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go/ssa/source_test.go
Alan Donovan be28dbb86f go.types/ssa: split the load/parse/typecheck logic off into a separate package. 
PLEASE NOTE: the APIs for both "importer" and "ssa" packages
will continue to evolve and both need some polishing; the key
thing is that this CL splits them.

The go.types/importer package contains contains the Importer,
which takes care of the mechanics of loading a set of packages
and type-checking them.  It exposes for each package a
PackageInfo containing:
- the package's ASTs (i.e. the input to the typechecker)
- the types.Package object
- the memoization of the typechecker callbacks for identifier
  resolution, constant folding and expression type inference.

Method-set computation (and hence bridge-method creation) is
now moved to after creation of all packages: since they are no
longer created in topological order, we can't guarantee the
needed delegate methods exist yet.

ssa.Package no longer has public TypeOf, ObjectOf, ValueOf methods.
The private counterparts are valid only during the build phase.

Also:
- added to go/types an informative error (not crash) for an
  importer() returning nil without error.
- removed Package.Name(), barely needed.
- changed Package.String() slightly.
- flag what looks like a bug in makeBridgeMethod. Will follow up.

R=golang-dev, gri
CC=golang-dev
https://golang.org/cl/9898043
2013-05-31 16:14:13 -04:00

279 lines
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package ssa_test
// This file defines tests of the source and source_ast utilities.
// TODO(adonovan): exhaustive tests that run over the whole input
// tree, not just andcrafted examples.
import (
"bytes"
"code.google.com/p/go.tools/importer"
"code.google.com/p/go.tools/ssa"
"fmt"
"go/ast"
"go/parser"
"go/token"
"strings"
"testing"
)
// -------- Tests of source_ast.go -------------------------------------
// pathToString returns a string containing the concrete types of the
// nodes in path.
func pathToString(path []ast.Node) string {
var buf bytes.Buffer
fmt.Fprint(&buf, "[")
for i, n := range path {
if i > 0 {
fmt.Fprint(&buf, " ")
}
fmt.Fprint(&buf, strings.TrimPrefix(fmt.Sprintf("%T", n), "*ast."))
}
fmt.Fprint(&buf, "]")
return buf.String()
}
// findInterval parses input and returns the [start, end) positions of
// the first occurrence of substr in input. f==nil indicates failure;
// an error has already been reported in that case.
//
func findInterval(t *testing.T, fset *token.FileSet, input, substr string) (f *ast.File, start, end token.Pos) {
f, err := parser.ParseFile(fset, "<input>", input, parser.DeclarationErrors)
if err != nil {
t.Errorf("parse error: %s", err)
return
}
i := strings.Index(input, substr)
if i < 0 {
t.Errorf("%q is not a substring of input", substr)
f = nil
return
}
filePos := fset.File(f.Package)
return f, filePos.Pos(i), filePos.Pos(i + len(substr))
}
// Common input for following tests.
const input = `
// Hello.
package main
import "fmt"
func f() {}
func main() {
z := (x + y) // add them
f() // NB: ExprStmt and its CallExpr have same Pos/End
}
`
func TestPathEnclosingInterval_Exact(t *testing.T) {
// For the exact tests, we check that a substring is mapped to
// the canonical string for the node it denotes.
tests := []struct {
substr string // first occurrence of this string indicates interval
node string // complete text of expected containing node
}{
{"package",
input[11 : len(input)-1]},
{"\npack",
input[11 : len(input)-1]},
{"main",
"main"},
{"import",
"import \"fmt\""},
{"\"fmt\"",
"\"fmt\""},
{"\nfunc f() {}\n",
"func f() {}"},
{"x ",
"x"},
{" y",
"y"},
{"z",
"z"},
{" + ",
"x + y"},
{" :=",
"z := (x + y)"},
{"x + y",
"x + y"},
{"(x + y)",
"(x + y)"},
{" (x + y) ",
"(x + y)"},
{" (x + y) // add",
"(x + y)"},
{"func",
"func f() {}"},
{"func f() {}",
"func f() {}"},
{"\nfun",
"func f() {}"},
{" f",
"f"},
}
for _, test := range tests {
f, start, end := findInterval(t, new(token.FileSet), input, test.substr)
if f == nil {
continue
}
path, exact := ssa.PathEnclosingInterval(f, start, end)
if !exact {
t.Errorf("PathEnclosingInterval(%q) not exact", test.substr)
continue
}
if len(path) == 0 {
if test.node != "" {
t.Errorf("PathEnclosingInterval(%q).path: got [], want %q",
test.substr, test.node)
}
continue
}
if got := input[path[0].Pos():path[0].End()]; got != test.node {
t.Errorf("PathEnclosingInterval(%q): got %q, want %q (path was %s)",
test.substr, got, test.node, pathToString(path))
continue
}
}
}
func TestPathEnclosingInterval_Paths(t *testing.T) {
// For these tests, we check only the path of the enclosing
// node, but not its complete text because it's often quite
// large when !exact.
tests := []struct {
substr string // first occurrence of this string indicates interval
path string // the pathToString(),exact of the expected path
}{
{"// add",
"[BlockStmt FuncDecl File],false"},
{"(x + y",
"[ParenExpr AssignStmt BlockStmt FuncDecl File],false"},
{"x +",
"[BinaryExpr ParenExpr AssignStmt BlockStmt FuncDecl File],false"},
{"z := (x",
"[AssignStmt BlockStmt FuncDecl File],false"},
{"func f",
"[FuncDecl File],false"},
{"func f()",
"[FuncDecl File],false"},
{" f()",
"[FuncDecl File],false"},
{"() {}",
"[FuncDecl File],false"},
{"// Hello",
"[File],false"},
{" f",
"[Ident FuncDecl File],true"},
{"func ",
"[FuncDecl File],true"},
{"mai",
"[Ident File],true"},
{"f() // NB",
"[CallExpr ExprStmt BlockStmt FuncDecl File],true"},
}
for _, test := range tests {
f, start, end := findInterval(t, new(token.FileSet), input, test.substr)
if f == nil {
continue
}
path, exact := ssa.PathEnclosingInterval(f, start, end)
if got := fmt.Sprintf("%s,%v", pathToString(path), exact); got != test.path {
t.Errorf("PathEnclosingInterval(%q): got %q, want %q",
test.substr, got, test.path)
continue
}
}
}
// -------- Tests of source.go -----------------------------------------
func TestEnclosingFunction(t *testing.T) {
tests := []struct {
input string // the input file
substr string // first occurrence of this string denotes interval
fn string // name of expected containing function
}{
// We use distinctive numbers as syntactic landmarks.
// Ordinary function:
{`package main
func f() { println(1003) }`,
"100", "main.f"},
// Methods:
{`package main
type T int
func (t T) f() { println(200) }`,
"200", "(main.T).f"},
// Function literal:
{`package main
func f() { println(func() { print(300) }) }`,
"300", "func@2.24"},
// Doubly nested
{`package main
func f() { println(func() { print(func() { print(350) })})}`,
"350", "func@2.39"},
// Implicit init for package-level var initializer.
{"package main; var a = 400", "400", "main.init"},
// No code for constants:
{"package main; const a = 500", "500", "(none)"},
// Explicit init()
{"package main; func init() { println(600) }", "600", "main.init"},
// Multiple explicit init functions:
{`package main
func init() { println("foo") }
func init() { println(800) }`,
"800", "main.init"},
// init() containing FuncLit.
{`package main
func init() { println(func(){print(900)}) }`,
"900", "func@2.27"},
}
for _, test := range tests {
imp := importer.New(new(importer.Context)) // (NB: no Loader)
f, start, end := findInterval(t, imp.Fset, test.input, test.substr)
if f == nil {
continue
}
path, exact := ssa.PathEnclosingInterval(f, start, end)
if !exact {
t.Errorf("EnclosingFunction(%q) not exact", test.substr)
continue
}
info, err := imp.CreateSourcePackage("main", []*ast.File{f})
if err != nil {
t.Error(err.Error())
continue
}
b := ssa.NewBuilder(new(ssa.Context), imp)
pkg := b.PackageFor(info.Pkg)
b.BuildPackage(pkg)
name := "(none)"
fn := ssa.EnclosingFunction(pkg, path)
if fn != nil {
name = fn.FullName()
}
if name != test.fn {
t.Errorf("EnclosingFunction(%q in %q) got %s, want %s",
test.substr, test.input, name, test.fn)
continue
}
// While we're here: test HasEnclosingFunction.
if has := ssa.HasEnclosingFunction(pkg, path); has != (fn != nil) {
t.Errorf("HasEnclosingFunction(%q in %q) got %v, want %v",
test.substr, test.input, has, fn != nil)
continue
}
}
}
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