本文整理汇总了Python中pylab.xticks函数的典型用法代码示例。如果您正苦于以下问题:Python xticks函数的具体用法?Python xticks怎么用?Python xticks使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了xticks函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: plot_earth_moon_obliquity
def plot_earth_moon_obliquity():
from numpy import linspace, array, arange
from pylab import rc, plot, xlim, xticks, xlabel, ylabel
import matplotlib.pyplot as plt
import mpmath
rc('text', usetex=True)
fig = plt.figure()
# Initial params.
#params = {'m2':1.9e27,'r2':70000.e3,'rot2':0.00017585125448028,\
# 'r1':1,'rot1':6.28*100,'i_a':0.5,'ht': 0,\
# 'a':421700E3 / 4,'e':0.01,'i':0.8,'h':2}
rot1 = 7.978282018665196e-08
rot2 = 2.972e-06
params = {'m2':1.98892e30,'r2':695500000.0,'rot2':rot2,\
'r1':384748.e3,'rot1':rot1,'i_a':10. * 2*mpmath.pi()/360,'ht': 0,\
'a':149597870700. * 0.1,'e':0.017,'i':7. * 2*mpmath.pi()/360,'h':mpmath.pi()/2}
# Set parameters.
sp.parameters = params
# Period.
period = sp.wp_period
ob = sp.obliquity_time
lspace = linspace(0,5*period,250)
xlim(0,float(lspace[-1]))
xlabel(r'$\textnormal{Time (Ma)}$')
ylabel(r'$\textnormal{Obliquity }\left( ^\circ \right)$')
ob_series = array([ob(t).real*(360/(2*mpmath.pi())) for t in lspace])
plot(lspace,ob_series,'k-',linewidth=2)
xticks(arange(xlim()[0],xlim()[1],365*24*3600*100000000),[r'$'+str(int(_)*100)+r'$' for _ in [t[0] for t in enumerate(arange(xlim()[0],xlim()[1],365*24*3600*100000000))]])
开发者ID:bluescarni,项目名称:restricted_2body_1pn_angular,代码行数:28,代码来源:plot_applications.py
示例2: getOptCandGamma
def getOptCandGamma(cv_train, cv_label):
print "Finding optimal C and gamma for SVM with RBF Kernel"
C_range = 10.0 ** np.arange(-2, 9)
gamma_range = 10.0 ** np.arange(-5, 4)
param_grid = dict(gamma=gamma_range, C=C_range)
cv = StratifiedKFold(y=cv_label, n_folds=40)
# Use the svm.SVC() as the cost function to evaluate parameter choices
# NOTE: Perhaps we should run computations in parallel if needed. Does it
# do that already within the class?
grid = GridSearchCV(svm.SVC(), param_grid=param_grid, cv=cv)
grid.fit(cv_train, cv_label)
score_dict = grid.grid_scores_
scores = [x[1] for x in score_dict]
scores = np.array(scores).reshape(len(C_range), len(gamma_range))
pl.figure(figsize=(8,6))
pl.subplots_adjust(left=0.05, right=0.95, bottom=0.15, top=0.95)
pl.imshow(scores, interpolation='nearest', cmap=pl.cm.spectral)
pl.xlabel('gamma')
pl.ylabel('C')
pl.colorbar()
pl.xticks(np.arange(len(gamma_range)), gamma_range, rotation=45)
pl.yticks(np.arange(len(C_range)), C_range)
pl.show()
print "The best classifier is: ", grid.best_estimator_
开发者ID:vchan1186,项目名称:kaggle_scikit_project,代码行数:27,代码来源:dsl_v1.py
示例3: createPlot
def createPlot(dataY, dataX, ticksX, annotations, axisY, axisX, dostep, doannotate):
if not ticksX:
ticksX = dataX
if dostep:
py.step(dataX, dataY, where='post', linestyle='-', label=axisY) # where=post steps after point
else:
py.plot(dataX, dataY, marker='o', ms=5.0, linestyle='-', label=axisY)
if annotations and doannotate:
for note, x, y in zip(annotations, dataX, dataY):
py.annotate(note, (x, y), xytext=(2,2), xycoords='data', textcoords='offset points')
py.xticks(np.arange(1, len(dataX)+1), ticksX, horizontalalignment='left', rotation=30)
leg = py.legend()
leg.draggable()
py.xlabel(axisX)
py.ylabel('time (s)')
# Set X axis tick labels as rungs
#print zip(dataX, dataY)
py.draw()
py.show()
return
开发者ID:ianmsmith,项目名称:oldtimer,代码行数:26,代码来源:oldtimer.py
示例4: plotMatrix
def plotMatrix(matrix, color_scheme, row_headers, col_headers, vmin, vmax, options):
pylab.imshow(matrix,
cmap=color_scheme,
origin='lower',
vmax=vmax,
vmin=vmin,
interpolation='nearest')
# offset=0: x=center,y=center
# offset=0.5: y=top/x=right
offset = 0.0
if options.xticks:
pylab.xticks([offset + x for x in range(len(options.xticks))],
options.xticks,
rotation="vertical",
fontsize="8")
else:
if col_headers and len(col_headers) < 100:
pylab.xticks([offset + x for x in range(len(col_headers))],
col_headers,
rotation="vertical",
fontsize="8")
if options.yticks:
pylab.yticks([offset + y for y in range(len(options.yticks))],
options.yticks,
fontsize="8")
else:
if row_headers and len(row_headers) < 100:
pylab.yticks([offset + y for y in range(len(row_headers))],
row_headers,
fontsize="8")
开发者ID:SCV,项目名称:cgat,代码行数:34,代码来源:plot_matrix.py
示例5: plot_cost
def plot_cost(self):
if self.show_cost not in self.train_outputs[0][0]:
raise ShowNetError("Cost function with name '%s' not defined by given convnet." % self.show_cost)
train_errors = [o[0][self.show_cost][self.cost_idx] for o in self.train_outputs]
test_errors = [o[0][self.show_cost][self.cost_idx] for o in self.test_outputs]
numbatches = len(self.train_batch_range)
test_errors = numpy.row_stack(test_errors)
test_errors = numpy.tile(test_errors, (1, self.testing_freq))
test_errors = list(test_errors.flatten())
test_errors += [test_errors[-1]] * max(0,len(train_errors) - len(test_errors))
test_errors = test_errors[:len(train_errors)]
numepochs = len(train_errors) / float(numbatches)
pl.figure(1)
x = range(0, len(train_errors))
pl.plot(x, train_errors, 'k-', label='Training set')
pl.plot(x, test_errors, 'r-', label='Test set')
pl.legend()
ticklocs = range(numbatches, len(train_errors) - len(train_errors) % numbatches + 1, numbatches)
epoch_label_gran = int(ceil(numepochs / 20.)) # aim for about 20 labels
epoch_label_gran = int(ceil(float(epoch_label_gran) / 10) * 10) # but round to nearest 10
ticklabels = map(lambda x: str((x[1] / numbatches)) if x[0] % epoch_label_gran == epoch_label_gran-1 else '', enumerate(ticklocs))
pl.xticks(ticklocs, ticklabels)
pl.xlabel('Epoch')
# pl.ylabel(self.show_cost)
pl.title(self.show_cost)
开发者ID:01bui,项目名称:cuda-convnet,代码行数:28,代码来源:shownet.py
示例6: param_sweeping
def param_sweeping(clf, obj, X, y, param_dist, metric, param, clfName):
'''Plot a parameter sweeping (ps) curve with the param_dist as a axis, and the scoring based on metric as y axis.
Keyword arguments:
clf - - classifier
X - - feature matrix
y - - target array
param - - a parameter of the classifier
param_dist - - the parameter distribution of param
clfName - - the name of the classifier
metric - - the metric we use to evaluate the performance of the classifiers
obj - - the name of the dataset we are using'''
scores = []
for i in param_dist:
y_true = []
y_pred = []
# new classifer each iteration
newclf = eval("clf.set_params("+ param + "= i)")
y_pred, y_true, gs_score_list, amp = testAlgo(newclf, X, y, clfName)
mean_fpr, mean_tpr, mean_auc = plot_unit_prep(y_pred, y_true, metric)
scores.append(mean_auc)
print("Area under the ROC curve : %f" % mean_auc)
fig = pl.figure(figsize=(8,6),dpi=150)
paramdist_len = len(param_dist)
pl.plot(range(paramdist_len), scores, label = 'Parameter Sweeping Curve')
pl.xticks(range(paramdist_len), param_dist, size = 15, rotation = 45)
pl.xlabel(param.upper(),fontsize=30)
pl.ylabel(metric.upper(),fontsize=30)
pl.title('Parameter Sweeping Curve',fontsize=25)
pl.legend(loc='lower right')
pl.tight_layout()
fig.savefig('plots/'+obj+'/'+ clfName +'_' + param +'_'+'ps.pdf')
pl.show()
开发者ID:rexshihaoren,项目名称:MSPrediction-Python,代码行数:32,代码来源:EnjoyLifePred.py
示例7: plot
def plot(self, filesuffix=('.png',)):
pylab.figure()
kPluses = 10**numpy.linspace(0, 3, 100)
kMinuses = 10**numpy.linspace(6, 9, 100)
figureOfMerits = numpy.zeros((len(kPluses), len(kMinuses), 4), 'd')
for i, kPlus in enumerate(kPluses):
for j, kMinus in enumerate(kMinuses):
figureOfMerits[i, j, :] = self.figureOfMerit(self.generateData({'kPlus' : kPlus, 'kMinus' : kMinus}))
data = self.generateData({'kPlus' : kPluses[0], 'kMinus' : kMinuses[0]})
self._contourf(kMinuses, kPluses, figureOfMerits, data)
pylab.xticks((10**6, 10**7, 10**8, 10**9), fontsize=self.fontsize)
pylab.yticks((10**0, 10**1, 10**2, 10**3), fontsize=self.fontsize)
pylab.xlabel(r'$k^-$ $\left(1\per\metre\right)$', fontsize=self.fontsize)
pylab.ylabel(r'$k^+$ $\left(\power{\metre}{3}\per\mole\cdot\second\right)$', fontsize=self.fontsize)
pylab.text(2 * 10**6, 7 * 10**2, r'I', fontsize=self.fontsize)
pylab.text(3 * 10**7, 7 * 10**2, r'II', fontsize=self.fontsize)
pylab.text(6 * 10**8, 7 * 10**2, r'III', fontsize=self.fontsize)
pylab.text(6 * 10**8, 7 * 10**1, r'IV', fontsize=self.fontsize)
for fP, kPlus, paxeslabel in ((1.143,3.51e+00, False), (0.975, 9.33e+00, False), (0.916, 3.51e+01, False), (0.89, 9.33e+01, False), (0.87, 3.51e+02, True)):
for fM, kMinus, maxeslabel in ((1.4, 2.48e+06, False), (1.07, 7.05e+6, False), (0.96, 2.48e+07, False), (0.91, 7.05e+7, False), (0.88, 2.48e+08, True)):
xpos = (numpy.log10(kMinus) - 6.) / 3. * fM
ypos = numpy.log10(kPlus) / 3. * fP
self.makeBackGroundPlot({'kPlus' : kPlus, 'kMinus' : kMinus}, xpos, ypos, axeslabel=paxeslabel and maxeslabel)
for fs in filesuffix:
pylab.savefig('kPlusVkMinus' + fs)
pylab.close('all')
开发者ID:wd15,项目名称:extremefill,代码行数:33,代码来源:kPlusVkMinusViewer.py
示例8: plot_predictions
def plot_predictions(self):
data = self.get_next_batch(train=False)[2] # get a test batch
num_classes = self.test_data_provider.get_num_classes()
NUM_ROWS = 2
NUM_COLS = 4
NUM_IMGS = NUM_ROWS * NUM_COLS
NUM_TOP_CLASSES = min(num_classes, 4) # show this many top labels
label_names = self.test_data_provider.batch_meta['label_names']
if self.only_errors:
preds = n.zeros((data[0].shape[1], num_classes), dtype=n.single)
else:
preds = n.zeros((NUM_IMGS, num_classes), dtype=n.single)
rand_idx = nr.randint(0, data[0].shape[1], NUM_IMGS)
print rand_idx
data[0] = n.require(data[0][:,rand_idx], requirements='C')
data[1] = n.require(data[1][:,rand_idx], requirements='C')
data += [preds]
temp = data[0]
print data
print temp.ndim,temp.shape,temp.size
# Run the model
self.libmodel.startFeatureWriter(data, self.sotmax_idx)
self.finish_batch()
fig = pl.figure(3)
fig.text(.4, .95, '%s test case predictions' % ('Mistaken' if self.only_errors else 'Random'))
if self.only_errors:
err_idx = nr.permutation(n.where(preds.argmax(axis=1) != data[1][0,:])[0])[:NUM_IMGS] # what the net got wrong
data[0], data[1], preds = data[0][:,err_idx], data[1][:,err_idx], preds[err_idx,:]
data[0] = self.test_data_provider.get_plottable_data(data[0])
for r in xrange(NUM_ROWS):
for c in xrange(NUM_COLS):
img_idx = r * NUM_COLS + c
if data[0].shape[0] <= img_idx:
break
pl.subplot(NUM_ROWS*2, NUM_COLS, r * 2 * NUM_COLS + c + 1)
pl.xticks([])
pl.yticks([])
try:
img = data[0][img_idx,:,:,:]
except IndexError:
# maybe greyscale?
img = data[0][img_idx,:,:]
pl.imshow(img, interpolation='nearest')
true_label = int(data[1][0,img_idx])
img_labels = sorted(zip(preds[img_idx,:], label_names), key=lambda x: x[0])[-NUM_TOP_CLASSES:]
pl.subplot(NUM_ROWS*2, NUM_COLS, (r * 2 + 1) * NUM_COLS + c + 1, aspect='equal')
ylocs = n.array(range(NUM_TOP_CLASSES)) + 0.5
height = 0.5
width = max(ylocs)
pl.barh(ylocs, [l[0]*width for l in img_labels], height=height, \
color=['r' if l[1] == label_names[true_label] else 'b' for l in img_labels])
pl.title(label_names[true_label])
pl.yticks(ylocs + height/2, [l[1] for l in img_labels])
pl.xticks([width/2.0, width], ['50%', ''])
pl.ylim(0, ylocs[-1] + height*2)
开发者ID:wells-chen,项目名称:Based-on-Machine-learning-for-Door-recongnition,代码行数:60,代码来源:shownet.py
示例9: plot_C_gamma_grid_search
def plot_C_gamma_grid_search(grid, C_range, gamma_range, score):
'''
Plots the scores computed on a grid.
Arguments:
grid - the grid search object created using GridSearchCV()
C_range - the C parameter range
gamma_range - the gamma parameter range
score - the scoring function
'''
# grid_scores_ contains parameter settings and scores
# We extract just the scores
scores = [x[1] for x in grid.grid_scores_]
scores = np.array(scores).reshape(len(C_range), len(gamma_range))
# draw heatmap of accuracy as a function of gamma and C
pl.figure(figsize=(8, 6))
pl.subplots_adjust(left=0.05, right=0.95, bottom=0.15, top=0.95)
pl.imshow(scores, interpolation='nearest', cmap=pl.cm.spectral)
pl.title("Grid search on C and gamma for best %s" % score)
pl.xlabel('gamma')
pl.ylabel('C')
pl.colorbar()
pl.xticks(np.arange(len(gamma_range)), gamma_range, rotation=45)
pl.yticks(np.arange(len(C_range)), C_range)
pl.show()
开发者ID:clintpgeorge,项目名称:ediscovery,代码行数:30,代码来源:eval_tm_svm.py
示例10: paint1
def paint1(data):
order_data = sorted(data.items(), key=lambda x: x[0])
print order_data
x = [i[0] for i in order_data]
y0 = [i[1][0] for i in order_data]
y1 = [i[1][1] for i in order_data]
y2 = [i[1][2] for i in order_data]
y3 = [i[1][3] for i in order_data]
#print "x", x
#print "y0", y0
#print "y1", y1
pl.plot(x, y0, 'r', label="NONE")
pl.plot(x, y1, 'b', label="MPI")
pl.plot(x, y2, 'g', label="OMP")
pl.plot(x, y3, 'y', label="OMP_MPI")
pl.legend(loc="upper left")
pl.xticks(list(xrange(3, 11)), [str(i) for i in xrange(3, 11)])
pl.xlabel('String Length')
pl.ylabel('Time')
pl.show()
开发者ID:xiaohuajiao2nd,项目名称:epcc,代码行数:28,代码来源:paint.py
示例11: paint2
def paint2(data):
order_data = sorted(data.items(), key=lambda x: x[0])
print order_data
dic = ['', "NONE", "MPI", "OMP", "OMP_MPI", '']
x = [i for i in xrange(4)]
y0 = order_data[0][1]
y1 = order_data[1][1]
y2 = order_data[2][1]
y3 = order_data[3][1]
y4 = order_data[4][1]
#y4 = order_data[4][1]
#print "x", x
#print "y0", y0
#print "y1", y1
pl.plot(x, y0, 'r', label="length=4")
pl.plot(x, y1, 'b', label="length=5")
pl.plot(x, y2, 'g', label="length=6")
pl.plot(x, y3, 'y', label="length=7")
pl.plot(x, y4, 'c', label="length=8")
#pl.plot(x, y4, 'k', label="length=9")
pl.xticks(list(xrange(-1, 5)), list(dic))
pl.legend(loc="upper right")
pl.xlabel('Compiling Modes')
pl.ylabel('Time')
pl.show()
开发者ID:xiaohuajiao2nd,项目名称:epcc,代码行数:33,代码来源:paint.py
示例12: plot_bases
def plot_bases(self, autoscale=True, stampsize=None):
import pylab as plt
N = len(self.psfbases)
cols = int(np.ceil(np.sqrt(N)))
rows = int(np.ceil(N / float(cols)))
plt.clf()
plt.subplots_adjust(hspace=0, wspace=0)
cut = 0
if stampsize is not None:
H, W = self.shape
assert H == W
cut = max(0, (H - stampsize) / 2)
ima = dict(interpolation="nearest", origin="lower")
if autoscale:
mx = self.psfbases.max()
ima.update(vmin=-mx, vmax=mx)
nil, xpows, ypows = self.polynomials(0.0, 0.0, powers=True)
for i, (xp, yp, b) in enumerate(zip(xpows, ypows, self.psfbases)):
plt.subplot(rows, cols, i + 1)
if cut > 0:
b = b[cut:-cut, cut:-cut]
if autoscale:
plt.imshow(b, **ima)
else:
mx = np.abs(b).max()
plt.imshow(b, vmin=-mx, vmax=mx, **ima)
plt.xticks([])
plt.yticks([])
plt.title("x^%i y^%i" % (xp, yp))
plt.suptitle("PsfEx eigen-bases")
开发者ID:eddienko,项目名称:tractor,代码行数:34,代码来源:psfex.py
示例13: postProcess
def postProcess(self):
coreName = self.study.cacheDir + os.sep + "hz-" + self.name
f = open(coreName)
vals = {}
for l in f:
toks = l.split("\t")
vals[toks[0], toks[1]] = toks[2:]
f.close()
for pop in self.pops:
pylab.clf()
pylab.title(pop)
labels = []
ehzs = []
ohzs = []
ns = []
for indiv in self.study.pops.getIndivs(pop):
labels.append("\n".join(list(indiv)))
o, e, n, f = vals[indiv]
ehz = 1 - float(e) / int(n)
ohz = 1 - float(o) / int(n)
ehzs.append(ehz)
ohzs.append(ohz)
ns.append(int(n))
pylab.xticks(rotation=90, fontsize="x-small")
pylab.legend()
pylab.plot(ehzs, "+", label="ExpHe")
pylab.plot(ohzs, "+", label="ObsHe")
a2 = pylab.twinx()
a2.plot(ns, ".")
pylab.xticks(list(range(len(labels))), labels)
xmin, xmax = pylab.xlim()
pylab.xlim(xmin - 1, xmax + 1)
pylab.savefig(coreName + "-" + pop + ".png")
开发者ID:tiagoantao,项目名称:mega-analysis,代码行数:33,代码来源:__init__.py
示例14: plot_io_obliquity_2
def plot_io_obliquity_2():
from numpy import linspace, array, arange
from pylab import rc, plot, xlim, xticks, xlabel, ylabel
import matplotlib.pyplot as plt
import mpmath
rc('text', usetex=True)
fig = plt.figure()
# Initial params.
#params = {'m2':1.9e27,'r2':70000.e3,'rot2':0.00017585125448028,\
# 'r1':1,'rot1':6.28*100,'i_a':0.5,'ht': 0,\
# 'a':421700E3 / 4,'e':0.01,'i':0.8,'h':2}
params = {'m2':1.9e27,'r2':70000.e3,'rot2':0.00017585125448028,\
'r1':1821E3,'rot1':6.28/(21 * 3600),'i_a':0.17453,'ht': 0,\
'a':421700E3,'e':0.05,'i':0.349,'h':0.35}
# Set parameters.
sp.parameters = params
# Period.
period = sp.wp_period
ob = sp.obliquity_time
lspace = linspace(0,5*period,250)
xlim(0,float(lspace[-1]))
xlabel(r'$\textnormal{Time (Ma)}$')
ylabel(r'$\textnormal{Obliquity }\left( ^\circ \right)$')
ob_series = array([ob(t).real*(360/(2*mpmath.pi())) for t in lspace])
plot(lspace,ob_series,'k-',linewidth=2)
xticks(arange(xlim()[0],xlim()[1],365*24*3600*1000000),[r'$'+str(int(_)*1)+r'$' for _ in [t[0] for t in enumerate(arange(xlim()[0],xlim()[1],365*24*3600*1000000))]])
开发者ID:bluescarni,项目名称:restricted_2body_1pn_angular,代码行数:26,代码来源:plot_applications.py
示例15: makeboxplot
def makeboxplot(filteredclusts, dblibrary, figname, pool=False):
'''takes a filtered dict of clusts worth keeping and creates a boxplot of either by lane (default) or pool'''
indiv_cluster_count = defaultdict(int)
for clust, inddict in filteredclusts.items():
for ind, reads in inddict.items():
if ind in indiv_cluster_count.keys():
indiv_cluster_count[ind]+=1
else:
indiv_cluster_count[ind]+=1
t = gdata_tools.get_table_as_dict(dblibrary)
db_ind_countd = Util.countdict([d['sampleid'] for d in t if d['sampleid'] in indiv_cluster_count.keys()[3]]) #creates a table of individual dicts from google spreadsheet
indiv_by_group = defaultdict(list)
for d in t:
if 'pool' in d:
indkey = (d.get('flowcell',None),d.get('lane',None),d.get('index',None),d.get('sampleid',None))
if indkey in indiv_cluster_count:
if pool == True:
indiv_by_group[(d['flowcell'],d['lane'],d.get('index',None),d['pool'])].append(indiv_cluster_count[indkey])
else:
indiv_by_group[(d['flowcell'],d['lane'],d.get('index',None))].append(indiv_cluster_count[indkey])
boxes = []
labels = []
for group,indcounts in indiv_by_group.items():
boxes.append(indcounts)
labels.append(group)
boxplt = pylab.figure(1)
pylab.boxplot(boxes)
pylab.xticks(arange(1,(len(labels)+1)),labels,fontsize='small') #legend with best location (0) if pools
boxplt.savefig(figname)
开发者ID:alexagrf,项目名称:rtd,代码行数:31,代码来源:pool_lane_counts.py
示例16: align_subplots
def align_subplots(N,M,xlim=None, ylim=None):
"""make all of the subplots have the same limits, turn off unnecessary ticks"""
#find sensible xlim,ylim
if xlim is None:
xlim = [np.inf,-np.inf]
for i in range(N*M):
pb.subplot(N,M,i+1)
xlim[0] = min(xlim[0],pb.xlim()[0])
xlim[1] = max(xlim[1],pb.xlim()[1])
if ylim is None:
ylim = [np.inf,-np.inf]
for i in range(N*M):
pb.subplot(N,M,i+1)
ylim[0] = min(ylim[0],pb.ylim()[0])
ylim[1] = max(ylim[1],pb.ylim()[1])
for i in range(N*M):
pb.subplot(N,M,i+1)
pb.xlim(xlim)
pb.ylim(ylim)
if (i)%M:
pb.yticks([])
else:
removeRightTicks()
if i<(M*(N-1)):
pb.xticks([])
else:
removeUpperTicks()
开发者ID:dasabir,项目名称:GPy,代码行数:28,代码来源:plot.py
示例17: plot_importances
def plot_importances(imp, clfName, obj):
imp=np.vstack(imp)
print imp
mean_importance = np.mean(imp,axis=0)
std_importance = np.std(imp,axis=0)
indices = np.argsort(mean_importance)[::-1]
print indices
print featureNames
featureList = []
# num_features = len(featureNames)
print("Feature ranking:")
for f in range(num_features):
featureList.append(featureNames[indices[f]])
print("%d. feature %s (%.2f)" % (f, featureNames[indices[f]], mean_importance[indices[f]]))
fig = pl.figure(figsize=(8,6),dpi=150)
pl.title("Feature importances",fontsize=30)
pl.bar(range(num_features), mean_importance[indices],
yerr = std_importance[indices], color=paired[0], align="center",
edgecolor=paired[0],ecolor=paired[1])
pl.xticks(range(num_features), featureList, size=15,rotation=90)
pl.ylabel("Importance",size=30)
pl.yticks(size=20)
pl.xlim([-1, num_features])
# fix_axes()
pl.tight_layout()
save_path = 'plots/'+obj+'/'+clfName+'_feature_importances.pdf'
fig.savefig(save_path)
开发者ID:rexshihaoren,项目名称:MSPrediction-Python,代码行数:27,代码来源:EnjoyLifePred.py
示例18: plot_genome
def plot_genome(out_file, data_file, samples, dpi=300, screen=False):
if screen: PL.rcParams.update(PLOT_PARAMS_SCREEN)
LOG.info("plot_genome - out_file=%s, data_file=%s, samples=%s, dpi=%d"%(out_file, data_file, str(samples), dpi))
colors = 'bgryckbgryck'
data = read_posterior(data_file)
if samples is None or len(samples) == 0: samples = data.keys()
if len(samples) == 0: return
PL.figure(None, [14, 4])
right_end = 0 # rightmost plotted base pair
for chrm in sort_chrms(data.values()[0]): # for chromosomes in ascending order
max_site = max(data[samples[0]][chrm]['L']) # length of chromosome
for s, sample in enumerate(samples): # plot all samples
I = SP.where(SP.array(data[sample][chrm]['SD']) < 0.3)[0] # at sites that have confident posteriors
PL.plot(SP.array(data[sample][chrm]['L'])[I] + right_end, SP.array(data[sample][chrm]['AF'])[I], alpha=0.4, color=colors[s], lw=2) # offset by the end of last chromosome
if right_end > 0: PL.plot([right_end, right_end], [0,1], 'k--', lw=0.4, alpha=0.2) # plot separators between chromosomes
new_right = right_end + max(data[sample][chrm]['L'])
PL.text(right_end + 0.5*(new_right - right_end), 0.9, str(chrm), horizontalalignment='center')
right_end = new_right # update rightmost end
PL.plot([0,right_end], [0.5,0.5], 'k--', alpha=0.3)
PL.xlim(0,right_end)
xrange = SP.arange(0,right_end, 1000000)
PL.xticks(xrange, ["%d"%(int(x/1000000)) for x in xrange])
PL.xlabel("Genome (Mb)"), PL.ylabel("Reference allele frequency")
PL.savefig(out_file, dpi=dpi)
开发者ID:PMBio,项目名称:sqtl,代码行数:26,代码来源:genome.py
示例19: plotCoeff
def plotCoeff(X, y, obj, featureNames, whichReg):
""" Plot Regression's Coeff
"""
clf = classifiers[whichReg]
clf,_,_ = fitAlgo(clf, X,y, opt= True, param_dict = param_dist_dict[whichReg])
if whichReg == "LogisticRegression":
coeff = np.absolute(clf.coef_[0])
else:
coeff = np.absolute(clf.coef_)
print coeff
indices = np.argsort(coeff)[::-1]
print indices
print featureNames
featureList = []
# num_features = len(featureNames)
print("Feature ranking:")
for f in range(num_features):
featureList.append(featureNames[indices[f]])
print("%d. feature %s (%.2f)" % (f, featureNames[indices[f]], coeff[indices[f]]))
fig = pl.figure(figsize=(8,6),dpi=150)
pl.title("Feature importances",fontsize=30)
# pl.bar(range(num_features), coeff[indices],
# yerr = std_importance[indices], color=paired[0], align="center",
# edgecolor=paired[0],ecolor=paired[1])
pl.bar(range(num_features), coeff[indices], color=paired[0], align="center",
edgecolor=paired[0],ecolor=paired[1])
pl.xticks(range(num_features), featureList, size=15,rotation=90)
pl.ylabel("Importance",size=30)
pl.yticks(size=20)
pl.xlim([-1, num_features])
# fix_axes()
pl.tight_layout()
save_path = 'plots/'+obj+'/'+whichReg+'_feature_importances.pdf'
fig.savefig(save_path)
开发者ID:rexshihaoren,项目名称:MSPrediction-Python,代码行数:34,代码来源:EnjoyLifePred.py
示例20: display_coeff
def display_coeff(data=None):
betaAll,betaErrAll, R2adjAll = measure_stamp_coeff(data = data, zernike_max_order=20)
ind = np.arange(len(betaAll[0]))
momname = ('M20','M22.Real','M22.imag','M31.real','M31.imag','M33.real','M33.imag')
fmtarr = ['bo-','ro-','go-','co-','mo-','yo-','ko-']
pl.figure(figsize=(17,13))
for i in range(7):
pl.subplot(7,1,i+1)
pl.errorbar(ind,betaAll[i],yerr = betaErrAll[i],fmt=fmtarr[i])
pl.grid()
pl.xlim(-1,21)
if i ==0:
pl.ylim(-10,65)
elif i ==1:
pl.ylim(-5,6)
elif i ==2:
pl.ylim(-5,6)
elif i == 3:
pl.ylim(-0.1,0.1)
elif i == 4:
pl.ylim(-0.1,0.1)
elif i ==5:
pl.ylim(-100,100)
elif i == 6:
pl.ylim(-100,100)
pl.xticks(ind,('','','','','','','','','','','','','','','','','','','',''))
pl.ylabel(momname[i])
pl.xticks(ind,('0','1','2','3','4','5','6','7','8','9','10','11','12','13','14','15','16','17','18','19'))
pl.xlabel('Zernike Coefficients')
return '--- done ! ----'
开发者ID:jgbrainstorm,项目名称:des-sv,代码行数:30,代码来源:psfFocus.py
注:本文中的pylab.xticks函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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