xlnt/third-party/libstudxml/xml/serializer

308 lines
8.0 KiB
C++

// file : xml/serializer -*- C++ -*-
// copyright : Copyright (c) 2013-2017 Code Synthesis Tools CC
// license : MIT; see accompanying LICENSE file
#ifndef XML_SERIALIZER
#define XML_SERIALIZER
#include <xml/details/pre.hxx>
#include <string>
#include <ostream>
#include <cstddef> // std::size_t
#include <xml/details/genx/genx.h>
#include <xml/forward>
#include <xml/qname>
#include <xml/exception>
#include <xml/details/config.hxx> // STUDXML_NOTHROW_NOEXCEPT
#include <xml/details/export.hxx>
namespace xml
{
class serialization: public exception
{
public:
virtual
~serialization () STUDXML_NOTHROW_NOEXCEPT {}
serialization (const std::string& name, const std::string& description);
serialization (const serializer& s, const std::string& description);
const std::string&
name () const {return name_;}
const std::string&
description () const {return description_;}
virtual const char*
what () const STUDXML_NOTHROW_NOEXCEPT {return what_.c_str ();}
private:
LIBSTUDXML_EXPORT void
init ();
private:
std::string name_;
std::string description_;
std::string what_;
};
class LIBSTUDXML_EXPORT serializer
{
public:
typedef xml::qname qname_type;
// Serialize to std::ostream. Output name is used in diagnostics to
// identify the document being serialized. The indentation argument
// specifies the number of indentation spaces that should be used for
// pretty-printing. If 0 is passed, no pretty-printing is performed.
//
// If stream exceptions are enabled then std::ios_base::failure
// exception is used to report io errors (badbit and failbit).
// Otherwise, those are reported as the serialization exception.
//
serializer (std::ostream&,
const std::string& output_name,
unsigned short indentation = 2);
const std::string&
output_name () const {return oname_;}
~serializer ();
private:
serializer (const serializer&);
serializer& operator= (const serializer&);
// Serialization functions.
//
public:
// Elements.
//
void
start_element (const qname_type& qname);
void
start_element (const std::string& name);
void
start_element (const std::string& ns, const std::string& name);
void
end_element ();
// "Checked" end element. That is, it checks that the element
// you think you are ending matches the current one.
//
void
end_element (const qname_type& qname);
void
end_element (const std::string& name);
void
end_element (const std::string& ns, const std::string& name);
// Helpers for serializing elements with simple content. The first two
// functions assume that start_element() has already been called. The
// other two serialize the complete element, from start to end.
//
void
element (const std::string& value);
template <typename T>
void
element (const T& value);
void
element (const std::string& name, const std::string& value);
template <typename T>
void
element (const std::string& name, const T& value);
void
element (const qname_type& qname, const std::string& value);
template <typename T>
void
element (const qname_type& qname, const T& value);
void
element (const std::string& namespace_,
const std::string& name,
const std::string& value);
template <typename T>
void
element (const std::string& namespace_,
const std::string& name,
const T& value);
// Attributes.
//
void
start_attribute (const qname_type& qname);
void
start_attribute (const std::string& name);
void
start_attribute (const std::string& ns, const std::string& name);
void
end_attribute ();
// "Checked" end attribute. That is, it checks that the attribute
// you think you are ending matches the current one.
//
void
end_attribute (const qname_type& qname);
void
end_attribute (const std::string& name);
void
end_attribute (const std::string& ns, const std::string& name);
void
attribute (const qname_type& qname, const std::string& value);
template <typename T>
void
attribute (const qname_type& qname, const T& value);
void
attribute (const std::string& name, const std::string& value);
template <typename T>
void
attribute (const std::string& name, const T& value);
void
attribute (const std::string& ns,
const std::string& name,
const std::string& value);
template <typename T>
void
attribute (const std::string& ns,
const std::string& name,
const T& value);
// Characters.
//
void
characters (const std::string& value);
template <typename T>
void
characters (const T& value);
// Namespaces declaration. If prefix is empty, then the default
// namespace is declared. If both prefix and namespace are empty,
// then the default namespace declaration is cleared (xmlns="").
//
// This function should be called after start_element().
//
void
namespace_decl (const std::string& ns, const std::string& prefix);
// XML declaration. If encoding or standalone are not specified,
// then these attributes are omitted from the output.
//
void
xml_decl (const std::string& version = "1.0",
const std::string& encoding = "UTF-8",
const std::string& standalone = "");
// DOCTYPE declaration. If encoding or standalone are not specified,
// then these attributes are omitted from the output.
//
void
doctype_decl (const std::string& root_element,
const std::string& public_id = "",
const std::string& system_id = "",
const std::string& internal_subset = "");
// Utility functions.
//
public:
// Return true if there is a mapping. In this case, prefix contains
// the mapped prefix.
//
bool
lookup_namespace_prefix (const std::string& ns, std::string& prefix) const;
// Return the current element, that is, the latest element for which
// start_element() but not end_element() have been called.
//
qname
current_element () const;
// Return the current attribute, that is, the latest attribute for
// which start_attribute() but not end_attribute() have been called.
//
qname
current_attribute () const;
// Suspend/resume indentation.
//
public:
// Indentation can be suspended only inside an element and, unless
// explicitly resumed, it will remain suspended until the end of
// that element. You should only explicitly resume indentation at
// the element nesting level of suspension. If indentation is already
// suspended at an outer nesting level, then subsequent calls to
// suspend/resume are ignored. The indentation_suspended() function
// can be used to check if indentation is currently suspended. If it
// is not, then this function returns 0. Otherwise, it returns the
// level at which pretty-printing was suspended, with root element
// being level 1.
//
void
suspend_indentation ();
void
resume_indentation ();
std::size_t
indentation_suspended () const;
private:
void
handle_error (genxStatus) const;
private:
std::ostream& os_;
std::ostream::iostate os_state_; // Original exception state.
const std::string oname_;
genxWriter s_;
genxSender sender_;
std::size_t depth_;
};
// Stream-like interface for serializer. If the passed argument is
// callable with the serializer as its argument, then this function
// (object) is called with the passed serializer. Otherwise, the
// argument is passed to the serializer's characters() function.
//
template <typename T>
serializer&
operator<< (serializer&, const T& value);
}
#include <xml/serializer.ixx>
#include <xml/details/post.hxx>
#endif // XML_SERIALIZER