Overhaul the expansion system

The main thrust of this (very large) commit is an overhaul of the
expansion system.

The parsing pipeline is:

- Lightly parse the source file for atoms, basic delimiters and pipeline
  structure into a token tree
- Expand the token tree into a HIR (high-level intermediate
  representation) based upon the baseline syntax rules for expressions
  and the syntactic shape of commands.

Somewhat non-traditionally, nu doesn't have an AST at all. It goes
directly from the token tree, which doesn't represent many important
distinctions (like the difference between `hello` and `5KB`) directly
into a high-level representation that doesn't have a direct
correspondence to the source code.

At a high level, nu commands work like macros, in the sense that the
syntactic shape of the invocation of a command depends on the
definition of a command.

However, commands do not have the ability to perform unrestricted
expansions of the token tree. Instead, they describe their arguments in
terms of syntactic shapes, and the expander expands the token tree into
HIR based upon that definition.

For example, the `where` command says that it takes a block as its first
required argument, and the description of the block syntactic shape
expands the syntax `cpu > 10` into HIR that represents
`{ $it.cpu > 10 }`.

This commit overhauls that system so that the syntactic shapes are
described in terms of a few new traits (`ExpandSyntax` and
`ExpandExpression` are the primary ones) that are more composable than
the previous system.

The first big win of this new system is the addition of the `ColumnPath`
shape, which looks like `cpu."max ghz"` or `package.version`.
Previously, while a variable path could look like `$it.cpu."max ghz"`,
the tail of a variable path could not be easily reused in other
contexts. Now, that tail is its own syntactic shape, and it can be used
as part of a command's signature.

This cleans up commands like `inc`, `add` and `edit` as well as
shorthand blocks, which can now look like `| where cpu."max ghz" > 10`
This commit is contained in:
Yehuda Katz 2019-09-17 15:26:27 -07:00
parent e18892000a
commit 1ad9d6f199
61 changed files with 4310 additions and 1952 deletions

22
Cargo.lock generated
View File

@ -1491,6 +1491,25 @@ dependencies = [
"version_check 0.1.5 (registry+https://github.com/rust-lang/crates.io-index)",
]
[[package]]
name = "nom-tracable"
version = "0.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
dependencies = [
"nom 5.0.0 (registry+https://github.com/rust-lang/crates.io-index)",
"nom-tracable-macros 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)",
"nom_locate 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)",
]
[[package]]
name = "nom-tracable-macros"
version = "0.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
dependencies = [
"quote 1.0.2 (registry+https://github.com/rust-lang/crates.io-index)",
"syn 1.0.4 (registry+https://github.com/rust-lang/crates.io-index)",
]
[[package]]
name = "nom_locate"
version = "1.0.0"
@ -1550,6 +1569,7 @@ dependencies = [
"natural 0.3.0 (registry+https://github.com/rust-lang/crates.io-index)",
"neso 0.5.0 (registry+https://github.com/rust-lang/crates.io-index)",
"nom 5.0.0 (registry+https://github.com/rust-lang/crates.io-index)",
"nom-tracable 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)",
"nom_locate 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)",
"num-bigint 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)",
"num-traits 0.2.8 (registry+https://github.com/rust-lang/crates.io-index)",
@ -3140,6 +3160,8 @@ dependencies = [
"checksum nodrop 0.1.13 (registry+https://github.com/rust-lang/crates.io-index)" = "2f9667ddcc6cc8a43afc9b7917599d7216aa09c463919ea32c59ed6cac8bc945"
"checksum nom 4.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "2ad2a91a8e869eeb30b9cb3119ae87773a8f4ae617f41b1eb9c154b2905f7bd6"
"checksum nom 5.0.0 (registry+https://github.com/rust-lang/crates.io-index)" = "e9761d859320e381010a4f7f8ed425f2c924de33ad121ace447367c713ad561b"
"checksum nom-tracable 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "edaa64ad2837d831d4a17966c9a83aa5101cc320730f5b724811c8f7442a2528"
"checksum nom-tracable-macros 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "fd25f70877a9fe68bd406b3dd3ff99e94ce9de776cf2a96e0d99de90b53d4765"
"checksum nom_locate 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)" = "f932834fd8e391fc7710e2ba17e8f9f8645d846b55aa63207e17e110a1e1ce35"
"checksum ntapi 0.3.3 (registry+https://github.com/rust-lang/crates.io-index)" = "f26e041cd983acbc087e30fcba770380cfa352d0e392e175b2344ebaf7ea0602"
"checksum num-bigint 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "f9c3f34cdd24f334cb265d9bf8bfa8a241920d026916785747a92f0e55541a1a"

View File

@ -55,6 +55,7 @@ surf = "1.0.2"
url = "2.1.0"
roxmltree = "0.7.0"
nom_locate = "1.0.0"
nom-tracable = "0.4.0"
enum-utils = "0.1.1"
unicode-xid = "0.2.0"
serde_ini = "0.2.0"
@ -95,6 +96,8 @@ textview = ["syntect", "onig_sys", "crossterm"]
binaryview = ["image", "crossterm"]
sys = ["heim", "battery"]
ps = ["heim"]
trace = ["nom-tracable/trace"]
all = ["raw-key", "textview", "binaryview", "sys", "ps", "clipboard", "ptree"]
[dependencies.rusqlite]
version = "0.20.0"

View File

@ -1,4 +1,3 @@
use crate::commands::autoview;
use crate::commands::classified::{
ClassifiedCommand, ClassifiedInputStream, ClassifiedPipeline, ExternalCommand, InternalCommand,
StreamNext,
@ -13,7 +12,12 @@ pub(crate) use crate::errors::ShellError;
use crate::fuzzysearch::{interactive_fuzzy_search, SelectionResult};
use crate::git::current_branch;
use crate::parser::registry::Signature;
use crate::parser::{hir, CallNode, Pipeline, PipelineElement, TokenNode};
use crate::parser::{
hir,
hir::syntax_shape::{CommandHeadShape, CommandSignature, ExpandSyntax},
hir::{expand_external_tokens::expand_external_tokens, tokens_iterator::TokensIterator},
parse_command_tail, Pipeline, PipelineElement, TokenNode,
};
use crate::prelude::*;
use log::{debug, trace};
@ -25,6 +29,7 @@ use std::io::{BufRead, BufReader, Write};
use std::iter::Iterator;
use std::path::PathBuf;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
#[derive(Debug)]
pub enum MaybeOwned<'a, T> {
@ -75,7 +80,7 @@ fn load_plugin(path: &std::path::Path, context: &mut Context) -> Result<(), Shel
let name = params.name.clone();
let fname = fname.to_string();
if context.has_command(&name) {
if let Some(_) = context.get_command(&name) {
trace!("plugin {:?} already loaded.", &name);
} else {
if params.is_filter {
@ -428,21 +433,11 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
}
}
LineResult::Error(mut line, err) => {
LineResult::Error(line, err) => {
rl.add_history_entry(line.clone());
let diag = err.to_diagnostic();
context.with_host(|host| {
let writer = host.err_termcolor();
line.push_str(" ");
let files = crate::parser::Files::new(line);
let _ = std::panic::catch_unwind(move || {
let _ = language_reporting::emit(
&mut writer.lock(),
&files,
&diag,
&language_reporting::DefaultConfig,
);
});
print_err(err, host, &Text::from(line));
})
}
@ -459,6 +454,14 @@ pub async fn cli() -> Result<(), Box<dyn Error>> {
Ok(())
}
fn chomp_newline(s: &str) -> &str {
if s.ends_with('\n') {
&s[..s.len() - 1]
} else {
s
}
}
enum LineResult {
Success(String),
Error(String, ShellError),
@ -471,9 +474,11 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
Ok(line) if line.trim() == "" => LineResult::Success(line.clone()),
Ok(line) => {
let result = match crate::parser::parse(&line, uuid::Uuid::nil()) {
let line = chomp_newline(line);
let result = match crate::parser::parse(&line, uuid::Uuid::new_v4()) {
Err(err) => {
return LineResult::Error(line.clone(), err);
return LineResult::Error(line.to_string(), err);
}
Ok(val) => val,
@ -484,7 +489,7 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
let mut pipeline = match classify_pipeline(&result, ctx, &Text::from(line)) {
Ok(pipeline) => pipeline,
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
};
match pipeline.commands.last() {
@ -492,7 +497,7 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
_ => pipeline
.commands
.push(ClassifiedCommand::Internal(InternalCommand {
command: whole_stream_command(autoview::Autoview),
name: "autoview".to_string(),
name_tag: Tag::unknown(),
args: hir::Call::new(
Box::new(hir::Expression::synthetic_string("autoview")),
@ -514,16 +519,24 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
input = match (item, next) {
(None, _) => break,
(Some(ClassifiedCommand::Dynamic(_)), _)
| (_, Some(ClassifiedCommand::Dynamic(_))) => {
return LineResult::Error(
line.to_string(),
ShellError::unimplemented("Dynamic commands"),
)
}
(Some(ClassifiedCommand::Expr(_)), _) => {
return LineResult::Error(
line.clone(),
line.to_string(),
ShellError::unimplemented("Expression-only commands"),
)
}
(_, Some(ClassifiedCommand::Expr(_))) => {
return LineResult::Error(
line.clone(),
line.to_string(),
ShellError::unimplemented("Expression-only commands"),
)
}
@ -536,7 +549,7 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
.await
{
Ok(val) => ClassifiedInputStream::from_input_stream(val),
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
},
(Some(ClassifiedCommand::Internal(left)), Some(_)) => {
@ -545,7 +558,7 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
.await
{
Ok(val) => ClassifiedInputStream::from_input_stream(val),
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
}
}
@ -555,7 +568,7 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
.await
{
Ok(val) => ClassifiedInputStream::from_input_stream(val),
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
}
}
@ -564,20 +577,20 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
Some(ClassifiedCommand::External(_)),
) => match left.run(ctx, input, StreamNext::External).await {
Ok(val) => val,
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
},
(Some(ClassifiedCommand::External(left)), Some(_)) => {
match left.run(ctx, input, StreamNext::Internal).await {
Ok(val) => val,
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
}
}
(Some(ClassifiedCommand::External(left)), None) => {
match left.run(ctx, input, StreamNext::Last).await {
Ok(val) => val,
Err(err) => return LineResult::Error(line.clone(), err),
Err(err) => return LineResult::Error(line.to_string(), err),
}
}
};
@ -585,7 +598,7 @@ async fn process_line(readline: Result<String, ReadlineError>, ctx: &mut Context
is_first_command = false;
}
LineResult::Success(line.clone())
LineResult::Success(line.to_string())
}
Err(ReadlineError::Interrupted) => LineResult::CtrlC,
Err(ReadlineError::Eof) => LineResult::Break,
@ -616,80 +629,91 @@ fn classify_pipeline(
}
fn classify_command(
command: &PipelineElement,
command: &Tagged<PipelineElement>,
context: &Context,
source: &Text,
) -> Result<ClassifiedCommand, ShellError> {
let call = command.call();
let mut iterator = TokensIterator::new(&command.tokens.item, command.tag, true);
let head = CommandHeadShape
.expand_syntax(&mut iterator, &context.expand_context(source, command.tag))?;
match &head {
CommandSignature::Expression(_) => Err(ShellError::syntax_error(
"Unexpected expression in command position".tagged(command.tag),
)),
match call {
// If the command starts with `^`, treat it as an external command no matter what
call if call.head().is_external() => {
let name_tag = call.head().expect_external();
let name = name_tag.slice(source);
CommandSignature::External(name) => {
let name_str = name.slice(source);
Ok(external_command(call, source, name.tagged(name_tag)))
external_command(&mut iterator, source, name_str.tagged(name))
}
// Otherwise, if the command is a bare word, we'll need to triage it
call if call.head().is_bare() => {
let head = call.head();
let name = head.source(source);
CommandSignature::LiteralExternal { outer, inner } => {
let name_str = inner.slice(source);
match context.has_command(name) {
// if the command is in the registry, it's an internal command
true => {
let command = context.get_command(name);
let config = command.signature();
trace!(target: "nu::build_pipeline", "classifying {:?}", config);
let args: hir::Call = config.parse_args(call, &context, source)?;
trace!(target: "nu::build_pipeline", "args :: {}", args.debug(source));
Ok(ClassifiedCommand::Internal(InternalCommand {
command,
name_tag: head.tag(),
args,
}))
}
// otherwise, it's an external command
false => Ok(external_command(call, source, name.tagged(head.tag()))),
}
external_command(&mut iterator, source, name_str.tagged(outer))
}
// If the command is something else (like a number or a variable), that is currently unsupported.
// We might support `$somevar` as a curried command in the future.
call => Err(ShellError::invalid_command(call.head().tag())),
CommandSignature::Internal(command) => {
let tail = parse_command_tail(
&command.signature(),
&context.expand_context(source, command.tag),
&mut iterator,
command.tag,
)?;
let (positional, named) = match tail {
None => (None, None),
Some((positional, named)) => (positional, named),
};
let call = hir::Call {
head: Box::new(head.to_expression()),
positional,
named,
};
Ok(ClassifiedCommand::Internal(InternalCommand::new(
command.name().to_string(),
command.tag,
call,
)))
}
}
}
// Classify this command as an external command, which doesn't give special meaning
// to nu syntactic constructs, and passes all arguments to the external command as
// strings.
fn external_command(
call: &Tagged<CallNode>,
pub(crate) fn external_command(
tokens: &mut TokensIterator,
source: &Text,
name: Tagged<&str>,
) -> ClassifiedCommand {
let arg_list_strings: Vec<Tagged<String>> = match call.children() {
Some(args) => args
.iter()
.filter_map(|i| match i {
TokenNode::Whitespace(_) => None,
other => Some(other.as_external_arg(source).tagged(other.tag())),
})
.collect(),
None => vec![],
};
) -> Result<ClassifiedCommand, ShellError> {
let arg_list_strings = expand_external_tokens(tokens, source)?;
let (name, tag) = name.into_parts();
ClassifiedCommand::External(ExternalCommand {
Ok(ClassifiedCommand::External(ExternalCommand {
name: name.to_string(),
name_tag: tag,
name_tag: name.tag(),
args: arg_list_strings,
})
}))
}
pub fn print_err(err: ShellError, host: &dyn Host, source: &Text) {
let diag = err.to_diagnostic();
let writer = host.err_termcolor();
let mut source = source.to_string();
source.push_str(" ");
let files = crate::parser::Files::new(source);
let _ = std::panic::catch_unwind(move || {
let _ = language_reporting::emit(
&mut writer.lock(),
&files,
&diag,
&language_reporting::DefaultConfig,
);
});
}

View File

@ -75,6 +75,7 @@ pub(crate) use command::{
UnevaluatedCallInfo, WholeStreamCommand,
};
pub(crate) use classified::ClassifiedCommand;
pub(crate) use config::Config;
pub(crate) use cp::Cpy;
pub(crate) use date::Date;

View File

@ -58,21 +58,21 @@ pub fn autoview(
}
}
};
} else if is_single_anchored_text_value(&input) {
let text = context.get_command("textview");
if let Some(text) = text {
let result = text.run(raw.with_input(input), &context.commands, false);
result.collect::<Vec<_>>().await;
} else {
for i in input {
match i.item {
Value::Primitive(Primitive::String(s)) => {
println!("{}", s);
}
_ => {}
}
}
}
// } else if is_single_origined_text_value(&input) {
// let text = context.get_command("textview");
// if let Some(text) = text {
// let result = text.run(raw.with_input(input), &context.commands);
// result.collect::<Vec<_>>().await;
// } else {
// for i in input {
// match i.item {
// Value::Primitive(Primitive::String(s)) => {
// println!("{}", s);
// }
// _ => {}
// }
// }
// }
} else if is_single_text_value(&input) {
for i in input {
match i.item {
@ -111,7 +111,8 @@ fn is_single_text_value(input: &Vec<Tagged<Value>>) -> bool {
}
}
fn is_single_anchored_text_value(input: &Vec<Tagged<Value>>) -> bool {
#[allow(unused)]
fn is_single_origined_text_value(input: &Vec<Tagged<Value>>) -> bool {
if input.len() != 1 {
return false;
}

View File

@ -1,12 +1,11 @@
use crate::commands::Command;
use crate::parser::{hir, TokenNode};
use crate::prelude::*;
use bytes::{BufMut, BytesMut};
use derive_new::new;
use futures::stream::StreamExt;
use futures_codec::{Decoder, Encoder, Framed};
use log::{log_enabled, trace};
use std::io::{Error, ErrorKind};
use std::sync::Arc;
use subprocess::Exec;
/// A simple `Codec` implementation that splits up data into lines.
@ -77,19 +76,28 @@ pub(crate) struct ClassifiedPipeline {
pub(crate) commands: Vec<ClassifiedCommand>,
}
#[derive(Debug, Eq, PartialEq)]
pub(crate) enum ClassifiedCommand {
#[allow(unused)]
Expr(TokenNode),
Internal(InternalCommand),
#[allow(unused)]
Dynamic(hir::Call),
External(ExternalCommand),
}
#[derive(new, Debug, Eq, PartialEq)]
pub(crate) struct InternalCommand {
pub(crate) command: Arc<Command>,
pub(crate) name: String,
pub(crate) name_tag: Tag,
pub(crate) args: hir::Call,
}
#[derive(new, Debug, Eq, PartialEq)]
pub(crate) struct DynamicCommand {
pub(crate) args: hir::Call,
}
impl InternalCommand {
pub(crate) async fn run(
self,
@ -100,15 +108,17 @@ impl InternalCommand {
) -> Result<InputStream, ShellError> {
if log_enabled!(log::Level::Trace) {
trace!(target: "nu::run::internal", "->");
trace!(target: "nu::run::internal", "{}", self.command.name());
trace!(target: "nu::run::internal", "{}", self.name);
trace!(target: "nu::run::internal", "{}", self.args.debug(&source));
}
let objects: InputStream =
trace_stream!(target: "nu::trace_stream::internal", "input" = input.objects);
let command = context.expect_command(&self.name);
let result = context.run_command(
self.command,
command,
self.name_tag.clone(),
context.source_map.clone(),
self.args,
@ -185,6 +195,7 @@ impl InternalCommand {
}
}
#[derive(Debug, Eq, PartialEq)]
pub(crate) struct ExternalCommand {
pub(crate) name: String,
@ -192,6 +203,7 @@ pub(crate) struct ExternalCommand {
pub(crate) args: Vec<Tagged<String>>,
}
#[derive(Debug)]
pub(crate) enum StreamNext {
Last,
External,
@ -221,6 +233,8 @@ impl ExternalCommand {
process = Exec::cmd(&self.name);
trace!(target: "nu::run::external", "command = {:?}", process);
if arg_string.contains("$it") {
let mut first = true;
@ -275,6 +289,8 @@ impl ExternalCommand {
process = process.cwd(context.shell_manager.path());
trace!(target: "nu::run::external", "cwd = {:?}", context.shell_manager.path());
let mut process = match stream_next {
StreamNext::Last => process,
StreamNext::External | StreamNext::Internal => {
@ -282,11 +298,18 @@ impl ExternalCommand {
}
};
trace!(target: "nu::run::external", "set up stdout pipe");
if let Some(stdin) = stdin {
process = process.stdin(stdin);
}
let mut popen = process.popen()?;
trace!(target: "nu::run::external", "set up stdin pipe");
trace!(target: "nu::run::external", "built process {:?}", process);
let mut popen = process.popen().unwrap();
trace!(target: "nu::run::external", "next = {:?}", stream_next);
match stream_next {
StreamNext::Last => {

View File

@ -507,6 +507,15 @@ pub enum Command {
PerItem(Arc<dyn PerItemCommand>),
}
impl std::fmt::Debug for Command {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Command::WholeStream(command) => write!(f, "WholeStream({})", command.name()),
Command::PerItem(command) => write!(f, "PerItem({})", command.name()),
}
}
}
impl Command {
pub fn name(&self) -> &str {
match self {

View File

@ -54,11 +54,10 @@ fn run(
output.push_str(&s);
}
_ => {
return Err(ShellError::labeled_error(
"Expect a string from pipeline",
"not a string-compatible value",
i.tag(),
));
return Err(ShellError::type_error(
"a string-compatible value",
i.tagged_type_name(),
))
}
}
}

View File

@ -15,7 +15,7 @@ impl PerItemCommand for Enter {
}
fn signature(&self) -> registry::Signature {
Signature::build("enter").required("location", SyntaxShape::Block)
Signature::build("enter").required("location", SyntaxShape::Path)
}
fn usage(&self) -> &str {
@ -33,14 +33,14 @@ impl PerItemCommand for Enter {
let raw_args = raw_args.clone();
match call_info.args.expect_nth(0)? {
Tagged {
item: Value::Primitive(Primitive::String(location)),
item: Value::Primitive(Primitive::Path(location)),
..
} => {
let location = location.to_string();
let location_clone = location.to_string();
let location_string = location.display().to_string();
let location_clone = location_string.clone();
if location.starts_with("help") {
let spec = location.split(":").collect::<Vec<&str>>();
let spec = location_string.split(":").collect::<Vec<&str>>();
let (_, command) = (spec[0], spec[1]);

View File

@ -53,7 +53,7 @@ fn run(
};
let path_buf = path.as_path()?;
let path_str = path_buf.display().to_string();
let path_span = path.span();
let path_span = path.tag.span;
let has_raw = call_info.args.has("raw");
let registry = registry.clone();
let raw_args = raw_args.clone();

View File

@ -16,7 +16,7 @@ impl WholeStreamCommand for First {
}
fn signature(&self) -> Signature {
Signature::build("first").required("amount", SyntaxShape::Literal)
Signature::build("first").required("amount", SyntaxShape::Int)
}
fn usage(&self) -> &str {

View File

@ -1,14 +1,16 @@
use crate::commands::WholeStreamCommand;
use crate::data::meta::tag_for_tagged_list;
use crate::data::Value;
use crate::errors::ShellError;
use crate::prelude::*;
use log::trace;
pub struct Get;
#[derive(Deserialize)]
pub struct GetArgs {
member: Tagged<String>,
rest: Vec<Tagged<String>>,
member: ColumnPath,
rest: Vec<ColumnPath>,
}
impl WholeStreamCommand for Get {
@ -18,8 +20,8 @@ impl WholeStreamCommand for Get {
fn signature(&self) -> Signature {
Signature::build("get")
.required("member", SyntaxShape::Member)
.rest(SyntaxShape::Member)
.required("member", SyntaxShape::ColumnPath)
.rest(SyntaxShape::ColumnPath)
}
fn usage(&self) -> &str {
@ -35,39 +37,34 @@ impl WholeStreamCommand for Get {
}
}
fn get_member(path: &Tagged<String>, obj: &Tagged<Value>) -> Result<Tagged<Value>, ShellError> {
pub type ColumnPath = Vec<Tagged<String>>;
pub fn get_column_path(
path: &ColumnPath,
obj: &Tagged<Value>,
) -> Result<Tagged<Value>, ShellError> {
let mut current = Some(obj);
for p in path.split(".") {
for p in path.iter() {
if let Some(obj) = current {
current = match obj.get_data_by_key(p) {
current = match obj.get_data_by_key(&p) {
Some(v) => Some(v),
None =>
// Before we give up, see if they gave us a path that matches a field name by itself
{
match obj.get_data_by_key(&path.item) {
Some(v) => return Ok(v.clone()),
None => {
let possibilities = obj.data_descriptors();
let possibilities = obj.data_descriptors();
let mut possible_matches: Vec<_> = possibilities
.iter()
.map(|x| {
(natural::distance::levenshtein_distance(x, &path.item), x)
})
.collect();
let mut possible_matches: Vec<_> = possibilities
.iter()
.map(|x| (natural::distance::levenshtein_distance(x, &p), x))
.collect();
possible_matches.sort();
possible_matches.sort();
if possible_matches.len() > 0 {
return Err(ShellError::labeled_error(
"Unknown column",
format!("did you mean '{}'?", possible_matches[0].1),
path.tag(),
));
}
None
}
}
return Err(ShellError::labeled_error(
"Unknown column",
format!("did you mean '{}'?", possible_matches[0].1),
tag_for_tagged_list(path.iter().map(|p| p.tag())),
));
}
}
}
@ -97,6 +94,8 @@ pub fn get(
}: GetArgs,
RunnableContext { input, .. }: RunnableContext,
) -> Result<OutputStream, ShellError> {
trace!("get {:?} {:?}", member, fields);
let stream = input
.values
.map(move |item| {
@ -107,10 +106,10 @@ pub fn get(
let fields = vec![&member, &fields]
.into_iter()
.flatten()
.collect::<Vec<&Tagged<String>>>();
.collect::<Vec<&ColumnPath>>();
for field in &fields {
match get_member(field, &item) {
for column_path in &fields {
match get_column_path(column_path, &item) {
Ok(Tagged {
item: Value::Table(l),
..

View File

@ -54,7 +54,7 @@ fn run(
};
let path_buf = path.as_path()?;
let path_str = path_buf.display().to_string();
let path_span = path.span();
let path_span = path.tag.span;
let has_raw = call_info.args.has("raw");
let registry = registry.clone();
let raw_args = raw_args.clone();

View File

@ -143,15 +143,16 @@ fn save(
}
_ => {
yield Err(ShellError::labeled_error(
"Save requires a filepath",
"Save requires a filepath (1)",
"needs path",
name_tag,
));
}
},
None => {
eprintln!("{:?} {:?}", anchor, source_map);
yield Err(ShellError::labeled_error(
"Save requires a filepath",
"Save requires a filepath (2)",
"needs path",
name_tag,
));
@ -159,7 +160,7 @@ fn save(
}
} else {
yield Err(ShellError::labeled_error(
"Save requires a filepath",
"Save requires a filepath (3)",
"needs path",
name_tag,
));

View File

@ -1,6 +1,7 @@
use crate::commands::WholeStreamCommand;
use crate::errors::ShellError;
use crate::prelude::*;
use log::trace;
pub struct SkipWhile;
@ -38,7 +39,9 @@ pub fn skip_while(
RunnableContext { input, .. }: RunnableContext,
) -> Result<OutputStream, ShellError> {
let objects = input.values.skip_while(move |item| {
trace!("ITEM = {:?}", item);
let result = condition.invoke(&item);
trace!("RESULT = {:?}", result);
let return_value = match result {
Ok(ref v) if v.is_true() => true,

View File

@ -38,8 +38,8 @@ fn tags(args: CommandArgs, _registry: &CommandRegistry) -> Result<OutputStream,
let anchor = v.anchor();
let span = v.tag().span;
let mut dict = TaggedDictBuilder::new(v.tag());
dict.insert("start", Value::int(span.start as i64));
dict.insert("end", Value::int(span.end as i64));
dict.insert("start", Value::int(span.start() as i64));
dict.insert("end", Value::int(span.end() as i64));
tags.insert_tagged("span", dict.into_tagged_value());
match source_map.get(&anchor) {

View File

@ -1,5 +1,5 @@
use crate::commands::{Command, UnevaluatedCallInfo};
use crate::parser::hir;
use crate::parser::{hir, hir::syntax_shape::ExpandContext};
use crate::prelude::*;
use derive_new::new;
@ -53,13 +53,17 @@ impl CommandRegistry {
registry.get(name).map(|c| c.clone())
}
pub(crate) fn expect_command(&self, name: &str) -> Arc<Command> {
self.get_command(name).unwrap()
}
pub(crate) fn has(&self, name: &str) -> bool {
let registry = self.registry.lock().unwrap();
registry.contains_key(name)
}
fn insert(&mut self, name: impl Into<String>, command: Arc<Command>) {
pub(crate) fn insert(&mut self, name: impl Into<String>, command: Arc<Command>) {
let mut registry = self.registry.lock().unwrap();
registry.insert(name.into(), command);
}
@ -83,6 +87,14 @@ impl Context {
&self.registry
}
pub(crate) fn expand_context<'context>(
&'context self,
source: &'context Text,
tag: Tag,
) -> ExpandContext<'context> {
ExpandContext::new(&self.registry, tag, source, self.shell_manager.homedir())
}
pub(crate) fn basic() -> Result<Context, Box<dyn Error>> {
let registry = CommandRegistry::new();
Ok(Context {
@ -109,12 +121,12 @@ impl Context {
self.source_map.insert(uuid, anchor_location);
}
pub(crate) fn has_command(&self, name: &str) -> bool {
self.registry.has(name)
pub(crate) fn get_command(&self, name: &str) -> Option<Arc<Command>> {
self.registry.get_command(name)
}
pub(crate) fn get_command(&self, name: &str) -> Arc<Command> {
self.registry.get_command(name).unwrap()
pub(crate) fn expect_command(&self, name: &str) -> Arc<Command> {
self.registry.expect_command(name)
}
pub(crate) fn run_command<'a>(

View File

@ -8,6 +8,7 @@ use crate::Text;
use chrono::{DateTime, Utc};
use chrono_humanize::Humanize;
use derive_new::new;
use log::trace;
use serde::{Deserialize, Serialize};
use std::fmt;
use std::path::PathBuf;
@ -217,6 +218,14 @@ impl Block {
let mut last = None;
trace!(
"EXPRS = {:?}",
self.expressions
.iter()
.map(|e| format!("{}", e))
.collect::<Vec<_>>()
);
for expr in self.expressions.iter() {
last = Some(evaluate_baseline_expr(
&expr,
@ -394,13 +403,34 @@ impl Tagged<Value> {
pub(crate) fn debug(&self) -> ValueDebug<'_> {
ValueDebug { value: self }
}
pub fn as_column_path(&self) -> Result<Tagged<Vec<Tagged<String>>>, ShellError> {
let mut out: Vec<Tagged<String>> = vec![];
match &self.item {
Value::Table(table) => {
for item in table {
out.push(item.as_string()?.tagged(item.tag));
}
}
other => {
return Err(ShellError::type_error(
"column name",
other.type_name().tagged(self.tag),
))
}
}
Ok(out.tagged(self.tag))
}
}
impl Value {
pub(crate) fn type_name(&self) -> String {
match self {
Value::Primitive(p) => p.type_name(),
Value::Row(_) => format!("object"),
Value::Row(_) => format!("row"),
Value::Table(_) => format!("list"),
Value::Block(_) => format!("block"),
}
@ -443,6 +473,22 @@ impl Value {
}
}
pub fn get_data_by_column_path(
&self,
tag: Tag,
path: &Vec<Tagged<String>>,
) -> Option<Tagged<&Value>> {
let mut current = self;
for p in path {
match current.get_data_by_key(p) {
Some(v) => current = v,
None => return None,
}
}
Some(Tagged::from_item(current, tag))
}
pub fn get_data_by_path(&self, tag: Tag, path: &str) -> Option<Tagged<&Value>> {
let mut current = self;
for p in path.split(".") {
@ -508,6 +554,58 @@ impl Value {
None
}
pub fn insert_data_at_column_path(
&self,
tag: Tag,
split_path: &Vec<Tagged<String>>,
new_value: Value,
) -> Option<Tagged<Value>> {
let mut new_obj = self.clone();
if let Value::Row(ref mut o) = new_obj {
let mut current = o;
if split_path.len() == 1 {
// Special case for inserting at the top level
current.entries.insert(
split_path[0].item.clone(),
Tagged::from_item(new_value, tag),
);
return Some(Tagged::from_item(new_obj, tag));
}
for idx in 0..split_path.len() {
match current.entries.get_mut(&split_path[idx].item) {
Some(next) => {
if idx == (split_path.len() - 2) {
match &mut next.item {
Value::Row(o) => {
o.entries.insert(
split_path[idx + 1].to_string(),
Tagged::from_item(new_value, tag),
);
}
_ => {}
}
return Some(Tagged::from_item(new_obj, tag));
} else {
match next.item {
Value::Row(ref mut o) => {
current = o;
}
_ => return None,
}
}
}
_ => return None,
}
}
}
None
}
pub fn replace_data_at_path(
&self,
tag: Tag,
@ -543,6 +641,39 @@ impl Value {
None
}
pub fn replace_data_at_column_path(
&self,
tag: Tag,
split_path: &Vec<Tagged<String>>,
replaced_value: Value,
) -> Option<Tagged<Value>> {
let mut new_obj = self.clone();
if let Value::Row(ref mut o) = new_obj {
let mut current = o;
for idx in 0..split_path.len() {
match current.entries.get_mut(&split_path[idx].item) {
Some(next) => {
if idx == (split_path.len() - 1) {
*next = Tagged::from_item(replaced_value, tag);
return Some(Tagged::from_item(new_obj, tag));
} else {
match next.item {
Value::Row(ref mut o) => {
current = o;
}
_ => return None,
}
}
}
_ => return None,
}
}
}
None
}
pub fn get_data(&self, desc: &String) -> MaybeOwned<'_, Value> {
match self {
p @ Value::Primitive(_) => MaybeOwned::Borrowed(p),

View File

@ -1,4 +1,5 @@
use crate::context::{AnchorLocation, SourceMap};
use crate::parser::parse::parser::TracableContext;
use crate::prelude::*;
use crate::Text;
use derive_new::new;
@ -119,10 +120,7 @@ impl From<&Tag> for Tag {
impl From<nom_locate::LocatedSpanEx<&str, Uuid>> for Span {
fn from(input: nom_locate::LocatedSpanEx<&str, Uuid>) -> Span {
Span {
start: input.offset,
end: input.offset + input.fragment.len(),
}
Span::new(input.offset, input.offset + input.fragment.len())
}
}
@ -147,10 +145,7 @@ impl<T>
impl From<(usize, usize)> for Span {
fn from(input: (usize, usize)) -> Span {
Span {
start: input.0,
end: input.1,
}
Span::new(input.0, input.1)
}
}
@ -164,7 +159,7 @@ impl From<&std::ops::Range<usize>> for Span {
}
#[derive(
Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Serialize, Deserialize, Hash, Getters,
Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Serialize, Deserialize, Hash, Getters, new,
)]
pub struct Tag {
pub anchor: Uuid,
@ -189,11 +184,20 @@ impl From<&Span> for Tag {
}
}
impl From<(usize, usize, TracableContext)> for Tag {
fn from((start, end, context): (usize, usize, TracableContext)) -> Self {
Tag {
anchor: context.origin,
span: Span::new(start, end),
}
}
}
impl From<(usize, usize, Uuid)> for Tag {
fn from((start, end, anchor): (usize, usize, Uuid)) -> Self {
Tag {
anchor,
span: Span { start, end },
span: Span::new(start, end),
}
}
}
@ -201,24 +205,17 @@ impl From<(usize, usize, Uuid)> for Tag {
impl From<(usize, usize, Option<Uuid>)> for Tag {
fn from((start, end, anchor): (usize, usize, Option<Uuid>)) -> Self {
Tag {
anchor: if let Some(uuid) = anchor {
uuid
} else {
uuid::Uuid::nil()
},
span: Span { start, end },
anchor: anchor.unwrap_or(uuid::Uuid::nil()),
span: Span::new(start, end),
}
}
}
impl From<nom_locate::LocatedSpanEx<&str, Uuid>> for Tag {
fn from(input: nom_locate::LocatedSpanEx<&str, Uuid>) -> Tag {
impl From<nom_locate::LocatedSpanEx<&str, TracableContext>> for Tag {
fn from(input: nom_locate::LocatedSpanEx<&str, TracableContext>) -> Tag {
Tag {
anchor: input.extra,
span: Span {
start: input.offset,
end: input.offset + input.fragment.len(),
},
anchor: input.extra.origin,
span: Span::new(input.offset, input.offset + input.fragment.len()),
}
}
}
@ -265,10 +262,7 @@ impl Tag {
);
Tag {
span: Span {
start: self.span.start,
end: other.span.end,
},
span: Span::new(self.span.start, other.span.end),
anchor: self.anchor,
}
}
@ -276,18 +270,46 @@ impl Tag {
pub fn slice<'a>(&self, source: &'a str) -> &'a str {
self.span.slice(source)
}
pub fn string<'a>(&self, source: &'a str) -> String {
self.span.slice(source).to_string()
}
pub fn tagged_slice<'a>(&self, source: &'a str) -> Tagged<&'a str> {
self.span.slice(source).tagged(self)
}
pub fn tagged_string<'a>(&self, source: &'a str) -> Tagged<String> {
self.span.slice(source).to_string().tagged(self)
}
}
pub fn tag_for_tagged_list(mut iter: impl Iterator<Item = Tag>) -> Tag {
let first = iter.next();
let first = match first {
None => return Tag::unknown(),
Some(first) => first,
};
let last = iter.last();
match last {
None => first,
Some(last) => first.until(last),
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Serialize, Deserialize, Hash)]
pub struct Span {
pub(crate) start: usize,
pub(crate) end: usize,
start: usize,
end: usize,
}
impl From<Option<Span>> for Span {
fn from(input: Option<Span>) -> Span {
match input {
None => Span { start: 0, end: 0 },
None => Span::new(0, 0),
Some(span) => span,
}
}
@ -295,7 +317,18 @@ impl From<Option<Span>> for Span {
impl Span {
pub fn unknown() -> Span {
Span { start: 0, end: 0 }
Span::new(0, 0)
}
pub fn new(start: usize, end: usize) -> Span {
assert!(
end >= start,
"Can't create a Span whose end < start, start={}, end={}",
start,
end
);
Span { start, end }
}
/*
@ -308,6 +341,14 @@ impl Span {
}
*/
pub fn start(&self) -> usize {
self.start
}
pub fn end(&self) -> usize {
self.end
}
pub fn is_unknown(&self) -> bool {
self.start == 0 && self.end == 0
}
@ -319,17 +360,11 @@ impl Span {
impl language_reporting::ReportingSpan for Span {
fn with_start(&self, start: usize) -> Self {
Span {
start,
end: self.end,
}
Span::new(start, self.end)
}
fn with_end(&self, end: usize) -> Self {
Span {
start: self.start,
end,
}
Span::new(self.start, end)
}
fn start(&self) -> usize {
@ -344,20 +379,14 @@ impl language_reporting::ReportingSpan for Span {
impl language_reporting::ReportingSpan for Tag {
fn with_start(&self, start: usize) -> Self {
Tag {
span: Span {
start,
end: self.span.end,
},
span: Span::new(start, self.span.end),
anchor: self.anchor,
}
}
fn with_end(&self, end: usize) -> Self {
Tag {
span: Span {
start: self.span.start,
end,
},
span: Span::new(self.span.start, end),
anchor: self.anchor,
}
}

View File

@ -1,5 +1,6 @@
use crate::prelude::*;
use crate::parser::parse::parser::TracableContext;
use ansi_term::Color;
use derive_new::new;
use language_reporting::{Diagnostic, Label, Severity};
@ -62,6 +63,14 @@ impl ShellError {
.start()
}
pub(crate) fn unexpected_eof(expected: impl Into<String>, tag: Tag) -> ShellError {
ProximateShellError::UnexpectedEof {
expected: expected.into(),
tag,
}
.start()
}
pub(crate) fn range_error(
expected: impl Into<ExpectedRange>,
actual: &Tagged<impl fmt::Debug>,
@ -82,6 +91,7 @@ impl ShellError {
.start()
}
#[allow(unused)]
pub(crate) fn invalid_command(problem: impl Into<Tag>) -> ShellError {
ProximateShellError::InvalidCommand {
command: problem.into(),
@ -133,7 +143,7 @@ impl ShellError {
pub(crate) fn parse_error(
error: nom::Err<(
nom_locate::LocatedSpanEx<&str, uuid::Uuid>,
nom_locate::LocatedSpanEx<&str, TracableContext>,
nom::error::ErrorKind,
)>,
) -> ShellError {
@ -235,7 +245,6 @@ impl ShellError {
Label::new_primary(tag)
.with_message(format!("Expected {}, found {}", expected, actual)),
),
ProximateShellError::TypeError {
expected,
actual:
@ -246,6 +255,11 @@ impl ShellError {
} => Diagnostic::new(Severity::Error, "Type Error")
.with_label(Label::new_primary(tag).with_message(expected)),
ProximateShellError::UnexpectedEof {
expected, tag
} => Diagnostic::new(Severity::Error, format!("Unexpected end of input"))
.with_label(Label::new_primary(tag).with_message(format!("Expected {}", expected))),
ProximateShellError::RangeError {
kind,
operation,
@ -267,10 +281,10 @@ impl ShellError {
problem:
Tagged {
tag,
..
item
},
} => Diagnostic::new(Severity::Error, "Syntax Error")
.with_label(Label::new_primary(tag).with_message("Unexpected external command")),
.with_label(Label::new_primary(tag).with_message(item)),
ProximateShellError::MissingProperty { subpath, expr } => {
let subpath = subpath.into_label();
@ -340,6 +354,10 @@ impl ShellError {
pub(crate) fn unexpected(title: impl Into<String>) -> ShellError {
ShellError::string(&format!("Unexpected: {}", title.into()))
}
pub(crate) fn unreachable(title: impl Into<String>) -> ShellError {
ShellError::string(&format!("BUG: Unreachable: {}", title.into()))
}
}
#[derive(Debug, Eq, PartialEq, Clone, Ord, PartialOrd, Serialize, Deserialize)]
@ -387,6 +405,10 @@ pub enum ProximateShellError {
SyntaxError {
problem: Tagged<String>,
},
UnexpectedEof {
expected: String,
tag: Tag,
},
InvalidCommand {
command: Tag,
},
@ -473,6 +495,7 @@ impl std::fmt::Display for ShellError {
ProximateShellError::MissingValue { .. } => write!(f, "MissingValue"),
ProximateShellError::InvalidCommand { .. } => write!(f, "InvalidCommand"),
ProximateShellError::TypeError { .. } => write!(f, "TypeError"),
ProximateShellError::UnexpectedEof { .. } => write!(f, "UnexpectedEof"),
ProximateShellError::RangeError { .. } => write!(f, "RangeError"),
ProximateShellError::SyntaxError { .. } => write!(f, "SyntaxError"),
ProximateShellError::MissingProperty { .. } => write!(f, "MissingProperty"),

View File

@ -7,6 +7,8 @@ use crate::parser::{
use crate::prelude::*;
use derive_new::new;
use indexmap::IndexMap;
use log::trace;
use std::fmt;
#[derive(new)]
pub struct Scope {
@ -15,6 +17,15 @@ pub struct Scope {
vars: IndexMap<String, Tagged<Value>>,
}
impl fmt::Display for Scope {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_map()
.entry(&"$it", &format!("{:?}", self.it.item))
.entries(self.vars.iter().map(|(k, v)| (k, &v.item)))
.finish()
}
}
impl Scope {
pub(crate) fn empty() -> Scope {
Scope {
@ -48,12 +59,15 @@ pub(crate) fn evaluate_baseline_expr(
RawExpression::Synthetic(hir::Synthetic::String(s)) => {
Ok(Value::string(s).tagged_unknown())
}
RawExpression::Variable(var) => evaluate_reference(var, scope, source),
RawExpression::Variable(var) => evaluate_reference(var, scope, source, expr.tag()),
RawExpression::Command(_) => evaluate_command(expr.tag(), scope, source),
RawExpression::ExternalCommand(external) => evaluate_external(external, scope, source),
RawExpression::Binary(binary) => {
let left = evaluate_baseline_expr(binary.left(), registry, scope, source)?;
let right = evaluate_baseline_expr(binary.right(), registry, scope, source)?;
trace!("left={:?} right={:?}", left.item, right.item);
match left.compare(binary.op(), &*right) {
Ok(result) => Ok(Value::boolean(result).tagged(expr.tag())),
Err((left_type, right_type)) => Err(ShellError::coerce_error(
@ -130,14 +144,16 @@ fn evaluate_reference(
name: &hir::Variable,
scope: &Scope,
source: &Text,
tag: Tag,
) -> Result<Tagged<Value>, ShellError> {
trace!("Evaluating {} with Scope {}", name, scope);
match name {
hir::Variable::It(tag) => Ok(scope.it.item.clone().tagged(*tag)),
hir::Variable::Other(tag) => Ok(scope
hir::Variable::It(_) => Ok(scope.it.item.clone().tagged(tag)),
hir::Variable::Other(inner) => Ok(scope
.vars
.get(tag.slice(source))
.get(inner.slice(source))
.map(|v| v.clone())
.unwrap_or_else(|| Value::nothing().tagged(*tag))),
.unwrap_or_else(|| Value::nothing().tagged(tag))),
}
}
@ -150,3 +166,7 @@ fn evaluate_external(
"Unexpected external command".tagged(*external.name()),
))
}
fn evaluate_command(tag: Tag, _scope: &Scope, _source: &Text) -> Result<Tagged<Value>, ShellError> {
Err(ShellError::syntax_error("Unexpected command".tagged(tag)))
}

View File

@ -31,7 +31,7 @@ pub use cli::cli;
pub use data::base::{Primitive, Value};
pub use data::config::{config_path, APP_INFO};
pub use data::dict::{Dictionary, TaggedDictBuilder};
pub use data::meta::{Tag, Tagged, TaggedItem};
pub use data::meta::{Span, Tag, Tagged, TaggedItem};
pub use errors::{CoerceInto, ShellError};
pub use num_traits::cast::ToPrimitive;
pub use parser::parse::text::Text;

View File

@ -7,7 +7,7 @@ pub(crate) mod registry;
use crate::errors::ShellError;
pub(crate) use deserializer::ConfigDeserializer;
pub(crate) use hir::baseline_parse_tokens::baseline_parse_tokens;
pub(crate) use hir::TokensIterator;
pub(crate) use parse::call_node::CallNode;
pub(crate) use parse::files::Files;
pub(crate) use parse::flag::Flag;
@ -15,10 +15,10 @@ pub(crate) use parse::operator::Operator;
pub(crate) use parse::parser::{nom_input, pipeline};
pub(crate) use parse::pipeline::{Pipeline, PipelineElement};
pub(crate) use parse::text::Text;
pub(crate) use parse::token_tree::{DelimitedNode, Delimiter, PathNode, TokenNode};
pub(crate) use parse::token_tree::{DelimitedNode, Delimiter, TokenNode};
pub(crate) use parse::tokens::{RawToken, Token};
pub(crate) use parse::unit::Unit;
pub(crate) use parse_command::parse_command;
pub(crate) use parse_command::parse_command_tail;
pub(crate) use registry::CommandRegistry;
pub fn parse(input: &str, anchor: uuid::Uuid) -> Result<TokenNode, ShellError> {

View File

@ -310,9 +310,10 @@ impl<'de, 'a> de::Deserializer<'de> for &'a mut ConfigDeserializer<'de> {
return Ok(r);
}
trace!(
"deserializing struct {:?} {:?} (stack={:?})",
"deserializing struct {:?} {:?} (saw_root={} stack={:?})",
name,
fields,
self.saw_root,
self.stack
);
@ -326,6 +327,12 @@ impl<'de, 'a> de::Deserializer<'de> for &'a mut ConfigDeserializer<'de> {
let type_name = std::any::type_name::<V::Value>();
let tagged_val_name = std::any::type_name::<Tagged<Value>>();
trace!(
"type_name={} tagged_val_name={}",
type_name,
tagged_val_name
);
if type_name == tagged_val_name {
return visit::<Tagged<Value>, _>(value.val, name, fields, visitor);
}

View File

@ -1,11 +1,13 @@
pub(crate) mod baseline_parse;
pub(crate) mod baseline_parse_tokens;
pub(crate) mod binary;
pub(crate) mod expand_external_tokens;
pub(crate) mod external_command;
pub(crate) mod named;
pub(crate) mod path;
pub(crate) mod syntax_shape;
pub(crate) mod tokens_iterator;
use crate::parser::{registry, Unit};
use crate::parser::{registry, Operator, Unit};
use crate::prelude::*;
use derive_new::new;
use getset::Getters;
@ -14,27 +16,18 @@ use std::fmt;
use std::path::PathBuf;
use crate::evaluate::Scope;
use crate::parser::parse::tokens::RawNumber;
use crate::traits::ToDebug;
pub(crate) use self::baseline_parse::{
baseline_parse_single_token, baseline_parse_token_as_number, baseline_parse_token_as_path,
baseline_parse_token_as_pattern, baseline_parse_token_as_string,
};
pub(crate) use self::baseline_parse_tokens::{baseline_parse_next_expr, TokensIterator};
pub(crate) use self::binary::Binary;
pub(crate) use self::external_command::ExternalCommand;
pub(crate) use self::named::NamedArguments;
pub(crate) use self::path::Path;
pub(crate) use self::syntax_shape::ExpandContext;
pub(crate) use self::tokens_iterator::debug::debug_tokens;
pub(crate) use self::tokens_iterator::TokensIterator;
pub use self::baseline_parse_tokens::SyntaxShape;
pub fn path(head: impl Into<Expression>, tail: Vec<Tagged<impl Into<String>>>) -> Path {
Path::new(
head.into(),
tail.into_iter()
.map(|item| item.map(|string| string.into()))
.collect(),
)
}
pub use self::syntax_shape::SyntaxShape;
#[derive(Debug, Clone, Eq, PartialEq, Getters, Serialize, Deserialize, new)]
pub struct Call {
@ -93,6 +86,7 @@ pub enum RawExpression {
FilePath(PathBuf),
ExternalCommand(ExternalCommand),
Command(Tag),
Boolean(bool),
}
@ -115,13 +109,14 @@ impl RawExpression {
match self {
RawExpression::Literal(literal) => literal.type_name(),
RawExpression::Synthetic(synthetic) => synthetic.type_name(),
RawExpression::ExternalWord => "externalword",
RawExpression::FilePath(..) => "filepath",
RawExpression::Command(..) => "command",
RawExpression::ExternalWord => "external word",
RawExpression::FilePath(..) => "file path",
RawExpression::Variable(..) => "variable",
RawExpression::List(..) => "list",
RawExpression::Binary(..) => "binary",
RawExpression::Block(..) => "block",
RawExpression::Path(..) => "path",
RawExpression::Path(..) => "variable path",
RawExpression::Boolean(..) => "boolean",
RawExpression::ExternalCommand(..) => "external",
}
@ -130,6 +125,39 @@ impl RawExpression {
pub type Expression = Tagged<RawExpression>;
impl std::fmt::Display for Expression {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let span = self.tag.span;
match &self.item {
RawExpression::Literal(literal) => write!(f, "{}", literal.tagged(self.tag)),
RawExpression::Synthetic(Synthetic::String(s)) => write!(f, "{}", s),
RawExpression::Command(_) => write!(f, "Command{{ {}..{} }}", span.start(), span.end()),
RawExpression::ExternalWord => {
write!(f, "ExternalWord{{ {}..{} }}", span.start(), span.end())
}
RawExpression::FilePath(file) => write!(f, "Path{{ {} }}", file.display()),
RawExpression::Variable(variable) => write!(f, "{}", variable),
RawExpression::List(list) => f
.debug_list()
.entries(list.iter().map(|e| format!("{}", e)))
.finish(),
RawExpression::Binary(binary) => write!(f, "{}", binary),
RawExpression::Block(items) => {
write!(f, "Block")?;
f.debug_set()
.entries(items.iter().map(|i| format!("{}", i)))
.finish()
}
RawExpression::Path(path) => write!(f, "{}", path),
RawExpression::Boolean(b) => write!(f, "${}", b),
RawExpression::ExternalCommand(..) => {
write!(f, "ExternalComment{{ {}..{} }}", span.start(), span.end())
}
}
}
}
impl Expression {
pub(crate) fn number(i: impl Into<Number>, tag: impl Into<Tag>) -> Expression {
RawExpression::Literal(Literal::Number(i.into())).tagged(tag.into())
@ -151,10 +179,50 @@ impl Expression {
RawExpression::Literal(Literal::String(inner.into())).tagged(outer.into())
}
pub(crate) fn path(
head: Expression,
tail: Vec<Tagged<impl Into<String>>>,
tag: impl Into<Tag>,
) -> Expression {
let tail = tail.into_iter().map(|t| t.map(|s| s.into())).collect();
RawExpression::Path(Box::new(Path::new(head, tail))).tagged(tag.into())
}
pub(crate) fn dot_member(head: Expression, next: Tagged<impl Into<String>>) -> Expression {
let Tagged { item, tag } = head;
let new_tag = head.tag.until(next.tag);
match item {
RawExpression::Path(path) => {
let (head, mut tail) = path.parts();
tail.push(next.map(|i| i.into()));
Expression::path(head, tail, new_tag)
}
other => Expression::path(other.tagged(tag), vec![next], new_tag),
}
}
pub(crate) fn infix(
left: Expression,
op: Tagged<impl Into<Operator>>,
right: Expression,
) -> Expression {
let new_tag = left.tag.until(right.tag);
RawExpression::Binary(Box::new(Binary::new(left, op.map(|o| o.into()), right)))
.tagged(new_tag)
}
pub(crate) fn file_path(path: impl Into<PathBuf>, outer: impl Into<Tag>) -> Expression {
RawExpression::FilePath(path.into()).tagged(outer)
}
pub(crate) fn list(list: Vec<Expression>, tag: impl Into<Tag>) -> Expression {
RawExpression::List(list).tagged(tag)
}
pub(crate) fn bare(tag: impl Into<Tag>) -> Expression {
RawExpression::Literal(Literal::Bare).tagged(tag)
}
@ -182,6 +250,7 @@ impl ToDebug for Expression {
RawExpression::Literal(l) => l.tagged(self.tag()).fmt_debug(f, source),
RawExpression::FilePath(p) => write!(f, "{}", p.display()),
RawExpression::ExternalWord => write!(f, "{}", self.tag().slice(source)),
RawExpression::Command(tag) => write!(f, "{}", tag.slice(source)),
RawExpression::Synthetic(Synthetic::String(s)) => write!(f, "{:?}", s),
RawExpression::Variable(Variable::It(_)) => write!(f, "$it"),
RawExpression::Variable(Variable::Other(s)) => write!(f, "${}", s.slice(source)),
@ -232,6 +301,26 @@ pub enum Literal {
Bare,
}
impl std::fmt::Display for Tagged<Literal> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", Tagged::new(self.tag, &self.item))
}
}
impl std::fmt::Display for Tagged<&Literal> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let span = self.tag.span;
match &self.item {
Literal::Number(number) => write!(f, "{}", number),
Literal::Size(number, unit) => write!(f, "{}{}", number, unit.as_str()),
Literal::String(_) => write!(f, "String{{ {}..{} }}", span.start(), span.end()),
Literal::GlobPattern => write!(f, "Glob{{ {}..{} }}", span.start(), span.end()),
Literal::Bare => write!(f, "Bare{{ {}..{} }}", span.start(), span.end()),
}
}
}
impl ToDebug for Tagged<&Literal> {
fn fmt_debug(&self, f: &mut fmt::Formatter, source: &str) -> fmt::Result {
match self.item() {
@ -261,3 +350,12 @@ pub enum Variable {
It(Tag),
Other(Tag),
}
impl std::fmt::Display for Variable {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Variable::It(_) => write!(f, "$it"),
Variable::Other(tag) => write!(f, "${{ {}..{} }}", tag.span.start(), tag.span.end()),
}
}
}

View File

@ -1,140 +1,2 @@
use crate::context::Context;
use crate::errors::ShellError;
use crate::parser::{hir, RawToken, Token};
use crate::TaggedItem;
use crate::Text;
use std::path::PathBuf;
pub fn baseline_parse_single_token(
token: &Token,
source: &Text,
) -> Result<hir::Expression, ShellError> {
Ok(match *token.item() {
RawToken::Number(number) => hir::Expression::number(number.to_number(source), token.tag()),
RawToken::Size(int, unit) => {
hir::Expression::size(int.to_number(source), unit, token.tag())
}
RawToken::String(tag) => hir::Expression::string(tag, token.tag()),
RawToken::Variable(tag) if tag.slice(source) == "it" => {
hir::Expression::it_variable(tag, token.tag())
}
RawToken::Variable(tag) => hir::Expression::variable(tag, token.tag()),
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token.tag()),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token.tag())),
RawToken::GlobPattern => hir::Expression::pattern(token.tag()),
RawToken::Bare => hir::Expression::bare(token.tag()),
})
}
pub fn baseline_parse_token_as_number(
token: &Token,
source: &Text,
) -> Result<hir::Expression, ShellError> {
Ok(match *token.item() {
RawToken::Variable(tag) if tag.slice(source) == "it" => {
hir::Expression::it_variable(tag, token.tag())
}
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token.tag()),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token.tag())),
RawToken::Variable(tag) => hir::Expression::variable(tag, token.tag()),
RawToken::Number(number) => hir::Expression::number(number.to_number(source), token.tag()),
RawToken::Size(number, unit) => {
hir::Expression::size(number.to_number(source), unit, token.tag())
}
RawToken::Bare => hir::Expression::bare(token.tag()),
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"Number",
"glob pattern".to_string().tagged(token.tag()),
))
}
RawToken::String(tag) => hir::Expression::string(tag, token.tag()),
})
}
pub fn baseline_parse_token_as_string(
token: &Token,
source: &Text,
) -> Result<hir::Expression, ShellError> {
Ok(match *token.item() {
RawToken::Variable(tag) if tag.slice(source) == "it" => {
hir::Expression::it_variable(tag, token.tag())
}
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token.tag()),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token.tag())),
RawToken::Variable(tag) => hir::Expression::variable(tag, token.tag()),
RawToken::Number(_) => hir::Expression::bare(token.tag()),
RawToken::Size(_, _) => hir::Expression::bare(token.tag()),
RawToken::Bare => hir::Expression::bare(token.tag()),
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"String",
"glob pattern".tagged(token.tag()),
))
}
RawToken::String(tag) => hir::Expression::string(tag, token.tag()),
})
}
pub fn baseline_parse_token_as_path(
token: &Token,
context: &Context,
source: &Text,
) -> Result<hir::Expression, ShellError> {
Ok(match *token.item() {
RawToken::Variable(tag) if tag.slice(source) == "it" => {
hir::Expression::it_variable(tag, token.tag())
}
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token.tag()),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token.tag())),
RawToken::Variable(tag) => hir::Expression::variable(tag, token.tag()),
RawToken::Number(_) => hir::Expression::bare(token.tag()),
RawToken::Size(_, _) => hir::Expression::bare(token.tag()),
RawToken::Bare => {
hir::Expression::file_path(expand_path(token.tag().slice(source), context), token.tag())
}
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"Path",
"glob pattern".tagged(token.tag()),
))
}
RawToken::String(tag) => {
hir::Expression::file_path(expand_path(tag.slice(source), context), token.tag())
}
})
}
pub fn baseline_parse_token_as_pattern(
token: &Token,
context: &Context,
source: &Text,
) -> Result<hir::Expression, ShellError> {
Ok(match *token.item() {
RawToken::Variable(tag) if tag.slice(source) == "it" => {
hir::Expression::it_variable(tag, token.tag())
}
RawToken::ExternalCommand(_) => {
return Err(ShellError::syntax_error(
"Invalid external command".to_string().tagged(token.tag()),
))
}
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token.tag())),
RawToken::Variable(tag) => hir::Expression::variable(tag, token.tag()),
RawToken::Number(_) => hir::Expression::bare(token.tag()),
RawToken::Size(_, _) => hir::Expression::bare(token.tag()),
RawToken::GlobPattern => hir::Expression::pattern(token.tag()),
RawToken::Bare => {
hir::Expression::file_path(expand_path(token.tag().slice(source), context), token.tag())
}
RawToken::String(tag) => {
hir::Expression::file_path(expand_path(tag.slice(source), context), token.tag())
}
})
}
pub fn expand_path(string: &str, context: &Context) -> PathBuf {
let expanded = shellexpand::tilde_with_context(string, || context.shell_manager.homedir());
PathBuf::from(expanded.as_ref())
}
#[cfg(test)]
mod tests;

View File

@ -0,0 +1,144 @@
use crate::commands::classified::InternalCommand;
use crate::commands::ClassifiedCommand;
use crate::env::host::BasicHost;
use crate::parser::hir;
use crate::parser::hir::syntax_shape::*;
use crate::parser::hir::TokensIterator;
use crate::parser::parse::token_tree_builder::{CurriedToken, TokenTreeBuilder as b};
use crate::parser::TokenNode;
use crate::{Span, Tag, Tagged, TaggedItem, Text};
use pretty_assertions::assert_eq;
use std::fmt::Debug;
use uuid::Uuid;
#[test]
fn test_parse_string() {
parse_tokens(StringShape, vec![b::string("hello")], |tokens| {
hir::Expression::string(inner_string_tag(tokens[0].tag()), tokens[0].tag())
});
}
#[test]
fn test_parse_path() {
parse_tokens(
VariablePathShape,
vec![b::var("it"), b::op("."), b::bare("cpu")],
|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!["cpu".tagged(bare)],
outer_var.until(bare),
)
},
);
parse_tokens(
VariablePathShape,
vec![
b::var("cpu"),
b::op("."),
b::bare("amount"),
b::op("."),
b::string("max ghz"),
],
|tokens| {
let (outer_var, inner_var) = tokens[0].expect_var();
let amount = tokens[2].expect_bare();
let (outer_max_ghz, _) = tokens[4].expect_string();
hir::Expression::path(
hir::Expression::variable(inner_var, outer_var),
vec!["amount".tagged(amount), "max ghz".tagged(outer_max_ghz)],
outer_var.until(outer_max_ghz),
)
},
);
}
#[test]
fn test_parse_command() {
parse_tokens(
ClassifiedCommandShape,
vec![b::bare("ls"), b::sp(), b::pattern("*.txt")],
|tokens| {
let bare = tokens[0].expect_bare();
let pat = tokens[2].tag();
ClassifiedCommand::Internal(InternalCommand::new(
"ls".to_string(),
bare,
hir::Call {
head: Box::new(hir::RawExpression::Command(bare).tagged(bare)),
positional: Some(vec![hir::Expression::pattern(pat)]),
named: None,
},
))
// hir::Expression::path(
// hir::Expression::variable(inner_var, outer_var),
// vec!["cpu".tagged(bare)],
// outer_var.until(bare),
// )
},
);
parse_tokens(
VariablePathShape,
vec![
b::var("cpu"),
b::op("."),
b::bare("amount"),
b::op("."),
b::string("max ghz"),
],
|tokens| {
let (outer_var, inner_var) = tokens[0].expect_var();
let amount = tokens[2].expect_bare();
let (outer_max_ghz, _) = tokens[4].expect_string();
hir::Expression::path(
hir::Expression::variable(inner_var, outer_var),
vec!["amount".tagged(amount), "max ghz".tagged(outer_max_ghz)],
outer_var.until(outer_max_ghz),
)
},
);
}
fn parse_tokens<T: Eq + Debug>(
shape: impl ExpandSyntax<Output = T>,
tokens: Vec<CurriedToken>,
expected: impl FnOnce(Tagged<&[TokenNode]>) -> T,
) {
let tokens = b::token_list(tokens);
let (tokens, source) = b::build(test_origin(), tokens);
ExpandContext::with_empty(&Text::from(source), |context| {
let tokens = tokens.expect_list();
let mut iterator = TokensIterator::all(tokens.item, *context.tag());
let expr = expand_syntax(&shape, &mut iterator, &context);
let expr = match expr {
Ok(expr) => expr,
Err(err) => {
crate::cli::print_err(err, &BasicHost, context.source().clone());
panic!("Parse failed");
}
};
assert_eq!(expr, expected(tokens));
})
}
fn test_origin() -> Uuid {
Uuid::nil()
}
fn inner_string_tag(tag: Tag) -> Tag {
Tag {
span: Span::new(tag.span.start() + 1, tag.span.end() - 1),
anchor: tag.anchor,
}
}

View File

@ -1,459 +0,0 @@
use crate::context::Context;
use crate::errors::ShellError;
use crate::parser::{
hir,
hir::{
baseline_parse_single_token, baseline_parse_token_as_number, baseline_parse_token_as_path,
baseline_parse_token_as_pattern, baseline_parse_token_as_string,
},
DelimitedNode, Delimiter, PathNode, RawToken, TokenNode,
};
use crate::{Tag, Tagged, TaggedItem, Text};
use derive_new::new;
use log::trace;
use serde::{Deserialize, Serialize};
pub fn baseline_parse_tokens(
token_nodes: &mut TokensIterator<'_>,
context: &Context,
source: &Text,
syntax_type: SyntaxShape,
) -> Result<Vec<hir::Expression>, ShellError> {
let mut exprs: Vec<hir::Expression> = vec![];
loop {
if token_nodes.at_end() {
break;
}
let expr = baseline_parse_next_expr(token_nodes, context, source, syntax_type)?;
exprs.push(expr);
}
Ok(exprs)
}
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
pub enum SyntaxShape {
Any,
List,
Literal,
String,
Member,
Variable,
Number,
Path,
Pattern,
Binary,
Block,
Boolean,
}
impl std::fmt::Display for SyntaxShape {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
match self {
SyntaxShape::Any => write!(f, "Any"),
SyntaxShape::List => write!(f, "List"),
SyntaxShape::Literal => write!(f, "Literal"),
SyntaxShape::String => write!(f, "String"),
SyntaxShape::Member => write!(f, "Member"),
SyntaxShape::Variable => write!(f, "Variable"),
SyntaxShape::Number => write!(f, "Number"),
SyntaxShape::Path => write!(f, "Path"),
SyntaxShape::Pattern => write!(f, "Pattern"),
SyntaxShape::Binary => write!(f, "Binary"),
SyntaxShape::Block => write!(f, "Block"),
SyntaxShape::Boolean => write!(f, "Boolean"),
}
}
}
pub fn baseline_parse_next_expr(
tokens: &mut TokensIterator,
context: &Context,
source: &Text,
syntax_type: SyntaxShape,
) -> Result<hir::Expression, ShellError> {
let next = tokens
.next()
.ok_or_else(|| ShellError::string("Expected token, found none"))?;
trace!(target: "nu::parser::parse_one_expr", "syntax_type={:?}, token={:?}", syntax_type, next);
match (syntax_type, next) {
(SyntaxShape::Path, TokenNode::Token(token)) => {
return baseline_parse_token_as_path(token, context, source)
}
(SyntaxShape::Path, token) => {
return Err(ShellError::type_error(
"Path",
token.type_name().tagged(token.tag()),
))
}
(SyntaxShape::Pattern, TokenNode::Token(token)) => {
return baseline_parse_token_as_pattern(token, context, source)
}
(SyntaxShape::Pattern, token) => {
return Err(ShellError::type_error(
"Path",
token.type_name().tagged(token.tag()),
))
}
(SyntaxShape::String, TokenNode::Token(token)) => {
return baseline_parse_token_as_string(token, source);
}
(SyntaxShape::String, token) => {
return Err(ShellError::type_error(
"String",
token.type_name().tagged(token.tag()),
))
}
(SyntaxShape::Number, TokenNode::Token(token)) => {
return Ok(baseline_parse_token_as_number(token, source)?);
}
(SyntaxShape::Number, token) => {
return Err(ShellError::type_error(
"Numeric",
token.type_name().tagged(token.tag()),
))
}
// TODO: More legit member processing
(SyntaxShape::Member, TokenNode::Token(token)) => {
return baseline_parse_token_as_string(token, source);
}
(SyntaxShape::Member, token) => {
return Err(ShellError::type_error(
"member",
token.type_name().tagged(token.tag()),
))
}
(SyntaxShape::Any, _) => {}
(SyntaxShape::List, _) => {}
(SyntaxShape::Literal, _) => {}
(SyntaxShape::Variable, _) => {}
(SyntaxShape::Binary, _) => {}
(SyntaxShape::Block, _) => {}
(SyntaxShape::Boolean, _) => {}
};
let first = baseline_parse_semantic_token(next, context, source)?;
let possible_op = tokens.peek();
let op = match possible_op {
Some(TokenNode::Operator(op)) => op.clone(),
_ => return Ok(first),
};
tokens.next();
let second = match tokens.next() {
None => {
return Err(ShellError::labeled_error(
"Expected something after an operator",
"operator",
op.tag(),
))
}
Some(token) => baseline_parse_semantic_token(token, context, source)?,
};
// We definitely have a binary expression here -- let's see if we should coerce it into a block
match syntax_type {
SyntaxShape::Any => {
let tag = first.tag().until(second.tag());
let binary = hir::Binary::new(first, op, second);
let binary = hir::RawExpression::Binary(Box::new(binary));
let binary = binary.tagged(tag);
Ok(binary)
}
SyntaxShape::Block => {
let tag = first.tag().until(second.tag());
let path: Tagged<hir::RawExpression> = match first {
Tagged {
item: hir::RawExpression::Literal(hir::Literal::Bare),
tag,
} => {
let string = tag.slice(source).to_string().tagged(tag);
let path = hir::Path::new(
// TODO: Deal with synthetic nodes that have no representation at all in source
hir::RawExpression::Variable(hir::Variable::It(Tag::unknown()))
.tagged(Tag::unknown()),
vec![string],
);
let path = hir::RawExpression::Path(Box::new(path));
path.tagged(first.tag())
}
Tagged {
item: hir::RawExpression::Literal(hir::Literal::String(inner)),
tag,
} => {
let string = inner.slice(source).to_string().tagged(tag);
let path = hir::Path::new(
// TODO: Deal with synthetic nodes that have no representation at all in source
hir::RawExpression::Variable(hir::Variable::It(Tag::unknown()))
.tagged_unknown(),
vec![string],
);
let path = hir::RawExpression::Path(Box::new(path));
path.tagged(first.tag())
}
Tagged {
item: hir::RawExpression::Variable(..),
..
} => first,
Tagged { tag, item } => {
return Err(ShellError::labeled_error(
"The first part of an un-braced block must be a column name",
item.type_name(),
tag,
))
}
};
let binary = hir::Binary::new(path, op, second);
let binary = hir::RawExpression::Binary(Box::new(binary));
let binary = binary.tagged(tag);
let block = hir::RawExpression::Block(vec![binary]);
let block = block.tagged(tag);
Ok(block)
}
other => Err(ShellError::unimplemented(format!(
"coerce hint {:?}",
other
))),
}
}
pub fn baseline_parse_semantic_token(
token: &TokenNode,
context: &Context,
source: &Text,
) -> Result<hir::Expression, ShellError> {
match token {
TokenNode::Token(token) => baseline_parse_single_token(token, source),
TokenNode::Call(_call) => unimplemented!(),
TokenNode::Delimited(delimited) => baseline_parse_delimited(delimited, context, source),
TokenNode::Pipeline(_pipeline) => unimplemented!(),
TokenNode::Operator(op) => Err(ShellError::syntax_error(
"Unexpected operator".tagged(op.tag),
)),
TokenNode::Flag(flag) => Err(ShellError::syntax_error("Unexpected flag".tagged(flag.tag))),
TokenNode::Member(tag) => Err(ShellError::syntax_error(
"BUG: Top-level member".tagged(*tag),
)),
TokenNode::Whitespace(tag) => Err(ShellError::syntax_error(
"BUG: Whitespace found during parse".tagged(*tag),
)),
TokenNode::Error(error) => Err(*error.item.clone()),
TokenNode::Path(path) => baseline_parse_path(path, context, source),
}
}
pub fn baseline_parse_delimited(
token: &Tagged<DelimitedNode>,
context: &Context,
source: &Text,
) -> Result<hir::Expression, ShellError> {
match token.delimiter() {
Delimiter::Brace => {
let children = token.children();
let exprs = baseline_parse_tokens(
&mut TokensIterator::new(children),
context,
source,
SyntaxShape::Any,
)?;
let expr = hir::RawExpression::Block(exprs);
Ok(expr.tagged(token.tag()))
}
Delimiter::Paren => unimplemented!(),
Delimiter::Square => {
let children = token.children();
let exprs = baseline_parse_tokens(
&mut TokensIterator::new(children),
context,
source,
SyntaxShape::Any,
)?;
let expr = hir::RawExpression::List(exprs);
Ok(expr.tagged(token.tag()))
}
}
}
pub fn baseline_parse_path(
token: &Tagged<PathNode>,
context: &Context,
source: &Text,
) -> Result<hir::Expression, ShellError> {
let head = baseline_parse_semantic_token(token.head(), context, source)?;
let mut tail = vec![];
for part in token.tail() {
let string = match part {
TokenNode::Token(token) => match token.item() {
RawToken::Bare => token.tag().slice(source),
RawToken::String(tag) => tag.slice(source),
RawToken::Number(_)
| RawToken::Size(..)
| RawToken::Variable(_)
| RawToken::ExternalCommand(_)
| RawToken::GlobPattern
| RawToken::ExternalWord => {
return Err(ShellError::type_error(
"String",
token.type_name().tagged(part.tag()),
))
}
},
TokenNode::Member(tag) => tag.slice(source),
// TODO: Make this impossible
other => {
return Err(ShellError::syntax_error(
format!("{} in path", other.type_name()).tagged(other.tag()),
))
}
}
.to_string();
tail.push(string.tagged(part.tag()));
}
Ok(hir::path(head, tail).tagged(token.tag()).into())
}
#[derive(Debug, new)]
pub struct TokensIterator<'a> {
tokens: &'a [TokenNode],
#[new(default)]
index: usize,
#[new(default)]
seen: indexmap::IndexSet<usize>,
}
impl TokensIterator<'_> {
pub fn remove(&mut self, position: usize) {
self.seen.insert(position);
}
pub fn len(&self) -> usize {
self.tokens.len()
}
pub fn at_end(&self) -> bool {
for index in self.index..self.tokens.len() {
if !self.seen.contains(&index) {
return false;
}
}
true
}
pub fn advance(&mut self) {
self.seen.insert(self.index);
self.index += 1;
}
pub fn extract<T>(&mut self, f: impl Fn(&TokenNode) -> Option<T>) -> Option<(usize, T)> {
for (i, item) in self.tokens.iter().enumerate() {
if self.seen.contains(&i) {
continue;
}
match f(item) {
None => {
continue;
}
Some(value) => {
self.seen.insert(i);
return Some((i, value));
}
}
}
None
}
pub fn move_to(&mut self, pos: usize) {
self.index = pos;
}
pub fn restart(&mut self) {
self.index = 0;
}
pub fn clone(&self) -> TokensIterator {
TokensIterator {
tokens: self.tokens,
index: self.index,
seen: self.seen.clone(),
}
}
pub fn peek(&self) -> Option<&TokenNode> {
let mut tokens = self.clone();
tokens.next()
}
pub fn debug_remaining(&self) -> Vec<TokenNode> {
let mut tokens = self.clone();
tokens.restart();
tokens.cloned().collect()
}
}
impl<'a> Iterator for TokensIterator<'a> {
type Item = &'a TokenNode;
fn next(&mut self) -> Option<&'a TokenNode> {
loop {
if self.index >= self.tokens.len() {
return None;
}
if self.seen.contains(&self.index) {
self.advance();
continue;
}
if self.index >= self.tokens.len() {
return None;
}
match &self.tokens[self.index] {
TokenNode::Whitespace(_) => {
self.advance();
}
other => {
self.advance();
return Some(other);
}
}
}
}
}

View File

@ -16,6 +16,12 @@ pub struct Binary {
right: Expression,
}
impl fmt::Display for Binary {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "({} {} {})", self.op.as_str(), self.left, self.right)
}
}
impl ToDebug for Binary {
fn fmt_debug(&self, f: &mut fmt::Formatter, source: &str) -> fmt::Result {
write!(f, "{}", self.left.debug(source))?;

View File

@ -0,0 +1,87 @@
use crate::errors::ShellError;
use crate::parser::{TokenNode, TokensIterator};
use crate::{Tag, Tagged, Text};
pub fn expand_external_tokens(
token_nodes: &mut TokensIterator<'_>,
source: &Text,
) -> Result<Vec<Tagged<String>>, ShellError> {
let mut out: Vec<Tagged<String>> = vec![];
loop {
if let Some(tag) = expand_next_expression(token_nodes)? {
out.push(tag.tagged_string(source));
} else {
break;
}
}
Ok(out)
}
pub fn expand_next_expression(
token_nodes: &mut TokensIterator<'_>,
) -> Result<Option<Tag>, ShellError> {
let first = token_nodes.next_non_ws();
let first = match first {
None => return Ok(None),
Some(v) => v,
};
let first = triage_external_head(first)?;
let mut last = first;
loop {
let continuation = triage_continuation(token_nodes)?;
if let Some(continuation) = continuation {
last = continuation;
} else {
break;
}
}
Ok(Some(first.until(last)))
}
fn triage_external_head(node: &TokenNode) -> Result<Tag, ShellError> {
Ok(match node {
TokenNode::Token(token) => token.tag(),
TokenNode::Call(_call) => unimplemented!(),
TokenNode::Nodes(_nodes) => unimplemented!(),
TokenNode::Delimited(_delimited) => unimplemented!(),
TokenNode::Pipeline(_pipeline) => unimplemented!(),
TokenNode::Flag(flag) => flag.tag(),
TokenNode::Member(member) => *member,
TokenNode::Whitespace(_whitespace) => {
unreachable!("This function should be called after next_non_ws()")
}
TokenNode::Error(_error) => unimplemented!(),
})
}
fn triage_continuation<'a, 'b>(
nodes: &'a mut TokensIterator<'b>,
) -> Result<Option<Tag>, ShellError> {
let mut peeked = nodes.peek_any();
let node = match peeked.node {
None => return Ok(None),
Some(node) => node,
};
match &node {
node if node.is_whitespace() => return Ok(None),
TokenNode::Token(..) | TokenNode::Flag(..) | TokenNode::Member(..) => {}
TokenNode::Call(..) => unimplemented!("call"),
TokenNode::Nodes(..) => unimplemented!("nodes"),
TokenNode::Delimited(..) => unimplemented!("delimited"),
TokenNode::Pipeline(..) => unimplemented!("pipeline"),
TokenNode::Whitespace(..) => unimplemented!("whitespace"),
TokenNode::Error(..) => unimplemented!("error"),
}
peeked.commit();
Ok(Some(node.tag()))
}

View File

@ -9,7 +9,7 @@ use std::fmt;
)]
#[get = "pub(crate)"]
pub struct ExternalCommand {
name: Tag,
pub(crate) name: Tag,
}
impl ToDebug for ExternalCommand {

View File

@ -2,19 +2,49 @@ use crate::parser::hir::Expression;
use crate::prelude::*;
use crate::Tagged;
use derive_new::new;
use getset::Getters;
use getset::{Getters, MutGetters};
use serde::{Deserialize, Serialize};
use std::fmt;
#[derive(
Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Hash, Getters, Serialize, Deserialize, new,
Debug,
Clone,
Eq,
PartialEq,
Ord,
PartialOrd,
Hash,
Getters,
MutGetters,
Serialize,
Deserialize,
new,
)]
#[get = "pub(crate)"]
pub struct Path {
head: Expression,
#[get_mut = "pub(crate)"]
tail: Vec<Tagged<String>>,
}
impl fmt::Display for Path {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{}", self.head)?;
for entry in &self.tail {
write!(f, ".{}", entry.item)?;
}
Ok(())
}
}
impl Path {
pub(crate) fn parts(self) -> (Expression, Vec<Tagged<String>>) {
(self.head, self.tail)
}
}
impl ToDebug for Path {
fn fmt_debug(&self, f: &mut fmt::Formatter, source: &str) -> fmt::Result {
write!(f, "{}", self.head.debug(source))?;

View File

@ -0,0 +1,662 @@
mod block;
mod expression;
use crate::cli::external_command;
use crate::commands::{classified::InternalCommand, ClassifiedCommand, Command};
use crate::parser::hir::syntax_shape::block::AnyBlockShape;
use crate::parser::hir::tokens_iterator::Peeked;
use crate::parser::parse_command::parse_command_tail;
use crate::parser::{
hir,
hir::{debug_tokens, TokensIterator},
Operator, RawToken, TokenNode,
};
use crate::prelude::*;
use derive_new::new;
use getset::Getters;
use log::trace;
use serde::{Deserialize, Serialize};
use std::path::{Path, PathBuf};
pub(crate) use self::expression::file_path::FilePathShape;
pub(crate) use self::expression::list::ExpressionListShape;
pub(crate) use self::expression::number::{IntShape, NumberShape};
pub(crate) use self::expression::pattern::PatternShape;
pub(crate) use self::expression::string::StringShape;
pub(crate) use self::expression::unit::UnitShape;
pub(crate) use self::expression::variable_path::{
ColumnPathShape, DotShape, ExpressionContinuation, ExpressionContinuationShape, MemberShape,
PathTailShape, VariablePathShape,
};
pub(crate) use self::expression::{continue_expression, AnyExpressionShape};
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
pub enum SyntaxShape {
Any,
List,
String,
Member,
ColumnPath,
Number,
Int,
Path,
Pattern,
Binary,
Block,
Boolean,
}
impl ExpandExpression for SyntaxShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
match self {
SyntaxShape::Any => expand_expr(&AnyExpressionShape, token_nodes, context),
SyntaxShape::List => Err(ShellError::unimplemented("SyntaxShape:List")),
SyntaxShape::Int => expand_expr(&IntShape, token_nodes, context),
SyntaxShape::String => expand_expr(&StringShape, token_nodes, context),
SyntaxShape::Member => {
let syntax = expand_syntax(&MemberShape, token_nodes, context)?;
Ok(syntax.to_expr())
}
SyntaxShape::ColumnPath => {
let Tagged { item: members, tag } =
expand_syntax(&ColumnPathShape, token_nodes, context)?;
Ok(hir::Expression::list(
members.into_iter().map(|s| s.to_expr()).collect(),
tag,
))
}
SyntaxShape::Number => expand_expr(&NumberShape, token_nodes, context),
SyntaxShape::Path => expand_expr(&FilePathShape, token_nodes, context),
SyntaxShape::Pattern => expand_expr(&PatternShape, token_nodes, context),
SyntaxShape::Binary => Err(ShellError::unimplemented("SyntaxShape:Binary")),
SyntaxShape::Block => expand_expr(&AnyBlockShape, token_nodes, context),
SyntaxShape::Boolean => Err(ShellError::unimplemented("SyntaxShape:Boolean")),
}
}
}
impl std::fmt::Display for SyntaxShape {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
match self {
SyntaxShape::Any => write!(f, "Any"),
SyntaxShape::List => write!(f, "List"),
SyntaxShape::String => write!(f, "String"),
SyntaxShape::Int => write!(f, "Integer"),
SyntaxShape::Member => write!(f, "Member"),
SyntaxShape::ColumnPath => write!(f, "ColumnPath"),
SyntaxShape::Number => write!(f, "Number"),
SyntaxShape::Path => write!(f, "Path"),
SyntaxShape::Pattern => write!(f, "Pattern"),
SyntaxShape::Binary => write!(f, "Binary"),
SyntaxShape::Block => write!(f, "Block"),
SyntaxShape::Boolean => write!(f, "Boolean"),
}
}
}
#[derive(Getters, new)]
pub struct ExpandContext<'context> {
#[get = "pub(crate)"]
registry: &'context CommandRegistry,
#[get = "pub(crate)"]
tag: Tag,
#[get = "pub(crate)"]
source: &'context Text,
homedir: Option<PathBuf>,
}
impl<'context> ExpandContext<'context> {
pub(crate) fn homedir(&self) -> Option<&Path> {
self.homedir.as_ref().map(|h| h.as_path())
}
#[cfg(test)]
pub fn with_empty(source: &Text, callback: impl FnOnce(ExpandContext)) {
let mut registry = CommandRegistry::new();
registry.insert(
"ls",
crate::commands::whole_stream_command(crate::commands::LS),
);
callback(ExpandContext {
registry: &registry,
tag: Tag::unknown(),
source,
homedir: None,
})
}
}
pub trait TestSyntax: std::fmt::Debug + Copy {
fn test<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Option<Peeked<'a, 'b>>;
}
pub trait ExpandExpression: std::fmt::Debug + Copy {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError>;
}
pub(crate) trait ExpandSyntax: std::fmt::Debug + Copy {
type Output: std::fmt::Debug;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError>;
}
pub(crate) fn expand_syntax<'a, 'b, T: ExpandSyntax>(
shape: &T,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<T::Output, ShellError> {
trace!(target: "nu::expand_syntax", "before {} :: {:?}", std::any::type_name::<T>(), debug_tokens(token_nodes, context.source));
let result = shape.expand_syntax(token_nodes, context);
match result {
Err(err) => {
trace!(target: "nu::expand_syntax", "error :: {} :: {:?}", err, debug_tokens(token_nodes, context.source));
Err(err)
}
Ok(result) => {
trace!(target: "nu::expand_syntax", "ok :: {:?} :: {:?}", result, debug_tokens(token_nodes, context.source));
Ok(result)
}
}
}
pub(crate) fn expand_expr<'a, 'b, T: ExpandExpression>(
shape: &T,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
trace!(target: "nu::expand_syntax", "before {} :: {:?}", std::any::type_name::<T>(), debug_tokens(token_nodes, context.source));
let result = shape.expand_syntax(token_nodes, context);
match result {
Err(err) => {
trace!(target: "nu::expand_syntax", "error :: {} :: {:?}", err, debug_tokens(token_nodes, context.source));
Err(err)
}
Ok(result) => {
trace!(target: "nu::expand_syntax", "ok :: {:?} :: {:?}", result, debug_tokens(token_nodes, context.source));
Ok(result)
}
}
}
impl<T: ExpandExpression> ExpandSyntax for T {
type Output = hir::Expression;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
ExpandExpression::expand_expr(self, token_nodes, context)
}
}
pub trait SkipSyntax: std::fmt::Debug + Copy {
fn skip<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<(), ShellError>;
}
enum BarePathState {
Initial,
Seen(Tag, Tag),
Error(ShellError),
}
impl BarePathState {
pub fn seen(self, tag: Tag) -> BarePathState {
match self {
BarePathState::Initial => BarePathState::Seen(tag, tag),
BarePathState::Seen(start, _) => BarePathState::Seen(start, tag),
BarePathState::Error(err) => BarePathState::Error(err),
}
}
pub fn end(self, peeked: Peeked, reason: impl Into<String>) -> BarePathState {
match self {
BarePathState::Initial => BarePathState::Error(peeked.type_error(reason)),
BarePathState::Seen(start, end) => BarePathState::Seen(start, end),
BarePathState::Error(err) => BarePathState::Error(err),
}
}
pub fn into_bare(self) -> Result<Tag, ShellError> {
match self {
BarePathState::Initial => unreachable!("into_bare in initial state"),
BarePathState::Seen(start, end) => Ok(start.until(end)),
BarePathState::Error(err) => Err(err),
}
}
}
pub fn expand_bare<'a, 'b>(
token_nodes: &'b mut TokensIterator<'a>,
_context: &ExpandContext,
predicate: impl Fn(&TokenNode) -> bool,
) -> Result<Tag, ShellError> {
let mut state = BarePathState::Initial;
loop {
// Whitespace ends a word
let mut peeked = token_nodes.peek_any();
match peeked.node {
None => {
state = state.end(peeked, "word");
break;
}
Some(node) => {
if predicate(node) {
state = state.seen(node.tag());
peeked.commit();
} else {
state = state.end(peeked, "word");
break;
}
}
}
}
state.into_bare()
}
#[derive(Debug, Copy, Clone)]
pub struct BarePathShape;
impl ExpandSyntax for BarePathShape {
type Output = Tag;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Tag, ShellError> {
expand_bare(token_nodes, context, |token| match token {
TokenNode::Token(Tagged {
item: RawToken::Bare,
..
})
| TokenNode::Token(Tagged {
item: RawToken::Operator(Operator::Dot),
..
}) => true,
_ => false,
})
}
}
#[derive(Debug, Copy, Clone)]
pub struct BareShape;
impl ExpandSyntax for BareShape {
type Output = Tagged<String>;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
let peeked = token_nodes.peek_any().not_eof("word")?;
match peeked.node {
TokenNode::Token(Tagged {
item: RawToken::Bare,
tag,
}) => {
peeked.commit();
Ok(tag.tagged_string(context.source))
}
other => Err(ShellError::type_error("word", other.tagged_type_name())),
}
}
}
impl TestSyntax for BareShape {
fn test<'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(TokenNode::Token(token)) => match token.item {
RawToken::Bare => Some(peeked),
_ => None,
},
_ => None,
}
}
}
#[derive(Debug)]
pub enum CommandSignature {
Internal(Tagged<Arc<Command>>),
LiteralExternal { outer: Tag, inner: Tag },
External(Tag),
Expression(hir::Expression),
}
impl CommandSignature {
pub fn to_expression(&self) -> hir::Expression {
match self {
CommandSignature::Internal(command) => {
let tag = command.tag;
hir::RawExpression::Command(tag).tagged(tag)
}
CommandSignature::LiteralExternal { outer, inner } => {
hir::RawExpression::ExternalCommand(hir::ExternalCommand::new(*inner)).tagged(outer)
}
CommandSignature::External(tag) => {
hir::RawExpression::ExternalCommand(hir::ExternalCommand::new(*tag)).tagged(tag)
}
CommandSignature::Expression(expr) => expr.clone(),
}
}
}
#[derive(Debug, Copy, Clone)]
pub struct CommandHeadShape;
impl ExpandSyntax for CommandHeadShape {
type Output = CommandSignature;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<CommandSignature, ShellError> {
let node =
parse_single_node_skipping_ws(token_nodes, "command head1", |token, token_tag| {
Ok(match token {
RawToken::ExternalCommand(tag) => CommandSignature::LiteralExternal {
outer: token_tag,
inner: tag,
},
RawToken::Bare => {
let name = token_tag.slice(context.source);
if context.registry.has(name) {
let command = context.registry.expect_command(name);
CommandSignature::Internal(command.tagged(token_tag))
} else {
CommandSignature::External(token_tag)
}
}
_ => {
return Err(ShellError::type_error(
"command head2",
token.type_name().tagged(token_tag),
))
}
})
});
match node {
Ok(expr) => return Ok(expr),
Err(_) => match expand_expr(&AnyExpressionShape, token_nodes, context) {
Ok(expr) => return Ok(CommandSignature::Expression(expr)),
Err(_) => Err(token_nodes.peek_non_ws().type_error("command head3")),
},
}
}
}
#[derive(Debug, Copy, Clone)]
pub struct ClassifiedCommandShape;
impl ExpandSyntax for ClassifiedCommandShape {
type Output = ClassifiedCommand;
fn expand_syntax<'a, 'b>(
&self,
iterator: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
let head = expand_syntax(&CommandHeadShape, iterator, context)?;
match &head {
CommandSignature::Expression(expr) => Err(ShellError::syntax_error(
"Unexpected expression in command position".tagged(expr.tag),
)),
// If the command starts with `^`, treat it as an external command no matter what
CommandSignature::External(name) => {
let name_str = name.slice(&context.source);
external_command(iterator, &context.source, name_str.tagged(name))
}
CommandSignature::LiteralExternal { outer, inner } => {
let name_str = inner.slice(&context.source);
external_command(iterator, &context.source, name_str.tagged(outer))
}
CommandSignature::Internal(command) => {
let tail =
parse_command_tail(&command.signature(), &context, iterator, command.tag)?;
let (positional, named) = match tail {
None => (None, None),
Some((positional, named)) => (positional, named),
};
let call = hir::Call {
head: Box::new(head.to_expression()),
positional,
named,
};
Ok(ClassifiedCommand::Internal(InternalCommand::new(
command.item.name().to_string(),
command.tag,
call,
)))
}
}
}
}
#[derive(Debug, Copy, Clone)]
pub struct InternalCommandHeadShape;
impl ExpandExpression for InternalCommandHeadShape {
fn expand_expr(
&self,
token_nodes: &mut TokensIterator<'_>,
_context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let peeked_head = token_nodes.peek_non_ws().not_eof("command head4")?;
let expr = match peeked_head.node {
TokenNode::Token(
spanned @ Tagged {
item: RawToken::Bare,
..
},
) => spanned.map(|_| hir::RawExpression::Literal(hir::Literal::Bare)),
TokenNode::Token(Tagged {
item: RawToken::String(inner_tag),
tag,
}) => hir::RawExpression::Literal(hir::Literal::String(*inner_tag)).tagged(*tag),
node => {
return Err(ShellError::type_error(
"command head5",
node.tagged_type_name(),
))
}
};
peeked_head.commit();
Ok(expr)
}
}
fn parse_single_node<'a, 'b, T>(
token_nodes: &'b mut TokensIterator<'a>,
expected: &'static str,
callback: impl FnOnce(RawToken, Tag) -> Result<T, ShellError>,
) -> Result<T, ShellError> {
let peeked = token_nodes.peek_any().not_eof(expected)?;
let expr = match peeked.node {
TokenNode::Token(token) => callback(token.item, token.tag())?,
other => return Err(ShellError::type_error(expected, other.tagged_type_name())),
};
peeked.commit();
Ok(expr)
}
fn parse_single_node_skipping_ws<'a, 'b, T>(
token_nodes: &'b mut TokensIterator<'a>,
expected: &'static str,
callback: impl FnOnce(RawToken, Tag) -> Result<T, ShellError>,
) -> Result<T, ShellError> {
let peeked = token_nodes.peek_non_ws().not_eof(expected)?;
let expr = match peeked.node {
TokenNode::Token(token) => callback(token.item, token.tag())?,
other => return Err(ShellError::type_error(expected, other.tagged_type_name())),
};
peeked.commit();
Ok(expr)
}
#[derive(Debug, Copy, Clone)]
pub struct WhitespaceShape;
impl ExpandSyntax for WhitespaceShape {
type Output = Tag;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
_context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
let peeked = token_nodes.peek_any().not_eof("whitespace")?;
let tag = match peeked.node {
TokenNode::Whitespace(tag) => *tag,
other => {
return Err(ShellError::type_error(
"whitespace",
other.tagged_type_name(),
))
}
};
peeked.commit();
Ok(tag)
}
}
#[derive(Debug, Copy, Clone)]
pub struct SpacedExpression<T: ExpandExpression> {
inner: T,
}
impl<T: ExpandExpression> ExpandExpression for SpacedExpression<T> {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
// TODO: Make the name part of the trait
let peeked = token_nodes.peek_any().not_eof("whitespace")?;
match peeked.node {
TokenNode::Whitespace(_) => {
peeked.commit();
expand_expr(&self.inner, token_nodes, context)
}
other => Err(ShellError::type_error(
"whitespace",
other.tagged_type_name(),
)),
}
}
}
pub fn maybe_spaced<T: ExpandExpression>(inner: T) -> MaybeSpacedExpression<T> {
MaybeSpacedExpression { inner }
}
#[derive(Debug, Copy, Clone)]
pub struct MaybeSpacedExpression<T: ExpandExpression> {
inner: T,
}
impl<T: ExpandExpression> ExpandExpression for MaybeSpacedExpression<T> {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
// TODO: Make the name part of the trait
let peeked = token_nodes.peek_any().not_eof("whitespace")?;
match peeked.node {
TokenNode::Whitespace(_) => {
peeked.commit();
expand_expr(&self.inner, token_nodes, context)
}
_ => {
peeked.rollback();
expand_expr(&self.inner, token_nodes, context)
}
}
}
}
pub fn spaced<T: ExpandExpression>(inner: T) -> SpacedExpression<T> {
SpacedExpression { inner }
}
fn expand_variable(tag: Tag, token_tag: Tag, source: &Text) -> hir::Expression {
if tag.slice(source) == "it" {
hir::Expression::it_variable(tag, token_tag)
} else {
hir::Expression::variable(tag, token_tag)
}
}

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use crate::errors::ShellError;
use crate::parser::{
hir,
hir::syntax_shape::{
continue_expression, expand_expr, expand_syntax, ExpandContext, ExpandExpression,
ExpressionListShape, PathTailShape, VariablePathShape,
},
hir::tokens_iterator::TokensIterator,
RawToken, TokenNode,
};
use crate::{Tag, Tagged, TaggedItem};
#[derive(Debug, Copy, Clone)]
pub struct AnyBlockShape;
impl ExpandExpression for AnyBlockShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let block = token_nodes.peek_non_ws().not_eof("block")?;
// is it just a block?
let block = block.node.as_block();
match block {
Some(block) => {
let mut iterator = TokensIterator::new(&block.item, context.tag, false);
let exprs = expand_syntax(&ExpressionListShape, &mut iterator, context)?;
return Ok(hir::RawExpression::Block(exprs).tagged(block.tag));
}
_ => {}
}
expand_syntax(&ShorthandBlock, token_nodes, context)
}
}
#[derive(Debug, Copy, Clone)]
pub struct ShorthandBlock;
impl ExpandExpression for ShorthandBlock {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let path = expand_expr(&ShorthandPath, token_nodes, context)?;
let start = path.tag;
let expr = continue_expression(path, token_nodes, context)?;
let end = expr.tag;
let block = hir::RawExpression::Block(vec![expr]).tagged(start.until(end));
Ok(block)
}
}
/// A shorthand for `$it.foo."bar"`, used inside of a shorthand block
#[derive(Debug, Copy, Clone)]
pub struct ShorthandPath;
impl ExpandExpression for ShorthandPath {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
// if it's a variable path, that's the head part
let path = expand_expr(&VariablePathShape, token_nodes, context);
match path {
Ok(path) => return Ok(path),
Err(_) => {}
}
// Synthesize the head of the shorthand path (`<member>` -> `$it.<member>`)
let mut head = expand_expr(&ShorthandHeadShape, 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.
let tail = expand_syntax(&PathTailShape, token_nodes, context);
match tail {
Err(_) => return Ok(head),
Ok((tail, _)) => {
// 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);
}
println!("{:?}", head);
Ok(head)
}
}
}
}
/// A shorthand for `$it.foo."bar"`, used inside of a shorthand block
#[derive(Debug, Copy, Clone)]
pub struct ShorthandHeadShape;
impl ExpandExpression for ShorthandHeadShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
// A shorthand path must not be at EOF
let peeked = token_nodes.peek_non_ws().not_eof("shorthand path")?;
match peeked.node {
// If the head of a shorthand path is a bare token, it expands to `$it.bare`
TokenNode::Token(Tagged {
item: RawToken::Bare,
tag,
}) => {
// Commit the peeked token
peeked.commit();
// Synthesize an `$it` expression
let it = synthetic_it(token_nodes.anchor());
// Make a path out of `$it` and the bare token as a member
Ok(hir::Expression::path(
it,
vec![tag.tagged_string(context.source)],
tag,
))
}
// If the head of a shorthand path is a string, it expands to `$it."some string"`
TokenNode::Token(Tagged {
item: RawToken::String(inner),
tag: outer,
}) => {
// Commit the peeked token
peeked.commit();
// Synthesize an `$it` expression
let it = synthetic_it(token_nodes.anchor());
// Make a path out of `$it` and the bare token as a member
Ok(hir::Expression::path(
it,
vec![inner.string(context.source).tagged(outer)],
outer,
))
}
// Any other token is not a valid bare head
other => {
return Err(ShellError::type_error(
"shorthand path",
other.tagged_type_name(),
))
}
}
}
}
fn synthetic_it(origin: uuid::Uuid) -> hir::Expression {
hir::Expression::it_variable(Tag::unknown_span(origin), Tag::unknown_span(origin))
}

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pub(crate) mod delimited;
pub(crate) mod file_path;
pub(crate) mod list;
pub(crate) mod number;
pub(crate) mod pattern;
pub(crate) mod string;
pub(crate) mod unit;
pub(crate) mod variable_path;
use crate::parser::hir::syntax_shape::{
expand_expr, expand_syntax, expand_variable, expression::delimited::expand_delimited_expr,
BareShape, DotShape, ExpandContext, ExpandExpression, ExpandSyntax, ExpressionContinuation,
ExpressionContinuationShape, UnitShape,
};
use crate::parser::{
hir,
hir::{Expression, Operator, TokensIterator},
RawToken, Token, TokenNode,
};
use crate::prelude::*;
use std::path::PathBuf;
#[derive(Debug, Copy, Clone)]
pub struct AnyExpressionShape;
impl ExpandExpression for AnyExpressionShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
// Look for an expression at the cursor
let head = expand_expr(&AnyExpressionStartShape, token_nodes, context)?;
continue_expression(head, token_nodes, context)
}
}
pub(crate) fn continue_expression(
mut head: hir::Expression,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
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 Ok(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);
}
},
}
}
}
#[derive(Debug, Copy, Clone)]
pub struct AnyExpressionStartShape;
impl ExpandExpression for AnyExpressionStartShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let size = expand_expr(&UnitShape, token_nodes, context);
match size {
Ok(expr) => return Ok(expr),
Err(_) => {}
}
let peek_next = token_nodes.peek_any().not_eof("expression")?;
let head = match peek_next.node {
TokenNode::Token(token) => match token.item {
RawToken::Bare | RawToken::Operator(Operator::Dot) => {
let start = token.tag;
peek_next.commit();
let end = expand_syntax(&BareTailShape, token_nodes, context)?;
match end {
Some(end) => return Ok(hir::Expression::bare(start.until(end))),
None => return Ok(hir::Expression::bare(start)),
}
}
_ => {
peek_next.commit();
expand_one_context_free_token(*token, context)
}
},
node @ TokenNode::Call(_)
| node @ TokenNode::Nodes(_)
| node @ TokenNode::Pipeline(_)
| node @ TokenNode::Flag(_)
| node @ TokenNode::Member(_)
| node @ TokenNode::Whitespace(_) => {
return Err(ShellError::type_error(
"expression",
node.tagged_type_name(),
))
}
TokenNode::Delimited(delimited) => {
peek_next.commit();
expand_delimited_expr(delimited, context)
}
TokenNode::Error(error) => return Err(*error.item.clone()),
}?;
Ok(head)
}
}
#[derive(Debug, Copy, Clone)]
pub struct BareTailShape;
impl ExpandSyntax for BareTailShape {
type Output = Option<Tag>;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Option<Tag>, ShellError> {
let mut end: Option<Tag> = None;
loop {
match expand_syntax(&BareShape, token_nodes, context) {
Ok(bare) => {
end = Some(bare.tag);
continue;
}
Err(_) => match expand_syntax(&DotShape, token_nodes, context) {
Ok(dot) => {
end = Some(dot);
continue;
}
Err(_) => break,
},
}
}
Ok(end)
}
}
fn expand_one_context_free_token<'a, 'b>(
token: Token,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
Ok(match token.item {
RawToken::Number(number) => {
hir::Expression::number(number.to_number(context.source), token.tag)
}
RawToken::Operator(..) => {
return Err(ShellError::syntax_error(
"unexpected operator, expected an expression".tagged(token.tag),
))
}
RawToken::Size(..) => unimplemented!("size"),
RawToken::String(tag) => hir::Expression::string(tag, token.tag),
RawToken::Variable(tag) => expand_variable(tag, token.tag, &context.source),
RawToken::ExternalCommand(_) => unimplemented!(),
RawToken::ExternalWord => unimplemented!(),
RawToken::GlobPattern => hir::Expression::pattern(token.tag),
RawToken::Bare => hir::Expression::string(token.tag, token.tag),
})
}
pub fn expand_file_path(string: &str, context: &ExpandContext) -> PathBuf {
let expanded = shellexpand::tilde_with_context(string, || context.homedir());
PathBuf::from(expanded.as_ref())
}

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use crate::parser::hir::syntax_shape::{expand_syntax, ExpandContext, ExpressionListShape};
use crate::parser::{hir, hir::TokensIterator};
use crate::parser::{DelimitedNode, Delimiter};
use crate::prelude::*;
pub fn expand_delimited_expr(
delimited: &Tagged<DelimitedNode>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
match &delimited.item {
DelimitedNode {
delimiter: Delimiter::Square,
children,
} => {
let mut tokens = TokensIterator::new(&children, delimited.tag, false);
let list = expand_syntax(&ExpressionListShape, &mut tokens, context);
Ok(hir::Expression::list(list?, delimited.tag))
}
DelimitedNode {
delimiter: Delimiter::Paren,
..
} => Err(ShellError::type_error(
"expression",
"unimplemented call expression".tagged(delimited.tag),
)),
DelimitedNode {
delimiter: Delimiter::Brace,
..
} => Err(ShellError::type_error(
"expression",
"unimplemented block expression".tagged(delimited.tag),
)),
}
}

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use crate::parser::hir::syntax_shape::{
expand_syntax, expression::expand_file_path, parse_single_node, BarePathShape, ExpandContext,
ExpandExpression,
};
use crate::parser::{hir, hir::TokensIterator, RawToken};
use crate::prelude::*;
#[derive(Debug, Copy, Clone)]
pub struct FilePathShape;
impl ExpandExpression for FilePathShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let bare = expand_syntax(&BarePathShape, token_nodes, context);
match bare {
Ok(tag) => {
let string = tag.slice(context.source);
let path = expand_file_path(string, context);
return Ok(hir::Expression::file_path(path, tag));
}
Err(_) => {}
}
parse_single_node(token_nodes, "Path", |token, token_tag| {
Ok(match token {
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"Path",
"glob pattern".tagged(token_tag),
))
}
RawToken::Operator(..) => {
return Err(ShellError::type_error("Path", "operator".tagged(token_tag)))
}
RawToken::Variable(tag) if tag.slice(context.source) == "it" => {
hir::Expression::it_variable(tag, token_tag)
}
RawToken::Variable(tag) => hir::Expression::variable(tag, token_tag),
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token_tag),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token_tag)),
RawToken::Number(_) => hir::Expression::bare(token_tag),
RawToken::Size(_, _) => hir::Expression::bare(token_tag),
RawToken::Bare => hir::Expression::file_path(
expand_file_path(token_tag.slice(context.source), context),
token_tag,
),
RawToken::String(tag) => hir::Expression::file_path(
expand_file_path(tag.slice(context.source), context),
token_tag,
),
})
})
}
}

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use crate::errors::ShellError;
use crate::parser::{
hir,
hir::syntax_shape::{
expand_expr, maybe_spaced, spaced, AnyExpressionShape, ExpandContext, ExpandSyntax,
},
hir::{debug_tokens, TokensIterator},
};
#[derive(Debug, Copy, Clone)]
pub struct ExpressionListShape;
impl ExpandSyntax for ExpressionListShape {
type Output = Vec<hir::Expression>;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<Vec<hir::Expression>, ShellError> {
let mut exprs = vec![];
if token_nodes.at_end_possible_ws() {
return Ok(exprs);
}
let expr = expand_expr(&maybe_spaced(AnyExpressionShape), token_nodes, context)?;
exprs.push(expr);
println!("{:?}", debug_tokens(token_nodes, context.source));
loop {
if token_nodes.at_end_possible_ws() {
return Ok(exprs);
}
let expr = expand_expr(&spaced(AnyExpressionShape), token_nodes, context)?;
exprs.push(expr);
}
}
}

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use crate::parser::hir::syntax_shape::{parse_single_node, ExpandContext, ExpandExpression};
use crate::parser::{
hir,
hir::{RawNumber, TokensIterator},
RawToken,
};
use crate::prelude::*;
#[derive(Debug, Copy, Clone)]
pub struct NumberShape;
impl ExpandExpression for NumberShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
parse_single_node(token_nodes, "Number", |token, token_tag| {
Ok(match token {
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"Number",
"glob pattern".to_string().tagged(token_tag),
))
}
RawToken::Operator(..) => {
return Err(ShellError::type_error(
"Number",
"operator".to_string().tagged(token_tag),
))
}
RawToken::Variable(tag) if tag.slice(context.source) == "it" => {
hir::Expression::it_variable(tag, token_tag)
}
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token_tag),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token_tag)),
RawToken::Variable(tag) => hir::Expression::variable(tag, token_tag),
RawToken::Number(number) => {
hir::Expression::number(number.to_number(context.source), token_tag)
}
RawToken::Size(number, unit) => {
hir::Expression::size(number.to_number(context.source), unit, token_tag)
}
RawToken::Bare => hir::Expression::bare(token_tag),
RawToken::String(tag) => hir::Expression::string(tag, token_tag),
})
})
}
}
#[derive(Debug, Copy, Clone)]
pub struct IntShape;
impl ExpandExpression for IntShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
parse_single_node(token_nodes, "Integer", |token, token_tag| {
Ok(match token {
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"Integer",
"glob pattern".to_string().tagged(token_tag),
))
}
RawToken::Operator(..) => {
return Err(ShellError::type_error(
"Integer",
"operator".to_string().tagged(token_tag),
))
}
RawToken::Variable(tag) if tag.slice(context.source) == "it" => {
hir::Expression::it_variable(tag, token_tag)
}
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token_tag),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token_tag)),
RawToken::Variable(tag) => hir::Expression::variable(tag, token_tag),
RawToken::Number(number @ RawNumber::Int(_)) => {
hir::Expression::number(number.to_number(context.source), token_tag)
}
token @ RawToken::Number(_) => {
return Err(ShellError::type_error(
"Integer",
token.type_name().tagged(token_tag),
));
}
RawToken::Size(number, unit) => {
hir::Expression::size(number.to_number(context.source), unit, token_tag)
}
RawToken::Bare => hir::Expression::bare(token_tag),
RawToken::String(tag) => hir::Expression::string(tag, token_tag),
})
})
}
}

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use crate::parser::hir::syntax_shape::{
expand_bare, expand_syntax, expression::expand_file_path, parse_single_node, ExpandContext,
ExpandExpression, ExpandSyntax,
};
use crate::parser::{hir, hir::TokensIterator, Operator, RawToken, TokenNode};
use crate::prelude::*;
#[derive(Debug, Copy, Clone)]
pub struct PatternShape;
impl ExpandExpression for PatternShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let pattern = expand_syntax(&BarePatternShape, token_nodes, context);
match pattern {
Ok(tag) => {
return Ok(hir::Expression::pattern(tag));
}
Err(_) => {}
}
parse_single_node(token_nodes, "Pattern", |token, token_tag| {
Ok(match token {
RawToken::GlobPattern => {
return Err(ShellError::unreachable(
"glob pattern after glob already returned",
))
}
RawToken::Operator(..) => {
return Err(ShellError::unreachable("dot after glob already returned"))
}
RawToken::Bare => {
return Err(ShellError::unreachable("bare after glob already returned"))
}
RawToken::Variable(tag) if tag.slice(context.source) == "it" => {
hir::Expression::it_variable(tag, token_tag)
}
RawToken::Variable(tag) => hir::Expression::variable(tag, token_tag),
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token_tag),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token_tag)),
RawToken::Number(_) => hir::Expression::bare(token_tag),
RawToken::Size(_, _) => hir::Expression::bare(token_tag),
RawToken::String(tag) => hir::Expression::file_path(
expand_file_path(tag.slice(context.source), context),
token_tag,
),
})
})
}
}
#[derive(Debug, Copy, Clone)]
pub struct BarePatternShape;
impl ExpandSyntax for BarePatternShape {
type Output = Tag;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Tag, ShellError> {
expand_bare(token_nodes, context, |token| match token {
TokenNode::Token(Tagged {
item: RawToken::Bare,
..
})
| TokenNode::Token(Tagged {
item: RawToken::Operator(Operator::Dot),
..
})
| TokenNode::Token(Tagged {
item: RawToken::GlobPattern,
..
}) => true,
_ => false,
})
}
}

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use crate::parser::hir::syntax_shape::{
expand_variable, parse_single_node, ExpandContext, ExpandExpression, TestSyntax,
};
use crate::parser::hir::tokens_iterator::Peeked;
use crate::parser::{hir, hir::TokensIterator, RawToken, TokenNode};
use crate::prelude::*;
#[derive(Debug, Copy, Clone)]
pub struct StringShape;
impl ExpandExpression for StringShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
parse_single_node(token_nodes, "String", |token, token_tag| {
Ok(match token {
RawToken::GlobPattern => {
return Err(ShellError::type_error(
"String",
"glob pattern".tagged(token_tag),
))
}
RawToken::Operator(..) => {
return Err(ShellError::type_error(
"String",
"operator".tagged(token_tag),
))
}
RawToken::Variable(tag) => expand_variable(tag, token_tag, &context.source),
RawToken::ExternalCommand(tag) => hir::Expression::external_command(tag, token_tag),
RawToken::ExternalWord => return Err(ShellError::invalid_external_word(token_tag)),
RawToken::Number(_) => hir::Expression::bare(token_tag),
RawToken::Size(_, _) => hir::Expression::bare(token_tag),
RawToken::Bare => hir::Expression::bare(token_tag),
RawToken::String(tag) => hir::Expression::string(tag, token_tag),
})
})
}
}
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();
match peeked.node {
Some(TokenNode::Token(token)) => match token.item {
RawToken::String(_) => Some(peeked),
_ => None,
},
_ => None,
}
}
}

View File

@ -0,0 +1,89 @@
use crate::parser::hir::syntax_shape::{ExpandContext, ExpandExpression};
use crate::parser::parse::tokens::RawNumber;
use crate::parser::parse::unit::Unit;
use crate::parser::{hir, hir::TokensIterator, RawToken, TokenNode};
use crate::prelude::*;
use nom::branch::alt;
use nom::bytes::complete::tag;
use nom::character::complete::digit1;
use nom::combinator::{all_consuming, opt, value};
use nom::IResult;
#[derive(Debug, Copy, Clone)]
pub struct UnitShape;
impl ExpandExpression for UnitShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
let peeked = token_nodes.peek_any().not_eof("unit")?;
let tag = match peeked.node {
TokenNode::Token(Tagged {
item: RawToken::Bare,
tag,
}) => tag,
_ => return Err(peeked.type_error("unit")),
};
let unit = unit_size(tag.slice(context.source), *tag);
let (_, (number, unit)) = match unit {
Err(_) => {
return Err(ShellError::type_error(
"unit",
"word".tagged(Tag::unknown()),
))
}
Ok((number, unit)) => (number, unit),
};
Ok(hir::Expression::size(
number.to_number(context.source),
unit,
tag,
))
}
}
fn unit_size(input: &str, bare_tag: Tag) -> IResult<&str, (Tagged<RawNumber>, Unit)> {
let (input, digits) = digit1(input)?;
let (input, dot) = opt(tag("."))(input)?;
let (input, number) = match dot {
Some(dot) => {
let (input, rest) = digit1(input)?;
(
input,
RawNumber::decimal((
bare_tag.span.start(),
bare_tag.span.start() + digits.len() + dot.len() + rest.len(),
bare_tag.anchor,
)),
)
}
None => (
input,
RawNumber::int((
bare_tag.span.start(),
bare_tag.span.start() + digits.len(),
bare_tag.anchor,
)),
),
};
let (input, unit) = all_consuming(alt((
value(Unit::B, alt((tag("B"), tag("b")))),
value(Unit::KB, alt((tag("KB"), tag("kb"), tag("Kb")))),
value(Unit::MB, alt((tag("MB"), tag("mb"), tag("Mb")))),
value(Unit::MB, alt((tag("GB"), tag("gb"), tag("Gb")))),
value(Unit::MB, alt((tag("TB"), tag("tb"), tag("Tb")))),
value(Unit::MB, alt((tag("PB"), tag("pb"), tag("Pb")))),
)))(input)?;
Ok((input, (number, unit)))
}

View File

@ -0,0 +1,396 @@
use crate::parser::hir::syntax_shape::{
expand_expr, expand_syntax, parse_single_node, AnyExpressionShape, BareShape, ExpandContext,
ExpandExpression, ExpandSyntax, Peeked, SkipSyntax, StringShape, TestSyntax, WhitespaceShape,
};
use crate::parser::{hir, hir::Expression, hir::TokensIterator, Operator, RawToken};
use crate::prelude::*;
#[derive(Debug, Copy, Clone)]
pub struct VariablePathShape;
impl ExpandExpression for VariablePathShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
// 1. let the head be the first token, expecting a variable
// 2. let the tail be an empty list of members
// 2. while the next token (excluding ws) is a dot:
// 1. consume the dot
// 2. consume the next token as a member and push it onto tail
let head = expand_expr(&VariableShape, token_nodes, context)?;
let start = head.tag();
let mut end = start;
let mut tail: Vec<Tagged<String>> = vec![];
loop {
match DotShape.skip(token_nodes, context) {
Err(_) => break,
Ok(_) => {}
}
let syntax = expand_syntax(&MemberShape, token_nodes, context)?;
let member = syntax.to_tagged_string(context.source);
end = member.tag();
tail.push(member);
}
Ok(hir::Expression::path(head, tail, start.until(end)))
}
}
#[derive(Debug, Copy, Clone)]
pub struct PathTailShape;
impl ExpandSyntax for PathTailShape {
type Output = (Vec<Tagged<String>>, Tag);
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
let mut end: Option<Tag> = None;
let mut tail = vec![];
loop {
match DotShape.skip(token_nodes, context) {
Err(_) => break,
Ok(_) => {}
}
let syntax = expand_syntax(&MemberShape, token_nodes, context)?;
let member = syntax.to_tagged_string(context.source);
end = Some(member.tag());
tail.push(member);
}
match end {
None => {
return Err(ShellError::type_error(
"path tail",
token_nodes.typed_tag_at_cursor(),
))
}
Some(end) => Ok((tail, end)),
}
}
}
#[derive(Debug)]
pub enum ExpressionContinuation {
DotSuffix(Tag, Tagged<String>),
InfixSuffix(Tagged<Operator>, Expression),
}
/// An expression continuation
#[derive(Debug, Copy, Clone)]
pub struct ExpressionContinuationShape;
impl ExpandSyntax for ExpressionContinuationShape {
type Output = ExpressionContinuation;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<ExpressionContinuation, ShellError> {
// Try to expand a `.`
let dot = expand_syntax(&DotShape, token_nodes, context);
match dot {
// If a `.` was matched, it's a `Path`, and we expect a `Member` next
Ok(dot) => {
let syntax = expand_syntax(&MemberShape, token_nodes, context)?;
let member = syntax.to_tagged_string(context.source);
Ok(ExpressionContinuation::DotSuffix(dot, member))
}
// Otherwise, we expect an infix operator and an expression next
Err(_) => {
let (_, op, _) = expand_syntax(&InfixShape, token_nodes, context)?;
let next = expand_expr(&AnyExpressionShape, token_nodes, context)?;
Ok(ExpressionContinuation::InfixSuffix(op, next))
}
}
}
}
#[derive(Debug, Copy, Clone)]
pub struct VariableShape;
impl ExpandExpression for VariableShape {
fn expand_expr<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<hir::Expression, ShellError> {
parse_single_node(token_nodes, "variable", |token, token_tag| {
Ok(match token {
RawToken::Variable(tag) => {
if tag.slice(context.source) == "it" {
hir::Expression::it_variable(tag, token_tag)
} else {
hir::Expression::variable(tag, token_tag)
}
}
_ => {
return Err(ShellError::type_error(
"variable",
token.type_name().tagged(token_tag),
))
}
})
})
}
}
#[derive(Debug, Clone, Copy)]
pub enum Member {
String(/* outer */ Tag, /* inner */ Tag),
Bare(Tag),
}
impl Member {
pub(crate) fn to_expr(&self) -> hir::Expression {
match self {
Member::String(outer, inner) => hir::Expression::string(inner, outer),
Member::Bare(tag) => hir::Expression::string(tag, tag),
}
}
pub(crate) fn tag(&self) -> Tag {
match self {
Member::String(outer, _inner) => *outer,
Member::Bare(tag) => *tag,
}
}
pub(crate) fn to_tagged_string(&self, source: &str) -> Tagged<String> {
match self {
Member::String(outer, inner) => inner.string(source).tagged(outer),
Member::Bare(tag) => tag.tagged_string(source),
}
}
pub(crate) fn tagged_type_name(&self) -> Tagged<&'static str> {
match self {
Member::String(outer, _inner) => "string".tagged(outer),
Member::Bare(tag) => "word".tagged(tag),
}
}
}
enum ColumnPathState {
Initial,
LeadingDot(Tag),
Dot(Tag, Vec<Member>, Tag),
Member(Tag, Vec<Member>),
Error(ShellError),
}
impl ColumnPathState {
pub fn dot(self, dot: Tag) -> ColumnPathState {
match self {
ColumnPathState::Initial => ColumnPathState::LeadingDot(dot),
ColumnPathState::LeadingDot(_) => {
ColumnPathState::Error(ShellError::type_error("column", "dot".tagged(dot)))
}
ColumnPathState::Dot(..) => {
ColumnPathState::Error(ShellError::type_error("column", "dot".tagged(dot)))
}
ColumnPathState::Member(tag, members) => ColumnPathState::Dot(tag, members, dot),
ColumnPathState::Error(err) => ColumnPathState::Error(err),
}
}
pub fn member(self, member: Member) -> ColumnPathState {
match self {
ColumnPathState::Initial => ColumnPathState::Member(member.tag(), vec![member]),
ColumnPathState::LeadingDot(tag) => {
ColumnPathState::Member(tag.until(member.tag()), vec![member])
}
ColumnPathState::Dot(tag, mut tags, _) => {
ColumnPathState::Member(tag.until(member.tag()), {
tags.push(member);
tags
})
}
ColumnPathState::Member(..) => {
ColumnPathState::Error(ShellError::type_error("column", member.tagged_type_name()))
}
ColumnPathState::Error(err) => ColumnPathState::Error(err),
}
}
pub fn into_path(self, next: Peeked) -> Result<Tagged<Vec<Member>>, ShellError> {
match self {
ColumnPathState::Initial => Err(next.type_error("column path")),
ColumnPathState::LeadingDot(dot) => {
Err(ShellError::type_error("column", "dot".tagged(dot)))
}
ColumnPathState::Dot(_tag, _members, dot) => {
Err(ShellError::type_error("column", "dot".tagged(dot)))
}
ColumnPathState::Member(tag, tags) => Ok(tags.tagged(tag)),
ColumnPathState::Error(err) => Err(err),
}
}
}
pub fn expand_column_path<'a, 'b>(
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Tagged<Vec<Member>>, ShellError> {
let mut state = ColumnPathState::Initial;
loop {
let member = MemberShape.expand_syntax(token_nodes, context);
match member {
Err(_) => break,
Ok(member) => state = state.member(member),
}
let dot = DotShape.expand_syntax(token_nodes, context);
match dot {
Err(_) => break,
Ok(dot) => state = state.dot(dot),
}
}
state.into_path(token_nodes.peek_non_ws())
}
#[derive(Debug, Copy, Clone)]
pub struct ColumnPathShape;
impl ExpandSyntax for ColumnPathShape {
type Output = Tagged<Vec<Member>>;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
expand_column_path(token_nodes, context)
}
}
#[derive(Debug, Copy, Clone)]
pub struct MemberShape;
impl ExpandSyntax for MemberShape {
type Output = Member;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<Member, ShellError> {
let bare = BareShape.test(token_nodes, context);
if let Some(peeked) = bare {
let node = peeked.not_eof("column")?.commit();
return Ok(Member::Bare(node.tag()));
}
let string = StringShape.test(token_nodes, context);
if let Some(peeked) = string {
let node = peeked.not_eof("column")?.commit();
let (outer, inner) = node.expect_string();
return Ok(Member::String(outer, inner));
}
Err(token_nodes.peek_any().type_error("column"))
}
}
#[derive(Debug, Copy, Clone)]
pub struct DotShape;
impl SkipSyntax for DotShape {
fn skip<'a, 'b>(
&self,
token_nodes: &mut TokensIterator<'_>,
context: &ExpandContext,
) -> Result<(), ShellError> {
expand_syntax(self, token_nodes, context)?;
Ok(())
}
}
impl ExpandSyntax for DotShape {
type Output = Tag;
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
_context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
parse_single_node(token_nodes, "dot", |token, token_tag| {
Ok(match token {
RawToken::Operator(Operator::Dot) => token_tag,
_ => {
return Err(ShellError::type_error(
"dot",
token.type_name().tagged(token_tag),
))
}
})
})
}
}
#[derive(Debug, Copy, Clone)]
pub struct InfixShape;
impl ExpandSyntax for InfixShape {
type Output = (Tag, Tagged<Operator>, Tag);
fn expand_syntax<'a, 'b>(
&self,
token_nodes: &'b mut TokensIterator<'a>,
context: &ExpandContext,
) -> Result<Self::Output, ShellError> {
let checkpoint = token_nodes.checkpoint();
// An infix operator must be prefixed by whitespace
let start = expand_syntax(&WhitespaceShape, checkpoint.iterator, context)?;
// Parse the next TokenNode after the whitespace
let operator =
parse_single_node(checkpoint.iterator, "infix operator", |token, token_tag| {
Ok(match token {
// If it's an operator (and not `.`), it's a match
RawToken::Operator(operator) if operator != Operator::Dot => {
operator.tagged(token_tag)
}
// Otherwise, it's not a match
_ => {
return Err(ShellError::type_error(
"infix operator",
token.type_name().tagged(token_tag),
))
}
})
})?;
// An infix operator must be followed by whitespace
let end = expand_syntax(&WhitespaceShape, checkpoint.iterator, context)?;
checkpoint.commit();
Ok((start, operator, end))
}
}

View File

@ -0,0 +1,365 @@
pub(crate) mod debug;
use crate::errors::ShellError;
use crate::parser::TokenNode;
use crate::{Tag, Tagged, TaggedItem};
use derive_new::new;
#[derive(Debug, new)]
pub struct TokensIterator<'a> {
tokens: &'a [TokenNode],
tag: Tag,
skip_ws: bool,
#[new(default)]
index: usize,
#[new(default)]
seen: indexmap::IndexSet<usize>,
}
#[derive(Debug)]
pub struct Checkpoint<'content, 'me> {
pub(crate) iterator: &'me mut TokensIterator<'content>,
index: usize,
seen: indexmap::IndexSet<usize>,
committed: bool,
}
impl<'content, 'me> Checkpoint<'content, 'me> {
pub(crate) fn commit(mut self) {
self.committed = true;
}
}
impl<'content, 'me> std::ops::Drop for Checkpoint<'content, 'me> {
fn drop(&mut self) {
if !self.committed {
self.iterator.index = self.index;
self.iterator.seen = self.seen.clone();
}
}
}
#[derive(Debug)]
pub struct Peeked<'content, 'me> {
pub(crate) node: Option<&'content TokenNode>,
iterator: &'me mut TokensIterator<'content>,
from: usize,
to: usize,
}
impl<'content, 'me> Peeked<'content, 'me> {
pub fn commit(&mut self) -> Option<&'content TokenNode> {
let Peeked {
node,
iterator,
from,
to,
} = self;
let node = (*node)?;
iterator.commit(*from, *to);
Some(node)
}
pub fn not_eof(
self,
expected: impl Into<String>,
) -> Result<PeekedNode<'content, 'me>, ShellError> {
match self.node {
None => Err(ShellError::unexpected_eof(
expected,
self.iterator.eof_tag(),
)),
Some(node) => Ok(PeekedNode {
node,
iterator: self.iterator,
from: self.from,
to: self.to,
}),
}
}
pub fn type_error(&self, expected: impl Into<String>) -> ShellError {
peek_error(&self.node, self.iterator.eof_tag(), expected)
}
}
#[derive(Debug)]
pub struct PeekedNode<'content, 'me> {
pub(crate) node: &'content TokenNode,
iterator: &'me mut TokensIterator<'content>,
from: usize,
to: usize,
}
impl<'content, 'me> PeekedNode<'content, 'me> {
pub fn commit(self) -> &'content TokenNode {
let PeekedNode {
node,
iterator,
from,
to,
} = self;
iterator.commit(from, to);
node
}
pub fn rollback(self) {}
pub fn type_error(&self, expected: impl Into<String>) -> ShellError {
peek_error(&Some(self.node), self.iterator.eof_tag(), expected)
}
}
pub fn peek_error(
node: &Option<&TokenNode>,
eof_tag: Tag,
expected: impl Into<String>,
) -> ShellError {
match node {
None => ShellError::unexpected_eof(expected, eof_tag),
Some(node) => ShellError::type_error(expected, node.tagged_type_name()),
}
}
impl<'content> TokensIterator<'content> {
#[cfg(test)]
pub fn all(tokens: &'content [TokenNode], tag: Tag) -> TokensIterator<'content> {
TokensIterator::new(tokens, tag, false)
}
/// Use a checkpoint when you need to peek more than one token ahead, but can't be sure
/// that you'll succeed.
pub fn checkpoint<'me>(&'me mut self) -> Checkpoint<'content, 'me> {
let index = self.index;
let seen = self.seen.clone();
Checkpoint {
iterator: self,
index,
seen,
committed: false,
}
}
pub fn anchor(&self) -> uuid::Uuid {
self.tag.anchor
}
fn eof_tag(&self) -> Tag {
Tag::from((self.tag.span.end(), self.tag.span.end(), self.tag.anchor))
}
pub fn typed_tag_at_cursor(&mut self) -> Tagged<&'static str> {
let next = self.peek_any();
match next.node {
None => "end".tagged(self.eof_tag()),
Some(node) => node.tagged_type_name(),
}
}
pub fn remove(&mut self, position: usize) {
self.seen.insert(position);
}
pub fn at_end(&self) -> bool {
peek(self, self.skip_ws).is_none()
}
pub fn at_end_possible_ws(&self) -> bool {
peek(self, true).is_none()
}
pub fn advance(&mut self) {
self.seen.insert(self.index);
self.index += 1;
}
pub fn extract<T>(&mut self, f: impl Fn(&TokenNode) -> Option<T>) -> Option<(usize, T)> {
for (i, item) in self.tokens.iter().enumerate() {
if self.seen.contains(&i) {
continue;
}
match f(item) {
None => {
continue;
}
Some(value) => {
self.seen.insert(i);
return Some((i, value));
}
}
}
None
}
pub fn move_to(&mut self, pos: usize) {
self.index = pos;
}
pub fn restart(&mut self) {
self.index = 0;
}
pub fn clone(&self) -> TokensIterator<'content> {
TokensIterator {
tokens: self.tokens,
tag: self.tag,
index: self.index,
seen: self.seen.clone(),
skip_ws: self.skip_ws,
}
}
// Get the next token, not including whitespace
pub fn next_non_ws(&mut self) -> Option<&TokenNode> {
let mut peeked = start_next(self, true);
peeked.commit()
}
// Peek the next token, not including whitespace
pub fn peek_non_ws<'me>(&'me mut self) -> Peeked<'content, 'me> {
start_next(self, true)
}
// Peek the next token, including whitespace
pub fn peek_any<'me>(&'me mut self) -> Peeked<'content, 'me> {
start_next(self, false)
}
fn commit(&mut self, from: usize, to: usize) {
for index in from..to {
self.seen.insert(index);
}
self.index = to;
}
pub fn debug_remaining(&self) -> Vec<TokenNode> {
let mut tokens = self.clone();
tokens.restart();
tokens.cloned().collect()
}
}
impl<'a> Iterator for TokensIterator<'a> {
type Item = &'a TokenNode;
fn next(&mut self) -> Option<&'a TokenNode> {
next(self, self.skip_ws)
}
}
fn peek<'content, 'me>(
iterator: &TokensIterator<'content>,
skip_ws: bool,
) -> Option<&'content TokenNode> {
let mut to = iterator.index;
loop {
if to >= iterator.tokens.len() {
return None;
}
if iterator.seen.contains(&to) {
to += 1;
continue;
}
if to >= iterator.tokens.len() {
return None;
}
let node = &iterator.tokens[to];
match node {
TokenNode::Whitespace(_) if skip_ws => {
to += 1;
}
_ => {
return Some(node);
}
}
}
}
fn start_next<'content, 'me>(
iterator: &'me mut TokensIterator<'content>,
skip_ws: bool,
) -> Peeked<'content, 'me> {
let from = iterator.index;
let mut to = iterator.index;
loop {
if to >= iterator.tokens.len() {
return Peeked {
node: None,
iterator,
from,
to,
};
}
if iterator.seen.contains(&to) {
to += 1;
continue;
}
if to >= iterator.tokens.len() {
return Peeked {
node: None,
iterator,
from,
to,
};
}
let node = &iterator.tokens[to];
match node {
TokenNode::Whitespace(_) if skip_ws => {
to += 1;
}
_ => {
to += 1;
return Peeked {
node: Some(node),
iterator,
from,
to,
};
}
}
}
}
fn next<'a>(iterator: &mut TokensIterator<'a>, skip_ws: bool) -> Option<&'a TokenNode> {
loop {
if iterator.index >= iterator.tokens.len() {
return None;
}
if iterator.seen.contains(&iterator.index) {
iterator.advance();
continue;
}
if iterator.index >= iterator.tokens.len() {
return None;
}
match &iterator.tokens[iterator.index] {
TokenNode::Whitespace(_) if skip_ws => {
iterator.advance();
}
other => {
iterator.advance();
return Some(other);
}
}
}
}

View File

@ -0,0 +1,30 @@
use crate::parser::hir::tokens_iterator::TokensIterator;
use crate::traits::ToDebug;
#[derive(Debug)]
pub(crate) enum DebugIteratorToken {
Seen(String),
Unseen(String),
Cursor,
}
pub(crate) fn debug_tokens(iterator: &TokensIterator, source: &str) -> Vec<DebugIteratorToken> {
let mut out = vec![];
for (i, token) in iterator.tokens.iter().enumerate() {
if iterator.index == i {
out.push(DebugIteratorToken::Cursor);
}
if iterator.seen.contains(&i) {
out.push(DebugIteratorToken::Seen(format!("{}", token.debug(source))));
} else {
out.push(DebugIteratorToken::Unseen(format!(
"{}",
token.debug(source)
)));
}
}
out
}

View File

@ -1,6 +1,7 @@
use crate::Tag;
use derive_new::new;
use language_reporting::{FileName, Location};
use log::trace;
use uuid::Uuid;
#[derive(new, Debug, Clone)]
@ -18,7 +19,7 @@ impl language_reporting::ReportingFiles for Files {
from_index: usize,
to_index: usize,
) -> Option<Self::Span> {
Some(Tag::from((from_index, to_index, file)))
Some(Tag::new(file, (from_index, to_index).into()))
}
fn file_id(&self, tag: Self::Span) -> Self::FileId {
@ -38,8 +39,18 @@ impl language_reporting::ReportingFiles for Files {
let mut seen_lines = 0;
let mut seen_bytes = 0;
for (pos, _) in source.match_indices('\n') {
if pos > byte_index {
for (pos, slice) in source.match_indices('\n') {
trace!(
"SEARCH={} SEEN={} POS={} SLICE={:?} LEN={} ALL={:?}",
byte_index,
seen_bytes,
pos,
slice,
source.len(),
source
);
if pos >= byte_index {
return Some(language_reporting::Location::new(
seen_lines,
byte_index - seen_bytes,
@ -53,7 +64,7 @@ impl language_reporting::ReportingFiles for Files {
if seen_lines == 0 {
Some(language_reporting::Location::new(0, byte_index))
} else {
None
panic!("byte index {} wasn't valid", byte_index);
}
}
@ -64,7 +75,7 @@ impl language_reporting::ReportingFiles for Files {
for (pos, _) in source.match_indices('\n') {
if seen_lines == lineno {
return Some(Tag::from((seen_bytes, pos, file)));
return Some(Tag::new(file, (seen_bytes, pos + 1).into()));
} else {
seen_lines += 1;
seen_bytes = pos + 1;
@ -72,16 +83,18 @@ impl language_reporting::ReportingFiles for Files {
}
if seen_lines == 0 {
Some(Tag::from((0, self.snippet.len() - 1, file)))
Some(Tag::new(file, (0, self.snippet.len() - 1).into()))
} else {
None
}
}
fn source(&self, tag: Self::Span) -> Option<String> {
if tag.span.start > tag.span.end {
trace!("source(tag={:?}) snippet={:?}", tag, self.snippet);
if tag.span.start() > tag.span.end() {
return None;
} else if tag.span.end >= self.snippet.len() {
} else if tag.span.end() > self.snippet.len() {
return None;
}
Some(tag.slice(&self.snippet).to_string())

View File

@ -11,6 +11,7 @@ pub enum Operator {
GreaterThan,
LessThanOrEqual,
GreaterThanOrEqual,
Dot,
}
impl ToDebug for Operator {
@ -32,6 +33,7 @@ impl Operator {
Operator::GreaterThan => ">",
Operator::LessThanOrEqual => "<=",
Operator::GreaterThanOrEqual => ">=",
Operator::Dot => ".",
}
}
}
@ -52,6 +54,7 @@ impl FromStr for Operator {
">" => Ok(Operator::GreaterThan),
"<=" => Ok(Operator::LessThanOrEqual),
">=" => Ok(Operator::GreaterThanOrEqual),
"." => Ok(Operator::Dot),
_ => Err(()),
}
}

File diff suppressed because it is too large Load Diff

View File

@ -1,4 +1,4 @@
use crate::parser::CallNode;
use crate::parser::TokenNode;
use crate::traits::ToDebug;
use crate::{Tag, Tagged};
use derive_new::new;
@ -7,20 +7,16 @@ use std::fmt;
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, new)]
pub struct Pipeline {
pub(crate) parts: Vec<PipelineElement>,
pub(crate) post_ws: Option<Tag>,
pub(crate) parts: Vec<Tagged<PipelineElement>>,
// pub(crate) post_ws: Option<Tag>,
}
impl ToDebug for Pipeline {
fn fmt_debug(&self, f: &mut fmt::Formatter, source: &str) -> fmt::Result {
for part in &self.parts {
for part in self.parts.iter() {
write!(f, "{}", part.debug(source))?;
}
if let Some(post_ws) = self.post_ws {
write!(f, "{}", post_ws.slice(source))?
}
Ok(())
}
}
@ -28,10 +24,7 @@ impl ToDebug for Pipeline {
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters, new)]
pub struct PipelineElement {
pub pipe: Option<Tag>,
pub pre_ws: Option<Tag>,
#[get = "pub(crate)"]
call: Tagged<CallNode>,
pub post_ws: Option<Tag>,
pub tokens: Tagged<Vec<TokenNode>>,
}
impl ToDebug for PipelineElement {
@ -40,14 +33,8 @@ impl ToDebug for PipelineElement {
write!(f, "{}", pipe.slice(source))?;
}
if let Some(pre_ws) = self.pre_ws {
write!(f, "{}", pre_ws.slice(source))?;
}
write!(f, "{}", self.call.debug(source))?;
if let Some(post_ws) = self.post_ws {
write!(f, "{}", post_ws.slice(source))?;
for token in &self.tokens.item {
write!(f, "{}", token.debug(source))?;
}
Ok(())

View File

@ -1,5 +1,6 @@
use crate::errors::ShellError;
use crate::parser::parse::{call_node::*, flag::*, operator::*, pipeline::*, tokens::*};
use crate::parser::parse::{call_node::*, flag::*, pipeline::*, tokens::*};
use crate::prelude::*;
use crate::traits::ToDebug;
use crate::{Tag, Tagged, Text};
use derive_new::new;
@ -12,15 +13,14 @@ pub enum TokenNode {
Token(Token),
Call(Tagged<CallNode>),
Nodes(Tagged<Vec<TokenNode>>),
Delimited(Tagged<DelimitedNode>),
Pipeline(Tagged<Pipeline>),
Operator(Tagged<Operator>),
Flag(Tagged<Flag>),
Member(Tag),
Whitespace(Tag),
Error(Tagged<Box<ShellError>>),
Path(Tagged<PathNode>),
}
impl ToDebug for TokenNode {
@ -94,32 +94,33 @@ impl TokenNode {
pub fn tag(&self) -> Tag {
match self {
TokenNode::Token(t) => t.tag(),
TokenNode::Nodes(t) => t.tag(),
TokenNode::Call(s) => s.tag(),
TokenNode::Delimited(s) => s.tag(),
TokenNode::Pipeline(s) => s.tag(),
TokenNode::Operator(s) => s.tag(),
TokenNode::Flag(s) => s.tag(),
TokenNode::Member(s) => *s,
TokenNode::Whitespace(s) => *s,
TokenNode::Error(s) => s.tag(),
TokenNode::Path(s) => s.tag(),
}
}
pub fn type_name(&self) -> String {
pub 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::Operator(_) => "operator",
TokenNode::Flag(_) => "flag",
TokenNode::Member(_) => "member",
TokenNode::Whitespace(_) => "whitespace",
TokenNode::Error(_) => "error",
TokenNode::Path(_) => "path",
}
.to_string()
}
pub fn tagged_type_name(&self) -> Tagged<&'static str> {
self.type_name().tagged(self.tag())
}
pub fn old_debug<'a>(&'a self, source: &'a Text) -> DebugTokenNode<'a> {
@ -134,6 +135,16 @@ impl TokenNode {
self.tag().slice(source)
}
pub fn get_variable(&self) -> Result<(Tag, Tag), ShellError> {
match self {
TokenNode::Token(Tagged {
item: RawToken::Variable(inner_tag),
tag: outer_tag,
}) => Ok((*outer_tag, *inner_tag)),
_ => Err(ShellError::type_error("variable", self.tagged_type_name())),
}
}
pub fn is_bare(&self) -> bool {
match self {
TokenNode::Token(Tagged {
@ -144,6 +155,20 @@ impl TokenNode {
}
}
pub fn as_block(&self) -> Option<Tagged<&[TokenNode]>> {
match self {
TokenNode::Delimited(Tagged {
item:
DelimitedNode {
delimiter,
children,
},
tag,
}) if *delimiter == Delimiter::Brace => Some((&children[..]).tagged(tag)),
_ => None,
}
}
pub fn is_external(&self) -> bool {
match self {
TokenNode::Token(Tagged {
@ -181,13 +206,60 @@ impl TokenNode {
_ => Err(ShellError::string("unimplemented")),
}
}
pub fn is_whitespace(&self) -> bool {
match self {
TokenNode::Whitespace(_) => true,
_ => false,
}
}
pub fn expect_string(&self) -> (Tag, Tag) {
match self {
TokenNode::Token(Tagged {
item: RawToken::String(inner_tag),
tag: outer_tag,
}) => (*outer_tag, *inner_tag),
other => panic!("Expected string, found {:?}", other),
}
}
}
#[cfg(test)]
impl TokenNode {
pub fn expect_list(&self) -> Tagged<&[TokenNode]> {
match self {
TokenNode::Nodes(Tagged { item, tag }) => (&item[..]).tagged(tag),
other => panic!("Expected list, found {:?}", other),
}
}
pub fn expect_var(&self) -> (Tag, Tag) {
match self {
TokenNode::Token(Tagged {
item: RawToken::Variable(inner_tag),
tag: outer_tag,
}) => (*outer_tag, *inner_tag),
other => panic!("Expected var, found {:?}", other),
}
}
pub fn expect_bare(&self) -> Tag {
match self {
TokenNode::Token(Tagged {
item: RawToken::Bare,
tag,
}) => *tag,
other => panic!("Expected var, found {:?}", other),
}
}
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters, new)]
#[get = "pub(crate)"]
pub struct DelimitedNode {
delimiter: Delimiter,
children: Vec<TokenNode>,
pub(crate) delimiter: Delimiter,
pub(crate) children: Vec<TokenNode>,
}
impl DelimitedNode {
@ -207,6 +279,24 @@ pub enum Delimiter {
Square,
}
impl Delimiter {
pub(crate) fn open(&self) -> char {
match self {
Delimiter::Paren => '(',
Delimiter::Brace => '{',
Delimiter::Square => '[',
}
}
pub(crate) fn close(&self) -> char {
match self {
Delimiter::Paren => ')',
Delimiter::Brace => '}',
Delimiter::Square => ']',
}
}
}
#[derive(Debug, Clone, Eq, PartialEq, Ord, PartialOrd, Getters, new)]
#[get = "pub(crate)"]
pub struct PathNode {

View File

@ -3,7 +3,7 @@ use crate::prelude::*;
use crate::parser::parse::flag::{Flag, FlagKind};
use crate::parser::parse::operator::Operator;
use crate::parser::parse::pipeline::{Pipeline, PipelineElement};
use crate::parser::parse::token_tree::{DelimitedNode, Delimiter, PathNode, TokenNode};
use crate::parser::parse::token_tree::{DelimitedNode, Delimiter, TokenNode};
use crate::parser::parse::tokens::{RawNumber, RawToken};
use crate::parser::parse::unit::Unit;
use crate::parser::CallNode;
@ -31,60 +31,68 @@ impl TokenTreeBuilder {
(node, builder.output)
}
pub fn pipeline(input: Vec<(Option<&str>, CurriedCall, Option<&str>)>) -> CurriedToken {
let input: Vec<(Option<String>, CurriedCall, Option<String>)> = input
.into_iter()
.map(|(pre, call, post)| {
(
pre.map(|s| s.to_string()),
call,
post.map(|s| s.to_string()),
)
})
.collect();
fn build_tagged<T>(&mut self, callback: impl FnOnce(&mut TokenTreeBuilder) -> T) -> Tagged<T> {
let start = self.pos;
let ret = callback(self);
let end = self.pos;
ret.tagged((start, end, self.anchor))
}
pub fn pipeline(input: Vec<Vec<CurriedToken>>) -> CurriedToken {
Box::new(move |b| {
let start = b.pos;
let mut out: Vec<PipelineElement> = vec![];
let mut out: Vec<Tagged<PipelineElement>> = vec![];
let mut input = input.into_iter().peekable();
let (pre, call, post) = input
let head = input
.next()
.expect("A pipeline must contain at least one element");
let pipe = None;
let pre_tag = pre.map(|pre| b.consume_tag(&pre));
let call = call(b);
let post_tag = post.map(|post| b.consume_tag(&post));
let head = b.build_tagged(|b| head.into_iter().map(|node| node(b)).collect());
out.push(PipelineElement::new(pipe, pre_tag, call, post_tag));
let head_tag: Tag = head.tag;
out.push(PipelineElement::new(pipe, head).tagged(head_tag));
loop {
match input.next() {
None => break,
Some((pre, call, post)) => {
Some(node) => {
let start = b.pos;
let pipe = Some(b.consume_tag("|"));
let pre_span = pre.map(|pre| b.consume_tag(&pre));
let call = call(b);
let post_span = post.map(|post| b.consume_tag(&post));
let node =
b.build_tagged(|b| node.into_iter().map(|node| node(b)).collect());
let end = b.pos;
out.push(PipelineElement::new(pipe, pre_span, call, post_span));
out.push(PipelineElement::new(pipe, node).tagged((start, end, b.anchor)));
}
}
}
let end = b.pos;
TokenTreeBuilder::tagged_pipeline((out, None), (start, end, b.anchor))
TokenTreeBuilder::tagged_pipeline(out, (start, end, b.anchor))
})
}
pub fn tagged_pipeline(
input: (Vec<PipelineElement>, Option<Tag>),
tag: impl Into<Tag>,
) -> TokenNode {
TokenNode::Pipeline(Pipeline::new(input.0, input.1.into()).tagged(tag.into()))
pub fn tagged_pipeline(input: Vec<Tagged<PipelineElement>>, tag: impl Into<Tag>) -> TokenNode {
TokenNode::Pipeline(Pipeline::new(input).tagged(tag.into()))
}
pub fn token_list(input: Vec<CurriedToken>) -> CurriedToken {
Box::new(move |b| {
let start = b.pos;
let tokens = input.into_iter().map(|i| i(b)).collect();
let end = b.pos;
TokenTreeBuilder::tagged_token_list(tokens, (start, end, b.anchor))
})
}
pub fn tagged_token_list(input: Vec<TokenNode>, tag: impl Into<Tag>) -> TokenNode {
TokenNode::Nodes(input.tagged(tag))
}
pub fn op(input: impl Into<Operator>) -> CurriedToken {
@ -100,7 +108,7 @@ impl TokenTreeBuilder {
}
pub fn tagged_op(input: impl Into<Operator>, tag: impl Into<Tag>) -> TokenNode {
TokenNode::Operator(input.into().tagged(tag.into()))
TokenNode::Token(RawToken::Operator(input.into()).tagged(tag.into()))
}
pub fn string(input: impl Into<String>) -> CurriedToken {
@ -168,8 +176,23 @@ impl TokenTreeBuilder {
TokenNode::Token(RawToken::ExternalWord.tagged(input.into()))
}
pub fn tagged_external(input: impl Into<Tag>, tag: impl Into<Tag>) -> TokenNode {
TokenNode::Token(RawToken::ExternalCommand(input.into()).tagged(tag.into()))
pub fn external_command(input: impl Into<String>) -> CurriedToken {
let input = input.into();
Box::new(move |b| {
let (outer_start, _) = b.consume("^");
let (inner_start, end) = b.consume(&input);
b.pos = end;
TokenTreeBuilder::tagged_external_command(
(inner_start, end, b.anchor),
(outer_start, end, b.anchor),
)
})
}
pub fn tagged_external_command(inner: impl Into<Tag>, outer: impl Into<Tag>) -> TokenNode {
TokenNode::Token(RawToken::ExternalCommand(inner.into()).tagged(outer.into()))
}
pub fn int(input: impl Into<BigInt>) -> CurriedToken {
@ -229,29 +252,6 @@ impl TokenTreeBuilder {
TokenNode::Token(RawToken::Size(int, unit).tagged(tag.into()))
}
pub fn path(head: CurriedToken, tail: Vec<CurriedToken>) -> CurriedToken {
Box::new(move |b| {
let start = b.pos;
let head = head(b);
let mut output = vec![];
for item in tail {
b.consume(".");
output.push(item(b));
}
let end = b.pos;
TokenTreeBuilder::tagged_path((head, output), (start, end, b.anchor))
})
}
pub fn tagged_path(input: (TokenNode, Vec<TokenNode>), tag: impl Into<Tag>) -> TokenNode {
TokenNode::Path(PathNode::new(Box::new(input.0), input.1).tagged(tag.into()))
}
pub fn var(input: impl Into<String>) -> CurriedToken {
let input = input.into();

View File

@ -1,4 +1,5 @@
use crate::parser::parse::unit::*;
use crate::parser::Operator;
use crate::prelude::*;
use crate::{Tagged, Text};
use std::fmt;
@ -7,6 +8,7 @@ use std::str::FromStr;
#[derive(Debug, Clone, Copy, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub enum RawToken {
Number(RawNumber),
Operator(Operator),
Size(RawNumber, Unit),
String(Tag),
Variable(Tag),
@ -49,12 +51,13 @@ impl RawToken {
pub fn type_name(&self) -> &'static str {
match self {
RawToken::Number(_) => "Number",
RawToken::Operator(..) => "operator",
RawToken::Size(..) => "Size",
RawToken::String(_) => "String",
RawToken::Variable(_) => "Variable",
RawToken::ExternalCommand(_) => "ExternalCommand",
RawToken::ExternalWord => "ExternalWord",
RawToken::GlobPattern => "GlobPattern",
RawToken::Variable(_) => "variable",
RawToken::ExternalCommand(_) => "external command",
RawToken::ExternalWord => "external word",
RawToken::GlobPattern => "glob pattern",
RawToken::Bare => "String",
}
}

View File

@ -1,92 +1,35 @@
use crate::context::Context;
use crate::errors::{ArgumentError, ShellError};
use crate::parser::hir::syntax_shape::{expand_expr, spaced};
use crate::parser::registry::{NamedType, PositionalType, Signature};
use crate::parser::{baseline_parse_tokens, CallNode};
use crate::parser::TokensIterator;
use crate::parser::{
hir::{self, NamedArguments},
Flag, RawToken, TokenNode,
hir::{self, ExpandContext, NamedArguments},
Flag,
};
use crate::traits::ToDebug;
use crate::{Tag, Tagged, TaggedItem, Text};
use crate::{Tag, Tagged, Text};
use log::trace;
pub fn parse_command(
pub fn parse_command_tail(
config: &Signature,
context: &Context,
call: &Tagged<CallNode>,
source: &Text,
) -> Result<hir::Call, ShellError> {
let Tagged { item: raw_call, .. } = call;
trace!("Processing {:?}", config);
let head = parse_command_head(call.head())?;
let children: Option<Vec<TokenNode>> = raw_call.children().as_ref().map(|nodes| {
nodes
.iter()
.cloned()
.filter(|node| match node {
TokenNode::Whitespace(_) => false,
_ => true,
})
.collect()
});
match parse_command_tail(&config, context, children, source, call.tag())? {
None => Ok(hir::Call::new(Box::new(head), None, None)),
Some((positional, named)) => Ok(hir::Call::new(Box::new(head), positional, named)),
}
}
fn parse_command_head(head: &TokenNode) -> Result<hir::Expression, ShellError> {
match head {
TokenNode::Token(
spanned @ Tagged {
item: RawToken::Bare,
..
},
) => Ok(spanned.map(|_| hir::RawExpression::Literal(hir::Literal::Bare))),
TokenNode::Token(Tagged {
item: RawToken::String(inner_tag),
tag,
}) => Ok(hir::RawExpression::Literal(hir::Literal::String(*inner_tag)).tagged(*tag)),
other => Err(ShellError::unexpected(&format!(
"command head -> {:?}",
other
))),
}
}
fn parse_command_tail(
config: &Signature,
context: &Context,
tail: Option<Vec<TokenNode>>,
source: &Text,
context: &ExpandContext,
tail: &mut TokensIterator,
command_tag: Tag,
) -> Result<Option<(Option<Vec<hir::Expression>>, Option<NamedArguments>)>, ShellError> {
let tail = &mut match &tail {
None => hir::TokensIterator::new(&[]),
Some(tail) => hir::TokensIterator::new(tail),
};
let mut named = NamedArguments::new();
trace_remaining("nodes", tail.clone(), source);
trace_remaining("nodes", tail.clone(), context.source());
for (name, kind) in &config.named {
trace!(target: "nu::parse", "looking for {} : {:?}", name, kind);
match kind {
NamedType::Switch => {
let flag = extract_switch(name, tail, source);
let flag = extract_switch(name, tail, context.source());
named.insert_switch(name, flag);
}
NamedType::Mandatory(syntax_type) => {
match extract_mandatory(config, name, tail, source, command_tag) {
match extract_mandatory(config, name, tail, context.source(), command_tag) {
Err(err) => return Err(err), // produce a correct diagnostic
Ok((pos, flag)) => {
tail.move_to(pos);
@ -99,42 +42,47 @@ fn parse_command_tail(
));
}
let expr =
hir::baseline_parse_next_expr(tail, context, source, *syntax_type)?;
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, source) {
Err(err) => return Err(err), // produce a correct diagnostic
Ok(Some((pos, flag))) => {
tail.move_to(pos);
NamedType::Optional(syntax_type) => {
match extract_optional(name, tail, context.source()) {
Err(err) => return Err(err), // produce a correct diagnostic
Ok(Some((pos, flag))) => {
tail.move_to(pos);
if tail.at_end() {
return Err(ShellError::argument_error(
config.name.clone(),
ArgumentError::MissingValueForName(name.to_string()),
flag.tag(),
));
if tail.at_end() {
return Err(ShellError::argument_error(
config.name.clone(),
ArgumentError::MissingValueForName(name.to_string()),
flag.tag(),
));
}
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();
}
let expr = hir::baseline_parse_next_expr(tail, context, source, *syntax_type)?;
tail.restart();
named.insert_optional(name, Some(expr));
Ok(None) => {
tail.restart();
named.insert_optional(name, None);
}
}
Ok(None) => {
tail.restart();
named.insert_optional(name, None);
}
},
}
};
}
trace_remaining("after named", tail.clone(), source);
trace_remaining("after named", tail.clone(), context.source());
let mut positional = vec![];
@ -143,7 +91,7 @@ fn parse_command_tail(
match arg {
PositionalType::Mandatory(..) => {
if tail.len() == 0 {
if tail.at_end() {
return Err(ShellError::argument_error(
config.name.clone(),
ArgumentError::MissingMandatoryPositional(arg.name().to_string()),
@ -153,25 +101,36 @@ fn parse_command_tail(
}
PositionalType::Optional(..) => {
if tail.len() == 0 {
if tail.at_end() {
break;
}
}
}
let result = hir::baseline_parse_next_expr(tail, context, source, arg.syntax_type())?;
let result = expand_expr(&spaced(arg.syntax_type()), tail, context)?;
positional.push(result);
}
trace_remaining("after positional", tail.clone(), source);
trace_remaining("after positional", tail.clone(), context.source());
if let Some(syntax_type) = config.rest_positional {
let remainder = baseline_parse_tokens(tail, context, source, syntax_type)?;
positional.extend(remainder);
let mut out = vec![];
loop {
if tail.at_end_possible_ws() {
break;
}
let next = expand_expr(&spaced(syntax_type), tail, context)?;
out.push(next);
}
positional.extend(out);
}
trace_remaining("after rest", tail.clone(), source);
trace_remaining("after rest", tail.clone(), context.source());
trace!("Constructed positional={:?} named={:?}", positional, named);

View File

@ -1,11 +1,11 @@
// TODO: Temporary redirect
pub(crate) use crate::context::CommandRegistry;
use crate::evaluate::{evaluate_baseline_expr, Scope};
use crate::parser::{hir, hir::SyntaxShape, parse_command, CallNode};
use crate::parser::{hir, hir::SyntaxShape};
use crate::prelude::*;
use derive_new::new;
use indexmap::IndexMap;
use log::trace;
use serde::{Deserialize, Serialize};
use std::fmt;
@ -271,21 +271,6 @@ impl<'a> Iterator for PositionalIter<'a> {
}
}
impl Signature {
pub(crate) fn parse_args(
&self,
call: &Tagged<CallNode>,
context: &Context,
source: &Text,
) -> Result<hir::Call, ShellError> {
let args = parse_command(self, context, call, source)?;
trace!("parsed args: {:?}", args);
Ok(args)
}
}
pub(crate) fn evaluate_args(
call: &hir::Call,
registry: &CommandRegistry,

View File

@ -1,10 +1,13 @@
use itertools::Itertools;
use nu::{
serve_plugin, CallInfo, Plugin, Primitive, ReturnSuccess, ReturnValue, ShellError, Signature,
SyntaxShape, Tagged, Value,
serve_plugin, CallInfo, Plugin, ReturnSuccess, ReturnValue, ShellError, Signature, SyntaxShape,
Tagged, Value,
};
pub type ColumnPath = Vec<Tagged<String>>;
struct Add {
field: Option<String>,
field: Option<ColumnPath>,
value: Option<Value>,
}
impl Add {
@ -19,12 +22,13 @@ impl Add {
let value_tag = value.tag();
match (value.item, self.value.clone()) {
(obj @ Value::Row(_), Some(v)) => match &self.field {
Some(f) => match obj.insert_data_at_path(value_tag, &f, v) {
Some(f) => match obj.insert_data_at_column_path(value_tag, &f, v) {
Some(v) => return Ok(v),
None => {
return Err(ShellError::string(format!(
"add could not find place to insert field {:?} {}",
obj, f
obj,
f.iter().map(|i| &i.item).join(".")
)))
}
},
@ -44,7 +48,7 @@ impl Plugin for Add {
fn config(&mut self) -> Result<Signature, ShellError> {
Ok(Signature::build("add")
.desc("Add a new field to the table.")
.required("Field", SyntaxShape::String)
.required("Field", SyntaxShape::ColumnPath)
.required("Value", SyntaxShape::String)
.rest(SyntaxShape::String)
.filter())
@ -53,12 +57,13 @@ impl Plugin for Add {
fn begin_filter(&mut self, call_info: CallInfo) -> Result<Vec<ReturnValue>, ShellError> {
if let Some(args) = call_info.args.positional {
match &args[0] {
Tagged {
item: Value::Primitive(Primitive::String(s)),
table @ Tagged {
item: Value::Table(_),
..
} => {
self.field = Some(s.clone());
self.field = Some(table.as_column_path()?.item);
}
_ => {
return Err(ShellError::string(format!(
"Unrecognized type in params: {:?}",

View File

@ -1,10 +1,12 @@
use nu::{
serve_plugin, CallInfo, Plugin, Primitive, ReturnSuccess, ReturnValue, ShellError, Signature,
SyntaxShape, Tagged, Value,
serve_plugin, CallInfo, Plugin, ReturnSuccess, ReturnValue, ShellError, Signature, SyntaxShape,
Tagged, Value,
};
pub type ColumnPath = Vec<Tagged<String>>;
struct Edit {
field: Option<String>,
field: Option<ColumnPath>,
value: Option<Value>,
}
impl Edit {
@ -19,7 +21,7 @@ impl Edit {
let value_tag = value.tag();
match (value.item, self.value.clone()) {
(obj @ Value::Row(_), Some(v)) => match &self.field {
Some(f) => match obj.replace_data_at_path(value_tag, &f, v) {
Some(f) => match obj.replace_data_at_column_path(value_tag, &f, v) {
Some(v) => return Ok(v),
None => {
return Err(ShellError::string(
@ -43,7 +45,7 @@ impl Plugin for Edit {
fn config(&mut self) -> Result<Signature, ShellError> {
Ok(Signature::build("edit")
.desc("Edit an existing column to have a new value.")
.required("Field", SyntaxShape::String)
.required("Field", SyntaxShape::ColumnPath)
.required("Value", SyntaxShape::String)
.filter())
}
@ -51,11 +53,11 @@ impl Plugin for Edit {
fn begin_filter(&mut self, call_info: CallInfo) -> Result<Vec<ReturnValue>, ShellError> {
if let Some(args) = call_info.args.positional {
match &args[0] {
Tagged {
item: Value::Primitive(Primitive::String(s)),
table @ Tagged {
item: Value::Table(_),
..
} => {
self.field = Some(s.clone());
self.field = Some(table.as_column_path()?.item);
}
_ => {
return Err(ShellError::string(format!(

View File

@ -14,8 +14,10 @@ pub enum SemVerAction {
Patch,
}
pub type ColumnPath = Vec<Tagged<String>>;
struct Inc {
field: Option<String>,
field: Option<ColumnPath>,
error: Option<String>,
action: Option<Action>,
}
@ -85,16 +87,17 @@ impl Inc {
}
Value::Row(_) => match self.field {
Some(ref f) => {
let replacement = match value.item.get_data_by_path(value.tag(), f) {
let replacement = match value.item.get_data_by_column_path(value.tag(), f) {
Some(result) => self.inc(result.map(|x| x.clone()))?,
None => {
return Err(ShellError::string("inc could not find field to replace"))
}
};
match value
.item
.replace_data_at_path(value.tag(), f, replacement.item.clone())
{
match value.item.replace_data_at_column_path(
value.tag(),
f,
replacement.item.clone(),
) {
Some(v) => return Ok(v),
None => {
return Err(ShellError::string("inc could not find field to replace"))
@ -120,7 +123,7 @@ impl Plugin for Inc {
.switch("major")
.switch("minor")
.switch("patch")
.rest(SyntaxShape::String)
.rest(SyntaxShape::ColumnPath)
.filter())
}
@ -138,11 +141,11 @@ impl Plugin for Inc {
if let Some(args) = call_info.args.positional {
for arg in args {
match arg {
Tagged {
item: Value::Primitive(Primitive::String(s)),
table @ Tagged {
item: Value::Table(_),
..
} => {
self.field = Some(s);
self.field = Some(table.as_column_path()?.item);
}
_ => {
return Err(ShellError::string(format!(
@ -209,8 +212,13 @@ mod tests {
}
fn with_parameter(&mut self, name: &str) -> &mut Self {
let fields: Vec<Tagged<Value>> = name
.split(".")
.map(|s| Value::string(s.to_string()).tagged(Tag::unknown_span(self.anchor)))
.collect();
self.positionals
.push(Value::string(name.to_string()).tagged(Tag::unknown_span(self.anchor)));
.push(Value::Table(fields).tagged(Tag::unknown_span(self.anchor)));
self
}
@ -297,7 +305,12 @@ mod tests {
)
.is_ok());
assert_eq!(plugin.field, Some("package.version".to_string()));
assert_eq!(
plugin
.field
.map(|f| f.into_iter().map(|f| f.item).collect()),
Some(vec!["package".to_string(), "version".to_string()])
);
}
#[test]

View File

@ -1,6 +1,6 @@
use nu::{
serve_plugin, CallInfo, Plugin, Primitive, ReturnSuccess, ReturnValue, ShellError, Signature,
SyntaxShape, Tagged, Value,
SyntaxShape, Tagged, TaggedItem, Value,
};
#[derive(Debug, Eq, PartialEq)]
@ -10,8 +10,10 @@ enum Action {
ToInteger,
}
pub type ColumnPath = Vec<Tagged<String>>;
struct Str {
field: Option<String>,
field: Option<ColumnPath>,
params: Option<Vec<String>>,
error: Option<String>,
action: Option<Action>,
@ -43,8 +45,8 @@ impl Str {
Ok(applied)
}
fn for_field(&mut self, field: &str) {
self.field = Some(String::from(field));
fn for_field(&mut self, column_path: ColumnPath) {
self.field = Some(column_path);
}
fn permit(&mut self) -> bool {
@ -92,14 +94,15 @@ impl Str {
}
Value::Row(_) => match self.field {
Some(ref f) => {
let replacement = match value.item.get_data_by_path(value.tag(), f) {
let replacement = match value.item.get_data_by_column_path(value.tag(), f) {
Some(result) => self.strutils(result.map(|x| x.clone()))?,
None => return Ok(Tagged::from_item(Value::nothing(), value.tag)),
};
match value
.item
.replace_data_at_path(value.tag(), f, replacement.item.clone())
{
match value.item.replace_data_at_column_path(
value.tag(),
f,
replacement.item.clone(),
) {
Some(v) => return Ok(v),
None => {
return Err(ShellError::string("str could not find field to replace"))
@ -127,7 +130,7 @@ impl Plugin for Str {
.switch("downcase")
.switch("upcase")
.switch("to-int")
.rest(SyntaxShape::Member)
.rest(SyntaxShape::ColumnPath)
.filter())
}
@ -148,15 +151,21 @@ impl Plugin for Str {
match possible_field {
Tagged {
item: Value::Primitive(Primitive::String(s)),
..
tag,
} => match self.action {
Some(Action::Downcase)
| Some(Action::Upcase)
| Some(Action::ToInteger)
| None => {
self.for_field(&s);
self.for_field(vec![s.clone().tagged(tag)]);
}
},
table @ Tagged {
item: Value::Table(_),
..
} => {
self.field = Some(table.as_column_path()?.item);
}
_ => {
return Err(ShellError::string(format!(
"Unrecognized type in params: {:?}",
@ -227,8 +236,13 @@ mod tests {
}
fn with_parameter(&mut self, name: &str) -> &mut Self {
let fields: Vec<Tagged<Value>> = name
.split(".")
.map(|s| Value::string(s.to_string()).tagged(Tag::unknown_span(self.anchor)))
.collect();
self.positionals
.push(Value::string(name.to_string()).tagged(Tag::unknown()));
.push(Value::Table(fields).tagged(Tag::unknown_span(self.anchor)));
self
}
@ -303,7 +317,12 @@ mod tests {
)
.is_ok());
assert_eq!(plugin.field, Some("package.description".to_string()));
assert_eq!(
plugin
.field
.map(|f| f.into_iter().map(|f| f.item).collect()),
Some(vec!["package".to_string(), "description".to_string()])
)
}
#[test]

View File

@ -1,3 +1,4 @@
use crate::parser::hir::TokensIterator;
use crate::parser::nom_input;
use crate::parser::parse::token_tree::TokenNode;
use crate::parser::parse::tokens::RawToken;
@ -77,16 +78,12 @@ impl Highlighter for Helper {
Ok(v) => v,
};
let Pipeline { parts, post_ws } = pipeline;
let Pipeline { parts } = pipeline;
let mut iter = parts.into_iter();
loop {
match iter.next() {
None => {
if let Some(ws) = post_ws {
out.push_str(ws.slice(line));
}
return Cow::Owned(out);
}
Some(token) => {
@ -107,13 +104,12 @@ impl Highlighter for Helper {
fn paint_token_node(token_node: &TokenNode, line: &str) -> String {
let styled = match token_node {
TokenNode::Call(..) => Color::Cyan.bold().paint(token_node.tag().slice(line)),
TokenNode::Nodes(..) => Color::Green.bold().paint(token_node.tag().slice(line)),
TokenNode::Whitespace(..) => Color::White.normal().paint(token_node.tag().slice(line)),
TokenNode::Flag(..) => Color::Black.bold().paint(token_node.tag().slice(line)),
TokenNode::Member(..) => Color::Yellow.bold().paint(token_node.tag().slice(line)),
TokenNode::Path(..) => Color::Green.bold().paint(token_node.tag().slice(line)),
TokenNode::Error(..) => Color::Red.bold().paint(token_node.tag().slice(line)),
TokenNode::Delimited(..) => Color::White.paint(token_node.tag().slice(line)),
TokenNode::Operator(..) => Color::White.normal().paint(token_node.tag().slice(line)),
TokenNode::Pipeline(..) => Color::Blue.normal().paint(token_node.tag().slice(line)),
TokenNode::Token(Tagged {
item: RawToken::Number(..),
@ -147,6 +143,10 @@ fn paint_token_node(token_node: &TokenNode, line: &str) -> String {
item: RawToken::ExternalWord,
..
}) => Color::Black.bold().paint(token_node.tag().slice(line)),
TokenNode::Token(Tagged {
item: RawToken::Operator(..),
..
}) => Color::Black.bold().paint(token_node.tag().slice(line)),
};
styled.to_string()
@ -159,25 +159,19 @@ fn paint_pipeline_element(pipeline_element: &PipelineElement, line: &str) -> Str
styled.push_str(&Color::Purple.paint("|"));
}
if let Some(ws) = pipeline_element.pre_ws {
styled.push_str(&Color::White.normal().paint(ws.slice(line)));
}
let mut tokens =
TokensIterator::new(&pipeline_element.tokens, pipeline_element.tokens.tag, false);
let head = tokens.next();
styled.push_str(
&Color::Cyan
.bold()
.paint(pipeline_element.call().head().tag().slice(line))
.to_string(),
);
if let Some(children) = pipeline_element.call().children() {
for child in children {
styled.push_str(&paint_token_node(child, line));
match head {
None => return styled,
Some(head) => {
styled.push_str(&Color::Cyan.bold().paint(head.tag().slice(line)).to_string())
}
}
if let Some(ws) = pipeline_element.post_ws {
styled.push_str(&Color::White.normal().paint(ws.slice(line)));
for token in tokens {
styled.push_str(&paint_token_node(token, line));
}
styled.to_string()

View File

@ -212,7 +212,7 @@ fn open_can_parse_ini() {
fn open_can_parse_utf16_ini() {
let actual = nu!(
cwd: "tests/fixtures/formats",
"open utf16.ini | get .ShellClassInfo | get IconIndex | echo $it"
"open utf16.ini | get '.ShellClassInfo' | get IconIndex | echo $it"
);
assert_eq!(actual, "-236")

View File

@ -93,6 +93,7 @@ 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");