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package cgo
// This file parses a fragment of C with libclang and stores the result for AST
// modification. It does not touch the AST itself.
import (
"fmt"
"go/ast"
"go/scanner"
"go/token"
"path/filepath"
"strconv"
"strings"
"unsafe"
)
/*
#include <clang-c/Index.h> // if this fails, install libclang-10-dev
#include <stdlib.h>
#include <stdint.h>
// This struct should be ABI-compatible on all platforms (uintptr_t has the same
// alignment etc. as void*) but does not include void* pointers that are not
// always real pointers.
// The Go garbage collector assumes that all non-nil pointer-typed integers are
// actually pointers. This is not always true, as data[1] often contains 0x1,
// which is clearly not a valid pointer. Usually the GC won't catch this issue,
// but occasionally it will leading to a crash with a vague error message.
typedef struct {
enum CXCursorKind kind;
int xdata;
uintptr_t data[3];
} GoCXCursor;
// Forwarding functions. They are implemented in libclang_stubs.c and forward to
// the real functions without doing anything else, thus they are entirely
// compatible with the versions without tinygo_ prefix. The only difference is
// the CXCursor type, which has been replaced with GoCXCursor.
GoCXCursor tinygo_clang_getTranslationUnitCursor(CXTranslationUnit tu);
unsigned tinygo_clang_visitChildren(GoCXCursor parent, CXCursorVisitor visitor, CXClientData client_data);
CXString tinygo_clang_getCursorSpelling(GoCXCursor c);
enum CXCursorKind tinygo_clang_getCursorKind(GoCXCursor c);
CXType tinygo_clang_getCursorType(GoCXCursor c);
GoCXCursor tinygo_clang_getTypeDeclaration(CXType t);
CXType tinygo_clang_getTypedefDeclUnderlyingType(GoCXCursor c);
CXType tinygo_clang_getCursorResultType(GoCXCursor c);
int tinygo_clang_Cursor_getNumArguments(GoCXCursor c);
GoCXCursor tinygo_clang_Cursor_getArgument(GoCXCursor c, unsigned i);
CXSourceLocation tinygo_clang_getCursorLocation(GoCXCursor c);
CXSourceRange tinygo_clang_getCursorExtent(GoCXCursor c);
CXTranslationUnit tinygo_clang_Cursor_getTranslationUnit(GoCXCursor c);
long long tinygo_clang_getEnumConstantDeclValue(GoCXCursor c);
CXType tinygo_clang_getEnumDeclIntegerType(GoCXCursor c);
unsigned tinygo_clang_Cursor_isBitField(GoCXCursor c);
int tinygo_clang_globals_visitor(GoCXCursor c, GoCXCursor parent, CXClientData client_data);
int tinygo_clang_struct_visitor(GoCXCursor c, GoCXCursor parent, CXClientData client_data);
int tinygo_clang_enum_visitor(GoCXCursor c, GoCXCursor parent, CXClientData client_data);
*/
import "C"
// storedRefs stores references to types, used for clang_visitChildren.
var storedRefs refMap
var diagnosticSeverity = [...]string{
C.CXDiagnostic_Ignored: "ignored",
C.CXDiagnostic_Note: "note",
C.CXDiagnostic_Warning: "warning",
C.CXDiagnostic_Error: "error",
C.CXDiagnostic_Fatal: "fatal",
}
func (p *cgoPackage) parseFragment(fragment string, cflags []string, posFilename string, posLine int) {
index := C.clang_createIndex(0, 0)
defer C.clang_disposeIndex(index)
// pretend to be a .c file
filenameC := C.CString(posFilename + "!cgo.c")
defer C.free(unsafe.Pointer(filenameC))
// fix up error locations
fragment = fmt.Sprintf("# %d %#v\n", posLine+1, posFilename) + fragment
fragmentC := C.CString(fragment)
defer C.free(unsafe.Pointer(fragmentC))
unsavedFile := C.struct_CXUnsavedFile{
Filename: filenameC,
Length: C.ulong(len(fragment)),
Contents: fragmentC,
}
// convert Go slice of strings to C array of strings.
cmdargsC := C.malloc(C.size_t(len(cflags)) * C.size_t(unsafe.Sizeof(uintptr(0))))
defer C.free(cmdargsC)
cmdargs := (*[1 << 16]*C.char)(cmdargsC)
for i, cflag := range cflags {
s := C.CString(cflag)
cmdargs[i] = s
defer C.free(unsafe.Pointer(s))
}
var unit C.CXTranslationUnit
errCode := C.clang_parseTranslationUnit2(
index,
filenameC,
(**C.char)(cmdargsC), C.int(len(cflags)), // command line args
&unsavedFile, 1, // unsaved files
C.CXTranslationUnit_DetailedPreprocessingRecord,
&unit)
if errCode != 0 {
// This is probably a bug in the usage of libclang.
panic("cgo: failed to parse source with libclang")
}
defer C.clang_disposeTranslationUnit(unit)
if numDiagnostics := int(C.clang_getNumDiagnostics(unit)); numDiagnostics != 0 {
addDiagnostic := func(diagnostic C.CXDiagnostic) {
spelling := getString(C.clang_getDiagnosticSpelling(diagnostic))
severity := diagnosticSeverity[C.clang_getDiagnosticSeverity(diagnostic)]
location := C.clang_getDiagnosticLocation(diagnostic)
pos := p.getClangLocationPosition(location, unit)
p.addError(pos, severity+": "+spelling)
}
for i := 0; i < numDiagnostics; i++ {
diagnostic := C.clang_getDiagnostic(unit, C.uint(i))
addDiagnostic(diagnostic)
// Child diagnostics (like notes on redefinitions).
diagnostics := C.clang_getChildDiagnostics(diagnostic)
for j := 0; j < int(C.clang_getNumDiagnosticsInSet(diagnostics)); j++ {
addDiagnostic(C.clang_getDiagnosticInSet(diagnostics, C.uint(j)))
}
}
}
ref := storedRefs.Put(p)
defer storedRefs.Remove(ref)
cursor := C.tinygo_clang_getTranslationUnitCursor(unit)
C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_globals_visitor), C.CXClientData(ref))
}
//export tinygo_clang_globals_visitor
func tinygo_clang_globals_visitor(c, parent C.GoCXCursor, client_data C.CXClientData) C.int {
p := storedRefs.Get(unsafe.Pointer(client_data)).(*cgoPackage)
kind := C.tinygo_clang_getCursorKind(c)
pos := p.getCursorPosition(c)
switch kind {
case C.CXCursor_FunctionDecl:
name := getString(C.tinygo_clang_getCursorSpelling(c))
if _, required := p.missingSymbols[name]; !required {
return C.CXChildVisit_Continue
}
cursorType := C.tinygo_clang_getCursorType(c)
if C.clang_isFunctionTypeVariadic(cursorType) != 0 {
return C.CXChildVisit_Continue // not supported
}
numArgs := int(C.tinygo_clang_Cursor_getNumArguments(c))
fn := &functionInfo{
pos: pos,
}
p.functions[name] = fn
for i := 0; i < numArgs; i++ {
arg := C.tinygo_clang_Cursor_getArgument(c, C.uint(i))
argName := getString(C.tinygo_clang_getCursorSpelling(arg))
argType := C.clang_getArgType(cursorType, C.uint(i))
if argName == "" {
argName = "$" + strconv.Itoa(i)
}
fn.args = append(fn.args, paramInfo{
name: argName,
typeExpr: p.makeASTType(argType, pos),
})
}
resultType := C.tinygo_clang_getCursorResultType(c)
if resultType.kind != C.CXType_Void {
fn.results = &ast.FieldList{
List: []*ast.Field{
&ast.Field{
Type: p.makeASTType(resultType, pos),
},
},
}
}
case C.CXCursor_StructDecl:
typ := C.tinygo_clang_getCursorType(c)
name := getString(C.tinygo_clang_getCursorSpelling(c))
if _, required := p.missingSymbols["struct_"+name]; !required {
return C.CXChildVisit_Continue
}
p.makeASTType(typ, pos)
case C.CXCursor_TypedefDecl:
typedefType := C.tinygo_clang_getCursorType(c)
name := getString(C.clang_getTypedefName(typedefType))
if _, required := p.missingSymbols[name]; !required {
return C.CXChildVisit_Continue
}
p.makeASTType(typedefType, pos)
case C.CXCursor_VarDecl:
name := getString(C.tinygo_clang_getCursorSpelling(c))
if _, required := p.missingSymbols[name]; !required {
return C.CXChildVisit_Continue
}
cursorType := C.tinygo_clang_getCursorType(c)
p.globals[name] = globalInfo{
typeExpr: p.makeASTType(cursorType, pos),
pos: pos,
}
case C.CXCursor_MacroDefinition:
name := getString(C.tinygo_clang_getCursorSpelling(c))
if _, required := p.missingSymbols[name]; !required {
return C.CXChildVisit_Continue
}
sourceRange := C.tinygo_clang_getCursorExtent(c)
start := C.clang_getRangeStart(sourceRange)
end := C.clang_getRangeEnd(sourceRange)
var file, endFile C.CXFile
var startOffset, endOffset C.unsigned
C.clang_getExpansionLocation(start, &file, nil, nil, &startOffset)
if file == nil {
p.addError(pos, "internal error: could not find file where macro is defined")
break
}
C.clang_getExpansionLocation(end, &endFile, nil, nil, &endOffset)
if file != endFile {
p.addError(pos, "internal error: expected start and end location of a macro to be in the same file")
break
}
if startOffset > endOffset {
p.addError(pos, "internal error: start offset of macro is after end offset")
break
}
// read file contents and extract the relevant byte range
tu := C.tinygo_clang_Cursor_getTranslationUnit(c)
var size C.size_t
sourcePtr := C.clang_getFileContents(tu, file, &size)
if endOffset >= C.uint(size) {
p.addError(pos, "internal error: end offset of macro lies after end of file")
break
}
source := string(((*[1 << 28]byte)(unsafe.Pointer(sourcePtr)))[startOffset:endOffset:endOffset])
if !strings.HasPrefix(source, name) {
p.addError(pos, fmt.Sprintf("internal error: expected macro value to start with %#v, got %#v", name, source))
break
}
value := source[len(name):]
// Try to convert this #define into a Go constant expression.
expr, err := parseConst(pos+token.Pos(len(name)), p.fset, value)
if err != nil {
p.errors = append(p.errors, err)
}
if expr != nil {
// Parsing was successful.
p.constants[name] = constantInfo{expr, pos}
}
case C.CXCursor_EnumDecl:
// Visit all enums, because the fields may be used even when the enum
// type itself is not.
typ := C.tinygo_clang_getCursorType(c)
p.makeASTType(typ, pos)
}
return C.CXChildVisit_Continue
}
func getString(clangString C.CXString) (s string) {
rawString := C.clang_getCString(clangString)
s = C.GoString(rawString)
C.clang_disposeString(clangString)
return
}
// getCursorPosition returns a usable token.Pos from a libclang cursor.
func (p *cgoPackage) getCursorPosition(cursor C.GoCXCursor) token.Pos {
return p.getClangLocationPosition(C.tinygo_clang_getCursorLocation(cursor), C.tinygo_clang_Cursor_getTranslationUnit(cursor))
}
// getClangLocationPosition returns a usable token.Pos based on a libclang
// location and translation unit. If the file for this cursor has not been seen
// before, it is read from libclang (which already has the file in memory) and
// added to the token.FileSet.
func (p *cgoPackage) getClangLocationPosition(location C.CXSourceLocation, tu C.CXTranslationUnit) token.Pos {
var file C.CXFile
var line C.unsigned
var column C.unsigned
var offset C.unsigned
C.clang_getExpansionLocation(location, &file, &line, &column, &offset)
if line == 0 || file == nil {
// Invalid token.
return token.NoPos
}
filename := getString(C.clang_getFileName(file))
if _, ok := p.tokenFiles[filename]; !ok {
// File has not been seen before in this package, add line information
// now by reading the file from libclang.
var size C.size_t
sourcePtr := C.clang_getFileContents(tu, file, &size)
source := ((*[1 << 28]byte)(unsafe.Pointer(sourcePtr)))[:size:size]
lines := []int{0}
for i := 0; i < len(source)-1; i++ {
if source[i] == '\n' {
lines = append(lines, i+1)
}
}
f := p.fset.AddFile(filename, -1, int(size))
f.SetLines(lines)
p.tokenFiles[filename] = f
}
positionFile := p.tokenFiles[filename]
// Check for alternative line/column information (set with a line directive).
var filename2String C.CXString
var line2 C.unsigned
var column2 C.unsigned
C.clang_getPresumedLocation(location, &filename2String, &line2, &column2)
filename2 := getString(filename2String)
if filename2 != filename || line2 != line || column2 != column {
// The location was changed with a preprocessor directive.
// TODO: this only works for locations that are added in order. Adding
// line/column info to a file that already has line/column info after
// the given offset is ignored.
positionFile.AddLineColumnInfo(int(offset), filename2, int(line2), int(column2))
}
return positionFile.Pos(int(offset))
}
// addError is a utility function to add an error to the list of errors. It will
// convert the token position to a line/column position first, and call
// addErrorAt.
func (p *cgoPackage) addError(pos token.Pos, msg string) {
p.addErrorAt(p.fset.PositionFor(pos, true), msg)
}
// addErrorAfter is like addError, but adds the text `after` to the source
// location.
func (p *cgoPackage) addErrorAfter(pos token.Pos, after, msg string) {
position := p.fset.PositionFor(pos, true)
lines := strings.Split(after, "\n")
if len(lines) != 1 {
// Adjust lines.
// For why we can't just do pos+token.Pos(len(after)), see:
// https://github.com/golang/go/issues/35803
position.Line += len(lines) - 1
position.Column = len(lines[len(lines)-1]) + 1
} else {
position.Column += len(after)
}
p.addErrorAt(position, msg)
}
// addErrorAt is a utility function to add an error to the list of errors.
func (p *cgoPackage) addErrorAt(position token.Position, msg string) {
if filepath.IsAbs(position.Filename) {
// Relative paths for readability, like other Go parser errors.
relpath, err := filepath.Rel(p.dir, position.Filename)
if err == nil {
position.Filename = relpath
}
}
p.errors = append(p.errors, scanner.Error{
Pos: position,
Msg: msg,
})
}
// makeASTType return the ast.Expr for the given libclang type. In other words,
// it converts a libclang type to a type in the Go AST.
func (p *cgoPackage) makeASTType(typ C.CXType, pos token.Pos) ast.Expr {
var typeName string
switch typ.kind {
case C.CXType_Char_S, C.CXType_Char_U:
typeName = "C.char"
case C.CXType_SChar:
typeName = "C.schar"
case C.CXType_UChar:
typeName = "C.uchar"
case C.CXType_Short:
typeName = "C.short"
case C.CXType_UShort:
typeName = "C.ushort"
case C.CXType_Int:
typeName = "C.int"
case C.CXType_UInt:
typeName = "C.uint"
case C.CXType_Long:
typeName = "C.long"
case C.CXType_ULong:
typeName = "C.ulong"
case C.CXType_LongLong:
typeName = "C.longlong"
case C.CXType_ULongLong:
typeName = "C.ulonglong"
case C.CXType_Bool:
typeName = "bool"
case C.CXType_Float, C.CXType_Double, C.CXType_LongDouble:
switch C.clang_Type_getSizeOf(typ) {
case 4:
typeName = "float32"
case 8:
typeName = "float64"
default:
// Don't do anything, rely on the fallback code to show a somewhat
// sensible error message like "undeclared name: C.long double".
}
case C.CXType_Complex:
switch C.clang_Type_getSizeOf(typ) {
case 8:
typeName = "complex64"
case 16:
typeName = "complex128"
}
case C.CXType_Pointer:
pointeeType := C.clang_getPointeeType(typ)
if pointeeType.kind == C.CXType_Void {
// void* type is translated to Go as unsafe.Pointer
return &ast.SelectorExpr{
X: &ast.Ident{
NamePos: pos,
Name: "unsafe",
},
Sel: &ast.Ident{
NamePos: pos,
Name: "Pointer",
},
}
}
return &ast.StarExpr{
Star: pos,
X: p.makeASTType(pointeeType, pos),
}
case C.CXType_ConstantArray:
return &ast.ArrayType{
Lbrack: pos,
Len: &ast.BasicLit{
ValuePos: pos,
Kind: token.INT,
Value: strconv.FormatInt(int64(C.clang_getArraySize(typ)), 10),
},
Elt: p.makeASTType(C.clang_getElementType(typ), pos),
}
case C.CXType_FunctionProto:
// Be compatible with gc, which uses the *[0]byte type for function
// pointer types.
// Return type [0]byte because this is a function type, not a pointer to
// this function type.
return &ast.ArrayType{
Lbrack: pos,
Len: &ast.BasicLit{
ValuePos: pos,
Kind: token.INT,
Value: "0",
},
Elt: &ast.Ident{
NamePos: pos,
Name: "byte",
},
}
case C.CXType_Typedef:
name := getString(C.clang_getTypedefName(typ))
if _, ok := p.typedefs[name]; !ok {
p.typedefs[name] = nil // don't recurse
c := C.tinygo_clang_getTypeDeclaration(typ)
underlyingType := C.tinygo_clang_getTypedefDeclUnderlyingType(c)
expr := p.makeASTType(underlyingType, pos)
if strings.HasPrefix(name, "_Cgo_") {
expr := expr.(*ast.Ident)
typeSize := C.clang_Type_getSizeOf(underlyingType)
switch expr.Name {
case "C.char":
if typeSize != 1 {
// This happens for some very special purpose architectures
// (DSPs etc.) that are not currently targeted.
// https://www.embecosm.com/2017/04/18/non-8-bit-char-support-in-clang-and-llvm/
p.addError(pos, fmt.Sprintf("unknown char width: %d", typeSize))
}
switch underlyingType.kind {
case C.CXType_Char_S:
expr.Name = "int8"
case C.CXType_Char_U:
expr.Name = "uint8"
}
case "C.schar", "C.short", "C.int", "C.long", "C.longlong":
switch typeSize {
case 1:
expr.Name = "int8"
case 2:
expr.Name = "int16"
case 4:
expr.Name = "int32"
case 8:
expr.Name = "int64"
}
case "C.uchar", "C.ushort", "C.uint", "C.ulong", "C.ulonglong":
switch typeSize {
case 1:
expr.Name = "uint8"
case 2:
expr.Name = "uint16"
case 4:
expr.Name = "uint32"
case 8:
expr.Name = "uint64"
}
}
}
p.typedefs[name] = &typedefInfo{
typeExpr: expr,
pos: pos,
}
}
return &ast.Ident{
NamePos: pos,
Name: "C." + name,
}
case C.CXType_Elaborated:
underlying := C.clang_Type_getNamedType(typ)
switch underlying.kind {
case C.CXType_Record:
return p.makeASTType(underlying, pos)
case C.CXType_Enum:
return p.makeASTType(underlying, pos)
default:
typeKindSpelling := getString(C.clang_getTypeKindSpelling(underlying.kind))
p.addError(pos, fmt.Sprintf("unknown elaborated type (libclang type kind %s)", typeKindSpelling))
typeName = "<unknown>"
}
case C.CXType_Record:
cursor := C.tinygo_clang_getTypeDeclaration(typ)
name := getString(C.tinygo_clang_getCursorSpelling(cursor))
var cgoRecordPrefix string
switch C.tinygo_clang_getCursorKind(cursor) {
case C.CXCursor_StructDecl:
cgoRecordPrefix = "struct_"
case C.CXCursor_UnionDecl:
cgoRecordPrefix = "union_"
default:
// makeASTRecordType will create an appropriate error.
cgoRecordPrefix = "record_"
}
if name == "" {
// Anonymous record, probably inside a typedef.
typeInfo := p.makeASTRecordType(cursor, pos)
if typeInfo.bitfields != nil || typeInfo.unionSize != 0 {
// This record is a union or is a struct with bitfields, so we
// have to declare it as a named type (for getters/setters to
// work).
p.anonStructNum++
cgoName := cgoRecordPrefix + strconv.Itoa(p.anonStructNum)
p.elaboratedTypes[cgoName] = typeInfo
return &ast.Ident{
NamePos: pos,
Name: "C." + cgoName,
}
}
return typeInfo.typeExpr
} else {
cgoName := cgoRecordPrefix + name
if _, ok := p.elaboratedTypes[cgoName]; !ok {
p.elaboratedTypes[cgoName] = nil // predeclare (to avoid endless recursion)
p.elaboratedTypes[cgoName] = p.makeASTRecordType(cursor, pos)
}
return &ast.Ident{
NamePos: pos,
Name: "C." + cgoName,
}
}
case C.CXType_Enum:
cursor := C.tinygo_clang_getTypeDeclaration(typ)
name := getString(C.tinygo_clang_getCursorSpelling(cursor))
underlying := C.tinygo_clang_getEnumDeclIntegerType(cursor)
if name == "" {
// anonymous enum
ref := storedRefs.Put(p)
defer storedRefs.Remove(ref)
C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_enum_visitor), C.CXClientData(ref))
return p.makeASTType(underlying, pos)
} else {
// named enum
if _, ok := p.enums[name]; !ok {
ref := storedRefs.Put(p)
defer storedRefs.Remove(ref)
C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_enum_visitor), C.CXClientData(ref))
p.enums[name] = enumInfo{
typeExpr: p.makeASTType(underlying, pos),
pos: pos,
}
}
return &ast.Ident{
NamePos: pos,
Name: "C.enum_" + name,
}
}
}
if typeName == "" {
// Report this as an error.
typeSpelling := getString(C.clang_getTypeSpelling(typ))
typeKindSpelling := getString(C.clang_getTypeKindSpelling(typ.kind))
p.addError(pos, fmt.Sprintf("unknown C type: %v (libclang type kind %s)", typeSpelling, typeKindSpelling))
typeName = "C.<unknown>"
}
return &ast.Ident{
NamePos: pos,
Name: typeName,
}
}
// makeASTRecordType parses a C record (struct or union) and translates it into
// a Go struct type.
func (p *cgoPackage) makeASTRecordType(cursor C.GoCXCursor, pos token.Pos) *elaboratedTypeInfo {
fieldList := &ast.FieldList{
Opening: pos,
Closing: pos,
}
var bitfieldList []bitfieldInfo
inBitfield := false
bitfieldNum := 0
ref := storedRefs.Put(struct {
fieldList *ast.FieldList
pkg *cgoPackage
inBitfield *bool
bitfieldNum *int
bitfieldList *[]bitfieldInfo
}{fieldList, p, &inBitfield, &bitfieldNum, &bitfieldList})
defer storedRefs.Remove(ref)
C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_struct_visitor), C.CXClientData(ref))
renameFieldKeywords(fieldList)
switch C.tinygo_clang_getCursorKind(cursor) {
case C.CXCursor_StructDecl:
return &elaboratedTypeInfo{
typeExpr: &ast.StructType{
Struct: pos,
Fields: fieldList,
},
pos: pos,
bitfields: bitfieldList,
}
case C.CXCursor_UnionDecl:
typeInfo := &elaboratedTypeInfo{
typeExpr: &ast.StructType{
Struct: pos,
Fields: fieldList,
},
pos: pos,
bitfields: bitfieldList,
}
if len(fieldList.List) <= 1 {
// Useless union, treat it as a regular struct.
return typeInfo
}
if bitfieldList != nil {
// This is valid C... but please don't do this.
p.addError(pos, "bitfield in a union is not supported")
}
typ := C.tinygo_clang_getCursorType(cursor)
alignInBytes := int64(C.clang_Type_getAlignOf(typ))
sizeInBytes := int64(C.clang_Type_getSizeOf(typ))
if sizeInBytes == 0 {
p.addError(pos, "zero-length union is not supported")
}
typeInfo.unionSize = sizeInBytes
typeInfo.unionAlign = alignInBytes
return typeInfo
default:
cursorKind := C.tinygo_clang_getCursorKind(cursor)
cursorKindSpelling := getString(C.clang_getCursorKindSpelling(cursorKind))
p.addError(pos, fmt.Sprintf("expected StructDecl or UnionDecl, not %s", cursorKindSpelling))
return &elaboratedTypeInfo{
typeExpr: &ast.StructType{
Struct: pos,
},
pos: pos,
}
}
}
//export tinygo_clang_struct_visitor
func tinygo_clang_struct_visitor(c, parent C.GoCXCursor, client_data C.CXClientData) C.int {
passed := storedRefs.Get(unsafe.Pointer(client_data)).(struct {
fieldList *ast.FieldList
pkg *cgoPackage
inBitfield *bool
bitfieldNum *int
bitfieldList *[]bitfieldInfo
})
fieldList := passed.fieldList
p := passed.pkg
inBitfield := passed.inBitfield
bitfieldNum := passed.bitfieldNum
bitfieldList := passed.bitfieldList
pos := p.getCursorPosition(c)
switch cursorKind := C.tinygo_clang_getCursorKind(c); cursorKind {
case C.CXCursor_FieldDecl:
// Expected. This is a regular field.
case C.CXCursor_StructDecl, C.CXCursor_UnionDecl:
// Ignore. The next field will be the struct/union itself.
return C.CXChildVisit_Continue
default:
cursorKindSpelling := getString(C.clang_getCursorKindSpelling(cursorKind))
p.addError(pos, fmt.Sprintf("expected FieldDecl in struct or union, not %s", cursorKindSpelling))
return C.CXChildVisit_Continue
}
name := getString(C.tinygo_clang_getCursorSpelling(c))
if name == "" {
// Assume this is a bitfield of 0 bits.
// Warning: this is not necessarily true!
return C.CXChildVisit_Continue
}
typ := C.tinygo_clang_getCursorType(c)
field := &ast.Field{
Type: p.makeASTType(typ, p.getCursorPosition(c)),
}
offsetof := int64(C.clang_Type_getOffsetOf(C.tinygo_clang_getCursorType(parent), C.CString(name)))
alignOf := int64(C.clang_Type_getAlignOf(typ) * 8)
bitfieldOffset := offsetof % alignOf
if bitfieldOffset != 0 {
if C.tinygo_clang_Cursor_isBitField(c) != 1 {
p.addError(pos, "expected a bitfield")
return C.CXChildVisit_Continue
}
if !*inBitfield {
*bitfieldNum++
}
bitfieldName := "__bitfield_" + strconv.Itoa(*bitfieldNum)
prevField := fieldList.List[len(fieldList.List)-1]
if !*inBitfield {
// The previous element also was a bitfield, but wasn't noticed
// then. Add it now.
*inBitfield = true
*bitfieldList = append(*bitfieldList, bitfieldInfo{
field: prevField,
name: prevField.Names[0].Name,
startBit: 0,
pos: prevField.Names[0].NamePos,
})
prevField.Names[0].Name = bitfieldName
prevField.Names[0].Obj.Name = bitfieldName
}
prevBitfield := &(*bitfieldList)[len(*bitfieldList)-1]
prevBitfield.endBit = bitfieldOffset
*bitfieldList = append(*bitfieldList, bitfieldInfo{
field: prevField,
name: name,
startBit: bitfieldOffset,
pos: pos,
})
return C.CXChildVisit_Continue
}
*inBitfield = false
field.Names = []*ast.Ident{
&ast.Ident{
NamePos: pos,
Name: name,
Obj: &ast.Object{
Kind: ast.Var,
Name: name,
Decl: field,
},
},
}
fieldList.List = append(fieldList.List, field)
return C.CXChildVisit_Continue
}
//export tinygo_clang_enum_visitor
func tinygo_clang_enum_visitor(c, parent C.GoCXCursor, client_data C.CXClientData) C.int {
p := storedRefs.Get(unsafe.Pointer(client_data)).(*cgoPackage)
name := getString(C.tinygo_clang_getCursorSpelling(c))
pos := p.getCursorPosition(c)
value := C.tinygo_clang_getEnumConstantDeclValue(c)
p.constants[name] = constantInfo{
expr: &ast.BasicLit{pos, token.INT, strconv.FormatInt(int64(value), 10)},
pos: pos,
}
return C.CXChildVisit_Continue
}