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LUMIERA.clone/tests/library/diff/diff-complex-application-test.cpp
Ichthyostega 48e9b7594a Doxygen: identify all files lacking a @file comment 
reason is, only files with a @file comment will be processed
with further documentation commands. For this reason, our Doxygen
documentation is lacking a lot of entries.

HOWTO:
find src -type f \( -name '*.cpp' -or -name '*.hpp' \) -not -exec egrep -q '\*.+@file' {} \; -print -exec sed -i -r -e'\_\*/_,$ { 1,+0 a\
\
\
/** @file §§§\
 ** TODO §§§\
 */
}' {} \;
2016-11-03 18:20:10 +01:00

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/*
DiffVirtualisedApplication(Test) - apply structural changes to unspecific private data structures
Copyright (C) Lumiera.org
2016, Hermann Vosseler <Ichthyostega@web.de>
This program 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.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
* *****************************************************/
/** @file §§§
** unit test TODO §§§
*/
#include "lib/test/run.hpp"
#include "lib/format-util.hpp"
#include "lib/diff/tree-diff-application.hpp"
#include "lib/diff/test-mutation-target.hpp"
#include "lib/iter-adapter-stl.hpp"
#include "lib/time/timevalue.hpp"
#include "lib/format-string.hpp"
#include "lib/format-cout.hpp"
#include "lib/util.hpp"
#include <string>
#include <vector>
#include <memory>
using util::isnil;
using util::join;
using util::_Fmt;
using util::BOTTOM_INDICATOR;
using lib::iter_stl::snapshot;
using lib::time::Time;
using std::unique_ptr;
using std::string;
using std::vector;
namespace lib {
namespace diff{
namespace test{
namespace {//Test fixture....
// define some GenNode elements
// to act as templates within the concrete diff
// NOTE: everything in this diff language is by-value
const GenNode ATTRIB1("α", 1), // attribute α = 1
ATTRIB2("β", int64_t(2)), // attribute α = 2L (int64_t)
ATTRIB3("γ", 3.45), // attribute γ = 3.45 (double)
TYPE_X("type", "ξ"), // a "magic" type attribute "Xi"
TYPE_Z("type", "ζ"), //
CHILD_A("a"), // unnamed string child node
CHILD_B('b'), // unnamed char child node
CHILD_T(Time(12,34,56,78)), // unnamed time value child
SUB_NODE = MakeRec().genNode(), // empty anonymous node used to open a sub scope
ATTRIB_NODE = MakeRec().genNode("δ"), // empty named node to be attached as attribute δ
GAMMA_PI("γ", 3.14159265); // happens to have the same identity (ID) as ATTRIB3
/**
* opaque private data structure to apply the diff.
* This class offers to build a binding for diff messages,
* which basically maps its internal structures onto the
* generic "object" scheme underlying the diff language.
*/
class Opaque
{
idi::BareEntryID key_;
string type_ = Rec::TYPE_NIL;
int alpha_ = -1;
int64_t beta_ = -1;
double gamma_ = -1;
unique_ptr<Opaque> delta_;
vector<Opaque> nestedObj_;
vector<string> nestedData_;
public:
Opaque()
: key_(idi::EntryID<Opaque>())
{ }
explicit
Opaque (string keyID)
: key_(idi::EntryID<Opaque>(keyID))
{ }
explicit
Opaque (idi::BareEntryID id)
: key_(id)
{ }
Opaque (Opaque const& o)
: key_(o.key_)
, type_(o.type_)
, alpha_(o.alpha_)
, beta_(o.beta_)
, gamma_(o.gamma_)
, delta_()
, nestedObj_(o.nestedObj_)
, nestedData_(o.nestedData_)
{
if (o.delta_)
delta_.reset(new Opaque(*o.delta_));
}
Opaque&
operator= (Opaque const& o)
{
if (&o != this)
{
Opaque tmp(o);
swap (*this, tmp);
}
return *this;
}
bool verifyType(string x) const { return x == type_; }
bool verifyAlpha(int x) const { return x == alpha_;}
bool verifyBeta(int64_t x) const { return x == beta_; }
bool verifyGamma(double x) const { return x == gamma_;}
bool verifyData(string desc) const { return desc == join(nestedData_); }
const Opaque* nestedDelta() const { return not delta_? NULL : delta_.get(); }
const Opaque* nestedObj_1() const { return isnil(nestedObj_)? NULL : &nestedObj_[0]; }
operator string() const
{
return _Fmt{"%s__(α:%d β:%s γ:%7.5f δ:%s\n......|nested:%s\n......|data:%s\n )__END_%s"}
% identity()
% alpha_
% beta_
% gamma_
% delta_
% join (nestedObj_, "\n......|")
% join (nestedData_)
% identity()
;
}
string
identity() const
{
string symbol = key_.getSym() + (isTyped()? ""+type_+"" : "");
return lib::idi::format::instance_hex_format(symbol, key_.getHash());
}
bool
isTyped() const
{
return Rec::TYPE_NIL != type_;
}
/** the _only way_ this opaque object exposes itself for mutation through diff messages.
* This function builds a TreeMutator implementation into the given buffer space
* @note some crucial details for this binding to work properly...
* - we define several "onion layers" of binding to deal with various scopes.
* - the priority of these bindings is ordered from lowest to highest
* - actually this is a quite complicated setup, including object fields
* to represent attributes, where one special attribute which actually holds
* a nested object, then both a collection of child objects and a collection
* of data values
* - the selector predicate (`isApplicableIf`) actually decides if a binding layer
* becomes responsible for a given diff verb. Here, this decision is based on
* the classification of the verb or spec to be handled, either being an
* attribute (named, key-value pair), a nested sub-scope ("object") and
* finally just any unnamed (non attribute) value
* - the recursive mutation of nested scopes is simply initiated by invoking
* the same Opaque::buildMutator on the respective children recursively.
* - such an unusually complicated TreeMutator binding leads to increased
* buffer space requirements for the actual TreeMutator to be generated;
* Thus we need to implement the _extension point_ treeMutatorSize()
* to supply a sufficient buffer size value. This function is
* picked up through ADL, based on the target type `Opaque`
*/
void
buildMutator (TreeMutator::Handle buff)
{
buff.create (
TreeMutator::build()
.attach (collection(nestedData_)
.isApplicableIf ([&](GenNode const& spec) -> bool
{
return not spec.isNamed(); // »Selector« : accept anything unnamed value-like
})
.matchElement ([&](GenNode const& spec, string const& elm) -> bool
{
return elm == render(spec.data);
})
.constructFrom ([&](GenNode const& spec) -> string
{
return render (spec.data);
})
.assignElement ([&](string& target, GenNode const& spec) -> bool
{
target = render (spec.data);
return true;
}))
.attach (collection(nestedObj_)
.isApplicableIf ([&](GenNode const& spec) -> bool
{
return spec.data.isNested(); // »Selector« : require object-like sub scope
})
.matchElement ([&](GenNode const& spec, Opaque const& elm) -> bool
{
return spec.idi == elm.key_;
})
.constructFrom ([&](GenNode const& spec) -> Opaque
{
return Opaque{spec.idi};
})
.buildChildMutator ([&](Opaque& target, GenNode::ID const& subID, TreeMutator::Handle buff) -> bool
{
if (target.key_ != subID) return false; // require match on already existing child object
target.buildMutator (buff); // delegate to child to build nested TreeMutator
return true;
}))
.change("type", [&](string typeID)
{
type_ = typeID;
})
.change("α", [&](int val)
{
alpha_ = val;
})
.change("β", [&](int64_t val)
{
beta_ = val;
})
.change("γ", [&](double val)
{
gamma_ = val;
})
.mutateAttrib("δ", [&](TreeMutator::Handle buff)
{
if (not delta_) // note: object managed automatically,
delta_.reset (new Opaque("δ")); // no INS-implementation necessary
REQUIRE (delta_);
delta_->buildMutator(buff);
}));
}
/** override default size traits
* to allow for sufficient buffer,
* able to hold the mutator defined above.
*/
friend constexpr size_t
treeMutatorSize (const Opaque*)
{
return 350;
}
};
}//(End)Test fixture
/***********************************************************************//**
* @test Demonstration: apply a structural change to unspecified private
* data structures, with the help of an [dynamic adapter](\ref TreeMutator)
* - we use private data classes, defined here in the test fixture
* to represent "just some" pre-existing data structure.
* - we re-assign some attribute values
* - we add, re-order and delete child "elements", without knowing
* what these elements actually are and how they are to be handled.
* - we recurse into mutating such an _"unspecified"_ child element.
*
* @note this test uses the same verb sequence as is assumed for the
* coverage of diff building blocks in TreeMutatorBinding_test
*
* @see DiffTreeApplication_test generic variant of tree diff application
* @see TreeMutatorBinding_test coverage of the "building blocks"
* @see TreeMutator_test base operations of the adapter
* @see diff-tree-application.hpp
* @see tree-diff.hpp
*/
class DiffComplexApplication_test
: public Test
, TreeDiffLanguage
{
using DiffSeq = iter_stl::IterSnapshot<DiffStep>;
DiffSeq
populationDiff()
{
return snapshot({ins(ATTRIB1)
, ins(ATTRIB3)
, ins(ATTRIB3)
, ins(CHILD_B)
, ins(CHILD_B)
, ins(CHILD_T)
});
} // ==> ATTRIB1, ATTRIB3, (ATTRIB3), CHILD_B, CHILD_B, CHILD_T
DiffSeq
reorderingDiff()
{
return snapshot({after(Ref::ATTRIBS)
, ins(ATTRIB2)
, del(CHILD_B)
, ins(SUB_NODE)
, find(CHILD_T)
, pick(CHILD_B)
, skip(CHILD_T)
});
} // ==> ATTRIB1, ATTRIB3, (ATTRIB3), ATTRIB2, SUB_NODE, CHILD_T, CHILD_B
DiffSeq
mutationDiff()
{
return snapshot({after(CHILD_B)
, after(Ref::END)
, set(GAMMA_PI)
, mut(SUB_NODE)
, ins(TYPE_X)
, ins(ATTRIB2)
, ins(CHILD_B)
, ins(CHILD_A)
, emu(SUB_NODE)
, ins(ATTRIB_NODE)
, mut(ATTRIB_NODE)
, ins(TYPE_Z)
, ins(CHILD_A)
, ins(CHILD_A)
, ins(CHILD_A)
, emu(ATTRIB_NODE)
});
} // ==> ATTRIB1, ATTRIB3 := π, (ATTRIB3), ATTRIB2,
// ATTRIB_NODE{ type ζ, CHILD_A, CHILD_A, CHILD_A }
// SUB_NODE{ type ξ, ATTRIB2, CHILD_B, CHILD_A },
// CHILD_T, CHILD_B
virtual void
run (Arg)
{
Opaque subject;
DiffApplicator<Opaque> application(subject);
//
cout << "before..."<<endl << subject<<endl;
CHECK (subject.verifyAlpha(-1));
CHECK (subject.verifyBeta(-1));
CHECK (subject.verifyGamma(-1));
CHECK (not subject.nestedDelta());
CHECK (not subject.nestedObj_1());
CHECK (subject.verifyData(""));
// Part I : apply attribute changes
application.consume(populationDiff());
//
cout << "after...I"<<endl << subject<<endl;
// ==> ATTRIB1, ATTRIB3, (ATTRIB3), CHILD_B, CHILD_B, CHILD_T
CHECK (subject.verifyAlpha(1));
CHECK (subject.verifyGamma(ATTRIB3.data.get<double>()));
CHECK (subject.verifyData("b, b, 78:56:34.012"));
// unchanged...
CHECK (subject.verifyBeta(-1));
CHECK (not subject.nestedDelta());
CHECK (not subject.nestedObj_1());
// Part II : apply child population
application.consume(reorderingDiff());
//
cout << "after...II"<<endl << subject<<endl;
// ==> ATTRIB1, ATTRIB3, (ATTRIB3), ATTRIB2, SUB_NODE, CHILD_T, CHILD_B
CHECK (subject.verifyAlpha(1));
CHECK (subject.verifyBeta (2)); // attribute β has been set
CHECK (subject.verifyGamma(3.45));
CHECK (subject.verifyData("78:56:34.012, b")); // one child deleted, the other ones re-ordered
CHECK (subject.nestedObj_1()); // plus inserted a nested child object
CHECK (subject.nestedObj_1()->verifyType(Rec::TYPE_NIL));
CHECK (subject.nestedObj_1()->verifyBeta(-1)); // ...which is empty (default constructed)
CHECK (subject.nestedObj_1()->verifyData(""));
// Part III : apply child mutations
application.consume(mutationDiff());
//
cout << "after...III"<<endl << subject<<endl;
// ==> ATTRIB1, ATTRIB3 := π, (ATTRIB3), ATTRIB2,
// ATTRIB_NODE{ type ζ, CHILD_A, CHILD_A, CHILD_A }
// SUB_NODE{ type ξ, ATTRIB2, CHILD_B, CHILD_A },
// CHILD_T, CHILD_B
CHECK (subject.verifyAlpha(1));
CHECK (subject.verifyBeta (2));
CHECK (subject.verifyGamma(GAMMA_PI.data.get<double>())); // new value assigned to attribute γ
CHECK (subject.nestedDelta()); // attribute δ (object valued) is now present
CHECK (subject.nestedDelta()->verifyType("ζ")); // ...and has an explicitly defined type field
CHECK (subject.nestedDelta()->verifyData("a, a, a"));//...plus three similar child values
CHECK (subject.verifyData("78:56:34.012, b")); // the child values weren't altered
CHECK (subject.nestedObj_1()->verifyType("ξ")); // but the nested child object's type has been set
CHECK (subject.nestedObj_1()->verifyBeta(2)); // ...and the attribute β has been set on the nested object
CHECK (subject.nestedObj_1()->verifyData("b, a")); // ...plus some child values where added here
}
};
/** Register this test class... */
LAUNCHER (DiffComplexApplication_test, "unit common");
}}} // namespace lib::diff::test
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