llvm-project/llgo/irgen/compiler.go

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//===- compiler.go - IR generator entry point -----------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the main IR generator entry point, (*Compiler).Compile.
//
//===----------------------------------------------------------------------===//
package irgen
import (
"bytes"
"go/ast"
"go/token"
"log"
"sort"
"strconv"
llgobuild "llvm.org/llgo/build"
"llvm.org/llgo/debug"
"llvm.org/llvm/bindings/go/llvm"
"llvm.org/llgo/third_party/gotools/go/gccgoimporter"
"llvm.org/llgo/third_party/gotools/go/importer"
"llvm.org/llgo/third_party/gotools/go/loader"
"llvm.org/llgo/third_party/gotools/go/ssa"
"llvm.org/llgo/third_party/gotools/go/types"
)
type Module struct {
llvm.Module
Path string
ExportData []byte
Package *types.Package
disposed bool
}
func (m *Module) Dispose() {
if m.disposed {
return
}
m.Module.Dispose()
m.disposed = true
}
///////////////////////////////////////////////////////////////////////////////
type CompilerOptions struct {
// TargetTriple is the LLVM triple for the target.
TargetTriple string
// GenerateDebug decides whether debug data is
// generated in the output module.
GenerateDebug bool
// DebugPrefixMaps is a list of mappings from source prefixes to
// replacement prefixes, to be applied in debug info.
DebugPrefixMaps []debug.PrefixMap
// Logger is a logger used for tracing compilation.
Logger *log.Logger
// DumpSSA is a debugging option that dumps each SSA function
// to stderr before generating code for it.
DumpSSA bool
// GccgoPath is the path to the gccgo binary whose libgo we read import
// data from. If blank, the caller is expected to supply an import
// path in ImportPaths.
GccgoPath string
// Whether to use the gccgo ABI.
GccgoABI bool
// ImportPaths is the list of additional import paths
ImportPaths []string
// SanitizerAttribute is an attribute to apply to functions to enable
// dynamic instrumentation using a sanitizer.
SanitizerAttribute llvm.Attribute
// Importer is the importer. If nil, the compiler will set this field
// automatically using MakeImporter().
Importer types.Importer
// InitMap is the init map used by Importer. If Importer is nil, the
// compiler will set this field automatically using MakeImporter().
// If Importer is non-nil, InitMap must be non-nil also.
InitMap map[*types.Package]gccgoimporter.InitData
// PackageCreated is a hook passed to the go/loader package via
// loader.Config, see the documentation for that package for more
// information.
PackageCreated func(*types.Package)
// DisableUnusedImportCheck disables the unused import check performed
// by go/types if set to true.
DisableUnusedImportCheck bool
// Packages is used by go/types as the imported package map if non-nil.
Packages map[string]*types.Package
}
type Compiler struct {
opts CompilerOptions
dataLayout string
}
func NewCompiler(opts CompilerOptions) (*Compiler, error) {
compiler := &Compiler{opts: opts}
dataLayout, err := llvmDataLayout(compiler.opts.TargetTriple)
if err != nil {
return nil, err
}
compiler.dataLayout = dataLayout
return compiler, nil
}
func (c *Compiler) Compile(fset *token.FileSet, astFiles []*ast.File, importpath string) (m *Module, err error) {
target := llvm.NewTargetData(c.dataLayout)
compiler := &compiler{
CompilerOptions: c.opts,
dataLayout: c.dataLayout,
target: target,
llvmtypes: NewLLVMTypeMap(llvm.GlobalContext(), target),
}
return compiler.compile(fset, astFiles, importpath)
}
type compiler struct {
CompilerOptions
module *Module
dataLayout string
target llvm.TargetData
fileset *token.FileSet
runtime *runtimeInterface
llvmtypes *llvmTypeMap
types *TypeMap
debug *debug.DIBuilder
}
func (c *compiler) logf(format string, v ...interface{}) {
if c.Logger != nil {
c.Logger.Printf(format, v...)
}
}
func (c *compiler) addCommonFunctionAttrs(fn llvm.Value) {
fn.AddTargetDependentFunctionAttr("disable-tail-calls", "true")
fn.AddTargetDependentFunctionAttr("split-stack", "")
if attr := c.SanitizerAttribute; attr != 0 {
fn.AddFunctionAttr(attr)
}
}
// MakeImporter sets CompilerOptions.Importer to an appropriate importer
// for the search paths given in CompilerOptions.ImportPaths, and sets
// CompilerOptions.InitMap to an init map belonging to that importer.
// If CompilerOptions.GccgoPath is non-empty, the importer will also use
// the search paths for that gccgo installation.
func (opts *CompilerOptions) MakeImporter() error {
opts.InitMap = make(map[*types.Package]gccgoimporter.InitData)
if opts.GccgoPath == "" {
paths := append(append([]string{}, opts.ImportPaths...), ".")
opts.Importer = gccgoimporter.GetImporter(paths, opts.InitMap)
} else {
var inst gccgoimporter.GccgoInstallation
err := inst.InitFromDriver(opts.GccgoPath)
if err != nil {
return err
}
opts.Importer = inst.GetImporter(opts.ImportPaths, opts.InitMap)
}
return nil
}
func (compiler *compiler) compile(fset *token.FileSet, astFiles []*ast.File, importpath string) (m *Module, err error) {
buildctx, err := llgobuild.ContextFromTriple(compiler.TargetTriple)
if err != nil {
return nil, err
}
if compiler.Importer == nil {
err = compiler.MakeImporter()
if err != nil {
return nil, err
}
}
impcfg := &loader.Config{
Fset: fset,
TypeChecker: types.Config{
Packages: compiler.Packages,
Import: compiler.Importer,
Sizes: compiler.llvmtypes,
DisableUnusedImportCheck: compiler.DisableUnusedImportCheck,
},
ImportFromBinary: true,
Build: &buildctx.Context,
PackageCreated: compiler.PackageCreated,
}
// If no import path is specified, then set the import
// path to be the same as the package's name.
if importpath == "" {
importpath = astFiles[0].Name.String()
}
impcfg.CreateFromFiles(importpath, astFiles...)
iprog, err := impcfg.Load()
if err != nil {
return nil, err
}
program := ssa.Create(iprog, ssa.BareInits)
mainPkginfo := iprog.InitialPackages()[0]
mainPkg := program.CreatePackage(mainPkginfo)
// Create a Module, which contains the LLVM module.
modulename := importpath
compiler.module = &Module{Module: llvm.NewModule(modulename), Path: modulename, Package: mainPkg.Object}
compiler.module.SetTarget(compiler.TargetTriple)
compiler.module.SetDataLayout(compiler.dataLayout)
// Create a new translation unit.
unit := newUnit(compiler, mainPkg)
// Create the runtime interface.
compiler.runtime, err = newRuntimeInterface(compiler.module.Module, compiler.llvmtypes)
if err != nil {
return nil, err
}
mainPkg.Build()
// Create a struct responsible for mapping static types to LLVM types,
// and to runtime/dynamic type values.
compiler.types = NewTypeMap(
mainPkg,
compiler.llvmtypes,
compiler.module.Module,
compiler.runtime,
MethodResolver(unit),
)
if compiler.GenerateDebug {
compiler.debug = debug.NewDIBuilder(
types.Sizes(compiler.llvmtypes),
compiler.module.Module,
impcfg.Fset,
compiler.DebugPrefixMaps,
)
defer compiler.debug.Destroy()
defer compiler.debug.Finalize()
}
unit.translatePackage(mainPkg)
compiler.processAnnotations(unit, mainPkginfo)
if importpath == "main" {
compiler.createInitMainFunction(mainPkg)
} else {
compiler.module.ExportData = compiler.buildExportData(mainPkg)
}
return compiler.module, nil
}
type byPriorityThenFunc []gccgoimporter.PackageInit
func (a byPriorityThenFunc) Len() int { return len(a) }
func (a byPriorityThenFunc) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a byPriorityThenFunc) Less(i, j int) bool {
switch {
case a[i].Priority < a[j].Priority:
return true
case a[i].Priority > a[j].Priority:
return false
case a[i].InitFunc < a[j].InitFunc:
return true
default:
return false
}
}
func (c *compiler) buildPackageInitData(mainPkg *ssa.Package) gccgoimporter.InitData {
var inits []gccgoimporter.PackageInit
for _, imp := range mainPkg.Object.Imports() {
inits = append(inits, c.InitMap[imp].Inits...)
}
sort.Sort(byPriorityThenFunc(inits))
// Deduplicate init entries. We want to preserve the entry with the highest priority.
// Normally a package's priorities will be consistent among its dependencies, but it is
// possible for them to be different. For example, if a standard library test augments a
// package which is a dependency of 'regexp' (which is imported by every test main package)
// with additional dependencies, those dependencies may cause the package under test to
// receive a higher priority than indicated by its init clause in 'regexp'.
uniqinits := make([]gccgoimporter.PackageInit, len(inits))
uniqinitpos := len(inits)
uniqinitnames := make(map[string]struct{})
for i, _ := range inits {
init := inits[len(inits)-1-i]
if _, ok := uniqinitnames[init.InitFunc]; !ok {
uniqinitnames[init.InitFunc] = struct{}{}
uniqinitpos--
uniqinits[uniqinitpos] = init
}
}
uniqinits = uniqinits[uniqinitpos:]
ourprio := 1
if len(uniqinits) != 0 {
ourprio = uniqinits[len(uniqinits)-1].Priority + 1
}
if imp := mainPkg.Func("init"); imp != nil {
impname := c.types.mc.mangleFunctionName(imp)
uniqinits = append(uniqinits, gccgoimporter.PackageInit{mainPkg.Object.Name(), impname, ourprio})
}
return gccgoimporter.InitData{ourprio, uniqinits}
}
func (c *compiler) createInitMainFunction(mainPkg *ssa.Package) {
int8ptr := llvm.PointerType(c.types.ctx.Int8Type(), 0)
ftyp := llvm.FunctionType(llvm.VoidType(), []llvm.Type{int8ptr}, false)
initMain := llvm.AddFunction(c.module.Module, "__go_init_main", ftyp)
c.addCommonFunctionAttrs(initMain)
entry := llvm.AddBasicBlock(initMain, "entry")
builder := llvm.GlobalContext().NewBuilder()
defer builder.Dispose()
builder.SetInsertPointAtEnd(entry)
args := []llvm.Value{llvm.Undef(int8ptr)}
if !c.GccgoABI {
initfn := c.module.Module.NamedFunction("main..import")
if !initfn.IsNil() {
builder.CreateCall(initfn, args, "")
}
builder.CreateRetVoid()
return
}
initdata := c.buildPackageInitData(mainPkg)
for _, init := range initdata.Inits {
initfn := c.module.Module.NamedFunction(init.InitFunc)
if initfn.IsNil() {
initfn = llvm.AddFunction(c.module.Module, init.InitFunc, ftyp)
}
builder.CreateCall(initfn, args, "")
}
builder.CreateRetVoid()
}
func (c *compiler) buildExportData(mainPkg *ssa.Package) []byte {
exportData := importer.ExportData(mainPkg.Object)
b := bytes.NewBuffer(exportData)
b.WriteString("v1;\n")
if !c.GccgoABI {
return b.Bytes()
}
initdata := c.buildPackageInitData(mainPkg)
b.WriteString("priority ")
b.WriteString(strconv.Itoa(initdata.Priority))
b.WriteString(";\n")
if len(initdata.Inits) != 0 {
b.WriteString("init")
for _, init := range initdata.Inits {
b.WriteRune(' ')
b.WriteString(init.Name)
b.WriteRune(' ')
b.WriteString(init.InitFunc)
b.WriteRune(' ')
b.WriteString(strconv.Itoa(init.Priority))
}
b.WriteString(";\n")
}
return b.Bytes()
}
// vim: set ft=go :