use std::cmp::{Ord, Ordering, PartialOrd}; use std::hash::{Hash, Hasher}; use std::path::PathBuf; use serde::{Deserialize, Serialize}; use crate::{hir, Primitive, UntaggedValue}; use crate::{PathMember, ShellTypeName}; use derive_new::new; use num_traits::ToPrimitive; use nu_errors::ParseError; use nu_source::{ b, DebugDocBuilder, HasSpan, PrettyDebug, PrettyDebugRefineKind, PrettyDebugWithSource, }; use nu_source::{IntoSpanned, Span, Spanned, SpannedItem, Tag}; use bigdecimal::BigDecimal; use indexmap::IndexMap; use log::trace; use num_bigint::BigInt; use num_traits::identities::Zero; use num_traits::FromPrimitive; #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct InternalCommand { pub name: String, pub name_span: Span, pub args: crate::hir::Call, } impl InternalCommand { pub fn new(name: String, name_span: Span, full_span: Span) -> InternalCommand { InternalCommand { name: name.clone(), name_span, args: crate::hir::Call::new( Box::new(SpannedExpression::new(Expression::string(name), name_span)), full_span, ), } } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct ClassifiedBlock { pub block: Block, // this is not a Result to make it crystal clear that these shapes // aren't intended to be used directly with `?` pub failed: Option, } impl ClassifiedBlock { pub fn new(block: Block, failed: Option) -> ClassifiedBlock { ClassifiedBlock { block, failed } } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct ClassifiedPipeline { pub commands: Commands, } impl ClassifiedPipeline { pub fn new(commands: Commands) -> ClassifiedPipeline { ClassifiedPipeline { commands } } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub enum ClassifiedCommand { Expr(Box), #[allow(unused)] Dynamic(crate::hir::Call), Internal(InternalCommand), Error(ParseError), } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct Commands { pub list: Vec, pub span: Span, } impl Commands { pub fn new(span: Span) -> Commands { Commands { list: vec![], span } } pub fn push(&mut self, command: ClassifiedCommand) { self.list.push(command); } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct Block { pub block: Vec, pub span: Span, } impl Block { pub fn new(span: Span) -> Block { Block { block: vec![], span, } } pub fn push(&mut self, commands: Commands) { self.block.push(commands); } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub struct ExternalStringCommand { pub name: Spanned, pub args: Vec>, } impl ExternalArgs { pub fn iter(&self) -> impl Iterator { self.list.iter() } } impl std::ops::Deref for ExternalArgs { type Target = [SpannedExpression]; fn deref(&self) -> &[SpannedExpression] { &self.list } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct ExternalArgs { pub list: Vec, pub span: Span, } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct ExternalCommand { pub name: String, pub name_tag: Tag, pub args: ExternalArgs, } impl ExternalCommand { pub fn has_it_argument(&self) -> bool { self.args.iter().any(|arg| match arg { SpannedExpression { expr: Expression::Path(path), .. } => { let Path { head, .. } = &**path; match head { SpannedExpression { expr: Expression::Variable(Variable::It(_)), .. } => true, _ => false, } } _ => false, }) } } impl HasSpan for ExternalCommand { fn span(&self) -> Span { self.name_tag.span.until(self.args.span) } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Copy, Deserialize, Serialize)] pub enum Unit { // Filesize units Byte, Kilobyte, Megabyte, Gigabyte, Terabyte, Petabyte, // Duration units Second, Minute, Hour, Day, Week, Month, Year, } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub enum Member { String(/* outer */ Span, /* inner */ Span), Int(BigInt, Span), Bare(Spanned), } impl Member { // pub fn int(span: Span, source: &Text) -> Member { // if let Ok(big_int) = BigInt::from_str(span.slice(source)) { // Member::Int(big_int, span) // } else { // unreachable!("Internal error: could not convert text to BigInt as expected") // } // } pub fn to_path_member(&self) -> PathMember { match self { //Member::String(outer, inner) => PathMember::string(inner.slice(source), *outer), Member::Int(int, span) => PathMember::int(int.clone(), *span), Member::Bare(spanned_string) => { PathMember::string(spanned_string.item.clone(), spanned_string.span) } _ => unimplemented!("Need to finish to_path_member"), } } } impl PrettyDebugWithSource for Member { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { match self { Member::String(outer, _) => b::value(outer.slice(source)), Member::Int(int, _) => b::value(format!("{}", int)), Member::Bare(span) => b::value(span.span.slice(source)), } } } impl HasSpan for Member { fn span(&self) -> Span { match self { Member::String(outer, ..) => *outer, Member::Int(_, int) => *int, Member::Bare(name) => name.span, } } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub enum Number { Int(BigInt), Decimal(BigDecimal), } impl PrettyDebug for Number { fn pretty(&self) -> DebugDocBuilder { match self { Number::Int(int) => b::primitive(int), Number::Decimal(decimal) => b::primitive(decimal), } } } macro_rules! primitive_int { ($($ty:ty)*) => { $( impl From<$ty> for Number { fn from(int: $ty) -> Number { Number::Int(BigInt::zero() + int) } } impl From<&$ty> for Number { fn from(int: &$ty) -> Number { Number::Int(BigInt::zero() + *int) } } )* } } primitive_int!(i8 u8 i16 u16 i32 u32 i64 u64 i128 u128); macro_rules! primitive_decimal { ($($ty:tt -> $from:tt),*) => { $( impl From<$ty> for Number { fn from(decimal: $ty) -> Number { if let Some(num) = BigDecimal::$from(decimal) { Number::Decimal(num) } else { unreachable!("Internal error: BigDecimal 'from' failed") } } } impl From<&$ty> for Number { fn from(decimal: &$ty) -> Number { if let Some(num) = BigDecimal::$from(*decimal) { Number::Decimal(num) } else { unreachable!("Internal error: BigDecimal 'from' failed") } } } )* } } primitive_decimal!(f32 -> from_f32, f64 -> from_f64); impl std::ops::Mul for Number { type Output = Number; fn mul(self, other: Number) -> Number { match (self, other) { (Number::Int(a), Number::Int(b)) => Number::Int(a * b), (Number::Int(a), Number::Decimal(b)) => Number::Decimal(BigDecimal::from(a) * b), (Number::Decimal(a), Number::Int(b)) => Number::Decimal(a * BigDecimal::from(b)), (Number::Decimal(a), Number::Decimal(b)) => Number::Decimal(a * b), } } } // For literals impl std::ops::Mul for Number { type Output = Number; fn mul(self, other: u32) -> Number { match self { Number::Int(left) => Number::Int(left * (other as i64)), Number::Decimal(left) => Number::Decimal(left * BigDecimal::from(other)), } } } impl PrettyDebug for Unit { fn pretty(&self) -> DebugDocBuilder { b::keyword(self.as_str()) } } fn convert_number_to_u64(number: &Number) -> u64 { match number { Number::Int(big_int) => { if let Some(x) = big_int.to_u64() { x } else { unreachable!("Internal error: convert_number_to_u64 given incompatible number") } } Number::Decimal(big_decimal) => { if let Some(x) = big_decimal.to_u64() { x } else { unreachable!("Internal error: convert_number_to_u64 given incompatible number") } } } } fn convert_number_to_i64(number: &Number) -> i64 { match number { Number::Int(big_int) => { if let Some(x) = big_int.to_i64() { x } else { unreachable!("Internal error: convert_number_to_u64 given incompatible number") } } Number::Decimal(big_decimal) => { if let Some(x) = big_decimal.to_i64() { x } else { unreachable!("Internal error: convert_number_to_u64 given incompatible number") } } } } impl Unit { pub fn as_str(self) -> &'static str { match self { Unit::Byte => "B", Unit::Kilobyte => "KB", Unit::Megabyte => "MB", Unit::Gigabyte => "GB", Unit::Terabyte => "TB", Unit::Petabyte => "PB", Unit::Second => "s", Unit::Minute => "m", Unit::Hour => "h", Unit::Day => "d", Unit::Week => "w", Unit::Month => "M", Unit::Year => "y", } } pub fn compute(self, size: &Number) -> UntaggedValue { let size = size.clone(); match self { Unit::Byte => bytes(convert_number_to_u64(&size)), Unit::Kilobyte => bytes(convert_number_to_u64(&size) * 1024), Unit::Megabyte => bytes(convert_number_to_u64(&size) * 1024 * 1024), Unit::Gigabyte => bytes(convert_number_to_u64(&size) * 1024 * 1024 * 1024), Unit::Terabyte => bytes(convert_number_to_u64(&size) * 1024 * 1024 * 1024 * 1024), Unit::Petabyte => { bytes(convert_number_to_u64(&size) * 1024 * 1024 * 1024 * 1024 * 1024) } Unit::Second => duration(convert_number_to_i64(&size)), Unit::Minute => duration(60 * convert_number_to_i64(&size)), Unit::Hour => duration(60 * 60 * convert_number_to_i64(&size)), Unit::Day => duration(24 * 60 * 60 * convert_number_to_i64(&size)), Unit::Week => duration(7 * 24 * 60 * 60 * convert_number_to_i64(&size)), Unit::Month => duration(30 * 24 * 60 * 60 * convert_number_to_i64(&size)), Unit::Year => duration(365 * 24 * 60 * 60 * convert_number_to_i64(&size)), } } } pub fn bytes(size: u64) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Bytes(size)) } pub fn duration(secs: i64) -> UntaggedValue { UntaggedValue::Primitive(Primitive::Duration(secs)) } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub struct SpannedExpression { pub expr: Expression, pub span: Span, } impl SpannedExpression { pub fn new(expr: Expression, span: Span) -> SpannedExpression { SpannedExpression { expr, span } } pub fn precedence(&self) -> usize { match self.expr { Expression::Literal(Literal::Operator(operator)) => { // Higher precedence binds tighter match operator { Operator::Multiply | Operator::Divide => 100, Operator::Plus | Operator::Minus => 90, Operator::NotContains | Operator::Contains | Operator::LessThan | Operator::LessThanOrEqual | Operator::GreaterThan | Operator::GreaterThanOrEqual | Operator::Equal | Operator::NotEqual | Operator::In => 80, Operator::And => 50, Operator::Or => 40, // TODO: should we have And and Or be different precedence? } } _ => 0, } } } impl std::ops::Deref for SpannedExpression { type Target = Expression; fn deref(&self) -> &Expression { &self.expr } } impl HasSpan for SpannedExpression { fn span(&self) -> Span { self.span } } impl ShellTypeName for SpannedExpression { fn type_name(&self) -> &'static str { self.expr.type_name() } } impl PrettyDebugWithSource for SpannedExpression { fn refined_pretty_debug(&self, refine: PrettyDebugRefineKind, source: &str) -> DebugDocBuilder { match refine { PrettyDebugRefineKind::ContextFree => self.refined_pretty_debug(refine, source), PrettyDebugRefineKind::WithContext => match &self.expr { Expression::Literal(literal) => literal .clone() .into_spanned(self.span) .refined_pretty_debug(refine, source), Expression::ExternalWord => { b::delimit("e\"", b::primitive(self.span.slice(source)), "\"").group() } Expression::Synthetic(s) => match s { Synthetic::String(_) => { b::delimit("s\"", b::primitive(self.span.slice(source)), "\"").group() } }, Expression::Variable(Variable::Other(_, _)) => b::keyword(self.span.slice(source)), Expression::Variable(Variable::It(_)) => b::keyword("$it"), Expression::Binary(binary) => binary.pretty_debug(source), Expression::Range(range) => range.pretty_debug(source), Expression::Block(_) => b::opaque("block"), Expression::Garbage => b::opaque("garbage"), Expression::List(list) => b::delimit( "[", b::intersperse( list.iter() .map(|item| item.refined_pretty_debug(refine, source)), b::space(), ), "]", ), Expression::Path(path) => path.pretty_debug(source), Expression::FilePath(path) => b::typed("path", b::primitive(path.display())), Expression::ExternalCommand(external) => { b::keyword("^") + b::keyword(external.name.span.slice(source)) } Expression::Command(command) => b::keyword(command.slice(source)), Expression::Boolean(boolean) => match boolean { true => b::primitive("$yes"), false => b::primitive("$no"), }, }, } } fn pretty_debug(&self, source: &str) -> DebugDocBuilder { match &self.expr { Expression::Literal(literal) => { literal.clone().into_spanned(self.span).pretty_debug(source) } Expression::ExternalWord => { b::typed("external word", b::primitive(self.span.slice(source))) } Expression::Synthetic(s) => match s { Synthetic::String(s) => b::typed("synthetic", b::primitive(format!("{:?}", s))), }, Expression::Variable(Variable::Other(_, _)) => b::keyword(self.span.slice(source)), Expression::Variable(Variable::It(_)) => b::keyword("$it"), Expression::Binary(binary) => binary.pretty_debug(source), Expression::Range(range) => range.pretty_debug(source), Expression::Block(_) => b::opaque("block"), Expression::Garbage => b::opaque("garbage"), Expression::List(list) => b::delimit( "[", b::intersperse( list.iter().map(|item| item.pretty_debug(source)), b::space(), ), "]", ), Expression::Path(path) => path.pretty_debug(source), Expression::FilePath(path) => b::typed("path", b::primitive(path.display())), Expression::ExternalCommand(external) => b::typed( "command", b::keyword("^") + b::primitive(external.name.span.slice(source)), ), Expression::Command(command) => { b::typed("command", b::primitive(command.slice(source))) } Expression::Boolean(boolean) => match boolean { true => b::primitive("$yes"), false => b::primitive("$no"), }, } } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub enum Variable { It(Span), Other(String, Span), } #[derive(Debug, Clone, Copy, PartialOrd, Ord, Eq, Hash, PartialEq, Deserialize, Serialize)] pub enum Operator { Equal, NotEqual, LessThan, GreaterThan, LessThanOrEqual, GreaterThanOrEqual, Contains, NotContains, Plus, Minus, Multiply, Divide, In, And, Or, } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize, new)] pub struct Binary { pub left: SpannedExpression, pub op: SpannedExpression, pub right: SpannedExpression, } impl PrettyDebugWithSource for Binary { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { b::delimit( "<", self.left.pretty_debug(source) + b::space() + b::keyword(self.op.span.slice(source)) + b::space() + self.right.pretty_debug(source), ">", ) .group() } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub enum Synthetic { String(String), } impl ShellTypeName for Synthetic { fn type_name(&self) -> &'static str { match self { Synthetic::String(_) => "string", } } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub struct Range { pub left: SpannedExpression, pub dotdot: Span, pub right: SpannedExpression, } impl PrettyDebugWithSource for Range { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { b::delimit( "<", self.left.pretty_debug(source) + b::space() + b::keyword(self.dotdot.slice(source)) + b::space() + self.right.pretty_debug(source), ">", ) .group() } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub enum Literal { Number(Number), Size(Spanned, Spanned), Operator(Operator), String(String), GlobPattern(String), ColumnPath(Vec), Bare(String), } impl Literal { pub fn into_spanned(self, span: impl Into) -> SpannedLiteral { SpannedLiteral { literal: self, span: span.into(), } } } //, Eq, PartialEq, Ord, PartialOrd, Hash, Serialize, Deserialize #[derive(Debug, Clone)] pub struct SpannedLiteral { pub literal: Literal, pub span: Span, } impl ShellTypeName for Literal { fn type_name(&self) -> &'static str { match &self { Literal::Number(..) => "number", Literal::Size(..) => "size", Literal::String(..) => "string", Literal::ColumnPath(..) => "column path", Literal::Bare(_) => "string", Literal::GlobPattern(_) => "pattern", Literal::Operator(_) => "operator", } } } impl PrettyDebugWithSource for SpannedLiteral { fn refined_pretty_debug(&self, refine: PrettyDebugRefineKind, source: &str) -> DebugDocBuilder { match refine { PrettyDebugRefineKind::ContextFree => self.pretty_debug(source), PrettyDebugRefineKind::WithContext => match &self.literal { Literal::Number(number) => number.pretty(), Literal::Size(number, unit) => (number.pretty() + unit.pretty()).group(), Literal::String(string) => b::primitive(format!("{:?}", string)), //string.slice(source))), Literal::GlobPattern(pattern) => b::primitive(pattern), Literal::ColumnPath(path) => { b::intersperse_with_source(path.iter(), b::space(), source) } Literal::Bare(bare) => b::delimit("b\"", b::primitive(bare), "\""), Literal::Operator(operator) => b::primitive(format!("{:?}", operator)), }, } } fn pretty_debug(&self, source: &str) -> DebugDocBuilder { match &self.literal { Literal::Number(number) => number.pretty(), Literal::Size(number, unit) => { b::typed("size", (number.pretty() + unit.pretty()).group()) } Literal::String(string) => b::typed( "string", b::primitive(format!("{:?}", string)), //string.slice(source))), ), Literal::GlobPattern(pattern) => b::typed("pattern", b::primitive(pattern)), Literal::ColumnPath(path) => b::typed( "column path", b::intersperse_with_source(path.iter(), b::space(), source), ), Literal::Bare(bare) => b::typed("bare", b::primitive(bare)), Literal::Operator(operator) => { b::typed("operator", b::primitive(format!("{:?}", operator))) } } } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, new, Deserialize, Serialize)] pub struct Path { pub head: SpannedExpression, pub tail: Vec, } impl PrettyDebugWithSource for Path { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { self.head.pretty_debug(source) + b::operator(".") + b::intersperse(self.tail.iter().map(|m| m.pretty()), b::operator(".")) } } #[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Deserialize, Serialize)] pub enum Expression { Literal(Literal), ExternalWord, Synthetic(Synthetic), Variable(Variable), Binary(Box), Range(Box), Block(hir::Block), List(Vec), Path(Box), FilePath(PathBuf), ExternalCommand(ExternalStringCommand), Command(Span), Boolean(bool), // Trying this approach out: if we let parsing always be infallible // we can use the same parse and just place bad token markers in the output // We can later throw an error if we try to process them further. Garbage, } impl ShellTypeName for Expression { fn type_name(&self) -> &'static str { match self { Expression::Literal(literal) => literal.type_name(), Expression::Synthetic(synthetic) => synthetic.type_name(), Expression::Command(..) => "command", Expression::ExternalWord => "external word", Expression::FilePath(..) => "file path", Expression::Variable(..) => "variable", Expression::List(..) => "list", Expression::Binary(..) => "binary", Expression::Range(..) => "range", Expression::Block(..) => "block", Expression::Path(..) => "variable path", Expression::Boolean(..) => "boolean", Expression::ExternalCommand(..) => "external", Expression::Garbage => "garbage", } } } impl IntoSpanned for Expression { type Output = SpannedExpression; fn into_spanned(self, span: impl Into) -> Self::Output { SpannedExpression { expr: self, span: span.into(), } } } impl Expression { pub fn integer(i: i64) -> Expression { Expression::Literal(Literal::Number(Number::Int(BigInt::from(i)))) } pub fn decimal(f: f64) -> Expression { Expression::Literal(Literal::Number(Number::Decimal(BigDecimal::from(f)))) } pub fn string(s: String) -> Expression { Expression::Literal(Literal::String(s)) } pub fn operator(operator: Operator) -> Expression { Expression::Literal(Literal::Operator(operator)) } pub fn range(left: SpannedExpression, dotdot: Span, right: SpannedExpression) -> Expression { Expression::Range(Box::new(Range { left, dotdot, right, })) } pub fn pattern(p: String) -> Expression { Expression::Literal(Literal::GlobPattern(p)) } pub fn file_path(file_path: PathBuf) -> Expression { Expression::FilePath(file_path) } pub fn simple_column_path(members: Vec) -> Expression { Expression::Literal(Literal::ColumnPath(members)) } pub fn path(head: SpannedExpression, tail: Vec>) -> Expression { let tail = tail.into_iter().map(|t| t.into()).collect(); Expression::Path(Box::new(Path::new(head, tail))) } pub fn unit(i: Spanned, unit: Spanned) -> Expression { Expression::Literal(Literal::Size( Number::Int(BigInt::from(i.item)).spanned(i.span), unit, )) } pub fn variable(v: String, span: Span) -> Expression { if v == "$it" { Expression::Variable(Variable::It(span)) } else { Expression::Variable(Variable::Other(v, span)) } } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub enum NamedValue { AbsentSwitch, PresentSwitch(Span), AbsentValue, Value(Span, SpannedExpression), } impl PrettyDebugWithSource for NamedValue { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { match self { NamedValue::AbsentSwitch => b::typed("switch", b::description("absent")), NamedValue::PresentSwitch(_) => b::typed("switch", b::description("present")), NamedValue::AbsentValue => b::description("absent"), NamedValue::Value(_, value) => value.pretty_debug(source), } } fn refined_pretty_debug(&self, refine: PrettyDebugRefineKind, source: &str) -> DebugDocBuilder { match refine { PrettyDebugRefineKind::ContextFree => self.pretty_debug(source), PrettyDebugRefineKind::WithContext => match self { NamedValue::AbsentSwitch => b::value("absent"), NamedValue::PresentSwitch(_) => b::value("present"), NamedValue::AbsentValue => b::value("absent"), NamedValue::Value(_, value) => value.refined_pretty_debug(refine, source), }, } } } #[derive(Debug, Clone, PartialEq, PartialOrd, Eq, Ord, Hash, Serialize, Deserialize)] pub struct Call { pub head: Box, pub positional: Option>, pub named: Option, pub span: Span, pub is_last: bool, } impl Call { pub fn switch_preset(&self, switch: &str) -> bool { self.named .as_ref() .map(|n| n.switch_present(switch)) .unwrap_or(false) } pub fn set_initial_flags(&mut self, signature: &crate::Signature) { for (named, value) in signature.named.iter() { if self.named.is_none() { self.named = Some(NamedArguments::new()); } if let Some(ref mut args) = self.named { match value.0 { crate::NamedType::Switch(_) => args.insert_switch(named, None), _ => args.insert_optional(named, Span::new(0, 0), None), } } } } } impl PrettyDebugWithSource for Call { fn refined_pretty_debug(&self, refine: PrettyDebugRefineKind, source: &str) -> DebugDocBuilder { match refine { PrettyDebugRefineKind::ContextFree => self.pretty_debug(source), PrettyDebugRefineKind::WithContext => { self.head .refined_pretty_debug(PrettyDebugRefineKind::WithContext, source) + b::preceded_option( Some(b::space()), self.positional.as_ref().map(|pos| { b::intersperse( pos.iter().map(|expr| { expr.refined_pretty_debug( PrettyDebugRefineKind::WithContext, source, ) }), b::space(), ) }), ) + b::preceded_option( Some(b::space()), self.named.as_ref().map(|named| { named.refined_pretty_debug(PrettyDebugRefineKind::WithContext, source) }), ) } } } fn pretty_debug(&self, source: &str) -> DebugDocBuilder { b::typed( "call", self.refined_pretty_debug(PrettyDebugRefineKind::WithContext, source), ) } } impl Call { pub fn new(head: Box, span: Span) -> Call { Call { head, positional: None, named: None, span, is_last: false, } } } #[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd)] pub enum Delimiter { Paren, Brace, Square, } #[derive(Debug, Copy, Clone)] pub enum FlatShape { OpenDelimiter(Delimiter), CloseDelimiter(Delimiter), Type, Identifier, ItVariable, Variable, Operator, Dot, DotDot, InternalCommand, ExternalCommand, ExternalWord, BareMember, StringMember, String, Path, Word, Keyword, Pipe, GlobPattern, Flag, ShorthandFlag, Int, Decimal, Garbage, Whitespace, Separator, Comment, Size { number: Span, unit: Span }, } #[derive(Debug, Clone, Default, PartialEq, Eq, Serialize, Deserialize)] pub struct NamedArguments { pub named: IndexMap, } #[allow(clippy::derive_hash_xor_eq)] impl Hash for NamedArguments { /// Create the hash function to allow the Hash trait for dictionaries fn hash(&self, state: &mut H) { let mut entries = self.named.clone(); entries.sort_keys(); entries.keys().collect::>().hash(state); entries.values().collect::>().hash(state); } } impl PartialOrd for NamedArguments { /// Compare two dictionaries for sort ordering fn partial_cmp(&self, other: &NamedArguments) -> Option { let this: Vec<&String> = self.named.keys().collect(); let that: Vec<&String> = other.named.keys().collect(); if this != that { return this.partial_cmp(&that); } let this: Vec<&NamedValue> = self.named.values().collect(); let that: Vec<&NamedValue> = self.named.values().collect(); this.partial_cmp(&that) } } impl Ord for NamedArguments { /// Compare two dictionaries for ordering fn cmp(&self, other: &NamedArguments) -> Ordering { let this: Vec<&String> = self.named.keys().collect(); let that: Vec<&String> = other.named.keys().collect(); if this != that { return this.cmp(&that); } let this: Vec<&NamedValue> = self.named.values().collect(); let that: Vec<&NamedValue> = self.named.values().collect(); this.cmp(&that) } } impl NamedArguments { pub fn new() -> NamedArguments { Default::default() } pub fn iter(&self) -> impl Iterator { self.named.iter() } pub fn get(&self, name: &str) -> Option<&NamedValue> { self.named.get(name) } pub fn is_empty(&self) -> bool { self.named.is_empty() } } impl NamedArguments { pub fn insert_switch(&mut self, name: impl Into, switch: Option) { let name = name.into(); trace!("Inserting switch -- {} = {:?}", name, switch); match switch { None => self.named.insert(name, NamedValue::AbsentSwitch), Some(flag) => self .named .insert(name, NamedValue::PresentSwitch(flag.name)), }; } pub fn insert_optional( &mut self, name: impl Into, flag_span: Span, expr: Option, ) { match expr { None => self.named.insert(name.into(), NamedValue::AbsentValue), Some(expr) => self .named .insert(name.into(), NamedValue::Value(flag_span, expr)), }; } pub fn insert_mandatory( &mut self, name: impl Into, flag_span: Span, expr: SpannedExpression, ) { self.named .insert(name.into(), NamedValue::Value(flag_span, expr)); } pub fn switch_present(&self, switch: &str) -> bool { self.named .get(switch) .map(|t| match t { NamedValue::PresentSwitch(_) => true, _ => false, }) .unwrap_or(false) } } impl PrettyDebugWithSource for NamedArguments { fn refined_pretty_debug(&self, refine: PrettyDebugRefineKind, source: &str) -> DebugDocBuilder { match refine { PrettyDebugRefineKind::ContextFree => self.pretty_debug(source), PrettyDebugRefineKind::WithContext => b::intersperse( self.named.iter().map(|(key, value)| { b::key(key) + b::equals() + value.refined_pretty_debug(PrettyDebugRefineKind::WithContext, source) }), b::space(), ), } } fn pretty_debug(&self, source: &str) -> DebugDocBuilder { b::delimit( "(", self.refined_pretty_debug(PrettyDebugRefineKind::WithContext, source), ")", ) } } #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] pub enum FlagKind { Shorthand, Longhand, } #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, new)] pub struct Flag { pub(crate) kind: FlagKind, pub(crate) name: Span, } impl PrettyDebugWithSource for Flag { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { let prefix = match self.kind { FlagKind::Longhand => b::description("--"), FlagKind::Shorthand => b::description("-"), }; prefix + b::description(self.name.slice(source)) } } impl Flag { pub fn color(&self, span: impl Into) -> Spanned { match self.kind { FlagKind::Longhand => FlatShape::Flag.spanned(span.into()), FlagKind::Shorthand => FlatShape::ShorthandFlag.spanned(span.into()), } } }