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lumiera_/src/lib/diff/gen-node.cpp
Ichthyostega 806db414dd Copyright: clarify and simplify the file headers 
* Lumiera source code always was copyrighted by individual contributors
 * there is no entity "Lumiera.org" which holds any copyrights
 * Lumiera source code is provided under the GPL Version 2+

== Explanations ==
Lumiera as a whole is distributed under Copyleft, GNU General Public License Version 2 or above.
For this to become legally effective, the ''File COPYING in the root directory is sufficient.''

The licensing header in each file is not strictly necessary, yet considered good practice;
attaching a licence notice increases the likeliness that this information is retained
in case someone extracts individual code files. However, it is not by the presence of some
text, that legally binding licensing terms become effective; rather the fact matters that a
given piece of code was provably copyrighted and published under a license. Even reformatting
the code, renaming some variables or deleting parts of the code will not alter this legal
situation, but rather creates a derivative work, which is likewise covered by the GPL!

The most relevant information in the file header is the notice regarding the
time of the first individual copyright claim. By virtue of this initial copyright,
the first author is entitled to choose the terms of licensing. All further
modifications are permitted and covered by the License. The specific wording
or format of the copyright header is not legally relevant, as long as the
intention to publish under the GPL remains clear. The extended wording was
based on a recommendation by the FSF. It can be shortened, because the full terms
of the license are provided alongside the distribution, in the file COPYING.
2024-11-17 23:42:55 +01:00

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/*
GenNode - generic node element for tree like data representation
Copyright (C)
2015, Hermann Vosseler <Ichthyostega@web.de>
  **Lumiera** is free software; you can redistribute it and/or modify it
  under the terms of the GNU General Public License as published by the
  Free Software Foundation; either version 2 of the License, or (at your
  option) any later version. See the file COPYING for further details.
* *****************************************************************/
/** @file gen-node.cpp
** Generic node element (implementation parts).
** Some of the more technical details regarding value access and
** comparisons has been moved down within this compilation unit,
** to cut down compilation time.
**
** \par comparison and match
**
** The DataCap element provides a set of functions to check for \em equivalence
** or match. These are used to build a recursive containment check. To implement
** such predicates, we need to build a one-way off visitor for use with lib::Variant.
** These specifically tailored functors only define \c handle(TY) functions for the
** cases actually of interest. All other cases invoke the default handling, which
** returns \c false.
**
** @see gen-node-test.cpp
**
*/
#include "lib/error.hpp"
#include "lib/diff/diff-language.hpp"
#include "lib/diff/gen-node.hpp"
#include "lib/util-quant.hpp"
#include "lib/variant.hpp"
#include <boost/lexical_cast.hpp>
using util::join;
using boost::lexical_cast;
using lib::time::TimeValue;
using lib::transformIterator;
using util::almostEqual;
using lib::hash::LuidH;
namespace lib {
namespace diff{
/* symbolic marker ID references
* used within the tree diff language
* to mark specific scopes and situations
*/
const Ref Ref::I ("_I_");
const Ref Ref::NO ("_NO_");
const Ref Ref::END ("_END_");
const Ref Ref::THIS ("_THIS_"); ////////TICKET #996 : Feature of questionable usefulness. Maybe dispensable?
const Ref Ref::CHILD ("_CHILD_");
const Ref Ref::ATTRIBS("_ATTRIBS_");
/** Implementation of content equality test, delgating to content
* @throws error::Logic when the given other DataCap
* does not hold a value of the same type than
* this DataCap.
* @remarks since the GenNode::ID is generated including a type hash,
* the equality operator of GenNode ensures this content test
* is only called on a compatible DataCap.
*/
bool
DataCap::matchData (DataCap const& o) const
{
class EqualityTest
: public Variant<DataValues>::Predicate
{
DataCap const& o_;
#define DERIVE_EQUALITY(_TY_) \
virtual bool handle (_TY_ const& val) override { return (o_.get<_TY_>() == val); }
DERIVE_EQUALITY (int)
DERIVE_EQUALITY (int64_t)
DERIVE_EQUALITY (short)
DERIVE_EQUALITY (char)
DERIVE_EQUALITY (bool)
DERIVE_EQUALITY (double)
DERIVE_EQUALITY (string)
DERIVE_EQUALITY (time::Time)
DERIVE_EQUALITY (time::Offset)
DERIVE_EQUALITY (time::Duration)
DERIVE_EQUALITY (time::TimeSpan)
DERIVE_EQUALITY (hash::LuidH)
DERIVE_EQUALITY (Rec)
/** special treatment to allow matching a RecRef
* with an Record or RecRef on the other side */
virtual bool
handle (RecRef const& val) override
{
return o_.matchRec(val);
}
public:
EqualityTest(DataCap const& o)
: o_(o)
{ }
};
EqualityTest visitor(o);
return accept(visitor);
}
bool
DataCap::matchNum (int64_t num) const
{
class MatchNumber
: public Variant<DataValues>::Predicate
{
int64_t num_;
#define MATCH_NUMBER(_TY_) \
virtual bool handle (_TY_ const& val) override { return val == num_; }
MATCH_NUMBER (int)
MATCH_NUMBER (int64_t)
MATCH_NUMBER (short)
MATCH_NUMBER (char)
MATCH_NUMBER (double)
public:
MatchNumber(int64_t num)
: num_(num)
{ }
};
MatchNumber visitor(num);
return accept(visitor);
}
bool
DataCap::matchDbl (double d) const
{
class MatchDouble
: public Variant<DataValues>::Predicate //////////////////////////////////TICKET #1360 floating-point precision
{
double num_;
#define MATCH_DOUBLE(_TY_) \
virtual bool handle (_TY_ const& val) override { return almostEqual (double(val), num_); }
MATCH_DOUBLE (int)
MATCH_DOUBLE (int64_t)
MATCH_DOUBLE (short)
MATCH_DOUBLE (char)
MATCH_DOUBLE (double)
public:
MatchDouble(double d)
: num_(d)
{ }
};
MatchDouble visitor(d);
return accept(visitor);
}
bool
DataCap::matchTxt (string const& text) const
{
class MatchString
: public Variant<DataValues>::Predicate
{
string const& txt_;
#define MATCH_STRING(_TY_) \
virtual bool handle (_TY_ const& val) override { return lexical_cast<string>(val) == txt_; }
MATCH_STRING (int)
MATCH_STRING (int64_t)
MATCH_STRING (short)
MATCH_STRING (double)
MATCH_STRING (bool)
virtual bool handle (string const& str) override { return str == txt_; }
virtual bool handle (char const& c ) override { return 1 == txt_.length() && txt_.front() == c; }
public:
MatchString(string const& text)
: txt_(text)
{ }
};
MatchString visitor(text);
return accept(visitor);
}
bool
DataCap::matchTime (TimeValue time) const
{
class MatchTime
: public Variant<DataValues>::Predicate
{
TimeValue& t_;
#define MATCH_TIME(_TY_) \
virtual bool handle (_TY_ const& val) override { return val == t_; }
MATCH_TIME (time::Time)
MATCH_TIME (time::Offset)
MATCH_TIME (time::Duration)
MATCH_TIME (time::TimeSpan)
MATCH_TIME (hash::LuidH)
public:
MatchTime(TimeValue& t)
: t_(t)
{ }
};
MatchTime visitor(time);
return accept(visitor);
}
bool
DataCap::matchBool (bool b) const
{
bool* val = unConst(this)->maybeGet<bool>();
return val && (b == *val);
}
bool
DataCap::matchLuid (LuidH hash) const
{
LuidH* val = unConst(this)->maybeGet<LuidH>();
return val && (hash == *val);
}
bool
DataCap::matchRec (RecRef const& ref) const
{
if (ref)
return matchRec (*ref.get());
else
{
RecRef* val = unConst(this)->maybeGet<RecRef>();
return val && val->empty();
}
}
bool
DataCap::matchRec (Rec const& rec) const
{
Rec* val = unConst(this)->maybeGet<Rec>();
if (!val)
{
RecRef* r = unConst(this)->maybeGet<RecRef>();
if (r) val = r->get();
}
return val && (rec == *val);
}
DataCap::operator string() const
{
return "DataCap|"+string(this->buffer());
}
/** compact textual representation of a Record<GenNode> (»object«). */
string renderCompact (Rec const& rec)
{
auto renderChild = [](diff::GenNode const& n){ return renderCompact(n); };
auto renderAttrib = [](diff::GenNode const& n){
return (n.isNamed()? n.idi.getSym()+"=" : "")
+ renderCompact(n);
};
return (Rec::TYPE_NIL==rec.getType()? "" : rec.getType())
+ "{"
+ join (transformIterator (rec.attribs(), renderAttrib))
+ (isnil(rec.scope())? "" : "|")
+ join (transformIterator (rec.scope() , renderChild))
+ "}"
;
}
string
renderCompact (RecRef const& ref)
{
return "Ref->" + (ref.empty()? util::BOTTOM_INDICATOR
: renderCompact (*ref.get()));
}
/** @remark presentation is oriented towards readability
* - numbers are slightly rounded (see \ref util::showDouble() )
* - time values are displayed timecode-like
* - nested scopes are displayed recursively, enclosed in curly brackets
* @see text-template-gen-node-binding.hpp
*/
string
renderCompact (GenNode const& node)
{
class Renderer
: public Variant<diff::DataValues>::Renderer
{
#define RENDER_CONTENT(_TY_) \
virtual string handle (_TY_ const& val) override { return util::toString(val); }
RENDER_CONTENT (int)
RENDER_CONTENT (int64_t)
RENDER_CONTENT (short)
RENDER_CONTENT (char)
RENDER_CONTENT (double)
RENDER_CONTENT (bool)
RENDER_CONTENT (time::Time)
RENDER_CONTENT (time::Offset)
RENDER_CONTENT (time::Duration)
RENDER_CONTENT (time::TimeSpan)
#undef RENDER_CONTENT
virtual string handle (string const& val) override { return val; }
virtual string handle (LuidH const& val) override { return util::showHash(val, 2);}
virtual string handle (RecRef const& ref) override { return renderCompact(ref); }
virtual string handle (Rec const& rec) override { return renderCompact(rec); }
};
Renderer visitor;
return node.data.accept (visitor);
}
}} // namespace lib::diff
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