Python dy Examples

Programming Language: Python

Namespace/Package Name: mathematics

Method/Function: dy

Examples at hotexamples.com: 2

Python dy - 2 examples found. These are the top rated real world Python examples of mathematics.dy extracted from open source projects. You can rate examples to help us improve the quality of examples.

Example #1

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File: read_rays.py Project: scollis/bom_mds

def append_ijk(sweep_dict):
    # [i,j] i is azmth, j is gates
    iar = zeros(sweep_dict["range"].shape, dtype=float)
    jar = zeros(sweep_dict["range"].shape, dtype=float)
    kar = zeros(sweep_dict["range"].shape, dtype=float)
    Re = 6371.0 * 1000.0
    p_r = 4.0 * Re / 3.0
    for az_num in range(sweep_dict["range"].shape[0]):
        r = sweep_dict["range"][az_num, :] * 1000.0
        ele = sweep_dict["Elev"][az_num]
        az = sweep_dict["Azmth"][az_num]
        z = (r ** 2 + p_r ** 2 + 2.0 * r * p_r * sin(ele * pi / 180.0)) ** 0.5 - p_r
        s = p_r * arcsin(r * cos(ele * pi / 180.0) / (p_r + z))
        dh = mathematics.dy(z)
        ds = mathematics.dy(s)
        angle = arctan(dh / ds)
        k_comp = sin(angle)
        r_comp = cos(angle)
        i_comp = r_comp * sin(az * pi / 180.0)
        j_comp = r_comp * cos(az * pi / 180.0)
        for gate in range(sweep_dict["range"].shape[1]):
            if sweep_dict["VR"][az_num, gate] == -999:
                i_comp[gate] = j_comp[gate] = k_comp[gate] = -999.0
            # print iar.shape
            # print i_comp.shape
        iar[az_num, :] = i_comp
        jar[az_num, :] = j_comp
        kar[az_num, :] = k_comp
    sweep_dict.update({"i_comp": iar, "j_comp": jar, "k_comp": kar})
    return sweep_dict

Example #2

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File: ray_proccessing.py Project: scollis/bom_mds

def generate_kdp(data, r,  RH_data,npts=5, bad_data=1.31072000e+05, ftype='hanning', RH_thresh=0.5):
	#Scan ray, find subsections of the ray which are hydro echos using RH
	dest_ray=numpy.zeros([len(data)], dtype=float)+bad_data
	curr_pos=0
	starts=[]
	ends=[]
	while curr_pos < len(data):
		#see if we are in a good data echo
		if (data[curr_pos]!=bad_data) and (RH_data[curr_pos]>RH_thresh):
			starts.append(curr_pos)
			sp=curr_pos
			this_block=[]
			this_r=[]
			while (data[curr_pos]!=bad_data)  and (RH_data[curr_pos]>RH_thresh):
				#now we are scanning in a region of meteo echos
				this_block.append(data[curr_pos])
				this_r.append(r[curr_pos])
				curr_pos=curr_pos+1
				if curr_pos >= len(data): break
			ep=curr_pos 
			ends.append(ep)
			print 'Len of list:', len(this_block)
			#Do stuff with this bit of data
			if len(this_block) >npts:
				this_array=smooth(mathematics.dy(numpy.array(this_block))/mathematics.dy(numpy.array(this_r)), window_len=npts, window=ftype)
			elif len(this_block) > 2:
				this_array=mathematics.dy(numpy.array(this_block))/mathematics.dy(numpy.array(this_r))
			if len(this_block)>2:
				print this_array.shape
				print sp, ep, ep-sp
				dest_ray[sp:ep]=this_array
		else:
			#we are in a non-meteo region
			curr_pos=curr_pos+1
	return dest_ray