#ifdef NALL_STRING_INTERNAL_HPP
//XML v1.0 subset parser
//revision 0.03
namespace nall {
namespace XML {
struct Node : Markup::Node {
protected:
inline string escape() const {
string result = data;
result.replace("&", "&");
result.replace("<", "<");
result.replace(">", ">");
if(attribute == false) return result;
result.replace("\'", "'");
result.replace("\"", """);
return result;
}
inline bool isName(char c) const {
if(c >= 'A' && c <= 'Z') return true;
if(c >= 'a' && c <= 'z') return true;
if(c >= '0' && c <= '9') return true;
if(c == '.' || c == '_') return true;
if(c == '?') return true;
return false;
}
inline bool isWhitespace(char c) const {
if(c == ' ' || c == '\t') return true;
if(c == '\r' || c == '\n') return true;
return false;
}
//copy part of string from source document into target string; decode markup while copying
inline void copy(string &target, const char *source, unsigned length) {
target.reserve(length + 1);
#if defined(NALL_XML_LITERAL)
memcpy(target(), source, length);
target[length] = 0;
return;
#endif
char *output = target();
while(length) {
if(*source == '&') {
if(!memcmp(source, "<", 4)) { *output++ = '<'; source += 4; length -= 4; continue; }
if(!memcmp(source, ">", 4)) { *output++ = '>'; source += 4; length -= 4; continue; }
if(!memcmp(source, "&", 5)) { *output++ = '&'; source += 5; length -= 5; continue; }
if(!memcmp(source, "'", 6)) { *output++ = '\''; source += 6; length -= 6; continue; }
if(!memcmp(source, """, 6)) { *output++ = '\"'; source += 6; length -= 6; continue; }
}
if(attribute == false && source[0] == '<' && source[1] == '!') {
//comment
if(!memcmp(source, "", 3)) source++, length--;
source += 3, length -= 3;
continue;
}
//CDATA
if(!memcmp(source, "", 3)) *output++ = *source++, length--;
source += 3, length -= 3;
continue;
}
}
*output++ = *source++, length--;
}
*output = 0;
}
inline bool parseExpression(const char *&p) {
if(*(p + 1) != '!') return false;
//comment
if(!memcmp(p, "", 3)) p++;
if(!*p) throw "unclosed comment";
p += 3;
return true;
}
//CDATA
if(!memcmp(p, "", 3)) p++;
if(!*p) throw "unclosed CDATA";
p += 3;
return true;
}
//DOCTYPE
if(!memcmp(p, "') counter--;
} while(counter);
return true;
}
return false;
}
//returns true if tag closes itself (); false if not ()
inline bool parseHead(const char *&p) {
//parse name
const char *nameStart = ++p; //skip '<'
while(isName(*p)) p++;
const char *nameEnd = p;
copy(name, nameStart, nameEnd - nameStart);
if(name.empty()) throw "missing element name";
//parse attributes
while(*p) {
while(isWhitespace(*p)) p++;
if(!*p) throw "unclosed attribute";
if(*p == '?' || *p == '/' || *p == '>') break;
//parse attribute name
Node attribute;
attribute.attribute = true;
const char *nameStart = p;
while(isName(*p)) p++;
const char *nameEnd = p;
copy(attribute.name, nameStart, nameEnd - nameStart);
if(attribute.name.empty()) throw "missing attribute name";
//parse attribute data
if(*p++ != '=') throw "missing attribute value";
char terminal = *p++;
if(terminal != '\'' && terminal != '\"') throw "attribute value not quoted";
const char *dataStart = p;
while(*p && *p != terminal) p++;
if(!*p) throw "missing attribute data terminal";
const char *dataEnd = p++; //skip closing terminal
copy(attribute.data, dataStart, dataEnd - dataStart);
children.append(attribute);
}
//parse closure
if(*p == '?' && *(p + 1) == '>') { p += 2; return true; }
if(*p == '/' && *(p + 1) == '>') { p += 2; return true; }
if(*p == '>') { p += 1; return false; }
throw "invalid element tag";
}
//parse element and all of its child elements
inline void parseElement(const char *&p) {
Node node;
if(node.parseHead(p) == false) node.parse(p);
children.append(node);
}
//return true if matches this node's name
inline bool parseClosureElement(const char *&p) {
if(p[0] != '<' || p[1] != '/') return false;
p += 2;
const char *nameStart = p;
while(*p && *p != '>') p++;
if(*p != '>') throw "unclosed closure element";
const char *nameEnd = p++;
if(memcmp(name, nameStart, nameEnd - nameStart)) throw "closure element name mismatch";
return true;
}
//parse contents of an element
inline void parse(const char *&p) {
const char *dataStart = p, *dataEnd = p;
while(*p) {
while(*p && *p != '<') p++;
if(!*p) break;
dataEnd = p;
if(parseClosureElement(p) == true) break;
if(parseExpression(p) == true) continue;
parseElement(p);
}
copy(data, dataStart, dataEnd - dataStart);
}
};
struct Document : Node {
string error;
inline bool load(const char *document) {
if(document == nullptr) return false;
reset();
try {
parse(document);
} catch(const char *error) {
reset();
this->error = error;
return false;
}
return true;
}
inline Document() {}
inline Document(const char *document) { load(document); }
};
}
}
#endif