Renaming, cleanup and add manifest example.

evm/interfaces/ISwapAdapter.sol

@@ -0,0 +1,105 @@
+// SPDX-License-Identifier: AGPL-3.0-or-later
+pragma solidity ^0.8.13;
+
+import "openzeppelin-contracts/contracts/interfaces/IERC20.sol";
+import "interfaces/ISwapAdapterTypes.sol";
+
+/// @title ISwapAdapterTypes
+/// @dev Implement this interface to support propeller routing through your pairs.
+/// @dev Before implementing the interface we need to introduce three function for a
+/// @dev given pair: The swap(x), gas(x) and price(x) functions:
+/// @dev The swap function accepts some specified token amount: x and returns the
+/// @dev amount y a user can get by swapping x through the venue.
+/// @dev The gas function simply returns the estimated gas cost given a specified
+/// @dev amount x.
+/// @dev Last but not least, the price function is the derivative of the swap
+/// @dev function. It represents the best possible price a user can get from a
+/// @dev pair after swapping x of the specified token.
+/// @dev During calls to swap and getLimits, the caller can be assumed to
+/// @dev have the required sell or buy token balance as well as unlimited approvals
+/// @dev to this contract.
+interface ISwapAdapter is ISwapAdapterTypes {
+    /// @notice Calculates pair prices for specified amounts (optional).
+    /// @dev The returned prices should include all dex fees, in case the fee
+    /// @dev is dynamic, the returned price is expected to include the minimum fee.
+    /// @dev Ideally this method should be implemented, although it is optional as
+    /// @dev the price function can be numerically estimated from the swap function.
+    /// @dev In case it is not available it should be flagged via capabilities and
+    /// @dev calling it should revert using the `NotImplemented` error.
+    /// @dev The method needs to be implemented as view as this is usually more efficient
+    /// @dev and can be run in parallel.
+    /// @dev all.
+    /// @param pairId The ID of the trading pair.
+    /// @param sellToken The token being sold.
+    /// @param buyToken The token being bought.
+    /// @param sellAmounts The specified amounts used for price calculation.
+    /// @return prices array of prices as fractions corresponding to the provided amounts.
+    function price(
+        bytes32 pairId,
+        IERC20 sellToken,
+        IERC20 buyToken,
+        uint256[] memory sellAmounts
+    ) external view returns (Fraction[] memory prices);
+
+    /// @notice Simulates swapping tokens on a given pair.
+    /// @dev This function should be state modifying meaning it should actually execute
+    /// @dev the swap and change the state of the evm accordingly.
+    /// @dev Please include a gas usage estimate for each amount. This can be achieved
+    /// @dev e.g. by using the `gasleft()` function.
+    /// @dev The return type trade, has a price attribute which should contain the
+    ///      value of `price(specifiedAmount)`. As this is optional, defined via
+    ///      `Capability.PriceFunction`, it is valid to return a zero value for this
+    ///      price in that case it will be estimated numerically. To return zero use
+    ///      Fraction(0, 1).
+    /// @param pairId The ID of the trading pair.
+    /// @param sellToken The token being sold.
+    /// @param buyToken The token being bought.
+    /// @param side The side of the trade (Sell or Buy).
+    /// @param specifiedAmount The amount to be traded.
+    /// @return trade Trade struct representing the executed trade.
+    function swap(
+        bytes32 pairId,
+        IERC20 sellToken,
+        IERC20 buyToken,
+        SwapSide side,
+        uint256 specifiedAmount
+    ) external returns (Trade memory trade);
+
+    /// @notice Retrieves the limits for each token.
+    /// @dev Retrieve the maximum limits of a token that can be traded. The limit is reached
+    /// @dev when the change in the received amounts is zero or close to zero. If in doubt
+    /// @dev over estimate. The swap function should not error with `LimitExceeded` if
+    /// @dev called with amounts below the limit.
+    /// @param pairId The ID of the trading pair.
+    /// @return An array of limits.
+    function getLimits(bytes32 pairId, SwapSide side)
+        external
+        returns (uint256[] memory);
+
+    /// @notice Retrieves the capabilities of the selected pair.
+    /// @param pairId The ID of the trading pair.
+    /// @return An array of Capabilities.
+    function getCapabilities(bytes32 pairId, IERC20 sellToken, IERC20 buyToken)
+        external
+        returns (Capabilities[] memory);
+
+    /// @notice Retrieves the tokens in the selected pair.
+    /// @dev Mainly used for testing as this is redundant with the required substreams
+    /// @dev implementation.
+    /// @param pairId The ID of the trading pair.
+    /// @return tokens array of IERC20 contracts.
+    function getTokens(bytes32 pairId)
+        external
+        returns (IERC20[] memory tokens);
+
+    /// @notice Retrieves a range of pool IDs.
+    /// @dev Mainly used for testing it is alright to not return all available pools here.
+    /// @dev Nevertheless this is useful to test against the substreams implementation. If
+    /// @dev implemented it safes time writing custom tests.
+    /// @param offset The starting index from which to retrieve pool IDs.
+    /// @param limit The maximum number of pool IDs to retrieve.
+    /// @return ids array of pool IDs.
+    function getPoolIds(uint256 offset, uint256 limit)
+        external
+        returns (bytes32[] memory ids);
+}