/*- * Copyright (c) 2007, 2008 Edward Tomasz NapieraĹ‚a * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * This is piano_keyboard, piano keyboard-like GTK+ widget. It contains * no MIDI-specific code. * * For questions and comments, contact Edward Tomasz Napierala . */ #include #include #include #include #include #include #include "gtk_pianokeyboard.h" #define PIANO_KEYBOARD_DEFAULT_WIDTH 730 #define PIANO_KEYBOARD_DEFAULT_HEIGHT 70 enum { NOTE_ON_SIGNAL, NOTE_OFF_SIGNAL, REST_SIGNAL, LAST_SIGNAL }; static guint piano_keyboard_signals[LAST_SIGNAL] = { 0 }; static void draw_keyboard_cue(PianoKeyboard *pk, cairo_t* cr) { int w = pk->notes[0].w; int h = pk->notes[0].h; int first_note_in_lower_row = (pk->octave + 5) * 12; int last_note_in_lower_row = (pk->octave + 6) * 12 - 1; int first_note_in_higher_row = (pk->octave + 6) * 12; int last_note_in_higher_row = (pk->octave + 7) * 12 + 4; cairo_set_source_rgb (cr, 1.0f, 0.0f, 0.0f); cairo_move_to (cr, pk->notes[first_note_in_lower_row].x + 3, h - 6); cairo_line_to (cr, pk->notes[last_note_in_lower_row].x + w - 3, h - 6); cairo_stroke (cr); cairo_set_source_rgb (cr, 0.0f, 0.0f, 1.0f); cairo_move_to (cr, pk->notes[first_note_in_higher_row].x + 3, h - 9); cairo_line_to (cr, pk->notes[last_note_in_higher_row].x + w - 3, h - 9); cairo_stroke (cr); } static void queue_note_draw (PianoKeyboard* pk, int note) { GdkWindow* w = GTK_WIDGET(pk)->window; if (w) { GdkRectangle r; r.x = pk->notes[note].x; r.y = 0; r.width = pk->notes[note].w; r.height = pk->notes[note].h; gdk_window_invalidate_rect (w, &r, TRUE); } } static void draw_note(PianoKeyboard *pk, cairo_t* cr, int note) { int is_white = pk->notes[note].white; int x = pk->notes[note].x; int w = pk->notes[note].w; int h = pk->notes[note].h; if (pk->notes[note].pressed || pk->notes[note].sustained) { if (is_white) { cairo_set_source_rgb (cr, 0.60f, 0.60f, 0.60f); } else { cairo_set_source_rgb (cr, 0.50f, 0.50f, 0.50f); } } else { if (is_white) { cairo_set_source_rgb (cr, 1.0f, 1.0f, 1.0f); } else { cairo_set_source_rgb (cr, 0.0f, 0.0f, 0.0f); } } cairo_set_line_width (cr, 1.0); cairo_rectangle (cr, x, 0, w, h); cairo_fill (cr); cairo_set_source_rgb(cr, 0.0f, 0.0f, 0.0f); /* black outline */ cairo_rectangle (cr, x, 0, w, h); cairo_stroke (cr); if (pk->enable_keyboard_cue) { draw_keyboard_cue (pk, cr); } /* We need to redraw black keys that partially obscure the white one. */ if (note < NNOTES - 2 && !pk->notes[note + 1].white) { draw_note(pk, cr, note + 1); } if (note > 0 && !pk->notes[note - 1].white) { draw_note(pk, cr, note - 1); } } static int press_key(PianoKeyboard *pk, int key) { assert(key >= 0); assert(key < NNOTES); pk->maybe_stop_sustained_notes = 0; /* This is for keyboard autorepeat protection. */ if (pk->notes[key].pressed) return 0; if (pk->sustain_new_notes) pk->notes[key].sustained = 1; else pk->notes[key].sustained = 0; if (pk->monophonic && pk->last_key != key) { pk->notes[pk->last_key].pressed = 0; pk->notes[pk->last_key].sustained = 0; queue_note_draw(pk, pk->last_key); } pk->last_key = key; pk->notes[key].pressed = 1; g_signal_emit_by_name(GTK_WIDGET(pk), "note-on", key); queue_note_draw(pk, key); return 1; } static int release_key(PianoKeyboard *pk, int key) { assert(key >= 0); assert(key < NNOTES); pk->maybe_stop_sustained_notes = 0; if (!pk->notes[key].pressed) return 0; if (pk->sustain_new_notes) pk->notes[key].sustained = 1; pk->notes[key].pressed = 0; if (pk->notes[key].sustained) return 0; g_signal_emit_by_name(GTK_WIDGET(pk), "note-off", key); queue_note_draw(pk, key); return 1; } static void rest (PianoKeyboard* pk) { g_signal_emit_by_name(GTK_WIDGET(pk), "rest"); } static void stop_unsustained_notes(PianoKeyboard *pk) { int i; for (i = 0; i < NNOTES; i++) { if (pk->notes[i].pressed && !pk->notes[i].sustained) { pk->notes[i].pressed = 0; g_signal_emit_by_name(GTK_WIDGET(pk), "note-off", i); queue_note_draw(pk, i); } } } static void stop_sustained_notes(PianoKeyboard *pk) { int i; for (i = 0; i < NNOTES; i++) { if (pk->notes[i].sustained) { pk->notes[i].pressed = 0; pk->notes[i].sustained = 0; g_signal_emit_by_name(GTK_WIDGET(pk), "note-off", i); queue_note_draw(pk, i); } } } static int key_binding(PianoKeyboard *pk, const char *key) { gpointer notused, note; gboolean found; assert(pk->key_bindings != NULL); found = g_hash_table_lookup_extended(pk->key_bindings, key, ¬used, ¬e); if (!found) return -1; return (intptr_t)note; } static void bind_key(PianoKeyboard *pk, const char *key, int note) { assert(pk->key_bindings != NULL); g_hash_table_insert(pk->key_bindings, (const gpointer)key, (gpointer)((intptr_t)note)); } static void clear_notes(PianoKeyboard *pk) { assert(pk->key_bindings != NULL); g_hash_table_remove_all(pk->key_bindings); } static void bind_keys_qwerty(PianoKeyboard *pk) { clear_notes(pk); bind_key(pk, "space", 128); /* Lower keyboard row - "zxcvbnm". */ bind_key(pk, "z", 12); /* C0 */ bind_key(pk, "s", 13); bind_key(pk, "x", 14); bind_key(pk, "d", 15); bind_key(pk, "c", 16); bind_key(pk, "v", 17); bind_key(pk, "g", 18); bind_key(pk, "b", 19); bind_key(pk, "h", 20); bind_key(pk, "n", 21); bind_key(pk, "j", 22); bind_key(pk, "m", 23); /* Upper keyboard row, first octave - "qwertyu". */ bind_key(pk, "q", 24); bind_key(pk, "2", 25); bind_key(pk, "w", 26); bind_key(pk, "3", 27); bind_key(pk, "e", 28); bind_key(pk, "r", 29); bind_key(pk, "5", 30); bind_key(pk, "t", 31); bind_key(pk, "6", 32); bind_key(pk, "y", 33); bind_key(pk, "7", 34); bind_key(pk, "u", 35); /* Upper keyboard row, the rest - "iop". */ bind_key(pk, "i", 36); bind_key(pk, "9", 37); bind_key(pk, "o", 38); bind_key(pk, "0", 39); bind_key(pk, "p", 40); } static void bind_keys_qwertz(PianoKeyboard *pk) { bind_keys_qwerty(pk); /* The only difference between QWERTY and QWERTZ is that the "y" and "z" are swapped together. */ bind_key(pk, "y", 12); bind_key(pk, "z", 33); } static void bind_keys_azerty(PianoKeyboard *pk) { clear_notes(pk); bind_key(pk, "space", 128); /* Lower keyboard row - "wxcvbn,". */ bind_key(pk, "w", 12); /* C0 */ bind_key(pk, "s", 13); bind_key(pk, "x", 14); bind_key(pk, "d", 15); bind_key(pk, "c", 16); bind_key(pk, "v", 17); bind_key(pk, "g", 18); bind_key(pk, "b", 19); bind_key(pk, "h", 20); bind_key(pk, "n", 21); bind_key(pk, "j", 22); bind_key(pk, "comma", 23); /* Upper keyboard row, first octave - "azertyu". */ bind_key(pk, "a", 24); bind_key(pk, "eacute", 25); bind_key(pk, "z", 26); bind_key(pk, "quotedbl", 27); bind_key(pk, "e", 28); bind_key(pk, "r", 29); bind_key(pk, "parenleft", 30); bind_key(pk, "t", 31); bind_key(pk, "minus", 32); bind_key(pk, "y", 33); bind_key(pk, "egrave", 34); bind_key(pk, "u", 35); /* Upper keyboard row, the rest - "iop". */ bind_key(pk, "i", 36); bind_key(pk, "ccedilla", 37); bind_key(pk, "o", 38); bind_key(pk, "agrave", 39); bind_key(pk, "p", 40); } static gint keyboard_event_handler(GtkWidget *mk, GdkEventKey *event, gpointer ignored) { int note; char *key; guint keyval; GdkKeymapKey kk; PianoKeyboard *pk = PIANO_KEYBOARD(mk); (void) ignored; /* We're not using event->keyval, because we need keyval with level set to 0. E.g. if user holds Shift and presses '7', we want to get a '7', not '&'. */ kk.keycode = event->hardware_keycode; kk.level = 0; kk.group = 0; keyval = gdk_keymap_lookup_key(NULL, &kk); key = gdk_keyval_name(gdk_keyval_to_lower(keyval)); if (key == NULL) { g_message("gtk_keyval_name() returned NULL; please report this."); return FALSE; } note = key_binding(pk, key); if (note < 0) { /* Key was not bound. Maybe it's one of the keys handled in jack-keyboard.c. */ return FALSE; } if (note == 128) { if (event->type == GDK_KEY_RELEASE) { rest (pk); } return TRUE; } note += pk->octave * 12; assert(note >= 0); assert(note < NNOTES); if (event->type == GDK_KEY_PRESS) { press_key(pk, note); } else if (event->type == GDK_KEY_RELEASE) { release_key(pk, note); } return TRUE; } static int get_note_for_xy(PianoKeyboard *pk, int x, int y) { int height = GTK_WIDGET(pk)->allocation.height; int note; if (y <= height / 2) { for (note = 0; note < NNOTES - 1; note++) { if (pk->notes[note].white) continue; if (x >= pk->notes[note].x && x <= pk->notes[note].x + pk->notes[note].w) return note; } } for (note = 0; note < NNOTES - 1; note++) { if (!pk->notes[note].white) continue; if (x >= pk->notes[note].x && x <= pk->notes[note].x + pk->notes[note].w) return note; } return -1; } static gboolean mouse_button_event_handler(PianoKeyboard *pk, GdkEventButton *event, gpointer ignored) { int x = event->x; int y = event->y; int note = get_note_for_xy(pk, x, y); (void) ignored; if (event->button != 1) return TRUE; if (event->type == GDK_BUTTON_PRESS) { /* This is possible when you make the window a little wider and then click on the grey area. */ if (note < 0) { return TRUE; } if (pk->note_being_pressed_using_mouse >= 0) release_key(pk, pk->note_being_pressed_using_mouse); press_key(pk, note); pk->note_being_pressed_using_mouse = note; } else if (event->type == GDK_BUTTON_RELEASE) { if (note >= 0) { release_key(pk, note); } else { if (pk->note_being_pressed_using_mouse >= 0) release_key(pk, pk->note_being_pressed_using_mouse); } pk->note_being_pressed_using_mouse = -1; } return TRUE; } static gboolean mouse_motion_event_handler(PianoKeyboard *pk, GdkEventMotion *event, gpointer ignored) { int note; (void) ignored; if ((event->state & GDK_BUTTON1_MASK) == 0) return TRUE; note = get_note_for_xy(pk, event->x, event->y); if (note != pk->note_being_pressed_using_mouse && note >= 0) { if (pk->note_being_pressed_using_mouse >= 0) release_key(pk, pk->note_being_pressed_using_mouse); press_key(pk, note); pk->note_being_pressed_using_mouse = note; } return TRUE; } static gboolean piano_keyboard_expose(GtkWidget *widget, GdkEventExpose *event) { int i; PianoKeyboard *pk = PIANO_KEYBOARD(widget); cairo_t* cr = gdk_cairo_create (GDK_DRAWABLE (GTK_WIDGET(pk)->window)); gdk_cairo_region (cr, event->region); cairo_clip (cr); for (i = 0; i < NNOTES; i++) { GdkRectangle r; r.x = pk->notes[i].x; r.y = 0; r.width = pk->notes[i].w; r.height = pk->notes[i].h; switch (gdk_region_rect_in (event->region, &r)) { case GDK_OVERLAP_RECTANGLE_PART: case GDK_OVERLAP_RECTANGLE_IN: draw_note (pk, cr, i); break; default: break; } } cairo_destroy (cr); return TRUE; } static void piano_keyboard_size_request(GtkWidget* w, GtkRequisition *requisition) { (void) w; requisition->width = PIANO_KEYBOARD_DEFAULT_WIDTH; requisition->height = PIANO_KEYBOARD_DEFAULT_HEIGHT; } static void recompute_dimensions(PianoKeyboard *pk) { int number_of_white_keys = (NNOTES - 1) * (7.0 / 12.0); int key_width; int black_key_width; int useful_width; int note; int white_key = 0; int note_in_octave; int width = GTK_WIDGET(pk)->allocation.width; int height = GTK_WIDGET(pk)->allocation.height; key_width = width / number_of_white_keys; black_key_width = key_width * 0.8; useful_width = number_of_white_keys * key_width; pk->widget_margin = (width - useful_width) / 2; for (note = 0, white_key = 0; note < NNOTES - 2; note++) { note_in_octave = note % 12; if (note_in_octave == 1 || note_in_octave == 3 || note_in_octave == 6 || note_in_octave == 8 || note_in_octave == 10) { /* This note is black key. */ pk->notes[note].x = pk->widget_margin + white_key * key_width - black_key_width / 2; pk->notes[note].w = black_key_width; pk->notes[note].h = height / 2; pk->notes[note].white = 0; continue; } /* This note is white key. */ pk->notes[note].x = pk->widget_margin + white_key * key_width; pk->notes[note].w = key_width; pk->notes[note].h = height; pk->notes[note].white = 1; white_key++; } } static void piano_keyboard_size_allocate(GtkWidget *widget, GtkAllocation *allocation) { /* XXX: Are these two needed? */ g_return_if_fail(widget != NULL); g_return_if_fail(allocation != NULL); widget->allocation = *allocation; recompute_dimensions(PIANO_KEYBOARD(widget)); if (GTK_WIDGET_REALIZED(widget)) { gdk_window_move_resize (widget->window, allocation->x, allocation->y, allocation->width, allocation->height); } } static void piano_keyboard_class_init(PianoKeyboardClass *klass) { GtkWidgetClass *widget_klass; /* Set up signals. */ piano_keyboard_signals[NOTE_ON_SIGNAL] = g_signal_new ("note-on", G_TYPE_FROM_CLASS (klass), (GSignalFlags)(G_SIGNAL_RUN_FIRST | G_SIGNAL_ACTION), 0, NULL, NULL, g_cclosure_marshal_VOID__INT, G_TYPE_NONE, 1, G_TYPE_INT); piano_keyboard_signals[NOTE_OFF_SIGNAL] = g_signal_new ("note-off", G_TYPE_FROM_CLASS (klass), (GSignalFlags)(G_SIGNAL_RUN_FIRST | G_SIGNAL_ACTION), 0, NULL, NULL, g_cclosure_marshal_VOID__INT, G_TYPE_NONE, 1, G_TYPE_INT); piano_keyboard_signals[REST_SIGNAL] = g_signal_new ("rest", G_TYPE_FROM_CLASS (klass), (GSignalFlags)(G_SIGNAL_RUN_FIRST | G_SIGNAL_ACTION), 0, NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); widget_klass = (GtkWidgetClass*) klass; widget_klass->expose_event = piano_keyboard_expose; widget_klass->size_request = piano_keyboard_size_request; widget_klass->size_allocate = piano_keyboard_size_allocate; } static void piano_keyboard_init(GtkWidget *mk) { gtk_widget_add_events(mk, GDK_BUTTON_PRESS_MASK | GDK_BUTTON_RELEASE_MASK | GDK_POINTER_MOTION_MASK); g_signal_connect(G_OBJECT(mk), "button-press-event", G_CALLBACK(mouse_button_event_handler), NULL); g_signal_connect(G_OBJECT(mk), "button-release-event", G_CALLBACK(mouse_button_event_handler), NULL); g_signal_connect(G_OBJECT(mk), "motion-notify-event", G_CALLBACK(mouse_motion_event_handler), NULL); g_signal_connect(G_OBJECT(mk), "key-press-event", G_CALLBACK(keyboard_event_handler), NULL); g_signal_connect(G_OBJECT(mk), "key-release-event", G_CALLBACK(keyboard_event_handler), NULL); } GType piano_keyboard_get_type(void) { static GType mk_type = 0; if (!mk_type) { static const GTypeInfo mk_info = { sizeof(PianoKeyboardClass), NULL, /* base_init */ NULL, /* base_finalize */ (GClassInitFunc) piano_keyboard_class_init, NULL, /* class_finalize */ NULL, /* class_data */ sizeof (PianoKeyboard), 0, /* n_preallocs */ (GInstanceInitFunc) piano_keyboard_init, 0, /* value_table */ }; mk_type = g_type_register_static(GTK_TYPE_DRAWING_AREA, "PianoKeyboard", &mk_info, (GTypeFlags)0); } return mk_type; } GtkWidget * piano_keyboard_new(void) { GtkWidget *widget = (GtkWidget*)gtk_type_new(piano_keyboard_get_type()); PianoKeyboard *pk = PIANO_KEYBOARD(widget); pk->maybe_stop_sustained_notes = 0; pk->sustain_new_notes = 0; pk->enable_keyboard_cue = 0; pk->octave = 4; pk->note_being_pressed_using_mouse = -1; pk->last_key = 0; pk->monophonic = FALSE; memset((void *)pk->notes, 0, sizeof(struct PKNote) * NNOTES); pk->key_bindings = g_hash_table_new(g_str_hash, g_str_equal); bind_keys_qwerty(pk); return widget; } void piano_keyboard_set_keyboard_cue(PianoKeyboard *pk, int enabled) { pk->enable_keyboard_cue = enabled; } void piano_keyboard_set_monophonic(PianoKeyboard *pk, gboolean monophonic) { pk->monophonic = monophonic; } void piano_keyboard_sustain_press(PianoKeyboard *pk) { if (!pk->sustain_new_notes) { pk->sustain_new_notes = 1; pk->maybe_stop_sustained_notes = 1; } } void piano_keyboard_sustain_release(PianoKeyboard *pk) { if (pk->maybe_stop_sustained_notes) stop_sustained_notes(pk); pk->sustain_new_notes = 0; } void piano_keyboard_set_note_on(PianoKeyboard *pk, int note) { if (pk->notes[note].pressed == 0) { pk->notes[note].pressed = 1; queue_note_draw (pk, note); } } void piano_keyboard_set_note_off(PianoKeyboard *pk, int note) { if (pk->notes[note].pressed || pk->notes[note].sustained) { pk->notes[note].pressed = 0; pk->notes[note].sustained = 0; queue_note_draw (pk, note); } } void piano_keyboard_set_octave(PianoKeyboard *pk, int octave) { stop_unsustained_notes(pk); pk->octave = octave; gtk_widget_queue_draw(GTK_WIDGET(pk)); } gboolean piano_keyboard_set_keyboard_layout(PianoKeyboard *pk, const char *layout) { assert(layout); if (!g_ascii_strcasecmp(layout, "QWERTY")) { bind_keys_qwerty(pk); } else if (!g_ascii_strcasecmp(layout, "QWERTZ")) { bind_keys_qwertz(pk); } else if (!g_ascii_strcasecmp(layout, "AZERTY")) { bind_keys_azerty(pk); } else { /* Unknown layout name. */ return TRUE; } return FALSE; }