#include "pattern_editor.h" #include "../macros.h" #include #define PATTERN_EDITOR_Y ((tracker->focus == EDIT_PATTERN) ? 4 : (64 - (6 * 5) - 1)) static const char* notenames[] = { "C-", "C#", "D-", "D#", "E-", "F-", "F#", "G-", "G#", "A-", "A#", "B-", }; char* notename(uint8_t note) { static char buffer[6]; if(note == MUS_NOTE_CUT) { snprintf(buffer, sizeof(buffer), "%s", "OFF"); return buffer; } if(note == MUS_NOTE_RELEASE) { snprintf(buffer, sizeof(buffer), "%s", " "); return buffer; } if(note == 0xf0) // external arpeggio notes { snprintf(buffer, sizeof(buffer), "%s", "EXT.0"); return buffer; } if(note == 0xf1) { snprintf(buffer, sizeof(buffer), "%s", "EXT.1"); return buffer; } else { uint8_t final_note = my_min(12 * 7 + 11, note); snprintf(buffer, sizeof(buffer), "%s%d", notenames[final_note % 12], final_note / 12); } return buffer; } char to_char(uint8_t number) { return to_char_array[number]; } void draw_pattern_view(Canvas* canvas, FlizzerTrackerApp* tracker) { char command_buffer[6] = {0}; char buffer[11] = {0}; canvas_draw_line(canvas, 0, PATTERN_EDITOR_Y, 127, PATTERN_EDITOR_Y); for(int i = 0; i < SONG_MAX_CHANNELS; ++i) { uint8_t sequence_position = tracker->tracker_engine.sequence_position; uint8_t current_pattern = tracker->tracker_engine.song->sequence.sequence_step[sequence_position] .pattern_indices[i]; uint16_t pattern_step = tracker->tracker_engine.pattern_position; uint16_t pattern_length = tracker->tracker_engine.song->pattern_length; TrackerSongPattern* pattern = &tracker->tracker_engine.song->pattern[current_pattern]; for(uint8_t pos = 0; pos < ((tracker->focus == EDIT_PATTERN) ? 9 : 5); ++pos) { TrackerSongPatternStep* step = NULL; if(pattern_step - ((tracker->focus == EDIT_PATTERN) ? 4 : 2) + pos >= 0 && pattern_step - ((tracker->focus == EDIT_PATTERN) ? 4 : 2) + pos < pattern_length) { step = &pattern->step[pattern_step + pos - ((tracker->focus == EDIT_PATTERN) ? 4 : 2)]; } uint8_t string_x = i * 32; uint8_t string_y = PATTERN_EDITOR_Y + 6 * pos + 6 + ((tracker->focus == EDIT_PATTERN) ? 3 : 1); if(step) { uint8_t note = tracker_engine_get_note(step); uint8_t inst = tracker_engine_get_instrument(step); uint8_t vol = tracker_engine_get_volume(step); uint16_t command = tracker_engine_get_command(step); char inst_ch = to_char(inst); char vol_ch = to_char(vol); char command_ch = to_char(command >> 8); if(inst == MUS_NOTE_INSTRUMENT_NONE) { inst_ch = '-'; } if(vol == MUS_NOTE_VOLUME_NONE) { vol_ch = '-'; } if(command == 0) { snprintf(command_buffer, sizeof(command_buffer), "---"); } else { snprintf( command_buffer, sizeof(command_buffer), "%c%02X", command_ch, (command & 0xff)); } snprintf( buffer, sizeof(buffer), "%s%c%c%s", (note == MUS_NOTE_NONE ? "---" : notename(note)), inst_ch, vol_ch, command_buffer); canvas_draw_str(canvas, string_x, string_y, buffer); if(note == MUS_NOTE_RELEASE) { canvas_draw_icon(canvas, string_x, string_y - 5, &I_note_release); } } } } if(tracker->editing && tracker->focus == EDIT_PATTERN) { uint16_t x = tracker->current_channel * 32 + tracker->patternx * 4 + (tracker->patternx > 0 ? 4 : 0) - 1; uint16_t y = PATTERN_EDITOR_Y + 6 * ((tracker->focus == EDIT_PATTERN) ? 4 : 2) + ((tracker->focus == EDIT_PATTERN) ? 3 : 1); canvas_draw_box(canvas, x, y, (tracker->patternx > 0 ? 5 : 9), 7); } if(!(tracker->editing) && tracker->focus == EDIT_PATTERN) { uint16_t x = tracker->current_channel * 32 + tracker->patternx * 4 + (tracker->patternx > 0 ? 4 : 0) - 1; uint16_t y = PATTERN_EDITOR_Y + 6 * ((tracker->focus == EDIT_PATTERN) ? 4 : 2) + ((tracker->focus == EDIT_PATTERN) ? 3 : 1); canvas_draw_frame(canvas, x, y, (tracker->patternx > 0 ? 5 : 9), 7); } canvas_set_color(canvas, ColorBlack); for(int i = 1; i < SONG_MAX_CHANNELS; ++i) { for(int y = PATTERN_EDITOR_Y + 1; y < 64; y += 2) { canvas_draw_dot(canvas, i * 32 - 1, y); } } for(int i = 0; i < SONG_MAX_CHANNELS; ++i) { if(tracker->tracker_engine.channel[i].channel_flags & TEC_DISABLED) { canvas_draw_icon(canvas, 13 + 32 * i, PATTERN_EDITOR_Y - 3, &I_channel_off); } else { canvas_draw_icon(canvas, 13 + 32 * i, PATTERN_EDITOR_Y - 3, &I_channel_on); } } canvas_set_color(canvas, ColorXOR); } #define SEQ_SLIDER_X (4 * (4 * 2 + 1) + 2) #define SEQ_SLIDER_Y (32) void draw_sequence_view(Canvas* canvas, FlizzerTrackerApp* tracker) { char buffer[4]; uint8_t sequence_position = tracker->tracker_engine.sequence_position; TrackerSong* song = &tracker->song; for(int pos = sequence_position - 2; pos < sequence_position + 3; pos++) { if(pos >= 0 && pos < tracker->song.num_sequence_steps) { for(int i = 0; i < SONG_MAX_CHANNELS; ++i) { uint8_t current_pattern = tracker->tracker_engine.song->sequence.sequence_step[pos].pattern_indices[i]; uint8_t x = i * (4 * 2 + 1) + 3; uint8_t y = (pos - (sequence_position - 2)) * 6 + 5; snprintf(buffer, sizeof(buffer), "%02X", current_pattern); canvas_draw_str(canvas, x, y, buffer); } } } if(song->loop_start != 0 || song->loop_end != 0) { canvas_set_color(canvas, ColorBlack); for(int pos = sequence_position - 2; pos < sequence_position + 3; pos++) { if(pos >= 0 && pos < tracker->song.num_sequence_steps) { if(pos == song->loop_start) { int16_t y = (pos - (sequence_position - 2)) * 6; canvas_draw_line(canvas, 0, fmax(y, 0), 1, fmax(y, 0)); canvas_draw_line(canvas, 0, fmax(y, 0), 0, fmax(y + 4, 0)); } if(pos > song->loop_start && pos < song->loop_end) { int16_t y = (pos - (sequence_position - 2)) * 6; canvas_draw_line(canvas, 0, fmax(y - 1, 0), 0, fmax(y + 4, 0)); } if(pos == song->loop_end) { int16_t y = (pos - (sequence_position - 2)) * 6; canvas_draw_line(canvas, 0, fmax(y + 4, 0), 1, fmax(y + 4, 0)); canvas_draw_line(canvas, 0, fmax(y - 1, 0), 0, fmax(y + 4, 0)); break; } } } canvas_set_color(canvas, ColorXOR); } canvas_set_color(canvas, ColorBlack); canvas_draw_line(canvas, SEQ_SLIDER_X, 0, SEQ_SLIDER_X + 2, 0); canvas_draw_line(canvas, SEQ_SLIDER_X, SEQ_SLIDER_Y, SEQ_SLIDER_X + 2, SEQ_SLIDER_Y); canvas_draw_line(canvas, SEQ_SLIDER_X, 0, SEQ_SLIDER_X, SEQ_SLIDER_Y); canvas_draw_line(canvas, SEQ_SLIDER_X + 2, 0, SEQ_SLIDER_X + 2, SEQ_SLIDER_Y); uint8_t start_pos = sequence_position * (SEQ_SLIDER_Y - 2) / tracker->song.num_sequence_steps + 1; uint8_t slider_length = (SEQ_SLIDER_Y - 2) / tracker->song.num_sequence_steps + 1; canvas_draw_line( canvas, SEQ_SLIDER_X + 1, start_pos, SEQ_SLIDER_X + 1, (start_pos + slider_length)); canvas_set_color(canvas, ColorXOR); if(tracker->editing && tracker->focus == EDIT_SEQUENCE) { uint8_t x = tracker->current_channel * (4 + 4 + 1) + (tracker->current_digit ? 4 : 0) + 2; uint8_t y = 11; canvas_draw_box(canvas, x, y, 5, 7); } if(!(tracker->editing) && tracker->focus == EDIT_SEQUENCE) { uint8_t x = tracker->current_channel * (4 + 4 + 1) + (tracker->current_digit ? 4 : 0) + 2; uint8_t y = 11; canvas_draw_frame(canvas, x, y, 5, 7); } } #define member_size(type, member) sizeof(((type*)0)->member) #define SONG_HEADER_SIZE \ (member_size(TrackerSong, song_name) + member_size(TrackerSong, speed) + \ member_size(TrackerSong, rate) + member_size(TrackerSong, loop_start) + \ member_size(TrackerSong, loop_end) + member_size(TrackerSong, num_patterns) + \ member_size(TrackerSong, num_sequence_steps) + member_size(TrackerSong, num_instruments) + \ member_size(TrackerSong, pattern_length)) uint32_t calculate_song_size(TrackerSong* song) { uint32_t song_size = SONG_HEADER_SIZE + sizeof(Instrument) * song->num_instruments + sizeof(TrackerSongPatternStep) * song->num_patterns * song->pattern_length + sizeof(TrackerSongSequenceStep) * song->num_sequence_steps; return song_size; } void draw_generic_n_digit_field( FlizzerTrackerApp* tracker, Canvas* canvas, uint8_t focus, uint8_t param, const char* text, uint8_t x, uint8_t y, uint8_t digits) // last 1-2 symbols are digits we are editing { canvas_draw_str(canvas, x, y, text); if(tracker->focus == focus && tracker->selected_param == param && tracker->editing) { bool select_string = true; if(tracker->focus == EDIT_SONGINFO) { if(param != SI_SONGNAME && param != SI_INSTRUMENTNAME) { select_string = false; } } if(tracker->focus == EDIT_INSTRUMENT) { if(param != INST_INSTRUMENTNAME) { select_string = false; } } if(!(select_string)) { if(tracker->focus == EDIT_INSTRUMENT && param == INST_CURRENTINSTRUMENT) { canvas_draw_box(canvas, x + strlen(text) * 4 - digits * 4 - 1, y - 6, 5, 7); } else { canvas_draw_box( canvas, x + strlen(text) * 4 - digits * 4 + tracker->current_digit * 4 - 1, y - 6, 5, 7); } } else { canvas_draw_box(canvas, x - 1, y - 6, fmax(5, strlen(text) * 4 + 1), 7); } } if(tracker->focus == focus && tracker->selected_param == param && !(tracker->editing)) { bool select_string = true; if(tracker->focus == EDIT_SONGINFO) { if(param != SI_SONGNAME && param != SI_INSTRUMENTNAME) { select_string = false; } } if(tracker->focus == EDIT_INSTRUMENT) { if(param != INST_INSTRUMENTNAME) { select_string = false; } } if(!(select_string)) { if(tracker->focus == EDIT_INSTRUMENT && param == INST_CURRENTINSTRUMENT) { canvas_draw_frame(canvas, x + strlen(text) * 4 - digits * 4 - 1, y - 6, 5, 7); } else { canvas_draw_frame( canvas, x + strlen(text) * 4 - digits * 4 + tracker->current_digit * 4 - 1, y - 6, 5, 7); } } else { canvas_draw_frame(canvas, x - 1, y - 6, fmax(5, strlen(text) * 4 + 1), 7); } } } void draw_songinfo_view(Canvas* canvas, FlizzerTrackerApp* tracker) { char buffer[30]; snprintf( buffer, sizeof(buffer), "PAT.P.%02X/%02X", tracker->tracker_engine.pattern_position, tracker->song.pattern_length - 1); draw_generic_n_digit_field(tracker, canvas, EDIT_SONGINFO, SI_PATTERNPOS, buffer, 42, 5, 2); snprintf( buffer, sizeof(buffer), "SEQ.P.%02X/%02X", tracker->tracker_engine.sequence_position, tracker->song.num_sequence_steps - 1); draw_generic_n_digit_field(tracker, canvas, EDIT_SONGINFO, SI_SEQUENCEPOS, buffer, 42, 11, 2); snprintf(buffer, sizeof(buffer), "SPD.%02X", tracker->song.speed); draw_generic_n_digit_field(tracker, canvas, EDIT_SONGINFO, SI_SONGSPEED, buffer, 42, 17, 2); snprintf(buffer, sizeof(buffer), "RATE %02X", tracker->song.rate); draw_generic_n_digit_field( tracker, canvas, EDIT_SONGINFO, SI_SONGRATE, buffer, 42 + 4 * 7, 17, 2); snprintf(buffer, sizeof(buffer), "VOL %02X", tracker->tracker_engine.master_volume); draw_generic_n_digit_field( tracker, canvas, EDIT_SONGINFO, SI_MASTERVOL, buffer, 42 + 4 * 7 + 4 * 8, 17, 2); snprintf(buffer, sizeof(buffer), "SONG:"); canvas_draw_str(canvas, 42, 23, buffer); snprintf(buffer, sizeof(buffer), "%s", tracker->song.song_name); draw_generic_n_digit_field( tracker, canvas, EDIT_SONGINFO, SI_SONGNAME, buffer, 42 + 4 * 5, 23, 1); snprintf(buffer, sizeof(buffer), "INST:%c", to_char(tracker->current_instrument)); draw_generic_n_digit_field( tracker, canvas, EDIT_SONGINFO, SI_CURRENTINSTRUMENT, buffer, 42, 29, 1); snprintf( buffer, sizeof(buffer), "%s", tracker->song.instrument[tracker->current_instrument]->name); draw_generic_n_digit_field( tracker, canvas, EDIT_SONGINFO, SI_INSTRUMENTNAME, buffer, 42 + 4 * 7, 29, 1); uint32_t song_size = calculate_song_size(&tracker->song); uint32_t free_bytes = memmgr_get_free_heap(); canvas_draw_line(canvas, 128 - 4 * 10 - 2, 0, 128 - 4 * 10 - 2, 10); char song_size_buffer[19]; char free_bytes_buffer[19]; if(song_size > 9999) { snprintf( song_size_buffer, sizeof(song_size_buffer), "TUNE:%ld%c%01ldK", song_size / 1024, '.', (song_size % 1024) / 103); } else { snprintf(song_size_buffer, sizeof(song_size_buffer), "TUNE:%ld", song_size); } if(free_bytes > 9999) { snprintf( free_bytes_buffer, sizeof(song_size_buffer), "FREE:%ld%c%01ldK", free_bytes / 1024, '.', (free_bytes % 1024) / 103); } else { snprintf(free_bytes_buffer, sizeof(song_size_buffer), "FREE:%ld", free_bytes); } canvas_draw_str(canvas, 128 - 4 * 10, 5, song_size_buffer); canvas_draw_str(canvas, 128 - 4 * 10, 11, free_bytes_buffer); }