Context Navigation

source: mainline/uspace/lib/bithenge/src/transform.c@ 6ff23ff

Visit:

lfn serial ticket/834-toolchain-update topic/msim-upgrade topic/simplify-dev-export

Last change on this file since 6ff23ff was 7c3fb9b, checked in by Jiri Svoboda <jiri@…>, 7 years ago
Fix block comment formatting (ccheck).
Property mode set to `100644`
File size: 32.7 KB

Rev	Line
[d5070ef]	1	/*
	2	* Copyright (c) 2012 Sean Bartell
	3	* All rights reserved.
	4	*
	5	* Redistribution and use in source and binary forms, with or without
	6	* modification, are permitted provided that the following conditions
	7	* are met:
	8	*
	9	* - Redistributions of source code must retain the above copyright
	10	* notice, this list of conditions and the following disclaimer.
	11	* - Redistributions in binary form must reproduce the above copyright
	12	* notice, this list of conditions and the following disclaimer in the
	13	* documentation and/or other materials provided with the distribution.
	14	* - The name of the author may not be used to endorse or promote products
	15	* derived from this software without specific prior written permission.
	16	*
	17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	27	*/
	28
	29	/** @addtogroup bithenge
	30	* @{
	31	*/
	32	/**
	33	* @file
	34	* Transforms.
	35	*/
	36
[0d1a8fd]	37	#include <assert.h>
[d5070ef]	38	#include <errno.h>
[6be4142]	39	#include <stdarg.h>
[0d1a8fd]	40	#include <stdlib.h>
[8fc0f47c]	41	#include <bithenge/blob.h>
	42	#include <bithenge/print.h>
	43	#include <bithenge/transform.h>
[6cd10ac]	44	#include "common.h"
[d5070ef]	45
[c9797067]	46
	47
	48	/*************** transform ***************/
	49
[04a7435f]	50	/** Initialize a new transform.
[978ccaf1]	51	* @param[out] self Transform to initialize.
[04a7435f]	52	* @param[in] ops Operations provided by the transform.
[03cad47]	53	* @param num_params The number of parameters required. If this is nonzero, the
	54	* transform will get its own context with parameters, probably provided by a
	55	* param_wrapper. If this is zero, the existing outer context will be used with
[4056ad0]	56	* whatever parameters it has, so they can be passed to any param_wrappers
	57	* within.
[7c3fb9b]	58	* @return EOK or an error code from errno.h.
	59	*/
[b7fd2a0]	60	errno_t bithenge_init_transform(bithenge_transform_t *self,
[03cad47]	61	const bithenge_transform_ops_t *ops, int num_params)
[04a7435f]	62	{
	63	assert(ops);
[cb4a66d2]	64	assert(ops->apply \|\| ops->prefix_apply);
[04a7435f]	65	assert(ops->destroy);
[1a3b953]	66	if (bithenge_should_fail())
	67	return ENOMEM;
[978ccaf1]	68	self->ops = ops;
	69	self->refs = 1;
[03cad47]	70	self->num_params = num_params;
[04a7435f]	71	return EOK;
	72	}
	73
[978ccaf1]	74	static void transform_indestructible(bithenge_transform_t *self)
[d5070ef]	75	{
[0d1a8fd]	76	assert(false);
[d5070ef]	77	}
	78
[cb4a66d2]	79	/** Apply a transform. Takes ownership of nothing.
	80	* @memberof bithenge_transform_t
	81	* @param self The transform.
	82	* @param scope The scope.
	83	* @param in The input tree.
	84	* @param[out] out Where the output tree will be stored.
[7c3fb9b]	85	* @return EOK on success or an error code from errno.h.
	86	*/
[b7fd2a0]	87	errno_t bithenge_transform_apply(bithenge_transform_t *self,
[cb4a66d2]	88	bithenge_scope_t scope, bithenge_node_t in, bithenge_node_t **out)
	89	{
	90	assert(self);
	91	assert(self->ops);
	92	if (self->ops->apply)
	93	return self->ops->apply(self, scope, in, out);
	94
	95	if (bithenge_node_type(in) != BITHENGE_NODE_BLOB)
	96	return EINVAL;
	97	aoff64_t self_size, whole_size;
[b7fd2a0]	98	errno_t rc = bithenge_transform_prefix_apply(self, scope,
[cb4a66d2]	99	bithenge_node_as_blob(in), out, &self_size);
	100	if (rc != EOK)
	101	return rc;
	102	rc = bithenge_blob_size(bithenge_node_as_blob(in), &whole_size);
	103	if (rc == EOK && whole_size != self_size)
	104	rc = EINVAL;
	105	if (rc != EOK) {
	106	bithenge_node_dec_ref(*out);
	107	return rc;
	108	}
	109	return EOK;
	110	}
	111
	112	/** Find the length of the prefix of a blob this transform can use as input. In
	113	* other words, figure out how many bytes this transform will use up. This
	114	* method is optional and can return an error, but it must succeed for struct
	115	* subtransforms. Takes ownership of nothing.
	116	* @memberof bithenge_transform_t
	117	* @param self The transform.
	118	* @param scope The scope.
	119	* @param blob The blob.
	120	* @param[out] out Where the prefix length will be stored.
	121	* @return EOK on success, ENOTSUP if not supported, or another error code from
[7c3fb9b]	122	* errno.h.
	123	*/
[b7fd2a0]	124	errno_t bithenge_transform_prefix_length(bithenge_transform_t *self,
[cb4a66d2]	125	bithenge_scope_t scope, bithenge_blob_t blob, aoff64_t *out)
	126	{
	127	assert(self);
	128	assert(self->ops);
	129	if (self->ops->prefix_length)
	130	return self->ops->prefix_length(self, scope, blob, out);
	131	if (!self->ops->prefix_apply)
	132	return ENOTSUP;
	133
	134	bithenge_node_t *node;
[b7fd2a0]	135	errno_t rc = bithenge_transform_prefix_apply(self, scope, blob, &node,
[cb4a66d2]	136	out);
	137	if (rc != EOK)
	138	return rc;
	139	bithenge_node_dec_ref(node);
	140	return EOK;
	141	}
	142
	143	/** Apply this transform to a prefix of a blob. In other words, feed as much of
	144	* the blob into this transform as possible. Takes ownership of nothing.
	145	* @memberof bithenge_transform_t
	146	* @param self The transform.
	147	* @param scope The scope.
	148	* @param blob The blob.
	149	* @param[out] out_node Holds the result of applying this transform to the
	150	* prefix.
[1b6b76d]	151	* @param[out] out_size Holds the size of the prefix. Can be null, in which
	152	* case the size is not determined.
[cb4a66d2]	153	* @return EOK on success, ENOTSUP if not supported, or another error code from
[7c3fb9b]	154	* errno.h.
	155	*/
[b7fd2a0]	156	errno_t bithenge_transform_prefix_apply(bithenge_transform_t *self,
[cb4a66d2]	157	bithenge_scope_t scope, bithenge_blob_t blob, bithenge_node_t **out_node,
	158	aoff64_t *out_size)
	159	{
	160	assert(self);
	161	assert(self->ops);
	162	if (self->ops->prefix_apply)
	163	return self->ops->prefix_apply(self, scope, blob, out_node,
	164	out_size);
	165	if (!self->ops->prefix_length)
	166	return ENOTSUP;
	167
[1b6b76d]	168	aoff64_t size;
[b7fd2a0]	169	errno_t rc = bithenge_transform_prefix_length(self, scope, blob, &size);
[cb4a66d2]	170	if (rc != EOK)
	171	return rc;
	172	bithenge_node_t *prefix_blob;
	173	bithenge_blob_inc_ref(blob);
[1b6b76d]	174	rc = bithenge_new_subblob(&prefix_blob, blob, 0, size);
[cb4a66d2]	175	if (rc != EOK)
	176	return rc;
	177	rc = bithenge_transform_apply(self, scope, prefix_blob, out_node);
	178	bithenge_node_dec_ref(prefix_blob);
[1b6b76d]	179	if (out_size)
	180	*out_size = size;
[cb4a66d2]	181	return rc;
	182	}
	183
[c9797067]	184
	185
	186	/*************** scope ***************/
	187
[f9c314a5]	188	/** Create a transform scope. It must be dereferenced with @a
[0191bd3]	189	* bithenge_scope_dec_ref after it is used. Takes ownership of nothing.
[0784869]	190	* @memberof bithenge_scope_t
[f9c314a5]	191	* @param[out] out Holds the new scope.
[0191bd3]	192	* @param outer The outer scope, or NULL.
[7c3fb9b]	193	* @return EOK on success or an error code from errno.h.
	194	*/
[b7fd2a0]	195	errno_t bithenge_scope_new(bithenge_scope_t *out, bithenge_scope_t outer)
[b8d45e9e]	196	{
[f9c314a5]	197	bithenge_scope_t self = malloc(sizeof(self));
	198	if (!self)
	199	return ENOMEM;
	200	self->refs = 1;
[0191bd3]	201	if (outer)
	202	bithenge_scope_inc_ref(outer);
	203	self->outer = outer;
[6be4142]	204	self->error = NULL;
[c12b2ae]	205	self->barrier = false;
[f9c314a5]	206	self->num_params = 0;
	207	self->params = NULL;
	208	self->current_node = NULL;
[a66ea217]	209	self->in_node = NULL;
[f9c314a5]	210	*out = self;
	211	return EOK;
[b8d45e9e]	212	}
	213
[f9c314a5]	214	/** Dereference a transform scope.
[0784869]	215	* @memberof bithenge_scope_t
[7c3fb9b]	216	* @param self The scope to dereference, or NULL.
	217	*/
[f9c314a5]	218	void bithenge_scope_dec_ref(bithenge_scope_t *self)
[b8d45e9e]	219	{
[0191bd3]	220	if (!self)
	221	return;
	222	if (--self->refs)
	223	return;
	224	bithenge_node_dec_ref(self->current_node);
	225	for (int i = 0; i < self->num_params; i++)
	226	bithenge_node_dec_ref(self->params[i]);
	227	bithenge_scope_dec_ref(self->outer);
	228	free(self->params);
[6be4142]	229	free(self->error);
[0191bd3]	230	free(self);
[b8d45e9e]	231	}
	232
[c12b2ae]	233	/** Get the outer scope of a scope, which may be NULL.
[0784869]	234	* @memberof bithenge_scope_t
[c12b2ae]	235	* @param self The scope to examine.
[7c3fb9b]	236	* @return The outer scope, which may be NULL.
	237	*/
[c12b2ae]	238	bithenge_scope_t bithenge_scope_outer(bithenge_scope_t self)
	239	{
	240	return self->outer;
	241	}
	242
[6be4142]	243	/** Get the error message stored in the scope, which may be NULL. The error
	244	* message only exists as long as the scope does.
[0784869]	245	* @memberof bithenge_scope_t
[6be4142]	246	* @param scope The scope to get the error message from.
[7c3fb9b]	247	* @return The error message, or NULL.
	248	*/
[6be4142]	249	const char bithenge_scope_get_error(bithenge_scope_t scope)
	250	{
	251	return scope->error;
	252	}
	253
	254	/** Set the error message for the scope. The error message is stored in the
	255	* outermost scope, but if any scope already has an error message this error
	256	* message is ignored.
[0784869]	257	* @memberof bithenge_scope_t
[6be4142]	258	* @param scope The scope.
	259	* @param format The format string.
[7c3fb9b]	260	* @return EINVAL normally, or another error code from errno.h.
	261	*/
[b7fd2a0]	262	errno_t bithenge_scope_error(bithenge_scope_t scope, const char format, ...)
[6be4142]	263	{
	264	if (scope->error)
	265	return EINVAL;
	266	while (scope->outer) {
	267	scope = scope->outer;
	268	if (scope->error)
	269	return EINVAL;
	270	}
	271	size_t space_left = 256;
	272	scope->error = malloc(space_left);
	273	if (!scope->error)
	274	return ENOMEM;
	275	char *out = scope->error;
	276	va_list ap;
	277	va_start(ap, format);
	278
	279	while (*format) {
	280	if (format[0] == '%' && format[1] == 't') {
	281	format += 2;
[b7fd2a0]	282	errno_t rc = bithenge_print_node_to_string(&out,
[6be4142]	283	&space_left, BITHENGE_PRINT_PYTHON,
	284	va_arg(ap, bithenge_node_t *));
	285	if (rc != EOK) {
	286	va_end(ap);
	287	return rc;
	288	}
	289	} else {
	290	const char *end = str_chr(format, '%');
	291	if (!end)
	292	end = format + str_length(format);
	293	size_t size = min((size_t)(end - format),
	294	space_left - 1);
	295	memcpy(out, format, size);
	296	format = end;
	297	out += size;
	298	space_left -= size;
	299	}
	300	}
	301	*out = '\0';
	302
	303	va_end(ap);
	304	return EINVAL;
	305	}
	306
[a66ea217]	307	/** Get the current node being created, which may be NULL.
[0784869]	308	* @memberof bithenge_scope_t
[a66ea217]	309	* @param scope The scope to get the current node from.
[7c3fb9b]	310	* @return The node being created, or NULL.
	311	*/
[a66ea217]	312	bithenge_node_t bithenge_scope_get_current_node(bithenge_scope_t scope)
	313	{
	314	if (scope->current_node)
	315	bithenge_node_inc_ref(scope->current_node);
	316	return scope->current_node;
	317	}
	318
[b8d45e9e]	319	/** Set the current node being created. Takes a reference to @a node.
[0784869]	320	* @memberof bithenge_scope_t
[b8d45e9e]	321	* @param scope The scope to set the current node in.
[7c3fb9b]	322	* @param node The current node being created, or NULL.
	323	*/
[b8d45e9e]	324	void bithenge_scope_set_current_node(bithenge_scope_t *scope,
	325	bithenge_node_t *node)
	326	{
	327	bithenge_node_dec_ref(scope->current_node);
	328	scope->current_node = node;
	329	}
	330
[a66ea217]	331	/** Get the current input node, which may be NULL.
[0784869]	332	* @memberof bithenge_scope_t
[a66ea217]	333	* @param scope The scope to get the current input node from.
[7c3fb9b]	334	* @return The input node, or NULL.
	335	*/
[a66ea217]	336	bithenge_node_t bithenge_scope_in_node(bithenge_scope_t scope)
	337	{
	338	if (scope->in_node)
	339	bithenge_node_inc_ref(scope->in_node);
	340	return scope->in_node;
	341	}
	342
	343	/** Set the current input node. Takes a reference to @a node.
[0784869]	344	* @memberof bithenge_scope_t
[a66ea217]	345	* @param scope The scope to set the input node in.
[7c3fb9b]	346	* @param node The input node, or NULL.
	347	*/
[a66ea217]	348	void bithenge_scope_set_in_node(bithenge_scope_t scope, bithenge_node_t node)
	349	{
	350	bithenge_node_dec_ref(scope->in_node);
	351	scope->in_node = node;
	352	}
	353
[c12b2ae]	354	/** Set a scope as a barrier.
[0784869]	355	* @memberof bithenge_scope_t
[7c3fb9b]	356	* @param self The scope to change.
	357	*/
[c12b2ae]	358	void bithenge_scope_set_barrier(bithenge_scope_t *self)
	359	{
	360	self->barrier = true;
	361	}
	362
	363	/** Check whether a scope is a barrier, meaning that variable lookup stops at
	364	* it.
[0784869]	365	* @memberof bithenge_scope_t
[c12b2ae]	366	* @param self The scope to check.
[7c3fb9b]	367	* @return Whether the scope is a barrier.
	368	*/
[c12b2ae]	369	bool bithenge_scope_is_barrier(bithenge_scope_t *self)
	370	{
	371	return self->barrier;
	372	}
	373
[b8d45e9e]	374	/** Allocate parameters. The parameters must then be set with @a
	375	* bithenge_scope_set_param. This must not be called on a scope that already
	376	* has parameters.
[0784869]	377	* @memberof bithenge_scope_t
[b8d45e9e]	378	* @param scope The scope in which to allocate parameters.
	379	* @param num_params The number of parameters to allocate.
[7c3fb9b]	380	* @return EOK on success or an error code from errno.h.
	381	*/
[b7fd2a0]	382	errno_t bithenge_scope_alloc_params(bithenge_scope_t *scope, int num_params)
[b8d45e9e]	383	{
	384	scope->params = malloc(sizeof(scope->params) num_params);
	385	if (!scope->params)
	386	return ENOMEM;
	387	scope->num_params = num_params;
	388	for (int i = 0; i < num_params; i++)
	389	scope->params[i] = NULL;
	390	return EOK;
	391	}
	392
[0784869]	393	/** Set a parameter. Takes a reference to @a node. Note that range checking is
[b8d45e9e]	394	* not done in release builds.
[0784869]	395	* @memberof bithenge_scope_t
[b8d45e9e]	396	* @param scope The scope in which to allocate parameters.
	397	* @param i The index of the parameter to set.
[0784869]	398	* @param node The value to store in the parameter.
[7c3fb9b]	399	* @return EOK on success or an error code from errno.h.
	400	*/
[18b6a88]	401	errno_t bithenge_scope_set_param(bithenge_scope_t *scope, int i,
[b8d45e9e]	402	bithenge_node_t *node)
	403	{
	404	assert(scope);
	405	assert(i >= 0 && i < scope->num_params);
[1a3b953]	406	if (bithenge_should_fail()) {
	407	bithenge_node_dec_ref(node);
	408	return ENOMEM;
	409	}
[b8d45e9e]	410	scope->params[i] = node;
	411	return EOK;
	412	}
	413
	414	/** Get a parameter. Note that range checking is not done in release builds.
[0784869]	415	* @memberof bithenge_scope_t
[b8d45e9e]	416	* @param scope The scope to get the parameter from.
	417	* @param i The index of the parameter to set.
	418	* @param[out] out Stores a new reference to the parameter.
[7c3fb9b]	419	* @return EOK on success or an error code from errno.h.
	420	*/
[b7fd2a0]	421	errno_t bithenge_scope_get_param(bithenge_scope_t *scope, int i,
[b8d45e9e]	422	bithenge_node_t **out)
	423	{
	424	assert(scope);
[0191bd3]	425	if (scope->num_params) {
	426	assert(i >= 0 && i < scope->num_params);
	427	*out = scope->params[i];
	428	bithenge_node_inc_ref(*out);
	429	return EOK;
	430	} else {
	431	return bithenge_scope_get_param(scope->outer, i, out);
	432	}
[b8d45e9e]	433	}
	434
[c9797067]	435
	436
	437	/*************** barrier_transform ***************/
	438
[4056ad0]	439	typedef struct {
	440	bithenge_transform_t base;
	441	bithenge_transform_t *transform;
[c12b2ae]	442	} barrier_transform_t;
[4056ad0]	443
[c12b2ae]	444	static inline barrier_transform_t *transform_as_barrier(
[4056ad0]	445	bithenge_transform_t *base)
	446	{
[c12b2ae]	447	return (barrier_transform_t *)base;
[4056ad0]	448	}
	449
[c12b2ae]	450	static inline bithenge_transform_t *barrier_as_transform(
	451	barrier_transform_t *self)
[4056ad0]	452	{
	453	return &self->base;
	454	}
	455
[b7fd2a0]	456	static errno_t barrier_transform_apply(bithenge_transform_t *base,
[4056ad0]	457	bithenge_scope_t scope, bithenge_node_t in, bithenge_node_t **out)
	458	{
[c12b2ae]	459	barrier_transform_t *self = transform_as_barrier(base);
[f9c314a5]	460	bithenge_scope_t *inner_scope;
[b7fd2a0]	461	errno_t rc = bithenge_scope_new(&inner_scope, scope);
[f9c314a5]	462	if (rc != EOK)
	463	return rc;
[c12b2ae]	464	bithenge_scope_set_barrier(inner_scope);
[c9797067]	465	bithenge_scope_set_in_node(inner_scope, in);
	466	rc = bithenge_transform_apply(self->transform, inner_scope, in, out);
[f9c314a5]	467	bithenge_scope_dec_ref(inner_scope);
[b8d45e9e]	468	return rc;
[4056ad0]	469	}
	470
[b7fd2a0]	471	static errno_t barrier_transform_prefix_length(bithenge_transform_t *base,
[4056ad0]	472	bithenge_scope_t scope, bithenge_blob_t in, aoff64_t *out)
	473	{
[c12b2ae]	474	barrier_transform_t *self = transform_as_barrier(base);
	475	bithenge_scope_t *inner_scope;
[b7fd2a0]	476	errno_t rc = bithenge_scope_new(&inner_scope, scope);
[c12b2ae]	477	if (rc != EOK)
	478	return rc;
	479	bithenge_scope_set_barrier(inner_scope);
[c9797067]	480	bithenge_scope_set_in_node(inner_scope, bithenge_blob_as_node(in));
	481	rc = bithenge_transform_prefix_length(self->transform, inner_scope, in,
	482	out);
[c12b2ae]	483	bithenge_scope_dec_ref(inner_scope);
	484	return rc;
	485	}
	486
[b7fd2a0]	487	static errno_t barrier_transform_prefix_apply(bithenge_transform_t *base,
[c12b2ae]	488	bithenge_scope_t scope, bithenge_blob_t in, bithenge_node_t **out_node,
	489	aoff64_t *out_length)
	490	{
	491	barrier_transform_t *self = transform_as_barrier(base);
	492	bithenge_scope_t *inner_scope;
[b7fd2a0]	493	errno_t rc = bithenge_scope_new(&inner_scope, scope);
[c12b2ae]	494	if (rc != EOK)
	495	return rc;
	496	bithenge_scope_set_barrier(inner_scope);
[c9797067]	497	bithenge_scope_set_in_node(inner_scope, bithenge_blob_as_node(in));
	498	rc = bithenge_transform_prefix_apply(self->transform, inner_scope, in,
[c12b2ae]	499	out_node, out_length);
	500	bithenge_scope_dec_ref(inner_scope);
	501	return rc;
[4056ad0]	502	}
	503
[c12b2ae]	504	static void barrier_transform_destroy(bithenge_transform_t *base)
[4056ad0]	505	{
[c12b2ae]	506	barrier_transform_t *self = transform_as_barrier(base);
[4056ad0]	507	bithenge_transform_dec_ref(self->transform);
	508	free(self);
	509	}
	510
[c12b2ae]	511	static const bithenge_transform_ops_t barrier_transform_ops = {
	512	.apply = barrier_transform_apply,
	513	.prefix_length = barrier_transform_prefix_length,
	514	.prefix_apply = barrier_transform_prefix_apply,
	515	.destroy = barrier_transform_destroy,
[4056ad0]	516	};
	517
[2988aec7]	518	/** Set the subtransform of a barrier transform. This must be done before the
	519	* barrier transform is used. Takes a reference to @a transform.
	520	* @param base The barrier transform.
	521	* @param transform The subtransform to use for all operations.
[7c3fb9b]	522	* @return EOK on success or an error code from errno.h.
	523	*/
[b7fd2a0]	524	errno_t bithenge_barrier_transform_set_subtransform(bithenge_transform_t *base,
[2988aec7]	525	bithenge_transform_t *transform)
	526	{
	527	assert(transform);
	528	assert(bithenge_transform_num_params(transform) == 0);
	529
[1a3b953]	530	if (bithenge_should_fail()) {
	531	bithenge_transform_dec_ref(transform);
	532	return ENOMEM;
	533	}
	534
[2988aec7]	535	barrier_transform_t *self = transform_as_barrier(base);
	536	assert(!self->transform);
	537	self->transform = transform;
	538	return EOK;
	539	}
	540
[c12b2ae]	541	/** Create a wrapper transform that creates a new scope. This ensures nothing
	542	* from the outer scope is passed in, other than parameters. The wrapper may
[2988aec7]	543	* have a different value for num_params. The subtransform must be set with @a
	544	* bithenge_barrier_transform_set_subtransform before the result is used.
[4056ad0]	545	* @param[out] out Holds the created transform.
[b8d45e9e]	546	* @param num_params The number of parameters to require, which may be 0.
[7c3fb9b]	547	* @return EOK on success or an error code from errno.h.
	548	*/
[b7fd2a0]	549	errno_t bithenge_new_barrier_transform(bithenge_transform_t **out, int num_params)
[4056ad0]	550	{
[b7fd2a0]	551	errno_t rc;
[c12b2ae]	552	barrier_transform_t self = malloc(sizeof(self));
[4056ad0]	553	if (!self) {
	554	rc = ENOMEM;
	555	goto error;
	556	}
[c12b2ae]	557	rc = bithenge_init_transform(barrier_as_transform(self),
	558	&barrier_transform_ops, num_params);
[4056ad0]	559	if (rc != EOK)
	560	goto error;
[2988aec7]	561	self->transform = NULL;
[c12b2ae]	562	*out = barrier_as_transform(self);
[4056ad0]	563	return EOK;
	564	error:
	565	free(self);
	566	return rc;
	567	}
	568
[0ce0103]	569
	570
	571	/*************** ascii ***************/
	572
[b7fd2a0]	573	static errno_t ascii_apply(bithenge_transform_t self, bithenge_scope_t scope,
[5a7c0e6]	574	bithenge_node_t in, bithenge_node_t *out)
[600f5d1]	575	{
[b7fd2a0]	576	errno_t rc;
[600f5d1]	577	if (bithenge_node_type(in) != BITHENGE_NODE_BLOB)
	578	return EINVAL;
	579	bithenge_blob_t *blob = bithenge_node_as_blob(in);
	580	aoff64_t size;
	581	rc = bithenge_blob_size(blob, &size);
	582	if (rc != EOK)
	583	return rc;
	584
	585	char *buffer = malloc(size + 1);
	586	if (!buffer)
	587	return ENOMEM;
	588	aoff64_t size_read = size;
	589	rc = bithenge_blob_read(blob, 0, buffer, &size_read);
	590	if (rc != EOK) {
	591	free(buffer);
	592	return rc;
	593	}
	594	if (size_read != size) {
	595	free(buffer);
	596	return EINVAL;
	597	}
	598	buffer[size] = '\0';
	599
	600	/* TODO: what if the OS encoding is incompatible with ASCII? */
	601	return bithenge_new_string_node(out, buffer, true);
	602	}
	603
	604	static const bithenge_transform_ops_t ascii_ops = {
	605	.apply = ascii_apply,
	606	.destroy = transform_indestructible,
	607	};
	608
	609	/** The ASCII text transform. */
	610	bithenge_transform_t bithenge_ascii_transform = {
[03cad47]	611	&ascii_ops, 1, 0
[600f5d1]	612	};
	613
[0ce0103]	614
	615
	616	/*************** bit ***************/
	617
[b7fd2a0]	618	static errno_t bit_prefix_apply(bithenge_transform_t *self,
[0ce0103]	619	bithenge_scope_t scope, bithenge_blob_t blob, bithenge_node_t **out_node,
	620	aoff64_t *out_size)
	621	{
	622	char buffer;
[1b6b76d]	623	aoff64_t size = 1;
[b7fd2a0]	624	errno_t rc = bithenge_blob_read_bits(blob, 0, &buffer, &size, true);
[0ce0103]	625	if (rc != EOK)
	626	return rc;
[1b6b76d]	627	if (size != 1)
[0ce0103]	628	return EINVAL;
[1b6b76d]	629	if (out_size)
	630	*out_size = size;
[0ce0103]	631	return bithenge_new_boolean_node(out_node, (buffer & 1) != 0);
	632	}
	633
	634	static const bithenge_transform_ops_t bit_ops = {
	635	.prefix_apply = bit_prefix_apply,
	636	.destroy = transform_indestructible,
	637	};
	638
	639	/** A transform that decodes a bit as a boolean. */
	640	bithenge_transform_t bithenge_bit_transform = {
	641	&bit_ops, 1, 0
	642	};
	643
	644
	645
	646	/*************** bits_be, bits_le ***************/
	647
	648	typedef struct {
	649	bithenge_blob_t base;
	650	bithenge_blob_t *bytes;
	651	bool little_endian;
	652	} bits_xe_blob_t;
	653
	654	static bits_xe_blob_t blob_as_bits_xe(bithenge_blob_t base)
	655	{
	656	return (bits_xe_blob_t *)base;
	657	}
	658
	659	static bithenge_blob_t bits_xe_as_blob(bits_xe_blob_t self)
	660	{
	661	return &self->base;
	662	}
	663
[b7fd2a0]	664	static errno_t bits_xe_size(bithenge_blob_t base, aoff64_t out)
[0ce0103]	665	{
	666	bits_xe_blob_t *self = blob_as_bits_xe(base);
[b7fd2a0]	667	errno_t rc = bithenge_blob_size(self->bytes, out);
[0ce0103]	668	out = 8;
	669	return rc;
	670	}
	671
	672	static uint8_t reverse_byte(uint8_t val)
	673	{
	674	val = ((val & 0x0f) << 4) ^ ((val & 0xf0) >> 4);
	675	val = ((val & 0x33) << 2) ^ ((val & 0xcc) >> 2);
	676	val = ((val & 0x55) << 1) ^ ((val & 0xaa) >> 1);
	677	return val;
	678	}
	679
[b7fd2a0]	680	static errno_t bits_xe_read_bits(bithenge_blob_t *base, aoff64_t offset,
[0ce0103]	681	char buffer, aoff64_t size, bool little_endian)
	682	{
	683	bits_xe_blob_t *self = blob_as_bits_xe(base);
	684	aoff64_t bytes_offset = offset / 8;
	685	aoff64_t bit_offset = offset % 8;
	686	aoff64_t output_num_bytes = (*size + 7) / 8;
	687	aoff64_t bytes_size = (*size + bit_offset + 7) / 8;
	688	bool separate_buffer = bit_offset != 0;
	689	uint8_t *bytes_buffer;
	690	if (separate_buffer) {
	691	/* Allocate an extra byte, to make sure byte1 can be read. */
	692	bytes_buffer = malloc(bytes_size + 1);
	693	if (!bytes_buffer)
	694	return ENOMEM;
	695	} else
	696	bytes_buffer = (uint8_t *)buffer;
	697
[b7fd2a0]	698	errno_t rc = bithenge_blob_read(self->bytes, bytes_offset,
[0ce0103]	699	(char *)bytes_buffer, &bytes_size);
	700	if (rc != EOK)
	701	goto end;
	702	size = min(size, bytes_size * 8 - bit_offset);
	703
	704	if (little_endian != self->little_endian)
	705	for (aoff64_t i = 0; i < bytes_size; i++)
	706	bytes_buffer[i] = reverse_byte(bytes_buffer[i]);
	707
	708	if (bit_offset \|\| separate_buffer) {
	709	for (aoff64_t i = 0; i < output_num_bytes; i++) {
	710	uint8_t byte0 = bytes_buffer[i];
	711	uint8_t byte1 = bytes_buffer[i + 1];
	712	buffer[i] = little_endian ?
	713	(byte0 >> bit_offset) ^ (byte1 << (8 - bit_offset)) :
	714	(byte0 << bit_offset) ^ (byte1 >> (8 - bit_offset));
	715	}
	716	}
	717
	718	end:
	719	if (separate_buffer)
	720	free(bytes_buffer);
	721	return rc;
	722	}
	723
	724	static void bits_xe_destroy(bithenge_blob_t *base)
	725	{
	726	bits_xe_blob_t *self = blob_as_bits_xe(base);
	727	bithenge_blob_dec_ref(self->bytes);
	728	free(self);
	729	}
	730
	731	static const bithenge_random_access_blob_ops_t bits_xe_blob_ops = {
	732	.size = bits_xe_size,
	733	.read_bits = bits_xe_read_bits,
	734	.destroy = bits_xe_destroy,
	735	};
	736
[b7fd2a0]	737	static errno_t bits_xe_apply(bithenge_transform_t self, bithenge_scope_t scope,
[0ce0103]	738	bithenge_node_t in, bithenge_node_t *out)
	739	{
	740	if (bithenge_node_type(in) != BITHENGE_NODE_BLOB)
	741	return EINVAL;
	742	bits_xe_blob_t blob = malloc(sizeof(blob));
	743	if (!blob)
	744	return ENOMEM;
[b7fd2a0]	745	errno_t rc = bithenge_init_random_access_blob(bits_xe_as_blob(blob),
[0ce0103]	746	&bits_xe_blob_ops);
	747	if (rc != EOK) {
	748	free(blob);
	749	return rc;
	750	}
	751	bithenge_node_inc_ref(in);
	752	blob->bytes = bithenge_node_as_blob(in);
	753	blob->little_endian = (self == &bithenge_bits_le_transform);
	754	*out = bithenge_blob_as_node(bits_xe_as_blob(blob));
	755	return EOK;
	756	}
	757
	758	static const bithenge_transform_ops_t bits_xe_ops = {
	759	.apply = bits_xe_apply,
	760	.destroy = transform_indestructible,
	761	};
	762
	763	/** A transform that converts a byte blob to a bit blob, most-significant bit
[7c3fb9b]	764	* first.
	765	*/
[0ce0103]	766	bithenge_transform_t bithenge_bits_be_transform = {
	767	&bits_xe_ops, 1, 0
	768	};
	769
	770	/** A transform that converts a byte blob to a bit blob, least-significant bit
[7c3fb9b]	771	* first.
	772	*/
[0ce0103]	773	bithenge_transform_t bithenge_bits_le_transform = {
	774	&bits_xe_ops, 1, 0
	775	};
	776
	777
	778
	779	/*************** invalid ***************/
	780
[b7fd2a0]	781	static errno_t invalid_apply(bithenge_transform_t self, bithenge_scope_t scope,
[78d3a00]	782	bithenge_node_t in, bithenge_node_t *out)
	783	{
	784	return EINVAL;
	785	}
	786
	787	static const bithenge_transform_ops_t invalid_ops = {
	788	.apply = invalid_apply,
	789	.destroy = transform_indestructible,
	790	};
	791
	792	/** A transform that always raises an error. */
	793	bithenge_transform_t bithenge_invalid_transform = {
	794	&invalid_ops, 1, 0
	795	};
	796
[0ce0103]	797
	798
	799	/*************** known_length ***************/
	800
[b7fd2a0]	801	static errno_t known_length_apply(bithenge_transform_t *self,
[4056ad0]	802	bithenge_scope_t scope, bithenge_node_t in, bithenge_node_t **out)
	803	{
	804	bithenge_node_t *length_node;
[b7fd2a0]	805	errno_t rc = bithenge_scope_get_param(scope, 0, &length_node);
[4056ad0]	806	if (rc != EOK)
	807	return rc;
	808	if (bithenge_node_type(length_node) != BITHENGE_NODE_INTEGER) {
	809	bithenge_node_dec_ref(length_node);
	810	return EINVAL;
	811	}
	812	bithenge_int_t length = bithenge_integer_node_value(length_node);
	813	bithenge_node_dec_ref(length_node);
	814
	815	if (bithenge_node_type(in) != BITHENGE_NODE_BLOB)
	816	return EINVAL;
	817	aoff64_t size;
	818	rc = bithenge_blob_size(bithenge_node_as_blob(in), &size);
	819	if (rc != EOK)
	820	return rc;
	821	if (length != (bithenge_int_t)size)
	822	return EINVAL;
	823
	824	bithenge_node_inc_ref(in);
	825	*out = in;
	826	return EOK;
	827	}
	828
[b7fd2a0]	829	static errno_t known_length_prefix_length(bithenge_transform_t *self,
[4056ad0]	830	bithenge_scope_t scope, bithenge_blob_t in, aoff64_t *out)
	831	{
	832	bithenge_node_t *length_node;
[b7fd2a0]	833	errno_t rc = bithenge_scope_get_param(scope, 0, &length_node);
[4056ad0]	834	if (rc != EOK)
	835	return rc;
	836	if (bithenge_node_type(length_node) != BITHENGE_NODE_INTEGER) {
	837	bithenge_node_dec_ref(length_node);
	838	return EINVAL;
	839	}
	840	bithenge_int_t length = bithenge_integer_node_value(length_node);
	841	bithenge_node_dec_ref(length_node);
	842
	843	*out = (aoff64_t)length;
	844	return EOK;
	845	}
	846
	847	static const bithenge_transform_ops_t known_length_ops = {
	848	.apply = known_length_apply,
	849	.prefix_length = known_length_prefix_length,
	850	.destroy = transform_indestructible,
	851	};
	852
	853	/** Pass through a blob, but require its length to equal the first argument. */
	854	bithenge_transform_t bithenge_known_length_transform = {
	855	&known_length_ops, 1, 1
	856	};
	857
[b7fd2a0]	858	static errno_t nonzero_boolean_apply(bithenge_transform_t *self,
[c3437d9]	859	bithenge_scope_t scope, bithenge_node_t in, bithenge_node_t **out)
	860	{
	861	if (bithenge_node_type(in) != BITHENGE_NODE_INTEGER)
	862	return EINVAL;
	863	bool value = bithenge_integer_node_value(in) != 0;
	864	return bithenge_new_boolean_node(out, value);
	865	}
	866
	867	static const bithenge_transform_ops_t nonzero_boolean_ops = {
	868	.apply = nonzero_boolean_apply,
	869	.destroy = transform_indestructible,
	870	};
	871
	872	/** A transform that converts integers to booleans, true if nonzero. */
	873	bithenge_transform_t bithenge_nonzero_boolean_transform = {
	874	&nonzero_boolean_ops, 1, 0
	875	};
	876
[b7fd2a0]	877	static errno_t prefix_length_1(bithenge_transform_t self, bithenge_scope_t scope,
[5a7c0e6]	878	bithenge_blob_t blob, aoff64_t out)
[d5070ef]	879	{
[5f4cf872]	880	*out = 1;
	881	return EOK;
[d5070ef]	882	}
	883
[b7fd2a0]	884	static errno_t prefix_length_2(bithenge_transform_t self, bithenge_scope_t scope,
[5a7c0e6]	885	bithenge_blob_t blob, aoff64_t out)
[0d1a8fd]	886	{
[5f4cf872]	887	*out = 2;
	888	return EOK;
[0d1a8fd]	889	}
	890
[b7fd2a0]	891	static errno_t prefix_length_4(bithenge_transform_t self, bithenge_scope_t scope,
[5a7c0e6]	892	bithenge_blob_t blob, aoff64_t out)
[d5070ef]	893	{
	894	*out = 4;
	895	return EOK;
	896	}
	897
[b7fd2a0]	898	static errno_t prefix_length_8(bithenge_transform_t self, bithenge_scope_t scope,
[5a7c0e6]	899	bithenge_blob_t blob, aoff64_t out)
[5f4cf872]	900	{
	901	*out = 8;
	902	return EOK;
	903	}
[d5070ef]	904
[013e5d32]	905	static uint8_t uint8_t_identity(uint8_t arg)
	906	{
	907	return arg;
	908	}
	909
[0784869]	910	/** @cond internal */
[5f4cf872]	911	#define MAKE_UINT_TRANSFORM(NAME, TYPE, ENDIAN, PREFIX_LENGTH_FUNC) \
[b7fd2a0]	912	static errno_t NAME##_apply(bithenge_transform_t *self, \
[5a7c0e6]	913	bithenge_scope_t scope, bithenge_node_t in, \
[43788b2]	914	bithenge_node_t **out) \
[5f4cf872]	915	{ \
[b7fd2a0]	916	errno_t rc; \
[5f4cf872]	917	if (bithenge_node_type(in) != BITHENGE_NODE_BLOB) \
	918	return EINVAL; \
	919	bithenge_blob_t *blob = bithenge_node_as_blob(in); \
	920	\
	921	/* Read too many bytes; success means the blob is too long. */ \
	922	TYPE val[2]; \
	923	aoff64_t size = sizeof(val[0]) + 1; \
	924	rc = bithenge_blob_read(blob, 0, (char *)val, &size); \
	925	if (rc != EOK) \
	926	return rc; \
	927	if (size != sizeof(val[0])) \
	928	return EINVAL; \
	929	\
	930	return bithenge_new_integer_node(out, ENDIAN(val[0])); \
	931	} \
	932	\
	933	static const bithenge_transform_ops_t NAME##_ops = { \
	934	.apply = NAME##_apply, \
	935	.prefix_length = PREFIX_LENGTH_FUNC, \
	936	.destroy = transform_indestructible, \
	937	}; \
	938	\
	939	bithenge_transform_t bithenge_##NAME##_transform = { \
[03cad47]	940	&NAME##_ops, 1, 0 \
[5f4cf872]	941	}
[d5070ef]	942
[18b6a88]	943	MAKE_UINT_TRANSFORM(uint8, uint8_t, uint8_t_identity, prefix_length_1);
[5f4cf872]	944	MAKE_UINT_TRANSFORM(uint16le, uint16_t, uint16_t_le2host, prefix_length_2);
	945	MAKE_UINT_TRANSFORM(uint16be, uint16_t, uint16_t_be2host, prefix_length_2);
	946	MAKE_UINT_TRANSFORM(uint32le, uint32_t, uint32_t_le2host, prefix_length_4);
	947	MAKE_UINT_TRANSFORM(uint32be, uint32_t, uint32_t_be2host, prefix_length_4);
[1c79996]	948	MAKE_UINT_TRANSFORM(uint64le, uint64_t, uint64_t_le2host, prefix_length_8);
	949	MAKE_UINT_TRANSFORM(uint64be, uint64_t, uint64_t_be2host, prefix_length_8);
[0784869]	950	/** @endcond */
[0d1a8fd]	951
[0ce0103]	952
	953
	954	/*************** uint_be, uint_le ***************/
	955
[b7fd2a0]	956	static errno_t uint_xe_prefix_apply(bithenge_transform_t *self,
[0ce0103]	957	bithenge_scope_t scope, bithenge_blob_t blob, bithenge_node_t **out_node,
	958	aoff64_t *out_size)
	959	{
	960	bool little_endian = (self == &bithenge_uint_le_transform);
	961	bithenge_node_t *num_bits_node;
[b7fd2a0]	962	errno_t rc = bithenge_scope_get_param(scope, 0, &num_bits_node);
[0ce0103]	963	if (rc != EOK)
	964	return rc;
	965	if (bithenge_node_type(num_bits_node) != BITHENGE_NODE_INTEGER) {
	966	bithenge_node_dec_ref(num_bits_node);
	967	return EINVAL;
	968	}
	969	bithenge_int_t num_bits = bithenge_integer_node_value(num_bits_node);
	970	bithenge_node_dec_ref(num_bits_node);
	971	if (num_bits < 0)
	972	return EINVAL;
	973	if ((size_t)num_bits > sizeof(bithenge_int_t) * 8 - 1)
	974	return EINVAL;
	975
[1b6b76d]	976	aoff64_t size = num_bits;
[0ce0103]	977	uint8_t buffer[sizeof(bithenge_int_t)];
[1b6b76d]	978	rc = bithenge_blob_read_bits(blob, 0, (char *)buffer, &size,
[0ce0103]	979	little_endian);
	980	if (rc != EOK)
	981	return rc;
[1b6b76d]	982	if (size != (aoff64_t)num_bits)
[0ce0103]	983	return EINVAL;
[1b6b76d]	984	if (out_size)
	985	*out_size = size;
[0ce0103]	986
	987	bithenge_int_t result = 0;
	988	bithenge_int_t num_easy_bytes = num_bits / 8;
	989	if (little_endian) {
	990	for (bithenge_int_t i = 0; i < num_easy_bytes; i++)
	991	result += buffer[i] << 8 * i;
	992	if (num_bits % 8)
	993	result += (buffer[num_easy_bytes] &
	994	((1 << num_bits % 8) - 1)) << 8 * num_easy_bytes;
	995	} else {
	996	for (bithenge_int_t i = 0; i < num_easy_bytes; i++)
	997	result += buffer[i] << (num_bits - 8 * (i + 1));
	998	if (num_bits % 8)
	999	result += buffer[num_easy_bytes] >> (8 - num_bits % 8);
	1000	}
	1001
	1002	return bithenge_new_integer_node(out_node, result);
	1003	}
	1004
	1005	static const bithenge_transform_ops_t uint_xe_ops = {
	1006	.prefix_apply = uint_xe_prefix_apply,
	1007	.destroy = transform_indestructible,
	1008	};
	1009
	1010	/** A transform that reads an unsigned integer from an arbitrary number of
[7c3fb9b]	1011	* bits, most-significant bit first.
	1012	*/
[0ce0103]	1013	bithenge_transform_t bithenge_uint_be_transform = {
	1014	&uint_xe_ops, 1, 1
	1015	};
	1016
	1017	/** A transform that reads an unsigned integer from an arbitrary number of
[7c3fb9b]	1018	* bits, least-significant bit first.
	1019	*/
[0ce0103]	1020	bithenge_transform_t bithenge_uint_le_transform = {
	1021	&uint_xe_ops, 1, 1
	1022	};
	1023
	1024
	1025
	1026	/*************** zero_terminated ***************/
	1027
[b7fd2a0]	1028	static errno_t zero_terminated_apply(bithenge_transform_t *self,
[5a7c0e6]	1029	bithenge_scope_t scope, bithenge_node_t in, bithenge_node_t **out)
[600f5d1]	1030	{
[b7fd2a0]	1031	errno_t rc;
[600f5d1]	1032	if (bithenge_node_type(in) != BITHENGE_NODE_BLOB)
	1033	return EINVAL;
	1034	bithenge_blob_t *blob = bithenge_node_as_blob(in);
	1035	aoff64_t size;
	1036	rc = bithenge_blob_size(blob, &size);
	1037	if (rc != EOK)
	1038	return rc;
	1039	if (size < 1)
	1040	return EINVAL;
	1041	char ch;
	1042	aoff64_t size_read = 1;
	1043	rc = bithenge_blob_read(blob, size - 1, &ch, &size_read);
	1044	if (rc != EOK)
	1045	return rc;
	1046	if (size_read != 1 \|\| ch != '\0')
	1047	return EINVAL;
	1048	bithenge_blob_inc_ref(blob);
	1049	return bithenge_new_subblob(out, blob, 0, size - 1);
	1050	}
	1051
[b7fd2a0]	1052	static errno_t zero_terminated_prefix_length(bithenge_transform_t *self,
[5a7c0e6]	1053	bithenge_scope_t scope, bithenge_blob_t blob, aoff64_t *out)
[600f5d1]	1054	{
[b7fd2a0]	1055	errno_t rc;
[600f5d1]	1056	char buffer[4096];
	1057	aoff64_t offset = 0, size_read = sizeof(buffer);
	1058	do {
	1059	rc = bithenge_blob_read(blob, offset, buffer, &size_read);
	1060	if (rc != EOK)
	1061	return rc;
	1062	char *found = memchr(buffer, '\0', size_read);
	1063	if (found) {
	1064	*out = found - buffer + offset + 1;
	1065	return EOK;
	1066	}
	1067	offset += size_read;
	1068	} while (size_read == sizeof(buffer));
	1069	return EINVAL;
	1070	}
	1071
	1072	static const bithenge_transform_ops_t zero_terminated_ops = {
	1073	.apply = zero_terminated_apply,
	1074	.prefix_length = zero_terminated_prefix_length,
	1075	.destroy = transform_indestructible,
	1076	};
	1077
	1078	/** The zero-terminated data transform. */
	1079	bithenge_transform_t bithenge_zero_terminated_transform = {
[03cad47]	1080	&zero_terminated_ops, 1, 0
[600f5d1]	1081	};
	1082
[0d1a8fd]	1083	static bithenge_named_transform_t primitive_transforms[] = {
[18b6a88]	1084	{ "ascii", &bithenge_ascii_transform },
	1085	{ "bit", &bithenge_bit_transform },
	1086	{ "bits_be", &bithenge_bits_be_transform },
	1087	{ "bits_le", &bithenge_bits_le_transform },
	1088	{ "known_length", &bithenge_known_length_transform },
	1089	{ "nonzero_boolean", &bithenge_nonzero_boolean_transform },
	1090	{ "uint8", &bithenge_uint8_transform },
	1091	{ "uint16be", &bithenge_uint16be_transform },
	1092	{ "uint16le", &bithenge_uint16le_transform },
	1093	{ "uint32be", &bithenge_uint32be_transform },
	1094	{ "uint32le", &bithenge_uint32le_transform },
	1095	{ "uint64be", &bithenge_uint64be_transform },
	1096	{ "uint64le", &bithenge_uint64le_transform },
	1097	{ "uint_be", &bithenge_uint_be_transform },
	1098	{ "uint_le", &bithenge_uint_le_transform },
	1099	{ "zero_terminated", &bithenge_zero_terminated_transform },
	1100	{ NULL, NULL }
[0d1a8fd]	1101	};
	1102
	1103	/** An array of named built-in transforms. */
	1104	bithenge_named_transform_t *bithenge_primitive_transforms = primitive_transforms;
[d5070ef]	1105
	1106	/** @}
	1107	*/

Note: See TracBrowser for help on using the repository browser.

Download in other formats: