Stacks MCP Server

(use-trait ft-trait .trait-sip-010.sip-010-trait) (define-constant ERR-NOT-AUTHORIZED (err u1000)) (define-constant ERR-POOL-ALREADY-EXISTS (err u2000)) (define-constant ERR-INVALID-POOL (err u2001)) (define-constant ERR-BLOCKLISTED (err u2002)) (define-constant ERR-INVALID-LIQUIDITY (err u2003)) (define-constant ERR-PERCENT-GREATER-THAN-ONE (err u2004)) (define-constant ERR-EXCEEDS-MAX-SLIPPAGE (err u2005)) (define-constant ERR-ORACLE-NOT-ENABLED (err u2006)) (define-constant ERR-ORACLE-AVERAGE-BIGGER-THAN-ONE (err u2007)) (define-constant ERR-PAUSED (err u2008)) (define-constant ERR-SWITCH-THRESHOLD-BIGGER-THAN-ONE (err u2009)) (define-constant ERR-NO-LIQUIDITY (err u2010)) (define-constant ERR-MAX-IN-RATIO (err u2011)) (define-constant ERR-MAX-OUT-RATIO (err u2012)) (define-data-var paused bool true) (define-read-only (is-dao-or-extension) (ok (asserts! (or (is-eq tx-sender .executor-dao) (contract-call? .executor-dao is-extension contract-caller)) ERR-NOT-AUTHORIZED))) (define-read-only (is-blocklisted-or-default (sender principal)) (contract-call? .amm-registry-v2-01 is-blocklisted-or-default sender)) (define-read-only (get-switch-threshold) (contract-call? .amm-registry-v2-01 get-switch-threshold)) (define-read-only (get-pool-details-by-id (pool-id uint)) (contract-call? .amm-registry-v2-01 get-pool-details-by-id pool-id)) (define-read-only (get-pool-details (token-x principal) (token-y principal) (factor uint)) (contract-call? .amm-registry-v2-01 get-pool-details token-x token-y factor)) (define-read-only (get-pool-exists (token-x principal) (token-y principal) (factor uint)) (contract-call? .amm-registry-v2-01 get-pool-exists token-x token-y factor)) (define-read-only (is-paused) (var-get paused)) (define-read-only (get-balances (token-x principal) (token-y principal) (factor uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (ok {balance-x: (get balance-x pool), balance-y: (get balance-y pool)}))) (define-read-only (get-start-block (token-x principal) (token-y principal) (factor uint)) (ok (get start-block (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-end-block (token-x principal) (token-y principal) (factor uint)) (ok (get end-block (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-max-in-ratio (token-x principal) (token-y principal) (factor uint)) (ok (get max-in-ratio (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-max-out-ratio (token-x principal) (token-y principal) (factor uint)) (ok (get max-out-ratio (try! (get-pool-details token-x token-y factor))))) (define-read-only (check-pool-status (token-x principal) (token-y principal) (factor uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (ok (asserts! (and (>= block-height (get start-block pool)) (<= block-height (get end-block pool))) ERR-NOT-AUTHORIZED)))) (define-read-only (get-oracle-enabled (token-x principal) (token-y principal) (factor uint)) (ok (get oracle-enabled (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-oracle-average (token-x principal) (token-y principal) (factor uint)) (ok (get oracle-average (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-oracle-resilient (token-x principal) (token-y principal) (factor uint)) (let ( (exists (is-some (get-pool-exists token-x token-y factor))) (pool (if exists (try! (get-pool-details token-x token-y factor)) (try! (get-pool-details token-y token-x factor)))) (oracle-instant (try! (get-oracle-instant token-x token-y factor)))) (asserts! (get oracle-enabled pool) ERR-ORACLE-NOT-ENABLED) (ok (+ (mul-down (- ONE_8 (get oracle-average pool)) oracle-instant) (mul-down (get oracle-average pool) (if (is-eq (get oracle-resilient pool) u0) oracle-instant (get oracle-resilient pool))))))) (define-read-only (get-oracle-instant (token-x principal) (token-y principal) (factor uint)) (let ( (exists (is-some (get-pool-exists token-x token-y factor))) (pool (if exists (try! (get-pool-details token-x token-y factor)) (try! (get-pool-details token-y token-x factor)))) ) (asserts! (get oracle-enabled pool) ERR-ORACLE-NOT-ENABLED) (if exists (ok (get-price-internal (get balance-x pool) (get balance-y pool) factor)) (ok (get-price-internal (get balance-y pool) (get balance-x pool) factor))))) (define-read-only (get-price (token-x principal) (token-y principal) (factor uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (ok (get-price-internal (get balance-x pool) (get balance-y pool) factor)))) (define-read-only (get-threshold-x (token-x principal) (token-y principal) (factor uint)) (ok (get threshold-x (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-threshold-y (token-x principal) (token-y principal) (factor uint)) (ok (get threshold-y (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-fee-rebate (token-x principal) (token-y principal) (factor uint)) (ok (get fee-rebate (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-fee-rate-x (token-x principal) (token-y principal) (factor uint)) (ok (get fee-rate-x (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-fee-rate-y (token-x principal) (token-y principal) (factor uint)) (ok (get fee-rate-y (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-pool-owner (token-x principal) (token-y principal) (factor uint)) (ok (get pool-owner (try! (get-pool-details token-x token-y factor))))) (define-read-only (get-y-given-x (token-x principal) (token-y principal) (factor uint) (dx uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) (threshold (get threshold-x pool)) (dy (if (>= dx threshold) (get-y-given-x-internal (get balance-x pool) (get balance-y pool) factor dx) (div-down (mul-down dx (get-y-given-x-internal (get balance-x pool) (get balance-y pool) factor threshold)) threshold))) ) (asserts! (< dx (mul-down (get balance-x pool) (get max-in-ratio pool))) ERR-MAX-IN-RATIO) (asserts! (< dy (mul-down (get balance-y pool) (get max-out-ratio pool))) ERR-MAX-OUT-RATIO) (ok dy))) (define-read-only (get-x-given-y (token-x principal) (token-y principal) (factor uint) (dy uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) (threshold (get threshold-y pool)) (dx (if (>= dy threshold) (get-x-given-y-internal (get balance-x pool) (get balance-y pool) factor dy) (div-down (mul-down dy (get-x-given-y-internal (get balance-x pool) (get balance-y pool) factor threshold)) threshold))) ) (asserts! (< dy (mul-down (get balance-y pool) (get max-in-ratio pool))) ERR-MAX-IN-RATIO) (asserts! (< dx (mul-down (get balance-x pool) (get max-out-ratio pool))) ERR-MAX-OUT-RATIO) (ok dx))) (define-read-only (get-y-in-given-x-out (token-x principal) (token-y principal) (factor uint) (dx uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) (threshold (get threshold-x pool)) (dy (if (>= dx threshold) (get-y-in-given-x-out-internal (get balance-x pool) (get balance-y pool) factor dx) (div-down (mul-down dx (get-y-in-given-x-out-internal (get balance-x pool) (get balance-y pool) factor threshold)) threshold))) ) (asserts! (< dy (mul-down (get balance-y pool) (get max-in-ratio pool))) ERR-MAX-IN-RATIO) (asserts! (< dx (mul-down (get balance-x pool) (get max-out-ratio pool))) ERR-MAX-OUT-RATIO) (ok dy))) (define-read-only (get-x-in-given-y-out (token-x principal) (token-y principal) (factor uint) (dy uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) (threshold (get threshold-y pool)) (dx (if (>= dy threshold) (get-x-in-given-y-out-internal (get balance-x pool) (get balance-y pool) factor dy) (div-down (mul-down dy (get-x-in-given-y-out-internal (get balance-x pool) (get balance-y pool) factor threshold)) threshold))) ) (asserts! (< dx (mul-down (get balance-x pool) (get max-in-ratio pool))) ERR-MAX-IN-RATIO) (asserts! (< dy (mul-down (get balance-y pool) (get max-out-ratio pool))) ERR-MAX-OUT-RATIO) (ok dx))) (define-read-only (get-x-given-price (token-x principal) (token-y principal) (factor uint) (price uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (asserts! (< price (get-price-internal (get balance-x pool) (get balance-y pool) factor)) ERR-NO-LIQUIDITY) (ok (get-x-given-price-internal (get balance-x pool) (get balance-y pool) factor price)))) (define-read-only (get-y-given-price (token-x principal) (token-y principal) (factor uint) (price uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (asserts! (> price (get-price-internal (get balance-x pool) (get balance-y pool) factor)) ERR-NO-LIQUIDITY) (ok (get-y-given-price-internal (get balance-x pool) (get balance-y pool) factor price)))) (define-read-only (get-token-given-position (token-x principal) (token-y principal) (factor uint) (dx uint) (max-dy (optional uint))) (let ( (pool (try! (get-pool-details token-x token-y factor))) (dy (default-to u340282366920938463463374607431768211455 max-dy)) ) (asserts! (and (> dx u0) (> dy u0)) ERR-NO-LIQUIDITY) (ok (get-token-given-position-internal (get balance-x pool) (get balance-y pool) factor (get total-supply pool) dx dy)))) (define-read-only (get-position-given-mint (token-x principal) (token-y principal) (factor uint) (token-amount uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (asserts! (> (get total-supply pool) u0) ERR-NO-LIQUIDITY) (ok (get-position-given-mint-internal (get balance-x pool) (get balance-y pool) factor (get total-supply pool) token-amount)))) (define-read-only (get-position-given-burn (token-x principal) (token-y principal) (factor uint) (token-amount uint)) (let ( (pool (try! (get-pool-details token-x token-y factor))) ) (asserts! (> (get total-supply pool) u0) ERR-NO-LIQUIDITY) (ok (get-position-given-burn-internal (get balance-x pool) (get balance-y pool) factor (get total-supply pool) token-amount)))) (define-read-only (get-helper (token-x principal) (token-y principal) (factor uint) (dx uint)) (if (is-some (get-pool-exists token-x token-y factor)) (get-y-given-x token-x token-y factor dx) (get-x-given-y token-y token-x factor dx))) (define-read-only (get-helper-a (token-x principal) (token-y principal) (token-z principal) (factor-x uint) (factor-y uint) (dx uint)) (get-helper token-y token-z factor-y (try! (get-helper token-x token-y factor-x dx)))) (define-read-only (get-helper-b (token-x principal) (token-y principal) (token-z principal) (token-w principal) (factor-x uint) (factor-y uint) (factor-z uint) (dx uint)) (get-helper token-z token-w factor-z (try! (get-helper-a token-x token-y token-z factor-x factor-y dx)))) (define-read-only (get-helper-c (token-x principal) (token-y principal) (token-z principal) (token-w principal) (token-v principal) (factor-x uint) (factor-y uint) (factor-z uint) (factor-w uint) (dx uint)) (get-helper-a token-z token-w token-v factor-z factor-w (try! (get-helper-a token-x token-y token-z factor-x factor-y dx)))) (define-read-only (fee-helper (token-x principal) (token-y principal) (factor uint)) (if (is-some (get-pool-exists token-x token-y factor)) (get-fee-rate-x token-x token-y factor) (get-fee-rate-y token-y token-x factor))) (define-read-only (fee-helper-a (token-x principal) (token-y principal) (token-z principal) (factor-x uint) (factor-y uint)) (ok (+ (try! (fee-helper token-x token-y factor-x)) (try! (fee-helper token-y token-z factor-y))))) (define-read-only (fee-helper-b (token-x principal) (token-y principal) (token-z principal) (token-w principal) (factor-x uint) (factor-y uint) (factor-z uint)) (ok (+ (try! (fee-helper-a token-x token-y token-z factor-x factor-y)) (try! (fee-helper token-z token-w factor-z))))) (define-read-only (fee-helper-c (token-x principal) (token-y principal) (token-z principal) (token-w principal) (token-v principal) (factor-x uint) (factor-y uint) (factor-z uint) (factor-w uint)) (ok (+ (try! (fee-helper-a token-x token-y token-z factor-x factor-y)) (try! (fee-helper-a token-z token-w token-v factor-z factor-w))))) (define-read-only (get-invariant (balance-x uint) (balance-y uint) (t uint)) (if (>= t (get-switch-threshold)) (+ (mul-down (- ONE_8 t) (+ balance-x balance-y)) (mul-down t (mul-down balance-x balance-y))) (+ (pow-down balance-x (- ONE_8 t)) (pow-down balance-y (- ONE_8 t))))) (define-read-only (get-max-ratio-limit) (contract-call? .amm-registry-v2-01 get-max-ratio-limit)) (define-public (pause (new-paused bool)) (begin (try! (is-dao-or-extension)) (ok (var-set paused new-paused)))) (define-public (set-start-block (token-x principal) (token-y principal) (factor uint) (new-start-block uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-start-block token-x token-y factor new-start-block)))) (define-public (set-end-block (token-x principal) (token-y principal) (factor uint) (new-end-block uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-end-block token-x token-y factor new-end-block)))) (define-public (set-max-in-ratio (token-x principal) (token-y principal) (factor uint) (new-max-in-ratio uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-max-in-ratio token-x token-y factor new-max-in-ratio)))) (define-public (set-max-out-ratio (token-x principal) (token-y principal) (factor uint) (new-max-out-ratio uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-max-out-ratio token-x token-y factor new-max-out-ratio)))) (define-public (set-oracle-enabled (token-x principal) (token-y principal) (factor uint) (enabled bool)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-oracle-enabled token-x token-y factor enabled)))) (define-public (set-oracle-average (token-x principal) (token-y principal) (factor uint) (new-oracle-average uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-oracle-average token-x token-y factor new-oracle-average)))) (define-public (set-threshold-x (token-x principal) (token-y principal) (factor uint) (new-threshold uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-threshold-x token-x token-y factor new-threshold)))) (define-public (set-threshold-y (token-x principal) (token-y principal) (factor uint) (new-threshold uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-threshold-y token-x token-y factor new-threshold)))) (define-public (set-fee-rate-x (token-x principal) (token-y principal) (factor uint) (fee-rate-x uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-fee-rate-x token-x token-y factor fee-rate-x)))) (define-public (set-fee-rate-y (token-x principal) (token-y principal) (factor uint) (fee-rate-y uint)) (let ( (pool (try! (get-pool-details token-x token-y factor)))) (asserts! (or (is-eq tx-sender (get pool-owner pool)) (is-ok (is-dao-or-extension))) ERR-NOT-AUTHORIZED) (as-contract (contract-call? .amm-registry-v2-01 set-fee-rate-y token-x token-y factor fee-rate-y)))) (define-public (create-pool (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (factor uint) (pool-owner principal) (dx uint) (dy uint)) (begin (asserts! (not (is-blocklisted-or-default tx-sender)) ERR-BLOCKLISTED) (as-contract (try! (contract-call? .amm-registry-v2-01 create-pool token-x-trait token-y-trait factor pool-owner))) (add-to-position token-x-trait token-y-trait factor dx (some dy)))) (define-public (add-to-position (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (factor uint) (dx uint) (max-dy (optional uint))) (let ( (token-x (contract-of token-x-trait)) (token-y (contract-of token-y-trait)) (pool (try! (get-pool-details token-x token-y factor))) (balance-x (get balance-x pool)) (balance-y (get balance-y pool)) (total-supply (get total-supply pool)) (add-data (try! (get-token-given-position token-x token-y factor dx max-dy))) (new-supply (get token add-data)) (dy (get dy add-data)) (pool-updated (merge pool { total-supply: (+ new-supply total-supply), balance-x: (+ balance-x dx), balance-y: (+ balance-y dy) })) (sender tx-sender)) (asserts! (not (is-paused)) ERR-PAUSED) (asserts! (and (> dx u0) (> dy u0)) ERR-INVALID-LIQUIDITY) (asserts! (>= (default-to u340282366920938463463374607431768211455 max-dy) dy) ERR-EXCEEDS-MAX-SLIPPAGE) (try! (contract-call? token-x-trait transfer-fixed dx sender .amm-vault-v2-01 none)) (try! (contract-call? token-y-trait transfer-fixed dy sender .amm-vault-v2-01 none)) (as-contract (try! (contract-call? .amm-registry-v2-01 update-pool token-x token-y factor pool-updated))) (as-contract (try! (contract-call? .token-amm-pool-v2-01 mint-fixed (get pool-id pool) new-supply sender))) (print { object: "pool", action: "liquidity-added", data: pool-updated, dx: dx, dy: dy, token-x: token-x, token-y: token-y, sender: sender }) (ok {supply: new-supply, dx: dx, dy: dy}))) (define-public (reduce-position (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (factor uint) (percent uint)) (let ( (token-x (contract-of token-x-trait)) (token-y (contract-of token-y-trait)) (pool (try! (get-pool-details token-x token-y factor))) (balance-x (get balance-x pool)) (balance-y (get balance-y pool)) (total-shares (unwrap-panic (contract-call? .token-amm-pool-v2-01 get-balance-fixed (get pool-id pool) tx-sender))) (shares (if (is-eq percent ONE_8) total-shares (mul-down total-shares percent))) (total-supply (get total-supply pool)) (reduce-data (try! (get-position-given-burn token-x token-y factor shares))) (dx (get dx reduce-data)) (dy (get dy reduce-data)) (pool-updated (merge pool { total-supply: (if (<= total-supply shares) u0 (- total-supply shares)), balance-x: (if (<= balance-x dx) u0 (- balance-x dx)), balance-y: (if (<= balance-y dy) u0 (- balance-y dy)) })) (sender tx-sender)) (asserts! (not (is-blocklisted-or-default tx-sender)) ERR-BLOCKLISTED) (asserts! (not (is-paused)) ERR-PAUSED) (asserts! (<= percent ONE_8) ERR-PERCENT-GREATER-THAN-ONE) (as-contract (try! (contract-call? .amm-vault-v2-01 transfer-ft-two token-x-trait dx token-y-trait dy sender))) (as-contract (try! (contract-call? .amm-registry-v2-01 update-pool token-x token-y factor pool-updated))) (as-contract (try! (contract-call? .token-amm-pool-v2-01 burn-fixed (get pool-id pool) shares sender))) (print { object: "pool", action: "liquidity-removed", data: pool-updated, dx: dx, dy: dy, token-x: token-x, token-y: token-y, sender: sender }) (ok {dx: dx, dy: dy}))) (define-public (swap-x-for-y (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (factor uint) (dx uint) (min-dy (optional uint))) (let ( (token-x (contract-of token-x-trait)) (token-y (contract-of token-y-trait)) (pool (try! (get-pool-details token-x token-y factor))) (balance-x (get balance-x pool)) (balance-y (get balance-y pool)) (fee (mul-up dx (get fee-rate-x pool))) (dx-net-fees (if (<= dx fee) u0 (- dx fee))) (fee-rebate (mul-down fee (get fee-rebate pool))) (dy (try! (get-y-given-x token-x token-y factor dx-net-fees))) (pool-updated (merge pool { balance-x: (+ balance-x dx-net-fees fee-rebate), balance-y: (if (<= balance-y dy) u0 (- balance-y dy)), oracle-resilient: (if (get oracle-enabled pool) (try! (get-oracle-resilient token-x token-y factor)) u0) })) (sender tx-sender)) (asserts! (not (is-blocklisted-or-default tx-sender)) ERR-BLOCKLISTED) (asserts! (not (is-paused)) ERR-PAUSED) (try! (check-pool-status token-x token-y factor)) (asserts! (> dx u0) ERR-INVALID-LIQUIDITY) (asserts! (<= (div-down dy dx-net-fees) (get-price-internal balance-x balance-y factor)) ERR-INVALID-LIQUIDITY) (asserts! (<= (default-to u0 min-dy) dy) ERR-EXCEEDS-MAX-SLIPPAGE) (try! (contract-call? token-x-trait transfer-fixed dx sender .amm-vault-v2-01 none)) (and (> dy u0) (as-contract (try! (contract-call? .amm-vault-v2-01 transfer-ft token-y-trait dy sender)))) (as-contract (try! (contract-call? .amm-vault-v2-01 add-to-reserve token-x (- fee fee-rebate)))) (as-contract (try! (contract-call? .amm-registry-v2-01 update-pool token-x token-y factor pool-updated))) (print { object: "pool", action: "swap-x-for-y", data: pool-updated, dx: dx, dy: dy, token-x: token-x, token-y: token-y, sender: sender, fee: fee, fee-rebate: fee-rebate }) (ok {dx: dx-net-fees, dy: dy}))) (define-public (swap-y-for-x (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (factor uint) (dy uint) (min-dx (optional uint))) (let ( (token-x (contract-of token-x-trait)) (token-y (contract-of token-y-trait)) (pool (try! (get-pool-details token-x token-y factor))) (balance-x (get balance-x pool)) (balance-y (get balance-y pool)) (fee (mul-up dy (get fee-rate-y pool))) (dy-net-fees (if (<= dy fee) u0 (- dy fee))) (fee-rebate (mul-down fee (get fee-rebate pool))) (dx (try! (get-x-given-y token-x token-y factor dy-net-fees))) (pool-updated (merge pool { balance-x: (if (<= balance-x dx) u0 (- balance-x dx)), balance-y: (+ balance-y dy-net-fees fee-rebate), oracle-resilient: (if (get oracle-enabled pool) (try! (get-oracle-resilient token-x token-y factor)) u0) })) (sender tx-sender)) (asserts! (not (is-blocklisted-or-default tx-sender)) ERR-BLOCKLISTED) (asserts! (not (is-paused)) ERR-PAUSED) (try! (check-pool-status token-x token-y factor)) (asserts! (> dy u0) ERR-INVALID-LIQUIDITY) (asserts! (>= (div-down dy-net-fees dx) (get-price-internal balance-x balance-y factor)) ERR-INVALID-LIQUIDITY) (asserts! (<= (default-to u0 min-dx) dx) ERR-EXCEEDS-MAX-SLIPPAGE) (try! (contract-call? token-y-trait transfer-fixed dy sender .amm-vault-v2-01 none)) (and (> dx u0) (as-contract (try! (contract-call? .amm-vault-v2-01 transfer-ft token-x-trait dx sender)))) (as-contract (try! (contract-call? .amm-vault-v2-01 add-to-reserve token-y (- fee fee-rebate)))) (as-contract (try! (contract-call? .amm-registry-v2-01 update-pool token-x token-y factor pool-updated))) (print { object: "pool", action: "swap-y-for-x", data: pool-updated, dx: dx, dy: dy, token-x: token-x, token-y: token-y, sender: sender, fee: fee, fee-rebate: fee-rebate }) (ok {dx: dx, dy: dy-net-fees}))) (define-public (swap-helper (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (factor uint) (dx uint) (min-dy (optional uint))) (if (is-some (get-pool-exists (contract-of token-x-trait) (contract-of token-y-trait) factor)) (ok (get dy (try! (swap-x-for-y token-x-trait token-y-trait factor dx min-dy)))) (ok (get dx (try! (swap-y-for-x token-y-trait token-x-trait factor dx min-dy)))))) (define-public (swap-helper-a (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (token-z-trait <ft-trait>) (factor-x uint) (factor-y uint) (dx uint) (min-dz (optional uint))) (swap-helper token-y-trait token-z-trait factor-y (try! (swap-helper token-x-trait token-y-trait factor-x dx none)) min-dz)) (define-public (swap-helper-b (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (token-z-trait <ft-trait>) (token-w-trait <ft-trait>) (factor-x uint) (factor-y uint) (factor-z uint) (dx uint) (min-dw (optional uint))) (swap-helper token-z-trait token-w-trait factor-z (try! (swap-helper-a token-x-trait token-y-trait token-z-trait factor-x factor-y dx none)) min-dw)) (define-public (swap-helper-c (token-x-trait <ft-trait>) (token-y-trait <ft-trait>) (token-z-trait <ft-trait>) (token-w-trait <ft-trait>) (token-v-trait <ft-trait>) (factor-x uint) (factor-y uint) (factor-z uint) (factor-w uint) (dx uint) (min-dv (optional uint))) (swap-helper-a token-z-trait token-w-trait token-v-trait factor-z factor-w (try! (swap-helper-a token-x-trait token-y-trait token-z-trait factor-x factor-y dx none)) min-dv)) (define-private (get-price-internal (balance-x uint) (balance-y uint) (factor uint)) (if (>= factor (get-switch-threshold)) (div-down (+ (- ONE_8 factor) (mul-down factor balance-y)) (+ (- ONE_8 factor) (mul-down factor balance-x))) (pow-down (div-down balance-y balance-x) factor))) (define-private (get-y-given-x-internal (balance-x uint) (balance-y uint) (t uint) (dx uint)) (if (>= t (get-switch-threshold)) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t)))) (div-down (+ (mul-down t-comp dx) (mul-down t (mul-down dx balance-y))) (+ t-comp (mul-down t (+ balance-x dx))))) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t))) (t-comp-num-uncapped (div-up ONE_8 t-comp)) (t-comp-num (if (< t-comp-num-uncapped MILD_EXPONENT_BOUND) t-comp-num-uncapped MILD_EXPONENT_BOUND)) (x-pow (pow-up balance-x t-comp)) (y-pow (pow-up balance-y t-comp)) (x-dx-pow (pow-down (+ balance-x dx) t-comp)) (add-term (+ x-pow y-pow)) (term (if (<= add-term x-dx-pow) u0 (- add-term x-dx-pow))) (final-term (pow-up term t-comp-num))) (if (<= balance-y final-term) u0 (- balance-y final-term))))) (define-private (get-x-given-y-internal (balance-x uint) (balance-y uint) (t uint) (dy uint)) (if (>= t (get-switch-threshold)) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t)))) (div-down (+ (mul-down t-comp dy) (mul-down t (mul-down dy balance-x))) (+ t-comp (mul-down t (+ balance-y dy))))) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t))) (t-comp-num-uncapped (div-up ONE_8 t-comp)) (t-comp-num (if (< t-comp-num-uncapped MILD_EXPONENT_BOUND) t-comp-num-uncapped MILD_EXPONENT_BOUND)) (x-pow (pow-up balance-x t-comp)) (y-pow (pow-up balance-y t-comp)) (y-dy-pow (pow-down (+ balance-y dy) t-comp)) (add-term (+ x-pow y-pow)) (term (if (<= add-term y-dy-pow) u0 (- add-term y-dy-pow))) (final-term (pow-up term t-comp-num))) (if (<= balance-x final-term) u0 (- balance-x final-term))))) (define-private (get-y-in-given-x-out-internal (balance-x uint) (balance-y uint) (t uint) (dx uint)) (if (>= t (get-switch-threshold)) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t)))) (div-down (+ (mul-down t-comp dx) (mul-down t (mul-down dx balance-y))) (+ t-comp (mul-down t (- balance-x dx))))) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t))) (t-comp-num-uncapped (div-down ONE_8 t-comp)) (t-comp-num (if (< t-comp-num-uncapped MILD_EXPONENT_BOUND) t-comp-num-uncapped MILD_EXPONENT_BOUND)) (x-pow (pow-down balance-x t-comp)) (y-pow (pow-down balance-y t-comp)) (x-dx-pow (pow-up (if (<= balance-x dx) u0 (- balance-x dx)) t-comp)) (add-term (+ x-pow y-pow)) (term (if (<= add-term x-dx-pow) u0 (- add-term x-dx-pow))) (final-term (pow-down term t-comp-num))) (if (<= final-term balance-y) u0 (- final-term balance-y))))) (define-private (get-x-in-given-y-out-internal (balance-x uint) (balance-y uint) (t uint) (dy uint)) (if (>= t (get-switch-threshold)) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t)))) (div-down (+ (mul-down t-comp dy) (mul-down t (mul-down dy balance-x))) (+ t-comp (mul-down t (- balance-y dy))))) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t))) (t-comp-num-uncapped (div-down ONE_8 t-comp)) (t-comp-num (if (< t-comp-num-uncapped MILD_EXPONENT_BOUND) t-comp-num-uncapped MILD_EXPONENT_BOUND)) (x-pow (pow-down balance-x t-comp)) (y-pow (pow-down balance-y t-comp)) (y-dy-pow (pow-up (if (<= balance-y dy) u0 (- balance-y dy)) t-comp)) (add-term (+ x-pow y-pow)) (term (if (<= add-term y-dy-pow) u0 (- add-term y-dy-pow))) (final-term (pow-down term t-comp-num))) (if (<= final-term balance-x) u0 (- final-term balance-x))))) (define-private (get-x-given-price-internal (balance-x uint) (balance-y uint) (t uint) (price uint)) (if (>= t (get-switch-threshold)) (let ( (power (pow-down (div-down (get-price-internal balance-x balance-y t) price) u50000000))) (mul-down balance-x (if (<= power ONE_8) u0 (- power ONE_8)))) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t))) (t-comp-num-uncapped (div-down ONE_8 t-comp)) (t-comp-num (if (< t-comp-num-uncapped MILD_EXPONENT_BOUND) t-comp-num-uncapped MILD_EXPONENT_BOUND)) (numer (+ ONE_8 (pow-down (get-price-internal balance-x balance-y t) (div-down t-comp t)))) (denom (+ ONE_8 (pow-down price (div-down t-comp t)))) (lead-term (pow-down (div-down numer denom) t-comp-num))) (if (<= lead-term ONE_8) u0 (mul-up balance-x (- lead-term ONE_8)))))) (define-private (get-y-given-price-internal (balance-x uint) (balance-y uint) (t uint) (price uint)) (if (>= t (get-switch-threshold)) (let ( (power (pow-down (div-down price (get-price-internal balance-x balance-y t)) u50000000))) (mul-down balance-y (if (<= power ONE_8) u0 (- power ONE_8)))) (let ( (t-comp (if (<= ONE_8 t) u0 (- ONE_8 t))) (t-comp-num-uncapped (div-down ONE_8 t-comp)) (t-comp-num (if (< t-comp-num-uncapped MILD_EXPONENT_BOUND) t-comp-num-uncapped MILD_EXPONENT_BOUND)) (numer (+ ONE_8 (pow-down (get-price-internal balance-x balance-y t) (div-down t-comp t)))) (denom (+ ONE_8 (pow-down price (div-down t-comp t)))) (lead-term (pow-down (div-down numer denom) t-comp-num))) (if (<= ONE_8 lead-term) u0 (mul-up balance-y (- ONE_8 lead-term)))))) (define-private (get-token-given-position-internal (balance-x uint) (balance-y uint) (t uint) (total-supply uint) (dx uint) (dy uint)) (if (is-eq total-supply u0) {token: (get-invariant dx dy t), dy: dy} {token: (div-down (mul-down total-supply dx) balance-x), dy: (div-down (mul-down balance-y dx) balance-x)})) (define-private (get-position-given-mint-internal (balance-x uint) (balance-y uint) (t uint) (total-supply uint) (token-amount uint)) (let ( (token-div-supply (div-down token-amount total-supply)) ) {dx: (mul-down balance-x token-div-supply), dy: (mul-down balance-y token-div-supply)})) (define-private (get-position-given-burn-internal (balance-x uint) (balance-y uint) (t uint) (total-supply uint) (token-amount uint)) (get-position-given-mint-internal balance-x balance-y t total-supply token-amount)) (define-constant ONE_8 u100000000) ;; 8 decimal places (define-constant MAX_POW_RELATIVE_ERROR u4) (define-private (mul-down (a uint) (b uint)) (/ (* a b) ONE_8)) (define-private (mul-up (a uint) (b uint)) (let ( (product (* a b)) ) (if (is-eq product u0) u0 (+ u1 (/ (- product u1) ONE_8))))) (define-private (div-down (a uint) (b uint)) (if (is-eq a u0) u0 (/ (* a ONE_8) b))) (define-private (div-up (a uint) (b uint)) (if (is-eq a u0) u0 (+ u1 (/ (- (* a ONE_8) u1) b)))) (define-private (pow-down (a uint) (b uint)) (let ( (raw (unwrap-panic (pow-fixed a b))) (max-error (+ u1 (mul-up raw MAX_POW_RELATIVE_ERROR))) ) (if (< raw max-error) u0 (- raw max-error)))) (define-private (pow-up (a uint) (b uint)) (let ( (raw (unwrap-panic (pow-fixed a b))) (max-error (+ u1 (mul-up raw MAX_POW_RELATIVE_ERROR))) ) (+ raw max-error))) (define-constant UNSIGNED_ONE_8 (pow 10 8)) (define-constant MAX_NATURAL_EXPONENT (* 69 UNSIGNED_ONE_8)) (define-constant MIN_NATURAL_EXPONENT (* -18 UNSIGNED_ONE_8)) (define-constant MILD_EXPONENT_BOUND (/ (pow u2 u126) (to-uint UNSIGNED_ONE_8))) (define-constant x_a_list_no_deci (list {x_pre: 6400000000, a_pre: 62351490808116168829, use_deci: false} )) (define-constant x_a_list (list {x_pre: 3200000000, a_pre: 78962960182680695161, use_deci: true} ;; x2 = 2^5, a2 = e^(x2) {x_pre: 1600000000, a_pre: 888611052050787, use_deci: true} ;; x3 = 2^4, a3 = e^(x3) {x_pre: 800000000, a_pre: 298095798704, use_deci: true} ;; x4 = 2^3, a4 = e^(x4) {x_pre: 400000000, a_pre: 5459815003, use_deci: true} ;; x5 = 2^2, a5 = e^(x5) {x_pre: 200000000, a_pre: 738905610, use_deci: true} ;; x6 = 2^1, a6 = e^(x6) {x_pre: 100000000, a_pre: 271828183, use_deci: true} ;; x7 = 2^0, a7 = e^(x7) {x_pre: 50000000, a_pre: 164872127, use_deci: true} ;; x8 = 2^-1, a8 = e^(x8) {x_pre: 25000000, a_pre: 128402542, use_deci: true} ;; x9 = 2^-2, a9 = e^(x9) {x_pre: 12500000, a_pre: 113314845, use_deci: true} ;; x10 = 2^-3, a10 = e^(x10) {x_pre: 6250000, a_pre: 106449446, use_deci: true} ;; x11 = 2^-4, a11 = e^x(11) )) (define-constant ERR-X-OUT-OF-BOUNDS (err u5009)) (define-constant ERR-Y-OUT-OF-BOUNDS (err u5010)) (define-constant ERR-PRODUCT-OUT-OF-BOUNDS (err u5011)) (define-constant ERR-INVALID-EXPONENT (err u5012)) (define-constant ERR-OUT-OF-BOUNDS (err u5013)) (define-private (ln-priv (a int)) (let ( (a_sum_no_deci (fold accumulate_division x_a_list_no_deci {a: a, sum: 0})) (a_sum (fold accumulate_division x_a_list {a: (get a a_sum_no_deci), sum: (get sum a_sum_no_deci)})) (out_a (get a a_sum)) (out_sum (get sum a_sum)) (z (/ (* (- out_a UNSIGNED_ONE_8) UNSIGNED_ONE_8) (+ out_a UNSIGNED_ONE_8))) (z_squared (/ (* z z) UNSIGNED_ONE_8)) (div_list (list 3 5 7 9 11)) (num_sum_zsq (fold rolling_sum_div div_list {num: z, seriesSum: z, z_squared: z_squared})) (seriesSum (get seriesSum num_sum_zsq)) ) (+ out_sum (* seriesSum 2)))) (define-private (accumulate_division (x_a_pre (tuple (x_pre int) (a_pre int) (use_deci bool))) (rolling_a_sum (tuple (a int) (sum int)))) (let ( (a_pre (get a_pre x_a_pre)) (x_pre (get x_pre x_a_pre)) (use_deci (get use_deci x_a_pre)) (rolling_a (get a rolling_a_sum)) (rolling_sum (get sum rolling_a_sum)) ) (if (>= rolling_a (if use_deci a_pre (* a_pre UNSIGNED_ONE_8))) {a: (/ (* rolling_a (if use_deci UNSIGNED_ONE_8 1)) a_pre), sum: (+ rolling_sum x_pre)} {a: rolling_a, sum: rolling_sum}))) (define-private (rolling_sum_div (n int) (rolling (tuple (num int) (seriesSum int) (z_squared int)))) (let ( (rolling_num (get num rolling)) (rolling_sum (get seriesSum rolling)) (z_squared (get z_squared rolling)) (next_num (/ (* rolling_num z_squared) UNSIGNED_ONE_8)) (next_sum (+ rolling_sum (/ next_num n))) ) {num: next_num, seriesSum: next_sum, z_squared: z_squared})) (define-private (pow-priv (x uint) (y uint)) (let ( (x-int (to-int x)) (y-int (to-int y)) (lnx (ln-priv x-int)) (logx-times-y (/ (* lnx y-int) UNSIGNED_ONE_8))) (asserts! (and (<= MIN_NATURAL_EXPONENT logx-times-y) (<= logx-times-y MAX_NATURAL_EXPONENT)) ERR-PRODUCT-OUT-OF-BOUNDS) (ok (to-uint (try! (exp-fixed logx-times-y)))))) (define-private (exp-pos (x int)) (begin (asserts! (and (<= 0 x) (<= x MAX_NATURAL_EXPONENT)) ERR-INVALID-EXPONENT) (let ( (x_product_no_deci (fold accumulate_product x_a_list_no_deci {x: x, product: 1})) (x_adj (get x x_product_no_deci)) (firstAN (get product x_product_no_deci)) (x_product (fold accumulate_product x_a_list {x: x_adj, product: UNSIGNED_ONE_8})) (product_out (get product x_product)) (x_out (get x x_product)) (seriesSum (+ UNSIGNED_ONE_8 x_out)) (div_list (list 2 3 4 5 6 7 8 9 10 11 12)) (term_sum_x (fold rolling_div_sum div_list {term: x_out, seriesSum: seriesSum, x: x_out})) (sum (get seriesSum term_sum_x))) (ok (* (/ (* product_out sum) UNSIGNED_ONE_8) firstAN))))) (define-private (accumulate_product (x_a_pre (tuple (x_pre int) (a_pre int) (use_deci bool))) (rolling_x_p (tuple (x int) (product int)))) (let ( (x_pre (get x_pre x_a_pre)) (a_pre (get a_pre x_a_pre)) (use_deci (get use_deci x_a_pre)) (rolling_x (get x rolling_x_p)) (rolling_product (get product rolling_x_p))) (if (>= rolling_x x_pre) {x: (- rolling_x x_pre), product: (/ (* rolling_product a_pre) (if use_deci UNSIGNED_ONE_8 1))} {x: rolling_x, product: rolling_product}))) (define-private (rolling_div_sum (n int) (rolling (tuple (term int) (seriesSum int) (x int)))) (let ( (rolling_term (get term rolling)) (rolling_sum (get seriesSum rolling)) (x (get x rolling)) (next_term (/ (/ (* rolling_term x) UNSIGNED_ONE_8) n)) (next_sum (+ rolling_sum next_term)) ) {term: next_term, seriesSum: next_sum, x: x})) (define-private (pow-fixed (x uint) (y uint)) (begin (asserts! (< x (pow u2 u127)) ERR-X-OUT-OF-BOUNDS) (asserts! (< y MILD_EXPONENT_BOUND) ERR-Y-OUT-OF-BOUNDS) (if (is-eq y u0) (ok (to-uint UNSIGNED_ONE_8)) (if (is-eq x u0) (ok u0) (pow-priv x y))))) (define-private (exp-fixed (x int)) (begin (asserts! (and (<= MIN_NATURAL_EXPONENT x) (<= x MAX_NATURAL_EXPONENT)) ERR-INVALID-EXPONENT) (if (< x 0) (ok (/ (* UNSIGNED_ONE_8 UNSIGNED_ONE_8) (try! (exp-pos (* -1 x))))) (exp-pos x)))) (define-private (log-fixed (arg int) (base int)) (let ( (logBase (* (ln-priv base) UNSIGNED_ONE_8)) (logArg (* (ln-priv arg) UNSIGNED_ONE_8))) (ok (/ (* logArg UNSIGNED_ONE_8) logBase)))) (define-private (ln-fixed (a int)) (begin (asserts! (> a 0) ERR-OUT-OF-BOUNDS) (if (< a UNSIGNED_ONE_8) (ok (- 0 (ln-priv (/ (* UNSIGNED_ONE_8 UNSIGNED_ONE_8) a)))) (ok (ln-priv a)))))