зеркало из https://github.com/github/ruby.git
338 строки
6.0 KiB
C
338 строки
6.0 KiB
C
/*
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* node.c
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*
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* $Author$
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* $Date$
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*
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* Copyright (C) 2003 why the lucky stiff
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*/
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#include "ruby.h"
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#include "syck.h"
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/*
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* Node allocation functions
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*/
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SyckNode *
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syck_alloc_node( enum syck_kind_tag type )
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{
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SyckNode *s;
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s = S_ALLOC( SyckNode );
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s->kind = type;
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s->id = 0;
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s->type_id = NULL;
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s->anchor = NULL;
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s->shortcut = NULL;
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return s;
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}
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void
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syck_free_node( SyckNode *n )
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{
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syck_free_members( n );
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if ( n->type_id != NULL )
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S_FREE( n->type_id );
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if ( n->anchor != NULL )
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S_FREE( n->anchor );
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S_FREE( n );
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}
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SyckNode *
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syck_alloc_map()
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{
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SyckNode *n;
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struct SyckMap *m;
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m = S_ALLOC( struct SyckMap );
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m->idx = 0;
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m->capa = ALLOC_CT;
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m->keys = S_ALLOC_N( SYMID, m->capa );
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m->values = S_ALLOC_N( SYMID, m->capa );
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n = syck_alloc_node( syck_map_kind );
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n->data.pairs = m;
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return n;
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}
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SyckNode *
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syck_alloc_seq()
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{
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SyckNode *n;
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struct SyckSeq *s;
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s = S_ALLOC( struct SyckSeq );
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s->idx = 0;
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s->capa = ALLOC_CT;
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s->items = S_ALLOC_N( SYMID, s->capa );
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n = syck_alloc_node( syck_seq_kind );
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n->data.list = s;
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return n;
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}
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SyckNode *
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syck_alloc_str()
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{
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SyckNode *n;
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struct SyckStr *s;
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s = S_ALLOC( struct SyckStr );
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s->len = 0;
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s->ptr = NULL;
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s->style = scalar_none;
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n = syck_alloc_node( syck_str_kind );
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n->data.str = s;
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return n;
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}
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SyckNode *
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syck_new_str( char *str, enum scalar_style style )
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{
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return syck_new_str2( str, strlen( str ), style );
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}
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SyckNode *
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syck_new_str2( char *str, long len, enum scalar_style style )
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{
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SyckNode *n;
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n = syck_alloc_str();
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n->data.str->ptr = S_ALLOC_N( char, len + 1 );
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n->data.str->len = len;
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n->data.str->style = style;
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memcpy( n->data.str->ptr, str, len );
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n->data.str->ptr[len] = '\0';
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return n;
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}
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void
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syck_str_blow_away_commas( SyckNode *n )
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{
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char *go, *end;
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go = n->data.str->ptr;
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end = go + n->data.str->len;
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while ( *(++go) != '\0' )
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{
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if ( *go == ',' )
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{
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n->data.str->len -= 1;
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memmove( go, go + 1, end - go );
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end -= 1;
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}
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}
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}
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char *
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syck_str_read( SyckNode *n )
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{
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ASSERT( n != NULL );
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return n->data.str->ptr;
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}
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SyckNode *
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syck_new_map( SYMID key, SYMID value )
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{
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SyckNode *n;
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n = syck_alloc_map();
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syck_map_add( n, key, value );
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return n;
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}
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void
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syck_map_add( SyckNode *map, SYMID key, SYMID value )
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{
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struct SyckMap *m;
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long idx;
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ASSERT( map != NULL );
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ASSERT( map->data.pairs != NULL );
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m = map->data.pairs;
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idx = m->idx;
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m->idx += 1;
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if ( m->idx > m->capa )
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{
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m->capa += ALLOC_CT;
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S_REALLOC_N( m->keys, SYMID, m->capa );
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S_REALLOC_N( m->values, SYMID, m->capa );
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}
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m->keys[idx] = key;
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m->values[idx] = value;
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}
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void
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syck_map_update( SyckNode *map1, SyckNode *map2 )
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{
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struct SyckMap *m1, *m2;
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long new_idx, new_capa;
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ASSERT( map1 != NULL );
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ASSERT( map2 != NULL );
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m1 = map1->data.pairs;
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m2 = map2->data.pairs;
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if ( m2->idx < 1 ) return;
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new_idx = m1->idx;
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new_idx += m2->idx;
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new_capa = m1->capa;
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while ( new_idx > new_capa )
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{
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new_capa += ALLOC_CT;
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}
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if ( new_capa > m1->capa )
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{
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m1->capa = new_capa;
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S_REALLOC_N( m1->keys, SYMID, m1->capa );
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S_REALLOC_N( m1->values, SYMID, m1->capa );
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}
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for ( new_idx = 0; new_idx < m2->idx; m1->idx++, new_idx++ )
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{
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m1->keys[m1->idx] = m2->keys[new_idx];
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m1->values[m1->idx] = m2->values[new_idx];
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}
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}
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long
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syck_map_count( SyckNode *map )
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{
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ASSERT( map != NULL );
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ASSERT( map->data.pairs != NULL );
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return map->data.pairs->idx;
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}
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void
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syck_map_assign( SyckNode *map, enum map_part p, long idx, SYMID id )
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{
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struct SyckMap *m;
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ASSERT( map != NULL );
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m = map->data.pairs;
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ASSERT( m != NULL );
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if ( p == map_key )
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{
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m->keys[idx] = id;
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}
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else
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{
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m->values[idx] = id;
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}
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}
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SYMID
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syck_map_read( SyckNode *map, enum map_part p, long idx )
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{
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struct SyckMap *m;
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ASSERT( map != NULL );
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m = map->data.pairs;
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ASSERT( m != NULL );
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if ( p == map_key )
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{
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return m->keys[idx];
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}
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else
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{
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return m->values[idx];
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}
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}
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SyckNode *
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syck_new_seq( SYMID value )
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{
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SyckNode *n;
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n = syck_alloc_seq();
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syck_seq_add( n, value );
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return n;
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}
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void
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syck_seq_add( SyckNode *arr, SYMID value )
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{
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struct SyckSeq *s;
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long idx;
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ASSERT( arr != NULL );
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ASSERT( arr->data.list != NULL );
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s = arr->data.list;
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idx = s->idx;
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s->idx += 1;
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if ( s->idx > s->capa )
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{
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s->capa += ALLOC_CT;
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S_REALLOC_N( s->items, SYMID, s->capa );
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}
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s->items[idx] = value;
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}
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long
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syck_seq_count( SyckNode *seq )
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{
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ASSERT( seq != NULL );
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ASSERT( seq->data.list != NULL );
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return seq->data.list->idx;
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}
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SYMID
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syck_seq_read( SyckNode *seq, long idx )
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{
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struct SyckSeq *s;
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ASSERT( seq != NULL );
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s = seq->data.list;
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ASSERT( s != NULL );
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return s->items[idx];
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}
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void
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syck_free_members( SyckNode *n )
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{
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if ( n == NULL ) return;
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switch ( n->kind )
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{
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case syck_str_kind:
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if ( n->data.str != NULL )
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{
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S_FREE( n->data.str->ptr );
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n->data.str->ptr = NULL;
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n->data.str->len = 0;
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S_FREE( n->data.str );
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n->data.str = NULL;
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}
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break;
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case syck_seq_kind:
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if ( n->data.list != NULL )
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{
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S_FREE( n->data.list->items );
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S_FREE( n->data.list );
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n->data.list = NULL;
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}
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break;
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case syck_map_kind:
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if ( n->data.pairs != NULL )
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{
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S_FREE( n->data.pairs->keys );
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S_FREE( n->data.pairs->values );
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S_FREE( n->data.pairs );
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n->data.pairs = NULL;
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}
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break;
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}
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}
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