node_modules/@webassemblyjs/wasm-edit/esm/apply.js - nifi-fds - Git at Google

 function _sliceIterator(arr, i) { var _arr = []; var _n = true; var _d = false; var _e = undefined; try { for (var _i = arr[Symbol.iterator](), _s; !(_n = (_s = _i.next()).done); _n = true) { _arr.push(_s.value); if (i && _arr.length === i) break; } } catch (err) { _d = true; _e = err; } finally { try { if (!_n && _i["return"] != null) _i["return"](); } finally { if (_d) throw _e; } } return _arr; }

 function _slicedToArray(arr, i) { if (Array.isArray(arr)) { return arr; } else if (Symbol.iterator in Object(arr)) { return _sliceIterator(arr, i); } else { throw new TypeError("Invalid attempt to destructure non-iterable instance"); } }

 import { encodeNode } from "@webassemblyjs/wasm-gen";
 import { encodeU32 } from "@webassemblyjs/wasm-gen/lib/encoder";
 import { isFunc, isGlobal, assertHasLoc, orderedInsertNode, getSectionMetadata, traverse, getEndOfSection } from "@webassemblyjs/ast";
 import { resizeSectionByteSize, resizeSectionVecSize, createEmptySection, removeSections } from "@webassemblyjs/helper-wasm-section";
 import { overrideBytesInBuffer } from "@webassemblyjs/helper-buffer";
 import { getSectionForNode } from "@webassemblyjs/helper-wasm-bytecode";

 function shiftLocNodeByDelta(node, delta) {
   assertHasLoc(node); // $FlowIgnore: assertHasLoc ensures that

   node.loc.start.column += delta; // $FlowIgnore: assertHasLoc ensures that

   node.loc.end.column += delta;
 }

 function applyUpdate(ast, uint8Buffer, _ref) {
   var _ref2 = _slicedToArray(_ref, 2),
       oldNode = _ref2[0],
       newNode = _ref2[1];

   var deltaElements = 0;
   assertHasLoc(oldNode);
   var sectionName = getSectionForNode(newNode);
   var replacementByteArray = encodeNode(newNode);
   /**
    * Replace new node as bytes
    */

   uint8Buffer = overrideBytesInBuffer(uint8Buffer, // $FlowIgnore: assertHasLoc ensures that
   oldNode.loc.start.column, // $FlowIgnore: assertHasLoc ensures that
   oldNode.loc.end.column, replacementByteArray);
   /**
    * Update function body size if needed
    */

   if (sectionName === "code") {
     // Find the parent func
     traverse(ast, {
       Func: function Func(_ref3) {
         var node = _ref3.node;
         var funcHasThisIntr = node.body.find(function (n) {
           return n === newNode;
         }) !== undefined; // Update func's body size if needed

         if (funcHasThisIntr === true) {
           // These are the old functions locations informations
           assertHasLoc(node);
           var oldNodeSize = encodeNode(oldNode).length;
           var bodySizeDeltaBytes = replacementByteArray.length - oldNodeSize;

           if (bodySizeDeltaBytes !== 0) {
             var newValue = node.metadata.bodySize + bodySizeDeltaBytes;
             var newByteArray = encodeU32(newValue); // function body size byte
             // FIXME(sven): only handles one byte u32

             var start = node.loc.start.column;
             var end = start + 1;
             uint8Buffer = overrideBytesInBuffer(uint8Buffer, start, end, newByteArray);
           }
         }
       }
     });
   }
   /**
    * Update section size
    */


   var deltaBytes = replacementByteArray.length - ( // $FlowIgnore: assertHasLoc ensures that
   oldNode.loc.end.column - oldNode.loc.start.column); // Init location informations

   newNode.loc = {
     start: {
       line: -1,
       column: -1
     },
     end: {
       line: -1,
       column: -1
     }
   }; // Update new node end position
   // $FlowIgnore: assertHasLoc ensures that

   newNode.loc.start.column = oldNode.loc.start.column; // $FlowIgnore: assertHasLoc ensures that

   newNode.loc.end.column = // $FlowIgnore: assertHasLoc ensures that
   oldNode.loc.start.column + replacementByteArray.length;
   return {
     uint8Buffer: uint8Buffer,
     deltaBytes: deltaBytes,
     deltaElements: deltaElements
   };
 }

 function applyDelete(ast, uint8Buffer, node) {
   var deltaElements = -1; // since we removed an element

   assertHasLoc(node);
   var sectionName = getSectionForNode(node);

   if (sectionName === "start") {
     var sectionMetadata = getSectionMetadata(ast, "start");
     /**
      * The start section only contains one element,
      * we need to remove the whole section
      */

     uint8Buffer = removeSections(ast, uint8Buffer, "start");

     var _deltaBytes = -(sectionMetadata.size.value + 1)
     /* section id */
     ;

     return {
       uint8Buffer: uint8Buffer,
       deltaBytes: _deltaBytes,
       deltaElements: deltaElements
     };
   } // replacement is nothing


   var replacement = [];
   uint8Buffer = overrideBytesInBuffer(uint8Buffer, // $FlowIgnore: assertHasLoc ensures that
   node.loc.start.column, // $FlowIgnore: assertHasLoc ensures that
   node.loc.end.column, replacement);
   /**
    * Update section
    */
   // $FlowIgnore: assertHasLoc ensures that

   var deltaBytes = -(node.loc.end.column - node.loc.start.column);
   return {
     uint8Buffer: uint8Buffer,
     deltaBytes: deltaBytes,
     deltaElements: deltaElements
   };
 }

 function applyAdd(ast, uint8Buffer, node) {
   var deltaElements = +1; // since we added an element

   var sectionName = getSectionForNode(node);
   var sectionMetadata = getSectionMetadata(ast, sectionName); // Section doesn't exists, we create an empty one

   if (typeof sectionMetadata === "undefined") {
     var res = createEmptySection(ast, uint8Buffer, sectionName);
     uint8Buffer = res.uint8Buffer;
     sectionMetadata = res.sectionMetadata;
   }
   /**
    * check that the expressions were ended
    */


   if (isFunc(node)) {
     // $FlowIgnore
     var body = node.body;

     if (body.length === 0 || body[body.length - 1].id !== "end") {
       throw new Error("expressions must be ended");
     }
   }

   if (isGlobal(node)) {
     // $FlowIgnore
     var body = node.init;

     if (body.length === 0 || body[body.length - 1].id !== "end") {
       throw new Error("expressions must be ended");
     }
   }
   /**
    * Add nodes
    */


   var newByteArray = encodeNode(node); // The size of the section doesn't include the storage of the size itself
   // we need to manually add it here

   var start = getEndOfSection(sectionMetadata);
   var end = start;
   /**
    * Update section
    */

   var deltaBytes = newByteArray.length;
   uint8Buffer = overrideBytesInBuffer(uint8Buffer, start, end, newByteArray);
   node.loc = {
     start: {
       line: -1,
       column: start
     },
     end: {
       line: -1,
       column: start + deltaBytes
     }
   }; // for func add the additional metadata in the AST

   if (node.type === "Func") {
     // the size is the first byte
     // FIXME(sven): handle LEB128 correctly here
     var bodySize = newByteArray[0];
     node.metadata = {
       bodySize: bodySize
     };
   }

   if (node.type !== "IndexInFuncSection") {
     orderedInsertNode(ast.body[0], node);
   }

   return {
     uint8Buffer: uint8Buffer,
     deltaBytes: deltaBytes,
     deltaElements: deltaElements
   };
 }

 export function applyOperations(ast, uint8Buffer, ops) {
   ops.forEach(function (op) {
     var state;
     var sectionName;

     switch (op.kind) {
       case "update":
         state = applyUpdate(ast, uint8Buffer, [op.oldNode, op.node]);
         sectionName = getSectionForNode(op.node);
         break;

       case "delete":
         state = applyDelete(ast, uint8Buffer, op.node);
         sectionName = getSectionForNode(op.node);
         break;

       case "add":
         state = applyAdd(ast, uint8Buffer, op.node);
         sectionName = getSectionForNode(op.node);
         break;

       default:
         throw new Error("Unknown operation");
     }
     /**
      * Resize section vec size.
      * If the length of the LEB-encoded size changes, this can change
      * the byte length of the section and the offset for nodes in the
      * section. So we do this first before resizing section byte size
      * or shifting following operations' nodes.
      */


     if (state.deltaElements !== 0 && sectionName !== "start") {
       var oldBufferLength = state.uint8Buffer.length;
       state.uint8Buffer = resizeSectionVecSize(ast, state.uint8Buffer, sectionName, state.deltaElements); // Infer bytes added/removed by comparing buffer lengths

       state.deltaBytes += state.uint8Buffer.length - oldBufferLength;
     }
     /**
      * Resize section byte size.
      * If the length of the LEB-encoded size changes, this can change
      * the offset for nodes in the section. So we do this before
      * shifting following operations' nodes.
      */


     if (state.deltaBytes !== 0 && sectionName !== "start") {
       var _oldBufferLength = state.uint8Buffer.length;
       state.uint8Buffer = resizeSectionByteSize(ast, state.uint8Buffer, sectionName, state.deltaBytes); // Infer bytes added/removed by comparing buffer lengths

       state.deltaBytes += state.uint8Buffer.length - _oldBufferLength;
     }
     /**
      * Shift following operation's nodes
      */


     if (state.deltaBytes !== 0) {
       ops.forEach(function (op) {
         // We don't need to handle add ops, they are positioning independent
         switch (op.kind) {
           case "update":
             shiftLocNodeByDelta(op.oldNode, state.deltaBytes);
             break;

           case "delete":
             shiftLocNodeByDelta(op.node, state.deltaBytes);
             break;
         }
       });
     }

     uint8Buffer = state.uint8Buffer;
   });
   return uint8Buffer;
 }
	function _sliceIterator(arr, i) { var _arr = []; var _n = true; var _d = false; var _e = undefined; try { for (var _i = arr[Symbol.iterator](), _s; !(_n = (_s = _i.next()).done); _n = true) { _arr.push(_s.value); if (i && _arr.length === i) break; } } catch (err) { _d = true; _e = err; } finally { try { if (!_n && _i["return"] != null) _i["return"](); } finally { if (_d) throw _e; } } return _arr; }

	function _slicedToArray(arr, i) { if (Array.isArray(arr)) { return arr; } else if (Symbol.iterator in Object(arr)) { return _sliceIterator(arr, i); } else { throw new TypeError("Invalid attempt to destructure non-iterable instance"); } }

	import { encodeNode } from "@webassemblyjs/wasm-gen";
	import { encodeU32 } from "@webassemblyjs/wasm-gen/lib/encoder";
	import { isFunc, isGlobal, assertHasLoc, orderedInsertNode, getSectionMetadata, traverse, getEndOfSection } from "@webassemblyjs/ast";
	import { resizeSectionByteSize, resizeSectionVecSize, createEmptySection, removeSections } from "@webassemblyjs/helper-wasm-section";
	import { overrideBytesInBuffer } from "@webassemblyjs/helper-buffer";
	import { getSectionForNode } from "@webassemblyjs/helper-wasm-bytecode";

	function shiftLocNodeByDelta(node, delta) {
	assertHasLoc(node); // $FlowIgnore: assertHasLoc ensures that

	node.loc.start.column += delta; // $FlowIgnore: assertHasLoc ensures that

	node.loc.end.column += delta;
	}

	function applyUpdate(ast, uint8Buffer, _ref) {
	var _ref2 = _slicedToArray(_ref, 2),
	oldNode = _ref2[0],
	newNode = _ref2[1];

	var deltaElements = 0;
	assertHasLoc(oldNode);
	var sectionName = getSectionForNode(newNode);
	var replacementByteArray = encodeNode(newNode);
	/**
	* Replace new node as bytes
	*/

	uint8Buffer = overrideBytesInBuffer(uint8Buffer, // $FlowIgnore: assertHasLoc ensures that
	oldNode.loc.start.column, // $FlowIgnore: assertHasLoc ensures that
	oldNode.loc.end.column, replacementByteArray);
	/**
	* Update function body size if needed
	*/

	if (sectionName === "code") {
	// Find the parent func
	traverse(ast, {
	Func: function Func(_ref3) {
	var node = _ref3.node;
	var funcHasThisIntr = node.body.find(function (n) {
	return n === newNode;
	}) !== undefined; // Update func's body size if needed

	if (funcHasThisIntr === true) {
	// These are the old functions locations informations
	assertHasLoc(node);
	var oldNodeSize = encodeNode(oldNode).length;
	var bodySizeDeltaBytes = replacementByteArray.length - oldNodeSize;

	if (bodySizeDeltaBytes !== 0) {
	var newValue = node.metadata.bodySize + bodySizeDeltaBytes;
	var newByteArray = encodeU32(newValue); // function body size byte
	// FIXME(sven): only handles one byte u32

	var start = node.loc.start.column;
	var end = start + 1;
	uint8Buffer = overrideBytesInBuffer(uint8Buffer, start, end, newByteArray);
	}
	}
	}
	});
	}
	/**
	* Update section size
	*/


	var deltaBytes = replacementByteArray.length - ( // $FlowIgnore: assertHasLoc ensures that
	oldNode.loc.end.column - oldNode.loc.start.column); // Init location informations

	newNode.loc = {
	start: {
	line: -1,
	column: -1
	},
	end: {
	line: -1,
	column: -1
	}
	}; // Update new node end position
	// $FlowIgnore: assertHasLoc ensures that

	newNode.loc.start.column = oldNode.loc.start.column; // $FlowIgnore: assertHasLoc ensures that

	newNode.loc.end.column = // $FlowIgnore: assertHasLoc ensures that
	oldNode.loc.start.column + replacementByteArray.length;
	return {
	uint8Buffer: uint8Buffer,
	deltaBytes: deltaBytes,
	deltaElements: deltaElements
	};
	}

	function applyDelete(ast, uint8Buffer, node) {
	var deltaElements = -1; // since we removed an element

	assertHasLoc(node);
	var sectionName = getSectionForNode(node);

	if (sectionName === "start") {
	var sectionMetadata = getSectionMetadata(ast, "start");
	/**
	* The start section only contains one element,
	* we need to remove the whole section
	*/

	uint8Buffer = removeSections(ast, uint8Buffer, "start");

	var _deltaBytes = -(sectionMetadata.size.value + 1)
	/* section id */
	;

	return {
	uint8Buffer: uint8Buffer,
	deltaBytes: _deltaBytes,
	deltaElements: deltaElements
	};
	} // replacement is nothing


	var replacement = [];
	uint8Buffer = overrideBytesInBuffer(uint8Buffer, // $FlowIgnore: assertHasLoc ensures that
	node.loc.start.column, // $FlowIgnore: assertHasLoc ensures that
	node.loc.end.column, replacement);
	/**
	* Update section
	*/
	// $FlowIgnore: assertHasLoc ensures that

	var deltaBytes = -(node.loc.end.column - node.loc.start.column);
	return {
	uint8Buffer: uint8Buffer,
	deltaBytes: deltaBytes,
	deltaElements: deltaElements
	};
	}

	function applyAdd(ast, uint8Buffer, node) {
	var deltaElements = +1; // since we added an element

	var sectionName = getSectionForNode(node);
	var sectionMetadata = getSectionMetadata(ast, sectionName); // Section doesn't exists, we create an empty one

	if (typeof sectionMetadata === "undefined") {
	var res = createEmptySection(ast, uint8Buffer, sectionName);
	uint8Buffer = res.uint8Buffer;
	sectionMetadata = res.sectionMetadata;
	}
	/**
	* check that the expressions were ended
	*/


	if (isFunc(node)) {
	// $FlowIgnore
	var body = node.body;

	if (body.length === 0 \|\| body[body.length - 1].id !== "end") {
	throw new Error("expressions must be ended");
	}
	}

	if (isGlobal(node)) {
	// $FlowIgnore
	var body = node.init;

	if (body.length === 0 \|\| body[body.length - 1].id !== "end") {
	throw new Error("expressions must be ended");
	}
	}
	/**
	* Add nodes
	*/


	var newByteArray = encodeNode(node); // The size of the section doesn't include the storage of the size itself
	// we need to manually add it here

	var start = getEndOfSection(sectionMetadata);
	var end = start;
	/**
	* Update section
	*/

	var deltaBytes = newByteArray.length;
	uint8Buffer = overrideBytesInBuffer(uint8Buffer, start, end, newByteArray);
	node.loc = {
	start: {
	line: -1,
	column: start
	},
	end: {
	line: -1,
	column: start + deltaBytes
	}
	}; // for func add the additional metadata in the AST

	if (node.type === "Func") {
	// the size is the first byte
	// FIXME(sven): handle LEB128 correctly here
	var bodySize = newByteArray[0];
	node.metadata = {
	bodySize: bodySize
	};
	}

	if (node.type !== "IndexInFuncSection") {
	orderedInsertNode(ast.body[0], node);
	}

	return {
	uint8Buffer: uint8Buffer,
	deltaBytes: deltaBytes,
	deltaElements: deltaElements
	};
	}

	export function applyOperations(ast, uint8Buffer, ops) {
	ops.forEach(function (op) {
	var state;
	var sectionName;

	switch (op.kind) {
	case "update":
	state = applyUpdate(ast, uint8Buffer, [op.oldNode, op.node]);
	sectionName = getSectionForNode(op.node);
	break;

	case "delete":
	state = applyDelete(ast, uint8Buffer, op.node);
	sectionName = getSectionForNode(op.node);
	break;

	case "add":
	state = applyAdd(ast, uint8Buffer, op.node);
	sectionName = getSectionForNode(op.node);
	break;

	default:
	throw new Error("Unknown operation");
	}
	/**
	* Resize section vec size.
	* If the length of the LEB-encoded size changes, this can change
	* the byte length of the section and the offset for nodes in the
	* section. So we do this first before resizing section byte size
	* or shifting following operations' nodes.
	*/


	if (state.deltaElements !== 0 && sectionName !== "start") {
	var oldBufferLength = state.uint8Buffer.length;
	state.uint8Buffer = resizeSectionVecSize(ast, state.uint8Buffer, sectionName, state.deltaElements); // Infer bytes added/removed by comparing buffer lengths

	state.deltaBytes += state.uint8Buffer.length - oldBufferLength;
	}
	/**
	* Resize section byte size.
	* If the length of the LEB-encoded size changes, this can change
	* the offset for nodes in the section. So we do this before
	* shifting following operations' nodes.
	*/


	if (state.deltaBytes !== 0 && sectionName !== "start") {
	var _oldBufferLength = state.uint8Buffer.length;
	state.uint8Buffer = resizeSectionByteSize(ast, state.uint8Buffer, sectionName, state.deltaBytes); // Infer bytes added/removed by comparing buffer lengths

	state.deltaBytes += state.uint8Buffer.length - _oldBufferLength;
	}
	/**
	* Shift following operation's nodes
	*/


	if (state.deltaBytes !== 0) {
	ops.forEach(function (op) {
	// We don't need to handle add ops, they are positioning independent
	switch (op.kind) {
	case "update":
	shiftLocNodeByDelta(op.oldNode, state.deltaBytes);
	break;

	case "delete":
	shiftLocNodeByDelta(op.node, state.deltaBytes);
	break;
	}
	});
	}

	uint8Buffer = state.uint8Buffer;
	});
	return uint8Buffer;
	}