softonik/tinygo
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tinygo/testdata/cgo/main.go
Ayke van Laethem aaa860f154 cgo: support anonymous enums included in multiple Go files 
Anonymous enums (often used in typedefs) triggered a problem that was
already solved for structs but wasn't yet solved for enums. So this
patch generalizes the code to work for both structs and enums, and adds
testing for both.
2022-11-02 21:21:40 +01:00

195 строки
6,3 КиБ
Go
Исходный Авторство История

package main
/*
#include <stdio.h>
int fortytwo(void);
#include "main.h"
#include "test.h"
int mul(int, int);
#include <string.h>
#cgo CFLAGS: -DSOME_CONSTANT=17
#define someDefine -5 + 2 * 7
*/
import "C"
// int headerfunc(int a) { return a + 1; }
// static int headerfunc_static(int a) { return a - 1; }
import "C"
import "unsafe"
func main() {
println("fortytwo:", C.fortytwo())
println("add:", C.add(C.int(3), 5))
var x C.myint = 3
println("myint:", x, C.myint(5))
println("myint size:", int(unsafe.Sizeof(x)))
var y C.longlong = -(1 << 40)
println("longlong:", y)
println("global:", C.global)
println("defined ints:", C.CONST_INT, C.CONST_INT2)
println("defined floats:", C.CONST_FLOAT, C.CONST_FLOAT2)
println("defined string:", C.CONST_STRING)
println("defined char:", C.CONST_CHAR)
println("defined expr:", C.someDefine)
var ptr C.intPointer
var n C.int = 15
ptr = C.intPointer(&n)
println("15:", *ptr)
C.store(25, &n)
println("25:", *ptr)
cb := C.binop_t(C.add)
println("callback 1:", C.doCallback(20, 30, cb))
cb = C.binop_t(C.mul)
println("callback 2:", C.doCallback(20, 30, cb))
// variadic functions
println("variadic0:", C.variadic0())
println("variadic2:", C.variadic2(3, 5))
// functions in the header C snippet
println("headerfunc:", C.headerfunc(5))
println("static headerfunc:", C.headerfunc_static(5))
headerfunc_2()
// equivalent types
var goInt8 int8 = 5
var _ C.int8_t = goInt8
// more globals
println("bool:", C.globalBool, C.globalBool2 == true)
println("float:", C.globalFloat)
println("double:", C.globalDouble)
println("complex float:", C.globalComplexFloat)
println("complex double:", C.globalComplexDouble)
println("complex long double:", C.globalComplexLongDouble)
println("char match:", C.globalChar == 100)
var voidPtr unsafe.Pointer = C.globalVoidPtrNull
println("void* match:", voidPtr == nil, C.globalVoidPtrNull == nil, (*C.int)(C.globalVoidPtrSet) == &C.global)
println("int64_t match:", C.globalInt64 == C.int64_t(-(2<<40)))
// complex types
println("struct:", C.int(unsafe.Sizeof(C.globalStruct)) == C.globalStructSize, C.globalStruct.s, C.globalStruct.l, C.globalStruct.f)
var _ [3]C.short = C.globalArray
println("array:", C.globalArray[0], C.globalArray[1], C.globalArray[2])
println("union:", C.int(unsafe.Sizeof(C.globalUnion)) == C.globalUnionSize)
C.unionSetShort(22)
println("union s:", *C.globalUnion.unionfield_s())
C.unionSetFloat(C.float(6.28))
println("union f (C.float):", *C.globalUnion.unionfield_f())
C.unionSetFloat(float32(3.14))
println("union f (float32):", *C.globalUnion.unionfield_f())
C.unionSetData(5, 8, 1)
data := C.globalUnion.unionfield_data()
println("union global data:", data[0], data[1], data[2])
returnedUnion := printUnion(C.globalUnion)
println("union field:", *returnedUnion.unionfield_f())
var _ C.union_joined = C.globalUnion
printBitfield(&C.globalBitfield)
C.globalBitfield.set_bitfield_a(7)
C.globalBitfield.set_bitfield_b(0)
C.globalBitfield.set_bitfield_c(0xff)
printBitfield(&C.globalBitfield)
// elaborated type
p := C.struct_point2d{x: 3, y: 5}
println("struct:", p.x, p.y)
// multiple anonymous structs (inside a typedef)
var _ C.point2d_t = C.point2d_t{x: 3, y: 5}
var _ C.point3d_t = C.point3d_t{x: 3, y: 5, z: 7}
// nested structs/unions
var _ C.tagged_union_t
var _ C.nested_struct_t
var _ C.nested_union_t
// recursive types, test using a linked list
list := &C.list_t{n: 3, next: &C.struct_list_t{n: 6, next: &C.list_t{n: 7, next: nil}}}
for list != nil {
println("n in chain:", list.n)
list = (*C.list_t)(list.next)
}
// named enum
var _ C.enum_option = C.optionA
var _ C.option_t = C.optionA
println("option:", C.globalOption)
println("option A:", C.optionA)
println("option B:", C.optionB)
println("option C:", C.optionC)
println("option D:", C.optionD)
println("option E:", C.optionE)
println("option F:", C.optionF)
println("option G:", C.optionG)
// anonymous enum
var _ C.option2_t = C.option2A
var _ C.option3_t = C.option3A
println("option 2A:", C.option2A)
println("option 3A:", C.option3A)
// anonymous structs and enums in multiple Go files
var _ C.teststruct
var _ C.testenum
// Check that enums are considered the same width in C and CGo.
println("enum width matches:", unsafe.Sizeof(C.option2_t(0)) == uintptr(C.smallEnumWidth))
// Check whether CFLAGS are correctly passed on to compiled C files.
println("CFLAGS value:", C.cflagsConstant)
// Check array-to-pointer decaying. This signature:
// void arraydecay(int buf1[5], int buf2[3][8], int buf3[4][7][2]);
// decays to:
// void arraydecay(int *buf1, int *buf2[8], int *buf3[7][2]);
C.arraydecay((*C.int)(nil), (*[8]C.int)(nil), (*[7][2]C.int)(nil))
// Test CGo builtins like C.CString.
cstr := C.CString("string passed to C")
println("cstr length:", C.strlen(cstr))
gostr := C.GoString(cstr)
println("C.CString:", gostr)
charBuf := C.GoBytes(unsafe.Pointer(&C.globalChars[0]), 4)
println("C.charBuf:", charBuf[0], charBuf[1], charBuf[2], charBuf[3])
binaryString := C.GoStringN(&C.globalChars[0], 4)
println("C.CStringN:", len(binaryString), binaryString[0], binaryString[1], binaryString[2], binaryString[3])
// Test whether those builtins also work with zero length data.
println("C.GoString(nil):", C.GoString(nil))
println("len(C.GoStringN(nil, 0)):", len(C.GoStringN(nil, 0)))
println("len(C.GoBytes(nil, 0)):", len(C.GoBytes(nil, 0)))
// libc: test whether C functions work at all.
buf1 := []byte("foobar\x00")
buf2 := make([]byte, len(buf1))
C.strcpy((*C.char)(unsafe.Pointer(&buf2[0])), (*C.char)(unsafe.Pointer(&buf1[0])))
println("copied string:", string(buf2[:C.strlen((*C.char)(unsafe.Pointer(&buf2[0])))]))
// libc: test basic stdio functionality
putsBuf := []byte("line written using C puts\x00")
C.puts((*C.char)(unsafe.Pointer(&putsBuf[0])))
}
func printUnion(union C.joined_t) C.joined_t {
data := union.unionfield_data()
println("union local data: ", data[0], data[1], data[2])
*union.unionfield_s() = -33
println("union s:", data[0] == -33)
*union.unionfield_f() = 6.28
println("union f:", *union.unionfield_f())
return union
}
//export mul
func mul(a, b C.int) C.int {
return a * b
}
func printBitfield(bitfield *C.bitfield_t) {
println("bitfield a:", bitfield.bitfield_a())
println("bitfield b:", bitfield.bitfield_b())
println("bitfield c:", bitfield.bitfield_c())
println("bitfield d:", bitfield.d)
println("bitfield e:", bitfield.e)
}
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