diff options
| author | wukong <wukong@longaeva> | 2018-10-14 16:00:25 -0700 |
|---|---|---|
| committer | wukong <wukong@longaeva> | 2018-10-14 16:00:25 -0700 |
| commit | 4b4f50352d061c569fe448e72aaa47ee54d138bc (patch) | |
| tree | 4d818fd18caa59fb8d5843b6344bc5ea497a8363 /quad_reg.awk | |
| parent | 97304f19e701d18ca753b90b993fffa1c58c5f9a (diff) | |
restructured conditional prints in diff, added parabolic focus solution to quad_reg output
Diffstat (limited to 'quad_reg.awk')
| -rw-r--r-- | quad_reg.awk | 27 |
1 files changed, 19 insertions, 8 deletions
diff --git a/quad_reg.awk b/quad_reg.awk index 7d9304a..4267412 100644 --- a/quad_reg.awk +++ b/quad_reg.awk @@ -4,7 +4,6 @@ # quadratic regression along columns BEGIN { - OFMT="%.9g" sign = "[+-]?" decimal = "[0-9]+[.]?[0-9]*" fraction = "[.][0-9]*" @@ -23,6 +22,8 @@ NF > 0 { ### iterate over columns for (y=1; y<=nf_max; y++) { + if ($y == header[n]) + continue if ($y ~ number) { ### mean @@ -77,7 +78,7 @@ NF > 0 { } else { c[x,y] = 0 - b[x,y] = 0 + b[x,y] = 1 } a[x,y] = mean[y] - b[x,y]*mean[x] - c[x,y]*mean2[x] @@ -88,16 +89,24 @@ NF > 0 { # correlation sum_delta2[y] ? r[x,y] = sqrt(1 - sum_err2[x,y]/sum_delta2[y]) : r[x,y] = 0 + D[x,y] = b[x,y]*b[x,y] - 4.0*a[x,y]*c[x,y] + + # quadratic roots (x-intercepts) + if (c[x,y]) { + rx0[x,y] = (-1.0*b[x,y] - sqrt(D[x,y])/(2.0*c[x,y])) + rx1[x,y] = (-1.0*b[x,y] + sqrt(D[x,y])/(2.0*c[x,y])) + } + # vertex of parabola if (c[x,y]) { - xv[x,y] = -1.0*b[x,y]/(2.0*c[x,y]) - yv[x,y] = -1.0*(b[x,y]*b[x,y])/(4.0*c[x,y]) + a[x,y] + xv[x,y] = -0.5*b[x,y]/c[x,y] + yv[x,y] = -0.25*(b[x,y]*b[x,y])/c[x,y] + a[x,y] } - # roots (x-intercept) + # focus of parabola if (c[x,y]) { - rx0[x,y] = (-1.0*b[x,y] - sqrt(b[x,y]*b[x,y] - 4.0*a[x,y]*c[x,y]))/(2.0*c[x,y]) - rx1[x,y] = (-1.0*b[x,y] + sqrt(b[x,y]*b[x,y] - 4.0*a[x,y]*c[x,y]))/(2.0*c[x,y]) + xf[x,y] = -0.5*b[x,y]/c[x,y] + yf[x,y] = (4.0*a[x,y]*c[x,y] - b[x,y]*b[x,y] + 1.0)/(4.0*c[x,y]) } } } @@ -112,8 +121,10 @@ END { if (x != y && r[x,y]) { printf(OFMT OFS "(%s)" OFS " = (" OFMT ")(%s)^2" OFS " + (" OFMT ")(%s)" OFS " + (" OFMT ")", 10.0*log(r[x,y]*r[x,y])/log(10), header[y], c[x,y], header[x], b[x,y], header[x], a[x,y]) - printf("\t[" OFMT "," OFMT "][" OFMT "," OFMT "][" OFMT "," OFMT "]" OFS" [" OFMT "," OFMT "]" ORS, + printf(" [" OFMT "," OFMT "][" OFMT "," OFMT "][" OFMT "," OFMT "]" OFS" [" OFMT "," OFMT "]", rx0[x,y], 0, rx1[x,y], 0, 0, a[x,y], xv[x,y], yv[x,y]) + printf(" [" OFMT "," OFMT "]", xf[x,y], yf[x,y]) + printf(" [" OFMT "]" ORS, sqrt((yf[x,y] - yv[x,y])*(yf[x,y] - yv[x,y]))) } } } |