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segmentation_values.py
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segmentation_values.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
/***************************************************************************
Name : segmentation_values
Description : Create CSV with values of Segmentation with others images
-------------------
Begin : 2017-03-20
Copyright : (C) 2016 by Luiz Motta
Email : motta dot luiz at gmail.com
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
"""
import os, sys, warnings, argparse, numpy as np
from osgeo import gdal, gdalconst, ogr, osr
class MessageProgressStdOut:
def __init__(self, total, showValue=False):
"""
total: total of elements
showValue: If True, write value
"""
self.total = total
self.count = 0
if showValue:
self.formatMsg = self._formatMsgValue
self.formatValue = "{0:0%dd}" % len( str( total ) )
else:
self.formatMsg = self._formatMsg
def _formatMsgValue(self, perc, value):
svalue = self.formatValue.format( value )
return "{0}/{1} - {2:3.0f}%\r".format( svalue, self.total, perc )
def _formatMsg(self, perc, value):
return "{0:4.0f}%\r".format( perc )
def write(self, value=None):
self.count += 1
perc = float( self.count ) / self.total * 100.00
sys.stdout.write( self.formatMsg( perc, value ) )
sys.stdout.flush()
def reset(self):
self.count = 0
class SegmentationValues:
def __init__(self, pathfile):
"""
pathfile: Path file of image of Segmentation
"""
self.pathfile = pathfile
self.arry, self.uniq_count, self.dsImg = [ None ] * 3
self.nan_stats = {
'min': np.nanmin, 'max': np.nanmax,
'mean': np.nanmean, 'median': np.nanmedian
}
self.drvShp = ogr.GetDriverByName("ESRI Shapefile")
self.drvMem = ogr.GetDriverByName("MEMORY")
self.fieldValue, self.fieldCount = 'vpixel', 'cpixel'
def __del__(self):
self.arry, self.uniq_count, self.dsImg = [ None ] * 3
def init(self):
arry, ds = self._getArrayDS( self.pathfile )
# if not np.issubdtype( arry.dtype, np.integer ):
# msg = "Image '{0}' is not integer".format( self.pathfile )
# return { 'isOk': False, 'msg': msg }
if not len( arry.shape ) == 2:
msg = "Image '{0}' have more ONE band".format( self.pathfile )
return { 'isOk': False, 'msg': msg }
self.arry, self.dsImg = arry, ds
self.uniq_count = np.unique( arry, return_counts=True )
return { 'isOk': True }
def _getArrayDS(self, pathfile):
ds = gdal.Open(pathfile)
arry = ds.ReadAsArray()
return arry, ds
def saveStatisticsCSV(self, pathfile):
def writeHeader(fOut, keys, nBands, sep):
header = [ self.fieldValue ]
for id in xrange( nBands ):
for k in keys:
header.append( "B{0}_{1}".format( id+1, k) )
fOut.write( "{0}\n".format( sep.join( header ) ) )
def writeStats(fOut, value, arry, keys, sep):
def getStatsSegmentation(value, arryImage):
def getStats(data):
stats = {}
for k in self.nan_stats.keys():
stats[ k ] = self.nan_stats[ k ]( data )
return stats
stats= []
dataValid = np.where( self.arry == value, 1, np.nan )
if len( arryImage.shape ) == len( self.arry.shape ):
data = dataValid * arryImage
stats.append( getStats( data ) )
else:
for id in xrange( arryImage.shape[0] ):
data = dataValid * arryImage[ id ]
stats.append( getStats( data ) )
return stats
stats = getStatsSegmentation( value, arry )
values = [ str( value ) ]
for id in xrange( len( stats ) ):
for k in keys:
values.append( str( stats[ id ][ k ] ) )
fOut.write( "{0}\n".format( sep.join( values ) ) )
pathfileCSV = "{0}_segmentation.csv".format( os.path.splitext( pathfile )[0] )
f = open( pathfileCSV, 'w' )
arry, ds = self._getArrayDS( pathfile )
keys = sorted( self.nan_stats.keys() )
sep = ','
writeHeader( f, keys, ds.RasterCount, sep )
msgOut = MessageProgressStdOut( self.uniq_count[0].shape[0], True )
for value in np.nditer( self.uniq_count[0] ):
py_value = int( value.item(0) )
msgOut.write( py_value )
writeStats( f, py_value, arry, keys, sep )
f.close()
arry, ds = None, None
return pathfileCSV
def saveShapefile(self):
def createValueMemoryLayer():
def addFields():
defns = [
ogr.FieldDefn( self.fieldValue, ogr.OFTInteger64 ),
ogr.FieldDefn( self.fieldCount, ogr.OFTInteger64 )
]
layer.CreateFields ( defns )
srs = osr.SpatialReference()
srs.ImportFromWkt( self.dsImg.GetProjectionRef() )
ds = self.drvMem.CreateDataSource( 'memory' )
nameLayer = os.path.basename( pathfileSHP ).split('.')[0]
layer = ds.CreateLayer( nameLayer, srs )
addFields()
return ds, layer
def populateCountPixels():
idFieldValue, idFieldCount = 0, 1
arry_value = self.uniq_count[ idFieldValue ]
arry_count = self.uniq_count[ idFieldCount ]
for feat in layer:
value = feat.GetField( idFieldValue )
id = np.where( arry_value == value )[0][0]
v_count = int( arry_count[ id ].item(0) )
feat.SetField( idFieldCount, v_count )
layer.SetFeature( feat )
layer.SyncToDisk()
pathfileSHP = "{0}.shp".format( os.path.splitext( self.pathfile )[0] )
if os.path.exists( pathfileSHP ):
self.drvShp.DeleteDataSource( pathfileSHP )
dsLayer, layer = createValueMemoryLayer()
band = self.dsImg.GetRasterBand(1)
if gdal.Polygonize( band, band, layer, 0, [], callback=None ) == gdalconst.CE_Failure:
return { 'isOk': False, 'msg': "Error Polygonize" }
populateCountPixels()
ds = self.drvShp.CopyDataSource( dsLayer, pathfileSHP )
dsLayer.Destroy()
ds.Destroy()
return { 'isOk': True, 'pathfile': pathfileSHP }
def existsFiles(l_pathfiles):
l_not_exists = []
for f in l_pathfiles:
if not os.path.isfile( f ):
l_not_exists.append( f )
if len( l_not_exists ) == 0:
return { 'isOk': True }
msg = "Not exists these files: {0}".format( ','.join( l_pathfiles ) )
return { 'isOk': False, 'msg': msg }
def run(pathfileSegmentation, l_pathfiles, needCreateShape):
r = existsFiles( [ pathfileSegmentation ] + l_pathfiles )
if not r['isOk']:
sys.stderr.write( "{0}\n".format( r['msg'] ) )
return 1
cSeg = SegmentationValues( pathfileSegmentation )
r = cSeg.init()
if not r['isOk']:
sys.stderr.write( "{0}\n".format( r['msg'] ) )
return 1
for f in l_pathfiles:
pathfileOut = cSeg.saveStatisticsCSV( f )
sys.stdout.write("Created CSV '{0}'\n".format( pathfileOut ) )
if needCreateShape:
sys.stdout.write("Saving shapefile...\r")
r = cSeg.saveShapefile()
if not r['isOk']:
sys.stderr.write( "{0}\n".format( r['msg'] ) )
return 1
sys.stdout.write("Created SHP '{0}'\n".format( r['pathfile'] ) )
del cSeg
return 0
def main():
d = "Create CSV with statistics values of segmentation regions."
parser = argparse.ArgumentParser(description=d )
d = "Pathfile of segmentation image"
parser.add_argument('segmentation_img', metavar='segmentation_img', type=str, help=d )
d = "List of image for statistics"
parser.add_argument('--images', nargs='+', type=str, required=True, help=d )
d = "Create Shapefile of segmentation image"
parser.add_argument('--shape', action="store_true", default=False, help=d )
args = parser.parse_args()
return run( args.segmentation_img, args.images, args.shape )
if __name__ == "__main__":
sys.exit( main() )