Following the `straight_average_intermediate -- TEST1` in the snippet (XXX) we divide the calculation up into 3 sub-groups: 1,3,4 and 2,5,6 at the bottom level followed by 0,1,2 at the top level.
Following the `straight_average_intermediate -- TEST1` in the snippet [custom_algo.py](https://gitlab.syncad.com/peerverity/trust-model-playground/-/snippets/147) we divide the calculation up into 3 sub-groups: 1,3,4 and 2,5,6 at the bottom level followed by 0,1,2 at the top level.
For sub-group 1,3,4 the opinion and components are defined according to the diagram, noting that Node 1 trusts itself fully (trust_factor = 1) and that `intermediate_results` is empty because we are at the bottom level.
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@@ -163,7 +163,7 @@ We don't need to do this since we're done but if Node 0 were to require transmis
Running the snippet XXX for this case gives an overall $P_{ave} = 0.616$, same as in [A-simple-averaging-technique-to-supplement-the-Bayes-equation](A-simple-averaging-technique-to-supplement-the-Bayes-equation).
Running the snippet [custom_algo.py](https://gitlab.syncad.com/peerverity/trust-model-playground/-/snippets/147) for this case gives an overall $P_{ave} = 0.616$, same as in [A-simple-averaging-technique-to-supplement-the-Bayes-equation](A-simple-averaging-technique-to-supplement-the-Bayes-equation).
At this point we're done. Running the snippet XXX yields the expected result for Node 1's computed histogram:
At this point we're done. Running the snippet [custom_algo.py](https://gitlab.syncad.com/peerverity/trust-model-playground/-/snippets/147) yields the expected result, same as in [trust_weighted_histogram algorithm](Dan's-proposal-for-trust-weighted-histograms), for Node 1's computed histogram:
