def getplotvals(self, datafile=None): # How many y and x values will we need? ## The plot width - needs to be stored as property for the plot function to work. self.plot_width = self.bottomrightpoint.longitude - self.upperleftpoint.longitude ## The plot height - needs to be stored as a property for the plot function to work. self.plot_height = self.upperleftpoint.latitude - self.bottomrightpoint.latitude ## The number of x points we retrieved. Stored as a property for the plot function to work. if (self.xsteps): self.num_x = int(self.xsteps) else: self.num_x = int(math.ceil(self.plot_width / self.spacing)) + 1 ## The number of y points we retrieved. Stored as a property for the plot function to work. if (self.ysteps): self.num_y = int(self.ysteps) else: self.num_y = int(math.ceil(self.plot_height / self.spacing)) + 1 ## The 2D array of retrieved material properties self.materialproperties = [[ MaterialProperties(-1, -1, -1) for x in xrange(self.num_x) ] for x in xrange(self.num_y)] u = UCVM() # Generate a list of points to pass to UCVM. ucvmpoints = [] for y in xrange(0, self.num_y): for x in xrange(0, self.num_x): ucvmpoints.append(Point(self.upperleftpoint.longitude + x * self.spacing, \ self.bottomrightpoint.latitude + y * self.spacing, \ self.upperleftpoint.depth)) self.ucvm_query_results = u.map_grid(ucvmpoints, self.cvm)
def getplotvals(self, mproperty="vs"): # How many y and x values will we need? ## The plot width - needs to be stored as property for the plot function to work. self.plot_width = self.bottomrightpoint.longitude - self.upperleftpoint.longitude ## The plot height - needs to be stored as a property for the plot function to work. self.plot_height = self.upperleftpoint.latitude - self.bottomrightpoint.latitude ## The number of x points we retrieved. Stored as a property for the plot function to work. if (self.xsteps is not None): self.num_x = int(self.xsteps) else: self.num_x = int(math.ceil(self.plot_width / self.spacing)) + 1 ## The number of y points we retrieved. Stored as a property for the plot function to work. if (self.ysteps is not None): self.num_y = int(self.ysteps) else: self.num_y = int(math.ceil(self.plot_height / self.spacing)) + 1 ## Maximum depth encountered. self.max_val = 0 ## Minimum depth (always 0). self.min_val = 0 ## The 2D array of retrieved Vs30 values. self.materialproperties = [[ MaterialProperties(-1, -1, -1) for x in xrange(self.num_x) ] for x in xrange(self.num_y)] u = UCVM(install_dir=self.installdir, config_file=self.configfile) ### MEI if (self.datafile != None): # print "\nUsing --> "+datafile data = u.import_binary(self.datafile, self.num_x, self.num_y) # print "Total points imported is ", len(data), "for ", self.num_x, " and ", self.num_y else: # Generate a list of points to pass to UCVM. ucvmpoints = [] for y in xrange(0, self.num_y): for x in xrange(0, self.num_x): ucvmpoints.append(Point(self.upperleftpoint.longitude + x * self.spacing, \ self.bottomrightpoint.latitude + y * self.spacing, \ self.upperleftpoint.depth)) # print "Total points extracted is ", len(ucvmpoints), "for ", self.num_x, " and ", self.num_y data = u.basin_depth(ucvmpoints, self.cvm, self.vs_threshold) i = 0 j = 0 for matprop in data: self.materialproperties[i][j].vs = matprop if matprop > self.max_val: self.max_val = matprop j = j + 1 if j >= self.num_x: j = 0 i = i + 1
def getplotvals(self, mproperty="vs"): # How many y and x values will we need? ## The plot width - needs to be stored as property for the plot function to work. self.plot_width = self.bottomrightpoint.longitude - self.upperleftpoint.longitude ## The plot height - needs to be stored as a property for the plot function to work. self.plot_height = self.upperleftpoint.latitude - self.bottomrightpoint.latitude ## The number of x points we retrieved. Stored as a property for the plot function to work. if (self.xsteps): self.num_x = int(self.xsteps) else: self.num_x = int(math.ceil(self.plot_width / self.spacing)) + 1 ## The number of y points we retrieved. Stored as a property for the plot function to work. if (self.ysteps): self.num_y = int(self.ysteps) else: self.num_y = int(math.ceil(self.plot_height / self.spacing)) + 1 ## The 2D array of retrieved material properties. self.materialproperties = [[ MaterialProperties(-1, -1, -1) for x in xrange(self.num_x) ] for x in xrange(self.num_y)] u = UCVM(install_dir=self.installdir, config_file=self.configfile) ### MEI if (self.datafile != None): data = u.import_binary(self.datafile, self.num_x, self.num_y) print "\nUsing --> " + self.datafile print "expecting x ", self.num_x, " y ", self.num_y else: # Generate a list of points to pass to UCVM. ucvmpoints = [] for y in xrange(0, self.num_y): for x in xrange(0, self.num_x): ucvmpoints.append(Point(self.upperleftpoint.longitude + x * self.spacing, \ self.bottomrightpoint.latitude + y * self.spacing, \ self.upperleftpoint.depth)) data = u.query(ucvmpoints, self.cvm) i = 0 j = 0 isfloat = 0 if (self.datafile != None): isfloat = 1 for matprop in data: if isfloat: self.materialproperties[i][j].setProperty(mproperty, matprop) else: self.materialproperties[i][j] = matprop j = j + 1 if j >= self.num_x: j = 0 i = i + 1
def getplotvals(self): # How many y and x values will we need? ## The plot width - needs to be stored as property for the plot function to work. self.plot_width = self.bottomrightpoint.longitude - self.upperleftpoint.longitude ## The plot height - needs to be stored as a property for the plot function to work. self.plot_height = self.upperleftpoint.latitude - self.bottomrightpoint.latitude ## The number of x points we retrieved. Stored as a property for the plot function to work. self.num_x = int(math.ceil(self.plot_width / self.spacing)) + 1 ## The number of y points we retrieved. Stored as a property for the plot function to work. self.num_y = int(math.ceil(self.plot_height / self.spacing)) + 1 ## Maximum depth encountered. self.max_val = 0 ## Minimum depth (always 0). self.min_val = 0 # Generate a list of points to pass to UCVM. ucvmpoints = [] for y in xrange(0, self.num_y): for x in xrange(0, self.num_x): ucvmpoints.append(Point(self.upperleftpoint.longitude + x * self.spacing, \ self.bottomrightpoint.latitude + y * self.spacing, \ self.upperleftpoint.depth)) ## The 2D array of retrieved Vs30 values. self.materialproperties = [[ MaterialProperties(-1, -1, -1) for x in xrange(self.num_x) ] for x in xrange(self.num_y)] u = UCVM() data = u.basin_depth(ucvmpoints, self.cvm, self.vs_threshold) i = 0 j = 0 for matprop in data: self.materialproperties[i][j].vs = matprop if matprop > self.max_val: self.max_val = matprop j = j + 1 if j >= self.num_x: j = 0 i = i + 1