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/* this header file comes from libowfat, http://www.fefe.de/libowfat/ */
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#ifndef BUFFER_H
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#define BUFFER_H
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/* for size_t: */
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#include <stddef.h>
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/* for ssize_t: */
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#include <sys/types.h>
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/* for strlen */
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#include <string.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* dietlibc defines these in sys/cdefs.h, which is included from stddef.h */
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#ifndef __writememsz__
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#define __writememsz__(a,b)
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#endif
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#ifndef __readmemsz__
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#define __readmemsz__(a,b)
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#endif
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#ifndef __readmem__
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#define __readmem__(a)
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#endif
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typedef struct buffer {
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char *x; /* actual buffer space */
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size_t p; /* current position */
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size_t n; /* current size of string in buffer */
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size_t a; /* allocated buffer size */
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ssize_t (*op)(); /* use read(2) or write(2) */
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void* cookie; /* used internally by the to-stralloc buffers, and for buffer chaining */
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void (*deinit)(void*); /* called to munmap/free cleanup, with a pointer to the buffer as argument */
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int fd; /* passed as first argument to op */
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} buffer;
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#define BUFFER_INIT(op,fd,buf,len) { (buf), 0, 0, (len), (op), NULL, NULL, (fd) }
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#define BUFFER_INIT_FREE(op,fd,buf,len) { (buf), 0, 0, (len), (op), NULL, buffer_free, (fd) }
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#define BUFFER_INIT_READ(op,fd,buf,len) BUFFER_INIT(op,fd,buf,len) /*obsolete*/
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#define BUFFER_INSIZE 8192
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#define BUFFER_OUTSIZE 8192
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/* Initialize a buffer with an existing memory area, which the buffer
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* will NOT take ownership of (i.e. won't free the memory when it's done */
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__writememsz__(4,5)
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void buffer_init(buffer* b,ssize_t (*op)(),int fd,char* y,size_t ylen);
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/* Initialize a buffer with an existing memory area, which the buffer
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* WILL take ownership of (it will call free() on it when it's done) */
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__writememsz__(4,5)
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void buffer_init_free(buffer* b,ssize_t (*op)(),int fd,char* y,size_t ylen);
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/* Initialize a buffer without actual I/O.
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* You give it a pre-existing memory area.
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* When reading from this buffer, it will simply return the data from
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* that memory area. If it reaches the end, it will signal EOF and never
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* actually attempt to read from any actual file.
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* Does not take ownership. Useful for testing. */
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void buffer_init_staticcontents(buffer* b,char* y,size_t ylen);
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/* Same but the buffer takes ownership of the static buffer and frees it
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* in buffer_close. */
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void buffer_init_staticcontents_free(buffer* b,char* y,size_t ylen);
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/* Set buffer->deinit to this if you want buffer_close() to call free() on
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* the associated memory buffer */
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void buffer_free(void* buf);
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/* Set buffer->deinit to this if you want buffer_close() to call munmap() on
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* the associated memory buffer */
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void buffer_munmap(void* buf);
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/* Initialize a buffer so it will read from this file by memory mapping
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* the whole thing. */
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int buffer_mmapread(buffer* b,const char* filename);
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/* Indicate you are done with a buffer.
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* If the buffer has an associated memory map or buffer it owns, it will
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* free that memory. This will NOT call free() on b itself! */
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void buffer_close(buffer* b);
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/* Flush the buffer. This is only meaningful for write buffers and will
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* cause a write() syscall (or whatever you set as buffer->op) for all
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* the data in the buffer. */
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int buffer_flush(buffer* b);
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__readmemsz__(2,3)
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int buffer_put(buffer* b,const char* x,size_t len);
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__readmemsz__(2,3)
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int buffer_putalign(buffer* b,const char* x,size_t len);
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__readmemsz__(2,3)
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int buffer_putflush(buffer* b,const char* x,size_t len);
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__readmem__(2)
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int buffer_puts(buffer* b,const char* x);
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__readmem__(2)
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int buffer_putsalign(buffer* b,const char* x);
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__readmem__(2)
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int buffer_putsflush(buffer* b,const char* x);
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#if defined(__GNUC__) && !defined(__LIBOWFAT_INTERNAL)
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/* as a little gcc-specific hack, if somebody calls buffer_puts with a
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* constant string, where we know its length at compile-time, call
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* buffer_put with the known length instead */
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#define buffer_puts(b,s) (__builtin_constant_p(s) ? buffer_put(b,s,strlen(s)) : buffer_puts(b,s))
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#define buffer_putsflush(b,s) (__builtin_constant_p(s) ? buffer_putflush(b,s,strlen(s)) : buffer_putsflush(b,s))
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#endif
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int buffer_putm_internal(buffer* b,...);
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int buffer_putm_internal_flush(buffer* b,...);
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#define buffer_putm(b,...) buffer_putm_internal(b,__VA_ARGS__,(char*)0)
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#define buffer_putmflush(b,...) buffer_putm_internal_flush(b,__VA_ARGS__,(char*)0)
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int buffer_putspace(buffer* b);
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int buffer_putnlflush(buffer* b); /* put \n and flush */
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#define buffer_PUTC(s,c) \
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( ((s)->a != (s)->p) \
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? ( (s)->x[(s)->p++] = (c), 0 ) \
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: buffer_put((s),&(c),1) \
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)
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__writememsz__(2,3)
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ssize_t buffer_get(buffer* b,char* x,size_t len);
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ssize_t buffer_feed(buffer* b);
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ssize_t buffer_getc(buffer* b,char* x);
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ssize_t buffer_peekc(buffer* b,char* x);
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__writememsz__(2,3)
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ssize_t buffer_getn(buffer* b,char* x,size_t len);
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/* read bytes until the destination buffer is full (len bytes), end of
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* file is reached or the read char is in charset (setlen bytes). An
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* empty line when looking for \n will write '\n' to x and return 0. If
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* EOF is reached, \0 is written to the buffer */
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__writememsz__(2,3)
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__readmemsz__(4,5)
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ssize_t buffer_get_token(buffer* b,char* x,size_t len,const char* charset,size_t setlen);
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__writememsz__(2,3)
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ssize_t buffer_getline(buffer* b,char* x,size_t len);
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/* this predicate is given the string as currently read from the buffer
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* and is supposed to return 1 if the token is complete, 0 if not. */
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typedef int (*string_predicate)(const char* x,size_t len);
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/* like buffer_get_token but the token ends when your predicate says so */
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__writememsz__(2,3)
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ssize_t buffer_get_token_pred(buffer* b,char* x,size_t len,string_predicate p);
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char *buffer_peek(buffer* b);
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void buffer_seek(buffer* b,size_t len);
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#define buffer_PEEK(s) ( (s)->x + (s)->p )
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#define buffer_SEEK(s,len) ( (s)->p += (len) )
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#define buffer_GETC(s,c) \
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( ((s)->p < (s)->n) \
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? ( *(c) = *buffer_PEEK(s), buffer_SEEK((s),1), 1 ) \
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: buffer_get((s),(c),1) \
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)
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int buffer_putulong(buffer *b,unsigned long int l);
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int buffer_put8long(buffer *b,unsigned long int l);
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int buffer_putxlong(buffer *b,unsigned long int l);
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int buffer_putlong(buffer *b,signed long int l);
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int buffer_putlonglong(buffer* b,signed long long int l);
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int buffer_putulonglong(buffer* b,unsigned long long int l);
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int buffer_puterror(buffer* b);
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int buffer_puterror2(buffer* b, int errnum);
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extern buffer *buffer_0;
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extern buffer *buffer_0small;
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extern buffer *buffer_1;
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extern buffer *buffer_1small;
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extern buffer *buffer_2;
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#ifdef STRALLOC_H
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/* write stralloc to buffer */
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int buffer_putsa(buffer* b,const stralloc* sa);
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/* write stralloc to buffer and flush */
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int buffer_putsaflush(buffer* b,const stralloc* sa);
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/* these "read token" functions return 0 if the token was complete or
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* EOF was hit or -1 on error. In contrast to the non-stralloc token
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* functions, the separator is also put in the stralloc; use
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* stralloc_chop or stralloc_chomp to get rid of it. */
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/* WARNING! These token reading functions will not clear the stralloc!
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* They _append_ the token to the contents of the stralloc. The idea is
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* that this way these functions can be used on non-blocking sockets;
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* when you get signalled EAGAIN, just call the functions again when new
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* data is available. */
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/* read token from buffer to stralloc */
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__readmemsz__(3,4)
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int buffer_get_token_sa(buffer* b,stralloc* sa,const char* charset,size_t setlen);
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/* read line from buffer to stralloc */
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int buffer_getline_sa(buffer* b,stralloc* sa);
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/* same as buffer_get_token_sa but empty sa first */
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__readmemsz__(3,4)
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int buffer_get_new_token_sa(buffer* b,stralloc* sa,const char* charset,size_t setlen);
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/* same as buffer_getline_sa but empty sa first */
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int buffer_getnewline_sa(buffer* b,stralloc* sa);
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typedef int (*sa_predicate)(stralloc* sa);
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/* like buffer_get_token_sa but the token ends when your predicate says so */
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int buffer_get_token_sa_pred(buffer* b,stralloc* sa,sa_predicate p);
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/* same, but clear sa first */
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int buffer_get_new_token_sa_pred(buffer* b,stralloc* sa,sa_predicate p);
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/* make a buffer from a stralloc.
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* Do not change the stralloc after this! */
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void buffer_fromsa(buffer* b,const stralloc* sa); /* read from sa */
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int buffer_tosa(buffer*b,stralloc* sa); /* write to sa, auto-growing it */
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#endif
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__readmemsz__(2,3)
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void buffer_frombuf(buffer* b,const char* x,size_t l); /* buffer reads from static buffer */
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#ifdef ARRAY_H
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void buffer_fromarray(buffer* b,array* a); /* buffer reads from array */
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#endif
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#ifdef __cplusplus
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}
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#endif
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#endif
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