func (o *Plotter) Plot_oct(x, y []float64, res []*State, sts [][]float64, last bool) {
// stress path
nr := len(res)
k := nr - 1
var σa, σb, xmi, xma, ymi, yma float64
for i := 0; i < nr; i++ {
σa, σb, _ = tsr.PQW2O(o.P[i], o.Q[i], o.W[i])
x[i], y[i] = σa, σb
o.maxR = max(o.maxR, math.Sqrt(σa*σa+σb*σb))
if i == 0 {
xmi, xma = x[i], x[i]
ymi, yma = y[i], y[i]
} else {
xmi = min(xmi, x[i])
xma = max(xma, x[i])
ymi = min(ymi, y[i])
yma = max(yma, y[i])
}
}
plt.Plot(x, y, io.Sf("'r.', ls='%s', clip_on=0, color='%s', marker='%s', label=r'%s'", o.Ls, o.Clr, o.Mrk, o.Lbl))
plt.PlotOne(x[0], y[0], io.Sf("'bo', clip_on=0, color='%s', marker='%s', ms=%d", o.SpClr, o.SpMrk, o.SpMs))
plt.PlotOne(x[k], y[k], io.Sf("'bs', clip_on=0, color='%s', marker='%s', ms=%d", o.SpClr, o.EpMrk, o.EpMs))
// fix range and max radius
xmi, xma, ymi, yma = o.fix_range(0, xmi, xma, ymi, yma)
rr := math.Sqrt((xma-xmi)*(xma-xmi) + (yma-ymi)*(yma-ymi))
if o.maxR < rr {
o.maxR = rr
}
if o.maxR < 1e-10 {
o.maxR = 1
}
if yma > -xmi {
xmi = -yma
}
if o.OctLims != nil {
xmi, xma, ymi, yma = o.OctLims[0], o.OctLims[1], o.OctLims[2], o.OctLims[3]
}
//xmi, xma, ymi, yma = -20000, 20000, -20000, 20000
// yield surface
var σcmax float64
if o.WithYs && o.m != nil {
//io.Pforan("xmi,xma ymi,yma = %v,%v %v,%v\n", xmi,xma, ymi,yma)
dx := (xma - xmi) / float64(o.NptsOct-1)
dy := (yma - ymi) / float64(o.NptsOct-1)
xx := la.MatAlloc(o.NptsOct, o.NptsOct)
yy := la.MatAlloc(o.NptsOct, o.NptsOct)
zz := la.MatAlloc(o.NptsOct, o.NptsOct)
var λ0, λ1, λ2, σc float64
v := NewState(len(res[0].Sig), len(res[0].Alp), false, len(res[0].EpsE) > 0)
for k := 0; k < nr; k++ {
copy(v.Alp, res[k].Alp)
v.Dgam = res[k].Dgam
σc = tsr.M_p(res[k].Sig) * tsr.SQ3
//σc = 30000
σcmax = max(σcmax, σc)
for i := 0; i < o.NptsOct; i++ {
for j := 0; j < o.NptsOct; j++ {
xx[i][j] = xmi + float64(i)*dx
yy[i][j] = ymi + float64(j)*dy
λ0, λ1, λ2 = tsr.O2L(xx[i][j], yy[i][j], σc)
v.Sig[0], v.Sig[1], v.Sig[2] = λ0, λ1, λ2
ys := o.m.YieldFuncs(v)
zz[i][j] = ys[0]
}
}
plt.ContourSimple(xx, yy, zz, io.Sf("colors=['%s'], levels=[0], linestyles=['%s'], linewidths=[%g], clip_on=0", o.YsClr0, o.YsLs0, o.YsLw0)+o.ArgsYs)
}
}
// predictor-corrector
if len(o.PreCor) > 1 {
var σa, σb, σanew, σbnew float64
for i := 1; i < len(o.PreCor); i++ {
σa, σb, _ = tsr.M_oct(o.PreCor[i-1])
σanew, σbnew, _ = tsr.M_oct(o.PreCor[i])
if math.Abs(σanew-σa) > 1e-7 || math.Abs(σbnew-σb) > 1e-7 {
//plt.Plot([]float64{σa,σanew}, []float64{σb,σbnew}, "'k+', ms=3, color='k'")
plt.Arrow(σa, σb, σanew, σbnew, io.Sf("sc=%d, fc='%s', ec='%s'", o.ArrWid, o.ClrPC, o.ClrPC))
}
o.maxR = max(o.maxR, math.Sqrt(σa*σa+σb*σb))
o.maxR = max(o.maxR, math.Sqrt(σanew*σanew+σbnew*σbnew))
}
}
// rosette and settings
if last {
tsr.PlotRefOct(o.Phi, σcmax, true)
tsr.PlotRosette(o.maxR, false, true, true, 6)
if o.OctAxOff {
plt.AxisOff()
}
plt.Gll("$\\sigma_a$", "$\\sigma_b$", "")
if lims, ok := o.Lims["oct"]; ok {
plt.AxisLims(lims)
}
if lims, ok := o.Lims["oct,ys"]; ok {
plt.AxisLims(lims)
}
}
}
func (o *Plotter) Plot_p_q(x, y []float64, res []*State, sts [][]float64, last bool) {
// stress path
nr := len(res)
k := nr - 1
var xmi, xma, ymi, yma float64
for i := 0; i < nr; i++ {
x[i], y[i] = o.P[i], o.Q[i]
if o.Multq {
mult := fun.Sign(o.W[i])
y[i] *= mult
}
if o.UseOct {
x[i] *= tsr.SQ3
y[i] *= tsr.SQ2by3
}
if i == 0 {
xmi, xma = x[i], x[i]
ymi, yma = y[i], y[i]
} else {
xmi = min(xmi, x[i])
xma = max(xma, x[i])
ymi = min(ymi, y[i])
yma = max(yma, y[i])
}
if o.SMPon {
x[i], y[i], _ = tsr.M_pq_smp(res[i].Sig, o.SMPa, o.SMPb, o.SMPβ, o.SMPϵ)
}
}
plt.Plot(x, y, io.Sf("'r.', ls='%s', clip_on=0, color='%s', marker='%s', label=r'%s'", o.Ls, o.Clr, o.Mrk, o.Lbl))
plt.PlotOne(x[0], y[0], io.Sf("'bo', clip_on=0, color='%s', marker='%s', ms=%d", o.SpClr, o.SpMrk, o.SpMs))
plt.PlotOne(x[k], y[k], io.Sf("'bs', clip_on=0, color='%s', marker='%s', ms=%d", o.SpClr, o.EpMrk, o.EpMs))
// yield surface
if o.WithYs && o.m != nil {
mx, my := 1.0, 1.0
if o.UseOct {
mx, my = tsr.SQ3, tsr.SQ2by3
}
if o.UsePmin {
xmi = min(xmi, o.Pmin*mx)
}
if o.UsePmax {
xma = max(xma, o.Pmax*mx)
yma = max(yma, o.Pmax*my)
}
xmi, xma, ymi, yma = o.fix_range(xmi, xmi, xma, ymi, yma)
if o.PqLims != nil {
xmi, xma, ymi, yma = o.PqLims[0], o.PqLims[1], o.PqLims[2], o.PqLims[3]
}
//io.Pforan("xmi,xma ymi,yma = %v,%v %v,%v\n", xmi,xma, ymi,yma)
dx := (xma - xmi) / float64(o.NptsPq-1)
dy := (yma - ymi) / float64(o.NptsPq-1)
xx := la.MatAlloc(o.NptsPq, o.NptsPq)
yy := la.MatAlloc(o.NptsPq, o.NptsPq)
za := la.MatAlloc(o.NptsPq, o.NptsPq)
zb := la.MatAlloc(o.NptsPq, o.NptsPq)
var p, q, σa, σb, σc, λ0, λ1, λ2 float64
v := NewState(len(res[0].Sig), len(res[0].Alp), false, len(res[0].EpsE) > 0)
for k := 0; k < nr; k++ {
copy(v.Alp, res[k].Alp)
v.Dgam = res[k].Dgam
for i := 0; i < o.NptsPq; i++ {
for j := 0; j < o.NptsPq; j++ {
xx[i][j] = xmi + float64(i)*dx
yy[i][j] = ymi + float64(j)*dy
p, q = xx[i][j], yy[i][j]
if o.UseOct {
p /= tsr.SQ3
q /= tsr.SQ2by3
}
σa, σb, σc = tsr.PQW2O(p, q, o.W[k])
λ0, λ1, λ2 = tsr.O2L(σa, σb, σc)
v.Sig[0], v.Sig[1], v.Sig[2] = λ0, λ1, λ2
ys := o.m.YieldFuncs(v)
za[i][j] = ys[0]
if o.nsurf > 1 {
zb[i][j] = ys[1]
}
if o.SMPon {
xx[i][j], yy[i][j], _ = tsr.M_pq_smp(v.Sig, o.SMPa, o.SMPb, o.SMPβ, o.SMPϵ)
}
}
}
plt.ContourSimple(xx, yy, za, io.Sf("colors=['%s'], levels=[0], linestyles=['%s'], linewidths=[%g], clip_on=0", o.YsClr0, o.YsLs0, o.YsLw0)+o.ArgsYs)
if o.nsurf > 1 {
plt.ContourSimple(xx, yy, zb, io.Sf("colors=['%s'], levels=[0], linestyles=['%s'], linewidths=[%g], clip_on=0", o.YsClr1, o.YsLs1, o.YsLw1)+o.ArgsYs)
}
}
}
// predictor-corrector
if len(o.PreCor) > 1 {
var p, q, pnew, qnew float64
for i := 1; i < len(o.PreCor); i++ {
p = tsr.M_p(o.PreCor[i-1])
q = tsr.M_q(o.PreCor[i-1])
pnew = tsr.M_p(o.PreCor[i])
qnew = tsr.M_q(o.PreCor[i])
if o.UseOct {
p *= tsr.SQ3
pnew *= tsr.SQ3
q *= tsr.SQ2by3
qnew *= tsr.SQ2by3
}
if o.SMPon {
p, q, _ = tsr.M_pq_smp(o.PreCor[i-1], o.SMPa, o.SMPb, o.SMPβ, o.SMPϵ)
pnew, qnew, _ = tsr.M_pq_smp(o.PreCor[i], o.SMPa, o.SMPb, o.SMPβ, o.SMPϵ)
}
if math.Abs(pnew-p) > 1e-10 || math.Abs(qnew-q) > 1e-10 {
plt.Arrow(p, q, pnew, qnew, io.Sf("sc=%d, fc='%s', ec='%s'", o.ArrWid, o.ClrPC, o.ClrPC))
}
}
}
// settings
if last {
plt.Equal()
xl, yl := "$p_{cam}$", "$q_{cam}$"
if o.UseOct {
xl, yl = "$p_{oct}$", "$q_{oct}$"
}
if o.SMPon {
xl, yl = "$p_{smp}$", "$q_{smp}$"
}
if o.AxLblX != "" {
xl = o.AxLblX
}
if o.AxLblY != "" {
yl = o.AxLblY
}
plt.Gll(xl, yl, "leg_out=1, leg_ncol=4, leg_hlen=1.5")
if lims, ok := o.Lims["p,q"]; ok {
plt.AxisLims(lims)
}
if lims, ok := o.Lims["p,q,ys"]; ok {
plt.AxisLims(lims)
}
}
}
