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///<reference path='services.ts' />

module ts.SignatureHelp {

// A partially written generic type expression is not guaranteed to have the correct syntax tree. the expression could be parsed as less than/greater than expression or a comma expression

// or some other combination depending on what the user has typed so far. For the purposes of signature help we need to consider any location after "<" as a possible generic type reference.

// To do this, the method will back parse the expression starting at the position required. it will try to parse the current expression as a generic type expression, if it did succeed it

// will return the generic identifier that started the expression (e.g. "foo" in "foo<any, |"). It is then up to the caller to ensure that this is a valid generic expression through

// looking up the type. The method will also keep track of the parameter index inside the expression.

//public static isInPartiallyWrittenTypeArgumentList(syntaxTree: TypeScript.SyntaxTree, position: number): any {

// var token = Syntax.findTokenOnLeft(syntaxTree.sourceUnit(), position, /*includeSkippedTokens*/ true);

// if (token && TypeScript.Syntax.hasAncestorOfKind(token, TypeScript.SyntaxKind.TypeParameterList)) {

// // We are in the wrong generic list. bail out

// return null;

// }

// var stack = 0;

// var argumentIndex = 0;

// whileLoop:

// while (token) {

// switch (token.kind()) {

// case TypeScript.SyntaxKind.LessThanToken:

// if (stack === 0) {

// // Found the beginning of the generic argument expression

// var lessThanToken = token;

// token = previousToken(token, /*includeSkippedTokens*/ true);

// if (!token || token.kind() !== TypeScript.SyntaxKind.IdentifierName) {

// break whileLoop;

// }

// // Found the name, return the data

// return {

// genericIdentifer: token,

// lessThanToken: lessThanToken,

// argumentIndex: argumentIndex

// };

// }

// else if (stack < 0) {

// // Seen one too many less than tokens, bail out

// break whileLoop;

// }

// else {

// stack--;

// }

// break;

// case TypeScript.SyntaxKind.GreaterThanGreaterThanGreaterThanToken:

// stack++;

// // Intentaion fall through

// case TypeScript.SyntaxKind.GreaterThanToken:

// stack++;

// break;

// case TypeScript.SyntaxKind.CommaToken:

// if (stack == 0) {

// argumentIndex++;

// }

// break;

// case TypeScript.SyntaxKind.CloseBraceToken:

// // This can be object type, skip untill we find the matching open brace token

// var unmatchedOpenBraceTokens = 0;

// // Skip untill the matching open brace token

// token = SignatureInfoHelpers.moveBackUpTillMatchingTokenKind(token, TypeScript.SyntaxKind.CloseBraceToken, TypeScript.SyntaxKind.OpenBraceToken);

// if (!token) {

// // No matching token was found. bail out

// break whileLoop;

// }

// break;

// case TypeScript.SyntaxKind.EqualsGreaterThanToken:

// // This can be a function type or a constructor type. In either case, we want to skip the function defintion

// token = previousToken(token, /*includeSkippedTokens*/ true);

// if (token && token.kind() === TypeScript.SyntaxKind.CloseParenToken) {

// // Skip untill the matching open paren token

// token = SignatureInfoHelpers.moveBackUpTillMatchingTokenKind(token, TypeScript.SyntaxKind.CloseParenToken, TypeScript.SyntaxKind.OpenParenToken);

// if (token && token.kind() === TypeScript.SyntaxKind.GreaterThanToken) {

// // Another generic type argument list, skip it\

// token = SignatureInfoHelpers.moveBackUpTillMatchingTokenKind(token, TypeScript.SyntaxKind.GreaterThanToken, TypeScript.SyntaxKind.LessThanToken);

// }

// if (token && token.kind() === TypeScript.SyntaxKind.NewKeyword) {

// // In case this was a constructor type, skip the new keyword

// token = previousToken(token, /*includeSkippedTokens*/ true);

// }

// if (!token) {

// // No matching token was found. bail out

// break whileLoop;

// }

// }

// else {

// // This is not a funtion type. exit the main loop

// break whileLoop;

// }

// break;

// case TypeScript.SyntaxKind.IdentifierName:

// case TypeScript.SyntaxKind.AnyKeyword:

// case TypeScript.SyntaxKind.NumberKeyword:

// case TypeScript.SyntaxKind.StringKeyword:

// case TypeScript.SyntaxKind.VoidKeyword:

// case TypeScript.SyntaxKind.BooleanKeyword:

// case TypeScript.SyntaxKind.DotToken:

// case TypeScript.SyntaxKind.OpenBracketToken:

// case TypeScript.SyntaxKind.CloseBracketToken:

// // Valid tokens in a type name. Skip.

// break;

// default:

// break whileLoop;

// }

// token = previousToken(token, /*includeSkippedTokens*/ true);

// }

// return null;

//}

//private static moveBackUpTillMatchingTokenKind(token: TypeScript.ISyntaxToken, tokenKind: TypeScript.SyntaxKind, matchingTokenKind: TypeScript.SyntaxKind): TypeScript.ISyntaxToken {

// if (!token || token.kind() !== tokenKind) {

// throw TypeScript.Errors.invalidOperation();

// }

// // Skip the current token

// token = previousToken(token, /*includeSkippedTokens*/ true);

// var stack = 0;

// while (token) {

// if (token.kind() === matchingTokenKind) {

// if (stack === 0) {

// // Found the matching token, return

// return token;

// }

// else if (stack < 0) {

// // tokens overlapped.. bail out.

// break;

// }

// else {

// stack--;

// }

// }

// else if (token.kind() === tokenKind) {

// stack++;

// }

// // Move back

// token = previousToken(token, /*includeSkippedTokens*/ true);

// }

// // Did not find matching token

// return null;

//}

var emptyArray: any[] = [];

export function getSignatureHelpItems(sourceFile: SourceFile, position: number, typeInfoResolver: TypeChecker, cancellationToken: CancellationTokenObject): SignatureHelpItems {

// Decide whether to show signature help

var startingToken = findTokenOnLeftOfPosition(sourceFile, position);

if (!startingToken) {

// We are at the beginning of the file

return undefined;

}

var argumentInfo = getContainingArgumentInfo(startingToken);

cancellationToken.throwIfCancellationRequested();

// Semantic filtering of signature help

if (!argumentInfo) {

return undefined;

}

var call = <CallExpression>argumentInfo.list.parent;

var candidates = <Signature[]>[];

var resolvedSignature = typeInfoResolver.getResolvedSignature(call, candidates);

cancellationToken.throwIfCancellationRequested();

if (!candidates.length) {

return undefined;

}

return createSignatureHelpItems(candidates, resolvedSignature, argumentInfo);

/**

* If node is an argument, returns its index in the argument list.

* If not, returns -1.

*/

function getImmediatelyContainingArgumentInfo(node: Node): ListItemInfo {

if (node.parent.kind !== SyntaxKind.CallExpression && node.parent.kind !== SyntaxKind.NewExpression) {

return undefined;

}

// There are 3 cases to handle:

// 1. The token introduces a list, and should begin a sig help session

// 2. The token is either not associated with a list, or ends a list, so the session should end

// 3. The token is buried inside a list, and should give sig help

//

// The following are examples of each:

//

// Case 1:

// foo<$T, U>($a, b) -> The token introduces a list, and should begin a sig help session

// Case 2:

// fo$o<T, U>$(a, b)$ -> The token is either not associated with a list, or ends a list, so the session should end

// Case 3:

// foo<T$, U$>(a$, $b$) -> The token is buried inside a list, and should give sig help

var parent = <CallExpression>node.parent;

// Find out if 'node' is an argument, a type argument, or neither

if (node.kind === SyntaxKind.LessThanToken || node.kind === SyntaxKind.OpenParenToken) {

// Find the list that starts right *after* the < or ( token.

// If the user has just opened a list, consider this item 0.

var list = getChildListThatStartsWithOpenerToken(parent, node, sourceFile);

Debug.assert(list !== undefined);

return {

list: list,

listItemIndex: 0

};

}

// findListItemInfo can return undefined if we are not in parent's argument list

// or type argument list. This includes cases where the cursor is:

// - To the right of the closing paren

// - Between the type arguments and the arguments (greater than token)

// - On the target of the call (parent.func)

// - On the 'new' keyword in a 'new' expression

return findListItemInfo(node);

}

function getContainingArgumentInfo(node: Node): ListItemInfo {

for (var n = node; n.kind !== SyntaxKind.SourceFile; n = n.parent) {

if (n.kind === SyntaxKind.FunctionBlock) {

return undefined;

}

// If the node is not a subspan of its parent, this is a big problem.

// There have been crashes that might be caused by this violation.

if (n.pos < n.parent.pos || n.end > n.parent.end) {

Debug.fail("Node of kind " + n.kind + " is not a subspan of its parent of kind " + n.parent.kind);

}

var argumentInfo = getImmediatelyContainingArgumentInfo(n);

if (argumentInfo) {

return argumentInfo;

}

// TODO: Handle generic call with incomplete syntax

}

return undefined;

}

function getChildListThatStartsWithOpenerToken(parent: Node, openerToken: Node, sourceFile: SourceFile): Node {

var children = parent.getChildren(sourceFile);

var indexOfOpenerToken = children.indexOf(openerToken);

Debug.assert(indexOfOpenerToken >= 0 && children.length > indexOfOpenerToken + 1);

return children[indexOfOpenerToken + 1];

}

/**

* The selectedItemIndex could be negative for several reasons.

* 1. There are too many arguments for all of the overloads

* 2. None of the overloads were type compatible

* The solution here is to try to pick the best overload by picking

* either the first one that has an appropriate number of parameters,

* or the one with the most parameters.

*/

function selectBestInvalidOverloadIndex(candidates: Signature[], argumentCount: number): number {

var maxParamsSignatureIndex = -1;

var maxParams = -1;

for (var i = 0; i < candidates.length; i++) {

var candidate = candidates[i];

if (candidate.hasRestParameter || candidate.parameters.length >= argumentCount) {

return i;

}

if (candidate.parameters.length > maxParams) {

maxParams = candidate.parameters.length;

maxParamsSignatureIndex = i;

}

}

return maxParamsSignatureIndex;

}

function createSignatureHelpItems(candidates: Signature[], bestSignature: Signature, argumentInfoOrTypeArgumentInfo: ListItemInfo): SignatureHelpItems {

var argumentListOrTypeArgumentList = argumentInfoOrTypeArgumentInfo.list;

var parent = <CallExpression>argumentListOrTypeArgumentList.parent;

var isTypeParameterHelp = parent.typeArguments && parent.typeArguments.pos === argumentListOrTypeArgumentList.pos;

Debug.assert(isTypeParameterHelp || parent.arguments.pos === argumentListOrTypeArgumentList.pos);

var callTargetNode = (<CallExpression>argumentListOrTypeArgumentList.parent).func;

var callTargetSymbol = typeInfoResolver.getSymbolInfo(callTargetNode);

var callTargetDisplayParts = callTargetSymbol && symbolToDisplayParts(typeInfoResolver, callTargetSymbol, /*enclosingDeclaration*/ undefined, /*meaning*/ undefined);

var items: SignatureHelpItem[] = map(candidates, candidateSignature => {

var signatureHelpParameters: SignatureHelpParameter[];

var prefixParts: SymbolDisplayPart[] = [];

var suffixParts: SymbolDisplayPart[] = [];

if (callTargetDisplayParts) {

prefixParts.push.apply(prefixParts, callTargetDisplayParts);

}

if (isTypeParameterHelp) {

prefixParts.push(punctuationPart(SyntaxKind.LessThanToken));

var typeParameters = candidateSignature.typeParameters;

signatureHelpParameters = typeParameters && typeParameters.length > 0 ? map(typeParameters, createSignatureHelpParameterForTypeParameter) : emptyArray;

suffixParts.push(punctuationPart(SyntaxKind.GreaterThanToken));

var parameterParts = mapToDisplayParts(writer =>

typeInfoResolver.getSymbolDisplayBuilder().buildDisplayForParametersAndDelimiters(candidateSignature.parameters, writer, argumentListOrTypeArgumentList));

suffixParts.push.apply(suffixParts, parameterParts);

}

else {

var typeParameterParts = mapToDisplayParts(writer =>

typeInfoResolver.getSymbolDisplayBuilder().buildDisplayForTypeParametersAndDelimiters(candidateSignature.typeParameters, writer, argumentListOrTypeArgumentList));

prefixParts.push.apply(prefixParts, typeParameterParts);

prefixParts.push(punctuationPart(SyntaxKind.OpenParenToken));

var parameters = candidateSignature.parameters;

signatureHelpParameters = parameters.length > 0 ? map(parameters, createSignatureHelpParameterForParameter) : emptyArray;

suffixParts.push(punctuationPart(SyntaxKind.CloseParenToken));

}

var returnTypeParts = mapToDisplayParts(writer =>

typeInfoResolver.getSymbolDisplayBuilder().buildReturnTypeDisplay(candidateSignature, writer, argumentListOrTypeArgumentList));

suffixParts.push.apply(suffixParts, returnTypeParts);

return {

isVariadic: candidateSignature.hasRestParameter,

prefixDisplayParts: prefixParts,

suffixDisplayParts: suffixParts,

separatorDisplayParts: [punctuationPart(SyntaxKind.CommaToken), spacePart()],

parameters: signatureHelpParameters,

documentation: candidateSignature.getDocumentationComment()

};

});

// We use full start and skip trivia on the end because we want to include trivia on

// both sides. For example,

//

// foo( /*comment */ a, b, c /*comment*/ )

// | |

//

// The applicable span is from the first bar to the second bar (inclusive,

// but not including parentheses)

var applicableSpanStart = argumentListOrTypeArgumentList.getFullStart();

var applicableSpanEnd = skipTrivia(sourceFile.text, argumentListOrTypeArgumentList.end, /*stopAfterLineBreak*/ false);

var applicableSpan = new TypeScript.TextSpan(applicableSpanStart, applicableSpanEnd - applicableSpanStart);

// The listItemIndex we got back includes commas. Our goal is to return the index of the proper

// item (not including commas). Here are some examples:

// 1. foo(a, b, c $) -> the listItemIndex is 4, we want to return 2

// 2. foo(a, b, $ c) -> listItemIndex is 3, we want to return 2

// 3. foo($a) -> listItemIndex is 0, we want to return 0

//

// In general, we want to subtract the number of commas before the current index.

// But if we are on a comma, we also want to pretend we are on the argument *following*

// the comma. That amounts to taking the ceiling of half the index.

var argumentIndex = (argumentInfoOrTypeArgumentInfo.listItemIndex + 1) >> 1;

// argumentCount is the number of commas plus one, unless the list is completely empty,

// in which case there are 0.

var argumentCount = argumentListOrTypeArgumentList.getChildCount() === 0

? 0

: 1 + countWhere(argumentListOrTypeArgumentList.getChildren(), arg => arg.kind === SyntaxKind.CommaToken);

var selectedItemIndex = candidates.indexOf(bestSignature);

if (selectedItemIndex < 0) {

selectedItemIndex = selectBestInvalidOverloadIndex(candidates, argumentCount);

}

return {

items: items,

applicableSpan: applicableSpan,

selectedItemIndex: selectedItemIndex,

argumentIndex: argumentIndex,

argumentCount: argumentCount

};

function createSignatureHelpParameterForParameter(parameter: Symbol): SignatureHelpParameter {

var displayParts = mapToDisplayParts(writer =>

typeInfoResolver.getSymbolDisplayBuilder().buildParameterDisplay(parameter, writer, argumentListOrTypeArgumentList));

var isOptional = !!(parameter.valueDeclaration.flags & NodeFlags.QuestionMark);

return {

name: parameter.name,

documentation: parameter.getDocumentationComment(),

displayParts: displayParts,

isOptional: isOptional

};

}

function createSignatureHelpParameterForTypeParameter(typeParameter: TypeParameter): SignatureHelpParameter {

var displayParts = mapToDisplayParts(writer =>

typeInfoResolver.getSymbolDisplayBuilder().buildTypeParameterDisplay(typeParameter, writer, argumentListOrTypeArgumentList));

return {

name: typeParameter.symbol.name,

documentation: emptyArray,

displayParts: displayParts,

isOptional: false

};

}

}

}

}