diff options
author | Pieter Wuille <pieter@wuille.net> | 2023-10-16 10:17:12 -0400 |
---|---|---|
committer | Pieter Wuille <pieter@wuille.net> | 2024-05-03 11:38:14 -0400 |
commit | 63317103c9f2b0635558da814567bb79c17ae851 (patch) | |
tree | c65452686f05dc98f89a3ee405f4016d6d6d2dc9 /src/test | |
parent | 70e4d6ff1d269abbda9dafae659e3da3ea17867a (diff) |
miniscript: make operator_mst consteval
It seems modern compilers don't realize that all invocations of operator""_mst
can be evaluated at compile time, despite the constexpr keyword.
Since C++20, we can force them to evaluate at compile time, turning all the
miniscript type constants into actual compile-time constants.
It appears that MSVC does not support consteval operator"" when used inside
certain expressions. For the few places where this happens, define a
constant outside the operator call.
Co-Authored-By: Hennadii Stepanov <32963518+hebasto@users.noreply.github.com>
Diffstat (limited to 'src/test')
-rw-r--r-- | src/test/fuzz/miniscript.cpp | 42 |
1 files changed, 23 insertions, 19 deletions
diff --git a/src/test/fuzz/miniscript.cpp b/src/test/fuzz/miniscript.cpp index 0d0ee59ab3..947424c4ac 100644 --- a/src/test/fuzz/miniscript.cpp +++ b/src/test/fuzz/miniscript.cpp @@ -391,6 +391,7 @@ std::optional<NodeInfo> ConsumeNodeStable(MsCtx script_ctx, FuzzedDataProvider& bool allow_K = (type_needed == ""_mst) || (type_needed << "K"_mst); bool allow_V = (type_needed == ""_mst) || (type_needed << "V"_mst); bool allow_W = (type_needed == ""_mst) || (type_needed << "W"_mst); + static constexpr auto B{"B"_mst}, K{"K"_mst}, V{"V"_mst}, W{"W"_mst}; switch (provider.ConsumeIntegral<uint8_t>()) { case 0: @@ -440,22 +441,22 @@ std::optional<NodeInfo> ConsumeNodeStable(MsCtx script_ctx, FuzzedDataProvider& } case 11: if (!(allow_B || allow_K || allow_V)) return {}; - return {{{"B"_mst, type_needed, type_needed}, Fragment::ANDOR}}; + return {{{B, type_needed, type_needed}, Fragment::ANDOR}}; case 12: if (!(allow_B || allow_K || allow_V)) return {}; - return {{{"V"_mst, type_needed}, Fragment::AND_V}}; + return {{{V, type_needed}, Fragment::AND_V}}; case 13: if (!allow_B) return {}; - return {{{"B"_mst, "W"_mst}, Fragment::AND_B}}; + return {{{B, W}, Fragment::AND_B}}; case 15: if (!allow_B) return {}; - return {{{"B"_mst, "W"_mst}, Fragment::OR_B}}; + return {{{B, W}, Fragment::OR_B}}; case 16: if (!allow_V) return {}; - return {{{"B"_mst, "V"_mst}, Fragment::OR_C}}; + return {{{B, V}, Fragment::OR_C}}; case 17: if (!allow_B) return {}; - return {{{"B"_mst, "B"_mst}, Fragment::OR_D}}; + return {{{B, B}, Fragment::OR_D}}; case 18: if (!(allow_B || allow_K || allow_V)) return {}; return {{{type_needed, type_needed}, Fragment::OR_I}}; @@ -472,25 +473,25 @@ std::optional<NodeInfo> ConsumeNodeStable(MsCtx script_ctx, FuzzedDataProvider& } case 20: if (!allow_W) return {}; - return {{{"B"_mst}, Fragment::WRAP_A}}; + return {{{B}, Fragment::WRAP_A}}; case 21: if (!allow_W) return {}; - return {{{"B"_mst}, Fragment::WRAP_S}}; + return {{{B}, Fragment::WRAP_S}}; case 22: if (!allow_B) return {}; - return {{{"K"_mst}, Fragment::WRAP_C}}; + return {{{K}, Fragment::WRAP_C}}; case 23: if (!allow_B) return {}; - return {{{"V"_mst}, Fragment::WRAP_D}}; + return {{{V}, Fragment::WRAP_D}}; case 24: if (!allow_V) return {}; - return {{{"B"_mst}, Fragment::WRAP_V}}; + return {{{B}, Fragment::WRAP_V}}; case 25: if (!allow_B) return {}; - return {{{"B"_mst}, Fragment::WRAP_J}}; + return {{{B}, Fragment::WRAP_J}}; case 26: if (!allow_B) return {}; - return {{{"B"_mst}, Fragment::WRAP_N}}; + return {{{B}, Fragment::WRAP_N}}; case 27: { if (!allow_B || !IsTapscript(script_ctx)) return {}; const auto k = provider.ConsumeIntegral<uint16_t>(); @@ -528,20 +529,23 @@ struct SmartInfo { /* Construct a set of interesting type requirements to reason with (sections of BKVWzondu). */ std::vector<Type> types; + static constexpr auto B_mst{"B"_mst}, K_mst{"K"_mst}, V_mst{"V"_mst}, W_mst{"W"_mst}; + static constexpr auto d_mst{"d"_mst}, n_mst{"n"_mst}, o_mst{"o"_mst}, u_mst{"u"_mst}, z_mst{"z"_mst}; + static constexpr auto NONE_mst{""_mst}; for (int base = 0; base < 4; ++base) { /* select from B,K,V,W */ - Type type_base = base == 0 ? "B"_mst : base == 1 ? "K"_mst : base == 2 ? "V"_mst : "W"_mst; + Type type_base = base == 0 ? B_mst : base == 1 ? K_mst : base == 2 ? V_mst : W_mst; for (int zo = 0; zo < 3; ++zo) { /* select from z,o,(none) */ - Type type_zo = zo == 0 ? "z"_mst : zo == 1 ? "o"_mst : ""_mst; + Type type_zo = zo == 0 ? z_mst : zo == 1 ? o_mst : NONE_mst; for (int n = 0; n < 2; ++n) { /* select from (none),n */ if (zo == 0 && n == 1) continue; /* z conflicts with n */ if (base == 3 && n == 1) continue; /* W conflicts with n */ - Type type_n = n == 0 ? ""_mst : "n"_mst; + Type type_n = n == 0 ? NONE_mst : n_mst; for (int d = 0; d < 2; ++d) { /* select from (none),d */ if (base == 2 && d == 1) continue; /* V conflicts with d */ - Type type_d = d == 0 ? ""_mst : "d"_mst; + Type type_d = d == 0 ? NONE_mst : d_mst; for (int u = 0; u < 2; ++u) { /* select from (none),u */ if (base == 2 && u == 1) continue; /* V conflicts with u */ - Type type_u = u == 0 ? ""_mst : "u"_mst; + Type type_u = u == 0 ? NONE_mst : u_mst; Type type = type_base | type_zo | type_n | type_d | type_u; types.push_back(type); } @@ -683,7 +687,7 @@ struct SmartInfo /* Find which types are useful. The fuzzer logic only cares about constructing * B,V,K,W nodes, so any type that isn't needed in any recipe (directly or * indirectly) for the construction of those is uninteresting. */ - std::set<Type> useful_types{"B"_mst, "V"_mst, "K"_mst, "W"_mst}; + std::set<Type> useful_types{B_mst, V_mst, K_mst, W_mst}; // Find the transitive closure by adding types until the set of types does not change. while (true) { size_t set_size = useful_types.size(); |