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|
# Eggshell parser
#
# Copyright (C) 2016 Patrick "P. J." McDermott
#
# This file is part of the Eggshell Compiler.
#
# The Eggshell Compiler is free software: you can redistribute it
# and/or modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation, either version 3 of
# the License, or (at your option) any later version.
#
# The Eggshell Compiler is distributed in the hope that it will be
# useful, but WITHOUT ANY WARRANTY; without even the implied warranty
# of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with the Eggshell Compiler. If not, see
# <http://www.gnu.org/licenses/>.
ptrace=false
#
# Function tracing
#
ptrace_begn()
{
local fn="${1}"
shift 1
if ${ptrace}; then
printf 'TRACE: BEGN %s()\n' "${fn}" >&2
fi
}
ptrace_pass()
{
local fn="${1}"
shift 1
if ${ptrace}; then
printf 'TRACE: PASS %s()\n' "${fn}" >&2
fi
}
ptrace_fail()
{
local fn="${1}"
shift 1
if ${ptrace}; then
printf 'TRACE: FAIL %s()\n' "${fn}" >&2
fi
}
#
# Parser
#
complete_command()
{
linebreak
if list; then
separator
return 0
fi
return 1
}
list()
{
ptrace_begn list
if and_or; then
while separator && and_or; do
:
done
ptrace_pass list
return 0
fi
ptrace_fail list
return 1
}
and_or()
{
ptrace_begn and_or
if pipeline; then
while accept T_AND_IF || accept T_OR_IF; do
if ! linebreak || ! pipeline; then
ptrace_fail and_or
return 1
fi
done
ptrace_pass and_or
return 0
fi
ptrace_fail and_or
return 1
}
pipeline()
{
ptrace_begn pipeline
accept T_BANG
if pipe_sequence; then
ptrace_pass pipeline
return 0
fi
ptrace_fail pipeline
return 1
}
pipe_sequence()
{
ptrace_begn pipe_sequence
if command; then
while accept T_PIPE; do
if ! linebreak || ! command; then
ptrace_fail pipe_sequence
return 1
fi
done
ptrace_pass pipe_sequence
return 0
fi
ptrace_fail pipe_sequence
return 1
}
command()
{
ptrace_begn command
if simple_command; then
ptrace_pass command
return 0
elif compound_command; then
redirect_list
ptrace_pass command
return 0
fi
ptrace_fail command
return 1
}
compound_command()
{
ptrace_begn compound_command
if brace_group; then
ptrace_pass compound_command
return 0
elif subshell; then
ptrace_pass compound_command
return 0
elif for_clause; then
ptrace_pass compound_command
return 0
elif case_clause; then
ptrace_pass compound_command
return 0
elif if_clause; then
ptrace_pass compound_command
return 0
elif while_clause; then
ptrace_pass compound_command
return 0
elif until_clause; then
ptrace_pass compound_command
return 0
fi
ptrace_fail compound_command
return 1
}
subshell()
{
ptrace_begn subshell
if accept T_LPAREN && compound_list && expect T_RPAREN; then
ptrace_pass subshell
return 0
fi
ptrace_fail subshell
return 1
}
compound_list()
{
ptrace_begn compound_list
newline_list
if term; then
separator
ptrace_pass compound_list
return 0
fi
ptrace_fail compound_list
return 1
}
term()
{
ptrace_begn term
if and_or; then
while separator; do
and_or
done
ptrace_pass term
return 0
fi
ptrace_fail term
return 1
}
for_clause()
{
ptrace_begn for_clause
if accept T_FOR; then
if expect T_NAME && linebreak; then
if accept T_IN; then
wordlist
if ! sequential_sep; then
ptrace_fail for_clause
return 1
fi
fi
if do_group; then
ptrace_pass for_clause
return 0
fi
fi
fi
ptrace_fail for_clause
return 1
}
wordlist()
{
ptrace_begn wordlist
if accept T_WORD; then
while accept T_WORD; do :; done
ptrace_pass wordlist
return 0
fi
ptrace_fail wordlist
return 1
}
case_clause()
{
if accept T_CASE; then
if expect T_WORD && linebreak && expect T_IN && linebreak; then
case_list || case_list_ns
expect T_ESAC
return 0
fi
fi
return 1
}
case_list_ns()
{
if case_list && case_item_ns; then
return 0
elif case_item_ns; then
return 0
fi
return 1
}
case_list()
{
if case_item; then
while case_item; do
:
done
return 0
fi
return 1
}
case_item_ns()
{
accept T_LPAREN
if pattern && expect RPAREN; then
compound_list
if linebreak; then
return 0
fi
fi
return 1
}
case_item()
{
accept T_LPAREN
if pattern && expect T_RPAREN; then
if compound_list || linebreak; then
if expect T_DSEMI && linebreak; then
return 0
fi
fi
fi
return 1
}
pattern()
{
if accept T_CMDNAME; then
while accept T_PIPE; do
expect T_WORD
done
return 0
fi
return 1
}
if_clause()
{
if accept T_IF; then
if compound_list && expect T_THEN && compound_list; then
else_part
expect T_FI
return 0
fi
fi
return 1
}
else_part()
{
while accept T_ELIF; do
if compound_list && expect T_THEN && compound_list; then
continue
fi
return 1
done
if accept T_ELSE; then
if compound_list; then
return 0
fi
fi
return 1
}
while_clause()
{
if accept T_WHILE; then
if compound_list && do_group; then
return 0
fi
fi
return 1
}
until_clause()
{
if accept T_UNTIL; then
if compound_list && do_group; then
return 0
fi
fi
return 1
}
function_body()
{
ptrace_begn function_body
if accept T_LBRACE; then
inject T_FN_START
if ! compound_list; then
ptrace_fail function_body
return 1
fi
inject T_FN_END
expect T_RBRACE
ptrace_pass function_body
return 0
fi
ptrace_fail function_body
return 1
}
brace_group()
{
ptrace_begn brace_group
if accept T_LBRACE && compound_list && expect T_RBRACE; then
ptrace_pass brace_group
return 0
fi
ptrace_fail brace_group
return 1
}
do_group()
{
ptrace_begn do_group
if accept T_DO && compound_list && expect T_DONE; then
ptrace_pass do_group
return 0
fi
ptrace_fail do_group
return 1
}
simple_command()
{
ptrace_begn simple_command
if accept T_LOCAL || accept T_RETURN; then
cmd_suffix
ptrace_pass simple_command
return 0
fi
accept T_STATIC
if cmd_prefix; then
if cmd_word; then
cmd_suffix
fi
ptrace_pass simple_command
return 0
elif accept T_FNAME; then
if accept T_LPAREN; then
expect T_RPAREN
if linebreak && function_body; then
ptrace_pass simple_command
return 0
fi
else
cmd_suffix
ptrace_pass simple_command
return 0
fi
elif cmd_name; then
cmd_suffix
ptrace_pass simple_command
return 0
fi
ptrace_fail simple_command
return 1
}
cmd_name()
{
ptrace_begn cmd_name
# TODO: Assignment
if accept T_CMDNAME; then
ptrace_pass cmd_name
return 0
fi
ptrace_fail cmd_name
return 1
}
cmd_word()
{
ptrace_begn cmd_word
# TODO: Assignment
if accept T_WORD; then
ptrace_pass cmd_word
return 0
fi
ptrace_fail cmd_word
return 1
}
cmd_prefix()
{
ptrace_begn cmd_prefix
if io_redirect || accept T_ASSIGNMENT_WORD; then
while io_redirect || accept T_ASSIGNMENT_WORD; do
:
done
ptrace_pass cmd_prefix
return 0
fi
ptrace_fail cmd_prefix
return 1
}
cmd_suffix()
{
ptrace_begn cmd_suffix
if io_redirect || accept T_WORD; then
while io_redirect || accept T_WORD; do
:
done
ptrace_pass cmd_suffix
return 0
fi
ptrace_fail cmd_suffix
return 1
}
redirect_list()
{
ptrace_begn redirect_list
if io_redirect; then
while io_redirect; do
:
done
ptrace_pass redirect_list
return 0
fi
ptrace_fail redirect_list
return 1
}
io_redirect()
{
ptrace_begn io_redirect
accept T_IO_NUMBER
if io_file || io_here; then
ptrace_pass io_redirect
return 0
fi
ptrace_fail io_redirect
return 1
}
io_file()
{
if accept T_LESS || accept T_LESSAND || accept T_GREAT || \
accept T_GREATAND || accept T_DGREAT || \
accept T_LESSGREAT || accept T_CLOBBER; then
if filename; then
return 0
fi
fi
return 1
}
filename()
{
if accept T_WORD; then
return 0
fi
return 1
}
io_here()
{
if accept T_DLESS || accept T_DLESSDASH; then
if here_end; then
return 0
fi
fi
return 1
}
here_end()
{
if accept T_WORD; then
return 0
fi
return 1
}
newline_list()
{
if accept T_NEWLINE; then
while accept T_NEWLINE; do
:
done
return 0
fi
return 1
}
linebreak()
{
newline_list
return 0
}
separator_op()
{
if accept T_AND || accept T_SEMI; then
return 0
fi
return 1
}
separator()
{
if separator_op && linebreak; then
return 0
elif newline_list; then
return 0
fi
return 1
}
sequential_sep()
{
ptrace_begn sequential_sep
if accept T_SEMI; then
if linebreak; then
ptrace_pass sequential_sep
return 0
fi
elif newline_list; then
ptrace_pass sequential_sep
return 0
fi
ptrace_fail sequential_sep
return 1
}
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