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Frédéric Tuong authored
git-svn-id: https://projects.brucker.ch/hol-testgen/svn/HOL-TestGen/trunk/hol-testgen@14189 3260e6d1-4efc-4170-b0a7-36055960796d
Frédéric Tuong authoredgit-svn-id: https://projects.brucker.ch/hol-testgen/svn/HOL-TestGen/trunk/hol-testgen@14189 3260e6d1-4efc-4170-b0a7-36055960796d
Analysis_deep.thy 6.23 KiB
(******************************************************************************
* HOL-OCL
*
* Copyright (c) 2011-2018 Université Paris-Saclay, Univ. Paris-Sud, France
* 2013-2017 IRT SystemX, France
* 2011-2015 Achim D. Brucker, Germany
* 2016-2018 The University of Sheffield, UK
* 2016-2017 Nanyang Technological University, Singapore
* 2017-2018 Virginia Tech, USA
*
* All rights reserved.
*
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* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* * Neither the name of the copyright holders nor the names of its
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* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
******************************************************************************)
chapter{* Part ... *}
theory
Analysis_deep
imports
"../../src/compiler/Generator_dynamic_sequential"
begin
generation_syntax [ deep
(generation_semantics [ analysis (*, oid_start 10*) ])
(THEORY Employee_AnalysisModel_UMLPart_generated)
(IMPORTS ["OCL.UML_Main", "FOCL.Static"]
"FOCL.Generator_dynamic_sequential")
SECTION
(*SORRY*) (*no_dirty*)
[ (* in Haskell *)
(* in OCaml module_name M *)
(* in Scala module_name M *)
(* in SML module_name M *)
in self ]
(output_directory "../../doc")
(*, syntax_print*) ]
Class Person < Planet
Attributes salary : Integer (*\<acute>int\<acute>*)
End
Association boss
Between Person [*]
Person [0 \<bullet>\<bullet> 1] Role boss
End
Class Planet < Galaxy
Attributes wormhole : UnlimitedNatural
weight : Integer
End
Class Galaxy
Attributes sound : Void
moving : Boolean
outer_world : Set(Sequence(Planet))
End
Instance X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n1 :: Person = [ salary = 1300 , boss = X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n2 ]
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n2 :: Person = [ salary = 1800 , boss = X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n2 ]
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n3 :: Person = []
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n4 :: Person = [ salary = 2900 ]
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n5 :: Person = [ salary = 3500 ]
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n6 :: Person = [ salary = 2500 , boss = X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n7 ]
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n7 = ([ salary = 3200 , boss = X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n7 ] :: Person) \<rightarrow>oclAsType( OclAny )
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n8 :: OclAny = []
and X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n9 :: Person = [ salary = 0 ]
and X0 :: Person = [ outer_world = [ [ P1 ] ] ]
and P1 :: Planet = [ outer_world = [ [ P1 ] , [ self 10 ] ] ]
State \<sigma>\<^sub>1 =
[ ([ X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n1 with_only salary = 1000 , boss = self 1 ] :: Person)
, ([ X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n2 with_only salary = 1200 ] :: Person)
(* *)
, ([ X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n4 with_only salary = 2600 , boss = self 3 ] :: Person)
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n5
, ([ X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n6 with_only salary = 2300 , boss = self 2 ] :: Person)
(* *)
(* *)
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n9 ]
State \<sigma>\<^sub>1' =
[ X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n1
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n2
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n3
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n4
(* *)
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n6
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n7
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n8
, X\<^sub>P\<^sub>e\<^sub>r\<^sub>s\<^sub>o\<^sub>n9 ]
(*State \<sigma>\<^sub>0 = []*)
Transition \<sigma>\<^sub>1 \<sigma>\<^sub>1'
Context Person :: contents () : Set(Integer)
Post : "result \<triangleq> if (self .boss \<doteq> null)
then (Set{}->including\<^sub>S\<^sub>e\<^sub>t(self .salary))
else (self .boss .contents()->including\<^sub>S\<^sub>e\<^sub>t(self .salary))
endif"
Post : "true"
Pre : "false"
Context Person
Inv a: "self .boss <> null implies (self .salary \<triangleq> ((self .boss) .salary))"
Context Planet
Inv A : "true and (self .weight \<le>\<^sub>i\<^sub>n\<^sub>t \<zero>)"
(*BaseType [ 1000, 1200, 1300, 1800, 2600, 2900, 3200, 3500
, 3.14159265
, "abc", "\<AA>\<BB>\<CC>\<DD>\<EE>\<FF>" ]*)
(*generation_syntax deep flush_all*)
end