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mt-gcbench.c: The multi-threaded GCBench benchmark. An old but standard benchmark that allocates different sizes of binary trees. As parameters it takes a heap multiplier and a number of mutator threads. We analytically compute the peak amount of live data and then size the GC heap as a multiplier of that size. It has a peak heap consumption of 10 MB or so per mutator thread: not very large. At a 2x heap multiplier, it causes about 30 collections for the whippet collector, and runs somewhere around 200-400 milliseconds in single-threaded mode, on the machines I have in 2022. For low thread counts, the GCBench benchmark is small; but then again many Guile processes also are quite short-lived, so perhaps it is useful to ensure that small heaps remain lightweight.To stress Whippet's handling of fragmentation, we modified this benchmark to intersperse pseudorandomly-sized holes between tree nodes.
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quads.c: A synthetic benchmark that allocates quad trees. The mutator begins by allocating one long-lived tree of depth N, and then allocates 13% of the heap in depth-3 trees, 20 times, simulating a fixed working set and otherwise an allocation-heavy workload. By observing the times to allocate 13% of the heap in garbage we can infer mutator overheads, and also note the variance for the cycles in which GC hits.
mt-gcbench.c was originally from https://hboehm.info/gc/gc_bench/, which has a somewhat unclear license. I have modified GCBench significantly so that I can slot in different GC implementations. Other files are distributed under the Whippet license; see the top-level README.md for more.