Environment - simulationEnvironment: startTime=0 stopTime=10 tolerance=1e-06 numberOfIntervals=2500 stepSize=0.004 Regular simulation: ./Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes -abortSlowSimulation -alarm=480 -lv LOG_STATS assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 526845 | | | | fa = f(x_min) - y_zero = -614431 | | | | fb = f(x_max) - y_zero = -114866 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 515763 | | | | fa = f(x_min) - y_zero = -603349 | | | | fb = f(x_max) - y_zero = -103784 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 504999 | | | | fa = f(x_min) - y_zero = -592585 | | | | fb = f(x_max) - y_zero = -93020.5 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 494542 | | | | fa = f(x_min) - y_zero = -582128 | | | | fb = f(x_max) - y_zero = -82563.6 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 484381 | | | | fa = f(x_min) - y_zero = -571967 | | | | fb = f(x_max) - y_zero = -72402.5 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 474505 | | | | fa = f(x_min) - y_zero = -562091 | | | | fb = f(x_max) - y_zero = -62526.7 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 464905 | | | | fa = f(x_min) - y_zero = -552491 | | | | fb = f(x_max) - y_zero = -52926 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 455570 | | | | fa = f(x_min) - y_zero = -543155 | | | | fb = f(x_max) - y_zero = -43590.9 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 446491 | | | | fa = f(x_min) - y_zero = -534076 | | | | fb = f(x_max) - y_zero = -34511.9 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 437659 | | | | fa = f(x_min) - y_zero = -525245 | | | | fb = f(x_max) - y_zero = -25680.4 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 429067 | | | | fa = f(x_min) - y_zero = -516652 | | | | fb = f(x_max) - y_zero = -17087.8 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 420705 | | | | fa = f(x_min) - y_zero = -508290 | | | | fb = f(x_max) - y_zero = -8725.92 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 412475 | | | | fa = f(x_min) - y_zero = -500061 | | | | fb = f(x_max) - y_zero = -496.184 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000532928)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112531 | | | | fa = f(x_min) - y_zero = 24945.1 | | | | fb = f(x_max) - y_zero = 524510 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112102 | | | | fa = f(x_min) - y_zero = 24515.9 | | | | fb = f(x_max) - y_zero = 524080 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111686 | | | | fa = f(x_min) - y_zero = 24099.9 | | | | fb = f(x_max) - y_zero = 523664 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111270 | | | | fa = f(x_min) - y_zero = 23684.4 | | | | fb = f(x_max) - y_zero = 523249 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -110861 | | | | fa = f(x_min) - y_zero = 23275.3 | | | | fb = f(x_max) - y_zero = 522840 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -110458 | | | | fa = f(x_min) - y_zero = 22872.5 | | | | fb = f(x_max) - y_zero = 522437 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -110061 | | | | fa = f(x_min) - y_zero = 22475.8 | | | | fb = f(x_max) - y_zero = 522040 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -109671 | | | | fa = f(x_min) - y_zero = 22085.1 | | | | fb = f(x_max) - y_zero = 521650 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -109286 | | | | fa = f(x_min) - y_zero = 21700.4 | | | | fb = f(x_max) - y_zero = 521265 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108907 | | | | fa = f(x_min) - y_zero = 21321.5 | | | | fb = f(x_max) - y_zero = 520886 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108534 | | | | fa = f(x_min) - y_zero = 20948.5 | | | | fb = f(x_max) - y_zero = 520513 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108167 | | | | fa = f(x_min) - y_zero = 20581.1 | | | | fb = f(x_max) - y_zero = 520146 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107805 | | | | fa = f(x_min) - y_zero = 20219.3 | | | | fb = f(x_max) - y_zero = 519784 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107449 | | | | fa = f(x_min) - y_zero = 19863 | | | | fb = f(x_max) - y_zero = 519427 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107098 | | | | fa = f(x_min) - y_zero = 19512.2 | | | | fb = f(x_max) - y_zero = 519077 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -106753 | | | | fa = f(x_min) - y_zero = 19166.9 | | | | fb = f(x_max) - y_zero = 518731 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -106412 | | | | fa = f(x_min) - y_zero = 18826.8 | | | | fb = f(x_max) - y_zero = 518391 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -106078 | | | | fa = f(x_min) - y_zero = 18492 | | | | fb = f(x_max) - y_zero = 518056 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -105748 | | | | fa = f(x_min) - y_zero = 18162.5 | | | | fb = f(x_max) - y_zero = 517727 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -105424 | | | | fa = f(x_min) - y_zero = 17838.1 | | | | fb = f(x_max) - y_zero = 517403 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -105105 | | | | fa = f(x_min) - y_zero = 17518.9 | | | | fb = f(x_max) - y_zero = 517083 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104790 | | | | fa = f(x_min) - y_zero = 17204.8 | | | | fb = f(x_max) - y_zero = 516769 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104481 | | | | fa = f(x_min) - y_zero = 16895.7 | | | | fb = f(x_max) - y_zero = 516460 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104177 | | | | fa = f(x_min) - y_zero = 16591.7 | | | | fb = f(x_max) - y_zero = 516156 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103878 | | | | fa = f(x_min) - y_zero = 16292.6 | | | | fb = f(x_max) - y_zero = 515857 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103584 | | | | fa = f(x_min) - y_zero = 15998.5 | | | | fb = f(x_max) - y_zero = 515563 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103295 | | | | fa = f(x_min) - y_zero = 15709.3 | | | | fb = f(x_max) - y_zero = 515274 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103011 | | | | fa = f(x_min) - y_zero = 15425.1 | | | | fb = f(x_max) - y_zero = 514990 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102731 | | | | fa = f(x_min) - y_zero = 15145.7 | | | | fb = f(x_max) - y_zero = 514710 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102457 | | | | fa = f(x_min) - y_zero = 14871.2 | | | | fb = f(x_max) - y_zero = 514436 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102187 | | | | fa = f(x_min) - y_zero = 14601.6 | | | | fb = f(x_max) - y_zero = 514166 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101923 | | | | fa = f(x_min) - y_zero = 14336.9 | | | | fb = f(x_max) - y_zero = 513901 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101663 | | | | fa = f(x_min) - y_zero = 14077 | | | | fb = f(x_max) - y_zero = 513641 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101408 | | | | fa = f(x_min) - y_zero = 13821.9 | | | | fb = f(x_max) - y_zero = 513386 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101157 | | | | fa = f(x_min) - y_zero = 13571.7 | | | | fb = f(x_max) - y_zero = 513136 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -100912 | | | | fa = f(x_min) - y_zero = 13326.3 | | | | fb = f(x_max) - y_zero = 512891 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -100672 | | | | fa = f(x_min) - y_zero = 13085.9 | | | | fb = f(x_max) - y_zero = 512650 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -100436 | | | | fa = f(x_min) - y_zero = 12850.3 | | | | fb = f(x_max) - y_zero = 512415 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -100205 | | | | fa = f(x_min) - y_zero = 12619.7 | | | | fb = f(x_max) - y_zero = 512184 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -99979.5 | | | | fa = f(x_min) - y_zero = 12393.9 | | | | fb = f(x_max) - y_zero = 511958 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -99758.7 | | | | fa = f(x_min) - y_zero = 12173.1 | | | | fb = f(x_max) - y_zero = 511738 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -99542.8 | | | | fa = f(x_min) - y_zero = 11957.2 | | | | fb = f(x_max) - y_zero = 511522 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -99332.1 | | | | fa = f(x_min) - y_zero = 11746.4 | | | | fb = f(x_max) - y_zero = 511311 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -99126.3 | | | | fa = f(x_min) - y_zero = 11540.6 | | | | fb = f(x_max) - y_zero = 511105 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98925.6 | | | | fa = f(x_min) - y_zero = 11340 | | | | fb = f(x_max) - y_zero = 510904 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98730.1 | | | | fa = f(x_min) - y_zero = 11144.4 | | | | fb = f(x_max) - y_zero = 510709 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98539.7 | | | | fa = f(x_min) - y_zero = 10954.1 | | | | fb = f(x_max) - y_zero = 510519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98354.7 | | | | fa = f(x_min) - y_zero = 10769 | | | | fb = f(x_max) - y_zero = 510333 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98175.1 | | | | fa = f(x_min) - y_zero = 10589.5 | | | | fb = f(x_max) - y_zero = 510154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98003.4 | | | | fa = f(x_min) - y_zero = 10417.8 | | | | fb = f(x_max) - y_zero = 509982 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -97858.6 | | | | fa = f(x_min) - y_zero = 10273 | | | | fb = f(x_max) - y_zero = 509837 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -97887.6 | | | | fa = f(x_min) - y_zero = 10302 | | | | fb = f(x_max) - y_zero = 509866 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -98408.1 | | | | fa = f(x_min) - y_zero = 10822.5 | | | | fb = f(x_max) - y_zero = 510387 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -935913 | | | | fa = f(x_min) - y_zero = 848327 | | | | fb = f(x_max) - y_zero = 1.34789e+06 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -596960 | | | | fa = f(x_min) - y_zero = 509374 | | | | fb = f(x_max) - y_zero = 1.00894e+06 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -374946 | | | | fa = f(x_min) - y_zero = 287360 | | | | fb = f(x_max) - y_zero = 786925 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -229527 | | | | fa = f(x_min) - y_zero = 141941 | | | | fb = f(x_max) - y_zero = 641505 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -134277 | | | | fa = f(x_min) - y_zero = 46690.8 | | | | fb = f(x_max) - y_zero = 546255 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.231259)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -154761 | | | | fa = f(x_min) - y_zero = 67174.9 | | | | fb = f(x_max) - y_zero = 566739 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0654041)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -155443 | | | | fa = f(x_min) - y_zero = 67857.1 | | | | fb = f(x_max) - y_zero = 567422 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -219516 | | | | fa = f(x_min) - y_zero = 131931 | | | | fb = f(x_max) - y_zero = 631495 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -127669 | | | | fa = f(x_min) - y_zero = 40083.3 | | | | fb = f(x_max) - y_zero = 539648 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.149198)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125862 | | | | fa = f(x_min) - y_zero = 38276.2 | | | | fb = f(x_max) - y_zero = 537841 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -1.21318e+06 | | | | fa = f(x_min) - y_zero = 1.1256e+06 | | | | fb = f(x_max) - y_zero = 1.62516e+06 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -778501 | | | | fa = f(x_min) - y_zero = 690915 | | | | fb = f(x_max) - y_zero = 1.19048e+06 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -493784 | | | | fa = f(x_min) - y_zero = 406198 | | | | fb = f(x_max) - y_zero = 905762 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -307294 | | | | fa = f(x_min) - y_zero = 219708 | | | | fb = f(x_max) - y_zero = 719272 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -185143 | | | | fa = f(x_min) - y_zero = 97556.7 | | | | fb = f(x_max) - y_zero = 597121 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -164793 | | | | fa = f(x_min) - y_zero = 77207 | | | | fb = f(x_max) - y_zero = 576771 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -91755.9 | | | | fa = f(x_min) - y_zero = 4170.2 | | | | fb = f(x_max) - y_zero = 503735 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -306363 | | | | fa = f(x_min) - y_zero = 218777 | | | | fb = f(x_max) - y_zero = 718342 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -184416 | | | | fa = f(x_min) - y_zero = 96830.4 | | | | fb = f(x_max) - y_zero = 596395 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104539 | | | | fa = f(x_min) - y_zero = 16953.3 | | | | fb = f(x_max) - y_zero = 516518 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-9.09102)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-5.60815)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-3.32687)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.83263)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.853906)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.212841)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-15.3218)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-9.68131)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-5.98675)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-3.56682)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.98176)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.943549)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.26352)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-10.7506)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-6.97889)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-4.50842)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-2.89026)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.83036)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.13613)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.681412)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.383569)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.188483)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.060701)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -273612 | | | | fa = f(x_min) - y_zero = 186026 | | | | fb = f(x_max) - y_zero = 685591 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -168386 | | | | fa = f(x_min) - y_zero = 80800.3 | | | | fb = f(x_max) - y_zero = 580365 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -99462.8 | | | | fa = f(x_min) - y_zero = 11877.2 | | | | fb = f(x_max) - y_zero = 511442 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0373131)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0237746)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.0224454)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 461209 | | | | fa = f(x_min) - y_zero = -548794 | | | | fb = f(x_max) - y_zero = -49229.8 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.172125)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0811206)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0215124)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0730861)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0467219)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0294534)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0181425)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0107339)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00588127)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00270279)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000620877)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.232085)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.024655)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 446009 | | | | fa = f(x_min) - y_zero = -533595 | | | | fb = f(x_max) - y_zero = -34030.1 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.107817)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0398648)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0802439)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0523035)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0340025)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0220154)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0141638)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00902105)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00565253)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00344615)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00200097)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00105438)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000434363)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-2.82515e-05)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.450911)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.168142)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.0916281)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.126358)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.052191)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00361178)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0550083)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0359484)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0234642)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.015287)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00993097)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00642276)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00412488)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00261977)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00163393)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000988198)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000565245)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000288211)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000106754)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.674171)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.314469)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.0788639)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.0322213)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0642646)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0116051)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0574052)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0375962)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0246213)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0161228)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0105563)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00691018)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00452199)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00295773)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00193314)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00126203)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000822456)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000534534)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000345945)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.000222419)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00014151)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-8.85144e-05)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-5.38023e-05)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case stdout | warning | While solving non-linear system an assertion failed during initialization. | | | | | The non-linear solver tries to solve the problem that could take some time. | | | | | It could help to provide better start-values for the iteration variables. | | | | | For more information simulate with -lv LOG_NLS_V assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410218 | | | | fa = f(x_min) - y_zero = 322632 | | | | fb = f(x_max) - y_zero = 822197 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129559 | | | | fa = f(x_min) - y_zero = 41973.3 | | | | fb = f(x_max) - y_zero = 541538 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112538 | | | | fa = f(x_min) - y_zero = 24952.8 | | | | fb = f(x_max) - y_zero = 524517 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112900 | | | | fa = f(x_min) - y_zero = 25314.5 | | | | fb = f(x_max) - y_zero = 524879 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0774392)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24955.7 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122247 | | | | fa = f(x_min) - y_zero = 34661.4 | | | | fb = f(x_max) - y_zero = 534226 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108992 | | | | fa = f(x_min) - y_zero = 21406.8 | | | | fb = f(x_max) - y_zero = 520971 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112546 | | | | fa = f(x_min) - y_zero = 24960.8 | | | | fb = f(x_max) - y_zero = 524525 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.489085)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -317622 | | | | fa = f(x_min) - y_zero = 230037 | | | | fb = f(x_max) - y_zero = 729601 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507640 | | | | fa = f(x_min) - y_zero = 420055 | | | | fb = f(x_max) - y_zero = 919619 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104415 | | | | fa = f(x_min) - y_zero = 16829.1 | | | | fb = f(x_max) - y_zero = 516394 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107653 | | | | fa = f(x_min) - y_zero = 20067.3 | | | | fb = f(x_max) - y_zero = 519632 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119280 | | | | fa = f(x_min) - y_zero = 31694.8 | | | | fb = f(x_max) - y_zero = 531259 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96160.4 | | | | fa = f(x_min) - y_zero = 8574.78 | | | | fb = f(x_max) - y_zero = 508139 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.37742)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -148611 | | | | fa = f(x_min) - y_zero = 61025.6 | | | | fb = f(x_max) - y_zero = 560590 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.479591)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-0.112903)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113247 | | | | fa = f(x_min) - y_zero = 25661 | | | | fb = f(x_max) - y_zero = 525225 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103111 | | | | fa = f(x_min) - y_zero = 15525.2 | | | | fb = f(x_max) - y_zero = 515090 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111978 | | | | fa = f(x_min) - y_zero = 24391.9 | | | | fb = f(x_max) - y_zero = 523956 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117316 | | | | fa = f(x_min) - y_zero = 29730.2 | | | | fb = f(x_max) - y_zero = 529295 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112801 | | | | fa = f(x_min) - y_zero = 25215.7 | | | | fb = f(x_max) - y_zero = 524780 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112536 | | | | fa = f(x_min) - y_zero = 24950.1 | | | | fb = f(x_max) - y_zero = 524515 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112227 | | | | fa = f(x_min) - y_zero = 24641.7 | | | | fb = f(x_max) - y_zero = 524206 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112274 | | | | fa = f(x_min) - y_zero = 24688 | | | | fb = f(x_max) - y_zero = 524252 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112260 | | | | fa = f(x_min) - y_zero = 24674.2 | | | | fb = f(x_max) - y_zero = 524239 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112548 | | | | fa = f(x_min) - y_zero = 24962.3 | | | | fb = f(x_max) - y_zero = 524527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112563 | | | | fa = f(x_min) - y_zero = 24977.1 | | | | fb = f(x_max) - y_zero = 524542 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113143 | | | | fa = f(x_min) - y_zero = 25557.4 | | | | fb = f(x_max) - y_zero = 525122 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112926 | | | | fa = f(x_min) - y_zero = 25340.1 | | | | fb = f(x_max) - y_zero = 524905 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102639 | | | | fa = f(x_min) - y_zero = 15053.7 | | | | fb = f(x_max) - y_zero = 514618 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.204361)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117673 | | | | fa = f(x_min) - y_zero = 30086.9 | | | | fb = f(x_max) - y_zero = 529651 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116324 | | | | fa = f(x_min) - y_zero = 28738 | | | | fb = f(x_max) - y_zero = 528302 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117902 | | | | fa = f(x_min) - y_zero = 30315.9 | | | | fb = f(x_max) - y_zero = 529880 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.168757)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:10876: Invalid root: (-0.00219274)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102090 | | | | fa = f(x_min) - y_zero = 14504.1 | | | | fb = f(x_max) - y_zero = 514069 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101861 | | | | fa = f(x_min) - y_zero = 14275.2 | | | | fb = f(x_max) - y_zero = 513840 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117266 | | | | fa = f(x_min) - y_zero = 29680.1 | | | | fb = f(x_max) - y_zero = 529245 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112527 | | | | fa = f(x_min) - y_zero = 24941.4 | | | | fb = f(x_max) - y_zero = 524506 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -89739.5 | | | | fa = f(x_min) - y_zero = 2153.8 | | | | fb = f(x_max) - y_zero = 501718 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113710 | | | | fa = f(x_min) - y_zero = 26124.2 | | | | fb = f(x_max) - y_zero = 525689 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88096.7 | | | | fa = f(x_min) - y_zero = 511.023 | | | | fb = f(x_max) - y_zero = 500076 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112636 | | | | fa = f(x_min) - y_zero = 25049.9 | | | | fb = f(x_max) - y_zero = 524614 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104715 | | | | fa = f(x_min) - y_zero = 17129.2 | | | | fb = f(x_max) - y_zero = 516694 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112582 | | | | fa = f(x_min) - y_zero = 24995.9 | | | | fb = f(x_max) - y_zero = 524560 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -532334 | | | | fa = f(x_min) - y_zero = 444748 | | | | fb = f(x_max) - y_zero = 944312 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.343767)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125955 | | | | fa = f(x_min) - y_zero = 38730.5 | | | | fb = f(x_max) - y_zero = 535487 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -114948 | | | | fa = f(x_min) - y_zero = 26691.8 | | | | fb = f(x_max) - y_zero = 531461 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -87790.7 | | | | fa = f(x_min) - y_zero = 205.125 | | | | fb = f(x_max) - y_zero = 499769 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.59227)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.128841)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.25354)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -91514.9 | | | | fa = f(x_min) - y_zero = 3929.33 | | | | fb = f(x_max) - y_zero = 503494 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112543 | | | | fa = f(x_min) - y_zero = 24957.7 | | | | fb = f(x_max) - y_zero = 524522 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112524 | | | | fa = f(x_min) - y_zero = 24938.8 | | | | fb = f(x_max) - y_zero = 524503 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112544 | | | | fa = f(x_min) - y_zero = 24958.7 | | | | fb = f(x_max) - y_zero = 524523 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111337 | | | | fa = f(x_min) - y_zero = 23751.8 | | | | fb = f(x_max) - y_zero = 523316 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -147555 | | | | fa = f(x_min) - y_zero = 59969 | | | | fb = f(x_max) - y_zero = 559534 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118081 | | | | fa = f(x_min) - y_zero = 30495.5 | | | | fb = f(x_max) - y_zero = 530060 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118602 | | | | fa = f(x_min) - y_zero = 31016 | | | | fb = f(x_max) - y_zero = 530580 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112540 | | | | fa = f(x_min) - y_zero = 24954.7 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112538 | | | | fa = f(x_min) - y_zero = 24952.7 | | | | fb = f(x_max) - y_zero = 524517 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131461 | | | | fa = f(x_min) - y_zero = 43875.4 | | | | fb = f(x_max) - y_zero = 543440 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128784 | | | | fa = f(x_min) - y_zero = 41198.1 | | | | fb = f(x_max) - y_zero = 540763 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -130680 | | | | fa = f(x_min) - y_zero = 43093.8 | | | | fb = f(x_max) - y_zero = 542658 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -127455 | | | | fa = f(x_min) - y_zero = 39868.8 | | | | fb = f(x_max) - y_zero = 539433 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131042 | | | | fa = f(x_min) - y_zero = 43456.4 | | | | fb = f(x_max) - y_zero = 543021 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116546 | | | | fa = f(x_min) - y_zero = 28960.4 | | | | fb = f(x_max) - y_zero = 528525 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -155897 | | | | fa = f(x_min) - y_zero = 68311 | | | | fb = f(x_max) - y_zero = 567876 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00731456)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113176 | | | | fa = f(x_min) - y_zero = 25590 | | | | fb = f(x_max) - y_zero = 525154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410456 | | | | fa = f(x_min) - y_zero = 322871 | | | | fb = f(x_max) - y_zero = 822435 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129981 | | | | fa = f(x_min) - y_zero = 42395.7 | | | | fb = f(x_max) - y_zero = 541960 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113186 | | | | fa = f(x_min) - y_zero = 25600 | | | | fb = f(x_max) - y_zero = 525164 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113620 | | | | fa = f(x_min) - y_zero = 26034.8 | | | | fb = f(x_max) - y_zero = 525599 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00360378)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113178 | | | | fa = f(x_min) - y_zero = 25592.2 | | | | fb = f(x_max) - y_zero = 525157 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122951 | | | | fa = f(x_min) - y_zero = 35365.5 | | | | fb = f(x_max) - y_zero = 534930 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -109580 | | | | fa = f(x_min) - y_zero = 21994.4 | | | | fb = f(x_max) - y_zero = 521559 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113180 | | | | fa = f(x_min) - y_zero = 25594.1 | | | | fb = f(x_max) - y_zero = 525159 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.491195)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -319354 | | | | fa = f(x_min) - y_zero = 231768 | | | | fb = f(x_max) - y_zero = 731332 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507294 | | | | fa = f(x_min) - y_zero = 419709 | | | | fb = f(x_max) - y_zero = 919273 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104414 | | | | fa = f(x_min) - y_zero = 16828.8 | | | | fb = f(x_max) - y_zero = 516393 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107651 | | | | fa = f(x_min) - y_zero = 20065 | | | | fb = f(x_max) - y_zero = 519630 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119948 | | | | fa = f(x_min) - y_zero = 32362 | | | | fb = f(x_max) - y_zero = 531927 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96709.6 | | | | fa = f(x_min) - y_zero = 9123.96 | | | | fb = f(x_max) - y_zero = 508688 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-1.63995)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -149563 | | | | fa = f(x_min) - y_zero = 61977.4 | | | | fb = f(x_max) - y_zero = 561542 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.481493)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-0.112895)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113885 | | | | fa = f(x_min) - y_zero = 26298.9 | | | | fb = f(x_max) - y_zero = 525863 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103718 | | | | fa = f(x_min) - y_zero = 16132.2 | | | | fb = f(x_max) - y_zero = 515697 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112602 | | | | fa = f(x_min) - y_zero = 25016.6 | | | | fb = f(x_max) - y_zero = 524581 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117955 | | | | fa = f(x_min) - y_zero = 30369.8 | | | | fb = f(x_max) - y_zero = 529934 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113437 | | | | fa = f(x_min) - y_zero = 25851.8 | | | | fb = f(x_max) - y_zero = 525416 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113171 | | | | fa = f(x_min) - y_zero = 25585.1 | | | | fb = f(x_max) - y_zero = 525150 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112863 | | | | fa = f(x_min) - y_zero = 25277.4 | | | | fb = f(x_max) - y_zero = 524842 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112273 | | | | fa = f(x_min) - y_zero = 24687.5 | | | | fb = f(x_max) - y_zero = 524252 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112893 | | | | fa = f(x_min) - y_zero = 25307.5 | | | | fb = f(x_max) - y_zero = 524872 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113183 | | | | fa = f(x_min) - y_zero = 25597.4 | | | | fb = f(x_max) - y_zero = 525162 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113197 | | | | fa = f(x_min) - y_zero = 25611.2 | | | | fb = f(x_max) - y_zero = 525176 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113780 | | | | fa = f(x_min) - y_zero = 26193.9 | | | | fb = f(x_max) - y_zero = 525758 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113562 | | | | fa = f(x_min) - y_zero = 25976.3 | | | | fb = f(x_max) - y_zero = 525541 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103243 | | | | fa = f(x_min) - y_zero = 15657.7 | | | | fb = f(x_max) - y_zero = 515222 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-1.0462)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118314 | | | | fa = f(x_min) - y_zero = 30728.3 | | | | fb = f(x_max) - y_zero = 530293 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116956 | | | | fa = f(x_min) - y_zero = 29370.8 | | | | fb = f(x_max) - y_zero = 528935 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117904 | | | | fa = f(x_min) - y_zero = 30318.1 | | | | fb = f(x_max) - y_zero = 529883 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0637976)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0153681)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102693 | | | | fa = f(x_min) - y_zero = 15107.2 | | | | fb = f(x_max) - y_zero = 514672 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102464 | | | | fa = f(x_min) - y_zero = 14878.4 | | | | fb = f(x_max) - y_zero = 514443 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117270 | | | | fa = f(x_min) - y_zero = 29684.2 | | | | fb = f(x_max) - y_zero = 529249 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112530 | | | | fa = f(x_min) - y_zero = 24943.9 | | | | fb = f(x_max) - y_zero = 524508 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -90282.2 | | | | fa = f(x_min) - y_zero = 2696.46 | | | | fb = f(x_max) - y_zero = 502261 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -114340 | | | | fa = f(x_min) - y_zero = 26754.6 | | | | fb = f(x_max) - y_zero = 526319 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88100.3 | | | | fa = f(x_min) - y_zero = 514.554 | | | | fb = f(x_max) - y_zero = 500079 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112641 | | | | fa = f(x_min) - y_zero = 25055.5 | | | | fb = f(x_max) - y_zero = 524620 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -105321 | | | | fa = f(x_min) - y_zero = 17735.2 | | | | fb = f(x_max) - y_zero = 517300 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113205 | | | | fa = f(x_min) - y_zero = 25619.4 | | | | fb = f(x_max) - y_zero = 525184 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -536579 | | | | fa = f(x_min) - y_zero = 448993 | | | | fb = f(x_max) - y_zero = 948558 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.353993)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125952 | | | | fa = f(x_min) - y_zero = 38728 | | | | fb = f(x_max) - y_zero = 535485 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -115595 | | | | fa = f(x_min) - y_zero = 27338.5 | | | | fb = f(x_max) - y_zero = 532110 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88350.2 | | | | fa = f(x_min) - y_zero = 764.616 | | | | fb = f(x_max) - y_zero = 500329 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.39108)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-0.958453)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.59448)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -92085.7 | | | | fa = f(x_min) - y_zero = 4500.13 | | | | fb = f(x_max) - y_zero = 504064 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113178 | | | | fa = f(x_min) - y_zero = 25592.2 | | | | fb = f(x_max) - y_zero = 525157 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113169 | | | | fa = f(x_min) - y_zero = 25583.8 | | | | fb = f(x_max) - y_zero = 525148 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113182 | | | | fa = f(x_min) - y_zero = 25596.4 | | | | fb = f(x_max) - y_zero = 525161 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111341 | | | | fa = f(x_min) - y_zero = 23755 | | | | fb = f(x_max) - y_zero = 523319 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -148466 | | | | fa = f(x_min) - y_zero = 60880.5 | | | | fb = f(x_max) - y_zero = 560445 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118734 | | | | fa = f(x_min) - y_zero = 31147.9 | | | | fb = f(x_max) - y_zero = 530712 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119256 | | | | fa = f(x_min) - y_zero = 31670.5 | | | | fb = f(x_max) - y_zero = 531235 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113175 | | | | fa = f(x_min) - y_zero = 25589.1 | | | | fb = f(x_max) - y_zero = 525154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113170 | | | | fa = f(x_min) - y_zero = 25583.9 | | | | fb = f(x_max) - y_zero = 525148 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131464 | | | | fa = f(x_min) - y_zero = 43878.5 | | | | fb = f(x_max) - y_zero = 543443 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128786 | | | | fa = f(x_min) - y_zero = 41200.3 | | | | fb = f(x_max) - y_zero = 540765 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131332 | | | | fa = f(x_min) - y_zero = 43746.6 | | | | fb = f(x_max) - y_zero = 543311 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128097 | | | | fa = f(x_min) - y_zero = 40511.6 | | | | fb = f(x_max) - y_zero = 540076 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131702 | | | | fa = f(x_min) - y_zero = 44116.6 | | | | fb = f(x_max) - y_zero = 543681 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117197 | | | | fa = f(x_min) - y_zero = 29611.6 | | | | fb = f(x_max) - y_zero = 529176 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112546 | | | | fa = f(x_min) - y_zero = 24960 | | | | fb = f(x_max) - y_zero = 524524 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113176 | | | | fa = f(x_min) - y_zero = 25590 | | | | fb = f(x_max) - y_zero = 525154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -155897 | | | | fa = f(x_min) - y_zero = 68311 | | | | fb = f(x_max) - y_zero = 567876 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00731456)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113176 | | | | fa = f(x_min) - y_zero = 25590 | | | | fb = f(x_max) - y_zero = 525154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410456 | | | | fa = f(x_min) - y_zero = 322871 | | | | fb = f(x_max) - y_zero = 822435 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129981 | | | | fa = f(x_min) - y_zero = 42395.7 | | | | fb = f(x_max) - y_zero = 541960 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113186 | | | | fa = f(x_min) - y_zero = 25600 | | | | fb = f(x_max) - y_zero = 525164 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113620 | | | | fa = f(x_min) - y_zero = 26034.8 | | | | fb = f(x_max) - y_zero = 525599 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.00360378)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113178 | | | | fa = f(x_min) - y_zero = 25592.2 | | | | fb = f(x_max) - y_zero = 525157 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122951 | | | | fa = f(x_min) - y_zero = 35365.5 | | | | fb = f(x_max) - y_zero = 534930 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -109580 | | | | fa = f(x_min) - y_zero = 21994.4 | | | | fb = f(x_max) - y_zero = 521559 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113180 | | | | fa = f(x_min) - y_zero = 25594.1 | | | | fb = f(x_max) - y_zero = 525159 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.491195)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -319354 | | | | fa = f(x_min) - y_zero = 231768 | | | | fb = f(x_max) - y_zero = 731332 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507294 | | | | fa = f(x_min) - y_zero = 419709 | | | | fb = f(x_max) - y_zero = 919273 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104414 | | | | fa = f(x_min) - y_zero = 16828.8 | | | | fb = f(x_max) - y_zero = 516393 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107651 | | | | fa = f(x_min) - y_zero = 20065 | | | | fb = f(x_max) - y_zero = 519630 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119948 | | | | fa = f(x_min) - y_zero = 32362 | | | | fb = f(x_max) - y_zero = 531927 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96709.6 | | | | fa = f(x_min) - y_zero = 9123.96 | | | | fb = f(x_max) - y_zero = 508688 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-1.63995)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -149563 | | | | fa = f(x_min) - y_zero = 61977.4 | | | | fb = f(x_max) - y_zero = 561542 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.481493)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-0.112895)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113885 | | | | fa = f(x_min) - y_zero = 26298.9 | | | | fb = f(x_max) - y_zero = 525863 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103718 | | | | fa = f(x_min) - y_zero = 16132.2 | | | | fb = f(x_max) - y_zero = 515697 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112602 | | | | fa = f(x_min) - y_zero = 25016.6 | | | | fb = f(x_max) - y_zero = 524581 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117955 | | | | fa = f(x_min) - y_zero = 30369.8 | | | | fb = f(x_max) - y_zero = 529934 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113437 | | | | fa = f(x_min) - y_zero = 25851.8 | | | | fb = f(x_max) - y_zero = 525416 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113171 | | | | fa = f(x_min) - y_zero = 25585.1 | | | | fb = f(x_max) - y_zero = 525150 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112863 | | | | fa = f(x_min) - y_zero = 25277.4 | | | | fb = f(x_max) - y_zero = 524842 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112273 | | | | fa = f(x_min) - y_zero = 24687.5 | | | | fb = f(x_max) - y_zero = 524252 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112893 | | | | fa = f(x_min) - y_zero = 25307.5 | | | | fb = f(x_max) - y_zero = 524872 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113183 | | | | fa = f(x_min) - y_zero = 25597.4 | | | | fb = f(x_max) - y_zero = 525162 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113197 | | | | fa = f(x_min) - y_zero = 25611.2 | | | | fb = f(x_max) - y_zero = 525176 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113780 | | | | fa = f(x_min) - y_zero = 26193.9 | | | | fb = f(x_max) - y_zero = 525758 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113562 | | | | fa = f(x_min) - y_zero = 25976.3 | | | | fb = f(x_max) - y_zero = 525541 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103243 | | | | fa = f(x_min) - y_zero = 15657.7 | | | | fb = f(x_max) - y_zero = 515222 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-1.0462)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118314 | | | | fa = f(x_min) - y_zero = 30728.3 | | | | fb = f(x_max) - y_zero = 530293 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116956 | | | | fa = f(x_min) - y_zero = 29370.8 | | | | fb = f(x_max) - y_zero = 528935 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117904 | | | | fa = f(x_min) - y_zero = 30318.1 | | | | fb = f(x_max) - y_zero = 529883 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0637976)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0153681)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102693 | | | | fa = f(x_min) - y_zero = 15107.2 | | | | fb = f(x_max) - y_zero = 514672 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102464 | | | | fa = f(x_min) - y_zero = 14878.4 | | | | fb = f(x_max) - y_zero = 514443 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117270 | | | | fa = f(x_min) - y_zero = 29684.2 | | | | fb = f(x_max) - y_zero = 529249 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112530 | | | | fa = f(x_min) - y_zero = 24943.9 | | | | fb = f(x_max) - y_zero = 524508 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -90282.2 | | | | fa = f(x_min) - y_zero = 2696.46 | | | | fb = f(x_max) - y_zero = 502261 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -114340 | | | | fa = f(x_min) - y_zero = 26754.6 | | | | fb = f(x_max) - y_zero = 526319 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88100.3 | | | | fa = f(x_min) - y_zero = 514.554 | | | | fb = f(x_max) - y_zero = 500079 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112641 | | | | fa = f(x_min) - y_zero = 25055.5 | | | | fb = f(x_max) - y_zero = 524620 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -105321 | | | | fa = f(x_min) - y_zero = 17735.2 | | | | fb = f(x_max) - y_zero = 517300 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113205 | | | | fa = f(x_min) - y_zero = 25619.4 | | | | fb = f(x_max) - y_zero = 525184 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -536579 | | | | fa = f(x_min) - y_zero = 448993 | | | | fb = f(x_max) - y_zero = 948558 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.353993)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125952 | | | | fa = f(x_min) - y_zero = 38728 | | | | fb = f(x_max) - y_zero = 535485 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -115595 | | | | fa = f(x_min) - y_zero = 27338.5 | | | | fb = f(x_max) - y_zero = 532110 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88350.2 | | | | fa = f(x_min) - y_zero = 764.616 | | | | fb = f(x_max) - y_zero = 500329 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.39108)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-0.958453)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.59448)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -92085.7 | | | | fa = f(x_min) - y_zero = 4500.13 | | | | fb = f(x_max) - y_zero = 504064 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113178 | | | | fa = f(x_min) - y_zero = 25592.2 | | | | fb = f(x_max) - y_zero = 525157 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113169 | | | | fa = f(x_min) - y_zero = 25583.8 | | | | fb = f(x_max) - y_zero = 525148 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113182 | | | | fa = f(x_min) - y_zero = 25596.4 | | | | fb = f(x_max) - y_zero = 525161 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111341 | | | | fa = f(x_min) - y_zero = 23755 | | | | fb = f(x_max) - y_zero = 523319 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -148466 | | | | fa = f(x_min) - y_zero = 60880.5 | | | | fb = f(x_max) - y_zero = 560445 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118734 | | | | fa = f(x_min) - y_zero = 31147.9 | | | | fb = f(x_max) - y_zero = 530712 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119256 | | | | fa = f(x_min) - y_zero = 31670.5 | | | | fb = f(x_max) - y_zero = 531235 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113175 | | | | fa = f(x_min) - y_zero = 25589.1 | | | | fb = f(x_max) - y_zero = 525154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113170 | | | | fa = f(x_min) - y_zero = 25583.9 | | | | fb = f(x_max) - y_zero = 525148 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131464 | | | | fa = f(x_min) - y_zero = 43878.5 | | | | fb = f(x_max) - y_zero = 543443 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128786 | | | | fa = f(x_min) - y_zero = 41200.3 | | | | fb = f(x_max) - y_zero = 540765 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131332 | | | | fa = f(x_min) - y_zero = 43746.6 | | | | fb = f(x_max) - y_zero = 543311 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128097 | | | | fa = f(x_min) - y_zero = 40511.6 | | | | fb = f(x_max) - y_zero = 540076 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131702 | | | | fa = f(x_min) - y_zero = 44116.6 | | | | fb = f(x_max) - y_zero = 543681 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117197 | | | | fa = f(x_min) - y_zero = 29611.6 | | | | fb = f(x_max) - y_zero = 529176 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112546 | | | | fa = f(x_min) - y_zero = 24960 | | | | fb = f(x_max) - y_zero = 524524 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.618287)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -160955 | | | | fa = f(x_min) - y_zero = 73369 | | | | fb = f(x_max) - y_zero = 572934 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410206 | | | | fa = f(x_min) - y_zero = 322621 | | | | fb = f(x_max) - y_zero = 822185 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129562 | | | | fa = f(x_min) - y_zero = 41976.2 | | | | fb = f(x_max) - y_zero = 541541 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112548 | | | | fa = f(x_min) - y_zero = 24962 | | | | fb = f(x_max) - y_zero = 524527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112896 | | | | fa = f(x_min) - y_zero = 25310.1 | | | | fb = f(x_max) - y_zero = 524875 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0782068)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112549 | | | | fa = f(x_min) - y_zero = 24963.4 | | | | fb = f(x_max) - y_zero = 524528 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122245 | | | | fa = f(x_min) - y_zero = 34659.6 | | | | fb = f(x_max) - y_zero = 534224 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108999 | | | | fa = f(x_min) - y_zero = 21413.7 | | | | fb = f(x_max) - y_zero = 520978 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112550 | | | | fa = f(x_min) - y_zero = 24964.6 | | | | fb = f(x_max) - y_zero = 524529 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.488789)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -317627 | | | | fa = f(x_min) - y_zero = 230041 | | | | fb = f(x_max) - y_zero = 729606 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507664 | | | | fa = f(x_min) - y_zero = 420078 | | | | fb = f(x_max) - y_zero = 919643 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104410 | | | | fa = f(x_min) - y_zero = 16824.3 | | | | fb = f(x_max) - y_zero = 516389 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107652 | | | | fa = f(x_min) - y_zero = 20066 | | | | fb = f(x_max) - y_zero = 519631 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119277 | | | | fa = f(x_min) - y_zero = 31690.9 | | | | fb = f(x_max) - y_zero = 531255 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96153.9 | | | | fa = f(x_min) - y_zero = 8568.22 | | | | fb = f(x_max) - y_zero = 508133 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.37589)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -148614 | | | | fa = f(x_min) - y_zero = 61027.9 | | | | fb = f(x_max) - y_zero = 560592 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.479371)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-0.11293)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113249 | | | | fa = f(x_min) - y_zero = 25663.7 | | | | fb = f(x_max) - y_zero = 525228 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103113 | | | | fa = f(x_min) - y_zero = 15527.2 | | | | fb = f(x_max) - y_zero = 515092 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111983 | | | | fa = f(x_min) - y_zero = 24397.7 | | | | fb = f(x_max) - y_zero = 523962 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117319 | | | | fa = f(x_min) - y_zero = 29733.6 | | | | fb = f(x_max) - y_zero = 529298 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112804 | | | | fa = f(x_min) - y_zero = 25218 | | | | fb = f(x_max) - y_zero = 524782 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112538 | | | | fa = f(x_min) - y_zero = 24952 | | | | fb = f(x_max) - y_zero = 524517 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112231 | | | | fa = f(x_min) - y_zero = 24645 | | | | fb = f(x_max) - y_zero = 524209 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112272 | | | | fa = f(x_min) - y_zero = 24686.7 | | | | fb = f(x_max) - y_zero = 524251 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112259 | | | | fa = f(x_min) - y_zero = 24673.6 | | | | fb = f(x_max) - y_zero = 524238 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112550 | | | | fa = f(x_min) - y_zero = 24964.2 | | | | fb = f(x_max) - y_zero = 524529 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112566 | | | | fa = f(x_min) - y_zero = 24979.9 | | | | fb = f(x_max) - y_zero = 524544 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113145 | | | | fa = f(x_min) - y_zero = 25559.3 | | | | fb = f(x_max) - y_zero = 525124 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112929 | | | | fa = f(x_min) - y_zero = 25343.2 | | | | fb = f(x_max) - y_zero = 524908 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102642 | | | | fa = f(x_min) - y_zero = 15056 | | | | fb = f(x_max) - y_zero = 514620 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.204528)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117673 | | | | fa = f(x_min) - y_zero = 30087.6 | | | | fb = f(x_max) - y_zero = 529652 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116338 | | | | fa = f(x_min) - y_zero = 28752.8 | | | | fb = f(x_max) - y_zero = 528317 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117902 | | | | fa = f(x_min) - y_zero = 30316.6 | | | | fb = f(x_max) - y_zero = 529881 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.168848)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:10876: Invalid root: (-0.00269465)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102093 | | | | fa = f(x_min) - y_zero = 14507 | | | | fb = f(x_max) - y_zero = 514071 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101864 | | | | fa = f(x_min) - y_zero = 14278.1 | | | | fb = f(x_max) - y_zero = 513843 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117259 | | | | fa = f(x_min) - y_zero = 29673.3 | | | | fb = f(x_max) - y_zero = 529238 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112521 | | | | fa = f(x_min) - y_zero = 24935.3 | | | | fb = f(x_max) - y_zero = 524500 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -89740.5 | | | | fa = f(x_min) - y_zero = 2154.78 | | | | fb = f(x_max) - y_zero = 501719 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113711 | | | | fa = f(x_min) - y_zero = 26125 | | | | fb = f(x_max) - y_zero = 525689 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88099.1 | | | | fa = f(x_min) - y_zero = 513.364 | | | | fb = f(x_max) - y_zero = 500078 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112638 | | | | fa = f(x_min) - y_zero = 25052.8 | | | | fb = f(x_max) - y_zero = 524617 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104715 | | | | fa = f(x_min) - y_zero = 17129.1 | | | | fb = f(x_max) - y_zero = 516694 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112574 | | | | fa = f(x_min) - y_zero = 24988.7 | | | | fb = f(x_max) - y_zero = 524553 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -532274 | | | | fa = f(x_min) - y_zero = 444688 | | | | fb = f(x_max) - y_zero = 944253 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.346938)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125962 | | | | fa = f(x_min) - y_zero = 38737.8 | | | | fb = f(x_max) - y_zero = 535494 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -114954 | | | | fa = f(x_min) - y_zero = 26698.1 | | | | fb = f(x_max) - y_zero = 531468 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -87793.8 | | | | fa = f(x_min) - y_zero = 208.21 | | | | fb = f(x_max) - y_zero = 499773 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.59239)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.127351)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.25321)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -91512.1 | | | | fa = f(x_min) - y_zero = 3926.53 | | | | fb = f(x_max) - y_zero = 503491 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112546 | | | | fa = f(x_min) - y_zero = 24960.6 | | | | fb = f(x_max) - y_zero = 524525 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112527 | | | | fa = f(x_min) - y_zero = 24941.8 | | | | fb = f(x_max) - y_zero = 524506 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24955.9 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111338 | | | | fa = f(x_min) - y_zero = 23752.4 | | | | fb = f(x_max) - y_zero = 523317 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -147572 | | | | fa = f(x_min) - y_zero = 59985.8 | | | | fb = f(x_max) - y_zero = 559550 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118089 | | | | fa = f(x_min) - y_zero = 30503.5 | | | | fb = f(x_max) - y_zero = 530068 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118611 | | | | fa = f(x_min) - y_zero = 31025.7 | | | | fb = f(x_max) - y_zero = 530590 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24955.7 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112544 | | | | fa = f(x_min) - y_zero = 24958.5 | | | | fb = f(x_max) - y_zero = 524523 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131463 | | | | fa = f(x_min) - y_zero = 43876.9 | | | | fb = f(x_max) - y_zero = 543441 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128781 | | | | fa = f(x_min) - y_zero = 41195.1 | | | | fb = f(x_max) - y_zero = 540760 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -130681 | | | | fa = f(x_min) - y_zero = 43095.5 | | | | fb = f(x_max) - y_zero = 542660 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -127465 | | | | fa = f(x_min) - y_zero = 39879.3 | | | | fb = f(x_max) - y_zero = 539444 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131041 | | | | fa = f(x_min) - y_zero = 43455.3 | | | | fb = f(x_max) - y_zero = 543020 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116548 | | | | fa = f(x_min) - y_zero = 28962.5 | | | | fb = f(x_max) - y_zero = 528527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -469973 | | | | fa = f(x_min) - y_zero = 382420 | | | | fb = f(x_max) - y_zero = 881731 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -160955 | | | | fa = f(x_min) - y_zero = 73369 | | | | fb = f(x_max) - y_zero = 572934 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410206 | | | | fa = f(x_min) - y_zero = 322621 | | | | fb = f(x_max) - y_zero = 822185 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129562 | | | | fa = f(x_min) - y_zero = 41976.2 | | | | fb = f(x_max) - y_zero = 541541 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112548 | | | | fa = f(x_min) - y_zero = 24962 | | | | fb = f(x_max) - y_zero = 524527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112896 | | | | fa = f(x_min) - y_zero = 25310.1 | | | | fb = f(x_max) - y_zero = 524875 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0782068)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112549 | | | | fa = f(x_min) - y_zero = 24963.4 | | | | fb = f(x_max) - y_zero = 524528 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122245 | | | | fa = f(x_min) - y_zero = 34659.6 | | | | fb = f(x_max) - y_zero = 534224 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108999 | | | | fa = f(x_min) - y_zero = 21413.7 | | | | fb = f(x_max) - y_zero = 520978 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112550 | | | | fa = f(x_min) - y_zero = 24964.6 | | | | fb = f(x_max) - y_zero = 524529 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.488789)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -317627 | | | | fa = f(x_min) - y_zero = 230041 | | | | fb = f(x_max) - y_zero = 729606 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507664 | | | | fa = f(x_min) - y_zero = 420078 | | | | fb = f(x_max) - y_zero = 919643 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104410 | | | | fa = f(x_min) - y_zero = 16824.3 | | | | fb = f(x_max) - y_zero = 516389 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107652 | | | | fa = f(x_min) - y_zero = 20066 | | | | fb = f(x_max) - y_zero = 519631 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119277 | | | | fa = f(x_min) - y_zero = 31690.9 | | | | fb = f(x_max) - y_zero = 531255 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96153.9 | | | | fa = f(x_min) - y_zero = 8568.22 | | | | fb = f(x_max) - y_zero = 508133 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.37589)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -148614 | | | | fa = f(x_min) - y_zero = 61027.9 | | | | fb = f(x_max) - y_zero = 560592 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.479371)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-0.11293)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113249 | | | | fa = f(x_min) - y_zero = 25663.7 | | | | fb = f(x_max) - y_zero = 525228 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103113 | | | | fa = f(x_min) - y_zero = 15527.2 | | | | fb = f(x_max) - y_zero = 515092 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111983 | | | | fa = f(x_min) - y_zero = 24397.7 | | | | fb = f(x_max) - y_zero = 523962 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117319 | | | | fa = f(x_min) - y_zero = 29733.6 | | | | fb = f(x_max) - y_zero = 529298 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112804 | | | | fa = f(x_min) - y_zero = 25218 | | | | fb = f(x_max) - y_zero = 524782 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112538 | | | | fa = f(x_min) - y_zero = 24952 | | | | fb = f(x_max) - y_zero = 524517 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112231 | | | | fa = f(x_min) - y_zero = 24645 | | | | fb = f(x_max) - y_zero = 524209 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112272 | | | | fa = f(x_min) - y_zero = 24686.7 | | | | fb = f(x_max) - y_zero = 524251 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112259 | | | | fa = f(x_min) - y_zero = 24673.6 | | | | fb = f(x_max) - y_zero = 524238 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112550 | | | | fa = f(x_min) - y_zero = 24964.2 | | | | fb = f(x_max) - y_zero = 524529 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112566 | | | | fa = f(x_min) - y_zero = 24979.9 | | | | fb = f(x_max) - y_zero = 524544 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113145 | | | | fa = f(x_min) - y_zero = 25559.3 | | | | fb = f(x_max) - y_zero = 525124 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112929 | | | | fa = f(x_min) - y_zero = 25343.2 | | | | fb = f(x_max) - y_zero = 524908 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102642 | | | | fa = f(x_min) - y_zero = 15056 | | | | fb = f(x_max) - y_zero = 514620 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.204528)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117673 | | | | fa = f(x_min) - y_zero = 30087.6 | | | | fb = f(x_max) - y_zero = 529652 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116338 | | | | fa = f(x_min) - y_zero = 28752.8 | | | | fb = f(x_max) - y_zero = 528317 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117902 | | | | fa = f(x_min) - y_zero = 30316.6 | | | | fb = f(x_max) - y_zero = 529881 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.168848)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:10876: Invalid root: (-0.00269465)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102093 | | | | fa = f(x_min) - y_zero = 14507 | | | | fb = f(x_max) - y_zero = 514071 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101864 | | | | fa = f(x_min) - y_zero = 14278.1 | | | | fb = f(x_max) - y_zero = 513843 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117259 | | | | fa = f(x_min) - y_zero = 29673.3 | | | | fb = f(x_max) - y_zero = 529238 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112521 | | | | fa = f(x_min) - y_zero = 24935.3 | | | | fb = f(x_max) - y_zero = 524500 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -89740.5 | | | | fa = f(x_min) - y_zero = 2154.78 | | | | fb = f(x_max) - y_zero = 501719 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113711 | | | | fa = f(x_min) - y_zero = 26125 | | | | fb = f(x_max) - y_zero = 525689 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88099.1 | | | | fa = f(x_min) - y_zero = 513.364 | | | | fb = f(x_max) - y_zero = 500078 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112638 | | | | fa = f(x_min) - y_zero = 25052.8 | | | | fb = f(x_max) - y_zero = 524617 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104715 | | | | fa = f(x_min) - y_zero = 17129.1 | | | | fb = f(x_max) - y_zero = 516694 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112574 | | | | fa = f(x_min) - y_zero = 24988.7 | | | | fb = f(x_max) - y_zero = 524553 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -532274 | | | | fa = f(x_min) - y_zero = 444688 | | | | fb = f(x_max) - y_zero = 944253 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.346938)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125962 | | | | fa = f(x_min) - y_zero = 38737.8 | | | | fb = f(x_max) - y_zero = 535494 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -114954 | | | | fa = f(x_min) - y_zero = 26698.1 | | | | fb = f(x_max) - y_zero = 531468 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -87793.8 | | | | fa = f(x_min) - y_zero = 208.21 | | | | fb = f(x_max) - y_zero = 499773 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.59239)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.127351)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.25321)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -91512.1 | | | | fa = f(x_min) - y_zero = 3926.53 | | | | fb = f(x_max) - y_zero = 503491 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112546 | | | | fa = f(x_min) - y_zero = 24960.6 | | | | fb = f(x_max) - y_zero = 524525 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112527 | | | | fa = f(x_min) - y_zero = 24941.8 | | | | fb = f(x_max) - y_zero = 524506 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24955.9 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111338 | | | | fa = f(x_min) - y_zero = 23752.4 | | | | fb = f(x_max) - y_zero = 523317 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -147572 | | | | fa = f(x_min) - y_zero = 59985.8 | | | | fb = f(x_max) - y_zero = 559550 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118089 | | | | fa = f(x_min) - y_zero = 30503.5 | | | | fb = f(x_max) - y_zero = 530068 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118611 | | | | fa = f(x_min) - y_zero = 31025.7 | | | | fb = f(x_max) - y_zero = 530590 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24955.7 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112544 | | | | fa = f(x_min) - y_zero = 24958.5 | | | | fb = f(x_max) - y_zero = 524523 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131463 | | | | fa = f(x_min) - y_zero = 43876.9 | | | | fb = f(x_max) - y_zero = 543441 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128781 | | | | fa = f(x_min) - y_zero = 41195.1 | | | | fb = f(x_max) - y_zero = 540760 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -130681 | | | | fa = f(x_min) - y_zero = 43095.5 | | | | fb = f(x_max) - y_zero = 542660 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -127465 | | | | fa = f(x_min) - y_zero = 39879.3 | | | | fb = f(x_max) - y_zero = 539444 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131041 | | | | fa = f(x_min) - y_zero = 43455.3 | | | | fb = f(x_max) - y_zero = 543020 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116548 | | | | fa = f(x_min) - y_zero = 28962.5 | | | | fb = f(x_max) - y_zero = 528527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 916871 | | | | fa = f(x_min) - y_zero = -1.04226e+06 | | | | fb = f(x_max) - y_zero = -249078 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -160955 | | | | fa = f(x_min) - y_zero = 73369 | | | | fb = f(x_max) - y_zero = 572934 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410206 | | | | fa = f(x_min) - y_zero = 322621 | | | | fb = f(x_max) - y_zero = 822185 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129562 | | | | fa = f(x_min) - y_zero = 41976.2 | | | | fb = f(x_max) - y_zero = 541541 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112548 | | | | fa = f(x_min) - y_zero = 24962 | | | | fb = f(x_max) - y_zero = 524527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112896 | | | | fa = f(x_min) - y_zero = 25310.1 | | | | fb = f(x_max) - y_zero = 524875 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.0782068)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112549 | | | | fa = f(x_min) - y_zero = 24963.4 | | | | fb = f(x_max) - y_zero = 524528 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122245 | | | | fa = f(x_min) - y_zero = 34659.6 | | | | fb = f(x_max) - y_zero = 534224 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -108999 | | | | fa = f(x_min) - y_zero = 21413.7 | | | | fb = f(x_max) - y_zero = 520978 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112550 | | | | fa = f(x_min) - y_zero = 24964.6 | | | | fb = f(x_max) - y_zero = 524529 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.488789)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -317627 | | | | fa = f(x_min) - y_zero = 230041 | | | | fb = f(x_max) - y_zero = 729606 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507664 | | | | fa = f(x_min) - y_zero = 420078 | | | | fb = f(x_max) - y_zero = 919643 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104410 | | | | fa = f(x_min) - y_zero = 16824.3 | | | | fb = f(x_max) - y_zero = 516389 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107652 | | | | fa = f(x_min) - y_zero = 20066 | | | | fb = f(x_max) - y_zero = 519631 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119277 | | | | fa = f(x_min) - y_zero = 31690.9 | | | | fb = f(x_max) - y_zero = 531255 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96153.9 | | | | fa = f(x_min) - y_zero = 8568.22 | | | | fb = f(x_max) - y_zero = 508133 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.37589)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -148614 | | | | fa = f(x_min) - y_zero = 61027.9 | | | | fb = f(x_max) - y_zero = 560592 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.479371)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:12033: Invalid root: (-0.11293)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113249 | | | | fa = f(x_min) - y_zero = 25663.7 | | | | fb = f(x_max) - y_zero = 525228 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103113 | | | | fa = f(x_min) - y_zero = 15527.2 | | | | fb = f(x_max) - y_zero = 515092 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111983 | | | | fa = f(x_min) - y_zero = 24397.7 | | | | fb = f(x_max) - y_zero = 523962 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117319 | | | | fa = f(x_min) - y_zero = 29733.6 | | | | fb = f(x_max) - y_zero = 529298 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112804 | | | | fa = f(x_min) - y_zero = 25218 | | | | fb = f(x_max) - y_zero = 524782 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112538 | | | | fa = f(x_min) - y_zero = 24952 | | | | fb = f(x_max) - y_zero = 524517 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112231 | | | | fa = f(x_min) - y_zero = 24645 | | | | fb = f(x_max) - y_zero = 524209 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112272 | | | | fa = f(x_min) - y_zero = 24686.7 | | | | fb = f(x_max) - y_zero = 524251 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112259 | | | | fa = f(x_min) - y_zero = 24673.6 | | | | fb = f(x_max) - y_zero = 524238 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112550 | | | | fa = f(x_min) - y_zero = 24964.2 | | | | fb = f(x_max) - y_zero = 524529 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112566 | | | | fa = f(x_min) - y_zero = 24979.9 | | | | fb = f(x_max) - y_zero = 524544 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113145 | | | | fa = f(x_min) - y_zero = 25559.3 | | | | fb = f(x_max) - y_zero = 525124 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112929 | | | | fa = f(x_min) - y_zero = 25343.2 | | | | fb = f(x_max) - y_zero = 524908 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102642 | | | | fa = f(x_min) - y_zero = 15056 | | | | fb = f(x_max) - y_zero = 514620 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.204528)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117673 | | | | fa = f(x_min) - y_zero = 30087.6 | | | | fb = f(x_max) - y_zero = 529652 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116338 | | | | fa = f(x_min) - y_zero = 28752.8 | | | | fb = f(x_max) - y_zero = 528317 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117902 | | | | fa = f(x_min) - y_zero = 30316.6 | | | | fb = f(x_max) - y_zero = 529881 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:9794: Invalid root: (-0.168848)^(1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:10876: Invalid root: (-0.00269465)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -102093 | | | | fa = f(x_min) - y_zero = 14507 | | | | fb = f(x_max) - y_zero = 514071 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -101864 | | | | fa = f(x_min) - y_zero = 14278.1 | | | | fb = f(x_max) - y_zero = 513843 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117259 | | | | fa = f(x_min) - y_zero = 29673.3 | | | | fb = f(x_max) - y_zero = 529238 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112521 | | | | fa = f(x_min) - y_zero = 24935.3 | | | | fb = f(x_max) - y_zero = 524500 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -89740.5 | | | | fa = f(x_min) - y_zero = 2154.78 | | | | fb = f(x_max) - y_zero = 501719 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113711 | | | | fa = f(x_min) - y_zero = 26125 | | | | fb = f(x_max) - y_zero = 525689 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -88099.1 | | | | fa = f(x_min) - y_zero = 513.364 | | | | fb = f(x_max) - y_zero = 500078 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112638 | | | | fa = f(x_min) - y_zero = 25052.8 | | | | fb = f(x_max) - y_zero = 524617 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104715 | | | | fa = f(x_min) - y_zero = 17129.1 | | | | fb = f(x_max) - y_zero = 516694 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112574 | | | | fa = f(x_min) - y_zero = 24988.7 | | | | fb = f(x_max) - y_zero = 524553 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -532274 | | | | fa = f(x_min) - y_zero = 444688 | | | | fb = f(x_max) - y_zero = 944253 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-0.346938)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -125962 | | | | fa = f(x_min) - y_zero = 38737.8 | | | | fb = f(x_max) - y_zero = 535494 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -114954 | | | | fa = f(x_min) - y_zero = 26698.1 | | | | fb = f(x_max) - y_zero = 531468 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -87793.8 | | | | fa = f(x_min) - y_zero = 208.21 | | | | fb = f(x_max) - y_zero = 499773 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.59239)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.127351)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:13190: Invalid root: (-1.25321)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -91512.1 | | | | fa = f(x_min) - y_zero = 3926.53 | | | | fb = f(x_max) - y_zero = 503491 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112546 | | | | fa = f(x_min) - y_zero = 24960.6 | | | | fb = f(x_max) - y_zero = 524525 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112527 | | | | fa = f(x_min) - y_zero = 24941.8 | | | | fb = f(x_max) - y_zero = 524506 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24955.9 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -111338 | | | | fa = f(x_min) - y_zero = 23752.4 | | | | fb = f(x_max) - y_zero = 523317 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -147572 | | | | fa = f(x_min) - y_zero = 59985.8 | | | | fb = f(x_max) - y_zero = 559550 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118089 | | | | fa = f(x_min) - y_zero = 30503.5 | | | | fb = f(x_max) - y_zero = 530068 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -118611 | | | | fa = f(x_min) - y_zero = 31025.7 | | | | fb = f(x_max) - y_zero = 530590 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24955.7 | | | | fb = f(x_max) - y_zero = 524520 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112544 | | | | fa = f(x_min) - y_zero = 24958.5 | | | | fb = f(x_max) - y_zero = 524523 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131463 | | | | fa = f(x_min) - y_zero = 43876.9 | | | | fb = f(x_max) - y_zero = 543441 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -128781 | | | | fa = f(x_min) - y_zero = 41195.1 | | | | fb = f(x_max) - y_zero = 540760 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -130681 | | | | fa = f(x_min) - y_zero = 43095.5 | | | | fb = f(x_max) - y_zero = 542660 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -127465 | | | | fa = f(x_min) - y_zero = 39879.3 | | | | fb = f(x_max) - y_zero = 539444 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -131041 | | | | fa = f(x_min) - y_zero = 43455.3 | | | | fb = f(x_max) - y_zero = 543020 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -116548 | | | | fa = f(x_min) - y_zero = 28962.5 | | | | fb = f(x_max) - y_zero = 528527 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.609104)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00731456)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113176 | | | | fa = f(x_min) - y_zero = 25590 | | | | fb = f(x_max) - y_zero = 525154 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -410456 | | | | fa = f(x_min) - y_zero = 322871 | | | | fb = f(x_max) - y_zero = 822435 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -129981 | | | | fa = f(x_min) - y_zero = 42395.7 | | | | fb = f(x_max) - y_zero = 541960 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113186 | | | | fa = f(x_min) - y_zero = 25600 | | | | fb = f(x_max) - y_zero = 525164 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113620 | | | | fa = f(x_min) - y_zero = 26034.8 | | | | fb = f(x_max) - y_zero = 525599 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:15923: Invalid root: (-1.10374)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113178 | | | | fa = f(x_min) - y_zero = 25592.2 | | | | fb = f(x_max) - y_zero = 525157 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -122951 | | | | fa = f(x_min) - y_zero = 35365.5 | | | | fb = f(x_max) - y_zero = 534930 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -109580 | | | | fa = f(x_min) - y_zero = 21994.4 | | | | fb = f(x_max) - y_zero = 521559 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113180 | | | | fa = f(x_min) - y_zero = 25594.1 | | | | fb = f(x_max) - y_zero = 525159 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.38747)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -319354 | | | | fa = f(x_min) - y_zero = 231768 | | | | fb = f(x_max) - y_zero = 731332 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -507294 | | | | fa = f(x_min) - y_zero = 419709 | | | | fb = f(x_max) - y_zero = 919273 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -104414 | | | | fa = f(x_min) - y_zero = 16828.8 | | | | fb = f(x_max) - y_zero = 516393 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -107651 | | | | fa = f(x_min) - y_zero = 20065 | | | | fb = f(x_max) - y_zero = 519630 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -119948 | | | | fa = f(x_min) - y_zero = 32362 | | | | fb = f(x_max) - y_zero = 531927 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -96709.6 | | | | fa = f(x_min) - y_zero = 9123.96 | | | | fb = f(x_max) - y_zero = 508688 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -195709 | | | | fa = f(x_min) - y_zero = 108123 | | | | fb = f(x_max) - y_zero = 607687 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -149563 | | | | fa = f(x_min) - y_zero = 61977.4 | | | | fb = f(x_max) - y_zero = 561542 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.01703)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113885 | | | | fa = f(x_min) - y_zero = 26298.9 | | | | fb = f(x_max) - y_zero = 525863 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103718 | | | | fa = f(x_min) - y_zero = 16132.2 | | | | fb = f(x_max) - y_zero = 515697 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112602 | | | | fa = f(x_min) - y_zero = 25016.6 | | | | fb = f(x_max) - y_zero = 524581 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -117955 | | | | fa = f(x_min) - y_zero = 30369.8 | | | | fb = f(x_max) - y_zero = 529934 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113437 | | | | fa = f(x_min) - y_zero = 25851.8 | | | | fb = f(x_max) - y_zero = 525416 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113171 | | | | fa = f(x_min) - y_zero = 25585.1 | | | | fb = f(x_max) - y_zero = 525150 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112863 | | | | fa = f(x_min) - y_zero = 25277.4 | | | | fb = f(x_max) - y_zero = 524842 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112273 | | | | fa = f(x_min) - y_zero = 24687.5 | | | | fb = f(x_max) - y_zero = 524252 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112893 | | | | fa = f(x_min) - y_zero = 25307.5 | | | | fb = f(x_max) - y_zero = 524872 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113183 | | | | fa = f(x_min) - y_zero = 25597.4 | | | | fb = f(x_max) - y_zero = 525162 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113197 | | | | fa = f(x_min) - y_zero = 25611.2 | | | | fb = f(x_max) - y_zero = 525176 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113780 | | | | fa = f(x_min) - y_zero = 26193.9 | | | | fb = f(x_max) - y_zero = 525758 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -113562 | | | | fa = f(x_min) - y_zero = 25976.3 | | | | fb = f(x_max) - y_zero = 525541 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -103243 | | | | fa = f(x_min) - y_zero = 15657.7 | | | | fb = f(x_max) - y_zero = 515222 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.609104)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.618413)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-4.95607)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.527536)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.619328)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.0839953)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.258355)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.618206)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.544259)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.615747)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-0.618521)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-3.05731)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:17080: Invalid root: (-1.33845)^(-1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -91706.5 | | | | fa = f(x_min) - y_zero = 4120.72 | | | | fb = f(x_max) - y_zero = 503685 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00731456)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112541 | | | | fa = f(x_min) - y_zero = 24954.9 | | | | fb = f(x_max) - y_zero = 524519 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.618287)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -469973 | | | | fa = f(x_min) - y_zero = 382420 | | | | fb = f(x_max) - y_zero = 881731 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = 916871 | | | | fa = f(x_min) - y_zero = -1.04226e+06 | | | | fb = f(x_max) - y_zero = -249078 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:3284: Invalid root: (-2.19806)^(-1.5) assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -160955 | | | | fa = f(x_min) - y_zero = 73369 | | | | fb = f(x_max) - y_zero = 572934 | | | | fa and fb must have opposite sign which is not the case assert | debug | Modelica_3.2.2_Modelica.Fluid.Examples.BranchingDynamicPipes_functions.c:2127: Invalid root: (-0.00678943)^(1.5) assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case assert | debug | The arguments x_min and x_max to OneNonLinearEquation.solve(..) | | | | do not bracket the root of the single non-linear equation: | | | | x_min = 190 | | | | x_max = 647 | | | | y_zero = -112542 | | | | fa = f(x_min) - y_zero = 24956.8 | | | | fb = f(x_max) - y_zero = 524521 | | | | fa and fb must have opposite sign which is not the case LOG_SUCCESS | info | The initialization finished successfully with 3 homotopy steps. LOG_STATS | info | ### STATISTICS ### | | | | | timer | | | | | | 0.0305973s reading init.xml | | | | | | 0.00401424s reading info.xml | | | | | | 0.000350127s [ 0.0%] pre-initialization | | | | | | 8.43129s [ 66.0%] initialization | | | | | | 0.000438162s [ 0.0%] steps | | | | | | 0.0257472s [ 0.2%] solver (excl. callbacks) | | | | | | 0s [ 0.0%] creating output-file | | | | | | 0.0103873s [ 0.1%] event-handling | | | | | | 0.0469421s [ 0.4%] overhead | | | | | | 4.25325s [ 33.3%] simulation | | | | | | 12.7684s [100.0%] total | | | | | events | | | | | | 1 state events | | | | | | 0 time events | | | | | solver: dassl | | | | | | 1426 steps taken | | | | | | 1843 calls of functionODE | | | | | | 61 evaluations of jacobian | | | | | | 16 error test failures | | | | | | 3 convergence test failures | | | | | | 0.350429s time of jacobian evaluation LOG_SUCCESS | info | The simulation finished successfully.