use crate::{diagnostic_set::DiagnosticEntry, Diagnostic, Operation}; use anyhow::{anyhow, Result}; use clock::ReplicaId; use lsp::DiagnosticSeverity; use rpc::proto; use std::sync::Arc; use text::*; pub use proto::{Buffer, SelectionSet}; pub fn serialize_operation(operation: &Operation) -> proto::Operation { proto::Operation { variant: Some(match operation { Operation::Buffer(text::Operation::Edit(edit)) => { proto::operation::Variant::Edit(serialize_edit_operation(edit)) } Operation::Buffer(text::Operation::Undo { undo, lamport_timestamp, }) => proto::operation::Variant::Undo(proto::operation::Undo { replica_id: undo.id.replica_id as u32, local_timestamp: undo.id.value, lamport_timestamp: lamport_timestamp.value, ranges: undo .ranges .iter() .map(|r| proto::Range { start: r.start.0 as u64, end: r.end.0 as u64, }) .collect(), counts: undo .counts .iter() .map(|(edit_id, count)| proto::operation::UndoCount { replica_id: edit_id.replica_id as u32, local_timestamp: edit_id.value, count: *count, }) .collect(), version: From::from(&undo.version), }), Operation::UpdateSelections { replica_id, selections, lamport_timestamp, } => proto::operation::Variant::UpdateSelections(proto::operation::UpdateSelections { replica_id: *replica_id as u32, lamport_timestamp: lamport_timestamp.value, selections: serialize_selections(selections), }), Operation::RemoveSelections { replica_id, lamport_timestamp, } => proto::operation::Variant::RemoveSelections(proto::operation::RemoveSelections { replica_id: *replica_id as u32, lamport_timestamp: lamport_timestamp.value, }), Operation::UpdateDiagnostics { provider_name, diagnostics, lamport_timestamp, } => proto::operation::Variant::UpdateDiagnosticSet(proto::UpdateDiagnosticSet { replica_id: lamport_timestamp.replica_id as u32, lamport_timestamp: lamport_timestamp.value, diagnostic_set: Some(serialize_diagnostic_set( provider_name.clone(), diagnostics.iter(), )), }), }), } } pub fn serialize_edit_operation(operation: &EditOperation) -> proto::operation::Edit { let ranges = operation .ranges .iter() .map(|range| proto::Range { start: range.start.0 as u64, end: range.end.0 as u64, }) .collect(); proto::operation::Edit { replica_id: operation.timestamp.replica_id as u32, local_timestamp: operation.timestamp.local, lamport_timestamp: operation.timestamp.lamport, version: From::from(&operation.version), ranges, new_text: operation.new_text.clone(), } } pub fn serialize_selections(selections: &Arc<[Selection]>) -> Vec { selections .iter() .map(|selection| proto::Selection { id: selection.id as u64, start: Some(serialize_anchor(&selection.start)), end: Some(serialize_anchor(&selection.end)), reversed: selection.reversed, }) .collect() } pub fn serialize_diagnostic_set<'a>( provider_name: String, diagnostics: impl IntoIterator>, ) -> proto::DiagnosticSet { proto::DiagnosticSet { provider_name, diagnostics: diagnostics .into_iter() .map(|entry| proto::Diagnostic { start: Some(serialize_anchor(&entry.range.start)), end: Some(serialize_anchor(&entry.range.end)), message: entry.diagnostic.message.clone(), severity: match entry.diagnostic.severity { DiagnosticSeverity::ERROR => proto::diagnostic::Severity::Error, DiagnosticSeverity::WARNING => proto::diagnostic::Severity::Warning, DiagnosticSeverity::INFORMATION => proto::diagnostic::Severity::Information, DiagnosticSeverity::HINT => proto::diagnostic::Severity::Hint, _ => proto::diagnostic::Severity::None, } as i32, group_id: entry.diagnostic.group_id as u64, is_primary: entry.diagnostic.is_primary, is_valid: entry.diagnostic.is_valid, code: entry.diagnostic.code.clone(), is_disk_based: entry.diagnostic.is_disk_based, }) .collect(), } } fn serialize_anchor(anchor: &Anchor) -> proto::Anchor { proto::Anchor { replica_id: anchor.timestamp.replica_id as u32, local_timestamp: anchor.timestamp.value, offset: anchor.offset as u64, bias: match anchor.bias { Bias::Left => proto::Bias::Left as i32, Bias::Right => proto::Bias::Right as i32, }, } } pub fn deserialize_operation(message: proto::Operation) -> Result { Ok( match message .variant .ok_or_else(|| anyhow!("missing operation variant"))? { proto::operation::Variant::Edit(edit) => { Operation::Buffer(text::Operation::Edit(deserialize_edit_operation(edit))) } proto::operation::Variant::Undo(undo) => Operation::Buffer(text::Operation::Undo { lamport_timestamp: clock::Lamport { replica_id: undo.replica_id as ReplicaId, value: undo.lamport_timestamp, }, undo: UndoOperation { id: clock::Local { replica_id: undo.replica_id as ReplicaId, value: undo.local_timestamp, }, counts: undo .counts .into_iter() .map(|c| { ( clock::Local { replica_id: c.replica_id as ReplicaId, value: c.local_timestamp, }, c.count, ) }) .collect(), ranges: undo .ranges .into_iter() .map(|r| FullOffset(r.start as usize)..FullOffset(r.end as usize)) .collect(), version: undo.version.into(), }, }), proto::operation::Variant::UpdateSelections(message) => { let selections = message .selections .into_iter() .filter_map(|selection| { Some(Selection { id: selection.id as usize, start: deserialize_anchor(selection.start?)?, end: deserialize_anchor(selection.end?)?, reversed: selection.reversed, goal: SelectionGoal::None, }) }) .collect::>(); Operation::UpdateSelections { replica_id: message.replica_id as ReplicaId, lamport_timestamp: clock::Lamport { replica_id: message.replica_id as ReplicaId, value: message.lamport_timestamp, }, selections: Arc::from(selections), } } proto::operation::Variant::RemoveSelections(message) => Operation::RemoveSelections { replica_id: message.replica_id as ReplicaId, lamport_timestamp: clock::Lamport { replica_id: message.replica_id as ReplicaId, value: message.lamport_timestamp, }, }, proto::operation::Variant::UpdateDiagnosticSet(message) => { let (provider_name, diagnostics) = deserialize_diagnostic_set( message .diagnostic_set .ok_or_else(|| anyhow!("missing diagnostic set"))?, ); Operation::UpdateDiagnostics { provider_name, diagnostics, lamport_timestamp: clock::Lamport { replica_id: message.replica_id as ReplicaId, value: message.lamport_timestamp, }, } } }, ) } pub fn deserialize_edit_operation(edit: proto::operation::Edit) -> EditOperation { let ranges = edit .ranges .into_iter() .map(|range| FullOffset(range.start as usize)..FullOffset(range.end as usize)) .collect(); EditOperation { timestamp: InsertionTimestamp { replica_id: edit.replica_id as ReplicaId, local: edit.local_timestamp, lamport: edit.lamport_timestamp, }, version: edit.version.into(), ranges, new_text: edit.new_text, } } pub fn deserialize_selections(selections: Vec) -> Arc<[Selection]> { Arc::from( selections .into_iter() .filter_map(|selection| { Some(Selection { id: selection.id as usize, start: deserialize_anchor(selection.start?)?, end: deserialize_anchor(selection.end?)?, reversed: selection.reversed, goal: SelectionGoal::None, }) }) .collect::>(), ) } pub fn deserialize_diagnostic_set( message: proto::DiagnosticSet, ) -> (String, Arc<[DiagnosticEntry]>) { ( message.provider_name, message .diagnostics .into_iter() .filter_map(|diagnostic| { Some(DiagnosticEntry { range: deserialize_anchor(diagnostic.start?)? ..deserialize_anchor(diagnostic.end?)?, diagnostic: Diagnostic { severity: match proto::diagnostic::Severity::from_i32(diagnostic.severity)? { proto::diagnostic::Severity::Error => DiagnosticSeverity::ERROR, proto::diagnostic::Severity::Warning => DiagnosticSeverity::WARNING, proto::diagnostic::Severity::Information => { DiagnosticSeverity::INFORMATION } proto::diagnostic::Severity::Hint => DiagnosticSeverity::HINT, proto::diagnostic::Severity::None => return None, }, message: diagnostic.message, group_id: diagnostic.group_id as usize, code: diagnostic.code, is_valid: diagnostic.is_valid, is_primary: diagnostic.is_primary, is_disk_based: diagnostic.is_disk_based, }, }) }) .collect(), ) } fn deserialize_anchor(anchor: proto::Anchor) -> Option { Some(Anchor { timestamp: clock::Local { replica_id: anchor.replica_id as ReplicaId, value: anchor.local_timestamp, }, offset: anchor.offset as usize, bias: match proto::Bias::from_i32(anchor.bias)? { proto::Bias::Left => Bias::Left, proto::Bias::Right => Bias::Right, }, }) }