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46 lines
2.2 KiB
NASM
46 lines
2.2 KiB
NASM
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/// Evaluates to folder(...folder(folder(initial, f(0)), f(1)) ..., f(length - 1)),
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/// i.e. calls f(0), f(1), ..., f(length - 1) and combines the results
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/// using the function `folder`, starting with the value `initial`.
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///
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/// See `sum` for an example use.
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let<T1, T2>
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fold: int, (int -> T1), T2, (T2, T1 -> T2) -> T2 = |length, f, initial, folder|
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if length <= 0 {
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initial
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} else {
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folder(fold((length - 1), f, initial, folder), f((length - 1)))
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};
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/// Evaluates to f(0) + f(1) + ... + f(length - 1).
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let<T: Add + FromLiteral> sum: int, (int -> T) -> T = |length, f| fold(length, f, 0, |acc, e| (acc + e));
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/// Evaluates to a constraint that forces the witness column `c` to stay constant
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/// until `latch` is 1. In the row following the row where `latch` is 1,
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/// `c` is allowed to change.
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///
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/// Note: `latch` needs to be equal to `1`, and not merely non-zero for `c` to be able to change.
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let unchanged_until: expr, expr -> constr = |c, latch| (c' - c) * (1 - latch) = 0;
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/// Evaluates to a constraint that forces `c` to be either 0 or 1.
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let force_bool: expr -> constr = |c| c * (1 - c) = 0;
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/// Returns an array of functions such that the range of the `i`th function is exactly the
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/// first `size[i]` numbers (i.e. `0` until `size[i] - 1`, inclusive), such that all combinations
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/// of values of these functions appear as combined outputs.
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/// Each of the functions cycles through its values, advancing to the next number whenever the
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/// previous function has completed a cycle (or always advancing if it is the first function).
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/// This function is useful for combined range checks or building the inputs for function
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/// that is implemented in a lookup.
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/// See binary.asm for an example.
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let cross_product: int[] -> (int -> int)[] = |sizes| cross_product_internal(1, 0, sizes);
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let cross_product_internal: int, int, int[] -> (int -> int)[] = |cycle_len, pos, sizes|
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if pos >= std::array::len(sizes) {
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// We could assert here that the degree is at least `cycle_len`
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[]
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} else {
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[|i| (i / cycle_len) % sizes[pos]] +
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cross_product_internal(cycle_len * sizes[pos], pos + 1, sizes)
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};
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