Restructure and streamline token expansion (#1123)

Restructure and streamline token expansion

The purpose of this commit is to streamline the token expansion code, by
removing aspects of the code that are no longer relevant, removing
pointless duplication, and eliminating the need to pass the same
arguments to `expand_syntax`.

The first big-picture change in this commit is that instead of a handful
of `expand_` functions, which take a TokensIterator and ExpandContext, a
smaller number of methods on the `TokensIterator` do the same job.

The second big-picture change in this commit is fully eliminating the
coloring traits, making coloring a responsibility of the base expansion
implementations. This also means that the coloring tracer is merged into
the expansion tracer, so you can follow a single expansion and see how
the expansion process produced colored tokens.

One side effect of this change is that the expander itself is marginally
more error-correcting. The error correction works by switching from
structured expansion to `BackoffColoringMode` when an unexpected token
is found, which guarantees that all spans of the source are colored, but
may not be the most optimal error recovery strategy.

That said, because `BackoffColoringMode` only extends as far as a
closing delimiter (`)`, `]`, `}`) or pipe (`|`), it does result in
fairly granular correction strategy.

The current code still produces an `Err` (plus a complete list of
colored shapes) from the parsing process if any errors are encountered,
but this could easily be addressed now that the underlying expansion is
error-correcting.

This commit also colors any spans that are syntax errors in red, and
causes the parser to include some additional information about what
tokens were expected at any given point where an error was encountered,
so that completions and hinting could be more robust in the future.

Co-authored-by: Jonathan Turner <jonathandturner@users.noreply.github.com>
Co-authored-by: Andrés N. Robalino <andres@androbtech.com>
This commit is contained in:
Yehuda Katz 2020-01-21 17:45:03 -05:00 committed by Andrés N. Robalino
parent c8dd7838a8
commit 7efb31a4e4
81 changed files with 4145 additions and 4882 deletions

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@ -59,3 +59,4 @@ steps:
- bash: cargo fmt --all -- --check
condition: eq(variables['style'], 'fmt')
displayName: Lint

10
Cargo.lock generated
View File

@ -1870,9 +1870,9 @@ dependencies = [
[[package]]
name = "libsqlite3-sys"
version = "0.17.1"
version = "0.16.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "266eb8c361198e8d1f682bc974e5d9e2ae90049fb1943890904d11dad7d4a77d"
checksum = "5e5b95e89c330291768dc840238db7f9e204fd208511ab6319b56193a7f2ae25"
dependencies = [
"cc",
"pkg-config",
@ -2289,6 +2289,7 @@ dependencies = [
"roxmltree",
"rusqlite",
"rustyline",
"semver",
"serde 1.0.104",
"serde-hjson 0.9.1",
"serde_bytes",
@ -2331,6 +2332,7 @@ dependencies = [
"ansi_term 0.12.1",
"bigdecimal",
"derive-new",
"getset",
"language-reporting",
"nom 5.1.0",
"nom_locate",
@ -3373,9 +3375,9 @@ dependencies = [
[[package]]
name = "rusqlite"
version = "0.21.0"
version = "0.20.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "64a656821bb6317a84b257737b7934f79c0dbb7eb694710475908280ebad3e64"
checksum = "2a194373ef527035645a1bc21b10dc2125f73497e6e155771233eb187aedd051"
dependencies = [
"bitflags",
"fallible-iterator",

View File

@ -39,12 +39,12 @@ members = [
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
nu-source = { version = "0.8.0", path = "./crates/nu-source" }
nu-plugin = { version = "0.8.0", path = "./crates/nu-plugin" }
nu-protocol = { version = "0.8.0", path = "./crates/nu-protocol" }
nu-errors = { version = "0.8.0", path = "./crates/nu-errors" }
nu-parser = { version = "0.8.0", path = "./crates/nu-parser" }
nu-value-ext = { version = "0.8.0", path = "./crates/nu-value-ext" }
nu-source = {version = "0.8.0", path = "./crates/nu-source"}
nu-plugin = {version = "0.8.0", path = "./crates/nu-plugin"}
nu-protocol = {version = "0.8.0", path = "./crates/nu-protocol"}
nu-errors = {version = "0.8.0", path = "./crates/nu-errors"}
nu-parser = {version = "0.8.0", path = "./crates/nu-parser"}
nu-value-ext = {version = "0.8.0", path = "./crates/nu-value-ext"}
nu_plugin_average = {version = "0.8.0", path = "./crates/nu_plugin_average", optional=true}
nu_plugin_binaryview = {version = "0.8.0", path = "./crates/nu_plugin_binaryview", optional=true}
nu_plugin_fetch = {version = "0.8.0", path = "./crates/nu_plugin_fetch", optional=true}
@ -133,6 +133,7 @@ onig_sys = {version = "=69.1.0", optional = true }
crossterm = {version = "0.10.2", optional = true}
futures-timer = {version = "1.0.2", optional = true}
url = {version = "2.1.1", optional = true}
semver = {version = "0.9.0", optional = true}
[target.'cfg(unix)'.dependencies]
users = "0.9"
@ -163,7 +164,7 @@ trace = ["nu-parser/trace"]
tree = ["nu_plugin_tree"]
[dependencies.rusqlite]
version = "0.21.0"
version = "0.20.0"
features = ["bundled", "blob"]
[dev-dependencies]

View File

@ -50,3 +50,11 @@ textview in own crate
Combine atomic and atomic_parse in parser
at_end_possible_ws needs to be comment and separator sensitive
Eliminate unnecessary `nodes` parser
#[derive(HasSpan)]
Figure out a solution for the duplication in stuff like NumberShape vs. NumberExpressionShape
use `struct Expander` from signature.rs

View File

@ -21,6 +21,7 @@ num-traits = "0.2.10"
serde = { version = "1.0.103", features = ["derive"] }
nom = "5.0.1"
nom_locate = "1.0.0"
getset = "0.0.9"
# implement conversions
subprocess = "0.1.18"

View File

@ -1,8 +1,11 @@
use ansi_term::Color;
use bigdecimal::BigDecimal;
use derive_new::new;
use getset::Getters;
use language_reporting::{Diagnostic, Label, Severity};
use nu_source::{b, DebugDocBuilder, PrettyDebug, Span, Spanned, SpannedItem, TracableContext};
use nu_source::{
b, DebugDocBuilder, HasFallibleSpan, PrettyDebug, Span, Spanned, SpannedItem, TracableContext,
};
use num_bigint::BigInt;
use num_traits::ToPrimitive;
use serde::{Deserialize, Serialize};
@ -12,16 +15,16 @@ use std::ops::Range;
/// A structured reason for a ParseError. Note that parsing in nu is more like macro expansion in
/// other languages, so the kinds of errors that can occur during parsing are more contextual than
/// you might expect.
#[derive(Debug, Clone)]
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum ParseErrorReason {
/// The parser encountered an EOF rather than what it was expecting
Eof { expected: &'static str, span: Span },
Eof { expected: String, span: Span },
/// The parser expected to see the end of a token stream (possibly the token
/// stream from inside a delimited token node), but found something else.
ExtraTokens { actual: Spanned<String> },
/// The parser encountered something other than what it was expecting
Mismatch {
expected: &'static str,
expected: String,
actual: Spanned<String>,
},
@ -37,16 +40,20 @@ pub enum ParseErrorReason {
}
/// A newtype for `ParseErrorReason`
#[derive(Debug, Clone)]
#[derive(Debug, Clone, Eq, PartialEq, Getters)]
pub struct ParseError {
#[get = "pub"]
reason: ParseErrorReason,
}
impl ParseError {
/// Construct a [ParseErrorReason::Eof](ParseErrorReason::Eof)
pub fn unexpected_eof(expected: &'static str, span: Span) -> ParseError {
pub fn unexpected_eof(expected: impl Into<String>, span: Span) -> ParseError {
ParseError {
reason: ParseErrorReason::Eof { expected, span },
reason: ParseErrorReason::Eof {
expected: expected.into(),
span,
},
}
}
@ -62,12 +69,12 @@ impl ParseError {
}
/// Construct a [ParseErrorReason::Mismatch](ParseErrorReason::Mismatch)
pub fn mismatch(expected: &'static str, actual: Spanned<impl Into<String>>) -> ParseError {
pub fn mismatch(expected: impl Into<String>, actual: Spanned<impl Into<String>>) -> ParseError {
let Spanned { span, item } = actual;
ParseError {
reason: ParseErrorReason::Mismatch {
expected,
expected: expected.into(),
actual: item.into().spanned(span),
},
}
@ -728,6 +735,30 @@ impl ProximateShellError {
}
}
impl HasFallibleSpan for ShellError {
fn maybe_span(&self) -> Option<Span> {
self.error.maybe_span()
}
}
impl HasFallibleSpan for ProximateShellError {
fn maybe_span(&self) -> Option<Span> {
Some(match self {
ProximateShellError::SyntaxError { problem } => problem.span,
ProximateShellError::UnexpectedEof { span, .. } => *span,
ProximateShellError::TypeError { actual, .. } => actual.span,
ProximateShellError::MissingProperty { subpath, .. } => subpath.span,
ProximateShellError::InvalidIntegerIndex { subpath, .. } => subpath.span,
ProximateShellError::MissingValue { span, .. } => return *span,
ProximateShellError::ArgumentError { command, .. } => command.span,
ProximateShellError::RangeError { actual_kind, .. } => actual_kind.span,
ProximateShellError::Diagnostic(_) => return None,
ProximateShellError::CoerceError { left, right } => left.span.until(right.span),
ProximateShellError::UntaggedRuntimeError { .. } => return None,
})
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ShellDiagnostic {
pub(crate) diagnostic: Diagnostic<Span>,

View File

@ -3,7 +3,6 @@ pub mod classified;
use crate::commands::classified::external::{ExternalArg, ExternalArgs, ExternalCommand};
use crate::commands::classified::ClassifiedCommand;
use crate::hir::expand_external_tokens::ExternalTokensShape;
use crate::hir::syntax_shape::{expand_syntax, ExpandContext};
use crate::hir::tokens_iterator::TokensIterator;
use nu_errors::ParseError;
use nu_source::{Spanned, Tagged};
@ -13,10 +12,10 @@ use nu_source::{Spanned, Tagged};
// strings.
pub(crate) fn external_command(
tokens: &mut TokensIterator,
context: &ExpandContext,
name: Tagged<&str>,
) -> Result<ClassifiedCommand, ParseError> {
let Spanned { item, span } = expand_syntax(&ExternalTokensShape, tokens, context)?.tokens;
let Spanned { item, span } = tokens.expand_infallible(ExternalTokensShape).tokens;
let full_span = name.span().until(span);
Ok(ClassifiedCommand::External(ExternalCommand {
name: name.to_string(),
@ -29,7 +28,7 @@ pub(crate) fn external_command(
arg: x.item.clone(),
})
.collect(),
span,
span: full_span,
},
}))
}

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@ -4,18 +4,20 @@ pub mod internal;
use crate::commands::classified::external::ExternalCommand;
use crate::commands::classified::internal::InternalCommand;
use crate::hir;
use crate::parse::token_tree::TokenNode;
use crate::parse::token_tree::SpannedToken;
use derive_new::new;
use nu_errors::ParseError;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span};
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum ClassifiedCommand {
#[allow(unused)]
Expr(TokenNode),
Expr(SpannedToken),
#[allow(unused)]
Dynamic(hir::Call),
Internal(InternalCommand),
External(ExternalCommand),
Error(ParseError),
}
impl PrettyDebugWithSource for ClassifiedCommand {
@ -23,6 +25,7 @@ impl PrettyDebugWithSource for ClassifiedCommand {
match self {
ClassifiedCommand::Expr(token) => b::typed("command", token.pretty_debug(source)),
ClassifiedCommand::Dynamic(call) => b::typed("command", call.pretty_debug(source)),
ClassifiedCommand::Error(_) => b::error("no command"),
ClassifiedCommand::Internal(internal) => internal.pretty_debug(source),
ClassifiedCommand::External(external) => external.pretty_debug(source),
}
@ -35,6 +38,7 @@ impl HasSpan for ClassifiedCommand {
ClassifiedCommand::Expr(node) => node.span(),
ClassifiedCommand::Internal(command) => command.span(),
ClassifiedCommand::Dynamic(call) => call.span,
ClassifiedCommand::Error(_) => Span::unknown(),
ClassifiedCommand::External(command) => command.span(),
}
}
@ -62,6 +66,9 @@ impl std::ops::Deref for Commands {
#[derive(Debug, Clone)]
pub struct ClassifiedPipeline {
pub commands: Commands,
// this is not a Result to make it crystal clear that these shapes
// aren't intended to be used directly with `?`
pub failed: Option<nu_errors::ParseError>,
}
impl ClassifiedPipeline {
@ -71,6 +78,7 @@ impl ClassifiedPipeline {
list,
span: span.into(),
},
failed: None,
}
}
}

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@ -5,7 +5,6 @@ pub(crate) mod external_command;
pub(crate) mod named;
pub(crate) mod path;
pub(crate) mod range;
pub(crate) mod signature;
pub mod syntax_shape;
pub(crate) mod tokens_iterator;
@ -17,17 +16,17 @@ use derive_new::new;
use getset::Getters;
use nu_protocol::{PathMember, ShellTypeName};
use nu_source::{
b, DebugDocBuilder, HasSpan, PrettyDebug, PrettyDebugWithSource, Span, Spanned, SpannedItem,
b, DebugDocBuilder, HasSpan, IntoSpanned, PrettyDebug, PrettyDebugRefineKind,
PrettyDebugWithSource, Span, Spanned,
};
use serde::{Deserialize, Serialize};
use std::path::PathBuf;
use crate::parse::tokens::RawNumber;
use crate::parse::number::RawNumber;
pub(crate) use self::binary::Binary;
pub(crate) use self::path::Path;
pub(crate) use self::range::Range;
pub(crate) use self::syntax_shape::ExpandContext;
pub(crate) use self::tokens_iterator::TokensIterator;
pub use self::external_command::ExternalCommand;
@ -63,9 +62,9 @@ impl PrettyDebugWithSource for Signature {
#[derive(Debug, Clone, Eq, PartialEq, Getters, Serialize, Deserialize, new)]
pub struct Call {
#[get = "pub(crate)"]
pub head: Box<Expression>,
pub head: Box<SpannedExpression>,
#[get = "pub(crate)"]
pub positional: Option<Vec<Expression>>,
pub positional: Option<Vec<SpannedExpression>>,
#[get = "pub(crate)"]
pub named: Option<NamedArguments>,
pub span: Span,
@ -85,35 +84,54 @@ impl Call {
}
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::delimit(
"(",
self.head.pretty_debug(source)
+ b::preceded_option(
Some(b::space()),
self.positional.as_ref().map(|pos| {
b::intersperse(pos.iter().map(|expr| expr.pretty_debug(source)), b::space())
}),
)
+ b::preceded_option(
Some(b::space()),
self.named.as_ref().map(|named| named.pretty_debug(source)),
),
")",
b::typed(
"call",
self.refined_pretty_debug(PrettyDebugRefineKind::WithContext, source),
)
}
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Hash, Serialize, Deserialize)]
pub enum RawExpression {
pub enum Expression {
Literal(Literal),
ExternalWord,
Synthetic(Synthetic),
Variable(Variable),
Binary(Box<Binary>),
Range(Box<Range>),
Block(Vec<Expression>),
List(Vec<Expression>),
Block(Vec<SpannedExpression>),
List(Vec<SpannedExpression>),
Path(Box<Path>),
FilePath(PathBuf),
@ -123,22 +141,22 @@ pub enum RawExpression {
Boolean(bool),
}
impl ShellTypeName for RawExpression {
impl ShellTypeName for Expression {
fn type_name(&self) -> &'static str {
match self {
RawExpression::Literal(literal) => literal.type_name(),
RawExpression::Synthetic(synthetic) => synthetic.type_name(),
RawExpression::Command(..) => "command",
RawExpression::ExternalWord => "external word",
RawExpression::FilePath(..) => "file path",
RawExpression::Variable(..) => "variable",
RawExpression::List(..) => "list",
RawExpression::Binary(..) => "binary",
RawExpression::Range(..) => "range",
RawExpression::Block(..) => "block",
RawExpression::Path(..) => "variable path",
RawExpression::Boolean(..) => "boolean",
RawExpression::ExternalCommand(..) => "external",
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",
}
}
}
@ -156,16 +174,24 @@ impl ShellTypeName for Synthetic {
}
}
impl RawExpression {
pub fn into_expr(self, span: impl Into<Span>) -> Expression {
Expression {
impl IntoSpanned for Expression {
type Output = SpannedExpression;
fn into_spanned(self, span: impl Into<Span>) -> Self::Output {
SpannedExpression {
expr: self,
span: span.into(),
}
}
}
pub fn into_unspanned_expr(self) -> Expression {
Expression {
impl Expression {
pub fn into_expr(self, span: impl Into<Span>) -> SpannedExpression {
self.into_spanned(span)
}
pub fn into_unspanned_expr(self) -> SpannedExpression {
SpannedExpression {
expr: self,
span: Span::unknown(),
}
@ -173,40 +199,93 @@ impl RawExpression {
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Hash, Serialize, Deserialize)]
pub struct Expression {
pub expr: RawExpression,
pub struct SpannedExpression {
pub expr: Expression,
pub span: Span,
}
impl std::ops::Deref for Expression {
type Target = RawExpression;
impl std::ops::Deref for SpannedExpression {
type Target = Expression;
fn deref(&self) -> &RawExpression {
fn deref(&self) -> &Expression {
&self.expr
}
}
impl HasSpan for Expression {
impl HasSpan for SpannedExpression {
fn span(&self) -> Span {
self.span
}
}
impl PrettyDebugWithSource for Expression {
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("$it"),
Expression::Binary(binary) => binary.pretty_debug(source),
Expression::Range(range) => range.pretty_debug(source),
Expression::Block(_) => b::opaque("block"),
Expression::List(list) => b::delimit(
"[",
b::intersperse(
list.iter()
.map(|item| item.refined_pretty_debug(refine, source)),
b::space(),
),
"]",
),
Expression::Path(path) => path.pretty_debug(source),
Expression::FilePath(path) => b::typed("path", b::primitive(path.display())),
Expression::ExternalCommand(external) => {
b::keyword("^") + b::keyword(external.name.slice(source))
}
Expression::Command(command) => b::keyword(command.slice(source)),
Expression::Boolean(boolean) => match boolean {
true => b::primitive("$yes"),
false => b::primitive("$no"),
},
},
}
}
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match &self.expr {
RawExpression::Literal(literal) => literal.spanned(self.span).pretty_debug(source),
RawExpression::ExternalWord => {
Expression::Literal(literal) => {
literal.clone().into_spanned(self.span).pretty_debug(source)
}
Expression::ExternalWord => {
b::typed("external word", b::primitive(self.span.slice(source)))
}
RawExpression::Synthetic(s) => match s {
Expression::Synthetic(s) => match s {
Synthetic::String(s) => b::typed("synthetic", b::primitive(format!("{:?}", s))),
},
RawExpression::Variable(_) => b::keyword(self.span.slice(source)),
RawExpression::Binary(binary) => binary.pretty_debug(source),
RawExpression::Range(range) => range.pretty_debug(source),
RawExpression::Block(_) => b::opaque("block"),
RawExpression::List(list) => b::delimit(
Expression::Variable(Variable::Other(_)) => b::keyword(self.span.slice(source)),
Expression::Variable(Variable::It(_)) => b::keyword("$it"),
Expression::Binary(binary) => binary.pretty_debug(source),
Expression::Range(range) => range.pretty_debug(source),
Expression::Block(_) => b::opaque("block"),
Expression::List(list) => b::delimit(
"[",
b::intersperse(
list.iter().map(|item| item.pretty_debug(source)),
@ -214,16 +293,16 @@ impl PrettyDebugWithSource for Expression {
),
"]",
),
RawExpression::Path(path) => path.pretty_debug(source),
RawExpression::FilePath(path) => b::typed("path", b::primitive(path.display())),
RawExpression::ExternalCommand(external) => b::typed(
"external command",
b::primitive(external.name.slice(source)),
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.slice(source)),
),
RawExpression::Command(command) => {
Expression::Command(command) => {
b::typed("command", b::primitive(command.slice(source)))
}
RawExpression::Boolean(boolean) => match boolean {
Expression::Boolean(boolean) => match boolean {
true => b::primitive("$yes"),
false => b::primitive("$no"),
},
@ -232,117 +311,91 @@ impl PrettyDebugWithSource for Expression {
}
impl Expression {
pub fn number(i: impl Into<Number>, span: impl Into<Span>) -> Expression {
let span = span.into();
RawExpression::Literal(RawLiteral::Number(i.into()).into_literal(span)).into_expr(span)
pub fn number(i: impl Into<Number>) -> Expression {
Expression::Literal(Literal::Number(i.into()))
}
pub fn size(i: impl Into<Number>, unit: impl Into<Unit>, span: impl Into<Span>) -> Expression {
let span = span.into();
RawExpression::Literal(RawLiteral::Size(i.into(), unit.into()).into_literal(span))
.into_expr(span)
pub fn size(i: impl Into<Number>, unit: impl Into<Unit>) -> Expression {
Expression::Literal(Literal::Size(i.into(), unit.into()))
}
pub fn synthetic_string(s: impl Into<String>) -> Expression {
RawExpression::Synthetic(Synthetic::String(s.into())).into_unspanned_expr()
pub fn string(inner: impl Into<Span>) -> Expression {
Expression::Literal(Literal::String(inner.into()))
}
pub fn string(inner: impl Into<Span>, outer: impl Into<Span>) -> Expression {
let outer = outer.into();
RawExpression::Literal(RawLiteral::String(inner.into()).into_literal(outer))
.into_expr(outer)
pub fn synthetic_string(string: impl Into<String>) -> Expression {
Expression::Synthetic(Synthetic::String(string.into()))
}
pub fn column_path(members: Vec<Member>, span: impl Into<Span>) -> Expression {
let span = span.into();
RawExpression::Literal(RawLiteral::ColumnPath(members).into_literal(span)).into_expr(span)
pub fn column_path(members: Vec<Member>) -> Expression {
Expression::Literal(Literal::ColumnPath(members))
}
pub fn path(
head: Expression,
tail: Vec<impl Into<PathMember>>,
span: impl Into<Span>,
) -> Expression {
pub fn path(head: SpannedExpression, tail: Vec<impl Into<PathMember>>) -> Expression {
let tail = tail.into_iter().map(|t| t.into()).collect();
RawExpression::Path(Box::new(Path::new(head, tail))).into_expr(span.into())
Expression::Path(Box::new(Path::new(head, tail)))
}
pub fn dot_member(head: Expression, next: impl Into<PathMember>) -> Expression {
let Expression { expr: item, span } = head;
pub fn dot_member(head: SpannedExpression, next: impl Into<PathMember>) -> Expression {
let SpannedExpression { expr: item, span } = head;
let next = next.into();
let new_span = head.span.until(next.span);
match item {
RawExpression::Path(path) => {
Expression::Path(path) => {
let (head, mut tail) = path.parts();
tail.push(next);
Expression::path(head, tail, new_span)
Expression::path(head, tail)
}
other => Expression::path(other.into_expr(span), vec![next], new_span),
other => Expression::path(other.into_expr(span), vec![next]),
}
}
pub fn infix(
left: Expression,
left: SpannedExpression,
op: Spanned<impl Into<CompareOperator>>,
right: Expression,
right: SpannedExpression,
) -> Expression {
let new_span = left.span.until(right.span);
RawExpression::Binary(Box::new(Binary::new(left, op.map(|o| o.into()), right)))
.into_expr(new_span)
Expression::Binary(Box::new(Binary::new(left, op.map(|o| o.into()), right)))
}
pub fn range(left: Expression, op: Span, right: Expression) -> Expression {
let new_span = left.span.until(right.span);
RawExpression::Range(Box::new(Range::new(left, op, right))).into_expr(new_span)
pub fn range(left: SpannedExpression, op: Span, right: SpannedExpression) -> Expression {
Expression::Range(Box::new(Range::new(left, op, right)))
}
pub fn file_path(path: impl Into<PathBuf>, outer: impl Into<Span>) -> Expression {
RawExpression::FilePath(path.into()).into_expr(outer)
pub fn file_path(path: impl Into<PathBuf>) -> Expression {
Expression::FilePath(path.into())
}
pub fn list(list: Vec<Expression>, span: impl Into<Span>) -> Expression {
RawExpression::List(list).into_expr(span)
pub fn list(list: Vec<SpannedExpression>) -> Expression {
Expression::List(list)
}
pub fn bare(span: impl Into<Span>) -> Expression {
let span = span.into();
RawExpression::Literal(RawLiteral::Bare.into_literal(span)).into_expr(span)
pub fn bare() -> Expression {
Expression::Literal(Literal::Bare)
}
pub fn pattern(inner: impl Into<String>, outer: impl Into<Span>) -> Expression {
let outer = outer.into();
RawExpression::Literal(RawLiteral::GlobPattern(inner.into()).into_literal(outer))
.into_expr(outer)
pub fn pattern(inner: impl Into<String>) -> Expression {
Expression::Literal(Literal::GlobPattern(inner.into()))
}
pub fn variable(inner: impl Into<Span>, outer: impl Into<Span>) -> Expression {
RawExpression::Variable(Variable::Other(inner.into())).into_expr(outer)
pub fn variable(inner: impl Into<Span>) -> Expression {
Expression::Variable(Variable::Other(inner.into()))
}
pub fn external_command(inner: impl Into<Span>, outer: impl Into<Span>) -> Expression {
RawExpression::ExternalCommand(ExternalCommand::new(inner.into())).into_expr(outer)
pub fn external_command(inner: impl Into<Span>) -> Expression {
Expression::ExternalCommand(ExternalCommand::new(inner.into()))
}
pub fn it_variable(inner: impl Into<Span>, outer: impl Into<Span>) -> Expression {
RawExpression::Variable(Variable::It(inner.into())).into_expr(outer)
pub fn it_variable(inner: impl Into<Span>) -> Expression {
Expression::Variable(Variable::It(inner.into()))
}
}
impl From<Spanned<Path>> for Expression {
fn from(path: Spanned<Path>) -> Expression {
RawExpression::Path(Box::new(path.item)).into_expr(path.span)
impl From<Spanned<Path>> for SpannedExpression {
fn from(path: Spanned<Path>) -> SpannedExpression {
Expression::Path(Box::new(path.item)).into_expr(path.span)
}
}
@ -352,7 +405,7 @@ impl From<Spanned<Path>> for Expression {
/// 2. Can be evaluated without additional context
/// 3. Evaluation cannot produce an error
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Hash, Serialize, Deserialize)]
pub enum RawLiteral {
pub enum Literal {
Number(Number),
Size(Number, Unit),
String(Span),
@ -361,9 +414,9 @@ pub enum RawLiteral {
Bare,
}
impl RawLiteral {
pub fn into_literal(self, span: impl Into<Span>) -> Literal {
Literal {
impl Literal {
pub fn into_spanned(self, span: impl Into<Span>) -> SpannedLiteral {
SpannedLiteral {
literal: self,
span: span.into(),
}
@ -371,36 +424,57 @@ impl RawLiteral {
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Hash, Serialize, Deserialize)]
pub struct Literal {
pub literal: RawLiteral,
pub struct SpannedLiteral {
pub literal: Literal,
pub span: Span,
}
impl ShellTypeName for Literal {
fn type_name(&self) -> &'static str {
match &self.literal {
RawLiteral::Number(..) => "number",
RawLiteral::Size(..) => "size",
RawLiteral::String(..) => "string",
RawLiteral::ColumnPath(..) => "column path",
RawLiteral::Bare => "string",
RawLiteral::GlobPattern(_) => "pattern",
match &self {
Literal::Number(..) => "number",
Literal::Size(..) => "size",
Literal::String(..) => "string",
Literal::ColumnPath(..) => "column path",
Literal::Bare => "string",
Literal::GlobPattern(_) => "pattern",
}
}
}
impl PrettyDebugWithSource for Literal {
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.slice(source))),
Literal::GlobPattern(pattern) => b::primitive(pattern),
Literal::ColumnPath(path) => {
b::intersperse_with_source(path.iter(), b::space(), source)
}
Literal::Bare => b::delimit("b\"", b::primitive(self.span.slice(source)), "\""),
},
}
}
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match &self.literal {
RawLiteral::Number(number) => number.pretty(),
RawLiteral::Size(number, unit) => (number.pretty() + unit.pretty()).group(),
RawLiteral::String(string) => b::primitive(format!("{:?}", string.slice(source))),
RawLiteral::GlobPattern(pattern) => b::typed("pattern", b::primitive(pattern)),
RawLiteral::ColumnPath(path) => b::typed(
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.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),
),
RawLiteral::Bare => b::primitive(self.span.slice(source)),
Literal::Bare => b::typed("bare", b::primitive(self.span.slice(source))),
}
}
}

View File

@ -1,42 +1,99 @@
use crate::commands::classified::{internal::InternalCommand, ClassifiedCommand};
use crate::hir::TokensIterator;
use crate::hir::{self, named::NamedValue, syntax_shape::*, NamedArguments};
use crate::hir::expand_external_tokens::{ExternalTokensShape, ExternalTokensSyntax};
use crate::hir::{
self, named::NamedValue, syntax_shape::*, Expression, NamedArguments, SpannedExpression,
TokensIterator,
};
use crate::parse::files::Files;
use crate::parse::token_tree_builder::{CurriedToken, TokenTreeBuilder as b};
use crate::TokenNode;
use crate::SpannedToken;
use derive_new::new;
use indexmap::IndexMap;
use nu_errors::ShellError;
use nu_protocol::{PathMember, Signature, SyntaxShape};
use nu_source::{HasSpan, Span, Tag, Text};
use nu_errors::{ParseError, ShellError};
use nu_protocol::{outln, PathMember, Signature, SyntaxShape};
use nu_source::{HasSpan, PrettyDebugWithSource, Span, SpannedItem, Tag, Text};
use pretty_assertions::assert_eq;
use std::fmt::Debug;
#[test]
fn test_parse_string() {
parse_tokens(StringShape, vec![b::string("hello")], |tokens| {
hir::Expression::string(inner_string_span(tokens[0].span()), tokens[0].span())
});
}
#[test]
fn test_parse_path() {
fn test_parse_external() {
parse_tokens(
VariablePathShape,
vec![b::var("it"), b::dot(), b::bare("cpu")],
fallible(ExternalTokensShape),
"5kb",
vec![b::bare("5kb")],
|tokens| {
let (outer_var, inner_var) = tokens[0].expect_var();
let bare = tokens[2].expect_bare();
hir::Expression::path(
hir::Expression::it_variable(inner_var, outer_var),
vec![PathMember::string("cpu", bare)],
outer_var.until(bare),
ExternalTokensSyntax::new(
vec![format!("5kb").spanned(tokens[0].span())].spanned(tokens[0].span()),
)
},
);
parse_tokens(
fallible(ExternalTokensShape),
"cargo +nightly run -- --features all",
vec![
b::bare("cargo"),
b::sp(),
b::external_word("+nightly"),
b::sp(),
b::bare("run"),
b::sp(),
b::external_word("--"),
b::sp(),
b::flag("features"),
b::sp(),
b::bare("all"),
],
|tokens| {
let cargo = format!("cargo").spanned(tokens[0].span());
let nightly = format!("+nightly").spanned(tokens[2].span());
let run = format!("run").spanned(tokens[4].span());
let dashdash = format!("--").spanned(tokens[6].span());
let features = format!("--features").spanned(tokens[8].span());
let all = format!("all").spanned(tokens[10].span());
let span = tokens[0].span().until(tokens[10].span());
ExternalTokensSyntax::new(
vec![cargo, nightly, run, dashdash, features, all].spanned(span),
)
},
);
}
#[test]
fn test_parse_string() {
parse_tokens(
CoerceStringShape,
r#""hello""#,
vec![b::string("hello")],
|tokens| {
Expression::string(inner_string_span(tokens[0].span())).into_expr(tokens[0].span())
},
);
}
#[test]
fn test_parse_path() {
let _ = pretty_env_logger::try_init();
parse_expr(
AnyExpressionShape,
"$it.cpu",
vec![b::it_var(), b::dot(), b::bare("cpu")],
|tokens| {
let (outer_var, inner_var) = tokens[0].expect_var();
let bare = tokens[2].expect_bare();
Expression::path(
Expression::it_variable(inner_var).into_expr(outer_var),
vec![PathMember::string("cpu", bare)],
)
.into_expr(outer_var.until(bare))
},
);
parse_expr(
VariablePathShape,
r#"$cpu.amount."max ghz""#,
vec![
b::var("cpu"),
b::dot(),
@ -49,14 +106,14 @@ fn test_parse_path() {
let amount = tokens[2].expect_bare();
let (outer_max_ghz, _) = tokens[4].expect_string();
hir::Expression::path(
hir::Expression::variable(inner_var, outer_var),
Expression::path(
Expression::variable(inner_var).into_expr(outer_var),
vec![
PathMember::string("amount", amount),
PathMember::string("max ghz", outer_max_ghz),
],
outer_var.until(outer_max_ghz),
)
.into_expr(outer_var.until(outer_max_ghz))
},
);
}
@ -64,7 +121,8 @@ fn test_parse_path() {
#[test]
fn test_parse_command() {
parse_tokens(
ClassifiedCommandShape,
fallible(ClassifiedCommandShape),
"ls *.txt",
vec![b::bare("ls"), b::sp(), b::pattern("*.txt")],
|tokens| {
let bare = tokens[0].expect_bare();
@ -81,8 +139,8 @@ fn test_parse_command() {
anchor: None,
},
hir::Call {
head: Box::new(hir::RawExpression::Command(bare).into_expr(bare)),
positional: Some(vec![hir::Expression::pattern("*.txt", pat)]),
head: Box::new(Expression::Command(bare).into_expr(bare)),
positional: Some(vec![Expression::pattern("*.txt").into_expr(pat)]),
named: Some(NamedArguments { named: map }),
span: bare.until(pat),
},
@ -91,7 +149,7 @@ fn test_parse_command() {
);
}
#[derive(new)]
#[derive(Debug, Clone, new)]
struct TestRegistry {
#[new(default)]
signatures: indexmap::IndexMap<String, Signature>,
@ -104,11 +162,14 @@ impl TestRegistry {
}
impl SignatureRegistry for TestRegistry {
fn has(&self, name: &str) -> Result<bool, ShellError> {
Ok(self.signatures.contains_key(name))
fn has(&self, name: &str) -> bool {
self.signatures.contains_key(name)
}
fn get(&self, name: &str) -> Result<Option<Signature>, ShellError> {
Ok(self.signatures.get(name).cloned())
fn get(&self, name: &str) -> Option<Signature> {
self.signatures.get(name).cloned()
}
fn clone_box(&self) -> Box<dyn SignatureRegistry> {
Box::new(self.clone())
}
}
@ -128,30 +189,91 @@ fn with_empty_context(source: &Text, callback: impl FnOnce(ExpandContext)) {
callback(ExpandContext::new(Box::new(registry), source, None))
}
fn parse_tokens<T: Eq + HasSpan + Clone + Debug + 'static>(
shape: impl ExpandSyntax<Output = T>,
trait Expand {}
fn parse_tokens<T: Eq + HasSpan + PrettyDebugWithSource + Clone + Debug + 'static>(
shape: impl ExpandSyntax<Output = Result<T, ParseError>>,
syntax: &str,
tokens: Vec<CurriedToken>,
expected: impl FnOnce(&[TokenNode]) -> T,
expected: impl FnOnce(&[SpannedToken]) -> T,
) {
// let parsed_tokens = parse(syntax);
let tokens = b::token_list(tokens);
let (tokens, source) = b::build(tokens);
let text = Text::from(source);
let text = Text::from(&source);
assert_eq!(syntax, source);
with_empty_context(&text, |context| {
let tokens = tokens.expect_list();
let mut iterator = TokensIterator::all(tokens.item, text.clone(), tokens.span);
let mut iterator = TokensIterator::new(&tokens.item, context, tokens.span);
let expr = expand_syntax(&shape, &mut iterator, &context);
let expr = iterator.expand_syntax(shape);
let expr = match expr {
Ok(expr) => expr,
Err(err) => {
print_err(err.into(), &context.source().clone());
outln!("");
ptree::print_tree(&iterator.expand_tracer().print(text.clone())).unwrap();
outln!("");
print_err(err.into(), &iterator.context().source().clone());
panic!("Parse failed");
}
};
assert_eq!(expr, expected(tokens.item));
let expected = expected(&tokens.item);
if expr != expected {
outln!("");
ptree::print_tree(&iterator.expand_tracer().print(text.clone())).unwrap();
outln!("");
assert_eq!(expr, expected);
}
})
}
fn parse_expr(
shape: impl ExpandSyntax<Output = Result<SpannedExpression, ParseError>>,
syntax: &str,
tokens: Vec<CurriedToken>,
expected: impl FnOnce(&[SpannedToken]) -> SpannedExpression,
) {
// let parsed_tokens = parse(syntax);
let tokens = b::token_list(tokens);
let (tokens, source) = b::build(tokens);
let text = Text::from(&source);
assert_eq!(syntax, source);
with_empty_context(&text, |context| {
let tokens = tokens.expect_list();
let mut iterator = TokensIterator::new(&tokens.item, context, tokens.span);
let expr = iterator.expand_syntax(shape);
let expr = match expr {
Ok(expr) => expr,
Err(err) => {
outln!("");
ptree::print_tree(&iterator.expand_tracer().print(text.clone())).unwrap();
outln!("");
print_err(err.into(), &iterator.source());
panic!("Parse failed");
}
};
let expected = expected(&tokens.item);
if expr != expected {
outln!("");
ptree::print_tree(&iterator.expand_tracer().print(text.clone())).unwrap();
outln!("");
assert_eq!(expr, expected);
}
})
}

View File

@ -1,4 +1,4 @@
use crate::{hir::Expression, CompareOperator};
use crate::{hir::SpannedExpression, CompareOperator};
use derive_new::new;
use getset::Getters;
@ -10,9 +10,9 @@ use serde::{Deserialize, Serialize};
)]
#[get = "pub"]
pub struct Binary {
left: Expression,
left: SpannedExpression,
op: Spanned<CompareOperator>,
right: Expression,
right: SpannedExpression,
}
impl PrettyDebugWithSource for Binary {

View File

@ -1,17 +1,14 @@
use crate::parse::token_tree::Token;
use crate::{
hir::syntax_shape::{
color_syntax, expand_atom, expand_expr, expand_syntax, AtomicToken, ColorSyntax,
ExpandContext, ExpandExpression, ExpandSyntax, ExpansionRule, MaybeSpaceShape,
UnspannedAtomicToken,
},
hir::Expression,
hir::syntax_shape::{ExpandSyntax, FlatShape, MaybeSpaceShape},
TokensIterator,
};
use derive_new::new;
use nu_errors::ParseError;
use nu_protocol::SpannedTypeName;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebug, Span, Spanned, SpannedItem};
#[derive(Debug, Clone)]
#[derive(Debug, Eq, PartialEq, Clone, new)]
pub struct ExternalTokensSyntax {
pub tokens: Spanned<Vec<Spanned<String>>>,
}
@ -40,57 +37,25 @@ impl ExpandSyntax for ExternalTokensShape {
type Output = ExternalTokensSyntax;
fn name(&self) -> &'static str {
"external command"
"external tokens"
}
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ParseError> {
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> ExternalTokensSyntax {
let mut out: Vec<Spanned<String>> = vec![];
let start = token_nodes.span_at_cursor();
loop {
match expand_syntax(&ExternalExpressionShape, token_nodes, context) {
Err(_) | Ok(None) => break,
Ok(Some(span)) => out.push(span.spanned_string(context.source())),
match token_nodes.expand_syntax(ExternalExpressionShape) {
Err(_) => break,
Ok(span) => out.push(span.spanned_string(&token_nodes.source())),
}
}
let end = token_nodes.span_at_cursor();
Ok(ExternalTokensSyntax {
ExternalTokensSyntax {
tokens: out.spanned(start.until(end)),
})
}
}
impl ColorSyntax for ExternalTokensShape {
type Info = ();
type Input = ();
fn name(&self) -> &'static str {
"ExternalTokensShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Self::Info {
loop {
// Allow a space
color_syntax(&MaybeSpaceShape, token_nodes, context);
// Process an external expression. External expressions are mostly words, with a
// few exceptions (like $variables and path expansion rules)
match color_syntax(&ExternalExpressionShape, token_nodes, context).1 {
ExternalExpressionResult::Eof => break,
ExternalExpressionResult::Processed => continue,
}
}
}
}
@ -99,208 +64,112 @@ impl ColorSyntax for ExternalTokensShape {
pub struct ExternalExpressionShape;
impl ExpandSyntax for ExternalExpressionShape {
type Output = Option<Span>;
type Output = Result<Span, ParseError>;
fn name(&self) -> &'static str {
"external expression"
}
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ParseError> {
expand_syntax(&MaybeSpaceShape, token_nodes, context)?;
let first = expand_atom(
token_nodes,
"external command",
context,
ExpansionRule::new().allow_external_word(),
)?
.span;
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Result<Span, ParseError> {
token_nodes.expand_infallible(MaybeSpaceShape);
let first = token_nodes.expand_syntax(ExternalStartToken)?;
let mut last = first;
loop {
let continuation = expand_expr(&ExternalContinuationShape, token_nodes, context);
let continuation = token_nodes.expand_syntax(ExternalStartToken);
if let Ok(continuation) = continuation {
last = continuation.span;
last = continuation;
} else {
break;
}
}
Ok(Some(first.until(last)))
Ok(first.until(last))
}
}
#[derive(Debug, Copy, Clone)]
struct ExternalHeadShape;
struct ExternalStartToken;
impl ExpandSyntax for ExternalStartToken {
type Output = Result<Span, ParseError>;
impl ExpandExpression for ExternalHeadShape {
fn name(&self) -> &'static str {
"external argument"
"external start token"
}
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Result<Span, ParseError> {
token_nodes.atomic_parse(|token_nodes| {
let mut span: Option<Span> = None;
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Expression, ParseError> {
let atom = expand_atom(
token_nodes,
"external argument",
context,
ExpansionRule::new()
.allow_external_word()
.treat_size_as_word(),
)?;
loop {
let boundary = token_nodes.expand_infallible(PeekExternalBoundary);
let span = atom.span;
if boundary {
break;
}
Ok(match &atom.unspanned {
UnspannedAtomicToken::Eof { .. } => unreachable!("ExpansionRule doesn't allow EOF"),
UnspannedAtomicToken::Error { .. } => unreachable!("ExpansionRule doesn't allow Error"),
UnspannedAtomicToken::Size { .. } => unreachable!("ExpansionRule treats size as word"),
UnspannedAtomicToken::Whitespace { .. } => {
unreachable!("ExpansionRule doesn't allow Whitespace")
let peeked = token_nodes.peek().not_eof("external start token")?;
let node = peeked.node;
let new_span = match node.unspanned() {
Token::Comment(_)
| Token::Separator
| Token::Whitespace
| Token::Pipeline(_) => {
return Err(ParseError::mismatch(
"external start token",
node.spanned_type_name(),
))
}
_ => {
let node = peeked.commit();
node.span()
}
};
span = match span {
None => Some(new_span),
Some(before) => Some(before.until(new_span)),
};
}
UnspannedAtomicToken::Separator { .. } => {
unreachable!("ExpansionRule doesn't allow Separator")
}
UnspannedAtomicToken::Comment { .. } => {
unreachable!("ExpansionRule doesn't allow Comment")
}
UnspannedAtomicToken::ShorthandFlag { .. }
| UnspannedAtomicToken::SquareDelimited { .. }
| UnspannedAtomicToken::RoundDelimited { .. } => {
return Err(ParseError::mismatch(
"external command name",
atom.spanned_type_name(),
))
}
UnspannedAtomicToken::ExternalCommand { command } => {
Expression::external_command(*command, span)
}
UnspannedAtomicToken::Number { number } => {
Expression::number(number.to_number(context.source()), span)
}
UnspannedAtomicToken::String { body } => Expression::string(*body, span),
UnspannedAtomicToken::ItVariable { name } => Expression::it_variable(*name, span),
UnspannedAtomicToken::Variable { name } => Expression::variable(*name, span),
UnspannedAtomicToken::ExternalWord { .. }
| UnspannedAtomicToken::GlobPattern { .. }
| UnspannedAtomicToken::Word { .. }
| UnspannedAtomicToken::Dot { .. }
| UnspannedAtomicToken::DotDot { .. }
| UnspannedAtomicToken::CompareOperator { .. } => {
Expression::external_command(span, span)
match span {
None => Err(token_nodes.err_next_token("external start token")),
Some(span) => {
token_nodes.color_shape(FlatShape::ExternalWord.spanned(span));
Ok(span)
}
}
})
}
}
#[derive(Debug, Copy, Clone)]
struct ExternalContinuationShape;
struct PeekExternalBoundary;
impl ExpandExpression for ExternalContinuationShape {
fn name(&self) -> &'static str {
"external argument"
}
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Expression, ParseError> {
let atom = expand_atom(
token_nodes,
"external argument",
context,
ExpansionRule::new()
.allow_external_word()
.treat_size_as_word(),
)?;
let span = atom.span;
Ok(match &atom.unspanned {
UnspannedAtomicToken::Eof { .. } => unreachable!("ExpansionRule doesn't allow EOF"),
UnspannedAtomicToken::Error { .. } => unreachable!("ExpansionRule doesn't allow Error"),
UnspannedAtomicToken::Number { number } => {
Expression::number(number.to_number(context.source()), span)
}
UnspannedAtomicToken::Size { .. } => unreachable!("ExpansionRule treats size as word"),
UnspannedAtomicToken::ExternalCommand { .. } => {
unreachable!("ExpansionRule doesn't allow ExternalCommand")
}
UnspannedAtomicToken::Whitespace { .. } => {
unreachable!("ExpansionRule doesn't allow Whitespace")
}
UnspannedAtomicToken::Separator { .. } => {
unreachable!("ExpansionRule doesn't allow Separator")
}
UnspannedAtomicToken::Comment { .. } => {
unreachable!("ExpansionRule doesn't allow Comment")
}
UnspannedAtomicToken::String { body } => Expression::string(*body, span),
UnspannedAtomicToken::ItVariable { name } => Expression::it_variable(*name, span),
UnspannedAtomicToken::Variable { name } => Expression::variable(*name, span),
UnspannedAtomicToken::ExternalWord { .. }
| UnspannedAtomicToken::GlobPattern { .. }
| UnspannedAtomicToken::Word { .. }
| UnspannedAtomicToken::ShorthandFlag { .. }
| UnspannedAtomicToken::Dot { .. }
| UnspannedAtomicToken::DotDot { .. }
| UnspannedAtomicToken::CompareOperator { .. } => Expression::bare(span),
UnspannedAtomicToken::SquareDelimited { .. }
| UnspannedAtomicToken::RoundDelimited { .. } => {
return Err(ParseError::mismatch(
"external argument",
atom.spanned_type_name(),
))
}
})
}
}
impl ColorSyntax for ExternalExpressionShape {
type Info = ExternalExpressionResult;
type Input = ();
impl ExpandSyntax for PeekExternalBoundary {
type Output = bool;
fn name(&self) -> &'static str {
"ExternalExpressionShape"
"external boundary"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> ExternalExpressionResult {
let atom = match expand_atom(
token_nodes,
"external word",
context,
ExpansionRule::permissive(),
) {
Err(_) => unreachable!("TODO: separate infallible expand_atom"),
Ok(AtomicToken {
unspanned: UnspannedAtomicToken::Eof { .. },
..
}) => return ExternalExpressionResult::Eof,
Ok(atom) => atom,
};
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Self::Output {
let next = token_nodes.peek();
token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes));
ExternalExpressionResult::Processed
match next.node {
None => true,
Some(node) => match node.unspanned() {
Token::Delimited(_) => true,
Token::Whitespace => true,
Token::Comment(_) => true,
Token::Separator => true,
Token::Call(_) => true,
_ => false,
},
}
}
}
#[must_use]
pub enum ExternalExpressionResult {
Eof,
Processed,
}

View File

@ -1,8 +1,8 @@
use crate::hir::Expression;
use crate::hir::SpannedExpression;
use crate::Flag;
use indexmap::IndexMap;
use log::trace;
use nu_source::{b, DebugDocBuilder, PrettyDebugWithSource, Tag};
use nu_source::{b, DebugDocBuilder, PrettyDebugRefineKind, PrettyDebugWithSource, Tag};
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Eq, PartialEq, Serialize, Deserialize)]
@ -10,7 +10,7 @@ pub enum NamedValue {
AbsentSwitch,
PresentSwitch(Tag),
AbsentValue,
Value(Expression),
Value(SpannedExpression),
}
impl PrettyDebugWithSource for NamedValue {
@ -22,6 +22,18 @@ impl PrettyDebugWithSource for NamedValue {
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, Default, Clone, Eq, PartialEq, Serialize, Deserialize)]
@ -60,28 +72,37 @@ impl NamedArguments {
};
}
pub fn insert_optional(&mut self, name: impl Into<String>, expr: Option<Expression>) {
pub fn insert_optional(&mut self, name: impl Into<String>, expr: Option<SpannedExpression>) {
match expr {
None => self.named.insert(name.into(), NamedValue::AbsentValue),
Some(expr) => self.named.insert(name.into(), NamedValue::Value(expr)),
};
}
pub fn insert_mandatory(&mut self, name: impl Into<String>, expr: Expression) {
pub fn insert_mandatory(&mut self, name: impl Into<String>, expr: SpannedExpression) {
self.named.insert(name.into(), NamedValue::Value(expr));
}
}
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(
"(",
b::intersperse(
self.named
.iter()
.map(|(key, value)| b::key(key) + b::equals() + value.pretty_debug(source)),
b::space(),
),
self.refined_pretty_debug(PrettyDebugRefineKind::WithContext, source),
")",
)
}

View File

@ -1,4 +1,4 @@
use crate::hir::Expression;
use crate::hir::SpannedExpression;
use derive_new::new;
use getset::{Getters, MutGetters};
use nu_protocol::PathMember;
@ -21,7 +21,7 @@ use serde::{Deserialize, Serialize};
)]
#[get = "pub"]
pub struct Path {
head: Expression,
head: SpannedExpression,
#[get_mut = "pub(crate)"]
tail: Vec<PathMember>,
}
@ -35,7 +35,7 @@ impl PrettyDebugWithSource for Path {
}
impl Path {
pub(crate) fn parts(self) -> (Expression, Vec<PathMember>) {
pub(crate) fn parts(self) -> (SpannedExpression, Vec<PathMember>) {
(self.head, self.tail)
}
}

View File

@ -1,4 +1,4 @@
use crate::hir::Expression;
use crate::hir::SpannedExpression;
use derive_new::new;
use getset::Getters;
@ -10,11 +10,11 @@ use serde::{Deserialize, Serialize};
)]
pub struct Range {
#[get = "pub"]
left: Expression,
left: SpannedExpression,
#[get = "pub"]
dotdot: Span,
#[get = "pub"]
right: Expression,
right: SpannedExpression,
}
impl PrettyDebugWithSource for Range {

File diff suppressed because it is too large Load Diff

View File

@ -1,141 +1,82 @@
use crate::hir::Expression;
use crate::{
hir,
hir::syntax_shape::{
color_fallible_syntax, color_syntax_with, continue_expression, expand_expr, expand_syntax,
DelimitedShape, ExpandContext, ExpandExpression, ExpressionContinuationShape,
ExpressionListShape, FallibleColorSyntax, MemberShape, PathTailShape, PathTailSyntax,
ExpandSyntax, ExpressionContinuationShape, MemberShape, PathTailShape, PathTailSyntax,
VariablePathShape,
},
hir::tokens_iterator::TokensIterator,
parse::token_tree::Delimiter,
};
use nu_errors::{ParseError, ShellError};
use hir::SpannedExpression;
use nu_errors::ParseError;
use nu_source::Span;
#[derive(Debug, Copy, Clone)]
pub struct AnyBlockShape;
pub struct CoerceBlockShape;
impl FallibleColorSyntax for AnyBlockShape {
type Info = ();
type Input = ();
impl ExpandSyntax for CoerceBlockShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"AnyBlockShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let block = token_nodes.peek_non_ws().not_eof("block");
let block = match block {
Err(_) => return Ok(()),
Ok(block) => block,
};
// is it just a block?
let block = block.node.as_block();
if let Some((children, spans)) = block {
token_nodes.child(children, context.source.clone(), |token_nodes| {
color_syntax_with(
&DelimitedShape,
&(Delimiter::Brace, spans.0, spans.1),
token_nodes,
context,
);
});
return Ok(());
}
// Otherwise, look for a shorthand block. If none found, fail
color_fallible_syntax(&ShorthandBlock, token_nodes, context)
}
}
impl ExpandExpression for AnyBlockShape {
fn name(&self) -> &'static str {
"any block"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let block = token_nodes.peek_non_ws().not_eof("block")?;
) -> Result<SpannedExpression, ParseError> {
// is it just a block?
let block = block.node.as_block();
if let Some((block, _tags)) = block {
let mut iterator =
TokensIterator::new(&block.item, block.span, context.source.clone(), false);
let exprs = expand_syntax(&ExpressionListShape, &mut iterator, context)?.exprs;
return Ok(hir::RawExpression::Block(exprs.item).into_expr(block.span));
}
expand_syntax(&ShorthandBlock, token_nodes, context)
token_nodes
.expand_syntax(BlockShape)
.or_else(|_| token_nodes.expand_syntax(ShorthandBlockShape))
}
}
#[derive(Debug, Copy, Clone)]
pub struct ShorthandBlock;
pub struct BlockShape;
impl FallibleColorSyntax for ShorthandBlock {
type Info = ();
type Input = ();
impl ExpandSyntax for BlockShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"ShorthandBlock"
"block"
}
fn color_syntax<'a, 'b>(
fn expand<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
// Try to find a shorthand head. If none found, fail
color_fallible_syntax(&ShorthandPath, token_nodes, context)?;
) -> Result<SpannedExpression, ParseError> {
let exprs = token_nodes.block()?;
loop {
// Check to see whether there's any continuation after the head expression
let result = color_fallible_syntax(&ExpressionContinuationShape, token_nodes, context);
match result {
// if no continuation was found, we're done
Err(_) => break,
// if a continuation was found, look for another one
Ok(_) => continue,
}
}
Ok(())
Ok(hir::Expression::Block(exprs.item).into_expr(exprs.span))
}
}
impl ExpandExpression for ShorthandBlock {
#[derive(Debug, Copy, Clone)]
pub struct ShorthandBlockShape;
impl ExpandSyntax for ShorthandBlockShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"shorthand block"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let path = expand_expr(&ShorthandPath, token_nodes, context)?;
let start = path.span;
let expr = continue_expression(path, token_nodes, context);
let end = expr.span;
let block = hir::RawExpression::Block(vec![expr]).into_expr(start.until(end));
) -> Result<SpannedExpression, ParseError> {
let mut current = token_nodes.expand_syntax(ShorthandPath)?;
loop {
match token_nodes.expand_syntax(ExpressionContinuationShape) {
Result::Err(_) => break,
Result::Ok(continuation) => current = continuation.append_to(current),
}
}
let span = current.span;
let block = hir::Expression::Block(vec![current]).into_expr(span);
Ok(block)
}
@ -145,74 +86,40 @@ impl ExpandExpression for ShorthandBlock {
#[derive(Debug, Copy, Clone)]
pub struct ShorthandPath;
impl FallibleColorSyntax for ShorthandPath {
type Info = ();
type Input = ();
impl ExpandSyntax for ShorthandPath {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"ShorthandPath"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
token_nodes.atomic(|token_nodes| {
let variable = color_fallible_syntax(&VariablePathShape, token_nodes, context);
if variable.is_ok() {
// if it's a variable path, that's the head part
return Ok(());
}
// otherwise, we'll try to find a member path
// look for a member (`<member>` -> `$it.<member>`)
color_fallible_syntax(&MemberShape, token_nodes, context)?;
// Now that we've synthesized the head, of the path, proceed to expand the tail of the path
// like any other path.
// It's ok if there's no path tail; a single member is sufficient
let _ = color_fallible_syntax(&PathTailShape, token_nodes, context);
Ok(())
})
}
}
impl ExpandExpression for ShorthandPath {
fn name(&self) -> &'static str {
"shorthand path"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
) -> Result<SpannedExpression, ParseError> {
// if it's a variable path, that's the head part
let path = expand_expr(&VariablePathShape, token_nodes, context);
let path = token_nodes.expand_syntax(VariablePathShape);
if let Ok(path) = path {
return Ok(path);
}
// Synthesize the head of the shorthand path (`<member>` -> `$it.<member>`)
let mut head = expand_expr(&ShorthandHeadShape, token_nodes, context)?;
let mut head = token_nodes.expand_syntax(ShorthandHeadShape)?;
// Now that we've synthesized the head, of the path, proceed to expand the tail of the path
// like any other path.
let tail = expand_syntax(&PathTailShape, token_nodes, context);
let tail = token_nodes.expand_syntax(PathTailShape);
match tail {
Err(_) => Ok(head),
Ok(PathTailSyntax { tail, .. }) => {
Ok(PathTailSyntax { tail, span }) => {
let span = head.span.until(span);
// For each member that `PathTailShape` expanded, join it onto the existing expression
// to form a new path
for member in tail {
head = hir::Expression::dot_member(head, member);
head = Expression::dot_member(head, member).into_expr(span);
}
Ok(head)
@ -225,27 +132,28 @@ impl ExpandExpression for ShorthandPath {
#[derive(Debug, Copy, Clone)]
pub struct ShorthandHeadShape;
impl ExpandExpression for ShorthandHeadShape {
impl ExpandSyntax for ShorthandHeadShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"shorthand head"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let head = expand_syntax(&MemberShape, token_nodes, context)?;
let head = head.to_path_member(context.source);
) -> Result<SpannedExpression, ParseError> {
let head = token_nodes.expand_syntax(MemberShape)?;
let head = head.to_path_member(&token_nodes.source());
// Synthesize an `$it` expression
let it = synthetic_it();
let span = head.span;
Ok(hir::Expression::path(it, vec![head], span))
Ok(Expression::path(it, vec![head]).into_expr(span))
}
}
fn synthetic_it() -> hir::Expression {
hir::Expression::it_variable(Span::unknown(), Span::unknown())
fn synthetic_it() -> hir::SpannedExpression {
Expression::it_variable(Span::unknown()).into_expr(Span::unknown())
}

View File

@ -0,0 +1,72 @@
# Meaningful Primitive Tokens
- `int`
- `decimal`
- `op::name`
- `dot`
- `dotdot`
- `string`
- `var::it`
- `var::other`
- `external-command`
- `pattern::glob`
- `word`
- `comment`
- `whitespace`
- `separator`
- `longhand-flag`
- `shorthand-flag`
# Grouped Tokens
- `(call head ...tail)`
- `(list ...nodes)`
- `(paren ...nodes)`
- `(square ...nodes)`
- `(curly ...nodes)`
- `(pipeline ...elements) where elements: pipeline-element`
- `(pipeline-element pipe? token)`
# Atomic Tokens
- `(unit number unit) where number: number, unit: unit`
# Expression
```
start(ExpressionStart) continuation(ExpressionContinuation)* ->
```
## ExpressionStart
```
word -> String
unit -> Unit
number -> Number
string -> String
var::it -> Var::It
var::other -> Var::Other
pattern::glob -> Pattern::Glob
square -> Array
```
## TightExpressionContinuation
```
dot AnyExpression -> Member
dodot AnyExpression -> RangeContinuation
```
## InfixExpressionContinuation
```
whitespace op whitespace AnyExpression -> InfixContinuation
```
## Member
```
int -> Member::Int
word -> Member::Word
string -> Member::String
```

View File

@ -1,4 +1,3 @@
pub(crate) mod atom;
pub(crate) mod delimited;
pub(crate) mod file_path;
pub(crate) mod list;
@ -10,311 +9,64 @@ pub(crate) mod unit;
pub(crate) mod variable_path;
use crate::hir::syntax_shape::{
color_delimited_square, color_fallible_syntax, color_fallible_syntax_with, expand_atom,
expand_delimited_square, expand_expr, expand_syntax, BareShape, ColorableDotShape, DotShape,
ExpandContext, ExpandExpression, ExpandSyntax, ExpansionRule, ExpressionContinuation,
ExpressionContinuationShape, FallibleColorSyntax, FlatShape, UnspannedAtomicToken,
BareExpressionShape, DelimitedSquareShape, ExpandContext, ExpandSyntax,
ExpressionContinuationShape, NumberExpressionShape, PatternExpressionShape,
StringExpressionShape, UnitExpressionShape, VariableShape,
};
use crate::{
hir,
hir::{Expression, TokensIterator},
};
use nu_errors::{ParseError, ShellError};
use nu_source::{HasSpan, Span, Spanned, SpannedItem, Tag};
use crate::hir::{SpannedExpression, TokensIterator};
use nu_errors::ParseError;
use std::path::PathBuf;
#[derive(Debug, Copy, Clone)]
pub struct AnyExpressionShape;
impl ExpandExpression for AnyExpressionShape {
impl ExpandSyntax for AnyExpressionShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"any expression"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
// Look for an expression at the cursor
let head = expand_expr(&AnyExpressionStartShape, token_nodes, context)?;
) -> Result<SpannedExpression, ParseError> {
token_nodes.atomic_parse(|token_nodes| {
// Look for an atomic expression at the cursor
let mut current = token_nodes.expand_syntax(AnyExpressionStartShape)?;
Ok(continue_expression(head, token_nodes, context))
}
}
impl FallibleColorSyntax for AnyExpressionShape {
type Info = ();
type Input = ();
fn name(&self) -> &'static str {
"AnyExpressionShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
// Look for an expression at the cursor
color_fallible_syntax(&AnyExpressionStartShape, token_nodes, context)?;
match continue_coloring_expression(token_nodes, context) {
Err(_) => {
// it's fine for there to be no continuation
loop {
match token_nodes.expand_syntax(ExpressionContinuationShape) {
Err(_) => return Ok(current),
Ok(continuation) => current = continuation.append_to(current),
}
}
Ok(()) => {}
}
Ok(())
}
}
pub(crate) fn continue_expression(
mut head: hir::Expression,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> hir::Expression {
loop {
// Check to see whether there's any continuation after the head expression
let continuation = expand_syntax(&ExpressionContinuationShape, token_nodes, context);
match continuation {
// If there's no continuation, return the head
Err(_) => return head,
// Otherwise, form a new expression by combining the head with the continuation
Ok(continuation) => match continuation {
// If the continuation is a `.member`, form a path with the new member
ExpressionContinuation::DotSuffix(_dot, member) => {
head = Expression::dot_member(head, member);
}
// Otherwise, if the continuation is an infix suffix, form an infix expression
ExpressionContinuation::InfixSuffix(op, expr) => {
head = Expression::infix(head, op, expr);
}
},
}
}
}
pub(crate) fn continue_coloring_expression(
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<(), ShellError> {
// if there's not even one expression continuation, fail
color_fallible_syntax(&ExpressionContinuationShape, token_nodes, context)?;
loop {
// Check to see whether there's any continuation after the head expression
let result = color_fallible_syntax(&ExpressionContinuationShape, token_nodes, context);
if result.is_err() {
// We already saw one continuation, so just return
return Ok(());
}
})
}
}
#[derive(Debug, Copy, Clone)]
pub struct AnyExpressionStartShape;
impl ExpandExpression for AnyExpressionStartShape {
impl ExpandSyntax for AnyExpressionStartShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"any expression start"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let atom = expand_atom(token_nodes, "expression", context, ExpansionRule::new())?;
match atom.unspanned {
UnspannedAtomicToken::Size { number, unit } => Ok(hir::Expression::size(
number.to_number(context.source),
unit.item,
Tag {
span: atom.span,
anchor: None,
},
)),
UnspannedAtomicToken::SquareDelimited { nodes, .. } => {
expand_delimited_square(&nodes, atom.span, context)
}
UnspannedAtomicToken::Word { .. } => {
let end = expand_syntax(&BareTailShape, token_nodes, context)?;
Ok(hir::Expression::bare(atom.span.until_option(end)))
}
other => other
.into_atomic_token(atom.span)
.to_hir(context, "expression"),
}
}
}
impl FallibleColorSyntax for AnyExpressionStartShape {
type Info = ();
type Input = ();
fn name(&self) -> &'static str {
"AnyExpressionStartShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let atom = token_nodes.spanned(|token_nodes| {
expand_atom(
token_nodes,
"expression",
context,
ExpansionRule::permissive(),
)
});
let atom = match atom {
Spanned {
item: Err(_err),
span,
} => {
token_nodes.color_shape(FlatShape::Error.spanned(span));
return Ok(());
}
Spanned {
item: Ok(value), ..
} => value,
};
match atom.unspanned {
UnspannedAtomicToken::Size { number, unit } => token_nodes.color_shape(
FlatShape::Size {
number: number.span(),
unit: unit.span,
}
.spanned(atom.span),
),
UnspannedAtomicToken::SquareDelimited { nodes, spans } => {
token_nodes.child(
(&nodes[..]).spanned(atom.span),
context.source.clone(),
|tokens| {
color_delimited_square(spans, tokens, atom.span, context);
},
);
}
UnspannedAtomicToken::Word { .. } | UnspannedAtomicToken::Dot { .. } => {
token_nodes.color_shape(FlatShape::Word.spanned(atom.span));
}
_ => token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes)),
}
Ok(())
}
}
#[derive(Debug, Copy, Clone)]
pub struct BareTailShape;
impl FallibleColorSyntax for BareTailShape {
type Info = ();
type Input = ();
fn name(&self) -> &'static str {
"BareTailShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let len = token_nodes.state().shapes().len();
loop {
let word =
color_fallible_syntax_with(&BareShape, &FlatShape::Word, token_nodes, context);
if word.is_ok() {
// if a word was found, continue
continue;
}
// if a word wasn't found, try to find a dot
// try to find a dot
let dot = color_fallible_syntax_with(
&ColorableDotShape,
&FlatShape::Word,
token_nodes,
context,
);
match dot {
// if a dot was found, try to find another word
Ok(_) => continue,
// otherwise, we're done
Err(_) => break,
}
}
if token_nodes.state().shapes().len() > len {
Ok(())
} else {
Err(ShellError::syntax_error(
"No tokens matched BareTailShape".spanned_unknown(),
))
}
}
}
impl ExpandSyntax for BareTailShape {
fn name(&self) -> &'static str {
"word continuation"
}
type Output = Option<Span>;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Option<Span>, ParseError> {
let mut end: Option<Span> = None;
loop {
match expand_syntax(&BareShape, token_nodes, context) {
Ok(bare) => {
end = Some(bare.span);
continue;
}
Err(_) => match expand_syntax(&DotShape, token_nodes, context) {
Ok(dot) => {
end = Some(dot);
continue;
}
Err(_) => break,
},
}
}
Ok(end)
) -> Result<SpannedExpression, ParseError> {
token_nodes
.expand_syntax(VariableShape)
.or_else(|_| token_nodes.expand_syntax(UnitExpressionShape))
.or_else(|_| token_nodes.expand_syntax(BareExpressionShape))
.or_else(|_| token_nodes.expand_syntax(PatternExpressionShape))
.or_else(|_| token_nodes.expand_syntax(NumberExpressionShape))
.or_else(|_| token_nodes.expand_syntax(StringExpressionShape))
.or_else(|_| token_nodes.expand_syntax(DelimitedSquareShape))
}
}

View File

@ -1,55 +1,24 @@
use crate::hir::syntax_shape::{
color_syntax, expand_syntax, ColorSyntax, ExpandContext, ExpressionListShape, TokenNode,
};
use crate::{hir, hir::TokensIterator, Delimiter, FlatShape};
use crate::hir::syntax_shape::ExpandSyntax;
use crate::hir::SpannedExpression;
use crate::{hir, hir::TokensIterator};
use nu_errors::ParseError;
use nu_source::{Span, SpannedItem, Tag};
pub fn expand_delimited_square(
children: &[TokenNode],
span: Span,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let mut tokens = TokensIterator::new(&children, span, context.source.clone(), false);
let list = expand_syntax(&ExpressionListShape, &mut tokens, context);
Ok(hir::Expression::list(
list?.exprs.item,
Tag { span, anchor: None },
))
}
pub fn color_delimited_square(
(open, close): (Span, Span),
token_nodes: &mut TokensIterator,
_span: Span,
context: &ExpandContext,
) {
token_nodes.color_shape(FlatShape::OpenDelimiter(Delimiter::Square).spanned(open));
let _list = color_syntax(&ExpressionListShape, token_nodes, context);
token_nodes.color_shape(FlatShape::CloseDelimiter(Delimiter::Square).spanned(close));
}
#[derive(Debug, Copy, Clone)]
pub struct DelimitedShape;
pub struct DelimitedSquareShape;
impl ColorSyntax for DelimitedShape {
type Info = ();
type Input = (Delimiter, Span, Span);
impl ExpandSyntax for DelimitedSquareShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"DelimitedShape"
"delimited square"
}
fn color_syntax<'a, 'b>(
fn expand<'a, 'b>(
&self,
(delimiter, open, close): &(Delimiter, Span, Span),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Self::Info {
token_nodes.color_shape(FlatShape::OpenDelimiter(*delimiter).spanned(*open));
color_syntax(&ExpressionListShape, token_nodes, context);
token_nodes.color_shape(FlatShape::CloseDelimiter(*delimiter).spanned(*close));
) -> Result<SpannedExpression, ParseError> {
let exprs = token_nodes.square()?;
Ok(hir::Expression::list(exprs.item).into_expr(exprs.span))
}
}

View File

@ -1,88 +1,62 @@
use crate::hir::syntax_shape::expression::atom::{
expand_atom, ExpansionRule, UnspannedAtomicToken,
};
use crate::hir::syntax_shape::{
expression::expand_file_path, ExpandContext, ExpandExpression, FallibleColorSyntax, FlatShape,
expression::expand_file_path, BarePathShape, DecimalShape, ExpandContext, ExpandSyntax,
FlatShape, IntShape, StringShape,
};
use crate::{hir, hir::TokensIterator};
use nu_errors::{ParseError, ShellError};
use nu_source::SpannedItem;
use crate::hir::{Expression, SpannedExpression, TokensIterator};
use crate::parse::token_tree::ExternalWordType;
use nu_errors::ParseError;
use nu_source::{HasSpan, Span};
#[derive(Debug, Copy, Clone)]
pub struct FilePathShape;
impl FallibleColorSyntax for FilePathShape {
type Info = ();
type Input = ();
impl ExpandSyntax for FilePathShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"FilePathShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let atom = expand_atom(
token_nodes,
"file path",
context,
ExpansionRule::permissive(),
);
let atom = match atom {
Err(_) => return Ok(()),
Ok(atom) => atom,
};
match atom.unspanned {
UnspannedAtomicToken::Word { .. }
| UnspannedAtomicToken::String { .. }
| UnspannedAtomicToken::Number { .. }
| UnspannedAtomicToken::Size { .. } => {
token_nodes.color_shape(FlatShape::Path.spanned(atom.span));
}
_ => token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes)),
}
Ok(())
}
}
impl ExpandExpression for FilePathShape {
fn name(&self) -> &'static str {
"file path"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let atom = expand_atom(
token_nodes,
"file path",
context,
ExpansionRule::new().allow_external_word(),
)?;
match atom.unspanned {
UnspannedAtomicToken::Word { text: body }
| UnspannedAtomicToken::ExternalWord { text: body }
| UnspannedAtomicToken::String { body } => {
let path = expand_file_path(body.slice(context.source), context);
Ok(hir::Expression::file_path(path, atom.span))
}
UnspannedAtomicToken::Number { .. } | UnspannedAtomicToken::Size { .. } => {
let path = atom.span.slice(context.source);
Ok(hir::Expression::file_path(path, atom.span))
}
_ => atom.to_hir(context, "file path"),
}
) -> Result<SpannedExpression, ParseError> {
token_nodes
.expand_syntax(BarePathShape)
.or_else(|_| token_nodes.expand_syntax(ExternalWordShape))
.map(|span| file_path(span, token_nodes.context()).into_expr(span))
.or_else(|_| {
token_nodes.expand_syntax(StringShape).map(|syntax| {
file_path(syntax.inner, token_nodes.context()).into_expr(syntax.span)
})
})
.or_else(|_| {
token_nodes
.expand_syntax(IntShape)
.or_else(|_| token_nodes.expand_syntax(DecimalShape))
.map(|number| {
file_path(number.span(), token_nodes.context()).into_expr(number.span())
})
})
.map_err(|_| token_nodes.err_next_token("file path"))
}
}
fn file_path(text: Span, context: &ExpandContext) -> Expression {
Expression::FilePath(expand_file_path(text.slice(context.source), context))
}
#[derive(Debug, Copy, Clone)]
pub struct ExternalWordShape;
impl ExpandSyntax for ExternalWordShape {
type Output = Result<Span, ParseError>;
fn name(&self) -> &'static str {
"external word"
}
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Result<Span, ParseError> {
token_nodes.expand_token(ExternalWordType, |span| Ok((FlatShape::ExternalWord, span)))
}
}

View File

@ -1,18 +1,15 @@
use crate::hir::syntax_shape::flat_shape::FlatShape;
use crate::{
hir,
hir::syntax_shape::{
color_fallible_syntax, color_syntax, expand_atom, expand_expr, maybe_spaced, spaced,
AnyExpressionShape, ColorSyntax, ExpandContext, ExpandSyntax, ExpansionRule,
MaybeSpaceShape, SpaceShape,
},
hir::syntax_shape::{AnyExpressionShape, ExpandSyntax, MaybeSpaceShape},
hir::TokensIterator,
};
use nu_errors::ParseError;
use derive_new::new;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Spanned, SpannedItem};
#[derive(Debug, Clone)]
pub struct ExpressionListSyntax {
pub exprs: Spanned<Vec<hir::Expression>>,
pub exprs: Spanned<Vec<hir::SpannedExpression>>,
}
impl HasSpan for ExpressionListSyntax {
@ -40,99 +37,60 @@ impl ExpandSyntax for ExpressionListShape {
"expression list"
}
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<ExpressionListSyntax, ParseError> {
let mut exprs = vec![];
let start = token_nodes.span_at_cursor();
if token_nodes.at_end_possible_ws() {
return Ok(ExpressionListSyntax {
exprs: exprs.spanned(start),
});
}
let expr = expand_expr(&maybe_spaced(AnyExpressionShape), token_nodes, context)?;
exprs.push(expr);
loop {
if token_nodes.at_end_possible_ws() {
let end = token_nodes.span_at_cursor();
return Ok(ExpressionListSyntax {
exprs: exprs.spanned(start.until(end)),
});
}
let expr = expand_expr(&spaced(AnyExpressionShape), token_nodes, context)?;
exprs.push(expr);
}
}
}
impl ColorSyntax for ExpressionListShape {
type Info = ();
type Input = ();
fn name(&self) -> &'static str {
"ExpressionListShape"
}
/// The intent of this method is to fully color an expression list shape infallibly.
/// This means that if we can't expand a token into an expression, we fall back to
/// a simpler coloring strategy.
///
/// This would apply to something like `where x >`, which includes an incomplete
/// binary operator. Since we will fail to process it as a binary operator, we'll
/// fall back to a simpler coloring and move on.
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) {
fn expand<'a, 'b>(&self, token_nodes: &mut TokensIterator<'_>) -> ExpressionListSyntax {
// We encountered a parsing error and will continue with simpler coloring ("backoff
// coloring mode")
let mut backoff = false;
// Consume any leading whitespace
color_syntax(&MaybeSpaceShape, token_nodes, context);
let mut exprs = vec![];
let start = token_nodes.span_at_cursor();
token_nodes.expand_infallible(MaybeSpaceShape);
if token_nodes.at_end() {
return ExpressionListSyntax {
exprs: exprs.spanned(start),
};
}
let expr = token_nodes.expand_syntax(AnyExpressionShape);
match expr {
Ok(expr) => exprs.push(expr),
Err(_) => backoff = true,
}
loop {
// If we reached the very end of the token stream, we're done
if token_nodes.at_end() {
return;
let end = token_nodes.span_at_cursor();
return ExpressionListSyntax {
exprs: exprs.spanned(start.until(end)),
};
}
if backoff {
let len = token_nodes.state().shapes().len();
// If we previously encountered a parsing error, use backoff coloring mode
color_syntax(&SimplestExpression, token_nodes, context);
token_nodes
.expand_infallible(SimplestExpression::new(vec!["expression".to_string()]));
if len == token_nodes.state().shapes().len() && !token_nodes.at_end() {
// This should never happen, but if it does, a panic is better than an infinite loop
panic!("Unexpected tokens left that couldn't be colored even with SimplestExpression")
}
} else {
// Try to color the head of the stream as an expression
if color_fallible_syntax(&AnyExpressionShape, token_nodes, context).is_err() {
// If no expression was found, switch to backoff coloring mode
let expr = token_nodes.atomic_parse(|token_nodes| {
token_nodes.expand_infallible(MaybeSpaceShape);
token_nodes.expand_syntax(AnyExpressionShape)
});
backoff = true;
continue;
}
// If an expression was found, consume a space
if color_fallible_syntax(&SpaceShape, token_nodes, context).is_err() {
// If no space was found, we're either at the end or there's an error.
// Either way, switch to backoff coloring mode. If we're at the end
// it won't have any consequences.
backoff = true;
match expr {
Ok(expr) => exprs.push(expr),
Err(_) => {
backoff = true;
}
}
// Otherwise, move on to the next expression
}
@ -141,69 +99,72 @@ impl ColorSyntax for ExpressionListShape {
}
/// BackoffColoringMode consumes all of the remaining tokens in an infallible way
#[derive(Debug, Copy, Clone)]
pub struct BackoffColoringMode;
#[derive(Debug, Clone, new)]
pub struct BackoffColoringMode {
allowed: Vec<String>,
}
impl ColorSyntax for BackoffColoringMode {
type Info = ();
type Input = ();
impl ExpandSyntax for BackoffColoringMode {
type Output = Option<Span>;
fn name(&self) -> &'static str {
"BackoffColoringMode"
}
fn color_syntax<'a, 'b>(
&self,
_input: &Self::Input,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Self::Info {
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Option<Span> {
loop {
if token_nodes.at_end() {
break;
}
let len = token_nodes.state().shapes().len();
color_syntax(&SimplestExpression, token_nodes, context);
token_nodes.expand_infallible(SimplestExpression::new(self.allowed.clone()));
if len == token_nodes.state().shapes().len() && !token_nodes.at_end() {
// This shouldn't happen, but if it does, a panic is better than an infinite loop
panic!("SimplestExpression failed to consume any tokens, but it's not at the end. This is unexpected\n== token nodes==\n{:#?}\n\n== shapes ==\n{:#?}", token_nodes, token_nodes.state().shapes());
}
}
None
}
}
/// The point of `SimplestExpression` is to serve as an infallible base case for coloring.
/// As a last ditch effort, if we can't find any way to parse the head of the stream as an
/// expression, fall back to simple coloring.
#[derive(Debug, Copy, Clone)]
pub struct SimplestExpression;
#[derive(Debug, Clone, new)]
pub struct SimplestExpression {
valid_shapes: Vec<String>,
}
impl ColorSyntax for SimplestExpression {
type Info = ();
type Input = ();
impl ExpandSyntax for SimplestExpression {
type Output = Span;
fn name(&self) -> &'static str {
"SimplestExpression"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) {
let atom = expand_atom(
token_nodes,
"any token",
context,
ExpansionRule::permissive(),
);
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Span {
if token_nodes.at_end() {
return Span::unknown();
}
match atom {
Err(_) => {}
Ok(atom) => token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes)),
let source = token_nodes.source();
let peeked = token_nodes.peek();
match peeked.not_eof("simplest expression") {
Err(_) => token_nodes.span_at_cursor(),
Ok(peeked) => {
let token = peeked.commit();
for shape in FlatShape::shapes(token, &source) {
token_nodes.color_err(shape, self.valid_shapes.clone())
}
token.span()
}
}
}
}

View File

@ -1,169 +1,109 @@
use crate::hir::syntax_shape::{
expand_atom, parse_single_node, ExpandContext, ExpandExpression, ExpansionRule,
FallibleColorSyntax, FlatShape, TestSyntax,
};
use crate::hir::tokens_iterator::Peeked;
use crate::parse::tokens::UnspannedToken;
use crate::{
hir,
hir::{RawNumber, TokensIterator},
};
use nu_errors::{ParseError, ShellError};
use nu_source::{Spanned, SpannedItem};
use crate::hir::syntax_shape::{ExpandSyntax, FlatShape};
use crate::hir::{Expression, SpannedExpression};
use crate::hir::{RawNumber, TokensIterator};
use crate::parse::token_tree::{DecimalType, IntType};
use nu_errors::ParseError;
use nu_source::HasSpan;
#[derive(Debug, Copy, Clone)]
pub struct NumberShape;
pub struct NumberExpressionShape;
impl ExpandSyntax for NumberExpressionShape {
type Output = Result<SpannedExpression, ParseError>;
impl ExpandExpression for NumberShape {
fn name(&self) -> &'static str {
"number"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
parse_single_node(token_nodes, "Number", |token, token_span, err| {
Ok(match token {
UnspannedToken::GlobPattern
| UnspannedToken::CompareOperator(..)
| UnspannedToken::EvaluationOperator(..) => return Err(err.error()),
UnspannedToken::Variable(tag) if tag.slice(context.source) == "it" => {
hir::Expression::it_variable(tag, token_span)
}
UnspannedToken::ExternalCommand(tag) => {
hir::Expression::external_command(tag, token_span)
}
UnspannedToken::ExternalWord => {
return Err(ParseError::mismatch(
"number",
"syntax error".spanned(token_span),
))
}
UnspannedToken::Variable(tag) => hir::Expression::variable(tag, token_span),
UnspannedToken::Number(number) => {
hir::Expression::number(number.to_number(context.source), token_span)
}
UnspannedToken::Bare => hir::Expression::bare(token_span),
UnspannedToken::String(tag) => hir::Expression::string(tag, token_span),
})
})
) -> Result<SpannedExpression, ParseError> {
let source = token_nodes.source();
token_nodes
.expand_syntax(NumberShape)
.map(|number| Expression::number(number.to_number(&source)).into_expr(number.span()))
}
}
impl FallibleColorSyntax for NumberShape {
type Info = ();
type Input = ();
#[derive(Debug, Copy, Clone)]
pub struct IntExpressionShape;
impl ExpandSyntax for IntExpressionShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"NumberShape"
"integer"
}
fn color_syntax<'a, 'b>(
fn expand<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let atom = token_nodes.spanned(|token_nodes| {
expand_atom(token_nodes, "number", context, ExpansionRule::permissive())
});
token_nodes: &mut TokensIterator<'_>,
) -> Result<SpannedExpression, ParseError> {
let source = token_nodes.source();
let atom = match atom {
Spanned { item: Err(_), span } => {
token_nodes.color_shape(FlatShape::Error.spanned(span));
return Ok(());
}
Spanned { item: Ok(atom), .. } => atom,
};
token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes));
Ok(())
token_nodes.expand_token(IntType, |number| {
Ok((
FlatShape::Int,
Expression::number(number.to_number(&source)),
))
})
}
}
#[derive(Debug, Copy, Clone)]
pub struct IntShape;
impl ExpandExpression for IntShape {
impl ExpandSyntax for IntShape {
type Output = Result<RawNumber, ParseError>;
fn name(&self) -> &'static str {
"integer"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
parse_single_node(token_nodes, "Integer", |token, token_span, err| {
Ok(match token {
UnspannedToken::GlobPattern
| UnspannedToken::CompareOperator(..)
| UnspannedToken::EvaluationOperator(..)
| UnspannedToken::ExternalWord => return Err(err.error()),
UnspannedToken::Variable(span) if span.slice(context.source) == "it" => {
hir::Expression::it_variable(span, token_span)
}
UnspannedToken::ExternalCommand(span) => {
hir::Expression::external_command(span, token_span)
}
UnspannedToken::Variable(span) => hir::Expression::variable(span, token_span),
UnspannedToken::Number(number @ RawNumber::Int(_)) => {
hir::Expression::number(number.to_number(context.source), token_span)
}
UnspannedToken::Number(_) => return Err(err.error()),
UnspannedToken::Bare => hir::Expression::bare(token_span),
UnspannedToken::String(span) => hir::Expression::string(span, token_span),
})
})
token_nodes: &'b mut TokensIterator<'a>,
) -> Result<RawNumber, ParseError> {
token_nodes.expand_token(IntType, |number| Ok((FlatShape::Int, number)))
}
}
impl FallibleColorSyntax for IntShape {
type Info = ();
type Input = ();
#[derive(Debug, Copy, Clone)]
pub struct DecimalShape;
impl ExpandSyntax for DecimalShape {
type Output = Result<RawNumber, ParseError>;
fn name(&self) -> &'static str {
"IntShape"
"decimal"
}
fn color_syntax<'a, 'b>(
fn expand<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let atom = token_nodes.spanned(|token_nodes| {
expand_atom(token_nodes, "integer", context, ExpansionRule::permissive())
});
let atom = match atom {
Spanned { item: Err(_), span } => {
token_nodes.color_shape(FlatShape::Error.spanned(span));
return Ok(());
}
Spanned { item: Ok(atom), .. } => atom,
};
token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes));
Ok(())
) -> Result<RawNumber, ParseError> {
token_nodes.expand_token(DecimalType, |number| Ok((FlatShape::Decimal, number)))
}
}
impl TestSyntax for NumberShape {
fn test<'a, 'b>(
#[derive(Debug, Copy, Clone)]
pub struct NumberShape;
impl ExpandSyntax for NumberShape {
type Output = Result<RawNumber, ParseError>;
fn name(&self) -> &'static str {
"decimal"
}
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
_context: &ExpandContext,
) -> Option<Peeked<'a, 'b>> {
let peeked = token_nodes.peek_any();
match peeked.node {
Some(token) if token.is_number() => Some(peeked),
_ => None,
}
) -> Result<RawNumber, ParseError> {
token_nodes
.expand_syntax(IntShape)
.or_else(|_| token_nodes.expand_syntax(DecimalShape))
}
}

View File

@ -1,77 +1,66 @@
use crate::hir::syntax_shape::{
expand_atom, expand_bare, expression::expand_file_path, ExpandContext, ExpandExpression,
ExpandSyntax, ExpansionRule, FallibleColorSyntax, FlatShape, UnspannedAtomicToken,
expand_bare, expression::expand_file_path, BarePathShape, ExpandContext, ExpandSyntax,
ExternalWordShape, StringShape,
};
use crate::hir::{Expression, SpannedExpression};
use crate::parse::operator::EvaluationOperator;
use crate::parse::tokens::{Token, UnspannedToken};
use crate::{hir, hir::TokensIterator, TokenNode};
use nu_errors::{ParseError, ShellError};
use nu_protocol::ShellTypeName;
use nu_source::{Span, SpannedItem};
use crate::{hir, hir::TokensIterator, Token};
use nu_errors::ParseError;
use nu_source::Span;
#[derive(Debug, Copy, Clone)]
pub struct PatternShape;
impl FallibleColorSyntax for PatternShape {
type Info = ();
type Input = ();
impl ExpandSyntax for PatternShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"PatternShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
token_nodes.atomic(|token_nodes| {
let atom = expand_atom(token_nodes, "pattern", context, ExpansionRule::permissive())?;
match &atom.unspanned {
UnspannedAtomicToken::GlobPattern { .. } | UnspannedAtomicToken::Word { .. } => {
token_nodes.color_shape(FlatShape::GlobPattern.spanned(atom.span));
Ok(())
}
other => Err(ShellError::type_error(
"pattern",
other.type_name().spanned(atom.span),
)),
}
})
}
}
impl ExpandExpression for PatternShape {
fn name(&self) -> &'static str {
"glob pattern"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
let atom = expand_atom(
token_nodes,
"pattern",
context,
ExpansionRule::new().allow_external_word(),
)?;
) -> Result<hir::SpannedExpression, ParseError> {
let (inner, outer) = token_nodes
.expand_syntax(BarePatternShape)
.or_else(|_| token_nodes.expand_syntax(BarePathShape))
.or_else(|_| token_nodes.expand_syntax(ExternalWordShape))
.map(|span| (span, span))
.or_else(|_| {
token_nodes
.expand_syntax(StringShape)
.map(|syntax| (syntax.inner, syntax.span))
})
.map_err(|_| token_nodes.err_next_token("glob pattern"))?;
match atom.unspanned {
UnspannedAtomicToken::Word { text: body }
| UnspannedAtomicToken::String { body }
| UnspannedAtomicToken::ExternalWord { text: body }
| UnspannedAtomicToken::GlobPattern { pattern: body } => {
let path = expand_file_path(body.slice(context.source), context);
Ok(hir::Expression::pattern(path.to_string_lossy(), atom.span))
}
_ => atom.to_hir(context, "pattern"),
}
Ok(file_pattern(inner, outer, token_nodes.context()))
}
}
fn file_pattern(body: Span, outer: Span, context: &ExpandContext) -> SpannedExpression {
let path = expand_file_path(body.slice(context.source), context);
Expression::pattern(path.to_string_lossy()).into_expr(outer)
}
#[derive(Debug, Copy, Clone)]
pub struct PatternExpressionShape;
impl ExpandSyntax for PatternExpressionShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"pattern"
}
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
) -> Result<SpannedExpression, ParseError> {
token_nodes.expand_syntax(BarePatternShape).map(|span| {
let path = expand_file_path(span.slice(&token_nodes.source()), token_nodes.context());
Expression::pattern(path.to_string_lossy()).into_expr(span)
})
}
}
@ -79,30 +68,17 @@ impl ExpandExpression for PatternShape {
pub struct BarePatternShape;
impl ExpandSyntax for BarePatternShape {
type Output = Span;
type Output = Result<Span, ParseError>;
fn name(&self) -> &'static str {
"bare pattern"
}
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Span, ParseError> {
expand_bare(token_nodes, context, |token| match token {
TokenNode::Token(Token {
unspanned: UnspannedToken::Bare,
..
})
| TokenNode::Token(Token {
unspanned: UnspannedToken::EvaluationOperator(EvaluationOperator::Dot),
..
})
| TokenNode::Token(Token {
unspanned: UnspannedToken::GlobPattern,
..
}) => true,
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Result<Span, ParseError> {
expand_bare(token_nodes, |token| match token.unspanned() {
Token::Bare
| Token::EvaluationOperator(EvaluationOperator::Dot)
| Token::GlobPattern => true,
_ => false,
})

View File

@ -1,103 +1,47 @@
use crate::hir::syntax_shape::expression::UnspannedAtomicToken;
use crate::hir::syntax_shape::{
color_fallible_syntax, expand_atom, expand_expr, AnyExpressionShape, ExpandContext,
ExpandExpression, ExpansionRule, FallibleColorSyntax, FlatShape,
};
use crate::parse::operator::EvaluationOperator;
use crate::parse::token_tree::TokenNode;
use crate::parse::tokens::{Token, UnspannedToken};
use crate::{hir, hir::TokensIterator};
use nu_errors::{ParseError, ShellError};
use nu_protocol::SpannedTypeName;
use nu_source::SpannedItem;
use crate::hir::syntax_shape::{AnyExpressionStartShape, ExpandSyntax, FlatShape};
use crate::hir::TokensIterator;
use crate::hir::{Expression, SpannedExpression};
use crate::parse::token_tree::DotDotType;
use nu_errors::ParseError;
use nu_source::{HasSpan, Span};
#[derive(Debug, Copy, Clone)]
pub struct RangeShape;
impl ExpandExpression for RangeShape {
impl ExpandSyntax for RangeShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"range"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
) -> Result<SpannedExpression, ParseError> {
token_nodes.atomic_parse(|token_nodes| {
let left = expand_expr(&AnyExpressionShape, token_nodes, context)?;
let left = token_nodes.expand_syntax(AnyExpressionStartShape)?;
let dotdot = token_nodes.expand_syntax(DotDotShape)?;
let right = token_nodes.expand_syntax(AnyExpressionStartShape)?;
let atom = expand_atom(
token_nodes,
"..",
context,
ExpansionRule::new().allow_eval_operator(),
)?;
let span = left.span.until(right.span);
let span = match atom.unspanned {
UnspannedAtomicToken::DotDot { text } => text,
_ => return Err(ParseError::mismatch("..", atom.spanned_type_name())),
};
let right = expand_expr(&AnyExpressionShape, token_nodes, context)?;
Ok(hir::Expression::range(left, span, right))
Ok(Expression::range(left, dotdot, right).into_expr(span))
})
}
}
impl FallibleColorSyntax for RangeShape {
type Info = ();
type Input = ();
fn name(&self) -> &'static str {
"RangeShape"
}
fn color_syntax<'a, 'b>(
&self,
_input: &(),
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
token_nodes.atomic_parse(|token_nodes| {
color_fallible_syntax(&AnyExpressionShape, token_nodes, context)?;
color_fallible_syntax(&DotDotShape, token_nodes, context)?;
color_fallible_syntax(&AnyExpressionShape, token_nodes, context)
})?;
Ok(())
}
}
#[derive(Debug, Copy, Clone)]
struct DotDotShape;
impl FallibleColorSyntax for DotDotShape {
type Info = ();
type Input = ();
impl ExpandSyntax for DotDotShape {
type Output = Result<Span, ParseError>;
fn name(&self) -> &'static str {
".."
"dotdot"
}
fn color_syntax<'a, 'b>(
&self,
_input: &Self::Input,
token_nodes: &'b mut TokensIterator<'a>,
_context: &ExpandContext,
) -> Result<Self::Info, ShellError> {
let peeked = token_nodes.peek_any().not_eof("..")?;
match &peeked.node {
TokenNode::Token(Token {
unspanned: UnspannedToken::EvaluationOperator(EvaluationOperator::DotDot),
span,
}) => {
peeked.commit();
token_nodes.color_shape(FlatShape::DotDot.spanned(span));
Ok(())
}
token => Err(ShellError::type_error("..", token.spanned_type_name())),
}
fn expand<'a, 'b>(&self, token_nodes: &'b mut TokensIterator<'a>) -> Result<Span, ParseError> {
token_nodes.expand_token(DotDotType, |token| Ok((FlatShape::DotDot, token.span())))
}
}

View File

@ -1,90 +1,103 @@
use crate::hir::syntax_shape::{
expand_atom, expand_variable, parse_single_node, AtomicToken, ExpandContext, ExpandExpression,
ExpansionRule, FallibleColorSyntax, FlatShape, TestSyntax, UnspannedAtomicToken,
};
use crate::hir::tokens_iterator::Peeked;
use crate::parse::tokens::UnspannedToken;
use crate::{hir, hir::TokensIterator};
use nu_errors::{ParseError, ShellError};
use nu_source::SpannedItem;
use crate::hir::syntax_shape::{ExpandSyntax, FlatShape, NumberShape, VariableShape};
use crate::hir::TokensIterator;
use crate::hir::{Expression, SpannedExpression};
use crate::parse::token_tree::{BareType, StringType};
use nu_errors::ParseError;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span};
#[derive(Debug, Copy, Clone)]
pub struct StringShape;
pub struct CoerceStringShape;
impl FallibleColorSyntax for StringShape {
type Info = ();
type Input = FlatShape;
impl ExpandSyntax for CoerceStringShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"StringShape"
}
fn color_syntax<'a, 'b>(
fn expand<'a, 'b>(
&self,
input: &FlatShape,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError> {
let atom = expand_atom(token_nodes, "string", context, ExpansionRule::permissive());
let atom = match atom {
Err(_) => return Ok(()),
Ok(atom) => atom,
};
match atom {
AtomicToken {
unspanned: UnspannedAtomicToken::String { .. },
span,
} => token_nodes.color_shape((*input).spanned(span)),
atom => token_nodes.mutate_shapes(|shapes| atom.color_tokens(shapes)),
}
Ok(())
) -> Result<SpannedExpression, ParseError> {
token_nodes
.expand_token(StringType, |(inner, outer)| {
Ok((
FlatShape::String,
Expression::string(inner).into_expr(outer),
))
})
.or_else(|_| {
token_nodes.expand_token(BareType, |span| {
Ok((FlatShape::String, Expression::string(span).into_expr(span)))
})
})
.or_else(|_| {
token_nodes
.expand_syntax(NumberShape)
.map(|number| Expression::string(number.span()).into_expr(number.span()))
})
}
}
impl ExpandExpression for StringShape {
#[derive(Debug, Copy, Clone)]
pub struct StringExpressionShape;
impl ExpandSyntax for StringExpressionShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"string"
}
fn expand_expr<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ParseError> {
parse_single_node(token_nodes, "String", |token, token_span, err| {
Ok(match token {
UnspannedToken::GlobPattern
| UnspannedToken::CompareOperator(..)
| UnspannedToken::EvaluationOperator(..)
| UnspannedToken::ExternalWord => return Err(err.error()),
UnspannedToken::Variable(span) => {
expand_variable(span, token_span, &context.source)
}
UnspannedToken::ExternalCommand(span) => {
hir::Expression::external_command(span, token_span)
}
UnspannedToken::Number(_) => hir::Expression::bare(token_span),
UnspannedToken::Bare => hir::Expression::bare(token_span),
UnspannedToken::String(span) => hir::Expression::string(span, token_span),
token_nodes: &'b mut TokensIterator<'a>,
) -> Result<SpannedExpression, ParseError> {
token_nodes.expand_syntax(VariableShape).or_else(|_| {
token_nodes.expand_token(StringType, |(inner, outer)| {
Ok((
FlatShape::String,
Expression::string(inner).into_expr(outer),
))
})
})
}
}
impl TestSyntax for StringShape {
fn test<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
_context: &ExpandContext,
) -> Option<Peeked<'a, 'b>> {
let peeked = token_nodes.peek_any();
#[derive(Debug, Copy, Clone)]
pub struct StringSyntax {
pub inner: Span,
pub span: Span,
}
match peeked.node {
Some(token) if token.is_string() => Some(peeked),
_ => None,
}
impl HasSpan for StringSyntax {
fn span(&self) -> Span {
self.span
}
}
impl PrettyDebugWithSource for StringSyntax {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
b::primitive(self.span.slice(source))
}
}
#[derive(Debug, Copy, Clone)]
pub struct StringShape;
impl ExpandSyntax for StringShape {
type Output = Result<StringSyntax, ParseError>;
fn name(&self) -> &'static str {
"string"
}
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
) -> Result<StringSyntax, ParseError> {
token_nodes.expand_token(StringType, |(inner, outer)| {
Ok((FlatShape::String, StringSyntax { inner, span: outer }))
})
}
}

View File

@ -1,16 +1,19 @@
use crate::hir::syntax_shape::{ExpandContext, ExpandSyntax};
use crate::parse::tokens::RawNumber;
use crate::parse::tokens::Token;
use crate::parse::tokens::UnspannedToken;
use crate::hir::syntax_shape::flat_shape::FlatShape;
use crate::hir::syntax_shape::ExpandSyntax;
use crate::hir::TokensIterator;
use crate::hir::{Expression, SpannedExpression};
use crate::parse::number::RawNumber;
use crate::parse::token_tree::BareType;
use crate::parse::unit::Unit;
use crate::{hir::TokensIterator, TokenNode};
use nom::branch::alt;
use nom::bytes::complete::tag;
use nom::character::complete::digit1;
use nom::combinator::{all_consuming, opt, value};
use nom::IResult;
use nu_errors::ParseError;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Spanned, SpannedItem};
use nu_source::{
b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Spanned, SpannedItem, Text,
};
#[derive(Debug, Clone)]
pub struct UnitSyntax {
@ -18,6 +21,17 @@ pub struct UnitSyntax {
pub span: Span,
}
impl UnitSyntax {
pub fn into_expr(self, source: &Text) -> SpannedExpression {
let UnitSyntax {
unit: (number, unit),
span,
} = self;
Expression::size(number.to_number(source), *unit).into_expr(span)
}
}
impl PrettyDebugWithSource for UnitSyntax {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
b::typed(
@ -33,42 +47,60 @@ impl HasSpan for UnitSyntax {
}
}
#[derive(Debug, Copy, Clone)]
pub struct UnitExpressionShape;
impl ExpandSyntax for UnitExpressionShape {
type Output = Result<SpannedExpression, ParseError>;
fn name(&self) -> &'static str {
"unit expression"
}
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
) -> Result<SpannedExpression, ParseError> {
token_nodes
.expand_syntax(UnitShape)
.map(|unit| unit.into_expr(&token_nodes.source()))
}
}
#[derive(Debug, Copy, Clone)]
pub struct UnitShape;
impl ExpandSyntax for UnitShape {
type Output = UnitSyntax;
type Output = Result<UnitSyntax, ParseError>;
fn name(&self) -> &'static str {
"unit"
}
fn expand_syntax<'a, 'b>(
fn expand<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<UnitSyntax, ParseError> {
let peeked = token_nodes.peek_any().not_eof("unit")?;
let source = token_nodes.source();
let span = match peeked.node {
TokenNode::Token(Token {
unspanned: UnspannedToken::Bare,
span,
}) => *span,
_ => return Err(peeked.type_error("unit")),
};
token_nodes.expand_token(BareType, |span| {
let unit = unit_size(span.slice(&source), span);
let unit = unit_size(span.slice(context.source), span);
let (_, (number, unit)) = match unit {
Err(_) => return Err(ParseError::mismatch("unit", "word".spanned(span))),
Ok((number, unit)) => (number, unit),
};
let (_, (number, unit)) = match unit {
Err(_) => return Err(ParseError::mismatch("unit", "word".spanned(span))),
Ok((number, unit)) => (number, unit),
};
peeked.commit();
Ok(UnitSyntax {
unit: (number, unit),
span,
Ok((
FlatShape::Size {
number: number.span(),
unit: unit.span,
},
UnitSyntax {
unit: (number, unit),
span,
},
))
})
}
}

View File

@ -1,13 +1,16 @@
use crate::parse::flag::{Flag, FlagKind};
use crate::parse::number::RawNumber;
use crate::parse::operator::EvaluationOperator;
use crate::parse::token_tree::{Delimiter, TokenNode};
use crate::parse::tokens::{RawNumber, UnspannedToken};
use nu_source::{HasSpan, Span, Spanned, SpannedItem, Text};
use crate::parse::token_tree::{Delimiter, SpannedToken, Token};
use nu_protocol::ShellTypeName;
use nu_source::{DebugDocBuilder, HasSpan, PrettyDebug, Span, Spanned, SpannedItem, Text};
#[derive(Debug, Copy, Clone)]
pub enum FlatShape {
OpenDelimiter(Delimiter),
CloseDelimiter(Delimiter),
Type,
Identifier,
ItVariable,
Variable,
CompareOperator,
@ -21,88 +24,170 @@ pub enum FlatShape {
String,
Path,
Word,
Keyword,
Pipe,
GlobPattern,
Flag,
ShorthandFlag,
Int,
Decimal,
Garbage,
Whitespace,
Separator,
Error,
Comment,
Size { number: Span, unit: Span },
}
#[derive(Debug, Clone)]
pub enum ShapeResult {
Success(Spanned<FlatShape>),
Fallback {
shape: Spanned<FlatShape>,
allowed: Vec<String>,
},
}
impl HasSpan for ShapeResult {
fn span(&self) -> Span {
match self {
ShapeResult::Success(shape) => shape.span,
ShapeResult::Fallback { shape, .. } => shape.span,
}
}
}
impl PrettyDebug for FlatShape {
fn pretty(&self) -> DebugDocBuilder {
unimplemented!()
}
}
#[derive(Debug, Copy, Clone)]
pub struct TraceShape {
shape: FlatShape,
span: Span,
}
impl ShellTypeName for TraceShape {
fn type_name(&self) -> &'static str {
self.shape.type_name()
}
}
impl PrettyDebug for TraceShape {
fn pretty(&self) -> DebugDocBuilder {
self.shape.pretty()
}
}
impl HasSpan for TraceShape {
fn span(&self) -> Span {
self.span
}
}
impl ShellTypeName for FlatShape {
fn type_name(&self) -> &'static str {
match self {
FlatShape::OpenDelimiter(Delimiter::Brace) => "open brace",
FlatShape::OpenDelimiter(Delimiter::Paren) => "open paren",
FlatShape::OpenDelimiter(Delimiter::Square) => "open square",
FlatShape::CloseDelimiter(Delimiter::Brace) => "close brace",
FlatShape::CloseDelimiter(Delimiter::Paren) => "close paren",
FlatShape::CloseDelimiter(Delimiter::Square) => "close square",
FlatShape::Type => "type",
FlatShape::Identifier => "identifier",
FlatShape::ItVariable => "$it",
FlatShape::Variable => "variable",
FlatShape::CompareOperator => "comparison",
FlatShape::Dot => "dot",
FlatShape::DotDot => "dotdot",
FlatShape::InternalCommand => "internal command",
FlatShape::ExternalCommand => "external command",
FlatShape::ExternalWord => "external word",
FlatShape::BareMember => "bare member",
FlatShape::StringMember => "string member",
FlatShape::String => "string",
FlatShape::Path => "path",
FlatShape::Word => "word",
FlatShape::Keyword => "keyword",
FlatShape::Pipe => "pipe",
FlatShape::GlobPattern => "glob",
FlatShape::Flag => "flag",
FlatShape::ShorthandFlag => "shorthand flag",
FlatShape::Int => "int",
FlatShape::Decimal => "decimal",
FlatShape::Garbage => "garbage",
FlatShape::Whitespace => "whitespace",
FlatShape::Separator => "separator",
FlatShape::Comment => "comment",
FlatShape::Size { .. } => "size",
}
}
}
impl FlatShape {
pub fn from(token: &TokenNode, source: &Text, shapes: &mut Vec<Spanned<FlatShape>>) {
match token {
TokenNode::Token(token) => match token.unspanned {
UnspannedToken::Number(RawNumber::Int(_)) => {
shapes.push(FlatShape::Int.spanned(token.span))
}
UnspannedToken::Number(RawNumber::Decimal(_)) => {
shapes.push(FlatShape::Decimal.spanned(token.span))
}
UnspannedToken::EvaluationOperator(EvaluationOperator::Dot) => {
shapes.push(FlatShape::Dot.spanned(token.span))
}
UnspannedToken::EvaluationOperator(EvaluationOperator::DotDot) => {
shapes.push(FlatShape::DotDot.spanned(token.span))
}
UnspannedToken::CompareOperator(_) => {
shapes.push(FlatShape::CompareOperator.spanned(token.span))
}
UnspannedToken::String(_) => shapes.push(FlatShape::String.spanned(token.span)),
UnspannedToken::Variable(v) if v.slice(source) == "it" => {
shapes.push(FlatShape::ItVariable.spanned(token.span))
}
UnspannedToken::Variable(_) => shapes.push(FlatShape::Variable.spanned(token.span)),
UnspannedToken::ExternalCommand(_) => {
shapes.push(FlatShape::ExternalCommand.spanned(token.span))
}
UnspannedToken::ExternalWord => {
shapes.push(FlatShape::ExternalWord.spanned(token.span))
}
UnspannedToken::GlobPattern => {
shapes.push(FlatShape::GlobPattern.spanned(token.span))
}
UnspannedToken::Bare => shapes.push(FlatShape::Word.spanned(token.span)),
},
TokenNode::Call(_) => unimplemented!(),
TokenNode::Nodes(nodes) => {
for node in &nodes.item {
FlatShape::from(node, source, shapes);
}
pub fn into_trace_shape(self, span: Span) -> TraceShape {
TraceShape { shape: self, span }
}
pub fn shapes(token: &SpannedToken, source: &Text) -> Vec<Spanned<FlatShape>> {
let mut shapes = vec![];
FlatShape::from(token, source, &mut shapes);
shapes
}
fn from(token: &SpannedToken, source: &Text, shapes: &mut Vec<Spanned<FlatShape>>) {
let span = token.span();
match token.unspanned() {
Token::Number(RawNumber::Int(_)) => shapes.push(FlatShape::Int.spanned(span)),
Token::Number(RawNumber::Decimal(_)) => shapes.push(FlatShape::Decimal.spanned(span)),
Token::EvaluationOperator(EvaluationOperator::Dot) => {
shapes.push(FlatShape::Dot.spanned(span))
}
TokenNode::Delimited(v) => {
shapes.push(FlatShape::OpenDelimiter(v.item.delimiter).spanned(v.item.spans.0));
for token in &v.item.children {
Token::EvaluationOperator(EvaluationOperator::DotDot) => {
shapes.push(FlatShape::DotDot.spanned(span))
}
Token::CompareOperator(_) => shapes.push(FlatShape::CompareOperator.spanned(span)),
Token::String(_) => shapes.push(FlatShape::String.spanned(span)),
Token::Variable(v) if v.slice(source) == "it" => {
shapes.push(FlatShape::ItVariable.spanned(span))
}
Token::Variable(_) => shapes.push(FlatShape::Variable.spanned(span)),
Token::ItVariable(_) => shapes.push(FlatShape::ItVariable.spanned(span)),
Token::ExternalCommand(_) => shapes.push(FlatShape::ExternalCommand.spanned(span)),
Token::ExternalWord => shapes.push(FlatShape::ExternalWord.spanned(span)),
Token::GlobPattern => shapes.push(FlatShape::GlobPattern.spanned(span)),
Token::Bare => shapes.push(FlatShape::Word.spanned(span)),
Token::Call(_) => unimplemented!(),
Token::Delimited(v) => {
shapes.push(FlatShape::OpenDelimiter(v.delimiter).spanned(v.spans.0));
for token in &v.children {
FlatShape::from(token, source, shapes);
}
shapes.push(FlatShape::CloseDelimiter(v.item.delimiter).spanned(v.item.spans.1));
shapes.push(FlatShape::CloseDelimiter(v.delimiter).spanned(v.spans.1));
}
TokenNode::Pipeline(pipeline) => {
Token::Pipeline(pipeline) => {
for part in &pipeline.parts {
if part.pipe.is_some() {
shapes.push(FlatShape::Pipe.spanned(part.span()));
}
}
}
TokenNode::Flag(Flag {
Token::Flag(Flag {
kind: FlagKind::Longhand,
span,
..
}) => shapes.push(FlatShape::Flag.spanned(*span)),
TokenNode::Flag(Flag {
}) => shapes.push(FlatShape::Flag.spanned(span)),
Token::Flag(Flag {
kind: FlagKind::Shorthand,
span,
..
}) => shapes.push(FlatShape::ShorthandFlag.spanned(*span)),
TokenNode::Whitespace(_) => shapes.push(FlatShape::Whitespace.spanned(token.span())),
TokenNode::Separator(_) => shapes.push(FlatShape::Separator.spanned(token.span())),
TokenNode::Comment(_) => shapes.push(FlatShape::Comment.spanned(token.span())),
TokenNode::Error(v) => shapes.push(FlatShape::Error.spanned(v.span)),
}) => shapes.push(FlatShape::ShorthandFlag.spanned(span)),
Token::Garbage => shapes.push(FlatShape::Garbage.spanned(span)),
Token::Whitespace => shapes.push(FlatShape::Whitespace.spanned(span)),
Token::Separator => shapes.push(FlatShape::Separator.spanned(span)),
Token::Comment(_) => shapes.push(FlatShape::Comment.spanned(span)),
}
}
}

File diff suppressed because it is too large Load Diff

View File

@ -1,7 +1,7 @@
use crate::hir::syntax_shape::FlatShape;
use crate::hir::syntax_shape::flat_shape::{FlatShape, ShapeResult};
use ansi_term::Color;
use log::trace;
use nu_errors::ShellError;
use nu_errors::{ParseError, ShellError};
use nu_source::{Spanned, Text};
use ptree::*;
use std::borrow::Cow;
@ -10,14 +10,24 @@ use std::io;
#[derive(Debug, Clone)]
pub enum FrameChild {
#[allow(unused)]
Shape(Spanned<FlatShape>),
Shape(ShapeResult),
Frame(ColorFrame),
}
impl FrameChild {
fn colored_leaf_description(&self, text: &Text, f: &mut impl io::Write) -> io::Result<()> {
match self {
FrameChild::Shape(shape) => write!(
FrameChild::Shape(ShapeResult::Success(shape)) => write!(
f,
"{} {:?}",
Color::White
.bold()
.on(Color::Green)
.paint(format!("{:?}", shape.item)),
shape.span.slice(text)
),
FrameChild::Shape(ShapeResult::Fallback { shape, .. }) => write!(
f,
"{} {:?}",
Color::White
@ -43,7 +53,7 @@ impl FrameChild {
pub struct ColorFrame {
description: &'static str,
children: Vec<FrameChild>,
error: Option<ShellError>,
error: Option<ParseError>,
}
impl ColorFrame {
@ -98,8 +108,7 @@ impl ColorFrame {
.collect()
}
#[allow(unused)]
fn add_shape(&mut self, shape: Spanned<FlatShape>) {
fn add_shape(&mut self, shape: ShapeResult) {
self.children.push(FrameChild::Shape(shape))
}
@ -107,10 +116,10 @@ impl ColorFrame {
self.any_child_shape(|_| true)
}
fn any_child_shape(&self, predicate: impl Fn(Spanned<FlatShape>) -> bool) -> bool {
fn any_child_shape(&self, predicate: impl Fn(&ShapeResult) -> bool) -> bool {
for item in &self.children {
if let FrameChild::Shape(shape) = item {
if predicate(*shape) {
if predicate(shape) {
return true;
}
}
@ -172,14 +181,24 @@ impl ColorFrame {
#[derive(Debug, Clone)]
pub enum TreeChild {
Shape(Spanned<FlatShape>, Text),
Shape(ShapeResult, Text),
Frame(ColorFrame, Text),
}
impl TreeChild {
fn colored_leaf_description(&self, f: &mut impl io::Write) -> io::Result<()> {
match self {
TreeChild::Shape(shape, text) => write!(
TreeChild::Shape(ShapeResult::Success(shape), text) => write!(
f,
"{} {:?}",
Color::White
.bold()
.on(Color::Green)
.paint(format!("{:?}", shape.item)),
shape.span.slice(text)
),
TreeChild::Shape(ShapeResult::Fallback { shape, .. }, text) => write!(
f,
"{} {:?}",
Color::White
@ -290,8 +309,7 @@ impl ColorTracer {
}
}
#[allow(unused)]
pub fn add_shape(&mut self, shape: Spanned<FlatShape>) {
pub fn add_shape(&mut self, shape: ShapeResult) {
self.current_frame().add_shape(shape);
}
@ -302,7 +320,7 @@ impl ColorTracer {
.push(FrameChild::Frame(current));
}
pub fn failed(&mut self, error: &ShellError) {
pub fn failed(&mut self, error: &ParseError) {
let mut current = self.pop_frame();
current.error = Some(error.clone());
self.current_frame()

View File

@ -1,26 +1,44 @@
use crate::hir::Expression;
use crate::hir::syntax_shape::flat_shape::TraceShape;
use crate::hir::SpannedExpression;
use crate::parse::token_tree::SpannedToken;
use ansi_term::Color;
use log::trace;
use nu_errors::ParseError;
use nu_protocol::ShellTypeName;
use nu_source::{DebugDoc, PrettyDebug, PrettyDebugWithSource, Text};
use nu_errors::{ParseError, ParseErrorReason};
use nu_protocol::{ShellTypeName, SpannedTypeName};
use nu_source::{DebugDoc, PrettyDebug, PrettyDebugWithSource, Span, Spanned, Text};
use ptree::*;
use std::borrow::Cow;
use std::fmt::Debug;
use std::io;
#[derive(Debug)]
pub enum FrameChild {
Expr(Expression),
Frame(ExprFrame),
#[derive(Debug, Clone)]
pub enum FrameChild<T: SpannedTypeName> {
Expr(T),
Shape(Result<TraceShape, TraceShape>),
Frame(Box<ExprFrame<T>>),
Result(DebugDoc),
}
impl FrameChild {
fn get_error_leaf(&self) -> Option<&'static str> {
fn err_desc(error: &ParseError) -> &'static str {
match error.reason() {
ParseErrorReason::ExtraTokens { .. } => "extra tokens",
ParseErrorReason::Mismatch { .. } => "mismatch",
ParseErrorReason::ArgumentError { .. } => "argument error",
ParseErrorReason::Eof { .. } => "eof",
ParseErrorReason::InternalError { .. } => "internal error",
}
}
impl<T: SpannedTypeName> FrameChild<T> {
fn get_error_leaf(&self) -> Option<(&'static str, &'static str)> {
match self {
FrameChild::Frame(frame) if frame.error.is_some() => {
if frame.children.is_empty() {
Some(frame.description)
FrameChild::Frame(frame) => {
if let Some(error) = &frame.error {
if frame.children.is_empty() {
Some((frame.description, err_desc(error)))
} else {
None
}
} else {
None
}
@ -31,15 +49,34 @@ impl FrameChild {
fn to_tree_child(&self, text: &Text) -> TreeChild {
match self {
FrameChild::Expr(expr) => TreeChild::OkExpr(expr.clone(), text.clone()),
FrameChild::Expr(expr) => TreeChild::OkExpr {
source: expr.spanned_type_name().span,
desc: expr.spanned_type_name().item,
text: text.clone(),
},
FrameChild::Shape(Ok(shape)) => TreeChild::OkShape {
source: shape.spanned_type_name().span,
desc: shape.spanned_type_name().item,
text: text.clone(),
fallback: false,
},
FrameChild::Shape(Err(shape)) => TreeChild::OkShape {
source: shape.spanned_type_name().span,
desc: shape.spanned_type_name().item,
text: text.clone(),
fallback: true,
},
FrameChild::Result(result) => {
let result = result.display();
TreeChild::OkNonExpr(result)
}
FrameChild::Frame(frame) => {
if frame.error.is_some() {
if let Some(err) = &frame.error {
if frame.children.is_empty() {
TreeChild::ErrorLeaf(vec![frame.description])
TreeChild::ErrorLeaf(
vec![(frame.description, err_desc(err))],
frame.token_desc(),
)
} else {
TreeChild::ErrorFrame(frame.to_tree_frame(text), text.clone())
}
@ -51,14 +88,22 @@ impl FrameChild {
}
}
#[derive(Debug)]
pub struct ExprFrame {
#[derive(Debug, Clone)]
pub struct ExprFrame<T: SpannedTypeName> {
description: &'static str,
children: Vec<FrameChild>,
token: Option<SpannedToken>,
children: Vec<FrameChild<T>>,
error: Option<ParseError>,
}
impl ExprFrame {
impl<T: SpannedTypeName> ExprFrame<T> {
fn token_desc(&self) -> &'static str {
match &self.token {
None => "EOF",
Some(token) => token.type_name(),
}
}
fn to_tree_frame(&self, text: &Text) -> TreeFrame {
let mut children = vec![];
let mut errors = vec![];
@ -68,7 +113,7 @@ impl ExprFrame {
errors.push(error_leaf);
continue;
} else if !errors.is_empty() {
children.push(TreeChild::ErrorLeaf(errors));
children.push(TreeChild::ErrorLeaf(errors, self.token_desc()));
errors = vec![];
}
@ -76,18 +121,27 @@ impl ExprFrame {
}
if !errors.is_empty() {
children.push(TreeChild::ErrorLeaf(errors));
children.push(TreeChild::ErrorLeaf(errors, self.token_desc()));
}
TreeFrame {
description: self.description,
token_desc: self.token_desc(),
children,
error: self.error.clone(),
}
}
fn add_expr(&mut self, expr: Expression) {
self.children.push(FrameChild::Expr(expr))
fn add_return(&mut self, value: T) {
self.children.push(FrameChild::Expr(value))
}
fn add_shape(&mut self, shape: TraceShape) {
self.children.push(FrameChild::Shape(Ok(shape)))
}
fn add_err_shape(&mut self, shape: TraceShape) {
self.children.push(FrameChild::Shape(Err(shape)))
}
fn add_result(&mut self, result: impl PrettyDebug) {
@ -98,6 +152,7 @@ impl ExprFrame {
#[derive(Debug, Clone)]
pub struct TreeFrame {
description: &'static str,
token_desc: &'static str,
children: Vec<TreeChild>,
error: Option<ParseError>,
}
@ -113,29 +168,43 @@ impl TreeFrame {
write!(f, "{}", Color::Yellow.bold().paint(self.description))?;
}
write!(
f,
"{}",
Color::Black.bold().paint(&format!("({})", self.token_desc))
)?;
write!(f, " -> ")?;
self.children[0].leaf_description(f)
} else if self.error.is_some() {
if self.children.is_empty() {
write!(
f,
"{}",
Color::White.bold().on(Color::Red).paint(self.description)
)
} else {
write!(f, "{}", Color::Red.normal().paint(self.description))
}
} else if self.has_descendent_green() {
write!(f, "{}", Color::Green.normal().paint(self.description))
} else {
write!(f, "{}", Color::Yellow.bold().paint(self.description))
if self.error.is_some() {
if self.children.is_empty() {
write!(
f,
"{}",
Color::White.bold().on(Color::Red).paint(self.description)
)?
} else {
write!(f, "{}", Color::Red.normal().paint(self.description))?
}
} else if self.has_descendent_green() {
write!(f, "{}", Color::Green.normal().paint(self.description))?
} else {
write!(f, "{}", Color::Yellow.bold().paint(self.description))?
}
write!(
f,
"{}",
Color::Black.bold().paint(&format!("({})", self.token_desc))
)
}
}
fn has_child_green(&self) -> bool {
self.children.iter().any(|item| match item {
TreeChild::OkFrame(..) | TreeChild::ErrorFrame(..) | TreeChild::ErrorLeaf(..) => false,
TreeChild::OkExpr(..) | TreeChild::OkNonExpr(..) => true,
TreeChild::OkExpr { .. } | TreeChild::OkShape { .. } | TreeChild::OkNonExpr(..) => true,
})
}
@ -163,9 +232,10 @@ impl TreeFrame {
if self.children.len() == 1 {
let child: &TreeChild = &self.children[0];
match child {
TreeChild::OkExpr(..) | TreeChild::OkNonExpr(..) | TreeChild::ErrorLeaf(..) => {
vec![]
}
TreeChild::OkExpr { .. }
| TreeChild::OkShape { .. }
| TreeChild::OkNonExpr(..)
| TreeChild::ErrorLeaf(..) => vec![],
TreeChild::OkFrame(frame, _) | TreeChild::ErrorFrame(frame, _) => {
frame.children_for_formatting(text)
}
@ -179,21 +249,44 @@ impl TreeFrame {
#[derive(Debug, Clone)]
pub enum TreeChild {
OkNonExpr(String),
OkExpr(Expression, Text),
OkExpr {
source: Span,
desc: &'static str,
text: Text,
},
OkShape {
source: Span,
desc: &'static str,
text: Text,
fallback: bool,
},
OkFrame(TreeFrame, Text),
ErrorFrame(TreeFrame, Text),
ErrorLeaf(Vec<&'static str>),
ErrorLeaf(Vec<(&'static str, &'static str)>, &'static str),
}
impl TreeChild {
fn leaf_description(&self, f: &mut impl io::Write) -> io::Result<()> {
match self {
TreeChild::OkExpr(expr, text) => write!(
TreeChild::OkExpr { source, desc, text } => write!(
f,
"{} {} {}",
Color::Cyan.normal().paint("returns"),
Color::White.bold().on(Color::Green).paint(expr.type_name()),
expr.span.slice(text)
Color::White.bold().on(Color::Green).paint(*desc),
source.slice(text)
),
TreeChild::OkShape {
source,
desc,
text,
fallback,
} => write!(
f,
"{} {} {}",
Color::Purple.normal().paint("paints"),
Color::White.bold().on(Color::Green).paint(*desc),
source.slice(text)
),
TreeChild::OkNonExpr(result) => write!(
@ -206,17 +299,21 @@ impl TreeChild {
.paint(result.to_string())
),
TreeChild::ErrorLeaf(desc) => {
TreeChild::ErrorLeaf(desc, token_desc) => {
let last = desc.len() - 1;
for (i, item) in desc.iter().enumerate() {
write!(f, "{}", Color::White.bold().on(Color::Red).paint(*item))?;
for (i, (desc, err_desc)) in desc.iter().enumerate() {
write!(f, "{}", Color::White.bold().on(Color::Red).paint(*desc))?;
write!(f, " {}", Color::Black.bold().paint(*err_desc))?;
if i != last {
write!(f, "{}", Color::White.normal().paint(", "))?;
}
}
// write!(f, " {}", Color::Black.bold().paint(*token_desc))?;
Ok(())
}
@ -236,9 +333,10 @@ impl TreeItem for TreeChild {
fn children(&self) -> Cow<[Self::Child]> {
match self {
TreeChild::OkExpr(..) | TreeChild::OkNonExpr(..) | TreeChild::ErrorLeaf(..) => {
Cow::Borrowed(&[])
}
TreeChild::OkExpr { .. }
| TreeChild::OkShape { .. }
| TreeChild::OkNonExpr(..)
| TreeChild::ErrorLeaf(..) => Cow::Borrowed(&[]),
TreeChild::OkFrame(frame, text) | TreeChild::ErrorFrame(frame, text) => {
Cow::Owned(frame.children_for_formatting(text))
}
@ -246,39 +344,46 @@ impl TreeItem for TreeChild {
}
}
#[derive(Debug)]
pub struct ExpandTracer {
frame_stack: Vec<ExprFrame>,
#[derive(Debug, Clone)]
pub struct ExpandTracer<T: SpannedTypeName> {
desc: &'static str,
frame_stack: Vec<ExprFrame<T>>,
source: Text,
}
impl ExpandTracer {
impl<T: SpannedTypeName + Debug> ExpandTracer<T> {
pub fn print(&self, source: Text) -> PrintTracer {
let root = self.frame_stack[0].to_tree_frame(&source);
PrintTracer { root, source }
PrintTracer {
root,
desc: self.desc,
source,
}
}
pub fn new(source: Text) -> ExpandTracer {
pub fn new(desc: &'static str, source: Text) -> ExpandTracer<T> {
let root = ExprFrame {
description: "Trace",
children: vec![],
token: None,
error: None,
};
ExpandTracer {
desc,
frame_stack: vec![root],
source,
}
}
fn current_frame(&mut self) -> &mut ExprFrame {
fn current_frame(&mut self) -> &mut ExprFrame<T> {
let frames = &mut self.frame_stack;
let last = frames.len() - 1;
&mut frames[last]
}
fn pop_frame(&mut self) -> ExprFrame {
fn pop_frame(&mut self) -> ExprFrame<T> {
let result = self.frame_stack.pop().expect("Can't pop root tracer frame");
if self.frame_stack.is_empty() {
@ -290,10 +395,11 @@ impl ExpandTracer {
result
}
pub fn start(&mut self, description: &'static str) {
pub fn start(&mut self, description: &'static str, token: Option<SpannedToken>) {
let frame = ExprFrame {
description,
children: vec![],
token,
error: None,
};
@ -301,8 +407,36 @@ impl ExpandTracer {
self.debug();
}
pub fn add_expr(&mut self, shape: Expression) {
self.current_frame().add_expr(shape);
pub fn add_return(&mut self, value: T) {
self.current_frame().add_return(value);
}
pub fn add_shape(&mut self, shape: TraceShape) {
self.current_frame().add_shape(shape);
}
pub fn add_err_shape(&mut self, shape: TraceShape) {
self.current_frame().add_err_shape(shape);
}
pub fn finish(&mut self) {
loop {
if self.frame_stack.len() == 1 {
break;
}
let frame = self.pop_frame();
self.current_frame()
.children
.push(FrameChild::Frame(Box::new(frame)));
}
}
pub fn eof_frame(&mut self) {
let current = self.pop_frame();
self.current_frame()
.children
.push(FrameChild::Frame(Box::new(current)));
}
pub fn add_result(&mut self, result: impl PrettyDebugWithSource) {
@ -316,7 +450,7 @@ impl ExpandTracer {
let current = self.pop_frame();
self.current_frame()
.children
.push(FrameChild::Frame(current));
.push(FrameChild::Frame(Box::new(current)));
}
pub fn failed(&mut self, error: &ParseError) {
@ -324,7 +458,7 @@ impl ExpandTracer {
current.error = Some(error.clone());
self.current_frame()
.children
.push(FrameChild::Frame(current));
.push(FrameChild::Frame(Box::new(current)));
}
fn debug(&self) {
@ -342,6 +476,7 @@ impl ExpandTracer {
#[derive(Debug, Clone)]
pub struct PrintTracer {
desc: &'static str,
root: TreeFrame,
source: Text,
}
@ -350,7 +485,7 @@ impl TreeItem for PrintTracer {
type Child = TreeChild;
fn write_self<W: io::Write>(&self, f: &mut W, style: &Style) -> io::Result<()> {
write!(f, "{}", style.paint("Expansion Trace"))
write!(f, "{}", style.paint(self.desc))
}
fn children(&self) -> Cow<[Self::Child]> {

View File

@ -0,0 +1,56 @@
use crate::hir::syntax_shape::flat_shape::{FlatShape, ShapeResult};
use nu_source::{Span, Spanned, SpannedItem};
pub struct FlatShapes {
shapes: Vec<ShapeResult>,
}
impl<'a> IntoIterator for &'a FlatShapes {
type Item = &'a ShapeResult;
type IntoIter = std::slice::Iter<'a, ShapeResult>;
fn into_iter(self) -> Self::IntoIter {
self.shapes.iter()
}
}
pub trait IntoShapes: 'static {
fn into_shapes(self, span: Span) -> FlatShapes;
}
impl IntoShapes for FlatShape {
fn into_shapes(self, span: Span) -> FlatShapes {
FlatShapes {
shapes: vec![ShapeResult::Success(self.spanned(span))],
}
}
}
impl IntoShapes for Vec<Spanned<FlatShape>> {
fn into_shapes(self, _span: Span) -> FlatShapes {
FlatShapes {
shapes: self.into_iter().map(ShapeResult::Success).collect(),
}
}
}
impl IntoShapes for Vec<ShapeResult> {
fn into_shapes(self, _span: Span) -> FlatShapes {
FlatShapes { shapes: self }
}
}
impl IntoShapes for () {
fn into_shapes(self, _span: Span) -> FlatShapes {
FlatShapes { shapes: vec![] }
}
}
impl IntoShapes for Option<FlatShape> {
fn into_shapes(self, span: Span) -> FlatShapes {
match self {
Option::None => ().into_shapes(span),
Option::Some(shape) => shape.into_shapes(span),
}
}
}

View File

@ -0,0 +1,30 @@
use crate::parse::token_tree::{ParseErrorFn, SpannedToken, TokenType};
use nu_errors::ParseError;
use std::borrow::Cow;
pub struct Pattern<T> {
parts: Vec<Box<dyn TokenType<Output = T>>>,
}
impl<T> TokenType for Pattern<T> {
type Output = T;
fn desc(&self) -> Cow<'static, str> {
Cow::Borrowed("pattern")
}
fn extract_token_value(
&self,
token: &SpannedToken,
err: ParseErrorFn<Self::Output>,
) -> Result<Self::Output, ParseError> {
for part in &self.parts {
match part.extract_token_value(token, err) {
Err(_) => {}
Ok(result) => return Ok(result),
}
}
err()
}
}

View File

@ -0,0 +1,105 @@
use crate::hir::syntax_shape::flat_shape::ShapeResult;
use crate::hir::syntax_shape::ExpandContext;
use crate::hir::tokens_iterator::TokensIterator;
use crate::parse::token_tree::SpannedToken;
use getset::Getters;
use nu_errors::ParseError;
use nu_protocol::SpannedTypeName;
use nu_source::Span;
use std::sync::Arc;
#[derive(Getters, Debug, Clone)]
pub struct TokensIteratorState<'content> {
pub(crate) tokens: &'content [SpannedToken],
pub(crate) span: Span,
pub(crate) index: usize,
pub(crate) seen: indexmap::IndexSet<usize>,
#[get = "pub"]
pub(crate) shapes: Vec<ShapeResult>,
pub(crate) errors: indexmap::IndexMap<Span, Vec<String>>,
pub(crate) context: Arc<ExpandContext<'content>>,
}
#[derive(Debug)]
pub struct Peeked<'content, 'me> {
pub(crate) node: Option<&'content SpannedToken>,
pub(crate) iterator: &'me mut TokensIterator<'content>,
pub(crate) from: usize,
pub(crate) to: usize,
}
impl<'content, 'me> Peeked<'content, 'me> {
pub fn commit(&mut self) -> Option<&'content SpannedToken> {
let Peeked {
node,
iterator,
from,
to,
} = self;
let node = (*node)?;
iterator.commit(*from, *to);
Some(node)
}
pub fn rollback(self) {}
pub fn not_eof(self, expected: &str) -> Result<PeekedNode<'content, 'me>, ParseError> {
match self.node {
None => Err(ParseError::unexpected_eof(
expected.to_string(),
self.iterator.eof_span(),
)),
Some(node) => Ok(PeekedNode {
node,
iterator: self.iterator,
from: self.from,
to: self.to,
}),
}
}
pub fn type_error(&self, expected: &'static str) -> ParseError {
peek_error(self.node, self.iterator.eof_span(), expected)
}
}
#[derive(Debug)]
pub struct PeekedNode<'content, 'me> {
pub(crate) node: &'content SpannedToken,
pub(crate) iterator: &'me mut TokensIterator<'content>,
from: usize,
to: usize,
}
impl<'content, 'me> PeekedNode<'content, 'me> {
pub fn commit(self) -> &'content SpannedToken {
let PeekedNode {
node,
iterator,
from,
to,
} = self;
iterator.commit(from, to);
node
}
pub fn rollback(self) {}
pub fn type_error(&self, expected: &'static str) -> ParseError {
peek_error(Some(self.node), self.iterator.eof_span(), expected)
}
}
pub fn peek_error(
node: Option<&SpannedToken>,
eof_span: Span,
expected: &'static str,
) -> ParseError {
match node {
None => ParseError::unexpected_eof(expected, eof_span),
Some(node) => ParseError::mismatch(expected, node.spanned_type_name()),
}
}

View File

@ -3,12 +3,17 @@ use crate::parse::token_tree_builder::TokenTreeBuilder as b;
use crate::Span;
#[test]
<<<<<<< HEAD
fn supplies_tokens() {
let tokens = b::token_list(vec![b::it_var(), b::op("."), b::bare("cpu")]);
=======
fn supplies_tokens() -> Result<(), Box<dyn std::error::Error>> {
let tokens = b::token_list(vec![b::var("it"), b::op("."), b::bare("cpu")]);
>>>>>>> master
let (tokens, _) = b::build(tokens);
let tokens = tokens.expect_list();
let mut iterator = TokensIterator::all(tokens, Span::unknown());
let mut iterator = TokensIterator::new(tokens, Span::unknown());
iterator.next()?.expect_var();
iterator.next()?.expect_dot();

View File

@ -1,4 +1,5 @@
#![allow(clippy::large_enum_variant, clippy::type_complexity)]
#[macro_use]
pub mod macros;
pub mod commands;
pub mod hir;
@ -8,23 +9,64 @@ pub mod parse_command;
pub use crate::commands::classified::{
external::ExternalCommand, internal::InternalCommand, ClassifiedCommand, ClassifiedPipeline,
};
pub use crate::hir::syntax_shape::flat_shape::FlatShape;
pub use crate::hir::syntax_shape::{
expand_syntax, ExpandContext, ExpandSyntax, PipelineShape, SignatureRegistry,
};
pub use crate::hir::syntax_shape::flat_shape::{FlatShape, ShapeResult};
pub use crate::hir::syntax_shape::{ExpandContext, ExpandSyntax, PipelineShape, SignatureRegistry};
pub use crate::hir::tokens_iterator::TokensIterator;
pub use crate::parse::files::Files;
pub use crate::parse::flag::Flag;
pub use crate::parse::operator::{CompareOperator, EvaluationOperator};
pub use crate::parse::parser::Number;
pub use crate::parse::parser::{module, pipeline};
pub use crate::parse::token_tree::{Delimiter, TokenNode};
pub use crate::parse::token_tree::{Delimiter, SpannedToken, Token};
pub use crate::parse::token_tree_builder::TokenTreeBuilder;
use log::log_enabled;
use nu_errors::ShellError;
use nu_source::nom_input;
use nu_protocol::{errln, outln};
use nu_source::{nom_input, HasSpan, Text};
pub fn parse(input: &str) -> Result<TokenNode, ShellError> {
pub fn pipeline_shapes(line: &str, expand_context: ExpandContext) -> Vec<ShapeResult> {
let tokens = parse_pipeline(line);
match tokens {
Err(_) => vec![],
Ok(v) => {
let pipeline = match v.as_pipeline() {
Err(_) => return vec![],
Ok(v) => v,
};
let tokens = vec![Token::Pipeline(pipeline).into_spanned(v.span())];
let mut tokens = TokensIterator::new(&tokens[..], expand_context, v.span());
let shapes = {
// We just constructed a token list that only contains a pipeline, so it can't fail
let result = tokens.expand_infallible(PipelineShape);
if let Some(failure) = result.failed {
errln!(
"BUG: PipelineShape didn't find a pipeline :: {:#?}",
failure
);
}
tokens.finish_tracer();
tokens.state().shapes()
};
if log_enabled!(target: "nu::expand_syntax", log::Level::Debug) {
outln!("");
let _ = ptree::print_tree(&tokens.expand_tracer().clone().print(Text::from(line)));
outln!("");
}
shapes.clone()
}
}
}
pub fn parse_pipeline(input: &str) -> Result<SpannedToken, ShellError> {
let _ = pretty_env_logger::try_init();
match pipeline(nom_input(input)) {
@ -33,7 +75,9 @@ pub fn parse(input: &str) -> Result<TokenNode, ShellError> {
}
}
pub fn parse_script(input: &str) -> Result<TokenNode, ShellError> {
pub use parse_pipeline as parse;
pub fn parse_script(input: &str) -> Result<SpannedToken, ShellError> {
let _ = pretty_env_logger::try_init();
match module(nom_input(input)) {

View File

@ -0,0 +1,9 @@
#[macro_export]
macro_rules! return_ok {
($expr:expr) => {
match $expr {
Ok(val) => return Ok(val),
Err(_) => {}
}
};
}

View File

@ -2,11 +2,11 @@ pub(crate) mod call_node;
pub(crate) mod comment;
pub(crate) mod files;
pub(crate) mod flag;
pub(crate) mod number;
pub(crate) mod operator;
pub(crate) mod parser;
pub(crate) mod pipeline;
pub(crate) mod token_tree;
pub(crate) mod token_tree_builder;
pub(crate) mod tokens;
pub(crate) mod unit;
pub(crate) mod util;

View File

@ -1,13 +1,13 @@
use crate::TokenNode;
use crate::parse::token_tree::SpannedToken;
use getset::Getters;
use nu_source::{b, DebugDocBuilder, PrettyDebugWithSource};
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters)]
pub struct CallNode {
#[get = "pub(crate)"]
head: Box<TokenNode>,
head: Box<SpannedToken>,
#[get = "pub(crate)"]
children: Option<Vec<TokenNode>>,
children: Option<Vec<SpannedToken>>,
}
impl PrettyDebugWithSource for CallNode {
@ -29,7 +29,7 @@ impl PrettyDebugWithSource for CallNode {
}
impl CallNode {
pub fn new(head: Box<TokenNode>, children: Vec<TokenNode>) -> CallNode {
pub fn new(head: Box<SpannedToken>, children: Vec<SpannedToken>) -> CallNode {
if children.is_empty() {
CallNode {
head,

View File

@ -1,6 +1,6 @@
use derive_new::new;
use getset::Getters;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span};
use nu_source::{b, DebugDocBuilder, PrettyDebugWithSource, Span};
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Deserialize, Serialize)]
@ -12,15 +12,13 @@ pub enum CommentKind {
pub struct Comment {
pub(crate) kind: CommentKind,
pub(crate) text: Span,
pub(crate) span: Span,
}
impl Comment {
pub fn line(text: impl Into<Span>, outer: impl Into<Span>) -> Comment {
pub fn line(text: impl Into<Span>) -> Comment {
Comment {
kind: CommentKind::Line,
text: text.into(),
span: outer.into(),
}
}
}
@ -34,9 +32,3 @@ impl PrettyDebugWithSource for Comment {
prefix + b::description(self.text.slice(source))
}
}
impl HasSpan for Comment {
fn span(&self) -> Span {
self.span
}
}

View File

@ -15,7 +15,6 @@ pub enum FlagKind {
pub struct Flag {
pub(crate) kind: FlagKind,
pub(crate) name: Span,
pub(crate) span: Span,
}
impl PrettyDebugWithSource for Flag {
@ -30,10 +29,10 @@ impl PrettyDebugWithSource for Flag {
}
impl Flag {
pub fn color(&self) -> Spanned<FlatShape> {
pub fn color(&self, span: impl Into<Span>) -> Spanned<FlatShape> {
match self.kind {
FlagKind::Longhand => FlatShape::Flag.spanned(self.span),
FlagKind::Shorthand => FlatShape::ShorthandFlag.spanned(self.span),
FlagKind::Longhand => FlatShape::Flag.spanned(span.into()),
FlagKind::Shorthand => FlatShape::ShorthandFlag.spanned(span.into()),
}
}
}

View File

@ -0,0 +1,70 @@
use crate::hir::syntax_shape::FlatShape;
use crate::parse::parser::Number;
use bigdecimal::BigDecimal;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Text};
use num_bigint::BigInt;
use std::str::FromStr;
#[derive(Debug, Clone, Copy, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub enum RawNumber {
Int(Span),
Decimal(Span),
}
impl HasSpan for RawNumber {
fn span(&self) -> Span {
match self {
RawNumber::Int(span) => *span,
RawNumber::Decimal(span) => *span,
}
}
}
impl PrettyDebugWithSource for RawNumber {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match self {
RawNumber::Int(span) => b::primitive(span.slice(source)),
RawNumber::Decimal(span) => b::primitive(span.slice(source)),
}
}
}
impl RawNumber {
pub fn as_flat_shape(&self) -> FlatShape {
match self {
RawNumber::Int(_) => FlatShape::Int,
RawNumber::Decimal(_) => FlatShape::Decimal,
}
}
pub fn int(span: impl Into<Span>) -> RawNumber {
let span = span.into();
RawNumber::Int(span)
}
pub fn decimal(span: impl Into<Span>) -> RawNumber {
let span = span.into();
RawNumber::Decimal(span)
}
pub(crate) fn to_number(self, source: &Text) -> Number {
match self {
RawNumber::Int(tag) => {
if let Ok(big_int) = BigInt::from_str(tag.slice(source)) {
Number::Int(big_int)
} else {
unreachable!("Internal error: could not parse text as BigInt as expected")
}
}
RawNumber::Decimal(tag) => {
if let Ok(big_decimal) = BigDecimal::from_str(tag.slice(source)) {
Number::Decimal(big_decimal)
} else {
unreachable!("Internal error: could not parse text as BigDecimal as expected")
}
}
}
}
}

View File

@ -1,8 +1,8 @@
#![allow(unused)]
use crate::parse::{
call_node::*, flag::*, operator::*, pipeline::*, token_tree::*, token_tree_builder::*,
tokens::*, unit::*,
call_node::*, flag::*, number::*, operator::*, pipeline::*, token_tree::*,
token_tree_builder::*, unit::*,
};
use nom;
use nom::branch::*;
@ -36,7 +36,7 @@ use std::str::FromStr;
macro_rules! cmp_operator {
($name:tt : $token:tt ) => {
#[tracable_parser]
pub fn $name(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn $name(input: NomSpan) -> IResult<NomSpan, $crate::parse::token_tree::SpannedToken> {
let start = input.offset;
let (input, tag) = tag($token)(input)?;
let end = input.offset;
@ -52,7 +52,7 @@ macro_rules! cmp_operator {
macro_rules! eval_operator {
($name:tt : $token:tt ) => {
#[tracable_parser]
pub fn $name(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn $name(input: NomSpan) -> IResult<NomSpan, $crate::parse::token_tree::SpannedToken> {
let start = input.offset;
let (input, tag) = tag($token)(input)?;
let end = input.offset;
@ -209,7 +209,7 @@ impl Into<Number> for BigInt {
}
#[tracable_parser]
pub fn number(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn number(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, number) = raw_number(input)?;
Ok((
@ -218,12 +218,36 @@ pub fn number(input: NomSpan) -> IResult<NomSpan, TokenNode> {
))
}
#[tracable_parser]
pub fn int_member(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, head) = digit1(input)?;
match input.fragment.chars().next() {
None | Some('.') => Ok((
input,
Token::Number(RawNumber::int((start, input.offset)))
.into_spanned((start, input.offset)),
)),
other if is_boundary(other) => Ok((
input,
Token::Number(RawNumber::int((start, input.offset)))
.into_spanned((start, input.offset)),
)),
_ => Err(nom::Err::Error(nom::error::make_error(
input,
nom::error::ErrorKind::Tag,
))),
}
}
#[tracable_parser]
pub fn raw_number(input: NomSpan) -> IResult<NomSpan, RawNumber> {
let anchoral = input;
let start = input.offset;
let (input, neg) = opt(tag("-"))(input)?;
let (input, head) = digit1(input)?;
let after_int_head = input;
match input.fragment.chars().next() {
None => return Ok((input, RawNumber::int(Span::new(start, input.offset)))),
@ -255,7 +279,17 @@ pub fn raw_number(input: NomSpan) -> IResult<NomSpan, RawNumber> {
Err(_) => return Ok((input, RawNumber::int(Span::new(start, input.offset)))),
};
let (input, tail) = digit1(input)?;
let tail_digits_result: IResult<NomSpan, _> = digit1(input);
let (input, tail) = match tail_digits_result {
Ok((input, tail)) => (input, tail),
Err(_) => {
return Ok((
after_int_head,
RawNumber::int((start, after_int_head.offset)),
))
}
};
let end = input.offset;
@ -272,14 +306,14 @@ pub fn raw_number(input: NomSpan) -> IResult<NomSpan, RawNumber> {
}
#[tracable_parser]
pub fn operator(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn operator(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, operator) = alt((gte, lte, neq, gt, lt, eq, cont, ncont))(input)?;
Ok((input, operator))
}
#[tracable_parser]
pub fn dq_string(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn dq_string(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = char('"')(input)?;
let start1 = input.offset;
@ -294,7 +328,7 @@ pub fn dq_string(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn sq_string(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn sq_string(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = char('\'')(input)?;
let start1 = input.offset;
@ -310,12 +344,12 @@ pub fn sq_string(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn string(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn string(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
alt((sq_string, dq_string))(input)
}
#[tracable_parser]
pub fn external(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn external(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = tag("^")(input)?;
let (input, bare) = take_while(is_file_char)(input)?;
@ -373,7 +407,7 @@ pub fn matches(cond: fn(char) -> bool) -> impl Fn(NomSpan) -> IResult<NomSpan, N
}
#[tracable_parser]
pub fn pattern(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn pattern(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
word(
start_pattern,
matches(is_glob_char),
@ -387,7 +421,7 @@ pub fn start_pattern(input: NomSpan) -> IResult<NomSpan, NomSpan> {
}
#[tracable_parser]
pub fn filename(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn filename(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start_pos = input.offset;
let (mut input, mut saw_special) = match start_file_char(input) {
@ -495,7 +529,7 @@ pub fn start_filename(input: NomSpan) -> IResult<NomSpan, NomSpan> {
}
#[tracable_parser]
pub fn member(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn bare_member(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
word(
matches(is_start_member_char),
matches(is_member_char),
@ -503,13 +537,22 @@ pub fn member(input: NomSpan) -> IResult<NomSpan, TokenNode> {
)(input)
}
#[tracable_parser]
pub fn garbage_member(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
word(
matches(is_garbage_member_char),
matches(is_garbage_member_char),
TokenTreeBuilder::spanned_garbage,
)(input)
}
#[tracable_parser]
pub fn ident(input: NomSpan) -> IResult<NomSpan, Tag> {
word(matches(is_id_start), matches(is_id_continue), Tag::from)(input)
}
#[tracable_parser]
pub fn external_word(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn external_word(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = take_while1(is_external_word_char)(input)?;
let end = input.offset;
@ -517,22 +560,48 @@ pub fn external_word(input: NomSpan) -> IResult<NomSpan, TokenNode> {
Ok((input, TokenTreeBuilder::spanned_external_word((start, end))))
}
enum OneOf<T, U> {
First(T),
Second(U),
}
trait SubParser<'a, T>: Sized + Fn(NomSpan<'a>) -> IResult<NomSpan<'a>, T> {}
impl<'a, T, U> SubParser<'a, U> for T where T: Fn(NomSpan<'a>) -> IResult<NomSpan<'a>, U> {}
fn one_of<'a, T, U>(
first: impl SubParser<'a, T>,
second: impl SubParser<'a, U>,
) -> impl SubParser<'a, OneOf<T, U>> {
move |input: NomSpan<'a>| -> IResult<NomSpan, OneOf<T, U>> {
let first_result = first(input);
match first_result {
Ok((input, val)) => Ok((input, OneOf::First(val))),
Err(_) => {
let (input, val) = second(input)?;
Ok((input, OneOf::Second(val)))
}
}
}
}
#[tracable_parser]
pub fn var(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn var(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = tag("$")(input)?;
let (input, bare) = ident(input)?;
let (input, name) = one_of(tag("it"), ident)(input)?;
let end = input.offset;
Ok((
input,
TokenTreeBuilder::spanned_var(bare, Span::new(start, end)),
))
match name {
OneOf::First(it) => Ok((input, TokenTreeBuilder::spanned_it_var(it, (start, end)))),
OneOf::Second(name) => Ok((input, TokenTreeBuilder::spanned_var(name, (start, end)))),
}
}
fn tight<'a>(
parser: impl Fn(NomSpan<'a>) -> IResult<NomSpan<'a>, Vec<TokenNode>>,
) -> impl Fn(NomSpan<'a>) -> IResult<NomSpan<'a>, Vec<TokenNode>> {
parser: impl Fn(NomSpan<'a>) -> IResult<NomSpan<'a>, Vec<SpannedToken>>,
) -> impl Fn(NomSpan<'a>) -> IResult<NomSpan<'a>, Vec<SpannedToken>> {
move |input: NomSpan| {
let mut result = vec![];
let (input, head) = parser(input)?;
@ -560,7 +629,7 @@ fn tight<'a>(
}
#[tracable_parser]
pub fn flag(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn flag(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = tag("--")(input)?;
let (input, bare) = filename(input)?;
@ -573,7 +642,7 @@ pub fn flag(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn shorthand(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn shorthand(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, _) = tag("-")(input)?;
let (input, bare) = filename(input)?;
@ -586,14 +655,14 @@ pub fn shorthand(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn leaf(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn leaf(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, node) = alt((number, string, operator, flag, shorthand, var, external))(input)?;
Ok((input, node))
}
#[tracable_parser]
pub fn token_list(input: NomSpan) -> IResult<NomSpan, Spanned<Vec<TokenNode>>> {
pub fn token_list(input: NomSpan) -> IResult<NomSpan, Spanned<Vec<SpannedToken>>> {
let start = input.offset;
let mut node_list = vec![];
@ -658,7 +727,7 @@ pub fn token_list(input: NomSpan) -> IResult<NomSpan, Spanned<Vec<TokenNode>>> {
}
#[tracable_parser]
pub fn spaced_token_list(input: NomSpan) -> IResult<NomSpan, Spanned<Vec<TokenNode>>> {
pub fn spaced_token_list(input: NomSpan) -> IResult<NomSpan, Spanned<Vec<SpannedToken>>> {
let start = input.offset;
let (input, pre_ws) = opt(any_space)(input)?;
let (input, items) = token_list(input)?;
@ -679,10 +748,10 @@ pub fn spaced_token_list(input: NomSpan) -> IResult<NomSpan, Spanned<Vec<TokenNo
}
fn make_token_list(
first: Vec<TokenNode>,
list: Vec<(Vec<TokenNode>, Vec<TokenNode>)>,
sp_right: Option<TokenNode>,
) -> Vec<TokenNode> {
first: Vec<SpannedToken>,
list: Vec<(Vec<SpannedToken>, Vec<SpannedToken>)>,
sp_right: Option<SpannedToken>,
) -> Vec<SpannedToken> {
let mut nodes = vec![];
nodes.extend(first);
@ -700,7 +769,7 @@ fn make_token_list(
}
#[tracable_parser]
pub fn separator(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn separator(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let left = input.offset;
let (input, ws1) = alt((tag(";"), tag("\n")))(input)?;
let right = input.offset;
@ -709,7 +778,7 @@ pub fn separator(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn whitespace(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn whitespace(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let left = input.offset;
let (input, ws1) = space1(input)?;
let right = input.offset;
@ -718,7 +787,7 @@ pub fn whitespace(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn any_space(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
pub fn any_space(input: NomSpan) -> IResult<NomSpan, Vec<SpannedToken>> {
let left = input.offset;
let (input, tokens) = many1(alt((whitespace, separator, comment)))(input)?;
let right = input.offset;
@ -727,7 +796,7 @@ pub fn any_space(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
}
#[tracable_parser]
pub fn comment(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn comment(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let left = input.offset;
let (input, start) = tag("#")(input)?;
let (input, rest) = not_line_ending(input)?;
@ -744,7 +813,7 @@ pub fn comment(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn delimited(
input: NomSpan,
delimiter: Delimiter,
) -> IResult<NomSpan, (Span, Span, Spanned<Vec<TokenNode>>)> {
) -> IResult<NomSpan, (Span, Span, Spanned<Vec<SpannedToken>>)> {
let left = input.offset;
let (input, open_span) = tag(delimiter.open())(input)?;
let (input, inner_items) = opt(spaced_token_list)(input)?;
@ -768,7 +837,7 @@ pub fn delimited(
}
#[tracable_parser]
pub fn delimited_paren(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn delimited_paren(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, (left, right, tokens)) = delimited(input, Delimiter::Paren)?;
Ok((
@ -778,7 +847,7 @@ pub fn delimited_paren(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn delimited_square(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn delimited_square(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, (left, right, tokens)) = delimited(input, Delimiter::Square)?;
Ok((
@ -788,7 +857,7 @@ pub fn delimited_square(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn delimited_brace(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn delimited_brace(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, (left, right, tokens)) = delimited(input, Delimiter::Brace)?;
Ok((
@ -810,7 +879,7 @@ pub fn raw_call(input: NomSpan) -> IResult<NomSpan, Spanned<CallNode>> {
}
#[tracable_parser]
pub fn range_continuation(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
pub fn range_continuation(input: NomSpan) -> IResult<NomSpan, Vec<SpannedToken>> {
let original = input;
let mut result = vec![];
@ -824,7 +893,7 @@ pub fn range_continuation(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
}
#[tracable_parser]
pub fn dot_member(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
pub fn dot_member(input: NomSpan) -> IResult<NomSpan, Vec<SpannedToken>> {
let (input, dot_result) = dot(input)?;
let (input, member_result) = any_member(input)?;
@ -832,12 +901,12 @@ pub fn dot_member(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
}
#[tracable_parser]
pub fn any_member(input: NomSpan) -> IResult<NomSpan, TokenNode> {
alt((number, string, member))(input)
pub fn any_member(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
alt((int_member, string, bare_member, garbage_member))(input)
}
#[tracable_parser]
pub fn tight_node(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
pub fn tight_node(input: NomSpan) -> IResult<NomSpan, Vec<SpannedToken>> {
alt((
tight(to_list(leaf)),
tight(to_list(filename)),
@ -851,8 +920,8 @@ pub fn tight_node(input: NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
}
fn to_list(
parser: impl Fn(NomSpan) -> IResult<NomSpan, TokenNode>,
) -> impl Fn(NomSpan) -> IResult<NomSpan, Vec<TokenNode>> {
parser: impl Fn(NomSpan) -> IResult<NomSpan, SpannedToken>,
) -> impl Fn(NomSpan) -> IResult<NomSpan, Vec<SpannedToken>> {
move |input| {
let (input, next) = parser(input)?;
@ -861,17 +930,18 @@ fn to_list(
}
#[tracable_parser]
pub fn nodes(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn nodes(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, tokens) = token_list(input)?;
let span = tokens.span;
Ok((
input,
TokenTreeBuilder::spanned_token_list(tokens.item, tokens.span),
TokenTreeBuilder::spanned_pipeline(vec![PipelineElement::new(None, tokens)], span),
))
}
#[tracable_parser]
pub fn pipeline(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn pipeline(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let start = input.offset;
let (input, head) = spaced_token_list(input)?;
let (input, items) = many0(tuple((tag("|"), spaced_token_list)))(input)?;
@ -900,7 +970,7 @@ pub fn pipeline(input: NomSpan) -> IResult<NomSpan, TokenNode> {
}
#[tracable_parser]
pub fn module(input: NomSpan) -> IResult<NomSpan, TokenNode> {
pub fn module(input: NomSpan) -> IResult<NomSpan, SpannedToken> {
let (input, tokens) = spaced_token_list(input)?;
if input.input_len() != 0 {
@ -999,9 +1069,17 @@ fn is_file_char(c: char) -> bool {
}
}
fn is_garbage_member_char(c: char) -> bool {
match c {
c if c.is_whitespace() => false,
'.' => false,
_ => true,
}
}
fn is_start_member_char(c: char) -> bool {
match c {
_ if c.is_alphanumeric() => true,
_ if c.is_alphabetic() => true,
'_' => true,
'-' => true,
_ => false,
@ -1263,7 +1341,7 @@ mod tests {
fn test_variable() {
equal_tokens! {
<nodes>
"$it" -> b::token_list(vec![b::var("it")])
"$it" -> b::token_list(vec![b::it_var()])
}
equal_tokens! {
@ -1354,12 +1432,33 @@ mod tests {
equal_tokens! {
<nodes>
"$it.print" -> b::token_list(vec![b::var("it"), b::dot(), b::bare("print")])
"$it.print" -> b::token_list(vec![b::it_var(), b::dot(), b::bare("print")])
}
equal_tokens! {
<nodes>
"$it.0" -> b::token_list(vec![b::var("it"), b::dot(), b::int(0)])
r#"nu.0xATYKARNU.baz"# -> b::token_list(vec![
b::bare("nu"),
b::dot(),
b::garbage("0xATYKARNU"),
b::dot(),
b::bare("baz")
])
}
equal_tokens! {
<nodes>
"1.b" -> b::token_list(vec![b::int(1), b::dot(), b::bare("b")])
}
equal_tokens! {
<nodes>
"$it.0" -> b::token_list(vec![b::it_var(), b::dot(), b::int(0)])
}
equal_tokens! {
<nodes>
"fortune_tellers.2.name" -> b::token_list(vec![b::bare("fortune_tellers"), b::dot(), b::int(2), b::dot(), b::bare("name")])
}
equal_tokens! {
@ -1386,7 +1485,7 @@ mod tests {
vec![
b::parens(vec![
b::sp(),
b::var("it"),
b::it_var(),
b::dot(),
b::bare("is"),
b::dot(),
@ -1407,7 +1506,7 @@ mod tests {
<nodes>
r#"$it."are PAS".0"# -> b::token_list(
vec![
b::var("it"),
b::it_var(),
b::dot(),
b::string("are PAS"),
b::dot(),
@ -1445,7 +1544,7 @@ mod tests {
fn test_smoke_single_command_it() {
equal_tokens! {
<nodes>
"echo $it" -> b::token_list(vec![b::bare("echo"), b::sp(), b::var("it")])
"echo $it" -> b::token_list(vec![b::bare("echo"), b::sp(), b::it_var()])
}
}
@ -1533,6 +1632,17 @@ mod tests {
]
])
}
equal_tokens! {
"^echo 1 | ^cat" -> b::pipeline(vec![
vec![
b::external_command("echo"), b::sp(), b::int(1), b::sp()
],
vec![
b::sp(), b::external_command("cat")
]
])
}
}
#[test]
@ -1631,7 +1741,7 @@ mod tests {
// b::bare("where"),
// vec![
// b::sp(),
// b::var("it"),
// b::it_var(),
// b::sp(),
// b::op("!="),
// b::sp(),
@ -1654,7 +1764,7 @@ mod tests {
// vec![
// b::sp(),
// b::braced(vec![
// b::path(b::var("it"), vec![b::member("size")]),
// b::path(b::it_var(), vec![b::member("size")]),
// b::sp(),
// b::op(">"),
// b::sp(),
@ -1669,10 +1779,13 @@ mod tests {
// }
fn apply(
f: impl Fn(NomSpan) -> Result<(NomSpan, TokenNode), nom::Err<(NomSpan, nom::error::ErrorKind)>>,
f: impl Fn(
NomSpan,
)
-> Result<(NomSpan, SpannedToken), nom::Err<(NomSpan, nom::error::ErrorKind)>>,
desc: &str,
string: &str,
) -> TokenNode {
) -> SpannedToken {
let result = f(nom_input(string));
match result {
@ -1693,20 +1806,15 @@ mod tests {
fn delimited(
delimiter: Spanned<Delimiter>,
children: Vec<TokenNode>,
children: Vec<SpannedToken>,
left: usize,
right: usize,
) -> TokenNode {
) -> SpannedToken {
let start = Span::for_char(left);
let end = Span::for_char(right);
let node = DelimitedNode::new(delimiter.item, (start, end), children);
let spanned = node.spanned(Span::new(left, right));
TokenNode::Delimited(spanned)
}
fn token(token: UnspannedToken, left: usize, right: usize) -> TokenNode {
TokenNode::Token(token.into_token(Span::new(left, right)))
Token::Delimited(node).into_spanned((left, right))
}
fn build<T>(block: CurriedNode<T>) -> T {
@ -1714,7 +1822,7 @@ mod tests {
block(&mut builder)
}
fn build_token(block: CurriedToken) -> TokenNode {
fn build_token(block: CurriedToken) -> SpannedToken {
TokenTreeBuilder::build(block).0
}
}

View File

@ -1,23 +1,32 @@
use crate::TokenNode;
use crate::{SpannedToken, Token};
use derive_new::new;
use getset::Getters;
use nu_source::{b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Spanned};
use nu_source::{
b, DebugDocBuilder, HasSpan, IntoSpanned, PrettyDebugWithSource, Span, Spanned, SpannedItem,
};
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Getters, new)]
pub struct Pipeline {
#[get = "pub"]
pub(crate) parts: Vec<PipelineElement>,
pub(crate) span: Span,
}
impl IntoSpanned for Pipeline {
type Output = Spanned<Pipeline>;
fn into_spanned(self, span: impl Into<Span>) -> Self::Output {
self.spanned(span.into())
}
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters, new)]
pub struct Tokens {
pub(crate) tokens: Vec<TokenNode>,
pub(crate) tokens: Vec<SpannedToken>,
pub(crate) span: Span,
}
impl Tokens {
pub fn iter(&self) -> impl Iterator<Item = &TokenNode> {
pub fn iter(&self) -> impl Iterator<Item = &SpannedToken> {
self.tokens.iter()
}
}
@ -38,7 +47,7 @@ impl HasSpan for PipelineElement {
}
impl PipelineElement {
pub fn new(pipe: Option<Span>, tokens: Spanned<Vec<TokenNode>>) -> PipelineElement {
pub fn new(pipe: Option<Span>, tokens: Spanned<Vec<SpannedToken>>) -> PipelineElement {
PipelineElement {
pipe,
tokens: Tokens {
@ -48,7 +57,7 @@ impl PipelineElement {
}
}
pub fn tokens(&self) -> &[TokenNode] {
pub fn tokens(&self) -> &[SpannedToken] {
&self.tokens.tokens
}
}
@ -65,9 +74,9 @@ impl PrettyDebugWithSource for Pipeline {
impl PrettyDebugWithSource for PipelineElement {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
b::intersperse(
self.tokens.iter().map(|token| match token {
TokenNode::Whitespace(_) => b::blank(),
token => token.pretty_debug(source),
self.tokens.iter().map(|token| match token.unspanned() {
Token::Whitespace => b::blank(),
_ => token.pretty_debug(source),
}),
b::space(),
)

View File

@ -1,162 +1,275 @@
use crate::parse::{call_node::*, comment::*, flag::*, operator::*, pipeline::*, tokens::*};
#![allow(clippy::type_complexity)]
use crate::parse::{call_node::*, comment::*, flag::*, number::*, operator::*, pipeline::*};
use derive_new::new;
use getset::Getters;
use nu_errors::{ParseError, ShellError};
use nu_protocol::ShellTypeName;
use nu_protocol::{ShellTypeName, SpannedTypeName};
use nu_source::{
b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Spanned, SpannedItem, Tagged,
TaggedItem, Text,
b, DebugDocBuilder, HasSpan, PrettyDebugWithSource, Span, Spanned, SpannedItem, Text,
};
use std::fmt;
use std::borrow::Cow;
use std::ops::Deref;
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd)]
pub enum TokenNode {
Token(Token),
pub enum Token {
Number(RawNumber),
CompareOperator(CompareOperator),
EvaluationOperator(EvaluationOperator),
String(Span),
Variable(Span),
ItVariable(Span),
ExternalCommand(Span),
ExternalWord,
GlobPattern,
Bare,
Garbage,
Call(Spanned<CallNode>),
Nodes(Spanned<Vec<TokenNode>>),
Delimited(Spanned<DelimitedNode>),
Call(CallNode),
Delimited(DelimitedNode),
Pipeline(Pipeline),
Flag(Flag),
Comment(Comment),
Whitespace(Span),
Separator(Span),
Error(Spanned<ShellError>),
Whitespace,
Separator,
}
impl PrettyDebugWithSource for TokenNode {
macro_rules! token_type {
(struct $name:tt (desc: $desc:tt) -> $out:ty { |$span:ident, $pat:pat| => $do:expr }) => {
pub struct $name;
impl TokenType for $name {
type Output = $out;
fn desc(&self) -> Cow<'static, str> {
Cow::Borrowed($desc)
}
fn extract_token_value(
&self,
token: &SpannedToken,
err: ParseErrorFn<$out>,
) -> Result<$out, ParseError> {
let $span = token.span();
match *token.unspanned() {
$pat => Ok($do),
_ => err(),
}
}
}
};
(struct $name:tt (desc: $desc:tt) -> $out:ty { $pat:pat => $do:expr }) => {
pub struct $name;
impl TokenType for $name {
type Output = $out;
fn desc(&self) -> Cow<'static, str> {
Cow::Borrowed($desc)
}
fn extract_token_value(
&self,
token: &SpannedToken,
err: ParseErrorFn<$out>,
) -> Result<$out, ParseError> {
match token.unspanned().clone() {
$pat => Ok($do),
_ => err(),
}
}
}
};
}
pub type ParseErrorFn<'a, T> = &'a dyn Fn() -> Result<T, ParseError>;
token_type!(struct IntType (desc: "integer") -> RawNumber {
Token::Number(number @ RawNumber::Int(_)) => number
});
token_type!(struct DecimalType (desc: "decimal") -> RawNumber {
Token::Number(number @ RawNumber::Decimal(_)) => number
});
token_type!(struct StringType (desc: "string") -> (Span, Span) {
|outer, Token::String(inner)| => (inner, outer)
});
token_type!(struct BareType (desc: "word") -> Span {
|span, Token::Bare| => span
});
token_type!(struct DotType (desc: "dot") -> Span {
|span, Token::EvaluationOperator(EvaluationOperator::Dot)| => span
});
token_type!(struct DotDotType (desc: "dotdot") -> Span {
|span, Token::EvaluationOperator(EvaluationOperator::DotDot)| => span
});
token_type!(struct CompareOperatorType (desc: "compare operator") -> (Span, CompareOperator) {
|span, Token::CompareOperator(operator)| => (span, operator)
});
token_type!(struct ExternalWordType (desc: "external word") -> Span {
|span, Token::ExternalWord| => span
});
token_type!(struct ExternalCommandType (desc: "external command") -> (Span, Span) {
|outer, Token::ExternalCommand(inner)| => (inner, outer)
});
token_type!(struct CommentType (desc: "comment") -> (Comment, Span) {
|outer, Token::Comment(comment)| => (comment, outer)
});
token_type!(struct SeparatorType (desc: "separator") -> Span {
|span, Token::Separator| => span
});
token_type!(struct WhitespaceType (desc: "whitespace") -> Span {
|span, Token::Whitespace| => span
});
token_type!(struct WordType (desc: "word") -> Span {
|span, Token::Bare| => span
});
token_type!(struct ItVarType (desc: "$it") -> (Span, Span) {
|outer, Token::ItVariable(inner)| => (inner, outer)
});
token_type!(struct VarType (desc: "variable") -> (Span, Span) {
|outer, Token::Variable(inner)| => (inner, outer)
});
token_type!(struct PipelineType (desc: "pipeline") -> Pipeline {
Token::Pipeline(pipeline) => pipeline
});
token_type!(struct BlockType (desc: "block") -> DelimitedNode {
Token::Delimited(block @ DelimitedNode { delimiter: Delimiter::Brace, .. }) => block
});
token_type!(struct SquareType (desc: "square") -> DelimitedNode {
Token::Delimited(square @ DelimitedNode { delimiter: Delimiter::Square, .. }) => square
});
pub trait TokenType {
type Output;
fn desc(&self) -> Cow<'static, str>;
fn extract_token_value(
&self,
token: &SpannedToken,
err: ParseErrorFn<Self::Output>,
) -> Result<Self::Output, ParseError>;
}
impl Token {
pub fn into_spanned(self, span: impl Into<Span>) -> SpannedToken {
SpannedToken {
unspanned: self,
span: span.into(),
}
}
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters)]
pub struct SpannedToken {
#[get = "pub"]
unspanned: Token,
span: Span,
}
impl Deref for SpannedToken {
type Target = Token;
fn deref(&self) -> &Self::Target {
&self.unspanned
}
}
impl HasSpan for SpannedToken {
fn span(&self) -> Span {
self.span
}
}
impl ShellTypeName for SpannedToken {
fn type_name(&self) -> &'static str {
self.unspanned.type_name()
}
}
impl PrettyDebugWithSource for SpannedToken {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match self {
TokenNode::Token(token) => token.pretty_debug(source),
TokenNode::Call(call) => call.pretty_debug(source),
TokenNode::Nodes(nodes) => b::intersperse(
nodes.iter().map(|node| node.pretty_debug(source)),
b::space(),
),
TokenNode::Delimited(delimited) => delimited.pretty_debug(source),
TokenNode::Pipeline(pipeline) => pipeline.pretty_debug(source),
TokenNode::Flag(flag) => flag.pretty_debug(source),
TokenNode::Whitespace(space) => b::typed(
match self.unspanned() {
Token::Number(number) => number.pretty_debug(source),
Token::CompareOperator(operator) => operator.pretty_debug(source),
Token::EvaluationOperator(operator) => operator.pretty_debug(source),
Token::String(_) | Token::GlobPattern | Token::Bare => {
b::primitive(self.span.slice(source))
}
Token::Variable(_) => b::var(self.span.slice(source)),
Token::ItVariable(_) => b::keyword(self.span.slice(source)),
Token::ExternalCommand(_) => b::description(self.span.slice(source)),
Token::ExternalWord => b::description(self.span.slice(source)),
Token::Call(call) => call.pretty_debug(source),
Token::Delimited(delimited) => delimited.pretty_debug(source),
Token::Pipeline(pipeline) => pipeline.pretty_debug(source),
Token::Flag(flag) => flag.pretty_debug(source),
Token::Garbage => b::error(self.span.slice(source)),
Token::Whitespace => b::typed(
"whitespace",
b::description(format!("{:?}", space.slice(source))),
b::description(format!("{:?}", self.span.slice(source))),
),
TokenNode::Separator(span) => b::typed(
Token::Separator => b::typed(
"separator",
b::description(format!("{:?}", span.slice(source))),
b::description(format!("{:?}", self.span.slice(source))),
),
TokenNode::Comment(comment) => {
Token::Comment(comment) => {
b::typed("comment", b::description(comment.text.slice(source)))
}
TokenNode::Error(_) => b::error("error"),
}
}
}
impl ShellTypeName for TokenNode {
impl ShellTypeName for Token {
fn type_name(&self) -> &'static str {
match self {
TokenNode::Token(t) => t.type_name(),
TokenNode::Nodes(_) => "nodes",
TokenNode::Call(_) => "command",
TokenNode::Delimited(d) => d.type_name(),
TokenNode::Pipeline(_) => "pipeline",
TokenNode::Flag(_) => "flag",
TokenNode::Whitespace(_) => "whitespace",
TokenNode::Separator(_) => "separator",
TokenNode::Comment(_) => "comment",
TokenNode::Error(_) => "error",
Token::Number(_) => "number",
Token::CompareOperator(_) => "comparison operator",
Token::EvaluationOperator(EvaluationOperator::Dot) => "dot",
Token::EvaluationOperator(EvaluationOperator::DotDot) => "dot dot",
Token::String(_) => "string",
Token::Variable(_) => "variable",
Token::ItVariable(_) => "it variable",
Token::ExternalCommand(_) => "external command",
Token::ExternalWord => "external word",
Token::GlobPattern => "glob pattern",
Token::Bare => "word",
Token::Call(_) => "command",
Token::Delimited(d) => d.type_name(),
Token::Pipeline(_) => "pipeline",
Token::Flag(_) => "flag",
Token::Garbage => "garbage",
Token::Whitespace => "whitespace",
Token::Separator => "separator",
Token::Comment(_) => "comment",
}
}
}
pub struct DebugTokenNode<'a> {
node: &'a TokenNode,
source: &'a Text,
}
impl fmt::Debug for DebugTokenNode<'_> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self.node {
TokenNode::Token(t) => write!(f, "{:?}", t.debug(self.source)),
TokenNode::Call(s) => {
write!(f, "(")?;
write!(f, "{}", s.head().debug(self.source))?;
if let Some(children) = s.children() {
for child in children {
write!(f, "{}", child.debug(self.source))?;
}
}
write!(f, ")")
}
TokenNode::Delimited(d) => {
write!(
f,
"{}",
match d.delimiter {
Delimiter::Brace => "{",
Delimiter::Paren => "(",
Delimiter::Square => "[",
}
)?;
for child in d.children() {
write!(f, "{:?}", child.old_debug(self.source))?;
}
write!(
f,
"{}",
match d.delimiter {
Delimiter::Brace => "}",
Delimiter::Paren => ")",
Delimiter::Square => "]",
}
)
}
TokenNode::Pipeline(pipeline) => write!(f, "{}", pipeline.debug(self.source)),
TokenNode::Error(_) => write!(f, "<error>"),
rest => write!(f, "{}", rest.span().slice(self.source)),
}
impl From<&SpannedToken> for Span {
fn from(token: &SpannedToken) -> Span {
token.span
}
}
impl From<&TokenNode> for Span {
fn from(token: &TokenNode) -> Span {
token.span()
}
}
impl HasSpan for TokenNode {
fn span(&self) -> Span {
match self {
TokenNode::Token(t) => t.span,
TokenNode::Nodes(t) => t.span,
TokenNode::Call(s) => s.span,
TokenNode::Delimited(s) => s.span,
TokenNode::Pipeline(s) => s.span,
TokenNode::Flag(s) => s.span,
TokenNode::Whitespace(s) => *s,
TokenNode::Separator(s) => *s,
TokenNode::Comment(c) => c.span(),
TokenNode::Error(s) => s.span,
}
}
}
impl TokenNode {
pub fn tagged_type_name(&self) -> Tagged<&'static str> {
self.type_name().tagged(self.span())
}
pub fn old_debug<'a>(&'a self, source: &'a Text) -> DebugTokenNode<'a> {
DebugTokenNode { node: self, source }
}
impl SpannedToken {
pub fn as_external_arg(&self, source: &Text) -> String {
self.span().slice(source).to_string()
}
@ -166,145 +279,105 @@ impl TokenNode {
}
pub fn get_variable(&self) -> Result<(Span, Span), ShellError> {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Variable(inner_span),
span: outer_span,
}) => Ok((*outer_span, *inner_span)),
_ => Err(ShellError::type_error(
"variable",
self.type_name().spanned(self.span()),
)),
match self.unspanned() {
Token::Variable(inner_span) => Ok((self.span(), *inner_span)),
_ => Err(ShellError::type_error("variable", self.spanned_type_name())),
}
}
pub fn is_bare(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Bare,
..
}) => true,
match self.unspanned() {
Token::Bare => true,
_ => false,
}
}
pub fn is_string(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::String(_),
..
}) => true,
match self.unspanned() {
Token::String(_) => true,
_ => false,
}
}
pub fn is_number(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Number(_),
..
}) => true,
match self.unspanned() {
Token::Number(_) => true,
_ => false,
}
}
pub fn as_string(&self) -> Option<(Span, Span)> {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::String(inner_span),
span: outer_span,
}) => Some((*outer_span, *inner_span)),
match self.unspanned() {
Token::String(inner_span) => Some((self.span(), *inner_span)),
_ => None,
}
}
pub fn is_pattern(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::GlobPattern,
..
}) => true,
match self.unspanned() {
Token::GlobPattern => true,
_ => false,
}
}
pub fn is_word(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Bare,
..
}) => true,
match self.unspanned() {
Token::Bare => true,
_ => false,
}
}
pub fn is_int(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Number(RawNumber::Int(_)),
..
}) => true,
match self.unspanned() {
Token::Number(RawNumber::Int(_)) => true,
_ => false,
}
}
pub fn is_dot(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::EvaluationOperator(EvaluationOperator::Dot),
..
}) => true,
match self.unspanned() {
Token::EvaluationOperator(EvaluationOperator::Dot) => true,
_ => false,
}
}
pub fn as_block(&self) -> Option<(Spanned<&[TokenNode]>, (Span, Span))> {
match self {
TokenNode::Delimited(Spanned {
item:
DelimitedNode {
delimiter,
children,
spans,
},
span,
}) if *delimiter == Delimiter::Brace => Some(((&children[..]).spanned(*span), *spans)),
_ => None,
}
}
pub fn is_external(&self) -> bool {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::ExternalCommand(..),
..
}) => true,
_ => false,
}
}
pub(crate) fn as_flag(&self, value: &str, source: &Text) -> Option<Flag> {
match self {
TokenNode::Flag(flag @ Flag { .. }) if value == flag.name().slice(source) => {
Some(*flag)
pub fn as_block(&self) -> Option<(Spanned<&[SpannedToken]>, (Span, Span))> {
match self.unspanned() {
Token::Delimited(DelimitedNode {
delimiter,
children,
spans,
}) if *delimiter == Delimiter::Brace => {
Some(((&children[..]).spanned(self.span()), *spans))
}
_ => None,
}
}
pub fn is_external(&self) -> bool {
match self.unspanned() {
Token::ExternalCommand(..) => true,
_ => false,
}
}
pub(crate) fn as_flag(&self, value: &str, source: &Text) -> Option<Flag> {
match self.unspanned() {
Token::Flag(flag @ Flag { .. }) if value == flag.name().slice(source) => Some(*flag),
_ => None,
}
}
pub fn as_pipeline(&self) -> Result<Pipeline, ParseError> {
match self {
TokenNode::Pipeline(pipeline) => Ok(pipeline.clone()),
other => Err(ParseError::mismatch(
"pipeline",
other.type_name().spanned(other.span()),
)),
match self.unspanned() {
Token::Pipeline(pipeline) => Ok(pipeline.clone()),
_ => Err(ParseError::mismatch("pipeline", self.spanned_type_name())),
}
}
pub fn is_whitespace(&self) -> bool {
match self {
TokenNode::Whitespace(_) => true,
match self.unspanned() {
Token::Whitespace => true,
_ => false,
}
}
@ -315,7 +388,13 @@ impl TokenNode {
pub struct DelimitedNode {
pub(crate) delimiter: Delimiter,
pub(crate) spans: (Span, Span),
pub(crate) children: Vec<TokenNode>,
pub(crate) children: Vec<SpannedToken>,
}
impl HasSpan for DelimitedNode {
fn span(&self) -> Span {
self.spans.0.until(self.spans.1)
}
}
impl PrettyDebugWithSource for DelimitedNode {
@ -369,79 +448,68 @@ impl Delimiter {
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters, new)]
#[get = "pub(crate)"]
pub struct PathNode {
head: Box<TokenNode>,
tail: Vec<TokenNode>,
head: Box<SpannedToken>,
tail: Vec<SpannedToken>,
}
#[cfg(test)]
impl TokenNode {
impl SpannedToken {
pub fn expect_external(&self) -> Span {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::ExternalCommand(span),
..
}) => *span,
other => panic!(
match self.unspanned() {
Token::ExternalCommand(span) => *span,
_ => panic!(
"Only call expect_external if you checked is_external first, found {:?}",
other
self
),
}
}
pub fn expect_string(&self) -> (Span, Span) {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::String(inner_span),
span: outer_span,
}) => (*outer_span, *inner_span),
match self.unspanned() {
Token::String(inner_span) => (self.span(), *inner_span),
other => panic!("Expected string, found {:?}", other),
}
}
pub fn expect_list(&self) -> Spanned<&[TokenNode]> {
match self {
TokenNode::Nodes(token_nodes) => token_nodes[..].spanned(token_nodes.span),
other => panic!("Expected list, found {:?}", other),
pub fn expect_list(&self) -> Spanned<Vec<SpannedToken>> {
match self.unspanned() {
Token::Pipeline(pipeline) => pipeline
.parts()
.iter()
.flat_map(|part| part.tokens())
.cloned()
.collect::<Vec<SpannedToken>>()
.spanned(self.span()),
_ => panic!("Expected list, found {:?}", self),
}
}
pub fn expect_pattern(&self) -> Span {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::GlobPattern,
span: outer_span,
}) => *outer_span,
other => panic!("Expected pattern, found {:?}", other),
match self.unspanned() {
Token::GlobPattern => self.span(),
_ => panic!("Expected pattern, found {:?}", self),
}
}
pub fn expect_var(&self) -> (Span, Span) {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Variable(inner_span),
span: outer_span,
}) => (*outer_span, *inner_span),
match self.unspanned() {
Token::Variable(inner_span) => (self.span(), *inner_span),
Token::ItVariable(inner_span) => (self.span(), *inner_span),
other => panic!("Expected var, found {:?}", other),
}
}
pub fn expect_dot(&self) -> Span {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::EvaluationOperator(EvaluationOperator::Dot),
span,
}) => *span,
match self.unspanned() {
Token::EvaluationOperator(EvaluationOperator::Dot) => self.span(),
other => panic!("Expected dot, found {:?}", other),
}
}
pub fn expect_bare(&self) -> Span {
match self {
TokenNode::Token(Token {
unspanned: UnspannedToken::Bare,
span,
}) => *span,
other => panic!("Expected bare, found {:?}", other),
match self.unspanned() {
Token::Bare => self.span(),
_ => panic!("Expected bare, found {:?}", self),
}
}
}

View File

@ -1,10 +1,10 @@
use crate::parse::call_node::CallNode;
use crate::parse::comment::Comment;
use crate::parse::flag::{Flag, FlagKind};
use crate::parse::number::RawNumber;
use crate::parse::operator::{CompareOperator, EvaluationOperator};
use crate::parse::pipeline::{Pipeline, PipelineElement};
use crate::parse::token_tree::{DelimitedNode, Delimiter, TokenNode};
use crate::parse::tokens::{RawNumber, UnspannedToken};
use crate::parse::token_tree::{DelimitedNode, Delimiter, SpannedToken, Token};
use bigdecimal::BigDecimal;
use nu_source::{Span, Spanned, SpannedItem};
use num_bigint::BigInt;
@ -21,11 +21,11 @@ impl TokenTreeBuilder {
}
}
pub type CurriedToken = Box<dyn FnOnce(&mut TokenTreeBuilder) -> TokenNode + 'static>;
pub type CurriedToken = Box<dyn FnOnce(&mut TokenTreeBuilder) -> SpannedToken + 'static>;
pub type CurriedCall = Box<dyn FnOnce(&mut TokenTreeBuilder) -> Spanned<CallNode> + 'static>;
impl TokenTreeBuilder {
pub fn build(block: impl FnOnce(&mut Self) -> TokenNode) -> (TokenNode, String) {
pub fn build(block: impl FnOnce(&mut Self) -> SpannedToken) -> (SpannedToken, String) {
let mut builder = TokenTreeBuilder::new();
let node = block(&mut builder);
(node, builder.output)
@ -77,8 +77,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_pipeline(input: Vec<PipelineElement>, span: impl Into<Span>) -> TokenNode {
TokenNode::Pipeline(Pipeline::new(input, span.into()))
pub fn spanned_pipeline(input: Vec<PipelineElement>, span: impl Into<Span>) -> SpannedToken {
Token::Pipeline(Pipeline::new(input)).into_spanned(span)
}
pub fn token_list(input: Vec<CurriedToken>) -> CurriedToken {
@ -91,8 +91,28 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_token_list(input: Vec<TokenNode>, span: impl Into<Span>) -> TokenNode {
TokenNode::Nodes(input.spanned(span.into()))
pub fn spanned_token_list(input: Vec<SpannedToken>, span: impl Into<Span>) -> SpannedToken {
let span = span.into();
Token::Pipeline(Pipeline::new(vec![PipelineElement::new(
None,
input.spanned(span),
)]))
.into_spanned(span)
}
pub fn garbage(input: impl Into<String>) -> CurriedToken {
let input = input.into();
Box::new(move |b| {
let (start, end) = b.consume(&input);
b.pos = end;
TokenTreeBuilder::spanned_garbage(Span::new(start, end))
})
}
pub fn spanned_garbage(span: impl Into<Span>) -> SpannedToken {
Token::Garbage.into_spanned(span)
}
pub fn op(input: impl Into<CompareOperator>) -> CurriedToken {
@ -107,8 +127,11 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_cmp_op(input: impl Into<CompareOperator>, span: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::CompareOperator(input.into()).into_token(span))
pub fn spanned_cmp_op(
input: impl Into<CompareOperator>,
span: impl Into<Span>,
) -> SpannedToken {
Token::CompareOperator(input.into()).into_spanned(span)
}
pub fn dot() -> CurriedToken {
@ -134,8 +157,8 @@ impl TokenTreeBuilder {
pub fn spanned_eval_op(
input: impl Into<EvaluationOperator>,
span: impl Into<Span>,
) -> TokenNode {
TokenNode::Token(UnspannedToken::EvaluationOperator(input.into()).into_token(span))
) -> SpannedToken {
Token::EvaluationOperator(input.into()).into_spanned(span)
}
pub fn string(input: impl Into<String>) -> CurriedToken {
@ -154,8 +177,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_string(input: impl Into<Span>, span: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::String(input.into()).into_token(span))
pub fn spanned_string(input: impl Into<Span>, span: impl Into<Span>) -> SpannedToken {
Token::String(input.into()).into_spanned(span)
}
pub fn bare(input: impl Into<String>) -> CurriedToken {
@ -169,8 +192,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_bare(span: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::Bare.into_token(span))
pub fn spanned_bare(span: impl Into<Span>) -> SpannedToken {
Token::Bare.into_spanned(span)
}
pub fn pattern(input: impl Into<String>) -> CurriedToken {
@ -184,8 +207,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_pattern(input: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::GlobPattern.into_token(input))
pub fn spanned_pattern(input: impl Into<Span>) -> SpannedToken {
Token::GlobPattern.into_spanned(input)
}
pub fn external_word(input: impl Into<String>) -> CurriedToken {
@ -199,8 +222,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_external_word(input: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::ExternalWord.into_token(input))
pub fn spanned_external_word(input: impl Into<Span>) -> SpannedToken {
Token::ExternalWord.into_spanned(input)
}
pub fn external_command(input: impl Into<String>) -> CurriedToken {
@ -218,8 +241,11 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_external_command(inner: impl Into<Span>, outer: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::ExternalCommand(inner.into()).into_token(outer))
pub fn spanned_external_command(
inner: impl Into<Span>,
outer: impl Into<Span>,
) -> SpannedToken {
Token::ExternalCommand(inner.into()).into_spanned(outer)
}
pub fn int(input: impl Into<BigInt>) -> CurriedToken {
@ -250,8 +276,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_number(input: impl Into<RawNumber>, span: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::Number(input.into()).into_token(span))
pub fn spanned_number(input: impl Into<RawNumber>, span: impl Into<Span>) -> SpannedToken {
Token::Number(input.into()).into_spanned(span)
}
pub fn var(input: impl Into<String>) -> CurriedToken {
@ -265,8 +291,21 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_var(input: impl Into<Span>, span: impl Into<Span>) -> TokenNode {
TokenNode::Token(UnspannedToken::Variable(input.into()).into_token(span))
pub fn spanned_var(input: impl Into<Span>, span: impl Into<Span>) -> SpannedToken {
Token::Variable(input.into()).into_spanned(span)
}
pub fn it_var() -> CurriedToken {
Box::new(move |b| {
let (start, _) = b.consume("$");
let (inner_start, end) = b.consume("it");
TokenTreeBuilder::spanned_it_var(Span::new(inner_start, end), Span::new(start, end))
})
}
pub fn spanned_it_var(input: impl Into<Span>, span: impl Into<Span>) -> SpannedToken {
Token::ItVariable(input.into()).into_spanned(span)
}
pub fn flag(input: impl Into<String>) -> CurriedToken {
@ -280,8 +319,9 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_flag(input: impl Into<Span>, span: impl Into<Span>) -> TokenNode {
TokenNode::Flag(Flag::new(FlagKind::Longhand, input.into(), span.into()))
pub fn spanned_flag(input: impl Into<Span>, span: impl Into<Span>) -> SpannedToken {
let span = span.into();
Token::Flag(Flag::new(FlagKind::Longhand, input.into())).into_spanned(span)
}
pub fn shorthand(input: impl Into<String>) -> CurriedToken {
@ -295,8 +335,10 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_shorthand(input: impl Into<Span>, span: impl Into<Span>) -> TokenNode {
TokenNode::Flag(Flag::new(FlagKind::Shorthand, input.into(), span.into()))
pub fn spanned_shorthand(input: impl Into<Span>, span: impl Into<Span>) -> SpannedToken {
let span = span.into();
Token::Flag(Flag::new(FlagKind::Shorthand, input.into())).into_spanned(span)
}
pub fn call(head: CurriedToken, input: Vec<CurriedToken>) -> CurriedCall {
@ -316,7 +358,7 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_call(input: Vec<TokenNode>, span: impl Into<Span>) -> Spanned<CallNode> {
pub fn spanned_call(input: Vec<SpannedToken>, span: impl Into<Span>) -> Spanned<CallNode> {
if input.is_empty() {
panic!("BUG: spanned call (TODO)")
}
@ -337,7 +379,7 @@ impl TokenTreeBuilder {
input: Vec<CurriedToken>,
_open: &str,
_close: &str,
) -> (Span, Span, Span, Vec<TokenNode>) {
) -> (Span, Span, Span, Vec<SpannedToken>) {
let (start_open_paren, end_open_paren) = self.consume("(");
let mut output = vec![];
for item in input {
@ -362,13 +404,12 @@ impl TokenTreeBuilder {
}
pub fn spanned_parens(
input: impl Into<Vec<TokenNode>>,
input: impl Into<Vec<SpannedToken>>,
spans: (Span, Span),
span: impl Into<Span>,
) -> TokenNode {
TokenNode::Delimited(
DelimitedNode::new(Delimiter::Paren, spans, input.into()).spanned(span.into()),
)
) -> SpannedToken {
Token::Delimited(DelimitedNode::new(Delimiter::Paren, spans, input.into()))
.into_spanned(span.into())
}
pub fn square(input: Vec<CurriedToken>) -> CurriedToken {
@ -380,13 +421,12 @@ impl TokenTreeBuilder {
}
pub fn spanned_square(
input: impl Into<Vec<TokenNode>>,
input: impl Into<Vec<SpannedToken>>,
spans: (Span, Span),
span: impl Into<Span>,
) -> TokenNode {
TokenNode::Delimited(
DelimitedNode::new(Delimiter::Square, spans, input.into()).spanned(span.into()),
)
) -> SpannedToken {
Token::Delimited(DelimitedNode::new(Delimiter::Square, spans, input.into()))
.into_spanned(span)
}
pub fn braced(input: Vec<CurriedToken>) -> CurriedToken {
@ -398,19 +438,18 @@ impl TokenTreeBuilder {
}
pub fn spanned_brace(
input: impl Into<Vec<TokenNode>>,
input: impl Into<Vec<SpannedToken>>,
spans: (Span, Span),
span: impl Into<Span>,
) -> TokenNode {
TokenNode::Delimited(
DelimitedNode::new(Delimiter::Brace, spans, input.into()).spanned(span.into()),
)
) -> SpannedToken {
Token::Delimited(DelimitedNode::new(Delimiter::Brace, spans, input.into()))
.into_spanned(span)
}
pub fn sp() -> CurriedToken {
Box::new(|b| {
let (start, end) = b.consume(" ");
TokenNode::Whitespace(Span::new(start, end))
Token::Whitespace.into_spanned((start, end))
})
}
@ -423,8 +462,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_ws(span: impl Into<Span>) -> TokenNode {
TokenNode::Whitespace(span.into())
pub fn spanned_ws(span: impl Into<Span>) -> SpannedToken {
Token::Whitespace.into_spanned(span)
}
pub fn sep(input: impl Into<String>) -> CurriedToken {
@ -436,8 +475,8 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_sep(span: impl Into<Span>) -> TokenNode {
TokenNode::Separator(span.into())
pub fn spanned_sep(span: impl Into<Span>) -> SpannedToken {
Token::Separator.into_spanned(span)
}
pub fn comment(input: impl Into<String>) -> CurriedToken {
@ -453,8 +492,10 @@ impl TokenTreeBuilder {
})
}
pub fn spanned_comment(input: impl Into<Span>, span: impl Into<Span>) -> TokenNode {
TokenNode::Comment(Comment::line(input, span))
pub fn spanned_comment(input: impl Into<Span>, span: impl Into<Span>) -> SpannedToken {
let span = span.into();
Token::Comment(Comment::line(input)).into_spanned(span)
}
fn consume(&mut self, input: &str) -> (usize, usize) {

View File

@ -1,89 +1,109 @@
use crate::hir::syntax_shape::{
color_fallible_syntax, color_syntax, expand_expr, flat_shape::FlatShape, spaced,
BackoffColoringMode, ColorSyntax, MaybeSpaceShape,
BackoffColoringMode, ExpandSyntax, MaybeSpaceShape, MaybeWhitespaceEof,
};
use crate::hir::SpannedExpression;
use crate::TokensIterator;
use crate::{
hir::{self, ExpandContext, NamedArguments},
hir::{self, NamedArguments},
Flag,
};
use log::trace;
use nu_source::{PrettyDebugWithSource, Span, Spanned, SpannedItem, Text};
use nu_errors::{ArgumentError, ParseError};
use nu_protocol::{NamedType, PositionalType, Signature};
use nu_protocol::{NamedType, PositionalType, Signature, SyntaxShape};
use nu_source::{HasFallibleSpan, HasSpan, PrettyDebugWithSource, Span, Spanned, SpannedItem};
type OptionalHeadTail = (Option<Vec<hir::SpannedExpression>>, Option<NamedArguments>);
pub fn parse_command_tail(
config: &Signature,
context: &ExpandContext,
tail: &mut TokensIterator,
command_span: Span,
) -> Result<Option<(Option<Vec<hir::Expression>>, Option<NamedArguments>)>, ParseError> {
) -> Result<Option<OptionalHeadTail>, ParseError> {
let mut named = NamedArguments::new();
trace_remaining("nodes", &tail, context.source());
let mut found_error: Option<ParseError> = None;
let mut rest_signature = config.clone();
trace!(target: "nu::parse::trace_remaining", "");
trace_remaining("nodes", &tail);
for (name, kind) in &config.named {
trace!(target: "nu::parse", "looking for {} : {:?}", name, kind);
trace!(target: "nu::parse::trace_remaining", "looking for {} : {:?}", name, kind);
tail.move_to(0);
match &kind.0 {
NamedType::Switch => {
let flag = extract_switch(name, tail, context.source());
let switch = extract_switch(name, tail);
named.insert_switch(name, flag);
match switch {
None => named.insert_switch(name, None),
Some((_, flag)) => {
named.insert_switch(name, Some(*flag));
rest_signature.remove_named(name);
tail.color_shape(flag.color(flag.span));
}
}
}
NamedType::Help => {
let flag = extract_switch(name, tail, context.source());
let switch = extract_switch(name, tail);
named.insert_switch(name, flag);
if flag.is_some() {
return Ok(Some((None, Some(named))));
match switch {
None => named.insert_switch(name, None),
Some((_, flag)) => {
named.insert_switch(name, Some(*flag));
return Ok(Some((None, Some(named))));
}
}
}
NamedType::Mandatory(syntax_type) => {
match extract_mandatory(config, name, tail, context.source(), command_span) {
Err(err) => return Err(err), // produce a correct diagnostic
match extract_mandatory(config, name, tail, command_span) {
Err(err) => {
// remember this error, but continue coloring
found_error = Some(err);
}
Ok((pos, flag)) => {
tail.move_to(pos);
let result = expand_flag(tail, *syntax_type, flag, pos);
if tail.at_end() {
return Err(ParseError::argument_error(
config.name.clone().spanned(flag.span),
ArgumentError::MissingValueForName(name.to_string()),
));
match result {
Ok(expr) => {
named.insert_mandatory(name, expr);
rest_signature.remove_named(name);
}
Err(_) => {
found_error = Some(ParseError::argument_error(
config.name.clone().spanned(flag.span),
ArgumentError::MissingValueForName(name.to_string()),
))
}
}
let expr = expand_expr(&spaced(*syntax_type), tail, context)?;
tail.restart();
named.insert_mandatory(name, expr);
}
}
}
NamedType::Optional(syntax_type) => {
match extract_optional(name, tail, context.source()) {
Err(err) => return Err(err), // produce a correct diagnostic
match extract_optional(name, tail) {
Err(err) => {
// remember this error, but continue coloring
found_error = Some(err);
}
Ok(Some((pos, flag))) => {
tail.move_to(pos);
let result = expand_flag(tail, *syntax_type, flag, pos);
if tail.at_end() {
return Err(ParseError::argument_error(
config.name.clone().spanned(flag.span),
ArgumentError::MissingValueForName(name.to_string()),
));
match result {
Ok(expr) => {
named.insert_optional(name, Some(expr));
rest_signature.remove_named(name);
}
Err(_) => {
found_error = Some(ParseError::argument_error(
config.name.clone().spanned(flag.span),
ArgumentError::MissingValueForName(name.to_string()),
))
}
}
let expr = expand_expr(&spaced(*syntax_type), tail, context);
match expr {
Err(_) => named.insert_optional(name, None),
Ok(expr) => named.insert_optional(name, Some(expr)),
}
tail.restart();
}
Ok(None) => {
tail.restart();
named.insert_optional(name, None);
}
}
@ -91,56 +111,88 @@ pub fn parse_command_tail(
};
}
trace_remaining("after named", &tail, context.source());
trace_remaining("after named", &tail);
let mut positional = vec![];
for arg in &config.positional {
trace!(target: "nu::parse", "Processing positional {:?}", arg);
trace!(target: "nu::parse::trace_remaining", "Processing positional {:?}", arg);
match &arg.0 {
PositionalType::Mandatory(..) => {
if tail.at_end_possible_ws() {
return Err(ParseError::argument_error(
config.name.clone().spanned(command_span),
ArgumentError::MissingMandatoryPositional(arg.0.name().to_string()),
));
}
}
tail.move_to(0);
let result = expand_spaced_expr(arg.0.syntax_type(), tail);
match result {
Err(_) => match &arg.0 {
PositionalType::Mandatory(..) => {
if found_error.is_none() {
found_error = Some(ParseError::argument_error(
config.name.clone().spanned(command_span),
ArgumentError::MissingMandatoryPositional(arg.0.name().to_string()),
));
}
PositionalType::Optional(..) => {
if tail.at_end_possible_ws() {
break;
}
PositionalType::Optional(..) => {
if tail.expand_syntax(MaybeWhitespaceEof).is_ok() {
break;
}
}
},
Ok(result) => {
rest_signature.shift_positional();
positional.push(result);
}
}
let result = expand_expr(&spaced(arg.0.syntax_type()), tail, context)?;
positional.push(result);
}
trace_remaining("after positional", &tail, context.source());
trace_remaining("after positional", &tail);
if let Some((syntax_type, _)) = config.rest_positional {
let mut out = vec![];
loop {
if tail.at_end_possible_ws() {
if found_error.is_some() {
break;
}
let next = expand_expr(&spaced(syntax_type), tail, context)?;
tail.move_to(0);
out.push(next);
trace_remaining("start rest", &tail);
eat_any_whitespace(tail);
trace_remaining("after whitespace", &tail);
if tail.at_end() {
break;
}
match tail.expand_syntax(syntax_type) {
Err(err) => found_error = Some(err),
Ok(next) => out.push(next),
};
}
positional.extend(out);
}
trace_remaining("after rest", &tail, context.source());
eat_any_whitespace(tail);
trace!(target: "nu::parse", "Constructed positional={:?} named={:?}", positional, named);
// Consume any remaining tokens with backoff coloring mode
tail.expand_infallible(BackoffColoringMode::new(rest_signature.allowed()));
// This is pretty dubious, but it works. We should look into a better algorithm that doesn't end up requiring
// this solution.
tail.sort_shapes();
if let Some(err) = found_error {
return Err(err);
}
trace_remaining("after rest", &tail);
trace!(target: "nu::parse::trace_remaining", "Constructed positional={:?} named={:?}", positional, named);
let positional = if positional.is_empty() {
None
@ -156,237 +208,72 @@ pub fn parse_command_tail(
Some(named)
};
trace!(target: "nu::parse", "Normalized positional={:?} named={:?}", positional, named);
trace!(target: "nu::parse::trace_remaining", "Normalized positional={:?} named={:?}", positional, named);
Ok(Some((positional, named)))
}
#[derive(Debug)]
struct ColoringArgs {
vec: Vec<Option<Vec<Spanned<FlatShape>>>>,
}
impl ColoringArgs {
fn new(len: usize) -> ColoringArgs {
let vec = vec![None; len];
ColoringArgs { vec }
}
fn insert(&mut self, pos: usize, shapes: Vec<Spanned<FlatShape>>) {
self.vec[pos] = Some(shapes);
}
fn spread_shapes(self, shapes: &mut Vec<Spanned<FlatShape>>) {
for item in self.vec {
match item {
None => {}
Some(vec) => {
shapes.extend(vec);
}
}
fn eat_any_whitespace(tail: &mut TokensIterator) {
loop {
match tail.expand_infallible(MaybeSpaceShape) {
None => break,
Some(_) => continue,
}
}
}
#[derive(Debug, Copy, Clone)]
pub struct CommandTailShape;
fn expand_flag(
token_nodes: &mut TokensIterator,
syntax_type: SyntaxShape,
flag: Spanned<Flag>,
pos: usize,
) -> Result<SpannedExpression, ()> {
token_nodes.color_shape(flag.color(flag.span));
impl ColorSyntax for CommandTailShape {
type Info = ();
type Input = Signature;
let result = token_nodes.atomic_parse(|token_nodes| {
token_nodes.move_to(pos);
fn name(&self) -> &'static str {
"CommandTailShape"
}
fn color_syntax<'a, 'b>(
&self,
signature: &Signature,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Self::Info {
use nu_protocol::SyntaxShape;
let mut args = ColoringArgs::new(token_nodes.len());
trace_remaining("nodes", &token_nodes, context.source());
fn insert_flag(
token_nodes: &mut TokensIterator,
syntax_type: SyntaxShape,
args: &mut ColoringArgs,
flag: Flag,
pos: usize,
context: &ExpandContext,
) {
let (_, shapes) = token_nodes.atomic_returning_shapes(|token_nodes| {
token_nodes.color_shape(flag.color());
token_nodes.move_to(pos);
if token_nodes.at_end() {
return Ok(());
}
// We still want to color the flag even if the following tokens don't match, so don't
// propagate the error to the parent atomic block if it fails
let _ = token_nodes.atomic(|token_nodes| {
// We can live with unmatched syntax after a mandatory flag
color_syntax(&MaybeSpaceShape, token_nodes, context);
// If the part after a mandatory flag isn't present, that's ok, but we
// should roll back any whitespace we chomped
color_fallible_syntax(&syntax_type, token_nodes, context)?;
Ok(())
});
Ok(())
});
args.insert(pos, shapes);
token_nodes.restart();
if token_nodes.at_end() {
return Err(ParseError::unexpected_eof("flag", Span::unknown()));
}
for (name, kind) in &signature.named {
trace!(target: "nu::color_syntax", "looking for {} : {:?}", name, kind);
let expr = expand_spaced_expr(syntax_type, token_nodes)?;
match &kind.0 {
NamedType::Switch | NamedType::Help => {
if let Some((pos, flag)) =
token_nodes.extract(|t| t.as_flag(name, context.source()))
{
args.insert(pos, vec![flag.color()])
}
}
NamedType::Mandatory(syntax_type) => {
match extract_mandatory(
signature,
name,
token_nodes,
context.source(),
Span::unknown(),
) {
Err(_) => {
// The mandatory flag didn't exist at all, so there's nothing to color
}
Ok((pos, flag)) => {
insert_flag(token_nodes, *syntax_type, &mut args, flag, pos, context)
}
}
}
NamedType::Optional(syntax_type) => {
match extract_optional(name, token_nodes, context.source()) {
Err(_) => {
// The optional flag didn't exist at all, so there's nothing to color
}
Ok(Some((pos, flag))) => {
insert_flag(token_nodes, *syntax_type, &mut args, flag, pos, context)
}
Ok(expr)
});
Ok(None) => {
token_nodes.restart();
}
}
}
};
}
trace_remaining("after named", &token_nodes, context.source());
for arg in &signature.positional {
trace!("Processing positional {:?}", arg);
match &arg.0 {
PositionalType::Mandatory(..) => {
if token_nodes.at_end() {
break;
}
}
PositionalType::Optional(..) => {
if token_nodes.at_end() {
break;
}
}
}
let pos = token_nodes.pos(false);
match pos {
None => break,
Some(pos) => {
// We can live with an unmatched positional argument. Hopefully it will be
// matched by a future token
let (_, shapes) = token_nodes.atomic_returning_shapes(|token_nodes| {
color_syntax(&MaybeSpaceShape, token_nodes, context);
// If no match, we should roll back any whitespace we chomped
color_fallible_syntax(&arg.0.syntax_type(), token_nodes, context)?;
Ok(())
});
args.insert(pos, shapes);
}
}
}
trace_remaining("after positional", &token_nodes, context.source());
if let Some((syntax_type, _)) = signature.rest_positional {
loop {
if token_nodes.at_end_possible_ws() {
break;
}
let pos = token_nodes.pos(false);
match pos {
None => break,
Some(pos) => {
// If any arguments don't match, we'll fall back to backoff coloring mode
let (result, shapes) = token_nodes.atomic_returning_shapes(|token_nodes| {
color_syntax(&MaybeSpaceShape, token_nodes, context);
// If no match, we should roll back any whitespace we chomped
color_fallible_syntax(&syntax_type, token_nodes, context)?;
Ok(())
});
args.insert(pos, shapes);
match result {
Err(_) => break,
Ok(_) => continue,
}
}
}
}
}
token_nodes.silently_mutate_shapes(|shapes| args.spread_shapes(shapes));
// Consume any remaining tokens with backoff coloring mode
color_syntax(&BackoffColoringMode, token_nodes, context);
// This is pretty dubious, but it works. We should look into a better algorithm that doesn't end up requiring
// this solution.
token_nodes.sort_shapes()
}
let expr = result.map_err(|_| ())?;
Ok(expr)
}
fn extract_switch(name: &str, tokens: &mut hir::TokensIterator<'_>, source: &Text) -> Option<Flag> {
tokens.extract(|t| t.as_flag(name, source)).map(|f| f.1)
fn expand_spaced_expr<
T: HasFallibleSpan + PrettyDebugWithSource + Clone + std::fmt::Debug + 'static,
>(
syntax: impl ExpandSyntax<Output = Result<T, ParseError>>,
token_nodes: &mut TokensIterator,
) -> Result<T, ParseError> {
token_nodes.atomic_parse(|token_nodes| {
token_nodes.expand_infallible(MaybeSpaceShape);
token_nodes.expand_syntax(syntax)
})
}
fn extract_switch(
name: &str,
tokens: &mut hir::TokensIterator<'_>,
) -> Option<(usize, Spanned<Flag>)> {
let source = tokens.source();
tokens.extract(|t| t.as_flag(name, &source).map(|flag| flag.spanned(t.span())))
}
fn extract_mandatory(
config: &Signature,
name: &str,
tokens: &mut hir::TokensIterator<'_>,
source: &Text,
span: Span,
) -> Result<(usize, Flag), ParseError> {
let flag = tokens.extract(|t| t.as_flag(name, source));
) -> Result<(usize, Spanned<Flag>), ParseError> {
let source = tokens.source();
let flag = tokens.extract(|t| t.as_flag(name, &source).map(|flag| flag.spanned(t.span())));
match flag {
None => Err(ParseError::argument_error(
@ -404,9 +291,9 @@ fn extract_mandatory(
fn extract_optional(
name: &str,
tokens: &mut hir::TokensIterator<'_>,
source: &Text,
) -> Result<Option<(usize, Flag)>, ParseError> {
let flag = tokens.extract(|t| t.as_flag(name, source));
) -> Result<Option<(usize, Spanned<Flag>)>, ParseError> {
let source = tokens.source();
let flag = tokens.extract(|t| t.as_flag(name, &source).map(|flag| flag.spanned(t.span())));
match flag {
None => Ok(None),
@ -417,15 +304,24 @@ fn extract_optional(
}
}
pub fn trace_remaining(desc: &'static str, tail: &hir::TokensIterator<'_>, source: &Text) {
pub fn trace_remaining(desc: &'static str, tail: &hir::TokensIterator<'_>) {
let offset = tail.clone().span_at_cursor();
let source = tail.source();
trace!(
target: "nu::parse",
"{} = {:?}",
target: "nu::parse::trace_remaining",
"{} = {}",
desc,
itertools::join(
tail.debug_remaining()
.iter()
.map(|i| format!("%{}%", i.debug(source))),
.map(|val| {
if val.span().start() == offset.start() {
format!("<|> %{}%", val.debug(&source))
} else {
format!("%{}%", val.debug(&source))
}
}),
" "
)
);

View File

@ -109,6 +109,35 @@ pub struct Signature {
pub is_filter: bool,
}
impl Signature {
pub fn shift_positional(&mut self) {
self.positional = Vec::from(&self.positional[1..]);
}
pub fn remove_named(&mut self, name: &str) {
self.named.remove(name);
}
pub fn allowed(&self) -> Vec<String> {
let mut allowed = indexmap::IndexSet::new();
for (name, _) in &self.named {
allowed.insert(format!("--{}", name));
}
for (ty, _) in &self.positional {
let shape = ty.syntax_type();
allowed.insert(shape.display());
}
if let Some((shape, _)) = &self.rest_positional {
allowed.insert(shape.display());
}
allowed.into_iter().collect()
}
}
impl PrettyDebugWithSource for Signature {
/// Prepare a Signature for pretty-printing
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {

View File

@ -30,16 +30,16 @@ impl PrettyDebug for SyntaxShape {
/// Prepare SyntaxShape for pretty-printing
fn pretty(&self) -> DebugDocBuilder {
b::kind(match self {
SyntaxShape::Any => "any shape",
SyntaxShape::String => "string shape",
SyntaxShape::Member => "member shape",
SyntaxShape::ColumnPath => "column path shape",
SyntaxShape::Number => "number shape",
SyntaxShape::Range => "range shape",
SyntaxShape::Int => "integer shape",
SyntaxShape::Path => "file path shape",
SyntaxShape::Pattern => "pattern shape",
SyntaxShape::Block => "block shape",
SyntaxShape::Any => "any",
SyntaxShape::String => "string",
SyntaxShape::Member => "member",
SyntaxShape::ColumnPath => "column path",
SyntaxShape::Number => "number",
SyntaxShape::Range => "range",
SyntaxShape::Int => "integer",
SyntaxShape::Path => "file path",
SyntaxShape::Pattern => "pattern",
SyntaxShape::Block => "block",
})
}
}

View File

@ -6,10 +6,11 @@ mod tracable;
pub use self::meta::{
span_for_spanned_list, tag_for_tagged_list, AnchorLocation, HasFallibleSpan, HasSpan, HasTag,
Span, Spanned, SpannedItem, Tag, Tagged, TaggedItem,
IntoSpanned, Span, Spanned, SpannedItem, Tag, Tagged, TaggedItem,
};
pub use self::pretty::{
b, DebugDoc, DebugDocBuilder, PrettyDebug, PrettyDebugWithSource, ShellAnnotation,
b, DebugDoc, DebugDocBuilder, PrettyDebug, PrettyDebugRefineKind, PrettyDebugWithSource,
ShellAnnotation,
};
pub use self::term_colored::TermColored;
pub use self::text::Text;

View File

@ -490,6 +490,10 @@ impl Span {
}
}
pub fn contains(&self, pos: usize) -> bool {
self.start <= pos && self.end >= pos
}
pub fn since(&self, other: impl Into<Span>) -> Span {
let other = other.into();
@ -568,29 +572,66 @@ impl language_reporting::ReportingSpan for Span {
}
}
pub trait HasSpan: PrettyDebugWithSource {
fn span(&self) -> Span;
pub trait IntoSpanned {
type Output: HasFallibleSpan;
fn into_spanned(self, span: impl Into<Span>) -> Self::Output;
}
pub trait HasFallibleSpan: PrettyDebugWithSource {
fn maybe_span(&self) -> Option<Span>;
}
impl<T: HasSpan> HasFallibleSpan for T {
fn maybe_span(&self) -> Option<Span> {
Some(HasSpan::span(self))
impl<T: HasFallibleSpan> IntoSpanned for T {
type Output = T;
fn into_spanned(self, _span: impl Into<Span>) -> Self::Output {
self
}
}
impl<T> HasSpan for Spanned<T>
pub trait HasSpan {
fn span(&self) -> Span;
}
impl<T, E> HasSpan for Result<T, E>
where
Spanned<T>: PrettyDebugWithSource,
T: HasSpan,
{
fn span(&self) -> Span {
match self {
Result::Ok(val) => val.span(),
Result::Err(_) => Span::unknown(),
}
}
}
impl<T> HasSpan for Spanned<T> {
fn span(&self) -> Span {
self.span
}
}
pub trait HasFallibleSpan {
fn maybe_span(&self) -> Option<Span>;
}
impl HasFallibleSpan for bool {
fn maybe_span(&self) -> Option<Span> {
None
}
}
impl HasFallibleSpan for () {
fn maybe_span(&self) -> Option<Span> {
None
}
}
impl<T> HasFallibleSpan for T
where
T: HasSpan,
{
fn maybe_span(&self) -> Option<Span> {
Some(HasSpan::span(self))
}
}
impl PrettyDebugWithSource for Option<Span> {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match self {
@ -609,8 +650,8 @@ impl HasFallibleSpan for Option<Span> {
impl PrettyDebugWithSource for Span {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
b::typed(
"spanned",
b::keyword("for") + b::space() + b::description(format!("{:?}", source)),
"span",
b::keyword("for") + b::space() + b::description(format!("{:?}", self.slice(source))),
)
}
}
@ -628,15 +669,12 @@ where
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match self {
None => b::description("nothing"),
Some(v) => v.pretty_debug(source),
Some(v) => v.pretty_debug(v.span.slice(source)),
}
}
}
impl<T> HasFallibleSpan for Option<Spanned<T>>
where
Spanned<T>: PrettyDebugWithSource,
{
impl<T> HasFallibleSpan for Option<Spanned<T>> {
fn maybe_span(&self) -> Option<Span> {
match self {
None => None,
@ -657,10 +695,7 @@ where
}
}
impl<T> HasFallibleSpan for Option<Tagged<T>>
where
Tagged<T>: PrettyDebugWithSource,
{
impl<T> HasFallibleSpan for Option<Tagged<T>> {
fn maybe_span(&self) -> Option<Span> {
match self {
None => None,
@ -669,10 +704,7 @@ where
}
}
impl<T> HasSpan for Tagged<T>
where
Tagged<T>: PrettyDebugWithSource,
{
impl<T> HasSpan for Tagged<T> {
fn span(&self) -> Span {
self.tag.span
}

View File

@ -1,3 +1,4 @@
use crate::meta::Spanned;
use crate::term_colored::TermColored;
use crate::text::Text;
use derive_new::new;
@ -98,6 +99,21 @@ pub struct DebugDocBuilder {
pub inner: PrettyDebugDocBuilder,
}
impl PrettyDebug for bool {
fn pretty(&self) -> DebugDocBuilder {
match self {
true => b::primitive("true"),
false => b::primitive("false"),
}
}
}
impl PrettyDebug for () {
fn pretty(&self) -> DebugDocBuilder {
b::primitive("nothing")
}
}
impl PrettyDebug for DebugDocBuilder {
fn pretty(&self) -> DebugDocBuilder {
self.clone()
@ -156,7 +172,7 @@ impl DebugDocBuilder {
}
pub fn typed(kind: &str, value: DebugDocBuilder) -> DebugDocBuilder {
b::delimit("(", b::kind(kind) + b::space() + value.group(), ")").group()
b::kind(kind) + b::delimit("[", value.group(), "]")
}
pub fn subtyped(
@ -340,9 +356,23 @@ pub struct DebugDoc {
pub inner: PrettyDebugDoc,
}
#[derive(Debug, Copy, Clone)]
pub enum PrettyDebugRefineKind {
ContextFree,
WithContext,
}
pub trait PrettyDebugWithSource: Sized {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder;
fn refined_pretty_debug(
&self,
_refine: PrettyDebugRefineKind,
source: &str,
) -> DebugDocBuilder {
self.pretty_debug(source)
}
// This is a transitional convenience method
fn debug(&self, source: impl Into<Text>) -> String
where
@ -359,12 +389,27 @@ pub trait PrettyDebugWithSource: Sized {
}
}
impl<T: PrettyDebug> PrettyDebug for Spanned<T> {
fn pretty(&self) -> DebugDocBuilder {
self.item.pretty()
}
}
impl<T: PrettyDebug> PrettyDebugWithSource for T {
fn pretty_debug(&self, _source: &str) -> DebugDocBuilder {
self.pretty()
}
}
impl<T: PrettyDebugWithSource, E> PrettyDebugWithSource for Result<T, E> {
fn pretty_debug(&self, source: &str) -> DebugDocBuilder {
match self {
Err(_) => b::error("error"),
Ok(val) => val.pretty_debug(source),
}
}
}
pub struct DebuggableWithSource<T: PrettyDebugWithSource> {
inner: T,
source: Text,

View File

@ -38,7 +38,7 @@ macro_rules! nu {
});
let mut process = match Command::new($crate::fs::executable_path())
.env_clear()
// .env_clear()
.env("PATH", dummies)
.stdin(Stdio::piped())
.stdout(Stdio::piped())
@ -53,19 +53,26 @@ macro_rules! nu {
.write_all(commands.as_bytes())
.expect("couldn't write to stdin");
let output = process
.wait_with_output()
.expect("couldn't read from stdout");
let out = String::from_utf8_lossy(&output.stdout);
let out = out.lines().skip(1).collect::<Vec<_>>().join("\n");
let out = out.replace("\r\n", "");
let out = out.replace("\n", "");
let out = $crate::macros::read_std(&output.stdout);
let err = $crate::macros::read_std(&output.stderr);
println!("=== stderr\n{}", err);
out
}};
}
pub fn read_std(std: &[u8]) -> String {
let out = String::from_utf8_lossy(std);
let out = out.lines().skip(1).collect::<Vec<_>>().join("\n");
let out = out.replace("\r\n", "");
out.replace("\n", "")
}
#[macro_export]
macro_rules! nu_error {
(cwd: $cwd:expr, $path:expr, $($part:expr),*) => {{
@ -106,7 +113,7 @@ macro_rules! nu_error {
});
let mut process = Command::new($crate::fs::executable_path())
.env_clear()
// .env_clear()
.env("PATH", dummies)
.stdout(Stdio::piped())
.stdin(Stdio::piped())

View File

@ -8,9 +8,10 @@ use crate::data::config;
use crate::git::current_branch;
use crate::prelude::*;
use nu_errors::ShellError;
use nu_parser::hir::Expression;
use nu_parser::{
expand_syntax, hir, ClassifiedCommand, ClassifiedPipeline, InternalCommand, PipelineShape,
TokenNode, TokensIterator,
hir, ClassifiedCommand, ClassifiedPipeline, InternalCommand, PipelineShape, SpannedToken,
TokensIterator,
};
use nu_protocol::{Signature, UntaggedValue, Value};
@ -60,16 +61,16 @@ fn load_plugin(path: &std::path::Path, context: &mut Context) -> Result<(), Shel
let name = params.name.clone();
let fname = fname.to_string();
if context.get_command(&name)?.is_some() {
if context.get_command(&name).is_some() {
trace!("plugin {:?} already loaded.", &name);
} else if params.is_filter {
context.add_commands(vec![whole_stream_command(
PluginCommand::new(name, fname, params),
)])?;
context.add_commands(vec![whole_stream_command(PluginCommand::new(
name, fname, params,
))]);
} else {
context.add_commands(vec![whole_stream_command(PluginSink::new(
name, fname, params,
))])?;
))]);
}
Ok(())
}
@ -346,7 +347,7 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
whole_stream_command(FromXML),
whole_stream_command(FromYAML),
whole_stream_command(FromYML),
])?;
]);
cfg_if::cfg_if! {
if #[cfg(data_processing_primitives)] {
@ -355,7 +356,7 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
whole_stream_command(EvaluateBy),
whole_stream_command(TSortBy),
whole_stream_command(MapMaxBy),
])?;
]);
}
}
@ -363,7 +364,7 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
{
context.add_commands(vec![whole_stream_command(
crate::commands::clip::clipboard::Clip,
)])?;
)]);
}
}
@ -402,7 +403,7 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
continue;
}
let cwd = context.shell_manager.path()?;
let cwd = context.shell_manager.path();
rl.set_helper(Some(crate::shell::Helper::new(context.clone())));
@ -479,7 +480,7 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
context.with_host(|host| {
print_err(err, host, &Text::from(line.clone()));
})?;
});
context.maybe_print_errors(Text::from(line.clone()));
}
@ -501,7 +502,7 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
let _ = rl.save_history(&History::path());
std::process::exit(0);
} else {
context.with_host(|host| host.stdout("CTRL-C pressed (again to quit)"))?;
context.with_host(|host| host.stdout("CTRL-C pressed (again to quit)"));
ctrlcbreak = true;
continue;
}
@ -606,26 +607,33 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
debug!("=== Parsed ===");
debug!("{:#?}", result);
let mut pipeline = match classify_pipeline(&result, ctx, &Text::from(line)) {
Ok(pipeline) => pipeline,
Err(err) => return LineResult::Error(line.to_string(), err),
let mut pipeline = classify_pipeline(&result, ctx, &Text::from(line));
if let Some(failure) = pipeline.failed {
return LineResult::Error(line.to_string(), failure.into());
}
let should_push = match pipeline.commands.list.last() {
Some(ClassifiedCommand::External(_)) => false,
_ => true,
};
match pipeline.commands.list.last() {
Some(ClassifiedCommand::External(_)) => {}
_ => pipeline
if should_push {
pipeline
.commands
.list
.push(ClassifiedCommand::Internal(InternalCommand {
name: "autoview".to_string(),
name_tag: Tag::unknown(),
args: hir::Call::new(
Box::new(hir::Expression::synthetic_string("autoview")),
Box::new(
Expression::synthetic_string("autoview").into_expr(Span::unknown()),
),
None,
None,
Span::unknown(),
),
})),
}));
}
// Check the config to see if we need to update the path
@ -650,19 +658,15 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
}
pub fn classify_pipeline(
pipeline: &TokenNode,
pipeline: &SpannedToken,
context: &Context,
source: &Text,
) -> Result<ClassifiedPipeline, ShellError> {
) -> ClassifiedPipeline {
let pipeline_list = vec![pipeline.clone()];
let mut iterator = TokensIterator::all(&pipeline_list, source.clone(), pipeline.span());
let expand_context = context.expand_context(source);
let mut iterator = TokensIterator::new(&pipeline_list, expand_context, pipeline.span());
let result = expand_syntax(
&PipelineShape,
&mut iterator,
&context.expand_context(source)?,
)
.map_err(|err| err.into());
let result = iterator.expand_infallible(PipelineShape);
if log_enabled!(target: "nu::expand_syntax", log::Level::Debug) {
outln!("");

View File

@ -70,7 +70,7 @@ pub fn autoview(
}
}
};
if let Some(table) = table? {
if let Some(table) = table {
let mut new_output_stream: OutputStream = stream.to_output_stream();
let mut finished = false;
let mut current_idx = 0;
@ -100,7 +100,7 @@ pub fn autoview(
let first = &input[0];
let mut host = context.host.clone();
let mut host = host.lock();
let host = host.lock();
crate::cli::print_err(first.value.expect_error(), &*host, &context.source);
return;
@ -108,13 +108,12 @@ pub fn autoview(
let mut command_args = raw.with_input(input);
let mut named_args = NamedArguments::new();
named_args.insert_optional("start_number", Some(Expression::number(current_idx, Tag::unknown())));
named_args.insert_optional("start_number", Some(Expression::number(current_idx).into_expr(Span::unknown())));
command_args.call_info.args.named = Some(named_args);
let result = table.run(command_args, &context.commands);
result.collect::<Vec<_>>().await;
if finished {
break;
} else {
@ -130,7 +129,7 @@ pub fn autoview(
value: UntaggedValue::Primitive(Primitive::String(ref s)),
tag: Tag { anchor, span },
} if anchor.is_some() => {
if let Some(text) = text? {
if let Some(text) = text {
let mut stream = VecDeque::new();
stream.push_back(UntaggedValue::string(s).into_value(Tag { anchor, span }));
let result = text.run(raw.with_input(stream.into()), &context.commands);
@ -149,7 +148,7 @@ pub fn autoview(
value: UntaggedValue::Primitive(Primitive::Line(ref s)),
tag: Tag { anchor, span },
} if anchor.is_some() => {
if let Some(text) = text? {
if let Some(text) = text {
let mut stream = VecDeque::new();
stream.push_back(UntaggedValue::string(s).into_value(Tag { anchor, span }));
let result = text.run(raw.with_input(stream.into()), &context.commands);
@ -184,7 +183,7 @@ pub fn autoview(
}
Value { value: UntaggedValue::Primitive(Primitive::Binary(ref b)), .. } => {
if let Some(binary) = binary? {
if let Some(binary) = binary {
let mut stream = VecDeque::new();
stream.push_back(x);
let result = binary.run(raw.with_input(stream.into()), &context.commands);
@ -199,7 +198,7 @@ pub fn autoview(
yield Err(e);
}
Value { value: ref item, .. } => {
if let Some(table) = table? {
if let Some(table) = table {
let mut stream = VecDeque::new();
stream.push_back(x);
let result = table.run(raw.with_input(stream.into()), &context.commands);

View File

@ -102,7 +102,7 @@ async fn run_with_iterator_arg(
input: Option<InputStream>,
is_last: bool,
) -> Result<Option<InputStream>, ShellError> {
let path = context.shell_manager.path()?;
let path = context.shell_manager.path();
let mut inputs: InputStream = if let Some(input) = input {
trace_stream!(target: "nu::trace_stream::external::it", "input" = input)
@ -180,7 +180,7 @@ async fn run_with_stdin(
input: Option<InputStream>,
is_last: bool,
) -> Result<Option<InputStream>, ShellError> {
let path = context.shell_manager.path()?;
let path = context.shell_manager.path();
let mut inputs: InputStream = if let Some(input) = input {
trace_stream!(target: "nu::trace_stream::external::stdin", "input" = input)

View File

@ -47,18 +47,18 @@ pub(crate) async fn run_internal_command(
match item {
Ok(ReturnSuccess::Action(action)) => match action {
CommandAction::ChangePath(path) => {
context.shell_manager.set_path(path)?;
context.shell_manager.set_path(path);
}
CommandAction::Exit => std::process::exit(0), // TODO: save history.txt
CommandAction::Error(err) => {
context.error(err)?;
context.error(err);
break;
}
CommandAction::AutoConvert(tagged_contents, extension) => {
let contents_tag = tagged_contents.tag.clone();
let command_name = format!("from-{}", extension);
let command = command.clone();
if let Some(converter) = context.registry.get_command(&command_name)? {
if let Some(converter) = context.registry.get_command(&command_name) {
let new_args = RawCommandArgs {
host: context.host.clone(),
ctrl_c: context.ctrl_c.clone(),
@ -100,43 +100,39 @@ pub(crate) async fn run_internal_command(
value: UntaggedValue::Primitive(Primitive::String(cmd)),
tag,
} => {
let result = context.shell_manager.insert_at_current(Box::new(
context.shell_manager.insert_at_current(Box::new(
HelpShell::for_command(
UntaggedValue::string(cmd).into_value(tag),
&context.registry(),
)?,
));
result?
}
_ => {
let result = context.shell_manager.insert_at_current(Box::new(
context.shell_manager.insert_at_current(Box::new(
HelpShell::index(&context.registry())?,
));
result?
}
}
}
CommandAction::EnterValueShell(value) => {
context
.shell_manager
.insert_at_current(Box::new(ValueShell::new(value)))?;
.insert_at_current(Box::new(ValueShell::new(value)));
}
CommandAction::EnterShell(location) => {
context.shell_manager.insert_at_current(Box::new(
FilesystemShell::with_location(location, context.registry().clone()),
))?;
));
}
CommandAction::PreviousShell => {
context.shell_manager.prev()?;
context.shell_manager.prev();
}
CommandAction::NextShell => {
context.shell_manager.next()?;
context.shell_manager.next();
}
CommandAction::LeaveShell => {
context.shell_manager.remove_at_current()?;
if context.shell_manager.is_empty()? {
context.shell_manager.remove_at_current();
if context.shell_manager.is_empty() {
std::process::exit(0); // TODO: save history.txt
}
}
@ -154,7 +150,7 @@ pub(crate) async fn run_internal_command(
let mut buffer = termcolor::Buffer::ansi();
let _ = doc.render_raw(
context.with_host(|host| host.width() - 5)?,
context.with_host(|host| host.width() - 5),
&mut nu_source::TermColored::new(&mut buffer),
);
@ -164,7 +160,7 @@ pub(crate) async fn run_internal_command(
}
Err(err) => {
context.error(err)?;
context.error(err);
break;
}
}

View File

@ -29,6 +29,9 @@ pub(crate) async fn run_pipeline(
return Err(ShellError::unimplemented("Expression-only commands"))
}
(Some(ClassifiedCommand::Error(err)), _) => return Err(err.into()),
(_, Some(ClassifiedCommand::Error(err))) => return Err(err.clone().into()),
(Some(ClassifiedCommand::Internal(left)), _) => {
run_internal_command(left, ctx, input, Text::from(line)).await?
}

View File

@ -236,7 +236,7 @@ pub struct RunnableContext {
}
impl RunnableContext {
pub fn get_command(&self, name: &str) -> Result<Option<Arc<Command>>, ShellError> {
pub fn get_command(&self, name: &str) -> Option<Arc<Command>> {
self.commands.get_command(name)
}
}

View File

@ -51,7 +51,7 @@ impl PerItemCommand for Enter {
if spec.len() == 2 {
let (_, command) = (spec[0], spec[1]);
if registry.has(command)? {
if registry.has(command) {
return Ok(vec![Ok(ReturnSuccess::Action(
CommandAction::EnterHelpShell(
UntaggedValue::string(command).into_value(Tag::unknown()),
@ -74,7 +74,7 @@ impl PerItemCommand for Enter {
// If it's a file, attempt to open the file as a value and enter it
let cwd = raw_args.shell_manager.path();
let full_path = std::path::PathBuf::from(cwd?);
let full_path = std::path::PathBuf::from(cwd);
let (file_extension, contents, contents_tag) =
crate::commands::open::fetch(
@ -90,7 +90,7 @@ impl PerItemCommand for Enter {
if let Some(extension) = file_extension {
let command_name = format!("from-{}", extension);
if let Some(converter) =
registry.get_command(&command_name)?
registry.get_command(&command_name)
{
let new_args = RawCommandArgs {
host: raw_args.host,

View File

@ -153,7 +153,8 @@ fn from_sqlite(args: CommandArgs, registry: &CommandRegistry) -> Result<OutputSt
}
_ => yield ReturnSuccess::value(x),
}
Err(_) => {
Err(err) => {
println!("{:?}", err);
yield Err(ShellError::labeled_error_with_secondary(
"Could not parse as SQLite",
"input cannot be parsed as SQLite",

View File

@ -41,12 +41,12 @@ impl PerItemCommand for Help {
}) => {
let mut help = VecDeque::new();
if document == "commands" {
let mut sorted_names = registry.names()?;
let mut sorted_names = registry.names();
sorted_names.sort();
for cmd in sorted_names {
let mut short_desc = TaggedDictBuilder::new(tag.clone());
let value = command_dict(
registry.get_command(&cmd)?.ok_or_else(|| {
registry.get_command(&cmd).ok_or_else(|| {
ShellError::labeled_error(
format!("Could not load {}", cmd),
"could not load command",
@ -72,7 +72,7 @@ impl PerItemCommand for Help {
help.push_back(ReturnSuccess::value(short_desc.into_value()));
}
} else if let Some(command) = registry.get_command(document)? {
} else if let Some(command) = registry.get_command(document) {
return Ok(
get_help(&command.name(), &command.usage(), command.signature()).into(),
);

View File

@ -40,7 +40,7 @@ impl PerItemCommand for Open {
fn run(call_info: &CallInfo, raw_args: &RawCommandArgs) -> Result<OutputStream, ShellError> {
let shell_manager = &raw_args.shell_manager;
let cwd = PathBuf::from(shell_manager.path()?);
let cwd = PathBuf::from(shell_manager.path());
let full_path = cwd;
let path = call_info.args.nth(0).ok_or_else(|| {

View File

@ -130,7 +130,7 @@ fn save(
}: RunnableContext,
raw_args: RawCommandArgs,
) -> Result<OutputStream, ShellError> {
let mut full_path = PathBuf::from(shell_manager.path()?);
let mut full_path = PathBuf::from(shell_manager.path());
let name_tag = name.clone();
let stream = async_stream! {
@ -179,7 +179,7 @@ fn save(
break if !save_raw {
if let Some(extension) = full_path.extension() {
let command_name = format!("to-{}", extension.to_string_lossy());
if let Some(converter) = registry.get_command(&command_name)? {
if let Some(converter) = registry.get_command(&command_name) {
let new_args = RawCommandArgs {
host,
ctrl_c,

View File

@ -32,16 +32,7 @@ fn shells(args: CommandArgs, _registry: &CommandRegistry) -> Result<OutputStream
let mut shells_out = VecDeque::new();
let tag = args.call_info.name_tag;
for (index, shell) in args
.shell_manager
.shells
.lock()
.map_err(|_| {
ShellError::labeled_error("Could not list shells", "could not list shells", &tag)
})?
.iter()
.enumerate()
{
for (index, shell) in args.shell_manager.shells.lock().iter().enumerate() {
let mut dict = TaggedDictBuilder::new(&tag);
if index == (*args.shell_manager.current_shell).load(Ordering::SeqCst) {

View File

@ -5,7 +5,6 @@ use futures::StreamExt;
use futures_util::pin_mut;
use nu_errors::ShellError;
use nu_protocol::{ReturnSuccess, ReturnValue, Signature, UntaggedValue};
use nu_source::PrettyDebug;
pub struct What;
@ -14,11 +13,11 @@ pub struct WhatArgs {}
impl WholeStreamCommand for What {
fn name(&self) -> &str {
"what?"
"describe"
}
fn signature(&self) -> Signature {
Signature::build("what?")
Signature::build("describe")
}
fn usage(&self) -> &str {
@ -43,7 +42,7 @@ pub fn what(
pin_mut!(values);
while let Some(row) = values.next().await {
let name = value::format_leaf(&row).plain_string(100000);
let name = value::format_type(&row, 100);
yield ReturnSuccess::value(UntaggedValue::string(name).into_value(Tag::unknown_anchor(row.tag.span)));
}
};

View File

@ -95,7 +95,7 @@ fn which(
}
}
let builtin = commands.has(&item)?;
let builtin = commands.has(&item);
if builtin {
yield ReturnSuccess::value(entry_builtin!(item, application.tag.clone()));
}
@ -128,7 +128,7 @@ fn which(
if let Ok(path) = ichwh::which(&item).await {
yield ReturnSuccess::value(entry_path!(item, path.into(), application.tag.clone()));
}
} else if commands.has(&item)? {
} else if commands.has(&item) {
yield ReturnSuccess::value(entry_builtin!(item, application.tag.clone()));
} else if let Ok(path) = ichwh::which(&item).await {
yield ReturnSuccess::value(entry_path!(item, path.into(), application.tag.clone()));

View File

@ -5,37 +5,29 @@ use crate::stream::{InputStream, OutputStream};
use indexmap::IndexMap;
use nu_errors::ShellError;
use nu_parser::{hir, hir::syntax_shape::ExpandContext, hir::syntax_shape::SignatureRegistry};
use nu_protocol::{errln, Signature};
use nu_protocol::Signature;
use nu_source::{Tag, Text};
use parking_lot::Mutex;
use std::error::Error;
use std::sync::atomic::AtomicBool;
use std::sync::{Arc, Mutex};
use std::sync::Arc;
#[derive(Clone)]
#[derive(Debug, Clone)]
pub struct CommandRegistry {
registry: Arc<Mutex<IndexMap<String, Arc<Command>>>>,
}
impl SignatureRegistry for CommandRegistry {
fn has(&self, name: &str) -> Result<bool, ShellError> {
if let Ok(registry) = self.registry.lock() {
Ok(registry.contains_key(name))
} else {
Err(ShellError::untagged_runtime_error(format!(
"Could not load from registry: {}",
name
)))
}
fn has(&self, name: &str) -> bool {
let registry = self.registry.lock();
registry.contains_key(name)
}
fn get(&self, name: &str) -> Result<Option<Signature>, ShellError> {
if let Ok(registry) = self.registry.lock() {
Ok(registry.get(name).map(|command| command.signature()))
} else {
Err(ShellError::untagged_runtime_error(format!(
"Could not get from registry: {}",
name
)))
}
fn get(&self, name: &str) -> Option<Signature> {
let registry = self.registry.lock();
registry.get(name).map(|command| command.signature())
}
fn clone_box(&self) -> Box<dyn SignatureRegistry> {
Box::new(self.clone())
}
}
@ -54,53 +46,32 @@ impl CommandRegistry {
}
}
pub(crate) fn get_command(&self, name: &str) -> Result<Option<Arc<Command>>, ShellError> {
let registry = self.registry.lock().map_err(|_| {
ShellError::untagged_runtime_error("Internal error: get_command could not get mutex")
})?;
pub(crate) fn get_command(&self, name: &str) -> Option<Arc<Command>> {
let registry = self.registry.lock();
Ok(registry.get(name).cloned())
registry.get(name).cloned()
}
pub(crate) fn expect_command(&self, name: &str) -> Result<Arc<Command>, ShellError> {
self.get_command(name)?.ok_or_else(|| {
self.get_command(name).ok_or_else(|| {
ShellError::untagged_runtime_error(format!("Could not load command: {}", name))
})
}
pub(crate) fn has(&self, name: &str) -> Result<bool, ShellError> {
let registry = self.registry.lock().map_err(|_| {
ShellError::untagged_runtime_error("Internal error: has could not get mutex")
})?;
pub(crate) fn has(&self, name: &str) -> bool {
let registry = self.registry.lock();
Ok(registry.contains_key(name))
registry.contains_key(name)
}
pub(crate) fn insert(
&mut self,
name: impl Into<String>,
command: Arc<Command>,
) -> Result<(), ShellError> {
let mut registry = self.registry.lock().map_err(|_| {
ShellError::untagged_runtime_error("Internal error: insert could not get mutex")
})?;
pub(crate) fn insert(&mut self, name: impl Into<String>, command: Arc<Command>) {
let mut registry = self.registry.lock();
registry.insert(name.into(), command);
Ok(())
}
pub(crate) fn names(&self) -> Result<Vec<String>, ShellError> {
let registry = self.registry.lock().map_err(|_| {
ShellError::untagged_runtime_error("Internal error: names could not get mutex")
})?;
Ok(registry.keys().cloned().collect())
}
pub(crate) fn snapshot(&self) -> Result<IndexMap<String, Arc<Command>>, ShellError> {
let registry = self.registry.lock().map_err(|_| {
ShellError::untagged_runtime_error("Internal error: names could not get mutex")
})?;
Ok(registry.clone())
pub(crate) fn names(&self) -> Vec<String> {
let registry = self.registry.lock();
registry.keys().cloned().collect()
}
}
@ -121,12 +92,12 @@ impl Context {
pub(crate) fn expand_context<'context>(
&'context self,
source: &'context Text,
) -> Result<ExpandContext<'context>, ShellError> {
Ok(ExpandContext::new(
) -> ExpandContext {
ExpandContext::new(
Box::new(self.registry.clone()),
source,
self.shell_manager.homedir()?,
))
self.shell_manager.homedir(),
)
}
pub(crate) fn basic() -> Result<Context, Box<dyn Error>> {
@ -142,73 +113,47 @@ impl Context {
})
}
pub(crate) fn error(&mut self, error: ShellError) -> Result<(), ShellError> {
pub(crate) fn error(&mut self, error: ShellError) {
self.with_errors(|errors| errors.push(error))
}
pub(crate) fn maybe_print_errors(&mut self, source: Text) -> bool {
let errors = self.current_errors.clone();
let errors = errors.lock();
let mut errors = errors.lock();
let host = self.host.clone();
let host = host.lock();
let result: bool;
if errors.len() > 0 {
let error = errors[0].clone();
*errors = vec![];
match (errors, host) {
(Err(err), _) => {
errln!(
"Unexpected error attempting to acquire the lock of the current errors: {:?}",
err
);
result = false;
}
(Ok(mut errors), host) => {
if errors.len() > 0 {
let error = errors[0].clone();
*errors = vec![];
crate::cli::print_err(error, &*host, &source);
result = true;
} else {
result = false;
}
}
};
result
}
pub(crate) fn with_host<T>(
&mut self,
block: impl FnOnce(&mut dyn Host) -> T,
) -> Result<T, ShellError> {
let mut host = self.host.lock();
Ok(block(&mut *host))
}
pub(crate) fn with_errors<T>(
&mut self,
block: impl FnOnce(&mut Vec<ShellError>) -> T,
) -> Result<T, ShellError> {
if let Ok(mut errors) = self.current_errors.lock() {
Ok(block(&mut *errors))
crate::cli::print_err(error, &*host, &source);
true
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock host in with_errors",
))
false
}
}
pub fn add_commands(&mut self, commands: Vec<Arc<Command>>) -> Result<(), ShellError> {
pub(crate) fn with_host<T>(&mut self, block: impl FnOnce(&mut dyn Host) -> T) -> T {
let mut host = self.host.lock();
block(&mut *host)
}
pub(crate) fn with_errors<T>(&mut self, block: impl FnOnce(&mut Vec<ShellError>) -> T) -> T {
let mut errors = self.current_errors.lock();
block(&mut *errors)
}
pub fn add_commands(&mut self, commands: Vec<Arc<Command>>) {
for command in commands {
self.registry.insert(command.name().to_string(), command)?;
self.registry.insert(command.name().to_string(), command);
}
Ok(())
}
pub(crate) fn get_command(&self, name: &str) -> Result<Option<Arc<Command>>, ShellError> {
pub(crate) fn get_command(&self, name: &str) -> Option<Arc<Command>> {
self.registry.get_command(name)
}

View File

@ -29,7 +29,7 @@ pub struct Operation {
#[derive(Debug, Ord, PartialOrd, Eq, PartialEq, Clone, Hash, Serialize, Deserialize, new)]
pub struct Block {
pub(crate) expressions: Vec<hir::Expression>,
pub(crate) expressions: Vec<hir::SpannedExpression>,
pub(crate) source: Text,
pub(crate) tag: Tag,
}

View File

@ -4,7 +4,7 @@ use crate::evaluate::operator::apply_operator;
use crate::prelude::*;
use log::trace;
use nu_errors::{ArgumentError, ShellError};
use nu_parser::hir::{self, Expression, RawExpression};
use nu_parser::hir::{self, Expression, SpannedExpression};
use nu_protocol::{
ColumnPath, Evaluate, Primitive, RangeInclusion, Scope, TaggedDictBuilder, UnspannedPathMember,
UntaggedValue, Value,
@ -12,7 +12,7 @@ use nu_protocol::{
use nu_source::Text;
pub(crate) fn evaluate_baseline_expr(
expr: &Expression,
expr: &SpannedExpression,
registry: &CommandRegistry,
scope: &Scope,
source: &Text,
@ -22,19 +22,19 @@ pub(crate) fn evaluate_baseline_expr(
anchor: None,
};
match &expr.expr {
RawExpression::Literal(literal) => Ok(evaluate_literal(literal, source)),
RawExpression::ExternalWord => Err(ShellError::argument_error(
Expression::Literal(literal) => Ok(evaluate_literal(literal, expr.span, source)),
Expression::ExternalWord => Err(ShellError::argument_error(
"Invalid external word".spanned(tag.span),
ArgumentError::InvalidExternalWord,
)),
RawExpression::FilePath(path) => Ok(UntaggedValue::path(path.clone()).into_value(tag)),
RawExpression::Synthetic(hir::Synthetic::String(s)) => {
Expression::FilePath(path) => Ok(UntaggedValue::path(path.clone()).into_value(tag)),
Expression::Synthetic(hir::Synthetic::String(s)) => {
Ok(UntaggedValue::string(s).into_untagged_value())
}
RawExpression::Variable(var) => evaluate_reference(var, scope, source, tag),
RawExpression::Command(_) => evaluate_command(tag, scope, source),
RawExpression::ExternalCommand(external) => evaluate_external(external, scope, source),
RawExpression::Binary(binary) => {
Expression::Variable(var) => evaluate_reference(var, scope, source, tag),
Expression::Command(_) => evaluate_command(tag, scope, source),
Expression::ExternalCommand(external) => evaluate_external(external, scope, source),
Expression::Binary(binary) => {
let left = evaluate_baseline_expr(binary.left(), registry, scope, source)?;
let right = evaluate_baseline_expr(binary.right(), registry, scope, source)?;
@ -48,7 +48,7 @@ pub(crate) fn evaluate_baseline_expr(
)),
}
}
RawExpression::Range(range) => {
Expression::Range(range) => {
let left = range.left();
let right = range.right();
@ -68,7 +68,7 @@ pub(crate) fn evaluate_baseline_expr(
Ok(UntaggedValue::range(left, right).into_value(tag))
}
RawExpression::List(list) => {
Expression::List(list) => {
let mut exprs = vec![];
for expr in list {
@ -78,13 +78,13 @@ pub(crate) fn evaluate_baseline_expr(
Ok(UntaggedValue::Table(exprs).into_value(tag))
}
RawExpression::Block(block) => Ok(UntaggedValue::Block(Evaluate::new(Block::new(
Expression::Block(block) => Ok(UntaggedValue::Block(Evaluate::new(Block::new(
block.clone(),
source.clone(),
tag.clone(),
)))
.into_value(&tag)),
RawExpression::Path(path) => {
Expression::Path(path) => {
let value = evaluate_baseline_expr(path.head(), registry, scope, source)?;
let mut item = value;
@ -122,37 +122,29 @@ pub(crate) fn evaluate_baseline_expr(
Ok(item.value.into_value(tag))
}
RawExpression::Boolean(_boolean) => unimplemented!(),
Expression::Boolean(_boolean) => unimplemented!(),
}
}
fn evaluate_literal(literal: &hir::Literal, source: &Text) -> Value {
match &literal.literal {
hir::RawLiteral::ColumnPath(path) => {
fn evaluate_literal(literal: &hir::Literal, span: Span, source: &Text) -> Value {
match &literal {
hir::Literal::ColumnPath(path) => {
let members = path
.iter()
.map(|member| member.to_path_member(source))
.collect();
UntaggedValue::Primitive(Primitive::ColumnPath(ColumnPath::new(members)))
.into_value(&literal.span)
.into_value(span)
}
hir::RawLiteral::Number(int) => match int {
nu_parser::Number::Int(i) => UntaggedValue::int(i.clone()).into_value(literal.span),
nu_parser::Number::Decimal(d) => {
UntaggedValue::decimal(d.clone()).into_value(literal.span)
}
hir::Literal::Number(int) => match int {
nu_parser::Number::Int(i) => UntaggedValue::int(i.clone()).into_value(span),
nu_parser::Number::Decimal(d) => UntaggedValue::decimal(d.clone()).into_value(span),
},
hir::RawLiteral::Size(int, unit) => unit.compute(&int).into_value(literal.span),
hir::RawLiteral::String(tag) => {
UntaggedValue::string(tag.slice(source)).into_value(literal.span)
}
hir::RawLiteral::GlobPattern(pattern) => {
UntaggedValue::pattern(pattern).into_value(literal.span)
}
hir::RawLiteral::Bare => {
UntaggedValue::string(literal.span.slice(source)).into_value(literal.span)
}
hir::Literal::Size(int, unit) => unit.compute(&int).into_value(span),
hir::Literal::String(tag) => UntaggedValue::string(tag.slice(source)).into_value(span),
hir::Literal::GlobPattern(pattern) => UntaggedValue::pattern(pattern).into_value(span),
hir::Literal::Bare => UntaggedValue::string(span.slice(source)).into_value(span),
}
}

View File

@ -69,6 +69,7 @@ macro_rules! trace_out_stream {
}
pub(crate) use nu_protocol::{errln, outln};
use nu_source::HasFallibleSpan;
pub(crate) use crate::commands::command::{
CallInfoExt, CommandArgs, PerItemCommand, RawCommandArgs, RunnableContext,
@ -131,12 +132,12 @@ where
fn to_input_stream(self) -> InputStream {
InputStream {
values: self
.map(|item| {
if let Ok(result) = item.into() {
result
} else {
unreachable!("Internal errors: to_input_stream in inconsistent state")
}
.map(|item| match item.into() {
Ok(result) => result,
Err(err) => match HasFallibleSpan::maybe_span(&err) {
Some(span) => nu_protocol::UntaggedValue::Error(err).into_value(span),
None => nu_protocol::UntaggedValue::Error(err).into_untagged_value(),
},
})
.boxed(),
}

View File

@ -1,13 +1,16 @@
use crate::context::CommandRegistry;
use derive_new::new;
use nu_parser::ExpandContext;
use nu_source::{HasSpan, Text};
use rustyline::completion::{Completer, FilenameCompleter};
use std::path::PathBuf;
#[derive(new)]
pub(crate) struct NuCompleter {
pub file_completer: FilenameCompleter,
pub commands: CommandRegistry,
pub homedir: Option<PathBuf>,
}
impl NuCompleter {
@ -17,7 +20,15 @@ impl NuCompleter {
pos: usize,
context: &rustyline::Context,
) -> rustyline::Result<(usize, Vec<rustyline::completion::Pair>)> {
let commands: Vec<String> = self.commands.names().unwrap_or_else(|_| vec![]);
let text = Text::from(line);
let expand_context =
ExpandContext::new(Box::new(self.commands.clone()), &text, self.homedir.clone());
#[allow(unused)]
// smarter completions
let shapes = nu_parser::pipeline_shapes(line, expand_context);
let commands: Vec<String> = self.commands.names();
let line_chars: Vec<_> = line[..pos].chars().collect();
@ -100,8 +111,6 @@ impl NuCompleter {
if let Ok(val) = nu_parser::parse(&line_copy) {
let source = Text::from(line);
let pipeline_list = vec![val.clone()];
let mut iterator =
nu_parser::TokensIterator::all(&pipeline_list, source.clone(), val.span());
let expand_context = nu_parser::ExpandContext {
homedir: None,
@ -109,10 +118,12 @@ impl NuCompleter {
source: &source,
};
let result =
nu_parser::expand_syntax(&nu_parser::PipelineShape, &mut iterator, &expand_context);
let mut iterator =
nu_parser::TokensIterator::new(&pipeline_list, expand_context, val.span());
if let Ok(result) = result {
let result = iterator.expand_infallible(nu_parser::PipelineShape);
if result.failed.is_none() {
for command in result.commands.list {
if let nu_parser::ClassifiedCommand::Internal(nu_parser::InternalCommand {
args,

View File

@ -10,6 +10,7 @@ use crate::shell::completer::NuCompleter;
use crate::shell::shell::Shell;
use crate::utils::FileStructure;
use nu_errors::ShellError;
use nu_parser::ExpandContext;
use nu_protocol::{Primitive, ReturnSuccess, UntaggedValue};
use rustyline::completion::FilenameCompleter;
use rustyline::hint::{Hinter, HistoryHinter};
@ -38,6 +39,7 @@ impl Clone for FilesystemShell {
completer: NuCompleter {
file_completer: FilenameCompleter::new(),
commands: self.completer.commands.clone(),
homedir: self.homedir(),
},
hinter: HistoryHinter {},
}
@ -54,6 +56,7 @@ impl FilesystemShell {
completer: NuCompleter {
file_completer: FilenameCompleter::new(),
commands,
homedir: dirs::home_dir(),
},
hinter: HistoryHinter {},
})
@ -67,6 +70,7 @@ impl FilesystemShell {
completer: NuCompleter {
file_completer: FilenameCompleter::new(),
commands,
homedir: dirs::home_dir(),
},
hinter: HistoryHinter {},
}
@ -1131,7 +1135,13 @@ impl Shell for FilesystemShell {
self.completer.complete(line, pos, ctx)
}
fn hint(&self, line: &str, pos: usize, ctx: &rustyline::Context<'_>) -> Option<String> {
fn hint(
&self,
line: &str,
pos: usize,
ctx: &rustyline::Context<'_>,
_expand_context: ExpandContext,
) -> Option<String> {
self.hinter.hint(line, pos, ctx)
}
}

View File

@ -8,6 +8,7 @@ use crate::data::command_dict;
use crate::prelude::*;
use crate::shell::shell::Shell;
use nu_errors::ShellError;
use nu_parser::ExpandContext;
use nu_protocol::{
Primitive, ReturnSuccess, ShellTypeName, TaggedDictBuilder, UntaggedValue, Value,
};
@ -25,25 +26,28 @@ impl HelpShell {
let mut cmds = TaggedDictBuilder::new(Tag::unknown());
let mut specs = Vec::new();
let snapshot = registry.snapshot()?;
for cmd in registry.names() {
if let Some(cmd_value) = registry.get_command(&cmd) {
let mut spec = TaggedDictBuilder::new(Tag::unknown());
let value = command_dict(cmd_value, Tag::unknown());
for (name, cmd) in snapshot.iter() {
let mut spec = TaggedDictBuilder::new(Tag::unknown());
let value = command_dict(cmd.clone(), Tag::unknown());
spec.insert_untagged("name", cmd);
spec.insert_untagged(
"description",
value
.get_data_by_key("usage".spanned_unknown())
.ok_or_else(|| {
ShellError::untagged_runtime_error(
"Internal error: expected to find usage",
)
})?
.as_string()?,
);
spec.insert_value("details", value);
spec.insert_untagged("name", name.to_string());
spec.insert_untagged(
"description",
value
.get_data_by_key("usage".spanned_unknown())
.ok_or_else(|| {
ShellError::untagged_runtime_error("Internal error: expected to find usage")
})?
.as_string()?,
);
spec.insert_value("details", value);
specs.push(spec.into_value());
specs.push(spec.into_value());
} else {
}
}
cmds.insert_untagged("help", UntaggedValue::Table(specs));
@ -240,7 +244,13 @@ impl Shell for HelpShell {
Ok((replace_pos, completions))
}
fn hint(&self, _line: &str, _pos: usize, _ctx: &rustyline::Context<'_>) -> Option<String> {
fn hint(
&self,
_line: &str,
_pos: usize,
_ctx: &rustyline::Context<'_>,
_context: ExpandContext,
) -> Option<String> {
None
}
}

View File

@ -1,10 +1,9 @@
use crate::context::Context;
use ansi_term::Color;
use log::{log_enabled, trace};
use nu_parser::hir::syntax_shape::color_fallible_syntax;
use nu_parser::{FlatShape, PipelineShape, TokenNode, TokensIterator};
use nu_protocol::outln;
use nu_source::{nom_input, HasSpan, Spanned, Tag, Tagged, Text};
use ansi_term::{Color, Style};
use log::log_enabled;
use nu_parser::{FlatShape, PipelineShape, ShapeResult, Token, TokensIterator};
use nu_protocol::{errln, outln};
use nu_source::{nom_input, HasSpan, Tag, Tagged, Text};
use rustyline::completion::Completer;
use rustyline::error::ReadlineError;
use rustyline::highlight::Highlighter;
@ -39,10 +38,10 @@ impl Completer for Helper {
impl Hinter for Helper {
fn hint(&self, line: &str, pos: usize, ctx: &rustyline::Context<'_>) -> Option<String> {
match self.context.shell_manager.hint(line, pos, ctx) {
Ok(output) => output,
Err(e) => Some(format!("{}", e)),
}
let text = Text::from(line);
self.context
.shell_manager
.hint(line, pos, ctx, self.context.expand_context(&text))
}
}
@ -71,53 +70,47 @@ impl Highlighter for Helper {
match tokens {
Err(_) => Cow::Borrowed(line),
Ok((_rest, v)) => {
let mut out = String::new();
let pipeline = match v.as_pipeline() {
Err(_) => return Cow::Borrowed(line),
Ok(v) => v,
};
let tokens = vec![TokenNode::Pipeline(pipeline)];
let mut tokens = TokensIterator::all(&tokens[..], Text::from(line), v.span());
let text = Text::from(line);
match self.context.expand_context(&text) {
Ok(expand_context) => {
let shapes = {
// We just constructed a token list that only contains a pipeline, so it can't fail
if let Err(err) =
color_fallible_syntax(&PipelineShape, &mut tokens, &expand_context)
{
let error_msg = format!("{}", err);
return Cow::Owned(error_msg);
}
tokens.with_color_tracer(|_, tracer| tracer.finish());
let expand_context = self.context.expand_context(&text);
tokens.state().shapes()
};
let tokens = vec![Token::Pipeline(pipeline).into_spanned(v.span())];
let mut tokens = TokensIterator::new(&tokens[..], expand_context, v.span());
trace!(target: "nu::color_syntax", "{:#?}", tokens.color_tracer());
let shapes = {
// We just constructed a token list that only contains a pipeline, so it can't fail
let result = tokens.expand_infallible(PipelineShape);
if log_enabled!(target: "nu::color_syntax", log::Level::Debug) {
outln!("");
let _ = ptree::print_tree(
&tokens.color_tracer().clone().print(Text::from(line)),
);
outln!("");
}
for shape in shapes {
let styled = paint_flat_shape(&shape, line);
out.push_str(&styled);
}
Cow::Owned(out)
}
Err(err) => {
let error_msg = format!("{}", err);
Cow::Owned(error_msg)
if let Some(failure) = result.failed {
errln!(
"BUG: PipelineShape didn't find a pipeline :: {:#?}",
failure
);
}
tokens.finish_tracer();
tokens.state().shapes()
};
if log_enabled!(target: "nu::expand_syntax", log::Level::Debug) {
outln!("");
let _ =
ptree::print_tree(&tokens.expand_tracer().clone().print(Text::from(line)));
outln!("");
}
let mut painter = Painter::new();
for shape in shapes {
painter.paint_shape(&shape, line);
}
Cow::Owned(painter.into_string())
}
}
}
@ -139,45 +132,75 @@ fn vec_tag<T>(input: Vec<Tagged<T>>) -> Option<Tag> {
})
}
fn paint_flat_shape(flat_shape: &Spanned<FlatShape>, line: &str) -> String {
let style = match &flat_shape.item {
FlatShape::OpenDelimiter(_) => Color::White.normal(),
FlatShape::CloseDelimiter(_) => Color::White.normal(),
FlatShape::ItVariable => Color::Purple.bold(),
FlatShape::Variable => Color::Purple.normal(),
FlatShape::CompareOperator => Color::Yellow.normal(),
FlatShape::DotDot => Color::Yellow.bold(),
FlatShape::Dot => Color::White.normal(),
FlatShape::InternalCommand => Color::Cyan.bold(),
FlatShape::ExternalCommand => Color::Cyan.normal(),
FlatShape::ExternalWord => Color::Green.bold(),
FlatShape::BareMember => Color::Yellow.bold(),
FlatShape::StringMember => Color::Yellow.bold(),
FlatShape::String => Color::Green.normal(),
FlatShape::Path => Color::Cyan.normal(),
FlatShape::GlobPattern => Color::Cyan.bold(),
FlatShape::Word => Color::Green.normal(),
FlatShape::Pipe => Color::Purple.bold(),
FlatShape::Flag => Color::Blue.bold(),
FlatShape::ShorthandFlag => Color::Blue.bold(),
FlatShape::Int => Color::Purple.bold(),
FlatShape::Decimal => Color::Purple.bold(),
FlatShape::Whitespace | FlatShape::Separator => Color::White.normal(),
FlatShape::Comment => Color::Green.bold(),
FlatShape::Error => Color::Red.bold(),
FlatShape::Size { number, unit } => {
let number = number.slice(line);
let unit = unit.slice(line);
return format!(
"{}{}",
Color::Purple.bold().paint(number),
Color::Cyan.bold().paint(unit)
);
}
};
struct Painter {
current: Style,
buffer: String,
}
let body = flat_shape.span.slice(line);
style.paint(body).to_string()
impl Painter {
fn new() -> Painter {
Painter {
current: Style::default(),
buffer: String::new(),
}
}
fn into_string(self) -> String {
self.buffer
}
fn paint_shape(&mut self, shape: &ShapeResult, line: &str) {
let style = match &shape {
ShapeResult::Success(shape) => match shape.item {
FlatShape::OpenDelimiter(_) => Color::White.normal(),
FlatShape::CloseDelimiter(_) => Color::White.normal(),
FlatShape::ItVariable | FlatShape::Keyword => Color::Purple.bold(),
FlatShape::Variable | FlatShape::Identifier => Color::Purple.normal(),
FlatShape::Type => Color::Blue.bold(),
FlatShape::CompareOperator => Color::Yellow.normal(),
FlatShape::DotDot => Color::Yellow.bold(),
FlatShape::Dot => Style::new().fg(Color::White).on(Color::Black),
FlatShape::InternalCommand => Color::Cyan.bold(),
FlatShape::ExternalCommand => Color::Cyan.normal(),
FlatShape::ExternalWord => Color::Green.bold(),
FlatShape::BareMember => Color::Yellow.bold(),
FlatShape::StringMember => Color::Yellow.bold(),
FlatShape::String => Color::Green.normal(),
FlatShape::Path => Color::Cyan.normal(),
FlatShape::GlobPattern => Color::Cyan.bold(),
FlatShape::Word => Color::Green.normal(),
FlatShape::Pipe => Color::Purple.bold(),
FlatShape::Flag => Color::Blue.bold(),
FlatShape::ShorthandFlag => Color::Blue.bold(),
FlatShape::Int => Color::Purple.bold(),
FlatShape::Decimal => Color::Purple.bold(),
FlatShape::Whitespace | FlatShape::Separator => Color::White.normal(),
FlatShape::Comment => Color::Green.bold(),
FlatShape::Garbage => Style::new().fg(Color::White).on(Color::Red),
FlatShape::Size { number, unit } => {
let number = number.slice(line);
let unit = unit.slice(line);
self.paint(Color::Purple.bold(), number);
self.paint(Color::Cyan.bold(), unit);
return;
}
},
ShapeResult::Fallback { shape, .. } => match shape.item {
FlatShape::Whitespace | FlatShape::Separator => Color::White.normal(),
_ => Style::new().fg(Color::White).on(Color::Red),
},
};
self.paint(style, shape.span().slice(line));
}
fn paint(&mut self, style: Style, body: &str) {
let infix = self.current.infix(style);
self.current = style;
self.buffer
.push_str(&format!("{}{}", infix, style.paint(body)));
}
}
impl rustyline::Helper for Helper {}

View File

@ -7,6 +7,7 @@ use crate::commands::rm::RemoveArgs;
use crate::prelude::*;
use crate::stream::OutputStream;
use nu_errors::ShellError;
use nu_parser::ExpandContext;
use std::path::PathBuf;
pub trait Shell: std::fmt::Debug {
@ -34,5 +35,11 @@ pub trait Shell: std::fmt::Debug {
ctx: &rustyline::Context<'_>,
) -> Result<(usize, Vec<rustyline::completion::Pair>), rustyline::error::ReadlineError>;
fn hint(&self, _line: &str, _pos: usize, _ctx: &rustyline::Context<'_>) -> Option<String>;
fn hint(
&self,
_line: &str,
_pos: usize,
_ctx: &rustyline::Context<'_>,
_context: ExpandContext,
) -> Option<String>;
}

View File

@ -9,10 +9,12 @@ use crate::shell::filesystem_shell::FilesystemShell;
use crate::shell::shell::Shell;
use crate::stream::OutputStream;
use nu_errors::ShellError;
use nu_parser::ExpandContext;
use parking_lot::Mutex;
use std::error::Error;
use std::path::PathBuf;
use std::sync::atomic::{AtomicUsize, Ordering};
use std::sync::{Arc, Mutex};
use std::sync::Arc;
#[derive(Clone, Debug)]
pub struct ShellManager {
@ -30,95 +32,53 @@ impl ShellManager {
})
}
pub fn insert_at_current(&mut self, shell: Box<dyn Shell + Send>) -> Result<(), ShellError> {
if let Ok(mut shells) = self.shells.lock() {
shells.push(shell);
} else {
return Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer",
));
}
let shells_len = if let Ok(shells) = self.shells.lock() {
shells.len()
} else {
return Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer",
));
};
self.current_shell.store(shells_len - 1, Ordering::SeqCst);
self.set_path(self.path()?)
pub fn insert_at_current(&mut self, shell: Box<dyn Shell + Send>) {
self.shells.lock().push(shell);
self.current_shell
.store(self.shells.lock().len() - 1, Ordering::SeqCst);
self.set_path(self.path());
}
pub fn current_shell(&self) -> usize {
self.current_shell.load(Ordering::SeqCst)
}
pub fn remove_at_current(&mut self) -> Result<(), ShellError> {
pub fn remove_at_current(&mut self) {
{
if let Ok(mut shells) = self.shells.lock() {
if shells.len() > 0 {
if self.current_shell() == shells.len() - 1 {
shells.pop();
let new_len = shells.len();
if new_len > 0 {
self.current_shell.store(new_len - 1, Ordering::SeqCst);
} else {
return Ok(());
}
let mut shells = self.shells.lock();
if shells.len() > 0 {
if self.current_shell() == shells.len() - 1 {
shells.pop();
let new_len = shells.len();
if new_len > 0 {
self.current_shell.store(new_len - 1, Ordering::SeqCst);
} else {
shells.remove(self.current_shell());
return;
}
} else {
shells.remove(self.current_shell());
}
} else {
return Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer",
));
}
}
self.set_path(self.path()?)
self.set_path(self.path())
}
pub fn is_empty(&self) -> Result<bool, ShellError> {
if let Ok(shells) = self.shells.lock() {
Ok(shells.is_empty())
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (is_empty)",
))
}
pub fn is_empty(&self) -> bool {
self.shells.lock().is_empty()
}
pub fn path(&self) -> Result<String, ShellError> {
if let Ok(shells) = self.shells.lock() {
Ok(shells[self.current_shell()].path())
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (path)",
))
}
pub fn path(&self) -> String {
self.shells.lock()[self.current_shell()].path()
}
pub fn pwd(&self, args: EvaluatedWholeStreamCommandArgs) -> Result<OutputStream, ShellError> {
if let Ok(shells) = self.shells.lock() {
shells[self.current_shell()].pwd(args)
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (pwd)",
))
}
let env = self.shells.lock();
env[self.current_shell()].pwd(args)
}
pub fn set_path(&mut self, path: String) -> Result<(), ShellError> {
if let Ok(mut shells) = self.shells.lock() {
shells[self.current_shell()].set_path(path);
Ok(())
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (set_path)",
))
}
pub fn set_path(&mut self, path: String) {
self.shells.lock()[self.current_shell()].set_path(path)
}
pub fn complete(
@ -127,14 +87,7 @@ impl ShellManager {
pos: usize,
ctx: &rustyline::Context<'_>,
) -> Result<(usize, Vec<rustyline::completion::Pair>), rustyline::error::ReadlineError> {
if let Ok(shells) = self.shells.lock() {
shells[self.current_shell()].complete(line, pos, ctx)
} else {
Err(rustyline::error::ReadlineError::Io(std::io::Error::new(
std::io::ErrorKind::Other,
"Internal error: could not lock shells ring buffer (complete)",
)))
}
self.shells.lock()[self.current_shell()].complete(line, pos, ctx)
}
pub fn hint(
@ -142,62 +95,41 @@ impl ShellManager {
line: &str,
pos: usize,
ctx: &rustyline::Context<'_>,
) -> Result<Option<String>, ShellError> {
if let Ok(shells) = self.shells.lock() {
Ok(shells[self.current_shell()].hint(line, pos, ctx))
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (hint)",
))
}
context: ExpandContext,
) -> Option<String> {
self.shells.lock()[self.current_shell()].hint(line, pos, ctx, context)
}
pub fn next(&mut self) -> Result<(), ShellError> {
pub fn next(&mut self) {
{
if let Ok(shells) = self.shells.lock() {
let shell_len = shells.len();
if self.current_shell() == (shell_len - 1) {
self.current_shell.store(0, Ordering::SeqCst);
} else {
self.current_shell
.store(self.current_shell() + 1, Ordering::SeqCst);
}
let shell_len = self.shells.lock().len();
if self.current_shell() == (shell_len - 1) {
self.current_shell.store(0, Ordering::SeqCst);
} else {
return Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (next)",
));
self.current_shell
.store(self.current_shell() + 1, Ordering::SeqCst);
}
}
self.set_path(self.path()?)
self.set_path(self.path())
}
pub fn prev(&mut self) -> Result<(), ShellError> {
pub fn prev(&mut self) {
{
if let Ok(shells) = self.shells.lock() {
let shell_len = shells.len();
if self.current_shell() == 0 {
self.current_shell.store(shell_len - 1, Ordering::SeqCst);
} else {
self.current_shell
.store(self.current_shell() - 1, Ordering::SeqCst);
}
let shell_len = self.shells.lock().len();
if self.current_shell() == 0 {
self.current_shell.store(shell_len - 1, Ordering::SeqCst);
} else {
return Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (prev)",
));
self.current_shell
.store(self.current_shell() - 1, Ordering::SeqCst);
}
}
self.set_path(self.path()?)
self.set_path(self.path())
}
pub fn homedir(&self) -> Result<Option<PathBuf>, ShellError> {
if let Ok(shells) = self.shells.lock() {
Ok(shells[self.current_shell()].homedir())
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (homedir)",
))
}
pub fn homedir(&self) -> Option<PathBuf> {
let env = self.shells.lock();
env[self.current_shell()].homedir()
}
pub fn ls(
@ -205,23 +137,15 @@ impl ShellManager {
args: LsArgs,
context: &RunnablePerItemContext,
) -> Result<OutputStream, ShellError> {
if let Ok(shells) = self.shells.lock() {
shells[self.current_shell()].ls(args, context)
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (ls)",
))
}
let env = self.shells.lock();
env[self.current_shell()].ls(args, context)
}
pub fn cd(&self, args: EvaluatedWholeStreamCommandArgs) -> Result<OutputStream, ShellError> {
if let Ok(shells) = self.shells.lock() {
shells[self.current_shell()].cd(args)
} else {
Err(ShellError::untagged_runtime_error(
"Internal error: could not lock shells ring buffer (cd)",
))
}
let env = self.shells.lock();
env[self.current_shell()].cd(args)
}
pub fn cp(
@ -231,17 +155,8 @@ impl ShellManager {
) -> Result<OutputStream, ShellError> {
let shells = self.shells.lock();
match shells {
Ok(x) => {
let path = x[self.current_shell()].path();
x[self.current_shell()].cp(args, context.name.clone(), &path)
}
Err(e) => Err(ShellError::labeled_error(
format!("Internal error: could not lock {}", e),
"Internal error: could not lock",
&context.name,
)),
}
let path = shells[self.current_shell()].path();
shells[self.current_shell()].cp(args, context.name.clone(), &path)
}
pub fn rm(
@ -251,17 +166,8 @@ impl ShellManager {
) -> Result<OutputStream, ShellError> {
let shells = self.shells.lock();
match shells {
Ok(x) => {
let path = x[self.current_shell()].path();
x[self.current_shell()].rm(args, context.name.clone(), &path)
}
Err(e) => Err(ShellError::labeled_error(
format!("Internal error: could not lock {}", e),
"Internal error: could not lock",
&context.name,
)),
}
let path = shells[self.current_shell()].path();
shells[self.current_shell()].rm(args, context.name.clone(), &path)
}
pub fn mkdir(
@ -271,17 +177,8 @@ impl ShellManager {
) -> Result<OutputStream, ShellError> {
let shells = self.shells.lock();
match shells {
Ok(x) => {
let path = x[self.current_shell()].path();
x[self.current_shell()].mkdir(args, context.name.clone(), &path)
}
Err(e) => Err(ShellError::labeled_error(
format!("Internal error: could not lock {}", e),
"Internal error: could not lock",
&context.name,
)),
}
let path = shells[self.current_shell()].path();
shells[self.current_shell()].mkdir(args, context.name.clone(), &path)
}
pub fn mv(
@ -291,16 +188,7 @@ impl ShellManager {
) -> Result<OutputStream, ShellError> {
let shells = self.shells.lock();
match shells {
Ok(x) => {
let path = x[self.current_shell()].path();
x[self.current_shell()].mv(args, context.name.clone(), &path)
}
Err(e) => Err(ShellError::labeled_error(
format!("Internal error: could not lock {}", e),
"Internal error: could not lock",
&context.name,
)),
}
let path = shells[self.current_shell()].path();
shells[self.current_shell()].mv(args, context.name.clone(), &path)
}
}

View File

@ -8,6 +8,7 @@ use crate::prelude::*;
use crate::shell::shell::Shell;
use crate::utils::ValueStructure;
use nu_errors::ShellError;
use nu_parser::ExpandContext;
use nu_protocol::{ReturnSuccess, ShellTypeName, UntaggedValue, Value};
use std::ffi::OsStr;
use std::path::{Path, PathBuf};
@ -280,7 +281,13 @@ impl Shell for ValueShell {
Ok((replace_pos, completions))
}
fn hint(&self, _line: &str, _pos: usize, _ctx: &rustyline::Context<'_>) -> Option<String> {
fn hint(
&self,
_line: &str,
_pos: usize,
_ctx: &rustyline::Context<'_>,
_context: ExpandContext,
) -> Option<String> {
None
}
}

View File

@ -139,7 +139,8 @@ fn parses_sqlite() {
| get table_values
| nth 2
| get x
| echo $it"#
| echo $it
"#
));
assert_eq!(actual, "hello");

View File

@ -62,8 +62,8 @@ fn complex_nested_columns() {
cwd: dirs.test(), pipeline(
r#"
open los_tres_caballeros.json
| pick nu.0xATYKARNU nu.committers.name nu.releases.version
| where $it."nu.releases.version" > "0.8"
| pick nu."0xATYKARNU" nu.committers.name nu.releases.version
| where "nu.releases.version" > "0.8"
| get "nu.releases.version"
| echo $it
"#