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nym21
2026-01-17 11:23:04 +01:00
parent 7b3e172948
commit f7ee4e487a
10 changed files with 846 additions and 851 deletions
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628
crates/brk_client/src/lib.rs
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@@ -1600,6 +1600,40 @@ impl BitcoinPattern {
}
}
/// Pattern struct for repeated tree structure.
pub struct ClassAveragePricePattern<T> {
pub _2015: MetricPattern4<T>,
pub _2016: MetricPattern4<T>,
pub _2017: MetricPattern4<T>,
pub _2018: MetricPattern4<T>,
pub _2019: MetricPattern4<T>,
pub _2020: MetricPattern4<T>,
pub _2021: MetricPattern4<T>,
pub _2022: MetricPattern4<T>,
pub _2023: MetricPattern4<T>,
pub _2024: MetricPattern4<T>,
pub _2025: MetricPattern4<T>,
}
impl<T: DeserializeOwned> ClassAveragePricePattern<T> {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
_2015: MetricPattern4::new(client.clone(), _m(&acc, "2015_returns")),
_2016: MetricPattern4::new(client.clone(), _m(&acc, "2016_returns")),
_2017: MetricPattern4::new(client.clone(), _m(&acc, "2017_returns")),
_2018: MetricPattern4::new(client.clone(), _m(&acc, "2018_returns")),
_2019: MetricPattern4::new(client.clone(), _m(&acc, "2019_returns")),
_2020: MetricPattern4::new(client.clone(), _m(&acc, "2020_returns")),
_2021: MetricPattern4::new(client.clone(), _m(&acc, "2021_returns")),
_2022: MetricPattern4::new(client.clone(), _m(&acc, "2022_returns")),
_2023: MetricPattern4::new(client.clone(), _m(&acc, "2023_returns")),
_2024: MetricPattern4::new(client.clone(), _m(&acc, "2024_returns")),
_2025: MetricPattern4::new(client.clone(), _m(&acc, "2025_returns")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct DollarsPattern<T> {
pub average: MetricPattern2<T>,
@@ -1634,40 +1668,6 @@ impl<T: DeserializeOwned> DollarsPattern<T> {
}
}
/// Pattern struct for repeated tree structure.
pub struct ClassAveragePricePattern<T> {
pub _2015: MetricPattern4<T>,
pub _2016: MetricPattern4<T>,
pub _2017: MetricPattern4<T>,
pub _2018: MetricPattern4<T>,
pub _2019: MetricPattern4<T>,
pub _2020: MetricPattern4<T>,
pub _2021: MetricPattern4<T>,
pub _2022: MetricPattern4<T>,
pub _2023: MetricPattern4<T>,
pub _2024: MetricPattern4<T>,
pub _2025: MetricPattern4<T>,
}
impl<T: DeserializeOwned> ClassAveragePricePattern<T> {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
_2015: MetricPattern4::new(client.clone(), _m(&acc, "2015_average_price")),
_2016: MetricPattern4::new(client.clone(), _m(&acc, "2016_average_price")),
_2017: MetricPattern4::new(client.clone(), _m(&acc, "2017_average_price")),
_2018: MetricPattern4::new(client.clone(), _m(&acc, "2018_average_price")),
_2019: MetricPattern4::new(client.clone(), _m(&acc, "2019_average_price")),
_2020: MetricPattern4::new(client.clone(), _m(&acc, "2020_average_price")),
_2021: MetricPattern4::new(client.clone(), _m(&acc, "2021_average_price")),
_2022: MetricPattern4::new(client.clone(), _m(&acc, "2022_average_price")),
_2023: MetricPattern4::new(client.clone(), _m(&acc, "2023_average_price")),
_2024: MetricPattern4::new(client.clone(), _m(&acc, "2024_average_price")),
_2025: MetricPattern4::new(client.clone(), _m(&acc, "2025_average_price")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct RelativePattern2 {
pub neg_unrealized_loss_rel_to_own_market_cap: MetricPattern1<StoredF32>,
@@ -1910,6 +1910,110 @@ impl<T: DeserializeOwned> PhaseDailyCentsPattern<T> {
}
}
/// Pattern struct for repeated tree structure.
pub struct _10yPattern {
pub activity: ActivityPattern2,
pub cost_basis: CostBasisPattern,
pub outputs: OutputsPattern,
pub realized: RealizedPattern4,
pub relative: RelativePattern,
pub supply: SupplyPattern2,
pub unrealized: UnrealizedPattern,
}
impl _10yPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
activity: ActivityPattern2::new(client.clone(), acc.clone()),
cost_basis: CostBasisPattern::new(client.clone(), acc.clone()),
outputs: OutputsPattern::new(client.clone(), _m(&acc, "utxo_count")),
realized: RealizedPattern4::new(client.clone(), acc.clone()),
relative: RelativePattern::new(client.clone(), acc.clone()),
supply: SupplyPattern2::new(client.clone(), _m(&acc, "supply")),
unrealized: UnrealizedPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct PeriodCagrPattern {
pub _10y: MetricPattern4<StoredF32>,
pub _2y: MetricPattern4<StoredF32>,
pub _3y: MetricPattern4<StoredF32>,
pub _4y: MetricPattern4<StoredF32>,
pub _5y: MetricPattern4<StoredF32>,
pub _6y: MetricPattern4<StoredF32>,
pub _8y: MetricPattern4<StoredF32>,
}
impl PeriodCagrPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
_10y: MetricPattern4::new(client.clone(), _p("10y", &acc)),
_2y: MetricPattern4::new(client.clone(), _p("2y", &acc)),
_3y: MetricPattern4::new(client.clone(), _p("3y", &acc)),
_4y: MetricPattern4::new(client.clone(), _p("4y", &acc)),
_5y: MetricPattern4::new(client.clone(), _p("5y", &acc)),
_6y: MetricPattern4::new(client.clone(), _p("6y", &acc)),
_8y: MetricPattern4::new(client.clone(), _p("8y", &acc)),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _10yTo12yPattern {
pub activity: ActivityPattern2,
pub cost_basis: CostBasisPattern2,
pub outputs: OutputsPattern,
pub realized: RealizedPattern2,
pub relative: RelativePattern2,
pub supply: SupplyPattern2,
pub unrealized: UnrealizedPattern,
}
impl _10yTo12yPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
activity: ActivityPattern2::new(client.clone(), acc.clone()),
cost_basis: CostBasisPattern2::new(client.clone(), acc.clone()),
outputs: OutputsPattern::new(client.clone(), _m(&acc, "utxo_count")),
realized: RealizedPattern2::new(client.clone(), acc.clone()),
relative: RelativePattern2::new(client.clone(), acc.clone()),
supply: SupplyPattern2::new(client.clone(), _m(&acc, "supply")),
unrealized: UnrealizedPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _0satsPattern2 {
pub activity: ActivityPattern2,
pub cost_basis: CostBasisPattern,
pub outputs: OutputsPattern,
pub realized: RealizedPattern,
pub relative: RelativePattern4,
pub supply: SupplyPattern2,
pub unrealized: UnrealizedPattern,
}
impl _0satsPattern2 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
activity: ActivityPattern2::new(client.clone(), acc.clone()),
cost_basis: CostBasisPattern::new(client.clone(), acc.clone()),
outputs: OutputsPattern::new(client.clone(), _m(&acc, "utxo_count")),
realized: RealizedPattern::new(client.clone(), acc.clone()),
relative: RelativePattern4::new(client.clone(), _m(&acc, "supply_in")),
supply: SupplyPattern2::new(client.clone(), _m(&acc, "supply")),
unrealized: UnrealizedPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct UnrealizedPattern {
pub neg_unrealized_loss: MetricPattern1<Dollars>,
@@ -1962,110 +2066,6 @@ impl _100btcPattern {
}
}
/// Pattern struct for repeated tree structure.
pub struct _0satsPattern2 {
pub activity: ActivityPattern2,
pub cost_basis: CostBasisPattern,
pub outputs: OutputsPattern,
pub realized: RealizedPattern,
pub relative: RelativePattern4,
pub supply: SupplyPattern2,
pub unrealized: UnrealizedPattern,
}
impl _0satsPattern2 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
activity: ActivityPattern2::new(client.clone(), acc.clone()),
cost_basis: CostBasisPattern::new(client.clone(), acc.clone()),
outputs: OutputsPattern::new(client.clone(), _m(&acc, "utxo_count")),
realized: RealizedPattern::new(client.clone(), acc.clone()),
relative: RelativePattern4::new(client.clone(), _m(&acc, "supply_in")),
supply: SupplyPattern2::new(client.clone(), _m(&acc, "supply")),
unrealized: UnrealizedPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _10yPattern {
pub activity: ActivityPattern2,
pub cost_basis: CostBasisPattern,
pub outputs: OutputsPattern,
pub realized: RealizedPattern4,
pub relative: RelativePattern,
pub supply: SupplyPattern2,
pub unrealized: UnrealizedPattern,
}
impl _10yPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
activity: ActivityPattern2::new(client.clone(), acc.clone()),
cost_basis: CostBasisPattern::new(client.clone(), acc.clone()),
outputs: OutputsPattern::new(client.clone(), _m(&acc, "utxo_count")),
realized: RealizedPattern4::new(client.clone(), acc.clone()),
relative: RelativePattern::new(client.clone(), acc.clone()),
supply: SupplyPattern2::new(client.clone(), _m(&acc, "supply")),
unrealized: UnrealizedPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _10yTo12yPattern {
pub activity: ActivityPattern2,
pub cost_basis: CostBasisPattern2,
pub outputs: OutputsPattern,
pub realized: RealizedPattern2,
pub relative: RelativePattern2,
pub supply: SupplyPattern2,
pub unrealized: UnrealizedPattern,
}
impl _10yTo12yPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
activity: ActivityPattern2::new(client.clone(), acc.clone()),
cost_basis: CostBasisPattern2::new(client.clone(), acc.clone()),
outputs: OutputsPattern::new(client.clone(), _m(&acc, "utxo_count")),
realized: RealizedPattern2::new(client.clone(), acc.clone()),
relative: RelativePattern2::new(client.clone(), acc.clone()),
supply: SupplyPattern2::new(client.clone(), _m(&acc, "supply")),
unrealized: UnrealizedPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct PeriodCagrPattern {
pub _10y: MetricPattern4<StoredF32>,
pub _2y: MetricPattern4<StoredF32>,
pub _3y: MetricPattern4<StoredF32>,
pub _4y: MetricPattern4<StoredF32>,
pub _5y: MetricPattern4<StoredF32>,
pub _6y: MetricPattern4<StoredF32>,
pub _8y: MetricPattern4<StoredF32>,
}
impl PeriodCagrPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
_10y: MetricPattern4::new(client.clone(), _p("10y", &acc)),
_2y: MetricPattern4::new(client.clone(), _p("2y", &acc)),
_3y: MetricPattern4::new(client.clone(), _p("3y", &acc)),
_4y: MetricPattern4::new(client.clone(), _p("4y", &acc)),
_5y: MetricPattern4::new(client.clone(), _p("5y", &acc)),
_6y: MetricPattern4::new(client.clone(), _p("6y", &acc)),
_8y: MetricPattern4::new(client.clone(), _p("8y", &acc)),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct ActivityPattern2 {
pub coinblocks_destroyed: BlockCountPattern<StoredF64>,
@@ -2109,17 +2109,89 @@ impl<T: DeserializeOwned> SplitPattern2<T> {
}
/// Pattern struct for repeated tree structure.
pub struct UnclaimedRewardsPattern {
pub bitcoin: BitcoinPattern2<Bitcoin>,
pub struct SegwitAdoptionPattern {
pub base: MetricPattern11<StoredF32>,
pub cumulative: MetricPattern2<StoredF32>,
pub sum: MetricPattern2<StoredF32>,
}
impl SegwitAdoptionPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
base: MetricPattern11::new(client.clone(), acc.clone()),
cumulative: MetricPattern2::new(client.clone(), _m(&acc, "cumulative")),
sum: MetricPattern2::new(client.clone(), _m(&acc, "sum")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct ActiveSupplyPattern {
pub bitcoin: MetricPattern1<Bitcoin>,
pub dollars: MetricPattern1<Dollars>,
pub sats: MetricPattern1<Sats>,
}
impl ActiveSupplyPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
bitcoin: MetricPattern1::new(client.clone(), _m(&acc, "btc")),
dollars: MetricPattern1::new(client.clone(), _m(&acc, "usd")),
sats: MetricPattern1::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _2015Pattern {
pub bitcoin: MetricPattern4<Bitcoin>,
pub dollars: MetricPattern4<Dollars>,
pub sats: MetricPattern4<Sats>,
}
impl _2015Pattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
bitcoin: MetricPattern4::new(client.clone(), _m(&acc, "btc")),
dollars: MetricPattern4::new(client.clone(), _m(&acc, "usd")),
sats: MetricPattern4::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct CostBasisPattern2 {
pub max: MetricPattern1<Dollars>,
pub min: MetricPattern1<Dollars>,
pub percentiles: PercentilesPattern,
}
impl CostBasisPattern2 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
max: MetricPattern1::new(client.clone(), _m(&acc, "max_cost_basis")),
min: MetricPattern1::new(client.clone(), _m(&acc, "min_cost_basis")),
percentiles: PercentilesPattern::new(client.clone(), _m(&acc, "cost_basis")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct CoinbasePattern2 {
pub bitcoin: BlockCountPattern<Bitcoin>,
pub dollars: BlockCountPattern<Dollars>,
pub sats: BlockCountPattern<Sats>,
}
impl UnclaimedRewardsPattern {
impl CoinbasePattern2 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
bitcoin: BitcoinPattern2::new(client.clone(), _m(&acc, "btc")),
bitcoin: BlockCountPattern::new(client.clone(), _m(&acc, "btc")),
dollars: BlockCountPattern::new(client.clone(), _m(&acc, "usd")),
sats: BlockCountPattern::new(client.clone(), acc.clone()),
}
@@ -2145,127 +2217,23 @@ impl CoinbasePattern {
}
/// Pattern struct for repeated tree structure.
pub struct SegwitAdoptionPattern {
pub base: MetricPattern11<StoredF32>,
pub cumulative: MetricPattern2<StoredF32>,
pub sum: MetricPattern2<StoredF32>,
}
impl SegwitAdoptionPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
base: MetricPattern11::new(client.clone(), acc.clone()),
cumulative: MetricPattern2::new(client.clone(), _m(&acc, "cumulative")),
sum: MetricPattern2::new(client.clone(), _m(&acc, "sum")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _2015Pattern {
pub bitcoin: MetricPattern4<Bitcoin>,
pub dollars: MetricPattern4<Dollars>,
pub sats: MetricPattern4<Sats>,
}
impl _2015Pattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
bitcoin: MetricPattern4::new(client.clone(), _m(&acc, "btc")),
dollars: MetricPattern4::new(client.clone(), _m(&acc, "usd")),
sats: MetricPattern4::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct ActiveSupplyPattern {
pub bitcoin: MetricPattern1<Bitcoin>,
pub dollars: MetricPattern1<Dollars>,
pub sats: MetricPattern1<Sats>,
}
impl ActiveSupplyPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
bitcoin: MetricPattern1::new(client.clone(), _m(&acc, "btc")),
dollars: MetricPattern1::new(client.clone(), _m(&acc, "usd")),
sats: MetricPattern1::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct CoinbasePattern2 {
pub bitcoin: BlockCountPattern<Bitcoin>,
pub struct UnclaimedRewardsPattern {
pub bitcoin: BitcoinPattern2<Bitcoin>,
pub dollars: BlockCountPattern<Dollars>,
pub sats: BlockCountPattern<Sats>,
}
impl CoinbasePattern2 {
impl UnclaimedRewardsPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
bitcoin: BlockCountPattern::new(client.clone(), _m(&acc, "btc")),
bitcoin: BitcoinPattern2::new(client.clone(), _m(&acc, "btc")),
dollars: BlockCountPattern::new(client.clone(), _m(&acc, "usd")),
sats: BlockCountPattern::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct CostBasisPattern2 {
pub max: MetricPattern1<Dollars>,
pub min: MetricPattern1<Dollars>,
pub percentiles: PercentilesPattern,
}
impl CostBasisPattern2 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
max: MetricPattern1::new(client.clone(), _m(&acc, "max_cost_basis")),
min: MetricPattern1::new(client.clone(), _m(&acc, "min_cost_basis")),
percentiles: PercentilesPattern::new(client.clone(), _m(&acc, "cost_basis")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct CostBasisPattern {
pub max: MetricPattern1<Dollars>,
pub min: MetricPattern1<Dollars>,
}
impl CostBasisPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
max: MetricPattern1::new(client.clone(), _m(&acc, "max_cost_basis")),
min: MetricPattern1::new(client.clone(), _m(&acc, "min_cost_basis")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct RelativePattern4 {
pub supply_in_loss_rel_to_own_supply: MetricPattern1<StoredF64>,
pub supply_in_profit_rel_to_own_supply: MetricPattern1<StoredF64>,
}
impl RelativePattern4 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
supply_in_loss_rel_to_own_supply: MetricPattern1::new(client.clone(), _m(&acc, "loss_rel_to_own_supply")),
supply_in_profit_rel_to_own_supply: MetricPattern1::new(client.clone(), _m(&acc, "profit_rel_to_own_supply")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct _1dReturns1mSdPattern {
pub sd: MetricPattern4<StoredF32>,
@@ -2282,6 +2250,38 @@ impl _1dReturns1mSdPattern {
}
}
/// Pattern struct for repeated tree structure.
pub struct RelativePattern4 {
pub supply_in_loss_rel_to_own_supply: MetricPattern1<StoredF64>,
pub supply_in_profit_rel_to_own_supply: MetricPattern1<StoredF64>,
}
impl RelativePattern4 {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
supply_in_loss_rel_to_own_supply: MetricPattern1::new(client.clone(), _m(&acc, "loss_rel_to_own_supply")),
supply_in_profit_rel_to_own_supply: MetricPattern1::new(client.clone(), _m(&acc, "profit_rel_to_own_supply")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct CostBasisPattern {
pub max: MetricPattern1<Dollars>,
pub min: MetricPattern1<Dollars>,
}
impl CostBasisPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
max: MetricPattern1::new(client.clone(), _m(&acc, "max_cost_basis")),
min: MetricPattern1::new(client.clone(), _m(&acc, "min_cost_basis")),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct SupplyPattern2 {
pub halved: ActiveSupplyPattern,
@@ -2298,38 +2298,6 @@ impl SupplyPattern2 {
}
}
/// Pattern struct for repeated tree structure.
pub struct SatsPattern<T> {
pub ohlc: MetricPattern1<T>,
pub split: SplitPattern2<T>,
}
impl<T: DeserializeOwned> SatsPattern<T> {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
ohlc: MetricPattern1::new(client.clone(), _m(&acc, "ohlc")),
split: SplitPattern2::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct BitcoinPattern2<T> {
pub cumulative: MetricPattern2<T>,
pub sum: MetricPattern1<T>,
}
impl<T: DeserializeOwned> BitcoinPattern2<T> {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
cumulative: MetricPattern2::new(client.clone(), _m(&acc, "cumulative")),
sum: MetricPattern1::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct BlockCountPattern<T> {
pub cumulative: MetricPattern1<T>,
@@ -2347,15 +2315,33 @@ impl<T: DeserializeOwned> BlockCountPattern<T> {
}
/// Pattern struct for repeated tree structure.
pub struct OutputsPattern {
pub utxo_count: MetricPattern1<StoredU64>,
pub struct BitcoinPattern2<T> {
pub cumulative: MetricPattern2<T>,
pub sum: MetricPattern1<T>,
}
impl OutputsPattern {
impl<T: DeserializeOwned> BitcoinPattern2<T> {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
utxo_count: MetricPattern1::new(client.clone(), acc.clone()),
cumulative: MetricPattern2::new(client.clone(), _m(&acc, "cumulative")),
sum: MetricPattern1::new(client.clone(), acc.clone()),
}
}
}
/// Pattern struct for repeated tree structure.
pub struct SatsPattern<T> {
pub ohlc: MetricPattern1<T>,
pub split: SplitPattern2<T>,
}
impl<T: DeserializeOwned> SatsPattern<T> {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
ohlc: MetricPattern1::new(client.clone(), _m(&acc, "ohlc")),
split: SplitPattern2::new(client.clone(), acc.clone()),
}
}
}
@@ -2374,6 +2360,20 @@ impl RealizedPriceExtraPattern {
}
}
/// Pattern struct for repeated tree structure.
pub struct OutputsPattern {
pub utxo_count: MetricPattern1<StoredU64>,
}
impl OutputsPattern {
/// Create a new pattern node with accumulated metric name.
pub fn new(client: Arc<BrkClientBase>, acc: String) -> Self {
Self {
utxo_count: MetricPattern1::new(client.clone(), acc.clone()),
}
}
}
// Metrics tree
/// Metrics tree node.
@@ -4179,8 +4179,8 @@ impl MetricsTree_Market_Ath {
/// Metrics tree node.
pub struct MetricsTree_Market_Dca {
pub class_average_price: ClassAveragePricePattern<Dollars>,
pub class_returns: MetricsTree_Market_Dca_ClassReturns,
pub class_average_price: MetricsTree_Market_Dca_ClassAveragePrice,
pub class_returns: ClassAveragePricePattern<StoredF32>,
pub class_stack: MetricsTree_Market_Dca_ClassStack,
pub period_average_price: PeriodAveragePricePattern<Dollars>,
pub period_cagr: PeriodCagrPattern,
@@ -4192,8 +4192,8 @@ pub struct MetricsTree_Market_Dca {
impl MetricsTree_Market_Dca {
pub fn new(client: Arc<BrkClientBase>, base_path: String) -> Self {
Self {
class_average_price: ClassAveragePricePattern::new(client.clone(), "dca_class".to_string()),
class_returns: MetricsTree_Market_Dca_ClassReturns::new(client.clone(), format!("{base_path}_class_returns")),
class_average_price: MetricsTree_Market_Dca_ClassAveragePrice::new(client.clone(), format!("{base_path}_class_average_price")),
class_returns: ClassAveragePricePattern::new(client.clone(), "dca_class".to_string()),
class_stack: MetricsTree_Market_Dca_ClassStack::new(client.clone(), format!("{base_path}_class_stack")),
period_average_price: PeriodAveragePricePattern::new(client.clone(), "dca_average_price".to_string()),
period_cagr: PeriodCagrPattern::new(client.clone(), "dca_cagr".to_string()),
@@ -4205,34 +4205,34 @@ impl MetricsTree_Market_Dca {
}
/// Metrics tree node.
pub struct MetricsTree_Market_Dca_ClassReturns {
pub _2015: MetricPattern4<StoredF32>,
pub _2016: MetricPattern4<StoredF32>,
pub _2017: MetricPattern4<StoredF32>,
pub _2018: MetricPattern4<StoredF32>,
pub _2019: MetricPattern4<StoredF32>,
pub _2020: MetricPattern4<StoredF32>,
pub _2021: MetricPattern4<StoredF32>,
pub _2022: MetricPattern4<StoredF32>,
pub _2023: MetricPattern4<StoredF32>,
pub _2024: MetricPattern4<StoredF32>,
pub _2025: MetricPattern4<StoredF32>,
pub struct MetricsTree_Market_Dca_ClassAveragePrice {
pub _2015: MetricPattern4<Dollars>,
pub _2016: MetricPattern4<Dollars>,
pub _2017: MetricPattern4<Dollars>,
pub _2018: MetricPattern4<Dollars>,
pub _2019: MetricPattern4<Dollars>,
pub _2020: MetricPattern4<Dollars>,
pub _2021: MetricPattern4<Dollars>,
pub _2022: MetricPattern4<Dollars>,
pub _2023: MetricPattern4<Dollars>,
pub _2024: MetricPattern4<Dollars>,
pub _2025: MetricPattern4<Dollars>,
}
impl MetricsTree_Market_Dca_ClassReturns {
impl MetricsTree_Market_Dca_ClassAveragePrice {
pub fn new(client: Arc<BrkClientBase>, base_path: String) -> Self {
Self {
_2015: MetricPattern4::new(client.clone(), "dca_class_2015_returns".to_string()),
_2016: MetricPattern4::new(client.clone(), "dca_class_2016_returns".to_string()),
_2017: MetricPattern4::new(client.clone(), "dca_class_2017_returns".to_string()),
_2018: MetricPattern4::new(client.clone(), "dca_class_2018_returns".to_string()),
_2019: MetricPattern4::new(client.clone(), "dca_class_2019_returns".to_string()),
_2020: MetricPattern4::new(client.clone(), "dca_class_2020_returns".to_string()),
_2021: MetricPattern4::new(client.clone(), "dca_class_2021_returns".to_string()),
_2022: MetricPattern4::new(client.clone(), "dca_class_2022_returns".to_string()),
_2023: MetricPattern4::new(client.clone(), "dca_class_2023_returns".to_string()),
_2024: MetricPattern4::new(client.clone(), "dca_class_2024_returns".to_string()),
_2025: MetricPattern4::new(client.clone(), "dca_class_2025_returns".to_string()),
_2015: MetricPattern4::new(client.clone(), "dca_class_2015_average_price".to_string()),
_2016: MetricPattern4::new(client.clone(), "dca_class_2016_average_price".to_string()),
_2017: MetricPattern4::new(client.clone(), "dca_class_2017_average_price".to_string()),
_2018: MetricPattern4::new(client.clone(), "dca_class_2018_average_price".to_string()),
_2019: MetricPattern4::new(client.clone(), "dca_class_2019_average_price".to_string()),
_2020: MetricPattern4::new(client.clone(), "dca_class_2020_average_price".to_string()),
_2021: MetricPattern4::new(client.clone(), "dca_class_2021_average_price".to_string()),
_2022: MetricPattern4::new(client.clone(), "dca_class_2022_average_price".to_string()),
_2023: MetricPattern4::new(client.clone(), "dca_class_2023_average_price".to_string()),
_2024: MetricPattern4::new(client.clone(), "dca_class_2024_average_price".to_string()),
_2025: MetricPattern4::new(client.clone(), "dca_class_2025_average_price".to_string()),
}
}
}