I asked this question on Code Review, mistakenly thinking it was the proper place to review buggy code.
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I am attempting to write a tangent-basis generation script. The input file is an obj, and the data is read into separate lists for each data type (verts, normals, tex-coords). Can you spot where the script is going wrong? The values I should be getting are not coming up (for a cude shaped object, the "tangents" are not perpendicular to the corresponding normals).
vertices gets filled with tuples of the format: (x,y,z) vertice_Tex_Coords gets filled with tuples of the format: (coord_X, coord_Y) vertices_Normals gets filled with tuples of the format: (norm_X,norm_Y,norm_Z) faces gets filled with tuples of the format: (vert1,vert2,vert3)
Faces holds the vertex indices from the object file. This entire data set is parsed pretty much the same way a obj file is generated actually.
vertices = []
converted_Vertices = []
vertice_Tex_Coords = []
converted_Vertice_Tex_Coords = []
vertice_Normals = []
converted_Vertice_Normals = []
tangent_Space_Matrices = [] # Probably going to remove this and replace with 'Tangents'/'Bi-Tangents'
# tangents = []
# bi_tangents = []
faces = []
# parse_Type = input("Type of file to parse? \n\n 0=Verts \n\n 1=Verts+Normals \n\n 2=Verts+Normals+UV's \n\n\n")
parse_Type = 2
#------------------------------------------------------------------------------#
# PARSE DATA TO SEPARATE LISTS #
#------------------------------------------------------------------------------#
for line in file_In:
line = line.split()
if len(line) !=0 and line[0] == 'v':
vertices.append( tuple( [float(line[1]), float(line[2]), float(line[3])] ) )
elif len(line) !=0 and line[0] == 'vt':
vertice_Tex_Coords.append( tuple( [float(line[1]), float(line[2])] ) )
elif len(line) !=0 and line[0] == 'vn':
vertice_Normals.append( [float(line[1]), float(line[2]), float(line[3]) ] )
# This set of rules determines which way to split faces
elif len(line) !=0 and line[0] == 'f':
if parse_Type == 0: # Handles Vertex-only format exports
face_Pairs = []
for pair in line[1:]:
pair = pair.split('//')
face_Pairs.append( [int(pair[0]),int(pair[1])] )
faces.append(tuple(face_Pairs))
elif parse_Type == 1: # Handles Vertex+Normals format exports
face_Pairs = []
for pair in line[1:]:
pair = pair.split('//')
face_Pairs.append( [int(pair[0]),int(pair[1])] )
faces.append(tuple(face_Pairs))
elif parse_Type == 2: # Handles Vertex+Normals+Tex-Coords format exports
face_Pairs = []
for pair in line[1:]:
pair = pair.split('/')
face_Pairs.append( [int(pair[0]),int(pair[1]),int(pair[2])] )
faces.append(tuple(face_Pairs))
elif parse_Type == 3:
face_Pairs = []
for pair in line[1:]:
pair = pair.split('//')
face_Pairs.append( [int(pair[0]),int(pair[1])] )
faces.append(tuple(face_Pairs))
print "Length of list data: "
print len(vertices)
print len(vertice_Tex_Coords)
print len(vertice_Normals)
The following is the actual code which is supposed to generate the tangent vector (which gets cross-prod multiplied to get the bi-tangent.
def calc_Tangent_Space(vertices, converted_Vertices, vertice_Tex_Coords, converted_Vertice_Tex_Coords, vertice_Normals, converted_Vertice_Normals, faces):
from numpy import array, cross, dot, where
from numpy.linalg import norm, det
from math import sqrt
from decimal import *
# Following sets precision of Decimal class operations
setcontext(ExtendedContext)
getcontext().prec = 6
tangent_Space_Matrices = []
# Convert vertice elements to Decimal class for accuracy (Is there a better way of handling this?)
for elem in vertices:
temp_List = []
for f in elem:
temp_List.append(Decimal(f))
converted_Vertices.append(tuple(temp_List))
for elem in vertice_Tex_Coords:
temp_List = []
for f in elem:
temp_List.append(Decimal(f))
converted_Vertice_Tex_Coords.append(temp_List)
for elem in vertice_Normals:
temp_List = []
for f in elem:
temp_List.append(Decimal(f))
converted_Vertice_Normals.append(temp_List)
counter = 0
for vert in vertices:
counter +=1
index_Val = 0
faces_Connected = []
face_Positions = []
# Find which faces use the current vert, and record the face (faces_Connected) it's position within each (face_Positions)
for face in faces:
if converted_Vertices.index(vert) == face[0][0]-1:
# print "connected: ", face
faces_Connected.append(face)
face_Positions.append(0)
elif converted_Vertices.index(vert) == face[1][0]-1:
faces_Connected.append(face)
face_Positions.append(1)
elif converted_Vertices.index(vert) == face[2][0]-1:
faces_Connected.append(face)
face_Positions.append(2)
vert_0 = () # Vert_0 will always be the current vert. It's the pivot, and gets SUBTRACTED from the other two to form the vectors.
vert_1 = ()
vert_2 = ()
vector_1 = ()
vector_2 = ()
texCoordsVector_1 = ()
texCoordsVector_2 = ()
quotient = 0
vectors_To_Avg = []
for f in faces_Connected:
print "\nConnected Face: ", f
for f in faces_Connected:
tangent_Vec_Matrix = [[Decimal(0.0), Decimal(0.0), Decimal(0.0)], [Decimal(0.0), Decimal(0.0), Decimal(0.0)]]
if face_Positions[faces_Connected.index(f)] == 0:
# Assign the verts based on current verts position in tri
vert_0 = converted_Vertices[f[0][0]-1]
vert_1 = converted_Vertices[f[1][0]-1]
vert_2 = converted_Vertices[f[2][0]-1]
# Create tex Coord Vectors
texCoordsVector_1 = tuple( [converted_Vertice_Tex_Coords[f[1][2]-1][0] - converted_Vertice_Tex_Coords[f[0][2]-1][0],
converted_Vertice_Tex_Coords[f[1][2]-1][1] - converted_Vertice_Tex_Coords[f[0][2]-1][1]] )
texCoordsVector_2 = tuple( [converted_Vertice_Tex_Coords[f[2][2]-1][0] - converted_Vertice_Tex_Coords[f[0][2]-1][0],
converted_Vertice_Tex_Coords[f[2][2]-1][1] - converted_Vertice_Tex_Coords[f[0][2]-1][1]] )
elif face_Positions[faces_Connected.index(f)] == 1:
# Assign the verts based on current verts position in tri
vert_0 = converted_Vertices[f[1][0]-1]
vert_1 = converted_Vertices[f[2][0]-1]
vert_2 = converted_Vertices[f[0][0]-1]
# Create tex Coord Vectors
texCoordsVector_1 = tuple( [converted_Vertice_Tex_Coords[f[0][2]-1][0] - converted_Vertice_Tex_Coords[f[1][2]-1][0],
converted_Vertice_Tex_Coords[f[0][2]-1][1] - converted_Vertice_Tex_Coords[f[1][2]-1][1]] )
texCoordsVector_2 = tuple( [converted_Vertice_Tex_Coords[f[2][2]-1][0] - converted_Vertice_Tex_Coords[f[0][2]-1][0],
converted_Vertice_Tex_Coords[f[2][2]-1][1] - converted_Vertice_Tex_Coords[f[0][2]-1][1]] )
elif face_Positions[faces_Connected.index(f)] == 2:
# Assign the verts based on current verts position in tri
vert_0 = converted_Vertices[f[2][0]-1]
vert_1 = converted_Vertices[f[0][0]-1]
vert_2 = converted_Vertices[f[1][0]-1]
# Create tex Coord Vectors
texCoordsVector_1 = tuple( [converted_Vertice_Tex_Coords[f[1][2]-1][0] - converted_Vertice_Tex_Coords[f[2][2]-1][0],
converted_Vertice_Tex_Coords[f[1][2]-1][1] - converted_Vertice_Tex_Coords[f[2][2]-1][1]] )
texCoordsVector_2 = tuple( [converted_Vertice_Tex_Coords[f[0][2]-1][0] - converted_Vertice_Tex_Coords[f[2][2]-1][0],
converted_Vertice_Tex_Coords[f[0][2]-1][1] - converted_Vertice_Tex_Coords[f[2][2]-1][1]] )
# Create vertex Vectors
vector_1 = tuple([(vert_1[0]-vert_0[0]), (vert_1[1]-vert_0[1]), (vert_1[2]-vert_0[2])])
vector_2 = tuple([(vert_2[0]-vert_0[0]), (vert_2[1]-vert_0[1]), (vert_2[2]-vert_0[2])])
# Create Quotient
quotient = Decimal(1.0)/((texCoordsVector_1[0]*texCoordsVector_2[1]) - (texCoordsVector_2[0]*texCoordsVector_1[1]))
# Create the determinant for the inverse tex coord matrix
determinant = det([texCoordsVector_1,texCoordsVector_2])
# Create the inverse tex coord matrix using the determinant
inverse_Tex_Coord_Matrix = [ [ texCoordsVector_2[1]/Decimal(determinant), -texCoordsVector_1[1]/Decimal(determinant)],
[-texCoordsVector_2[0]/Decimal(determinant), texCoordsVector_1[0]/Decimal(determinant)] ]
tangent_Vec_Matrix[0][0] = quotient * ((inverse_Tex_Coord_Matrix[0][0] * vector_1[0]) + (inverse_Tex_Coord_Matrix[1][0] * vector_2[0]))
tangent_Vec_Matrix[0][1] = quotient * ((inverse_Tex_Coord_Matrix[0][0] * vector_1[1]) + (inverse_Tex_Coord_Matrix[1][0] * vector_2[1]))
tangent_Vec_Matrix[0][2] = quotient * ((inverse_Tex_Coord_Matrix[0][0] * vector_1[2]) + (inverse_Tex_Coord_Matrix[1][0] * vector_2[2]))
tangent_Vec_Matrix[1][0] = quotient * ((inverse_Tex_Coord_Matrix[1][0] * vector_1[0]) + (inverse_Tex_Coord_Matrix[1][1] * vector_2[0]))
tangent_Vec_Matrix[1][1] = quotient * ((inverse_Tex_Coord_Matrix[1][0] * vector_1[1]) + (inverse_Tex_Coord_Matrix[1][1] * vector_2[1]))
tangent_Vec_Matrix[1][2] = quotient * ((inverse_Tex_Coord_Matrix[1][0] * vector_1[2]) + (inverse_Tex_Coord_Matrix[1][1] * vector_2[2]))
# Normalize the vectors here
magnitude = norm(tangent_Vec_Matrix[0])
tangent_Vec_Matrix[0][0] /= magnitude
tangent_Vec_Matrix[0][1] /= magnitude
tangent_Vec_Matrix[0][2] /= magnitude
magnitude = norm(tangent_Vec_Matrix[1])
tangent_Vec_Matrix[1][0] /= magnitude
tangent_Vec_Matrix[1][1] /= magnitude
tangent_Vec_Matrix[1][2] /= magnitude
vectors_To_Avg.append(tangent_Vec_Matrix)
# Begin averaging all the vectors just like you would the normals
matrix_Map = [(0,0), (0,1), (0,2), (1,0), (1,1), (1,2)]
consolidated_Matrix = array([ [Decimal(0.0), Decimal(0.0), Decimal(0.0)], [Decimal(0.0), Decimal(0.0), Decimal(0.0)] ])
for mat in vectors_To_Avg:
consolidated_Matrix += array(mat)
consolidated_Matrix /= len(vectors_To_Avg)
consolidated_Matrix = array([consolidated_Matrix[0], consolidated_Matrix[1], cross(consolidated_Matrix[0], consolidated_Matrix[1])])
temp_Matrix =[]
temp_Vec = []
mag = norm(consolidated_Matrix[0])
for elem in consolidated_Matrix[0]:
elem_ID = where(elem)
consolidated_Matrix[0][elem_ID] /= mag
mag = norm(consolidated_Matrix[1])
for elem in consolidated_Matrix[1]:
elem_ID = where(elem)
consolidated_Matrix[1][elem_ID] /= mag
mag = norm(consolidated_Matrix[2])
for elem in consolidated_Matrix[2]:
elem_ID = where(elem)
consolidated_Matrix[2][elem_ID] /= mag
tangent_Space_Matrices.append(consolidated_Matrix)
# for each vector set in the list:
# grab each vectorand make them orthogonal, assign to the first vector and store the winding order as the "W" component
#
# Gram-Schmidt orthogonalize:
# tangent[a] = (t - n * Dot(n, t)).Normalize();
return tangent_Space_Matrices
A copy of the obj file:
# Blender v2.70 (sub 0) OBJ File: ''
# www.blender.org
o Cube
v -1.000000 -1.000000 1.000000
v -1.000000 -1.000000 -1.000000
v 1.000000 -1.000000 -1.000000
v 1.000000 -1.000000 1.000000
v -1.000000 1.000000 1.000000
v -1.000000 1.000000 -1.000000
v 1.000000 1.000000 -1.000000
v 1.000000 1.000000 1.000000
v -1.194667 0.000000 1.194667
v -1.194667 1.194667 0.000000
v -1.194667 0.000000 -1.194667
v -1.194667 -1.194667 0.000000
v 0.000000 1.194667 -1.194667
v 1.194667 0.000000 -1.194667
v 0.000000 -1.194667 -1.194667
v 1.194667 1.194667 0.000000
v 1.194667 0.000000 1.194667
v 1.194667 -1.194667 0.000000
v 0.000000 1.194667 1.194667
v 0.000000 -1.194667 1.194667
v -1.543509 0.000000 0.000000
v 0.000000 0.000000 -1.543509
v 1.543509 0.000000 0.000000
v 0.000000 0.000000 1.543509
v 0.000000 -1.543509 0.000000
v 0.000000 1.543509 0.000000
vt 0.854079 0.521961
vt 0.805523 0.654757
vt 0.664129 0.654982
vt 0.310049 0.333551
vt 0.451444 0.333775
vt 0.500000 0.466571
vt 0.664128 0.987142
vt 0.536081 0.940552
vt 0.532186 0.798731
vt 0.310049 0.984442
vt 0.182002 0.937853
vt 0.178107 0.796032
vt 0.368058 0.009068
vt 0.500000 0.061219
vt 0.500000 0.197479
vt 0.854079 0.195874
vt 0.805523 0.328669
vt 0.664129 0.328894
vt 0.532186 0.466571
vt 0.689643 0.489283
vt 0.722137 0.333551
vt 0.854079 0.385702
vt 0.368058 0.654982
vt 0.335564 0.499250
vt 0.178107 0.521961
vt 0.182002 0.380140
vt 0.722137 0.665711
vt 0.689643 0.821443
vt 0.854079 0.854122
vt 0.805523 0.986917
vt 0.368058 0.663011
vt 0.335564 0.818743
vt 0.500000 0.851422
vt 0.451444 0.984218
vt 0.310049 0.330499
vt 0.335564 0.164800
vt 0.178107 0.142088
vt 0.230559 0.014854
vt 0.532187 0.140483
vt 0.689643 0.163195
vt 0.722137 0.007463
vt 0.854079 0.059614
vt 0.536081 0.608392
vt 0.584638 0.339337
vt 0.500000 0.602830
vt 0.230559 0.649195
vt 0.584638 0.671497
vt 0.854079 0.717862
vt 0.230558 0.668798
vt 0.500000 0.715163
vt 0.451444 0.330274
vt 0.182002 0.283909
vt 0.536081 0.282305
vt 0.584638 0.013249
vn -0.965392 0.000000 -0.260804
vn -0.681744 -0.681744 -0.265426
vn -0.707083 -0.707083 0.000000
vn 0.707083 0.000000 -0.707083
vn 0.577350 -0.577350 -0.577350
vn 0.000000 -0.260804 -0.965392
vn 0.707083 0.000000 0.707083
vn 0.577350 -0.577350 0.577350
vn 0.707083 -0.707083 0.000000
vn -0.260804 0.000000 0.965392
vn -0.228726 -0.228727 0.946239
vn 0.000000 -0.260804 0.965392
vn 0.000000 -0.965392 -0.260804
vn -0.000000 0.965392 -0.260804
vn -0.681744 0.681744 -0.265426
vn -0.707083 0.707083 0.000000
vn -0.965392 -0.000000 0.260804
vn -1.000000 0.000000 0.000000
vn -0.260804 -0.000000 -0.965392
vn 0.000000 0.000000 -1.000000
vn 0.000000 0.260804 -0.965392
vn 0.681744 0.265426 -0.681744
vn 1.000000 0.000000 0.000000
vn 0.965392 0.260804 0.000000
vn 0.681744 0.265426 0.681744
vn 0.000000 0.000000 1.000000
vn -0.000000 0.260804 0.965392
vn -0.228726 0.228727 0.946239
vn -0.000000 -0.965392 0.260804
vn 0.000000 -1.000000 0.000000
vn 0.000000 0.965392 0.260804
vn 0.000000 1.000000 0.000000
vn 0.260804 0.965392 0.000000
vn 0.228727 0.946239 -0.228726
vn -0.681744 -0.681744 0.265426
vn -0.681744 0.681744 0.265426
vn -0.228726 -0.228727 -0.946239
vn -0.228726 0.228727 -0.946239
vn 0.228727 0.946239 0.228726
usemtl None
s 1
f 11/1/1 2/2/2 12/3/3
f 14/4/4 3/5/5 15/6/6
f 17/7/7 4/8/8 18/9/9
f 9/10/10 1/11/11 20/12/12
f 15/13/13 3/14/5 18/15/9
f 13/16/14 6/17/15 10/18/16
f 9/19/17 21/20/18 12/3/3
f 10/21/16 21/20/18 9/19/17
f 10/21/16 6/22/15 11/1/1
f 11/23/19 22/24/20 15/6/6
f 13/25/21 22/24/20 11/23/19
f 13/25/21 7/26/22 14/4/4
f 14/27/4 23/28/23 18/9/9
f 16/29/24 23/28/23 14/27/4
f 16/29/24 8/30/25 17/7/7
f 17/31/7 24/32/26 20/12/12
f 19/33/27 24/32/26 17/31/7
f 19/33/27 5/34/28 9/10/10
f 20/35/29 25/36/30 18/15/9
f 12/37/3 25/36/30 20/35/29
f 12/37/3 2/38/2 15/13/13
f 19/39/31 26/40/32 10/18/16
f 16/41/33 26/40/32 19/39/31
f 16/41/33 7/42/34 13/16/14
f 21/20/18 11/1/1 12/3/3
f 22/24/20 14/4/4 15/6/6
f 23/28/23 17/7/7 18/9/9
f 24/32/26 9/10/10 20/12/12
f 25/36/30 15/13/13 18/15/9
f 26/40/32 13/16/14 10/18/16
f 1/43/35 9/19/17 12/3/3
f 5/44/36 10/21/16 9/19/17
f 21/20/18 10/21/16 11/1/1
f 2/45/37 11/23/19 15/6/6
f 6/46/38 13/25/21 11/23/19
f 22/24/20 13/25/21 14/4/4
f 3/47/5 14/27/4 18/9/9
f 7/48/22 16/29/24 14/27/4
f 23/28/23 16/29/24 17/7/7
f 4/49/8 17/31/7 20/12/12
f 8/50/25 19/33/27 17/31/7
f 24/32/26 19/33/27 9/10/10
f 4/51/8 20/35/29 18/15/9
f 1/52/35 12/37/3 20/35/29
f 25/36/30 12/37/3 15/13/13
f 5/53/36 19/39/31 10/18/16
f 8/54/39 16/41/33 19/39/31
f 26/40/32 16/41/33 13/16/14
A copy of the outputted Tangent_Space_Matrices:
[[Decimal('-1.71863') Decimal('0.436203') Decimal('-0.00356367')]
[Decimal('5.17739') Decimal('0.0262889') Decimal('0.113778')]
[Decimal('5.53967') Decimal('0.0550711') Decimal('-0.194126')]]
[[Decimal('-0.893424') Decimal('0.53703') Decimal('0.330398')]
[Decimal('3.12530') Decimal('-0.233673') Decimal('0.144461')]
[Decimal('5.88255') Decimal('0.236697') Decimal('-0.092097')]]
[[Decimal('-3.92581') Decimal('0.00338467') Decimal('0.210698')]
[Decimal('1.30546') Decimal('-0.196836') Decimal('-0.487913')]
[Decimal('233.266') Decimal('0.0380384') Decimal('0.00668408')]]
[[Decimal('1.10141') Decimal('0.105360') Decimal('0.222156')]
[Decimal('0.374179') Decimal('0.470633') Decimal('-0.459993')]
[Decimal('-39.9670') Decimal('0.0322965') Decimal('-0.00396433')]]
[[Decimal('3.63704') Decimal('0.059916') Decimal('0.274198')]
[Decimal('-0.844737') Decimal('-0.624593') Decimal('0.215930')]
[Decimal('4.92071') Decimal('-0.180000') Decimal('-0.213479')]]
[[Decimal('-12.4175') Decimal('-0.152201') Decimal('0.078841')]
[Decimal('-5.26066') Decimal('-0.269853') Decimal('-0.0181329')]
[Decimal('898.268') Decimal('-0.0169986') Decimal('-0.0052866')]]
[[Decimal('1.47515') Decimal('-0.316216') Decimal('-0.0901863')]
[Decimal('1.16518') Decimal('-0.00368167') Decimal('0.523723')]
[Decimal('-26.3244') Decimal('-0.0474518') Decimal('0.0658484')]]
[[Decimal('-10.5317') Decimal('0.0619627') Decimal('-0.118149')]
[Decimal('1.61942') Decimal('0.084988') Decimal('-0.478947')]
[Decimal('-4.18692') Decimal('-0.160955') Decimal('-0.0415415')]]
[[Decimal('-0.744823') Decimal('-0.182531') Decimal('-0.23390')]
[Decimal('-2.61680') Decimal('0.37657') Decimal('0.071616')]
[Decimal('53.5092') Decimal('0.0623191') Decimal('-0.0549116')]]
[[Decimal('2.56020') Decimal('-0.188995') Decimal('-0.338066')]
[Decimal('0.782069') Decimal('0.344924') Decimal('0.123135')]
[Decimal('32.8582') Decimal('-0.0450337') Decimal('0.0965270')]]
[[Decimal('3.00188') Decimal('-0.356844') Decimal('0.029567')]
[Decimal('5.17998') Decimal('-0.223486') Decimal('-0.0739466')]
[Decimal('300.374') Decimal('0.0208984') Decimal('-0.0277167')]]
[[Decimal('3.20561') Decimal('-0.279892') Decimal('0.171362')]
[Decimal('8.32054') Decimal('-0.0193308') Decimal('-0.192476')]
[Decimal('146.933') Decimal('0.0417765') Decimal('0.0177536')]]
[[Decimal('1.87810') Decimal('-0.394379') Decimal('-0.0753646')]
[Decimal('5.03821') Decimal('-0.114146') Decimal('-0.0610071')]
[Decimal('4.61085') Decimal('-0.0223741') Decimal('0.147173')]]
[[Decimal('10.9217') Decimal('-0.153599') Decimal('0.107657')]
[Decimal('-7.82668') Decimal('-0.179895') Decimal('-0.127484')]
[Decimal('194.460') Decimal('0.0013918') Decimal('-0.0436388')]]
[[Decimal('-1.14915') Decimal('-0.267789') Decimal('0.276414')]
[Decimal('-9.70081') Decimal('0.155311') Decimal('0.0281595')]
[Decimal('-33.9198') Decimal('-0.0669974') Decimal('-0.0774431')]]
[[Decimal('-0.515017') Decimal('0.176061') Decimal('0.417142')]
[Decimal('5.90286') Decimal('-0.0289631') Decimal('-0.252752')]
[Decimal('-96.8026') Decimal('0.0551345') Decimal('-0.0270499')]]
[[Decimal('-3.23047') Decimal('-0.28732') Decimal('-0.00698838')]
[Decimal('2.33777') Decimal('0.0559616') Decimal('0.124631')]
[Decimal('-688.674') Decimal('0.0108797') Decimal('-0.00318628')]]
[[Decimal('0.502196') Decimal('0.116836') Decimal('0.747486')]
[Decimal('-15.5062') Decimal('-0.0638302') Decimal('-0.137219')]
[Decimal('556.324') Decimal('-0.0204466') Decimal('-0.00764613')]]
[[Decimal('0.209075') Decimal('-0.387024') Decimal('0.179379')]
[Decimal('-4.35057') Decimal('0.24733') Decimal('0.141904')]
[Decimal('-26.7169') Decimal('-0.0534034') Decimal('-0.106219')]]
[[Decimal('1.29200') Decimal('-0.257231') Decimal('-0.178968')]
[Decimal('-5.72240') Decimal('0.00422338') Decimal('-0.111968')]
[Decimal('13.6006') Decimal('0.0751484') Decimal('-0.101278')]]
[[Decimal('5.60942') Decimal('0.0444642') Decimal('0.248025')]
[Decimal('3.05805') Decimal('-0.351908') Decimal('0.0449598')]
[Decimal('31.0427') Decimal('0.0506420') Decimal('-0.0984297')]]
[[Decimal('-4.09833') Decimal('-0.144532') Decimal('0.265408')]
[Decimal('1.26981') Decimal('0.45041') Decimal('0.0672595')]
[Decimal('-38.5617') Decimal('0.0478609') Decimal('-0.0582978')]]
[[Decimal('0.427084') Decimal('0.188040') Decimal('0.345115')]
[Decimal('1.10737') Decimal('-0.422318') Decimal('-0.241098')]
[Decimal('56.3329') Decimal('0.0561973') Decimal('-0.0382132')]]
[[Decimal('1.93299') Decimal('0.368665') Decimal('-0.246565')]
[Decimal('-1.07242') Decimal('-0.223065') Decimal('-0.296902')]
[Decimal('-22.4639') Decimal('0.0951676') Decimal('-0.0400012')]]
[[Decimal('1.45521') Decimal('0.0426258') Decimal('0.460932')]
[Decimal('-6.87113') Decimal('0.00734925') Decimal('-0.206597')]
[Decimal('-20.4614') Decimal('0.0829523') Decimal('0.00720732')]]
[[Decimal('3.66955') Decimal('0.290382') Decimal('-0.143062')]
[Decimal('7.98748') Decimal('0.0173328') Decimal('0.218166')]
[Decimal('52.3476') Decimal('-0.0723939') Decimal('-0.0455665')]]
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I know it is quite a long piece, but I am seriously stuck...I looked over the math and I am not sure wth could be wrong. Is this ok to post? If not, could someone recommend a suitable place for me to get help with fixing this algorithm? I'll probably end up using assimp to generate the TBN's, but I would like to know what I missed here... :/
