nswrap/wrap/main.go
Greg 758ea40679 Add constants for C enum types. Add NSEnumerator helper. Fix
bugs in Go class names. Add "Frameworks" option to nswrap.toml.
Improve handling of ast.EnumDecl and ast.EnumConstantDecl.
2019-05-02 14:14:29 -04:00

762 lines
17 KiB
Go

package wrap
import (
"fmt"
"os"
"path"
"regexp"
"strconv"
"strings"
"gitlab.wow.st/gmp/nswrap/ast"
"gitlab.wow.st/gmp/nswrap/types"
)
var (
Debug = false
)
type Wrapper struct {
Package string
Interfaces map[string]*Interface
Functions map[string]*Method
NamedEnums map[string]*Enum
AnonEnums []*Enum
cgoFlags strings.Builder // put cGo directives here
cCode strings.Builder // put cGo code here
goTypes strings.Builder // put Go type declarations here
goConst strings.Builder // put Go constants (from C enums) here
goCode strings.Builder // put Go code here
goHelpers strings.Builder // put Go helper functions here
Processed map[string]bool
VaArgs int
}
func NewWrapper(debug bool) *Wrapper {
Debug = debug
if Debug { fmt.Println("// Debug mode") }
ret := &Wrapper{
Interfaces: map[string]*Interface{},
Functions: map[string]*Method{},
NamedEnums: map[string]*Enum{},
AnonEnums: []*Enum{},
Processed: map[string]bool{},
VaArgs: 16,
}
ret.cgoFlags.WriteString(fmt.Sprintf(`/*
#cgo CFLAGS: -x objective-c
`))
ret.goTypes.WriteString(`
type Id struct { }
func (o *Id) Ptr() unsafe.Pointer { return unsafe.Pointer(o) }
`)
return ret
}
func (w *Wrapper) Frameworks(ss []string) {
if len(ss) == 0 {
return
}
for _,s := range ss {
w.cCode.WriteString(fmt.Sprintf("#import <%s/%s.h>\n",s,s))
}
w.cgoFlags.WriteString("#cgo LDFLAGS: -framework " + strings.Join(ss," -framework "))
}
func (w *Wrapper) Import(ss []string) {
for _,s := range ss {
w.cCode.WriteString("\n#import \"" + s + "\"\n")
}
}
func (w *Wrapper) SysImport(ss []string) {
for _,s := range ss {
w.cCode.WriteString("\n#import <" + s + ">\n")
}
}
func (w *Wrapper) Pragma(ss []string) {
for _,s := range ss {
w.cgoFlags.WriteString("\n#pragma " + s + "\n")
}
}
type Property struct {
Name, Attr string
Type *types.Type
}
type Parameter struct {
Pname, Vname string
Type *types.Type
}
type Method struct {
Name, Class, GoClass string
Type *types.Type
ClassMethod bool
Parameters []*Parameter
}
type Enum struct {
Name string
Type *types.Type
Constants []string
}
//isVoid() returns true if the method has no return value.
func (m Method) isVoid() bool {
return m.Type.CType() == "void"
}
//hasFunctionParam() returns true if a method has a function as a parameter.
func (m Method) hasFunctionParam() bool {
for _,p := range m.Parameters {
if p.Type.IsFunction() {
return true
}
}
return false
}
func (w Wrapper) cparamlist(m *Method) (string,string) {
ns := make([]string,0)
ret := make([]string,0)
if !m.ClassMethod {
ret = append(ret,"void* o")
}
for _,p := range m.Parameters {
var tp string
if p.Type.IsPointer() || p.Type.Variadic {
tp = "void*"
} else {
tp = p.Type.CType()
}
ns = append(ns,p.Vname)
ret = append(ret,fmt.Sprintf("%s %s",tp,p.Vname))
}
return strings.Join(ns,", "),strings.Join(ret,", ")
}
func (w Wrapper) objcparamlist(m *Method) string {
if len(m.Parameters) == 0 {
return m.Name
}
first := true
ret := []string{}
for _,p := range m.Parameters {
if first && !p.Type.Variadic {
ret = append(ret,m.Name + ":" + p.Vname)
first = false
} else {
if p.Type.Variadic {
str := []string{m.Name + ":arr[0]"}
for i := 1; i < w.VaArgs; i++ {
str = append(str,"arr["+strconv.Itoa(i)+"]")
}
str = append(str,"nil")
ret = append(ret, strings.Join(str,", "))
} else {
ret = append(ret, p.Pname + ":" + p.Vname)
}
}
}
return strings.Join(ret," ")
}
//goreserved is a map telling whether a word is a go reserved word that is not
//also a C/Objective-C reserved word.
var goreserved map[string]bool = map[string]bool{
"range": true,
"type": true,
}
func (w *Wrapper) gpntp(m *Method) ([]string,[]*types.Type,string) {
w.processType(m.Type)
ns := []string{}
tps := []*types.Type{}
if !m.ClassMethod {
ns = append(ns,"o")
tps = append(tps,types.NewTypeFromString(m.Class + "*",""))
}
for _,p := range m.Parameters {
gname := p.Vname
if goreserved[gname] {
gname = gname + "_"
}
ns = append(ns,gname)
tps = append(tps,p.Type)
}
w.processTypes(tps)
ret := []string{}
i := 0
if !m.ClassMethod { i = 1 }
for ; i < len(ns); i++ {
gt := tps[i].GoType()
if gt == "*Void" {
gt = "unsafe.Pointer"
}
if tps[i].Variadic {
gt = "..." + gt
ns[i] = ns[i] + "s"
}
ret = append(ret,ns[i] + " " + gt)
}
return ns, tps, strings.Join(ret,", ")
}
type Interface struct {
Name, GoName string
Properties map[string]*Property
Methods map[string]*Method
}
func (w *Wrapper) AddInterface(n *ast.ObjCInterfaceDecl) {
//fmt.Printf("ast.ObjCInterfaceDecl: %s\n",n.Name)
w.add(n.Name, n.Children())
}
func (w *Wrapper) AddCategory(n *ast.ObjCCategoryDecl) {
ns := n.Children()
if len(ns) > 0 {
switch x := ns[0].(type) {
case *ast.ObjCInterface:
w.add(x.Name, ns[1:])
return
}
}
fmt.Printf("Not adding methods for %s: interface name not found in first child node of category defclaration\n",n.Name)
}
func (w *Wrapper) AddFunction(n *ast.FunctionDecl) {
//treat functions as class methods with no class
tp := types.NewTypeFromString(n.Type,"")
m := &Method{
Name: n.Name,
Type: tp.ReturnType(),
Class: "",
ClassMethod: true,
Parameters: []*Parameter{},
}
f := tp.Node.Children[len(tp.Node.Children)-1] // Function node
if f.Kind != "Function" {
//fmt.Printf("AddFunction(%s): not a function -- Node type is %s\n%s",n.Name,f.Kind,tp.String())
return
}
//fmt.Printf("FunctionDecl: %s (%s) %s\n",n.Type,m.Type.CType(),n.Name)
i := 0
for _,c := range n.Children() {
switch x := c.(type) {
case *ast.ParmVarDecl:
p := &Parameter{
Vname: x.Name,
Type: types.NewTypeFromString(x.Type,""),
}
m.Parameters = append(m.Parameters,p)
i++
//fmt.Printf(" %s\n",p.Type.CType())
}
}
if i > 0 && len(f.Children) > i {
if e := f.Children[i]; len(e.Children) > 0 {
//fmt.Println(" Next parameter: ",e.Children[0].String())
m.Parameters[i-1].Type.Variadic = true
}
}
w.Functions[n.Name] = m
}
//FIXME: copied from nswrap/main.go, should put this in a utils package
func matches(x string, rs []string) bool {
for _,r := range rs {
if m,_ := regexp.MatchString("^" + r + "$",x); m {
return true
}
}
return false
}
func (w *Wrapper) AddEnum(n *ast.EnumDecl,rs []string) {
if n.Name != "" && !matches(n.Name,rs) {
return
}
//fmt.Printf("Adding enum: (%s) %s\n",n.Type,n.Name)
var tp *types.Type
a := (*Avail)(&[]AvailAttr{})
if n.Type == "" {
tp = nil
} else {
tp = types.NewTypeFromString(n.Type,"")
//fmt.Printf(" type: %s\n",tp.CType())
}
e := &Enum{
Name: n.Name, // NOTE: may be empty string
Type: tp,
Constants: []string{},
}
for _,c := range n.Children() {
switch x := c.(type) {
case *ast.AvailabilityAttr, *ast.UnavailableAttr:
a.Add(x)
case *ast.EnumConstantDecl:
//fmt.Printf("*ast.EnumConstantDecl: (%s) '%s': %s\n",n.Type,n.Name,x.Name)
if n.Name == "" && !matches(x.Name,rs) {
continue
}
e.Constants = append(e.Constants,x.Name)
}
}
if a.Available() && len(e.Constants) > 0 {
if e.Name == "" {
w.AnonEnums = append(w.AnonEnums,e)
} else {
w.NamedEnums[e.Name] = e
}
//fmt.Printf(" added\n")
}
}
func (w *Wrapper) add(name string, ns []ast.Node) {
var i *Interface
var ok bool
goname := types.NewTypeFromString(name,name).GoType()
types.Wrap(goname)
if i,ok = w.Interfaces[name]; !ok {
i = &Interface{
Name: name,
GoName: goname,
Properties: map[string]*Property{},
Methods: map[string]*Method{},
}
}
var avail bool
for _,c := range ns {
switch x := c.(type) {
case *ast.ObjCPropertyDecl:
//fmt.Printf("ObjCPropertyDecl: %s\n",x.Name)
p := &Property{
Name: x.Name,
Type: types.NewTypeFromString(x.Type,name),
}
//_,avail = w.GetParms(x,name) // TODO
//if avail {
i.Properties[p.Name] = p
//}
case *ast.ObjCMethodDecl:
//fmt.Printf("ObjCMethodDecl: %s (%s) %s\n",x.Type,name,x.Name)
m := &Method{
Name: x.Name,
Type: types.NewTypeFromString(x.Type,name),
Class: name,
GoClass: goname,
ClassMethod: x.ClassMethod,
}
//fmt.Println(m.Type.Node.String())
m.Parameters, avail = w.GetParms(x,name)
if avail {
i.Methods[m.Name] = m
}
case *ast.ObjCProtocol:
//fmt.Printf("ast.ObjCProtocol: %s\n",x.Name)
case *ast.ObjCInterface:
if x.Super {
//fmt.Printf("ast.ObjCInterface: %s inherits from %s\n",name,x.Name)
types.SetSuper(name,x.Name)
}
case *ast.ObjCTypeParamDecl:
//fmt.Printf("ObjCTypeParamDecl: %s = %s\n",x.Name,x.Type)
types.SetTypeParam(name,x.Name,x.Type)
case *ast.Unknown:
//fmt.Printf("(*ast.Unkonwn %s: %s)\n",x.Name,x.Content)
default:
//fmt.Println(reflect.TypeOf(x))
}
}
//Add class methods from super class
var supmethods func(*Interface,string)
supmethods = func(i *Interface, s string) {
if sup,ok := w.Interfaces[s]; !ok {
return
} else {
for _,m := range sup.Methods {
if !m.ClassMethod {
continue
}
m2 := &Method{
Name: m.Name,
Class: i.Name,
GoClass: i.GoName,
Type: m.Type.CloneToClass(i.Name),
ClassMethod: true,
Parameters: []*Parameter{},
}
for _,p := range m.Parameters {
m2.Parameters = append(m2.Parameters,
&Parameter{
Pname: p.Pname,
Vname: p.Vname,
Type: p.Type.CloneToClass(i.Name),
})
}
i.Methods[m.Name] = m2
}
}
supmethods(i,types.Super(s))
}
supmethods(i,types.Super(i.Name))
//fmt.Println("Add interface ",i.Name)
w.Interfaces[i.Name] = i
}
type AvailAttr struct {
OS, Version string
Deprecated bool
}
type Avail []AvailAttr
func (a *Avail) Add(n ast.Node) {
switch x := n.(type) {
case *ast.AvailabilityAttr:
*a = append(*a, AvailAttr{
OS: x.OS,
Version: x.Version,
Deprecated: (x.Unknown1 != "0") || x.IsUnavailable,
})
case *ast.UnavailableAttr:
*a = append(*a, AvailAttr{
OS: "macos", Deprecated: true })
}
}
func (a *Avail) Available() bool {
if len(*a) == 0 {
return true
}
for _,x := range *a {
if x.OS == "macos" && x.Deprecated == false {
return true
}
}
return false
}
//GetParms returns the parameters of a method declaration and a bool
//indicating whether the given method is available on MacOS and not
//deprecated.
func (w *Wrapper) GetParms(n ast.Node,class string) ([]*Parameter,bool) {
ret := make([]*Parameter,0)
avail := (*Avail)(&[]AvailAttr{})
var parms []string
switch x := n.(type) {
case *ast.ObjCMethodDecl:
parms = x.Parameters
case *ast.FunctionDecl:
default:
panic("GetParms called with wrong node type")
}
j := 0
for _,c := range n.Children() {
switch x := c.(type) {
case *ast.ParmVarDecl:
p := &Parameter{
Vname: x.Name,
Type: types.NewTypeFromString(x.Type,class),
}
if parms != nil {
p.Pname = parms[j]
}
ret = append(ret,p)
j++
case *ast.Variadic:
ret[j-1].Type.Variadic = true
case *ast.AvailabilityAttr, *ast.UnavailableAttr:
avail.Add(x)
case *ast.Unknown:
if Debug { fmt.Printf("GetParms(): ast.Unknown: %s\n",x.Name) }
}
}
// check that the method is available for this OS and not deprecated
if !avail.Available() {
return nil, false
}
// check that we found the right number of parameters
//if len(ret) != len(n.Parameters) {
// fmt.Printf("Error in method declaration %s: Wrong number of ParmVarDecl children: %d parameters but %d ParmVarDecl children\n",n.Name,len(n.Parameters),len(ret))
//}
return ret, true
}
func (w *Wrapper) processTypes(tps []*types.Type) {
switch len(tps) {
case 0:
return
case 1:
w.processType(tps[0])
default:
for _,tp := range tps {
w.processType(tp)
}
return
}
}
func (w *Wrapper) processType(tp *types.Type) {
bt := tp.BaseType()
gt := bt.GoType()
if gt == "" {
return
}
if gt[0] == '*' {
w.processType(bt.PointsTo())
return
}
if w.Processed[gt] { return }
w.Processed[gt] = true
if gt == "Char" {
w.CharHelpers()
}
if gt == "NSEnumerator" {
w.EnumeratorHelpers()
}
if bt.IsFunction() {
return
}
super := types.Super(gt)
if super != "" {
tp := types.NewTypeFromString(super,"")
types.Wrap(tp.GoType())
w.processType(tp)
}
w.goTypes.WriteString(bt.GoTypeDecl())
}
func (w *Wrapper) CharHelpers() {
w.goHelpers.WriteString(`
func CharFromString(s string) *Char {
return (*Char)(unsafe.Pointer(C.CString(s)))
}
func CharFromBytes(b []byte) *Char {
return (*Char)(unsafe.Pointer(C.CString(string(b))))
}
func (c *Char) String() string {
return C.GoString((*C.char)(c))
}
`)
}
func (w *Wrapper) EnumeratorHelpers() {
w.goHelpers.WriteString(`
func (e *NSEnumerator) ForIn(f func(*Id) bool) {
for o := e.NextObject(); o != nil; o = e.NextObject() {
if !f(o) { break }
}
}`)
}
func (w *Wrapper) ProcessMethod(m *Method) {
w._processMethod(m,false)
}
func (w *Wrapper) ProcessFunction(m *Method) {
w._processMethod(m,true)
}
func (w *Wrapper) _processMethod(m *Method,fun bool) {
if Debug {
fmt.Printf(" method: %s (%s)\n", m.Name, m.Type)
}
if m.Type.IsFunction() || m.hasFunctionParam() {
return
}
gname := strings.Title(m.Name)
switch {
case !m.ClassMethod:
gname = "(o *" + m.GoClass + ") " + gname
case m.Type.GoType() != "*" + m.GoClass:
gname = m.GoClass + gname
default:
lens1 := len(m.Class)
i := 0
if len(gname) < len(m.Class) { i = lens1 - len(gname) }
for ; i < lens1; i++ {
if m.Class[i:] == gname[:lens1 - i] { break }
}
if lens1 - i >= len(gname) {
gname = m.GoClass + gname
} else {
gname = m.GoClass + gname[lens1-i:]
}
}
cname := m.Name
if m.Class != "" {
cname = m.Class + "_" + cname
}
cmtype := m.Type.CTypeAttrib()
ns,tps,gplist := w.gpntp(m)
grtype := m.Type.GoType()
if grtype == "Void" {
grtype = ""
}
if types.IsGoInterface(grtype) {
grtype = "*Id"
}
if gname == grtype { // avoid name conflicts between methods and types
gname = "Get" + gname
}
w.goCode.WriteString(fmt.Sprintf(`
//%s
func %s(%s) %s {
`,m.Type.CType(),gname,gplist,grtype))
lparm := len(tps)-1
if len(tps) > 0 && tps[lparm].Variadic {
vn := ns[lparm]
vn = vn[:len(vn)-1]
ns[lparm] = vn
w.goCode.WriteString(fmt.Sprintf(
` var %s [%d]unsafe.Pointer
for i,o := range %ss {
%s[i] = o.Ptr()
}
`,vn,w.VaArgs,vn,vn))
}
w.goCode.WriteString(` ` +
types.GoToC(cname,ns,m.Type,tps) + "\n}\n\n")
cret := ""
if !m.isVoid() {
cret = "return "
}
var cobj string
if m.ClassMethod {
cobj = m.Class
} else {
cobj = "(" + m.Class + "*)o"
}
cns,cntps := w.cparamlist(m)
_ = cns
if fun {
return
}
w.cCode.WriteString(fmt.Sprintf(`
%s
%s(%s) {
`, cmtype, cname, cntps))
if len(tps) > 0 && tps[lparm].Variadic {
w.cCode.WriteString(fmt.Sprintf(
` %s* arr = %s;
`, tps[lparm].CType(), ns[lparm]))
}
if fun {
w.cCode.WriteString(fmt.Sprintf(` %s%s(%s);
}`, cret, m.Name, cns))
} else {
w.cCode.WriteString(fmt.Sprintf(` %s[%s %s];
}`, cret, cobj, w.objcparamlist(m)))
}
}
func (w *Wrapper) ProcessEnum(e *Enum) {
gtp := ""
if e.Type != nil {
gtp = e.Type.GoType()
if !w.Processed[gtp] {
w.goTypes.WriteString(fmt.Sprintf(`
type %s C.%s
`,gtp,e.Type.CType()))
w.Processed[gtp] = true
}
}
gtp = gtp + " "
for _,c := range e.Constants {
w.goConst.WriteString(fmt.Sprintf(`
const %s %s= C.%s
`,c,gtp,c))
}
}
func (w *Wrapper) Wrap(toproc []string) {
if w.Package == "" { w.Package = "ns" }
err := os.MkdirAll(w.Package,0755)
if err != nil {
fmt.Printf("Error creating directory '%s'\n%s\n",w.Package,err)
os.Exit(-1)
}
of,err := os.Create(path.Join(w.Package,"main.go"))
if err != nil {
fmt.Printf("Error opening file %s\n%s\n",path.Join(w.Package,"main.go"),err)
os.Exit(-1)
}
fmt.Printf("Writing output to %s\n",path.Join(w.Package,"main.go"))
pInterfaces := map[string]*Interface{}
for _,iface := range toproc {
pInterfaces[iface] = w.Interfaces[iface]
}
//FIXME: sort pInterfaces
for _,i := range pInterfaces {
if i == nil {
continue
}
fmt.Printf("Interface %s: %d properties, %d methods\n",
i.Name, len(i.Properties), len(i.Methods))
w.goCode.WriteString(fmt.Sprintf(`
func New%s() *%s {
return (*%s)(unsafe.Pointer(C.New%s()))
}
`,i.GoName,i.GoName,i.GoName,i.Name))
w.cCode.WriteString(fmt.Sprintf(`
%s*
New%s() {
return [%s alloc];
}
`, i.Name, i.Name, i.Name))
//FIXME: sort properties
for _,p := range i.Properties {
if Debug {
fmt.Printf(" property: %s (%s)\n", p.Name, p.Type.CType())
}
}
//FIXME: sort methods
for _,m := range i.Methods {
w.ProcessMethod(m)
}
}
for _,m := range w.Functions {
//fmt.Printf("Processing function %s %s\n",m.Type.CType(),m.Name)
w.ProcessFunction(m)
}
for _,e := range w.NamedEnums {
w.ProcessEnum(e)
}
for _,e := range w.AnonEnums {
w.ProcessEnum(e)
}
fmt.Printf("%d functions\n", len(w.Functions))
fmt.Printf("%d enums\n", len(w.NamedEnums) + len(w.AnonEnums))
of.WriteString("package " + w.Package + "\n\n")
of.WriteString(w.cgoFlags.String() + "\n")
of.WriteString(w.cCode.String())
of.WriteString(`
*/
import "C"
import (
"unsafe"
)
`)
of.WriteString(w.goTypes.String())
of.WriteString(w.goConst.String())
of.WriteString(w.goHelpers.String())
of.WriteString(w.goCode.String())
of.Close()
}