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Wrote documentation for the python interface
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docs/doc-python.txt
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docs/doc-python.txt
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lib3ddevil1/bindings
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Python interface to C library functions of lib3ddevil1.
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This component uses ctypes thus it must access a compiled .so file (internally
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a .dll for Windows). The .so may be located in the top level of the library
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directory or any directory in the environment variable's path.
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Note that there are two categories of objects in each python interface. One is
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derived from ctypes.Structure, and the other is a pythonic object. The former
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is for internal use and requires knowledge of both python, C, and ctypes. The
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latter is to be used by python users.
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Functions and Objects
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class pyPldHeader
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def __init__(self, filedata = None):
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parameters: file data, is a single line list of data.
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This function may raise RuntimeError when it fails to initialize
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based on file data.
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def show(self):
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This prints the contents of the object.
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def getnumoffsets(self):
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This returns the attribute numOffsets of a PldHeader.
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See details of the C struct in doc-pld.txt.
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def getoffsets(self):
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This returns a pythonic list of offsets.
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The offsets can be accessed via list comprehensions.
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def sizeofsector(self, i):
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parameter: i, an integer.
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This returns the size of the i-th sector in the .pld.
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If the result is -1, then specified i is out of range.
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class PyTexturePack
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def __init__(self, filedata):
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parameters: file data, a single line list of data.
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This function may raise RuntimeError when it fails to initialize
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based on file data.
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See details of the C struct in doc-tex.txt.
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def show(self):
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This prints the contents of the object.
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def getbatchnumber(self):
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This returns the attribute 'batchNumber'.
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def getfirstbatchoffset(self):
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This returns the attribute 'firstBatchOffset'.
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class pyTextureBatchDescriptor:
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def __init__(self, i, filedata):
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parameters: i, for i-th instance of TextureBatchDescriptor.
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filedata, a single line list of data.
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This function may raise RuntimeError when it fails to initialize
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based on file data.
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See details of the C struct in doc-tex.txt.
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def show(self):
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This prints the contents of the object.
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def getbatchidx(self):
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This returns the attribute 'batchidx'.
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def gethash(self):
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This returns the attribute 'hash'.
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def gettexnumber(self):
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This returns the attribute 'texNumber'.
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def gettexturesize(self):
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This returns the attribute 'textureSize'.
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class pyTextureBatch:
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def __init__(self, i, filedata):
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parameters: i, for i-th instance of TextureBatch.
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file data, a single line list of data.
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This function may raise RuntimeError when it fails to initialize
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based on file data.
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See details of the C struct in doc-tex.txt.
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def gettextures(self):
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This returns a pythonic list of texture data.
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The textures can be accessed via list comprehensions.
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class pyGeoHeader:
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def __init__(self, filedata):
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parameters: file data, a single line list of data.
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This function may raise RuntimeError when it fails to initialize
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based on file data.
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See details of the C struct in doc-geo.txt.
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def show(self):
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This prints the contents of the object.
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def getnummesh(self):
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This returns the attribute 'numMesh'.
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def getunknownb(self):
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This returns the attribute 'unknownNumberB'.
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def getunknownc(self):
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This returns the attribute 'unknownNumberC'.
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def getunknownd(self):
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This returns the attribute 'unknownNumberD'.
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def getpadding(self):
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This returns the attribute 'padding'.
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def getunknownoffset(self):
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This returns the attribute 'unknownOffset'.
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class pyMeshHeader:
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def __init__(self, i, filedata):
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def show(self):
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This prints the contents of the object.
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def getnumbatch(self):
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This returns the attribute 'numBatch'.
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def getnumvertex(self):
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This returns the attribute 'numVertex'.
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def getunknown(self):
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This returns the attribute 'u'.
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def getoffsetbatches(self):
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This returns the attribute 'offsetBatches'.
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def getflags(self):
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This returns the attribute 'flags'.
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class pyMesh:
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def __init__(self, i, filedata):
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parameters: i, for i-th instance of Mesh.
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filedata, a single line list of data.
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This function may raise RuntimeError when it fails to initialize
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based on file data.
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See details of the C struct in doc-geo.txt.
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def show(self):
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This prints the contents of the object.
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def getbatchdata(self):
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This returns the attribute 'bd'.
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It is a object without methods, and it's attributes are
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conventionally accessed with the '.' operator.
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def getpositions(self):
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This returns a pythonic list of 'positions'.
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The positions can be accessed with list comprehensions.
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A position is a object 'Coordinate' without methods.
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The attributes are x, y, and z to be accessed with the
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'.' operator.
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def getnormals(self):
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This returns a pythonic list of 'normals'.
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The normals can be accessed with list comprehensions.
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A normal is a object 'Coordinate' without methods.
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The attributes are x, y, and z to be accessed with the
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'.' operator.
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def getuvs(self):
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This returns a pythonic list of 'u'.
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The UVs can be accessed with list comprehensions.
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A UV has two attributes, 'u' and 'v'.
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def getboneindexes(self):
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This returns a pythonic list of 'bi'.
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The bone indices can be accessed with list comprehensions.
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A bone index is a fixed length array of 4 elements, unsigned byte.
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def getboneweights(self):
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This returns a pythonic list of 'bw'.
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The bone weights can be accessed with list comprehensions.
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A bone weight is effectively an integer in python.
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Example Logic: Extract Pld's
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with open("pl01.pld", "rb") as f:
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data = f.read()
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pld = pyPldHeader(data)
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filename = "demonstrate"
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i = 0
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for offset in pld.getoffsets():
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with open(filename + str(i), "wb") as fw:
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end = offset + pld.sizeofsector(i)
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chunk = data[offset:end]
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fw.write(chunk)
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i += 1
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Example Logic: Extract Textures
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from ctypes import *
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with open("pl01.pld_1.txp", "rb") as f:
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data = f.read()
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tx = pyTextureBatch(0, data)
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filename = "texture"
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i = 0
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bd = pyTextureBatchDescriptor(i, data)
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size = bd.gettexturesize()
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for texture in tx.gettextures():
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with open(filename + str(i) + ".dds", "wb") as fw:
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image = cast(texture.data, POINTER(c_ubyte * size))[0]
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fw.write(image)
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i += 1
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Example Logic: Iterate through all MeshHeaders and Meshes:
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with open("pl00.pld_0", "rb") as f:
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# Get data to extract from.
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data = f.read()
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# We want to know how many meshes are in the file.
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gh = pyGeoHeader(data)
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# Show each MeshHeader
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for i in range(0, gh.getnummesh()):
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mh = pyMeshHeader(i, data)
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mh.show()
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# Get each Mesh
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for i in range(0, gh.getnummesh()):
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m = pyMesh(i, data)
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m.show()
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# Whatever you do with each of them is up to you.
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