tinygo/testdata/calls.go

package main

type Thing struct {
	name string
}

type ThingOption func(*Thing)

func WithName(name string) ThingOption {
	return func(t *Thing) {
		t.name = name
	}
}

func NewThing(opts ...ThingOption) *Thing {
	t := &Thing{}
	for _, opt := range opts {
		opt(t)
	}
	return t
}

func (t Thing) String() string {
	return t.name
}

func (t Thing) Print(arg string) {
	println("Thing.Print:", t.name, "arg:", arg)
}

type Printer interface {
	Print(string)
}

func main() {
	thing := &Thing{"foo"}

	// function pointers
	runFunc(hello, 5) // must be indirect to avoid obvious inlining

	// deferred functions
	testDefer()

	// defers in loop
	testDeferLoop()

	//defer func variable call
	testDeferFuncVar()

	//More complicated func variable call
	testMultiFuncVar()

	// Take a bound method and use it as a function pointer.
	// This function pointer needs a context pointer.
	testBound(thing.String)

	// closures
	func() {
		println("thing inside closure:", thing.String())
	}()
	runFunc(func(i int) {
		println("inside fp closure:", thing.String(), i)
	}, 3)

	// functional arguments
	thingFunctionalArgs1 := NewThing()
	thingFunctionalArgs1.Print("functional args 1")
	thingFunctionalArgs2 := NewThing(WithName("named thing"))
	thingFunctionalArgs2.Print("functional args 2")

	// regression testing
	regression1033()

	//Test deferred builtins
	testDeferBuiltinClose()
	testDeferBuiltinDelete()

	// Check for issue 1304.
	// There are two fields in this struct, one of which is zero-length so the
	// other covers the entire struct. This led to a verification error for
	// debug info, which used DW_OP_LLVM_fragment for a field that practically
	// covered the entire variable.
	var x issue1304
	x.call()
}

func runFunc(f func(int), arg int) {
	f(arg)
}

func hello(n int) {
	println("hello from function pointer:", n)
}

func testDefer() {
	defer exportedDefer()

	i := 1
	defer deferred("...run as defer", i)
	i++
	defer func() {
		println("...run closure deferred:", i)
	}()
	i++
	defer deferred("...run as defer", i)
	i++

	var t Printer = &Thing{"foo"}
	defer t.Print("bar")

	println("deferring...")
	d := dumb{}
	defer d.Value(0)
}

func testDeferLoop() {
	for j := 0; j < 4; j++ {
		defer deferred("loop", j)
	}
}

func testDeferFuncVar() {
	dummy, f := deferFunc()
	dummy++
	defer f(1)
}

func testMultiFuncVar() {
	f := multiFuncDefer()
	defer f(1)
}

func testDeferBuiltinClose() {
	i := make(chan int)
	func() {
		defer close(i)
	}()
	if n, ok := <-i; n != 0 || ok {
		println("expected to read 0 from closed channel")
	}
}

func testDeferBuiltinDelete() {
	m := map[int]int{3: 30, 5: 50}
	func() {
		defer delete(m, 3)
		if m[3] != 30 {
			println("expected m[3] to be 30")
		}
	}()
	if m[3] != 0 {
		println("expected m[3] to be 0")
	}
}

type dumb struct {
}

func (*dumb) Value(key interface{}) interface{} {
	return nil
}

func deferred(msg string, i int) {
	println(msg, i)
}

//export __exportedDefer
func exportedDefer() {
	println("...exported defer")
}

func deferFunc() (int, func(int)) {
	return 0, func(i int) { println("...extracted defer func ", i) }
}

func multiFuncDefer() func(int) {
	i := 0

	if i > 0 {
		return func(i int) { println("Should not have gotten here. i = ", i) }
	}

	return func(i int) { println("Called the correct function. i = ", i) }
}

func testBound(f func() string) {
	println("bound method:", f())
}

// regression1033 is a regression test for https://github.com/tinygo-org/tinygo/issues/1033.
// In previous versions of the compiler, a deferred call to an interface would create an instruction that did not dominate its uses.
func regression1033() {
	foo(&Bar{})
}

type Bar struct {
	empty bool
}

func (b *Bar) Close() error {
	return nil
}

type Closer interface {
	Close() error
}

func foo(bar *Bar) error {
	var a int
	if !bar.empty {
		a = 10
		if a != 5 {
			return nil
		}
	}

	var c Closer = bar
	defer c.Close()

	return nil
}

type issue1304 struct {
	a [0]int // zero-length field
	b int    // field 'b' covers entire struct
}

func (x issue1304) call() {
	// nothing to do
}

type recursiveFuncType func(recursiveFuncType)

var recursiveFunction recursiveFuncType
compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`package main`

			`type Thing struct {`
			`name string`
			`}`

Test for functional argument passing (#336) * Test for functional argument passing 6 years ago			`type ThingOption func(*Thing)`

			`func WithName(name string) ThingOption {`
			`return func(t *Thing) {`
			`t.name = name`
			`}`
			`}`

			`func NewThing(opts ...ThingOption) *Thing {`
			`t := &Thing{}`
			`for _, opt := range opts {`
			`opt(t)`
			`}`
			`return t`
			`}`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`func (t Thing) String() string {`
			`return t.name`
			`}`

compiler: implement deferring of interface calls 6 years ago			`func (t Thing) Print(arg string) {`
			`println("Thing.Print:", t.name, "arg:", arg)`
			`}`

			`type Printer interface {`
			`Print(string)`
			`}`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`func main() {`
			`thing := &Thing{"foo"}`

			`// function pointers`
			`runFunc(hello, 5) // must be indirect to avoid obvious inlining`

			`// deferred functions`
			`testDefer()`

revise defer to use heap allocations when running a variable number of times 5 years ago			`// defers in loop`
			`testDeferLoop()`

compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`//defer func variable call`
			`testDeferFuncVar()`

			`//More complicated func variable call`
			`testMultiFuncVar()`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`// Take a bound method and use it as a function pointer.`
			`// This function pointer needs a context pointer.`
			`testBound(thing.String)`

			`// closures`
			`func() {`
			`println("thing inside closure:", thing.String())`
			`}()`
			`runFunc(func(i int) {`
			`println("inside fp closure:", thing.String(), i)`
			`}, 3)`
Test for functional argument passing (#336) * Test for functional argument passing 6 years ago
			`// functional arguments`
			`thingFunctionalArgs1 := NewThing()`
			`thingFunctionalArgs1.Print("functional args 1")`
			`thingFunctionalArgs2 := NewThing(WithName("named thing"))`
			`thingFunctionalArgs2.Print("functional args 2")`
compiler: pass interface typecode through defer frames Previously, the typecode was passed via a direct reference, which results in invalid IR when the defer is not reached in all return paths. It also results in incorrect behavior if the defer is in a loop, causing all defers to use the typecode of the last iteration. 5 years ago
			`// regression testing`
			`regression1033()`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago
			`//Test deferred builtins`
compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`testDeferBuiltinClose()`
			`testDeferBuiltinDelete()`
compiler: fix "fragment covers entire variable" bug This bug could sometimes be triggered by syscall/js code it seems. But it's a generic bug, not specific to WebAssembly. 4 years ago
			`// Check for issue 1304.`
			`// There are two fields in this struct, one of which is zero-length so the`
			`// other covers the entire struct. This led to a verification error for`
			`// debug info, which used DW_OP_LLVM_fragment for a field that practically`
			`// covered the entire variable.`
			`var x issue1304`
			`x.call()`
compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`}`

			`func runFunc(f func(int), arg int) {`
			`f(arg)`
			`}`

			`func hello(n int) {`
			`println("hello from function pointer:", n)`
			`}`

			`func testDefer() {`
compiler: fix deferred calls to exported functions Previously using defer with an exported function generated an invalid function call due to differences between TinyGo's calling convention and the C calling convention. 5 years ago			`defer exportedDefer()`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`i := 1`
			`defer deferred("...run as defer", i)`
			`i++`
			`defer func() {`
			`println("...run closure deferred:", i)`
			`}()`
			`i++`
			`defer deferred("...run as defer", i)`
			`i++`

compiler: implement deferring of interface calls 6 years ago			`var t Printer = &Thing{"foo"}`
			`defer t.Print("bar")`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`println("deferring...")`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`d := dumb{}`
			`defer d.Value(0)`
compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`}`

revise defer to use heap allocations when running a variable number of times 5 years ago			`func testDeferLoop() {`
			`for j := 0; j < 4; j++ {`
			`defer deferred("loop", j)`
			`}`
			`}`

compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`func testDeferFuncVar() {`
			`dummy, f := deferFunc()`
			`dummy++`
			`defer f(1)`
			`}`

			`func testMultiFuncVar() {`
			`f := multiFuncDefer()`
			`defer f(1)`
			`}`

compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`func testDeferBuiltinClose() {`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`i := make(chan int)`
compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`func() {`
			`defer close(i)`
			`}()`
			`if n, ok := <-i; n != 0 \|\| ok {`
			`println("expected to read 0 from closed channel")`
			`}`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`}`

compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`func testDeferBuiltinDelete() {`
			`m := map[int]int{3: 30, 5: 50}`
			`func() {`
			`defer delete(m, 3)`
			`if m[3] != 30 {`
			`println("expected m[3] to be 30")`
			`}`
			`}()`
			`if m[3] != 0 {`
			`println("expected m[3] to be 0")`
			`}`
			`}`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago
compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`type dumb struct {`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`}`

			`func (*dumb) Value(key interface{}) interface{} {`
			`return nil`
			`}`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`func deferred(msg string, i int) {`
			`println(msg, i)`
			`}`

all: change //go:export to //export This is the kind that is used in Go (actually CGo) for exporting functions. I think it's best to use //export instead of our custom //go:export pragma, for consistency (they are equivalent in TinyGo). Therefore I've updated all instances to the standard format (except for two that are updated in https://github.com/tinygo-org/tinygo/pull/1024). No smoke tests changed (when comparing the output hash), except for some wasm tests that include DWARF debug info and tend to be flaky anyway. 5 years ago			`//export __exportedDefer`
compiler: fix deferred calls to exported functions Previously using defer with an exported function generated an invalid function call due to differences between TinyGo's calling convention and the C calling convention. 5 years ago			`func exportedDefer() {`
			`println("...exported defer")`
			`}`

compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`func deferFunc() (int, func(int)) {`
compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`return 0, func(i int) { println("...extracted defer func ", i) }`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`}`

			`func multiFuncDefer() func(int) {`
			`i := 0`

			`if i > 0 {`
compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`return func(i int) { println("Should not have gotten here. i = ", i) }`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`}`

compiler: support all kinds of deferred builtins This change extends defer support to all supported builitin functions. Not all of them make sense (such as len, cap, real, imag, etc) but this change for example adds support for `defer(delete(m, key))` which is used in the Go 1.15 encoding/json package. 4 years ago			`return func(i int) { println("Called the correct function. i = ", i) }`
compiler: implement func value and builtin defers Co-authored-by: Justin A. Wilson <maker.pro.game@gmail.com> 4 years ago			`}`

compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`func testBound(f func() string) {`
			`println("bound method:", f())`
			`}`
compiler: pass interface typecode through defer frames Previously, the typecode was passed via a direct reference, which results in invalid IR when the defer is not reached in all return paths. It also results in incorrect behavior if the defer is in a loop, causing all defers to use the typecode of the last iteration. 5 years ago
			`// regression1033 is a regression test for https://github.com/tinygo-org/tinygo/issues/1033.`
			`// In previous versions of the compiler, a deferred call to an interface would create an instruction that did not dominate its uses.`
			`func regression1033() {`
			`foo(&Bar{})`
			`}`

			`type Bar struct {`
			`empty bool`
			`}`

			`func (b *Bar) Close() error {`
			`return nil`
			`}`

			`type Closer interface {`
			`Close() error`
			`}`

			`func foo(bar *Bar) error {`
			`var a int`
			`if !bar.empty {`
			`a = 10`
			`if a != 5 {`
			`return nil`
			`}`
			`}`

			`var c Closer = bar`
			`defer c.Close()`

			`return nil`
			`}`
compiler: fix "fragment covers entire variable" bug This bug could sometimes be triggered by syscall/js code it seems. But it's a generic bug, not specific to WebAssembly. 4 years ago
			`type issue1304 struct {`
			`a [0]int // zero-length field`
			`b int // field 'b' covers entire struct`
			`}`

			`func (x issue1304) call() {`
			`// nothing to do`
			`}`
compiler: add support for recursive function types This adds support for a construct like this: type foo func(fn foo) Unfortunately, LLVM cannot create function pointers that look like this. LLVM only supports named types for structs (not for pointers) and thus can't add a pointer to a function type of the same type to a parameter of that function type. The fix is simple: cast all function pointers to a void function, in LLVM IR: void ()* Raw function pointers are cast to this type before storing, and cast back to the regular function type before calling. This means that function parameters will never refer to its own type because raw function types are fixed at that one type. Somehow, this does have an effect on binary size in some cases. The effect is small and goes both ways. On top of that, there is work underway in LLVM which would make all pointer types opaque (without a pointee type). This would make this whole commit useless and therefore should fix any size increases that might happen. https://llvm.org/docs/OpaquePointers.html 3 years ago
			`type recursiveFuncType func(recursiveFuncType)`

			`var recursiveFunction recursiveFuncType`