#![allow(dead_code, clippy::inherent_to_string)] use crate::format_err; use crate::utils::to_err; use js_sys::{Reflect, UriError}; use oxigraph::model::*; use oxigraph::sparql::Variable; use wasm_bindgen::prelude::*; thread_local! { pub static FROM_JS: FromJsConverter = FromJsConverter::default(); } #[wasm_bindgen(js_name = namedNode)] pub fn named_node(value: String) -> Result { NamedNode::new(value) .map(|v| v.into()) .map_err(|v| UriError::new(&v.to_string()).into()) } #[wasm_bindgen(js_name = blankNode)] pub fn blank_node(value: Option) -> Result { Ok(if let Some(value) = value { BlankNode::new(value).map_err(to_err)? } else { BlankNode::default() } .into()) } #[wasm_bindgen] pub fn literal( value: Option, language_or_datatype: &JsValue, ) -> Result { if language_or_datatype.is_null() || language_or_datatype.is_undefined() { Ok(Literal::new_simple_literal(value.unwrap_or_default()).into()) } else if language_or_datatype.is_string() { Ok(Literal::new_language_tagged_literal( value.unwrap_or_default(), language_or_datatype.as_string().unwrap_or_default(), ) .map_err(to_err)? .into()) } else if let JsTerm::NamedNode(datatype) = FROM_JS.with(|c| c.to_term(language_or_datatype))? { Ok(Literal::new_typed_literal(value.unwrap_or_default(), datatype).into()) } else { Err(format_err!("The literal datatype should be a NamedNode")) } } #[wasm_bindgen(js_name = defaultGraph)] pub fn default_graph() -> JsDefaultGraph { JsDefaultGraph {} } #[wasm_bindgen(js_name = variable)] pub fn variable(value: String) -> Result { Ok(Variable::new(value).map_err(to_err)?.into()) } #[wasm_bindgen(js_name = triple)] pub fn triple(subject: &JsValue, predicate: &JsValue, object: &JsValue) -> Result { quad(subject, predicate, object, &JsValue::UNDEFINED) } #[wasm_bindgen(js_name = quad)] pub fn quad( subject: &JsValue, predicate: &JsValue, object: &JsValue, graph: &JsValue, ) -> Result { Ok(FROM_JS .with(|c| c.to_quad_from_parts(subject, predicate, object, graph))? .into()) } #[wasm_bindgen(js_name = fromTerm)] pub fn from_term(original: &JsValue) -> Result { Ok(if original.is_null() { JsValue::NULL } else { FROM_JS.with(|c| c.to_term(original))?.into() }) } #[wasm_bindgen(js_name = fromQuad)] pub fn from_quad(original: &JsValue) -> Result { Ok(if original.is_null() { JsValue::NULL } else { JsQuad::from(FROM_JS.with(|c| c.to_quad(original))?).into() }) } #[wasm_bindgen(js_name = NamedNode)] #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub struct JsNamedNode { inner: NamedNode, } #[wasm_bindgen(js_class = NamedNode)] impl JsNamedNode { #[wasm_bindgen(getter = termType)] pub fn term_type(&self) -> String { "NamedNode".to_owned() } #[wasm_bindgen(getter)] pub fn value(&self) -> String { self.inner.as_str().to_owned() } #[wasm_bindgen(js_name = toString)] pub fn to_string(&self) -> String { self.inner.to_string() } pub fn equals(&self, other: &JsValue) -> bool { if let Ok(Some(JsTerm::NamedNode(other))) = FromJsConverter::default().to_optional_term(other) { self == &other } else { false } } } impl From for JsNamedNode { fn from(inner: NamedNode) -> Self { Self { inner } } } impl From for NamedNode { fn from(node: JsNamedNode) -> Self { node.inner } } impl From for NamedOrBlankNode { fn from(node: JsNamedNode) -> Self { node.inner.into() } } impl From for Subject { fn from(node: JsNamedNode) -> Self { node.inner.into() } } impl From for Term { fn from(node: JsNamedNode) -> Self { node.inner.into() } } impl From for GraphName { fn from(node: JsNamedNode) -> Self { node.inner.into() } } #[wasm_bindgen(js_name = BlankNode)] #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub struct JsBlankNode { inner: BlankNode, } #[wasm_bindgen(js_class = BlankNode)] impl JsBlankNode { #[wasm_bindgen(getter = termType)] pub fn term_type(&self) -> String { "BlankNode".to_owned() } #[wasm_bindgen(getter)] pub fn value(&self) -> String { self.inner.as_str().to_owned() } #[wasm_bindgen(js_name = toString)] pub fn to_string(&self) -> String { self.inner.to_string() } pub fn equals(&self, other: &JsValue) -> bool { if let Ok(Some(JsTerm::BlankNode(other))) = FromJsConverter::default().to_optional_term(other) { self == &other } else { false } } } impl From for JsBlankNode { fn from(inner: BlankNode) -> Self { Self { inner } } } impl From for BlankNode { fn from(node: JsBlankNode) -> Self { node.inner } } impl From for NamedOrBlankNode { fn from(node: JsBlankNode) -> Self { node.inner.into() } } impl From for Subject { fn from(node: JsBlankNode) -> Self { node.inner.into() } } impl From for Term { fn from(node: JsBlankNode) -> Self { node.inner.into() } } impl From for GraphName { fn from(node: JsBlankNode) -> Self { node.inner.into() } } #[wasm_bindgen(js_name = Literal)] #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub struct JsLiteral { inner: Literal, } #[wasm_bindgen(js_class = Literal)] impl JsLiteral { #[wasm_bindgen(getter = termType)] pub fn term_type(&self) -> String { "Literal".to_owned() } #[wasm_bindgen(getter)] pub fn value(&self) -> String { self.inner.value().to_owned() } #[wasm_bindgen(getter)] pub fn language(&self) -> String { self.inner.language().unwrap_or("").to_owned() } #[wasm_bindgen(getter)] pub fn datatype(&self) -> JsNamedNode { self.inner.datatype().into_owned().into() } #[wasm_bindgen(js_name = toString)] pub fn to_string(&self) -> String { self.inner.to_string() } pub fn equals(&self, other: &JsValue) -> bool { if let Ok(Some(JsTerm::Literal(other))) = FromJsConverter::default().to_optional_term(other) { self == &other } else { false } } } impl From for JsLiteral { fn from(inner: Literal) -> Self { Self { inner } } } impl From for Literal { fn from(node: JsLiteral) -> Self { node.inner } } impl From for Term { fn from(node: JsLiteral) -> Self { node.inner.into() } } #[wasm_bindgen(js_name = DefaultGraph)] #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub struct JsDefaultGraph {} #[wasm_bindgen(js_class = DefaultGraph)] impl JsDefaultGraph { #[wasm_bindgen(getter = termType)] pub fn term_type(&self) -> String { "DefaultGraph".to_owned() } #[wasm_bindgen(getter)] pub fn value(&self) -> String { "".to_owned() } #[wasm_bindgen(js_name = toString)] pub fn to_string(&self) -> String { "DEFAULT".to_string() } pub fn equals(&self, other: &JsValue) -> bool { if let Ok(Some(JsTerm::DefaultGraph(other))) = FromJsConverter::default().to_optional_term(other) { self == &other } else { false } } } #[wasm_bindgen(js_name = Variable)] #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub struct JsVariable { inner: Variable, } #[wasm_bindgen(js_class = Variable)] impl JsVariable { #[wasm_bindgen(getter = termType)] pub fn term_type(&self) -> String { "Variable".to_owned() } #[wasm_bindgen(getter)] pub fn value(&self) -> String { self.inner.as_str().to_owned() } #[wasm_bindgen(js_name = toString)] pub fn to_string(&self) -> String { self.inner.to_string() } pub fn equals(&self, other: &JsValue) -> bool { if let Ok(Some(JsTerm::Variable(other))) = FromJsConverter::default().to_optional_term(other) { self == &other } else { false } } } impl From for JsVariable { fn from(inner: Variable) -> Self { Self { inner } } } impl From for Variable { fn from(node: JsVariable) -> Self { node.inner } } #[wasm_bindgen(js_name = Quad)] #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub struct JsQuad { inner: Quad, } #[wasm_bindgen(js_class = Quad)] impl JsQuad { #[wasm_bindgen(getter = termType)] pub fn term_type(&self) -> String { "Quad".to_owned() } #[wasm_bindgen(getter)] pub fn value(&self) -> String { "".to_owned() } #[wasm_bindgen(getter = subject)] pub fn subject(&self) -> JsValue { JsTerm::from(self.inner.subject.clone()).into() } #[wasm_bindgen(getter = predicate)] pub fn predicate(&self) -> JsValue { JsTerm::from(self.inner.predicate.clone()).into() } #[wasm_bindgen(getter = object)] pub fn object(&self) -> JsValue { JsTerm::from(self.inner.object.clone()).into() } #[wasm_bindgen(getter = graph)] pub fn graph(&self) -> JsValue { JsTerm::from(self.inner.graph_name.clone()).into() } #[wasm_bindgen(js_name = toString)] pub fn to_string(&self) -> String { self.inner.to_string() } pub fn equals(&self, other: &JsValue) -> bool { if let Ok(Some(JsTerm::Quad(other))) = FromJsConverter::default().to_optional_term(other) { self == &other } else { false } } } impl From for JsQuad { fn from(inner: Triple) -> Self { Self { inner: inner.in_graph(GraphName::DefaultGraph), } } } impl From for JsQuad { fn from(inner: Quad) -> Self { Self { inner } } } impl From for Quad { fn from(quad: JsQuad) -> Self { quad.inner } } impl From for Triple { fn from(quad: JsQuad) -> Self { quad.inner.into() } } #[derive(Eq, PartialEq, Debug, Clone, Hash)] pub enum JsTerm { NamedNode(JsNamedNode), BlankNode(JsBlankNode), Literal(JsLiteral), DefaultGraph(JsDefaultGraph), Variable(JsVariable), Quad(JsQuad), } impl From for JsValue { fn from(value: JsTerm) -> Self { match value { JsTerm::NamedNode(v) => v.into(), JsTerm::BlankNode(v) => v.into(), JsTerm::Literal(v) => v.into(), JsTerm::DefaultGraph(v) => v.into(), JsTerm::Variable(v) => v.into(), JsTerm::Quad(v) => v.into(), } } } impl From for JsTerm { fn from(node: NamedNode) -> Self { JsTerm::NamedNode(node.into()) } } impl From for JsTerm { fn from(node: BlankNode) -> Self { JsTerm::BlankNode(node.into()) } } impl From for JsTerm { fn from(literal: Literal) -> Self { JsTerm::Literal(literal.into()) } } impl From for JsTerm { fn from(node: NamedOrBlankNode) -> Self { match node { NamedOrBlankNode::NamedNode(node) => node.into(), NamedOrBlankNode::BlankNode(node) => node.into(), } } } impl From for JsTerm { fn from(node: Subject) -> Self { match node { Subject::NamedNode(node) => node.into(), Subject::BlankNode(node) => node.into(), Subject::Triple(node) => node.into(), } } } impl From for JsTerm { fn from(term: Term) -> Self { match term { Term::NamedNode(node) => node.into(), Term::BlankNode(node) => node.into(), Term::Literal(literal) => literal.into(), Term::Triple(node) => node.into(), } } } impl From for JsTerm { fn from(name: GraphName) -> Self { match name { GraphName::NamedNode(node) => node.into(), GraphName::BlankNode(node) => node.into(), GraphName::DefaultGraph => JsTerm::DefaultGraph(JsDefaultGraph {}), } } } impl From for JsTerm { fn from(variable: Variable) -> Self { JsTerm::Variable(variable.into()) } } impl From for JsTerm { fn from(triple: Triple) -> Self { JsTerm::Quad(triple.into()) } } impl From> for JsTerm { fn from(triple: Box) -> Self { triple.as_ref().clone().into() } } impl From for JsTerm { fn from(quad: Quad) -> Self { JsTerm::Quad(quad.into()) } } impl TryFrom for NamedNode { type Error = JsValue; fn try_from(value: JsTerm) -> Result { match value { JsTerm::NamedNode(node) => Ok(node.into()), JsTerm::BlankNode(node) => Err(format_err!( "The blank node {} is not a named node", node.inner )), JsTerm::Literal(literal) => Err(format_err!( "The literal {} is not a named node", literal.inner )), JsTerm::DefaultGraph(_) => Err(format_err!("The default graph is not a named node")), JsTerm::Variable(variable) => Err(format_err!( "The variable {} is not a named node", variable.inner )), JsTerm::Quad(quad) => Err(format_err!("The quad {} is not a named node", quad.inner)), } } } impl TryFrom for NamedOrBlankNode { type Error = JsValue; fn try_from(value: JsTerm) -> Result { match value { JsTerm::NamedNode(node) => Ok(node.into()), JsTerm::BlankNode(node) => Ok(node.into()), JsTerm::Literal(literal) => Err(format_err!( "The literal {} is not a possible named or blank node term", literal.inner )), JsTerm::DefaultGraph(_) => Err(format_err!( "The default graph is not a possible named or blank node term" )), JsTerm::Variable(variable) => Err(format_err!( "The variable {} is not a possible named or blank node term", variable.inner )), JsTerm::Quad(quad) => Err(format_err!( "The quad {} is not a possible named or blank node term", quad.inner )), } } } impl TryFrom for Subject { type Error = JsValue; fn try_from(value: JsTerm) -> Result { match value { JsTerm::NamedNode(node) => Ok(node.into()), JsTerm::BlankNode(node) => Ok(node.into()), JsTerm::Literal(literal) => Err(format_err!( "The literal {} is not a possible RDF subject", literal.inner )), JsTerm::DefaultGraph(_) => Err(format_err!( "The default graph is not a possible RDF subject" )), JsTerm::Variable(variable) => Err(format_err!( "The variable {} is not a possible RDF subject", variable.inner )), JsTerm::Quad(quad) => Ok(Triple::from(quad).into()), } } } impl TryFrom for Term { type Error = JsValue; fn try_from(value: JsTerm) -> Result { match value { JsTerm::NamedNode(node) => Ok(node.into()), JsTerm::BlankNode(node) => Ok(node.into()), JsTerm::Literal(literal) => Ok(literal.into()), JsTerm::DefaultGraph(_) => { Err(format_err!("The default graph is not a possible RDF term")) } JsTerm::Variable(variable) => Err(format_err!( "The variable {} is not a possible RDF term", variable.inner )), JsTerm::Quad(quad) => Ok(Triple::from(quad).into()), } } } impl TryFrom for GraphName { type Error = JsValue; fn try_from(value: JsTerm) -> Result { match value { JsTerm::NamedNode(node) => Ok(node.into()), JsTerm::BlankNode(node) => Ok(node.into()), JsTerm::Literal(literal) => Err(format_err!( "The literal {} is not a possible graph name", literal.inner )), JsTerm::DefaultGraph(_) => Ok(GraphName::DefaultGraph), JsTerm::Variable(variable) => Err(format_err!( "The variable {} is not a possible RDF term", variable.inner )), JsTerm::Quad(quad) => Err(format_err!( "The quad {} is not a possible RDF term", quad.inner )), } } } pub struct FromJsConverter { term_type: JsValue, value: JsValue, language: JsValue, datatype: JsValue, subject: JsValue, predicate: JsValue, object: JsValue, graph: JsValue, } impl Default for FromJsConverter { fn default() -> Self { Self { term_type: JsValue::from_str("termType"), value: JsValue::from_str("value"), language: JsValue::from_str("language"), datatype: JsValue::from_str("datatype"), subject: JsValue::from_str("subject"), predicate: JsValue::from_str("predicate"), object: JsValue::from_str("object"), graph: JsValue::from_str("graph"), } } } impl FromJsConverter { pub fn to_term(&self, value: &JsValue) -> Result { let term_type = Reflect::get(value, &self.term_type)?; if let Some(term_type) = term_type.as_string() { match term_type.as_str() { "NamedNode" => Ok(NamedNode::new( Reflect::get(value, &self.value)? .as_string() .ok_or_else(|| format_err!("NamedNode should have a string value"))?, ) .map_err(|v| UriError::new(&v.to_string()))? .into()), "BlankNode" => Ok(BlankNode::new( Reflect::get(value, &self.value)? .as_string() .ok_or_else(|| format_err!("BlankNode should have a string value"))?, ) .map_err(to_err)? .into()), "Literal" => { if let JsTerm::NamedNode(datatype) = self.to_term(&Reflect::get(value, &self.datatype)?)? { let datatype = NamedNode::from(datatype); let literal_value = Reflect::get(value, &self.value)? .as_string() .ok_or_else(|| format_err!("Literal should have a string value"))?; Ok(match datatype.as_str() { "http://www.w3.org/2001/XMLSchema#string" => Literal::new_simple_literal(literal_value), "http://www.w3.org/1999/02/22-rdf-syntax-ns#langString" => Literal::new_language_tagged_literal(literal_value, Reflect::get(value, &self.language)?.as_string().ok_or_else( || format_err!("Literal with rdf:langString datatype should have a language"), )?).map_err(to_err)?, _ => Literal::new_typed_literal(literal_value, datatype) }.into()) } else { Err(format_err!( "Literal should have a datatype that is a NamedNode" )) } } "DefaultGraph" => Ok(JsTerm::DefaultGraph(JsDefaultGraph {})), "Variable" => Ok(Variable::new( Reflect::get(value, &self.value)? .as_string() .ok_or_else(|| format_err!("Variable should have a string value"))?, ) .map_err(to_err)? .into()), "Quad" => Ok(self.to_quad(value)?.into()), _ => Err(format_err!( "The termType {} is not supported by Oxigraph", term_type )), } } else if term_type.is_undefined() { // It's a quad without the proper type if Reflect::has(value, &self.subject)? && Reflect::has(value, &self.predicate)? && Reflect::has(value, &self.object)? { Ok(self.to_quad(value)?.into()) } else { Err(format_err!( "RDF term objects should have a termType attribute" )) } } else { Err(format_err!("The object termType field should be a string")) } } pub fn to_optional_term(&self, value: &JsValue) -> Result, JsValue> { if value.is_null() || value.is_undefined() { Ok(None) } else { self.to_term(value).map(Some) } } pub fn to_quad(&self, value: &JsValue) -> Result { self.to_quad_from_parts( &Reflect::get(value, &self.subject)?, &Reflect::get(value, &self.predicate)?, &Reflect::get(value, &self.object)?, &Reflect::get(value, &self.graph)?, ) } pub fn to_quad_from_parts( &self, subject: &JsValue, predicate: &JsValue, object: &JsValue, graph_name: &JsValue, ) -> Result { Ok(Quad { subject: Subject::try_from(self.to_term(subject)?)?, predicate: NamedNode::try_from(self.to_term(predicate)?)?, object: Term::try_from(self.to_term(object)?)?, graph_name: if graph_name.is_undefined() { GraphName::DefaultGraph } else { GraphName::try_from(self.to_term(graph_name)?)? }, }) } }