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-rw-r--r--ext/atom.lv2/atom.ttl145
1 files changed, 72 insertions, 73 deletions
diff --git a/ext/atom.lv2/atom.ttl b/ext/atom.lv2/atom.ttl
index ce125d6..e49c544 100644
--- a/ext/atom.lv2/atom.ttl
+++ b/ext/atom.lv2/atom.ttl
@@ -20,6 +20,7 @@
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .
+@prefix owl: <http://www.w3.org/2002/07/owl#> .
<http://lv2plug.in/ns/ext/atom>
a lv2:Specification ;
@@ -75,6 +76,7 @@ extension.</p>
atom:Atom
a rdfs:Class ;
rdfs:label "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 <code>body</code> of
@@ -102,11 +104,13 @@ atom:String
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "String" ;
+ atom:cType "LV2_Atom_String" ;
lv2:documentation """
<p>A UTF-8 encoded string.</p>
-<p>The body of an atom:String is a C string in UTF-8 encoding, i.e. an array of
-bytes (<code>uint8_t</code>) terminated with a NULL byte (<code>'\\0'</code>).</p>
+<p>The body of an LV2_Atom_String is a C string in UTF-8 encoding, i.e. an
+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
@@ -118,48 +122,43 @@ atom:Literal
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "String Literal" ;
+ atom:cType "LV2_Atom_Literal" ;
lv2:documentation """
-<p>A UTF-8 encoded string literal, with an optional language tag or datatype.</p>
-
-<p>This type is compatible with an RDF literal and is capable of expressing a
-string in any language, or a value of any type. An LV2_Atom_Literal has a
-URID <code>lang</code> and <code>datatype</code> followed by the
-string data in UTF-8 encoding. The length of the string data in bytes is
-<code>size - (2 * sizeof(uint32_t))</code>, including the terminating NULL
-character. The <code>lang</code> field SHOULD be a URI of the form
+<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
+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 -
+sizeof(LV2_Atom_Literal)</code>, including the terminating NULL character. The
+<code>lang</code> field SHOULD be a URI of the form
&lt;http://lexvo.org/id/term/LANG&gt; where LANG is an <a
href="http://www.loc.gov/standards/iso639-2/">ISO 693-2</a> or <a
href="http://www.loc.gov/standards/iso639-2/">ISO 693-3</a> language code.</p>
-<p>For example, "Hello" in English:</p>
-<pre class="c-code">
-struct LV2_Atom {
- uint16_t type = uri_to_id(atom:Literal);
- uint16_t size = 14;
-}
-uint32_t datatype = 0;
-uint32_t lang = uri_to_id("http://lexvo.org/id/term/en");
-char str[] = "Hello";
-</pre>
-and French:
+<p>For compatibility, a Literal MUST have either a <code>datatype</code>
+or a <code>lang</code>, but never both.</p>
+
+<p>For example, a Literal can be "Hello" in English:</p>
<pre class="c-code">
-struct LV2_Atom {
- uint16_t type = uri_to_id(atom:Literal);
- uint16_t size = 16;
+void set_to_hello_in_english(LV2_Atom_Literal* lit) {
+ lit->type = map(expand("atom:Literal"));
+ lit->size = 14;
+ lit->datatype = 0;
+ lit->lang = map("http://lexvo.org/id/term/en");
+ memcpy(lit->str, "Hello", sizeof("Hello")); // Assumes enough space
}
-uint32_t datatype = 0;
-uint32_t lang = uri_to_id("http://lexvo.org/id/term/fr");
-char str[] = "Bonjour";
</pre>
+
<p>or a Turtle string:</p>
<pre class="c-code">
-struct LV2_Atom {
- uint16_t type = uri_to_id(atom:Literal);
- uint16_t size = 64;
+void set_to_turtle_string(LV2_Atom_Literal* lit, const char* ttl) {
+ lit->type = map(expand("atom:Literal"));
+ lit->size = 64;
+ lit->datatype = map("http://www.w3.org/2008/turtle#turtle");
+ lit->lang = 0;
+ memcpy(lit->str, ttl, strlen(ttl) + 1); // Assumes enough space
}
-uint32_t datatype = uri_to_id("http://www.w3.org/2008/turtle#turtle");
-uint32_t lang = 0;
-char str[] = "&lt;http://example.org/foo&gt; a &lt;http://example.org/Thing&gt; ."
</pre>
""" .
@@ -167,6 +166,7 @@ atom:URID
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "Integer ID mapped from a URI" ;
+ atom:cType "LV2_Atom_ID" ;
lv2:documentation """
An unsigned 32-bit integer mapped from a URI using the <a
href="http://lv2plug.in/ns/ext/uri-map">URI Map</a> extension's
@@ -177,6 +177,7 @@ atom:BlankID
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "Integer ID for a blank node" ;
+ atom:cType "LV2_Atom_ID" ;
lv2:documentation """
An unsigned 32-bit integer identifier for a blank node. A BlankID is only
meaningful within a limited scope (e.g. the Atom in which it appears), and
@@ -188,38 +189,30 @@ atom:Vector
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "Vector" ;
+ atom:cType "LV2_Atom_Vector" ;
lv2:documentation """
<p>A homogeneous sequence of atoms with equivalent type and size.</p>
-<p>An LV2_Atom_Vector is a 16-bit <code>elem_count</code> and
+<p>An LV2_Atom_Vector is a 32-bit <code>elem_count</code> and
<code>elem_type</code> followed by <code>elem_count</code> atom bodies of type
<code>elem_type</code>. The element type must be a fixed size atom:Atom type,
i.e. the size of each element is the vector's <code>size /
elem_count</code>.</p>
-<p>For example, an atom:Vector containing 42 elements of type atom:Float looks
-like this in memory:</p>
+<p>For example, an atom:Vector containing 42 elements of type atom:Float:</p>
<pre class="c-code">
-struct LV2_Atom {
- uint16_t type = uri_to_id(atom:Vector);
- uint16_t size = sizeof(LV2_Atom) + sizeof(LV2_Atom_Vector) + (42 * sizeof(float);
-}
-struct LV2_Vector {
- uint16_t elem_count = 42;
- uint16_t elem_type = uri_to_id(atom:Float);
-}
-float elem_00;
-float elem_01;
-...
-float elem_41;
+struct VectorOf42Floats {
+ uint32_t type; // map(expand("atom:Vector"))
+ uint32_t size; // sizeof(LV2_Atom_Vector) + (42 * sizeof(float);
+ uint32_t elem_count; // 42
+ uint32_t elem_type; // map(expand("atom:Float"))
+ float elems[32];
+};
</pre>
<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>elem_type</code>.</p>
-
-<p>A Vector header is 64-bits, thus the first element of a Vector is 64-bit
-aligned if the Vector itself is 64-bit aligned.</p>
""" .
atom:Tuple
@@ -234,20 +227,11 @@ and <code>size</code>.</p>
32 bits.</p>
""" .
-atom:Property
- a rdfs:Class ;
- rdfs:subClassOf atom:Atom ;
- rdfs:label "Property of a Thing" ;
- lv2:documentation """
-A single property of some lv2:Thing. An
-LV2_Atom_Property has an atom:URID <code>key</code> and an atom:Atom
-<code>value</code>.
-""" .
-
atom:Thing
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
rdfs:label "Thing" ;
+ atom:cType "LV2_Thing" ;
lv2:documentation """
<p>Abstract base class for a "Thing", i.e. an atom:Atom with a
number of <a href="#Property">properties</a>. An LV2_Object is an unsigned
@@ -269,6 +253,7 @@ code using only a 64-bit header for both.</p>
atom:Resource
a rdfs:Class ;
rdfs:subClassOf atom:Thing ;
+ atom:cType "LV2_Thing" ;
lv2:documentation """
An atom:Thing where <code>id</code> is the URI of the resource mapped to an
atom:URID.
@@ -277,6 +262,7 @@ atom:URID.
atom:Blank
a rdfs:Class ;
rdfs:subClassOf atom:Thing ;
+ atom:cType "LV2_Thing" ;
lv2:documentation """
An atom:Thing where <code>id</code> is the blank node ID of the object, which
is only meaningful within a certain limited scope (e.g. the container of the
@@ -287,6 +273,7 @@ NOT an <a href="ID">ID</a>.
atom:Message
a rdfs:Class ;
rdfs:subClassOf atom:Thing ;
+ atom:cType "LV2_Thing" ;
lv2:documentation """
A atom:Thing where <code>id</code> is a message type ID. Conceptually,
a Message is identical to a Blank, but is a distinct type with a single type
@@ -299,6 +286,7 @@ value <code>id</code> unmapped to a URI.
atom:Event
a rdfs:Class ;
rdfs:label "Event" ;
+ atom:cType "LV2_Atom_Event" ;
lv2:documentation """
An atom with a time stamp header prepended, typically for sample accurate
transmission via LV2 ports. See struct LV2_Atom_Event.
@@ -309,40 +297,40 @@ atom:Bang
rdfs:subClassOf atom:Atom ;
rdfs:label "Bang (activity) (size = 0)" .
-atom:Byte
- a rdfs:Class ;
- rdfs:subClassOf atom:Atom ;
- rdfs:label "Byte (<code>size = 1</code>)" .
-
atom:Number
a rdfs:Class ;
- rdfs:subClassOf atom:Atom ;
+ rdfs:subClassOf atom:Atom ;
rdfs:label "Number (abstract class)." .
atom:Int32
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
- rdfs:label "Signed 32-bit integer" .
+ rdfs:label "Signed 32-bit integer" ;
+ atom:cType "LV2_Atom_Int32" .
atom:Int64
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
- rdfs:label "Signed 64-bit integer" .
+ rdfs:label "Signed 64-bit integer" ;
+ atom:cType "LV2_Atom_Int64" .
atom:Bool
a rdfs:Class ;
rdfs:subClassOf atom:Atom ;
- rdfs:label "Signed 32-bit integer where 0 is false" .
+ rdfs:label "An atom:Int32 where 0 is false and all other values true" ;
+ atom:cType "LV2_Atom_Int32" .
atom:Float
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
- rdfs:label "32-bit IEEE-754 floating point number" .
+ rdfs:label "32-bit IEEE-754 floating point number" ;
+ atom:cType "LV2_Atom_Float" .
atom:Double
a rdfs:Class ;
rdfs:subClassOf atom:Number ;
- rdfs:label "64-bit IEEE-754 floating point number" .
+ rdfs:label "64-bit IEEE-754 floating point number" ;
+ atom:cType "LV2_Atom_Double" .
atom:blobSupport
a lv2:Feature ;
@@ -410,6 +398,17 @@ Intuitively, a MessagePort contains a "message" or "command" or "event"
which is reacted to, NOT a "value" or "signal" (which is computed with).
""" .
+atom:cType
+ a rdf:Property ,
+ owl:DatatypeProperty ;
+ rdfs:label "C type" ;
+ rdfs:domain rdfs:Class ;
+ rdfs:range xsd:string ;
+ rdfs:comment """
+The identifier for a C type describing the in-memory representation of
+an instance of this class.
+""" .
+
atom:EventPort
a rdfs:Class ;
rdfs:label "Event port" ;
@@ -417,7 +416,7 @@ atom:EventPort
lv2:documentation """
A port used for communicating time-stamped atoms in the audio context. Ports
of this type are connected to an LV2_Atom_Buffer, which contains a flat
-time-stamped sequence of atom:Event</a>.
+time-stamped sequence of atom:Event.
This port type is intended as a simpler and atom compatible successor to <a
href="http://lv2plug.in/ns/ext/event#EventPort">ev:EventPort</a>.