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denoland-deno/cli/doc/parser.rs

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use crate::op_error::OpError;
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use crate::swc_common;
use crate::swc_common::comments::CommentKind;
use crate::swc_common::comments::Comments;
use crate::swc_common::errors::Diagnostic;
use crate::swc_common::errors::DiagnosticBuilder;
use crate::swc_common::errors::Emitter;
use crate::swc_common::errors::Handler;
use crate::swc_common::errors::HandlerFlags;
use crate::swc_common::FileName;
use crate::swc_common::Globals;
use crate::swc_common::SourceMap;
use crate::swc_common::Span;
use crate::swc_ecma_ast;
use crate::swc_ecma_ast::Decl;
use crate::swc_ecma_ast::ModuleDecl;
use crate::swc_ecma_ast::Stmt;
use crate::swc_ecma_parser::lexer::Lexer;
use crate::swc_ecma_parser::JscTarget;
use crate::swc_ecma_parser::Parser;
use crate::swc_ecma_parser::Session;
use crate::swc_ecma_parser::SourceFileInput;
use crate::swc_ecma_parser::Syntax;
use crate::swc_ecma_parser::TsConfig;
use deno_core::ErrBox;
use deno_core::ModuleSpecifier;
use futures::Future;
use regex::Regex;
use std::collections::HashMap;
use std::error::Error;
use std::fmt;
use std::pin::Pin;
use std::sync::Arc;
use std::sync::RwLock;
use super::namespace::NamespaceDef;
use super::node;
use super::node::ModuleDoc;
use super::DocNode;
use super::DocNodeKind;
use super::Location;
#[derive(Clone, Debug)]
pub struct SwcDiagnosticBuffer {
pub diagnostics: Vec<Diagnostic>,
}
impl Error for SwcDiagnosticBuffer {}
impl fmt::Display for SwcDiagnosticBuffer {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let msg = self
.diagnostics
.iter()
.map(|d| d.message())
.collect::<Vec<String>>()
.join(",");
f.pad(&msg)
}
}
#[derive(Clone)]
pub struct SwcErrorBuffer(Arc<RwLock<SwcDiagnosticBuffer>>);
impl SwcErrorBuffer {
pub fn default() -> Self {
Self(Arc::new(RwLock::new(SwcDiagnosticBuffer {
diagnostics: vec![],
})))
}
}
impl Emitter for SwcErrorBuffer {
fn emit(&mut self, db: &DiagnosticBuilder) {
self.0.write().unwrap().diagnostics.push((**db).clone());
}
}
impl From<SwcErrorBuffer> for SwcDiagnosticBuffer {
fn from(buf: SwcErrorBuffer) -> Self {
let s = buf.0.read().unwrap();
s.clone()
}
}
pub trait DocFileLoader {
fn resolve(
&self,
specifier: &str,
referrer: &str,
) -> Result<ModuleSpecifier, OpError> {
ModuleSpecifier::resolve_import(specifier, referrer).map_err(OpError::from)
}
fn load_source_code(
&self,
specifier: &str,
) -> Pin<Box<dyn Future<Output = Result<String, OpError>>>>;
}
pub struct DocParser {
pub loader: Box<dyn DocFileLoader>,
pub buffered_error: SwcErrorBuffer,
pub source_map: Arc<SourceMap>,
pub handler: Handler,
pub comments: Comments,
pub globals: Globals,
}
impl DocParser {
pub fn new(loader: Box<dyn DocFileLoader>) -> Self {
let buffered_error = SwcErrorBuffer::default();
let handler = Handler::with_emitter_and_flags(
Box::new(buffered_error.clone()),
HandlerFlags {
dont_buffer_diagnostics: true,
can_emit_warnings: true,
..Default::default()
},
);
DocParser {
loader,
buffered_error,
source_map: Arc::new(SourceMap::default()),
handler,
comments: Comments::default(),
globals: Globals::new(),
}
}
fn parse_module(
&self,
file_name: &str,
source_code: &str,
) -> Result<ModuleDoc, SwcDiagnosticBuffer> {
swc_common::GLOBALS.set(&self.globals, || {
let swc_source_file = self.source_map.new_source_file(
FileName::Custom(file_name.to_string()),
source_code.to_string(),
);
let buffered_err = self.buffered_error.clone();
let session = Session {
handler: &self.handler,
};
let mut ts_config = TsConfig::default();
ts_config.dynamic_import = true;
let syntax = Syntax::Typescript(ts_config);
let lexer = Lexer::new(
session,
syntax,
JscTarget::Es2019,
SourceFileInput::from(&*swc_source_file),
Some(&self.comments),
);
let mut parser = Parser::new_from(session, lexer);
let module =
parser
.parse_module()
.map_err(move |mut err: DiagnosticBuilder| {
err.cancel();
SwcDiagnosticBuffer::from(buffered_err)
})?;
let doc_entries = self.get_doc_nodes_for_module_body(module.body.clone());
let reexports = self.get_reexports_for_module_body(module.body);
let module_doc = ModuleDoc {
exports: doc_entries,
reexports,
};
Ok(module_doc)
})
}
pub async fn parse(&self, file_name: &str) -> Result<Vec<DocNode>, ErrBox> {
let source_code = self.loader.load_source_code(file_name).await?;
self.parse_source(file_name, source_code.as_str())
}
pub fn parse_source(
&self,
file_name: &str,
source_code: &str,
) -> Result<Vec<DocNode>, ErrBox> {
let module_doc = self.parse_module(file_name, &source_code)?;
Ok(module_doc.exports)
}
async fn flatten_reexports(
&self,
reexports: &[node::Reexport],
referrer: &str,
) -> Result<Vec<DocNode>, ErrBox> {
let mut by_src: HashMap<String, Vec<node::Reexport>> = HashMap::new();
let mut processed_reexports: Vec<DocNode> = vec![];
for reexport in reexports {
if by_src.get(&reexport.src).is_none() {
by_src.insert(reexport.src.to_string(), vec![]);
}
let bucket = by_src.get_mut(&reexport.src).unwrap();
bucket.push(reexport.clone());
}
for specifier in by_src.keys() {
let resolved_specifier = self.loader.resolve(specifier, referrer)?;
let doc_nodes = self.parse(&resolved_specifier.to_string()).await?;
let reexports_for_specifier = by_src.get(specifier).unwrap();
for reexport in reexports_for_specifier {
match &reexport.kind {
node::ReexportKind::All => {
processed_reexports.extend(doc_nodes.clone())
}
node::ReexportKind::Namespace(ns_name) => {
let ns_def = NamespaceDef {
elements: doc_nodes.clone(),
};
let ns_doc_node = DocNode {
kind: DocNodeKind::Namespace,
name: ns_name.to_string(),
location: Location {
filename: specifier.to_string(),
line: 1,
col: 0,
},
js_doc: None,
namespace_def: Some(ns_def),
enum_def: None,
type_alias_def: None,
interface_def: None,
variable_def: None,
function_def: None,
class_def: None,
};
processed_reexports.push(ns_doc_node);
}
node::ReexportKind::Named(ident, maybe_alias) => {
// Try to find reexport.
// NOTE: the reexport might actually be reexport from another
// module; for now we're skipping nested reexports.
let maybe_doc_node =
doc_nodes.iter().find(|node| &node.name == ident);
if let Some(doc_node) = maybe_doc_node {
let doc_node = doc_node.clone();
let doc_node = if let Some(alias) = maybe_alias {
DocNode {
name: alias.to_string(),
..doc_node
}
} else {
doc_node
};
processed_reexports.push(doc_node);
}
}
node::ReexportKind::Default => {
// TODO: handle default export from child module
}
}
}
}
Ok(processed_reexports)
}
pub async fn parse_with_reexports(
&self,
file_name: &str,
) -> Result<Vec<DocNode>, ErrBox> {
let source_code = self.loader.load_source_code(file_name).await?;
let module_doc = self.parse_module(file_name, &source_code)?;
let flattened_docs = if !module_doc.reexports.is_empty() {
let mut flattenned_reexports = self
.flatten_reexports(&module_doc.reexports, file_name)
.await?;
flattenned_reexports.extend(module_doc.exports);
flattenned_reexports
} else {
module_doc.exports
};
Ok(flattened_docs)
}
pub fn get_doc_nodes_for_module_exports(
&self,
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module_decl: &ModuleDecl,
) -> Vec<DocNode> {
match module_decl {
ModuleDecl::ExportDecl(export_decl) => {
vec![super::module::get_doc_node_for_export_decl(
self,
export_decl,
)]
}
_ => vec![],
}
}
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pub fn get_doc_node_for_stmt(&self, stmt: &Stmt) -> Option<DocNode> {
match stmt {
Stmt::Decl(decl) => self.get_doc_node_for_decl(decl),
_ => None,
}
}
fn details_for_span(&self, span: Span) -> (Option<String>, Location) {
let js_doc = self.js_doc_for_span(span);
let location = self.source_map.lookup_char_pos(span.lo()).into();
(js_doc, location)
}
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pub fn get_doc_node_for_decl(&self, decl: &Decl) -> Option<DocNode> {
match decl {
Decl::Class(class_decl) => {
if !class_decl.declare {
return None;
}
let (name, class_def) =
super::class::get_doc_for_class_decl(self, class_decl);
let (js_doc, location) = self.details_for_span(class_decl.class.span);
Some(DocNode {
kind: DocNodeKind::Class,
name,
location,
js_doc,
class_def: Some(class_def),
function_def: None,
variable_def: None,
enum_def: None,
type_alias_def: None,
namespace_def: None,
interface_def: None,
})
}
Decl::Fn(fn_decl) => {
if !fn_decl.declare {
return None;
}
let (name, function_def) =
super::function::get_doc_for_fn_decl(fn_decl);
let (js_doc, location) = self.details_for_span(fn_decl.function.span);
Some(DocNode {
kind: DocNodeKind::Function,
name,
location,
js_doc,
function_def: Some(function_def),
class_def: None,
variable_def: None,
enum_def: None,
type_alias_def: None,
namespace_def: None,
interface_def: None,
})
}
Decl::Var(var_decl) => {
if !var_decl.declare {
return None;
}
let (name, var_def) = super::variable::get_doc_for_var_decl(var_decl);
let (js_doc, location) = self.details_for_span(var_decl.span);
Some(DocNode {
kind: DocNodeKind::Variable,
name,
location,
js_doc,
variable_def: Some(var_def),
function_def: None,
class_def: None,
enum_def: None,
type_alias_def: None,
namespace_def: None,
interface_def: None,
})
}
Decl::TsInterface(ts_interface_decl) => {
if !ts_interface_decl.declare {
return None;
}
let (name, interface_def) =
super::interface::get_doc_for_ts_interface_decl(
self,
ts_interface_decl,
);
let (js_doc, location) = self.details_for_span(ts_interface_decl.span);
Some(DocNode {
kind: DocNodeKind::Interface,
name,
location,
js_doc,
interface_def: Some(interface_def),
variable_def: None,
function_def: None,
class_def: None,
enum_def: None,
type_alias_def: None,
namespace_def: None,
})
}
Decl::TsTypeAlias(ts_type_alias) => {
if !ts_type_alias.declare {
return None;
}
let (name, type_alias_def) =
super::type_alias::get_doc_for_ts_type_alias_decl(
self,
ts_type_alias,
);
let (js_doc, location) = self.details_for_span(ts_type_alias.span);
Some(DocNode {
kind: DocNodeKind::TypeAlias,
name,
location,
js_doc,
type_alias_def: Some(type_alias_def),
interface_def: None,
variable_def: None,
function_def: None,
class_def: None,
enum_def: None,
namespace_def: None,
})
}
Decl::TsEnum(ts_enum) => {
if !ts_enum.declare {
return None;
}
let (name, enum_def) =
super::r#enum::get_doc_for_ts_enum_decl(self, ts_enum);
let (js_doc, location) = self.details_for_span(ts_enum.span);
Some(DocNode {
kind: DocNodeKind::Enum,
name,
location,
js_doc,
enum_def: Some(enum_def),
type_alias_def: None,
interface_def: None,
variable_def: None,
function_def: None,
class_def: None,
namespace_def: None,
})
}
Decl::TsModule(ts_module) => {
if !ts_module.declare {
return None;
}
let (name, namespace_def) =
super::namespace::get_doc_for_ts_module(self, ts_module);
let (js_doc, location) = self.details_for_span(ts_module.span);
Some(DocNode {
kind: DocNodeKind::Namespace,
name,
location,
js_doc,
namespace_def: Some(namespace_def),
enum_def: None,
type_alias_def: None,
interface_def: None,
variable_def: None,
function_def: None,
class_def: None,
})
}
}
}
pub fn get_reexports_for_module_body(
&self,
module_body: Vec<swc_ecma_ast::ModuleItem>,
) -> Vec<node::Reexport> {
use swc_ecma_ast::ExportSpecifier::*;
let mut reexports: Vec<node::Reexport> = vec![];
for node in module_body.iter() {
if let swc_ecma_ast::ModuleItem::ModuleDecl(module_decl) = node {
let r = match module_decl {
ModuleDecl::ExportNamed(named_export) => {
if let Some(src) = &named_export.src {
let src_str = src.value.to_string();
named_export
.specifiers
.iter()
.map(|export_specifier| match export_specifier {
Namespace(ns_export) => node::Reexport {
kind: node::ReexportKind::Namespace(
ns_export.name.sym.to_string(),
),
src: src_str.to_string(),
},
Default(_) => node::Reexport {
kind: node::ReexportKind::Default,
src: src_str.to_string(),
},
Named(named_export) => {
let ident = named_export.orig.sym.to_string();
let maybe_alias =
named_export.exported.as_ref().map(|e| e.sym.to_string());
let kind = node::ReexportKind::Named(ident, maybe_alias);
node::Reexport {
kind,
src: src_str.to_string(),
}
}
})
.collect::<Vec<node::Reexport>>()
} else {
vec![]
}
}
ModuleDecl::ExportAll(export_all) => {
let reexport = node::Reexport {
kind: node::ReexportKind::All,
src: export_all.src.value.to_string(),
};
vec![reexport]
}
_ => vec![],
};
reexports.extend(r);
}
}
reexports
}
pub fn get_doc_nodes_for_module_body(
&self,
module_body: Vec<swc_ecma_ast::ModuleItem>,
) -> Vec<DocNode> {
let mut doc_entries: Vec<DocNode> = vec![];
for node in module_body.iter() {
match node {
swc_ecma_ast::ModuleItem::ModuleDecl(module_decl) => {
doc_entries
.extend(self.get_doc_nodes_for_module_exports(module_decl));
}
swc_ecma_ast::ModuleItem::Stmt(stmt) => {
if let Some(doc_node) = self.get_doc_node_for_stmt(stmt) {
doc_entries.push(doc_node);
}
}
}
}
doc_entries
}
pub fn js_doc_for_span(&self, span: Span) -> Option<String> {
let comments = self.comments.take_leading_comments(span.lo())?;
let js_doc_comment = comments.iter().find(|comment| {
comment.kind == CommentKind::Block && comment.text.starts_with('*')
})?;
let mut margin_pat = String::from("");
if let Some(margin) = self.source_map.span_to_margin(span) {
for _ in 0..margin {
margin_pat.push(' ');
}
}
let js_doc_re = Regex::new(r#" ?\* ?"#).unwrap();
let txt = js_doc_comment
.text
.split('\n')
.map(|line| js_doc_re.replace(line, "").to_string())
.map(|line| {
if line.starts_with(&margin_pat) {
line[margin_pat.len()..].to_string()
} else {
line
}
})
.collect::<Vec<String>>()
.join("\n");
let txt = txt.trim_start().trim_end().to_string();
Some(txt)
}
}