/* dump.c * Copyright (c) 2011, Peter Ohler * All rights reserved. */ #include #include #include #include #include #include "base64.h" #include "cache8.h" #include "ox.h" #define USE_B64 0 #define MAX_DEPTH 1000 typedef unsigned long ulong; typedef struct _str { const char *str; size_t len; } *Str; typedef struct _element { struct _str clas; struct _str attr; unsigned long id; int indent; /* < 0 indicates no \n */ int closed; char type; } *Element; typedef struct _out { void (*w_start)(struct _out *out, Element e); void (*w_end)(struct _out *out, Element e); void (*w_time)(struct _out *out, VALUE obj); char *buf; char *end; char *cur; Cache8 circ_cache; unsigned long circ_cnt; int indent; int depth; /* used by dumpHash */ Options opts; VALUE obj; } *Out; static void dump_obj_to_xml(VALUE obj, Options copts, Out out); static void dump_first_obj(VALUE obj, Out out); static void dump_obj(ID aid, VALUE obj, int depth, Out out); static void dump_gen_doc(VALUE obj, int depth, Out out); static void dump_gen_element(VALUE obj, int depth, Out out); static void dump_gen_instruct(VALUE obj, int depth, Out out); static int dump_gen_attr(VALUE key, VALUE value, VALUE ov); static int dump_gen_nodes(VALUE obj, int depth, Out out); static void dump_gen_val_node(VALUE obj, int depth, const char *pre, size_t plen, const char *suf, size_t slen, Out out); static void dump_start(Out out, Element e); static void dump_end(Out out, Element e); static void grow(Out out, size_t len); static void dump_value(Out out, const char *value, size_t size); static void dump_str_value(Out out, const char *value, size_t size, const char *table); static int dump_var(ID key, VALUE value, VALUE ov); static void dump_num(Out out, VALUE obj); static void dump_date(Out out, VALUE obj); static void dump_time_thin(Out out, VALUE obj); static void dump_time_xsd(Out out, VALUE obj); static int dump_hash(VALUE key, VALUE value, VALUE ov); static int is_xml_friendly(const uchar *str, int len, const char *table); static const char hex_chars[17] = "0123456789abcdef"; // The : character is equivalent to 10. Used for replacement characters up to 10 // characters long such as '􏿿'. static const char xml_friendly_chars[257] = "\ :::::::::11::1::::::::::::::::::\ 11611156111111111111111111114141\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111"; static const char xml_quote_chars[257] = "\ :::::::::11::1::::::::::::::::::\ 11611151111111111111111111114141\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111"; static const char xml_element_chars[257] = "\ :::::::::11::1::::::::::::::::::\ 11111151111111111111111111114141\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111\ 11111111111111111111111111111111"; inline static int is_xml_friendly(const uchar *str, int len, const char *table) { for (; 0 < len; str++, len--) { if ('1' != table[*str]) { return 0; } } return 1; } inline static size_t xml_str_len(const uchar *str, size_t len, const char *table) { size_t size = 0; for (; 0 < len; str++, len--) { size += xml_friendly_chars[*str]; } return size - len * (size_t)'0'; } inline static void dump_hex(uchar c, Out out) { uchar d = (c >> 4) & 0x0F; *out->cur++ = hex_chars[d]; d = c & 0x0F; *out->cur++ = hex_chars[d]; } static Type obj_class_code(VALUE obj) { VALUE clas = rb_obj_class(obj); switch (rb_type(obj)) { case T_NIL: return NilClassCode; case T_ARRAY: return ArrayCode; case T_HASH: return HashCode; case T_TRUE: return TrueClassCode; case T_FALSE: return FalseClassCode; case T_FIXNUM: return FixnumCode; case T_FLOAT: return FloatCode; case T_STRING: return (is_xml_friendly((uchar *)StringValuePtr(obj), (int)RSTRING_LEN(obj), xml_element_chars)) ? StringCode : String64Code; case T_SYMBOL: { const char *sym = rb_id2name(SYM2ID(obj)); return (is_xml_friendly((uchar *)sym, (int)strlen(sym), xml_element_chars)) ? SymbolCode : Symbol64Code; } case T_DATA: return (rb_cTime == clas) ? TimeCode : ((ox_date_class == clas) ? DateCode : 0); case T_STRUCT: return (rb_cRange == clas) ? RangeCode : StructCode; case T_OBJECT: return (ox_document_clas == clas || ox_element_clas == clas) ? RawCode : ObjectCode; case T_REGEXP: return RegexpCode; case T_BIGNUM: return BignumCode; #ifdef T_COMPLEX case T_COMPLEX: return ComplexCode; #endif #ifdef T_RATIONAL case T_RATIONAL: return RationalCode; #endif case T_CLASS: return ClassCode; default: return 0; } } inline static void fill_indent(Out out, int cnt) { if (0 <= cnt) { *out->cur++ = '\n'; if (0 < out->opts->margin_len) { memcpy(out->cur, out->opts->margin, out->opts->margin_len); out->cur += out->opts->margin_len; } for (; 0 < cnt; cnt--) { *out->cur++ = ' '; } } } inline static void fill_value(Out out, const char *value, size_t len) { if (6 < len) { memcpy(out->cur, value, len); out->cur += len; } else { for (; 0 < len; len--, value++) { *out->cur++ = *value; } } } inline static void fill_attr(Out out, char name, const char *value, size_t len) { *out->cur++ = ' '; *out->cur++ = name; *out->cur++ = '='; *out->cur++ = '"'; if (6 < len) { memcpy(out->cur, value, len); out->cur += len; } else { for (; 0 < len; len--, value++) { *out->cur++ = *value; } } *out->cur++ = '"'; } inline static const char *ulong2str(ulong num, char *end) { char *b; *end-- = '\0'; for (b = end; 0 < num || b == end; num /= 10, b--) { *b = (num % 10) + '0'; } b++; return b; } static int check_circular(Out out, VALUE obj, Element e) { slot_t *slot; slot_t id; int result; if (0 == (id = ox_cache8_get(out->circ_cache, obj, &slot))) { out->circ_cnt++; id = out->circ_cnt; *slot = id; e->id = id; result = 0; } else { e->type = RefCode; e->clas.len = 0; e->clas.str = 0; e->closed = 1; e->id = id; out->w_start(out, e); result = 1; } return result; } static void grow(Out out, size_t len) { size_t size = out->end - out->buf; long pos = out->cur - out->buf; size *= 2; if (size <= len * 2 + pos) { size += len; } REALLOC_N(out->buf, char, size + 10); /* 10 extra for terminator character plus extra (paranoid) */ out->end = out->buf + size; out->cur = out->buf + pos; } static void dump_start(Out out, Element e) { size_t size = e->indent + 4 + out->opts->margin_len; if (0 < e->attr.len) { /* a="attr" */ size += e->attr.len + 5; } if (0 < e->clas.len) { /* c="class" */ size += e->clas.len + 5; } if (0 < e->id) { /* i="id" */ size += 24; /* over estimate, 19 digits */ } if (out->end - out->cur <= (long)size) { grow(out, size); } if (out->buf + out->opts->margin_len < out->cur) { fill_indent(out, e->indent); } *out->cur++ = '<'; *out->cur++ = e->type; if (0 < e->attr.len) { fill_attr(out, 'a', e->attr.str, e->attr.len); } if ((ObjectCode == e->type || ExceptionCode == e->type || StructCode == e->type || ClassCode == e->type) && 0 < e->clas.len) { fill_attr(out, 'c', e->clas.str, e->clas.len); } if (0 < e->id) { char buf[32]; char *end = buf + sizeof(buf) - 1; const char *s = ulong2str(e->id, end); fill_attr(out, 'i', s, end - s); } if (e->closed) { if (out->opts->no_empty) { *out->cur++ = '>'; *out->cur++ = '<'; *out->cur++ = '/'; *out->cur++ = e->type; } else { *out->cur++ = '/'; } } *out->cur++ = '>'; *out->cur = '\0'; } static void dump_end(Out out, Element e) { size_t size = e->indent + 5 + out->opts->margin_len; if (out->end - out->cur <= (long)size) { grow(out, size); } fill_indent(out, e->indent); *out->cur++ = '<'; *out->cur++ = '/'; *out->cur++ = e->type; *out->cur++ = '>'; *out->cur = '\0'; } inline static void dump_value(Out out, const char *value, size_t size) { if (out->end - out->cur <= (long)size) { grow(out, size); } if (6 < size) { memcpy(out->cur, value, size); out->cur += size; } else { for (; 0 < size; size--, value++) { *out->cur++ = *value; } } *out->cur = '\0'; } inline static void dump_str_value(Out out, const char *value, size_t size, const char *table) { size_t xsize = xml_str_len((const uchar *)value, size, table); if (out->end - out->cur <= (long)xsize) { grow(out, xsize); } for (; 0 < size; size--, value++) { if ('1' == table[(uchar)*value]) { *out->cur++ = *value; } else { switch (*value) { case '"': *out->cur++ = '&'; *out->cur++ = 'q'; *out->cur++ = 'u'; *out->cur++ = 'o'; *out->cur++ = 't'; *out->cur++ = ';'; break; case '&': *out->cur++ = '&'; *out->cur++ = 'a'; *out->cur++ = 'm'; *out->cur++ = 'p'; *out->cur++ = ';'; break; case '\'': *out->cur++ = '&'; *out->cur++ = 'a'; *out->cur++ = 'p'; *out->cur++ = 'o'; *out->cur++ = 's'; *out->cur++ = ';'; break; case '<': *out->cur++ = '&'; *out->cur++ = 'l'; *out->cur++ = 't'; *out->cur++ = ';'; break; case '>': *out->cur++ = '&'; *out->cur++ = 'g'; *out->cur++ = 't'; *out->cur++ = ';'; break; default: // Must be one of the invalid characters. if (StrictEffort == out->opts->effort) { rb_raise(ox_syntax_error_class, "'\\#x%02x' is not a valid XML character.", *value); } if (Yes == out->opts->allow_invalid) { *out->cur++ = '&'; *out->cur++ = '#'; *out->cur++ = 'x'; *out->cur++ = '0'; *out->cur++ = '0'; dump_hex(*value, out); *out->cur++ = ';'; } else if ('\0' != *out->opts->inv_repl) { // If the empty string then ignore. The first character of // the replacement is the length. memcpy(out->cur, out->opts->inv_repl + 1, (size_t)*out->opts->inv_repl); out->cur += *out->opts->inv_repl; } break; } } } *out->cur = '\0'; } inline static void dump_num(Out out, VALUE obj) { char buf[32]; char *b = buf + sizeof(buf) - 1; long num = NUM2LONG(obj); int neg = 0; if (0 > num) { neg = 1; num = -num; } *b-- = '\0'; if (0 < num) { for (; 0 < num; num /= 10, b--) { *b = (num % 10) + '0'; } if (neg) { *b = '-'; } else { b++; } } else { *b = '0'; } if (out->end - out->cur <= (long)(sizeof(buf) - (b - buf))) { grow(out, sizeof(buf) - (b - buf)); } for (; '\0' != *b; b++) { *out->cur++ = *b; } *out->cur = '\0'; } static void dump_time_thin(Out out, VALUE obj) { char buf[64]; char *b = buf + sizeof(buf) - 1; #if HAVE_RB_TIME_TIMESPEC struct timespec ts = rb_time_timespec(obj); time_t sec = ts.tv_sec; long nsec = ts.tv_nsec; #else time_t sec = NUM2LONG(rb_funcall2(obj, ox_tv_sec_id, 0, 0)); long nsec = NUM2LONG(rb_funcall2(obj, ox_tv_nsec_id, 0, 0)); // long nsec = NUM2LONG(rb_funcall2(obj, ox_tv_usec_id, 0, 0)) * 1000; #endif char *dot = b - 10; long size; *b-- = '\0'; for (; dot < b; b--, nsec /= 10) { *b = '0' + (nsec % 10); } *b-- = '.'; for (; 0 < sec; b--, sec /= 10) { *b = '0' + (sec % 10); } b++; size = sizeof(buf) - (b - buf) - 1; if (out->end - out->cur <= size) { grow(out, size); } memcpy(out->cur, b, size); out->cur += size; } static void dump_date(Out out, VALUE obj) { char buf[64]; char *b = buf + sizeof(buf) - 1; long jd = NUM2LONG(rb_funcall2(obj, ox_jd_id, 0, 0)); long size; *b-- = '\0'; for (; 0 < jd; b--, jd /= 10) { *b = '0' + (jd % 10); } b++; if ('\0' == *b) { b--; *b = '0'; } size = sizeof(buf) - (b - buf) - 1; if (out->end - out->cur <= size) { grow(out, size); } memcpy(out->cur, b, size); out->cur += size; } static void dump_time_xsd(Out out, VALUE obj) { struct tm *tm; #if HAVE_RB_TIME_TIMESPEC struct timespec ts = rb_time_timespec(obj); time_t sec = ts.tv_sec; long nsec = ts.tv_nsec; #else time_t sec = NUM2LONG(rb_funcall2(obj, ox_tv_sec_id, 0, 0)); long nsec = NUM2LONG(rb_funcall2(obj, ox_tv_nsec_id, 0, 0)); // long nsec = NUM2LONG(rb_funcall2(obj, ox_tv_usec_id, 0, 0)) * 1000; #endif int tzhour, tzmin; char tzsign = '+'; if (out->end - out->cur <= 33) { grow(out, 33); } /* 2010-07-09T10:47:45.895826+09:00 */ tm = localtime(&sec); #if HAVE_ST_TM_GMTOFF if (0 > tm->tm_gmtoff) { tzsign = '-'; tzhour = (int)(tm->tm_gmtoff / -3600); tzmin = (int)(tm->tm_gmtoff / -60) - (tzhour * 60); } else { tzhour = (int)(tm->tm_gmtoff / 3600); tzmin = (int)(tm->tm_gmtoff / 60) - (tzhour * 60); } #else tzhour = 0; tzmin = 0; #endif /* TBD replace with more efficient printer */ out->cur += sprintf(out->cur, "%04d-%02d-%02dT%02d:%02d:%02d.%06ld%c%02d:%02d", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec, nsec / 1000, tzsign, tzhour, tzmin); } static void dump_first_obj(VALUE obj, Out out) { char buf[128]; Options copts = out->opts; int cnt; if (Yes == copts->with_xml) { if (0 < copts->margin_len) { dump_value(out, copts->margin, copts->margin_len); } if ('\0' == *copts->encoding) { dump_value(out, "", 21); } else { cnt = snprintf(buf, sizeof(buf), "", copts->encoding); dump_value(out, buf, cnt); } } if (Yes == copts->with_instruct) { if (out->buf < out->cur) { dump_value(out, "\n", 1); } if (0 < copts->margin_len) { dump_value(out, copts->margin, copts->margin_len); } cnt = snprintf( buf, sizeof(buf), "", (Yes == copts->circular) ? " circular=\"yes\"" : ((No == copts->circular) ? " circular=\"no\"" : ""), (Yes == copts->xsd_date) ? " xsd_date=\"yes\"" : ((No == copts->xsd_date) ? " xsd_date=\"no\"" : "")); dump_value(out, buf, cnt); } if (Yes == copts->with_dtd) { if (0 < copts->margin_len) { dump_value(out, copts->margin, copts->margin_len); } cnt = snprintf(buf, sizeof(buf), "%s", (out->buf < out->cur) ? "\n" : "", obj_class_code(obj)); dump_value(out, buf, cnt); } if (0 < copts->margin_len) { dump_value(out, copts->margin, copts->margin_len); } dump_obj(0, obj, 0, out); } static void dump_obj(ID aid, VALUE obj, int depth, Out out) { struct _element e; VALUE prev_obj = out->obj; char value_buf[64]; int cnt; if (MAX_DEPTH < depth) { rb_raise(rb_eSysStackError, "maximum depth exceeded"); } out->obj = obj; if (0 == aid) { e.attr.str = 0; e.attr.len = 0; } else { e.attr.str = rb_id2name(aid); // Ruby 2.3 started to return NULL for some IDs so check for // NULL. Ignore if NULL aid. if (NULL == e.attr.str) { return; } e.attr.len = strlen(e.attr.str); } e.closed = 0; if (0 == depth) { e.indent = (0 <= out->indent) ? 0 : -1; } else if (0 > out->indent) { e.indent = -1; } else if (0 == out->indent) { e.indent = 0; } else { e.indent = depth * out->indent; } e.id = 0; e.clas.len = 0; e.clas.str = 0; switch (rb_type(obj)) { case T_NIL: e.type = NilClassCode; e.closed = 1; out->w_start(out, &e); break; case T_ARRAY: if (0 != out->circ_cache && check_circular(out, obj, &e)) { break; } cnt = (int)RARRAY_LEN(obj); e.type = ArrayCode; e.closed = (0 >= cnt); out->w_start(out, &e); if (!e.closed) { const VALUE *np = RARRAY_PTR(obj); int i; int d2 = depth + 1; for (i = cnt; 0 < i; i--, np++) { dump_obj(0, *np, d2, out); } out->w_end(out, &e); } break; case T_HASH: if (0 != out->circ_cache && check_circular(out, obj, &e)) { break; } cnt = (int)RHASH_SIZE(obj); e.type = HashCode; e.closed = (0 >= cnt); out->w_start(out, &e); if (0 < cnt) { unsigned int od = out->depth; out->depth = depth + 1; rb_hash_foreach(obj, dump_hash, (VALUE)out); out->depth = od; out->w_end(out, &e); } break; case T_TRUE: e.type = TrueClassCode; e.closed = 1; out->w_start(out, &e); break; case T_FALSE: e.type = FalseClassCode; e.closed = 1; out->w_start(out, &e); break; case T_FIXNUM: e.type = FixnumCode; out->w_start(out, &e); dump_num(out, obj); e.indent = -1; out->w_end(out, &e); break; case T_FLOAT: e.type = FloatCode; cnt = snprintf(value_buf, sizeof(value_buf), "%0.16g", rb_num2dbl(obj)); out->w_start(out, &e); dump_value(out, value_buf, cnt); e.indent = -1; out->w_end(out, &e); break; case T_STRING: { const char *str; if (0 != out->circ_cache && check_circular(out, obj, &e)) { break; } str = StringValuePtr(obj); cnt = (int)RSTRING_LEN(obj); #if USE_B64 if (is_xml_friendly((uchar *)str, cnt)) { e.type = StringCode; out->w_start(out, &e); dump_str_value(out, str, cnt, '<'); e.indent = -1; out->w_end(out, &e); } else { ulong size = b64_size(cnt); char *b64 = ALLOCA_N(char, size + 1); e.type = String64Code; to_base64((uchar *)str, cnt, b64); out->w_start(out, &e); dump_value(out, b64, size); e.indent = -1; out->w_end(out, &e); } #else e.type = StringCode; out->w_start(out, &e); dump_str_value(out, str, cnt, xml_element_chars); e.indent = -1; out->w_end(out, &e); #endif break; } case T_SYMBOL: { const char *sym = rb_id2name(SYM2ID(obj)); cnt = (int)strlen(sym); #if USE_B64 if (is_xml_friendly((uchar *)sym, cnt)) { e.type = SymbolCode; out->w_start(out, &e); dump_str_value(out, sym, cnt, '<'); e.indent = -1; out->w_end(out, &e); } else { ulong size = b64_size(cnt); char *b64 = ALLOCA_N(char, size + 1); e.type = Symbol64Code; to_base64((uchar *)sym, cnt, b64); out->w_start(out, &e); dump_value(out, b64, size); e.indent = -1; out->w_end(out, &e); } #else e.type = SymbolCode; out->w_start(out, &e); dump_str_value(out, sym, cnt, xml_element_chars); e.indent = -1; out->w_end(out, &e); #endif break; } case T_DATA: { VALUE clas; clas = rb_obj_class(obj); if (rb_cTime == clas) { e.type = TimeCode; out->w_start(out, &e); out->w_time(out, obj); e.indent = -1; out->w_end(out, &e); } else { const char *classname = rb_class2name(clas); if (0 == strcmp("Date", classname)) { e.type = DateCode; out->w_start(out, &e); dump_date(out, obj); e.indent = -1; out->w_end(out, &e); } else if (0 == strcmp("BigDecimal", classname)) { volatile VALUE rs = rb_funcall(obj, ox_to_s_id, 0); e.type = BigDecimalCode; out->w_start(out, &e); dump_value(out, StringValuePtr(rs), RSTRING_LEN(rs)); e.indent = -1; out->w_end(out, &e); } else { if (StrictEffort == out->opts->effort) { rb_raise(rb_eNotImpError, "Failed to dump T_DATA %s\n", classname); } else { e.type = NilClassCode; e.closed = 1; out->w_start(out, &e); } } } break; } case T_STRUCT: { #ifdef RSTRUCT_GET VALUE clas; if (0 != out->circ_cache && check_circular(out, obj, &e)) { break; } clas = rb_obj_class(obj); if (rb_cRange == clas) { VALUE beg = RSTRUCT_GET(obj, 0); VALUE end = RSTRUCT_GET(obj, 1); VALUE excl = RSTRUCT_GET(obj, 2); int d2 = depth + 1; e.type = RangeCode; e.clas.len = 5; e.clas.str = "Range"; out->w_start(out, &e); dump_obj(ox_beg_id, beg, d2, out); dump_obj(ox_end_id, end, d2, out); dump_obj(ox_excl_id, excl, d2, out); out->w_end(out, &e); } else { char num_buf[16]; int d2 = depth + 1; #ifdef RUBY_INTEGER_UNIFICATION long i; long cnt = NUM2LONG(rb_struct_size(obj)); #else // UNIFY_FIXNUM_AND_INTEGER int i; int cnt = (int)RSTRUCT_LEN(obj); #endif // UNIFY_FIXNUM_AND_INTEGER e.type = StructCode; e.clas.str = rb_class2name(clas); e.clas.len = strlen(e.clas.str); out->w_start(out, &e); for (i = 0; i < cnt; i++) { VALUE v = RSTRUCT_GET(obj, (int)(i)); dump_obj(rb_intern(ulong2str(i, num_buf + sizeof(num_buf) - 1)), v, d2, out); } out->w_end(out, &e); } #else e.type = NilClassCode; e.closed = 1; out->w_start(out, &e); #endif break; } case T_OBJECT: { VALUE clas; if (0 != out->circ_cache && check_circular(out, obj, &e)) { break; } clas = rb_obj_class(obj); e.clas.str = rb_class2name(clas); e.clas.len = strlen(e.clas.str); if (ox_document_clas == clas) { e.type = RawCode; out->w_start(out, &e); dump_gen_doc(obj, depth + 1, out); out->w_end(out, &e); } else if (ox_element_clas == clas) { e.type = RawCode; out->w_start(out, &e); dump_gen_element(obj, depth + 1, out); out->w_end(out, &e); } else { /* Object */ #if HAVE_RB_IVAR_FOREACH e.type = (Qtrue == rb_obj_is_kind_of(obj, rb_eException)) ? ExceptionCode : ObjectCode; cnt = (int)rb_ivar_count(obj); e.closed = (0 >= cnt); out->w_start(out, &e); if (0 < cnt) { unsigned int od = out->depth; out->depth = depth + 1; rb_ivar_foreach(obj, dump_var, (VALUE)out); out->depth = od; out->w_end(out, &e); } #else volatile VALUE vars = rb_obj_instance_variables(obj); // volatile VALUE vars = rb_funcall2(obj, rb_intern("instance_variables"), 0, 0); e.type = (Qtrue == rb_obj_is_kind_of(obj, rb_eException)) ? ExceptionCode : ObjectCode; cnt = (int)RARRAY_LEN(vars); e.closed = (0 >= cnt); out->w_start(out, &e); if (0 < cnt) { const VALUE *np = RARRAY_PTR(vars); ID vid; unsigned int od = out->depth; int i; out->depth = depth + 1; for (i = cnt; 0 < i; i--, np++) { vid = rb_to_id(*np); dump_var(vid, rb_ivar_get(obj, vid), out); } out->depth = od; out->w_end(out, &e); } #endif } break; } case T_REGEXP: { volatile VALUE rs = rb_funcall2(obj, ox_inspect_id, 0, 0); const char *s = StringValuePtr(rs); cnt = (int)RSTRING_LEN(rs); e.type = RegexpCode; out->w_start(out, &e); #if USE_B64 if (is_xml_friendly((uchar *)s, cnt)) { /*dump_value(out, "/", 1); */ dump_str_value(out, s, cnt, '<'); } else { ulong size = b64_size(cnt); char *b64 = ALLOCA_N(char, size + 1); to_base64((uchar *)s, cnt, b64); dump_value(out, b64, size); } #else dump_str_value(out, s, cnt, xml_element_chars); #endif e.indent = -1; out->w_end(out, &e); break; } case T_BIGNUM: { volatile VALUE rs = rb_big2str(obj, 10); e.type = BignumCode; out->w_start(out, &e); dump_value(out, StringValuePtr(rs), RSTRING_LEN(rs)); e.indent = -1; out->w_end(out, &e); break; } #ifdef T_COMPLEX case T_COMPLEX: e.type = ComplexCode; out->w_start(out, &e); #ifdef RCOMPLEX dump_obj(0, RCOMPLEX(obj)->real, depth + 1, out); dump_obj(0, RCOMPLEX(obj)->imag, depth + 1, out); #else dump_obj(0, rb_funcall2(obj, rb_intern("real"), 0, 0), depth + 1, out); dump_obj(0, rb_funcall2(obj, rb_intern("imag"), 0, 0), depth + 1, out); #endif out->w_end(out, &e); break; #endif #ifdef T_RATIONAL case T_RATIONAL: e.type = RationalCode; out->w_start(out, &e); #ifdef RRATIONAL dump_obj(0, RRATIONAL(obj)->num, depth + 1, out); dump_obj(0, RRATIONAL(obj)->den, depth + 1, out); #else dump_obj(0, rb_funcall2(obj, rb_intern("numerator"), 0, 0), depth + 1, out); dump_obj(0, rb_funcall2(obj, rb_intern("denominator"), 0, 0), depth + 1, out); #endif out->w_end(out, &e); break; #endif case T_CLASS: { e.type = ClassCode; e.clas.str = rb_class2name(obj); e.clas.len = strlen(e.clas.str); e.closed = 1; out->w_start(out, &e); break; } default: if (StrictEffort == out->opts->effort) { rb_raise(rb_eNotImpError, "Failed to dump %s Object (%02x)\n", rb_obj_classname(obj), rb_type(obj)); } else { e.type = NilClassCode; e.closed = 1; out->w_start(out, &e); } break; } out->obj = prev_obj; } static int dump_var(ID key, VALUE value, VALUE ov) { Out out = (Out)ov; if (T_DATA == rb_type(value) && key == ox_mesg_id) { /* There is a secret recipe that keeps Exception mesg attributes as a * T_DATA until it is needed. The safe way around this hack is to call * the message() method and use the returned string as the * message. Not pretty but it solves the most common use of this * hack. If there are others they will have to be handled one at a * time. */ value = rb_funcall(out->obj, ox_message_id, 0); } dump_obj(key, value, out->depth, out); return ST_CONTINUE; } static int dump_hash(VALUE key, VALUE value, VALUE ov) { Out out = (Out)ov; dump_obj(0, key, out->depth, out); dump_obj(0, value, out->depth, out); return ST_CONTINUE; } static void dump_gen_doc(VALUE obj, int depth, Out out) { volatile VALUE attrs = rb_attr_get(obj, ox_attributes_id); volatile VALUE nodes = rb_attr_get(obj, ox_nodes_id); if ('\0' == *out->opts->encoding && Qnil != attrs) { volatile VALUE renc = rb_hash_lookup(attrs, ox_encoding_sym); if (Qnil != renc) { const char *enc = StringValuePtr(renc); strncpy(out->opts->encoding, enc, sizeof(out->opts->encoding) - 1); } } if (Yes == out->opts->with_xml) { if (0 < out->opts->margin_len) { dump_value(out, out->opts->margin, out->opts->margin_len); } dump_value(out, "", 2); } if (Yes == out->opts->with_instruct) { if (out->buf < out->cur) { dump_value(out, "\n", 1); } if (0 < out->opts->margin_len) { dump_value(out, out->opts->margin, out->opts->margin_len); } dump_value(out, "", 35); } if (Qnil != nodes) { dump_gen_nodes(nodes, depth, out); } } static void dump_gen_element(VALUE obj, int depth, Out out) { volatile VALUE rname = rb_attr_get(obj, ox_at_value_id); volatile VALUE attrs = rb_attr_get(obj, ox_attributes_id); volatile VALUE nodes = rb_attr_get(obj, ox_nodes_id); const char *name = StringValuePtr(rname); long nlen = RSTRING_LEN(rname); size_t size; int indent; if (0 > out->indent) { indent = -1; } else if (0 == out->indent) { indent = 0; } else { indent = depth * out->indent; } size = indent + 4 + nlen + out->opts->margin_len; if (out->end - out->cur <= (long)size) { grow(out, size); } if (0 == depth && 0 < out->opts->margin_len && 0 < out->indent) { memcpy(out->cur, out->opts->margin, out->opts->margin_len); out->cur += out->opts->margin_len; } fill_indent(out, indent); *out->cur++ = '<'; fill_value(out, name, nlen); if (Qnil != attrs) { rb_hash_foreach(attrs, dump_gen_attr, (VALUE)out); } if (Qnil != nodes && 0 < RARRAY_LEN(nodes)) { int do_indent; *out->cur++ = '>'; do_indent = dump_gen_nodes(nodes, depth, out); if (out->end - out->cur <= (long)size) { grow(out, size); } if (do_indent) { fill_indent(out, indent); } *out->cur++ = '<'; *out->cur++ = '/'; fill_value(out, name, nlen); } else if (out->opts->no_empty) { *out->cur++ = '>'; *out->cur++ = '<'; *out->cur++ = '/'; fill_value(out, name, nlen); } else { *out->cur++ = '/'; } *out->cur++ = '>'; *out->cur = '\0'; } static void dump_gen_instruct(VALUE obj, int depth, Out out) { volatile VALUE rname = rb_attr_get(obj, ox_at_value_id); volatile VALUE attrs = rb_attr_get(obj, ox_attributes_id); volatile VALUE rcontent = rb_attr_get(obj, ox_at_content_id); const char *name = StringValuePtr(rname); const char *content = 0; long nlen = RSTRING_LEN(rname); long clen = 0; size_t size; if (T_STRING == rb_type(rcontent)) { content = StringValuePtr(rcontent); clen = RSTRING_LEN(rcontent); size = 4 + nlen + clen; } else { size = 4 + nlen; } if (out->end - out->cur <= (long)size) { grow(out, size); } *out->cur++ = '<'; *out->cur++ = '?'; fill_value(out, name, nlen); if (0 != content) { fill_value(out, content, clen); } else if (Qnil != attrs) { rb_hash_foreach(attrs, dump_gen_attr, (VALUE)out); } *out->cur++ = '?'; *out->cur++ = '>'; *out->cur = '\0'; } static int dump_gen_nodes(VALUE obj, int depth, Out out) { long cnt = RARRAY_LEN(obj); int indent_needed = 1; if (0 < cnt) { const VALUE *np = RARRAY_PTR(obj); VALUE clas; int d2 = depth + 1; if (MAX_DEPTH < depth) { rb_raise(rb_eSysStackError, "maximum depth exceeded"); } for (; 0 < cnt; cnt--, np++) { clas = rb_obj_class(*np); if (ox_element_clas == clas) { dump_gen_element(*np, d2, out); } else if (ox_instruct_clas == clas) { dump_gen_instruct(*np, d2, out); indent_needed = (1 == cnt) ? 0 : 1; } else if (rb_cString == clas) { dump_str_value(out, StringValuePtr(*(VALUE *)np), RSTRING_LEN(*np), xml_element_chars); indent_needed = (1 == cnt) ? 0 : 1; } else if (ox_comment_clas == clas) { dump_gen_val_node(*np, d2, "", 4, out); } else if (ox_raw_clas == clas) { dump_gen_val_node(*np, d2, "", 0, "", 0, out); } else if (ox_cdata_clas == clas) { dump_gen_val_node(*np, d2, "", 3, out); } else if (ox_doctype_clas == clas) { dump_gen_val_node(*np, d2, "", 1, out); } else { rb_raise(rb_eTypeError, "Unexpected class, %s, while dumping generic XML\n", rb_class2name(clas)); } } } return indent_needed; } static int dump_gen_attr(VALUE key, VALUE value, VALUE ov) { Out out = (Out)ov; const char *ks; size_t klen; size_t size; switch (rb_type(key)) { case T_SYMBOL: ks = rb_id2name(SYM2ID(key)); break; case T_STRING: ks = StringValuePtr(key); break; default: key = rb_String(key); ks = StringValuePtr(key); break; } klen = strlen(ks); value = rb_String(value); size = 4 + klen + RSTRING_LEN(value); if (out->end - out->cur <= (long)size) { grow(out, size); } *out->cur++ = ' '; fill_value(out, ks, klen); *out->cur++ = '='; *out->cur++ = '"'; dump_str_value(out, StringValuePtr(value), RSTRING_LEN(value), xml_quote_chars); *out->cur++ = '"'; return ST_CONTINUE; } static void dump_gen_val_node(VALUE obj, int depth, const char *pre, size_t plen, const char *suf, size_t slen, Out out) { volatile VALUE v = rb_attr_get(obj, ox_at_value_id); const char *val; size_t vlen; size_t size; int indent; if (T_STRING != rb_type(v)) { return; } val = StringValuePtr(v); vlen = RSTRING_LEN(v); if (0 > out->indent) { indent = -1; } else if (0 == out->indent) { indent = 0; } else { indent = depth * out->indent; } size = indent + plen + slen + vlen + out->opts->margin_len; if (out->end - out->cur <= (long)size) { grow(out, size); } fill_indent(out, indent); fill_value(out, pre, plen); fill_value(out, val, vlen); fill_value(out, suf, slen); *out->cur = '\0'; } static void dump_obj_to_xml(VALUE obj, Options copts, Out out) { VALUE clas = rb_obj_class(obj); out->w_time = (Yes == copts->xsd_date) ? dump_time_xsd : dump_time_thin; out->buf = ALLOC_N(char, 65336); out->end = out->buf + 65325; /* 10 less than end plus extra for possible errors */ out->cur = out->buf; out->circ_cache = 0; out->circ_cnt = 0; out->opts = copts; out->obj = obj; *out->cur = '\0'; if (Yes == copts->circular) { ox_cache8_new(&out->circ_cache); } out->indent = copts->indent; if (ox_document_clas == clas) { dump_gen_doc(obj, -1, out); } else if (ox_element_clas == clas) { dump_gen_element(obj, 0, out); } else { out->w_start = dump_start; out->w_end = dump_end; dump_first_obj(obj, out); } if (0 <= out->indent) { dump_value(out, "\n", 1); } if (Yes == copts->circular) { ox_cache8_delete(out->circ_cache); } } char *ox_write_obj_to_str(VALUE obj, Options copts) { struct _out out; dump_obj_to_xml(obj, copts, &out); return out.buf; } void ox_write_obj_to_file(VALUE obj, const char *path, Options copts) { struct _out out; size_t size; FILE *f; dump_obj_to_xml(obj, copts, &out); size = out.cur - out.buf; if (0 == (f = fopen(path, "w"))) { rb_raise(rb_eIOError, "%s\n", strerror(errno)); } if (size != fwrite(out.buf, 1, size, f)) { int err = ferror(f); rb_raise(rb_eIOError, "Write failed. [%d:%s]\n", err, strerror(err)); } xfree(out.buf); fclose(f); }