gzdoom-gles/dumb/src/it/readptm.c

/*  _______         ____    __         ___    ___
 * \    _  \       \    /  \  /       \   \  /   /       '   '  '
 *  |  | \  \       |  |    ||         |   \/   |         .      .
 *  |  |  |  |      |  |    ||         ||\  /|  |
 *  |  |  |  |      |  |    ||         || \/ |  |         '  '  '
 *  |  |  |  |      |  |    ||         ||    |  |         .      .
 *  |  |_/  /        \  \__//          ||    |  |
 * /_______/ynamic    \____/niversal  /__\  /____\usic   /|  .  . ibliotheque
 *                                                      /  \
 *                                                     / .  \
 * readptm.c - Code to read a Poly Tracker v2.03      / / \  \
 *             module from an open file.             | <  /   \_
 *                                                   |  \/ /\   /
 * By Chris Moeller. Based on reads3m.c               \_  /  > /
 * by entheh.                                           | \ / /
 *                                                      |  ' /
 *                                                       \__/
 */

// IT_STEREO... :o
#include <stdlib.h>
#include <string.h>

#include "dumb.h"
#include "internal/it.h"


/** WARNING: this is duplicated in itread.c */
static int it_seek(DUMBFILE *f, int32 offset)
{
	int32 pos = dumbfile_pos(f);

	if (pos > offset)
		return -1;

	if (pos < offset)
		if (dumbfile_skip(f, offset - pos))
			return -1;

	return 0;
}


static int it_ptm_read_sample_header(IT_SAMPLE *sample, int32 *offset, DUMBFILE *f)
{
	int flags;

	flags = dumbfile_getc(f);

	dumbfile_getnc(sample->filename, 12, f);
	sample->filename[12] = 0;

	sample->default_volume = dumbfile_getc(f);

	sample->C5_speed = dumbfile_igetw(f) << 1;

	dumbfile_skip(f, 2); /* segment */

	*offset = dumbfile_igetl(f);

	sample->length = dumbfile_igetl(f);
	sample->loop_start = dumbfile_igetl(f);
	sample->loop_end = dumbfile_igetl(f);

	/* GUSBegin, GUSLStart, GUSLEnd, GUSLoop, reserverd */
	dumbfile_skip(f, 4+4+4+1+1);

	dumbfile_getnc(sample->name, 28, f);
	sample->name[28] = 0;

	/*
	if (dumbfile_mgetl(f) != DUMB_ID('P','T','M','S'))
		return -1;
	*/

	/* BLAH! Shit likes to have broken or missing sample IDs */
	dumbfile_skip(f, 4);

	if ((flags & 3) == 0) {
		/* Looks like no sample */
		sample->flags &= ~IT_SAMPLE_EXISTS;
		return dumbfile_error(f);
	}

	sample->global_volume = 64;

	sample->flags = IT_SAMPLE_EXISTS;
	if (flags & 4) sample->flags |= IT_SAMPLE_LOOP;
	if (flags & 8) sample->flags |= IT_SAMPLE_PINGPONG_LOOP;

	if (flags & 16) {
		sample->flags |= IT_SAMPLE_16BIT;

		sample->length >>= 1;
		sample->loop_start >>= 1;
		sample->loop_end >>= 1;
	}

	if (sample->loop_end) sample->loop_end--;

	sample->default_pan = 0; // 0 = don't use, or 160 = centre?

	if (sample->length <= 0)
		sample->flags &= ~IT_SAMPLE_EXISTS;
	else if (sample->flags & IT_SAMPLE_LOOP) {
		if ((unsigned int)sample->loop_end > (unsigned int)sample->length)
			sample->flags &= ~IT_SAMPLE_LOOP;
		else if ((unsigned int)sample->loop_start >= (unsigned int)sample->loop_end)
			sample->flags &= ~IT_SAMPLE_LOOP;
		else
			sample->length = sample->loop_end;
	}


	//Do we need to set all these?
	sample->vibrato_speed = 0;
	sample->vibrato_depth = 0;
	sample->vibrato_rate = 0;
	sample->vibrato_waveform = IT_VIBRATO_SINE;
	sample->finetune = 0;
	sample->max_resampling_quality = -1;

	return dumbfile_error(f);
}


static int it_ptm_read_byte(DUMBFILE *f)
{
	int meh = dumbfile_getc(f);
	if (meh < 0) return 0;
	return meh;
}

static int it_ptm_read_sample_data(IT_SAMPLE *sample, int last, DUMBFILE *f)
{
	int32 n;
	int s;

	sample->data = malloc(sample->length * (sample->flags & IT_SAMPLE_16BIT ? 2 : 1));
	if (!sample->data)
		return -1;

	s = 0;

	if (sample->flags & IT_SAMPLE_16BIT) {
		unsigned char a, b;
		for (n = 0; n < sample->length; n++) {
			a = s += (signed char) it_ptm_read_byte(f);
			b = s += (signed char) it_ptm_read_byte(f);
			((short *)sample->data)[n] = a | (b << 8);
		}
	} else {
		for (n = 0; n < sample->length; n++) {
			s += (signed char) it_ptm_read_byte(f);
			((signed char *)sample->data)[n] = s;
		}
	}

	if (dumbfile_error(f) && !last)
		return -1;

	return 0;
}


static int it_ptm_read_pattern(IT_PATTERN *pattern, DUMBFILE *f, unsigned char *buffer, int length)
{
	int buflen = 0;
	int bufpos = 0;
	int effect, effectvalue;

	IT_ENTRY *entry;

	unsigned char channel;

	if (!length)
		return -1;

	pattern->n_rows = 0;
	pattern->n_entries = 0;

	/* Read in the pattern data, little by little, and work out how many
	 * entries we need room for. Sorry, but this is just so funny...
	 */
	for (;;) {
		unsigned char b = buffer[buflen++] = dumbfile_getc(f);

#if 1
		static const unsigned char used[8] = {0, 2, 2, 4, 1, 3, 3, 5};
		channel = b & 31;
		b >>= 5;
		pattern->n_entries++;
		if (b) {
			if (buflen + used[b] >= 65536) return -1;
			dumbfile_getnc(buffer + buflen, used[b], f);
			buflen += used[b];
		} else {
			/* End of row */
			if (++pattern->n_rows == 64) break;
			if (buflen >= 65536) return -1;
		}
#else
		if (b == 0) {
			/* End of row */
			pattern->n_entries++;
			if (++pattern->n_rows == 64) break;
			if (buflen >= 65536) return -1;
		} else {
			static const unsigned char used[8] = {0, 2, 2, 4, 1, 3, 3, 5};
			channel = b & 31;
			b >>= 5;
			if (b) {
				pattern->n_entries++;
				if (buflen + used[b] >= 65536) return -1;
				dumbfile_getnc(buffer + buflen, used[b], f);
				buflen += used[b];
			}
		}
#endif

		/* We have ensured that buflen < 65536 at this point, so it is safe
		 * to iterate and read at least one more byte without checking.
		 * However, now would be a good time to check for errors reading from
		 * the file.
		 */

		if (dumbfile_error(f))
			return -1;

		/* Great. We ran out of data, but there should be data for more rows.
		 * Fill the rest with null data...
		 */
		if (buflen >= length && pattern->n_rows < 64)
		{
			while (pattern->n_rows < 64)
			{
				if (buflen >= 65536) return -1;
				buffer[buflen++] = 0;
				pattern->n_entries++;
				pattern->n_rows++;
			}
			break;
		}
	}

	pattern->entry = malloc(pattern->n_entries * sizeof(*pattern->entry));

	if (!pattern->entry)
		return -1;

	entry = pattern->entry;

	while (bufpos < buflen) {
		unsigned char b = buffer[bufpos++];

		if (b == 0)
		{
			/* End of row */
			IT_SET_END_ROW(entry);
			entry++;
			continue;
		}

		channel = b & 31;

		if (b & 224) {
			entry->mask = 0;
			entry->channel = channel;

			if (b & 32) {
				unsigned char n = buffer[bufpos++];
				if (n == 254 || (n >= 1 && n <= 120)) {
					if (n == 254)
						entry->note = IT_NOTE_CUT;
					else
						entry->note = n - 1;
					entry->mask |= IT_ENTRY_NOTE;
				}

				entry->instrument = buffer[bufpos++];
				if (entry->instrument)
					entry->mask |= IT_ENTRY_INSTRUMENT;
			}

			if (b & 64) {
				effect = buffer[bufpos++];
				effectvalue = buffer[bufpos++];
				_dumb_it_ptm_convert_effect(effect, effectvalue, entry);
			}

			if (b & 128) {
				entry->volpan = buffer[bufpos++];
				if (entry->volpan <= 64)
					entry->mask |= IT_ENTRY_VOLPAN;
			}

			entry++;
		}
	}

	ASSERT(entry == pattern->entry + pattern->n_entries);

	return 0;
}


/** WARNING: this is duplicated in itread.c - also bad practice to use the same struct name unless they are unified in a header */
/* Currently we assume the sample data are stored after the sample headers in
 * module files. This assumption may be unjustified; let me know if you have
 * trouble.
 */

#define PTM_COMPONENT_INSTRUMENT 1
#define PTM_COMPONENT_PATTERN    2
#define PTM_COMPONENT_SAMPLE     3

typedef struct PTM_COMPONENT
{
	unsigned char type;
	unsigned char n;
	int32 offset;
}
PTM_COMPONENT;


static int CDECL ptm_component_compare(const void *e1, const void *e2)
{
	return ((const PTM_COMPONENT *)e1)->offset -
	       ((const PTM_COMPONENT *)e2)->offset;
}


static DUMB_IT_SIGDATA *it_ptm_load_sigdata(DUMBFILE *f)
{
	DUMB_IT_SIGDATA *sigdata;

	PTM_COMPONENT *component;
	int n_components = 0;

	int n;

	unsigned char *buffer;

	sigdata = malloc(sizeof(*sigdata));
	if (!sigdata) return NULL;

	/* Skip song name. */
	dumbfile_getnc(sigdata->name, 28, f);
	sigdata->name[28] = 0;

	if (dumbfile_getc(f) != 0x1A || dumbfile_igetw(f) != 0x203) {
		free(sigdata);
		return NULL;
	}

	dumbfile_skip(f, 1);

	sigdata->song_message = NULL;
	sigdata->order = NULL;
	sigdata->instrument = NULL;
	sigdata->sample = NULL;
	sigdata->pattern = NULL;
	sigdata->midi = NULL;
	sigdata->checkpoint = NULL;

	sigdata->n_orders = dumbfile_igetw(f);
	sigdata->n_instruments = 0;
	sigdata->n_samples = dumbfile_igetw(f);
	sigdata->n_patterns = dumbfile_igetw(f);

	if (dumbfile_error(f) || sigdata->n_orders <= 0 || sigdata->n_samples > 255 || sigdata->n_patterns > 128) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	sigdata->n_pchannels = dumbfile_igetw(f);

	if (dumbfile_igetw(f) != 0) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	dumbfile_skip(f, 2);

	if (dumbfile_mgetl(f) != DUMB_ID('P','T','M','F')) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	dumbfile_skip(f, 16);

	sigdata->order = malloc(sigdata->n_orders);
	if (!sigdata->order) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	if (sigdata->n_samples) {
		sigdata->sample = malloc(sigdata->n_samples * sizeof(*sigdata->sample));
		if (!sigdata->sample) {
			_dumb_it_unload_sigdata(sigdata);
			return NULL;
		}
		for (n = 0; n < sigdata->n_samples; n++)
			sigdata->sample[n].data = NULL;
	}

	if (sigdata->n_patterns) {
		sigdata->pattern = malloc(sigdata->n_patterns * sizeof(*sigdata->pattern));
		if (!sigdata->pattern) {
			_dumb_it_unload_sigdata(sigdata);
			return NULL;
		}
		for (n = 0; n < sigdata->n_patterns; n++)
			sigdata->pattern[n].entry = NULL;
	}

	/** WARNING: which ones? */
	sigdata->flags = IT_STEREO | IT_OLD_EFFECTS | IT_COMPATIBLE_GXX | IT_WAS_A_PTM;

	sigdata->global_volume = 128;
	sigdata->speed = 6;
	sigdata->tempo = 125;
	sigdata->mixing_volume = 48;

	/* Panning positions for 32 channels */
	{
		int i;
		for (i = 0; i < 32; i++) {
			int c = dumbfile_getc(f);
			if (c <= 15) {
				sigdata->channel_volume[i] = 64;
				sigdata->channel_pan[i] = c;
			} else {
				/** WARNING: this could be improved if we support channel muting... */
				sigdata->channel_volume[i] = 0;
				sigdata->channel_pan[i] = 7;
			}
		}
	}

	/* Orders, byte each, length = sigdata->n_orders (should be even) */
	dumbfile_getnc(sigdata->order, sigdata->n_orders, f);
	sigdata->restart_position = 0;

	component = malloc(768*sizeof(*component));
	if (!component) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	if (it_seek(f, 352)) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	for (n = 0; n < sigdata->n_patterns; n++) {
		component[n_components].type = PTM_COMPONENT_PATTERN;
		component[n_components].n = n;
		component[n_components].offset = dumbfile_igetw(f) << 4;
		n_components++;
	}

	if (it_seek(f, 608)) {
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	for (n = 0; n < sigdata->n_samples; n++) {
		if (it_ptm_read_sample_header(&sigdata->sample[n], &component[n_components].offset, f)) {
			_dumb_it_unload_sigdata(sigdata);
			return NULL;
		}
		if (!(sigdata->sample[n].flags & IT_SAMPLE_EXISTS)) continue;
		component[n_components].type = PTM_COMPONENT_SAMPLE;
		component[n_components].n = n;
		n_components++;
	}

	qsort(component, n_components, sizeof(PTM_COMPONENT), &ptm_component_compare);

	{
		int i;
		for (i = 0; i < 32; i++) {
			sigdata->channel_pan[i] -= (sigdata->channel_pan[i] & 8) >> 3;
			sigdata->channel_pan[i] = ((int)sigdata->channel_pan[i] << 5) / 7;
			if (sigdata->channel_pan[i] > 64) sigdata->channel_pan[i] = 64;
		}
	}

	sigdata->pan_separation = 128;

	if (dumbfile_error(f)) {
		free(component);
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	buffer = malloc(65536);
	if (!buffer) {
		free(component);
		_dumb_it_unload_sigdata(sigdata);
		return NULL;
	}

	for (n = 0; n < n_components; n++) {
		if (it_seek(f, component[n].offset)) {
			free(buffer);
			free(component);
			_dumb_it_unload_sigdata(sigdata);
			return NULL;
		}

		switch (component[n].type) {

			case PTM_COMPONENT_PATTERN:
				if (it_ptm_read_pattern(&sigdata->pattern[component[n].n], f, buffer, (n + 1 < n_components) ? (component[n+1].offset - component[n].offset) : 0)) {
					free(buffer);
					free(component);
					_dumb_it_unload_sigdata(sigdata);
					return NULL;
				}
				break;

			case PTM_COMPONENT_SAMPLE:
				if (it_ptm_read_sample_data(&sigdata->sample[component[n].n], (n + 1 == n_components), f)) {
					free(buffer);
					free(component);
					_dumb_it_unload_sigdata(sigdata);
					return NULL;
				}
		}
	}

	free(buffer);
	free(component);

	_dumb_it_fix_invalid_orders(sigdata);

	return sigdata;
}

DUH *DUMBEXPORT dumb_read_ptm_quick(DUMBFILE *f)
{
	sigdata_t *sigdata;

	DUH_SIGTYPE_DESC *descptr = &_dumb_sigtype_it;

	sigdata = it_ptm_load_sigdata(f);

	if (!sigdata)
		return NULL;

	{
		const char *tag[2][2];
		tag[0][0] = "TITLE";
		tag[0][1] = ((DUMB_IT_SIGDATA *)sigdata)->name;
		tag[1][0] = "FORMAT";
		tag[1][1] = "PTM";
		return make_duh(-1, 2, (const char *const (*)[2])tag, 1, &descptr, &sigdata);
	}
}
- Added an alternate module replay engine that uses foo_dumb's replayer, a heavily customized version of DUMB (Dynamic Universal Music Bibliotheque). It has been slightly modified by me: * Added support for Ogg Vorbis-compressed samples in XM files ala FMOD. * Removed excessive mallocs from the replay core. * Rerolled the loops in resample.c. Unrolling them made the object file ~250k large while providing little benefit. Even at ~100k, I think it's still larger than it ought to be, but I'll live with it for now. Other than that, it's essentially the same thing you'd hear in foobar2000, minus some subsong detection features. Release builds of the library look like they might even be slightly faster than FMOD, which is a plus. - Fixed: Timidity::font_add() did not release the file reader it created. - Fixed: The SF2 loader did not free the sample headers in its destructor. SVN r995 (trunk) 2008-05-29 23:33:07 +00:00			`/* _______ ____ __ ___ ___`
			`* \ _ \ \ / \ / \ \ / / ' ' '`
			`* \| \| \ \ \| \| \|\| \| \/ \| . .`
			`* \| \| \| \| \| \| \|\| \|\|\ /\| \|`
			`* \| \| \| \| \| \| \|\| \|\| \/ \| \| ' ' '`
			`* \| \| \| \| \| \| \|\| \|\| \| \| . .`
			`* \| \|_/ / \ \__// \|\| \| \|`
			`* /_______/ynamic \____/niversal /__\ /____\usic /\| . . ibliotheque`
			`* / \`
			`* / . \`
			`* readptm.c - Code to read a Poly Tracker v2.03 / / \ \`
			`* module from an open file. \| < / \_`
			`* \| \/ /\ /`
			`* By Chris Moeller. Based on reads3m.c \_ / > /`
			`* by entheh. \| \ / /`
			`* \| ' /`
			`* \__/`
			`*/`

			`// IT_STEREO... :o`
			`#include <stdlib.h>`
			`#include <string.h>`

			`#include "dumb.h"`
			`#include "internal/it.h"`



			`/** WARNING: this is duplicated in itread.c */`
			`static int it_seek(DUMBFILE *f, int32 offset)`
			`{`
			`int32 pos = dumbfile_pos(f);`

			`if (pos > offset)`
			`return -1;`

			`if (pos < offset)`
			`if (dumbfile_skip(f, offset - pos))`
			`return -1;`

			`return 0;`
			`}`



			`static int it_ptm_read_sample_header(IT_SAMPLE sample, int32 offset, DUMBFILE *f)`
			`{`
			`int flags;`

			`flags = dumbfile_getc(f);`

			`dumbfile_getnc(sample->filename, 12, f);`
			`sample->filename[12] = 0;`

			`sample->default_volume = dumbfile_getc(f);`

			`sample->C5_speed = dumbfile_igetw(f) << 1;`

			`dumbfile_skip(f, 2); /* segment */`

			`*offset = dumbfile_igetl(f);`

			`sample->length = dumbfile_igetl(f);`
			`sample->loop_start = dumbfile_igetl(f);`
			`sample->loop_end = dumbfile_igetl(f);`

			`/* GUSBegin, GUSLStart, GUSLEnd, GUSLoop, reserverd */`
			`dumbfile_skip(f, 4+4+4+1+1);`

			`dumbfile_getnc(sample->name, 28, f);`
			`sample->name[28] = 0;`

			`/*`
			`if (dumbfile_mgetl(f) != DUMB_ID('P','T','M','S'))`
			`return -1;`
			`*/`

			`/* BLAH! Shit likes to have broken or missing sample IDs */`
			`dumbfile_skip(f, 4);`

			`if ((flags & 3) == 0) {`
			`/* Looks like no sample */`
			`sample->flags &= ~IT_SAMPLE_EXISTS;`
			`return dumbfile_error(f);`
			`}`

			`sample->global_volume = 64;`

			`sample->flags = IT_SAMPLE_EXISTS;`
			`if (flags & 4) sample->flags \|= IT_SAMPLE_LOOP;`
			`if (flags & 8) sample->flags \|= IT_SAMPLE_PINGPONG_LOOP;`

			`if (flags & 16) {`
			`sample->flags \|= IT_SAMPLE_16BIT;`

			`sample->length >>= 1;`
			`sample->loop_start >>= 1;`
			`sample->loop_end >>= 1;`
			`}`

			`if (sample->loop_end) sample->loop_end--;`

			`sample->default_pan = 0; // 0 = don't use, or 160 = centre?`

			`if (sample->length <= 0)`
			`sample->flags &= ~IT_SAMPLE_EXISTS;`
			`else if (sample->flags & IT_SAMPLE_LOOP) {`
			`if ((unsigned int)sample->loop_end > (unsigned int)sample->length)`
			`sample->flags &= ~IT_SAMPLE_LOOP;`
			`else if ((unsigned int)sample->loop_start >= (unsigned int)sample->loop_end)`
			`sample->flags &= ~IT_SAMPLE_LOOP;`
			`else`
			`sample->length = sample->loop_end;`
			`}`


			`//Do we need to set all these?`
			`sample->vibrato_speed = 0;`
			`sample->vibrato_depth = 0;`
			`sample->vibrato_rate = 0;`
			`sample->vibrato_waveform = IT_VIBRATO_SINE;`
			`sample->finetune = 0;`
			`sample->max_resampling_quality = -1;`

			`return dumbfile_error(f);`
			`}`


			`static int it_ptm_read_byte(DUMBFILE *f)`
			`{`
			`int meh = dumbfile_getc(f);`
			`if (meh < 0) return 0;`
			`return meh;`
			`}`

			`static int it_ptm_read_sample_data(IT_SAMPLE sample, int last, DUMBFILE f)`
			`{`
			`int32 n;`
			`int s;`

			`sample->data = malloc(sample->length * (sample->flags & IT_SAMPLE_16BIT ? 2 : 1));`
			`if (!sample->data)`
			`return -1;`

			`s = 0;`

			`if (sample->flags & IT_SAMPLE_16BIT) {`
			`unsigned char a, b;`
			`for (n = 0; n < sample->length; n++) {`
			`a = s += (signed char) it_ptm_read_byte(f);`
			`b = s += (signed char) it_ptm_read_byte(f);`
			`((short *)sample->data)[n] = a \| (b << 8);`
			`}`
			`} else {`
			`for (n = 0; n < sample->length; n++) {`
			`s += (signed char) it_ptm_read_byte(f);`
			`((signed char *)sample->data)[n] = s;`
			`}`
			`}`

			`if (dumbfile_error(f) && !last)`
			`return -1;`

			`return 0;`
			`}`



			`static int it_ptm_read_pattern(IT_PATTERN pattern, DUMBFILE f, unsigned char *buffer, int length)`
			`{`
			`int buflen = 0;`
			`int bufpos = 0;`
			`int effect, effectvalue;`

			`IT_ENTRY *entry;`

			`unsigned char channel;`

			`if (!length)`
			`return -1;`

			`pattern->n_rows = 0;`
			`pattern->n_entries = 0;`

			`/* Read in the pattern data, little by little, and work out how many`
			`* entries we need room for. Sorry, but this is just so funny...`
			`*/`
			`for (;;) {`
			`unsigned char b = buffer[buflen++] = dumbfile_getc(f);`

			`#if 1`
			`static const unsigned char used[8] = {0, 2, 2, 4, 1, 3, 3, 5};`
			`channel = b & 31;`
			`b >>= 5;`
			`pattern->n_entries++;`
			`if (b) {`
			`if (buflen + used[b] >= 65536) return -1;`
			`dumbfile_getnc(buffer + buflen, used[b], f);`
			`buflen += used[b];`
			`} else {`
			`/* End of row */`
			`if (++pattern->n_rows == 64) break;`
			`if (buflen >= 65536) return -1;`
			`}`
			`#else`
			`if (b == 0) {`
			`/* End of row */`
			`pattern->n_entries++;`
			`if (++pattern->n_rows == 64) break;`
			`if (buflen >= 65536) return -1;`
			`} else {`
			`static const unsigned char used[8] = {0, 2, 2, 4, 1, 3, 3, 5};`
			`channel = b & 31;`
			`b >>= 5;`
			`if (b) {`
			`pattern->n_entries++;`
			`if (buflen + used[b] >= 65536) return -1;`
			`dumbfile_getnc(buffer + buflen, used[b], f);`
			`buflen += used[b];`
			`}`
			`}`
			`#endif`

			`/* We have ensured that buflen < 65536 at this point, so it is safe`
			`* to iterate and read at least one more byte without checking.`
			`* However, now would be a good time to check for errors reading from`
			`* the file.`
			`*/`

			`if (dumbfile_error(f))`
			`return -1;`

			`/* Great. We ran out of data, but there should be data for more rows.`
			`* Fill the rest with null data...`
			`*/`
			`if (buflen >= length && pattern->n_rows < 64)`
			`{`
			`while (pattern->n_rows < 64)`
			`{`
			`if (buflen >= 65536) return -1;`
			`buffer[buflen++] = 0;`
			`pattern->n_entries++;`
			`pattern->n_rows++;`
			`}`
			`break;`
			`}`
			`}`

			`pattern->entry = malloc(pattern->n_entries * sizeof(*pattern->entry));`

			`if (!pattern->entry)`
			`return -1;`

			`entry = pattern->entry;`

			`while (bufpos < buflen) {`
			`unsigned char b = buffer[bufpos++];`

			`if (b == 0)`
			`{`
			`/* End of row */`
			`IT_SET_END_ROW(entry);`
			`entry++;`
			`continue;`
			`}`

			`channel = b & 31;`

			`if (b & 224) {`
			`entry->mask = 0;`
			`entry->channel = channel;`

			`if (b & 32) {`
			`unsigned char n = buffer[bufpos++];`
			`if (n == 254 \|\| (n >= 1 && n <= 120)) {`
			`if (n == 254)`
			`entry->note = IT_NOTE_CUT;`
			`else`
			`entry->note = n - 1;`
			`entry->mask \|= IT_ENTRY_NOTE;`
			`}`

			`entry->instrument = buffer[bufpos++];`
			`if (entry->instrument)`
			`entry->mask \|= IT_ENTRY_INSTRUMENT;`
			`}`

			`if (b & 64) {`
			`effect = buffer[bufpos++];`
			`effectvalue = buffer[bufpos++];`
			`_dumb_it_ptm_convert_effect(effect, effectvalue, entry);`
			`}`

			`if (b & 128) {`
			`entry->volpan = buffer[bufpos++];`
			`if (entry->volpan <= 64)`
			`entry->mask \|= IT_ENTRY_VOLPAN;`
			`}`

			`entry++;`
			`}`
			`}`

			`ASSERT(entry == pattern->entry + pattern->n_entries);`

			`return 0;`
			`}`



			`/** WARNING: this is duplicated in itread.c - also bad practice to use the same struct name unless they are unified in a header */`
			`/* Currently we assume the sample data are stored after the sample headers in`
			`* module files. This assumption may be unjustified; let me know if you have`
			`* trouble.`
			`*/`

			`#define PTM_COMPONENT_INSTRUMENT 1`
			`#define PTM_COMPONENT_PATTERN 2`
			`#define PTM_COMPONENT_SAMPLE 3`

			`typedef struct PTM_COMPONENT`
			`{`
			`unsigned char type;`
			`unsigned char n;`
			`int32 offset;`
			`}`
			`PTM_COMPONENT;`



			`static int CDECL ptm_component_compare(const void e1, const void e2)`
			`{`
			`return ((const PTM_COMPONENT *)e1)->offset -`
			`((const PTM_COMPONENT *)e2)->offset;`
			`}`



			`static DUMB_IT_SIGDATA it_ptm_load_sigdata(DUMBFILE f)`
			`{`
			`DUMB_IT_SIGDATA *sigdata;`

			`PTM_COMPONENT *component;`
			`int n_components = 0;`

			`int n;`

			`unsigned char *buffer;`

			`sigdata = malloc(sizeof(*sigdata));`
			`if (!sigdata) return NULL;`

			`/* Skip song name. */`
			`dumbfile_getnc(sigdata->name, 28, f);`
			`sigdata->name[28] = 0;`

			`if (dumbfile_getc(f) != 0x1A \|\| dumbfile_igetw(f) != 0x203) {`
			`free(sigdata);`
			`return NULL;`
			`}`

			`dumbfile_skip(f, 1);`

			`sigdata->song_message = NULL;`
			`sigdata->order = NULL;`
			`sigdata->instrument = NULL;`
			`sigdata->sample = NULL;`
			`sigdata->pattern = NULL;`
			`sigdata->midi = NULL;`
			`sigdata->checkpoint = NULL;`

			`sigdata->n_orders = dumbfile_igetw(f);`
			`sigdata->n_instruments = 0;`
			`sigdata->n_samples = dumbfile_igetw(f);`
			`sigdata->n_patterns = dumbfile_igetw(f);`

			`if (dumbfile_error(f) \|\| sigdata->n_orders <= 0 \|\| sigdata->n_samples > 255 \|\| sigdata->n_patterns > 128) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`sigdata->n_pchannels = dumbfile_igetw(f);`

			`if (dumbfile_igetw(f) != 0) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`dumbfile_skip(f, 2);`

			`if (dumbfile_mgetl(f) != DUMB_ID('P','T','M','F')) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`dumbfile_skip(f, 16);`

			`sigdata->order = malloc(sigdata->n_orders);`
			`if (!sigdata->order) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`if (sigdata->n_samples) {`
			`sigdata->sample = malloc(sigdata->n_samples * sizeof(*sigdata->sample));`
			`if (!sigdata->sample) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`
			`for (n = 0; n < sigdata->n_samples; n++)`
			`sigdata->sample[n].data = NULL;`
			`}`

			`if (sigdata->n_patterns) {`
			`sigdata->pattern = malloc(sigdata->n_patterns * sizeof(*sigdata->pattern));`
			`if (!sigdata->pattern) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`
			`for (n = 0; n < sigdata->n_patterns; n++)`
			`sigdata->pattern[n].entry = NULL;`
			`}`

			`/** WARNING: which ones? */`
			`sigdata->flags = IT_STEREO \| IT_OLD_EFFECTS \| IT_COMPATIBLE_GXX \| IT_WAS_A_PTM;`

			`sigdata->global_volume = 128;`
			`sigdata->speed = 6;`
			`sigdata->tempo = 125;`
			`sigdata->mixing_volume = 48;`

			`/* Panning positions for 32 channels */`
			`{`
			`int i;`
			`for (i = 0; i < 32; i++) {`
			`int c = dumbfile_getc(f);`
			`if (c <= 15) {`
			`sigdata->channel_volume[i] = 64;`
			`sigdata->channel_pan[i] = c;`
			`} else {`
			`/** WARNING: this could be improved if we support channel muting... */`
			`sigdata->channel_volume[i] = 0;`
			`sigdata->channel_pan[i] = 7;`
			`}`
			`}`
			`}`

			`/* Orders, byte each, length = sigdata->n_orders (should be even) */`
			`dumbfile_getnc(sigdata->order, sigdata->n_orders, f);`
			`sigdata->restart_position = 0;`

			`component = malloc(768sizeof(component));`
			`if (!component) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`if (it_seek(f, 352)) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`for (n = 0; n < sigdata->n_patterns; n++) {`
			`component[n_components].type = PTM_COMPONENT_PATTERN;`
			`component[n_components].n = n;`
			`component[n_components].offset = dumbfile_igetw(f) << 4;`
			`n_components++;`
			`}`

			`if (it_seek(f, 608)) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`for (n = 0; n < sigdata->n_samples; n++) {`
			`if (it_ptm_read_sample_header(&sigdata->sample[n], &component[n_components].offset, f)) {`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`
			`if (!(sigdata->sample[n].flags & IT_SAMPLE_EXISTS)) continue;`
			`component[n_components].type = PTM_COMPONENT_SAMPLE;`
			`component[n_components].n = n;`
			`n_components++;`
			`}`

			`qsort(component, n_components, sizeof(PTM_COMPONENT), &ptm_component_compare);`

			`{`
			`int i;`
			`for (i = 0; i < 32; i++) {`
			`sigdata->channel_pan[i] -= (sigdata->channel_pan[i] & 8) >> 3;`
			`sigdata->channel_pan[i] = ((int)sigdata->channel_pan[i] << 5) / 7;`
			`if (sigdata->channel_pan[i] > 64) sigdata->channel_pan[i] = 64;`
			`}`
			`}`

			`sigdata->pan_separation = 128;`

			`if (dumbfile_error(f)) {`
			`free(component);`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`buffer = malloc(65536);`
			`if (!buffer) {`
			`free(component);`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`for (n = 0; n < n_components; n++) {`
			`if (it_seek(f, component[n].offset)) {`
			`free(buffer);`
			`free(component);`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`

			`switch (component[n].type) {`

			`case PTM_COMPONENT_PATTERN:`
			`if (it_ptm_read_pattern(&sigdata->pattern[component[n].n], f, buffer, (n + 1 < n_components) ? (component[n+1].offset - component[n].offset) : 0)) {`
			`free(buffer);`
			`free(component);`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`
			`break;`

			`case PTM_COMPONENT_SAMPLE:`
			`if (it_ptm_read_sample_data(&sigdata->sample[component[n].n], (n + 1 == n_components), f)) {`
			`free(buffer);`
			`free(component);`
			`_dumb_it_unload_sigdata(sigdata);`
			`return NULL;`
			`}`
			`}`
			`}`

			`free(buffer);`
			`free(component);`

			`_dumb_it_fix_invalid_orders(sigdata);`

			`return sigdata;`
			`}`

			`DUH DUMBEXPORT dumb_read_ptm_quick(DUMBFILE f)`
			`{`
			`sigdata_t *sigdata;`

			`DUH_SIGTYPE_DESC *descptr = &_dumb_sigtype_it;`

			`sigdata = it_ptm_load_sigdata(f);`

			`if (!sigdata)`
			`return NULL;`

			`{`
			`const char *tag[2][2];`
			`tag[0][0] = "TITLE";`
			`tag[0][1] = ((DUMB_IT_SIGDATA *)sigdata)->name;`
			`tag[1][0] = "FORMAT";`
			`tag[1][1] = "PTM";`
			`return make_duh(-1, 2, (const char const ()[2])tag, 1, &descptr, &sigdata);`
			`}`
			`}`