Mercurial > ~dholland > hg > ag > index.cgi
view examples/mpp/krc.syn @ 0:13d2b8934445
Import AnaGram (near-)release tree into Mercurial.
| author | David A. Holland |
|---|---|
| date | Sat, 22 Dec 2007 17:52:45 -0500 |
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{ /* * AnaGram, a System for Syntax Directed Programming * C Macro preprocessor * Sample C Grammar * Compatible with Kernighan and Ritchie, 2nd. Edition. * * Copyright 1993-2000 Parsifal Software. All Rights Reserved. * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would be * appreciated but is not required. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. */ #include "mpp.h" stack<unsigned> id_stack(100,20); } [ grammar token = program // Define grammar token ~nest comments // Make it explicitly ANSI sticky { statement} // resolves if-then-else conflict event driven // far tables // uncomment for 16 bit environment ~allow macros input values // token input line numbers //escape backslashes // uncomment if using MSVC++ error trace // for diagnosing errors parser name = cc // parser will be cc() parser file name = "krc.cpp" header file name = "krc.h" default input type = token ~test range // not necessary enum { // See TOKEN.H eof =0, SPACE =' ', ANDAND ='A', // "&&" ANDassign, // "&=" ARROW, // "->" CONCAT, // "##" DECR, // "--" DIVassign, // "/=" ELLIPSIS, // "..." EQ, // "==" ERassign, // "^=" GE, // ">=" ICR, // "++" LE, // "<=" LS, // "<<" LSassign, // "<<=" MODassign, // "%=" MINUSassign, // "-=" MULTassign, // "*=" NE, // "!=" ORassign, // "|=" OROR, // "||" PLUSassign, // "+=" RS, // ">>" RSassign, // ">>=" CHARACTERconstant, // character constant STRINGliteral, // character string UNSIGNEDqualifier =97, LONGqualifier, FLOATqualifier, HEXconstant =129, OCTconstant, DECconstant, FLOATconstant, // real NAME, AUTO, // "auto" BREAK, // "break" CASE, // "case" CHAR, // "char" CONSTANT, // "const" CONTINUE, // "continue" DEFAULT, // "default" DO, // "do" DOUBLE, // "double" ELSE, // "else" ENUM, // "enum" EXTERN, // "extern" FLOAT, // "float" FOR, // "for" GOTO, // "goto" IF, // "if" INT, // "int" LONG, // "long" REGISTER, // "register" RETURN, // "return" SHORT, // "short" SIGNED, // "signed" SIZEOF, // "sizeof" STATIC, // "static" STRUCT, // "struct" SWITCH, // "switch" TYPEDEF, // "typedef" UNION, // "union" UNSIGNED, // "unsigned" VOIDkey, // "void" VOLATILE, // "volatile" WHILE, // "while" UNRECOGNIZED, } ] program -> translation unit, eof translation unit -> external declaration -> translation unit, external declaration external declaration -> function definition -> declaration function definition -> declarator, compound statement -> declarator, declaration list, compound statement -> declaration specifiers, declarator, compound statement -> declaration specifiers, declarator, declaration list, compound statement declaration -> declaration specifiers:m, init declarator list?, ';' =mark_typedef(m); declaration list -> declaration -> declaration list, declaration (int) declaration specifiers -> storage class specifier -> type specifier =0; -> type qualifier =0; -> declaration specifiers:m, storage class specifier:v =m | v; -> declaration specifiers, type specifier -> declaration specifiers, type qualifier (int) storage class specifier -> AUTO =0; -> REGISTER =0; -> STATIC =0; -> EXTERN =0; -> TYPEDEF =1; type specifier -> VOIDkey | CHAR | SHORT | INT | LONG | FLOAT | DOUBLE | SIGNED | UNSIGNED -> struct or union specifier -> enum specifier -> typedef name type qualifier -> CONSTANT -> VOLATILE struct or union specifier -> struct or union, identifier?, !++id_stack;, '{', struct declaration list, '}' =--id_stack; -> struct or union, identifier struct or union -> STRUCT -> UNION struct declaration list -> struct declaration -> struct declaration list, struct declaration init declarator list -> init declarator -> init declarator list, ',', init declarator init declarator -> declarator -> declarator, '=', initializer struct declaration -> specifier qualifier list, struct declarator list, ';' specifier qualifier list -> type specifier -> type qualifier -> specifier qualifier list, type specifier -> specifier qualifier list, type qualifier struct declarator list -> struct declarator -> struct declarator list, ',', struct declarator struct declarator -> declarator -> declarator?, ':', constant expression enum specifier -> ENUM, identifier?, '{', enumerator list, '}' -> ENUM, identifier enumerator list -> enumerator -> enumerator list, ',', enumerator enumerator -> identifier -> identifier, '=', constant expression declarator -> direct declarator -> pointer, direct declarator direct declarator -> identifier:n =id_stack << n.handle; -> '(', declarator, ')' -> direct declarator, '[', constant expression?, ']' -> direct declarator, '(', parameter type list, ')' -> direct declarator, '(', identifier list?, ')' pointer -> '*', type qualifier list? -> '*', type qualifier list?, pointer type qualifier list -> type qualifier -> type qualifier list, type qualifier parameter type list -> parameter list -> parameter list, ',', ELLIPSIS parameter list -> parameter declaration -> parameter list, ',', parameter declaration parameter declaration -> declaration specifiers, declarator -> declaration specifiers, abstract declarator? identifier list -> identifier -> identifier list, ',', identifier initializer -> assignment expression -> '{', initializer list, '}' -> '{', initializer list, ',', '}' initializer list -> initializer -> initializer list, ',', initializer type name -> specifier qualifier list, abstract declarator? abstract declarator -> pointer -> direct abstract declarator -> pointer, direct abstract declarator direct abstract declarator -> '(', abstract declarator, ')' -> '[', constant expression?, ']' -> direct abstract declarator, '[', constant expression?, ']' -> '(', parameter type list?, ')' -> direct abstract declarator, '(', parameter type list?, ')' (token) identifier, typedef name -> NAME:n =check_typedef(n); statement -> labeled statement -> expression statement -> compound statement -> selection statement -> iteration statement -> jump statement labeled statement -> identifier, ':', statement -> CASE, constant expression, ':', statement -> DEFAULT, ':', statement expression statement -> expression?, ';' compound statement -> '{', statement list?, '}' -> '{', declaration list, statement list?, '}' statement list -> statement -> statement list, statement selection statement -> IF, '(', expression, ')', statement -> IF, '(', expression, ')', statement, ELSE, statement -> SWITCH, '(', expression, ')', statement iteration statement -> WHILE, '(', expression, ')', statement -> DO, statement, WHILE, '(', expression, ')', ';' -> FOR, '(', expression?, ';', expression?, ';', expression?, ')', statement jump statement -> GOTO, identifier, ';' -> CONTINUE, ';' -> BREAK, ';' -> RETURN, expression?, ';' expression -> assignment expression -> expression, ',', assignment expression assignment expression -> conditional expression -> unary expression, assignment operator, assignment expression assignment operator -> '=' | MULTassign | DIVassign | MODassign | PLUSassign | MINUSassign -> LSassign | RSassign | ANDassign | ORassign | ERassign conditional expression -> logical or expression -> logical or expression, '?', expression, ':', conditional expression constant expression -> conditional expression logical or expression -> logical and expression -> logical or expression, OROR, logical and expression logical and expression -> inclusive or expression -> logical and expression, ANDAND, inclusive or expression inclusive or expression -> exclusive or expression -> inclusive or expression, '|', exclusive or expression exclusive or expression -> and expression -> exclusive or expression, '^', and expression and expression -> equality expression -> and expression, '&', equality expression equality expression -> relational expression -> equality expression, EQ, relational expression -> equality expression, NE, relational expression relational expression -> shift expression -> relational expression, '<', shift expression -> relational expression, '>', shift expression -> relational expression, LE, shift expression -> relational expression, GE, shift expression shift expression -> additive expression -> shift expression, LS, additive expression -> shift expression, RS, additive expression additive expression -> multiplicative expression -> additive expression, '+', multiplicative expression -> additive expression, '-', multiplicative expression multiplicative expression -> cast expression -> multiplicative expression, '*', cast expression -> multiplicative expression, '/', cast expression -> multiplicative expression, '%', cast expression cast expression -> unary expression -> '(', type name, ')', cast expression unary expression -> postfix expression -> ICR, unary expression -> DECR, unary expression -> unary operator, cast expression -> SIZEOF, unary expression -> SIZEOF, '(', type name, ')' unary operator -> '&' | '*' | '+' | '-' | '~' | '!' postfix expression -> primary expression -> postfix expression, '[', expression, ']' -> postfix expression, '(', argument expression list?, ')' -> postfix expression, '.', identifier -> postfix expression, ARROW, identifier -> postfix expression, ICR -> postfix expression, DECR primary expression -> identifier -> constant -> STRINGliteral -> '(', expression, ')' argument expression list -> assignment expression -> argument expression list, ',', assignment expression constant -> HEXconstant -> OCTconstant -> DECconstant -> FLOATconstant -> CHARACTERconstant { // Embedded C #include <stack.h> // Macro Definitions #define INPUT_CODE(T) (T).id #define SYNTAX_ERROR syntax_error(PCB.error_message) // Variable definitions static int use_count = 0; symbol_type_enum symbol_table[N_SYMBOLS]; /* mark_typedef() gets a non_zero argument for typedef statements, a zero argument otherwise. If the argument is non-zero it marks all stacked identifiers as typedef_names. It then resets the id stack. */ static void mark_typedef(int mask) { unsigned x; if (mask) { while (size(id_stack)) { id_stack >> x; symbol_table[x] = typedef_name; } return; } reset(id_stack); } /* check_typedef() resolves a semantically determined productin by determining whether a token is a typedef_name or not. If so it changes the reduction token appropriately. */ static token check_typedef(token t) { if (symbol_table[t.handle] == typedef_name) CHANGE_REDUCTION(typedef_name); return t; } // Member Functions for Class c_parser // Constructor /* This parser has no provisions for multiple simultaneous parses or for recursion. The purpose of use_count is to make sure that there is only one copy of the parser active at any time. */ c_parser::c_parser() { assert(use_count == 0); use_count++; reset(id_stack); memset(symbol_table, 0, sizeof(symbol_table)); init_cc(); // init parse } // Destructor c_parser::~c_parser() { use_count--; // Makes parser available } // Reset Parser c_parser &reset(c_parser &c) { reset(id_stack); memset(symbol_table, 0, sizeof(symbol_table)); init_cc(); // init parse return c; } // Transmit token to c_parser /* The overloaded operator "<<" is used to transmit data to a parser. Newline tokens are filtered out, since they are passed along by the token scanner only in case text output of the preprocessor is required. If the parser has encountered an error, there is no point in giving it any further input. Otherwise, the input_code and input_value fields of the pcb are set up and cc() is called to deal with the token. */ token_sink &c_parser::operator << (token c) { if (PCB.exit_flag != AG_RUNNING_CODE || (int) c.id == '\n') return *this; PCB.input_code = c.id; PCB.input_value = c; cc(); return *this; } token_sink &c_parser::operator << (token *s) { while (s->id != END_OF_FILE && PCB.exit_flag == AG_RUNNING_CODE) { if ((int) s->id == 10) continue; PCB.input_code = s->id; PCB.input_value = *s++; cc(); } return *this; } } // End Embedded C