/*************************************************************************/ /* cp_loader_mod.cpp */ /*************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /*************************************************************************/ /* Copyright (c) 2007-2018 Juan Linietsky, Ariel Manzur. */ /* Copyright (c) 2014-2018 Godot Engine contributors (cf. AUTHORS.md) */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /*************************************************************************/ #include "cp_loader_mod.h" static bool tag_equal_to(const char *p_tag, const char *p_string) { return (p_tag[0] == p_string[0] && p_tag[1] == p_string[1] && p_tag[2] == p_string[2] && p_tag[3] == p_string[3]); } /* ProTracker period table */ uint16_t period_table[6 * 12] = { 1712, 1616, 1524, 1440, 1356, 1280, 1208, 1140, 1076, 1016, 960, 907, 856, 808, 762, 720, 678, 640, 604, 570, 538, 508, 480, 453, 428, 404, 381, 360, 339, 320, 302, 285, 269, 254, 240, 226, 214, 202, 190, 180, 170, 160, 151, 143, 135, 127, 120, 113, 107, 101, 95, 90, 85, 80, 75, 71, 67, 63, 60, 56, 53, 50, 47, 45, 42, 40, 37, 35, 33, 31, 30, 28 }; CPLoader::Error CPLoader_MOD::load_song(const char *p_file, CPSong *p_song, bool p_sampleset) { if (file->open(p_file, CPFileAccessWrapper::READ)) { //printf("Can't open file! %s\n",p_file); return FILE_CANNOT_OPEN; }; /* FIRST OF ALL, one needs to read the .mod file format tag */ file->seek(1080); //located at 1080 char format_tag[4]; file->get_byte_array((uint8_t *)format_tag, 4); int channels = -1; /** THE PAIN!! - COMPARE TAGS */ /* Classic 4-chan */ if (tag_equal_to(format_tag, "M.K.")) channels = 4; if (tag_equal_to(format_tag, "FLT4")) channels = 4; if (tag_equal_to(format_tag, "M!K!")) channels = 4; /* 8 Channel MODS */ if (tag_equal_to(format_tag, "FLT8")) channels = 2; if (tag_equal_to(format_tag, "CD81")) channels = 2; /* Custom channel MODS */ for (int i = 1; i <= 32; i++) { if (i < 10) { // up to 9 channels mods /* Old Take Tracker */ char old_take_tracker[4] = { 'T', 'D', 'Z', char('0' + i) }; if (tag_equal_to(format_tag, old_take_tracker)) { channels = i; break; } /* Contemplates many XCHN Formats */ char xchn[4] = { char('0' + i), 'C', 'H', 'N' }; if (tag_equal_to(format_tag, xchn)) { channels = i; break; } } /* Fast Tracker */ char fast_tracker[4] = { char('0' + (i / 10)), char('0' + (i % 10)), 'C', 'H' }; if (tag_equal_to(format_tag, fast_tracker)) { channels = i; break; } } if (channels == -1) { file->close(); return FILE_UNRECOGNIZED; } /** Load CPSong INFO */ file->seek(0); //go to begining of file file->set_endian_conversion(true); p_song->reset(); p_song->set_instruments(false); char name[21]; file->get_byte_array((uint8_t *)name, 20); name[20] = 0; p_song->set_name(name); p_song->set_old_effects(true); p_song->set_linear_slides(false); p_song->set_compatible_gxx(true); CPSampleManager *sm = CPSampleManager::get_singleton(); int instruments = 31; for (int i = 0; i < instruments; i++) { char sample_name[23]; file->get_byte_array((uint8_t *)sample_name, 22); sample_name[22] = 0; uint32_t sample_len = file->get_word(); sample_len <<= 1; uint8_t fine_nibble = file->get_byte() & 0xF; //(int8_t)(fine_nibble & 7) - (int8_t)(fine_nibble & 8); //yesso's genius trick // boo, I can't use it :( but i leave it here because of how cool it is uint8_t linear_volume = file->get_byte(); //0 .. ? uint32_t loop_begin = file->get_word(); //0 .. ? loop_begin <<= 1; uint32_t loop_end = file->get_word(); //0 .. ? loop_end <<= 1; if (sample_len > 0) { CPSample_ID sid = sm->create(false, false, sample_len); if (sid.is_null()) { file->close(); return FILE_OUT_OF_MEMORY; } if (loop_end > 2) { sm->set_loop_begin(sid, loop_begin); sm->set_loop_end(sid, loop_end + loop_begin); sm->set_loop_type(sid, CP_LOOP_FORWARD); } static const uint16_t fine_to_freq[16] = { 8363, 8413, 8463, 8529, 8581, 8651, 8723, 8757, 7895, 7941, 7985, 8046, 8107, 8169, 8232, 8280 }; sm->set_c5_freq(sid, fine_to_freq[fine_nibble]); p_song->get_sample(i)->set_sample_data(sid); } p_song->get_sample(i)->set_name(sample_name); p_song->get_sample(i)->set_default_volume(linear_volume); } /* pan for MODs */ for (int i = 0; i < channels; i++) p_song->set_channel_pan(i, (((i & 3) == 1) || ((i & 3) == 2)) ? 0 : 64); uint8_t order_count = file->get_byte(); // uint8_t loop_to=file->get_byte(); int pattern_count = 0; for (int i = 0; i < 128; i++) { uint8_t order = file->get_byte(); if (i < order_count) { p_song->set_order(i, order); /* Determine the amount of patterns */ if ((order + 1) > pattern_count) pattern_count = order + 1; } else p_song->set_order(i, CP_ORDER_NONE); } if (instruments == 31) file->get_dword(); // identiefier, now skip it for (int i = 0; i < pattern_count; i++) { for (int line = 0; line < 64; line++) { for (int column = 0; column < channels; column++) { uint32_t note_w = file->get_dword(); CPNote note; note.instrument = (note_w >> 12) & 0xF; note.instrument |= (note_w >> 24) & 0xF0; if (note.instrument == 0) note.instrument = CPNote::EMPTY; else note.instrument--; note.parameter = note_w & 0xFF; int cmd = (note_w >> 8) & 0xF; uint32_t period = (note_w >> 16) & 0xFFF; if (period > 0 && period < 0xFFF) { //period>>=2; //period<<=1; for (int n = 0; n < 6 * 12; n++) { if (period >= period_table[n]) { if ((period != period_table[n]) && (n)) { uint32_t p1 = period_table[n - 1]; uint32_t p2 = period_table[n]; if (p1 - period < (period - p2)) { note.note = n + 36; break; } } note.note = n + 1 + 36; break; } } if (note.note == CPNote::EMPTY) note.note = 6 * 12 + 36; note.note--; } switch (cmd) { case 0x0: { if (note.parameter > 0) note.command = 'J' - 'A'; } break; case 0x1: { note.command = 'F' - 'A'; } break; case 0x2: { note.command = 'E' - 'A'; } break; case 0x3: { note.command = 'G' - 'A'; } break; case 0x4: { note.command = 'H' - 'A'; } break; case 0x5: { note.command = 'L' - 'A'; } break; case 0x6: { note.command = 'K' - 'A'; } break; case 0x7: { note.command = 'R' - 'A'; } break; case 0x8: { note.command = 'X' - 'A'; } break; case 0x9: { note.command = 'O' - 'A'; } break; case 0xA: { note.command = 'D' - 'A'; } break; case 0xB: { note.command = 'B' - 'A'; } break; case 0xC: { note.volume = note.parameter; if (note.volume > 64) note.volume = 64; note.parameter = 0; } break; case 0xD: { note.command = 'C' - 'A'; note.parameter = (note.parameter >> 4) * 10 + (note.parameter & 0xF); } break; case 0xE: { //SPECIAL EFFECT! note.command = 'S' - 'A'; switch (note.parameter >> 4) { case 0x1: { note.command = 'F' - 'A'; note.parameter = 0xF0 | (note.parameter & 0xF); } break; case 0x2: { note.command = 'E' - 'A'; note.parameter = 0xF0 | (note.parameter & 0xF); } break; case 0x4: { note.command = 'S' - 'A'; note.parameter = 0x30 | (note.parameter & 0x3); } break; case 0x6: { note.command = 'S' - 'A'; note.parameter = 0xB0 | (note.parameter & 0xF); } break; case 0x7: { note.command = 'S' - 'A'; note.parameter = 0x40 | (note.parameter & 0x3); } break; case 0x8: { note.command = 'S' - 'A'; // wow, it's the same! } break; case 0x9: { note.command = 'Q' - 'A'; note.parameter = (note.parameter & 0xF); } break; case 0xA: { note.command = 'D' - 'A'; note.parameter = 0xF | ((note.parameter & 0xF) << 4); } break; case 0xB: { note.command = 'D' - 'A'; note.parameter = 0xF0 | (note.parameter & 0xF); } break; case 0xC: case 0xD: { note.command = 'S' - 'A'; //wow, they are the same! } break; case 0xE: { note.command = 'S' - 'A'; note.parameter = 0x60 | (note.parameter & 0xF); } break; default: { note.command = CPNote::EMPTY; note.parameter = 0; } break; } } break; case 0xF: { if (note.parameter < 32) note.command = 'A' - 'A'; else note.command = 'T' - 'A'; } break; } p_song->get_pattern(i)->set_note(column, line, note); } } } for (int i = 0; i < instruments; i++) { CPSample_ID sid = p_song->get_sample(i)->get_sample_data(); if (sid.is_null()) { continue; //empty sample, not stored? } sm->lock_data(sid); uint8_t *dataptr = (uint8_t *)sm->get_data(sid); int len = sm->get_size(sid); for (int s = 0; s < len; s++) { uint8_t d = file->get_byte(); //d-=128; //convert to signed int8_t *ds = (int8_t *)&d; dataptr[s] = *ds; } sm->unlock_data(sid); } file->close(); return FILE_OK; } CPLoader_MOD::CPLoader_MOD(CPFileAccessWrapper *p_file) { file = p_file; } CPLoader_MOD::~CPLoader_MOD() { }