Mercurial > repos > mb2013 > nepenthes_3dpca
changeset 17:27af4a7b1e1d draft
Uploaded
author | mb2013 |
---|---|
date | Tue, 20 May 2014 03:29:26 -0400 |
parents | fea55f4efcce |
children | a207e838f232 |
files | Rotate.py |
diffstat | 1 files changed, 273 insertions(+), 0 deletions(-) [+] |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/Rotate.py Tue May 20 03:29:26 2014 -0400 @@ -0,0 +1,273 @@ +# Rotate ply file to normalized position +# based at points on symmetry axis +# MB + +import math +from math import * +import sys +import numpy + +# Main function +def main(): + # input user .ply file + name_file_ply = sys.argv[1] + # input user symmetry points file + sym_points_file = sys.argv[2] + + # to function 'extracting header', return header features + var_header,var_vertex_nm,var_face_nm, var_col = extracting_header(name_file_ply) + + # to function 'extracting symmetry points', return symmetry points and list with new vertex + listsym,listtotal_vertex = extracting_symmetry_points(sym_points_file) + + # to function 'extracting coordiantes', return list vertex and colors + listtotal_vertex, listtotal_colors = extracting_coordinates(name_file_ply, + var_header,var_vertex_nm,var_face_nm, + listtotal_vertex, var_col) + # to function 'shift to zero' + shift_to_zero(listsym,listtotal_vertex) + + # to function 'write ply file' + write_ply_file(name_file_ply, var_header,var_vertex_nm,var_face_nm, + listtotal_colors, listtotal_vertex) + + +# Function to extract all the values of the header of the ply file +def extracting_header(name_file_ply): + file_ply = open(name_file_ply) # open ply file + var_col = 0 # color variable + count = 0 # counter + + # for the first lines of the ply file + for line in range(0, 40): + readheader = file_ply.readline().strip().split() + if len(readheader) != 0: + if readheader[0] == 'end_header': + var_header = count + + # If there are colors in the ply file + if 'red' in readheader: + var_col += 1 + if 'blue' in readheader: + var_col += 1 + if 'green' in readheader: + var_col += 1 + + # extracting number of vertexen + if readheader[0] == "element" and readheader[1] == "vertex": + var_vertex_nm = readheader[2] + + # extracting number of faces + if readheader[0] == "element" and readheader[1] == "face": + var_face_nm = readheader[2] + count += 1 + else: + continue + + file_ply.close() # closing ply file + return var_header, var_vertex_nm,var_face_nm, var_col # return values to main + +# Function for extracting the values of the symmetry points file +def extracting_symmetry_points(sym_points_file): + sympoints = open(sym_points_file) # open symmetry file + symlines = sympoints.readlines() # read all the lines of file + listsym = [] # symmetry points + listtotal_vertex = [] # vertexen + # every line in the sym file + for sym in range(0,len(symlines)): + symline_1 = symlines[sym].strip().split() + listsym.append(symlines[sym].strip().split()) #add symmetry points + listtotal_vertex.append(symlines[sym].strip().split()) # add symmetry points + + sympoints.close() # close symmetry file + return listsym,listtotal_vertex # return symmetry points list and vertex list + + +# Function to extract the coordinates of the ply file +def extracting_coordinates(name_file_ply, var_header,var_vertex_nm,var_face_nm, listtotal_vertex, var_col): + file1 = open(name_file_ply) # open ply file + + sub_list = [] #sublist coordinates + listtotal_colors = [] # color list + sub_colors = [] # sublist color + + # coordinates of ply file to list + for coordinates_ln in range(0, (int(var_header) + int(var_vertex_nm) + int(var_face_nm) + 1)): + line = file1.readline().strip().split() + if (int(var_header) < coordinates_ln < (int(var_vertex_nm)+ int(var_header)+1)): + rayx = sub_list.append(line[0]) + rayy = sub_list.append(line[1]) + rayz = sub_list.append(line[2]) + listtotal_vertex.append(sub_list) #x y z coordinates to list + sub_list = [] + if var_col != 0: #if color code is not 0 + color_x = sub_colors.append(line[3]) + color_y = sub_colors.append(line[4]) + color_z = sub_colors.append(line[5]) + listtotal_colors.append(sub_colors) #colors to list + sub_colors = [] + + return listtotal_vertex, listtotal_colors # return coordinates (vertexen) and color lists + + +# Function to calculate the values in the Z rotation matrix +def Rz_matrix(z_angle): # Rz rotation matrix + return [[cos(math.radians(z_angle)), -sin(math.radians(z_angle)), 0.0],[sin(math.radians(z_angle)),cos(math.radians(z_angle)),0.0],[0.0, 0.0, 1.0]] + +# Function to calculate the new coordinates rotated with Z rotation matrix +def Z_rotation(point2, z_angle): # multiplication rotation matrix and coordinates + r_z = Rz_matrix(z_angle) + rotated_z = [] + for i in range(3): + rotated_z.append((sum([r_z[i][j] * point2[j] for j in range(3)]))) + return rotated_z + +# Function to calculate the values in the X rotation matrix +def Rx_matrix(x_angle): #rotation matrix x-axis + return [[1, 0, 0],[0,cos(math.radians(x_angle)),-sin(math.radians(x_angle))],[0,sin(math.radians(x_angle)),cos(math.radians(x_angle))]] + +# Function to calculate the new coordinates rotated with X rotation matrix +def X_rotation(point3, x_angle): #multiplication rotation matrix and coordinates + r_x = Rx_matrix(x_angle) + rotated_x = [] + for i in range(3): + rotated_x.append((sum([r_x[i][j] * point3[j] for j in range(3)]))) + return rotated_x + +# Function to calculate the values in the Y rotation matrix +def Ry_matrix(y_angle): # Ry rotation matrix + return [[cos(math.radians(y_angle)), 0.0, sin(math.radians(y_angle))],[0.0, 1.0, 0.0],[-sin(math.radians(y_angle)),0.0, cos(math.radians(y_angle))]] + +# Function to calculate the new coordinates rotated with Y rotation matrix +def Y_rotation(point4, y_angle): #multiplication rotation matrix and coordinates + r_y = Ry_matrix(y_angle) + rotated_y = [] + for i in range(3): + rotated_y.append((sum([r_y[i][j] * point4[j] for j in range(3)]))) + return rotated_y + +#Function to shift the object to the zeropoint +def shift_to_zero(listsym, listtotal_vertex): + sym3 = listsym[2] + zeropoint = sym3 + list2 = [] # sublist coordinates + listdata3 = [] # new coordinates + # every coordinate minus the sym3 coordinates + for vertex in range(0,len(listtotal_vertex)): + list2.append(float(listtotal_vertex[vertex][0]) - float(zeropoint[0])) + list2.append(float(listtotal_vertex[vertex][1]) - float(zeropoint[1])) + list2.append(float(listtotal_vertex[vertex][2]) - float(zeropoint[2])) + listdata3.append(list2) # add new coordinates to list + list2 = [] + + # to function 'rotate z axis' + rotate_z_axis(listdata3) + +# Function for rotating the object around z axis +def rotate_z_axis(listdata3): + # If object is upside down, 180 degrees rotation around the Z axis is needed. + listdatatemp = [] + # check if object is upside down + if listdata3[0][1] < listdata3[2][1]: + angle = 180 + # rotate 180 degrees. + for coordinates in range(0,len(listdata3)): + listdatatemp.append(Z_rotation(listdata3[coordinates], angle)) + listdata3 = listdatatemp # new coordinates + + + # calculate angle rotation z + len_z_a = listdata3[0][0] - listdata3[2][0] + len_z_b = listdata3[0][1] - listdata3[2][1] + z_angle = (math.degrees(math.atan(len_z_a/len_z_b))) + + # calculate new coordinates with rotation matrix of Z + listdata4 = [] + for coordinates in range(0, len(listdata3)): + listdata4.append(Z_rotation(listdata3[coordinates], z_angle)) # add new coordinates to list + listdata3 = [] + + # to function 'rotate x axis' + rotate_x_axis(listdata4) + +# Function for rotating the object around x axis +def rotate_x_axis(listdata4): + #calculate angle rotation x + len_x_a = listdata4[0][2] - listdata4[2][0] + len_x_b = listdata4[0][1] - listdata4[2][0] + x_angle = -(math.degrees(math.atan(len_x_a/len_x_b))) + + # calculate new coordinates with rotation matrix of X + listdata5 = [] + for coordinates in range(0, len(listdata4)): + listdata5.append(X_rotation(listdata4[coordinates], x_angle)) # add new coordinates to list + listdata4 = [] + + # to function 'rotate y axis' + rotate_y_axis(listdata5) + +# Function for rotating the object around y axis +def rotate_y_axis(listdata5): + #calculate angle rotation y + len_y_a = (listdata5[1][0] - listdata5[2][0]) + len_y_b = (listdata5[1][2] - listdata5[2][2]) + y_angle = -(math.degrees(math.atan(len_y_a/len_y_b))) + + # calculate new coordinates with rotation matrix of Y + listdata6 = [] + for coordinates in range(0, len(listdata5)): + listdata6.append(Y_rotation(listdata5[coordinates], y_angle)) + + listdata5 = [] + #Rotate 180 degrees around y axis when object is backwards.# + listdatatemp = [] + if listdata6[1][0] < listdata6[3][0]: #point sym2_x < point sym 3 + angle = 180 + for coordinates in range(0,len(listdata6)): + listdatatemp.append(Y_rotation(listdata6[coordinates], angle)) # add new coordinates to list + listdata6 = listdatatemp + + # to function 'write new coordinates' + write_new_coordinates(listdata6) + +# Function write the new coordinates to outputfile. +def write_new_coordinates(listdata6): + file_outputname4 = 'outputrotate_points.ply' # sub outputfile + output4 = open(file_outputname4, 'w') + + # write every coordinate to output file + for line in range(0,len(listdata6)): + output4.write("%.7f %.7f %.7f\n"%(listdata6[line][0], listdata6[line][1], listdata6[line][2])) + +# Function to write the new ply file with +def write_ply_file(name_file_ply, var_header,var_vertex_nm,var_face_nm, listtotal_colors, listtotal_vertex): + outfile_rotating2 = open(sys.argv[3], 'w') #create new file + pointsfile = open('outputrotate_points.ply', 'r') #new points + file2= open(name_file_ply) #original ply file + counter = 0 # counter for color + + # writing all the parts of the new ply file + for line in range(0,(int(var_header) + int(var_vertex_nm) + int(var_face_nm) + 1)): + line2 = file2.readline() + readline2 = line2.strip().split() + if line <= (int(var_header)): #header writing + outfile_rotating2.write('%s'%(line2)) + if line == int(var_header): #new coordinates writing + line2 = file2.readline() + readline2 = line2.strip().split() + for vertex in range(0,len(listtotal_vertex)): + line3 = pointsfile.readline().strip() + if vertex >= 4: #from point 4, because they were extra edit to the list in the beginning + outfile_rotating2.write('%s %s %s %s\n'% + (line3, listtotal_colors[counter][0], + listtotal_colors[counter][1], listtotal_colors[counter][2])) + counter += 1 + if line == (int(var_vertex_nm) + int(var_header)-1): #write the faces + for face in range(0, int(var_face_nm)): + line2 = file2.readline() + outfile_rotating2.write('%s'%(line2)) + counter = 0 + + outfile_rotating2.close() # outputfile close + +main()