{
    "Function": "_squeezeDrips",
    "File": "src/Drips.sol",
    "Parent Contracts": [],
    "High-Level Calls": [],
    "Internal Calls": [
        "_dripsStorage",
        "_squeezeDripsResult",
        "_currCycleStart",
        "_currTimestamp",
        "_addDeltaRange"
    ],
    "Library Calls": [],
    "Low-Level Calls": [],
    "Code": "function _squeezeDrips(\n        uint256 userId,\n        uint256 assetId,\n        uint256 senderId,\n        bytes32 historyHash,\n        DripsHistory[] memory dripsHistory\n    ) internal returns (uint128 amt) {\n        uint256 squeezedNum;\n        uint256[] memory squeezedRevIdxs;\n        bytes32[] memory historyHashes;\n        uint256 currCycleConfigs;\n        (amt, squeezedNum, squeezedRevIdxs, historyHashes, currCycleConfigs) =\n            _squeezeDripsResult(userId, assetId, senderId, historyHash, dripsHistory);\n        bytes32[] memory squeezedHistoryHashes = new bytes32[](squeezedNum);\n        DripsState storage state = _dripsStorage().states[assetId][userId];\n        uint32[2 ** 32] storage nextSqueezed = state.nextSqueezed[senderId];\n        for (uint256 i = 0; i < squeezedNum; i++) {\n            // `squeezedRevIdxs` are sorted from the newest configuration to the oldest,\n            // but we need to consume them from the oldest to the newest.\n            uint256 revIdx = squeezedRevIdxs[squeezedNum - i - 1];\n            squeezedHistoryHashes[i] = historyHashes[historyHashes.length - revIdx];\n            nextSqueezed[currCycleConfigs - revIdx] = _currTimestamp();\n        }\n        uint32 cycleStart = _currCycleStart();\n        _addDeltaRange(state, cycleStart, cycleStart + 1, -int256(amt * _AMT_PER_SEC_MULTIPLIER));\n        emit SqueezedDrips(userId, assetId, senderId, amt, squeezedHistoryHashes);\n    }"
}