If you look at the documentation for the
-flatten command-line option, you will see it is an alias for
-layers flatten command is itself a combination command, which comprises creating a layer of the current background colour the size of the first images canvas, and then composing each layer in turn on top of it.
PythonMagick is essentially just a binding layer to the Magick++ C++ interface. The advanced commands that
convert provides, are not necessarily replicated in the lower level libraries, as they are really a sequence of commands as described above. So whilst there is no single command for it in the PythonMagick library, the functionality can be replicated.
The method you are after is
.composite(), the PythonMagick documentation is so limited ( or indeed non-existent), most people stay clear of the library. But I think the usage is something like this, if there was only one layer in the PDF (totally untested):
img = PythonMagick.Image("infile.pdf")
bgColour = PythonMagick.ColorRGB(1.0, 1.0, 1.0)
size = "%sx%s" % (img.columns(), img.rows())
flattened = PythonMagick.Image(size, bgColour)
flattened.type = img.type
flattened.composite(img, 0, 0, PythonMagick.CompositeOperator.SrcOverCompositeOp)
NB. The composition operator could be
PythonMagick.CompositeOperator.DstOverCompositeOp, I'm not sure which way round it is handling that.
Though PDFs are a special case with ImageMagick, as they are usually passed off to ghostscript to rasterize. Which means you might need to give ghostscript (
gs) some odd parameters to handle the alpha channel properly. Try adding verbose options to the command that works to see what delegate commands it issues and consider doing the PDF rasterisation yourself via an
os.system('gs ...') command and then doing the resize. Though I doubt that would be faster than just calling