scalarField UMeanXvalues = channelIndexing.collapse ( UMean.component(vector::X)() ); scalarField UMeanYvalues = channelIndexing.collapse ( UMean.component(vector::Y)() ); scalarField UMeanZvalues = channelIndexing.collapse ( UMean.component(vector::Z)() ); scalarField RxxValues = channelIndexing.collapse(Rxx); scalarField RyyValues = channelIndexing.collapse(Ryy); scalarField RzzValues = channelIndexing.collapse(Rzz); scalarField RxyValues = channelIndexing.collapse(Rxy, true); scalarField pPrime2MeanValues = channelIndexing.collapse(pPrime2Mean); /* scalarField epsilonValues = channelIndexing.collapse(epsilonMean); scalarField nuMeanValues = channelIndexing.collapse(nuMean); scalarField nuPrimeValues = channelIndexing.collapse(nuPrime); scalarField gammaDotMeanValues = channelIndexing.collapse(gammaDotMean); scalarField gammaDotPrimeValues = channelIndexing.collapse(gammaDotPrime); */ scalarField urmsValues = sqrt(mag(RxxValues)); scalarField vrmsValues = sqrt(mag(RyyValues)); scalarField wrmsValues = sqrt(mag(RzzValues)); scalarField kValues = 0.5*(sqr(urmsValues) + sqr(vrmsValues) + sqr(wrmsValues)); const scalarField& y = channelIndexing.y(); makeGraph(y, UMeanXvalues, "Uf", UMean.path(), gFormat); makeGraph(y, urmsValues, "u", UMean.path(), gFormat); makeGraph(y, vrmsValues, "v", UMean.path(), gFormat); makeGraph(y, wrmsValues, "w", UMean.path(), gFormat); makeGraph(y, RxyValues, "uv", UMean.path(), gFormat); makeGraph(y, kValues, "k", UMean.path(), gFormat); makeGraph(y, pPrime2MeanValues, "pPrime2Mean", UMean.path(), gFormat); /* makeGraph(y, epsilonValues, "epsilon", UMean.path(), gFormat); makeGraph(y, nuMeanValues, "nu", UMean.path(), gFormat); makeGraph(y, nuPrimeValues, "nuPrime", UMean.path(), gFormat); makeGraph(y, gammaDotMeanValues, "gammaDot", UMean.path(), gFormat); makeGraph(y, gammaDotPrimeValues, "gammaDotPrime", UMean.path(), gFormat); */