internal/lsp/source/completion_keywords.go - tools - Git at Google

 package source

 import (
 	"go/ast"

 	"golang.org/x/tools/internal/lsp/protocol"
 )

 const (
 	BREAK       = "break"
 	CASE        = "case"
 	CHAN        = "chan"
 	CONST       = "const"
 	CONTINUE    = "continue"
 	DEFAULT     = "default"
 	DEFER       = "defer"
 	ELSE        = "else"
 	FALLTHROUGH = "fallthrough"
 	FOR         = "for"
 	FUNC        = "func"
 	GO          = "go"
 	GOTO        = "goto"
 	IF          = "if"
 	IMPORT      = "import"
 	INTERFACE   = "interface"
 	MAP         = "map"
 	PACKAGE     = "package"
 	RANGE       = "range"
 	RETURN      = "return"
 	SELECT      = "select"
 	STRUCT      = "struct"
 	SWITCH      = "switch"
 	TYPE        = "type"
 	VAR         = "var"
 )

 // addKeywordCompletions offers keyword candidates appropriate at the position.
 func (c *completer) addKeywordCompletions() {
 	seen := make(map[string]bool)

 	if c.wantTypeName() && c.inference.objType == nil {
 		// If we want a type name but don't have an expected obj type,
 		// include "interface", "struct", "func", "chan", and "map".

 		// "interface" and "struct" are more common declaring named types.
 		// Give them a higher score if we are in a type declaration.
 		structIntf, funcChanMap := stdScore, highScore
 		if len(c.path) > 1 {
 			if _, namedDecl := c.path[1].(*ast.TypeSpec); namedDecl {
 				structIntf, funcChanMap = highScore, stdScore
 			}
 		}

 		c.addKeywordItems(seen, structIntf, STRUCT, INTERFACE)
 		c.addKeywordItems(seen, funcChanMap, FUNC, CHAN, MAP)
 	}

 	// If we are at the file scope, only offer decl keywords. We don't
 	// get *ast.Idents at the file scope because non-keyword identifiers
 	// turn into *ast.BadDecl, not *ast.Ident.
 	if len(c.path) == 1 || isASTFile(c.path[1]) {
 		c.addKeywordItems(seen, stdScore, TYPE, CONST, VAR, FUNC, IMPORT)
 		return
 	} else if _, ok := c.path[0].(*ast.Ident); !ok {
 		// Otherwise only offer keywords if the client is completing an identifier.
 		return
 	}

 	if len(c.path) > 2 {
 		// Offer "range" if we are in ast.ForStmt.Init. This is what the
 		// AST looks like before "range" is typed, e.g. "for i := r<>".
 		if loop, ok := c.path[2].(*ast.ForStmt); ok && nodeContains(loop.Init, c.pos) {
 			c.addKeywordItems(seen, stdScore, RANGE)
 		}
 	}

 	// Only suggest keywords if we are beginning a statement.
 	switch n := c.path[1].(type) {
 	case *ast.BlockStmt, *ast.ExprStmt:
 		// OK - our ident must be at beginning of statement.
 	case *ast.CommClause:
 		// Make sure we aren't in the Comm statement.
 		if !n.Colon.IsValid() || c.pos <= n.Colon {
 			return
 		}
 	case *ast.CaseClause:
 		// Make sure we aren't in the case List.
 		if !n.Colon.IsValid() || c.pos <= n.Colon {
 			return
 		}
 	default:
 		return
 	}

 	// Filter out keywords depending on scope
 	// Skip the first one because we want to look at the enclosing scopes
 	path := c.path[1:]
 	for i, n := range path {
 		switch node := n.(type) {
 		case *ast.CaseClause:
 			// only recommend "fallthrough" and "break" within the bodies of a case clause
 			if c.pos > node.Colon {
 				c.addKeywordItems(seen, stdScore, BREAK)
 				// "fallthrough" is only valid in switch statements.
 				// A case clause is always nested within a block statement in a switch statement,
 				// that block statement is nested within either a TypeSwitchStmt or a SwitchStmt.
 				if i+2 >= len(path) {
 					continue
 				}
 				if _, ok := path[i+2].(*ast.SwitchStmt); ok {
 					c.addKeywordItems(seen, stdScore, FALLTHROUGH)
 				}
 			}
 		case *ast.CommClause:
 			if c.pos > node.Colon {
 				c.addKeywordItems(seen, stdScore, BREAK)
 			}
 		case *ast.TypeSwitchStmt, *ast.SelectStmt, *ast.SwitchStmt:
 			c.addKeywordItems(seen, stdScore, CASE, DEFAULT)
 		case *ast.ForStmt, *ast.RangeStmt:
 			c.addKeywordItems(seen, stdScore, BREAK, CONTINUE)
 		// This is a bit weak, functions allow for many keywords
 		case *ast.FuncDecl:
 			if node.Body != nil && c.pos > node.Body.Lbrace {
 				c.addKeywordItems(seen, stdScore, DEFER, RETURN, FOR, GO, SWITCH, SELECT, IF, ELSE, VAR, CONST, GOTO, TYPE)
 			}
 		}
 	}
 }

 // addKeywordItems dedupes and adds completion items for the specified
 // keywords with the specified score.
 func (c *completer) addKeywordItems(seen map[string]bool, score float64, kws ...string) {
 	for _, kw := range kws {
 		if seen[kw] {
 			continue
 		}
 		seen[kw] = true

 		if matchScore := c.matcher.Score(kw); matchScore > 0 {
 			c.items = append(c.items, CompletionItem{
 				Label:      kw,
 				Kind:       protocol.KeywordCompletion,
 				InsertText: kw,
 				Score:      score * float64(matchScore),
 			})
 		}
 	}
 }
	package source

	import (
	"go/ast"

	"golang.org/x/tools/internal/lsp/protocol"
	)

	const (
	BREAK = "break"
	CASE = "case"
	CHAN = "chan"
	CONST = "const"
	CONTINUE = "continue"
	DEFAULT = "default"
	DEFER = "defer"
	ELSE = "else"
	FALLTHROUGH = "fallthrough"
	FOR = "for"
	FUNC = "func"
	GO = "go"
	GOTO = "goto"
	IF = "if"
	IMPORT = "import"
	INTERFACE = "interface"
	MAP = "map"
	PACKAGE = "package"
	RANGE = "range"
	RETURN = "return"
	SELECT = "select"
	STRUCT = "struct"
	SWITCH = "switch"
	TYPE = "type"
	VAR = "var"
	)

	// addKeywordCompletions offers keyword candidates appropriate at the position.
	func (c *completer) addKeywordCompletions() {
	seen := make(map[string]bool)

	if c.wantTypeName() && c.inference.objType == nil {
	// If we want a type name but don't have an expected obj type,
	// include "interface", "struct", "func", "chan", and "map".

	// "interface" and "struct" are more common declaring named types.
	// Give them a higher score if we are in a type declaration.
	structIntf, funcChanMap := stdScore, highScore
	if len(c.path) > 1 {
	if _, namedDecl := c.path[1].(*ast.TypeSpec); namedDecl {
	structIntf, funcChanMap = highScore, stdScore
	}
	}

	c.addKeywordItems(seen, structIntf, STRUCT, INTERFACE)
	c.addKeywordItems(seen, funcChanMap, FUNC, CHAN, MAP)
	}

	// If we are at the file scope, only offer decl keywords. We don't
	// get *ast.Idents at the file scope because non-keyword identifiers
	// turn into ast.BadDecl, not ast.Ident.
	if len(c.path) == 1 \|\| isASTFile(c.path[1]) {
	c.addKeywordItems(seen, stdScore, TYPE, CONST, VAR, FUNC, IMPORT)
	return
	} else if _, ok := c.path[0].(*ast.Ident); !ok {
	// Otherwise only offer keywords if the client is completing an identifier.
	return
	}

	if len(c.path) > 2 {
	// Offer "range" if we are in ast.ForStmt.Init. This is what the
	// AST looks like before "range" is typed, e.g. "for i := r<>".
	if loop, ok := c.path[2].(*ast.ForStmt); ok && nodeContains(loop.Init, c.pos) {
	c.addKeywordItems(seen, stdScore, RANGE)
	}
	}

	// Only suggest keywords if we are beginning a statement.
	switch n := c.path[1].(type) {
	case ast.BlockStmt, ast.ExprStmt:
	// OK - our ident must be at beginning of statement.
	case *ast.CommClause:
	// Make sure we aren't in the Comm statement.
	if !n.Colon.IsValid() \|\| c.pos <= n.Colon {
	return
	}
	case *ast.CaseClause:
	// Make sure we aren't in the case List.
	if !n.Colon.IsValid() \|\| c.pos <= n.Colon {
	return
	}
	default:
	return
	}

	// Filter out keywords depending on scope
	// Skip the first one because we want to look at the enclosing scopes
	path := c.path[1:]
	for i, n := range path {
	switch node := n.(type) {
	case *ast.CaseClause:
	// only recommend "fallthrough" and "break" within the bodies of a case clause
	if c.pos > node.Colon {
	c.addKeywordItems(seen, stdScore, BREAK)
	// "fallthrough" is only valid in switch statements.
	// A case clause is always nested within a block statement in a switch statement,
	// that block statement is nested within either a TypeSwitchStmt or a SwitchStmt.
	if i+2 >= len(path) {
	continue
	}
	if _, ok := path[i+2].(*ast.SwitchStmt); ok {
	c.addKeywordItems(seen, stdScore, FALLTHROUGH)
	}
	}
	case *ast.CommClause:
	if c.pos > node.Colon {
	c.addKeywordItems(seen, stdScore, BREAK)
	}
	case ast.TypeSwitchStmt, ast.SelectStmt, *ast.SwitchStmt:
	c.addKeywordItems(seen, stdScore, CASE, DEFAULT)
	case ast.ForStmt, ast.RangeStmt:
	c.addKeywordItems(seen, stdScore, BREAK, CONTINUE)
	// This is a bit weak, functions allow for many keywords
	case *ast.FuncDecl:
	if node.Body != nil && c.pos > node.Body.Lbrace {
	c.addKeywordItems(seen, stdScore, DEFER, RETURN, FOR, GO, SWITCH, SELECT, IF, ELSE, VAR, CONST, GOTO, TYPE)
	}
	}
	}
	}

	// addKeywordItems dedupes and adds completion items for the specified
	// keywords with the specified score.
	func (c *completer) addKeywordItems(seen map[string]bool, score float64, kws ...string) {
	for _, kw := range kws {
	if seen[kw] {
	continue
	}
	seen[kw] = true

	if matchScore := c.matcher.Score(kw); matchScore > 0 {
	c.items = append(c.items, CompletionItem{
	Label: kw,
	Kind: protocol.KeywordCompletion,
	InsertText: kw,
	Score: score * float64(matchScore),
	})
	}
	}
	}