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rename some files and classes

rename some files and classes #90

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GitHub Actions / Test report (Python 3.11) failed Sep 14, 2023 in 0s

Test report (Python 3.11) ❌

Tests failed

❌ test-results-3.11.xml

407 tests were completed in 1592s with 361 passed, 40 failed and 6 skipped.

Test suite Passed Failed Skipped Time
pytest 361✅ 40❌ 6⚪ 1592s

❌ pytest

tests.test_base
  ✅ testGMG
  ✅ testParallelGMG[1-interval-P1-False]
  ✅ testParallelGMG[1-interval-P1-True]
  ✅ testParallelGMG[4-interval-P1-True]
  ✅ testParallelGMG[4-interval-P2-True]
  ✅ testParallelGMG[4-square-P2-True]
  ✅ testParallelGMG[4-square-P2-False]
  ✅ testParallelGMG[1-square-P2-True]
  ✅ testParallelGMG[1-square-P2-False]
  ✅ testParallelGMG[4-square-P1-True]
  ✅ testParallelGMG[4-square-P3-True]
  ✅ testParallelGMG[4-square-P3-False]
  ✅ testParallelGMG[1-square-P3-True]
  ✅ testParallelGMG[1-square-P3-False]
  ✅ testParallelGMG[4-interval-P3-True]
  ✅ testParallelGMG[4-cube-P3-True]
  ✅ testParallelGMG[4-cube-P3-False]
  ✅ testParallelGMG[1-cube-P3-True]
  ✅ testParallelGMG[1-cube-P3-False]
  ✅ testParallelGMG[4-cube-P2-True]
  ✅ testParallelGMG[4-cube-P2-False]
  ✅ testParallelGMG[1-cube-P2-True]
  ✅ testParallelGMG[1-cube-P2-False]
  ✅ testParallelGMG[4-cube-P1-True]
  ✅ testParallelGMG[4-cube-P1-False]
  ✅ testHelmholtz[4-cube]
  ✅ testParallelGMG[1-cube-P1-True]
  ✅ testParallelGMG[1-cube-P1-False]
  ✅ testHelmholtz[1-cube]
  ✅ testParallelGMG[4-interval-P3-False]
  ✅ testParallelGMG[1-interval-P3-True]
  ✅ testParallelGMG[1-interval-P3-False]
  ✅ testParallelGMG[4-square-P1-False]
  ✅ testHelmholtz[4-square]
  ✅ testParallelGMG[1-square-P1-True]
  ✅ testParallelGMG[1-square-P1-False]
  ✅ testHelmholtz[1-square]
  ✅ testParallelGMG[4-interval-P2-False]
  ✅ testParallelGMG[1-interval-P2-True]
  ✅ testParallelGMG[1-interval-P2-False]
  ✅ testParallelGMG[4-interval-P1-False]
  ✅ testHelmholtz[4-interval]
  ✅ testHelmholtz[1-interval]
  ✅ testInterface[domainNoRef0]
  ✅ testInterface[domainNoRef1]
  ✅ test_tupleDict
  ✅ test_arrayIndexSet
  ✅ test_bitArray
  ✅ test_integrals_drift[square]
  ✅ test_integrals_grad[square]
tests.test_drivers_intFracLapl
  ✅ testNonlocal[interval-fractional-poly-Dirichlet-lu-dense]
  ✅ testNonlocal[interval-fractional-poly-Neumann-lu-dense]
  ✅ testNonlocal[interval-constant-poly-Dirichlet-lu-dense]
  ✅ testNonlocal[interval-constant-poly-Neumann-lu-dense]
  ✅ testNonlocal[interval-inverseDistance-poly-Dirichlet-lu-dense]
  ✅ testNonlocal[interval-inverseDistance-poly-Neumann-lu-dense]
  ✅ testNonlocal[square-fractional-poly-Dirichlet-cg-mg-dense]
  ⚪ testNonlocal[square-fractional-poly-Neumann-cg-mg-dense]
  ✅ testNonlocal[square-constant-poly-Dirichlet-cg-mg-dense]
  ⚪ testNonlocal[square-constant-poly-Neumann-cg-mg-dense]
  ✅ testNonlocal[square-inverseDistance-poly-Dirichlet-cg-mg-dense]
  ⚪ testNonlocal[square-inverseDistance-poly-Neumann-cg-mg-dense]
  ✅ testNonlocal[interval-fractional-poly-Dirichlet-lu-H2]
  ✅ testNonlocal[interval-fractional-poly-Neumann-lu-H2]
  ✅ testNonlocal[interval-constant-poly-Dirichlet-lu-H2]
  ✅ testNonlocal[interval-constant-poly-Neumann-lu-H2]
  ✅ testNonlocal[interval-inverseDistance-poly-Dirichlet-lu-H2]
  ✅ testNonlocal[interval-inverseDistance-poly-Neumann-lu-H2]
  ✅ testNonlocal[square-fractional-poly-Dirichlet-cg-mg-H2]
  ⚪ testNonlocal[square-fractional-poly-Neumann-cg-mg-H2]
  ✅ testNonlocal[square-constant-poly-Dirichlet-cg-mg-H2]
  ⚪ testNonlocal[square-constant-poly-Neumann-cg-mg-H2]
  ✅ testNonlocal[square-inverseDistance-poly-Dirichlet-cg-mg-H2]
  ⚪ testNonlocal[square-inverseDistance-poly-Neumann-cg-mg-H2]
  ✅ testFractional[interval-const0.25-constant-P0-cg-mg-dense]
  ✅ testFractionalHeat[interval-const0.25-constant-P0-cg-mg-dense]
  ✅ testFractional[interval-const0.25-constant-P0-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.25-constant-P0-cg-mg-H2]
  ✅ testFractional[interval-const0.25-constant-P1-cg-mg-dense]
  ✅ testFractionalHeat[interval-const0.25-constant-P1-cg-mg-dense]
  ✅ testFractional[interval-const0.25-constant-P1-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.25-constant-P1-cg-mg-H2]
  ✅ testFractional[interval-const0.25-zeroFlux-P1-lu-H2]
  ✅ testFractionalHeat[interval-const0.25-zeroFlux-P1-lu-H2]
  ✅ testFractional[interval-const0.25-knownSolution-P1-cg-jacobi-H2]
  ✅ testFractionalHeat[interval-const0.25-knownSolution-P1-cg-jacobi-H2]
  ✅ testFractional[interval-const0.75-constant-P1-lu-dense]
  ✅ testFractionalHeat[interval-const0.75-constant-P1-lu-dense]
  ✅ testFractional[interval-const0.75-constant-P1-lu-H2]
  ✅ testFractionalHeat[interval-const0.75-constant-P1-lu-H2]
  ✅ testFractional[interval-const0.75-zeroFlux-P1-cg-jacobi-H2]
  ✅ testFractionalHeat[interval-const0.75-zeroFlux-P1-cg-jacobi-H2]
  ✅ testFractional[interval-const0.75-knownSolution-P1-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.75-knownSolution-P1-cg-mg-H2]
  ✅ testFractional[interval-varconst0.75-constant-P1-cg-jacobi-dense]
  ✅ testFractionalHeat[interval-varconst0.75-constant-P1-cg-jacobi-dense]
  ✅ testFractional[interval-varconst0.75-constant-P1-cg-jacobi-H2]
  ✅ testFractionalHeat[interval-varconst0.75-constant-P1-cg-jacobi-H2]
  ✅ testFractional[interval-varconst0.75-zeroFlux-P1-cg-mg-H2]
  ✅ testFractionalHeat[interval-varconst0.75-zeroFlux-P1-cg-mg-H2]
  ✅ testFractional[interval-varconst0.75-knownSolution-P1-lu-H2]
  ✅ testFractionalHeat[interval-varconst0.75-knownSolution-P1-lu-H2]
  ✅ testFractional[interval-const0.25-constant-P2-cg-mg-dense]
  ✅ testFractionalHeat[interval-const0.25-constant-P2-cg-mg-dense]
  ✅ testFractional[interval-const0.25-constant-P2-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.25-constant-P2-cg-mg-H2]
  ✅ testFractional[interval-const0.75-constant-P2-cg-mg-dense]
  ✅ testFractionalHeat[interval-const0.75-constant-P2-cg-mg-dense]
  ✅ testFractional[interval-const0.75-constant-P2-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.75-constant-P2-cg-mg-H2]
  ✅ testFractional[interval-const0.25-constant-P3-cg-mg-dense]
  ✅ testFractionalHeat[interval-const0.25-constant-P3-cg-mg-dense]
  ✅ testFractional[interval-const0.25-constant-P3-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.25-constant-P3-cg-mg-H2]
  ✅ testFractional[interval-const0.75-constant-P3-cg-mg-dense]
  ✅ testFractionalHeat[interval-const0.75-constant-P3-cg-mg-dense]
  ✅ testFractional[interval-const0.75-constant-P3-cg-mg-H2]
  ✅ testFractionalHeat[interval-const0.75-constant-P3-cg-mg-H2]
  ✅ testFractional[disc-const0.25-constant-P0-cg-mg-dense]
  ✅ testFractionalHeat[disc-const0.25-constant-P0-cg-mg-dense]
  ✅ testFractional[disc-const0.25-constant-P0-cg-mg-H2]
  ✅ testFractionalHeat[disc-const0.25-constant-P0-cg-mg-H2]
  ✅ testFractional[disc-const0.25-constant-P1-cg-mg-dense]
  ✅ testFractionalHeat[disc-const0.25-constant-P1-cg-mg-dense]
  ✅ testFractional[disc-const0.25-constant-P1-cg-mg-H2]
  ✅ testFractionalHeat[disc-const0.25-constant-P1-cg-mg-H2]
  ✅ testFractional[disc-const0.75-constant-P1-cg-mg-dense]
  ✅ testFractionalHeat[disc-const0.75-constant-P1-cg-mg-dense]
  ✅ testFractional[disc-const0.75-constant-P1-cg-mg-H2]
  ✅ testFractionalHeat[disc-const0.75-constant-P1-cg-mg-H2]
  ✅ testVariableOrder
  ✅ testMatvecs[interval-const0.25]
  ✅ testMatvecs[interval-const0.75]
  ✅ testMatvecs[interval-varconst0.25]
  ✅ testMatvecs[interval-varconst0.75]
  ✅ testMatvecs[square-const0.25]
  ✅ testMatvecs[square-const0.75]
  ✅ testMatvecs[square-varconst0.25]
  ✅ testMatvecs[square-varconst0.75]
tests.test_fracLapl
  ✅ testFracLapl[1-P1-0.3]
  ✅ testFracLapl[1-P1-0.7]
  ✅ testFracLapl[2-P1-0.3]
  ✅ testFracLapl[2-P1-0.7]
  ✅ testScaling[1-0.25-inf]
  ✅ testScaling[1-0.25-1]
  ✅ testScaling[1-0.75-inf]
  ✅ testScaling[1-0.75-1]
  ✅ testScaling[2-0.25-inf]
  ✅ testScaling[2-0.25-1]
  ✅ testScaling[2-0.75-inf]
  ✅ testScaling[2-0.75-1]
  ✅ testH2[1-0.3-0.0001-P1]
  ✅ testH2[1-0.7-0.01-P1]
  ✅ testH2[2-0.3-0.00012-P1]
  ✅ testH2[2-0.7-0.01-P1]
tests.test_h2finiteHorizon
  ✅ test_h2_finite[1-0.25-1.0-0.5-True]
  ✅ test_h2_finite[1-0.75-1.0-0.5-True]
  ✅ test_h2_finite[1-0.25-1.0-0.5-False]
  ✅ test_h2_finite[1-0.75-1.0-0.5-False]
  ✅ test_h2_finite[1-0.25-1.0-2.5-False]
  ✅ test_h2_finite[1-0.75-1.0-2.5-False]
tests.test_kernels
  ✅ testIntegrableKernel[dim1-kernelTypeconstanthorizon0.5-normalizedTrue]
  ✅ testIntegrableKernel[dim1-kernelTypeconstanthorizon0.5-normalizedFalse]
  ✅ testIntegrableKernel[dim1-kernelTypeinverseDistancehorizon0.5-normalizedTrue]
  ✅ testIntegrableKernel[dim1-kernelTypeinverseDistancehorizon0.5-normalizedFalse]
  ✅ testIntegrableKernel[dim1-kernelTypeGaussianhorizon0.5-normalizedTrue]
  ✅ testIntegrableKernel[dim1-kernelTypeGaussianhorizon0.5-normalizedFalse]
  ✅ testIntegrableKernel[dim2-kernelTypeconstanthorizon0.5-normalizedTrue]
  ✅ testIntegrableKernel[dim2-kernelTypeconstanthorizon0.5-normalizedFalse]
  ✅ testIntegrableKernel[dim2-kernelTypeinverseDistancehorizon0.5-normalizedTrue]
  ✅ testIntegrableKernel[dim2-kernelTypeinverseDistancehorizon0.5-normalizedFalse]
  ✅ testIntegrableKernel[dim2-kernelTypeGaussianhorizon0.5-normalizedTrue]
  ✅ testIntegrableKernel[dim2-kernelTypeGaussianhorizon0.5-normalizedFalse]
  ✅ testFractionalKernel[dim1-s0.25-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative00]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative00]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative00]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative00]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative01]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative01]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative01]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative01]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative02]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative02]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative02]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative02]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative03]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative03]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative03]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative03]
  ✅ testFractionalKernel[dim1-s0.25-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.75-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phi2.0-derivative0]
  ✅ testFractionalKernel[dim1-s0.25-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.25-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.25-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.25-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.75-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.75-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.75-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-s0.75-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative10]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative10]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative10]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative10]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative11]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative11]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative11]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative11]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative12]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative12]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative12]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative12]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedTrue-phiNone-derivative13]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizoninf-normalizedFalse-phiNone-derivative13]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedTrue-phiNone-derivative13]
  ✅ testFractionalKernel[dim1-sfeFractionalOrder(lookupExtended)-horizon0.5-normalizedFalse-phiNone-derivative13]
  ✅ testFractionalKernel[dim2-s0.25-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.25-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.25-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.25-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.75-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.75-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.75-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.75-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative0]
  ✅ testFractionalKernel[dim2-s0.25-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.25-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.25-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.25-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.75-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.75-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.75-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-s0.75-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.25,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-svariableConstFractionalOrder(s=0.75,sym=1)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.25)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-sconstantNonSymFractionalOrder(0.75)-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.75,sr=0.25,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizoninf-normalizedFalse-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedTrue-phiNone-derivative1]
  ✅ testFractionalKernel[dim2-ssmoothedLeftRightFractionalOrder(smoothStep(sl=0.25,sr=0.75,r=0.1,interface=0.0))-horizon0.5-normalizedFalse-phiNone-derivative1]
  ✅ test_discrete_s_const
  ✅ test_discrete_leftRight
tests.test_nearField.const1D_025
  ❌ testConstCluster
	self = <class 'test_nearField.const1D_025'>
  ❌ testConstH2
	self = <class 'test_nearField.const1D_025'>
  ❌ testVarDense
	self = <class 'test_nearField.const1D_025'>
  ❌ testVarCluster
	self = <class 'test_nearField.const1D_025'>
tests.test_nearField.const1D_075
  ❌ testConstCluster
	self = <class 'test_nearField.const1D_075'>
  ❌ testConstH2
	self = <class 'test_nearField.const1D_075'>
  ❌ testVarDense
	self = <class 'test_nearField.const1D_075'>
  ❌ testVarCluster
	self = <class 'test_nearField.const1D_075'>
tests.test_nearField.const1D_025_finiteHorizon
  ❌ testConstCluster
	self = <class 'test_nearField.const1D_025_finiteHorizon'>
  ❌ testConstH2
	self = <class 'test_nearField.const1D_025_finiteHorizon'>
  ❌ testVarDense
	self = <class 'test_nearField.const1D_025_finiteHorizon'>
  ❌ testVarCluster
	self = <class 'test_nearField.const1D_025_finiteHorizon'>
tests.test_nearField.const1D_075_finiteHorizon
  ❌ testConstCluster
	self = <class 'test_nearField.const1D_075_finiteHorizon'>
  ❌ testConstH2
	self = <class 'test_nearField.const1D_075_finiteHorizon'>
  ❌ testVarDense
	self = <class 'test_nearField.const1D_075_finiteHorizon'>
  ❌ testVarCluster
	self = <class 'test_nearField.const1D_075_finiteHorizon'>
tests.test_nearField.leftRight1D
  ❌ testConstCluster
	self = <class 'test_nearField.leftRight1D'>
  ❌ testConstH2
	self = <class 'test_nearField.leftRight1D'>
  ❌ testVarDense
	self = <class 'test_nearField.leftRight1D'>
  ❌ testVarCluster
	self = <class 'test_nearField.leftRight1D'>
tests.test_nearField.leftRight1DfiniteHorizon
  ❌ testConstCluster
	self = <class 'test_nearField.leftRight1DfiniteHorizon'>
  ❌ testConstH2
	self = <class 'test_nearField.leftRight1DfiniteHorizon'>
  ❌ testVarDense
	self = <class 'test_nearField.leftRight1DfiniteHorizon'>
  ❌ testVarCluster
	self = <class 'test_nearField.leftRight1DfiniteHorizon'>
tests.test_nearField.const2D_025
  ❌ testConstCluster
	self = <class 'test_nearField.const2D_025'>
  ❌ testConstH2
	self = <class 'test_nearField.const2D_025'>
  ❌ testVarDense
	self = <class 'test_nearField.const2D_025'>
  ❌ testVarCluster
	self = <class 'test_nearField.const2D_025'>
tests.test_nearField.const2D_075
  ❌ testConstCluster
	self = <class 'test_nearField.const2D_075'>
  ❌ testConstH2
	self = <class 'test_nearField.const2D_075'>
  ❌ testVarDense
	self = <class 'test_nearField.const2D_075'>
  ❌ testVarCluster
	self = <class 'test_nearField.const2D_075'>
tests.test_nearField.leftRight2DinfiniteHorizon
  ❌ testConstCluster
	self = <class 'test_nearField.leftRight2DinfiniteHorizon'>
  ❌ testConstH2
	self = <class 'test_nearField.leftRight2DinfiniteHorizon'>
  ❌ testVarDense
	self = <class 'test_nearField.leftRight2DinfiniteHorizon'>
  ❌ testVarCluster
	self = <class 'test_nearField.leftRight2DinfiniteHorizon'>
tests.test_nearField.layers2D
  ❌ testConstCluster
	self = <class 'test_nearField.layers2D'>
  ❌ testConstH2
	self = <class 'test_nearField.layers2D'>
  ❌ testVarDense
	self = <class 'test_nearField.layers2D'>
  ❌ testVarCluster
	self = <class 'test_nearField.layers2D'>

Annotations

Check failure on line 0 in test-results-3.11.xml

See this annotation in the file changed.

@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_025 ► testConstCluster 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025'>
Raw output 
self = <class 'test_nearField.const1D_025'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

See this annotation in the file changed.

@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_025 ► testConstH2 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025'>
Raw output 
self = <class 'test_nearField.const1D_025'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_025 ► testVarDense 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025'>
Raw output 
self = <class 'test_nearField.const1D_025'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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pytest ► tests.test_nearField.const1D_025 ► testVarCluster 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025'>
Raw output 
self = <class 'test_nearField.const1D_025'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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pytest ► tests.test_nearField.const1D_075 ► testConstCluster 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_075'>
Raw output 
self = <class 'test_nearField.const1D_075'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_075 ► testConstH2 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_075'>
Raw output 
self = <class 'test_nearField.const1D_075'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_075 ► testVarDense 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_075'>
Raw output 
self = <class 'test_nearField.const1D_075'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_075 ► testVarCluster 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_075'>
Raw output 
self = <class 'test_nearField.const1D_075'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

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@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_025_finiteHorizon ► testConstCluster 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025_finiteHorizon'>
Raw output 
self = <class 'test_nearField.const1D_025_finiteHorizon'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

See this annotation in the file changed.

@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_025_finiteHorizon ► testConstH2 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025_finiteHorizon'>
Raw output 
self = <class 'test_nearField.const1D_025_finiteHorizon'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError

Check failure on line 0 in test-results-3.11.xml

See this annotation in the file changed.

@github-actions github-actions / Test report (Python 3.11)

pytest ► tests.test_nearField.const1D_025_finiteHorizon ► testVarDense 

Failed test found in:
  test-results-3.11.xml
Error:
  self = <class 'test_nearField.const1D_025_finiteHorizon'>
Raw output 
self = <class 'test_nearField.const1D_025_finiteHorizon'>

    @classmethod
    def setup_class(self):
        kernel = getFractionalKernel(self.dim, self.s, self.horizon, normalized=self.normalized, phi=self.phi, piecewise=self.piecewise)
        print('\n##################################################')
        print('Testing: {}'.format(kernel))
    
        if self.dim == 1:
            self.mesh, nI = nonlocalMeshFactory.build('interval', kernel, self.boundaryCondition)
            self.tag = nI['tag']
            self.zeroExterior = nI['zeroExterior']
            # noRef = 6
        elif self.dim == 2:
            self.mesh, nI = nonlocalMeshFactory.build('square', kernel, self.boundaryCondition)
            # noRef = 2
        self.tag = nI['tag']
        self.zeroExterior = nI['zeroExterior']
    
        if self.element == 0:
            DoFMap = P0_DoFMap
        elif self.element == 1:
            DoFMap = P1_DoFMap
        else:
            raise NotImplementedError()
    
        self.dm = DoFMap(self.mesh, self.tag)
        while self.dm.num_dofs < 230:
            self.mesh = self.mesh.refine()
            self.dm = DoFMap(self.mesh, self.tag)
        self.mesh.sortVertices()
        self.dm = DoFMap(self.mesh, self.tag)
        print(self.dm)
    
>       self.builder = nonlocalBuilder(self.mesh, self.dm, kernel, params=self.params, zeroExterior=self.zeroExterior)
E       TypeError: 'module' object is not callable

tests/test_nearField.py:82: TypeError
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