/* lv2_atom_helpers.h - Helper functions for the LV2 atoms extension. * Copyright (C) 2008-2010 David Robillard * * This header is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published * by the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This header 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 Lesser General Public * License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this header; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 01222-1307 USA */ #ifndef LV2_ATOM_HELPERS_H #define LV2_ATOM_HELPERS_H #include #include #include #include "lv2/http/lv2plug.in/ns/ext/atom/atom.h" /** @file * Helper functions for the LV2 Atom extension * . * * These functions are provided for convenience only, use of them is not * required for supporting atoms (i.e. the definition of atoms in memory * is described in atom.h and NOT by this API). * * Note that these functions are all static inline which basically means: * do not take the address of these functions. */ /** Pad a size to 4 bytes (32 bits) */ static inline uint16_t lv2_atom_pad_size(uint16_t size) { return (size + 3) & (~3); } typedef LV2_Atom_Property* LV2_Object_Iter; static inline LV2_Object_Iter lv2_object_get_iter(LV2_Atom_Property* prop) { return (LV2_Object_Iter)prop; } static inline bool lv2_object_iter_is_end(const LV2_Atom* object, LV2_Object_Iter iter) { return (uint8_t*)iter >= (object->body + object->size); } static inline bool lv2_object_iter_equals(const LV2_Object_Iter l, const LV2_Object_Iter r) { return l == r; } static inline LV2_Object_Iter lv2_object_iter_next(const LV2_Object_Iter iter) { return (LV2_Object_Iter)( (uint8_t*)iter + sizeof(LV2_Atom_Property) + lv2_atom_pad_size(iter->value.size)); } static inline LV2_Atom_Property* lv2_object_iter_get(LV2_Object_Iter iter) { return (LV2_Atom_Property*)iter; } /** A macro for iterating over all properties of an Object. * @param obj The object to iterate over * @param iter The name of the iterator * This macro is used similarly to a for loop (which it expands to), e.g.: *
 * LV2_OBJECT_FOREACH(object, i) {
 *    LV2_Atom_Property* prop = lv2_object_iter_get(i);
 *    // Do things with prop here...
 * }
 */
#define LV2_OBJECT_FOREACH(obj, iter) \
	for (LV2_Object_Iter (iter) = lv2_object_get_iter((LV2_Atom_Property*)(obj)->body); \
	     !lv2_object_iter_is_end(obj, (iter)); \
	     (iter) = lv2_object_iter_next(iter))

/** Append a Property body to an Atom that contains properties (e.g. atom:Object).
 * This function will write the property body (not including an LV2_Object
 * header) at lv2_atom_pad_size(body + size).  Thus, it can be used with any
 * Atom type that contains headerless 32-bit aligned properties.
 * @param object Pointer to the atom that contains the property to add.  object.size
 *        must be valid, but object.type is ignored.
 * @param size Must point to the size field of the container atom, and will be
 *        padded up to 32 bits then increased by @a value_size.
 * @param body Must point to the body of the container atom.
 * @return a pointer to the new LV2_Atom_Property in @a body.
 */
static inline LV2_Atom_Property*
lv2_atom_append_property(LV2_Atom*   object,
                         uint32_t    key,
                         uint16_t    value_type,
                         uint16_t    value_size,
                         const char* value_body)
{
	object->size = lv2_atom_pad_size(object->size);
	LV2_Atom_Property* prop = (LV2_Atom_Property*)(object->body + object->size);
	prop->key = key;
	prop->value.type = value_type;
	prop->value.size = value_size;
	memcpy(prop->value.body, value_body, value_size);
	object->size += sizeof(uint32_t) + sizeof(LV2_Atom_Property) + value_size;
	return prop;
}

static inline bool
lv2_atom_is_null(LV2_Atom* atom)
{
	return !atom || (atom->type == 0 && atom->size == 0);
}

static inline bool
lv2_atom_is_a(LV2_Atom* object,
              uint32_t  rdf_type,
              uint32_t  atom_URIInt,
              uint32_t  atom_Object,
              uint32_t  type)
{
	if (lv2_atom_is_null(object))
		return false;
	
	if (object->type == type)
		return true;

	if (object->type == atom_Object) {
		for (LV2_Object_Iter i = lv2_object_get_iter((LV2_Atom_Property*)object->body);
		     !lv2_object_iter_is_end(object, i);
		     i = lv2_object_iter_next(i)) {
			LV2_Atom_Property* prop = lv2_object_iter_get(i);
			if (prop->key == rdf_type) {
				if (prop->value.type == atom_URIInt) {
					const uint32_t object_type = *(uint32_t*)prop->value.body;
					if (object_type == type)
						return true;
				} else {
					fprintf(stderr, "error: rdf:type is not a URIInt\n");
				}

			}
		}
	}

	return false;
}

/** A single entry in an Object query. */
typedef struct {
	uint32_t  key;   ///< Set by the user to the desired key to query.
	LV2_Atom* value; ///< Possibly set by query function to the found value
} LV2_Object_Query;

/** "Query" an object, getting a pointer to the values for various keys.
 * The value pointer of each item in @a q will be set to the location of
 * the corresponding value in @a object.  Every value pointer in @a query
 * MUST be initialised to NULL.  This function reads @a object in a single
 * linear sweep.  By allocating @a q on the stack, objects can be "queried"
 * quickly without allocating any memory.  This function is realtime safe.
 */
int
lv2_object_query(LV2_Atom* object, LV2_Object_Query* query)
{
	int matches   = 0;
	int n_queries = 0;

	// Count number of query keys so we can short-circuit when done
	for (LV2_Object_Query* q = query; q->key; ++q)
		++n_queries;
	
	LV2_OBJECT_FOREACH(object, o) {
		LV2_Atom_Property* prop = lv2_object_iter_get(o);
		for (LV2_Object_Query* q = query; q->key; ++q) {
			if (q->key == prop->key && !q->value) {
				q->value = &prop->value;
				if (++matches == n_queries)
					return matches;
				break;
			}
		}
	}
	return matches;
}

#endif /* LV2_ATOM_HELPERS_H */