269 lines
8.8 KiB
Solidity
269 lines
8.8 KiB
Solidity
// SPDX-License-Identifier: AGPL-3.0-or-later
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pragma solidity ^0.8.13;
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import "forge-std/Test.sol";
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import "openzeppelin-contracts/contracts/interfaces/IERC20.sol";
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import {ISwapAdapter} from "src/interfaces/ISwapAdapter.sol";
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import "src/interfaces/ISwapAdapterTypes.sol";
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import "src/libraries/FractionMath.sol";
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contract AdapterTest is Test, ISwapAdapterTypes {
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using FractionMath for Fraction;
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bytes32 mockData;
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uint256 constant pricePrecision = 10e24;
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string[] public stringPctgs = ["0%", "0.1%", "50%", "100%"];
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// @notice Test the behavior of a swap adapter for a list of pools
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// @dev Computes limits, prices, and swaps on the pools on both directions
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// for different
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// sell amounts. Asserts that the prices behaves as expected.
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// @param adapter The swap adapter to test
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// @param poolIds The list of pool ids to test
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function runPoolBehaviourTest(
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ISwapAdapter adapter,
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bytes32[] memory poolIds
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) public {
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bool hasPriceImpact = !hasCapability(
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adapter.getCapabilities(poolIds[0], address(0), address(0)),
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Capability.ConstantPrice
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);
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for (uint256 i = 0; i < poolIds.length; i++) {
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address[] memory tokens = adapter.getTokens(poolIds[i]);
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IERC20(tokens[0]).approve(address(adapter), type(uint256).max);
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IERC20(tokens[1]).approve(address(adapter), type(uint256).max);
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testPricesForPair(
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adapter, poolIds[i], tokens[0], tokens[1], hasPriceImpact
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);
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testPricesForPair(
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adapter, poolIds[i], tokens[1], tokens[0], hasPriceImpact
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);
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}
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}
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// Prices should:
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// 1. Be monotonic decreasing
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// 2. Be positive
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// 3. Always be >= the executed price and >= the price after the swap
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function testPricesForPair(
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ISwapAdapter adapter,
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bytes32 poolId,
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address tokenIn,
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address tokenOut,
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bool hasPriceImpact
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) internal {
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uint256 sellLimit = adapter.getLimits(poolId, tokenIn, tokenOut)[0];
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assertGt(sellLimit, 0, "Sell limit should be greater than 0");
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console2.log(
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"TEST: Testing prices for pair %s -> %s. Sell limit: %d",
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tokenIn,
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tokenOut,
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sellLimit
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);
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bool hasMarginalPrices = hasCapability(
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adapter.getCapabilities(poolId, tokenIn, tokenOut),
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Capability.MarginalPrice
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);
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uint256[] memory amounts =
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calculateTestAmounts(sellLimit, hasMarginalPrices);
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Fraction[] memory prices =
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adapter.price(poolId, tokenIn, tokenOut, amounts);
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assertGt(
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fractionToInt(prices[0]),
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fractionToInt(prices[prices.length - 1]),
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"Price at limit should be smaller than price at 0"
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);
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console2.log(
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"TEST: Price at 0: %d, price at sell limit: %d",
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fractionToInt(prices[0]),
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fractionToInt(prices[prices.length - 1])
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);
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console2.log("TEST: Testing behavior for price at 0");
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assertGt(prices[0].numerator, 0, "Nominator shouldn't be 0");
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assertGt(prices[0].denominator, 0, "Denominator shouldn't be 0");
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uint256 priceAtZero = fractionToInt(prices[0]);
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console2.log("TEST: Price at 0: %d", priceAtZero);
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Trade memory trade;
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deal(tokenIn, address(this), 5 * amounts[amounts.length - 1]);
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uint256 initialState = vm.snapshot();
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for (uint256 j = 1; j < amounts.length; j++) {
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console2.log(
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"TEST: Testing behavior for price at %s of limit.",
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stringPctgs[j],
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amounts[j]
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);
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uint256 priceAtAmount = fractionToInt(prices[j]);
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console2.log("TEST: Swapping %d of %s", amounts[j], tokenIn);
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trade = adapter.swap(
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poolId, tokenIn, tokenOut, OrderSide.Sell, amounts[j], mockData
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);
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uint256 executedPrice =
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trade.calculatedAmount * pricePrecision / amounts[j];
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uint256 priceAfterSwap = fractionToInt(trade.price);
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console2.log("TEST: - Executed price: %d", executedPrice);
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console2.log("TEST: - Price at amount: %d", priceAtAmount);
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console2.log("TEST: - Price after swap: %d", priceAfterSwap);
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if (hasPriceImpact) {
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assertGe(
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executedPrice,
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priceAtAmount,
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"Price should be greated than executed price."
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);
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assertGt(
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executedPrice,
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priceAfterSwap,
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"Executed price should be greater than price after swap."
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);
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assertGt(
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priceAtZero,
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executedPrice,
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"Price should be greated than price after swap."
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);
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} else {
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assertGe(
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priceAtZero,
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priceAfterSwap,
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"Executed price should be or equal to price after swap."
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);
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assertGe(
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priceAtZero,
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priceAtAmount,
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"Executed price should be or equal to price after swap."
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);
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assertGe(
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priceAtZero,
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executedPrice,
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"Price should be or equal to price after swap."
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);
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}
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vm.revertTo(initialState);
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}
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uint256 amountAboveLimit = sellLimit * 105 / 100;
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bool hasHardLimits = hasCapability(
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adapter.getCapabilities(poolId, tokenIn, tokenOut),
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Capability.HardLimits
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);
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if (hasHardLimits) {
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testRevertAboveLimit(
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adapter, poolId, tokenIn, tokenOut, amountAboveLimit
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);
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} else {
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testOperationsAboveLimit(
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adapter, poolId, tokenIn, tokenOut, amountAboveLimit
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);
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}
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console2.log("TEST: All tests passed.");
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}
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function testRevertAboveLimit(
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ISwapAdapter adapter,
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bytes32 poolId,
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address tokenIn,
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address tokenOut,
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uint256 amountAboveLimit
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) internal {
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console2.log(
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"TEST: Testing revert behavior above the sell limit: %d",
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amountAboveLimit
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);
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uint256[] memory aboveLimitArray = new uint256[](1);
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aboveLimitArray[0] = amountAboveLimit;
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try adapter.price(poolId, tokenIn, tokenOut, aboveLimitArray) {
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revert(
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"Pool shouldn't be able to fetch prices above the sell limit"
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);
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} catch Error(string memory s) {
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console2.log(
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"TEST: Expected error when fetching price above limit: %s", s
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);
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}
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try adapter.swap(
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poolId,
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tokenIn,
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tokenOut,
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OrderSide.Sell,
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aboveLimitArray[0],
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mockData
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) {
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revert("Pool shouldn't be able to swap above the sell limit");
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} catch Error(string memory s) {
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console2.log(
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"TEST: Expected error when swapping above limit: %s", s
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);
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}
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}
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function testOperationsAboveLimit(
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ISwapAdapter adapter,
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bytes32 poolId,
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address tokenIn,
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address tokenOut,
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uint256 amountAboveLimit
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) internal {
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console2.log(
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"TEST: Testing operations above the sell limit: %d",
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amountAboveLimit
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);
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uint256[] memory aboveLimitArray = new uint256[](1);
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aboveLimitArray[0] = amountAboveLimit;
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adapter.price(poolId, tokenIn, tokenOut, aboveLimitArray);
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adapter.swap(
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poolId,
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tokenIn,
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tokenOut,
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OrderSide.Sell,
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aboveLimitArray[0],
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mockData
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);
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}
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function calculateTestAmounts(uint256 limit, bool hasMarginalPrices)
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internal
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pure
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returns (uint256[] memory)
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{
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uint256[] memory amounts = new uint256[](4);
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amounts[0] = hasMarginalPrices ? 0 : limit / 10000;
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amounts[1] = limit / 1000;
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amounts[2] = limit / 2;
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amounts[3] = limit;
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return amounts;
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}
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function fractionToInt(Fraction memory price)
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public
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pure
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returns (uint256)
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{
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return price.numerator * pricePrecision / price.denominator;
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}
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function hasCapability(
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Capability[] memory capabilities,
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Capability capability
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) internal pure returns (bool) {
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for (uint256 i = 0; i < capabilities.length; i++) {
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if (capabilities[i] == capability) {
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return true;
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}
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}
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return false;
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}
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}
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