From b902e01e10b193749bd4367a6042ceb3cf3a7d54 Mon Sep 17 00:00:00 2001 From: Niels Martin Hansen Date: Sat, 10 Mar 2018 22:23:10 +0100 Subject: Change #6685: Replace Win32 music driver with one not depending on MCI MCI MIDI is poorly supported on newer versions of Windows and can cause large delays at the beginning of tracks. The new driver is based on a from-scratch reader for Standard MIDI Files. This should be re-usable in other music drivers too, and can allow for finer control of playback in general. It also provides a better framework for reading MIDI data from other formats than just SMF. --- src/music/midi.h | 144 ++++++++++++++++ src/music/midifile.cpp | 457 +++++++++++++++++++++++++++++++++++++++++++++++++ src/music/midifile.hpp | 44 +++++ src/music/win32_m.cpp | 432 ++++++++++++++++++++++++++++++++++------------ 4 files changed, 966 insertions(+), 111 deletions(-) create mode 100644 src/music/midi.h create mode 100644 src/music/midifile.cpp create mode 100644 src/music/midifile.hpp (limited to 'src/music') diff --git a/src/music/midi.h b/src/music/midi.h new file mode 100644 index 000000000..473f7f18b --- /dev/null +++ b/src/music/midi.h @@ -0,0 +1,144 @@ +/* $Id$ */ + +/* +* This file is part of OpenTTD. +* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2. +* OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. +* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see . +*/ + +/* @file midi.h Declarations for MIDI data */ + +#ifndef MUSIC_MIDI_H +#define MUSIC_MIDI_H + +#include "../stdafx.h" + +/** Header of a Stanard MIDI File */ +struct SMFHeader { + uint16 format; + uint16 tracks; + uint16 tickdiv; +}; + +/** MIDI status byte codes */ +enum MidiStatus { + /* Bytes with top bit unset are data bytes i.e. not status bytes */ + /* Channel status messages, require channel number in lower nibble */ + MIDIST_NOTEOFF = 0x80, + MIDIST_NOTEON = 0x90, + MIDIST_POLYPRESS = 0xA0, + MIDIST_CONTROLLER = 0xB0, + MIDIST_PROGCHG = 0xC0, + MIDIST_CHANPRESS = 0xD0, + MIDIST_PITCHBEND = 0xE0, + /* Full byte status messages */ + MIDIST_SYSEX = 0xF0, + MIDIST_TC_QFRAME = 0xF1, + MIDIST_SONGPOSPTR = 0xF2, + MIDIST_SONGSEL = 0xF3, + /* not defined: 0xF4, */ + /* not defined: 0xF5, */ + MIDIST_TUNEREQ = 0xF6, + MIDIST_ENDSYSEX = 0xF7, ///< only occurs in realtime data + MIDIST_SMF_ESCAPE = 0xF7, ///< only occurs in SMF data + MIDIST_RT_CLOCK = 0xF8, + /* not defined: 0xF9, */ + MIDIST_RT_START = 0xFA, + MIDIST_RT_CONTINUE = 0xFB, + MIDIST_RT_STOP = 0xFC, + /* not defined: 0xFD, */ + MIDIST_RT_ACTSENS = 0xFE, + MIDIST_SYSRESET = 0xFF, ///< only occurs in realtime data + MIDIST_SMF_META = 0xFF, ///< only occurs in SMF data +}; + +/** + * MIDI controller numbers. + * Complete list per General MIDI, missing values are not defined. + */ +enum MidiController { + /* Standard continuous controllers (MSB control) */ + MIDICT_BANKSELECT = 0, + MIDICT_MODWHEEL = 1, + MIDICT_BREATH = 2, + MIDICT_FOOT = 4, + MIDICT_PORTAMENTO = 5, + MIDICT_DATAENTRY = 6, + MIDICT_CHANVOLUME = 7, + MIDICT_BALANCE = 8, + MIDICT_PAN = 10, + MIDICT_EXPRESSION = 11, + MIDICT_EFFECT1 = 12, + MIDICT_EFFECT2 = 13, + MIDICT_GENERAL1 = 16, + MIDICT_GENERAL2 = 17, + MIDICT_GENERAL3 = 18, + MIDICT_GENERAL4 = 19, + /* Offset from MSB to LSB of continuous controllers */ + MIDICTOFS_HIGHRES = 32, + /* Stanard continuous controllers (LSB control) */ + MIDICT_BANKSELECT_LO = MIDICTOFS_HIGHRES + MIDICT_BANKSELECT, + MIDICT_MODWHEEL_LO = MIDICTOFS_HIGHRES + MIDICT_MODWHEEL, + MIDICT_BREATH_LO = MIDICTOFS_HIGHRES + MIDICT_BREATH, + MIDICT_FOOT_LO = MIDICTOFS_HIGHRES + MIDICT_FOOT, + MIDICT_PORTAMENTO_LO = MIDICTOFS_HIGHRES + MIDICT_PORTAMENTO, + MIDICT_DATAENTRY_LO = MIDICTOFS_HIGHRES + MIDICT_DATAENTRY, + MIDICT_CHANVOLUME_LO = MIDICTOFS_HIGHRES + MIDICT_CHANVOLUME, + MIDICT_BALANCE_LO = MIDICTOFS_HIGHRES + MIDICT_BALANCE, + MIDICT_PAN_LO = MIDICTOFS_HIGHRES + MIDICT_PAN, + MIDICT_EXPRESSION_LO = MIDICTOFS_HIGHRES + MIDICT_EXPRESSION, + MIDICT_EFFECT1_LO = MIDICTOFS_HIGHRES + MIDICT_EFFECT1, + MIDICT_EFFECT2_LO = MIDICTOFS_HIGHRES + MIDICT_EFFECT2, + MIDICT_GENERAL1_LO = MIDICTOFS_HIGHRES + MIDICT_GENERAL1, + MIDICT_GENERAL2_LO = MIDICTOFS_HIGHRES + MIDICT_GENERAL2, + MIDICT_GENERAL3_LO = MIDICTOFS_HIGHRES + MIDICT_GENERAL3, + MIDICT_GENERAL4_LO = MIDICTOFS_HIGHRES + MIDICT_GENERAL4, + /* Switch controllers */ + MIDICT_SUSTAINSW = 64, + MIDICT_PORTAMENTOSW = 65, + MIDICT_SOSTENUTOSW = 66, + MIDICT_SOFTPEDALSW = 67, + MIDICT_LEGATOSW = 68, + MIDICT_HOLD2SW = 69, + /* Standard low-resolution controllers */ + MIDICT_SOUND1 = 70, + MIDICT_SOUND2 = 71, + MIDICT_SOUND3 = 72, + MIDICT_SOUND4 = 73, + MIDICT_SOUND5 = 74, + MIDICT_SOUND6 = 75, + MIDICT_SOUND7 = 76, + MIDICT_SOUND8 = 77, + MIDICT_SOUND9 = 78, + MIDICT_SOUND10 = 79, + MIDICT_GENERAL5 = 80, + MIDICT_GENERAL6 = 81, + MIDICT_GENERAL7 = 82, + MIDICT_GENERAL8 = 83, + MIDICT_PORTAMENTOCTL = 84, + MIDICT_PRF_HIGHRESVEL = 88, + MIDICT_EFFECTS1 = 91, + MIDICT_EFFECTS2 = 92, + MIDICT_EFFECTS3 = 93, + MIDICT_EFFECTS4 = 94, + MIDICT_EFFECTS5 = 95, + /* Registered/unregistered parameters control */ + MIDICT_DATA_INCREMENT = 96, + MIDICT_DATA_DECREMENT = 97, + MIDICT_NRPN_SELECT_LO = 98, + MIDICT_NRPN_SELECT_HI = 99, + MIDICT_RPN_SELECT_LO = 100, + MIDICT_RPN_SELECT_HI = 101, + /* Channel mode messages */ + MIDICT_MODE_ALLSOUNDOFF = 120, + MIDICT_MODE_RESETALLCTRL = 121, + MIDICT_MODE_LOCALCTL = 122, + MIDICT_MODE_ALLNOTESOFF = 123, + MIDICT_MODE_OMNI_OFF = 124, + MIDICT_MODE_OMNI_ON = 125, + MIDICT_MODE_MONO = 126, + MIDICT_MODE_POLY = 127, +}; + +#endif /* MUSIC_MIDI_H */ diff --git a/src/music/midifile.cpp b/src/music/midifile.cpp new file mode 100644 index 000000000..eb7e02303 --- /dev/null +++ b/src/music/midifile.cpp @@ -0,0 +1,457 @@ +/* $Id$ */ + +/* +* This file is part of OpenTTD. +* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2. +* OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. +* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see . +*/ + +/* @file midifile.cpp Parser for standard MIDI files */ + +#include "midifile.hpp" +#include "../fileio_func.h" +#include "../fileio_type.h" +#include "../core/endian_func.hpp" +#include "midi.h" +#include + + +/* implementation based on description at: http://www.somascape.org/midi/tech/mfile.html */ + + +/** + * Owning byte buffer readable as a stream. + * RAII-compliant to make teardown in error situations easier. + */ +class ByteBuffer { + byte *buf; + size_t buflen; + size_t pos; +public: + /** + * Construct buffer from data in a file. + * If file does not have sufficient bytes available, the object is constructed + * in an error state, that causes all further function calls to fail. + * @param file file to read from at current position + * @param len number of bytes to read + */ + ByteBuffer(FILE *file, size_t len) + { + this->buf = MallocT(len); + if (fread(this->buf, 1, len, file) == len) { + this->buflen = len; + this->pos = 0; + } else { + /* invalid state */ + this->buflen = 0; + } + } + + /** + * Destructor, frees the buffer. + */ + ~ByteBuffer() + { + free(this->buf); + } + + /** + * Return whether the buffer was constructed successfully. + * @return true is the buffer contains data + */ + bool IsValid() const + { + return this->buflen > 0; + } + + /** + * Return whether reading has reached the end of the buffer. + * @return true if there are no more bytes available to read + */ + bool IsEnd() const + { + return this->pos >= this->buflen; + } + + /** + * Read a single byte from the buffer. + * @param[out] b returns the read value + * @return true if a byte was available for reading + */ + bool ReadByte(byte &b) + { + if (this->IsEnd()) return false; + b = this->buf[this->pos++]; + return true; + } + + /** + * Read a MIDI file variable length value. + * Each byte encodes 7 bits of the value, most-significant bits are encoded first. + * If the most significant bit in a byte is set, there are further bytes encoding the value. + * @param[out] res returns the read value + * @return true if there was data available + */ + bool ReadVariableLength(uint32 &res) + { + res = 0; + byte b = 0; + do { + if (this->IsEnd()) return false; + b = this->buf[this->pos++]; + res = (res << 7) | (b & 0x7F); + } while (b & 0x80); + return true; + } + + /** + * Read bytes into a buffer. + * @param[out] dest buffer to copy info + * @param length number of bytes to read + * @return true if the requested number of bytes were available + */ + bool ReadBuffer(byte *dest, size_t length) + { + if (this->IsEnd()) return false; + if (this->buflen - this->pos < length) return false; + memcpy(dest, this->buf + this->pos, length); + this->pos += length; + return true; + } + + /** + * Skip over a number of bytes in the buffer. + * @param count number of bytes to skip over + * @return true if there were enough bytes available + */ + bool Skip(size_t count) + { + if (this->IsEnd()) return false; + if (this->buflen - this->pos < count) return false; + this->pos += count; + return true; + } + + /** + * Go a number of bytes back to re-read. + * @param count number of bytes to go back + * @return true if at least count bytes had been read previously + */ + bool Rewind(size_t count) + { + if (count > this->pos) return false; + this->pos -= count; + return true; + } +}; + +static bool ReadTrackChunk(FILE *file, MidiFile &target) +{ + byte buf[4]; + + const byte magic[] = { 'M', 'T', 'r', 'k' }; + if (fread(buf, sizeof(magic), 1, file) != 1) { + return false; + } + if (memcmp(magic, buf, sizeof(magic)) != 0) { + return false; + } + + /* read chunk length and then the whole chunk */ + uint32 chunk_length; + if (fread(&chunk_length, 1, 4, file) != 4) { + return false; + } + chunk_length = FROM_BE32(chunk_length); + + ByteBuffer chunk(file, chunk_length); + if (!chunk.IsValid()) { + return false; + } + + target.blocks.push_back(MidiFile::DataBlock()); + MidiFile::DataBlock *block = &target.blocks.back(); + + byte last_status = 0; + bool running_sysex = false; + while (!chunk.IsEnd()) { + /* read deltatime for event, start new block */ + uint32 deltatime = 0; + if (!chunk.ReadVariableLength(deltatime)) { + return false; + } + if (deltatime > 0) { + target.blocks.push_back(MidiFile::DataBlock(block->ticktime + deltatime)); + block = &target.blocks.back(); + } + + /* read status byte */ + byte status; + if (!chunk.ReadByte(status)) { + return false; + } + + if ((status & 0x80) == 0) { + /* high bit not set means running status message, status is same as last + * convert to explicit status */ + chunk.Rewind(1); + status = last_status; + goto running_status; + } else if ((status & 0xF0) != 0xF0) { + /* Regular channel message */ + last_status = status; + running_status: + byte *data; + switch (status & 0xF0) { + case MIDIST_NOTEOFF: + case MIDIST_NOTEON: + case MIDIST_POLYPRESS: + case MIDIST_CONTROLLER: + case MIDIST_PITCHBEND: + /* 3 byte messages */ + data = block->data.Append(3); + data[0] = status; + if (!chunk.ReadBuffer(&data[1], 2)) { + return false; + } + break; + case MIDIST_PROGCHG: + case MIDIST_CHANPRESS: + /* 2 byte messages */ + data = block->data.Append(2); + data[0] = status; + if (!chunk.ReadByte(data[1])) { + return false; + } + break; + default: + NOT_REACHED(); + } + } else if (status == MIDIST_SMF_META) { + /* Meta event, read event type byte and data length */ + if (!chunk.ReadByte(buf[0])) { + return false; + } + uint32 length = 0; + if (!chunk.ReadVariableLength(length)) { + return false; + } + switch (buf[0]) { + case 0x2F: + /* end of track, no more data (length != 0 is illegal) */ + return (length == 0); + case 0x51: + /* tempo change */ + if (length != 3) return false; + if (!chunk.ReadBuffer(buf, 3)) return false; + target.tempos.push_back(MidiFile::TempoChange(block->ticktime, buf[0] << 16 | buf[1] << 8 | buf[2])); + break; + default: + /* unimportant meta event, skip over it */ + if (!chunk.Skip(length)) { + return false; + } + break; + } + } else if (status == MIDIST_SYSEX || (status == MIDIST_SMF_ESCAPE && running_sysex)) { + /* System exclusive message */ + uint32 length = 0; + if (!chunk.ReadVariableLength(length)) { + return false; + } + byte *data = block->data.Append(length + 1); + data[0] = 0xF0; + if (!chunk.ReadBuffer(data + 1, length)) { + return false; + } + if (data[length] != 0xF7) { + /* engage Casio weirdo mode - convert to normal sysex */ + running_sysex = true; + *block->data.Append() = 0xF7; + } else { + running_sysex = false; + } + } else if (status == MIDIST_SMF_ESCAPE) { + /* Escape sequence */ + uint32 length = 0; + if (!chunk.ReadVariableLength(length)) { + return false; + } + byte *data = block->data.Append(length); + if (!chunk.ReadBuffer(data, length)) { + return false; + } + } else { + /* Messages undefined in standard midi files: + * 0xF1 - MIDI time code quarter frame + * 0xF2 - Song position pointer + * 0xF3 - Song select + * 0xF4 - undefined/reserved + * 0xF5 - undefined/reserved + * 0xF6 - Tune request for analog synths + * 0xF8..0xFE - System real-time messages + */ + return false; + } + } + + NOT_REACHED(); +} + +template +bool TicktimeAscending(const T &a, const T &b) +{ + return a.ticktime < b.ticktime; +} + +static bool FixupMidiData(MidiFile &target) +{ + /* Sort all tempo changes and events */ + std::sort(target.tempos.begin(), target.tempos.end(), TicktimeAscending); + std::sort(target.blocks.begin(), target.blocks.end(), TicktimeAscending); + + if (target.tempos.size() == 0) { + /* no tempo information, assume 120 bpm (500,000 microseconds per beat */ + target.tempos.push_back(MidiFile::TempoChange(0, 500000)); + } + /* add sentinel tempo at end */ + target.tempos.push_back(MidiFile::TempoChange(UINT32_MAX, 0)); + + /* merge blocks with identical tick times */ + std::vector merged_blocks; + uint32 last_ticktime = 0; + for (size_t i = 0; i < target.blocks.size(); i++) { + MidiFile::DataBlock &block = target.blocks[i]; + if (block.ticktime > last_ticktime || merged_blocks.size() == 0) { + merged_blocks.push_back(block); + last_ticktime = block.ticktime; + } else { + byte *datadest = merged_blocks.back().data.Append(block.data.Length()); + memcpy(datadest, block.data.Begin(), block.data.Length()); + } + } + std::swap(merged_blocks, target.blocks); + + /* annotate blocks with real time */ + last_ticktime = 0; + uint32 last_realtime = 0; + size_t cur_tempo = 0, cur_block = 0; + while (cur_block < target.blocks.size()) { + MidiFile::DataBlock &block = target.blocks[cur_block]; + MidiFile::TempoChange &tempo = target.tempos[cur_tempo]; + MidiFile::TempoChange &next_tempo = target.tempos[cur_tempo+1]; + if (block.ticktime <= next_tempo.ticktime) { + /* block is within the current tempo */ + int64 tickdiff = block.ticktime - last_ticktime; + last_ticktime = block.ticktime; + last_realtime += uint32(tickdiff * tempo.tempo / target.tickdiv); + block.realtime = last_realtime; + cur_block++; + } else { + /* tempo change occurs before this block */ + int64 tickdiff = next_tempo.ticktime - last_ticktime; + last_ticktime = next_tempo.ticktime; + last_realtime += uint32(tickdiff * tempo.tempo / target.tickdiv); // current tempo until the tempo change + cur_tempo++; + } + } + + return true; +} + +/** + * Read the header of a standard MIDI file. + * @param[in] filename name of file to read from + * @param[out] header filled with data read + * @return true if the file could be opened and contained a header with correct format + */ +bool MidiFile::ReadSMFHeader(const char *filename, SMFHeader &header) +{ + FILE *file = FioFOpenFile(filename, "rb", Subdirectory::BASESET_DIR); + if (!file) return false; + bool result = ReadSMFHeader(file, header); + FioFCloseFile(file); + return result; +} + +/** + * Read the header of a standard MIDI file. + * The function will consume 14 bytes from the current file pointer position. + * @param[in] file open file to read from (should be in binary mode) + * @param[out] header filled with data read + * @return true if a header in correct format could be read from the file + */ +bool MidiFile::ReadSMFHeader(FILE *file, SMFHeader &header) +{ + /* Try to read header, fixed size */ + byte buffer[14]; + if (fread(buffer, sizeof(buffer), 1, file) != 1) { + return false; + } + + /* check magic, 'MThd' followed by 4 byte length indicator (always = 6 in SMF) */ + const byte magic[] = { 'M', 'T', 'h', 'd', 0x00, 0x00, 0x00, 0x06 }; + if (MemCmpT(buffer, magic, sizeof(magic)) != 0) { + return false; + } + + /* read the parameters of the file */ + header.format = (buffer[8] << 8) | buffer[9]; + header.tracks = (buffer[10] << 8) | buffer[11]; + header.tickdiv = (buffer[12] << 8) | buffer[13]; + return true; +} + +/** + * Load a standard MIDI file. + * @param filename name of the file to load + * @returns true if loaded was successful + */ +bool MidiFile::LoadFile(const char *filename) +{ + this->blocks.clear(); + this->tempos.clear(); + this->tickdiv = 0; + + bool success = false; + FILE *file = FioFOpenFile(filename, "rb", Subdirectory::BASESET_DIR); + + SMFHeader header; + if (!ReadSMFHeader(file, header)) goto cleanup; + + /* Only format 0 (single-track) and format 1 (multi-track single-song) are accepted for now */ + if (header.format != 0 && header.format != 1) goto cleanup; + /* Doesn't support SMPTE timecode files */ + if ((header.tickdiv & 0x8000) != 0) goto cleanup; + + this->tickdiv = header.tickdiv; + + for (; header.tracks > 0; header.tracks--) { + if (!ReadTrackChunk(file, *this)) { + goto cleanup; + } + } + + success = FixupMidiData(*this); + +cleanup: + FioFCloseFile(file); + return success; +} + +/** + * Move data from other to this, and clears other. + * @param other object containing loaded data to take over + */ +void MidiFile::MoveFrom(MidiFile &other) +{ + std::swap(this->blocks, other.blocks); + std::swap(this->tempos, other.tempos); + this->tickdiv = other.tickdiv; + + other.blocks.clear(); + other.tempos.clear(); + other.tickdiv = 0; +} + diff --git a/src/music/midifile.hpp b/src/music/midifile.hpp new file mode 100644 index 000000000..d077f63cd --- /dev/null +++ b/src/music/midifile.hpp @@ -0,0 +1,44 @@ +/* $Id$ */ + +/* +* This file is part of OpenTTD. +* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2. +* OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. +* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see . +*/ + +/* @file midifile.hpp Parser for standard MIDI files */ + +#ifndef MUSIC_MIDIFILE_HPP +#define MUSIC_MIDIFILE_HPP + +#include "../stdafx.h" +#include "../core/smallvec_type.hpp" +#include "midi.h" +#include + +struct MidiFile { + struct DataBlock { + uint32 ticktime; ///< tick number since start of file this block should be triggered at + uint32 realtime; ///< real-time (microseconds) since start of file this block should be triggered at + SmallVector data; ///< raw midi data contained in block + DataBlock(uint32 _ticktime = 0) : ticktime(_ticktime) { } + }; + struct TempoChange { + uint32 ticktime; ///< tick number since start of file this tempo change occurs at + uint32 tempo; ///< new tempo in microseconds per tick + TempoChange(uint32 _ticktime, uint32 _tempo) : ticktime(_ticktime), tempo(_tempo) { } + }; + + std::vector blocks; ///< sequential time-annotated data of file, merged to a single track + std::vector tempos; ///< list of tempo changes in file + uint16 tickdiv; ///< ticks per quarter note + + bool LoadFile(const char *filename); + void MoveFrom(MidiFile &other); + + static bool ReadSMFHeader(const char *filename, SMFHeader &header); + static bool ReadSMFHeader(FILE *file, SMFHeader &header); +}; + +#endif /* MUSIC_MIDIFILE_HPP */ diff --git a/src/music/win32_m.cpp b/src/music/win32_m.cpp index fff0376a0..57bbd1f93 100644 --- a/src/music/win32_m.cpp +++ b/src/music/win32_m.cpp @@ -15,170 +15,380 @@ #include #include #include "../os/windows/win32.h" +#include "../debug.h" +#include "midifile.hpp" +#include "midi.h" #include "../safeguards.h" +struct PlaybackSegment { + uint32 start, end; + size_t start_block; + bool loop; +}; + static struct { - bool stop_song; - bool terminate; - bool playing; - int new_vol; - HANDLE wait_obj; - HANDLE thread; - UINT_PTR devid; - char start_song[MAX_PATH]; + UINT time_period; ///< obtained timer precision value + HMIDIOUT midi_out; ///< handle to open midiOut + UINT timer_id; ///< ID of active multimedia timer + CRITICAL_SECTION lock; ///< synchronization for playback status fields + + bool playing; ///< flag indicating that playback is active + bool do_start; ///< flag for starting playback of next_file at next opportunity + bool do_stop; ///< flag for stopping playback at next opportunity + byte current_volume; ///< current effective volume setting + byte new_volume; ///< volume setting to change to + + MidiFile current_file; ///< file currently being played from + PlaybackSegment current_segment; ///< segment info for current playback + DWORD playback_start_time; ///< timestamp current file began playback + size_t current_block; ///< next block index to send + MidiFile next_file; ///< upcoming file to play + PlaybackSegment next_segment; ///< segment info for upcoming file + + byte channel_volumes[16]; ///< last seen volume controller values in raw data } _midi; static FMusicDriver_Win32 iFMusicDriver_Win32; -void MusicDriver_Win32::PlaySong(const char *filename) + +static byte ScaleVolume(byte original, byte scale) { - assert(filename != NULL); - strecpy(_midi.start_song, filename, lastof(_midi.start_song)); - _midi.playing = true; - _midi.stop_song = false; - SetEvent(_midi.wait_obj); + return original * scale / 127; } -void MusicDriver_Win32::StopSong() + +void CALLBACK MidiOutProc(HMIDIOUT hmo, UINT wMsg, DWORD_PTR dwInstance, DWORD_PTR dwParam1, DWORD_PTR dwParam2) { - if (_midi.playing) { - _midi.stop_song = true; - _midi.start_song[0] = '\0'; - SetEvent(_midi.wait_obj); + if (wMsg == MOM_DONE) { + MIDIHDR *hdr = (LPMIDIHDR)dwParam1; + midiOutUnprepareHeader(hmo, hdr, sizeof(*hdr)); + free(hdr); } } -bool MusicDriver_Win32::IsSongPlaying() +static void TransmitChannelMsg(byte status, byte p1, byte p2 = 0) { - return _midi.playing; + midiOutShortMsg(_midi.midi_out, status | (p1 << 8) | (p2 << 16)); } -void MusicDriver_Win32::SetVolume(byte vol) +static void TransmitSysex(byte *&msg_start, size_t &remaining) { - _midi.new_vol = vol; - SetEvent(_midi.wait_obj); + /* find end of message */ + byte *msg_end = msg_start; + while (*msg_end != MIDIST_ENDSYSEX) msg_end++; + msg_end++; /* also include sysex end byte */ + + /* prepare header */ + MIDIHDR *hdr = CallocT(1); + hdr->lpData = (LPSTR)msg_start; + hdr->dwBufferLength = msg_end - msg_start; + if (midiOutPrepareHeader(_midi.midi_out, hdr, sizeof(*hdr)) == MMSYSERR_NOERROR) { + /* transmit - just point directly into the data buffer */ + hdr->dwBytesRecorded = hdr->dwBufferLength; + midiOutLongMsg(_midi.midi_out, hdr, sizeof(*hdr)); + } else { + free(hdr); + } + + /* update position in buffer */ + remaining -= msg_end - msg_start; + msg_start = msg_end; } -static MCIERROR CDECL MidiSendCommand(const TCHAR *cmd, ...) +static void TransmitSysexConst(byte *msg_start, size_t length) { - va_list va; - TCHAR buf[512]; - - va_start(va, cmd); - _vsntprintf(buf, lengthof(buf), cmd, va); - va_end(va); - return mciSendString(buf, NULL, 0, 0); + TransmitSysex(msg_start, length); } -static bool MidiIntPlaySong(const char *filename) +/** + * Realtime MIDI playback service routine. + * This is called by the multimedia timer. + */ +void CALLBACK TimerCallback(UINT uTimerID, UINT, DWORD_PTR dwUser, DWORD_PTR, DWORD_PTR) { - MidiSendCommand(_T("close all")); + /* Try to check playback status changes. + * If _midi is already locked, skip checking for this cycle and try again + * next cycle, instead of waiting for locks in the realtime callback. */ + if (TryEnterCriticalSection(&_midi.lock)) { + /* check for stop */ + if (_midi.do_stop) { + DEBUG(driver, 2, "Win32-MIDI: timer: do_stop is set"); + midiOutReset(_midi.midi_out); + _midi.playing = false; + _midi.do_stop = false; + LeaveCriticalSection(&_midi.lock); + return; + } + + /* check for start/restart/change song */ + if (_midi.do_start) { + DEBUG(driver, 2, "Win32-MIDI: timer: do_start is set"); + if (_midi.playing) { + midiOutReset(_midi.midi_out); + } + _midi.current_file.MoveFrom(_midi.next_file); + std::swap(_midi.next_segment, _midi.current_segment); + _midi.current_segment.start_block = 0; + _midi.playback_start_time = timeGetTime(); + _midi.playing = true; + _midi.do_start = false; + _midi.current_block = 0; + + MemSetT(_midi.channel_volumes, 127, lengthof(_midi.channel_volumes)); + } else if (!_midi.playing) { + /* not playing, stop the timer */ + DEBUG(driver, 2, "Win32-MIDI: timer: not playing, stopping timer"); + timeKillEvent(uTimerID); + _midi.timer_id = 0; + LeaveCriticalSection(&_midi.lock); + return; + } + + /* check for volume change */ + static int volume_throttle = 0; + if (_midi.current_volume != _midi.new_volume) { + if (volume_throttle == 0) { + DEBUG(driver, 2, "Win32-MIDI: timer: volume change"); + _midi.current_volume = _midi.new_volume; + volume_throttle = 20 / _midi.time_period; + for (int ch = 0; ch < 16; ch++) { + int vol = ScaleVolume(_midi.channel_volumes[ch], _midi.current_volume); + TransmitChannelMsg(MIDIST_CONTROLLER | ch, MIDICT_CHANVOLUME, vol); + } + } + else { + volume_throttle--; + } + } + + LeaveCriticalSection(&_midi.lock); + } + + /* skip beginning of file? */ + if (_midi.current_segment.start > 0 && _midi.current_block == 0 && _midi.current_segment.start_block == 0) { + /* find first block after start time and pretend playback started earlier + * this is to allow all blocks prior to the actual start to still affect playback, + * as they may contain important controller and program changes */ + size_t preload_bytes = 0; + for (size_t bl = 0; bl < _midi.current_file.blocks.size(); bl++) { + MidiFile::DataBlock &block = _midi.current_file.blocks[bl]; + preload_bytes += block.data.Length(); + if (block.ticktime >= _midi.current_segment.start) { + if (_midi.current_segment.loop) { + DEBUG(driver, 2, "Win32-MIDI: timer: loop from block %d (ticktime %d, realtime %.3f, bytes %d)", (int)bl, (int)block.ticktime, ((int)block.realtime)/1000.0, (int)preload_bytes); + _midi.current_segment.start_block = bl; + break; + } else { + DEBUG(driver, 2, "Win32-MIDI: timer: start from block %d (ticktime %d, realtime %.3f, bytes %d)", (int)bl, (int)block.ticktime, ((int)block.realtime) / 1000.0, (int)preload_bytes); + _midi.playback_start_time -= block.realtime / 1000; + break; + } + } + } + } + + + /* play pending blocks */ + DWORD current_time = timeGetTime(); + DWORD playback_time = current_time - _midi.playback_start_time; + while (_midi.current_block < _midi.current_file.blocks.size()) { + MidiFile::DataBlock &block = _midi.current_file.blocks[_midi.current_block]; + + /* check that block is not in the future */ + if (block.realtime / 1000 > playback_time) { + break; + } + /* check that block isn't at end-of-song override */ + if (_midi.current_segment.end > 0 && block.ticktime >= _midi.current_segment.end) { + if (_midi.current_segment.loop) { + _midi.current_block = _midi.current_segment.start_block; + _midi.playback_start_time = timeGetTime() - _midi.current_file.blocks[_midi.current_block].realtime / 1000; + } else { + _midi.do_stop = true; + } + break; + } + + byte *data = block.data.Begin(); + size_t remaining = block.data.Length(); + byte last_status = 0; + while (remaining > 0) { + /* MidiFile ought to have converted everything out of running status, + * but handle it anyway just to be safe */ + byte status = data[0]; + if (status & 0x80) { + last_status = status; + data++; + remaining--; + } else { + status = last_status; + } + switch (status & 0xF0) { + case MIDIST_PROGCHG: + case MIDIST_CHANPRESS: + /* 2 byte channel messages */ + TransmitChannelMsg(status, data[0]); + data++; + remaining--; + break; + case MIDIST_NOTEOFF: + case MIDIST_NOTEON: + case MIDIST_POLYPRESS: + case MIDIST_PITCHBEND: + /* 3 byte channel messages */ + TransmitChannelMsg(status, data[0], data[1]); + data += 2; + remaining -= 2; + break; + case MIDIST_CONTROLLER: + /* controller change */ + if (data[0] == MIDICT_CHANVOLUME) { + /* volume controller, adjust for user volume */ + _midi.channel_volumes[status & 0x0F] = data[1]; + int vol = ScaleVolume(data[1], _midi.current_volume); + TransmitChannelMsg(status, data[0], vol); + } else { + /* handle other controllers normally */ + TransmitChannelMsg(status, data[0], data[1]); + } + data += 2; + remaining -= 2; + break; + case 0xF0: + /* system messages */ + switch (status) { + case MIDIST_SYSEX: /* system exclusive */ + TransmitSysex(data, remaining); + break; + case MIDIST_TC_QFRAME: /* time code quarter frame */ + case MIDIST_SONGSEL: /* song select */ + data++; + remaining--; + break; + case MIDIST_SONGPOSPTR: /* song position pointer */ + data += 2; + remaining -= 2; + break; + default: /* remaining have no data bytes */ + break; + } + break; + } + } - if (MidiSendCommand(_T("open \"%s\" type sequencer alias song"), OTTD2FS(filename)) != 0) { - /* Let's try the "short name" */ - TCHAR buf[MAX_PATH]; - if (GetShortPathName(OTTD2FS(filename), buf, MAX_PATH) == 0) return false; - if (MidiSendCommand(_T("open \"%s\" type sequencer alias song"), buf) != 0) return false; + _midi.current_block++; } - MidiSendCommand(_T("seek song to start wait")); - return MidiSendCommand(_T("play song")) == 0; + /* end? */ + if (_midi.current_block == _midi.current_file.blocks.size()) { + if (_midi.current_segment.loop) { + _midi.current_block = 0; + _midi.playback_start_time = timeGetTime(); + } else { + _midi.do_stop = true; + } + } } -static void MidiIntStopSong() +void MusicDriver_Win32::PlaySong(const char *filename) { - MidiSendCommand(_T("close all")); + DEBUG(driver, 2, "Win32-MIDI: PlaySong: entry"); + EnterCriticalSection(&_midi.lock); + + _midi.next_file.LoadFile(filename); + _midi.next_segment.start = 0; + _midi.next_segment.end = 0; + _midi.next_segment.loop = false; + + DEBUG(driver, 2, "Win32-MIDI: PlaySong: setting flag"); + _midi.do_stop = _midi.playing; + _midi.do_start = true; + + if (_midi.timer_id == 0) { + DEBUG(driver, 2, "Win32-MIDI: PlaySong: starting timer"); + _midi.timer_id = timeSetEvent(_midi.time_period, _midi.time_period, TimerCallback, (DWORD_PTR)this, TIME_PERIODIC | TIME_CALLBACK_FUNCTION); + } + + LeaveCriticalSection(&_midi.lock); } -static void MidiIntSetVolume(int vol) +void MusicDriver_Win32::StopSong() { - DWORD v = (vol * 65535 / 127); - midiOutSetVolume((HMIDIOUT)_midi.devid, v + (v << 16)); + DEBUG(driver, 2, "Win32-MIDI: StopSong: entry"); + EnterCriticalSection(&_midi.lock); + DEBUG(driver, 2, "Win32-MIDI: StopSong: setting flag"); + _midi.do_stop = true; + LeaveCriticalSection(&_midi.lock); } -static bool MidiIntIsSongPlaying() +bool MusicDriver_Win32::IsSongPlaying() { - char buf[16]; - mciSendStringA("status song mode", buf, sizeof(buf), 0); - return strcmp(buf, "playing") == 0 || strcmp(buf, "seeking") == 0; + return _midi.playing || _midi.do_start; } -static DWORD WINAPI MidiThread(LPVOID arg) +void MusicDriver_Win32::SetVolume(byte vol) { - SetWin32ThreadName(-1, "ottd:win-midi"); + EnterCriticalSection(&_midi.lock); + _midi.new_volume = vol; + LeaveCriticalSection(&_midi.lock); +} - do { - char *s; - int vol; +const char *MusicDriver_Win32::Start(const char * const *parm) +{ + DEBUG(driver, 2, "Win32-MIDI: Start: initializing"); - vol = _midi.new_vol; - if (vol != -1) { - _midi.new_vol = -1; - MidiIntSetVolume(vol); - } + InitializeCriticalSection(&_midi.lock); - s = _midi.start_song; - if (s[0] != '\0') { - _midi.playing = MidiIntPlaySong(s); - s[0] = '\0'; + int resolution = GetDriverParamInt(parm, "resolution", 5); + int port = GetDriverParamInt(parm, "port", -1); - /* Delay somewhat in case we don't manage to play. */ - if (!_midi.playing) WaitForMultipleObjects(1, &_midi.wait_obj, FALSE, 5000); - } + UINT devid; + if (port < 0) { + devid = MIDI_MAPPER; + } else { + devid = (UINT)port; + } - if (_midi.stop_song && _midi.playing) { - _midi.stop_song = false; - _midi.playing = false; - MidiIntStopSong(); - } + resolution = Clamp(resolution, 1, 20); - if (_midi.playing && !MidiIntIsSongPlaying()) _midi.playing = false; + if (midiOutOpen(&_midi.midi_out, devid, (DWORD_PTR)&MidiOutProc, (DWORD_PTR)this, CALLBACK_FUNCTION) != MMSYSERR_NOERROR) { + return "could not open midi device"; + } - WaitForMultipleObjects(1, &_midi.wait_obj, FALSE, 1000); - } while (!_midi.terminate); + midiOutReset(_midi.midi_out); - MidiIntStopSong(); - return 0; -} + /* Standard "Enable General MIDI" message */ + static byte gm_enable_sysex[] = { 0xF0, 0x7E, 0x00, 0x09, 0x01, 0xF7 }; + TransmitSysexConst(&gm_enable_sysex[0], sizeof(gm_enable_sysex)); -const char *MusicDriver_Win32::Start(const char * const *parm) -{ - MIDIOUTCAPS midicaps; - UINT nbdev; - UINT_PTR dev; - char buf[16]; - - mciSendStringA("capability sequencer has audio", buf, lengthof(buf), 0); - if (strcmp(buf, "true") != 0) return "MCI sequencer can't play audio"; - - memset(&_midi, 0, sizeof(_midi)); - _midi.new_vol = -1; - - /* Get midi device */ - _midi.devid = MIDI_MAPPER; - for (dev = 0, nbdev = midiOutGetNumDevs(); dev < nbdev; dev++) { - if (midiOutGetDevCaps(dev, &midicaps, sizeof(midicaps)) == 0 && (midicaps.dwSupport & MIDICAPS_VOLUME)) { - _midi.devid = dev; - break; + /* prepare multimedia timer */ + TIMECAPS timecaps; + if (timeGetDevCaps(&timecaps, sizeof(timecaps)) == MMSYSERR_NOERROR) { + _midi.time_period = min(max((UINT)resolution, timecaps.wPeriodMin), timecaps.wPeriodMax); + if (timeBeginPeriod(_midi.time_period) == MMSYSERR_NOERROR) { + /* success */ + DEBUG(driver, 2, "Win32-MIDI: Start: timer resolution is %d", (int)_midi.time_period); + return NULL; } } - - if (NULL == (_midi.wait_obj = CreateEvent(NULL, FALSE, FALSE, NULL))) return "Failed to create event"; - - /* The lpThreadId parameter of CreateThread (the last parameter) - * may NOT be NULL on Windows 95, 98 and ME. */ - DWORD threadId; - if (NULL == (_midi.thread = CreateThread(NULL, 8192, MidiThread, 0, 0, &threadId))) return "Failed to create thread"; - - return NULL; + midiOutClose(_midi.midi_out); + return "could not set timer resolution"; } void MusicDriver_Win32::Stop() { - _midi.terminate = true; - SetEvent(_midi.wait_obj); - WaitForMultipleObjects(1, &_midi.thread, true, INFINITE); - CloseHandle(_midi.wait_obj); - CloseHandle(_midi.thread); + EnterCriticalSection(&_midi.lock); + + if (_midi.timer_id) { + timeKillEvent(_midi.timer_id); + _midi.timer_id = 0; + } + + timeEndPeriod(_midi.time_period); + midiOutReset(_midi.midi_out); + midiOutClose(_midi.midi_out); + + LeaveCriticalSection(&_midi.lock); + DeleteCriticalSection(&_midi.lock); } -- cgit v1.2.3-70-g09d2