Thu Feb 12 09:51:52 2015 S2DE_TEST Python version Test the S2DE library. R8VEC_AMAX_TEST R8VEC_AMAX computes the maximum absolute value entry in an R8VEC. Input vector: 0 -5.63163 1 9.12635 2 6.59018 3 1.23391 4 -1.69386 5 -8.67763 6 -4.84844 7 -7.80086 8 -9.12342 9 2.67931 Max Abs = 9.12635 R8VEC_AMAX_TEST: Normal end of execution. R8VEC_AMIN_TEST R8VEC_AMIN computes the minimum absolute entry in an R8VEC. Input vector: 0 -5.63163 1 9.12635 2 6.59018 3 1.23391 4 -1.69386 5 -8.67763 6 -4.84844 7 -7.80086 8 -9.12342 9 2.67931 Min Abs = 1.23391 R8VEC_AMIN_TEST: Normal end of execution. R8VEC_MAX_TEST R8VEC_MAX computes the maximum entry in an R8VEC. Input vector: 0 -5.63163 1 9.12635 2 6.59018 3 1.23391 4 -1.69386 5 -8.67763 6 -4.84844 7 -7.80086 8 -9.12342 9 2.67931 Max = 9.12635 R8VEC_MAX_TEST: Normal end of execution. R8VEC_MIN_TEST R8VEC_MIN computes the minimum entry in an R8VEC. Input vector: 0 -5.63163 1 9.12635 2 6.59018 3 1.23391 4 -1.69386 5 -8.67763 6 -4.84844 7 -7.80086 8 -9.12342 9 2.67931 Min = -9.12342 R8VEC_MIN_TEST: Normal end of execution. R8VEC_NORM_L2_TEST R8VEC_NORM_L2 computes the L2 norm of an R8VEC. Input vector: 0 -5.63163 1 9.12635 2 6.59018 3 1.23391 4 -1.69386 5 -8.67763 6 -4.84844 7 -7.80086 8 -9.12342 9 2.67931 L2 norm = 20.3201 R8VEC_NORM_L2_TEST: Normal end of execution. R8VEC_PRINT_TEST R8VEC_PRINT prints an R8VEC. Here is an R8VEC: 0 123.456 1 5e-06 2 -1e+06 3 3.14159 R8VEC_PRINT_TEST: Normal end of execution. R8VEC_UNIFORM_AB_TEST R8VEC_UNIFORM_AB computes a random R8VEC. -1 <= X <= 5 Initial seed is 123456789 Random R8VEC: 0 0.31051 1 4.73791 2 3.97706 3 2.37017 4 1.49184 5 -0.603288 6 0.545467 7 -0.340259 8 -0.737026 9 2.80379 R8VEC_UNIFORM_AB_TEST: Normal end of execution. GRID_2D_TEST: Generate a regular grid. 0 0 0 10.000000 5.000000 1 1 0 12.500000 5.000000 2 2 0 15.000000 5.000000 3 3 0 17.500000 5.000000 4 4 0 20.000000 5.000000 5 0 1 10.000000 5.500000 6 1 1 12.500000 5.500000 7 2 1 15.000000 5.500000 8 3 1 17.500000 5.500000 9 4 1 20.000000 5.500000 10 0 2 10.000000 6.000000 11 1 2 12.500000 6.000000 12 2 2 15.000000 6.000000 13 3 2 17.500000 6.000000 14 4 2 20.000000 6.000000 GRID_2D_TEST: Normal end of execution. UVP_STOKES1_TEST Exact Stokes solution #1. Estimate the range of velocity and pressure using a region that is the unit square. Minimum Maximum U: -0.0119905 0.0119441 V: -0.011991 0.0120032 P: 0 0 UVP_STOKES1_TEST: Normal end of execution. RHS_STOKES1_TEST Exact Stokes solution #1. Estimate the range of the right hand side functions using a region that is the unit square. Minimum Maximum U: -0.759791 0.755809 V: -0.758088 0.75836 P: 0 0 RHS_STOKES1_TEST: Normal end of execution. RESID_STOKES1_TEST Exact Stokes solution #1. Sample the Stokes residuals. Minimum Maximum Ur: 0 0 Vr: 0 2.8727e-15 Pr: 0 1.80411e-16 RESID_STOKES1_TEST: Normal end of execution. STOKES1_GNUPLOT_TEST: Exact solution #1. Generate a Stokes velocity field on a regular grid. Store in GNUPLOT data and command files. Data written to "stokes1_data.txt". Commands written to "stokes1_commands.txt". STOKES1_GNUPLOT_TEST: Normal end of execution. STOKES1_MATPLOTLIB_TEST: Exact flow #1. Generate a Stokes velocity field on a regular grid. Display it using MATPLOTLIB STOKES1_MATPLOTLIB_TEST: Normal end of execution. UVP_STOKES2_TEST Exact Stokes solution #2. Estimate the range of velocity and pressure using a region that is the unit square. Minimum Maximum U: -1.99485 1.98591 V: -1.99754 1.99662 P: 0.000301972 1.95553 UVP_STOKES2_TEST: Normal end of execution. RHS_STOKES2_TEST Exact Stokes solution #2. Estimate the range of the right hand side functions using a region that is the unit square. Minimum Maximum U: -156.013 158.264 V: -157.218 159.13 P: 0 0 RHS_STOKES2_TEST: Normal end of execution. RESID_STOKES2_TEST Exact Stokes solution #2. Sample the Stokes residuals. Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 RESID_STOKES2_TEST: Normal end of execution. STOKES2_GNUPLOT_TEST: Exact solution #2. Generate a Stokes velocity field on a regular grid. Store in GNUPLOT data and command files. Data written to "stokes2_data.txt". Commands written to "stokes2_commands.txt". STOKES2_GNUPLOT_TEST: Normal end of execution. STOKES2_MATPLOTLIB_TEST: Exact flow #2. Generate a Stokes velocity field on a regular grid. Display it using MATPLOTLIB STOKES2_MATPLOTLIB_TEST: Normal end of execution. UVP_STOKES3_TEST Exact Stokes solution #3. Estimate the range of velocity and pressure using a region that is [-1,+1]x[-1,+1]. Minimum Maximum U: -18.9476 18.3862 V: -4.87497 4.8969 P: -44.5447 66.6661 UVP_STOKES1_TEST: Normal end of execution. RHS_STOKES3_TEST Exact Stokes solution #3. Estimate the range of the right hand side functions using a region that is [-1,+1]x[-1,+1]. Minimum Maximum U: 0 0 V: 0 0 P: 0 0 RHS_STOKES3_TEST: Normal end of execution. RESID_STOKES3_TEST Exact Stokes solution #3. Sample the Stokes residuals. Minimum Maximum Ur: 0 0 Vr: 0 0 Pr: 0 0 RESID_STOKES3_TEST: Normal end of execution. STOKES3_GNUPLOT_TEST: Exact solution #3. Generate a Stokes velocity field on a regular grid. Store in GNUPLOT data and command files. Data written to "stokes3_data.txt". Commands written to "stokes3_commands.txt". STOKES3_GNUPLOT_TEST: Normal end of execution. STOKES3_MATPLOTLIB_TEST: Exact flow #3. Generate a Stokes velocity field on a regular grid. Display it using MATPLOTLIB STOKES3_MATPLOTLIB_TEST: Normal end of execution. S2DE_TEST: Normal end of execution. Thu Feb 12 09:52:02 2015