Example #1
0
def running(dx, withData=True, compare=True, proj="M", filename="fullData.txt"):

    """
	dx gives the resolution, dx=1 for 1x1 grid
	withData is a boolean, withData=True plots the data points on top the map
	projection has the same options as gmt, Mercator projection is the default
	filename is the name of the file that stores the data
	"""

    """
	Reading data
	"""
    theta0 = [600000]
    for theta in theta0:
        xpoints = np.arange(-180, 180, dx)
        ypoints = np.arange(-90 + dx, 90, dx)
        if filename.endswith("txt"):
            rawData = readData.readTxt(filename)
        elif filename.endswith("xlsx"):
            rawData = readData.readCols(filename)
        else:
            print "I don't think I can handle this format"
            return
        """
		Classifier being trained
		"""
        rfc = mapping.training(rawData)
        """
		Map being made with the classifier
		"""
        data = [(rawData["lon"][i], rawData["lat"][i]) for i in range(len(rawData["lon"]))]
        labels = [mapping.downLabels(i) for i in rawData["classif"]]
        data, labels = mapping.cleanDoubles(data, labels)
        scores = cross_val_score(rfc, data, labels, cv=5)
        print ("Accuracy: %0.2f (+/- %0.2f)" % (scores.mean(), scores.std() * 2))
        prediction = mapping.mapping(xpoints, ypoints, rfc)
        """
		Map being written to a file
		"""
        writeResults.writePredictions(
            xpoints,
            ypoints,
            prediction,
            header="> Predictions made with training.py",
            newFilename="seabed_lithology_regular_grid.txt",
        )
        """
		GMT file written
		"""
        writeResults.makeMap(dx, withData, proj)
        """
		Postscript called to call gmt
		"""
        writeResults.gmtMap()
        print len(rawData["lon"]), len(rawData["classif"])
        """
		Statisctics being compared
		"""
        if compare:
            compareStats(rawData, theta)
Example #2
0
def blocks(dx, filename, theta, withData=False, proj="M", xBlockRange=[-180, 180], yBlockRange=[-90, 90]):

    xpoints = np.arange(-180, 180, dx)
    ypoints = np.arange(-90 + dx, 90, dx)
    rawData = readData.readCols(filename)
    rfc = blockTraining(rawData, theta, xBlockRange, yBlockRange)
    prediction = blockPredict(rfc, xpoints, ypoints, xBlockRange, yBlockRange)
    writeResults.writePredictions(
        xpoints,
        ypoints,
        prediction,
        header="> Predictions made with training.py",
        newFilename="seabed_lithology_blocks_regular_grid.txt",
    )
    writeResults.makeMap(dx, withData, proj)
    writeResults.gmtMap()