/* * xmlsave.c: Implementation of the document serializer * * See Copyright for the status of this software. * * daniel@veillard.com */ #define IN_LIBXML #include "libxml.h" #include #include #include #include #include #include #include #define MAX_INDENT 60 #include #include "private/buf.h" #include "private/enc.h" #include "private/error.h" #include "private/io.h" #include "private/save.h" #ifdef LIBXML_OUTPUT_ENABLED #define XHTML_NS_NAME BAD_CAST "http://www.w3.org/1999/xhtml" struct _xmlSaveCtxt { void *_private; int type; int fd; const xmlChar *filename; const xmlChar *encoding; xmlCharEncodingHandlerPtr handler; xmlOutputBufferPtr buf; int options; int level; int format; char indent[MAX_INDENT + 1]; /* array for indenting output */ int indent_nr; int indent_size; xmlCharEncodingOutputFunc escape; /* used for element content */ xmlCharEncodingOutputFunc escapeAttr;/* used for attribute content */ }; /************************************************************************ * * * Output error handlers * * * ************************************************************************/ /** * xmlSaveErrMemory: * @extra: extra information * * Handle an out of memory condition */ static void xmlSaveErrMemory(xmlOutputBufferPtr out) { if (out != NULL) out->error = XML_ERR_NO_MEMORY; xmlRaiseMemoryError(NULL, NULL, NULL, XML_FROM_OUTPUT, NULL); } /** * xmlSaveErr: * @code: the error number * @node: the location of the error. * @extra: extra information * * Handle an out of memory condition */ static void xmlSaveErr(xmlOutputBufferPtr out, int code, xmlNodePtr node, const char *extra) { const char *msg = NULL; int res; /* Don't overwrite memory errors */ if ((out != NULL) && (out->error == XML_ERR_NO_MEMORY)) return; if (code == XML_ERR_NO_MEMORY) { xmlSaveErrMemory(out); return; } if (out != NULL) out->error = code; switch(code) { case XML_SAVE_NOT_UTF8: msg = "string is not in UTF-8\n"; break; case XML_SAVE_CHAR_INVALID: msg = "invalid character value\n"; break; case XML_SAVE_UNKNOWN_ENCODING: msg = "unknown encoding %s\n"; break; case XML_SAVE_NO_DOCTYPE: msg = "document has no DOCTYPE\n"; break; default: msg = "unexpected error number\n"; } res = __xmlRaiseError(NULL, NULL, NULL, NULL, node, XML_FROM_OUTPUT, code, XML_ERR_ERROR, NULL, 0, extra, NULL, NULL, 0, 0, msg, extra); if (res < 0) xmlSaveErrMemory(out); } /************************************************************************ * * * Special escaping routines * * * ************************************************************************/ static unsigned char * xmlSerializeHexCharRef(unsigned char *out, int val) { unsigned char *ptr; *out++ = '&'; *out++ = '#'; *out++ = 'x'; if (val < 0x10) ptr = out; else if (val < 0x100) ptr = out + 1; else if (val < 0x1000) ptr = out + 2; else if (val < 0x10000) ptr = out + 3; else if (val < 0x100000) ptr = out + 4; else ptr = out + 5; out = ptr + 1; while (val > 0) { switch (val & 0xF) { case 0: *ptr-- = '0'; break; case 1: *ptr-- = '1'; break; case 2: *ptr-- = '2'; break; case 3: *ptr-- = '3'; break; case 4: *ptr-- = '4'; break; case 5: *ptr-- = '5'; break; case 6: *ptr-- = '6'; break; case 7: *ptr-- = '7'; break; case 8: *ptr-- = '8'; break; case 9: *ptr-- = '9'; break; case 0xA: *ptr-- = 'A'; break; case 0xB: *ptr-- = 'B'; break; case 0xC: *ptr-- = 'C'; break; case 0xD: *ptr-- = 'D'; break; case 0xE: *ptr-- = 'E'; break; case 0xF: *ptr-- = 'F'; break; default: *ptr-- = '0'; break; } val >>= 4; } *out++ = ';'; *out = 0; return(out); } /** * xmlEscapeEntities: * @out: a pointer to an array of bytes to store the result * @outlen: the length of @out * @in: a pointer to an array of unescaped UTF-8 bytes * @inlen: the length of @in * * Take a block of UTF-8 chars in and escape them. Used when there is no * encoding specified. * * Returns 0 if success, or -1 otherwise * The value of @inlen after return is the number of octets consumed * if the return value is positive, else unpredictable. * The value of @outlen after return is the number of octets consumed. */ static int xmlEscapeEntities(unsigned char* out, int *outlen, const xmlChar* in, int *inlen) { unsigned char* outstart = out; const unsigned char* base = in; unsigned char* outend = out + *outlen; const unsigned char* inend; int val; inend = in + (*inlen); while ((in < inend) && (out < outend)) { if (*in == '<') { if (outend - out < 4) break; *out++ = '&'; *out++ = 'l'; *out++ = 't'; *out++ = ';'; in++; continue; } else if (*in == '>') { if (outend - out < 4) break; *out++ = '&'; *out++ = 'g'; *out++ = 't'; *out++ = ';'; in++; continue; } else if (*in == '&') { if (outend - out < 5) break; *out++ = '&'; *out++ = 'a'; *out++ = 'm'; *out++ = 'p'; *out++ = ';'; in++; continue; } else if (*in == 0xD) { if (outend - out < 5) break; *out++ = '&'; *out++ = '#'; *out++ = 'x'; *out++ = 'D'; *out++ = ';'; in++; } else if (((*in >= 0x20) && (*in < 0x80)) || (*in == 0xA) || (*in == 0x9)) { /* * default case, just copy ! */ *out++ = *in++; continue; } else if (*in < 0x80) { /* invalid control char */ if (outend - out < 8) break; out = xmlSerializeHexCharRef(out, 0xFFFD); in++; } else { int len; if (outend - out < 11) break; len = inend - in; val = xmlGetUTF8Char(in, &len); if (val < 0) { val = 0xFFFD; in++; } else { if (!IS_CHAR(val)) val = 0xFFFD; in += len; } /* * We could do multiple things here. Just save as a char ref */ out = xmlSerializeHexCharRef(out, val); } } *outlen = out - outstart; *inlen = in - base; return(0); } /************************************************************************ * * * Allocation and deallocation * * * ************************************************************************/ /** * xmlSaveCtxtInit: * @ctxt: the saving context * * Initialize a saving context */ static void xmlSaveCtxtInit(xmlSaveCtxtPtr ctxt) { int i; int len; if (ctxt == NULL) return; if ((ctxt->encoding == NULL) && (ctxt->escape == NULL)) ctxt->escape = xmlEscapeEntities; len = xmlStrlen((xmlChar *)xmlTreeIndentString); if ((xmlTreeIndentString == NULL) || (len == 0)) { memset(&ctxt->indent[0], 0, MAX_INDENT + 1); } else { ctxt->indent_size = len; ctxt->indent_nr = MAX_INDENT / ctxt->indent_size; for (i = 0;i < ctxt->indent_nr;i++) memcpy(&ctxt->indent[i * ctxt->indent_size], xmlTreeIndentString, ctxt->indent_size); ctxt->indent[ctxt->indent_nr * ctxt->indent_size] = 0; } if (xmlSaveNoEmptyTags) { ctxt->options |= XML_SAVE_NO_EMPTY; } } /** * xmlFreeSaveCtxt: * * Free a saving context, destroying the output in any remaining buffer */ static void xmlFreeSaveCtxt(xmlSaveCtxtPtr ctxt) { if (ctxt == NULL) return; if (ctxt->encoding != NULL) xmlFree((char *) ctxt->encoding); if (ctxt->buf != NULL) xmlOutputBufferClose(ctxt->buf); xmlFree(ctxt); } /** * xmlNewSaveCtxt: * * Create a new saving context * * Returns the new structure or NULL in case of error */ static xmlSaveCtxtPtr xmlNewSaveCtxt(const char *encoding, int options) { xmlSaveCtxtPtr ret; ret = (xmlSaveCtxtPtr) xmlMalloc(sizeof(xmlSaveCtxt)); if (ret == NULL) { xmlSaveErrMemory(NULL); return ( NULL ); } memset(ret, 0, sizeof(xmlSaveCtxt)); if (encoding != NULL) { int res; res = xmlOpenCharEncodingHandler(encoding, /* output */ 1, &ret->handler); if (ret->handler == NULL) { xmlSaveErr(NULL, res, NULL, encoding); xmlFreeSaveCtxt(ret); return(NULL); } ret->encoding = xmlStrdup((const xmlChar *)encoding); ret->escape = NULL; } xmlSaveCtxtInit(ret); /* * Use the options */ /* Re-check this option as it may already have been set */ if ((ret->options & XML_SAVE_NO_EMPTY) && ! (options & XML_SAVE_NO_EMPTY)) { options |= XML_SAVE_NO_EMPTY; } ret->options = options; if (options & XML_SAVE_FORMAT) ret->format = 1; else if (options & XML_SAVE_WSNONSIG) ret->format = 2; return(ret); } /************************************************************************ * * * Dumping XML tree content to a simple buffer * * * ************************************************************************/ /** * xmlAttrSerializeContent: * @buf: the XML buffer output * @doc: the document * @attr: the attribute pointer * * Serialize the attribute in the buffer */ static void xmlAttrSerializeContent(xmlOutputBufferPtr buf, xmlAttrPtr attr) { xmlNodePtr children; children = attr->children; while (children != NULL) { switch (children->type) { case XML_TEXT_NODE: xmlBufAttrSerializeTxtContent(buf, attr->doc, children->content); break; case XML_ENTITY_REF_NODE: xmlOutputBufferWrite(buf, 1, "&"); xmlOutputBufferWriteString(buf, (const char *) children->name); xmlOutputBufferWrite(buf, 1, ";"); break; default: /* should not happen unless we have a badly built tree */ break; } children = children->next; } } /** * xmlBufDumpNotationDecl: * @buf: the XML buffer output * @nota: A notation declaration * * This will dump the content the notation declaration as an XML DTD definition */ static void xmlBufDumpNotationDecl(xmlOutputBufferPtr buf, xmlNotationPtr nota) { xmlOutputBufferWrite(buf, 11, "name); if (nota->PublicID != NULL) { xmlOutputBufferWrite(buf, 8, " PUBLIC "); xmlOutputBufferWriteQuotedString(buf, nota->PublicID); if (nota->SystemID != NULL) { xmlOutputBufferWrite(buf, 1, " "); xmlOutputBufferWriteQuotedString(buf, nota->SystemID); } } else { xmlOutputBufferWrite(buf, 8, " SYSTEM "); xmlOutputBufferWriteQuotedString(buf, nota->SystemID); } xmlOutputBufferWrite(buf, 3, " >\n"); } /** * xmlBufDumpNotationDeclScan: * @nota: A notation declaration * @buf: the XML buffer output * * This is called with the hash scan function, and just reverses args */ static void xmlBufDumpNotationDeclScan(void *nota, void *buf, const xmlChar *name ATTRIBUTE_UNUSED) { xmlBufDumpNotationDecl((xmlOutputBufferPtr) buf, (xmlNotationPtr) nota); } /** * xmlBufDumpNotationTable: * @buf: an xmlBufPtr output * @table: A notation table * * This will dump the content of the notation table as an XML DTD definition */ static void xmlBufDumpNotationTable(xmlOutputBufferPtr buf, xmlNotationTablePtr table) { xmlHashScan(table, xmlBufDumpNotationDeclScan, buf); } /** * xmlBufDumpElementOccur: * @buf: output buffer * @cur: element table * * Dump the occurrence operator of an element. */ static void xmlBufDumpElementOccur(xmlOutputBufferPtr buf, xmlElementContentPtr cur) { switch (cur->ocur) { case XML_ELEMENT_CONTENT_ONCE: break; case XML_ELEMENT_CONTENT_OPT: xmlOutputBufferWrite(buf, 1, "?"); break; case XML_ELEMENT_CONTENT_MULT: xmlOutputBufferWrite(buf, 1, "*"); break; case XML_ELEMENT_CONTENT_PLUS: xmlOutputBufferWrite(buf, 1, "+"); break; } } /** * xmlBufDumpElementContent: * @buf: output buffer * @content: element table * * This will dump the content of the element table as an XML DTD definition */ static void xmlBufDumpElementContent(xmlOutputBufferPtr buf, xmlElementContentPtr content) { xmlElementContentPtr cur; if (content == NULL) return; xmlOutputBufferWrite(buf, 1, "("); cur = content; do { if (cur == NULL) return; switch (cur->type) { case XML_ELEMENT_CONTENT_PCDATA: xmlOutputBufferWrite(buf, 7, "#PCDATA"); break; case XML_ELEMENT_CONTENT_ELEMENT: if (cur->prefix != NULL) { xmlOutputBufferWriteString(buf, (const char *) cur->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *) cur->name); break; case XML_ELEMENT_CONTENT_SEQ: case XML_ELEMENT_CONTENT_OR: if ((cur != content) && (cur->parent != NULL) && ((cur->type != cur->parent->type) || (cur->ocur != XML_ELEMENT_CONTENT_ONCE))) xmlOutputBufferWrite(buf, 1, "("); cur = cur->c1; continue; } while (cur != content) { xmlElementContentPtr parent = cur->parent; if (parent == NULL) return; if (((cur->type == XML_ELEMENT_CONTENT_OR) || (cur->type == XML_ELEMENT_CONTENT_SEQ)) && ((cur->type != parent->type) || (cur->ocur != XML_ELEMENT_CONTENT_ONCE))) xmlOutputBufferWrite(buf, 1, ")"); xmlBufDumpElementOccur(buf, cur); if (cur == parent->c1) { if (parent->type == XML_ELEMENT_CONTENT_SEQ) xmlOutputBufferWrite(buf, 3, " , "); else if (parent->type == XML_ELEMENT_CONTENT_OR) xmlOutputBufferWrite(buf, 3, " | "); cur = parent->c2; break; } cur = parent; } } while (cur != content); xmlOutputBufferWrite(buf, 1, ")"); xmlBufDumpElementOccur(buf, content); } /** * xmlBufDumpElementDecl: * @buf: an xmlBufPtr output * @elem: An element table * * This will dump the content of the element declaration as an XML * DTD definition */ static void xmlBufDumpElementDecl(xmlOutputBufferPtr buf, xmlElementPtr elem) { xmlOutputBufferWrite(buf, 10, "prefix != NULL) { xmlOutputBufferWriteString(buf, (const char *) elem->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *) elem->name); xmlOutputBufferWrite(buf, 1, " "); switch (elem->etype) { case XML_ELEMENT_TYPE_EMPTY: xmlOutputBufferWrite(buf, 5, "EMPTY"); break; case XML_ELEMENT_TYPE_ANY: xmlOutputBufferWrite(buf, 3, "ANY"); break; case XML_ELEMENT_TYPE_MIXED: case XML_ELEMENT_TYPE_ELEMENT: xmlBufDumpElementContent(buf, elem->content); break; default: /* assert(0); */ break; } xmlOutputBufferWrite(buf, 2, ">\n"); } /** * xmlBufDumpEnumeration: * @buf: output buffer * @enum: An enumeration * * This will dump the content of the enumeration */ static void xmlBufDumpEnumeration(xmlOutputBufferPtr buf, xmlEnumerationPtr cur) { while (cur != NULL) { xmlOutputBufferWriteString(buf, (const char *) cur->name); if (cur->next != NULL) xmlOutputBufferWrite(buf, 3, " | "); cur = cur->next; } xmlOutputBufferWrite(buf, 1, ")"); } /** * xmlBufDumpAttributeDecl: * @buf: output buffer * @attr: An attribute declaration * * This will dump the content of the attribute declaration as an XML * DTD definition */ static void xmlBufDumpAttributeDecl(xmlOutputBufferPtr buf, xmlAttributePtr attr) { xmlOutputBufferWrite(buf, 10, "elem); xmlOutputBufferWrite(buf, 1, " "); if (attr->prefix != NULL) { xmlOutputBufferWriteString(buf, (const char *) attr->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *) attr->name); switch (attr->atype) { case XML_ATTRIBUTE_CDATA: xmlOutputBufferWrite(buf, 6, " CDATA"); break; case XML_ATTRIBUTE_ID: xmlOutputBufferWrite(buf, 3, " ID"); break; case XML_ATTRIBUTE_IDREF: xmlOutputBufferWrite(buf, 6, " IDREF"); break; case XML_ATTRIBUTE_IDREFS: xmlOutputBufferWrite(buf, 7, " IDREFS"); break; case XML_ATTRIBUTE_ENTITY: xmlOutputBufferWrite(buf, 7, " ENTITY"); break; case XML_ATTRIBUTE_ENTITIES: xmlOutputBufferWrite(buf, 9, " ENTITIES"); break; case XML_ATTRIBUTE_NMTOKEN: xmlOutputBufferWrite(buf, 8, " NMTOKEN"); break; case XML_ATTRIBUTE_NMTOKENS: xmlOutputBufferWrite(buf, 9, " NMTOKENS"); break; case XML_ATTRIBUTE_ENUMERATION: xmlOutputBufferWrite(buf, 2, " ("); xmlBufDumpEnumeration(buf, attr->tree); break; case XML_ATTRIBUTE_NOTATION: xmlOutputBufferWrite(buf, 11, " NOTATION ("); xmlBufDumpEnumeration(buf, attr->tree); break; default: /* assert(0); */ break; } switch (attr->def) { case XML_ATTRIBUTE_NONE: break; case XML_ATTRIBUTE_REQUIRED: xmlOutputBufferWrite(buf, 10, " #REQUIRED"); break; case XML_ATTRIBUTE_IMPLIED: xmlOutputBufferWrite(buf, 9, " #IMPLIED"); break; case XML_ATTRIBUTE_FIXED: xmlOutputBufferWrite(buf, 7, " #FIXED"); break; default: /* assert(0); */ break; } if (attr->defaultValue != NULL) { xmlOutputBufferWrite(buf, 1, " "); xmlOutputBufferWriteQuotedString(buf, attr->defaultValue); } xmlOutputBufferWrite(buf, 2, ">\n"); } /** * xmlBufDumpEntityContent: * @buf: output buffer * @content: entity content. * * This will dump the quoted string value, taking care of the special * treatment required by % */ static void xmlBufDumpEntityContent(xmlOutputBufferPtr buf, const xmlChar *content) { if (xmlStrchr(content, '%')) { const char * base, *cur; xmlOutputBufferWrite(buf, 1, "\""); base = cur = (const char *) content; while (*cur != 0) { if (*cur == '"') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, base); xmlOutputBufferWrite(buf, 6, """); cur++; base = cur; } else if (*cur == '%') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, base); xmlOutputBufferWrite(buf, 6, "%"); cur++; base = cur; } else { cur++; } } if (base != cur) xmlOutputBufferWrite(buf, cur - base, base); xmlOutputBufferWrite(buf, 1, "\""); } else { xmlOutputBufferWriteQuotedString(buf, content); } } /** * xmlBufDumpEntityDecl: * @buf: an xmlBufPtr output * @ent: An entity table * * This will dump the content of the entity table as an XML DTD definition */ static void xmlBufDumpEntityDecl(xmlOutputBufferPtr buf, xmlEntityPtr ent) { if ((ent->etype == XML_INTERNAL_PARAMETER_ENTITY) || (ent->etype == XML_EXTERNAL_PARAMETER_ENTITY)) xmlOutputBufferWrite(buf, 11, "name); xmlOutputBufferWrite(buf, 1, " "); if ((ent->etype == XML_EXTERNAL_GENERAL_PARSED_ENTITY) || (ent->etype == XML_EXTERNAL_GENERAL_UNPARSED_ENTITY) || (ent->etype == XML_EXTERNAL_PARAMETER_ENTITY)) { if (ent->ExternalID != NULL) { xmlOutputBufferWrite(buf, 7, "PUBLIC "); xmlOutputBufferWriteQuotedString(buf, ent->ExternalID); xmlOutputBufferWrite(buf, 1, " "); } else { xmlOutputBufferWrite(buf, 7, "SYSTEM "); } xmlOutputBufferWriteQuotedString(buf, ent->SystemID); } if (ent->etype == XML_EXTERNAL_GENERAL_UNPARSED_ENTITY) { if (ent->content != NULL) { /* Should be true ! */ xmlOutputBufferWrite(buf, 7, " NDATA "); if (ent->orig != NULL) xmlOutputBufferWriteString(buf, (const char *) ent->orig); else xmlOutputBufferWriteString(buf, (const char *) ent->content); } } if ((ent->etype == XML_INTERNAL_GENERAL_ENTITY) || (ent->etype == XML_INTERNAL_PARAMETER_ENTITY)) { if (ent->orig != NULL) xmlOutputBufferWriteQuotedString(buf, ent->orig); else xmlBufDumpEntityContent(buf, ent->content); } xmlOutputBufferWrite(buf, 2, ">\n"); } /************************************************************************ * * * Dumping XML tree content to an I/O output buffer * * * ************************************************************************/ static int xmlSaveSwitchEncoding(xmlSaveCtxtPtr ctxt, const char *encoding) { xmlOutputBufferPtr buf = ctxt->buf; if ((encoding != NULL) && (buf->encoder == NULL) && (buf->conv == NULL)) { xmlCharEncodingHandler *handler; int res; res = xmlOpenCharEncodingHandler(encoding, /* output */ 1, &handler); if (handler == NULL) { xmlSaveErr(buf, res, NULL, encoding); return(-1); } buf->conv = xmlBufCreate(); if (buf->conv == NULL) { xmlCharEncCloseFunc(handler); xmlSaveErrMemory(buf); return(-1); } buf->encoder = handler; /* * initialize the state, e.g. if outputting a BOM */ xmlCharEncOutput(buf, 1); } return(0); } static int xmlSaveClearEncoding(xmlSaveCtxtPtr ctxt) { xmlOutputBufferPtr buf = ctxt->buf; xmlOutputBufferFlush(buf); xmlCharEncCloseFunc(buf->encoder); xmlBufFree(buf->conv); buf->encoder = NULL; buf->conv = NULL; return(0); } #ifdef LIBXML_HTML_ENABLED static void xhtmlNodeDumpOutput(xmlSaveCtxtPtr ctxt, xmlNodePtr cur); #endif static void xmlNodeDumpOutputInternal(xmlSaveCtxtPtr ctxt, xmlNodePtr cur); static int xmlDocContentDumpOutput(xmlSaveCtxtPtr ctxt, xmlDocPtr cur); /** * xmlOutputBufferWriteWSNonSig: * @ctxt: The save context * @extra: Number of extra indents to apply to ctxt->level * * Write out formatting for non-significant whitespace output. */ static void xmlOutputBufferWriteWSNonSig(xmlSaveCtxtPtr ctxt, int extra) { int i; if ((ctxt == NULL) || (ctxt->buf == NULL)) return; xmlOutputBufferWrite(ctxt->buf, 1, "\n"); for (i = 0; i < (ctxt->level + extra); i += ctxt->indent_nr) { xmlOutputBufferWrite(ctxt->buf, ctxt->indent_size * ((ctxt->level + extra - i) > ctxt->indent_nr ? ctxt->indent_nr : (ctxt->level + extra - i)), ctxt->indent); } } /** * xmlNsDumpOutput: * @buf: the XML buffer output * @cur: a namespace * @ctxt: the output save context. Optional. * * Dump a local Namespace definition. * Should be called in the context of attributes dumps. * If @ctxt is supplied, @buf should be its buffer. */ static void xmlNsDumpOutput(xmlOutputBufferPtr buf, xmlDocPtr doc, xmlNsPtr cur, xmlSaveCtxtPtr ctxt) { if ((cur == NULL) || (buf == NULL)) return; if ((cur->type == XML_LOCAL_NAMESPACE) && (cur->href != NULL)) { if (xmlStrEqual(cur->prefix, BAD_CAST "xml")) return; if (ctxt != NULL && ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 2); else xmlOutputBufferWrite(buf, 1, " "); /* Within the context of an element attributes */ if (cur->prefix != NULL) { xmlOutputBufferWrite(buf, 6, "xmlns:"); xmlOutputBufferWriteString(buf, (const char *)cur->prefix); } else xmlOutputBufferWrite(buf, 5, "xmlns"); xmlOutputBufferWrite(buf, 2, "=\""); xmlBufAttrSerializeTxtContent(buf, doc, cur->href); xmlOutputBufferWrite(buf, 1, "\""); } } /** * xmlNsListDumpOutputCtxt * @ctxt: the save context * @cur: the first namespace * * Dump a list of local namespace definitions to a save context. * Should be called in the context of attribute dumps. */ static void xmlNsListDumpOutputCtxt(xmlSaveCtxtPtr ctxt, xmlDocPtr doc, xmlNsPtr cur) { while (cur != NULL) { xmlNsDumpOutput(ctxt->buf, doc, cur, ctxt); cur = cur->next; } } /** * xmlNsListDumpOutput: * @buf: the XML buffer output * @cur: the first namespace * * Dump a list of local Namespace definitions. * Should be called in the context of attributes dumps. */ void xmlNsListDumpOutput(xmlOutputBufferPtr buf, xmlNsPtr cur) { while (cur != NULL) { xmlNsDumpOutput(buf, NULL, cur, NULL); cur = cur->next; } } /** * xmlDtdDumpOutput: * @buf: the XML buffer output * @dtd: the pointer to the DTD * * Dump the XML document DTD, if any. */ static void xmlDtdDumpOutput(xmlSaveCtxtPtr ctxt, xmlDtdPtr dtd) { xmlOutputBufferPtr buf; xmlNodePtr cur; int format, level; if (dtd == NULL) return; if ((ctxt == NULL) || (ctxt->buf == NULL)) return; buf = ctxt->buf; xmlOutputBufferWrite(buf, 10, "name); if (dtd->ExternalID != NULL) { xmlOutputBufferWrite(buf, 8, " PUBLIC "); xmlOutputBufferWriteQuotedString(buf, dtd->ExternalID); xmlOutputBufferWrite(buf, 1, " "); xmlOutputBufferWriteQuotedString(buf, dtd->SystemID); } else if (dtd->SystemID != NULL) { xmlOutputBufferWrite(buf, 8, " SYSTEM "); xmlOutputBufferWriteQuotedString(buf, dtd->SystemID); } if ((dtd->entities == NULL) && (dtd->elements == NULL) && (dtd->attributes == NULL) && (dtd->notations == NULL) && (dtd->pentities == NULL)) { xmlOutputBufferWrite(buf, 1, ">"); return; } xmlOutputBufferWrite(buf, 3, " [\n"); /* * Dump the notations first they are not in the DTD children list * Do this only on a standalone DTD or on the internal subset though. */ if ((dtd->notations != NULL) && ((dtd->doc == NULL) || (dtd->doc->intSubset == dtd))) { xmlBufDumpNotationTable(buf, (xmlNotationTablePtr) dtd->notations); } format = ctxt->format; level = ctxt->level; ctxt->format = 0; ctxt->level = -1; for (cur = dtd->children; cur != NULL; cur = cur->next) { xmlNodeDumpOutputInternal(ctxt, cur); } ctxt->format = format; ctxt->level = level; xmlOutputBufferWrite(buf, 2, "]>"); } /** * xmlAttrDumpOutput: * @buf: the XML buffer output * @cur: the attribute pointer * * Dump an XML attribute */ static void xmlAttrDumpOutput(xmlSaveCtxtPtr ctxt, xmlAttrPtr cur) { xmlOutputBufferPtr buf; if (cur == NULL) return; buf = ctxt->buf; if (buf == NULL) return; if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 2); else xmlOutputBufferWrite(buf, 1, " "); if ((cur->ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); xmlOutputBufferWrite(buf, 2, "=\""); #ifdef LIBXML_HTML_ENABLED if ((ctxt->options & XML_SAVE_XHTML) && (cur->ns == NULL) && ((cur->children == NULL) || (cur->children->content == NULL) || (cur->children->content[0] == 0)) && (htmlIsBooleanAttr(cur->name))) { xmlOutputBufferWriteString(buf, (const char *) cur->name); } else #endif { xmlAttrSerializeContent(buf, cur); } xmlOutputBufferWrite(buf, 1, "\""); } #ifdef LIBXML_HTML_ENABLED /** * htmlNodeDumpOutputInternal: * @cur: the current node * * Dump an HTML node, recursive behaviour, children are printed too. */ static int htmlNodeDumpOutputInternal(xmlSaveCtxtPtr ctxt, xmlNodePtr cur) { const xmlChar *oldenc = NULL; const xmlChar *oldctxtenc = ctxt->encoding; const xmlChar *encoding = ctxt->encoding; xmlOutputBufferPtr buf = ctxt->buf; int switched_encoding = 0; xmlDocPtr doc; xmlInitParser(); doc = cur->doc; if (doc != NULL) { oldenc = doc->encoding; if (ctxt->encoding != NULL) { doc->encoding = BAD_CAST ctxt->encoding; } else if (doc->encoding != NULL) { encoding = doc->encoding; } } if ((encoding != NULL) && (doc != NULL)) htmlSetMetaEncoding(doc, (const xmlChar *) encoding); if ((encoding == NULL) && (doc != NULL)) encoding = htmlGetMetaEncoding(doc); if (encoding == NULL) encoding = BAD_CAST "HTML"; if ((encoding != NULL) && (oldctxtenc == NULL) && (buf->encoder == NULL) && (buf->conv == NULL)) { if (xmlSaveSwitchEncoding(ctxt, (const char*) encoding) < 0) { doc->encoding = oldenc; return(-1); } switched_encoding = 1; } if (ctxt->options & XML_SAVE_FORMAT) htmlNodeDumpFormatOutput(buf, doc, cur, (const char *)encoding, 1); else htmlNodeDumpFormatOutput(buf, doc, cur, (const char *)encoding, 0); /* * Restore the state of the saving context at the end of the document */ if ((switched_encoding) && (oldctxtenc == NULL)) { xmlSaveClearEncoding(ctxt); } if (doc != NULL) doc->encoding = oldenc; return(0); } #endif /** * xmlNodeDumpOutputInternal: * @cur: the current node * * Dump an XML node, recursive behaviour, children are printed too. */ static void xmlNodeDumpOutputInternal(xmlSaveCtxtPtr ctxt, xmlNodePtr cur) { int format = ctxt->format; xmlNodePtr tmp, root, unformattedNode = NULL, parent; xmlAttrPtr attr; xmlChar *start, *end; xmlOutputBufferPtr buf; if (cur == NULL) return; buf = ctxt->buf; root = cur; parent = cur->parent; while (1) { switch (cur->type) { case XML_DOCUMENT_NODE: case XML_HTML_DOCUMENT_NODE: xmlDocContentDumpOutput(ctxt, (xmlDocPtr) cur); break; case XML_DTD_NODE: xmlDtdDumpOutput(ctxt, (xmlDtdPtr) cur); break; case XML_DOCUMENT_FRAG_NODE: /* Always validate cur->parent when descending. */ if ((cur->parent == parent) && (cur->children != NULL)) { parent = cur; cur = cur->children; continue; } break; case XML_ELEMENT_DECL: xmlBufDumpElementDecl(buf, (xmlElementPtr) cur); break; case XML_ATTRIBUTE_DECL: xmlBufDumpAttributeDecl(buf, (xmlAttributePtr) cur); break; case XML_ENTITY_DECL: xmlBufDumpEntityDecl(buf, (xmlEntityPtr) cur); break; case XML_ELEMENT_NODE: if ((cur != root) && (ctxt->format == 1) && (xmlIndentTreeOutput)) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level), ctxt->indent); /* * Some users like lxml are known to pass nodes with a corrupted * tree structure. Fall back to a recursive call to handle this * case. */ if ((cur->parent != parent) && (cur->children != NULL)) { xmlNodeDumpOutputInternal(ctxt, cur); break; } xmlOutputBufferWrite(buf, 1, "<"); if ((cur->ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); if (cur->nsDef) xmlNsListDumpOutputCtxt(ctxt, cur->doc, cur->nsDef); for (attr = cur->properties; attr != NULL; attr = attr->next) xmlAttrDumpOutput(ctxt, attr); if (cur->children == NULL) { if ((ctxt->options & XML_SAVE_NO_EMPTY) == 0) { if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 0); xmlOutputBufferWrite(buf, 2, "/>"); } else { if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 1); xmlOutputBufferWrite(buf, 3, ">ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 0); xmlOutputBufferWrite(buf, 1, ">"); } } else { if (ctxt->format == 1) { tmp = cur->children; while (tmp != NULL) { if ((tmp->type == XML_TEXT_NODE) || (tmp->type == XML_CDATA_SECTION_NODE) || (tmp->type == XML_ENTITY_REF_NODE)) { ctxt->format = 0; unformattedNode = cur; break; } tmp = tmp->next; } } if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 1); xmlOutputBufferWrite(buf, 1, ">"); if (ctxt->format == 1) xmlOutputBufferWrite(buf, 1, "\n"); if (ctxt->level >= 0) ctxt->level++; parent = cur; cur = cur->children; continue; } break; case XML_TEXT_NODE: if (cur->content == NULL) break; if (cur->name != xmlStringTextNoenc) { xmlOutputBufferWriteEscape(buf, cur->content, ctxt->escape); } else { /* * Disable escaping, needed for XSLT */ xmlOutputBufferWriteString(buf, (const char *) cur->content); } break; case XML_PI_NODE: if ((cur != root) && (ctxt->format == 1) && (xmlIndentTreeOutput)) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level), ctxt->indent); if (cur->content != NULL) { xmlOutputBufferWrite(buf, 2, "name); if (cur->content != NULL) { if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 0); else xmlOutputBufferWrite(buf, 1, " "); xmlOutputBufferWriteString(buf, (const char *)cur->content); } xmlOutputBufferWrite(buf, 2, "?>"); } else { xmlOutputBufferWrite(buf, 2, "name); if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 0); xmlOutputBufferWrite(buf, 2, "?>"); } break; case XML_COMMENT_NODE: if ((cur != root) && (ctxt->format == 1) && (xmlIndentTreeOutput)) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level), ctxt->indent); if (cur->content != NULL) { xmlOutputBufferWrite(buf, 4, ""); } break; case XML_ENTITY_REF_NODE: xmlOutputBufferWrite(buf, 1, "&"); xmlOutputBufferWriteString(buf, (const char *)cur->name); xmlOutputBufferWrite(buf, 1, ";"); break; case XML_CDATA_SECTION_NODE: if (cur->content == NULL || *cur->content == '\0') { xmlOutputBufferWrite(buf, 12, ""); } else { start = end = cur->content; while (*end != '\0') { if ((*end == ']') && (*(end + 1) == ']') && (*(end + 2) == '>')) { end = end + 2; xmlOutputBufferWrite(buf, 9, ""); start = end; } end++; } if (start != end) { xmlOutputBufferWrite(buf, 9, ""); } } break; case XML_ATTRIBUTE_NODE: xmlAttrDumpOutput(ctxt, (xmlAttrPtr) cur); break; case XML_NAMESPACE_DECL: xmlNsDumpOutput(buf, NULL, (xmlNsPtr) cur, ctxt); break; default: break; } while (1) { if (cur == root) return; if ((ctxt->format == 1) && (cur->type != XML_XINCLUDE_START) && (cur->type != XML_XINCLUDE_END)) xmlOutputBufferWrite(buf, 1, "\n"); if (cur->next != NULL) { cur = cur->next; break; } cur = parent; /* cur->parent was validated when descending. */ parent = cur->parent; if (cur->type == XML_ELEMENT_NODE) { if (ctxt->level > 0) ctxt->level--; if ((xmlIndentTreeOutput) && (ctxt->format == 1)) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level), ctxt->indent); xmlOutputBufferWrite(buf, 2, "ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); if (ctxt->format == 2) xmlOutputBufferWriteWSNonSig(ctxt, 0); xmlOutputBufferWrite(buf, 1, ">"); if (cur == unformattedNode) { ctxt->format = format; unformattedNode = NULL; } } } } } /** * xmlDocContentDumpOutput: * @cur: the document * * Dump an XML document. */ static int xmlDocContentDumpOutput(xmlSaveCtxtPtr ctxt, xmlDocPtr cur) { #ifdef LIBXML_HTML_ENABLED xmlDtdPtr dtd; int is_xhtml = 0; #endif const xmlChar *oldenc = cur->encoding; const xmlChar *oldctxtenc = ctxt->encoding; const xmlChar *encoding = ctxt->encoding; xmlCharEncodingOutputFunc oldescape = ctxt->escape; xmlCharEncodingOutputFunc oldescapeAttr = ctxt->escapeAttr; xmlOutputBufferPtr buf = ctxt->buf; xmlCharEncoding enc; int switched_encoding = 0; xmlInitParser(); if ((cur->type != XML_HTML_DOCUMENT_NODE) && (cur->type != XML_DOCUMENT_NODE)) return(-1); if (ctxt->encoding != NULL) { cur->encoding = BAD_CAST ctxt->encoding; } else if (cur->encoding != NULL) { encoding = cur->encoding; } if (((cur->type == XML_HTML_DOCUMENT_NODE) && ((ctxt->options & XML_SAVE_AS_XML) == 0) && ((ctxt->options & XML_SAVE_XHTML) == 0)) || (ctxt->options & XML_SAVE_AS_HTML)) { #ifdef LIBXML_HTML_ENABLED if (encoding != NULL) htmlSetMetaEncoding(cur, (const xmlChar *) encoding); if (encoding == NULL) encoding = htmlGetMetaEncoding(cur); if (encoding == NULL) encoding = BAD_CAST "HTML"; if ((encoding != NULL) && (oldctxtenc == NULL) && (buf->encoder == NULL) && (buf->conv == NULL)) { if (xmlSaveSwitchEncoding(ctxt, (const char*) encoding) < 0) { cur->encoding = oldenc; return(-1); } } if (ctxt->options & XML_SAVE_FORMAT) htmlDocContentDumpFormatOutput(buf, cur, (const char *)encoding, 1); else htmlDocContentDumpFormatOutput(buf, cur, (const char *)encoding, 0); if (ctxt->encoding != NULL) cur->encoding = oldenc; return(0); #else return(-1); #endif } else if ((cur->type == XML_DOCUMENT_NODE) || (ctxt->options & XML_SAVE_AS_XML) || (ctxt->options & XML_SAVE_XHTML)) { enc = xmlParseCharEncoding((const char*) encoding); if ((encoding != NULL) && (oldctxtenc == NULL) && (buf->encoder == NULL) && (buf->conv == NULL) && ((ctxt->options & XML_SAVE_NO_DECL) == 0)) { if ((enc != XML_CHAR_ENCODING_UTF8) && (enc != XML_CHAR_ENCODING_NONE) && (enc != XML_CHAR_ENCODING_ASCII)) { /* * we need to switch to this encoding but just for this * document since we output the XMLDecl the conversion * must be done to not generate not well formed documents. */ if (xmlSaveSwitchEncoding(ctxt, (const char*) encoding) < 0) { cur->encoding = oldenc; return(-1); } switched_encoding = 1; } if (ctxt->escape == xmlEscapeEntities) ctxt->escape = NULL; if (ctxt->escapeAttr == xmlEscapeEntities) ctxt->escapeAttr = NULL; } /* * Save the XML declaration */ if ((ctxt->options & XML_SAVE_NO_DECL) == 0) { xmlOutputBufferWrite(buf, 14, "version != NULL) xmlOutputBufferWriteQuotedString(buf, cur->version); else xmlOutputBufferWrite(buf, 5, "\"1.0\""); if (encoding != NULL) { xmlOutputBufferWrite(buf, 10, " encoding="); xmlOutputBufferWriteQuotedString(buf, (xmlChar *) encoding); } switch (cur->standalone) { case 0: xmlOutputBufferWrite(buf, 16, " standalone=\"no\""); break; case 1: xmlOutputBufferWrite(buf, 17, " standalone=\"yes\""); break; } xmlOutputBufferWrite(buf, 3, "?>\n"); } #ifdef LIBXML_HTML_ENABLED if (ctxt->options & XML_SAVE_XHTML) is_xhtml = 1; if ((ctxt->options & XML_SAVE_NO_XHTML) == 0) { dtd = xmlGetIntSubset(cur); if (dtd != NULL) { is_xhtml = xmlIsXHTML(dtd->SystemID, dtd->ExternalID); if (is_xhtml < 0) is_xhtml = 0; } } #endif if (cur->children != NULL) { xmlNodePtr child = cur->children; while (child != NULL) { ctxt->level = 0; #ifdef LIBXML_HTML_ENABLED if (is_xhtml) xhtmlNodeDumpOutput(ctxt, child); else #endif xmlNodeDumpOutputInternal(ctxt, child); if ((child->type != XML_XINCLUDE_START) && (child->type != XML_XINCLUDE_END)) xmlOutputBufferWrite(buf, 1, "\n"); child = child->next; } } } /* * Restore the state of the saving context at the end of the document */ if ((switched_encoding) && (oldctxtenc == NULL)) { xmlSaveClearEncoding(ctxt); ctxt->escape = oldescape; ctxt->escapeAttr = oldescapeAttr; } cur->encoding = oldenc; return(0); } #ifdef LIBXML_HTML_ENABLED /************************************************************************ * * * Functions specific to XHTML serialization * * * ************************************************************************/ /** * xhtmlIsEmpty: * @node: the node * * Check if a node is an empty xhtml node * * Returns 1 if the node is an empty node, 0 if not and -1 in case of error */ static int xhtmlIsEmpty(xmlNodePtr node) { if (node == NULL) return(-1); if (node->type != XML_ELEMENT_NODE) return(0); if ((node->ns != NULL) && (!xmlStrEqual(node->ns->href, XHTML_NS_NAME))) return(0); if (node->children != NULL) return(0); switch (node->name ? node->name[0] : 0) { case 'a': if (xmlStrEqual(node->name, BAD_CAST "area")) return(1); return(0); case 'b': if (xmlStrEqual(node->name, BAD_CAST "br")) return(1); if (xmlStrEqual(node->name, BAD_CAST "base")) return(1); if (xmlStrEqual(node->name, BAD_CAST "basefont")) return(1); return(0); case 'c': if (xmlStrEqual(node->name, BAD_CAST "col")) return(1); return(0); case 'f': if (xmlStrEqual(node->name, BAD_CAST "frame")) return(1); return(0); case 'h': if (xmlStrEqual(node->name, BAD_CAST "hr")) return(1); return(0); case 'i': if (xmlStrEqual(node->name, BAD_CAST "img")) return(1); if (xmlStrEqual(node->name, BAD_CAST "input")) return(1); if (xmlStrEqual(node->name, BAD_CAST "isindex")) return(1); return(0); case 'l': if (xmlStrEqual(node->name, BAD_CAST "link")) return(1); return(0); case 'm': if (xmlStrEqual(node->name, BAD_CAST "meta")) return(1); return(0); case 'p': if (xmlStrEqual(node->name, BAD_CAST "param")) return(1); return(0); } return(0); } /** * xhtmlAttrListDumpOutput: * @cur: the first attribute pointer * * Dump a list of XML attributes */ static void xhtmlAttrListDumpOutput(xmlSaveCtxtPtr ctxt, xmlAttrPtr cur) { xmlAttrPtr xml_lang = NULL; xmlAttrPtr lang = NULL; xmlAttrPtr name = NULL; xmlAttrPtr id = NULL; xmlNodePtr parent; xmlOutputBufferPtr buf; if (cur == NULL) return; buf = ctxt->buf; parent = cur->parent; while (cur != NULL) { if ((cur->ns == NULL) && (xmlStrEqual(cur->name, BAD_CAST "id"))) id = cur; else if ((cur->ns == NULL) && (xmlStrEqual(cur->name, BAD_CAST "name"))) name = cur; else if ((cur->ns == NULL) && (xmlStrEqual(cur->name, BAD_CAST "lang"))) lang = cur; else if ((cur->ns != NULL) && (xmlStrEqual(cur->name, BAD_CAST "lang")) && (xmlStrEqual(cur->ns->prefix, BAD_CAST "xml"))) xml_lang = cur; xmlAttrDumpOutput(ctxt, cur); cur = cur->next; } /* * C.8 */ if ((name != NULL) && (id == NULL)) { if ((parent != NULL) && (parent->name != NULL) && ((xmlStrEqual(parent->name, BAD_CAST "a")) || (xmlStrEqual(parent->name, BAD_CAST "p")) || (xmlStrEqual(parent->name, BAD_CAST "div")) || (xmlStrEqual(parent->name, BAD_CAST "img")) || (xmlStrEqual(parent->name, BAD_CAST "map")) || (xmlStrEqual(parent->name, BAD_CAST "applet")) || (xmlStrEqual(parent->name, BAD_CAST "form")) || (xmlStrEqual(parent->name, BAD_CAST "frame")) || (xmlStrEqual(parent->name, BAD_CAST "iframe")))) { xmlOutputBufferWrite(buf, 5, " id=\""); xmlAttrSerializeContent(buf, name); xmlOutputBufferWrite(buf, 1, "\""); } } /* * C.7. */ if ((lang != NULL) && (xml_lang == NULL)) { xmlOutputBufferWrite(buf, 11, " xml:lang=\""); xmlAttrSerializeContent(buf, lang); xmlOutputBufferWrite(buf, 1, "\""); } else if ((xml_lang != NULL) && (lang == NULL)) { xmlOutputBufferWrite(buf, 7, " lang=\""); xmlAttrSerializeContent(buf, xml_lang); xmlOutputBufferWrite(buf, 1, "\""); } } /** * xhtmlNodeDumpOutput: * @buf: the XML buffer output * @doc: the XHTML document * @cur: the current node * @level: the imbrication level for indenting * @format: is formatting allowed * @encoding: an optional encoding string * * Dump an XHTML node, recursive behaviour, children are printed too. */ static void xhtmlNodeDumpOutput(xmlSaveCtxtPtr ctxt, xmlNodePtr cur) { int format = ctxt->format, addmeta, oldoptions; xmlNodePtr tmp, root, unformattedNode = NULL, parent; xmlChar *start, *end; xmlOutputBufferPtr buf = ctxt->buf; if (cur == NULL) return; oldoptions = ctxt->options; ctxt->options |= XML_SAVE_XHTML; root = cur; parent = cur->parent; while (1) { switch (cur->type) { case XML_DOCUMENT_NODE: case XML_HTML_DOCUMENT_NODE: xmlDocContentDumpOutput(ctxt, (xmlDocPtr) cur); break; case XML_NAMESPACE_DECL: xmlNsDumpOutput(buf, NULL, (xmlNsPtr) cur, ctxt); break; case XML_DTD_NODE: xmlDtdDumpOutput(ctxt, (xmlDtdPtr) cur); break; case XML_DOCUMENT_FRAG_NODE: /* Always validate cur->parent when descending. */ if ((cur->parent == parent) && (cur->children != NULL)) { parent = cur; cur = cur->children; continue; } break; case XML_ELEMENT_DECL: xmlBufDumpElementDecl(buf, (xmlElementPtr) cur); break; case XML_ATTRIBUTE_DECL: xmlBufDumpAttributeDecl(buf, (xmlAttributePtr) cur); break; case XML_ENTITY_DECL: xmlBufDumpEntityDecl(buf, (xmlEntityPtr) cur); break; case XML_ELEMENT_NODE: addmeta = 0; if ((cur != root) && (ctxt->format == 1) && (xmlIndentTreeOutput)) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level), ctxt->indent); /* * Some users like lxml are known to pass nodes with a corrupted * tree structure. Fall back to a recursive call to handle this * case. */ if ((cur->parent != parent) && (cur->children != NULL)) { xhtmlNodeDumpOutput(ctxt, cur); break; } xmlOutputBufferWrite(buf, 1, "<"); if ((cur->ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); if (cur->nsDef) xmlNsListDumpOutputCtxt(ctxt, cur->doc, cur->nsDef); if ((xmlStrEqual(cur->name, BAD_CAST "html") && (cur->ns == NULL) && (cur->nsDef == NULL))) { /* * 3.1.1. Strictly Conforming Documents A.3.1.1 3/ */ xmlOutputBufferWriteString(buf, " xmlns=\"http://www.w3.org/1999/xhtml\""); } if (cur->properties != NULL) xhtmlAttrListDumpOutput(ctxt, cur->properties); if ((parent != NULL) && (parent->parent == (xmlNodePtr) cur->doc) && xmlStrEqual(cur->name, BAD_CAST"head") && xmlStrEqual(parent->name, BAD_CAST"html")) { tmp = cur->children; while (tmp != NULL) { if (xmlStrEqual(tmp->name, BAD_CAST"meta")) { xmlChar *httpequiv; httpequiv = xmlGetProp(tmp, BAD_CAST"http-equiv"); if (httpequiv != NULL) { if (xmlStrcasecmp(httpequiv, BAD_CAST"Content-Type") == 0) { xmlFree(httpequiv); break; } xmlFree(httpequiv); } } tmp = tmp->next; } if (tmp == NULL) addmeta = 1; } if (cur->children == NULL) { if (((cur->ns == NULL) || (cur->ns->prefix == NULL)) && ((xhtmlIsEmpty(cur) == 1) && (addmeta == 0))) { /* * C.2. Empty Elements */ xmlOutputBufferWrite(buf, 3, " />"); } else { if (addmeta == 1) { xmlOutputBufferWrite(buf, 1, ">"); if (ctxt->format == 1) { xmlOutputBufferWrite(buf, 1, "\n"); if (xmlIndentTreeOutput) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level + 1 > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level + 1), ctxt->indent); } xmlOutputBufferWriteString(buf, ""); if (ctxt->format == 1) xmlOutputBufferWrite(buf, 1, "\n"); } else { xmlOutputBufferWrite(buf, 1, ">"); } /* * C.3. Element Minimization and Empty Element Content */ xmlOutputBufferWrite(buf, 2, "ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); xmlOutputBufferWrite(buf, 1, ">"); } } else { xmlOutputBufferWrite(buf, 1, ">"); if (addmeta == 1) { if (ctxt->format == 1) { xmlOutputBufferWrite(buf, 1, "\n"); if (xmlIndentTreeOutput) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level + 1 > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level + 1), ctxt->indent); } xmlOutputBufferWriteString(buf, ""); } if (ctxt->format == 1) { tmp = cur->children; while (tmp != NULL) { if ((tmp->type == XML_TEXT_NODE) || (tmp->type == XML_ENTITY_REF_NODE)) { unformattedNode = cur; ctxt->format = 0; break; } tmp = tmp->next; } } if (ctxt->format == 1) xmlOutputBufferWrite(buf, 1, "\n"); if (ctxt->level >= 0) ctxt->level++; parent = cur; cur = cur->children; continue; } break; case XML_TEXT_NODE: if (cur->content == NULL) break; if ((cur->name == xmlStringText) || (cur->name != xmlStringTextNoenc)) { xmlOutputBufferWriteEscape(buf, cur->content, ctxt->escape); } else { /* * Disable escaping, needed for XSLT */ xmlOutputBufferWriteString(buf, (const char *) cur->content); } break; case XML_PI_NODE: if (cur->content != NULL) { xmlOutputBufferWrite(buf, 2, "name); if (cur->content != NULL) { xmlOutputBufferWrite(buf, 1, " "); xmlOutputBufferWriteString(buf, (const char *)cur->content); } xmlOutputBufferWrite(buf, 2, "?>"); } else { xmlOutputBufferWrite(buf, 2, "name); xmlOutputBufferWrite(buf, 2, "?>"); } break; case XML_COMMENT_NODE: if (cur->content != NULL) { xmlOutputBufferWrite(buf, 4, ""); } break; case XML_ENTITY_REF_NODE: xmlOutputBufferWrite(buf, 1, "&"); xmlOutputBufferWriteString(buf, (const char *)cur->name); xmlOutputBufferWrite(buf, 1, ";"); break; case XML_CDATA_SECTION_NODE: if (cur->content == NULL || *cur->content == '\0') { xmlOutputBufferWrite(buf, 12, ""); } else { start = end = cur->content; while (*end != '\0') { if (*end == ']' && *(end + 1) == ']' && *(end + 2) == '>') { end = end + 2; xmlOutputBufferWrite(buf, 9, ""); start = end; } end++; } if (start != end) { xmlOutputBufferWrite(buf, 9, ""); } } break; case XML_ATTRIBUTE_NODE: xmlAttrDumpOutput(ctxt, (xmlAttrPtr) cur); break; default: break; } while (1) { if (cur == root) return; if (ctxt->format == 1) xmlOutputBufferWrite(buf, 1, "\n"); if (cur->next != NULL) { cur = cur->next; break; } cur = parent; /* cur->parent was validated when descending. */ parent = cur->parent; if (cur->type == XML_ELEMENT_NODE) { if (ctxt->level > 0) ctxt->level--; if ((xmlIndentTreeOutput) && (ctxt->format == 1)) xmlOutputBufferWrite(buf, ctxt->indent_size * (ctxt->level > ctxt->indent_nr ? ctxt->indent_nr : ctxt->level), ctxt->indent); xmlOutputBufferWrite(buf, 2, "ns != NULL) && (cur->ns->prefix != NULL)) { xmlOutputBufferWriteString(buf, (const char *)cur->ns->prefix); xmlOutputBufferWrite(buf, 1, ":"); } xmlOutputBufferWriteString(buf, (const char *)cur->name); xmlOutputBufferWrite(buf, 1, ">"); if (cur == unformattedNode) { ctxt->format = format; unformattedNode = NULL; } } } } ctxt->options = oldoptions; } #endif /************************************************************************ * * * Public entry points * * * ************************************************************************/ /** * xmlSaveToFd: * @fd: a file descriptor number * @encoding: the encoding name to use or NULL * @options: a set of xmlSaveOptions * * Create a document saving context serializing to a file descriptor * with the encoding and the options given. * * Returns a new serialization context or NULL in case of error. */ xmlSaveCtxtPtr xmlSaveToFd(int fd, const char *encoding, int options) { xmlSaveCtxtPtr ret; ret = xmlNewSaveCtxt(encoding, options); if (ret == NULL) return(NULL); ret->buf = xmlOutputBufferCreateFd(fd, ret->handler); if (ret->buf == NULL) { xmlCharEncCloseFunc(ret->handler); xmlFreeSaveCtxt(ret); return(NULL); } return(ret); } /** * xmlSaveToFilename: * @filename: a file name or an URL * @encoding: the encoding name to use or NULL * @options: a set of xmlSaveOptions * * Create a document saving context serializing to a filename or possibly * to an URL (but this is less reliable) with the encoding and the options * given. * * Returns a new serialization context or NULL in case of error. */ xmlSaveCtxtPtr xmlSaveToFilename(const char *filename, const char *encoding, int options) { xmlSaveCtxtPtr ret; int compression = 0; /* TODO handle compression option */ ret = xmlNewSaveCtxt(encoding, options); if (ret == NULL) return(NULL); ret->buf = xmlOutputBufferCreateFilename(filename, ret->handler, compression); if (ret->buf == NULL) { xmlCharEncCloseFunc(ret->handler); xmlFreeSaveCtxt(ret); return(NULL); } return(ret); } /** * xmlSaveToBuffer: * @buffer: a buffer * @encoding: the encoding name to use or NULL * @options: a set of xmlSaveOptions * * Create a document saving context serializing to a buffer * with the encoding and the options given * * Returns a new serialization context or NULL in case of error. */ xmlSaveCtxtPtr xmlSaveToBuffer(xmlBufferPtr buffer, const char *encoding, int options) { xmlSaveCtxtPtr ret; ret = xmlNewSaveCtxt(encoding, options); if (ret == NULL) return(NULL); ret->buf = xmlOutputBufferCreateBuffer(buffer, ret->handler); if (ret->buf == NULL) { xmlCharEncCloseFunc(ret->handler); xmlFreeSaveCtxt(ret); return(NULL); } return(ret); } /** * xmlSaveToIO: * @iowrite: an I/O write function * @ioclose: an I/O close function * @ioctx: an I/O handler * @encoding: the encoding name to use or NULL * @options: a set of xmlSaveOptions * * Create a document saving context serializing to a file descriptor * with the encoding and the options given * * Returns a new serialization context or NULL in case of error. */ xmlSaveCtxtPtr xmlSaveToIO(xmlOutputWriteCallback iowrite, xmlOutputCloseCallback ioclose, void *ioctx, const char *encoding, int options) { xmlSaveCtxtPtr ret; ret = xmlNewSaveCtxt(encoding, options); if (ret == NULL) return(NULL); ret->buf = xmlOutputBufferCreateIO(iowrite, ioclose, ioctx, ret->handler); if (ret->buf == NULL) { xmlCharEncCloseFunc(ret->handler); xmlFreeSaveCtxt(ret); return(NULL); } return(ret); } /** * xmlSaveDoc: * @ctxt: a document saving context * @doc: a document * * Save a full document to a saving context * TODO: The function is not fully implemented yet as it does not return the * byte count but 0 instead * * Returns the number of byte written or -1 in case of error */ long xmlSaveDoc(xmlSaveCtxtPtr ctxt, xmlDocPtr doc) { long ret = 0; if ((ctxt == NULL) || (doc == NULL)) return(-1); if (xmlDocContentDumpOutput(ctxt, doc) < 0) return(-1); return(ret); } /** * xmlSaveTree: * @ctxt: a document saving context * @cur: the top node of the subtree to save * * Save a subtree starting at the node parameter to a saving context * TODO: The function is not fully implemented yet as it does not return the * byte count but 0 instead * * Returns the number of byte written or -1 in case of error */ long xmlSaveTree(xmlSaveCtxtPtr ctxt, xmlNodePtr cur) { long ret = 0; if ((ctxt == NULL) || (cur == NULL)) return(-1); #ifdef LIBXML_HTML_ENABLED if (ctxt->options & XML_SAVE_XHTML) { xhtmlNodeDumpOutput(ctxt, cur); return(ret); } if (((cur->type != XML_NAMESPACE_DECL) && (cur->doc != NULL) && (cur->doc->type == XML_HTML_DOCUMENT_NODE) && ((ctxt->options & XML_SAVE_AS_XML) == 0)) || (ctxt->options & XML_SAVE_AS_HTML)) { htmlNodeDumpOutputInternal(ctxt, cur); return(ret); } #endif xmlNodeDumpOutputInternal(ctxt, cur); return(ret); } /** * xmlSaveNotationDecl: * @ctxt: save context * @cur: notation * * Serialize a notation declaration. * * Return 0 on succes, -1 on error. */ int xmlSaveNotationDecl(xmlSaveCtxtPtr ctxt, xmlNotationPtr cur) { if (ctxt == NULL) return(-1); xmlBufDumpNotationDecl(ctxt->buf, cur); return(0); } /** * xmlSaveNotationTable: * @ctxt: save context * @cur: notation table * * Serialize notation declarations of a document. * * Return 0 on succes, -1 on error. */ int xmlSaveNotationTable(xmlSaveCtxtPtr ctxt, xmlNotationTablePtr cur) { if (ctxt == NULL) return(-1); xmlBufDumpNotationTable(ctxt->buf, cur); return(0); } /** * xmlSaveFlush: * @ctxt: a document saving context * * Flush a document saving context, i.e. make sure that all bytes have * been output. * * Returns the number of byte written or -1 in case of error. */ int xmlSaveFlush(xmlSaveCtxtPtr ctxt) { if (ctxt == NULL) return(-1); if (ctxt->buf == NULL) return(-1); return(xmlOutputBufferFlush(ctxt->buf)); } /** * xmlSaveClose: * @ctxt: a document saving context * * Close a document saving context, i.e. make sure that all bytes have * been output and free the associated data. * * Returns the number of byte written or -1 in case of error. */ int xmlSaveClose(xmlSaveCtxtPtr ctxt) { int ret; if (ctxt == NULL) return(-1); ret = xmlSaveFlush(ctxt); xmlFreeSaveCtxt(ctxt); return(ret); } /** * xmlSaveFinish: * @ctxt: a document saving context * * Close a document saving context, i.e. make sure that all bytes have * been output and free the associated data. * * Available since 2.13.0. * * Returns an xmlParserErrors code. */ int xmlSaveFinish(xmlSaveCtxtPtr ctxt) { int ret; if (ctxt == NULL) return(XML_ERR_INTERNAL_ERROR); xmlSaveFlush(ctxt); ret = ctxt->buf->error; xmlFreeSaveCtxt(ctxt); return(ret); } /** * xmlSaveSetEscape: * @ctxt: a document saving context * @escape: the escaping function * * Set a custom escaping function to be used for text in element content * * Returns 0 if successful or -1 in case of error. */ int xmlSaveSetEscape(xmlSaveCtxtPtr ctxt, xmlCharEncodingOutputFunc escape) { if (ctxt == NULL) return(-1); ctxt->escape = escape; return(0); } /** * xmlSaveSetAttrEscape: * @ctxt: a document saving context * @escape: the escaping function * * Set a custom escaping function to be used for text in attribute content * * Returns 0 if successful or -1 in case of error. */ int xmlSaveSetAttrEscape(xmlSaveCtxtPtr ctxt, xmlCharEncodingOutputFunc escape) { if (ctxt == NULL) return(-1); ctxt->escapeAttr = escape; return(0); } /************************************************************************ * * * Public entry points based on buffers * * * ************************************************************************/ /** * xmlBufAttrSerializeTxtContent: * @buf: output buffer * @doc: the document * @string: the text content * * Serialize text attribute values to an xmlBufPtr */ void xmlBufAttrSerializeTxtContent(xmlOutputBufferPtr buf, xmlDocPtr doc, const xmlChar *string) { const xmlChar *base, *cur; if (string == NULL) return; base = cur = string; while (*cur != 0) { if (*cur == '\n') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 5, " "); cur++; base = cur; } else if (*cur == '\r') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 5, " "); cur++; base = cur; } else if (*cur == '\t') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 4, " "); cur++; base = cur; } else if (*cur == '"') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 6, """); cur++; base = cur; } else if (*cur == '<') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 4, "<"); cur++; base = cur; } else if (*cur == '>') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 4, ">"); cur++; base = cur; } else if (*cur == '&') { if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); xmlOutputBufferWrite(buf, 5, "&"); cur++; base = cur; } else if ((*cur >= 0x80) && (cur[1] != 0) && ((doc == NULL) || (doc->encoding == NULL))) { /* * We assume we have UTF-8 content. */ unsigned char tmp[12]; int val = 0, l = 4; if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); val = xmlGetUTF8Char(cur, &l); if (val < 0) { val = 0xFFFD; cur++; } else { if (!IS_CHAR(val)) val = 0xFFFD; cur += l; } /* * We could do multiple things here. Just save * as a char ref */ xmlSerializeHexCharRef(tmp, val); xmlOutputBufferWriteString(buf, (const char *) tmp); base = cur; } else { cur++; } } if (base != cur) xmlOutputBufferWrite(buf, cur - base, (const char *) base); } /** * xmlAttrSerializeTxtContent: * @buf: the XML buffer output * @doc: the document * @attr: the attribute node * @string: the text content * * Serialize text attribute values to an xml simple buffer */ void xmlAttrSerializeTxtContent(xmlBufferPtr buf, xmlDocPtr doc, xmlAttrPtr attr ATTRIBUTE_UNUSED, const xmlChar *string) { xmlOutputBufferPtr out; if ((buf == NULL) || (string == NULL)) return; out = xmlOutputBufferCreateBuffer(buf, NULL); xmlBufAttrSerializeTxtContent(out, doc, string); xmlOutputBufferFlush(out); if ((out == NULL) || (out->error)) xmlFree(xmlBufferDetach(buf)); xmlOutputBufferClose(out); } /** * xmlNodeDump: * @buf: the XML buffer output * @doc: the document * @cur: the current node * @level: the imbrication level for indenting * @format: is formatting allowed * * Dump an XML node, recursive behaviour,children are printed too. * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called. * Since this is using xmlBuffer structures it is limited to 2GB and somehow * deprecated, use xmlNodeDumpOutput() instead. * * Returns the number of bytes written to the buffer or -1 in case of error */ int xmlNodeDump(xmlBufferPtr buf, xmlDocPtr doc, xmlNodePtr cur, int level, int format) { xmlBufPtr buffer; size_t ret; if ((buf == NULL) || (cur == NULL)) return(-1); if (level < 0) level = 0; else if (level > 100) level = 100; buffer = xmlBufFromBuffer(buf); if (buffer == NULL) return(-1); ret = xmlBufNodeDump(buffer, doc, cur, level, format); xmlBufBackToBuffer(buffer); if (ret > INT_MAX) return(-1); return(ret); } /** * xmlBufNodeDump: * @buf: the XML buffer output * @doc: the document * @cur: the current node * @level: the imbrication level for indenting * @format: is formatting allowed * * Dump an XML node, recursive behaviour,children are printed too. * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called * * Returns the number of bytes written to the buffer, in case of error 0 * is returned or @buf stores the error */ size_t xmlBufNodeDump(xmlBufPtr buf, xmlDocPtr doc, xmlNodePtr cur, int level, int format) { size_t use; size_t ret; xmlOutputBufferPtr outbuf; int oldalloc; xmlInitParser(); if (cur == NULL) { return ((size_t) -1); } if (buf == NULL) { return ((size_t) -1); } outbuf = (xmlOutputBufferPtr) xmlMalloc(sizeof(xmlOutputBuffer)); if (outbuf == NULL) { xmlSaveErrMemory(NULL); return ((size_t) -1); } memset(outbuf, 0, (size_t) sizeof(xmlOutputBuffer)); outbuf->buffer = buf; outbuf->encoder = NULL; outbuf->writecallback = NULL; outbuf->closecallback = NULL; outbuf->context = NULL; outbuf->written = 0; use = xmlBufUse(buf); oldalloc = xmlBufGetAllocationScheme(buf); xmlBufSetAllocationScheme(buf, XML_BUFFER_ALLOC_DOUBLEIT); xmlNodeDumpOutput(outbuf, doc, cur, level, format, NULL); xmlBufSetAllocationScheme(buf, oldalloc); if (outbuf->error) ret = (size_t) -1; else ret = xmlBufUse(buf) - use; xmlFree(outbuf); return (ret); } /** * xmlElemDump: * @f: the FILE * for the output * @doc: the document * @cur: the current node * * Dump an XML/HTML node, recursive behaviour, children are printed too. */ void xmlElemDump(FILE * f, xmlDocPtr doc, xmlNodePtr cur) { xmlOutputBufferPtr outbuf; xmlInitParser(); if (cur == NULL) { return; } outbuf = xmlOutputBufferCreateFile(f, NULL); if (outbuf == NULL) return; #ifdef LIBXML_HTML_ENABLED if ((doc != NULL) && (doc->type == XML_HTML_DOCUMENT_NODE)) htmlNodeDumpOutput(outbuf, doc, cur, NULL); else #endif /* LIBXML_HTML_ENABLED */ xmlNodeDumpOutput(outbuf, doc, cur, 0, 1, NULL); xmlOutputBufferClose(outbuf); } /************************************************************************ * * * Saving functions front-ends * * * ************************************************************************/ /** * xmlNodeDumpOutput: * @buf: the XML buffer output * @doc: the document * @cur: the current node * @level: the imbrication level for indenting * @format: is formatting allowed * @encoding: an optional encoding string * * Dump an XML node, recursive behaviour, children are printed too. * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called */ void xmlNodeDumpOutput(xmlOutputBufferPtr buf, xmlDocPtr doc, xmlNodePtr cur, int level, int format, const char *encoding) { xmlSaveCtxt ctxt; #ifdef LIBXML_HTML_ENABLED xmlDtdPtr dtd; int is_xhtml = 0; #endif (void) doc; xmlInitParser(); if ((buf == NULL) || (cur == NULL)) return; if (level < 0) level = 0; else if (level > 100) level = 100; if (encoding == NULL) encoding = "UTF-8"; memset(&ctxt, 0, sizeof(ctxt)); ctxt.buf = buf; ctxt.level = level; ctxt.format = format ? 1 : 0; ctxt.encoding = (const xmlChar *) encoding; xmlSaveCtxtInit(&ctxt); ctxt.options |= XML_SAVE_AS_XML; #ifdef LIBXML_HTML_ENABLED dtd = xmlGetIntSubset(doc); if (dtd != NULL) { is_xhtml = xmlIsXHTML(dtd->SystemID, dtd->ExternalID); if (is_xhtml < 0) is_xhtml = 0; } if (is_xhtml) xhtmlNodeDumpOutput(&ctxt, cur); else #endif xmlNodeDumpOutputInternal(&ctxt, cur); } /** * xmlDocDumpFormatMemoryEnc: * @out_doc: Document to generate XML text from * @doc_txt_ptr: Memory pointer for allocated XML text * @doc_txt_len: Length of the generated XML text * @txt_encoding: Character encoding to use when generating XML text * @format: should formatting spaces been added * * Dump the current DOM tree into memory using the character encoding specified * by the caller. Note it is up to the caller of this function to free the * allocated memory with xmlFree(). * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called */ void xmlDocDumpFormatMemoryEnc(xmlDocPtr out_doc, xmlChar **doc_txt_ptr, int * doc_txt_len, const char * txt_encoding, int format) { xmlSaveCtxt ctxt; int dummy = 0; xmlOutputBufferPtr out_buff = NULL; xmlCharEncodingHandlerPtr conv_hdlr = NULL; if (doc_txt_len == NULL) { doc_txt_len = &dummy; /* Continue, caller just won't get length */ } if (doc_txt_ptr == NULL) { *doc_txt_len = 0; return; } *doc_txt_ptr = NULL; *doc_txt_len = 0; if (out_doc == NULL) { /* No document, no output */ return; } /* * Validate the encoding value, if provided. * This logic is copied from xmlSaveFileEnc. */ if (txt_encoding == NULL) txt_encoding = (const char *) out_doc->encoding; if (txt_encoding != NULL) { int res; res = xmlOpenCharEncodingHandler(txt_encoding, /* output */ 1, &conv_hdlr); if (conv_hdlr == NULL) { xmlSaveErr(NULL, res, NULL, txt_encoding); return; } } out_buff = xmlAllocOutputBuffer(conv_hdlr); if (out_buff == NULL ) { xmlSaveErrMemory(NULL); xmlCharEncCloseFunc(conv_hdlr); return; } memset(&ctxt, 0, sizeof(ctxt)); ctxt.buf = out_buff; ctxt.level = 0; ctxt.format = format ? 1 : 0; ctxt.encoding = (const xmlChar *) txt_encoding; xmlSaveCtxtInit(&ctxt); ctxt.options |= XML_SAVE_AS_XML; xmlDocContentDumpOutput(&ctxt, out_doc); xmlOutputBufferFlush(out_buff); if (!out_buff->error) { if (out_buff->conv != NULL) { *doc_txt_len = xmlBufUse(out_buff->conv); *doc_txt_ptr = xmlBufDetach(out_buff->conv); } else { *doc_txt_len = xmlBufUse(out_buff->buffer); *doc_txt_ptr = xmlBufDetach(out_buff->buffer); } } xmlOutputBufferClose(out_buff); } /** * xmlDocDumpMemory: * @cur: the document * @mem: OUT: the memory pointer * @size: OUT: the memory length * * Dump an XML document in memory and return the #xmlChar * and it's size * in bytes. It's up to the caller to free the memory with xmlFree(). * The resulting byte array is zero terminated, though the last 0 is not * included in the returned size. */ void xmlDocDumpMemory(xmlDocPtr cur, xmlChar**mem, int *size) { xmlDocDumpFormatMemoryEnc(cur, mem, size, NULL, 0); } /** * xmlDocDumpFormatMemory: * @cur: the document * @mem: OUT: the memory pointer * @size: OUT: the memory length * @format: should formatting spaces been added * * * Dump an XML document in memory and return the #xmlChar * and it's size. * It's up to the caller to free the memory with xmlFree(). * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called */ void xmlDocDumpFormatMemory(xmlDocPtr cur, xmlChar**mem, int *size, int format) { xmlDocDumpFormatMemoryEnc(cur, mem, size, NULL, format); } /** * xmlDocDumpMemoryEnc: * @out_doc: Document to generate XML text from * @doc_txt_ptr: Memory pointer for allocated XML text * @doc_txt_len: Length of the generated XML text * @txt_encoding: Character encoding to use when generating XML text * * Dump the current DOM tree into memory using the character encoding specified * by the caller. Note it is up to the caller of this function to free the * allocated memory with xmlFree(). */ void xmlDocDumpMemoryEnc(xmlDocPtr out_doc, xmlChar **doc_txt_ptr, int * doc_txt_len, const char * txt_encoding) { xmlDocDumpFormatMemoryEnc(out_doc, doc_txt_ptr, doc_txt_len, txt_encoding, 0); } /** * xmlDocFormatDump: * @f: the FILE* * @cur: the document * @format: should formatting spaces been added * * Dump an XML document to an open FILE. * * returns: the number of bytes written or -1 in case of failure. * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called */ int xmlDocFormatDump(FILE *f, xmlDocPtr cur, int format) { xmlSaveCtxt ctxt; xmlOutputBufferPtr buf; const char * encoding; xmlCharEncodingHandlerPtr handler = NULL; int ret; if (cur == NULL) { return(-1); } encoding = (const char *) cur->encoding; if (encoding != NULL) { xmlOpenCharEncodingHandler(encoding, /* output */ 1, &handler); if (handler == NULL) { xmlFree((char *) cur->encoding); cur->encoding = NULL; encoding = NULL; } } buf = xmlOutputBufferCreateFile(f, handler); if (buf == NULL) return(-1); memset(&ctxt, 0, sizeof(ctxt)); ctxt.buf = buf; ctxt.level = 0; ctxt.format = format ? 1 : 0; ctxt.encoding = (const xmlChar *) encoding; xmlSaveCtxtInit(&ctxt); ctxt.options |= XML_SAVE_AS_XML; xmlDocContentDumpOutput(&ctxt, cur); ret = xmlOutputBufferClose(buf); return(ret); } /** * xmlDocDump: * @f: the FILE* * @cur: the document * * Dump an XML document to an open FILE. * * returns: the number of bytes written or -1 in case of failure. */ int xmlDocDump(FILE *f, xmlDocPtr cur) { return(xmlDocFormatDump (f, cur, 0)); } /** * xmlSaveFileTo: * @buf: an output I/O buffer * @cur: the document * @encoding: the encoding if any assuming the I/O layer handles the transcoding * * Dump an XML document to an I/O buffer. * Warning ! This call xmlOutputBufferClose() on buf which is not available * after this call. * * returns: the number of bytes written or -1 in case of failure. */ int xmlSaveFileTo(xmlOutputBufferPtr buf, xmlDocPtr cur, const char *encoding) { xmlSaveCtxt ctxt; int ret; if (buf == NULL) return(-1); if (cur == NULL) { xmlOutputBufferClose(buf); return(-1); } memset(&ctxt, 0, sizeof(ctxt)); ctxt.buf = buf; ctxt.level = 0; ctxt.format = 0; ctxt.encoding = (const xmlChar *) encoding; xmlSaveCtxtInit(&ctxt); ctxt.options |= XML_SAVE_AS_XML; xmlDocContentDumpOutput(&ctxt, cur); ret = xmlOutputBufferClose(buf); return(ret); } /** * xmlSaveFormatFileTo: * @buf: an output I/O buffer * @cur: the document * @encoding: the encoding if any assuming the I/O layer handles the transcoding * @format: should formatting spaces been added * * Dump an XML document to an I/O buffer. * Warning ! This call xmlOutputBufferClose() on buf which is not available * after this call. * * returns: the number of bytes written or -1 in case of failure. */ int xmlSaveFormatFileTo(xmlOutputBufferPtr buf, xmlDocPtr cur, const char *encoding, int format) { xmlSaveCtxt ctxt; int ret; if (buf == NULL) return(-1); if ((cur == NULL) || ((cur->type != XML_DOCUMENT_NODE) && (cur->type != XML_HTML_DOCUMENT_NODE))) { xmlOutputBufferClose(buf); return(-1); } memset(&ctxt, 0, sizeof(ctxt)); ctxt.buf = buf; ctxt.level = 0; ctxt.format = format ? 1 : 0; ctxt.encoding = (const xmlChar *) encoding; xmlSaveCtxtInit(&ctxt); ctxt.options |= XML_SAVE_AS_XML; xmlDocContentDumpOutput(&ctxt, cur); ret = xmlOutputBufferClose(buf); return (ret); } /** * xmlSaveFormatFileEnc: * @filename: the filename or URL to output * @cur: the document being saved * @encoding: the name of the encoding to use or NULL. * @format: should formatting spaces be added. * * Dump an XML document to a file or an URL. * * Returns the number of bytes written or -1 in case of error. * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called */ int xmlSaveFormatFileEnc( const char * filename, xmlDocPtr cur, const char * encoding, int format ) { xmlSaveCtxt ctxt; xmlOutputBufferPtr buf; xmlCharEncodingHandlerPtr handler = NULL; int ret; if (cur == NULL) return(-1); if (encoding == NULL) encoding = (const char *) cur->encoding; if (encoding != NULL) { xmlOpenCharEncodingHandler(encoding, /* output */ 1, &handler); if (handler == NULL) return(-1); } #ifdef LIBXML_ZLIB_ENABLED if (cur->compression < 0) cur->compression = xmlGetCompressMode(); #endif /* * save the content to a temp buffer. */ buf = xmlOutputBufferCreateFilename(filename, handler, cur->compression); if (buf == NULL) return(-1); memset(&ctxt, 0, sizeof(ctxt)); ctxt.buf = buf; ctxt.level = 0; ctxt.format = format ? 1 : 0; ctxt.encoding = (const xmlChar *) encoding; xmlSaveCtxtInit(&ctxt); ctxt.options |= XML_SAVE_AS_XML; xmlDocContentDumpOutput(&ctxt, cur); ret = xmlOutputBufferClose(buf); return(ret); } /** * xmlSaveFileEnc: * @filename: the filename (or URL) * @cur: the document * @encoding: the name of an encoding (or NULL) * * Dump an XML document, converting it to the given encoding * * returns: the number of bytes written or -1 in case of failure. */ int xmlSaveFileEnc(const char *filename, xmlDocPtr cur, const char *encoding) { return ( xmlSaveFormatFileEnc( filename, cur, encoding, 0 ) ); } /** * xmlSaveFormatFile: * @filename: the filename (or URL) * @cur: the document * @format: should formatting spaces been added * * Dump an XML document to a file. Will use compression if * compiled in and enabled. If @filename is "-" the stdout file is * used. If @format is set then the document will be indented on output. * Note that @format = 1 provide node indenting only if xmlIndentTreeOutput = 1 * or xmlKeepBlanksDefault(0) was called * * returns: the number of bytes written or -1 in case of failure. */ int xmlSaveFormatFile(const char *filename, xmlDocPtr cur, int format) { return ( xmlSaveFormatFileEnc( filename, cur, NULL, format ) ); } /** * xmlSaveFile: * @filename: the filename (or URL) * @cur: the document * * Dump an XML document to a file. Will use compression if * compiled in and enabled. If @filename is "-" the stdout file is * used. * returns: the number of bytes written or -1 in case of failure. */ int xmlSaveFile(const char *filename, xmlDocPtr cur) { return(xmlSaveFormatFileEnc(filename, cur, NULL, 0)); } #endif /* LIBXML_OUTPUT_ENABLED */