// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. // TODO(ry) This module builds up output by appending to a string. Instead it // should either use a formatting trait // https://doc.rust-lang.org/std/fmt/index.html#formatting-traits // Or perhaps implement a Serializer for serde // https://docs.serde.rs/serde/ser/trait.Serializer.html // TODO(ry) The methods in this module take ownership of the DocNodes, this is // unnecessary and can result in unnecessary copying. Instead they should take // references. use crate::colors; use crate::doc; use crate::doc::ts_type::TsTypeDefKind; use crate::doc::DocNodeKind; use crate::swc_ecma_ast; pub fn format(doc_nodes: Vec) -> String { format_(doc_nodes, 0) } pub fn format_details(node: doc::DocNode) -> String { let mut details = String::new(); details.push_str(&format!( "{}", colors::gray(format!( "Defined in {}:{}:{} \n\n", node.location.filename, node.location.line, node.location.col )) )); details.push_str(&format_signature(&node, 0)); let js_doc = node.js_doc.clone(); if let Some(js_doc) = js_doc { details.push_str(&format_jsdoc(js_doc, false, 1)); } details.push_str("\n"); let maybe_extra = match node.kind { DocNodeKind::Class => Some(format_class_details(node)), DocNodeKind::Namespace => Some(format_namespace_details(node)), _ => None, }; if let Some(extra) = maybe_extra { details.push_str(&extra); } details } fn kind_order(kind: &doc::DocNodeKind) -> i64 { match kind { DocNodeKind::Function => 0, DocNodeKind::Variable => 1, DocNodeKind::Class => 2, DocNodeKind::Enum => 3, DocNodeKind::Interface => 4, DocNodeKind::TypeAlias => 5, DocNodeKind::Namespace => 6, } } fn format_signature(node: &doc::DocNode, indent: i64) -> String { match node.kind { DocNodeKind::Function => format_function_signature(&node, indent), DocNodeKind::Variable => format_variable_signature(&node, indent), DocNodeKind::Class => format_class_signature(&node, indent), DocNodeKind::Enum => format_enum_signature(&node, indent), DocNodeKind::Interface => format_interface_signature(&node, indent), DocNodeKind::TypeAlias => format_type_alias_signature(&node, indent), DocNodeKind::Namespace => format_namespace_signature(&node, indent), } } fn format_(doc_nodes: Vec, indent: i64) -> String { let mut sorted = doc_nodes; sorted.sort_unstable_by(|a, b| { let kind_cmp = kind_order(&a.kind).cmp(&kind_order(&b.kind)); if kind_cmp == core::cmp::Ordering::Equal { a.name.cmp(&b.name) } else { kind_cmp } }); let mut output = String::new(); for node in sorted { output.push_str(&format_signature(&node, indent)); if let Some(js_doc) = node.js_doc { output.push_str(&format_jsdoc(js_doc, true, indent)); } output.push_str("\n"); if DocNodeKind::Namespace == node.kind { output.push_str(&format_( node.namespace_def.as_ref().unwrap().elements.clone(), indent + 1, )); output.push_str("\n"); }; } output } fn render_params(params: Vec) -> String { let mut rendered = String::from(""); if !params.is_empty() { for param in params { rendered += param.name.as_str(); if let Some(ts_type) = param.ts_type { rendered += ": "; rendered += render_ts_type(ts_type).as_str(); } rendered += ", "; } rendered.truncate(rendered.len() - 2); } rendered } fn render_ts_type(ts_type: doc::ts_type::TsTypeDef) -> String { let kind = ts_type.kind.unwrap(); match kind { TsTypeDefKind::Array => { format!("{}[]", render_ts_type(*ts_type.array.unwrap())) } TsTypeDefKind::Conditional => { let conditional = ts_type.conditional_type.unwrap(); format!( "{} extends {} ? {} : {}", render_ts_type(*conditional.check_type), render_ts_type(*conditional.extends_type), render_ts_type(*conditional.true_type), render_ts_type(*conditional.false_type) ) } TsTypeDefKind::FnOrConstructor => { let fn_or_constructor = ts_type.fn_or_constructor.unwrap(); format!( "{}({}) => {}", if fn_or_constructor.constructor { "new " } else { "" }, render_params(fn_or_constructor.params), render_ts_type(fn_or_constructor.ts_type), ) } TsTypeDefKind::IndexedAccess => { let indexed_access = ts_type.indexed_access.unwrap(); format!( "{}[{}]", render_ts_type(*indexed_access.obj_type), render_ts_type(*indexed_access.index_type) ) } TsTypeDefKind::Intersection => { let intersection = ts_type.intersection.unwrap(); let mut output = "".to_string(); if !intersection.is_empty() { for ts_type in intersection { output += render_ts_type(ts_type).as_str(); output += " & " } output.truncate(output.len() - 3); } output } TsTypeDefKind::Keyword => ts_type.keyword.unwrap(), TsTypeDefKind::Literal => { let literal = ts_type.literal.unwrap(); match literal.kind { doc::ts_type::LiteralDefKind::Boolean => { format!("{}", literal.boolean.unwrap()) } doc::ts_type::LiteralDefKind::String => { "\"".to_string() + literal.string.unwrap().as_str() + "\"" } doc::ts_type::LiteralDefKind::Number => { format!("{}", literal.number.unwrap()) } } } TsTypeDefKind::Optional => "_optional_".to_string(), TsTypeDefKind::Parenthesized => { format!("({})", render_ts_type(*ts_type.parenthesized.unwrap())) } TsTypeDefKind::Rest => { format!("...{}", render_ts_type(*ts_type.rest.unwrap())) } TsTypeDefKind::This => "this".to_string(), TsTypeDefKind::Tuple => { let tuple = ts_type.tuple.unwrap(); let mut output = "".to_string(); if !tuple.is_empty() { for ts_type in tuple { output += render_ts_type(ts_type).as_str(); output += ", " } output.truncate(output.len() - 2); } output } TsTypeDefKind::TypeLiteral => { let mut output = "".to_string(); let type_literal = ts_type.type_literal.unwrap(); for node in type_literal.call_signatures { output += format!( "({}){}, ", render_params(node.params), if let Some(ts_type) = node.ts_type { format!(": {}", render_ts_type(ts_type)) } else { "".to_string() } ) .as_str() } for node in type_literal.methods { output += format!( "{}({}){}, ", node.name, render_params(node.params), if let Some(return_type) = node.return_type { format!(": {}", render_ts_type(return_type)) } else { "".to_string() } ) .as_str() } for node in type_literal.properties { output += format!( "{}{}, ", node.name, if let Some(ts_type) = node.ts_type { format!(": {}", render_ts_type(ts_type)) } else { "".to_string() } ) .as_str() } if !output.is_empty() { output.truncate(output.len() - 2); } "{ ".to_string() + output.as_str() + " }" } TsTypeDefKind::TypeOperator => { let operator = ts_type.type_operator.unwrap(); format!("{} {}", operator.operator, render_ts_type(operator.ts_type)) } TsTypeDefKind::TypeQuery => { format!("typeof {}", ts_type.type_query.unwrap()) } TsTypeDefKind::TypeRef => { let type_ref = ts_type.type_ref.unwrap(); let mut final_output = type_ref.type_name; if let Some(type_params) = type_ref.type_params { let mut output = "".to_string(); if !type_params.is_empty() { for ts_type in type_params { output += render_ts_type(ts_type).as_str(); output += ", " } output.truncate(output.len() - 2); } final_output += format!("<{}>", output).as_str(); } final_output } TsTypeDefKind::Union => { let union = ts_type.union.unwrap(); let mut output = "".to_string(); if !union.is_empty() { for ts_type in union { output += render_ts_type(ts_type).as_str(); output += " | " } output.truncate(output.len() - 3); } output } } } fn add_indent(string: String, indent: i64) -> String { let mut indent_str = String::new(); for _ in 0..(indent * 2) { indent_str += " "; } indent_str += string.as_str(); indent_str } // TODO: this should use some sort of markdown to console parser. fn format_jsdoc(jsdoc: String, truncated: bool, indent: i64) -> String { let mut lines = jsdoc.split("\n\n").map(|line| line.replace("\n", " ")); let mut js_doc = String::new(); if truncated { let first_line = lines.next().unwrap_or_else(|| "".to_string()); js_doc.push_str(&add_indent(format!("{}\n", first_line), indent + 1)); } else { for line in lines { js_doc.push_str(&add_indent(format!("{}\n", line), indent + 1)); } } format!("{}", colors::gray(js_doc)) } fn format_class_details(node: doc::DocNode) -> String { let mut details = String::new(); let class_def = node.class_def.unwrap(); for node in class_def.constructors { details.push_str(&add_indent( format!( "{} {}({})\n", colors::magenta("constructor".to_string()), colors::bold(node.name), render_params(node.params), ), 1, )); } for node in class_def.properties.iter().filter(|node| { node .accessibility .unwrap_or(swc_ecma_ast::Accessibility::Public) != swc_ecma_ast::Accessibility::Private }) { details.push_str(&add_indent( format!( "{}{}{}\n", colors::magenta( match node .accessibility .unwrap_or(swc_ecma_ast::Accessibility::Public) { swc_ecma_ast::Accessibility::Protected => "protected ".to_string(), _ => "".to_string(), } ), colors::bold(node.name.clone()), if let Some(ts_type) = node.ts_type.clone() { format!(": {}", render_ts_type(ts_type)) } else { "".to_string() } ), 1, )); } for node in class_def.methods.iter().filter(|node| { node .accessibility .unwrap_or(swc_ecma_ast::Accessibility::Public) != swc_ecma_ast::Accessibility::Private }) { let function_def = node.function_def.clone(); details.push_str(&add_indent( format!( "{}{}{}({}){}\n", colors::magenta( match node .accessibility .unwrap_or(swc_ecma_ast::Accessibility::Public) { swc_ecma_ast::Accessibility::Protected => "protected ".to_string(), _ => "".to_string(), } ), colors::magenta(match node.kind { swc_ecma_ast::MethodKind::Getter => "get ".to_string(), swc_ecma_ast::MethodKind::Setter => "set ".to_string(), _ => "".to_string(), }), colors::bold(node.name.clone()), render_params(function_def.params), if let Some(return_type) = function_def.return_type { format!(": {}", render_ts_type(return_type)) } else { "".to_string() } ), 1, )); } details.push_str("\n"); details } fn format_namespace_details(node: doc::DocNode) -> String { let mut ns = String::new(); let elements = node.namespace_def.unwrap().elements; for node in elements { ns.push_str(&format_signature(&node, 1)); } ns.push_str("\n"); ns } fn format_function_signature(node: &doc::DocNode, indent: i64) -> String { let function_def = node.function_def.clone().unwrap(); add_indent( format!( "{} {}({}){}\n", colors::magenta("function".to_string()), colors::bold(node.name.clone()), render_params(function_def.params), if let Some(return_type) = function_def.return_type { format!(": {}", render_ts_type(return_type).as_str()) } else { "".to_string() } ), indent, ) } fn format_class_signature(node: &doc::DocNode, indent: i64) -> String { let class_def = node.class_def.clone().unwrap(); let super_suffix = if let Some(super_class) = class_def.super_class { format!( " {} {}", colors::magenta("extends".to_string()), colors::bold(super_class) ) } else { String::from("") }; let implements = &class_def.implements; let implements_suffix = if !implements.is_empty() { format!( " {} {}", colors::magenta("implements".to_string()), colors::bold(implements.join(", ")) ) } else { String::from("") }; add_indent( format!( "{} {}{}{}\n", colors::magenta("class".to_string()), colors::bold(node.name.clone()), super_suffix, implements_suffix, ), indent, ) } fn format_variable_signature(node: &doc::DocNode, indent: i64) -> String { let variable_def = node.variable_def.clone().unwrap(); add_indent( format!( "{} {}{}\n", colors::magenta(match variable_def.kind { swc_ecma_ast::VarDeclKind::Const => "const".to_string(), swc_ecma_ast::VarDeclKind::Let => "let".to_string(), swc_ecma_ast::VarDeclKind::Var => "var".to_string(), }), colors::bold(node.name.clone()), if let Some(ts_type) = variable_def.ts_type { format!(": {}", render_ts_type(ts_type)) } else { "".to_string() } ), indent, ) } fn format_enum_signature(node: &doc::DocNode, indent: i64) -> String { add_indent( format!( "{} {}\n", colors::magenta("enum".to_string()), colors::bold(node.name.clone()) ), indent, ) } fn format_interface_signature(node: &doc::DocNode, indent: i64) -> String { add_indent( format!( "{} {}\n", colors::magenta("interface".to_string()), colors::bold(node.name.clone()) ), indent, ) } fn format_type_alias_signature(node: &doc::DocNode, indent: i64) -> String { add_indent( format!( "{} {}\n", colors::magenta("type".to_string()), colors::bold(node.name.clone()) ), indent, ) } fn format_namespace_signature(node: &doc::DocNode, indent: i64) -> String { add_indent( format!( "{} {}\n", colors::magenta("namespace".to_string()), colors::bold(node.name.clone()) ), indent, ) }