[英]Change Colorbar Scaling in Matplotlib
使用 NASA 的 SRTM 數據,我生成了一個全球海拔熱圖。
然而,問題是,由於海拔值的范圍,大陸往往會與海洋融為一體。 是否可以更改顏色條的比例,使大陸的邊緣與海洋更加不同? 我嘗試了不同的 cmap,但它們似乎都遇到了這個問題。
這是我的代碼。 我正在初始化一個巨大的數組(帶有 0)來保存全局高程數據,然后從 SRTM 數據集中逐個文件填充它。 每個文件是 1 度緯度乘 1 度經度。
我遇到的另一個問題是關於 map 本身。 由於某種原因,阿巴拉契亞山脈似乎已經完全消失了。
import os
import numpy as np
from .srtm_map import MapGenerator
from ..utils.hgt_parser import HGTParser
from tqdm import tqdm
import cv2
import matplotlib.pyplot as plt
import richdem as rd
class GlobalMapGenerator():
def __init__(self):
self.gen = MapGenerator()
self.base_dir = "data/elevation/"
self.hgt_files = os.listdir(self.base_dir)
self.global_elevation_data = None
def shrink(data, rows, cols):
return data.reshape(rows, data.shape[0]/rows, cols, data.shape[1]/cols).sum(axis=1).sum(axis=2)
def GenerateGlobalElevationMap(self, stride):
res = 1201//stride
max_N = 59
max_W = 180
max_S = 56
max_E = 179
# N59 --> N00
# S01 --> S56
# E000 --> E179
# W180 --> W001
# Initialize array global elevation
self.global_elevation_data = np.zeros(( res*(max_S+max_N+1), res*(max_E+max_W+1) ))
print("Output Image Shape:", self.global_elevation_data.shape)
for hgt_file in tqdm(self.hgt_files):
lat_letter = hgt_file[0]
lon_letter = hgt_file[3]
lat = int(hgt_file[1:3])
lon = int(hgt_file[4:7])
if lat_letter == "S":
# Shift south down by max_N, but south starts at S01 so we translate up by 1 too
lat_trans = max_N + lat - 1
else:
# Bigger N lat means further up. E.g. N59 is at index 0 and is higher than N00
lat_trans = max_N - lat
if lon_letter == "E":
# Shift east right by max_W
lon_trans = max_W + lon
else:
# Bigger W lon means further left. E.g. W180 is at index 0 and is more left than W001
lon_trans = max_W - lon
# load in data from file as resized
data = cv2.resize(HGTParser(os.path.join(self.base_dir, hgt_file)), (res, res))
# generate bounds (x/y --> lon.lat for data from this file for the giant array)
lat_bounds = [res*lat_trans, res*(lat_trans+1)]
lon_bounds = [res*lon_trans, res*(lon_trans+1)]
try:
self.global_elevation_data[ lat_bounds[0]:lat_bounds[1], lon_bounds[0]:lon_bounds[1] ] = data
except:
print("REFERENCE ERROR: " + hgt_file)
print("lat: ", lat_bounds)
print("lon: ", lon_bounds)
# generate figure
plt.figure(figsize=(20,20))
plt.imshow(self.global_elevation_data, cmap="rainbow")
plt.title("Global Elevation Heatmap")
plt.colorbar()
plt.show()
np.save("figures/GlobalElevationMap.npy", self.global_elevation_data)
plt.savefig("figures/GlobalElevationMap.png")
def GenerateGlobalSlopeMap(self, stride):
pass
使用TwoSlopeNorm
( docs ) 作為您的標准,就像這里的示例一樣。
從例子:
有時我們希望在概念中心點的任一側都有不同的顏色圖,並且我們希望這兩個顏色圖具有不同的線性比例。 一個示例是地形 map,其中陸地和海洋的中心為零,但陸地的海拔范圍通常大於水的深度范圍,並且它們通常由不同的顏色圖表示。
如果您將中點設置為海平面 (0),那么您可以根據海洋海拔與陸地海拔有兩種截然不同的比例。
示例代碼(取自上面鏈接的示例):
import numpy as np
import matplotlib.pyplot as plt
import matplotlib.colors as colors
import matplotlib.cbook as cbook
from matplotlib import cm
dem = cbook.get_sample_data('topobathy.npz', np_load=True)
topo = dem['topo']
longitude = dem['longitude']
latitude = dem['latitude']
fig, ax = plt.subplots()
# make a colormap that has land and ocean clearly delineated and of the
# same length (256 + 256)
colors_undersea = plt.cm.terrain(np.linspace(0, 0.17, 256))
colors_land = plt.cm.terrain(np.linspace(0.25, 1, 256))
all_colors = np.vstack((colors_undersea, colors_land))
terrain_map = colors.LinearSegmentedColormap.from_list(
'terrain_map', all_colors)
# make the norm: Note the center is offset so that the land has more
# dynamic range:
divnorm = colors.TwoSlopeNorm(vmin=-500., vcenter=0, vmax=4000)
pcm = ax.pcolormesh(longitude, latitude, topo, rasterized=True, norm=divnorm,
cmap=terrain_map, shading='auto')
# Simple geographic plot, set aspect ratio beecause distance between lines of
# longitude depends on latitude.
ax.set_aspect(1 / np.cos(np.deg2rad(49)))
ax.set_title('TwoSlopeNorm(x)')
cb = fig.colorbar(pcm, shrink=0.6)
cb.set_ticks([-500, 0, 1000, 2000, 3000, 4000])
plt.show()
看看它如何用這個簡單的用法來縮放數字(來自文檔):
>>> import matplotlib. Colors as mcolors
>>> offset = mcolors.TwoSlopeNorm(vmin=-4000., vcenter=0., vmax=10000)
>>> data = [-4000., -2000., 0., 2500., 5000., 7500., 10000.]
>>> offset(data)
array([0., 0.25, 0.5, 0.625, 0.75, 0.875, 1.0])
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