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Regression
tests / testsuite-gcc / openmodelica_cppruntime.testVectorizedPowerSystem.mos (from (result.xml))
Stacktrace
Output mismatch (see stdout for details)
Standard Output
+ testVectorizedPowerSystem ... equation mismatch [time: 9]
==== Log /tmp/omc-rtest-unknown/openmodelica/cppruntime/testVectorizedPowerSystem.mos_temp9909/log-testVectorizedPowerSystem.mos
true
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true
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true
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true
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true
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true
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true
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true
""
########################################
dumpDAE
########################################
unspecified partition
========================================
Variables (1)
========================================
1: system.initime:DISCRETE(flow=false unit = "s" ) type: Real
Equations (1, 1)
========================================
1/1 (1): when initial() then
system.initime := time;
end when; [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: busBar1.phi:VARIABLE(flow=false unit = "rad" ) type: Real
Equations (1, 1)
========================================
1/1 (1): busBar1.phi = 0.0 [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: busBar1.I:VARIABLE(flow=false unit = "A" nominal = 1.0 ) type: Real
Equations (1, 1)
========================================
1/1 (1): busBar1.I = busBar1.i[1] [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: busBar1.V:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) type: Real
Equations (1, 1)
========================================
1/1 (1): busBar1.V = busBar1.v[1] [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (5)
========================================
1: system.omega_internal:VARIABLE(flow=false protected = true ) type: Real
2: system.omega:VARIABLE(flow=false start = 314.1592653589793 unit = "rad/s" ) type: Real
3: system.thetaRef:VARIABLE(flow=false unit = "rad" ) "angle of reference frame" type: Real
4: system.thetaRel:VARIABLE(flow=false unit = "rad" ) "angle relative to reference frame" type: Real
5: system.theta:VARIABLE(flow=false start = 0.0 unit = "rad" ) "system angle" type: Real
Equations (5, 5)
========================================
1/1 (1): system.thetaRef / time = system.omega_internal [dynamic |0|0|0|0|]
2/2 (1): system.omega = 314.1592653589793 [dynamic |0|0|0|0|]
3/3 (1): system.thetaRef = system.omega * time [dynamic |0|0|0|0|]
4/4 (1): 0.0 = -system.thetaRel [unknown |0|0|0|0|]
5/5 (1): system.thetaRef = system.theta [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: fixedVoltageSource1.phi:VARIABLE(flow=false unit = "rad" ) type: Real
Equations (1, 1)
========================================
1/1 (1): fixedVoltageSource1.phi = 0.0 [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (13)
========================================
1: busBar1.p:VARIABLE(flow=false unit = "W" ) type: Real[1] [1]
2: busBar1.i:VARIABLE(flow=false start = busBar1.i_start unit = "A" nominal = 1.0 ) type: Real[1] [1]
3: busBar1.v:VARIABLE(flow=false start = busBar1.v_start unit = "V" nominal = 1000.0 ) type: Real[1] [1]
4: busBar1.terminal_n.v:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[3, 1] [3,1]
5: busBar1.terminal_n.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[3, 1] [3,1]
6: busBar1.terminal_p.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[1] [1]
7: busBar1.terminal_p.v:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[1] [1]
8: fixedLoad1.terminal.v:VARIABLE(flow=false start = fixedLoad1.v_start unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[3, 1] [3,1]
9: fixedLoad1.terminal.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[3, 1] [3,1]
10: fixedLoad1.p:VARIABLE(flow=false unit = "W" ) type: Real[3, 1] [3,1]
11: fixedVoltageSource1.p:VARIABLE(flow=false unit = "W" ) type: Real[1] [1]
12: fixedVoltageSource1.terminal.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[1] [1]
13: fixedVoltageSource1.terminal.v:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[1] [1]
Equations (13, 13)
========================================
1/1 (3): busBar1.terminal_n.v = fixedLoad1.terminal.v [dynamic |0|0|0|0|]
2/4 (3): busBar1.terminal_n.i + fixedLoad1.terminal.i = 0.0 [dynamic |0|0|0|0|]
3/7 (1): fixedVoltageSource1.terminal.v = busBar1.terminal_p.v [dynamic |0|0|0|0|]
4/8 (1): fixedVoltageSource1.terminal.i + busBar1.terminal_p.i = 0.0 [dynamic |0|0|0|0|]
5/9 (1): fixedVoltageSource1.p = {fixedVoltageSource1.terminal.v * fixedVoltageSource1.terminal.i} [dynamic |0|0|0|0|]
6/10 (1): fixedVoltageSource1.terminal.v = {fixedVoltageSource1.V} [dynamic |0|0|0|0|]
7/11 (3): for $i in 1 : 3 loop
fixedLoad1[$i].p = {fixedLoad1[$i].terminal.v * fixedLoad1[$i].terminal.i}; end for; [dynamic |0|0|0|0|]
8/14 (3): for $i in 1 : 3 loop
fixedLoad1[$i].terminal.v * fixedLoad1[$i].terminal.i = fixedLoad1[$i].P; end for; [dynamic |0|0|0|0|]
9/17 (1): busBar1.v = busBar1.terminal_p.v [dynamic |0|0|0|0|]
10/18 (1): busBar1.i = busBar1.terminal_p.i [dynamic |0|0|0|0|]
11/19 (1): busBar1.p = {busBar1.v * busBar1.i} [dynamic |0|0|0|0|]
12/20 (1): for i in 1 : 1 loop
busBar1.terminal_p.i[i] = -sum(busBar1.terminal_n[:].i[i]); end for; [dynamic |0|0|0|0|]
13/21 (3): for i in 1 : 3 loop
busBar1.terminal_n[i].v = busBar1.terminal_p.v; end for; [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.w_h:VARIABLE(flow=false ) "Dummy potential-variable to balance flow-variable w_H" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.w_h = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.h:VARIABLE(flow=false ) "Dummy potential-variable to balance flow-variable H" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.h = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.w_H:VARIABLE(flow=true unit = "rad" ) "angular velocity, inertia-weighted" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.w_H = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.H:VARIABLE(flow=true unit = "s" ) "inertia constant" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.H = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
no matching
BackendDAEType: simulation
Known variables only depending on parameters and constants - globalKnownVars (20)
========================================
1: busBar1.n_n:PARAM(flow=false ) = 3 type: Integer
2: busBar1.i_start:PARAM(flow=false unit = "A" nominal = 1.0 ) = {0.0} "Start value for current" type: Real[1] [1]
3: busBar1.v_start:PARAM(flow=false unit = "V" nominal = 1000.0 ) = {0.0} "Start value for voltage drop" type: Real[1] [1]
4: fixedLoad1.v_start:PARAM(flow=false unit = "V" nominal = 1000.0 ) = {1.0} "Start value for voltage drop" type: Real[3, 1] [3,1]
5: fixedLoad1.P:PARAM(flow=false unit = "W" ) = 1000000.0:1000000.0:3000000.0 "rms value of constant active power" type: Real[3] [3]
6: fixedLoad1.phi:PARAM(flow=false unit = "rad" ) = 0.1:0.1:0.3 "phase angle" type: Real[3] [3]
7: system.synRef:PARAM(flow=false final = true ) = true type: Boolean
8: system.w_nom:PARAM(flow=false unit = "rad/s" final = true ) = 314.1592653589793 "nom r.p.m." type: Real
9: system.omega_nom:PARAM(flow=false unit = "rad/s" final = true ) = 314.1592653589793 "nominal angular frequency" type: Real
10: system.dynType:PARAM(flow=false min = PowerSystems.Types.Dynamics.FreeInitial max = PowerSystems.Types.Dynamics.SteadyState final = true ) = PowerSystems.Types.Dynamics.SteadyInitial "transient or steady-state model" type: enumeration(FreeInitial, FixedInitial, SteadyInitial, SteadyState)
11: system.refType:PARAM(flow=false min = PowerSystems.Types.ReferenceFrame.Synchron max = PowerSystems.Types.ReferenceFrame.Inertial final = true ) = PowerSystems.Types.ReferenceFrame.Synchron "reference frame (3-phase)" type: enumeration(Synchron, Inertial)
12: system.alpha0:PARAM(flow=false unit = "rad" final = true ) = 0.0 "phase angle" type: Real
13: system.f_lim:PARAM(flow=false unit = "Hz" final = true ) = {25.0, 100.0} "limit frequencies (for supervision of average frequency)" type: Real[2] [2]
14: system.f_nom:PARAM(flow=false unit = "Hz" final = true ) = 50.0 "nominal frequency" type: Real
15: system.f:PARAM(flow=false unit = "Hz" final = true ) = 50.0 "frequency if type is parameter, else initial frequency" type: Real
16: system.fType:PARAM(flow=false min = PowerSystems.Types.SystemFrequency.Parameter max = PowerSystems.Types.SystemFrequency.Average final = true ) = PowerSystems.Types.SystemFrequency.Parameter "system frequency type" type: enumeration(Parameter, Signal, Average)
17: fixedVoltageSource1.V:PARAM(flow=false unit = "V" nominal = 1000.0 ) = 10000.0 "value of constant voltage" type: Real
18: fixedVoltageSource1.definiteReference:PARAM(flow=false final = true ) = false "serve as definite root" type: Boolean
19: fixedVoltageSource1.potentialReference:PARAM(flow=false final = true ) = true "serve as potential root" type: Boolean
20: n:PARAM(flow=false ) = 3 "number of loads" type: Integer
Known variables only depending on states and inputs - localKnownVars (0)
========================================
External Objects (0)
========================================
Classes of External Objects (0)
========================================
Alias Variables (0)
========================================
Simple Shared Equations (1, 1)
========================================
1/1 (0): for i in 1 : 3 loop
algorithm
branch(busBar1.terminal_p.theta, busBar1.terminal_n[i].theta);
; end for; [dynamic |0|0|0|0|]
Initial Equations (0, 0)
========================================
Zero Crossings (0)
========================================
Relations (0)
========================================
Samples (0)
========================================
Constraints (0)
========================================
Base partitions (0)
========================================
Sub partitions (0)
========================================
########################################
dumpDAE
########################################
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.H:VARIABLE(flow=true unit = "s" ) "inertia constant" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.H = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.w_H:VARIABLE(flow=true unit = "rad" ) "angular velocity, inertia-weighted" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.w_H = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.h:VARIABLE(flow=false ) "Dummy potential-variable to balance flow-variable H" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.h = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: system.receiveFreq.w_h:VARIABLE(flow=false ) "Dummy potential-variable to balance flow-variable w_H" type: Real
Equations (1, 1)
========================================
1/1 (1): system.receiveFreq.w_h = 0.0 [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (13)
========================================
1: busBar1.p:VARIABLE(flow=false unit = "W" ) type: Real[1] [1]
2: busBar1.i:VARIABLE(flow=false start = busBar1.i_start unit = "A" nominal = 1.0 ) type: Real[1] [1]
3: busBar1.v:VARIABLE(flow=false start = busBar1.v_start unit = "V" nominal = 1000.0 ) type: Real[1] [1]
4: busBar1.terminal_n.v:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[3, 1] [3,1]
5: busBar1.terminal_n.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[3, 1] [3,1]
6: busBar1.terminal_p.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[1] [1]
7: busBar1.terminal_p.v:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[1] [1]
8: fixedLoad1.terminal.v:VARIABLE(flow=false start = fixedLoad1.v_start unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[3, 1] [3,1]
9: fixedLoad1.terminal.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[3, 1] [3,1]
10: fixedLoad1.p:VARIABLE(flow=false unit = "W" ) type: Real[3, 1] [3,1]
11: fixedVoltageSource1.p:VARIABLE(flow=false unit = "W" ) type: Real[1] [1]
12: fixedVoltageSource1.terminal.i:VARIABLE(flow=true unit = "A" nominal = 1.0 ) "current vector" type: Real[1] [1]
13: fixedVoltageSource1.terminal.v:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) "voltage vector" type: Real[1] [1]
Equations (13, 13)
========================================
1/1 (3): busBar1.terminal_n.v = fixedLoad1.terminal.v [dynamic |0|0|0|0|]
2/4 (3): busBar1.terminal_n.i + fixedLoad1.terminal.i = 0.0 [dynamic |0|0|0|0|]
3/7 (1): fixedVoltageSource1.terminal.v = busBar1.terminal_p.v [dynamic |0|0|0|0|]
4/8 (1): fixedVoltageSource1.terminal.i + busBar1.terminal_p.i = 0.0 [dynamic |0|0|0|0|]
5/9 (1): fixedVoltageSource1.p = {fixedVoltageSource1.terminal.v * fixedVoltageSource1.terminal.i} [dynamic |0|0|0|0|]
6/10 (1): fixedVoltageSource1.terminal.v = {fixedVoltageSource1.V} [dynamic |0|0|0|0|]
7/11 (3): for $i in 1 : 3 loop
fixedLoad1[$i].p = {fixedLoad1[$i].terminal.v * fixedLoad1[$i].terminal.i}; end for; [dynamic |0|0|0|0|]
8/14 (3): for $i in 1 : 3 loop
fixedLoad1[$i].terminal.v * fixedLoad1[$i].terminal.i = fixedLoad1[$i].P; end for; [dynamic |0|0|0|0|]
9/17 (1): busBar1.v = busBar1.terminal_p.v [dynamic |0|0|0|0|]
10/18 (1): busBar1.i = busBar1.terminal_p.i [dynamic |0|0|0|0|]
11/19 (1): busBar1.p = {busBar1.v * busBar1.i} [dynamic |0|0|0|0|]
12/20 (1): for i in 1 : 1 loop
busBar1.terminal_p.i[i] = -sum(busBar1.terminal_n[:].i[i]); end for; [dynamic |0|0|0|0|]
13/21 (3): for i in 1 : 3 loop
busBar1.terminal_n[i].v = busBar1.terminal_p.v; end for; [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
13 variables and equations
var 1 is solved in eqn 11
var 2 is solved in eqn 10
var 3 is solved in eqn 9
var 4 is solved in eqn 13
var 5 is solved in eqn 2
var 6 is solved in eqn 12
var 7 is solved in eqn 3
var 8 is solved in eqn 1
var 9 is solved in eqn 8
var 10 is solved in eqn 7
var 11 is solved in eqn 5
var 12 is solved in eqn 4
var 13 is solved in eqn 6
StrongComponents
========================================
{12:6}
Array {{10:2}}
Array {{6:13}}
Array {{4:12}}
Array {{5:11}}
Array {{3:7}}
Array {{9:3}}
Array {{11:1}}
{13:4}
Array {{1:8}}
{8:9}
Array {{2:5}}
{7:10}
unspecified partition
========================================
Variables (1)
========================================
1: fixedVoltageSource1.phi:VARIABLE(flow=false unit = "rad" ) type: Real
Equations (1, 1)
========================================
1/1 (1): fixedVoltageSource1.phi = 0.0 [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (5)
========================================
1: system.omega_internal:VARIABLE(flow=false protected = true ) type: Real
2: system.omega:VARIABLE(flow=false start = 314.1592653589793 unit = "rad/s" ) type: Real
3: system.thetaRef:VARIABLE(flow=false unit = "rad" ) "angle of reference frame" type: Real
4: system.thetaRel:VARIABLE(flow=false unit = "rad" ) "angle relative to reference frame" type: Real
5: system.theta:VARIABLE(flow=false start = 0.0 unit = "rad" ) "system angle" type: Real
Equations (5, 5)
========================================
1/1 (1): system.omega_internal = system.thetaRef / time [dynamic |0|0|0|0|]
2/2 (1): system.omega = 314.1592653589793 [dynamic |0|0|0|0|]
3/3 (1): system.thetaRef = system.omega * time [dynamic |0|0|0|0|]
4/4 (1): system.thetaRel = 0.0 [unknown |0|0|0|0|]
5/5 (1): system.theta = system.thetaRef [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
5 variables and equations
var 1 is solved in eqn 1
var 2 is solved in eqn 2
var 3 is solved in eqn 3
var 4 is solved in eqn 4
var 5 is solved in eqn 5
StrongComponents
========================================
{4:4}
{2:2}
{3:3}
{5:5}
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: busBar1.V:VARIABLE(flow=false unit = "V" nominal = 1000.0 ) type: Real
Equations (1, 1)
========================================
1/1 (1): busBar1.V = busBar1.v[1] [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: busBar1.I:VARIABLE(flow=false unit = "A" nominal = 1.0 ) type: Real
Equations (1, 1)
========================================
1/1 (1): busBar1.I = busBar1.i[1] [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: busBar1.phi:VARIABLE(flow=false unit = "rad" ) type: Real
Equations (1, 1)
========================================
1/1 (1): busBar1.phi = 0.0 [binding |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
{1:1}
unspecified partition
========================================
Variables (1)
========================================
1: system.initime:DISCRETE(flow=false unit = "s" ) type: Real
Equations (1, 1)
========================================
1/1 (1): when false then
system.initime := time;
end when; [dynamic |0|0|0|0|]
Simple Equations (0, 0)
========================================
State Sets
========================================
Matching
========================================
1 variables and equations
var 1 is solved in eqn 1
StrongComponents
========================================
WhenEquation {1:1}
BackendDAEType: simulation
Known variables only depending on parameters and constants - globalKnownVars (20)
========================================
1: busBar1.n_n:PARAM(flow=false ) = 3 type: Integer
2: busBar1.i_start:PARAM(flow=false unit = "A" nominal = 1.0 ) = {0.0} "Start value for current" type: Real[1] [1]
3: busBar1.v_start:PARAM(flow=false unit = "V" nominal = 1000.0 ) = {0.0} "Start value for voltage drop" type: Real[1] [1]
4: fixedLoad1.v_start:PARAM(flow=false unit = "V" nominal = 1000.0 ) = {1.0} "Start value for voltage drop" type: Real[3, 1] [3,1]
5: fixedLoad1.P:PARAM(flow=false unit = "W" ) = 1000000.0:1000000.0:3000000.0 "rms value of constant active power" type: Real[3] [3]
6: fixedLoad1.phi:PARAM(flow=false unit = "rad" ) = 0.1:0.1:0.3 "phase angle" type: Real[3] [3]
7: system.synRef:PARAM(flow=false final = true ) = true type: Boolean
8: system.w_nom:PARAM(flow=false unit = "rad/s" final = true ) = 314.1592653589793 "nom r.p.m." type: Real
9: system.omega_nom:PARAM(flow=false unit = "rad/s" final = true ) = 314.1592653589793 "nominal angular frequency" type: Real
10: system.dynType:PARAM(flow=false min = PowerSystems.Types.Dynamics.FreeInitial max = PowerSystems.Types.Dynamics.SteadyState final = true ) = PowerSystems.Types.Dynamics.SteadyInitial "transient or steady-state model" type: enumeration(FreeInitial, FixedInitial, SteadyInitial, SteadyState)
11: system.refType:PARAM(flow=false min = PowerSystems.Types.ReferenceFrame.Synchron max = PowerSystems.Types.ReferenceFrame.Inertial final = true ) = PowerSystems.Types.ReferenceFrame.Synchron "reference frame (3-phase)" type: enumeration(Synchron, Inertial)
1Unexpected end of /proc/mounts line `overlay / overlay rw,relatime,lowerdir=/var/lib/docker/overlay2/l/DCSTFYG3DVWP53HLMAXKZTPDR5:/var/lib/docker/overlay2/l/OFBQHWN5VWB3ZDIVLSEHB4ZZO7:/var/lib/docker/overlay2/l/XKNAMZMLHIGLUIWZN6NHS4LQOB:/var/lib/docker/overlay2/l/XDXTSPLZ4IFADJTBU5VPCFEWAO:/var/lib/docker/overlay2/l/TLE42ND4WLQ5HMCG4FABWZYYBM:/var/lib/docker/overlay2/l/N2ZO5AQSQ6RGU55LFPZO3NSFIG:/var/lib/docker/overlay2/l/AFXOGW55ZNK4NUDS4WEZ6VE76H:/var/lib/docker/overlay2/l/KJ36F2MJVNS5N45ELI4N3CNXLN:/var/lib/docker/overlay2/l/SFDLWMOUVQFPH'
Unexpected end of /proc/mounts line `overlay / overlay rw,relatime,lowerdir=/var/lib/docker/overlay2/l/DCSTFYG3DVWP53HLMAXKZTPDR5:/var/lib/docker/overlay2/l/OFBQHWN5VWB3ZDIVLSEHB4ZZO7:/var/lib/docker/overlay2/l/XKNAMZMLHIGLUIWZN6NHS4LQOB:/var/lib/docker/overlay2/l/XDXTSPLZ4IFADJTBU5VPCFEWAO:/var/lib/docker/overlay2/l/TLE42ND4WLQ5HMCG4FABWZYYBM:/var/lib/docker/overlay2/l/N2ZO5AQSQ6RGU55LFPZO3NSFIG:/var/lib/docker/overlay2/l/AFXOGW55ZNK4NUDS4WEZ6VE76H:/var/lib/docker/overlay2/l/KJ36F2MJVNS5N45ELI4N3CNXLN:/var/lib/docker/overlay2/l/SFDLWMOUVQFPH'
2: system.alpha0:PARAM(flow=false unit = "rad" final = true ) = 0.0 "phase angle" type: Real
13: system.f_lim:PARAM(flow=false unit = "Hz" final = true ) = {25.0, 100.0} "limit frequencies (for supervision of average frequency)" type: Real[2] [2]
14: system.f_nom:PARAM(flow=false unit = "Hz" final = true ) = 50.0 "nominal frequency" type: Real
15: system.f:PARAM(flow=false unit = "Hz" final = true ) = 50.0 "frequency if type is parameter, else initial frequency" type: Real
16: system.fType:PARAM(flow=false min = PowerSystems.Types.SystemFrequency.Parameter max = PowerSystems.Types.SystemFrequency.Average final = true ) = PowerSystems.Types.SystemFrequency.Parameter "system frequency type" type: enumeration(Parameter, Signal, Average)
17: fixedVoltageSource1.V:PARAM(flow=false unit = "V" nominal = 1000.0 ) = 10000.0 "value of constant voltage" type: Real
18: fixedVoltageSource1.definiteReference:PARAM(flow=false final = true ) = false "serve as definite root" type: Boolean
19: fixedVoltageSource1.potentialReference:PARAM(flow=false final = true ) = true "serve as potential root" type: Boolean
20: n:PARAM(flow=false ) = 3 "number of loads" type: Integer
Known variables only depending on states and inputs - localKnownVars (0)
========================================
External Objects (0)
========================================
Classes of External Objects (0)
========================================
Alias Variables (0)
========================================
Simple Shared Equations (1, 1)
========================================
1/1 (0): for i in 1 : 3 loop
algorithm
branch(busBar1.terminal_p.theta, busBar1.terminal_n[i].theta);
; end for; [dynamic |0|0|0|0|]
Initial Equations (0, 0)
========================================
Zero Crossings (0)
========================================
Relations (0)
========================================
Samples (0)
========================================
Constraints (0)
========================================
Base partitions (0)
========================================
Sub partitions (0)
========================================
record SimulationResult
resultFile = "VectorizedPowerSystemTest_res.mat",
simulationOptions = "startTime = 0.0, stopTime = 1.0, numberOfIntervals = 500, tolerance = 1e-06, method = 'dassl', fileNamePrefix = 'VectorizedPowerSystemTest', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = ''",
messages = ""
end SimulationResult;
""
-6000000.0
Equation mismatch: diff says:
--- /tmp/omc-rtest-unknown/openmodelica/cppruntime/testVectorizedPowerSystem.mos_temp9909/equations-expected2019-01-23 19:17:01.137448777 +0000
+++ /tmp/omc-rtest-unknown/openmodelica/cppruntime/testVectorizedPowerSystem.mos_temp9909/equations-got2019-01-23 19:17:10.569316152 +0000
@@ -845,11 +845,12 @@
7: system.synRef:PARAM(flow=false final = true ) = true type: Boolean
8: system.w_nom:PARAM(flow=false unit = "rad/s" final = true ) = 314.1592653589793 "nom r.p.m." type: Real
9: system.omega_nom:PARAM(flow=false unit = "rad/s" final = true ) = 314.1592653589793 "nominal angular frequency" type: Real
10: system.dynType:PARAM(flow=false min = PowerSystems.Types.Dynamics.FreeInitial max = PowerSystems.Types.Dynamics.SteadyState final = true ) = PowerSystems.Types.Dynamics.SteadyInitial "transient or steady-state model" type: enumeration(FreeInitial, FixedInitial, SteadyInitial, SteadyState)
11: system.refType:PARAM(flow=false min = PowerSystems.Types.ReferenceFrame.Synchron max = PowerSystems.Types.ReferenceFrame.Inertial final = true ) = PowerSystems.Types.ReferenceFrame.Synchron "reference frame (3-phase)" type: enumeration(Synchron, Inertial)
-12: system.alpha0:PARAM(flow=false unit = "rad" final = true ) = 0.0 "phase angle" type: Real
+1Unexpected end of /proc/mounts line `overlay / overlay rw,relatime,lowerdir=/var/lib/docker/overlay2/l/DCSTFYG3DVWP53HLMAXKZTPDR5:/var/lib/docker/overlay2/l/OFBQHWN5VWB3ZDIVLSEHB4ZZO7:/var/lib/docker/overlay2/l/XKNAMZMLHIGLUIWZN6NHS4LQOB:/var/lib/docker/overlay2/l/XDXTSPLZ4IFADJTBU5VPCFEWAO:/var/lib/docker/overlay2/l/TLE42ND4WLQ5HMCG4FABWZYYBM:/var/lib/docker/overlay2/l/N2ZO5AQSQ6RGU55LFPZO3NSFIG:/var/lib/docker/overlay2/l/AFXOGW55ZNK4NUDS4WEZ6VE76H:/var/lib/docker/overlay2/l/KJ36F2MJVNS5N45ELI4N3CNXLN:/var/lib/docker/overlay2/l/SFDLWMOUVQFPH'
+2: system.alpha0:PARAM(flow=false unit = "rad" final = true ) = 0.0 "phase angle" type: Real
13: system.f_lim:PARAM(flow=false unit = "Hz" final = true ) = {25.0, 100.0} "limit frequencies (for supervision of average frequency)" type: Real[2] [2]
14: system.f_nom:PARAM(flow=false unit = "Hz" final = true ) = 50.0 "nominal frequency" type: Real
15: system.f:PARAM(flow=false unit = "Hz" final = true ) = 50.0 "frequency if type is parameter, else initial frequency" type: Real
16: system.fType:PARAM(flow=false min = PowerSystems.Types.SystemFrequency.Parameter max = PowerSystems.Types.SystemFrequency.Average final = true ) = PowerSystems.Types.SystemFrequency.Parameter "system frequency type" type: enumeration(Parameter, Signal, Average)
17: fixedVoltageSource1.V:PARAM(flow=false unit = "V" nominal = 1000.0 ) = 10000.0 "value of constant voltage" type: Real
Equation mismatch: omc-diff says:
Line 850: Integer 12 != 1
== 1 out of 1 tests failed [openmodelica/cppruntime/testVectorizedPowerSystem.mos_temp9909, time: 9]