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ruby--ruby/ext/syck/emitter.c
why d578f9d32e * ext/syck/emitter.c (syck_scan_scalar): prevent indicators from 
appearing alone or at the end of plain scalars. [ruby-core:5826]

* ext/syck/emitter.c (syck_emit_scalar): treat typed scalar nodes
  as complex keys.

* lib/syck.h: version 0.60.

* lib/yaml/basenode.rb (YAML::BaseNode#at): transform keys during
  key searches.

* ext/syck/rubyext.c: loading of binary-typed nodes.  prevent
  emission of plain strings that look like symbols, but which aren't.

* ext/syck/emitter.c (syck_emit): passing an int* value to the
  long* parameter causes unaligned access on LP64 systems.
  [ruby-dev:27161]


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@9242 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2005-09-20 06:50:20 +00:00

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/*
* emitter.c
*
* $Author$
* $Date$
*
* Copyright (C) 2003 why the lucky stiff
*
* All Base64 code from Ruby's pack.c.
* Ruby is Copyright (C) 1993-2003 Yukihiro Matsumoto
*/
#include "ruby.h"
#include <stdio.h>
#include <string.h>
#include "syck.h"
#define DEFAULT_ANCHOR_FORMAT "id%03d"
const char hex_table[] =
"0123456789ABCDEF";
static char b64_table[] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
/*
* Built-in base64 (from Ruby's pack.c)
*/
char *
syck_base64enc( char *s, long len )
{
long i = 0;
int padding = '=';
char *buff = S_ALLOC_N(char, len * 4 / 3 + 6);
while (len >= 3) {
buff[i++] = b64_table[077 & (*s >> 2)];
buff[i++] = b64_table[077 & (((*s << 4) & 060) | ((s[1] >> 4) & 017))];
buff[i++] = b64_table[077 & (((s[1] << 2) & 074) | ((s[2] >> 6) & 03))];
buff[i++] = b64_table[077 & s[2]];
s += 3;
len -= 3;
}
if (len == 2) {
buff[i++] = b64_table[077 & (*s >> 2)];
buff[i++] = b64_table[077 & (((*s << 4) & 060) | ((s[1] >> 4) & 017))];
buff[i++] = b64_table[077 & (((s[1] << 2) & 074) | (('\0' >> 6) & 03))];
buff[i++] = padding;
}
else if (len == 1) {
buff[i++] = b64_table[077 & (*s >> 2)];
buff[i++] = b64_table[077 & (((*s << 4) & 060) | (('\0' >> 4) & 017))];
buff[i++] = padding;
buff[i++] = padding;
}
buff[i++] = '\n';
return buff;
}
char *
syck_base64dec( char *s, long len )
{
int a = -1,b = -1,c = 0,d;
static int first = 1;
static int b64_xtable[256];
char *ptr = syck_strndup( s, len );
char *end = ptr;
char *send = s + len;
if (first) {
int i;
first = 0;
for (i = 0; i < 256; i++) {
b64_xtable[i] = -1;
}
for (i = 0; i < 64; i++) {
b64_xtable[(int)b64_table[i]] = i;
}
}
while (s < send) {
while (s[0] == '\r' || s[0] == '\n') { s++; }
if ((a = b64_xtable[(int)s[0]]) == -1) break;
if ((b = b64_xtable[(int)s[1]]) == -1) break;
if ((c = b64_xtable[(int)s[2]]) == -1) break;
if ((d = b64_xtable[(int)s[3]]) == -1) break;
*end++ = a << 2 | b >> 4;
*end++ = b << 4 | c >> 2;
*end++ = c << 6 | d;
s += 4;
}
if (a != -1 && b != -1) {
if (s + 2 < send && s[2] == '=')
*end++ = a << 2 | b >> 4;
if (c != -1 && s + 3 < send && s[3] == '=') {
*end++ = a << 2 | b >> 4;
*end++ = b << 4 | c >> 2;
}
}
*end = '\0';
/*RSTRING(buf)->len = ptr - RSTRING(buf)->ptr;*/
return ptr;
}
/*
* Allocate an emitter
*/
SyckEmitter *
syck_new_emitter()
{
SyckEmitter *e;
e = S_ALLOC( SyckEmitter );
e->headless = 0;
e->use_header = 0;
e->use_version = 0;
e->sort_keys = 0;
e->anchor_format = NULL;
e->explicit_typing = 0;
e->best_width = 80;
e->style = scalar_none;
e->stage = doc_open;
e->indent = 2;
e->level = -1;
e->anchors = NULL;
e->markers = NULL;
e->anchored = NULL;
e->bufsize = SYCK_BUFFERSIZE;
e->buffer = NULL;
e->marker = NULL;
e->bufpos = 0;
e->emitter_handler = NULL;
e->output_handler = NULL;
e->lvl_idx = 0;
e->lvl_capa = ALLOC_CT;
e->levels = S_ALLOC_N( SyckLevel, e->lvl_capa );
syck_emitter_reset_levels( e );
e->bonus = NULL;
return e;
}
int
syck_st_free_anchors( char *key, char *name, char *arg )
{
S_FREE( name );
return ST_CONTINUE;
}
void
syck_emitter_st_free( SyckEmitter *e )
{
/*
* Free the anchor tables
*/
if ( e->anchors != NULL )
{
st_foreach( e->anchors, syck_st_free_anchors, 0 );
st_free_table( e->anchors );
e->anchors = NULL;
}
if ( e->anchored != NULL )
{
st_free_table( e->anchored );
e->anchored = NULL;
}
/*
* Free the markers tables
*/
if ( e->markers != NULL )
{
st_free_table( e->markers );
e->markers = NULL;
}
}
SyckLevel *
syck_emitter_current_level( SyckEmitter *e )
{
return &e->levels[e->lvl_idx-1];
}
SyckLevel *
syck_emitter_parent_level( SyckEmitter *e )
{
return &e->levels[e->lvl_idx-2];
}
void
syck_emitter_pop_level( SyckEmitter *e )
{
ASSERT( e != NULL );
/* The root level should never be popped */
if ( e->lvl_idx <= 1 ) return;
e->lvl_idx -= 1;
free( e->levels[e->lvl_idx].domain );
}
void
syck_emitter_add_level( SyckEmitter *e, int len, enum syck_level_status status )
{
ASSERT( e != NULL );
if ( e->lvl_idx + 1 > e->lvl_capa )
{
e->lvl_capa += ALLOC_CT;
S_REALLOC_N( e->levels, SyckLevel, e->lvl_capa );
}
ASSERT( len > e->levels[e->lvl_idx-1].spaces );
e->levels[e->lvl_idx].spaces = len;
e->levels[e->lvl_idx].ncount = 0;
e->levels[e->lvl_idx].domain = syck_strndup( e->levels[e->lvl_idx-1].domain, strlen( e->levels[e->lvl_idx-1].domain ) );
e->levels[e->lvl_idx].status = status;
e->levels[e->lvl_idx].anctag = 0;
e->lvl_idx += 1;
}
void
syck_emitter_reset_levels( SyckEmitter *e )
{
while ( e->lvl_idx > 1 )
{
syck_emitter_pop_level( e );
}
if ( e->lvl_idx < 1 )
{
e->lvl_idx = 1;
e->levels[0].spaces = -1;
e->levels[0].ncount = 0;
e->levels[0].domain = syck_strndup( "", 0 );
e->levels[0].anctag = 0;
}
e->levels[0].status = syck_lvl_header;
}
void
syck_emitter_handler( SyckEmitter *e, SyckEmitterHandler hdlr )
{
e->emitter_handler = hdlr;
}
void
syck_output_handler( SyckEmitter *e, SyckOutputHandler hdlr )
{
e->output_handler = hdlr;
}
void
syck_free_emitter( SyckEmitter *e )
{
/*
* Free tables
*/
syck_emitter_st_free( e );
syck_emitter_reset_levels( e );
S_FREE( e->levels[0].domain );
S_FREE( e->levels );
if ( e->buffer != NULL )
{
S_FREE( e->buffer );
}
S_FREE( e );
}
void
syck_emitter_clear( SyckEmitter *e )
{
if ( e->buffer == NULL )
{
e->buffer = S_ALLOC_N( char, e->bufsize );
S_MEMZERO( e->buffer, char, e->bufsize );
}
e->buffer[0] = '\0';
e->marker = e->buffer;
e->bufpos = 0;
}
/*
* Raw write to the emitter buffer.
*/
void
syck_emitter_write( SyckEmitter *e, char *str, long len )
{
long at;
ASSERT( str != NULL )
if ( e->buffer == NULL )
{
syck_emitter_clear( e );
}
/*
* Flush if at end of buffer
*/
at = e->marker - e->buffer;
if ( len + at >= e->bufsize )
{
syck_emitter_flush( e, 0 );
for (;;) {
long rest = e->bufsize - (e->marker - e->buffer);
if (len <= rest) break;
S_MEMCPY( e->marker, str, char, rest );
e->marker += rest;
str += rest;
len -= rest;
syck_emitter_flush( e, 0 );
}
}
/*
* Write to buffer
*/
S_MEMCPY( e->marker, str, char, len );
e->marker += len;
e->marker[0] = '\0';
}
/*
* Write a chunk of data out.
*/
void
syck_emitter_flush( SyckEmitter *e, long check_room )
{
/*
* Check for enough space in the buffer for check_room length.
*/
if ( check_room > 0 )
{
if ( e->bufsize > ( e->marker - e->buffer ) + check_room )
{
return;
}
}
else
{
check_room = e->bufsize;
}
/*
* Commit buffer.
*/
if ( check_room > e->marker - e->buffer )
{
check_room = e->marker - e->buffer;
}
(e->output_handler)( e, e->buffer, check_room );
e->bufpos += check_room;
e->marker -= check_room;
}
/*
* Start emitting from the given node, check for anchoring and then
* issue the callback to the emitter handler.
*/
void
syck_emit( SyckEmitter *e, st_data_t n )
{
SYMID oid;
char *anchor_name = NULL;
int indent = 0;
long x = 0;
SyckLevel *lvl = syck_emitter_current_level( e );
/*
* Determine headers.
*/
if ( e->stage == doc_open && ( e->headless == 0 || e->use_header == 1 ) )
{
if ( e->use_version == 1 )
{
char *header = S_ALLOC_N( char, 64 );
S_MEMZERO( header, char, 64 );
sprintf( header, "--- %%YAML:%d.%d ", SYCK_YAML_MAJOR, SYCK_YAML_MINOR );
syck_emitter_write( e, header, strlen( header ) );
S_FREE( header );
}
else
{
syck_emitter_write( e, "--- ", 4 );
}
e->stage = doc_processing;
}
/* Add new level */
if ( lvl->spaces >= 0 ) {
indent = lvl->spaces + e->indent;
}
syck_emitter_add_level( e, indent, syck_lvl_open );
lvl = syck_emitter_current_level( e );
/* Look for anchor */
if ( e->anchors != NULL &&
st_lookup( e->markers, n, (st_data_t *)&oid ) &&
st_lookup( e->anchors, (st_data_t)oid, (st_data_t *)&anchor_name ) )
{
if ( e->anchored == NULL )
{
e->anchored = st_init_numtable();
}
if ( ! st_lookup( e->anchored, (st_data_t)anchor_name, (st_data_t *)&x ) )
{
char *an = S_ALLOC_N( char, strlen( anchor_name ) + 3 );
sprintf( an, "&%s ", anchor_name );
syck_emitter_write( e, an, strlen( anchor_name ) + 2 );
free( an );
x = 1;
st_insert( e->anchored, (st_data_t)anchor_name, (st_data_t)x );
lvl->anctag = 1;
}
else
{
char *an = S_ALLOC_N( char, strlen( anchor_name ) + 2 );
sprintf( an, "*%s", anchor_name );
syck_emitter_write( e, an, strlen( anchor_name ) + 1 );
free( an );
goto end_emit;
}
}
(e->emitter_handler)( e, n );
/* Pop the level */
end_emit:
syck_emitter_pop_level( e );
if ( e->lvl_idx == 1 ) {
syck_emitter_write( e, "\n", 1 );
e->headless = 0;
e->stage = doc_open;
}
}
/*
* Determine what tag needs to be written, based on the taguri of the node
* and the implicit tag which would be assigned to this node. If a tag is
* required, write the tag.
*/
void syck_emit_tag( SyckEmitter *e, char *tag, char *ignore )
{
SyckLevel *lvl;
if ( tag == NULL ) return;
if ( ignore != NULL && syck_tagcmp( tag, ignore ) == 0 && e->explicit_typing == 0 ) return;
lvl = syck_emitter_current_level( e );
/* implicit */
if ( strlen( tag ) == 0 ) {
syck_emitter_write( e, "! ", 2 );
/* global types */
} else if ( strncmp( tag, "tag:", 4 ) == 0 ) {
int taglen = strlen( tag );
syck_emitter_write( e, "!", 1 );
if ( strncmp( tag + 4, YAML_DOMAIN, strlen( YAML_DOMAIN ) ) == 0 ) {
int skip = 4 + strlen( YAML_DOMAIN ) + 1;
syck_emitter_write( e, tag + skip, taglen - skip );
} else {
char *subd = tag + 4;
while ( *subd != ':' && *subd != '\0' ) subd++;
if ( *subd == ':' ) {
if ( subd - tag > ( strlen( YAML_DOMAIN ) + 5 ) &&
strncmp( subd - strlen( YAML_DOMAIN ), YAML_DOMAIN, strlen( YAML_DOMAIN ) ) == 0 ) {
syck_emitter_write( e, tag + 4, subd - strlen( YAML_DOMAIN ) - ( tag + 4 ) - 1 );
syck_emitter_write( e, "/", 1 );
syck_emitter_write( e, subd + 1, ( tag + taglen ) - ( subd + 1 ) );
} else {
syck_emitter_write( e, tag + 4, subd - ( tag + 4 ) );
syck_emitter_write( e, "/", 1 );
syck_emitter_write( e, subd + 1, ( tag + taglen ) - ( subd + 1 ) );
}
} else {
/* TODO: Invalid tag (no colon after domain) */
return;
}
}
syck_emitter_write( e, " ", 1 );
/* private types */
} else if ( strncmp( tag, "x-private:", 10 ) == 0 ) {
syck_emitter_write( e, "!!", 2 );
syck_emitter_write( e, tag + 10, strlen( tag ) - 10 );
syck_emitter_write( e, " ", 1 );
}
lvl->anctag = 1;
}
/*
* Emit a newline and an appropriately spaced indent.
*/
void syck_emit_indent( SyckEmitter *e )
{
int i;
SyckLevel *lvl = syck_emitter_current_level( e );
if ( e->bufpos == 0 && ( e->marker - e->buffer ) == 0 ) return;
if ( lvl->spaces >= 0 ) {
char *spcs = S_ALLOC_N( char, lvl->spaces + 2 );
spcs[0] = '\n'; spcs[lvl->spaces + 1] = '\0';
for ( i = 0; i < lvl->spaces; i++ ) spcs[i+1] = ' ';
syck_emitter_write( e, spcs, lvl->spaces + 1 );
free( spcs );
}
}
/* Clear the scan */
#define SCAN_NONE 0
/* All printable characters? */
#define SCAN_NONPRINT 1
/* Any indented lines? */
#define SCAN_INDENTED 2
/* Larger than the requested width? */
#define SCAN_WIDE 4
/* Opens or closes with whitespace? */
#define SCAN_WHITEEDGE 8
/* Contains a newline */
#define SCAN_NEWLINE 16
/* Contains a single quote */
#define SCAN_SINGLEQ 32
/* Contains a double quote */
#define SCAN_DOUBLEQ 64
/* Starts with a token */
#define SCAN_INDIC_S 128
/* Contains a flow indicator */
#define SCAN_INDIC_C 256
/* Ends without newlines */
#define SCAN_NONL_E 512
/* Ends with many newlines */
#define SCAN_MANYNL_E 1024
/* Contains flow map indicators */
#define SCAN_FLOWMAP 2048
/* Contains flow seq indicators */
#define SCAN_FLOWSEQ 4096
/* Contains a valid doc separator */
#define SCAN_DOCSEP 8192
/*
* Basic printable test for LATIN-1 characters.
*/
int
syck_scan_scalar( int req_width, char *cursor, long len )
{
long i = 0, start = 0;
int flags = SCAN_NONE;
if ( len < 1 ) return flags;
/* c-indicators from the spec */
if ( cursor[0] == '[' || cursor[0] == ']' ||
cursor[0] == '{' || cursor[0] == '}' ||
cursor[0] == '!' || cursor[0] == '*' ||
cursor[0] == '&' || cursor[0] == '|' ||
cursor[0] == '>' || cursor[0] == '\'' ||
cursor[0] == '"' || cursor[0] == '#' ||
cursor[0] == '%' || cursor[0] == '@' ||
cursor[0] == '&' ) {
flags |= SCAN_INDIC_S;
}
if ( ( cursor[0] == '-' || cursor[0] == ':' ||
cursor[0] == '?' || cursor[0] == ',' ) &&
( cursor[1] == ' ' || cursor[1] == '\n' || len == 1 ) )
{
flags |= SCAN_INDIC_S;
}
/* whitespace edges */
if ( cursor[len-1] != '\n' ) {
flags |= SCAN_NONL_E;
} else if ( len > 1 && cursor[len-2] == '\n' ) {
flags |= SCAN_MANYNL_E;
}
if (
( len > 0 && ( cursor[0] == ' ' || cursor[0] == '\t' ) ) ||
( len > 1 && ( cursor[len-1] == ' ' || cursor[len-1] == '\t' ) )
) {
flags |= SCAN_WHITEEDGE;
}
/* opening doc sep */
if ( len >= 3 && strncmp( cursor, "---", 3 ) == 0 )
flags |= SCAN_DOCSEP;
/* scan string */
for ( i = 0; i < len; i++ ) {
if ( ! ( cursor[i] == 0x9 ||
cursor[i] == 0xA ||
cursor[i] == 0xD ||
( cursor[i] >= 0x20 && cursor[i] <= 0x7E ) )
) {
flags |= SCAN_NONPRINT;
}
else if ( cursor[i] == '\n' ) {
flags |= SCAN_NEWLINE;
if ( len - i >= 3 && strncmp( &cursor[i+1], "---", 3 ) == 0 )
flags |= SCAN_DOCSEP;
if ( cursor[i+1] == ' ' || cursor[i+1] == '\t' )
flags |= SCAN_INDENTED;
if ( req_width > 0 && i - start > req_width )
flags |= SCAN_WIDE;
start = i;
}
else if ( cursor[i] == '\'' )
{
flags |= SCAN_SINGLEQ;
}
else if ( cursor[i] == '"' )
{
flags |= SCAN_DOUBLEQ;
}
else if ( cursor[i] == ']' )
{
flags |= SCAN_FLOWSEQ;
}
else if ( cursor[i] == '}' )
{
flags |= SCAN_FLOWMAP;
}
/* remember, if plain collections get implemented, to add nb-plain-flow-char */
else if ( ( cursor[i] == ' ' && cursor[i+1] == '#' ) ||
( cursor[i] == ':' &&
( cursor[i+1] == ' ' || cursor[i+1] == '\n' || i == len - 1 ) ) )
{
flags |= SCAN_INDIC_C;
}
else if ( cursor[i] == ',' &&
( cursor[i+1] == ' ' || cursor[i+1] == '\n' || i == len - 1 ) )
{
flags |= SCAN_FLOWMAP;
flags |= SCAN_FLOWSEQ;
}
}
/* printf( "---STR---\n%s\nFLAGS: %d\n", cursor, flags ); */
return flags;
}
/*
* All scalars should be emitted through this function, which determines an appropriate style,
* tag and indent.
*/
void syck_emit_scalar( SyckEmitter *e, char *tag, enum scalar_style force_style, int force_indent, int force_width,
char keep_nl, char *str, long len )
{
enum scalar_style favor_style = scalar_literal;
SyckLevel *parent = syck_emitter_parent_level( e );
SyckLevel *lvl = syck_emitter_current_level( e );
int scan = 0;
char *implicit;
if ( str == NULL ) str = "";
/* No empty nulls as map keys */
if ( len == 0 && ( parent->status == syck_lvl_map || parent->status == syck_lvl_imap ) &&
parent->ncount % 2 == 1 && syck_tagcmp( tag, "tag:yaml.org,2002:null" ) == 0 )
{
str = "~";
len = 1;
}
scan = syck_scan_scalar( force_width, str, len );
implicit = syck_match_implicit( str, len );
/* quote strings which default to implicits */
implicit = syck_taguri( YAML_DOMAIN, implicit, strlen( implicit ) );
if ( syck_tagcmp( tag, implicit ) != 0 && syck_tagcmp( tag, "tag:yaml.org,2002:str" ) == 0 ) {
force_style = scalar_2quote;
} else {
/* complex key */
if ( parent->status == syck_lvl_map && parent->ncount % 2 == 1 &&
( !( tag == NULL ||
( implicit != NULL && syck_tagcmp( tag, implicit ) == 0 && e->explicit_typing == 0 ) ) ) )
{
syck_emitter_write( e, "? ", 2 );
parent->status = syck_lvl_mapx;
}
syck_emit_tag( e, tag, implicit );
}
S_FREE( implicit );
/* if still arbitrary, sniff a good block style. */
if ( force_style == scalar_none ) {
if ( scan & SCAN_NEWLINE ) {
force_style = scalar_literal;
} else {
force_style = scalar_plain;
}
}
if ( e->style == scalar_fold ) {
favor_style = scalar_fold;
}
/* Determine block style */
if ( scan & SCAN_NONPRINT ) {
force_style = scalar_2quote;
} else if ( scan & SCAN_WHITEEDGE ) {
force_style = scalar_2quote;
} else if ( force_style != scalar_fold && ( scan & SCAN_INDENTED ) ) {
force_style = scalar_literal;
} else if ( force_style == scalar_plain && ( scan & SCAN_NEWLINE ) ) {
force_style = favor_style;
} else if ( force_style == scalar_plain && parent->status == syck_lvl_iseq && ( scan & SCAN_FLOWSEQ ) ) {
force_style = scalar_2quote;
} else if ( force_style == scalar_plain && parent->status == syck_lvl_imap && ( scan & SCAN_FLOWMAP ) ) {
force_style = scalar_2quote;
/* } else if ( force_style == scalar_fold && ( ! ( scan & SCAN_WIDE ) ) ) {
force_style = scalar_literal; */
} else if ( force_style == scalar_plain && ( scan & SCAN_INDIC_S || scan & SCAN_INDIC_C ) ) {
if ( scan & SCAN_NEWLINE ) {
force_style = favor_style;
} else {
force_style = scalar_2quote;
}
}
if ( force_indent > 0 ) {
lvl->spaces = parent->spaces + force_indent;
} else if ( scan & SCAN_DOCSEP ) {
lvl->spaces = parent->spaces + e->indent;
}
/* For now, all ambiguous keys are going to be double-quoted */
if ( ( parent->status == syck_lvl_map || parent->status == syck_lvl_mapx ) && parent->ncount % 2 == 1 ) {
if ( force_style != scalar_plain ) {
force_style = scalar_2quote;
}
}
/* If the parent is an inline, double quote anything complex */
if ( parent->status == syck_lvl_imap || parent->status == syck_lvl_iseq ) {
if ( force_style != scalar_plain && force_style != scalar_1quote ) {
force_style = scalar_2quote;
}
}
/* Fix the ending newlines */
if ( scan & SCAN_NONL_E ) {
keep_nl = NL_CHOMP;
} else if ( scan & SCAN_MANYNL_E ) {
keep_nl = NL_KEEP;
}
/* Write the text node */
switch ( force_style )
{
case scalar_1quote:
syck_emit_1quoted( e, force_width, str, len );
break;
case scalar_none:
case scalar_2quote:
syck_emit_2quoted( e, force_width, str, len );
break;
case scalar_fold:
syck_emit_folded( e, force_width, keep_nl, str, len );
break;
case scalar_literal:
syck_emit_literal( e, keep_nl, str, len );
break;
case scalar_plain:
syck_emitter_write( e, str, len );
break;
}
if ( parent->status == syck_lvl_mapx )
{
syck_emitter_write( e, "\n", 1 );
}
}
void
syck_emitter_escape( SyckEmitter *e, char *src, long len )
{
int i;
for( i = 0; i < len; i++ )
{
if( (src[i] < 0x20) || (0x7E < src[i]) )
{
syck_emitter_write( e, "\\", 1 );
if( '\0' == src[i] )
syck_emitter_write( e, "0", 1 );
else
{
syck_emitter_write( e, "x", 1 );
syck_emitter_write( e, (char *)hex_table + ((src[i] & 0xF0) >> 4), 1 );
syck_emitter_write( e, (char *)hex_table + (src[i] & 0x0F), 1 );
}
}
else
{
syck_emitter_write( e, src + i, 1 );
if( '\\' == src[i] )
syck_emitter_write( e, "\\", 1 );
}
}
}
/*
* Outputs a single-quoted block.
*/
void syck_emit_1quoted( SyckEmitter *e, int width, char *str, long len )
{
char do_indent = 0;
char *mark = str;
char *start = str;
char *end = str;
syck_emitter_write( e, "'", 1 );
while ( mark < str + len ) {
if ( do_indent ) {
syck_emit_indent( e );
do_indent = 0;
}
switch ( *mark ) {
case '\'': syck_emitter_write( e, "'", 1 ); break;
case '\n':
end = mark + 1;
if ( *start != ' ' && *start != '\n' && *end != '\n' && *end != ' ' ) {
syck_emitter_write( e, "\n\n", 2 );
} else {
syck_emitter_write( e, "\n", 1 );
}
do_indent = 1;
start = mark + 1;
break;
case ' ':
if ( width > 0 && *start != ' ' && mark - end > width ) {
do_indent = 1;
end = mark + 1;
} else {
syck_emitter_write( e, " ", 1 );
}
break;
default:
syck_emitter_write( e, mark, 1 );
break;
}
mark++;
}
syck_emitter_write( e, "'", 1 );
}
/*
* Outputs a double-quoted block.
*/
void syck_emit_2quoted( SyckEmitter *e, int width, char *str, long len )
{
char do_indent = 0;
char *mark = str;
char *start = str;
char *end = str;
syck_emitter_write( e, "\"", 1 );
while ( mark < str + len ) {
if ( do_indent > 0 ) {
if ( do_indent == 2 ) {
syck_emitter_write( e, "\\", 1 );
}
syck_emit_indent( e );
do_indent = 0;
}
switch ( *mark ) {
/* Escape sequences allowed within double quotes. */
case '"': syck_emitter_write( e, "\\\"", 2 ); break;
case '\\': syck_emitter_write( e, "\\\\", 2 ); break;
case '\0': syck_emitter_write( e, "\\0", 2 ); break;
case '\a': syck_emitter_write( e, "\\a", 2 ); break;
case '\b': syck_emitter_write( e, "\\b", 2 ); break;
case '\f': syck_emitter_write( e, "\\f", 2 ); break;
case '\r': syck_emitter_write( e, "\\r", 2 ); break;
case '\t': syck_emitter_write( e, "\\t", 2 ); break;
case '\v': syck_emitter_write( e, "\\v", 2 ); break;
case 0x1b: syck_emitter_write( e, "\\e", 2 ); break;
case '\n':
end = mark + 1;
syck_emitter_write( e, "\\n", 2 );
do_indent = 2;
start = mark + 1;
if ( start < str + len && ( *start == ' ' || *start == '\n' ) ) {
do_indent = 0;
}
break;
case ' ':
if ( width > 0 && *start != ' ' && mark - end > width ) {
do_indent = 1;
end = mark + 1;
} else {
syck_emitter_write( e, " ", 1 );
}
break;
default:
syck_emitter_escape( e, mark, 1 );
break;
}
mark++;
}
syck_emitter_write( e, "\"", 1 );
}
/*
* Outputs a literal block.
*/
void syck_emit_literal( SyckEmitter *e, char keep_nl, char *str, long len )
{
char *mark = str;
char *start = str;
char *end = str;
syck_emitter_write( e, "|", 1 );
if ( keep_nl == NL_CHOMP ) {
syck_emitter_write( e, "-", 1 );
} else if ( keep_nl == NL_KEEP ) {
syck_emitter_write( e, "+", 1 );
}
syck_emit_indent( e );
while ( mark < str + len ) {
if ( *mark == '\n' ) {
end = mark;
if ( *start != ' ' && *start != '\n' && *end != '\n' && *end != ' ' ) end += 1;
syck_emitter_write( e, start, end - start );
if ( mark + 1 == str + len ) {
if ( keep_nl != NL_KEEP ) syck_emitter_write( e, "\n", 1 );
} else {
syck_emit_indent( e );
}
start = mark + 1;
}
mark++;
}
end = str + len;
if ( start < end ) {
syck_emitter_write( e, start, end - start );
}
}
/*
* Outputs a folded block.
*/
void syck_emit_folded( SyckEmitter *e, int width, char keep_nl, char *str, long len )
{
char *mark = str;
char *start = str;
char *end = str;
syck_emitter_write( e, ">", 1 );
if ( keep_nl == NL_CHOMP ) {
syck_emitter_write( e, "-", 1 );
} else if ( keep_nl == NL_KEEP ) {
syck_emitter_write( e, "+", 1 );
}
syck_emit_indent( e );
if ( width <= 0 ) width = e->best_width;
while ( mark < str + len ) {
switch ( *mark ) {
case '\n':
syck_emitter_write( e, end, mark - end );
end = mark + 1;
if ( *start != ' ' && *start != '\n' && *end != '\n' && *end != ' ' ) {
syck_emitter_write( e, "\n", 1 );
}
if ( mark + 1 == str + len ) {
if ( keep_nl != NL_KEEP ) syck_emitter_write( e, "\n", 1 );
} else {
syck_emit_indent( e );
}
start = mark + 1;
break;
case ' ':
if ( *start != ' ' ) {
if ( mark - end > width ) {
syck_emitter_write( e, end, mark - end );
syck_emit_indent( e );
end = mark + 1;
}
}
break;
}
mark++;
}
if ( end < mark ) {
syck_emitter_write( e, end, mark - end );
}
}
/*
* Begins emission of a sequence.
*/
void syck_emit_seq( SyckEmitter *e, char *tag, enum seq_style style )
{
SyckLevel *parent = syck_emitter_parent_level( e );
SyckLevel *lvl = syck_emitter_current_level( e );
syck_emit_tag( e, tag, "tag:yaml.org,2002:seq" );
if ( style == seq_inline || ( parent->status == syck_lvl_imap || parent->status == syck_lvl_iseq ) ) {
syck_emitter_write( e, "[", 1 );
lvl->status = syck_lvl_iseq;
} else {
lvl->status = syck_lvl_seq;
}
}
/*
* Begins emission of a mapping.
*/
void syck_emit_map( SyckEmitter *e, char *tag, enum map_style style )
{
SyckLevel *parent = syck_emitter_parent_level( e );
SyckLevel *lvl = syck_emitter_current_level( e );
syck_emit_tag( e, tag, "tag:yaml.org,2002:map" );
if ( style == map_inline || ( parent->status == syck_lvl_imap || parent->status == syck_lvl_iseq ) ) {
syck_emitter_write( e, "{", 1 );
lvl->status = syck_lvl_imap;
} else {
lvl->status = syck_lvl_map;
}
}
/*
* Handles emitting of a collection item (for both
* sequences and maps)
*/
void syck_emit_item( SyckEmitter *e, st_data_t n )
{
SyckLevel *lvl = syck_emitter_current_level( e );
switch ( lvl->status )
{
case syck_lvl_seq:
{
SyckLevel *parent = syck_emitter_parent_level( e );
/* seq-in-map shortcut */
if ( parent->status == syck_lvl_map && lvl->ncount == 0 ) {
/* complex key */
if ( parent->ncount % 2 == 1 ) {
syck_emitter_write( e, "?", 1 );
parent->status = syck_lvl_mapx;
/* shortcut -- the lvl->anctag check should be unneccesary but
* there is a nasty shift/reduce in the parser on this point and
* i'm not ready to tickle it. */
} else if ( lvl->anctag == 0 ) {
lvl->spaces = parent->spaces;
}
}
/* seq-in-seq shortcut */
else if ( lvl->anctag == 0 && parent->status == syck_lvl_seq && lvl->ncount == 0 ) {
int spcs = ( lvl->spaces - parent->spaces ) - 2;
if ( spcs >= 0 ) {
int i = 0;
for ( i = 0; i < spcs; i++ ) {
syck_emitter_write( e, " ", 1 );
}
syck_emitter_write( e, "- ", 2 );
break;
}
}
syck_emit_indent( e );
syck_emitter_write( e, "- ", 2 );
}
break;
case syck_lvl_iseq:
{
if ( lvl->ncount > 0 ) {
syck_emitter_write( e, ", ", 2 );
}
}
break;
case syck_lvl_map:
{
SyckLevel *parent = syck_emitter_parent_level( e );
/* map-in-map */
if ( parent->status == syck_lvl_map && lvl->ncount == 0 ) {
/* complex key */
if ( parent->ncount % 2 == 1 ) {
syck_emitter_write( e, "?", 1 );
parent->status = syck_lvl_mapx;
}
}
/* map-in-seq shortcut */
if ( lvl->anctag == 0 && parent->status == syck_lvl_seq && lvl->ncount == 0 ) {
int spcs = ( lvl->spaces - parent->spaces ) - 2;
if ( spcs >= 0 ) {
int i = 0;
for ( i = 0; i < spcs; i++ ) {
syck_emitter_write( e, " ", 1 );
}
break;
}
}
if ( lvl->ncount % 2 == 0 ) {
syck_emit_indent( e );
} else {
syck_emitter_write( e, ": ", 2 );
}
}
break;
case syck_lvl_mapx:
{
if ( lvl->ncount % 2 == 0 ) {
syck_emit_indent( e );
lvl->status = syck_lvl_map;
} else {
int i;
if ( lvl->spaces > 0 ) {
char *spcs = S_ALLOC_N( char, lvl->spaces + 1 );
spcs[lvl->spaces] = '\0';
for ( i = 0; i < lvl->spaces; i++ ) spcs[i] = ' ';
syck_emitter_write( e, spcs, lvl->spaces );
S_FREE( spcs );
}
syck_emitter_write( e, ": ", 2 );
}
}
break;
case syck_lvl_imap:
{
if ( lvl->ncount > 0 ) {
if ( lvl->ncount % 2 == 0 ) {
syck_emitter_write( e, ", ", 2 );
} else {
syck_emitter_write( e, ": ", 2 );
}
}
}
break;
default: break;
}
lvl->ncount++;
syck_emit( e, n );
}
/*
* Closes emission of a collection.
*/
void syck_emit_end( SyckEmitter *e )
{
SyckLevel *lvl = syck_emitter_current_level( e );
SyckLevel *parent = syck_emitter_parent_level( e );
switch ( lvl->status )
{
case syck_lvl_seq:
if ( lvl->ncount == 0 ) {
syck_emitter_write( e, "[]\n", 3 );
} else if ( parent->status == syck_lvl_mapx ) {
syck_emitter_write( e, "\n", 1 );
}
break;
case syck_lvl_iseq:
syck_emitter_write( e, "]\n", 1 );
break;
case syck_lvl_map:
if ( lvl->ncount == 0 ) {
syck_emitter_write( e, "{}\n", 3 );
} else if ( lvl->ncount % 2 == 1 ) {
syck_emitter_write( e, ":\n", 1 );
} else if ( parent->status == syck_lvl_mapx ) {
syck_emitter_write( e, "\n", 1 );
}
break;
case syck_lvl_imap:
syck_emitter_write( e, "}\n", 1 );
break;
default: break;
}
}
/*
* Fill markers table with emitter nodes in the
* soon-to-be-emitted tree.
*/
SYMID
syck_emitter_mark_node( SyckEmitter *e, st_data_t n )
{
SYMID oid = 0;
char *anchor_name = NULL;
/*
* Ensure markers table is initialized.
*/
if ( e->markers == NULL )
{
e->markers = st_init_numtable();
}
/*
* Markers table initially marks the string position of the
* object. Doesn't yet create an anchor, simply notes the
* position.
*/
if ( ! st_lookup( e->markers, n, (st_data_t *)&oid ) )
{
/*
* Store all markers
*/
oid = e->markers->num_entries + 1;
st_insert( e->markers, n, (st_data_t)oid );
}
else
{
if ( e->anchors == NULL )
{
e->anchors = st_init_numtable();
}
if ( ! st_lookup( e->anchors, (st_data_t)oid, (st_data_t *)&anchor_name ) )
{
int idx = 0;
char *anc = ( e->anchor_format == NULL ? DEFAULT_ANCHOR_FORMAT : e->anchor_format );
/*
* Second time hitting this object, let's give it an anchor
*/
idx = e->anchors->num_entries + 1;
anchor_name = S_ALLOC_N( char, strlen( anc ) + 10 );
S_MEMZERO( anchor_name, char, strlen( anc ) + 10 );
sprintf( anchor_name, anc, idx );
/*
* Insert into anchors table
*/
st_insert( e->anchors, (st_data_t)oid, (st_data_t)anchor_name );
}
}
return oid;
}
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