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small3dlib/obj2array.py
2019-05-26 16:42:55 +02:00

190 lines
4.5 KiB
Python

# Python tool to convert a 3D model from the text obj format to C arrays to be
# used with small3dlib.
#
# by drummyfish
# released under CC0 1.0.
import sys
def printHelp():
print("Convert 3D model in OBJ format (text, triangulated) to C array for small3dlib.")
print("usage:\n")
print(" python obj2array.py [-c -sX -uY -vZ -n] file\n")
print(" -c compact format (off by default)")
print(" -t use direct instead of indexed UV coords (off by default)")
print(" -h include header guards (for model per file)")
print(" -nS use the name S for the model (defaut: \"model\")")
print(" -sX scale the model by X (default: 512)")
print(" -uY scale the U texture coord by Y (default: 512)")
print(" -vZ scale the V texture coord by Z (default: 512)")
print("");
print("by Miloslav \"drummyfish\" Ciz")
print("released under CC0 1.0")
if len(sys.argv) < 2:
printHelp()
quit()
FILENAME = ""
VERTEX_SCALE = 512
U_SCALE = 512
V_SCALE = 512
NAME = "model"
GUARDS = False
COMPACT = False
INDEXED_UVS = True
for s in sys.argv:
if s == "-c":
COMPACT = True
elif s == "-t":
INDEXED_UVS = False
elif s == "-h":
GUARDS = True
elif s[:2] == "-s":
VERTEX_SCALE = int(s[2:])
elif s[:2] == "-u":
U_SCALE = int(s[2:])
elif s[:2] == "-v":
V_SCALE = int(s[2:])
elif s[:2] == "-n":
NAME = s[2:]
else:
FILENAME = s
objFile = open(FILENAME)
vertices = []
uvs = []
triangles = []
triangleUVs = []
# parse the file:
for line in objFile:
if line[:2] == "v ":
coords = line[2:].split()
vertex = [float(coords[i]) for i in range(3)]
vertices.append(vertex)
elif line[:3] == "vt ":
coords = line[3:].split()
vertex = [float(coords[i]) for i in range(2)]
uvs.append(vertex)
elif line[:2] == "f ":
indices = line[2:].split()
if len(indices) != 3:
raise(Exception("The model is not triangulated!"))
t = []
u = []
for i in indices:
components = i.split("/")
t.append(int(components[0]) - 1)
u.append(int(components[0]) - 1)
triangles.append(t)
triangleUVs.append(t)
# print the result:
def arrayString(name, array, components, scales, align, short, dataType):
result = "const " + dataType + " " + name + "[] = {\n"
if COMPACT:
lineLen = 0
first = True
n = 0
for v in array:
for c in v:
item = ""
if first:
first = False
else:
result += ","
lineLen += 1
if lineLen >= 80:
result += "\n"
lineLen = 0
num = c * scales[n % len(scales)]
if short:
item += str(num)
else:
item += ("" if num >= 0 else "-") + "0x%x" % abs(num)
if lineLen + len(item) > 80:
result += "\n"
lineLen = 0
result += item
lineLen += len(item)
n += 1
result += "};\n"
else: # non-compact
n = 0
endIndex = len(array) - 1
for v in array:
line = " " + ", ".join([str(int(v[c] * scales[c % len(scales)])).rjust(align) for c in range(components)])
if n < endIndex:
line += ","
line = line.ljust((components + 2) * (align + 1)) + "// " + str(n * components) + "\n"
result += line
n += 1
result += "}; // " + name + "\n"
return result
result = ""
if GUARDS:
print("#ifndef " + NAME.upper() + "_H")
print("#define " + NAME.upper() + "_H\n")
print(arrayString(NAME + "Vertices",vertices,3,[VERTEX_SCALE],5,False,"S3L_Unit"))
print(arrayString(NAME + "TriangleIndices",triangles,3,[1],5,True,"S3L_Index"))
if INDEXED_UVS:
print(arrayString(NAME + "UVs",vertices,2,[U_SCALE,V_SCALE],5,False,"S3L_Unit"))
print(arrayString(NAME + "UVIndices",triangleUVs,3,[1],5,True,"S3L_Index"))
else:
uvs2 = []
for item in triangleUVs:
uvs2.append([
uvs[item[0]][0],
uvs[item[0]][1],
uvs[item[1]][0],
uvs[item[1]][1],
uvs[item[2]][0],
uvs[item[2]][1]])
print(arrayString(NAME + "TriangleUVs",uvs2,6,[U_SCALE,V_SCALE],5,False,"S3L_Unit"))
print("S3L_Model3D " + NAME + " = ")
if COMPACT:
print("{.vertices=" +
NAME + "Vertices,.vertexCount=" + str(len(vertices)) +
",.triangles=" + NAME + "TriangleIndices,\n.triangleCount=" +
str(len(triangles)) + "};");
else:
print("{")
print(" .vertices = " + NAME + "Vertices,")
print(" .vertexCount = " + str(len(vertices)) + ",")
print(" .triangles = " + NAME + "TriangleIndices,")
print(" .triangleCount = " + str(len(triangles)))
print("};")
if GUARDS:
print("\n#endif // guard")