layer2img.py cleanup
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5
Makefile
5
Makefile
@ -48,10 +48,11 @@ test-figures.pdf: layer2img.py .faux_test
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fig-definition-of-a-bend.pdf: layer2img.py Makefile .faux_test
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python ./layer2img.py \
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--group1-cmap=True \
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--group1-table=wm_debug \
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--group1-cmap=True \
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--group1-where="name='fig6' AND stage='bbends-polygon' AND gen=1" \
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--group2-table=wm_debug --group2-where="name='fig6' AND stage='bbends' AND gen=1" \
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--group2-table=wm_debug \
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--group2-where="name='fig6' AND stage='bbends' AND gen=1" \
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--outfile=$@
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.faux_test: tests.sql wm.sql .faux_db
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104
layer2img.py
104
layer2img.py
@ -2,7 +2,6 @@
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import argparse
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import geopandas
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import psycopg2
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import numpy as np
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import matplotlib.pyplot as plt
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from matplotlib import rc
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@ -12,91 +11,6 @@ BOUNDS = ('xmin', 'ymin', 'xmax', 'ymax')
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GREEN, ORANGE, PURPLE = '#1b9e77', '#d95f02', '#7570b3'
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PSQL_CREDS = "host=127.0.0.1 dbname=osm user=osm password=osm"
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def arrowplot(axes, x, y, narrs=30, dspace=0.1, direc='pos', \
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hl=0.1, hw=5, c='black'):
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''' narrs : Number of arrows that will be drawn along the curve
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dspace : Shift the position of the arrows along the curve.
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Should be between 0. and 1.
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direc : can be 'pos' or 'neg' to select direction of the arrows
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hl : length of the arrow head
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hw : width of the arrow head
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c : color of the edge and face of the arrow head
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https://stackoverflow.com/questions/8247973
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'''
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# r is the distance spanned between pairs of points
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r = [0]
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for i in range(1,len(x)):
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dx = x[i]-x[i-1]
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dy = y[i]-y[i-1]
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r.append(np.sqrt(dx*dx+dy*dy))
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r = np.array(r)
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# rtot is a cumulative sum of r, it's used to save time
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rtot = []
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for i in range(len(r)):
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rtot.append(r[0:i].sum())
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rtot.append(r.sum())
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# based on narrs set the arrow spacing
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aspace = r.sum() / narrs
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if direc is 'neg':
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dspace = -1.*abs(dspace)
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else:
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dspace = abs(dspace)
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arrowData = [] # will hold tuples of x,y,theta for each arrow
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arrowPos = aspace*(dspace) # current point on walk along data
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# could set arrowPos to 0 if you want
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# an arrow at the beginning of the curve
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ndrawn = 0
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rcount = 1
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while arrowPos < r.sum() and ndrawn < narrs:
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x1,x2 = x[rcount-1],x[rcount]
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y1,y2 = y[rcount-1],y[rcount]
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da = arrowPos-rtot[rcount]
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theta = np.arctan2((x2-x1),(y2-y1))
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ax = np.sin(theta)*da+x1
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ay = np.cos(theta)*da+y1
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arrowData.append((ax,ay,theta))
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ndrawn += 1
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arrowPos+=aspace
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while arrowPos > rtot[rcount+1]:
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rcount+=1
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if arrowPos > rtot[-1]:
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break
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# could be done in above block if you want
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for ax,ay,theta in arrowData:
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# use aspace as a guide for size and length of things
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# scaling factors were chosen by experimenting a bit
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dx0 = np.sin(theta)*hl/2. + ax
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dy0 = np.cos(theta)*hl/2. + ay
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dx1 = -1.*np.sin(theta)*hl/2. + ax
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dy1 = -1.*np.cos(theta)*hl/2. + ay
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if direc is 'neg' :
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ax0 = dx0
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ay0 = dy0
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ax1 = dx1
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ay1 = dy1
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else:
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ax0 = dx1
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ay0 = dy1
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ax1 = dx0
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ay1 = dy0
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axes.annotate('', xy=(ax0, ay0), xycoords='data',
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xytext=(ax1, ay1), textcoords='data',
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arrowprops=dict( headwidth=hw, frac=1., ec=c, fc=c))
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def plt_size(string):
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if not string:
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@ -139,12 +53,6 @@ def read_layer(table, maybe_where=None):
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sql += " WHERE %s" % maybe_where
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return geopandas.read_postgis(sql, con=conn, geom_col='way')
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def add_lines(ax, group):
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for g in group.to_dict()['way'].values():
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for geom in getattr(g, 'geoms', [g]):
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x, y = zip(*geom.coords)
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narrs = geom.length / 25
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arrowplot(ax, np.array(x), np.array(y), narrs=narrs)
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def main():
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args = parse_args()
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@ -164,17 +72,13 @@ def main():
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c2 = {'cmap': 'coolwarm'} if args.group2_cmap else {'color': PURPLE}
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c3 = {'cmap': 'coolwarm'} if args.group3_cmap else {'color': GREEN}
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if group1 is not None:
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group1.plot(ax=ax, **c1)
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#args.group1_arrows and add_lines(ax, group1)
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if group2 is not None:
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group2.plot(ax=ax, **c2)
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if group3 is not None:
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group3.plot(ax=ax, **c3)
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group1 is not None and group1.plot(ax=ax, **c1)
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group2 is not None and group2.plot(ax=ax, **c2)
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group3 is not None and group3.plot(ax=ax, **c3)
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ax.axis('off')
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ax.margins(0, 0)
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#fig.tight_layout(0)
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fig.tight_layout(0)
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if args.outfile:
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fig.savefig(args.outfile, bbox_inches=0, dpi=600)
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else:
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