mirror of
https://github.com/golang/go
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cf0cb92717
internal/telemetry/event was renamed to internal/event/core Some things were partly moved from internal/telemetry/event straight to internal/event to minimize churn in the following restructuring. Change-Id: I8511241c68d2d05f64c52dbe04748086dd325158 Reviewed-on: https://go-review.googlesource.com/c/tools/+/229237 Run-TryBot: Ian Cottrell <iancottrell@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Robert Findley <rfindley@google.com>
393 lines
12 KiB
Go
393 lines
12 KiB
Go
// Copyright 2019 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package source
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import (
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"context"
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"go/ast"
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"go/token"
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"go/types"
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"strings"
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"unicode"
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"golang.org/x/tools/internal/event"
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"golang.org/x/tools/internal/lsp/diff"
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"golang.org/x/tools/internal/lsp/protocol"
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"golang.org/x/tools/internal/lsp/snippet"
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)
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// literal generates composite literal, function literal, and make()
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// completion items.
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func (c *completer) literal(ctx context.Context, literalType types.Type, imp *importInfo) {
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if !c.opts.literal {
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return
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}
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expType := c.inference.objType
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if c.inference.variadicType != nil {
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// Don't offer literal slice candidates for variadic arguments.
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// For example, don't offer "[]interface{}{}" in "fmt.Print(<>)".
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if c.inference.matchesVariadic(literalType) {
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return
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}
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// Otherwise, consider our expected type to be the variadic
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// element type, not the slice type.
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expType = c.inference.variadicType
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}
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// Avoid literal candidates if the expected type is an empty
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// interface. It isn't very useful to suggest a literal candidate of
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// every possible type.
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if expType != nil && isEmptyInterface(expType) {
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return
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}
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// We handle unnamed literal completions explicitly before searching
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// for candidates. Avoid named-type literal completions for
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// unnamed-type expected type since that results in duplicate
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// candidates. For example, in
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//
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// type mySlice []int
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// var []int = <>
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//
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// don't offer "mySlice{}" since we have already added a candidate
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// of "[]int{}".
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if _, named := literalType.(*types.Named); named && expType != nil {
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if _, named := deref(expType).(*types.Named); !named {
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return
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}
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}
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// Check if an object of type literalType would match our expected type.
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cand := candidate{
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obj: c.fakeObj(literalType),
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}
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switch literalType.Underlying().(type) {
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// These literal types are addressable (e.g. "&[]int{}"), others are
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// not (e.g. can't do "&(func(){})").
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case *types.Struct, *types.Array, *types.Slice, *types.Map:
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cand.addressable = true
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}
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if !c.matchingCandidate(&cand) {
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return
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}
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var (
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qf = c.qf
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sel = enclosingSelector(c.path, c.pos)
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)
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// Don't qualify the type name if we are in a selector expression
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// since the package name is already present.
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if sel != nil {
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qf = func(_ *types.Package) string { return "" }
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}
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typeName := types.TypeString(literalType, qf)
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// A type name of "[]int" doesn't work very will with the matcher
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// since "[" isn't a valid identifier prefix. Here we strip off the
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// slice (and array) prefix yielding just "int".
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matchName := typeName
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switch t := literalType.(type) {
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case *types.Slice:
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matchName = types.TypeString(t.Elem(), qf)
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case *types.Array:
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matchName = types.TypeString(t.Elem(), qf)
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}
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addlEdits, err := c.importEdits(ctx, imp)
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if err != nil {
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event.Error(ctx, "error adding import for literal candidate", err)
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return
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}
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// If prefix matches the type name, client may want a composite literal.
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if score := c.matcher.Score(matchName); score >= 0 {
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if cand.takeAddress {
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if sel != nil {
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// If we are in a selector we must place the "&" before the selector.
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// For example, "foo.B<>" must complete to "&foo.Bar{}", not
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// "foo.&Bar{}".
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edits, err := prependEdit(c.snapshot.View().Session().Cache().FileSet(), c.mapper, sel, "&")
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if err != nil {
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event.Error(ctx, "error making edit for literal pointer completion", err)
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return
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}
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addlEdits = append(addlEdits, edits...)
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} else {
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// Otherwise we can stick the "&" directly before the type name.
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typeName = "&" + typeName
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}
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}
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switch t := literalType.Underlying().(type) {
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case *types.Struct, *types.Array, *types.Slice, *types.Map:
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c.compositeLiteral(t, typeName, float64(score), addlEdits)
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case *types.Signature:
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// Add a literal completion for a signature type that implements
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// an interface. For example, offer "http.HandlerFunc()" when
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// expected type is "http.Handler".
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if isInterface(expType) {
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c.basicLiteral(t, typeName, float64(score), addlEdits)
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}
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case *types.Basic:
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// Add a literal completion for basic types that implement our
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// expected interface (e.g. named string type http.Dir
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// implements http.FileSystem), or are identical to our expected
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// type (i.e. yielding a type conversion such as "float64()").
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if isInterface(expType) || types.Identical(expType, literalType) {
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c.basicLiteral(t, typeName, float64(score), addlEdits)
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}
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}
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}
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// If prefix matches "make", client may want a "make()"
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// invocation. We also include the type name to allow for more
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// flexible fuzzy matching.
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if score := c.matcher.Score("make." + matchName); !cand.takeAddress && score >= 0 {
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switch literalType.Underlying().(type) {
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case *types.Slice:
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// The second argument to "make()" for slices is required, so default to "0".
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c.makeCall(typeName, "0", float64(score), addlEdits)
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case *types.Map, *types.Chan:
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// Maps and channels don't require the second argument, so omit
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// to keep things simple for now.
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c.makeCall(typeName, "", float64(score), addlEdits)
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}
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}
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// If prefix matches "func", client may want a function literal.
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if score := c.matcher.Score("func"); !cand.takeAddress && score >= 0 && !isInterface(expType) {
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switch t := literalType.Underlying().(type) {
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case *types.Signature:
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c.functionLiteral(t, float64(score))
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}
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}
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}
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// prependEdit produces text edits that preprend the specified prefix
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// to the specified node.
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func prependEdit(fset *token.FileSet, m *protocol.ColumnMapper, node ast.Node, prefix string) ([]protocol.TextEdit, error) {
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rng := newMappedRange(fset, m, node.Pos(), node.Pos())
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spn, err := rng.Span()
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if err != nil {
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return nil, err
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}
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return ToProtocolEdits(m, []diff.TextEdit{{
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Span: spn,
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NewText: prefix,
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}})
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}
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// literalCandidateScore is the base score for literal candidates.
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// Literal candidates match the expected type so they should be high
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// scoring, but we want them ranked below lexical objects of the
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// correct type, so scale down highScore.
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const literalCandidateScore = highScore / 2
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// functionLiteral adds a function literal completion item for the
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// given signature.
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func (c *completer) functionLiteral(sig *types.Signature, matchScore float64) {
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snip := &snippet.Builder{}
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snip.WriteText("func(")
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seenParamNames := make(map[string]bool)
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for i := 0; i < sig.Params().Len(); i++ {
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if i > 0 {
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snip.WriteText(", ")
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}
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p := sig.Params().At(i)
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name := p.Name()
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// If the parameter has no name in the signature, we need to try
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// come up with a parameter name.
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if name == "" {
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// Our parameter names are guesses, so they must be placeholders
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// for easy correction. If placeholders are disabled, don't
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// offer the completion.
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if !c.opts.placeholders {
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return
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}
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// Try abbreviating named types. If the type isn't named, or the
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// abbreviation duplicates a previous name, give up and use
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// "_". The user will have to provide a name for this parameter
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// in order to use it.
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if named, ok := deref(p.Type()).(*types.Named); ok {
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name = abbreviateCamel(named.Obj().Name())
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if seenParamNames[name] {
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name = "_"
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} else {
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seenParamNames[name] = true
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}
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} else {
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name = "_"
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}
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snip.WritePlaceholder(func(b *snippet.Builder) {
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b.WriteText(name)
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})
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} else {
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snip.WriteText(name)
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}
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// If the following param's type is identical to this one, omit
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// this param's type string. For example, emit "i, j int" instead
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// of "i int, j int".
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if i == sig.Params().Len()-1 || !types.Identical(p.Type(), sig.Params().At(i+1).Type()) {
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snip.WriteText(" ")
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typeStr := types.TypeString(p.Type(), c.qf)
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if sig.Variadic() && i == sig.Params().Len()-1 {
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typeStr = strings.Replace(typeStr, "[]", "...", 1)
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}
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snip.WriteText(typeStr)
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}
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}
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snip.WriteText(")")
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results := sig.Results()
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if results.Len() > 0 {
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snip.WriteText(" ")
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}
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resultsNeedParens := results.Len() > 1 ||
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results.Len() == 1 && results.At(0).Name() != ""
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if resultsNeedParens {
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snip.WriteText("(")
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}
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for i := 0; i < results.Len(); i++ {
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if i > 0 {
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snip.WriteText(", ")
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}
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r := results.At(i)
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if name := r.Name(); name != "" {
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snip.WriteText(name + " ")
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}
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snip.WriteText(types.TypeString(r.Type(), c.qf))
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}
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if resultsNeedParens {
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snip.WriteText(")")
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}
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snip.WriteText(" {")
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snip.WriteFinalTabstop()
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snip.WriteText("}")
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c.items = append(c.items, CompletionItem{
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Label: "func(...) {}",
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Score: matchScore * literalCandidateScore,
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Kind: protocol.VariableCompletion,
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snippet: snip,
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})
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}
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// abbreviateCamel abbreviates camel case identifiers into
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// abbreviations. For example, "fooBar" is abbreviated "fb".
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func abbreviateCamel(s string) string {
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var (
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b strings.Builder
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useNextUpper bool
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)
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for i, r := range s {
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if i == 0 {
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b.WriteRune(unicode.ToLower(r))
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}
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if unicode.IsUpper(r) {
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if useNextUpper {
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b.WriteRune(unicode.ToLower(r))
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useNextUpper = false
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}
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} else {
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useNextUpper = true
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}
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}
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return b.String()
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}
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// compositeLiteral adds a composite literal completion item for the given typeName.
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func (c *completer) compositeLiteral(T types.Type, typeName string, matchScore float64, edits []protocol.TextEdit) {
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snip := &snippet.Builder{}
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snip.WriteText(typeName + "{")
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// Don't put the tab stop inside the composite literal curlies "{}"
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// for structs that have no accessible fields.
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if strct, ok := T.(*types.Struct); !ok || fieldsAccessible(strct, c.pkg.GetTypes()) {
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snip.WriteFinalTabstop()
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}
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snip.WriteText("}")
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nonSnippet := typeName + "{}"
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c.items = append(c.items, CompletionItem{
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Label: nonSnippet,
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InsertText: nonSnippet,
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Score: matchScore * literalCandidateScore,
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Kind: protocol.VariableCompletion,
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AdditionalTextEdits: edits,
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snippet: snip,
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})
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}
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// basicLiteral adds a literal completion item for the given basic
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// type name typeName.
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func (c *completer) basicLiteral(T types.Type, typeName string, matchScore float64, edits []protocol.TextEdit) {
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snip := &snippet.Builder{}
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snip.WriteText(typeName + "(")
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snip.WriteFinalTabstop()
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snip.WriteText(")")
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nonSnippet := typeName + "()"
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c.items = append(c.items, CompletionItem{
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Label: nonSnippet,
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InsertText: nonSnippet,
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Detail: T.String(),
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Score: matchScore * literalCandidateScore,
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Kind: protocol.VariableCompletion,
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AdditionalTextEdits: edits,
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snippet: snip,
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})
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}
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// makeCall adds a completion item for a "make()" call given a specific type.
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func (c *completer) makeCall(typeName string, secondArg string, matchScore float64, edits []protocol.TextEdit) {
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// Keep it simple and don't add any placeholders for optional "make()" arguments.
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snip := &snippet.Builder{}
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snip.WriteText("make(" + typeName)
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if secondArg != "" {
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snip.WriteText(", ")
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snip.WritePlaceholder(func(b *snippet.Builder) {
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if c.opts.placeholders {
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b.WriteText(secondArg)
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}
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})
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}
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snip.WriteText(")")
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var nonSnippet strings.Builder
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nonSnippet.WriteString("make(" + typeName)
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if secondArg != "" {
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nonSnippet.WriteString(", ")
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nonSnippet.WriteString(secondArg)
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}
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nonSnippet.WriteByte(')')
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c.items = append(c.items, CompletionItem{
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Label: nonSnippet.String(),
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InsertText: nonSnippet.String(),
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Score: matchScore * literalCandidateScore,
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Kind: protocol.FunctionCompletion,
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AdditionalTextEdits: edits,
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snippet: snip,
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})
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}
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