Merge bitcoin/bitcoin#25734: wallet, refactor: #24584 follow-ups

8cd21bb2799d37ed00dc9d0490bb5f5f1375932b refactor: improve readability for AttemptSelection (josibake)
f47ff717611182da27461e29b3c23933eb22fbce test: only run test for descriptor wallets (josibake)
0760ce0b9e646b6c86f4cc890c6ab78103a242ab test: add missing BOOST_ASSERT (josibake)
db09aec9378c5e8cc49c866fa50bfcb6c567d66c wallet: switch to new shuffle, erase, push_back (josibake)
b6b50b0f2b055d81c5d4ff9e21dd88cdc9a88ccb scripted-diff: Uppercase function names (josibake)
3f27a2adce12c6b0e7b43ba7c024331657bcf335 refactor: add new helper methods (josibake)
f5649db9d5e984ba7f376ccfd5b0a627f5c42402 refactor: add UNKNOWN OutputType (josibake)

Pull request description:

  This PR is to address follow-ups for #24584, specifically:

  * Remove redundant, hard-to-read code by adding a new `OutputType` and adding shuffle, erase, and push_back methods for `CoinsResult`
  * Add missing `BOOST_ASSERT` to unit test
  * Ensure functional test only runs if using descriptor wallets
  * Improve readability of `AttemptSelection` by removing triple-nested if statement

  Note for reviewers: commit `refactor: add new helper methods` should throw an "unused function warning"; the function is used in the next commit. Also, commit `wallet: switch to new shuffle, erase, push_back` will fail to compile, but this is fixed in the next commit with a scripted-diff. the commits are separate like this (code change then scripted-diff) to improve legibility.

ACKs for top commit:
  achow101:
    ACK 8cd21bb2799d37ed00dc9d0490bb5f5f1375932b
  aureleoules:
    ACK 8cd21bb2799d37ed00dc9d0490bb5f5f1375932b.
  LarryRuane:
    Concept, code review ACK 8cd21bb2799d37ed00dc9d0490bb5f5f1375932b
  furszy:
    utACK 8cd21bb2. Left a small, non-blocking, comment.

Tree-SHA512: a1bbc5962833e3df4f01a4895d8bd748cc4c608c3f296fd94e8afd8797b8d2e94e7bd44d598bd76fa5c9f5536864f396fcd097348fa0bb190a49a86b0917d60e

12 files changed, 179 insertions, 163 deletions

diff --git a/src/bench/coin_selection.cpp b/src/bench/coin_selection.cpp
index a80ec3703c..6ada28115e 100644
--- a/src/bench/coin_selection.cpp
+++ b/src/bench/coin_selection.cpp
@@ -59,7 +59,7 @@ static void CoinSelection(benchmark::Bench& bench)
     wallet::CoinsResult available_coins;
     for (const auto& wtx : wtxs) {
         const auto txout = wtx->tx->vout.at(0);
-        available_coins.bech32.emplace_back(COutPoint(wtx->GetHash(), 0), txout, /*depth=*/6 * 24, CalculateMaximumSignedInputSize(txout, &wallet, /*coin_control=*/nullptr), /*spendable=*/true, /*solvable=*/true, /*safe=*/true, wtx->GetTxTime(), /*from_me=*/true, /*fees=*/ 0);
+        available_coins.coins[OutputType::BECH32].emplace_back(COutPoint(wtx->GetHash(), 0), txout, /*depth=*/6 * 24, CalculateMaximumSignedInputSize(txout, &wallet, /*coin_control=*/nullptr), /*spendable=*/true, /*solvable=*/true, /*safe=*/true, wtx->GetTxTime(), /*from_me=*/true, /*fees=*/ 0);
     }
 
     const CoinEligibilityFilter filter_standard(1, 6, 0);
diff --git a/src/outputtype.cpp b/src/outputtype.cpp
index 5be9942d7d..9ab2902256 100644
--- a/src/outputtype.cpp
+++ b/src/outputtype.cpp
@@ -20,6 +20,7 @@ static const std::string OUTPUT_TYPE_STRING_LEGACY = "legacy";
 static const std::string OUTPUT_TYPE_STRING_P2SH_SEGWIT = "p2sh-segwit";
 static const std::string OUTPUT_TYPE_STRING_BECH32 = "bech32";
 static const std::string OUTPUT_TYPE_STRING_BECH32M = "bech32m";
+static const std::string OUTPUT_TYPE_STRING_UNKNOWN = "unknown";
 
 std::optional<OutputType> ParseOutputType(const std::string& type)
 {
@@ -31,6 +32,8 @@ std::optional<OutputType> ParseOutputType(const std::string& type)
         return OutputType::BECH32;
     } else if (type == OUTPUT_TYPE_STRING_BECH32M) {
         return OutputType::BECH32M;
+    } else if (type == OUTPUT_TYPE_STRING_UNKNOWN) {
+        return OutputType::UNKNOWN;
     }
     return std::nullopt;
 }
@@ -42,6 +45,7 @@ const std::string& FormatOutputType(OutputType type)
     case OutputType::P2SH_SEGWIT: return OUTPUT_TYPE_STRING_P2SH_SEGWIT;
     case OutputType::BECH32: return OUTPUT_TYPE_STRING_BECH32;
     case OutputType::BECH32M: return OUTPUT_TYPE_STRING_BECH32M;
+    case OutputType::UNKNOWN: return OUTPUT_TYPE_STRING_UNKNOWN;
     } // no default case, so the compiler can warn about missing cases
     assert(false);
 }
@@ -61,7 +65,8 @@ CTxDestination GetDestinationForKey(const CPubKey& key, OutputType type)
             return witdest;
         }
     }
-    case OutputType::BECH32M: {} // This function should never be used with BECH32M, so let it assert
+    case OutputType::BECH32M:
+    case OutputType::UNKNOWN: {} // This function should never be used with BECH32M or UNKNOWN, so let it assert
     } // no default case, so the compiler can warn about missing cases
     assert(false);
 }
@@ -99,7 +104,8 @@ CTxDestination AddAndGetDestinationForScript(FillableSigningProvider& keystore,
             return ScriptHash(witprog);
         }
     }
-    case OutputType::BECH32M: {} // This function should not be used for BECH32M, so let it assert
+    case OutputType::BECH32M:
+    case OutputType::UNKNOWN: {} // This function should not be used for BECH32M or UNKNOWN, so let it assert
     } // no default case, so the compiler can warn about missing cases
     assert(false);
 }
diff --git a/src/outputtype.h b/src/outputtype.h
index 6b4e695760..be5fd62b80 100644
--- a/src/outputtype.h
+++ b/src/outputtype.h
@@ -19,6 +19,7 @@ enum class OutputType {
     P2SH_SEGWIT,
     BECH32,
     BECH32M,
+    UNKNOWN,
 };
 
 static constexpr auto OUTPUT_TYPES = std::array{
@@ -26,6 +27,7 @@ static constexpr auto OUTPUT_TYPES = std::array{
     OutputType::P2SH_SEGWIT,
     OutputType::BECH32,
     OutputType::BECH32M,
+    OutputType::UNKNOWN,
 };
 
 std::optional<OutputType> ParseOutputType(const std::string& str);
diff --git a/src/wallet/rpc/coins.cpp b/src/wallet/rpc/coins.cpp
index c01ca28290..50766f20eb 100644
--- a/src/wallet/rpc/coins.cpp
+++ b/src/wallet/rpc/coins.cpp
@@ -641,7 +641,7 @@ RPCHelpMan listunspent()
         cctl.m_max_depth = nMaxDepth;
         cctl.m_include_unsafe_inputs = include_unsafe;
         LOCK(pwallet->cs_wallet);
-        vecOutputs = AvailableCoinsListUnspent(*pwallet, &cctl, nMinimumAmount, nMaximumAmount, nMinimumSumAmount, nMaximumCount).all();
+        vecOutputs = AvailableCoinsListUnspent(*pwallet, &cctl, nMinimumAmount, nMaximumAmount, nMinimumSumAmount, nMaximumCount).All();
     }
 
     LOCK(pwallet->cs_wallet);
diff --git a/src/wallet/rpc/spend.cpp b/src/wallet/rpc/spend.cpp
index da0615ed1c..699d9062ff 100644
--- a/src/wallet/rpc/spend.cpp
+++ b/src/wallet/rpc/spend.cpp
@@ -1382,7 +1382,7 @@ RPCHelpMan sendall()
                     total_input_value += tx->tx->vout[input.prevout.n].nValue;
                 }
             } else {
-                for (const COutput& output : AvailableCoins(*pwallet, &coin_control, fee_rate, /*nMinimumAmount=*/0).all()) {
+                for (const COutput& output : AvailableCoins(*pwallet, &coin_control, fee_rate, /*nMinimumAmount=*/0).All()) {
                     CHECK_NONFATAL(output.input_bytes > 0);
                     if (send_max && fee_rate.GetFee(output.input_bytes) > output.txout.nValue) {
                         continue;
diff --git a/src/wallet/scriptpubkeyman.cpp b/src/wallet/scriptpubkeyman.cpp
index 7ff017775e..7511312f70 100644
--- a/src/wallet/scriptpubkeyman.cpp
+++ b/src/wallet/scriptpubkeyman.cpp
@@ -1965,6 +1965,11 @@ bool DescriptorScriptPubKeyMan::SetupDescriptorGeneration(const CExtKey& master_
         desc_prefix = "tr(" + xpub  + "/86'";
         break;
     }
+    case OutputType::UNKNOWN: {
+        // We should never have a DescriptorScriptPubKeyMan for an UNKNOWN OutputType,
+        // so if we get to this point something is wrong
+        assert(false);
+    }
     } // no default case, so the compiler can warn about missing cases
     assert(!desc_prefix.empty());
 
diff --git a/src/wallet/spend.cpp b/src/wallet/spend.cpp
index 61d86844df..d6362c1f14 100644
--- a/src/wallet/spend.cpp
+++ b/src/wallet/spend.cpp
@@ -79,30 +79,68 @@ TxSize CalculateMaximumSignedTxSize(const CTransaction &tx, const CWallet *walle
     return CalculateMaximumSignedTxSize(tx, wallet, txouts, coin_control);
 }
 
-uint64_t CoinsResult::size() const
+size_t CoinsResult::Size() const
 {
-    return bech32m.size() + bech32.size() + P2SH_segwit.size() + legacy.size() + other.size();
+    size_t size{0};
+    for (const auto& it : coins) {
+        size += it.second.size();
+    }
+    return size;
 }
 
-std::vector<COutput> CoinsResult::all() const
+std::vector<COutput> CoinsResult::All() const
 {
     std::vector<COutput> all;
-    all.reserve(this->size());
-    all.insert(all.end(), bech32m.begin(), bech32m.end());
-    all.insert(all.end(), bech32.begin(), bech32.end());
-    all.insert(all.end(), P2SH_segwit.begin(), P2SH_segwit.end());
-    all.insert(all.end(), legacy.begin(), legacy.end());
-    all.insert(all.end(), other.begin(), other.end());
+    all.reserve(coins.size());
+    for (const auto& it : coins) {
+        all.insert(all.end(), it.second.begin(), it.second.end());
+    }
     return all;
 }
 
-void CoinsResult::clear()
+void CoinsResult::Clear() {
+    coins.clear();
+}
+
+void CoinsResult::Erase(std::set<COutPoint>& preset_coins)
 {
-    bech32m.clear();
-    bech32.clear();
-    P2SH_segwit.clear();
-    legacy.clear();
-    other.clear();
+    for (auto& it : coins) {
+        auto& vec = it.second;
+        auto i = std::find_if(vec.begin(), vec.end(), [&](const COutput &c) { return preset_coins.count(c.outpoint);});
+        if (i != vec.end()) {
+            vec.erase(i);
+            break;
+        }
+    }
+}
+
+void CoinsResult::Shuffle(FastRandomContext& rng_fast)
+{
+    for (auto& it : coins) {
+        ::Shuffle(it.second.begin(), it.second.end(), rng_fast);
+    }
+}
+
+void CoinsResult::Add(OutputType type, const COutput& out)
+{
+    coins[type].emplace_back(out);
+}
+
+static OutputType GetOutputType(TxoutType type, bool is_from_p2sh)
+{
+    switch (type) {
+        case TxoutType::WITNESS_V1_TAPROOT:
+            return OutputType::BECH32M;
+        case TxoutType::WITNESS_V0_KEYHASH:
+        case TxoutType::WITNESS_V0_SCRIPTHASH:
+            if (is_from_p2sh) return OutputType::P2SH_SEGWIT;
+            else return OutputType::BECH32;
+        case TxoutType::SCRIPTHASH:
+        case TxoutType::PUBKEYHASH:
+            return OutputType::LEGACY;
+        default:
+            return OutputType::UNKNOWN;
+    }
 }
 
 CoinsResult AvailableCoins(const CWallet& wallet,
@@ -222,51 +260,32 @@ CoinsResult AvailableCoins(const CWallet& wallet,
             // Filter by spendable outputs only
             if (!spendable && only_spendable) continue;
 
-            // When parsing a scriptPubKey, Solver returns the parsed pubkeys or hashes (depending on the script)
-            // We don't need those here, so we are leaving them in return_values_unused
-            std::vector<std::vector<uint8_t>> return_values_unused;
-            TxoutType type;
-            bool is_from_p2sh{false};
-
             // If the Output is P2SH and spendable, we want to know if it is
             // a P2SH (legacy) or one of P2SH-P2WPKH, P2SH-P2WSH (P2SH-Segwit). We can determine
             // this from the redeemScript. If the Output is not spendable, it will be classified
             // as a P2SH (legacy), since we have no way of knowing otherwise without the redeemScript
+            CScript script;
+            bool is_from_p2sh{false};
             if (output.scriptPubKey.IsPayToScriptHash() && solvable) {
-                CScript redeemScript;
                 CTxDestination destination;
                 if (!ExtractDestination(output.scriptPubKey, destination))
                     continue;
                 const CScriptID& hash = CScriptID(std::get<ScriptHash>(destination));
-                if (!provider->GetCScript(hash, redeemScript))
+                if (!provider->GetCScript(hash, script))
                     continue;
-                type = Solver(redeemScript, return_values_unused);
                 is_from_p2sh = true;
             } else {
-                type = Solver(output.scriptPubKey, return_values_unused);
+                script = output.scriptPubKey;
             }
 
             COutput coin(outpoint, output, nDepth, input_bytes, spendable, solvable, safeTx, wtx.GetTxTime(), tx_from_me, feerate);
-            switch (type) {
-            case TxoutType::WITNESS_UNKNOWN:
-            case TxoutType::WITNESS_V1_TAPROOT:
-                result.bech32m.push_back(coin);
-                break;
-            case TxoutType::WITNESS_V0_KEYHASH:
-            case TxoutType::WITNESS_V0_SCRIPTHASH:
-                if (is_from_p2sh) {
-                    result.P2SH_segwit.push_back(coin);
-                    break;
-                }
-                result.bech32.push_back(coin);
-                break;
-            case TxoutType::SCRIPTHASH:
-            case TxoutType::PUBKEYHASH:
-                result.legacy.push_back(coin);
-                break;
-            default:
-                result.other.push_back(coin);
-            };
+
+            // When parsing a scriptPubKey, Solver returns the parsed pubkeys or hashes (depending on the script)
+            // We don't need those here, so we are leaving them in return_values_unused
+            std::vector<std::vector<uint8_t>> return_values_unused;
+            TxoutType type;
+            type = Solver(script, return_values_unused);
+            result.Add(GetOutputType(type, is_from_p2sh), coin);
 
             // Cache total amount as we go
             result.total_amount += output.nValue;
@@ -278,7 +297,7 @@ CoinsResult AvailableCoins(const CWallet& wallet,
             }
 
             // Checks the maximum number of UTXO's.
-            if (nMaximumCount > 0 && result.size() >= nMaximumCount) {
+            if (nMaximumCount > 0 && result.Size() >= nMaximumCount) {
                 return result;
             }
         }
@@ -334,7 +353,7 @@ std::map<CTxDestination, std::vector<COutput>> ListCoins(const CWallet& wallet)
 
     std::map<CTxDestination, std::vector<COutput>> result;
 
-    for (const COutput& coin : AvailableCoinsListUnspent(wallet).all()) {
+    for (const COutput& coin : AvailableCoinsListUnspent(wallet).All()) {
         CTxDestination address;
         if ((coin.spendable || (wallet.IsWalletFlagSet(WALLET_FLAG_DISABLE_PRIVATE_KEYS) && coin.solvable)) &&
             ExtractDestination(FindNonChangeParentOutput(wallet, coin.outpoint).scriptPubKey, address)) {
@@ -457,31 +476,25 @@ std::optional<SelectionResult> AttemptSelection(const CWallet& wallet, const CAm
 {
     // Run coin selection on each OutputType and compute the Waste Metric
     std::vector<SelectionResult> results;
-    if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, available_coins.legacy, coin_selection_params)}) {
-        results.push_back(*result);
-    }
-    if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, available_coins.P2SH_segwit, coin_selection_params)}) {
-        results.push_back(*result);
-    }
-    if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, available_coins.bech32, coin_selection_params)}) {
-        results.push_back(*result);
-    }
-    if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, available_coins.bech32m, coin_selection_params)}) {
-        results.push_back(*result);
+    for (const auto& it : available_coins.coins) {
+        if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, it.second, coin_selection_params)}) {
+            results.push_back(*result);
+        }
     }
-
-    // If we can't fund the transaction from any individual OutputType, run coin selection
-    // over all available coins, else pick the best solution from the results
-    if (results.size() == 0) {
-        if (allow_mixed_output_types) {
-            if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, available_coins.all(), coin_selection_params)}) {
-                return result;
-            }
+    // If we have at least one solution for funding the transaction without mixing, choose the minimum one according to waste metric
+    // and return the result
+    if (results.size() > 0) return *std::min_element(results.begin(), results.end());
+
+    // If we can't fund the transaction from any individual OutputType, run coin selection one last time
+    // over all available coins, which would allow mixing
+    if (allow_mixed_output_types) {
+        if (auto result{ChooseSelectionResult(wallet, nTargetValue, eligibility_filter, available_coins.All(), coin_selection_params)}) {
+            return result;
         }
-        return std::optional<SelectionResult>();
-    };
-    std::optional<SelectionResult> result{*std::min_element(results.begin(), results.end())};
-    return result;
+    }
+    // Either mixing is not allowed and we couldn't find a solution from any single OutputType, or mixing was allowed and we still couldn't
+    // find a solution using all available coins
+    return std::nullopt;
 };
 
 std::optional<SelectionResult> ChooseSelectionResult(const CWallet& wallet, const CAmount& nTargetValue, const CoinEligibilityFilter& eligibility_filter, const std::vector<COutput>& available_coins, const CoinSelectionParams& coin_selection_params)
@@ -592,11 +605,7 @@ std::optional<SelectionResult> SelectCoins(const CWallet& wallet, CoinsResult& a
 
     // remove preset inputs from coins so that Coin Selection doesn't pick them.
     if (coin_control.HasSelected()) {
-        available_coins.legacy.erase(remove_if(available_coins.legacy.begin(), available_coins.legacy.end(), [&](const COutput& c) { return preset_coins.count(c.outpoint); }), available_coins.legacy.end());
-        available_coins.P2SH_segwit.erase(remove_if(available_coins.P2SH_segwit.begin(), available_coins.P2SH_segwit.end(), [&](const COutput& c) { return preset_coins.count(c.outpoint); }), available_coins.P2SH_segwit.end());
-        available_coins.bech32.erase(remove_if(available_coins.bech32.begin(), available_coins.bech32.end(), [&](const COutput& c) { return preset_coins.count(c.outpoint); }), available_coins.bech32.end());
-        available_coins.bech32m.erase(remove_if(available_coins.bech32m.begin(), available_coins.bech32m.end(), [&](const COutput& c) { return preset_coins.count(c.outpoint); }), available_coins.bech32m.end());
-        available_coins.other.erase(remove_if(available_coins.other.begin(), available_coins.other.end(), [&](const COutput& c) { return preset_coins.count(c.outpoint); }), available_coins.other.end());
+        available_coins.Erase(preset_coins);
     }
 
     unsigned int limit_ancestor_count = 0;
@@ -608,15 +617,11 @@ std::optional<SelectionResult> SelectCoins(const CWallet& wallet, CoinsResult& a
 
     // form groups from remaining coins; note that preset coins will not
     // automatically have their associated (same address) coins included
-    if (coin_control.m_avoid_partial_spends && available_coins.size() > OUTPUT_GROUP_MAX_ENTRIES) {
+    if (coin_control.m_avoid_partial_spends && available_coins.Size() > OUTPUT_GROUP_MAX_ENTRIES) {
         // Cases where we have 101+ outputs all pointing to the same destination may result in
         // privacy leaks as they will potentially be deterministically sorted. We solve that by
         // explicitly shuffling the outputs before processing
-        Shuffle(available_coins.legacy.begin(), available_coins.legacy.end(), coin_selection_params.rng_fast);
-        Shuffle(available_coins.P2SH_segwit.begin(), available_coins.P2SH_segwit.end(), coin_selection_params.rng_fast);
-        Shuffle(available_coins.bech32.begin(), available_coins.bech32.end(), coin_selection_params.rng_fast);
-        Shuffle(available_coins.bech32m.begin(), available_coins.bech32m.end(), coin_selection_params.rng_fast);
-        Shuffle(available_coins.other.begin(), available_coins.other.end(), coin_selection_params.rng_fast);
+        available_coins.Shuffle(coin_selection_params.rng_fast);
     }
 
     // Coin Selection attempts to select inputs from a pool of eligible UTXOs to fund the
diff --git a/src/wallet/spend.h b/src/wallet/spend.h
index fdb5113ba4..c29e5be5c7 100644
--- a/src/wallet/spend.h
+++ b/src/wallet/spend.h
@@ -34,26 +34,22 @@ TxSize CalculateMaximumSignedTxSize(const CTransaction& tx, const CWallet* walle
  * This struct is really just a wrapper around OutputType vectors with a convenient
  * method for concatenating and returning all COutputs as one vector.
  *
- * clear(), size() methods are implemented so that one can interact with
- * the CoinsResult struct as if it was a vector
+ * Size(), Clear(), Erase(), Shuffle(), and Add() methods are implemented to
+ * allow easy interaction with the struct.
  */
 struct CoinsResult {
-    /** Vectors for each OutputType */
-    std::vector<COutput> legacy;
-    std::vector<COutput> P2SH_segwit;
-    std::vector<COutput> bech32;
-    std::vector<COutput> bech32m;
-
-    /** Other is a catch-all for anything that doesn't match the known OutputTypes */
-    std::vector<COutput> other;
+    std::map<OutputType, std::vector<COutput>> coins;
 
     /** Concatenate and return all COutputs as one vector */
-    std::vector<COutput> all() const;
+    std::vector<COutput> All() const;
 
     /** The following methods are provided so that CoinsResult can mimic a vector,
      * i.e., methods can work with individual OutputType vectors or on the entire object */
-    uint64_t size() const;
-    void clear();
+    size_t Size() const;
+    void Clear();
+    void Erase(std::set<COutPoint>& preset_coins);
+    void Shuffle(FastRandomContext& rng_fast);
+    void Add(OutputType type, const COutput& out);
 
     /** Sum of all available coins */
     CAmount total_amount{0};
diff --git a/src/wallet/test/availablecoins_tests.cpp b/src/wallet/test/availablecoins_tests.cpp
index 3356128112..c8adef7fc2 100644
--- a/src/wallet/test/availablecoins_tests.cpp
+++ b/src/wallet/test/availablecoins_tests.cpp
@@ -63,8 +63,8 @@ BOOST_FIXTURE_TEST_CASE(BasicOutputTypesTest, AvailableCoinsTestingSetup)
     // Verify our wallet has one usable coinbase UTXO before starting
     // This UTXO is a P2PK, so it should show up in the Other bucket
     available_coins = AvailableCoins(*wallet);
-    BOOST_CHECK_EQUAL(available_coins.size(), 1U);
-    BOOST_CHECK_EQUAL(available_coins.other.size(), 1U);
+    BOOST_CHECK_EQUAL(available_coins.Size(), 1U);
+    BOOST_CHECK_EQUAL(available_coins.coins[OutputType::UNKNOWN].size(), 1U);
 
     // We will create a self transfer for each of the OutputTypes and
     // verify it is put in the correct bucket after running GetAvailablecoins
@@ -78,27 +78,28 @@ BOOST_FIXTURE_TEST_CASE(BasicOutputTypesTest, AvailableCoinsTestingSetup)
     BOOST_ASSERT(dest);
     AddTx(CRecipient{{GetScriptForDestination(*dest)}, 1 * COIN, /*fSubtractFeeFromAmount=*/true});
     available_coins = AvailableCoins(*wallet);
-    BOOST_CHECK_EQUAL(available_coins.bech32m.size(), 2U);
+    BOOST_CHECK_EQUAL(available_coins.coins[OutputType::BECH32M].size(), 2U);
 
     // Bech32
     dest = wallet->GetNewDestination(OutputType::BECH32, "");
     BOOST_ASSERT(dest);
     AddTx(CRecipient{{GetScriptForDestination(*dest)}, 2 * COIN, /*fSubtractFeeFromAmount=*/true});
     available_coins = AvailableCoins(*wallet);
-    BOOST_CHECK_EQUAL(available_coins.bech32.size(), 2U);
+    BOOST_CHECK_EQUAL(available_coins.coins[OutputType::BECH32].size(), 2U);
 
     // P2SH-SEGWIT
     dest = wallet->GetNewDestination(OutputType::P2SH_SEGWIT, "");
+    BOOST_ASSERT(dest);
     AddTx(CRecipient{{GetScriptForDestination(*dest)}, 3 * COIN, /*fSubtractFeeFromAmount=*/true});
     available_coins = AvailableCoins(*wallet);
-    BOOST_CHECK_EQUAL(available_coins.P2SH_segwit.size(), 2U);
+    BOOST_CHECK_EQUAL(available_coins.coins[OutputType::P2SH_SEGWIT].size(), 2U);
 
     // Legacy (P2PKH)
     dest = wallet->GetNewDestination(OutputType::LEGACY, "");
     BOOST_ASSERT(dest);
     AddTx(CRecipient{{GetScriptForDestination(*dest)}, 4 * COIN, /*fSubtractFeeFromAmount=*/true});
     available_coins = AvailableCoins(*wallet);
-    BOOST_CHECK_EQUAL(available_coins.legacy.size(), 2U);
+    BOOST_CHECK_EQUAL(available_coins.coins[OutputType::LEGACY].size(), 2U);
 }
 
 BOOST_AUTO_TEST_SUITE_END()
diff --git a/src/wallet/test/coinselector_tests.cpp b/src/wallet/test/coinselector_tests.cpp
index a4a7216436..4dfdc87a38 100644
--- a/src/wallet/test/coinselector_tests.cpp
+++ b/src/wallet/test/coinselector_tests.cpp
@@ -83,7 +83,7 @@ static void add_coin(CoinsResult& available_coins, CWallet& wallet, const CAmoun
     assert(ret.second);
     CWalletTx& wtx = (*ret.first).second;
     const auto& txout = wtx.tx->vout.at(nInput);
-    available_coins.bech32.emplace_back(COutPoint(wtx.GetHash(), nInput), txout, nAge, CalculateMaximumSignedInputSize(txout, &wallet, /*coin_control=*/nullptr), /*spendable=*/ true, /*solvable=*/ true, /*safe=*/ true, wtx.GetTxTime(), fIsFromMe, feerate);
+    available_coins.coins[OutputType::BECH32].emplace_back(COutPoint(wtx.GetHash(), nInput), txout, nAge, CalculateMaximumSignedInputSize(txout, &wallet, /*coin_control=*/nullptr), /*spendable=*/ true, /*solvable=*/ true, /*safe=*/ true, wtx.GetTxTime(), fIsFromMe, feerate);
 }
 
 /** Check if SelectionResult a is equivalent to SelectionResult b.
@@ -308,15 +308,15 @@ BOOST_AUTO_TEST_CASE(bnb_search_test)
         CoinsResult available_coins;
 
         add_coin(available_coins, *wallet, 1, coin_selection_params_bnb.m_effective_feerate);
-        available_coins.all().at(0).input_bytes = 40; // Make sure that it has a negative effective value. The next check should assert if this somehow got through. Otherwise it will fail
-        BOOST_CHECK(!SelectCoinsBnB(GroupCoins(available_coins.all()), 1 * CENT, coin_selection_params_bnb.m_cost_of_change));
+        available_coins.All().at(0).input_bytes = 40; // Make sure that it has a negative effective value. The next check should assert if this somehow got through. Otherwise it will fail
+        BOOST_CHECK(!SelectCoinsBnB(GroupCoins(available_coins.All()), 1 * CENT, coin_selection_params_bnb.m_cost_of_change));
 
         // Test fees subtracted from output:
-        available_coins.clear();
+        available_coins.Clear();
         add_coin(available_coins, *wallet, 1 * CENT, coin_selection_params_bnb.m_effective_feerate);
-        available_coins.all().at(0).input_bytes = 40;
+        available_coins.All().at(0).input_bytes = 40;
         coin_selection_params_bnb.m_subtract_fee_outputs = true;
-        const auto result9 = SelectCoinsBnB(GroupCoins(available_coins.all()), 1 * CENT, coin_selection_params_bnb.m_cost_of_change);
+        const auto result9 = SelectCoinsBnB(GroupCoins(available_coins.All()), 1 * CENT, coin_selection_params_bnb.m_cost_of_change);
         BOOST_CHECK(result9);
         BOOST_CHECK_EQUAL(result9->GetSelectedValue(), 1 * CENT);
     }
@@ -335,7 +335,7 @@ BOOST_AUTO_TEST_CASE(bnb_search_test)
         add_coin(available_coins, *wallet, 2 * CENT, coin_selection_params_bnb.m_effective_feerate, 6 * 24, false, 0, true);
         CCoinControl coin_control;
         coin_control.m_allow_other_inputs = true;
-        coin_control.Select(available_coins.all().at(0).outpoint);
+        coin_control.Select(available_coins.All().at(0).outpoint);
         coin_selection_params_bnb.m_effective_feerate = CFeeRate(0);
         const auto result10 = SelectCoins(*wallet, available_coins, 10 * CENT, coin_control, coin_selection_params_bnb);
         BOOST_CHECK(result10);
@@ -362,7 +362,7 @@ BOOST_AUTO_TEST_CASE(bnb_search_test)
         CCoinControl coin_control;
         const auto result11 = SelectCoins(*wallet, available_coins, 10 * CENT, coin_control, coin_selection_params_bnb);
         BOOST_CHECK(EquivalentResult(expected_result, *result11));
-        available_coins.clear();
+        available_coins.Clear();
 
         // more coins should be selected when effective fee < long term fee
         coin_selection_params_bnb.m_effective_feerate = CFeeRate(3000);
@@ -377,7 +377,7 @@ BOOST_AUTO_TEST_CASE(bnb_search_test)
         add_coin(1 * CENT, 2, expected_result);
         const auto result12 = SelectCoins(*wallet, available_coins, 10 * CENT, coin_control, coin_selection_params_bnb);
         BOOST_CHECK(EquivalentResult(expected_result, *result12));
-        available_coins.clear();
+        available_coins.Clear();
 
         // pre selected coin should be selected even if disadvantageous
         coin_selection_params_bnb.m_effective_feerate = CFeeRate(5000);
@@ -391,7 +391,7 @@ BOOST_AUTO_TEST_CASE(bnb_search_test)
         add_coin(9 * CENT, 2, expected_result);
         add_coin(1 * CENT, 2, expected_result);
         coin_control.m_allow_other_inputs = true;
-        coin_control.Select(available_coins.all().at(1).outpoint); // pre select 9 coin
+        coin_control.Select(available_coins.All().at(1).outpoint); // pre select 9 coin
         const auto result13 = SelectCoins(*wallet, available_coins, 10 * CENT, coin_control, coin_selection_params_bnb);
         BOOST_CHECK(EquivalentResult(expected_result, *result13));
     }
@@ -413,28 +413,28 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
     // test multiple times to allow for differences in the shuffle order
     for (int i = 0; i < RUN_TESTS; i++)
     {
-        available_coins.clear();
+        available_coins.Clear();
 
         // with an empty wallet we can't even pay one cent
-        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard), 1 * CENT, CENT));
+        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard), 1 * CENT, CENT));
 
         add_coin(available_coins, *wallet, 1*CENT, CFeeRate(0), 4);        // add a new 1 cent coin
 
         // with a new 1 cent coin, we still can't find a mature 1 cent
-        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard), 1 * CENT, CENT));
+        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard), 1 * CENT, CENT));
 
         // but we can find a new 1 cent
-        const auto result1 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 1 * CENT, CENT);
+        const auto result1 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 1 * CENT, CENT);
         BOOST_CHECK(result1);
         BOOST_CHECK_EQUAL(result1->GetSelectedValue(), 1 * CENT);
 
         add_coin(available_coins, *wallet, 2*CENT);           // add a mature 2 cent coin
 
         // we can't make 3 cents of mature coins
-        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard), 3 * CENT, CENT));
+        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard), 3 * CENT, CENT));
 
         // we can make 3 cents of new coins
-        const auto result2 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 3 * CENT, CENT);
+        const auto result2 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 3 * CENT, CENT);
         BOOST_CHECK(result2);
         BOOST_CHECK_EQUAL(result2->GetSelectedValue(), 3 * CENT);
 
@@ -445,44 +445,44 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         // now we have new: 1+10=11 (of which 10 was self-sent), and mature: 2+5+20=27.  total = 38
 
         // we can't make 38 cents only if we disallow new coins:
-        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard), 38 * CENT, CENT));
+        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard), 38 * CENT, CENT));
         // we can't even make 37 cents if we don't allow new coins even if they're from us
-        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard_extra), 38 * CENT, CENT));
+        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard_extra), 38 * CENT, CENT));
         // but we can make 37 cents if we accept new coins from ourself
-        const auto result3 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard), 37 * CENT, CENT);
+        const auto result3 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard), 37 * CENT, CENT);
         BOOST_CHECK(result3);
         BOOST_CHECK_EQUAL(result3->GetSelectedValue(), 37 * CENT);
         // and we can make 38 cents if we accept all new coins
-        const auto result4 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 38 * CENT, CENT);
+        const auto result4 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 38 * CENT, CENT);
         BOOST_CHECK(result4);
         BOOST_CHECK_EQUAL(result4->GetSelectedValue(), 38 * CENT);
 
         // try making 34 cents from 1,2,5,10,20 - we can't do it exactly
-        const auto result5 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 34 * CENT, CENT);
+        const auto result5 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 34 * CENT, CENT);
         BOOST_CHECK(result5);
         BOOST_CHECK_EQUAL(result5->GetSelectedValue(), 35 * CENT);       // but 35 cents is closest
         BOOST_CHECK_EQUAL(result5->GetInputSet().size(), 3U);     // the best should be 20+10+5.  it's incredibly unlikely the 1 or 2 got included (but possible)
 
         // when we try making 7 cents, the smaller coins (1,2,5) are enough.  We should see just 2+5
-        const auto result6 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 7 * CENT, CENT);
+        const auto result6 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 7 * CENT, CENT);
         BOOST_CHECK(result6);
         BOOST_CHECK_EQUAL(result6->GetSelectedValue(), 7 * CENT);
         BOOST_CHECK_EQUAL(result6->GetInputSet().size(), 2U);
 
         // when we try making 8 cents, the smaller coins (1,2,5) are exactly enough.
-        const auto result7 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 8 * CENT, CENT);
+        const auto result7 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 8 * CENT, CENT);
         BOOST_CHECK(result7);
         BOOST_CHECK(result7->GetSelectedValue() == 8 * CENT);
         BOOST_CHECK_EQUAL(result7->GetInputSet().size(), 3U);
 
         // when we try making 9 cents, no subset of smaller coins is enough, and we get the next bigger coin (10)
-        const auto result8 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 9 * CENT, CENT);
+        const auto result8 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 9 * CENT, CENT);
         BOOST_CHECK(result8);
         BOOST_CHECK_EQUAL(result8->GetSelectedValue(), 10 * CENT);
         BOOST_CHECK_EQUAL(result8->GetInputSet().size(), 1U);
 
         // now clear out the wallet and start again to test choosing between subsets of smaller coins and the next biggest coin
-        available_coins.clear();
+        available_coins.Clear();
 
         add_coin(available_coins, *wallet,  6*CENT);
         add_coin(available_coins, *wallet,  7*CENT);
@@ -491,12 +491,12 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         add_coin(available_coins, *wallet, 30*CENT); // now we have 6+7+8+20+30 = 71 cents total
 
         // check that we have 71 and not 72
-        const auto result9 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 71 * CENT, CENT);
+        const auto result9 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 71 * CENT, CENT);
         BOOST_CHECK(result9);
-        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 72 * CENT, CENT));
+        BOOST_CHECK(!KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 72 * CENT, CENT));
 
         // now try making 16 cents.  the best smaller coins can do is 6+7+8 = 21; not as good at the next biggest coin, 20
-        const auto result10 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 16 * CENT, CENT);
+        const auto result10 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 16 * CENT, CENT);
         BOOST_CHECK(result10);
         BOOST_CHECK_EQUAL(result10->GetSelectedValue(), 20 * CENT); // we should get 20 in one coin
         BOOST_CHECK_EQUAL(result10->GetInputSet().size(), 1U);
@@ -504,7 +504,7 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         add_coin(available_coins, *wallet,  5*CENT); // now we have 5+6+7+8+20+30 = 75 cents total
 
         // now if we try making 16 cents again, the smaller coins can make 5+6+7 = 18 cents, better than the next biggest coin, 20
-        const auto result11 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 16 * CENT, CENT);
+        const auto result11 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 16 * CENT, CENT);
         BOOST_CHECK(result11);
         BOOST_CHECK_EQUAL(result11->GetSelectedValue(), 18 * CENT); // we should get 18 in 3 coins
         BOOST_CHECK_EQUAL(result11->GetInputSet().size(), 3U);
@@ -512,13 +512,13 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         add_coin(available_coins, *wallet,  18*CENT); // now we have 5+6+7+8+18+20+30
 
         // and now if we try making 16 cents again, the smaller coins can make 5+6+7 = 18 cents, the same as the next biggest coin, 18
-        const auto result12 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 16 * CENT, CENT);
+        const auto result12 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 16 * CENT, CENT);
         BOOST_CHECK(result12);
         BOOST_CHECK_EQUAL(result12->GetSelectedValue(), 18 * CENT);  // we should get 18 in 1 coin
         BOOST_CHECK_EQUAL(result12->GetInputSet().size(), 1U); // because in the event of a tie, the biggest coin wins
 
         // now try making 11 cents.  we should get 5+6
-        const auto result13 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 11 * CENT, CENT);
+        const auto result13 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 11 * CENT, CENT);
         BOOST_CHECK(result13);
         BOOST_CHECK_EQUAL(result13->GetSelectedValue(), 11 * CENT);
         BOOST_CHECK_EQUAL(result13->GetInputSet().size(), 2U);
@@ -528,19 +528,19 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         add_coin(available_coins, *wallet,  2*COIN);
         add_coin(available_coins, *wallet,  3*COIN);
         add_coin(available_coins, *wallet,  4*COIN); // now we have 5+6+7+8+18+20+30+100+200+300+400 = 1094 cents
-        const auto result14 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 95 * CENT, CENT);
+        const auto result14 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 95 * CENT, CENT);
         BOOST_CHECK(result14);
         BOOST_CHECK_EQUAL(result14->GetSelectedValue(), 1 * COIN);  // we should get 1 BTC in 1 coin
         BOOST_CHECK_EQUAL(result14->GetInputSet().size(), 1U);
 
-        const auto result15 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 195 * CENT, CENT);
+        const auto result15 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 195 * CENT, CENT);
         BOOST_CHECK(result15);
         BOOST_CHECK_EQUAL(result15->GetSelectedValue(), 2 * COIN);  // we should get 2 BTC in 1 coin
         BOOST_CHECK_EQUAL(result15->GetInputSet().size(), 1U);
 
         // empty the wallet and start again, now with fractions of a cent, to test small change avoidance
 
-        available_coins.clear();
+        available_coins.Clear();
         add_coin(available_coins, *wallet, CENT * 1 / 10);
         add_coin(available_coins, *wallet, CENT * 2 / 10);
         add_coin(available_coins, *wallet, CENT * 3 / 10);
@@ -549,7 +549,7 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
 
         // try making 1 * CENT from the 1.5 * CENT
         // we'll get change smaller than CENT whatever happens, so can expect CENT exactly
-        const auto result16 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), CENT, CENT);
+        const auto result16 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), CENT, CENT);
         BOOST_CHECK(result16);
         BOOST_CHECK_EQUAL(result16->GetSelectedValue(), CENT);
 
@@ -557,7 +557,7 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         add_coin(available_coins, *wallet, 1111*CENT);
 
         // try making 1 from 0.1 + 0.2 + 0.3 + 0.4 + 0.5 + 1111 = 1112.5
-        const auto result17 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 1 * CENT, CENT);
+        const auto result17 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 1 * CENT, CENT);
         BOOST_CHECK(result17);
         BOOST_CHECK_EQUAL(result17->GetSelectedValue(), 1 * CENT); // we should get the exact amount
 
@@ -566,17 +566,17 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         add_coin(available_coins, *wallet, CENT * 7 / 10);
 
         // and try again to make 1.0 * CENT
-        const auto result18 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 1 * CENT, CENT);
+        const auto result18 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 1 * CENT, CENT);
         BOOST_CHECK(result18);
         BOOST_CHECK_EQUAL(result18->GetSelectedValue(), 1 * CENT); // we should get the exact amount
 
         // run the 'mtgox' test (see https://blockexplorer.com/tx/29a3efd3ef04f9153d47a990bd7b048a4b2d213daaa5fb8ed670fb85f13bdbcf)
         // they tried to consolidate 10 50k coins into one 500k coin, and ended up with 50k in change
-        available_coins.clear();
+        available_coins.Clear();
         for (int j = 0; j < 20; j++)
             add_coin(available_coins, *wallet, 50000 * COIN);
 
-        const auto result19 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 500000 * COIN, CENT);
+        const auto result19 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 500000 * COIN, CENT);
         BOOST_CHECK(result19);
         BOOST_CHECK_EQUAL(result19->GetSelectedValue(), 500000 * COIN); // we should get the exact amount
         BOOST_CHECK_EQUAL(result19->GetInputSet().size(), 10U); // in ten coins
@@ -585,41 +585,41 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         // we need to try finding an exact subset anyway
 
         // sometimes it will fail, and so we use the next biggest coin:
-        available_coins.clear();
+        available_coins.Clear();
         add_coin(available_coins, *wallet, CENT * 5 / 10);
         add_coin(available_coins, *wallet, CENT * 6 / 10);
         add_coin(available_coins, *wallet, CENT * 7 / 10);
         add_coin(available_coins, *wallet, 1111 * CENT);
-        const auto result20 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 1 * CENT, CENT);
+        const auto result20 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 1 * CENT, CENT);
         BOOST_CHECK(result20);
         BOOST_CHECK_EQUAL(result20->GetSelectedValue(), 1111 * CENT); // we get the bigger coin
         BOOST_CHECK_EQUAL(result20->GetInputSet().size(), 1U);
 
         // but sometimes it's possible, and we use an exact subset (0.4 + 0.6 = 1.0)
-        available_coins.clear();
+        available_coins.Clear();
         add_coin(available_coins, *wallet, CENT * 4 / 10);
         add_coin(available_coins, *wallet, CENT * 6 / 10);
         add_coin(available_coins, *wallet, CENT * 8 / 10);
         add_coin(available_coins, *wallet, 1111 * CENT);
-        const auto result21 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), CENT, CENT);
+        const auto result21 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), CENT, CENT);
         BOOST_CHECK(result21);
         BOOST_CHECK_EQUAL(result21->GetSelectedValue(), CENT);   // we should get the exact amount
         BOOST_CHECK_EQUAL(result21->GetInputSet().size(), 2U); // in two coins 0.4+0.6
 
         // test avoiding small change
-        available_coins.clear();
+        available_coins.Clear();
         add_coin(available_coins, *wallet, CENT * 5 / 100);
         add_coin(available_coins, *wallet, CENT * 1);
         add_coin(available_coins, *wallet, CENT * 100);
 
         // trying to make 100.01 from these three coins
-        const auto result22 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), CENT * 10001 / 100, CENT);
+        const auto result22 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), CENT * 10001 / 100, CENT);
         BOOST_CHECK(result22);
         BOOST_CHECK_EQUAL(result22->GetSelectedValue(), CENT * 10105 / 100); // we should get all coins
         BOOST_CHECK_EQUAL(result22->GetInputSet().size(), 3U);
 
         // but if we try to make 99.9, we should take the bigger of the two small coins to avoid small change
-        const auto result23 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), CENT * 9990 / 100, CENT);
+        const auto result23 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), CENT * 9990 / 100, CENT);
         BOOST_CHECK(result23);
         BOOST_CHECK_EQUAL(result23->GetSelectedValue(), 101 * CENT);
         BOOST_CHECK_EQUAL(result23->GetInputSet().size(), 2U);
@@ -627,14 +627,14 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
 
     // test with many inputs
     for (CAmount amt=1500; amt < COIN; amt*=10) {
-        available_coins.clear();
+        available_coins.Clear();
         // Create 676 inputs (=  (old MAX_STANDARD_TX_SIZE == 100000)  / 148 bytes per input)
         for (uint16_t j = 0; j < 676; j++)
             add_coin(available_coins, *wallet, amt);
 
         // We only create the wallet once to save time, but we still run the coin selection RUN_TESTS times.
         for (int i = 0; i < RUN_TESTS; i++) {
-            const auto result24 = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_confirmed), 2000, CENT);
+            const auto result24 = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_confirmed), 2000, CENT);
             BOOST_CHECK(result24);
 
             if (amt - 2000 < CENT) {
@@ -653,7 +653,7 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
 
     // test randomness
     {
-        available_coins.clear();
+        available_coins.Clear();
         for (int i2 = 0; i2 < 100; i2++)
             add_coin(available_coins, *wallet, COIN);
 
@@ -661,9 +661,9 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
         for (int i = 0; i < RUN_TESTS; i++) {
             // picking 50 from 100 coins doesn't depend on the shuffle,
             // but does depend on randomness in the stochastic approximation code
-            const auto result25 = KnapsackSolver(GroupCoins(available_coins.all()), 50 * COIN, CENT);
+            const auto result25 = KnapsackSolver(GroupCoins(available_coins.All()), 50 * COIN, CENT);
             BOOST_CHECK(result25);
-            const auto result26 = KnapsackSolver(GroupCoins(available_coins.all()), 50 * COIN, CENT);
+            const auto result26 = KnapsackSolver(GroupCoins(available_coins.All()), 50 * COIN, CENT);
             BOOST_CHECK(result26);
             BOOST_CHECK(!EqualResult(*result25, *result26));
 
@@ -674,9 +674,9 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
                 // When choosing 1 from 100 identical coins, 1% of the time, this test will choose the same coin twice
                 // which will cause it to fail.
                 // To avoid that issue, run the test RANDOM_REPEATS times and only complain if all of them fail
-                const auto result27 = KnapsackSolver(GroupCoins(available_coins.all()), COIN, CENT);
+                const auto result27 = KnapsackSolver(GroupCoins(available_coins.All()), COIN, CENT);
                 BOOST_CHECK(result27);
-                const auto result28 = KnapsackSolver(GroupCoins(available_coins.all()), COIN, CENT);
+                const auto result28 = KnapsackSolver(GroupCoins(available_coins.All()), COIN, CENT);
                 BOOST_CHECK(result28);
                 if (EqualResult(*result27, *result28))
                     fails++;
@@ -697,9 +697,9 @@ BOOST_AUTO_TEST_CASE(knapsack_solver_test)
             int fails = 0;
             for (int j = 0; j < RANDOM_REPEATS; j++)
             {
-                const auto result29 = KnapsackSolver(GroupCoins(available_coins.all()), 90 * CENT, CENT);
+                const auto result29 = KnapsackSolver(GroupCoins(available_coins.All()), 90 * CENT, CENT);
                 BOOST_CHECK(result29);
-                const auto result30 = KnapsackSolver(GroupCoins(available_coins.all()), 90 * CENT, CENT);
+                const auto result30 = KnapsackSolver(GroupCoins(available_coins.All()), 90 * CENT, CENT);
                 BOOST_CHECK(result30);
                 if (EqualResult(*result29, *result30))
                     fails++;
@@ -725,7 +725,7 @@ BOOST_AUTO_TEST_CASE(ApproximateBestSubset)
         add_coin(available_coins, *wallet, 1000 * COIN);
     add_coin(available_coins, *wallet, 3 * COIN);
 
-    const auto result = KnapsackSolver(KnapsackGroupOutputs(available_coins.all(), *wallet, filter_standard), 1003 * COIN, CENT, rand);
+    const auto result = KnapsackSolver(KnapsackGroupOutputs(available_coins.All(), *wallet, filter_standard), 1003 * COIN, CENT, rand);
     BOOST_CHECK(result);
     BOOST_CHECK_EQUAL(result->GetSelectedValue(), 1003 * COIN);
     BOOST_CHECK_EQUAL(result->GetInputSet().size(), 2U);
diff --git a/src/wallet/test/wallet_tests.cpp b/src/wallet/test/wallet_tests.cpp
index 093f510945..4afeb88ae9 100644
--- a/src/wallet/test/wallet_tests.cpp
+++ b/src/wallet/test/wallet_tests.cpp
@@ -591,7 +591,7 @@ BOOST_FIXTURE_TEST_CASE(ListCoinsTest, ListCoinsTestingSetup)
     // Lock both coins. Confirm number of available coins drops to 0.
     {
         LOCK(wallet->cs_wallet);
-        BOOST_CHECK_EQUAL(AvailableCoinsListUnspent(*wallet).size(), 2U);
+        BOOST_CHECK_EQUAL(AvailableCoinsListUnspent(*wallet).Size(), 2U);
     }
     for (const auto& group : list) {
         for (const auto& coin : group.second) {
@@ -601,7 +601,7 @@ BOOST_FIXTURE_TEST_CASE(ListCoinsTest, ListCoinsTestingSetup)
     }
     {
         LOCK(wallet->cs_wallet);
-        BOOST_CHECK_EQUAL(AvailableCoinsListUnspent(*wallet).size(), 0U);
+        BOOST_CHECK_EQUAL(AvailableCoinsListUnspent(*wallet).Size(), 0U);
     }
     // Confirm ListCoins still returns same result as before, despite coins
     // being locked.
diff --git a/src/wallet/wallet.cpp b/src/wallet/wallet.cpp
index e0a794dbe6..45f49954a3 100644
--- a/src/wallet/wallet.cpp
+++ b/src/wallet/wallet.cpp
@@ -3426,6 +3426,7 @@ void CWallet::SetupDescriptorScriptPubKeyMans()
 
         for (bool internal : {false, true}) {
             for (OutputType t : OUTPUT_TYPES) {
+                if (t == OutputType::UNKNOWN) continue;
                 auto spk_manager = std::unique_ptr<DescriptorScriptPubKeyMan>(new DescriptorScriptPubKeyMan(*this));
                 if (IsCrypted()) {
                     if (IsLocked()) {