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|
rl ident
/( alpha | '_' ) ( alpha | digit | '_' )*/
rl number
/ digit+ /
rl hex_number
/ '0x' [0-9a-fA-F]+ /
rl NL / '\n' /
rl c_comment
/ '/*' ( any | NL )* :>> '*/' /
rl cpp_comment
/ '//' [^\n]* NL /
rl s_literal
/ "'" ([^'\\] | NL | '\\' (any | NL))* "'" /
rl d_literal
/ '"' ([^"\\] | NL | '\\' (any | NL))* '"' /
namespace srlex
lex
ignore /[\t\n ]+/
literal `:: `; `)
token word /[a-zA-Z_][a-zA-Z0-9_]*/
end
end
namespace c_inline
lex
literal `fpc `fc `fcurs `ftargs
`fentry `fhold `fexec `fgoto `fnext
`fcall `fret `fbreak
token ident /ident/
token number /digit+/
token hex_number /'0x' [0-9a-fA-F]+/
token comment
/ c_comment | cpp_comment /
token string
/ s_literal | d_literal /
token whitespace
/ ( [ \t] | NL )+ /
literal `{ `} `:: `* `, `( `) `;
token c_any / any /
end
def inline_expr
[expr_item*]
def expr_item
[expr_any] :ExprAny
| [expr_symbol] :ExprSymbol
| [expr_interpret] :ExprInterpret
def expr_any
[whitespace]
| [comment]
| [string]
| [number]
| [hex_number]
| [ident]
| [c_any]
def expr_symbol
[`,] | [`(] | [`)] | [`*] | [`::]
def expr_interpret
[`fpc] :Fpc
| [`fc] :Fc
| [`fcurs] :Fcurs
| [`ftargs] :Ftargs
| [`fentry `( state_ref srlex::`)] :Fentry
def state_ref
[opt_name_sep state_ref_names]
def opt_name_sep
[srlex::`::] :ColonColon
| [] :Empty
# List of names separated by ::
def state_ref_names
[state_ref_names srlex::`:: srlex::word] :Rec
| [srlex::word] :Base
def inline_block
[block_item*]
def block_item
[expr_any] :ExprAny
| [block_symbol] :BlockSymbol
| [block_interpret] :BlockInterpret
| [`{ inline_block `}] :RecBlock
def block_symbol
[`,] | [`;] | [`(] | [`)] | [`*] | [`::]
def block_interpret
[expr_interpret] :ExprInterpret
| [`fhold whitespace? `;] :Fhold
| [`fgoto whitespace? `* inline_expr `;] :FgotoExpr
| [`fnext whitespace? `* inline_expr `;] :FnextExpr
| [`fcall whitespace? `* inline_expr `;] :FcallExpr
| [`fexec inline_expr `;] :Fexec
| [`fgoto state_ref srlex::`;] :FgotoSr
| [`fnext state_ref srlex::`;] :FnextSr
| [`fcall state_ref srlex::`;] :FcallSr
| [`fret `;] :Fret
| [`fbreak `;] :Fbreak
end
namespace ragel
lex
ignore /[\t\n ]+/
ignore /'#' any* :> '\n'/
literal `^ `| `- `, `: `! `? `.
literal `( `) `{ `} `* `& `+
literal `-- `:> `:>> `<: `-> `**
literal `|* `*| `=>
literal `@ `> `< `% `$
literal `from `to `eof `lerr `err
literal `when `inwhen `outwhen `>? `$? `%?
literal `:= `= `; `.. `::
literal `>~ `$~ `%~ `<~ `@~ `<>~
literal `>* `$* `%* `<* `@* `<>*
literal `>/ `$/ `%/ `</ `@/ `<>/
literal `>! `$! `%! `<! `@! `<>!
literal `>^ `$^ `%^ `<^ `@^ `<>^
literal `<>
literal `machine `action `variable `alphtype `import
`access `write `getkey `export `include
`prepush `postpop
token string /
'"' ( [^"\\] | '\\' any )* '"' 'i'? |
"'" ( [^'\\] | '\\' any )* "'" 'i'?
/
token lex_regex_open /'/'/ -ni
token lex_sqopen_pos /'['/ -ni
token lex_sqopen_neg /'[^'/ -ni
token word /[a-zA-Z_][a-zA-Z0-9_]*/
token uint / number /
token hex / hex_number /
end
lex
token re_dot / '.' /
token re_star / '*' /
token re_char / ^( '\\' | '.' | '*' | '[' | '/' ) | '\\' . any /
token re_close / '/' /
token re_sqopen_pos /'['/
token re_sqopen_neg /'[^'/
end
lex
token re_or_dash / '-' /
token re_or_char / ^( '\\' | '-' | ']' ) | '\\' . any /
token re_or_sqclose / ']' /
end
# Not cannot start with '{', terminated by ';', rewritten into { inline_expr }
token _inline_expr_reparse
/[^{;] [^;]* ';'/ {
R: str = input->pull( match_length - 1 )
input->pull( 1 )
input->push( "}" )
input->push( R )
input->push( "{" )
}
token variable_name /ident/
def inline_expr_reparse
[_inline_expr_reparse]
| [action_expr]
def join
[join `, expression] :Rec
| [expression] :Base
def expression
[term expression_op*]
def expression_op
[`| term] :Or
| [`& term] :And
| [`- term] :Sub
| [`-- term] :Ssub
def term
[factor_label term_op_list_short]
# This list is done manually to get shortest match.
def term_op_list_short
[] :Empty
| [term_op term_op_list_short] :Terms
def term_op
[factor_label] :None
| [`. factor_label] :Dot
| [`:> factor_label] :ColonLt
| [`:>> factor_label] :ColonLtLt
| [`<: factor_label] :GtColon
def factor_label
[word `: factor_label] :Label
| [factor_ep] :Ep
def factor_ep
[factor_aug `-> epsilon_target] :Epsilon
| [factor_aug] :Base
def epsilon_target
[epsilon_target `:: word] :Rec
| [word] :Base
def action_expr
[`{ c_inline::inline_expr `}]
def action_block
[`{ c_inline::inline_block `}]
def action_ref
[word] :Word
| [`( word `)] :ParenWord
| [action_block] :Block
def priority_aug
[uint]
| [`+ uint]
| [`- uint]
def aug_base
[`@] :Finish | [`>] :Enter | [`%] :Leave | [`$] :All
def aug_cond
[`>?] :Start1 | [`$?] :All1 | [`%?] :Leave1
| [`> `when] :Start2 | [`$ `when] :All2 | [`% `when] :Leave2
| [`inwhen] :Start3 | [`when] :All3 | [`outwhen] :Leave3
def aug_to_state
[`>~] :Start1 | [`<~] :NotStart1 | [`$~] :All1
| [`%~] :Final1 | [`@~] :NotFinal1 | [`<>~] :Middle1
| [`> `to] :Start2 | [`< `to] :NotStart2 | [`$ `to] :All2
| [`% `to] :Final2 | [`@ `to] :NotFinal2 | [`<> `to] :Middle2
def aug_from_state
[`>*] :Start1 | [`<*] :NotStart1 | [`$*] :All1
| [`%*] :Final1 | [`@*] :NotFinal1 | [`<>*] :Middle1
| [`> `from] :Start2 | [`< `from] :NotStart2 | [`$ `from] :All2
| [`% `from] :Final2 | [`@ `from] :NotFinal2 | [`<> `from] :Middle2
def aug_eof
[`>/] :Start1 | [`</] :NotStart1 | [`$/] :All1
| [`%/] :Final1 | [`@/] :NotFinal1 | [`<>/] :Middle1
| [`> `eof] :Start2 | [`< `eof] :NotStart2 | [`$ `eof] :All2
| [`% `eof] :Final2 | [`@ `eof] :NotFinal2 | [`<> `eof] :Middle2
def aug_gbl_error
[`>!] :Start1 | [`<!] :NotStart1 | [`$!] :All1
| [`%!] :Final1 | [`@!] :NotFinal1 | [`<>!] :Middle1
| [`> `err] :Start2 | [`< `err] :NotStart2 | [`$ `err] :All2
| [`% `err] :Final2 | [`@ `err] :NotFinal2 | [`<> `err] :Middle2
def aug_local_error
[`>^] :Start1 | [`<^] :NotStart1 | [`$^] :All1
| [`%^] :Final1 | [`@^] :NotFinal1 | [`<>^] :Middle1
| [`> `lerr] :Start2 | [`< `lerr] :NotStart2 | [`$ `lerr] :All2
| [`% `lerr] :Final2 | [`@ `lerr] :NotFinal2 | [`<> `lerr] :Middle2
def factor_aug
[factor_aug aug_base action_ref] :ActionRef
| [factor_aug aug_base priority_aug] :PriorEmbed
| [factor_aug aug_base `( word `, priority_aug `)] :NamedPriorEmbed
| [factor_aug aug_cond action_ref] :CondEmbed
| [factor_aug aug_cond `! action_ref] :NegCondEmbed
| [factor_aug aug_to_state action_ref] :ToStateAction
| [factor_aug aug_from_state action_ref] :FromStateAction
| [factor_aug aug_eof action_ref] :EofAction
| [factor_aug aug_gbl_error action_ref] :GblErrorAction
| [factor_aug aug_local_error action_ref] :LocalErrorDef
| [factor_aug aug_local_error `( word `, action_ref `)] :LocalErrorName
| [factor_rep] :Base
def factor_rep
[factor_neg factor_rep_op*]
def factor_rep_op
[`*] :Star
| [`**] :StarStar
| [`?] :Optional
| [`+] :Plus
| [`{ factor_rep_num `}] :ExactRep
| [`{ `, factor_rep_num `}] :MaxRep
| [`{ factor_rep_num `, `}] :MinRep
| [`{ LowRep: factor_rep_num `, HighRep: factor_rep_num `}] :RangeRep
def factor_rep_num
[uint]
def factor_neg
[`! factor_neg] :Bang
| [`^ factor_neg] :Caret
| [factor] :Base
def factor
[alphabet_num] :AlphabetNum
| [word] :Word
| [string] :String
| [lex_sqopen_pos reg_or_data re_or_sqclose] :PosOrBlock
| [lex_sqopen_neg reg_or_data re_or_sqclose] :NegOrBlock
| [lex_regex_open regex re_close] :Regex
| [RL1: range_lit `.. RL2: range_lit] :Range
| [`( join `)] :Join
def regex
[reg_item_rep*]
def reg_item_rep
[reg_item re_star] :Star
| [reg_item] :Base
def reg_item
[re_sqopen_pos reg_or_data re_or_sqclose] :PosOrBlock
| [re_sqopen_neg reg_or_data re_or_sqclose] :NegOrBlock
| [re_dot] :Dot
| [re_char] :Char
def reg_or_data
[reg_or_data reg_or_char] :Data
| [] :Base
def reg_or_char
[re_or_char] :Char
| [Low: re_or_char re_or_dash High: re_or_char] :Range
def range_lit
[string] :String
| [alphabet_num] :AN
def alphabet_num
[uint]
| [`- uint]
| [hex]
def lm_act
[`=> action_ref] :ActionRef
| [action_block] :ActionBlock
def opt_lm_act
[lm_act]
| []
def lm_stmt
[join opt_lm_act `;] :LmStmt commit
| [assignment] :Assignment
| [action_spec] :ActionSpec
def lm_stmt_list
[lm_stmt_list lm_stmt] :Rec
| [lm_stmt] :Base
def lm
[join] :Join
| [`|* lm_stmt_list `*|] :Lm
def action_spec
[`action word action_block] commit
def assignment
[opt_export word `= join `;] commit
def instantiation
[opt_export word `:= lm `;] commit
def alphtype_type
[W1: word] :One
| [W1: word W2: word] :Two
def include_spec
[word]
| [string]
| [word string]
def opt_export
[`export] :Export
| [] :Base
def machine_name
[`machine word `;]
def statement
[machine_name] :MachineName commit
| [assignment] :Assignment
| [instantiation] :Instantiation
| [action_spec] :ActionSpec
| [`prepush action_block] :PrePushSpec commit
| [`postpop action_block] :PostPopSpec commit
| [`variable variable_name inline_expr_reparse] :Variable commit
| [`alphtype alphtype_type `;] :AlphType commit
| [`access inline_expr_reparse] :Access commit
| [`write Cmd: word ArgList: word* `;] :Write commit
| [`getkey inline_expr_reparse] :GetKey commit
| [`import string `;] :Import commit
| [`include include_spec `;] :Include commit
def ragel_start
[statement*]
end
namespace c_host
lex
literal `%%{, `}%%
token slr /'%%' [^{] [^\n]* '\n'/
{
input->pull( 2 )
R: str = input->pull( match_length - 3 )
input->push( "}%%" )
input->push( R )
input->push( "%%{" )
}
rl NL / '\n' /
rl ruby_comment / '#' [^\n]* NL /
rl s_literal
/ "'" ([^'\\] | NL | '\\' (any | NL))* "'" /
rl d_literal
/ '"' ([^"\\] | NL | '\\' (any | NL))* '"' /
rl host_re_literal
/ '/' ([^/\\] | NL | '\\' (any | NL))* '/' /
token ident /ident/
token number /digit+/
token hex_number /'0x' [0-9a-fA-F]+/
token comment
/c_comment | cpp_comment/
token string
/ s_literal | d_literal /
token whitespace
/ ( [ \t] | NL )+ /
token c_any / any /
end
def tok
[ident]
| [number]
| [hex_number]
| [comment]
| [string]
| [whitespace]
| [c_any]
def section
[`%%{ ragel::ragel_start `}%%] :MultiLine
| [tok] :Tok
end
lex
literal `%%{ `}%%
literal `int `bool `const `char `ptr `printi
`printb `prints `print_token
`fwrite `first_token_char `var `byte
literal `; `< `> `( `) `[ `] `= `* `!
ignore / ( [ \t] | NL )+ /
token tk_ident /ident/
token tk_number /digit+/
token tk_hex_number /'0x' [0-9a-fA-F]+/
rl INPUT /'_'+ 'INPUT' '_'+/
rl OUTPUT /'_'+ 'OUTPUT' '_'+/
token ifdef_INPUT
/ '#ifdef' ' '* INPUT /
token ifdef_OUTPUT
/ '#ifdef' ' '* OUTPUT ' '* '\n' / -ni
token endif
/ '#endif' /
token tk_cpp_comment
/ cpp_comment /
token c_comm_open
/ '/*' /
token string
/ s_literal | d_literal /
token indep_any / any /
end
lex
token output_endif / '#endif\n' /
token output_line /[^\n]* '\n'/
end
lex
token comm_val /'@' [A-Za-z0-9_]+ ': ' [^\n]+ '\n' /
token comm_term /'*/'/
token comm_any / any /
end
def comm_item
[comm_val]
| [comm_any]
def c_comment
[c_comm_open comm_item* comm_term]
def input_string
[string]
def input_list
[input_list input_string]
| [input_string]
def input
[ifdef_INPUT input_list endif]
def output
[ifdef_OUTPUT output_line* output_endif]
def tok
[tk_ident]
| [tk_ident `[ tok `]]
| [tk_number]
| [tk_hex_number]
| [input]
| [output]
| [tk_cpp_comment]
| [c_comment]
| [string]
| [`< type `> `( tok* `)]
| [`( type `) `( tok* `)]
| [`( tok* `)]
| [`printi tok `;]
| [`printb tok `;]
| [`prints tok `;]
| [`print_token `;]
| [`first_token_char]
| [`;]
| [`<]
| [`>]
| [`[]
| [`]]
| [`=]
| [`!]
| [`*]
| [indep_any]
def section_multiline
[`%%{ ragel::ragel_start `}%%]
def type
[`int]
| [`bool]
| [`char]
| [`char `*]
| [`const `( `char `) `*]
| [`ptr]
| [`byte]
def opt_arr
[`[ tok `]]
| []
def var_decl
[type tk_ident opt_arr `;]
| [`var tk_ident opt_arr type]
def expr_stmt
[tk_ident `= tok* `;]
def stmt
[var_decl]
| [expr_stmt]
def section
[section_multiline]
| [stmt]
| [tok]
def start
[section*]
namespace c
lex
literal `%%{, `}%%
literal `int `bool `const `char `ptr
`printf `fwrite `var `byte
literal `; `< `> `( `) `[ `] `= `* `!
ignore / ( [ \t] | NL )+ /
token tk_ident /ident/
token tk_number /digit+/
token tk_hex_number /'0x' [0-9a-fA-F]+/
token string
/ s_literal | d_literal /
token indep_any / any /
end
def tok
[tk_ident]
| [tk_ident `[ tok `]]
| [tk_number]
| [tk_hex_number]
| [string]
| [`< type `> `( tok* `)]
| [`( type `) `( tok* `)]
| [`( tok* `)]
| [`printf `( tok* `) `;]
| [`fwrite `( tok* `) `;]
| [`;]
| [`<]
| [`>]
| [`[]
| [`]]
| [`=]
| [`!]
| [`*]
| [indep_any]
end
OutputFile: str = '/dev/stdout'
InputFile: str = '/dev/stdin'
Lang: str = 'c'
Input: stream = open( InputFile, "r" )
Output: stream = open( OutputFile, "w" )
RagelTree: start = parse start[ Input ]
if ( !RagelTree ) {
print( error, '\n' )
exit(1)
}
# Find the machine name.
MachineName: ragel::machine_name = ragel::machine_name in RagelTree
# Do we need EOF?
NeedsEof: bool = false
for CommVal: comm_val in RagelTree {
if $CommVal ==
'@NEEDS_EOF: yes\n'
{
NeedsEof = true
}
}
send Output
"/*
" * @LANG: [Lang]
" * @GENERATED: yes
" */
"
"#include <string.h>
"#include <stdio.h>
"
iter i()
{
S: str = "1"
yield S
}
int indepToHost( Indep: ref<section*> )
{
for Decl: var_decl in Indep {
if match Decl
"bool [Ident: tk_ident OptArr: opt_arr];
{
Decl = cons var_decl
"int [Ident OptArr];
}
elsif match Decl
"ptr [Ident: tk_ident];
{
Decl = cons var_decl
"char* [Ident];
}
}
for Tok: any in i() {
exit(9)
}
}
for Section: section in RagelTree {
if match Section [Decl: var_decl] {
cons SectionList: section* [Decl]
indepToHost( SectionList )
send Output [SectionList]
}
}
for Section: section in RagelTree {
if match Section [section_multiline] {
for Action: ragel::action_block in Section {
# Reparse as lang-independent code.
parse SectionList: section*[$Action]
# Translate to specific language.
indepToHost( SectionList )
# Reparse back to ragel action block.
Action = parse ragel::action_block[$SectionList]
}
send Output ["\n" Section "\n"]
}
}
send Output
"%% write data;
"int cs;
"
"void init()
"{
for Section: section in RagelTree {
if match Section [ExprStmt: expr_stmt] {
cons SectionList: section* [ExprStmt]
indepToHost( SectionList )
send Output [SectionList]
}
}
send Output
" %% write init;
"}
"
"void exec( char *data, int len )
"{
" char *p = data;
" char *pe = data + len;
if NeedsEof {
send Output
" char *eof = pe;
}
send Output
" %% write exec;
"}
"
"void finish( )
"{
" if ( cs >= [$MachineName.word]_first_final )
" printf( \"ACCEPT\\n\" );
" else
" printf( \"FAIL\\n\" );
"}
"
send Output
"char *inp\[\] = {
NR: int = 0
for InputString: input_string in RagelTree {
send Output
[^InputString ",\n"]
NR = NR + 1
}
send Output
"};
"
send Output
"int inplen = [NR];
"
send Output
"int main( )
"{
" int i;
" for ( i = 0; i < inplen; i++ ) {
" init();
" exec( inp\[i\], strlen(inp\[i\]) );
" finish();
" }
" return 0;
"}
"
send Output "/* _____OUTPUT_____
for OutputLine: output_line in RagelTree {
send Output [OutputLine]
exit(1)
}
send Output "*/
# iter i()
#{
#}
for I: any in i() {
Int: int = 1
}
for I: any in rev_child( RagelTree ) {
Int: int = 1
}
#### IN ####
/*
* @LANG: indep
*/
bool neg;
int val;
val = 0;
neg = false;
%%{
machine AtoI;
action begin {
neg = false;
val = 0;
}
action see_neg {
neg = true;
}
action add_digit {
val = val * 10 + <int>(fc - 48);
}
action finish {
if ( neg != 0 ) {
val = -1 * val;
}
}
action print {
printi val;
prints "\n";
}
atoi = (
('-'@see_neg | '+')? (digit @add_digit)+
) >begin %finish;
main := atoi '\n' @print;
}%%
#ifdef _____INPUT_____
"1\n"
"12\n"
"222222\n"
"+2123\n"
"213 3213\n"
"-12321\n"
"--123\n"
"-99\n"
" -3000\n"
#endif
#ifdef _____OUTPUT_____
1
ACCEPT
12
ACCEPT
222222
ACCEPT
2123
ACCEPT
FAIL
-12321
ACCEPT
FAIL
-99
ACCEPT
FAIL
#endif
#### EXP ####
/*
* @LANG: c
* @GENERATED: yes
*/
#include <string.h>
#include <stdio.h>
#### EXIT ####
9
|