// SPDX-License-Identifier: MIT pragma solidity ^0.8.0; // solhint-disable func-name-mixedcase import "../../../../contracts/token/ERC721/extensions/ERC721Consecutive.sol"; import "forge-std/Test.sol"; function toSingleton(address account) pure returns (address[] memory) { address[] memory accounts = new address[](1); accounts[0] = account; return accounts; } contract ERC721ConsecutiveTarget is StdUtils, ERC721Consecutive { uint256 public totalMinted = 0; constructor(address[] memory receivers, uint256[] memory batches) ERC721("", "") { for (uint256 i = 0; i < batches.length; i++) { address receiver = receivers[i % receivers.length]; uint96 batchSize = uint96(bound(batches[i], 0, _maxBatchSize())); _mintConsecutive(receiver, batchSize); totalMinted += batchSize; } } function burn(uint256 tokenId) public { _burn(tokenId); } } contract ERC721ConsecutiveTest is Test { function test_balance(address receiver, uint256[] calldata batches) public { vm.assume(receiver != address(0)); ERC721ConsecutiveTarget token = new ERC721ConsecutiveTarget(toSingleton(receiver), batches); assertEq(token.balanceOf(receiver), token.totalMinted()); } function test_ownership(address receiver, uint256[] calldata batches, uint256[2] calldata unboundedTokenId) public { vm.assume(receiver != address(0)); ERC721ConsecutiveTarget token = new ERC721ConsecutiveTarget(toSingleton(receiver), batches); if (token.totalMinted() > 0) { uint256 validTokenId = bound(unboundedTokenId[0], 0, token.totalMinted() - 1); assertEq(token.ownerOf(validTokenId), receiver); } uint256 invalidTokenId = bound(unboundedTokenId[1], token.totalMinted(), type(uint256).max); vm.expectRevert(); token.ownerOf(invalidTokenId); } function test_burn(address receiver, uint256[] calldata batches, uint256 unboundedTokenId) public { vm.assume(receiver != address(0)); ERC721ConsecutiveTarget token = new ERC721ConsecutiveTarget(toSingleton(receiver), batches); // only test if we minted at least one token uint256 supply = token.totalMinted(); vm.assume(supply > 0); // burn a token in [0; supply[ uint256 tokenId = bound(unboundedTokenId, 0, supply - 1); token.burn(tokenId); // balance should have decreased assertEq(token.balanceOf(receiver), supply - 1); // token should be burnt vm.expectRevert(); token.ownerOf(tokenId); } function test_transfer( address[2] calldata accounts, uint256[2] calldata unboundedBatches, uint256[2] calldata unboundedTokenId ) public { vm.assume(accounts[0] != address(0)); vm.assume(accounts[1] != address(0)); vm.assume(accounts[0] != accounts[1]); address[] memory receivers = new address[](2); receivers[0] = accounts[0]; receivers[1] = accounts[1]; // We assume _maxBatchSize is 5000 (the default). This test will break otherwise. uint256[] memory batches = new uint256[](2); batches[0] = bound(unboundedBatches[0], 1, 5000); batches[1] = bound(unboundedBatches[1], 1, 5000); ERC721ConsecutiveTarget token = new ERC721ConsecutiveTarget(receivers, batches); uint256 tokenId0 = bound(unboundedTokenId[0], 0, batches[0] - 1); uint256 tokenId1 = bound(unboundedTokenId[1], 0, batches[1] - 1) + batches[0]; assertEq(token.ownerOf(tokenId0), accounts[0]); assertEq(token.ownerOf(tokenId1), accounts[1]); assertEq(token.balanceOf(accounts[0]), batches[0]); assertEq(token.balanceOf(accounts[1]), batches[1]); vm.prank(accounts[0]); token.transferFrom(accounts[0], accounts[1], tokenId0); assertEq(token.ownerOf(tokenId0), accounts[1]); assertEq(token.ownerOf(tokenId1), accounts[1]); assertEq(token.balanceOf(accounts[0]), batches[0] - 1); assertEq(token.balanceOf(accounts[1]), batches[1] + 1); vm.prank(accounts[1]); token.transferFrom(accounts[1], accounts[0], tokenId1); assertEq(token.ownerOf(tokenId0), accounts[1]); assertEq(token.ownerOf(tokenId1), accounts[0]); assertEq(token.balanceOf(accounts[0]), batches[0]); assertEq(token.balanceOf(accounts[1]), batches[1]); } }