gzdoom-gles/tools/re2c/examples/push.re

/*
 *  A push-model scanner example for re2c -f
 *  Written Mon Apr 11 2005 by mgix@mgix.com
 *  This file is in the public domain.
 *
 */

// ----------------------------------------------------------------------

#include <fcntl.h>
#include <stdio.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>

#if defined(WIN32)

    typedef signed char     int8_t;
    typedef signed short    int16_t;
    typedef signed int      int32_t;

    typedef unsigned char   uint8_t;
    typedef unsigned short  uint16_t;
    typedef unsigned int    uint32_t;

#else

    #include <stdint.h>
    #include <unistd.h>

    #ifndef O_BINARY
        #define O_BINARY 0
    #endif

#endif

// ----------------------------------------------------------------------
#define TOKENS              \
                            \
    TOK(kEOF)               \
    TOK(kEOL)               \
    TOK(kUnknown)           \
    TOK(kIdentifier)        \
    TOK(kDecimalConstant)   \
                            \
    TOK(kEqual)             \
    TOK(kLeftParen)         \
    TOK(kRightParen)        \
    TOK(kMinus)             \
    TOK(kPlus)              \
    TOK(kStar)              \
    TOK(kSlash)             \
                            \
    TOK(kIf)                \
    TOK(kFor)               \
    TOK(kElse)              \
    TOK(kGoto)              \
    TOK(kBreak)             \
    TOK(kWhile)             \
    TOK(kReturn)            \


// ----------------------------------------------------------------------
static const char *tokenNames[] =
{
    #define TOK(x) #x,
        TOKENS
    #undef TOK
};

// ----------------------------------------------------------------------
class PushScanner
{
public:

    enum Token
    {
        #define TOK(x) x,
            TOKENS
        #undef TOK
    };

private:

    bool        eof;
    int32_t     state;

    uint8_t     *limit;
    uint8_t     *start;
    uint8_t     *cursor;
    uint8_t     *marker;

    uint8_t     *buffer;
    uint8_t     *bufferEnd;

    uint8_t     yych;
    uint32_t    yyaccept;

public:

    // ----------------------------------------------------------------------
    PushScanner()
    {
        limit = 0;
        start = 0;
        state = -1;
        cursor = 0;
        marker = 0;
        buffer = 0;
        eof = false;
        bufferEnd = 0;
    }

    // ----------------------------------------------------------------------
    ~PushScanner()
    {
    }

    // ----------------------------------------------------------------------
    void send(
        Token token
    )
    {
        size_t tokenSize = cursor-start;
        const char *tokenName = tokenNames[token];
        printf(
            "scanner is pushing out a token of type %d (%s)",
            token,
            tokenName
        );

        if(token==kEOF) putchar('\n');
        else
        {
            size_t tokenNameSize = strlen(tokenNames[token]);
            size_t padSize = 20-(20<tokenNameSize ? 20 : tokenNameSize);
            for(size_t i=0; i<padSize; ++i) putchar(' ');
            printf(" : ---->");

            fwrite(
                start,
                tokenSize,
                1,
                stdout
            );

            printf("<----\n");
        }
    }

    // ----------------------------------------------------------------------
    uint32_t push(
        const void  *input,
        ssize_t     inputSize
    )
    {
        printf(
            "scanner is receiving a new data batch of length %d\n"
            "scanner continues with saved state = %d\n",
            inputSize,
            state
        );

        /*
         * Data source is signaling end of file when batch size
         * is less than maxFill. This is slightly annoying because
         * maxFill is a value that can only be known after re2c does
         * its thing. Practically though, maxFill is never bigger than
         * the longest keyword, so given our grammar, 32 is a safe bet.
         */
        uint8_t null[64];
        const ssize_t maxFill = 32;
        if(inputSize<maxFill)
        {
            eof = true;
            input = null;
            inputSize = sizeof(null);
            memset(null, 0, sizeof(null));
        }

        /*
         * When we get here, we have a partially
         * consumed buffer which is in the following state:
         *                                                                last valid char        last valid buffer spot
         *                                                                v                      v
         * +-------------------+-------------+---------------+-------------+----------------------+
         * ^                   ^             ^               ^             ^                      ^
         * buffer              start         marker          cursor        limit                  bufferEnd
         * 
         * We need to stretch the buffer and concatenate the new chunk of input to it
         *
         */
        size_t used = limit-buffer;
        size_t needed = used+inputSize;
        size_t allocated = bufferEnd-buffer;
        if(allocated<needed)
        {
            size_t limitOffset = limit-buffer;
            size_t startOffset = start-buffer;
            size_t markerOffset = marker-buffer;
            size_t cursorOffset = cursor-buffer;

                buffer = (uint8_t*)realloc(buffer, needed);
                bufferEnd = needed+buffer;

            marker = markerOffset + buffer;
            cursor = cursorOffset + buffer;
            start = buffer + startOffset;
            limit = limitOffset + buffer;
        }
        memcpy(limit, input, inputSize);
        limit += inputSize;

        // The scanner starts here
        #define YYLIMIT         limit
        #define YYCURSOR        cursor
        #define YYMARKER        marker
        #define YYCTYPE         uint8_t

        #define SKIP(x)         { start = cursor; goto yy0; }
        #define SEND(x)         { send(x); SKIP();          }
        #define YYFILL(n)       { goto fill;                }

        #define YYGETSTATE()    state
        #define YYSETSTATE(x)   { state = (x);  }

    start:

        /*!re2c

            eol = "\n";
            eof = "\000";
            digit = [0-9];
            integer = digit+;
            alpha = [A-Za-z_];
            any = [\000-\0377];
            space = [ \h\t\v\f\r];

            "if"                    { SEND(kIf);             }
            "for"                   { SEND(kFor);            }
            "else"                  { SEND(kElse);           }
            "goto"                  { SEND(kGoto);           }
            "break"                 { SEND(kBreak);          }
            "while"                 { SEND(kWhile);          }
            "return"                { SEND(kReturn);         }
            alpha (alpha|digit)*    { SEND(kIdentifier);     }
            integer                 { SEND(kDecimalConstant);}

            "="                     { SEND(kEqual);          }
            "("                     { SEND(kLeftParen);      }
            ")"                     { SEND(kRightParen);     }
            "-"                     { SEND(kMinus);          }
            "+"                     { SEND(kPlus);           }
            "*"                     { SEND(kStar);           }
            "/"                     { SEND(kSlash);          }

            eol                     { SKIP();                }
            space                   { SKIP();                }
            eof                     { send(kEOF); return 1;  }
            any                     { SEND(kUnknown);        }
        */

    fill:
        ssize_t unfinishedSize = cursor-start;
        printf(
            "scanner needs a refill. Exiting for now with:\n"
            "    saved fill state = %d\n"
            "    unfinished token size = %d\n",
            state,
            unfinishedSize
        );

        if(0<unfinishedSize && start<limit)
        {
            printf("    unfinished token is :");
            fwrite(start, 1, cursor-start, stdout);
            putchar('\n');
        }
        putchar('\n');

        /*
         * Once we get here, we can get rid of
         * everything before start and after limit.
         */
        if(eof==true) goto start;
        if(buffer<start)
        {
            size_t startOffset = start-buffer;
            memmove(buffer, start, limit-start);
            marker -= startOffset;
            cursor -= startOffset;
            limit -= startOffset;
            start -= startOffset;
        }
        return 0;
    }
};

// ----------------------------------------------------------------------
int main(
    int     argc,
    char    **argv
)
{
    // Parse cmd line
    int input = 0;
    if(1<argc)
    {
        input = open(argv[1], O_RDONLY | O_BINARY);
        if(input<0)
        {
            fprintf(
                stderr,
                "could not open file %s\n",
                argv[1]
            );
            exit(1);
        }
    }

    /*
     * Tokenize input file by pushing batches
     * of data one by one into the scanner.
     */
    const size_t batchSize = 256;
    uint8_t buffer[batchSize];
    PushScanner scanner;
    while(1)
    {
        ssize_t n = read(input, buffer, batchSize);
        scanner.push(buffer, n);
        if(n<batchSize) break;
    }
    scanner.push(0, -1);
    close(input);

    // Done
    return 0;
}
- Modified ccdv-win32 to show "Generating X" messages when running lemon and re2c instead of "Linking X". - Updated lemon and re2c to the latest versions and ported dehsupp to use them for code generation. (Xlatcc is next.) - Added function level linking for Makefile.mingw. SVN r144 (trunk) 2006-05-25 04:32:20 +00:00			`/*`
			`* A push-model scanner example for re2c -f`
			`* Written Mon Apr 11 2005 by mgix@mgix.com`
			`* This file is in the public domain.`
			`*`
			`*/`

			`// ----------------------------------------------------------------------`

			`#include <fcntl.h>`
			`#include <stdio.h>`
			`#include <stddef.h>`
			`#include <stdlib.h>`
			`#include <string.h>`

			`#if defined(WIN32)`

			`typedef signed char int8_t;`
			`typedef signed short int16_t;`
			`typedef signed int int32_t;`

			`typedef unsigned char uint8_t;`
			`typedef unsigned short uint16_t;`
			`typedef unsigned int uint32_t;`

			`#else`

			`#include <stdint.h>`
			`#include <unistd.h>`

			`#ifndef O_BINARY`
			`#define O_BINARY 0`
			`#endif`

			`#endif`

			`// ----------------------------------------------------------------------`
			`#define TOKENS \`
			`\`
			`TOK(kEOF) \`
			`TOK(kEOL) \`
			`TOK(kUnknown) \`
			`TOK(kIdentifier) \`
			`TOK(kDecimalConstant) \`
			`\`
			`TOK(kEqual) \`
			`TOK(kLeftParen) \`
			`TOK(kRightParen) \`
			`TOK(kMinus) \`
			`TOK(kPlus) \`
			`TOK(kStar) \`
			`TOK(kSlash) \`
			`\`
			`TOK(kIf) \`
			`TOK(kFor) \`
			`TOK(kElse) \`
			`TOK(kGoto) \`
			`TOK(kBreak) \`
			`TOK(kWhile) \`
			`TOK(kReturn) \`


			`// ----------------------------------------------------------------------`
			`static const char *tokenNames[] =`
			`{`
			`#define TOK(x) #x,`
			`TOKENS`
			`#undef TOK`
			`};`

			`// ----------------------------------------------------------------------`
			`class PushScanner`
			`{`
			`public:`

			`enum Token`
			`{`
			`#define TOK(x) x,`
			`TOKENS`
			`#undef TOK`
			`};`

			`private:`

			`bool eof;`
			`int32_t state;`

			`uint8_t *limit;`
			`uint8_t *start;`
			`uint8_t *cursor;`
			`uint8_t *marker;`

			`uint8_t *buffer;`
			`uint8_t *bufferEnd;`

			`uint8_t yych;`
			`uint32_t yyaccept;`

			`public:`

			`// ----------------------------------------------------------------------`
			`PushScanner()`
			`{`
			`limit = 0;`
			`start = 0;`
			`state = -1;`
			`cursor = 0;`
			`marker = 0;`
			`buffer = 0;`
			`eof = false;`
			`bufferEnd = 0;`
			`}`

			`// ----------------------------------------------------------------------`
			`~PushScanner()`
			`{`
			`}`

			`// ----------------------------------------------------------------------`
			`void send(`
			`Token token`
			`)`
			`{`
			`size_t tokenSize = cursor-start;`
			`const char *tokenName = tokenNames[token];`
			`printf(`
			`"scanner is pushing out a token of type %d (%s)",`
			`token,`
			`tokenName`
			`);`

			`if(token==kEOF) putchar('\n');`
			`else`
			`{`
			`size_t tokenNameSize = strlen(tokenNames[token]);`
			`size_t padSize = 20-(20<tokenNameSize ? 20 : tokenNameSize);`
			`for(size_t i=0; i<padSize; ++i) putchar(' ');`
			`printf(" : ---->");`

			`fwrite(`
			`start,`
			`tokenSize,`
			`1,`
			`stdout`
			`);`

			`printf("<----\n");`
			`}`
			`}`

			`// ----------------------------------------------------------------------`
			`uint32_t push(`
			`const void *input,`
			`ssize_t inputSize`
			`)`
			`{`
			`printf(`
			`"scanner is receiving a new data batch of length %d\n"`
			`"scanner continues with saved state = %d\n",`
			`inputSize,`
			`state`
			`);`

			`/*`
			`* Data source is signaling end of file when batch size`
			`* is less than maxFill. This is slightly annoying because`
			`* maxFill is a value that can only be known after re2c does`
			`* its thing. Practically though, maxFill is never bigger than`
			`* the longest keyword, so given our grammar, 32 is a safe bet.`
			`*/`
			`uint8_t null[64];`
			`const ssize_t maxFill = 32;`
			`if(inputSize<maxFill)`
			`{`
			`eof = true;`
			`input = null;`
			`inputSize = sizeof(null);`
			`memset(null, 0, sizeof(null));`
			`}`

			`/*`
			`* When we get here, we have a partially`
			`* consumed buffer which is in the following state:`
			`* last valid char last valid buffer spot`
			`* v v`
			`* +-------------------+-------------+---------------+-------------+----------------------+`
			`* ^ ^ ^ ^ ^ ^`
			`* buffer start marker cursor limit bufferEnd`
			`*`
			`* We need to stretch the buffer and concatenate the new chunk of input to it`
			`*`
			`*/`
			`size_t used = limit-buffer;`
			`size_t needed = used+inputSize;`
			`size_t allocated = bufferEnd-buffer;`
			`if(allocated<needed)`
			`{`
			`size_t limitOffset = limit-buffer;`
			`size_t startOffset = start-buffer;`
			`size_t markerOffset = marker-buffer;`
			`size_t cursorOffset = cursor-buffer;`

			`buffer = (uint8_t*)realloc(buffer, needed);`
			`bufferEnd = needed+buffer;`

			`marker = markerOffset + buffer;`
			`cursor = cursorOffset + buffer;`
			`start = buffer + startOffset;`
			`limit = limitOffset + buffer;`
			`}`
			`memcpy(limit, input, inputSize);`
			`limit += inputSize;`

			`// The scanner starts here`
			`#define YYLIMIT limit`
			`#define YYCURSOR cursor`
			`#define YYMARKER marker`
			`#define YYCTYPE uint8_t`

			`#define SKIP(x) { start = cursor; goto yy0; }`
			`#define SEND(x) { send(x); SKIP(); }`
			`#define YYFILL(n) { goto fill; }`

			`#define YYGETSTATE() state`
			`#define YYSETSTATE(x) { state = (x); }`

			`start:`

			`/*!re2c`

			`eol = "\n";`
			`eof = "\000";`
			`digit = [0-9];`
			`integer = digit+;`
			`alpha = [A-Za-z_];`
			`any = [\000-\0377];`
			`space = [ \h\t\v\f\r];`

			`"if" { SEND(kIf); }`
			`"for" { SEND(kFor); }`
			`"else" { SEND(kElse); }`
			`"goto" { SEND(kGoto); }`
			`"break" { SEND(kBreak); }`
			`"while" { SEND(kWhile); }`
			`"return" { SEND(kReturn); }`
			`alpha (alpha\|digit)* { SEND(kIdentifier); }`
			`integer { SEND(kDecimalConstant);}`

			`"=" { SEND(kEqual); }`
			`"(" { SEND(kLeftParen); }`
			`")" { SEND(kRightParen); }`
			`"-" { SEND(kMinus); }`
			`"+" { SEND(kPlus); }`
			`"*" { SEND(kStar); }`
			`"/" { SEND(kSlash); }`

			`eol { SKIP(); }`
			`space { SKIP(); }`
			`eof { send(kEOF); return 1; }`
			`any { SEND(kUnknown); }`
			`*/`

			`fill:`
			`ssize_t unfinishedSize = cursor-start;`
			`printf(`
			`"scanner needs a refill. Exiting for now with:\n"`
			`" saved fill state = %d\n"`
			`" unfinished token size = %d\n",`
			`state,`
			`unfinishedSize`
			`);`

			`if(0<unfinishedSize && start<limit)`
			`{`
			`printf(" unfinished token is :");`
			`fwrite(start, 1, cursor-start, stdout);`
			`putchar('\n');`
			`}`
			`putchar('\n');`

			`/*`
			`* Once we get here, we can get rid of`
			`* everything before start and after limit.`
			`*/`
			`if(eof==true) goto start;`
			`if(buffer<start)`
			`{`
			`size_t startOffset = start-buffer;`
			`memmove(buffer, start, limit-start);`
			`marker -= startOffset;`
			`cursor -= startOffset;`
			`limit -= startOffset;`
			`start -= startOffset;`
			`}`
			`return 0;`
			`}`
			`};`

			`// ----------------------------------------------------------------------`
			`int main(`
			`int argc,`
			`char **argv`
			`)`
			`{`
			`// Parse cmd line`
			`int input = 0;`
			`if(1<argc)`
			`{`
			`input = open(argv[1], O_RDONLY \| O_BINARY);`
			`if(input<0)`
			`{`
			`fprintf(`
			`stderr,`
			`"could not open file %s\n",`
			`argv[1]`
			`);`
			`exit(1);`
			`}`
			`}`

			`/*`
			`* Tokenize input file by pushing batches`
			`* of data one by one into the scanner.`
			`*/`
			`const size_t batchSize = 256;`
			`uint8_t buffer[batchSize];`
			`PushScanner scanner;`
			`while(1)`
			`{`
			`ssize_t n = read(input, buffer, batchSize);`
			`scanner.push(buffer, n);`
			`if(n<batchSize) break;`
			`}`
			`scanner.push(0, -1);`
			`close(input);`

			`// Done`
			`return 0;`
			`}`