Exemplo n.º 1
0
databaseFile = '/home/jeff/work/rotNSruns/mass-shed-models.db'
connection = sqlite3.connect(databaseFile)
c = connection.cursor()

c.execute("SELECT DISTINCT a FROM MODELS")
ahs = c.fetchall()

databaseFile2 = '/home/jeff/work/rotNSruns/ls-cold-manual2.db'
connection2 = sqlite3.connect(databaseFile2)
c2 = connection2.cursor()

for a in ahs:
    sequencePlot(["edMax", "baryMass"],
                 c2, ("RedMax=0", "eos='LS220' ", " a=" + str(a[0])),
                 grid=True,
                 title="",
                 suppressShow=True,
                 c=matplotlib.pyplot.cm.jet(a[0]))
    sequencePlot(["edMax", "baryMass"],
                 c2, ("RedMax>0", "eos='LS220' ", " a=" + str(a[0])),
                 grid=True,
                 title="",
                 suppressShow=True,
                 c=matplotlib.pyplot.cm.jet(a[0]),
                 linestyle='--')
sequencePlot(["edMax", "baryMass"],
             c, ("RedMax=0", "eos='HS'", "T=0.5"),
             "a",
             grid=True,
             title="",
             suppressShow=True,
Exemplo n.º 2
0
#print edMaxes
#c.execute("SELECT DISTINCT a FROM MODELS ORDER BY a")
#aes=c.fetchall()
#print aes
# Here we try and do Ansorg plots SHED vs RPOE  with a curves

aes = arange(0.0, 1.1, 0.1)
print aes
filtersT = nearValueFilter("T", 0.5)
filtersEd = nearValueFilter("edMax", 528787878700000.0)
filters = filtersT + filtersEd
for a in aes:
    thisFilter = filters + nearValueFilter("a", a)
    sequencePlot(["rpoe", "shed"],
                 c,
                 thisFilter,
                 suppressShow=True,
                 c=(a, a / 2.0, 0.5))

sequencePlot(["rpoe", "shed"], c, thisFilter, c=(a, a / 2.0, 0.5))
exit()

T = 0.5
filtersT = nearValueFilter("T", T,
                           0.001)  #("T>%s" % (T -.01), "T<%s" % (T +.01))
a = 0.7
filtersA = nearValueFilter("a", a,
                           0.001)  #("a>%s" % (a -.001), "a<%s" % (a +.001))
filtersEd = ("edMax>1.5e14",
             )  # nearValueFilter("edMax",528787878700000.0,0.001 )
filters = filtersA + filtersT + filtersEd
Exemplo n.º 3
0

resultTov=[]
for T in cTov.execute("SELECT DISTINCT T FROM models"):
    T=T[0]
    print T
    answer = edOfMaxMass(equalsFiltersFromDict({'T': T})  ,connectionTov)
    resultTov.append((-.10, T, answer[plotVar]))



databaseFile = '/home/jeff/work/rotNSruns/allRuns3-20-13.db'
connection=sqlite3.connect(databaseFile)
c = connection.cursor()

sequencePlot(["edMax", "baryMass"], c, equalsFiltersFromDict({'a': 0.8, 'RedMax': 0.0}),"rpoe",grid=True)

c.execute("SELECT DISTINCT a,T FROM models")
grid = c.fetchall()

c.execute("SELECT DISTINCT T FROM MODELS")
Ts=c.fetchall()

c.execute("SELECT DISTINCT a FROM MODELS")
ahs=c.fetchall()


resultS =[]
resultT =[]
for a,T in grid:
    print a,T
Exemplo n.º 4
0
from sqlPlotRoutines import sequencePlot


databaseFile         = '/home/jeff/work/rotNSruns/mass-shed-models.db'
connection=sqlite3.connect(databaseFile)
c=connection.cursor()

c.execute("SELECT DISTINCT a FROM MODELS")
ahs=c.fetchall()

databaseFile2         = '/home/jeff/work/rotNSruns/ls-cold-manual2.db'
connection2=sqlite3.connect(databaseFile2)
c2=connection2.cursor()

for a in ahs:
    sequencePlot(["edMax","baryMass"],c2,("RedMax=0","eos='LS220' "," a="+str(a[0])),
        grid=True,title="",suppressShow=True,c=matplotlib.pyplot.cm.jet(a[0]))
    sequencePlot(["edMax","baryMass"],c2,("RedMax>0","eos='LS220' "," a="+str(a[0])),
        grid=True,title="",suppressShow=True,c=matplotlib.pyplot.cm.jet(a[0]),linestyle='--')
sequencePlot(["edMax","baryMass"],c,("RedMax=0","eos='HS'","T=0.5"),"a",
    grid=True,title="",suppressShow=True,marker='o',s=40,vmin=0.0,vmax=1.0)

sequencePlot(["edMax","baryMass"],c,("RedMax>0","eos='HS'","T=0.5"),"a",
    grid=True,title="$M_b$ vs $Ed_{max}$.\n Lines: $Cold LS220$  /w Dashed => toroid \n Points: $Cold HS$  /w Triangle => toroid  ",
    suppressShow=False,marker='^',s=40,vmin=0.0,vmax=1.0)
connection.close()
del connection

databaseFile = '/home/jeff/work/rotNSruns/hotTov.db'
connectionTov=sqlite3.connect(databaseFile)
cTov=connectionTov.cursor()
Exemplo n.º 5
0
chs=connectionhs.cursor()

databaseFile         = '/home/jeff/work/rotNSruns/ls-TOV-new.db'
connectionls=sqlite3.connect(databaseFile)
cls=connectionls.cursor()

#sequencePlot([xaxis,yaxis],cls,("T=0.5",filt),orderBy='edMax',
#    suppressShow=True)

#sequencePlot([xaxis,yaxis],chs,("T=0.5",filt),orderBy='edMax',
#    suppressShow=True)


#sequencePlot([xaxis,yaxis],cgam2,("T=0.0",filt),orderBy='edMax',grid=True,
#    title="Blue - LS220   Green - HS   Red - Gamma=2")
chs.execute("SELECT DISTINCT T FROM MODELS")
Ts=chs.fetchall()
print "TS: ", Ts

for T in Ts:
    sequencePlot([xaxis,yaxis],chs,
        (filt,"T>%s" % (T[0] -.01), "T<%s" % (T[0] +.01)),
        orderBy='edMax',
        suppressShow=True,grid=True,title="HS EOS",
        c=matplotlib.pyplot.cm.jet(T[0]/40.0))

sequencePlot([xaxis,yaxis],chs,
        (filt,),
        orderBy='edMax', colorBy="T",
        suppressShow=False,grid=True,title="HS EOS",
        s=0.01)
Exemplo n.º 6
0
cls = connectionls.cursor()

#sequencePlot([xaxis,yaxis],cls,("T=0.5",filt),orderBy='edMax',
#    suppressShow=True)

#sequencePlot([xaxis,yaxis],chs,("T=0.5",filt),orderBy='edMax',
#    suppressShow=True)

#sequencePlot([xaxis,yaxis],cgam2,("T=0.0",filt),orderBy='edMax',grid=True,
#    title="Blue - LS220   Green - HS   Red - Gamma=2")
chs.execute("SELECT DISTINCT T FROM MODELS")
Ts = chs.fetchall()
print "TS: ", Ts

for T in Ts:
    sequencePlot([xaxis, yaxis],
                 chs, (filt, "T>%s" % (T[0] - .01), "T<%s" % (T[0] + .01)),
                 orderBy='edMax',
                 suppressShow=True,
                 grid=True,
                 title="HS EOS",
                 c=matplotlib.pyplot.cm.jet(T[0] / 40.0))

sequencePlot([xaxis, yaxis],
             chs, (filt, ),
             orderBy='edMax',
             colorBy="T",
             suppressShow=False,
             grid=True,
             title="HS EOS",
             s=0.01)
Exemplo n.º 7
0
resultTov = []
for T in cTov.execute("SELECT DISTINCT T FROM models"):
    T = T[0]
    print T
    answer = edOfMaxMass(equalsFiltersFromDict({'T': T}), connectionTov)
    resultTov.append((-.10, T, answer[plotVar]))

databaseFile = '/home/jeff/work/rotNSruns/allRuns3-20-13.db'
connection = sqlite3.connect(databaseFile)
c = connection.cursor()

sequencePlot(["edMax", "baryMass"],
             c,
             equalsFiltersFromDict({
                 'a': 0.8,
                 'RedMax': 0.0
             }),
             "rpoe",
             grid=True)

c.execute("SELECT DISTINCT a,T FROM models")
grid = c.fetchall()

c.execute("SELECT DISTINCT T FROM MODELS")
Ts = c.fetchall()

c.execute("SELECT DISTINCT a FROM MODELS")
ahs = c.fetchall()

resultS = []
resultT = []