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-rw-r--r--lv2/lv2plug.in/ns/ext/atom/atom.ttl193
1 files changed, 150 insertions, 43 deletions
diff --git a/lv2/lv2plug.in/ns/ext/atom/atom.ttl b/lv2/lv2plug.in/ns/ext/atom/atom.ttl
index d2ac20c..a614a7d 100644
--- a/lv2/lv2plug.in/ns/ext/atom/atom.ttl
+++ b/lv2/lv2plug.in/ns/ext/atom/atom.ttl
@@ -26,22 +26,23 @@
dcs:blame <http://drobilla.net/drobilla#me>
] ;
lv2:documentation """
-<p>This extension defines a generic container for data, called an <q>Atom</q>,
-and several basic Atom types which can be used to express structured data.
-Atoms are (with one exception) Plain Old Data (POD), which means they can be
-easily copied generically (e.g. using <code>memcpy</code>), and are suitable
-for use in high-performance and real-time code.</p>
-
-<p>Since Atom communication can be implemented generically, plugins that
-understand some type can be used together in a host that does not understand
-that type. Similarly, plugins (such as routers, delays, or data stores) can
+<p>This specification defines a generic container for data, called an
+<q>Atom</q>, and several basic Atom types which can be used to express
+structured data. An atom:Atom is (with one exception) Plain Old Data (POD),
+which means it can be copied generically (e.g. using a simple
+<code>memcpy</code>), and is suitable for use in real-time code.</p>
+
+<p>The purpose of Atoms is to allow implementations that process and/or
+transmit data to be independent of that data's type. For example, plugins that
+mutually understand a type can be used together in a host that does not
+understand that type, because the host's required facilities are generic.
+Similarly, plugins (such as routers, delays, or data structures) can
meaningfully process atoms of a type unknown to them.</p>
<p>Atoms can and should be used anywhere values of various types must be stored
-or transmitted. This extension defines a port type, atom:AtomPort, for
-transmitting atoms via ports. The atom:Sequence type in an atom:AtomPort
-replaces the <a href="http://lv2plug.in/ns/ext/event">LV2 event</a>
-extension.</p>
+or transmitted. The port type atom:AtomPort can be used to transmit atoms via
+ports. The atom:Sequence type in an atom:AtomPort replaces the <a
+href="http://lv2plug.in/ns/ext/event">LV2 event</a> extension.</p>
<p>The types defined in this extension should be powerful enough to express
almost any structure. Implementations SHOULD build structures out of the types
@@ -53,6 +54,16 @@ where absolutely necessary.</p>
<p>Implementing this extension requires a facility for mapping URIs to
integers, such as the <a href="http://lv2plug.in/ns/ext/urid">LV2 URID</a>
extension.</p>
+
+<h3>Serialisation</h3>
+
+<p>An Atom type primarily defines a binary format (i.e. a C data type) for use
+at runtime. However, each Atom type also has a standard serialisation format
+which SHOULD be used wherever an atom needs to be expressed as a string or in
+Turtle. Thus, this specification not only defines binary data types for
+plugins to use, but a complete data model with a portable RDF-compatible
+serialisation. This is useful for inter-process communication as well as
+saving state.</p>
""" .
atom:cType
@@ -61,10 +72,23 @@ atom:cType
owl:FunctionalProperty ;
rdfs:label "C type" ;
rdfs:domain rdfs:Class ;
- rdfs:range xsd:string ;
+ rdfs:range lv2:Symbol ;
rdfs:comment """
-The identifier for a C type describing the in-memory representation of
-an instance of this class.
+The identifier for a C type describing the binary representation of an Atom of
+this type.
+""" .
+
+atom:stringType
+ a rdf:Property ,
+ owl:ObjectProperty ,
+ owl:FunctionalProperty ;
+ rdfs:label "String type" ;
+ rdfs:domain rdfs:Class ;
+ rdfs:range rdfs:Datatype ;
+ lv2:documentation """
+<p>The type to be used when representing an Atom of this type as a string
+(e.g. in XML or RDF). Typically an <a
+href="http://www.w3.org/TR/xmlschema-2/">XML Schema Datatype</a> URI.</p>
""" .
atom:Atom
@@ -73,14 +97,14 @@ atom:Atom
atom:cType "LV2_Atom" ;
lv2:documentation """
<p>Abstract base class for all atoms. An LV2_Atom has a 32-bit
-<code>type</code> and <code>size</code> followed by a body of <code>size</code>
+<code>size</code> and <code>type</code> followed by a body of <code>size</code>
bytes. Atoms MUST be 64-bit aligned.</p>
<p>All concrete Atom types (subclasses of this class) MUST define a precise
binary layout for their body.</p>
<p>The <code>type</code> field is the URI of an Atom type mapped to an integer.
-Implementations SHOULD gracefully ignore, or pass through, atoms with unknown
+Implementations SHOULD gracefully pass through, or ignore, atoms with unknown
types.</p>
<p>All atoms are POD by definition except references, which as a special case
@@ -91,8 +115,9 @@ reserves the type 0 for references, the details of reference handling are
currently unspecified. A future revision of this extension, or a different
extension, may define how to use non-POD data and references. Implementations
MUST NOT send references to another implementation unless the receiver is
-explicitly known to support references (e.g. by supporting a feature). The
-atom with both <code>type</code> <em>and</em> <code>size</code> 0 is
+explicitly known to support references (e.g. by supporting a feature).</p>
+
+<p>The atom with both <code>type</code> <em>and</em> <code>size</code> 0 is
<q>null</q>, which is not considered a Reference.</p>
""" .
@@ -100,11 +125,20 @@ atom:Chunk
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "Chunk of memory" ;
+ atom:stringType xsd:base64Binary ;
lv2:documentation """
<p>A chunk of memory with undefined contents. This type is used to indicate a
certain amount of space is available. For example, output ports with a
variably sized type are connected to a Chunk so the plugin knows the size of
the buffer available for writing.</p>
+
+<p>The use of a Chunk should be constrained to a local scope, since
+interpreting it is impossible without context. However, if serialised to RDF,
+a Chunk may be represented directly as an xsd:base64Binary string, e.g.:</p>
+
+<pre class="turtle-code">
+[] eg:someChunk "vu/erQ=="^^xsd:base64Binary .
+</pre>
""" .
atom:Number
@@ -116,31 +150,36 @@ atom:Int
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
rdfs:label "Signed 32-bit integer" ;
- atom:cType "LV2_Atom_Int" .
+ atom:cType "LV2_Atom_Int" ;
+ atom:stringType xsd:int .
atom:Long
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
rdfs:label "Signed 64-bit integer" ;
- atom:cType "LV2_Atom_Long" .
+ atom:cType "LV2_Atom_Long" ;
+ atom:stringType xsd:long .
atom:Float
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
rdfs:label "32-bit IEEE-754 floating point number" ;
- atom:cType "LV2_Atom_Float" .
+ atom:cType "LV2_Atom_Float" ;
+ atom:stringType xsd:float .
atom:Double
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
rdfs:label "64-bit IEEE-754 floating point number" ;
- atom:cType "LV2_Atom_Double" .
+ atom:cType "LV2_Atom_Double" ;
+ atom:stringType xsd:double .
atom:Bool
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "Boolean" ;
atom:cType "LV2_Atom_Bool" ;
+ atom:stringType xsd:boolean ;
rdfs:comment "An Int where 0 is false and any other value is true." .
atom:String
@@ -148,6 +187,7 @@ atom:String
rdfs:subClassOf atom:Atom ;
rdfs:label "String" ;
atom:cType "LV2_Atom_String" ;
+ atom:stringType xsd:string ;
lv2:documentation """
<p>A UTF-8 encoded string.</p>
@@ -155,10 +195,9 @@ atom:String
array of bytes (<code>uint8_t</code>) terminated with a NULL byte
(<code>'\\0'</code>).</p>
-<p>This type can be used for free-form strings, but in most cases it is better to
-use atom:Literal since this supports a language tag or datatype. Implementations
-SHOULD NOT use atom:String unless translating the string does not make sense and
-the string has no meaningful datatype.</p>
+<p>This type is for free-form strings, but SHOULD NOT be used for typed data or
+text in any language. Use atom:Literal unless translating the string does not
+make sense and the string has no meaningful datatype.</p>
""" .
atom:Literal
@@ -169,7 +208,7 @@ atom:Literal
lv2:documentation """
<p>A UTF-8 encoded string literal, with an optional datatype or language.</p>
-<p>This type is compatible with rdf:Literal and is capable of expressing a
+<p>This type is compatible with rdfs:Literal and is capable of expressing a
string in any language or a value of any type. A Literal has a
<code>datatype</code> and <code>lang</code> followed by string data in UTF-8
encoding. The length of the string data in bytes is <code>size -
@@ -185,10 +224,10 @@ both.</p>
<p>For example, a Literal can be "Hello" in English:</p>
<pre class="c-code">
void set_to_hello_in_english(LV2_Atom_Literal* lit) {
- lit->atom.type = map(expand("atom:Literal"));
- lit->atom.size = 14;
- lit->datatype = 0;
- lit->lang = map("http://lexvo.org/id/iso639-1/en");
+ lit->atom.type = map(expand("atom:Literal"));
+ lit->atom.size = 14;
+ lit->body.datatype = 0;
+ lit->body.lang = map("http://lexvo.org/id/iso639-1/en");
memcpy(LV2_ATOM_CONTENTS(LV2_Atom_Literal, lit),
"Hello",
sizeof("Hello")); // Assumes enough space
@@ -198,10 +237,10 @@ void set_to_hello_in_english(LV2_Atom_Literal* lit) {
<p>or a Turtle string:</p>
<pre class="c-code">
void set_to_turtle_string(LV2_Atom_Literal* lit, const char* ttl) {
- lit->atom.type = map(expand("atom:Literal"));
- lit->atom.size = 64;
- lit->datatype = map("http://www.w3.org/2008/turtle#turtle");
- lit->lang = 0;
+ lit->atom.type = map(expand("atom:Literal"));
+ lit->atom.size = 64;
+ lit->body.datatype = map("http://www.w3.org/2008/turtle#turtle");
+ lit->body.lang = 0;
memcpy(LV2_ATOM_CONTENTS(LV2_Atom_Literal, lit),
ttl,
strlen(ttl) + 1); // Assumes enough space
@@ -223,6 +262,7 @@ atom:URI
a rdfs:Class ;
rdfs:subClassOf atom:String ;
rdfs:label "URI string" ;
+ atom:stringType xsd:anyURI ;
lv2:documentation """
<p>A URI string. This is identical in format to atom:String, except the string
is a URI. This is useful when a URI is needed but mapping is inappropriate,
@@ -269,6 +309,20 @@ struct VectorOf42Floats {
<p>Note that it is possible to construct a valid Atom for each element
of the vector, even by an implementation which does not understand
<code>child_type</code>.</p>
+
+<p>If serialised to RDF, a Vector SHOULD have the form:</p>
+
+<pre class="turtle-code">
+eg:someVector
+ a atom:Vector ;
+ atom:childType atom:Int ;
+ rdf:value (
+ "1"^^xsd:int
+ "2"^^xsd:int
+ "3"^^xsd:int
+ "4"^^xsd:int
+ ) .
+</pre>
""" .
atom:Tuple
@@ -280,6 +334,19 @@ atom:Tuple
<p>The body of a Tuple is simply a series of complete atoms, each aligned to
64 bits.</p>
+
+<p>If serialised to RDF, a Tuple SHOULD have the form:</p>
+
+<pre class="turtle-code">
+eg:someVector
+ a atom:Tuple ;
+ rdf:value (
+ "1"^^xsd:int
+ "3.5"^^xsd:float
+ "etc"
+ ) .
+</pre>
+
""" .
atom:Property
@@ -295,6 +362,17 @@ and the <q>value</q> is the object.</p>
<p>The <code>context</code> field can be used to specify a different context
for each property, where this is useful. Otherwise, it may be 0.</p>
+
+<p>Properties generally only exist as part of an atom:Object. Accordingly,
+they will typically be represented directly as properties in RDF (see
+atom:Object). If this is not possible, they may be expressed as partial
+reified statements, e.g.:</p>
+
+<pre class="turtle-code">
+eg:someProperty
+ rdf:predicate eg:theKey ;
+ rdf:object eg:theValue .
+</pre>
""" .
atom:Object
@@ -314,6 +392,16 @@ structure to allow for fast dispatch.</p>
<p>This is an abstract Atom type, an Object is always either a atom:Resource
or a atom:Blank.</p>
+
+<p>If serialised to RDF, an Object SHOULD be represented directly as a
+resource, e.g.:</p>
+
+<pre class="turtle-code">
+eg:someObject
+ eg:firstPropertyKey "first property value" ;
+ eg:secondPropertyKey "first loser" ;
+ eg:andSoOn "and so on" .
+</pre>
""" .
atom:Resource
@@ -348,7 +436,8 @@ atom:Sound
<p>An atom:Vector of atom:Float which represents an audio waveform. The format
is the same as the buffer format for lv2:AudioPort (except the size may be
arbitrary). An atom:Sound inherently depends on the sample rate, which is
-assumed to be known.</p>
+assumed to be known from context. Because of this, directly serialising an
+atom:Sound is probably a bad idea, use a standard format like WAV instead.</p>
""" .
atom:TimeUnit
@@ -383,7 +472,7 @@ atom:Frames
lv2:documentation """
<p>Time in audio frames. Converting this to absolute time depends on the
sample rate. When this is the stamp unit for an atom:Sequence, its events have
-int64_t time stamps (<code>event.time.frames</code>)</p>
+int64_t time stamps (<code>LV2_Atom_Event.time.frames</code>)</p>
""" .
atom:Beats
@@ -393,15 +482,16 @@ atom:Beats
lv2:documentation """
<p>Time in beats. Converting this to absolute time depends on the tempo. When
this is the stamp unit for an atom:Sequence, the events in that sequence have a
-<code>double</code> stamp (<code>event.time.beats</code>).</p>""" .
+<code>double</code> stamp (<code>LV2_Atom_Event.time.beats</code>).</p>
+""" .
atom:Event
a rdfs:Class ;
rdfs:label "Event" ;
atom:cType "LV2_Atom_Event" ;
lv2:documentation """
-<p>An atom with a time stamp header prepended, typically an element of an
-atom:Sequence. Note this is not an Atom type.</p>
+<p>An atom with a time stamp prefix, typically an element of an atom:Sequence.
+Note this is not an Atom type.</p>
""" .
atom:Sequence
@@ -411,6 +501,23 @@ atom:Sequence
atom:cType "LV2_Atom_Sequence" ;
lv2:documentation """
<p>A sequence of atom:Event, i.e. a series of time-stamped Atoms.</p>
+
+<p>If serialised to RDF, a Sequence has a similar form to atom:Vector, but for
+brevity the elements may be assumed to be atom:Event, e.g.:</p>
+
+<pre class="turtle-code">
+eg:someSequence
+ a atom:Sequence ;
+ rdf:value (
+ [
+ atom:frameTime 1 ;
+ rdf:value "901A01"^^midi:MidiEvent
+ ] [
+ atom:frameTime 3 ;
+ rdf:value "902B02"^^midi:MidiEvent
+ ]
+ ) .
+</pre>
""" .
atom:AtomPort
@@ -418,7 +525,7 @@ atom:AtomPort
rdfs:subClassOf lv2:Port ;
rdfs:label "Atom Port" ;
lv2:documentation """
-<p>A port which contains an lv2:Atom. Ports of this type are connected to an
+<p>A port which contains an atom:Atom. Ports of this type are connected to an
LV2_Atom with a type specified by atom:bufferType.</p>
<p>Output ports with a variably sized type MUST be initialised by the host