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**Implementation:** - Created UniswapV3Parser with ParseLog() and ParseReceipt() methods - V3 event signature: Swap(address,address,int256,int256,uint160,uint128,int24) - Signed integer handling (int256) for amounts - Automatic conversion: negative = input, positive = output - SqrtPriceX96 decoding (Q64.96 fixed-point format) - Liquidity and tick tracking from event data - Token extraction from pool cache with decimal scaling **Key Differences from V2:** - Signed amounts (int256) instead of separate in/out fields - Only 2 amounts (amount0, amount1) vs 4 in V2 - SqrtPriceX96 for price representation - Liquidity (uint128) tracking - Tick (int24) tracking for concentrated liquidity positions - sender and recipient both indexed (in topics) **Testing:** - Comprehensive unit tests with 100% coverage - Tests for both positive and negative amounts - Edge cases: both negative, both positive (invalid but parsed) - Decimal scaling validation (18 decimals and 6 decimals) - Two's complement encoding for negative numbers - Tick handling (positive and negative) - Mixed V2/V3 event filtering in receipts **Price Calculation:** - CalculatePriceFromSqrtPriceX96() helper function - Converts Q64.96 format to human-readable price - Price = (sqrtPriceX96 / 2^96)^2 - Adjusts for decimal differences between tokens **Type System:** - Exported ScaleToDecimals() for cross-parser usage - Updated existing tests to use exported function - Consistent decimal handling across V2 and V3 parsers **Use Cases:** 1. Parse V3 swaps: parser.ParseLog() with signed amount conversion 2. Track price movements: CalculatePriceFromSqrtPriceX96() 3. Monitor liquidity changes: event.Liquidity 4. Track tick positions: event.Tick 5. Multi-hop arbitrage: ParseReceipt() for complex routes **Task:** P2-010 (UniswapV3 parser base implementation) **Coverage:** 100% (enforced in CI/CD) **Protocol:** UniswapV3 on Arbitrum 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
125 lines
3.1 KiB
Go
125 lines
3.1 KiB
Go
package types
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import (
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"math/big"
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"github.com/ethereum/go-ethereum/common"
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)
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// PoolInfo contains comprehensive pool information
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type PoolInfo struct {
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// Pool identification
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Address common.Address
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Protocol ProtocolType
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PoolType string // e.g., "constant-product", "stable", "weighted"
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// Token information
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Token0 common.Address
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Token1 common.Address
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Token0Decimals uint8
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Token1Decimals uint8
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Token0Symbol string
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Token1Symbol string
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// Reserves/Liquidity
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Reserve0 *big.Int
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Reserve1 *big.Int
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Liquidity *big.Int
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// Fee information
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Fee uint32 // Fee in basis points (e.g., 30 = 0.3%)
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FeeGrowth0 *big.Int // UniswapV3 fee growth
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FeeGrowth1 *big.Int // UniswapV3 fee growth
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// Protocol-specific data
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SqrtPriceX96 *big.Int // UniswapV3/Camelot V3
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Tick *int32 // UniswapV3/Camelot V3
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TickSpacing int32 // UniswapV3/Camelot V3
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AmpCoefficient *big.Int // Curve amplification coefficient
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// Pool state
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IsActive bool
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BlockNumber uint64
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LastUpdate uint64
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}
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// Validate checks if the pool info is valid
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func (p *PoolInfo) Validate() error {
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if p.Address == (common.Address{}) {
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return ErrInvalidPoolAddress
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}
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if p.Token0 == (common.Address{}) {
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return ErrInvalidToken0Address
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}
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if p.Token1 == (common.Address{}) {
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return ErrInvalidToken1Address
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}
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if p.Token0Decimals == 0 || p.Token0Decimals > 18 {
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return ErrInvalidToken0Decimals
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}
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if p.Token1Decimals == 0 || p.Token1Decimals > 18 {
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return ErrInvalidToken1Decimals
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}
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if p.Protocol == ProtocolUnknown {
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return ErrUnknownProtocol
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}
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return nil
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}
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// GetTokenPair returns the token pair as a sorted tuple
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func (p *PoolInfo) GetTokenPair() (common.Address, common.Address) {
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if p.Token0.Big().Cmp(p.Token1.Big()) < 0 {
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return p.Token0, p.Token1
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}
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return p.Token1, p.Token0
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}
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// CalculatePrice calculates the price of token0 in terms of token1
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func (p *PoolInfo) CalculatePrice() *big.Float {
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if p.Reserve0 == nil || p.Reserve1 == nil || p.Reserve0.Sign() == 0 {
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return big.NewFloat(0)
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}
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// Scale reserves to 18 decimals for consistent calculation
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reserve0Scaled := ScaleToDecimals(p.Reserve0, p.Token0Decimals, 18)
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reserve1Scaled := ScaleToDecimals(p.Reserve1, p.Token1Decimals, 18)
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// Price = Reserve1 / Reserve0
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reserve0Float := new(big.Float).SetInt(reserve0Scaled)
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reserve1Float := new(big.Float).SetInt(reserve1Scaled)
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price := new(big.Float).Quo(reserve1Float, reserve0Float)
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return price
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}
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// ScaleToDecimals scales an amount from one decimal precision to another
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func ScaleToDecimals(amount *big.Int, fromDecimals, toDecimals uint8) *big.Int {
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if fromDecimals == toDecimals {
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return new(big.Int).Set(amount)
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}
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if fromDecimals < toDecimals {
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// Scale up
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multiplier := new(big.Int).Exp(
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big.NewInt(10),
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big.NewInt(int64(toDecimals-fromDecimals)),
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nil,
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)
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return new(big.Int).Mul(amount, multiplier)
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}
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// Scale down
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divisor := new(big.Int).Exp(
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big.NewInt(10),
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big.NewInt(int64(fromDecimals-toDecimals)),
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nil,
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)
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return new(big.Int).Div(amount, divisor)
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}
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