70 lines
2.6 KiB
Python
70 lines
2.6 KiB
Python
# The following is how these files were generated from memory dumps
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import numpy as np
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unk1_lut = np.fromfile('unk1_values.bin', dtype=np.int32)
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unk2_lut = np.fromfile('unk2_values.bin', dtype=np.int32)
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unk1_rlut = {v: i for i, v in enumerate(unk1_values)}
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unk2_rlut = {v: i for i, v in enumerate(unk2_values)}
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notetype_lut = ['e', 't', 'h', 'b', 's', 'x']
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def make_rgtx(filename, data):
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# Near-lossless (float rounding) representation of the memory dumps.
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# Once the meaning of unk1 and unk2 are determined, it should be possible to interpret a chart 100% correctly from this.
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out_filename = filename.partition('.')[0] + '.rgtx'
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lines = []
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if len(data.shape) != 2:
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data = data.reshape([-1,20])
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times = data[:,:2].view(dtype=np.float32).sum(1)
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durations = data[:,2].view(dtype=np.float32)
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cols = data[:,3]
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ntypes = [notetype_lut[t] for t in data[:,4]]
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sids = data[:,5]
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stypes = data[:,6]
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unk1s = [unk1_rlut[i] for i in data[:,7]]
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unk2s = [unk2_rlut[i] for i in data[:,8]]
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for i in range(len(times)):
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timestr = f'{times[i]:.7g}'
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notestr = f':{cols[i]}{ntypes[i]}{durations[i]:.7g},{sids[i]},{stypes[i]:x},{unk1s[i]:x},{unk2s[i]:x}'
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if i==0 or times[i]!=times[i-1]:
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lines.append(timestr + notestr)
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else:
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lines[-1] = lines[-1] + notestr
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with open(out_filename, 'w') as f:
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f.write('\n'.join(lines))
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def make_rgts(filename, data):
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# Simplified format that excludes durations for non-holds and slideIDs for non-slides
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# Also excludes the unk1 and unk2 values for now which may discard important information
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out_filename = filename.partition('.')[0] + '.rgts'
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lines = []
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if len(data.shape) != 2:
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data = data.reshape([-1,20])
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times = data[:,:2].view(dtype=np.float32).sum(1)
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durations = data[:,2].view(dtype=np.float32)
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cols = data[:,3]
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ntypes = [notetype_lut[t] for t in data[:,4]]
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sids = data[:,5]
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stypes = data[:,6]
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for i in range(len(times)):
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timestr = f'{times[i]:.7g}'
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notestr = f':{cols[i]}{ntypes[i]}'
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if ntypes[i]=='h':
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notestr += f'{durations[i]:.7g}'
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elif ntypes[i] in ('s', 'e'):
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notestr += f'{stypes[i]:x}{sids[i]}' # No comma, stype is exactly one character
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if i==0 or times[i]!=times[i-1]:
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lines.append(timestr + notestr)
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else:
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lines[-1] = lines[-1] + notestr
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with open(out_filename, 'w') as f:
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f.write('\n'.join(lines))
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def make_files_from_dump(filename):
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data = np.fromfile(filename, dtype=np.int32)
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make_rgtx(filename, data)
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make_rgts(filename, data)
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# If you load this file in interactive mode (python -i example.py) you should be able to run the above function to convert any new memory dumps of the MMF format
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