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lumiera_/tests/library/diff/tree-manipulation-binding-test.cpp
Ichthyostega 6cf97f2478 forward operations to test/dummy onion layer 
...first round of implementation happens here
2016-03-04 21:26:25 +01:00

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/*
TreeManipulationBinding(Test) - techniques to map generic changes to concrete tree shaped data
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.
* *****************************************************/
#include "lib/test/run.hpp"
#include "lib/format-util.hpp"
#include "lib/test/test-helper.hpp"
#include "lib/diff/tree-mutator.hpp"
#include "lib/diff/test-mutation-target.hpp"
#include "lib/time/timevalue.hpp"
#include "lib/format-cout.hpp"
#include "lib/format-util.hpp"
#include "lib/util.hpp"
//#include <utility>
#include <string>
//#include <vector>
using util::join;
using util::isnil;
using lib::time::Time;
using std::string;
//using std::vector;
//using std::swap;
using util::typeStr;
namespace lib {
namespace diff{
namespace test{
// using lumiera::error::LUMIERA_ERROR_LOGIC;
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
CHILD_NODE = SUB_NODE; // yet another child node, same ID as SUB_NODE (!)
}//(End)Test fixture
/********************************************************************************//**
* @test Building blocks to map generic changes to arbitrary private data structures.
* - use a dummy diagnostic implementation to verify the interface
* - integrate the standard case of tree diff application to `Rec<GenNode>`
* - verify an adapter to apply structure modification to a generic collection
* - use closures to translate mutation into manipulation of private attribues
*
* @see TreeMutator
* @see TreeMutator_test
* @see DiffTreeApplication_test
* @see GenNodeBasic_test
* @see AbstractTangible_test::mutate()
*/
class TreeManipulationBinding_test : public Test
{
virtual void
run (Arg)
{
mutateDummy();
mutateGenNode();
mutateCollection();
mutateAttributeMap();
}
/** @test diagnostic binding: how to monitor and verify the mutations applied */
void
mutateDummy()
{
MARK_TEST_FUN;
TestMutationTarget target;
auto mutator =
TreeMutator::build()
.attachDummy (target);
CHECK (isnil (target));
CHECK (target.emptySrc());
mutator.injectNew (ATTRIB1);
CHECK (!isnil (target));
CHECK (target.contains("α = 1"));
CHECK (target.verifyEvent("injectNew","α = 1")
.after("attachMutator"));
mutator.injectNew (ATTRIB3);
mutator.injectNew (ATTRIB3);
mutator.injectNew (CHILD_B);
mutator.injectNew (CHILD_B);
mutator.injectNew (CHILD_T);
CHECK (target.verify("attachMutator")
.beforeEvent("injectNew","α = 1")
.beforeEvent("injectNew","γ = 3.45")
.beforeEvent("injectNew","γ = 3.45")
.beforeEvent("injectNew","b")
.beforeEvent("injectNew","b")
.beforeEvent("injectNew","78:56:34.012")
);
CHECK (join(target) == "α = 1, γ = 3.45, γ = 3.45, b, b, 78:56:34.012");
cout << "Content after population; "
<< join(target) <<endl;
// now attach new mutator for second round...
auto mutator2 =
TreeMutator::build()
.attachDummy (target);
CHECK (isnil (target)); // the "visible" new content is still void
CHECK (not target.emptySrc()); // content was moved into hiden "src" buffer
CHECK (mutator2.matchSrc (ATTRIB1)); // current head element of src "matches" the given spec
CHECK (isnil (target)); // the match didn't change anything
CHECK (mutator2.findSrc (ATTRIB3)); // serach for an element further down into src...
CHECK (!isnil (target)); // ...pick and accept it into the "visible" part of target
CHECK (join(target) == "γ = 3.45");
CHECK (mutator2.matchSrc (ATTRIB1)); // element at head of src is still ATTRIB1 (as before)
CHECK (mutator2.acceptSrc (ATTRIB1)); // now pick and accept this src element
CHECK (join(target) == "γ = 3.45, α = 1");
CHECK (not target.emptySrc()); // next we have to clean up waste
mutator2.skipSrc(); // left behind by the findSrc() operation
CHECK (join(target) == "γ = 3.45, α = 1");
mutator2.injectNew (ATTRIB2);
CHECK (not target.emptySrc());
CHECK (mutator2.matchSrc (ATTRIB3));
CHECK (mutator2.acceptSrc (ATTRIB3));
CHECK (join(target) == "γ = 3.45, α = 1, β = 2, γ = 3.45");
// now proceding with the children.
// NOTE: the TestWireTap / TestMutationTarget does not enforce the attribute / children distinction!
CHECK (not target.emptySrc());
CHECK (mutator2.matchSrc (CHILD_B)); // first child waiting in src is CHILD_B
mutator2.skipSrc(); // ...which will be skipt (and thus discarded)
mutator2.injectNew (SUB_NODE); // inject a new nested sub-structure here
CHECK (mutator2.matchSrc (CHILD_B)); // yet another B-child is waiting
CHECK (not mutator2.findSrc (CHILD_A)); // unsuccessful find operation won't do anything
CHECK (not target.emptySrc());
CHECK (mutator2.matchSrc (CHILD_B)); // child B still waiting, unaffected
CHECK (not mutator2.acceptSrc (CHILD_T)); // refusing to accept/pick a non matching element
CHECK (mutator2.matchSrc (CHILD_B)); // child B still patiently waiting, unaffected
CHECK (mutator2.acceptSrc (CHILD_B));
CHECK (mutator2.matchSrc (CHILD_T));
CHECK (mutator2.acceptSrc (CHILD_T));
CHECK (target.emptySrc()); // source contents exhausted
CHECK (not mutator2.acceptSrc (CHILD_T));
cout << "Content after reordering; "
<< join(target) <<endl;
cout << "____Mutation-Log______________\n"
<< join(target.getLog(), "\n")
<< "\n───╼━━━━━━━━━╾────────────────"<<endl;
}
void
mutateGenNode()
{
TODO ("define how to fit GenNode tree mutation into the framework");
}
void
mutateCollection()
{
TODO ("define how to map the mutation primitives onto a generic collection");
}
void
mutateAttributeMap ()
{
TODO ("define how to translate generic mutation into attribute manipulation");
}
};
/** Register this test class... */
LAUNCHER (TreeManipulationBinding_test, "unit common");
}}} // namespace lib::diff::test
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