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generation.go
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generation.go
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package gen
import (
"fmt"
"strings"
"unicode"
)
// Generation represents a generation entrypoint.
type Generation struct {
Lookup
api *API
enums []*Enum
functions []*Function
structs []*Struct
}
// NewGeneration returns the new *Generation from a.
func NewGeneration(a *API) *Generation {
gen := &Generation{
Lookup: NewLookup(),
api: a,
}
return gen
}
// AddHeaderFiles adds headerFiles to g.
func (g *Generation) AddHeaderFiles(headerFiles []*HeaderFile) {
for _, h := range headerFiles {
for _, e := range h.Enums {
g.enums = append(g.enums, e)
g.RegisterEnum(e)
}
for _, s := range h.Structs {
g.structs = append(g.structs, s)
g.RegisterStruct(s)
}
g.functions = append(g.functions, h.Functions...)
}
}
// Generate Clang bindings generation.
func (g *Generation) Generate() error {
// prepare all functions
clangFile := NewFile("clang")
for _, f := range g.functions {
fname := f.Name
if g.api.PrepareFunctionName != nil {
fname = g.api.PrepareFunctionName(g, f)
f.Name = fname
}
if g.api.FilterFunction != nil && !g.api.FilterFunction(f) {
continue
}
// prepare the parameters
for i := range f.Parameters {
p := &f.Parameters[i]
if n, ok := g.LookupNonTypedef(p.Type.CGoName); ok {
p.Type.GoName = n
}
if e, ok := g.HasEnum(p.Type.GoName); ok {
p.CName = e.Receiver.CName
// TODO(go-clang): remove the receiver... and copy only names here to preserve the original pointers and so https://github.com/go-clang/gen/issues/52
p.Type.GoName = e.Receiver.Type.GoName
p.Type.CGoName = e.Receiver.Type.CGoName
p.Type.CGoName = e.Receiver.Type.CGoName
}
}
if g.api.PrepareFunction != nil {
g.api.PrepareFunction(f)
}
// prepare the return argument
if n, ok := g.LookupNonTypedef(f.ReturnType.CGoName); ok {
f.ReturnType.GoName = n
}
if e, ok := g.HasEnum(f.ReturnType.GoName); ok {
f.ReturnType.CGoName = e.Receiver.Type.CGoName
}
// prepare the receiver
var rt Receiver
if len(f.Parameters) > 0 {
rt.Name = CommonReceiverName(f.Parameters[0].Type.GoName)
rt.CName = f.Parameters[0].CName
rt.Type = f.Parameters[0].Type
} else {
if e, ok := g.HasEnum(f.ReturnType.GoName); ok {
rt.Type = e.Receiver.Type
} else if s, ok := g.HasStruct(f.ReturnType.GoName); ok {
rt.Type.GoName = s.Name
}
}
// check upfront if we can handle a function
found := false
for _, p := range f.Parameters {
if g.api.FilterFunctionParameter != nil && !g.api.FilterFunctionParameter(p) {
continue
}
// return arguments and slices are always ok since we mark them earlier
if p.Type.IsReturnArgument || p.Type.IsSlice {
continue
}
if (!g.IsEnumOrStruct(p.Type.GoName) && !p.Type.IsPrimitive) || p.Type.PointerLevel != 0 {
found = true
fmt.Printf("Cannot handle parameter %s -> %#v\n", f.CName, p)
break
}
}
// if we find a heuristic to add the function, add it!
added := false
if !found {
added = g.AddBasicMethods(f, fname, "", rt)
if !added {
if s := strings.Split(f.Name, "_"); len(s) == 2 {
if s[0] == rt.Type.GoName {
rtc := rt
rtc.Name = s[0]
added = g.AddBasicMethods(f, s[1], "", rtc)
} else {
if s[0] != "" {
s[0] += "_"
}
added = g.AddBasicMethods(f, strings.Join(s[1:], ""), s[0], rt)
}
}
}
if !added {
fname = TrimCommonFunctionName(fname, rt.Type)
if fn := strings.TrimPrefix(fname, f.ReturnType.GoName+"_"); len(fn) != len(fname) {
fname = fn
}
added = g.AddMethod(f, fname, "", rt)
if !added && g.IsEnumOrStruct(f.ReturnType.GoName) {
rtc := rt
rtc.Type = f.ReturnType
fname = TrimCommonFunctionNamePrefix(fname)
if fname == "" {
fname = f.ReturnType.GoName
}
if strings.HasPrefix(f.CName, "clang_create") || strings.HasPrefix(f.CName, "clang_get") || strings.HasSuffix(f.CName, "_create") {
fname = "New" + fname
}
added = g.AddMethod(f, fname, "", rtc)
}
if !added {
f.Name = UpperFirstCharacter(f.Name)
clangFile.Functions = append(clangFile.Functions, f)
added = true
}
}
}
if !added {
fmt.Println("Unused function:", f.Name)
}
}
for _, e := range g.enums {
if err := e.AddEnumStringMethods(); err != nil {
return fmt.Errorf("cannot generate enum string methods: %w", err)
}
for i, m := range e.Methods {
e.Methods[i] = g.GenerateMethod(e.Name, m)
switch m := m.(type) {
case *Function:
if len(m.Parameters) > 0 && !m.Parameters[0].Type.IsSlice && m.Parameters[0].Type.GoName == e.Name {
m.Receiver = Receiver{
Name: CommonReceiverName(e.Name),
Type: m.Parameters[0].Type,
}
g.SetIsPointerComposition(&m.Receiver.Type)
}
for i := range m.Parameters {
g.SetIsPointerComposition(&m.Parameters[i].Type)
}
e.IncludeFiles.unifyIncludeFiles(m.IncludeFiles)
e.Methods[i] = m.Generate()
}
}
if err := e.Generate(); err != nil {
return fmt.Errorf("cannot generate enum: %w", err)
}
}
for _, s := range g.structs {
if err := s.AddFieldGetters(); err != nil {
return fmt.Errorf("cannot generate struct member getters: %w", err)
}
for i, m := range s.Methods {
s.Methods[i] = g.GenerateMethod(s.Name, m)
switch m := m.(type) {
case *Function:
s.IncludeFiles.unifyIncludeFiles(m.IncludeFiles)
}
}
if err := s.Generate(); err != nil {
return fmt.Errorf("cannot generate struct: %w", err)
}
}
if len(clangFile.Functions) > 0 {
for _, m := range clangFile.Functions {
switch m := m.(type) {
case *Function:
clangFile.IncludeFiles.unifyIncludeFiles(m.IncludeFiles)
}
}
for i, m := range clangFile.Functions {
clangFile.Functions[i] = g.GenerateMethod("", m)
}
if err := clangFile.Generate(); err != nil {
return fmt.Errorf("cannot generate clang file: %w", err)
}
}
return nil
}
// GenerateMethod method generation.
func (g *Generation) GenerateMethod(receiverName string, m interface{}) string {
switch m := m.(type) {
case *Function:
if g.api.FixFunctionName != nil {
if fname := g.api.FixFunctionName(m); fname != "" {
m.Name = fname
}
}
if len(m.Parameters) > 0 && !m.Parameters[0].Type.IsSlice && m.Parameters[0].Type.GoName == receiverName {
m.Receiver = Receiver{
Name: CommonReceiverName(receiverName),
Type: m.Parameters[0].Type,
}
g.SetIsPointerComposition(&m.Receiver.Type)
}
for i := range m.Parameters {
g.SetIsPointerComposition(&m.Parameters[i].Type)
}
g.SetIsPointerComposition(&m.ReturnType)
m.Comment = strings.ReplaceAll(m.Comment, strings.TrimPrefix(m.CName, "clang_"), m.Name)
return m.Generate()
case string:
return m
default:
panic(fmt.Sprintf("Cannot handle %v in handleMethod", m))
}
}
// SetIsPointerComposition sets IsPointerComposition if given.
func (g *Generation) SetIsPointerComposition(typ *Type) {
if s, ok := g.HasStruct(typ.GoName); ok && s.IsPointerComposition {
typ.IsPointerComposition = true
}
}
// AddMethod adds method to g.
func (g *Generation) AddMethod(f *Function, fname string, fnamePrefix string, rt Receiver) bool {
fname = UpperFirstCharacter(fnamePrefix + UpperFirstCharacter(fname))
if e, ok := g.HasEnum(rt.Type.GoName); ok {
f.Name = fname
e.Methods = append(e.Methods, f)
return true
}
if s, ok := g.HasStruct(rt.Type.GoName); ok && s.CName != "CXString" {
f.Name = fname
if !rt.Type.IsSlice && rt.Type.PointerLevel > 0 {
s.IsPointerComposition = true
}
s.Methods = append(s.Methods, f)
return true
}
return false
}
// AddBasicMethods adds basic methods.
func (g *Generation) AddBasicMethods(f *Function, fname string, fnamePrefix string, rt Receiver) bool {
switch {
case len(f.Parameters) == 0 && g.IsEnumOrStruct(f.ReturnType.GoName):
rtc := rt
rtc.Type = f.ReturnType
fname = TrimCommonFunctionNamePrefix(fname)
if fname == "" {
fname = f.ReturnType.GoName
}
if strings.HasPrefix(f.CName, "clang_create") || strings.HasPrefix(f.CName, "clang_get") || strings.HasSuffix(f.CName, "_create") {
fname = "New" + fname
}
return g.AddMethod(f, fname, fnamePrefix, rtc)
case (fname[0] == 'i' && fname[1] == 's' && unicode.IsUpper(rune(fname[2]))) || (fname[0] == 'h' && fname[1] == 'a' && fname[2] == 's' && unicode.IsUpper(rune(fname[3]))):
f.ReturnType.GoName = "bool"
return g.AddMethod(f, fname, fnamePrefix, rt)
case len(f.Parameters) == 1 && g.IsEnumOrStruct(f.Parameters[0].Type.GoName) && strings.HasPrefix(fname, "dispose") && f.ReturnType.GoName == "void":
fname = "Dispose"
return g.AddMethod(f, fname, fnamePrefix, rt)
case len(f.Parameters) == 2 && strings.HasPrefix(fname, "equal") && g.IsEnumOrStruct(f.Parameters[0].Type.GoName) && f.Parameters[0].Type == f.Parameters[1].Type:
fname = "Equal"
f.Parameters[0].Name = CommonReceiverName(f.Parameters[0].Type.GoName)
f.Parameters[1].Name = f.Parameters[0].Name + "2"
f.ReturnType.GoName = "bool"
return g.AddMethod(f, fname, fnamePrefix, rt)
}
return false
}