// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.26;

import "../../src/executors/UniswapV4Executor.sol";
import "./UniswapV4Utils.sol";
import "@src/executors/UniswapV4Executor.sol";
import {Constants} from "../Constants.sol";
import {Test} from "../../lib/forge-std/src/Test.sol";
import {SafeCallback} from "@uniswap/v4-periphery/src/base/SafeCallback.sol";

contract UniswapV4ExecutorExposed is UniswapV4Executor {
    constructor(IPoolManager _poolManager) UniswapV4Executor(_poolManager) {}

    function decodeData(bytes calldata data)
        external
        pure
        returns (
            address tokenIn,
            address tokenOut,
            uint256 amountOutMin,
            bool zeroForOne,
            address callbackExecutor,
            bytes4 callbackSelector,
            UniswapV4Pool[] memory pools
        )
    {
        return _decodeData(data);
    }
}

contract UniswapV4ExecutorTest is Test, Constants {
    using SafeERC20 for IERC20;

    UniswapV4ExecutorExposed uniswapV4Exposed;
    IERC20 USDE = IERC20(USDE_ADDR);
    IERC20 USDT = IERC20(USDT_ADDR);
    address poolManager = 0x000000000004444c5dc75cB358380D2e3dE08A90;

    function setUp() public {
        uint256 forkBlock = 21817316;
        vm.createSelectFork(vm.rpcUrl("mainnet"), forkBlock);
        uniswapV4Exposed =
            new UniswapV4ExecutorExposed(IPoolManager(poolManager));
    }

    function testDecodeParams() public view {
        uint256 minAmountOut = 100;
        bool zeroForOne = true;
        uint24 pool1Fee = 500;
        int24 tickSpacing1 = 60;
        uint24 pool2Fee = 1000;
        int24 tickSpacing2 = -10;

        UniswapV4Executor.UniswapV4Pool[] memory pools =
            new UniswapV4Executor.UniswapV4Pool[](2);
        pools[0] = UniswapV4Executor.UniswapV4Pool({
            intermediaryToken: USDT_ADDR,
            fee: pool1Fee,
            tickSpacing: tickSpacing1
        });
        pools[1] = UniswapV4Executor.UniswapV4Pool({
            intermediaryToken: USDE_ADDR,
            fee: pool2Fee,
            tickSpacing: tickSpacing2
        });

        bytes memory data = UniswapV4Utils.encodeExactInput(
            USDE_ADDR,
            USDT_ADDR,
            minAmountOut,
            zeroForOne,
            address(uniswapV4Exposed),
            SafeCallback.unlockCallback.selector,
            pools
        );

        (
            address tokenIn,
            address tokenOut,
            uint256 amountOutMin,
            bool zeroForOneDecoded,
            address callbackExecutor,
            bytes4 callbackSelector,
            UniswapV4Executor.UniswapV4Pool[] memory decodedPools
        ) = uniswapV4Exposed.decodeData(data);

        assertEq(tokenIn, USDE_ADDR);
        assertEq(tokenOut, USDT_ADDR);
        assertEq(amountOutMin, minAmountOut);
        assertEq(zeroForOneDecoded, zeroForOne);
        assertEq(callbackExecutor, address(uniswapV4Exposed));
        assertEq(callbackSelector, SafeCallback.unlockCallback.selector);
        assertEq(decodedPools.length, 2);
        assertEq(decodedPools[0].intermediaryToken, USDT_ADDR);
        assertEq(decodedPools[0].fee, pool1Fee);
        assertEq(decodedPools[0].tickSpacing, tickSpacing1);
        assertEq(decodedPools[1].intermediaryToken, USDE_ADDR);
        assertEq(decodedPools[1].fee, pool2Fee);
        assertEq(decodedPools[1].tickSpacing, tickSpacing2);
    }
}