fish-shell/src/parse_constants.rs

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//! Constants used in the programmatic representation of fish code.
use crate::fallback::{fish_wcswidth, fish_wcwidth};
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use crate::wchar::prelude::*;
use bitflags::bitflags;
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pub type SourceOffset = u32;
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pub const SOURCE_OFFSET_INVALID: usize = SourceOffset::MAX as _;
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pub const SOURCE_LOCATION_UNKNOWN: usize = usize::MAX;
bitflags! {
#[derive(Copy, Clone, Default)]
pub struct ParseTreeFlags: u8 {
/// attempt to build a "parse tree" no matter what. this may result in a 'forest' of
/// disconnected trees. this is intended to be used by syntax highlighting.
const CONTINUE_AFTER_ERROR = 1 << 0;
/// include comment tokens.
const INCLUDE_COMMENTS = 1 << 1;
/// indicate that the tokenizer should accept incomplete tokens */
const ACCEPT_INCOMPLETE_TOKENS = 1 << 2;
/// indicate that the parser should not generate the terminate token, allowing an 'unfinished'
/// tree where some nodes may have no productions.
const LEAVE_UNTERMINATED = 1 << 3;
/// indicate that the parser should generate job_list entries for blank lines.
const SHOW_BLANK_LINES = 1 << 4;
/// indicate that extra semis should be generated.
const SHOW_EXTRA_SEMIS = 1 << 5;
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}
}
bitflags! {
#[derive(Copy, Clone, Debug, Default, Eq, PartialEq)]
pub struct ParserTestErrorBits: u8 {
const ERROR = 1;
const INCOMPLETE = 2;
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}
}
/// A range of source code.
#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub struct SourceRange {
pub start: u32,
pub length: u32,
}
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#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum ParseTokenType {
invalid = 1,
// Terminal types.
string,
pipe,
redirection,
background,
andand,
oror,
end,
// Special terminal type that means no more tokens forthcoming.
terminate,
// Very special terminal types that don't appear in the production list.
error,
tokenizer_error,
comment,
}
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#[repr(u8)]
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum ParseKeyword {
// 'none' is not a keyword, it is a sentinel indicating nothing.
none,
kw_and,
kw_begin,
kw_builtin,
kw_case,
kw_command,
kw_else,
kw_end,
kw_exclam,
kw_exec,
kw_for,
kw_function,
kw_if,
kw_in,
kw_not,
kw_or,
kw_switch,
kw_time,
kw_while,
}
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// Statement decorations like 'command' or 'exec'.
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum StatementDecoration {
none,
command,
builtin,
exec,
}
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// Parse error code list.
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum ParseErrorCode {
none,
// Matching values from enum parser_error.
syntax,
cmdsubst,
generic, // unclassified error types
// Tokenizer errors.
tokenizer_unterminated_quote,
tokenizer_unterminated_subshell,
tokenizer_unterminated_slice,
tokenizer_unterminated_escape,
tokenizer_other,
unbalancing_end, // end outside of block
unbalancing_else, // else outside of if
unbalancing_case, // case outside of switch
bare_variable_assignment, // a=b without command
andor_in_pipeline, // "and" or "or" after a pipe
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}
// The location of a pipeline.
#[derive(Clone, Copy, Eq, PartialEq)]
pub enum PipelinePosition {
none, // not part of a pipeline
first, // first command in a pipeline
subsequent, // second or further command in a pipeline
}
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impl SourceRange {
pub fn new(start: usize, length: usize) -> Self {
SourceRange {
start: start.try_into().unwrap(),
length: length.try_into().unwrap(),
}
}
pub fn start(&self) -> usize {
self.start.try_into().unwrap()
}
pub fn length(&self) -> usize {
self.length.try_into().unwrap()
}
pub fn end(&self) -> usize {
self.start
.checked_add(self.length)
.expect("Overflow")
.try_into()
.unwrap()
}
pub fn combine(&self, other: Self) -> Self {
let start = std::cmp::min(self.start, other.start);
SourceRange {
start,
length: std::cmp::max(self.end(), other.end())
.checked_sub(start.try_into().unwrap())
.expect("Overflow")
.try_into()
.unwrap(),
}
}
// Return true if a location is in this range, including one-past-the-end.
pub fn contains_inclusive(&self, loc: usize) -> bool {
self.start() <= loc && loc - self.start() <= self.length()
}
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}
impl From<SourceRange> for std::ops::Range<usize> {
fn from(value: SourceRange) -> Self {
value.start()..value.end()
}
}
impl Default for ParseTokenType {
fn default() -> Self {
ParseTokenType::invalid
}
}
impl ParseTokenType {
/// Return a string describing the token type.
pub fn to_wstr(self) -> &'static wstr {
match self {
ParseTokenType::comment => L!("ParseTokenType::comment"),
ParseTokenType::error => L!("ParseTokenType::error"),
ParseTokenType::tokenizer_error => L!("ParseTokenType::tokenizer_error"),
ParseTokenType::background => L!("ParseTokenType::background"),
ParseTokenType::end => L!("ParseTokenType::end"),
ParseTokenType::pipe => L!("ParseTokenType::pipe"),
ParseTokenType::redirection => L!("ParseTokenType::redirection"),
ParseTokenType::string => L!("ParseTokenType::string"),
ParseTokenType::andand => L!("ParseTokenType::andand"),
ParseTokenType::oror => L!("ParseTokenType::oror"),
ParseTokenType::terminate => L!("ParseTokenType::terminate"),
ParseTokenType::invalid => L!("ParseTokenType::invalid"),
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}
}
}
impl Default for ParseKeyword {
fn default() -> Self {
ParseKeyword::none
}
}
impl ParseKeyword {
/// Return the keyword as a string.
pub fn to_wstr(self) -> &'static wstr {
match self {
ParseKeyword::kw_exclam => L!("!"),
ParseKeyword::kw_and => L!("and"),
ParseKeyword::kw_begin => L!("begin"),
ParseKeyword::kw_builtin => L!("builtin"),
ParseKeyword::kw_case => L!("case"),
ParseKeyword::kw_command => L!("command"),
ParseKeyword::kw_else => L!("else"),
ParseKeyword::kw_end => L!("end"),
ParseKeyword::kw_exec => L!("exec"),
ParseKeyword::kw_for => L!("for"),
ParseKeyword::kw_function => L!("function"),
ParseKeyword::kw_if => L!("if"),
ParseKeyword::kw_in => L!("in"),
ParseKeyword::kw_not => L!("not"),
ParseKeyword::kw_or => L!("or"),
ParseKeyword::kw_switch => L!("switch"),
ParseKeyword::kw_time => L!("time"),
ParseKeyword::kw_while => L!("while"),
_ => L!("unknown_keyword"),
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}
}
}
impl fish_printf::ToArg<'static> for ParseKeyword {
fn to_arg(self) -> fish_printf::Arg<'static> {
fish_printf::Arg::WStr(self.to_wstr())
}
}
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impl From<&wstr> for ParseKeyword {
fn from(s: &wstr) -> Self {
match s {
_ if s == "!" => ParseKeyword::kw_exclam,
_ if s == "and" => ParseKeyword::kw_and,
_ if s == "begin" => ParseKeyword::kw_begin,
_ if s == "builtin" => ParseKeyword::kw_builtin,
_ if s == "case" => ParseKeyword::kw_case,
_ if s == "command" => ParseKeyword::kw_command,
_ if s == "else" => ParseKeyword::kw_else,
_ if s == "end" => ParseKeyword::kw_end,
_ if s == "exec" => ParseKeyword::kw_exec,
_ if s == "for" => ParseKeyword::kw_for,
_ if s == "function" => ParseKeyword::kw_function,
_ if s == "if" => ParseKeyword::kw_if,
_ if s == "in" => ParseKeyword::kw_in,
_ if s == "not" => ParseKeyword::kw_not,
_ if s == "or" => ParseKeyword::kw_or,
_ if s == "switch" => ParseKeyword::kw_switch,
_ if s == "time" => ParseKeyword::kw_time,
_ if s == "while" => ParseKeyword::kw_while,
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_ => ParseKeyword::none,
}
}
}
impl Default for ParseErrorCode {
fn default() -> Self {
ParseErrorCode::none
}
}
#[derive(Clone, Debug, Default, Eq, PartialEq)]
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pub struct ParseError {
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/// Text of the error.
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pub text: WString,
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/// Code for the error.
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pub code: ParseErrorCode,
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/// Offset and length of the token in the source code that triggered this error.
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pub source_start: usize,
pub source_length: usize,
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}
impl ParseError {
/// Return a string describing the error, suitable for presentation to the user. If
/// is_interactive is true, the offending line with a caret is printed as well.
pub fn describe(self: &ParseError, src: &wstr, is_interactive: bool) -> WString {
self.describe_with_prefix(src, L!(""), is_interactive, false)
}
/// Return a string describing the error, suitable for presentation to the user, with the given
/// prefix. If skip_caret is false, the offending line with a caret is printed as well.
pub fn describe_with_prefix(
self: &ParseError,
src: &wstr,
prefix: &wstr,
is_interactive: bool,
skip_caret: bool,
) -> WString {
let mut result = prefix.to_owned();
if skip_caret && self.text.is_empty() {
return L!("").to_owned();
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}
result += wstr::from_char_slice(self.text.as_char_slice());
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let mut start = self.source_start;
let mut len = self.source_length;
if start >= src.len() {
// If we are past the source, we clamp it to the end.
start = src.len() - 1;
len = 0;
}
if start + len > src.len() {
len = src.len() - self.source_start;
}
if skip_caret {
return result;
}
// Locate the beginning of this line of source.
let mut line_start = 0;
// Look for a newline prior to source_start. If we don't find one, start at the beginning of
// the string; otherwise start one past the newline. Note that source_start may itself point
// at a newline; we want to find the newline before it.
if start > 0 {
let prefix = &src.as_char_slice()[..start];
let newline_left_of_start = prefix.iter().rev().position(|c| *c == '\n');
if let Some(left_of_start) = newline_left_of_start {
line_start = start - left_of_start;
}
}
// Look for the newline after the source range. If the source range itself includes a
// newline, that's the one we want, so start just before the end of the range.
let last_char_in_range = if len == 0 { start } else { start + len - 1 };
let line_end = src.as_char_slice()[last_char_in_range..]
.iter()
.position(|c| *c == '\n')
.map(|pos| pos + last_char_in_range)
.unwrap_or(src.len());
assert!(line_end >= line_start);
assert!(start >= line_start);
// Don't include the caret and line if we're interactive and this is the first line, because
// then it's obvious.
let interactive_skip_caret = is_interactive && start == 0;
if interactive_skip_caret {
return result;
}
// Append the line of text.
if !result.is_empty() {
result += "\n";
}
result += wstr::from_char_slice(&src.as_char_slice()[line_start..line_end]);
// Append the caret line. The input source may include tabs; for that reason we
// construct a "caret line" that has tabs in corresponding positions.
let mut caret_space_line = WString::new();
caret_space_line.reserve(start - line_start);
for i in line_start..start {
let wc = src.as_char_slice()[i];
if wc == '\t' {
caret_space_line += "\t";
} else if wc == '\n' {
// It's possible that the start points at a newline itself. In that case,
// pretend it's a space. We only expect this to be at the end of the string.
caret_space_line += " ";
} else {
let width = fish_wcwidth(wc);
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if width > 0 {
caret_space_line += " ".repeat(width as usize).as_str();
}
}
}
result += "\n";
result += wstr::from_char_slice(caret_space_line.as_char_slice());
result += "^";
if len > 1 {
// Add a squiggle under the error location.
// We do it like this
// ^~~^
// With a "^" under the start and end, and squiggles in-between.
let width = fish_wcswidth(&src[start..start + len]);
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if width >= 2 {
// Subtract one for each of the carets - this is important in case
// the starting char has a width of > 1.
result += "~".repeat(width as usize - 2).as_str();
result += "^";
}
}
result
}
}
pub fn token_type_user_presentable_description(
type_: ParseTokenType,
keyword: ParseKeyword,
) -> WString {
if keyword != ParseKeyword::none {
return sprintf!("keyword: '%ls'", keyword.to_wstr());
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}
match type_ {
ParseTokenType::string => L!("a string").to_owned(),
ParseTokenType::pipe => L!("a pipe").to_owned(),
ParseTokenType::redirection => L!("a redirection").to_owned(),
ParseTokenType::background => L!("a '&'").to_owned(),
ParseTokenType::andand => L!("'&&'").to_owned(),
ParseTokenType::oror => L!("'||'").to_owned(),
ParseTokenType::end => L!("end of the statement").to_owned(),
ParseTokenType::terminate => L!("end of the input").to_owned(),
ParseTokenType::error => L!("a parse error").to_owned(),
ParseTokenType::tokenizer_error => L!("an incomplete token").to_owned(),
ParseTokenType::comment => L!("a comment").to_owned(),
_ => sprintf!("a %ls", type_.to_wstr()),
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}
}
pub type ParseErrorList = Vec<ParseError>;
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/// Helper function to offset error positions by the given amount. This is used when determining
/// errors in a substring of a larger source buffer.
pub fn parse_error_offset_source_start(errors: &mut ParseErrorList, amt: usize) {
if amt > 0 {
for ref mut error in errors.iter_mut() {
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// Preserve the special meaning of -1 as 'unknown'.
if error.source_start != SOURCE_LOCATION_UNKNOWN {
error.source_start += amt;
}
}
}
}
/// Maximum number of function calls.
pub const FISH_MAX_STACK_DEPTH: usize = 128;
/// Maximum number of nested string substitutions (in lieu of evals)
/// Reduced under TSAN: our CI test creates 500 jobs and this is very slow with TSAN.
#[cfg(feature = "tsan")]
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pub const FISH_MAX_EVAL_DEPTH: usize = 250;
#[cfg(not(feature = "tsan"))]
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pub const FISH_MAX_EVAL_DEPTH: usize = 500;
/// Error message on a function that calls itself immediately.
pub const INFINITE_FUNC_RECURSION_ERR_MSG: &str =
"The function '%ls' calls itself immediately, which would result in an infinite loop.";
/// Error message on reaching maximum call stack depth.
pub const CALL_STACK_LIMIT_EXCEEDED_ERR_MSG: &str =
"The call stack limit has been exceeded. Do you have an accidental infinite loop?";
/// Error message when encountering an unknown builtin name.
pub const UNKNOWN_BUILTIN_ERR_MSG: &str = "Unknown builtin '%ls'";
/// Error message when encountering a failed expansion, e.g. for the variable name in for loops.
pub const FAILED_EXPANSION_VARIABLE_NAME_ERR_MSG: &str = "Unable to expand variable name '%ls'";
/// Error message when encountering an illegal file descriptor.
pub const ILLEGAL_FD_ERR_MSG: &str = "Illegal file descriptor in redirection '%ls'";
/// Error message for wildcards with no matches.
pub const WILDCARD_ERR_MSG: &str = "No matches for wildcard '%ls'. See `help wildcards-globbing`.";
/// Error when using break outside of loop.
pub const INVALID_BREAK_ERR_MSG: &str = "'break' while not inside of loop";
/// Error when using continue outside of loop.
pub const INVALID_CONTINUE_ERR_MSG: &str = "'continue' while not inside of loop";
/// Error message when a command may not be in a pipeline.
pub const INVALID_PIPELINE_CMD_ERR_MSG: &str = "The '%ls' command can not be used in a pipeline";
// Error messages. The number is a reminder of how many format specifiers are contained.
/// Error for $^.
pub const ERROR_BAD_VAR_CHAR1: &str = "$%lc is not a valid variable in fish.";
/// Error for ${a}.
pub const ERROR_BRACKETED_VARIABLE1: &str =
"Variables cannot be bracketed. In fish, please use {$%ls}.";
/// Error for "${a}".
pub const ERROR_BRACKETED_VARIABLE_QUOTED1: &str =
"Variables cannot be bracketed. In fish, please use \"$%ls\".";
/// Error issued on $?.
pub const ERROR_NOT_STATUS: &str = "$? is not the exit status. In fish, please use $status.";
/// Error issued on $$.
pub const ERROR_NOT_PID: &str = "$$ is not the pid. In fish, please use $fish_pid.";
/// Error issued on $#.
pub const ERROR_NOT_ARGV_COUNT: &str = "$# is not supported. In fish, please use 'count $argv'.";
/// Error issued on $@.
pub const ERROR_NOT_ARGV_AT: &str = "$@ is not supported. In fish, please use $argv.";
/// Error issued on $*.
pub const ERROR_NOT_ARGV_STAR: &str = "$* is not supported. In fish, please use $argv.";
/// Error issued on $.
pub const ERROR_NO_VAR_NAME: &str = "Expected a variable name after this $.";
/// Error message for Posix-style assignment: foo=bar.
pub const ERROR_BAD_COMMAND_ASSIGN_ERR_MSG: &str =
"Unsupported use of '='. In fish, please use 'set %ls %ls'.";
/// Error message for a command like `time foo &`.
pub const ERROR_TIME_BACKGROUND: &str =
"'time' is not supported for background jobs. Consider using 'command time'.";
/// Error issued on { echo; echo }.
pub const ERROR_NO_BRACE_GROUPING: &str =
"'{ ... }' is not supported for grouping commands. Please use 'begin; ...; end'";