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package transform_test
// This file defines some helper functions for testing transforms.
import (
"flag"
"go/token"
"go/types"
"os"
"path/filepath"
"strings"
"testing"
"github.com/tinygo-org/tinygo/compileopts"
"github.com/tinygo-org/tinygo/compiler"
"github.com/tinygo-org/tinygo/loader"
"tinygo.org/x/go-llvm"
)
var update = flag.Bool("update", false, "update transform package tests")
var defaultTestConfig = &compileopts.Config{
Target: &compileopts.TargetSpec{},
Options: &compileopts.Options{Opt: "2"},
}
// testTransform runs a transformation pass on an input file (pathPrefix+".ll")
// and checks whether it matches the expected output (pathPrefix+".out.ll"). The
// output is compared with a fuzzy match that ignores some irrelevant lines such
// as empty lines.
func testTransform(t *testing.T, pathPrefix string, transform func(mod llvm.Module)) {
// Read the input IR.
ctx := llvm.NewContext()
defer ctx.Dispose()
buf, err := llvm.NewMemoryBufferFromFile(pathPrefix + ".ll")
os.Stat(pathPrefix + ".ll") // make sure this file is tracked by `go test` caching
if err != nil {
t.Fatalf("could not read file %s: %v", pathPrefix+".ll", err)
}
mod, err := ctx.ParseIR(buf)
if err != nil {
t.Fatalf("could not load module:\n%v", err)
}
defer mod.Dispose()
// Perform the transform.
transform(mod)
// Check for any incorrect IR.
err = llvm.VerifyModule(mod, llvm.PrintMessageAction)
if err != nil {
t.Fatal("IR verification failed")
}
// Get the output from the test and filter some irrelevant lines.
actual := mod.String()
actual = actual[strings.Index(actual, "\ntarget datalayout = ")+1:]
if *update {
err := os.WriteFile(pathPrefix+".out.ll", []byte(actual), 0666)
if err != nil {
t.Error("failed to write out new output:", err)
}
} else {
// Read the expected output IR.
out, err := os.ReadFile(pathPrefix + ".out.ll")
if err != nil {
t.Fatalf("could not read output file %s: %v", pathPrefix+".out.ll", err)
}
// See whether the transform output matches with the expected output IR.
expected := string(out)
if !fuzzyEqualIR(expected, actual) {
t.Logf("output does not match expected output:\n%s", actual)
t.Fail()
}
}
}
// fuzzyEqualIR returns true if the two LLVM IR strings passed in are roughly
// equal. That means, only relevant lines are compared (excluding comments
// etc.).
func fuzzyEqualIR(s1, s2 string) bool {
lines1 := filterIrrelevantIRLines(strings.Split(s1, "\n"))
lines2 := filterIrrelevantIRLines(strings.Split(s2, "\n"))
if len(lines1) != len(lines2) {
return false
}
for i, line1 := range lines1 {
line2 := lines2[i]
if line1 != line2 {
return false
}
}
return true
}
// filterIrrelevantIRLines removes lines from the input slice of strings that
// are not relevant in comparing IR. For example, empty lines and comments are
// stripped out.
func filterIrrelevantIRLines(lines []string) []string {
var out []string
for _, line := range lines {
line = strings.Split(line, ";")[0] // strip out comments/info
line = strings.TrimRight(line, "\r ") // drop '\r' on Windows and remove trailing spaces from comments
if line == "" {
continue
}
if strings.HasPrefix(line, "source_filename = ") {
continue
}
out = append(out, line)
}
return out
}
// compileGoFileForTesting compiles the given Go file to run tests against.
// Only the given Go file is compiled (no dependencies) and no optimizations are
// run.
// If there are any errors, they are reported via the *testing.T instance.
func compileGoFileForTesting(t *testing.T, filename string) llvm.Module {
target, err := compileopts.LoadTarget(&compileopts.Options{GOOS: "linux", GOARCH: "386"})
if err != nil {
t.Fatal("failed to load target:", err)
}
config := &compileopts.Config{
Options: &compileopts.Options{},
Target: target,
}
compilerConfig := &compiler.Config{
Triple: config.Triple(),
GOOS: config.GOOS(),
GOARCH: config.GOARCH(),
CodeModel: config.CodeModel(),
RelocationModel: config.RelocationModel(),
Scheduler: config.Scheduler(),
AutomaticStackSize: config.AutomaticStackSize(),
Debug: true,
}
machine, err := compiler.NewTargetMachine(compilerConfig)
if err != nil {
t.Fatal("failed to create target machine:", err)
}
defer machine.Dispose()
// Load entire program AST into memory.
lprogram, err := loader.Load(config, filename, config.ClangHeaders, types.Config{
Sizes: compiler.Sizes(machine),
})
if err != nil {
t.Fatal("failed to create target machine:", err)
}
err = lprogram.Parse()
if err != nil {
t.Fatal("could not parse", err)
}
// Compile AST to IR.
program := lprogram.LoadSSA()
pkg := lprogram.MainPkg()
mod, errs := compiler.CompilePackage(filename, pkg, program.Package(pkg.Pkg), machine, compilerConfig, false)
if errs != nil {
for _, err := range errs {
t.Error(err)
}
t.FailNow()
}
return mod
}
// getPosition returns the position information for the given value, as far as
// it is available.
func getPosition(val llvm.Value) token.Position {
if !val.IsAInstruction().IsNil() {
loc := val.InstructionDebugLoc()
if loc.IsNil() {
return token.Position{}
}
file := loc.LocationScope().ScopeFile()
return token.Position{
Filename: filepath.Join(file.FileDirectory(), file.FileFilename()),
Line: int(loc.LocationLine()),
Column: int(loc.LocationColumn()),
}
} else if !val.IsAFunction().IsNil() {
loc := val.Subprogram()
if loc.IsNil() {
return token.Position{}
}
file := loc.ScopeFile()
return token.Position{
Filename: filepath.Join(file.FileDirectory(), file.FileFilename()),
Line: int(loc.SubprogramLine()),
}
} else {
return token.Position{}
}
}