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ladybird/Shell/Parser.h
AnotherTest 5e5eb615ec Shell: Add runtime errors and implement break/continue 
Such errors are raised when SyntaxError nodes are executed, and are also
used for internal control flow.
The 'break' and 'continue' commands are currently only allowed inside
for loops, and outside function bodies.

This also adds a 'loop' keyword for infinite loops.
2020-12-29 16:55:43 +01:00

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8.2 KiB
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/*
* Copyright (c) 2020, the SerenityOS developers.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#pragma once
#include "AST.h"
#include <AK/Function.h>
#include <AK/RefPtr.h>
#include <AK/String.h>
#include <AK/StringBuilder.h>
#include <AK/Vector.h>
namespace Shell {
class Parser {
public:
Parser(StringView input)
: m_input(move(input))
{
}
RefPtr<AST::Node> parse();
struct SavedOffset {
size_t offset;
AST::Position::Line line;
};
SavedOffset save_offset() const;
private:
constexpr static size_t max_allowed_nested_rule_depth = 2048;
RefPtr<AST::Node> parse_toplevel();
RefPtr<AST::Node> parse_sequence();
RefPtr<AST::Node> parse_function_decl();
RefPtr<AST::Node> parse_and_logical_sequence();
RefPtr<AST::Node> parse_or_logical_sequence();
RefPtr<AST::Node> parse_variable_decls();
RefPtr<AST::Node> parse_pipe_sequence();
RefPtr<AST::Node> parse_command();
RefPtr<AST::Node> parse_control_structure();
RefPtr<AST::Node> parse_continuation_control();
RefPtr<AST::Node> parse_for_loop();
RefPtr<AST::Node> parse_loop_loop();
RefPtr<AST::Node> parse_if_expr();
RefPtr<AST::Node> parse_subshell();
RefPtr<AST::Node> parse_match_expr();
AST::MatchEntry parse_match_entry();
RefPtr<AST::Node> parse_match_pattern();
RefPtr<AST::Node> parse_redirection();
RefPtr<AST::Node> parse_list_expression();
RefPtr<AST::Node> parse_expression();
RefPtr<AST::Node> parse_string_composite();
RefPtr<AST::Node> parse_string();
RefPtr<AST::Node> parse_doublequoted_string_inner();
RefPtr<AST::Node> parse_variable();
RefPtr<AST::Node> parse_evaluate();
RefPtr<AST::Node> parse_comment();
RefPtr<AST::Node> parse_bareword();
RefPtr<AST::Node> parse_glob();
RefPtr<AST::Node> parse_brace_expansion();
RefPtr<AST::Node> parse_brace_expansion_spec();
template<typename A, typename... Args>
NonnullRefPtr<A> create(Args... args);
bool at_end() const { return m_input.length() <= m_offset; }
char peek();
char consume();
bool expect(char);
bool expect(const StringView&);
bool next_is(const StringView&);
void restore_to(size_t offset, AST::Position::Line line)
{
m_offset = offset;
m_line = move(line);
}
AST::Position::Line line() const { return m_line; }
StringView consume_while(Function<bool(char)>);
struct ScopedOffset {
ScopedOffset(Vector<size_t>& offsets, Vector<AST::Position::Line>& lines, size_t offset, size_t lineno, size_t linecol)
: offsets(offsets)
, lines(lines)
, offset(offset)
, line({ lineno, linecol })
{
offsets.append(offset);
lines.append(line);
}
~ScopedOffset()
{
auto last = offsets.take_last();
ASSERT(last == offset);
auto last_line = lines.take_last();
ASSERT(last_line == line);
}
Vector<size_t>& offsets;
Vector<AST::Position::Line>& lines;
size_t offset;
AST::Position::Line line;
};
void restore_to(const ScopedOffset& offset) { restore_to(offset.offset, offset.line); }
OwnPtr<ScopedOffset> push_start();
StringView m_input;
size_t m_offset { 0 };
AST::Position::Line m_line { 0, 0 };
Vector<size_t> m_rule_start_offsets;
Vector<AST::Position::Line> m_rule_start_lines;
bool m_is_in_brace_expansion_spec { false };
bool m_continuation_controls_allowed { false };
};
#if 0
constexpr auto the_grammar = R"(
toplevel :: sequence?
sequence :: variable_decls? or_logical_sequence terminator sequence
| variable_decls? or_logical_sequence '&' sequence
| variable_decls? or_logical_sequence
| variable_decls? function_decl (terminator sequence)?
| variable_decls? terminator sequence
function_decl :: identifier '(' (ws* identifier)* ')' ws* '{' [!c] toplevel '}'
or_logical_sequence :: and_logical_sequence '|' '|' and_logical_sequence
| and_logical_sequence
and_logical_sequence :: pipe_sequence '&' '&' and_logical_sequence
| pipe_sequence
terminator :: ';'
| '\n'
variable_decls :: identifier '=' expression (' '+ variable_decls)? ' '*
| identifier '=' '(' pipe_sequence ')' (' '+ variable_decls)? ' '*
pipe_sequence :: command '|' pipe_sequence
| command
| control_structure '|' pipe_sequence
| control_structure
control_structure[c] :: for_expr
| loop_expr
| if_expr
| subshell
| match_expr
| ?c: continuation_control
continuation_control :: 'break'
| 'continue'
for_expr :: 'for' ws+ (identifier ' '+ 'in' ws*)? expression ws+ '{' [c] toplevel '}'
loop_expr :: 'loop' ws* '{' [c] toplevel '}'
if_expr :: 'if' ws+ or_logical_sequence ws+ '{' toplevel '}' else_clause?
else_clause :: else '{' toplevel '}'
| else if_expr
subshell :: '{' toplevel '}'
match_expr :: 'match' ws+ expression ws* ('as' ws+ identifier)? '{' match_entry* '}'
match_entry :: match_pattern ws* (as identifier_list)? '{' toplevel '}'
identifier_list :: '(' (identifier ws*)* ')'
match_pattern :: expression (ws* '|' ws* expression)*
command :: redirection command
| list_expression command?
redirection :: number? '>'{1,2} ' '* string_composite
| number? '<' ' '* string_composite
| number? '>' '&' number
| number? '>' '&' '-'
list_expression :: ' '* expression (' '+ list_expression)?
expression :: evaluate expression?
| string_composite expression?
| comment expression?
| '(' list_expression ')' expression?
evaluate :: '$' '(' pipe_sequence ')'
| '$' expression {eval / dynamic resolve}
string_composite :: string string_composite?
| variable string_composite?
| bareword string_composite?
| glob string_composite?
| brace_expansion string_composite?
string :: '"' dquoted_string_inner '"'
| "'" [^']* "'"
dquoted_string_inner :: '\' . dquoted_string_inner? {concat}
| variable dquoted_string_inner? {compose}
| . dquoted_string_inner?
| '\' 'x' digit digit dquoted_string_inner?
| '\' [abefrn] dquoted_string_inner?
variable :: '$' identifier
| '$' '$'
| '$' '?'
| '$' '*'
| '$' '#'
| ...
comment :: '#' [^\n]*
bareword :: [^"'*$&#|()[\]{} ?;<>] bareword?
| '\' [^"'*$&#|()[\]{} ?;<>] bareword?
bareword_with_tilde_expansion :: '~' bareword?
glob :: [*?] bareword?
| bareword [*?]
brace_expansion :: '{' brace_expansion_spec '}'
brace_expansion_spec :: expression? (',' expression?)*
| expression '..' expression
)";
#endif
}
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