#include "singledocparser.h"
#include "collectionstack.h"
#include "directives.h"
#include "yaml-cpp/eventhandler.h"
#include "yaml-cpp/exceptions.h"
#include "scanner.h"
#include "tag.h"
#include "token.h"
#include <sstream>
#include <cstdio>
#include <algorithm>
namespace YAML
{
SingleDocParser::SingleDocParser(Scanner& scanner, const Directives& directives): m_scanner(scanner), m_directives(directives), m_pCollectionStack(new CollectionStack), m_curAnchor(0)
{
}
SingleDocParser::~SingleDocParser()
{
}
// HandleDocument
// . Handles the next document
// . Throws a ParserException on error.
void SingleDocParser::HandleDocument(EventHandler& eventHandler)
{
assert(!m_scanner.empty()); // guaranteed that there are tokens
assert(!m_curAnchor);
eventHandler.OnDocumentStart(m_scanner.peek().mark);
// eat doc start
if(m_scanner.peek().type == Token::DOC_START)
m_scanner.pop();
// recurse!
HandleNode(eventHandler);
eventHandler.OnDocumentEnd();
// and finally eat any doc ends we see
while(!m_scanner.empty() && m_scanner.peek().type == Token::DOC_END)
m_scanner.pop();
}
void SingleDocParser::HandleNode(EventHandler& eventHandler)
{
// an empty node *is* a possibility
if(m_scanner.empty()) {
eventHandler.OnNull(Mark::null(), NullAnchor);
return;
}
// save location
Mark mark = m_scanner.peek().mark;
// special case: a value node by itself must be a map, with no header
if(m_scanner.peek().type == Token::VALUE) {
eventHandler.OnMapStart(mark, "", NullAnchor);
HandleMap(eventHandler);
eventHandler.OnMapEnd();
return;
}
// special case: an alias node
if(m_scanner.peek().type == Token::ALIAS) {
eventHandler.OnAlias(mark, LookupAnchor(mark, m_scanner.peek().value));
m_scanner.pop();
return;
}
std::string tag;
anchor_t anchor;
ParseProperties(tag, anchor);
const Token& token = m_scanner.peek();
// add non-specific tags
if(tag.empty())
tag = (token.type == Token::NON_PLAIN_SCALAR ? "!" : "?");
// now split based on what kind of node we should be
switch(token.type) {
case Token::PLAIN_SCALAR:
case Token::NON_PLAIN_SCALAR:
eventHandler.OnScalar(mark, tag, anchor, token.value);
m_scanner.pop();
return;
case Token::FLOW_SEQ_START:
case Token::BLOCK_SEQ_START:
eventHandler.OnSequenceStart(mark, tag, anchor);
HandleSequence(eventHandler);
eventHandler.OnSequenceEnd();
return;
case Token::FLOW_MAP_START:
case Token::BLOCK_MAP_START:
eventHandler.OnMapStart(mark, tag, anchor);
HandleMap(eventHandler);
eventHandler.OnMapEnd();
return;
case Token::KEY:
// compact maps can only go in a flow sequence
if(m_pCollectionStack->GetCurCollectionType() == CollectionType::FlowSeq) {
eventHandler.OnMapStart(mark, tag, anchor);
HandleMap(eventHandler);
eventHandler.OnMapEnd();
return;
}
break;
default:
break;
}
if(tag == "?")
eventHandler.OnNull(mark, anchor);
else
eventHandler.OnScalar(mark, tag, anchor, "");
}
void SingleDocParser::HandleSequence(EventHandler& eventHandler)
{
// split based on start token
switch(m_scanner.peek().type) {
case Token::BLOCK_SEQ_START: HandleBlockSequence(eventHandler); break;
case Token::FLOW_SEQ_START: HandleFlowSequence(eventHandler); break;
default: break;
}
}
void SingleDocParser::HandleBlockSequence(EventHandler& eventHandler)
{
// eat start token
m_scanner.pop();
m_pCollectionStack->PushCollectionType(CollectionType::BlockSeq);
while(1) {
if(m_scanner.empty())
throw ParserException(Mark::null(), ErrorMsg::END_OF_SEQ);
Token token = m_scanner.peek();
if(token.type != Token::BLOCK_ENTRY && token.type != Token::BLOCK_SEQ_END)
throw ParserException(token.mark, ErrorMsg::END_OF_SEQ);
m_scanner.pop();
if(token.type == Token::BLOCK_SEQ_END)
break;
// check for null
if(!m_scanner.empty()) {
const Token& token = m_scanner.peek();
if(token.type == Token::BLOCK_ENTRY || token.type == Token::BLOCK_SEQ_END) {
eventHandler.OnNull(token.mark, NullAnchor);
continue;
}
}
HandleNode(eventHandler);
}
m_pCollectionStack->PopCollectionType(CollectionType::BlockSeq);
}
void SingleDocParser::HandleFlowSequence(EventHandler& eventHandler)
{
// eat start token
m_scanner.pop();
m_pCollectionStack->PushCollectionType(CollectionType::FlowSeq);
while(1) {
if(m_scanner.empty())
throw ParserException(Mark::null(), ErrorMsg::END_OF_SEQ_FLOW);
// first check for end
if(m_scanner.peek().type == Token::FLOW_SEQ_END) {
m_scanner.pop();
break;
}
// then read the node
HandleNode(eventHandler);
// now eat the separator (or could be a sequence end, which we ignore - but if it's neither, then it's a bad node)
Token& token = m_scanner.peek();
if(token.type == Token::FLOW_ENTRY)
m_scanner.pop();
else if(token.type != Token::FLOW_SEQ_END)
throw ParserException(token.mark, ErrorMsg::END_OF_SEQ_FLOW);
}
m_pCollectionStack->PopCollectionType(CollectionType::FlowSeq);
}
void SingleDocParser::HandleMap(EventHandler& eventHandler)
{
// split based on start token
switch(m_scanner.peek().type) {
case Token::BLOCK_MAP_START: HandleBlockMap(eventHandler); break;
case Token::FLOW_MAP_START: HandleFlowMap(eventHandler); break;
case Token::KEY: HandleCompactMap(eventHandler); break;
case Token::VALUE: HandleCompactMapWithNoKey(eventHandler); break;
default: break;
}
}
void SingleDocParser::HandleBlockMap(EventHandler& eventHandler)
{
// eat start token
m_scanner.pop();
m_pCollectionStack->PushCollectionType(CollectionType::BlockMap);
while(1) {
if(m_scanner.empty())
throw ParserException(Mark::null(), ErrorMsg::END_OF_MAP);
Token token = m_scanner.peek();
if(token.type != Token::KEY && token.type != Token::VALUE && token.type != Token::BLOCK_MAP_END)
throw ParserException(token.mark, ErrorMsg::END_OF_MAP);
if(token.type == Token::BLOCK_MAP_END) {
m_scanner.pop();
break;
}
// grab key (if non-null)
if(token.type == Token::KEY) {
m_scanner.pop();
HandleNode(eventHandler);
} else {
eventHandler.OnNull(token.mark, NullAnchor);
}
// now grab value (optional)
if(!m_scanner.empty() && m_scanner.peek().type == Token::VALUE) {
m_scanner.pop();
HandleNode(eventHandler);
} else {
eventHandler.OnNull(token.mark, NullAnchor);
}
}
m_pCollectionStack->PopCollectionType(CollectionType::BlockMap);
}
void SingleDocParser::HandleFlowMap(EventHandler& eventHandler)
{
// eat start token
m_scanner.pop();
m_pCollectionStack->PushCollectionType(CollectionType::FlowMap);
while(1) {
if(m_scanner.empty())
throw ParserException(Mark::null(), ErrorMsg::END_OF_MAP_FLOW);
Token& token = m_scanner.peek();
// first check for end
if(token.type == Token::FLOW_MAP_END) {
m_scanner.pop();
break;
}
// grab key (if non-null)
if(token.type == Token::KEY) {
m_scanner.pop();
HandleNode(eventHandler);
} else {
eventHandler.OnNull(token.mark, NullAnchor);
}
// now grab value (optional)
if(!m_scanner.empty() && m_scanner.peek().type == Token::VALUE) {
m_scanner.pop();
HandleNode(eventHandler);
} else {
eventHandler.OnNull(token.mark, NullAnchor);
}
// now eat the separator (or could be a map end, which we ignore - but if it's neither, then it's a bad node)
Token& nextToken = m_scanner.peek();
if(nextToken.type == Token::FLOW_ENTRY)
m_scanner.pop();
else if(nextToken.type != Token::FLOW_MAP_END)
throw ParserException(nextToken.mark, ErrorMsg::END_OF_MAP_FLOW);
}
m_pCollectionStack->PopCollectionType(CollectionType::FlowMap);
}
// . Single "key: value" pair in a flow sequence
void SingleDocParser::HandleCompactMap(EventHandler& eventHandler)
{
m_pCollectionStack->PushCollectionType(CollectionType::CompactMap);
// grab key
Mark mark = m_scanner.peek().mark;
m_scanner.pop();
HandleNode(eventHandler);
// now grab value (optional)
if(!m_scanner.empty() && m_scanner.peek().type == Token::VALUE) {
m_scanner.pop();
HandleNode(eventHandler);
} else {
eventHandler.OnNull(mark, NullAnchor);
}
m_pCollectionStack->PopCollectionType(CollectionType::CompactMap);
}
// . Single ": value" pair in a flow sequence
void SingleDocParser::HandleCompactMapWithNoKey(EventHandler& eventHandler)
{
m_pCollectionStack->PushCollectionType(CollectionType::CompactMap);
// null key
eventHandler.OnNull(m_scanner.peek().mark, NullAnchor);
// grab value
m_scanner.pop();
HandleNode(eventHandler);
m_pCollectionStack->PopCollectionType(CollectionType::CompactMap);
}
// ParseProperties
// . Grabs any tag or anchor tokens and deals with them.
void SingleDocParser::ParseProperties(std::string& tag, anchor_t& anchor)
{
tag.clear();
anchor = NullAnchor;
while(1) {
if(m_scanner.empty())
return;
switch(m_scanner.peek().type) {
case Token::TAG: ParseTag(tag); break;
case Token::ANCHOR: ParseAnchor(anchor); break;
default: return;
}
}
}
void SingleDocParser::ParseTag(std::string& tag)
{
Token& token = m_scanner.peek();
if(!tag.empty())
throw ParserException(token.mark, ErrorMsg::MULTIPLE_TAGS);
Tag tagInfo(token);
tag = tagInfo.Translate(m_directives);
m_scanner.pop();
}
void SingleDocParser::ParseAnchor(anchor_t& anchor)
{
Token& token = m_scanner.peek();
if(anchor)
throw ParserException(token.mark, ErrorMsg::MULTIPLE_ANCHORS);
anchor = RegisterAnchor(token.value);
m_scanner.pop();
}
anchor_t SingleDocParser::RegisterAnchor(const std::string& name)
{
if(name.empty())
return NullAnchor;
return m_anchors[name] = ++m_curAnchor;
}
anchor_t SingleDocParser::LookupAnchor(const Mark& mark, const std::string& name) const
{
Anchors::const_iterator it = m_anchors.find(name);
if(it == m_anchors.end())
throw ParserException(mark, ErrorMsg::UNKNOWN_ANCHOR);
return it->second;
}
}