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ref: 4f6d19af20a486bdba53ac15a00b1e1f87567276
dir: /mus.c/

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/*
	MUS2MIDI: MUS to MIDI Library

	Copyright (C) 2014  Bret Curtis

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Library General Public
	License as published by the Free Software Foundation; either
	version 2 of the License, or (at your option) any later version.

	This library 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
	Library General Public License for more details.

	You should have received a copy of the GNU Library General Public
	License along with this library; if not, write to the
	Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
	Boston, MA  02110-1301, USA.
*/

#include <stddef.h>
#include <stdio.h> /* fprintf */
#include <stdlib.h>
#include <string.h>
#include "mus.h"

#define FREQUENCY					140 /* default Hz or BPM */

#if 0 /* older units: */
#define TEMPO						0x001aa309 /* MPQN: 60000000 / 34.37Hz = 1745673 */
#define DIVISION					0x0059 /* 89 -- used by many mus2midi converters */
#endif

#define TEMPO						0x00068A1B /* MPQN: 60000000 / 140BPM (140Hz) = 428571 */
						/*	0x000D1436 -> MPQN: 60000000 /  70BPM  (70Hz) = 857142 */

#define DIVISION					0x0101 /* 257 for 140Hz files with a 140MPQN */
						/*	0x0088 -> 136 for  70Hz files with a 140MPQN */
						/*	0x010B -> 267 for  70hz files with a 70MPQN  */
						/*	0x01F9 -> 505 for 140hz files with a 70MPQN  */

/* New
 * QLS: MPQN/1000000 = 0.428571
 * TDPS: QLS/PPQN = 0.428571/136 = 0.003151257
 * PPQN: 136
 *
 * QLS: MPQN/1000000 = 0.428571
 * TDPS: QLS/PPQN = 0.428571/257 = 0.001667591
 * PPQN: 257
 *
 * QLS: MPQN/1000000 = 0.857142
 * TDPS: QLS/PPQN = 0.857142/267 = 0.00321027
 * PPQN: 267
 *
 * QLS: MPQN/1000000 = 0.857142
 * TDPS: QLS/PPQN = 0.857142/505 = 0.001697311
 * PPQN: 505
 *
 * Old
 * QLS: MPQN/1000000 = 1.745673
 * TDPS: QLS/PPQN = 1.745673 / 89 = 0.019614303 (seconds per tick)
 * PPQN: (TDPS = QLS/PPQN) (0.019614303 = 1.745673/PPQN) (0.019614303*PPQN = 1.745673) (PPQN = 89.000001682)
 */

#define MUSEVENT_KEYOFF				0
#define MUSEVENT_KEYON				1
#define MUSEVENT_PITCHWHEEL			2
#define MUSEVENT_CHANNELMODE		3
#define MUSEVENT_CONTROLLERCHANGE	4
#define MUSEVENT_END				6

#define MIDI_MAXCHANNELS			16

static const char MUS_ID[] = { 'M', 'U', 'S', 0x1A };

static const uint8_t midimap[] =
{/*	MIDI	Number	Description */
	0,	/* 0	program change */
	0,	/* 1	bank selection */
	0x01,	/* 2	Modulation pot (frequency vibrato depth) */
	0x07,	/* 3	Volume: 0-silent, ~100-normal, 127-loud */
	0x0A,	/* 4	Pan (balance) pot: 0-left, 64-center (default), 127-right */
	0x0B,	/* 5	Expression pot */
	0x5B,	/* 6	Reverb depth */
	0x5D,	/* 7	Chorus depth */
	0x40,	/* 8	Sustain pedal */
	0x43,	/* 9	Soft pedal */
	0x78,	/* 10	All sounds off */
	0x7B,	/* 11	All notes off */
	0x7E,	/* 12	Mono (use numchannels + 1) */
	0x7F,	/* 13	Poly */
	0x79,	/* 14	reset all controllers */
};

typedef struct MUSHeader {
	char ID[4];		/* identifier: "MUS" 0x1A */
	uint16_t scoreLen;
	uint16_t scoreStart;
	uint16_t channels;	/* count of primary channels */
	uint16_t sec_channels;	/* count of secondary channels */
	uint16_t instrCnt;
} MUSHeader ;
#define MUS_HEADERSIZE 14

typedef struct MidiHeaderChunk {
	char name[4];
	int32_t length;
	int16_t format; /* make 0 */
	int16_t ntracks;/* make 1 */
	int16_t division; /* 0xe250 ?? */
} MidiHeaderChunk;
#define MIDI_HEADERSIZE 14

typedef struct MidiTrackChunk {
	char name[4];
	int32_t	length;
} MidiTrackChunk;
#define TRK_CHUNKSIZE 8

struct mus_ctx {
	const uint8_t *src, *src_ptr;
	uint32_t srcsize;
	uint32_t datastart;
	uint8_t *dst, *dst_ptr;
	uint32_t dstsize, dstrem;
};

#define DST_CHUNK 8192
static void resize_dst(struct mus_ctx *ctx) {
	uint32_t pos = ctx->dst_ptr - ctx->dst;
	ctx->dst = realloc(ctx->dst, ctx->dstsize + DST_CHUNK);
	ctx->dstsize += DST_CHUNK;
	ctx->dstrem += DST_CHUNK;
	ctx->dst_ptr = ctx->dst + pos;
}

static void write1(struct mus_ctx *ctx, uint32_t val)
{
	if (ctx->dstrem < 1)
		resize_dst(ctx);
	*ctx->dst_ptr++ = val & 0xff;
	ctx->dstrem--;
}

static void write2(struct mus_ctx *ctx, uint32_t val)
{
	if (ctx->dstrem < 2)
		resize_dst(ctx);
	*ctx->dst_ptr++ = (val>>8) & 0xff;
	*ctx->dst_ptr++ = val & 0xff;
	ctx->dstrem -= 2;
}

static void write4(struct mus_ctx *ctx, uint32_t val)
{
	if (ctx->dstrem < 4)
		resize_dst(ctx);
	*ctx->dst_ptr++ = (val>>24)&0xff;
	*ctx->dst_ptr++ = (val>>16)&0xff;
	*ctx->dst_ptr++ = (val>>8) & 0xff;
	*ctx->dst_ptr++ = val & 0xff;
	ctx->dstrem -= 4;
}

static void seekdst(struct mus_ctx *ctx, uint32_t pos) {
	ctx->dst_ptr = ctx->dst + pos;
	while (ctx->dstsize < pos)
		resize_dst(ctx);
	ctx->dstrem = ctx->dstsize - pos;
}

static void skipdst(struct mus_ctx *ctx, int32_t pos) {
	size_t newpos;
	ctx->dst_ptr += pos;
	newpos = ctx->dst_ptr - ctx->dst;
	while (ctx->dstsize < newpos)
		resize_dst(ctx);
	ctx->dstrem = ctx->dstsize - newpos;
}

static uint32_t getdstpos(struct mus_ctx *ctx) {
	return (ctx->dst_ptr - ctx->dst);
}

/* writes a variable length integer to a buffer, and returns bytes written */
static int32_t writevarlen(int32_t value, uint8_t *out)
{
	int32_t buffer, count = 0;

	buffer = value & 0x7f;
	while ((value >>= 7) > 0) {
		buffer <<= 8;
		buffer += 0x80;
		buffer += (value & 0x7f);
	}

	while (1) {
		++count;
		*out = (uint8_t)buffer;
		++out;
		if (buffer & 0x80)
			buffer >>= 8;
		else
			break;
	}
	return (count);
}

#define READ_INT16(b) ((b)[0] | ((b)[1] << 8))
#define READ_INT32(b) ((b)[0] | ((b)[1] << 8) | ((b)[2] << 16) | ((b)[3] << 24))

int mus2midi(const uint8_t *in, uint32_t insize,
		 uint8_t **out, uint32_t *outsize,
		 uint16_t frequency) {
	struct mus_ctx ctx;
	MUSHeader header;
	const uint8_t *cur, *end;
	uint32_t track_size_pos, begin_track_pos, current_pos;
	int32_t delta_time; /* Delta time for midi event */
	int temp, ret = -1;
	int channel_volume[MIDI_MAXCHANNELS];
	int channelMap[MIDI_MAXCHANNELS], currentChannel;

	if (insize < MUS_HEADERSIZE) {
		fprintf(stderr, "mus2midi: file too short\n");
		return (-1);
	}

	if (!frequency)
		frequency = FREQUENCY;

	/* read the MUS header and set our location */
	memcpy(header.ID, in, 4);
	header.scoreLen = READ_INT16(&in[4]);
	header.scoreStart = READ_INT16(&in[6]);
	header.channels = READ_INT16(&in[8]);
	header.sec_channels = READ_INT16(&in[10]);
	header.instrCnt = READ_INT16(&in[12]);

	if (memcmp(header.ID, MUS_ID, 4)) {
		fprintf(stderr, "mus2midi: not a MUS file\n");
		return (-1);
	}
	if (insize < (uint32_t)header.scoreLen + (uint32_t)header.scoreStart) {
		fprintf(stderr, "mus2midi: file too short\n");
		return (-1);
	}
	/* channel #15 should be excluded in the numchannels field: */
	if (header.channels > MIDI_MAXCHANNELS - 1) {
		fprintf(stderr, "mus2midi: bad MUS file\n");
		return (-1);
	}

	memset(&ctx, 0, sizeof(struct mus_ctx));
	ctx.src = ctx.src_ptr = in;
	ctx.srcsize = insize;

	ctx.dst = calloc(DST_CHUNK, sizeof(uint8_t));
	ctx.dst_ptr = ctx.dst;
	ctx.dstsize = DST_CHUNK;
	ctx.dstrem = DST_CHUNK;

	/* Map channel 15 to 9 (percussions) */
	for (temp = 0; temp < MIDI_MAXCHANNELS; ++temp) {
		channelMap[temp] = -1;
		channel_volume[temp] = 0x40;
	}
	channelMap[15] = 9;

	/* Header is 14 bytes long and add the rest as well */
	write1(&ctx, 'M');
	write1(&ctx, 'T');
	write1(&ctx, 'h');
	write1(&ctx, 'd');
	write4(&ctx, 6);	/* length of header */
	write2(&ctx, 0);	/* MIDI type (always 0) */
	write2(&ctx, 1);	/* MUS files only have 1 track */
	write2(&ctx, DIVISION);	/* division */

	/* Write out track header and track length position for later */
	begin_track_pos = getdstpos(&ctx);
	write1(&ctx, 'M');
	write1(&ctx, 'T');
	write1(&ctx, 'r');
	write1(&ctx, 'k');
	track_size_pos = getdstpos(&ctx);
	skipdst(&ctx, 4);

	/* write tempo: microseconds per quarter note */
	write1(&ctx, 0x00);	/* delta time */
	write1(&ctx, 0xff);	/* sys command */
	write2(&ctx, 0x5103);	/* command - set tempo */
	write1(&ctx, TEMPO & 0x000000ff);
	write1(&ctx, (TEMPO & 0x0000ff00) >> 8);
	write1(&ctx, (TEMPO & 0x00ff0000) >> 16);

	/* Percussions channel starts out at full volume */
	write1(&ctx, 0x00);
	write1(&ctx, 0xB9);
	write1(&ctx, 0x07);
	write1(&ctx, 127);

	/* get current position in source, and end of position */
	cur = in + header.scoreStart;
	end = cur + header.scoreLen;

	currentChannel = 0;
	delta_time = 0;

	/* main loop */
	while(cur < end){
		/*fprintf(stderr, "LOOP DEBUG: %d\r\n",iterator++);*/
		uint8_t channel;
		uint8_t event;
		uint8_t temp_buffer[32];	/* temp buffer for current iterator */
		uint8_t *out_local = temp_buffer;
		uint8_t status, bit1, bit2, bitc = 2;

		/* read in current bit */
		event = *cur++;
		channel = (event & 15);		/* current channel */

		/* write variable length delta time */
		out_local += writevarlen(delta_time, out_local);

		/* set all channels to 127 (max) volume */
		if (channelMap[channel] < 0) {
			*out_local++ = 0xB0 + currentChannel;
			*out_local++ = 0x07;
			*out_local++ = 127;
			*out_local++ = 0x00;
			channelMap[channel] = currentChannel++;
			if (currentChannel == 9)
				++currentChannel;
		}
		status = channelMap[channel];

		/* handle events */
		switch ((event & 122) >> 4){
			case MUSEVENT_KEYOFF:
				status |=  0x80;
				bit1 = *cur++;
				bit2 = 0x40;
				break;
			case MUSEVENT_KEYON:
				status |= 0x90;
				bit1 = *cur & 127;
				if (*cur++ & 128) {	/* volume bit? */
					channel_volume[channelMap[channel]] = *cur++;
					/* The maximum volume is 127, but it is encoded as
					   a byte. Some songs erroneously use values higher
					   than 127, so we have to clamp them down.
					   https://github.com/Mindwerks/wildmidi/pull/226 */
					if (channel_volume[channelMap[channel]] > 127) {
					    channel_volume[channelMap[channel]] = 127;
					}
				}
				bit2 = channel_volume[channelMap[channel]];
				break;
			case MUSEVENT_PITCHWHEEL:
				status |= 0xE0;
				bit1 = (*cur & 1) >> 6;
				bit2 = (*cur++ >> 1) & 127;
				break;
			case MUSEVENT_CHANNELMODE:
				status |= 0xB0;
				if (*cur >= sizeof(midimap) / sizeof(midimap[0])) {
					fprintf(stderr, "mus2midi: can't map %u to midi\n", *cur);
					goto _end;
				}
				bit1 = midimap[*cur++];
				bit2 = (*cur++ == 12) ? header.channels + 1 : 0x00;
				break;
			case MUSEVENT_CONTROLLERCHANGE:
				if (*cur == 0) {
					cur++;
					status |= 0xC0;
					bit1 = *cur++;
					bit2 = 0; /* silence bogus warnings */
					bitc = 1;
				} else {
					status |= 0xB0;
					if (*cur >= sizeof(midimap) / sizeof(midimap[0])) {
						fprintf(stderr, "mus2midi: can't map %u to midi\n", *cur);
						goto _end;
					}
					bit1 = midimap[*cur++];
					bit2 = *cur++;
					/* The maximum volume is 127, but it is encoded as
					   a byte. Some songs erroneously use values higher
					   than 127, so we have to clamp them down.
					   https://github.com/Mindwerks/wildmidi/pull/226 */
					if (bit1 == 0x07 && bit2 > 127) bit2 = 127;
				}
				break;
			case MUSEVENT_END:	/* End */
				status = 0xff;
				bit1 = 0x2f;
				bit2 = 0x00;
				if (cur != end) { /* should we error here or report-only? */
					fprintf(stderr, "mus2midi: MUS buffer off by %ld bytes\n",
										(long)(cur - end));
				}
				break;
			case 5:/* Unknown */
			case 7:/* Unknown */
			default:/* shouldn't happen */
				fprintf(stderr, "mus2midi: unrecognized event (%u)\n", event);
				goto _end;
		}

		/* write it out */
		*out_local++ = status;
		*out_local++ = bit1;
		if (bitc == 2)
			*out_local++ = bit2;

		/* write out our temp buffer */
		if (out_local != temp_buffer)
		{
			if (ctx.dstrem < sizeof(temp_buffer))
				resize_dst(&ctx);

			memcpy(ctx.dst_ptr, temp_buffer, out_local - temp_buffer);
			ctx.dst_ptr += out_local - temp_buffer;
			ctx.dstrem -= out_local - temp_buffer;
		}

		if (event & 128) {
			delta_time = 0;
			do {
				delta_time = (delta_time * 128 + (*cur & 127)) * (140.0 / frequency);
			} while ((*cur++ & 128));
		} else {
			delta_time = 0;
		}
	}

	/* write out track length */
	current_pos = getdstpos(&ctx);
	seekdst(&ctx, track_size_pos);
	write4(&ctx, current_pos - begin_track_pos - TRK_CHUNKSIZE);
	seekdst(&ctx, current_pos);	/* reseek to end position */

	*out = ctx.dst;
	*outsize = ctx.dstsize - ctx.dstrem;
	ret = 0;

_end:	/* cleanup */
	if (ret < 0) {
		free(ctx.dst);
		*out = NULL;
		*outsize = 0;
	}

	return (ret);
}