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go/internal/lsp/source/completion_statements.go
Heschi Kreinick f29cbc7105 internal/lsp: remove source.Cache
snapshot.View().Session().Cache().FileSet() has been driving me crazy
for a while. Add it to snapshot. Along the way, discover that the Cache
interface is now totally unused and delete it.

I also changed a bunch of View arguments to Snapshot while I was in the
area.

Change-Id: I1064d0020b1567c2ed28d2d55e0f4649eb94c060
Reviewed-on: https://go-review.googlesource.com/c/tools/+/245324
Run-TryBot: Heschi Kreinick <heschi@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Rebecca Stambler <rstambler@golang.org>
2020-08-05 22:08:24 +00:00

305 lines
7.6 KiB
Go

// Copyright 2020 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package source
import (
"fmt"
"go/ast"
"go/token"
"go/types"
"golang.org/x/tools/internal/lsp/protocol"
"golang.org/x/tools/internal/lsp/snippet"
)
// addStatementCandidates adds full statement completion candidates
// appropriate for the current context.
func (c *completer) addStatementCandidates() {
c.addErrCheckAndReturn()
c.addAssignAppend()
}
// addAssignAppend offers a completion candidate of the form:
//
// someSlice = append(someSlice, )
//
// It will offer the "append" completion in two situations:
//
// 1. Position is in RHS of assign, prefix matches "append", and
// corresponding LHS object is a slice. For example,
// "foo = ap<>" completes to "foo = append(foo, )".
//
// Or
//
// 2. Prefix is an ident or selector in an *ast.ExprStmt (i.e.
// beginning of statement), and our best matching candidate is a
// slice. For example: "foo.ba" completes to "foo.bar = append(foo.bar, )".
func (c *completer) addAssignAppend() {
if len(c.path) < 3 {
return
}
ident, _ := c.path[0].(*ast.Ident)
if ident == nil {
return
}
var (
// sliceText is the full name of our slice object, e.g. "s.abc" in
// "s.abc = app<>".
sliceText string
// needsLHS is true if we need to prepend the LHS slice name and
// "=" to our candidate.
needsLHS = false
fset = c.snapshot.FileSet()
)
switch n := c.path[1].(type) {
case *ast.AssignStmt:
// We are already in an assignment. Make sure our prefix matches "append".
if c.matcher.Score("append") <= 0 {
return
}
exprIdx := exprAtPos(c.pos, n.Rhs)
if exprIdx == len(n.Rhs) || exprIdx > len(n.Lhs)-1 {
return
}
lhsType := c.pkg.GetTypesInfo().TypeOf(n.Lhs[exprIdx])
if lhsType == nil {
return
}
// Make sure our corresponding LHS object is a slice.
if _, isSlice := lhsType.Underlying().(*types.Slice); !isSlice {
return
}
// The name or our slice is whatever's in the LHS expression.
sliceText = formatNode(fset, n.Lhs[exprIdx])
case *ast.SelectorExpr:
// Make sure we are a selector at the beginning of a statement.
if _, parentIsExprtStmt := c.path[2].(*ast.ExprStmt); !parentIsExprtStmt {
return
}
// So far we only know the first part of our slice name. For
// example in "s.a<>" we only know our slice begins with "s."
// since the user could still be typing.
sliceText = formatNode(fset, n.X) + "."
needsLHS = true
case *ast.ExprStmt:
needsLHS = true
default:
return
}
var (
label string
snip snippet.Builder
score = highScore
)
if needsLHS {
// Offer the long form assign + append candidate if our best
// candidate is a slice.
bestItem := c.topCandidate()
if bestItem == nil || bestItem.obj == nil || bestItem.obj.Type() == nil {
return
}
if _, isSlice := bestItem.obj.Type().Underlying().(*types.Slice); !isSlice {
return
}
// Don't rank the full form assign + append candidate above the
// slice itself.
score = bestItem.Score - 0.01
// Fill in rest of sliceText now that we have the object name.
sliceText += bestItem.Label
// Fill in the candidate's LHS bits.
label = fmt.Sprintf("%s = ", bestItem.Label)
snip.WriteText(label)
}
snip.WriteText(fmt.Sprintf("append(%s, ", sliceText))
snip.WritePlaceholder(nil)
snip.WriteText(")")
c.items = append(c.items, CompletionItem{
Label: label + fmt.Sprintf("append(%s, )", sliceText),
Kind: protocol.FunctionCompletion,
Score: score,
snippet: &snip,
})
}
// topCandidate returns the strictly highest scoring candidate
// collected so far. If the top two candidates have the same score,
// nil is returned.
func (c *completer) topCandidate() *CompletionItem {
var bestItem, secondBestItem *CompletionItem
for i := range c.items {
if bestItem == nil || c.items[i].Score > bestItem.Score {
bestItem = &c.items[i]
} else if secondBestItem == nil || c.items[i].Score > secondBestItem.Score {
secondBestItem = &c.items[i]
}
}
// If secondBestItem has the same score, bestItem isn't
// the strict best.
if secondBestItem != nil && secondBestItem.Score == bestItem.Score {
return nil
}
return bestItem
}
// addErrCheckAndReturn offers a completion candidate of the form:
//
// if err != nil {
// return nil, err
// }
//
// The position must be in a function that returns an error, and the
// statement preceding the position must be an assignment where the
// final LHS object is an error. addErrCheckAndReturn will synthesize
// zero values as necessary to make the return statement valid.
func (c *completer) addErrCheckAndReturn() {
if len(c.path) < 2 || c.enclosingFunc == nil || !c.opts.placeholders {
return
}
var (
errorType = types.Universe.Lookup("error").Type()
result = c.enclosingFunc.sig.Results()
)
// Make sure our enclosing function returns an error.
if result.Len() == 0 || !types.Identical(result.At(result.Len()-1).Type(), errorType) {
return
}
prevLine := prevStmt(c.pos, c.path)
if prevLine == nil {
return
}
// Make sure our preceding statement was as assignment.
assign, _ := prevLine.(*ast.AssignStmt)
if assign == nil || len(assign.Lhs) == 0 {
return
}
lastAssignee := assign.Lhs[len(assign.Lhs)-1]
// Make sure the final assignee is an error.
if !types.Identical(c.pkg.GetTypesInfo().TypeOf(lastAssignee), errorType) {
return
}
var (
// errText is e.g. "err" in "foo, err := bar()".
errText = formatNode(c.snapshot.FileSet(), lastAssignee)
// Whether we need to include the "if" keyword in our candidate.
needsIf = true
)
// "_" isn't a real object.
if errText == "_" {
return
}
// Below we try to detect if the user has already started typing "if
// err" so we can replace what they've typed with our complete
// statement.
switch n := c.path[0].(type) {
case *ast.Ident:
switch c.path[1].(type) {
case *ast.ExprStmt:
// This handles:
//
// f, err := os.Open("foo")
// i<>
// Make sure they are typing "if".
if c.matcher.Score("if") <= 0 {
return
}
case *ast.IfStmt:
// This handles:
//
// f, err := os.Open("foo")
// if er<>
// Make sure they are typing the error's name.
if c.matcher.Score(errText) <= 0 {
return
}
needsIf = false
default:
return
}
case *ast.IfStmt:
// This handles:
//
// f, err := os.Open("foo")
// if <>
// Avoid false positives by ensuring the if's cond is a bad
// expression. For example, don't offer the completion in cases
// like "if <> somethingElse".
if _, bad := n.Cond.(*ast.BadExpr); !bad {
return
}
// If "if" is our direct prefix, we need to include it in our
// candidate since the existing "if" will be overwritten.
needsIf = c.pos == n.Pos()+token.Pos(len("if"))
}
// Build up a snippet that looks like:
//
// if err != nil {
// return <zero value>, ..., ${1:err}
// }
//
// We make the error a placeholder so it is easy to alter the error.
var snip snippet.Builder
if needsIf {
snip.WriteText("if ")
}
snip.WriteText(fmt.Sprintf("%s != nil {\n\treturn ", errText))
for i := 0; i < result.Len()-1; i++ {
snip.WriteText(formatZeroValue(result.At(i).Type(), c.qf))
snip.WriteText(", ")
}
snip.WritePlaceholder(func(b *snippet.Builder) {
b.WriteText(errText)
})
snip.WriteText("\n}")
label := fmt.Sprintf("%[1]s != nil { return %[1]s }", errText)
if needsIf {
label = "if " + label
}
c.items = append(c.items, CompletionItem{
Label: label,
// There doesn't seem to be a more appropriate kind.
Kind: protocol.KeywordCompletion,
Score: highScore,
snippet: &snip,
})
}