = scherzo->notes_pressed.num_notes - 1; i >=0; i--) { + note = scherzo->notes_pressed.notes[i]; if (note->pitch == pitch && note->octave == octave) { - score_remove_note (note); - if (i < scherzo->num_notes_pressed - 1) { - memmove (scherzo->notes_pressed + i, - scherzo->notes_pressed + i + 1, - (scherzo->num_notes_pressed - 1 - i) * sizeof (score_note_t*)); - } - scherzo->num_notes_pressed--; - i--; + found = 1; + if (! scherzo->pedal_pressed) + score_remove_note (note); + note_group_remove_note_at (&scherzo->notes_pressed, i); } } + if (found == 0) { + fprintf (stderr, "Internal error: Failed to find note to release.\n"); + } + scherzo_analyze_chord (scherzo); } static score_note_t * -scherzo_add_note_midi (scherzo_t *scherzo, unsigned char midi_note) +scherzo_press_note_midi (scherzo_t *scherzo, unsigned char midi_note) { score_pitch_t pitch; int octave; _midi_to_score_pitch_and_octave (midi_note, &pitch, &octave); - return scherzo_add_note (scherzo, pitch, octave); + return scherzo_press_note (scherzo, pitch, octave); } - static void -scherzo_remove_note_midi (scherzo_t *scherzo, unsigned char midi_note) +scherzo_release_note_midi (scherzo_t *scherzo, unsigned char midi_note) { score_pitch_t pitch; int octave; _midi_to_score_pitch_and_octave (midi_note, &pitch, &octave); - scherzo_remove_note (scherzo, pitch, octave); + scherzo_release_note (scherzo, pitch, octave); +} + +static void +scherzo_press_pedal (scherzo_t *scherzo) +{ + int i; + + scherzo->pedal_pressed = 1; + + /* Copy all pressed notes to pedaled notes */ + for (i = 0; i < scherzo->notes_pressed.num_notes; i++) + note_group_add_note (&scherzo->notes_pedaled, scherzo->notes_pressed.notes[i]); +} + +static void +scherzo_release_pedal (scherzo_t *scherzo) +{ + score_note_t *note, *new_note; + int i; + + /* Make new notes in score for all pressed notes. */ + for (i = 0; i < scherzo->notes_pressed.num_notes; i++) { + note = scherzo->notes_pressed.notes[i]; + new_note = score_add_note (note->staff, note->pitch, note->octave, note->duration); + scherzo->notes_pressed.notes[i] = new_note; + } + + /* Then remove all previously pedaled notes from the score. */ + for (i = scherzo->notes_pedaled.num_notes - 1; i >=0; i--) { + note = scherzo->notes_pedaled.notes[i]; + score_remove_note (note); + note_group_remove_note_at (&scherzo->notes_pedaled, i); + } + + scherzo->pedal_pressed = 0; + + scherzo_analyze_chord (scherzo); + + gtk_widget_queue_draw (scherzo->window); } void @@ -647,25 +1048,25 @@ _select_challenge (scherzo_t *scherzo) switch (*s) { case 'C': - pitch = SCORE_PITCH_VALUE(C, NATURAL); + pitch = SCORE_PITCH_C; break; case 'D': - pitch = SCORE_PITCH_VALUE(D, NATURAL); + pitch = SCORE_PITCH_D; break; case 'E': - pitch = SCORE_PITCH_VALUE(E, NATURAL); + pitch = SCORE_PITCH_E; break; case 'F': - pitch = SCORE_PITCH_VALUE(F, NATURAL); + pitch = SCORE_PITCH_F; break; case 'G': - pitch = SCORE_PITCH_VALUE(G, NATURAL); + pitch = SCORE_PITCH_G; break; case 'A': - pitch = SCORE_PITCH_VALUE(A, NATURAL); + pitch = SCORE_PITCH_A; break; case 'B': - pitch = SCORE_PITCH_VALUE(B, NATURAL); + pitch = SCORE_PITCH_B; break; default: fprintf (stderr, "Malformed pitch name: %s (expected 'A' - 'G')\n", s); @@ -758,12 +1159,12 @@ on_midi_input (unused (GIOChannel *channel), /* Incomplete event. Nothing to do. */ break; case SND_SEQ_EVENT_NOTEON: - note = scherzo_add_note_midi (scherzo, event.data.note.note); + note = scherzo_press_note_midi (scherzo, event.data.note.note); _judge_note (scherzo, note); need_redraw = TRUE; break; case SND_SEQ_EVENT_NOTEOFF: - scherzo_remove_note_midi (scherzo, event.data.note.note); + scherzo_release_note_midi (scherzo, event.data.note.note); _score_challenge (scherzo); need_redraw = TRUE; break; @@ -773,6 +1174,19 @@ on_midi_input (unused (GIOChannel *channel), case SND_SEQ_EVENT_SENSING: /* Ignore for now as my piano sends a constant stream of these. */ break; + case SND_SEQ_EVENT_CONTROLLER: + /* XXX: My piano gives me 64 for the sustain pedal, is + * that universal? */ + if (event.data.control.param == 64) { + if (event.data.control.value == 0) + scherzo_release_pedal (scherzo); + else + scherzo_press_pedal (scherzo); + } else { + fprintf (stderr, "Fixme: Unhandled MIDI Control event (param=%d, value=%d)\n", + event.data.control.param, event.data.control.value); + } + break; default: fprintf (stderr, "Fixme: Do not yet know how to handle MIDI event %d\n", event.type); @@ -810,11 +1224,14 @@ main (int argc, char *argv[]) scherzo.chord = NULL; - /* Default to octave 4 for computer keyboard keypresses. */ + /* Default to octave 4 and natural for computer keyboard keypresses. */ scherzo.keyboard_octave = 4; + scherzo.keyboard_accidental = SCORE_PITCH_ACCIDENTAL_NATURAL; + + note_group_init (scherzo.ctx, &scherzo.notes_pressed); + note_group_init (scherzo.ctx, &scherzo.notes_pedaled); - scherzo.num_notes_pressed = 0; - scherzo.notes_pressed = NULL; + scherzo.pedal_pressed = 0; mnemon_init (&scherzo.mnemon); /* XXX: Should create a default file if one cannot be loaded. */