В этом языке вообще не разбираюсь, потыкался несколько часов по подсказкам компилятора, но так ничего и не получилось.
# -----------------------------------------------------------------------------
# STL2H by Themistokle "mrt-prodz" Benetatos
# -------------------------------------------
# Convert STL 3D models (ASCII) to header for Tiny 3D Engine
#
# ------------------------
# http://www.mrt-prodz.com
# http://github.com/mrt-prodz/ATmega328-Tiny-3D-Engine
# -----------------------------------------------------------------------------
import sys, getopt, os
# global parameters
param_verbose = False
param_normals = False
param_yes = False
param_scale = 1.0
def checkFile(outfile):
# keep asking user until overwrite is chosen or a non-existing file name is entered
while (os.path.isfile(outfile) is True):
overwrite = raw_input('[!] Output data file "%s" already exists, overwrite? [y/n] ' % outfile)
if overwrite in ('y', 'Y'):
return outfile
elif overwrite in ('n', 'N'):
outfile = raw_input('[?] Enter new output data file name: ')
if (outfile == ''):
outfile = 'temp.h'
return outfile
def printVerbose(str):
global param_verbose
if param_verbose is True:
print str,
def saveDAT(nodes, triangles, outfile, normals = None):
print '[+] Saving output file:', outfile
data = '// exported with stl2h\n'
data += '// '
data += ' '.join(sys.argv[:]) + '\n'
data += '#ifndef MESH_H\n'
data += '#define MESH_H\n'
data += '\n'
data += '#define NODECOUNT ' + str(len(nodes)) + '\n'
data += '#define TRICOUNT ' + str(len(triangles)) + '\n'
data += '\n'
data += '#define NODE(a, b) (long)(pgm_read_dword(&nodes[a][b]))\n'
data += '#define EDGE(a, b) pgm_read_byte(&faces[a][b])\n'
data += '#define NORMAL(a, b) (long)(pgm_read_dword(&normals[a][b]))\n'
data += '\n'
data += 'const long nodes[NODECOUNT][3] PROGMEM = {\n'
for index, node in enumerate(nodes):
data += ' {(long)(' + str(round(float(node[0]), 5)*param_scale) + '*PRES), '\
+ '(long)(' + str(round(float(node[1]), 5)*param_scale) + '*PRES), '\
+ '(long)(' + str(round(float(node[2]), 5)*param_scale) + '*PRES)},\n'
data += '};\n\n'
data += 'const unsigned char faces[TRICOUNT][3] PROGMEM = {\n'
for index, face in enumerate(triangles):
data += ' {' + str(face[0]) + ', ' + str(face[1]) + ', ' + str(face[2]) + '},\n'
data += '};\n\n'
data += 'const long normals[TRICOUNT][3] PROGMEM = {\n'
for index, normal in enumerate(normals):
data += ' {(long)(' + str(round(float(normal[0]), 5)) + '*PRES), '\
+ '(long)(' + str(round(float(normal[1]), 5)) + '*PRES), '\
+ '(long)(' + str(round(float(normal[2]), 5)) + '*PRES)},\n'
data += '};\n\n'
data += '#endif // MESH_H\n'
dat = open(outfile, 'w')
dat.write(data)
dat.close()
printVerbose(data)
def parseSTL(infile, outfile):
global param_verbose
if param_verbose is True:
print '[+] Parsing STL file with verbose output'
# if -y is not set check for file being overwritten
global param_yes
if param_yes is False:
outfile = checkFile(outfile)
print '[+] Input STL file:', infile
print '[+] Output header file:', outfile
stl = open(infile, 'r')
nodes = []
unique_nodes = []
triangles = [[]]
normals = []
global param_normals
if param_normals is True:
print '[+] Saving facet normals information'
# store vertex into list first
print('[+] Gathering vertices')
for index, line in enumerate(stl):
# split line into tokens and keep only vertices
token = line.split()
if (len(token) == 4) and (token[0] == 'vertex'):
# store x y z into list
nodes.append([token[1], token[2], token[3]])
printVerbose(' ' + line)
# quickly check that we have sets of 3 vertices for each triangle
check = len(nodes) % 3
print '[+] STL file check:', ('good' if check == 0 else 'bad')
if check != 0:
print '[!] Error with STL file, each triangle should be made of 3 vertices (missing %d vertex)' % (3 - check)
sys.exit(2)
# keep only unique nodes
print('[+] Keeping unique vertices')
[unique_nodes.append(item) for item in nodes if item not in unique_nodes]
# output stored vertices
if param_verbose is True:
for node in unique_nodes:
# print previous triangle created
printVerbose(' ' + str(node[0]) + ', '
+ str(node[1]) + ', '
+ str(node[2]) + '\n')
# seek start of file to get triangles
stl.seek(0, 0)
# assign vertex index to triangle list
print('[+] Gathering triangles')
index = 0
for line in stl:
# split line into tokens
token = line.split()
if (len(token) == 4) and (token[0] == 'vertex'):
# compare current array to unique_nodes and set index in triangle
for i, node in enumerate(unique_nodes):
# if xyz match
if [token[1], token[2], token[3]] == node:
# add to current triangle list if array at index has less than 3 items
if len(triangles[index]) < 3:
triangles[index].append(i)
if len(triangles[index]) == 3:
# print previous triangle created
printVerbose(' ' + str(triangles[index][0]) + ', '
+ str(triangles[index][1]) + ', '
+ str(triangles[index][2]) + '\n')
break
# else create new array
else:
# increase index
index += 1
# append array with new item
triangles.append([i])
break
# gather normals if parameter is true
if param_normals is True:
print('[+] Gathering normals')
# seek start of file to get normals
stl.seek(0, 0)
# gather normals
for line in stl:
# split line into tokens
token = line.split()
if (len(token) == 5) and (token[0] == 'facet') and (token[1] == 'normal'):
# store vector normal
normal = [token[2], token[3], token[4]]
# print normal if verbose mode
printVerbose(' ' + str(normal[0]) + ', '
+ str(normal[1]) + ', '
+ str(normal[2]) + '\n')
normals.append(normal)
# print stats
print '[+] Vertices: ', len(unique_nodes)
print '[+] Triangles:', len(triangles)
if param_normals is True:
print '[+] Normals:', len(normals)
saveDAT(unique_nodes, triangles, outfile, normals)
else:
saveDAT(unique_nodes, triangles, outfile, normals)
print '[+] Done\n'
def usage():
print 'Usage: %s -i <inputfile> -o <outputfile>' % sys.argv[0]
print 'Convert a 3D mesh saved as STL format (ASCII) to header for Tiny 3D Engine.\n'
print ' -i, --inputfile \t3D mesh in STL file format'
print ' -o, --outputfile\toutput filename of converted data'
print ' -s, --scale \tscale ratio (default 1.0)'
print ' -n, --normals \tsave face normals'
print ' -y, --yes \tanswer yes to all requests'
print ' -v, --verbose \tverbose output'
def main(argv):
infile = ''
outfile = ''
# parse command line arguments
try:
opts, args = getopt.getopt(sys.argv[1:],'i:o:s:nhyv',['help', 'yes', 'normals', 'scale=', 'input=', 'output=', 'verbose='])
except getopt.GetoptError as error:
print 'Error:', str(error)
usage()
sys.exit(2)
if len(opts) < 2:
usage()
sys.exit(2)
for opt, arg in opts:
if opt in ('-h', '--help'):
usage()
sys.exit()
elif opt in ('-i', '--input'):
infile = arg
elif opt in ('-o', '--output'):
outfile = arg
elif opt in ('-s', '--scale'):
global param_scale
try:
param_scale = float(arg)
except Exception as converror:
print 'Error:', str(converror)
sys.exit(2)
elif opt in ('-v', '--verbose'):
global param_verbose
param_verbose = True
elif opt in ('-y', '--yes'):
global param_yes
param_yes = True
elif opt in ('-n', '--normals'):
global param_normals
param_normals = True
if (not infile) or (not outfile):
print 'Error: You need to specify both input and output files'
usage()
sys.exit(2)
if infile == outfile:
print 'Error: Input and output files are the same'
usage()
sys.exit(2)
# parse STL file and convert to data
parseSTL(infile, outfile)
if __name__ == '__main__':
main(sys.argv[1:])
Python 2.x.x. На ветке3.x.xточно не запустится.print a, b, cиспользуетсяprint(a, b, c). А вообще, решение запускать код на python2.x более корректное`