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denoland-deno/cli/swc_util.rs

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
use crate::msg::MediaType;
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_parser::lexer::Lexer;
use crate::swc_ecma_parser::EsConfig;
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 std::error::Error;
use std::fmt;
use std::sync::Arc;
use std::sync::RwLock;
use swc_ecma_visit::Node;
use swc_ecma_visit::Visit;
fn get_default_es_config() -> EsConfig {
let mut config = EsConfig::default();
config.num_sep = true;
config.class_private_props = false;
config.class_private_methods = false;
config.class_props = false;
config.export_default_from = true;
config.export_namespace_from = true;
config.dynamic_import = true;
config.nullish_coalescing = true;
config.optional_chaining = true;
config.import_meta = true;
config.top_level_await = true;
config
}
fn get_default_ts_config() -> TsConfig {
let mut ts_config = TsConfig::default();
ts_config.dynamic_import = true;
ts_config.decorators = true;
ts_config
}
#[derive(Clone, Debug)]
pub struct SwcDiagnosticBuffer {
pub diagnostics: Vec<String>,
}
impl Error for SwcDiagnosticBuffer {}
impl fmt::Display for SwcDiagnosticBuffer {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let msg = self.diagnostics.join(",");
f.pad(&msg)
}
}
impl SwcDiagnosticBuffer {
pub fn from_swc_error(
error_buffer: SwcErrorBuffer,
parser: &AstParser,
) -> Self {
let s = error_buffer.0.read().unwrap().clone();
let diagnostics = s
.iter()
.map(|d| {
let mut msg = d.message();
if let Some(span) = d.span.primary_span() {
let location = parser.get_span_location(span);
let filename = match &location.file.name {
FileName::Custom(n) => n,
_ => unreachable!(),
};
msg = format!(
"{} at {}:{}:{}",
msg, filename, location.line, location.col_display
);
}
msg
})
.collect::<Vec<String>>();
Self { diagnostics }
}
}
#[derive(Clone)]
pub struct SwcErrorBuffer(Arc<RwLock<Vec<Diagnostic>>>);
impl SwcErrorBuffer {
pub fn default() -> Self {
Self(Arc::new(RwLock::new(vec![])))
}
}
impl Emitter for SwcErrorBuffer {
fn emit(&mut self, db: &DiagnosticBuilder) {
self.0.write().unwrap().push((**db).clone());
}
}
/// Low-level utility structure with common AST parsing functions.
///
/// Allows to build more complicated parser by providing a callback
/// to `parse_module`.
pub struct AstParser {
pub buffered_error: SwcErrorBuffer,
pub source_map: Arc<SourceMap>,
pub handler: Handler,
pub comments: Comments,
pub globals: Globals,
}
impl AstParser {
pub fn new() -> 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()
},
);
AstParser {
buffered_error,
source_map: Arc::new(SourceMap::default()),
handler,
comments: Comments::default(),
globals: Globals::new(),
}
}
pub fn parse_module<F, R>(
&self,
file_name: &str,
media_type: MediaType,
source_code: &str,
callback: F,
) -> R
where
F: FnOnce(Result<swc_ecma_ast::Module, SwcDiagnosticBuffer>) -> R,
{
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 syntax = match media_type {
MediaType::JavaScript => Syntax::Es(get_default_es_config()),
MediaType::JSX => {
let mut config = get_default_es_config();
config.jsx = true;
Syntax::Es(config)
}
MediaType::TypeScript => Syntax::Typescript(get_default_ts_config()),
MediaType::TSX => {
let mut config = get_default_ts_config();
config.tsx = true;
Syntax::Typescript(config)
}
_ => Syntax::Es(get_default_es_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 parse_result =
parser
.parse_module()
.map_err(move |mut err: DiagnosticBuilder| {
err.emit();
SwcDiagnosticBuffer::from_swc_error(buffered_err, self)
});
callback(parse_result)
})
}
pub fn get_span_location(&self, span: Span) -> swc_common::Loc {
self.source_map.lookup_char_pos(span.lo())
}
pub fn get_span_comments(
&self,
span: Span,
) -> Vec<swc_common::comments::Comment> {
let maybe_comments = self.comments.take_leading_comments(span.lo());
if let Some(comments) = maybe_comments {
// clone the comments and put them back in map
let to_return = comments.clone();
self.comments.add_leading(span.lo(), comments);
to_return
} else {
vec![]
}
}
}
struct DependencyVisitor {
dependencies: Vec<String>,
analyze_dynamic_imports: bool,
}
impl Visit for DependencyVisitor {
fn visit_import_decl(
&mut self,
import_decl: &swc_ecma_ast::ImportDecl,
_parent: &dyn Node,
) {
let src_str = import_decl.src.value.to_string();
self.dependencies.push(src_str);
}
fn visit_named_export(
&mut self,
named_export: &swc_ecma_ast::NamedExport,
_parent: &dyn Node,
) {
if let Some(src) = &named_export.src {
let src_str = src.value.to_string();
self.dependencies.push(src_str);
}
}
fn visit_export_all(
&mut self,
export_all: &swc_ecma_ast::ExportAll,
_parent: &dyn Node,
) {
let src_str = export_all.src.value.to_string();
self.dependencies.push(src_str);
}
fn visit_call_expr(
&mut self,
call_expr: &swc_ecma_ast::CallExpr,
_parent: &dyn Node,
) {
if !self.analyze_dynamic_imports {
return;
}
use swc_ecma_ast::Expr::*;
use swc_ecma_ast::ExprOrSuper::*;
let boxed_expr = match call_expr.callee.clone() {
Super(_) => return,
Expr(boxed) => boxed,
};
match &*boxed_expr {
Ident(ident) => {
if &ident.sym.to_string() != "import" {
return;
}
}
_ => return,
};
if let Some(arg) = call_expr.args.get(0) {
match &*arg.expr {
Lit(lit) => {
if let swc_ecma_ast::Lit::Str(str_) = lit {
let src_str = str_.value.to_string();
self.dependencies.push(src_str);
}
}
_ => return,
}
}
}
}
#[derive(Clone, Debug, PartialEq)]
enum DependencyKind {
Import,
DynamicImport,
Export,
}
#[derive(Clone, Debug, PartialEq)]
struct DependencyDescriptor {
span: Span,
specifier: String,
kind: DependencyKind,
}
struct NewDependencyVisitor {
dependencies: Vec<DependencyDescriptor>,
}
impl Visit for NewDependencyVisitor {
fn visit_import_decl(
&mut self,
import_decl: &swc_ecma_ast::ImportDecl,
_parent: &dyn Node,
) {
let src_str = import_decl.src.value.to_string();
self.dependencies.push(DependencyDescriptor {
specifier: src_str,
kind: DependencyKind::Import,
span: import_decl.span,
});
}
fn visit_named_export(
&mut self,
named_export: &swc_ecma_ast::NamedExport,
_parent: &dyn Node,
) {
if let Some(src) = &named_export.src {
let src_str = src.value.to_string();
self.dependencies.push(DependencyDescriptor {
specifier: src_str,
kind: DependencyKind::Export,
span: named_export.span,
});
}
}
fn visit_export_all(
&mut self,
export_all: &swc_ecma_ast::ExportAll,
_parent: &dyn Node,
) {
let src_str = export_all.src.value.to_string();
self.dependencies.push(DependencyDescriptor {
specifier: src_str,
kind: DependencyKind::Export,
span: export_all.span,
});
}
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fn visit_ts_import_type(
&mut self,
ts_import_type: &swc_ecma_ast::TsImportType,
_parent: &dyn Node,
) {
// TODO(bartlomieju): possibly add separate DependencyKind
let src_str = ts_import_type.arg.value.to_string();
self.dependencies.push(DependencyDescriptor {
specifier: src_str,
kind: DependencyKind::Import,
span: ts_import_type.arg.span,
});
}
fn visit_call_expr(
&mut self,
call_expr: &swc_ecma_ast::CallExpr,
parent: &dyn Node,
) {
use swc_ecma_ast::Expr::*;
use swc_ecma_ast::ExprOrSuper::*;
swc_ecma_visit::visit_call_expr(self, call_expr, parent);
let boxed_expr = match call_expr.callee.clone() {
Super(_) => return,
Expr(boxed) => boxed,
};
match &*boxed_expr {
Ident(ident) => {
if &ident.sym.to_string() != "import" {
return;
}
}
_ => return,
};
if let Some(arg) = call_expr.args.get(0) {
match &*arg.expr {
Lit(lit) => {
if let swc_ecma_ast::Lit::Str(str_) = lit {
let src_str = str_.value.to_string();
self.dependencies.push(DependencyDescriptor {
specifier: src_str,
kind: DependencyKind::DynamicImport,
span: call_expr.span,
});
}
}
_ => return,
}
}
}
}
fn get_deno_types(parser: &AstParser, span: Span) -> Option<String> {
let comments = parser.get_span_comments(span);
if comments.is_empty() {
return None;
}
// @deno-types must directly prepend import statement - hence
// checking last comment for span
let last = comments.last().unwrap();
let comment = last.text.trim_start();
if comment.starts_with("@deno-types") {
let split: Vec<String> =
comment.split('=').map(|s| s.to_string()).collect();
assert_eq!(split.len(), 2);
let specifier_in_quotes = split.get(1).unwrap().to_string();
let specifier = specifier_in_quotes
.trim_start_matches('\"')
.trim_start_matches('\'')
.trim_end_matches('\"')
.trim_end_matches('\'')
.to_string();
return Some(specifier);
}
None
}
#[derive(Clone, Debug, PartialEq)]
pub struct ImportDescriptor {
pub specifier: String,
pub deno_types: Option<String>,
}
#[derive(Clone, Debug, PartialEq)]
pub enum TsReferenceKind {
Lib,
Types,
Path,
}
#[derive(Clone, Debug, PartialEq)]
pub struct TsReferenceDescriptor {
pub kind: TsReferenceKind,
pub specifier: String,
}
pub fn analyze_dependencies_and_references(
file_name: &str,
media_type: MediaType,
source_code: &str,
analyze_dynamic_imports: bool,
) -> Result<
(Vec<ImportDescriptor>, Vec<TsReferenceDescriptor>),
SwcDiagnosticBuffer,
> {
let parser = AstParser::new();
parser.parse_module(file_name, media_type, source_code, |parse_result| {
let module = parse_result?;
let mut collector = NewDependencyVisitor {
dependencies: vec![],
};
let module_span = module.span;
collector.visit_module(&module, &module);
let dependency_descriptors = collector.dependencies;
// for each import check if there's relevant @deno-types directive
let imports = dependency_descriptors
.iter()
.filter(|desc| {
if analyze_dynamic_imports {
return true;
}
desc.kind != DependencyKind::DynamicImport
})
.map(|desc| {
if desc.kind == DependencyKind::Import {
let deno_types = get_deno_types(&parser, desc.span);
ImportDescriptor {
specifier: desc.specifier.to_string(),
deno_types,
}
} else {
ImportDescriptor {
specifier: desc.specifier.to_string(),
deno_types: None,
}
}
})
.collect();
// analyze comment from beginning of the file and find TS directives
let comments = parser
.comments
.take_leading_comments(module_span.lo())
.unwrap_or_else(|| vec![]);
let mut references = vec![];
for comment in comments {
if comment.kind != CommentKind::Line {
continue;
}
// TODO(bartlomieju): you can do better than that...
let text = comment.text.to_string();
let (kind, specifier_in_quotes) =
if text.starts_with("/ <reference path=") {
(
TsReferenceKind::Path,
text.trim_start_matches("/ <reference path="),
)
} else if text.starts_with("/ <reference lib=") {
(
TsReferenceKind::Lib,
text.trim_start_matches("/ <reference lib="),
)
} else if text.starts_with("/ <reference types=") {
(
TsReferenceKind::Types,
text.trim_start_matches("/ <reference types="),
)
} else {
continue;
};
let specifier = specifier_in_quotes
.trim_end_matches("/>")
.trim_end()
.trim_start_matches('\"')
.trim_start_matches('\'')
.trim_end_matches('\"')
.trim_end_matches('\'')
.to_string();
references.push(TsReferenceDescriptor { kind, specifier });
}
Ok((imports, references))
})
}
#[test]
fn test_analyze_dependencies_and_directives() {
let source = r#"
// This comment is placed to make sure that directives are parsed
// even when they start on non-first line
/// <reference lib="dom" />
/// <reference types="./type_reference.d.ts" />
/// <reference path="./type_reference/dep.ts" />
// @deno-types="./type_definitions/foo.d.ts"
import { foo } from "./type_definitions/foo.js";
// @deno-types="./type_definitions/fizz.d.ts"
import "./type_definitions/fizz.js";
/// <reference path="./type_reference/dep2.ts" />
import * as qat from "./type_definitions/qat.ts";
console.log(foo);
console.log(fizz);
console.log(qat.qat);
"#;
let (imports, references) = analyze_dependencies_and_references(
"some/file.ts",
MediaType::TypeScript,
source,
true,
)
.expect("Failed to parse");
assert_eq!(
imports,
vec![
ImportDescriptor {
specifier: "./type_definitions/foo.js".to_string(),
deno_types: Some("./type_definitions/foo.d.ts".to_string())
},
ImportDescriptor {
specifier: "./type_definitions/fizz.js".to_string(),
deno_types: Some("./type_definitions/fizz.d.ts".to_string())
},
ImportDescriptor {
specifier: "./type_definitions/qat.ts".to_string(),
deno_types: None
},
]
);
// According to TS docs (https://www.typescriptlang.org/docs/handbook/triple-slash-directives.html)
// directives that are not at the top of the file are ignored, so only
// 3 references should be captured instead of 4.
assert_eq!(
references,
vec![
TsReferenceDescriptor {
specifier: "dom".to_string(),
kind: TsReferenceKind::Lib,
},
TsReferenceDescriptor {
specifier: "./type_reference.d.ts".to_string(),
kind: TsReferenceKind::Types,
},
TsReferenceDescriptor {
specifier: "./type_reference/dep.ts".to_string(),
kind: TsReferenceKind::Path,
},
]
);
}