def draw_histogram(filename,
dvalues,
titledict=None,
tl_list=None,
tr_list=None,
bins=200,
ranges=None,
label='Hist'):
"""
画直方图
"""
plt.style.use(os.path.join(dvPath, 'dv_pub_regression.mplstyle'))
alpha = 1
fig = plt.figure(figsize=(6, 4))
fig.subplots_adjust(top=0.92, bottom=0.13, left=0.11, right=0.96)
ax = plt.gca()
ax.grid(True)
ax.hist(dvalues,
bins,
histtype='bar',
color='blue',
label=label,
alpha=alpha)
ax.legend(prop={'size': 10})
add_annotate(ax, tl_list, 'left')
add_annotate(ax, tr_list, 'right')
add_title(titledict)
set_tick_font(ax)
plt.savefig(filename)
fig.clear()
plt.close()
def plot_omb(date_D, a_D, b_D, picPath, title, date_s, date_e):
'''
画偏差时序彩色图
'''
if (np.isnan(a_D)).all():
Log.error('Everything is NaN: %s' % picPath)
return
ylim_min, ylim_max = 210, 330
y_res = 0.2
x_size = (date_e - date_s).days
yy = np.arange(ylim_min, ylim_max, y_res) + y_res / 2. # 一列的y值
grid = np.ones(len(date_D)) * yy.reshape(-1, 1)
aa = a_D * np.ones((len(grid), 1))
bb = b_D * np.ones((len(grid), 1))
grid = grid - np.divide((grid - bb), aa)
zz = np.zeros((len(yy), x_size)) # 2D, 要画的值
j = 0
xx = [] # 一行的x值
for i in xrange(x_size): # 补充缺失数据的天
date_i = date_s + relativedelta(days=i)
xx.append(date_i)
if j < len(date_D) and date_D[j] == date_i:
zz[:, i] = grid[:, j]
j = j + 1
fig = plt.figure(figsize=(6, 4))
ax = fig.add_subplot(111)
norm = mpl.colors.Normalize(vmin=-10.0, vmax=10.0)
xx = np.array(xx)
plt.pcolormesh(xx,
yy,
zz,
cmap='jet',
norm=norm,
shading='gouraud',
zorder=0)
plt.grid(True, zorder=10)
xlim_min = date_s
xlim_max = date_e
plt.xlim(xlim_min, xlim_max)
plt.ylim(ylim_min, ylim_max)
plt.ylabel('TB($K$)', fontsize=11, fontproperties=FONT0)
# format the ticks
setXLocator(ax, xlim_min, xlim_max)
set_tick_font(ax)
# title
plt.title(title, fontsize=12, fontproperties=FONT0)
plt.tight_layout()
#--------------------
fig.subplots_adjust(bottom=0.25)
# -------add colorbar ---------
fig.canvas.draw()
point_bl = ax.get_position().get_points()[0] # 左下
point_tr = ax.get_position().get_points()[1] # 右上
cbar_height = 0.05
colorbar_ax = fig.add_axes([
point_bl[0] - 0.05, 0.05, (point_tr[0] - point_bl[0]) / 2.2,
cbar_height
])
mpl.colorbar.ColorbarBase(colorbar_ax,
cmap='jet',
norm=norm,
orientation='horizontal')
# ---font of colorbar-----------
for l in colorbar_ax.xaxis.get_ticklabels():
l.set_fontproperties(FONT0)
l.set_fontsize(9)
# ------Time and ORG_NAME----------------
ymd_s, ymd_e = date_s.strftime('%Y%m%d'), date_e.strftime('%Y%m%d')
if ymd_s != ymd_e:
fig.text(0.52, 0.05, '%s-%s' % (ymd_s, ymd_e), fontproperties=FONT0)
else:
fig.text(0.52, 0.05, '%s' % ymd_s, fontproperties=FONT0)
fig.text(0.82, 0.05, ORG_NAME, fontproperties=FONT0)
#---------------
pb_io.make_sure_path_exists(os.path.dirname(picPath))
plt.savefig(picPath)
fig.clear()
plt.close()
def plot_abc(date_D, a_D, b_D, c_D, date_M, a_M, b_M, c_M, picPath, title,
date_s, date_e, var):
fig = plt.figure(figsize=(6, 6))
ax1 = plt.subplot(311)
ax2 = plt.subplot(312, sharex=ax1)
ax3 = plt.subplot(313, sharex=ax1)
# format the Xticks
xlim_min = pb_time.ymd2date('%04d%02d01' % (date_s.year, date_s.month))
xlim_max = date_e
ax1.set_xlim(xlim_min, xlim_max)
# format the Yticks\
if var == "tbb-tbb" or var == "ref-ref":
ax1.set_ylim(0, 2)
ax1.yaxis.set_major_locator(MultipleLocator(0.5))
ax1.yaxis.set_minor_locator(MultipleLocator(0.1))
elif var == "dn-ref":
ax1.set_ylim(0.0002, 0.0007)
ax1.yaxis.set_major_locator(MultipleLocator(0.0001))
ax1.yaxis.set_minor_locator(MultipleLocator(0.00005))
if var == "tbb-tbb":
ax2.set_ylim(-30, 30)
ax2.yaxis.set_major_locator(MultipleLocator(10))
ax2.yaxis.set_minor_locator(MultipleLocator(2))
elif var == "ref-ref":
ax2.set_ylim(-0.1, 0.1)
ax2.yaxis.set_major_locator(MultipleLocator(0.02))
ax2.yaxis.set_minor_locator(MultipleLocator(0.01))
elif var == "dn-ref":
ax2.set_ylim(-0.08, 0.08)
ax2.yaxis.set_major_locator(MultipleLocator(0.02))
ax2.yaxis.set_minor_locator(MultipleLocator(0.01))
ax3.set_ylim(0, 7)
ax3.yaxis.set_major_locator(MultipleLocator(1))
ax3.yaxis.set_minor_locator(MultipleLocator(0.2))
# plot ax1 -------------------------------------------------
plt.sca(ax1)
plt.plot(date_D,
a_D,
'x',
ms=5,
markerfacecolor=None,
markeredgecolor=BLUE,
alpha=0.8,
mew=0.3,
label='Daily')
plt.plot(date_M, a_M, 'o-', ms=4, lw=0.6, c=RED, mew=0, label='Monthly')
plt.ylabel('Slope', fontsize=11, fontproperties=FONT0)
plt.grid(True)
plt.title(title, fontsize=12, fontproperties=FONT0)
set_tick_font(ax1)
plt.setp(ax1.get_xticklabels(), visible=False)
# plot ax2 -------------------------------------------------
plt.sca(ax2)
plt.plot(date_D,
b_D,
'x',
ms=5,
markerfacecolor=None,
markeredgecolor=BLUE,
alpha=0.8,
mew=0.3,
label='Daily')
plt.plot(date_M, b_M, 'o-', ms=4, lw=0.6, c=RED, mew=0, label='Monthly')
plt.ylabel('Intercept', fontsize=11, fontproperties=FONT0)
plt.grid(True)
set_tick_font(ax2)
plt.setp(ax2.get_xticklabels(), visible=False)
# point number -------------------------------------------------
plt.sca(ax3)
plt.fill_between(date_D, 0, c_D, edgecolor=BLUE, facecolor=BLUE, alpha=0.6)
# plt.fill_between(date_M, 0, c_M,
# edgecolor=RED, facecolor=RED, alpha=0.5)
# plt.bar(date_M, c_M, width=1, align='edge', # "center",
# color=RED, linewidth=0)
plt.plot(date_M, c_M, 'o-', ms=4, lw=0.6, c=RED, mew=0, label='Monthly')
plt.ylabel('Number of sample points\nlog (base = 10)',
fontsize=11,
fontproperties=FONT0)
plt.grid(True)
set_tick_font(ax3)
setXLocator(ax3, xlim_min, xlim_max)
# circle1 = mpatches.Circle((430, 563), 5, color=BLUE, ec=EDGE_GRAY, lw=0)
# circle2 = mpatches.Circle((508, 563), 5, color=RED, ec=EDGE_GRAY, lw=0)
# fig.patches.extend([circle1, circle2])
#
# fig.text(0.74, 0.93, 'Daily', color=BLUE, fontproperties=FONT0)
# fig.text(0.86, 0.93, 'Monthly', color=RED, fontproperties=FONT0)
#---------------
plt.tight_layout()
fig.subplots_adjust(bottom=0.14)
circle1 = mpatches.Circle((74, 18), 6, color=BLUE, ec=EDGE_GRAY, lw=0)
circle2 = mpatches.Circle((164, 18), 6, color=RED, ec=EDGE_GRAY, lw=0)
fig.patches.extend([circle1, circle2])
fig.text(0.15, 0.02, 'Daily', color=BLUE, fontproperties=FONT0)
fig.text(0.3, 0.02, 'Monthly', color=RED, fontproperties=FONT0)
ymd_s, ymd_e = date_s.strftime('%Y%m%d'), date_e.strftime('%Y%m%d')
if ymd_s != ymd_e:
fig.text(0.50, 0.02, '%s-%s' % (ymd_s, ymd_e), fontproperties=FONT0)
else:
fig.text(0.50, 0.02, '%s' % ymd_s, fontproperties=FONT0)
fig.text(0.8, 0.02, ORG_NAME, fontproperties=FONT0)
#---------------
pb_io.make_sure_path_exists(os.path.dirname(picPath))
fig.savefig(picPath)
plt.close()
fig.clear
def plot_tbbias(date_D, bias_D, date_M, bias_M, picPath, title, date_s, date_e,
satName):
'''
画偏差时序折线图
'''
fig = plt.figure(figsize=(6, 4))
# plt.subplots_adjust(left=0.13, right=0.95, bottom=0.11, top=0.97)
if (np.isnan(bias_D)).all():
Log.error('Everything is NaN: %s' % picPath)
return
plt.plot(date_D,
bias_D,
'x',
ms=6,
markerfacecolor=None,
markeredgecolor=BLUE,
alpha=0.8,
mew=0.3,
label='Daily')
plt.plot(date_M, bias_M, 'o-', ms=5, lw=0.6, c=RED, mew=0, label='Monthly')
plt.grid(True)
plt.ylabel('DTB($K$)', fontsize=11, fontproperties=FONT0)
xlim_min = pb_time.ymd2date('%04d%02d01' % (date_s.year, date_s.month))
xlim_max = date_e
plt.xlim(xlim_min, xlim_max)
if "FY2" in satName:
plt.ylim(-8, 8)
elif "FY3" in satName:
plt.ylim(-8, 8)
elif "FY4" in satName:
plt.ylim(-2, 2)
ax = plt.gca()
# format the ticks
setXLocator(ax, xlim_min, xlim_max)
set_tick_font(ax)
# title
plt.title(title, fontsize=12, fontproperties=FONT0)
plt.tight_layout()
#--------------------
fig.subplots_adjust(bottom=0.2)
circle1 = mpatches.Circle((74, 15), 6, color=BLUE, ec=EDGE_GRAY, lw=0)
circle2 = mpatches.Circle((164, 15), 6, color=RED, ec=EDGE_GRAY, lw=0)
fig.patches.extend([circle1, circle2])
fig.text(0.15, 0.02, 'Daily', color=BLUE, fontproperties=FONT0)
fig.text(0.3, 0.02, 'Monthly', color=RED, fontproperties=FONT0)
ymd_s, ymd_e = date_s.strftime('%Y%m%d'), date_e.strftime('%Y%m%d')
if ymd_s != ymd_e:
fig.text(0.50, 0.02, '%s-%s' % (ymd_s, ymd_e), fontproperties=FONT0)
else:
fig.text(0.50, 0.02, '%s' % ymd_s, fontproperties=FONT0)
fig.text(0.8, 0.02, ORG_NAME, fontproperties=FONT0)
#---------------
pb_io.make_sure_path_exists(os.path.dirname(picPath))
plt.savefig(picPath)
fig.clear()
plt.close()
def plot(x, y, picPath, part1, part2, chan, ym, DayOrNight, reference_list,
xname, xname_l, xunit, xmin, xmax):
'''
x: 参考卫星传感器数据
y: FY数据
'''
if xname_l == "TBB": xname_l = "TB"
xlim_min = xmin
xlim_max = xmax
delta = y - x
if xname == "tbb":
step = 5
else:
step = 0.1
T_seg, mean_seg, std_seg, sampleNums = get_bar_data(
x, delta, xlim_min, xlim_max, step)
RadCompare = G_reg1d(x, y)
a, b = RadCompare[0], RadCompare[1]
fig = plt.figure(figsize=(6, 5))
ax1 = plt.subplot(211)
ax2 = plt.subplot(212, sharex=ax1)
# format the Xticks
ax1.set_xlim(xlim_min, xlim_max)
# format the Yticks
if xname == "tbb":
ax1.set_ylim(-10, 10)
ax1.yaxis.set_major_locator(MultipleLocator(5))
ax1.yaxis.set_minor_locator(MultipleLocator(1))
elif xname == "ref":
ax1.set_ylim(-0.3, 0.3)
ax1.yaxis.set_major_locator(MultipleLocator(0.1))
ax1.yaxis.set_minor_locator(MultipleLocator(0.02))
ax2.set_ylim(0, 7)
ax2.yaxis.set_major_locator(MultipleLocator(1))
ax2.yaxis.set_minor_locator(MultipleLocator(0.2))
title = '%s Bias Monthly Statistics\n%s Minus %s %s %s' % \
(xname_l, part2, part1, chan, DayOrNight)
# plot ax1 -------------------------------------------------
plt.sca(ax1)
strlist = [[]]
for ref_temp in reference_list:
plt.axvline(x=ref_temp, color='#4cd964', lw=0.7)
ax1.annotate(str(ref_temp) + xunit, (ref_temp, -7.5),
va="top",
ha="center",
color=EDGE_GRAY,
size=6,
fontproperties=FONT_MONO)
strlist[0].append(
"%s Bias %s: %6.3f" %
(xname_l, str(ref_temp) + xunit, ref_temp * a + b - ref_temp))
strlist[0].append('Total Number: %7d' % len(x))
plt.plot(x,
delta,
'o',
ms=1.5,
markerfacecolor=BLUE,
alpha=0.5,
mew=0,
zorder=10)
plt.plot(T_seg, mean_seg, 'o-', ms=6, lw=0.6, c=RED, mew=0, zorder=50)
plt.fill_between(T_seg,
mean_seg - std_seg,
mean_seg + std_seg,
facecolor=RED,
edgecolor=RED,
interpolate=True,
alpha=0.4,
zorder=100)
ylabel = 'D%s' % (xname_l) + ('($%s$)' % xunit if xunit != "" else "")
plt.ylabel(ylabel, fontsize=11, fontproperties=FONT0)
plt.grid(True)
plt.title(title, fontsize=12, fontproperties=FONT0)
set_tick_font(ax1)
plt.setp(ax1.get_xticklabels(), visible=False)
# point number -------------------------------------------------
plt.sca(ax2)
if xname == "tbb":
width = 3
elif xname == "ref":
width = 0.07
plt.bar(T_seg,
np.log10(sampleNums),
width=width,
align="center",
color=BLUE,
linewidth=0)
for i, T in enumerate(T_seg):
if sampleNums[i] > 0:
plt.text(T,
np.log10(sampleNums[i]) + 0.2,
'%d' % int(sampleNums[i]),
ha="center",
fontsize=6,
fontproperties=FONT_MONO)
add_annotate(ax2, strlist, 'left', EDGE_GRAY, 9)
plt.ylabel('Number of sample points\nlog (base = 10)',
fontsize=11,
fontproperties=FONT0)
xlabel = '%s %s' % (part2, xname_l) + ('($%s$)' %
xunit if xunit != "" else "")
plt.xlabel(xlabel, fontsize=11, fontproperties=FONT0)
plt.grid(True)
set_tick_font(ax2)
#---------------
plt.tight_layout()
fig.subplots_adjust(bottom=0.16)
# circle1 = mpatches.Circle((74, 18), 5, color=BLUE, ec=EDGE_GRAY, lw=0)
# circle2 = mpatches.Circle((164, 18), 5, color=RED, ec=EDGE_GRAY, lw=0)
# fig.patches.extend([circle1, circle2])
#
# fig.text(0.15, 0.02, 'Daily', color=BLUE, fontproperties=FONT0)
# fig.text(0.3, 0.02, 'Monthly', color=RED, fontproperties=FONT0)
fig.text(0.6, 0.02, '%s' % ym, fontproperties=FONT0)
fig.text(0.8, 0.02, ORG_NAME, fontproperties=FONT0)
#---------------
pb_io.make_sure_path_exists(os.path.dirname(picPath))
fig.savefig(picPath)
plt.close()
fig.clear
def plot_tbbias(date_D, bias_D, date_M, bias_M, picPath, title, date_s, date_e):
"""
画偏差时序折线图
"""
plt.style.use(os.path.join(DV_PATH, 'dv_pub_timeseries.mplstyle'))
fig = plt.figure(figsize=(6, 4))
# plt.subplots_adjust(left=0.13, right=0.95, bottom=0.11, top=0.97)
if (np.isnan(bias_D)).all():
Log.error('Everything is NaN: %s' % picPath)
return
plt.plot(date_D, bias_D, 'x', ms=6,
markerfacecolor=None, markeredgecolor=BLUE, alpha=0.8,
mew=0.3, label='Daily')
plt.plot(date_M, bias_M, 'o-', ms=5, lw=0.6, c=RED,
mew=0, label='Monthly')
plt.grid(True)
plt.ylabel('DTB($K$)', fontsize=11, fontproperties=FONT0)
xlim_min = date_s
xlim_max = date_e
plt.xlim(xlim_min, xlim_max)
plt.ylim(-1, 1)
# 画 y=0 线
plt.plot([xlim_min, xlim_max], [0, 0], color='#808080',
linewidth=1.0)
ax = plt.gca()
# format the ticks
setXLocator(ax, xlim_min, xlim_max)
set_tick_font(ax)
ax.yaxis.set_major_locator(MultipleLocator(0.25))
ax.yaxis.set_minor_locator(MultipleLocator(0.125))
# title
plt.title(title, fontsize=12, fontproperties=FONT0)
plt.tight_layout()
#--------------------
fig.subplots_adjust(bottom=0.2)
circle1 = mpatches.Circle((74, 15), 6, color=BLUE, ec=EDGE_GRAY, lw=0)
circle2 = mpatches.Circle((164, 15), 6, color=RED, ec=EDGE_GRAY, lw=0)
fig.patches.extend([circle1, circle2])
fig.text(0.15, 0.02, 'Daily', color=BLUE, fontproperties=FONT0)
fig.text(0.3, 0.02, 'Monthly', color=RED, fontproperties=FONT0)
ymd_s, ymd_e = date_s.strftime('%Y%m%d'), date_e.strftime('%Y%m%d')
if ymd_s != ymd_e:
fig.text(0.50, 0.02, '%s-%s' % (ymd_s, ymd_e), fontproperties=FONT0)
else:
fig.text(0.50, 0.02, '%s' % ymd_s, fontproperties=FONT0)
fig.text(0.8, 0.02, ORG_NAME, fontproperties=FONT0)
#---------------
pb_io.make_sure_path_exists(os.path.dirname(picPath))
plt.savefig(picPath)
fig.clear()
plt.close()
def plot_bias(date_D, bias_D, date_M, bias_M, picPath, title, date_s, date_e,
each, date_type, ylim_min, ylim_max):
"""
画偏差时序折线图
"""
plt.style.use(os.path.join(dvPath, 'dv_pub_timeseries.mplstyle'))
fig = plt.figure(figsize=(6, 4))
# plt.subplots_adjust(left=0.13, right=0.95, bottom=0.11, top=0.97)
plt.plot(date_D,
bias_D,
'x',
ms=6,
markerfacecolor=None,
markeredgecolor=BLUE,
alpha=0.8,
mew=0.3,
label='Daily')
plt.plot(date_M, bias_M, 'o-', ms=5, lw=0.6, c=RED, mew=0, label='Monthly')
plt.grid(True)
plt.ylabel('%s %s' % (each, date_type), fontsize=11, fontproperties=FONT0)
xlim_min = pb_time.ymd2date('%04d%02d01' % (date_s.year, date_s.month))
xlim_max = date_e
plt.plot([xlim_min, xlim_max], [0, 0], '#808080') # 在 y=0 绘制一条深灰色直线
plt.xlim(xlim_min, xlim_max)
plt.ylim(ylim_min, ylim_max)
ax = plt.gca()
# format the ticks
interval = (ylim_max - ylim_min) / 8 # 8 个间隔
minibar = interval / 2.
setXLocator(ax, xlim_min, xlim_max)
set_tick_font(ax)
# 如果范围为浮点数,需要进行一次格式化,否则图像不会显示最后一个刻度
if isinstance(interval, float):
interval = float('%.5f' % interval)
minibar = float('%.5f' % minibar)
ax.yaxis.set_major_locator(MultipleLocator(interval))
ax.yaxis.set_minor_locator(MultipleLocator(minibar))
# title
plt.title(title, fontsize=12, fontproperties=FONT0)
plt.tight_layout()
# --------------------
fig.subplots_adjust(bottom=0.2)
circle1 = mpatches.Circle((74, 15), 6, color=BLUE, ec=EDGE_GRAY, lw=0)
circle2 = mpatches.Circle((164, 15), 6, color=RED, ec=EDGE_GRAY, lw=0)
fig.patches.extend([circle1, circle2])
fig.text(0.15, 0.02, 'Daily', color=BLUE, fontproperties=FONT0)
fig.text(0.3, 0.02, 'Monthly', color=RED, fontproperties=FONT0)
ymd_s, ymd_e = date_s.strftime('%Y%m%d'), date_e.strftime('%Y%m%d')
if ymd_s != ymd_e:
fig.text(0.50, 0.02, '%s-%s' % (ymd_s, ymd_e), fontproperties=FONT0)
else:
fig.text(0.50, 0.02, '%s' % ymd_s, fontproperties=FONT0)
fig.text(0.8, 0.02, ORG_NAME, fontproperties=FONT0)
# ---------------
pb_io.make_sure_path_exists(os.path.dirname(picPath))
plt.savefig(picPath)
fig.clear()
plt.close()
