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cpp-peglib
==========
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[![Build Status ](https://travis-ci.org/yhirose/cpp-peglib.svg?branch=master )](https://travis-ci.org/yhirose/cpp-peglib)
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[![Bulid Status ](https://ci.appveyor.com/api/projects/status/github/yhirose/cpp-peglib?branch=master&svg=true )](https://ci.appveyor.com/project/yhirose/cpp-peglib)
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C++11 header-only [PEG ](http://en.wikipedia.org/wiki/Parsing_expression_grammar ) (Parsing Expression Grammars) library. You can start using it right away just by including `peglib.h` in your project.
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You can also try the online version, PEG Playground at https://yhirose.github.io/cpp-peglib.
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The PEG syntax is well described on page 2 in the [document ](http://www.brynosaurus.com/pub/lang/peg.pdf ). *cpp-peglib* also supports the following additional syntax for now:
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* `'...'i` (Case-insensitive literal operator)
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* `[^...]` (Negated character class operator)
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* `<` ... `>` (Token boundary operator)
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* `~` (Ignore operator)
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* `\x20` (Hex number char)
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* `%whitespace` (Automatic whitespace skipping)
* `%word` (Word expression)
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* `$name(` ... `)` (Capture scope operator)
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* `$name<` ... `>` (Named capture operator)
* `$name` (Backreference operator)
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* `MACRO_NAME(` ... `)` (Parameterized rule or Macro)
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This library supports the linear-time parsing known as the [*Packrat* ](http://pdos.csail.mit.edu/~baford/packrat/thesis/thesis.pdf ) parsing.
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*Parsing infix expression by [Precedence climbing ](https://eli.thegreenplace.net/2012/08/02/parsing-expressions-by-precedence-climbing )* algorithm is also supported.
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IMPORTANT NOTE for some Linux distributions such as Ubuntu and CentOS: Need `-pthread` option when linking. See [#23 ](https://github.com/yhirose/cpp-peglib/issues/23#issuecomment-261126127 ), [#46 ](https://github.com/yhirose/cpp-peglib/issues/46#issuecomment-417870473 ) and [#62 ](https://github.com/yhirose/cpp-peglib/issues/62#issuecomment-492032680 ).
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How to use
----------
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This is a simple calculator sample. It shows how to define grammar, associate samantic actions to the grammar, and handle semantic values.
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```cpp
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// (1) Include the header file
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#include <peglib.h>
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#include <assert.h>
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#include <iostream>
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using namespace peg;
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using namespace std;
int main(void) {
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// (2) Make a parser
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parser parser(R"(
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# Grammar for Calculator...
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Additive < - Multitive ' + ' Additive / Multitive
Multitive < - Primary ' * ' Multitive / Primary
Primary < - ' ( ' Additive ' ) ' / Number
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Number < - < [ 0-9 ] + >
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%whitespace < - [ \t]*
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)");
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assert((bool)parser == true);
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// (3) Setup actions
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parser["Additive"] = [](const SemanticValues& sv) {
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switch (sv.choice()) {
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case 0: // "Multitive '+' Additive"
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return any_cast< int > (sv[0]) + any_cast< int > (sv[1]);
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default: // "Multitive"
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return any_cast< int > (sv[0]);
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}
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};
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parser["Multitive"] = [](const SemanticValues& sv) {
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switch (sv.choice()) {
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case 0: // "Primary '*' Multitive"
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return any_cast< int > (sv[0]) * any_cast< int > (sv[1]);
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default: // "Primary"
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return any_cast< int > (sv[0]);
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}
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};
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parser["Number"] = [](const SemanticValues& sv) {
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return stoi(sv.token(), nullptr, 10);
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};
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// (4) Parse
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parser.enable_packrat_parsing(); // Enable packrat parsing.
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int val;
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parser.parse(" (1 + 2) * 3 ", val);
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assert(val == 9);
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}
```
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To show syntax errors in grammar text:
```cpp
auto grammar = R"(
# Grammar for Calculator...
Additive < - Multitive ' + ' Additive / Multitive
Multitive < - Primary ' * ' Multitive / Primary
Primary < - ' ( ' Additive ' ) ' / Number
Number < - < [ 0-9 ] + >
%whitespace < - [ \t]*
)";
parser parser;
parser.log = [](size_t line, size_t col, const string& msg) {
cerr < < line << " : " << col << " : " << msg << " \n";
};
auto ok = parser.load_grammar(grammar);
assert(ok);
```
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There are four semantic actions available:
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```cpp
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[](const SemanticValues& sv, any& dt)
[](const SemanticValues& sv)
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[](SemanticValues& sv, any& dt)
[](SemanticValues& sv)
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```
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`SemanticValues` value contains the following information:
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- Semantic values
- Matched string information
- Token information if the rule is literal or uses a token boundary operator
- Choice number when the rule is 'prioritized choise'
`any& dt` is a 'read-write' context data which can be used for whatever purposes. The initial context data is set in `peg::parser::parse` method.
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`peg::any` is a simpler implementatin of std::any. If the compiler in use supports C++17, by default `peg::any` is defined as an alias to `std::any` .
To force using the simpler `any` implementation that comes with `cpp-peglib` , define `PEGLIB_USE_STD_ANY` as 0 before including `peglib.h` :
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```cpp
#define PEGLIB_USE_STD_ANY 0
#include <peglib.h>
[...]
```
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A semantic action can return a value of arbitrary data type, which will be wrapped by `peg::any` . If a user returns nothing in a semantic action, the first semantic value in the `const SemanticValues& sv` argument will be returned. (Yacc parser has the same behavior.)
Here shows the `SemanticValues` structure:
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```cpp
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struct SemanticValues : protected std::vector< any >
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{
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// Input text
const char* path;
const char* ss;
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// Matched string
std::string str() const; // Matched string
const char* c_str() const; // Matched string start
size_t length() const; // Matched string length
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// Line number and column at which the matched string is
std::pair< size_t , size_t > line_info() const;
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// Tokens
std::vector<
std::pair<
const char*, // Token start
size_t>> // Token length
tokens;
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std::string token(size_t id = 0) const;
// Choice number (0 based index)
size_t choice() const;
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// Transform the semantic value vector to another vector
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template < typename T > vector< T > transform(size_t beg = 0, size_t end = -1) const;
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}
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```
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The following example uses `<` ... ` >` operator, which is *token boundary* operator.
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```cpp
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auto syntax = R"(
ROOT < - _ TOKEN (',' _ TOKEN )*
TOKEN < - < [ a-z0-9 ] + > _
_ < - [ \t\r\n]*
)";
peg pg(syntax);
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pg["TOKEN"] = [](const SemanticValues& sv) {
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// 'token' doesn't include trailing whitespaces
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auto token = sv.token();
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};
auto ret = pg.parse(" token1, token2 ");
```
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We can ignore unnecessary semantic values from the list by using `~` operator.
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```cpp
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peg::parser parser(R"(
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ROOT < - _ ITEM (',' _ ITEM _ )*
ITEM < - ( [ a-z ] ) +
~_ < - [ \t]*
)");
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parser["ROOT"] = [& ](const SemanticValues& sv ) {
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assert(sv.size() == 2); // should be 2 instead of 5.
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};
auto ret = parser.parse(" item1, item2 ");
```
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The following grammar is same as the above.
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```cpp
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peg::parser parser(R"(
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ROOT < - ~ _ ITEM ( ' , ' ~ _ ITEM ~ _ ) *
ITEM < - ( [ a-z ] ) +
_ < - [ \t]*
)");
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```
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*Semantic predicate* support is available. We can do it by throwing a `peg::parse_error` exception in a semantic action.
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```cpp
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peg::parser parser("NUMBER < - [ 0-9 ] + " ) ;
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parser["NUMBER"] = [](const SemanticValues& sv) {
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auto val = stol(sv.str(), nullptr, 10);
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if (val != 100) {
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throw peg::parse_error("value error!!");
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}
return val;
};
long val;
auto ret = parser.parse("100", val);
assert(ret == true);
assert(val == 100);
ret = parser.parse("200", val);
assert(ret == false);
```
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*enter* and *leave* actions are also avalable.
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```cpp
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parser["RULE"].enter = [](const char* s, size_t n, any& dt) {
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std::cout < < "enter" < < std::endl ;
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};
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parser["RULE"] = [](const SemanticValues& sv, any& dt) {
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std::cout < < "action!" < < std::endl ;
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};
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parser["RULE"].leave = [](const char* s, size_t n, size_t matchlen, any& value, any& dt) {
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std::cout < < "leave" < < std::endl ;
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};
```
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Ignoring Whitespaces
--------------------
As you can see in the first example, we can ignore whitespaces between tokens automatically with `%whitespace` rule.
`%whitespace` rule can be applied to the following three conditions:
* trailing spaces on tokens
* leading spaces on text
* trailing spaces on literal strings in rules
These are valid tokens:
```
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KEYWORD < - ' keyword '
KEYWORDI < - ' case_insensitive_keyword '
WORD < - < [ a-zA-Z0-9 ] [ a-zA-Z0-9-_ ] * > # token boundary operator is used.
IDNET < - < IDENT_START_CHAR IDENT_CHAR * > # token boundary operator is used.
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```
The following grammar accepts ` one, "two three", four ` .
```
ROOT < - ITEM ( ' , ' ITEM ) *
ITEM < - WORD / PHRASE
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WORD < - < [ a-z ] + >
PHRASE < - < ' " ' ( ! ' " ' . ) * ' " ' >
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%whitespace < - [ \t\r\n]*
```
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Word expression
---------------
```cpp
peg::parser parser(R"(
ROOT < - ' hello ' ' world '
%whitespace < - [ \t\r\n]*
%word < - [ a-z ] +
)");
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parser.parse("hello world"); // OK
parser.parse("helloworld"); // NG
```
Capture/Backreference
---------------------
```cpp
peg::parser parser(R"(
ROOT < - CONTENT
CONTENT < - ( ELEMENT / TEXT ) *
ELEMENT < - $ ( STAG CONTENT ETAG )
STAG < - ' < ' $ tag < TAG_NAME > '>'
ETAG < - ' < / ' $ tag ' > '
TAG_NAME < - ' b ' / ' u '
TEXT < - TEXT_DATA
TEXT_DATA < - ! [ < ] .
)");
parser.parse("This is < b > a < u > test< / u > text< / b > ."); // OK
parser.parse("This is < b > a < u > test< / b > text< / u > ."); // NG
parser.parse("This is < b > a < u > test text< / b > ."); // NG
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```
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Parameterized Rule or Macro
---------------------------
```peg
# Syntax
Start ← _ Expr
Expr ← Sum
Sum ← List(Product, SumOpe)
Product ← List(Value, ProOpe)
Value ← Number / T('(') Expr T(')')
# Token
SumOpe ← T('+' / '-')
ProOpe ← T('*' / '/')
Number ← T([0-9]+)
~_ ← [ \t\r\n]*
# Macro
List(I, D) ← I (D I)*
T(x) ← < x > _
```
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Parsing infix expression by Precedence climbing
-----------------------------------------------
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```cpp
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parser parser(R"(
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EXPRESSION < - INFIX_EXPRESSION ( ATOM , OPERATOR )
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ATOM < - NUMBER / ' ( ' EXPRESSION ' ) '
OPERATOR < - < [ - + / * ] >
NUMBER < - < ' - ' ? [ 0-9 ] + >
%whitespace < - [ \t]*
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INFIX_EXPRESSION(A, O) < - A ( O A ) * {
precedence
L + -
L * /
}
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)");
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parser["INFIX_EXPRESSION"] = [](const SemanticValues& sv) -> long {
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auto result = any_cast< long > (sv[0]);
if (sv.size() > 1) {
auto ope = any_cast< char > (sv[1]);
auto num = any_cast< long > (sv[2]);
switch (ope) {
case '+': result += num; break;
case '-': result -= num; break;
case '*': result *= num; break;
case '/': result /= num; break;
}
}
return result;
};
parser["OPERATOR"] = [](const SemanticValues& sv) { return *sv.c_str(); };
parser["NUMBER"] = [](const SemanticValues& sv) { return atol(sv.c_str()); };
long val;
parser.parse(" -1 + (1 + 2) * 3 - -1", val);
assert(val == 9);
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```
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*precedence* instruction can be applied only to the following 'list' style rule.
```
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Rule < - Atom ( Operator Atom ) * {
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precedence
L - +
L / *
R ^
}
```
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*precedence* instruction contains precedence info entries. Each entry starts with *associativity* which is 'L' (left) or 'R' (right), then operator tokens follow. The first entry has the highest order level.
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AST generation
--------------
*cpp-peglib* is able to generate an AST (Abstract Syntax Tree) when parsing. `enable_ast` method on `peg::parser` class enables the feature.
```
peg::parser parser("...");
parser.enable_ast();
shared_ptr< peg::Ast > ast;
if (parser.parse("...", ast)) {
cout < < peg::ast_to_s ( ast ) ;
ast = peg::AstOptimizer(true).optimize(ast);
cout < < peg::ast_to_s ( ast ) ;
}
```
`peg::AstOptimizer` removes redundant nodes to make a AST simpler. You can make your own AST optimizers to fit your needs.
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See actual usages in the [AST calculator example ](https://github.com/yhirose/cpp-peglib/blob/master/example/calc3.cc ) and [PL/0 language example ](https://github.com/yhirose/cpp-peglib/blob/master/pl0/pl0.cc ).
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Make a parser with parser combinators
-------------------------------------
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Instead of makeing a parser by parsing PEG syntax text, we can also construct a parser by hand with *parser combinatorss* . Here is an example:
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```cpp
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using namespace peg;
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using namespace std;
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vector< string > tags;
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Definition ROOT, TAG_NAME, _;
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ROOT < = seq(_, zom(seq(chr('['), TAG_NAME, chr(']'), _)));
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TAG_NAME < = oom(seq(npd(chr(']')), dot())), [& ](const SemanticValues& sv ) {
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tags.push_back(sv.str());
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};
_ < = zom(cls(" \t"));
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auto ret = ROOT.parse(" [tag1] [tag:2] [tag-3] ");
```
The following are available operators:
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| Operator | Description |
| :------- | :------------------------------ |
| seq | Sequence |
| cho | Prioritized Choice |
| zom | Zero or More |
| oom | One or More |
| opt | Optional |
| apd | And predicate |
| npd | Not predicate |
| lit | Literal string |
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| liti | Case-insensitive Literal string |
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| cls | Character class |
| ncls | Negated Character class |
| chr | Character |
| dot | Any character |
| tok | Token boundary |
| ign | Ignore semantic value |
| csc | Capture scope |
| cap | Capture |
| bkr | Back reference |
| usr | User defined parser |
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Adjust definitions
------------------
It's possible to add/override definitions.
```cpp
auto syntax = R"(
ROOT < - _ 'Hello' _ NAME '!' _
)";
Rules additional_rules = {
{
"NAME", usr([](const char* s, size_t n, SemanticValues& sv, any& dt) -> size_t {
static vector< string > names = { "PEG", "BNF" };
for (const auto& name: names) {
if (name.size() < = n & & !name.compare(0, name.size(), s, name.size())) {
return name.size(); // processed length
}
}
return -1; // parse error
})
},
{
"~_", zom(cls(" \t\r\n"))
}
};
auto g = parser(syntax, additional_rules);
assert(g.parse(" Hello BNF! "));
```
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Unicode support
---------------
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cpp-peglib accepts UTF8 text. `.` matches a Unicode codepoint. Also, it supports `\u????` .
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peglint - PEG syntax lint utility
---------------------------------
### Build peglint
```
> cd lint
> mkdir build
> cd build
> cmake ..
> make
> ./peglint
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usage: peglint [--ast] [--optimize_ast_nodes|--opt] [--source text] [--trace] [grammar file path] [source file path]
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```
### Lint grammar
```
> cat a.peg
A < - ' hello ' ^ ' world '
> peglint a.peg
a.peg:1:14: syntax error
```
```
> cat a.peg
A < - B
> peglint a.peg
a.peg:1:6: 'B' is not defined.
```
```
> cat a.peg
A < - B / C
B < - ' b '
C < - A
> peglint a.peg
a.peg:1:10: 'C' is left recursive.
a.peg:3:6: 'A' is left recursive.
```
### Lint source text
```
> cat a.peg
Additive < - Multitive ' + ' Additive / Multitive
Multitive < - Primary ' * ' Multitive / Primary
Primary < - ' ( ' Additive ' ) ' / Number
Number < - < [ 0-9 ] + >
%whitespace < - [ \t\r\n]*
> peglint --source "1 + a * 3" a.peg
[commendline]:1:3: syntax error
```
```
> cat a.txt
1 + 2 * 3
> peglint --ast a.peg a.txt
+ Additive
+ Multitive
+ Primary
- Number (1)
+ Additive
+ Multitive
+ Primary
- Number (2)
+ Multitive
+ Primary
- Number (3)
```
```
> peglint --ast --opt --source "1 + 2 * 3" a.peg
+ Additive
- Multitive[Number] (1)
+ Additive[Multitive]
- Primary[Number] (2)
- Multitive[Number] (3)
```
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Sample codes
------------
* [Calculator ](https://github.com/yhirose/cpp-peglib/blob/master/example/calc.cc )
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* [Calculator (with parser operators) ](https://github.com/yhirose/cpp-peglib/blob/master/example/calc2.cc )
* [Calculator (AST version) ](https://github.com/yhirose/cpp-peglib/blob/master/example/calc3.cc )
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* [Calculator (parsing expressions by precedence climbing) ](https://github.com/yhirose/cpp-peglib/blob/master/example/calc4.cc )
* [Calculator (AST version and parsing expressions by precedence climbing) ](https://github.com/yhirose/cpp-peglib/blob/master/example/calc5.cc )
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* [PL/0 language example ](https://github.com/yhirose/cpp-peglib/blob/master/pl0/pl0.cc )
* [A tiny PL/0 JIT compiler in less than 700 LOC with LLVM and PEG parser ](https://github.com/yhirose/pl0-jit-compiler )
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PEG debug
---------
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A debug viewer for Parsing Expression Grammars using cpp-peglib by [mqnc ](https://github.com/mqnc ). Please see [his gihub project page ](https://github.com/mqnc/pegdebug ) for the detail. You can see a parse result of PL/0 code [here ](https://mqnc.github.io/pegdebug/example/output.html ).
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License
-------
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MIT license (© 2020 Yuji Hirose)