package main import ( "go/format" "log" "strings" ) func (p CppParameter) RenderTypeGo() string { if p.Pointer && p.ParameterType == "char" { return "string" } if p.ParameterType == "QString" { return "string" } ret := "" if p.ByRef || p.Pointer { ret += "*" } ret += p.ParameterType return ret // ignore const } func emitParametersGo(params []CppParameter) string { tmp := make([]string, 0, len(params)) for _, p := range params { tmp = append(tmp, p.ParameterName+" "+p.RenderTypeGo()) } return strings.Join(tmp, ", ") } func emitParametersGo2CABIForwarding(params []CppParameter) (preamble string, fowarding string) { tmp := make([]string, 0, len(params)) for _, p := range params { if p.ParameterType == "QString" { // Go: convert string -> char* and len // CABI: convert char* and len -> real QString preamble += p.ParameterName + "_Cstring := C.CString(" + p.ParameterName + ")\n" preamble += "defer C.free(" + p.ParameterName + "_Cstring)\n" tmp = append(tmp, p.ParameterName+"_Cstring, len("+p.ParameterName+")") // TODO handle the return type as a pointer parameter } else if p.Pointer && p.ParameterType == "char" { // Single char* argument preamble += p.ParameterName + "_Cstring := C.CString(" + p.ParameterName + ")\n" preamble += "defer C.free(" + p.ParameterName + "_Cstring)\n" tmp = append(tmp, p.ParameterName+"_Cstring") } else if (p.Pointer || p.ByRef) && p.ParameterType[0] == 'Q' { // The C++ type is a pointer to Qt class // We want our functions to accept the Go wrapper type, and forward as cPointer() tmp = append(tmp, p.ParameterName+".cPointer()") } else { // Default tmp = append(tmp, p.ParameterName) } } return preamble, strings.Join(tmp, ", ") } func emitGo(src *CppParsedHeader, headerName string) (string, error) { ret := strings.Builder{} ret.WriteString(`package miqt /* #cgo CFLAGS: -fPIC #cgo pkg-config: Qt5Widgets #include "gen_` + headerName + `" #include */ import "C" `) for _, c := range src.Classes { ret.WriteString(` type ` + c.ClassName + ` struct { h C.P` + c.ClassName + ` } func (this *` + c.ClassName + `) cPointer() C.P` + c.ClassName + ` { if this == nil { return nil } return this.h } `) for i, ctor := range c.Ctors { preamble, forwarding := emitParametersGo2CABIForwarding(ctor.Parameters) ret.WriteString(` // New` + c.ClassName + maybeSuffix(i) + ` constructs a new ` + c.ClassName + ` object. func New` + c.ClassName + maybeSuffix(i) + `(` + emitParametersGo(ctor.Parameters) + `) { ` + preamble + ` ret := C.` + c.ClassName + `_new` + maybeSuffix(i) + `(` + forwarding + `) return &` + c.ClassName + `{h: ret} } `) } for _, m := range c.Methods { // TODO for any known pointer type, call its cPointer() method instead of passing it directly shouldReturn := "return " returnTypeDecl := m.ReturnType.ParameterType // FIXME handle byRef/const here too if returnTypeDecl == "void" { shouldReturn = "" returnTypeDecl = "" } preamble, forwarding := emitParametersGo2CABIForwarding(m.Parameters) ret.WriteString(` func (this *` + c.ClassName + `) ` + m.SafeMethodName() + `(` + emitParametersGo(m.Parameters) + `) ` + returnTypeDecl + ` { ` + preamble + shouldReturn + ` C.` + c.ClassName + `_` + m.SafeMethodName() + `(` + forwarding + `) } `) } } // Run gofmt over the result formattedSrc, err := format.Source([]byte(ret.String())) if err != nil { log.Printf("gofmt failure: %v", err) formattedSrc = []byte(ret.String()) } return string(formattedSrc), nil }