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authorkrasimir <krasimir@chalmers.se>2010-02-17 12:21:41 +0000
committerkrasimir <krasimir@chalmers.se>2010-02-17 12:21:41 +0000
commitd6627b5a5af6a82dd5316ac5d527790697615339 (patch)
tree06c89e2cbb1212fe54c1c886ddb839e91383952f /examples/SUMO/TPTP/engineeringLemAx.p
parent6690fbaf6ce1247165ce159683367982c28efeca (diff)
added TPTP for SUMO
Diffstat (limited to 'examples/SUMO/TPTP/engineeringLemAx.p')
-rw-r--r--examples/SUMO/TPTP/engineeringLemAx.p138
1 files changed, 138 insertions, 0 deletions
diff --git a/examples/SUMO/TPTP/engineeringLemAx.p b/examples/SUMO/TPTP/engineeringLemAx.p
new file mode 100644
index 000000000..8edd12e0d
--- /dev/null
+++ b/examples/SUMO/TPTP/engineeringLemAx.p
@@ -0,0 +1,138 @@
+fof(axengineeringLem0, axiom,
+ ( ! [Var_MODELING] :
+ (hasType(type_Modeling, Var_MODELING) =>
+(( ? [Var_MODEL] :
+ (hasType(type_Model, Var_MODEL) &
+(f_result(Var_MODELING,Var_MODEL)))))))).
+
+fof(axengineeringLem1, axiom,
+ ( ! [Var_MODELING] :
+ (hasType(type_MultipoleModeling, Var_MODELING) =>
+(( ? [Var_MODEL] :
+ (hasType(type_MultipoleModel, Var_MODEL) &
+(f_result(Var_MODELING,Var_MODEL)))))))).
+
+fof(axengineeringLem2, axiom,
+ ( ! [Var_POLE] :
+ (hasType(type_MultipolePole, Var_POLE) =>
+(( ! [Var_MULTIPOLE] :
+ (hasType(type_Abstract, Var_MULTIPOLE) =>
+(((f_abstractPart(Var_POLE,Var_MULTIPOLE)) => (( ? [Var_SECTION] :
+ (hasType(type_MultipoleSection, Var_SECTION) &
+(((f_abstractPart(Var_POLE,Var_SECTION)) & (f_abstractPart(Var_SECTION,Var_MULTIPOLE))))))))))))))).
+
+fof(axengineeringLem3, axiom,
+ ( ! [Var_DTHROUGH] :
+ (hasType(type_PhysicalDimension, Var_DTHROUGH) =>
+(( ! [Var_DACROSS] :
+ (hasType(type_PhysicalDimension, Var_DACROSS) =>
+(( ! [Var_QTHROUGH] :
+ (hasType(type_MultipoleQuantity, Var_QTHROUGH) =>
+(( ! [Var_QACROSS] :
+ (hasType(type_MultipoleQuantity, Var_QACROSS) =>
+(( ! [Var_THROUGH] :
+ (hasType(type_MultipoleVariable, Var_THROUGH) =>
+(( ! [Var_ACROSS] :
+ (hasType(type_MultipoleVariable, Var_ACROSS) =>
+(( ! [Var_POLE] :
+ (hasType(type_MultipolePole, Var_POLE) =>
+(((((f_hasAcrossVariable(Var_POLE,Var_ACROSS)) & (((f_hasThroughVariable(Var_POLE,Var_THROUGH)) & (((f_hasVariable(Var_QACROSS,Var_ACROSS)) & (((f_hasVariable(Var_QTHROUGH,Var_THROUGH)) & (((f_hasDimension(Var_QACROSS,Var_DACROSS)) & (f_hasDimension(Var_QTHROUGH,Var_DTHROUGH)))))))))))) => (( ? [Var_DOMAIN] :
+ (hasType(type_PhysicalDomain, Var_DOMAIN) &
+(f_physicalDomain(Var_DACROSS,Var_DTHROUGH,Var_DOMAIN)))))))))))))))))))))))))))).
+
+fof(axengineeringLem4, axiom,
+ ( ! [Var_MULTIPOLE] :
+ (hasType(type_Multipole, Var_MULTIPOLE) =>
+(( ? [Var_SECTION] :
+ (hasType(type_MultipoleSection, Var_SECTION) &
+(f_abstractPart(Var_SECTION,Var_MULTIPOLE)))))))).
+
+fof(axengineeringLem5, axiom,
+ ( ! [Var_SECTION] :
+ (hasType(type_MultipoleSection, Var_SECTION) =>
+(( ? [Var_POLE1] :
+ (hasType(type_MultipolePole, Var_POLE1) &
+(( ? [Var_POLE2] :
+ (hasType(type_MultipolePole, Var_POLE2) &
+(((f_abstractPart(Var_POLE1,Var_SECTION)) & (((f_abstractPart(Var_POLE2,Var_SECTION)) & (Var_POLE1 != Var_POLE2)))))))))))))).
+
+fof(axengineeringLem6, axiom,
+ ( ! [Var_PORT] :
+ (hasType(type_MultipolePort, Var_PORT) =>
+(( ? [Var_POLE1] :
+ (hasType(type_MultipolePole, Var_POLE1) &
+(( ? [Var_POLE2] :
+ (hasType(type_MultipolePole, Var_POLE2) &
+(( ? [Var_POLE3] :
+ (hasType(type_MultipolePole, Var_POLE3) &
+(((f_abstractPart(Var_POLE1,Var_PORT)) & (((f_abstractPart(Var_POLE2,Var_PORT)) & (((f_abstractPart(Var_POLE3,Var_PORT)) & (((Var_POLE1 = Var_POLE2) & (((Var_POLE2 = Var_POLE3) & (Var_POLE1 = Var_POLE3))))))))))))))))))))))).
+
+fof(axengineeringLem7, axiom,
+ ( ! [Var_M] :
+ (hasType(type_AcrossVariableAccumulator, Var_M) =>
+(( ? [Var_C] :
+ (hasType(type_CapacitorElement, Var_C) &
+(f_represents(Var_M,Var_C)))))))).
+
+fof(axengineeringLem8, axiom,
+ ( ! [Var_M] :
+ (hasType(type_ElectricalTwopole, Var_M) =>
+(( ! [Var_E] :
+ (hasType(type_Entity, Var_E) =>
+(( ? [Var_C] :
+ (hasType(type_CapacitorElement, Var_C) &
+(f_represents(Var_M,Var_E))))))))))).
+
+fof(axengineeringLem9, axiom,
+ ( ! [Var_M] :
+ (hasType(type_ThroughVariableAccumulator, Var_M) =>
+(( ? [Var_I] :
+ (hasType(type_InductorElement, Var_I) &
+(f_represents(Var_M,Var_I)))))))).
+
+fof(axengineeringLem10, axiom,
+ ( ! [Var_M] :
+ (hasType(type_ElectricalTwopole, Var_M) =>
+(( ! [Var_I] :
+ (hasType(type_Entity, Var_I) =>
+(( ? [Var_C] :
+ (hasType(type_InductorElement, Var_C) &
+(f_represents(Var_M,Var_I))))))))))).
+
+fof(axengineeringLem11, axiom,
+ ( ! [Var_M] :
+ (hasType(type_Twoport, Var_M) =>
+(( ? [Var_T] :
+ (hasType(type_Transducer, Var_T) &
+(f_represents(Var_M,Var_T)))))))).
+
+fof(axengineeringLem12, axiom,
+ ( ! [Var_M] :
+ (hasType(type_Dissipator, Var_M) =>
+(( ? [Var_R] :
+ (hasType(type_ResistorElement, Var_R) &
+(f_represents(Var_M,Var_R)))))))).
+
+fof(axengineeringLem13, axiom,
+ ( ! [Var_M] :
+ (hasType(type_ElectricalTwopole, Var_M) =>
+(( ? [Var_R] :
+ (hasType(type_ResistorElement, Var_R) &
+(f_represents(Var_M,Var_R)))))))).
+
+fof(axengineeringLem14, axiom,
+ ( ! [Var_PS] :
+ (hasType(type_PowerSource, Var_PS) =>
+(( ? [Var_RE] :
+ (hasType(type_RadiatingElectromagnetic, Var_RE) &
+(f_origin(Var_RE,Var_PS)))))))).
+
+fof(axengineeringLem15, axiom,
+ ( ! [Var_PROCESS] :
+ (hasType(type_ITProcess, Var_PROCESS) =>
+(( ? [Var_AGENT] :
+ (hasType(type_ITAgent, Var_AGENT) &
+(( ? [Var_PATIENT] :
+ (hasType(type_Computer, Var_PATIENT) &
+(((f_agent(Var_PROCESS,Var_AGENT)) & (f_patient(Var_PROCESS,Var_PATIENT))))))))))))).
+