Improved code formatting (#33)

- Used dfmt (otbs style)
- Added some empty lines and braces on all block statements
- Add .editorconfig

Closes #29
This commit is contained in:
Harry Vennik 2017-12-18 19:19:27 +01:00 committed by thaven
parent c42eb823a2
commit 137b3c36b7
10 changed files with 723 additions and 542 deletions

8
.editorconfig Normal file
View file

@ -0,0 +1,8 @@
[**.d]
indent_style = space
indent_size = 2
dfmt_brace_style = otbs
dfmt_space_after_keywords = true
dfmt_space_after_cast = true
dfmt_template_constraint_style = always_newline_indent

View file

@ -10,16 +10,22 @@ import std.typecons : BitFlags, Flag;
Default is to include public fields only
+/
enum MarshalingFlag : ubyte {
includePrivateFields = 1 << 0, /// Automatically include private fields
manualOnly = 1 << 7 /// Only include fields with explicit
/// `@Yes.DBusMarshal`. This overrides any
/// `include` flags.
/++
Automatically include private fields
+/
includePrivateFields = 1 << 0,
/++
Only include fields with explicit `@Yes.DBusMarshal`. This overrides any
`include` flags.
+/
manualOnly = 1 << 7
}
/++
UDA for specifying DBus marshaling options on structs
+/
auto dbusMarshaling(Args)(Args args ...)
auto dbusMarshaling(Args)(Args args...)
if (allSatisfy!(isMarshalingFlag, Args)) {
return BitFlags!MarshalingFlag(args);
}
@ -29,37 +35,40 @@ package(ddbus) template isAllowedField(alias field) {
private alias getUDAs!(field, Flag!"DBusMarshal") UDAs;
static if (UDAs.length != 0) {
static assert (UDAs.length == 1,
static assert(UDAs.length == 1,
"Only one UDA of type Flag!\"DBusMarshal\" allowed on struct field.");
static assert (is(typeof(UDAs[0]) == Flag!"DBusMarshal"),
static assert(is(typeof(UDAs[0]) == Flag!"DBusMarshal"),
"Did you intend to add UDA Yes.DBusMarshal or No.DBusMarshal?");
enum isAllowedField = cast(bool) UDAs[0];
} else static if (!(flags & MarshalingFlag.manualOnly)) {
static if (__traits(getProtection, field) == "public")
static if (__traits(getProtection, field) == "public") {
enum isAllowedField = true;
else static if (cast(bool) (flags & MarshalingFlag.includePrivateFields))
} else static if (cast(bool)(flags & MarshalingFlag.includePrivateFields)) {
enum isAllowedField = true;
else
} else {
enum isAllowedField = false;
} else
}
} else {
enum isAllowedField = false;
}
}
private template isMarshalingFlag(T) {
enum isMarshalingFlag = is(T == MarshalingFlag);
}
private template marshalingFlags(S) if (is(S == struct)) {
private template marshalingFlags(S)
if (is(S == struct)) {
private alias getUDAs!(S, BitFlags!MarshalingFlag) UDAs;
static if (UDAs.length == 0)
static if (UDAs.length == 0) {
enum marshalingFlags = BitFlags!MarshalingFlag.init;
else {
static assert (UDAs.length == 1,
"Only one @dbusMarshaling UDA allowed on type.");
static assert (is(typeof(UDAs[0]) == BitFlags!MarshalingFlag),
} else {
static assert(UDAs.length == 1, "Only one @dbusMarshaling UDA allowed on type.");
static assert(is(typeof(UDAs[0]) == BitFlags!MarshalingFlag),
"Huh? Did you intend to use @dbusMarshaling UDA?");
enum marshalingFlags = UDAs[0];
}
}

View file

@ -10,7 +10,9 @@ enum BusPath = "/org/freedesktop/DBus";
enum BusInterface = "org.freedesktop.DBus";
enum NameFlags {
AllowReplace = 1, ReplaceExisting = 2, NoQueue = 4
AllowReplace = 1,
ReplaceExisting = 2,
NoQueue = 4
}
/// Requests a DBus well-known name.
@ -18,8 +20,8 @@ enum NameFlags {
/// Involves blocking call on a DBus method, may throw an exception on failure.
bool requestName(Connection conn, string name,
NameFlags flags = NameFlags.NoQueue | NameFlags.AllowReplace) {
auto msg = Message(BusService,BusPath,BusInterface,"RequestName");
msg.build(name,cast(uint)(flags));
auto msg = Message(BusService, BusPath, BusInterface, "RequestName");
msg.build(name, cast(uint)(flags));
auto res = conn.sendWithReplyBlocking(msg).to!uint;
return (res == 1) || (res == 4);
}
@ -28,7 +30,8 @@ bool requestName(Connection conn, string name,
/// and isn't guaranteed to work with other tasks and threads.
/// Use only for apps that only do DBus triggered things.
void simpleMainLoop(Connection conn) {
while(dbus_connection_read_write_dispatch(conn.conn, -1)) {} // empty loop body
while (dbus_connection_read_write_dispatch(conn.conn, -1)) {
} // empty loop body
}
/// Single tick in the DBus connection which can be used for
@ -39,7 +42,7 @@ bool tick(Connection conn) {
unittest {
import dunit.toolkit;
Connection conn = connectToBus();
conn.requestName("ca.thume.ddbus.testing").assertTrue();
}

View file

@ -1,6 +1,10 @@
module ddbus.c_lib;
import core.stdc.config;
import core.stdc.stdarg;
// dfmt off
extern (C):
// START dbus/dbus-arch-deps.d
alias c_long dbus_int64_t;

View file

@ -7,36 +7,37 @@ import ddbus.util;
import ddbus.thin;
import std.exception : enforce;
import std.meta: allSatisfy;
import std.meta : allSatisfy;
import std.string;
import std.typecons;
import std.range;
import std.traits;
import std.variant : VariantN;
void buildIter(TS...)(DBusMessageIter *iter, TS args) if(allCanDBus!TS) {
foreach(index, arg; args) {
void buildIter(TS...)(DBusMessageIter* iter, TS args)
if (allCanDBus!TS) {
foreach (index, arg; args) {
alias TS[index] T;
static if(is(T == string)) {
static if (is(T == string)) {
immutable(char)* cStr = arg.toStringz();
dbus_message_iter_append_basic(iter,typeCode!T,&cStr);
} else static if(is(T == ObjectPath)) {
dbus_message_iter_append_basic(iter, typeCode!T, &cStr);
} else static if (is(T == ObjectPath)) {
immutable(char)* cStr = arg.toString().toStringz();
dbus_message_iter_append_basic(iter,typeCode!T,&cStr);
} else static if(is(T==bool)) {
dbus_message_iter_append_basic(iter, typeCode!T, &cStr);
} else static if (is(T == bool)) {
dbus_bool_t longerBool = arg; // dbus bools are ints
dbus_message_iter_append_basic(iter,typeCode!T,&longerBool);
} else static if(isTuple!T) {
dbus_message_iter_append_basic(iter, typeCode!T, &longerBool);
} else static if (isTuple!T) {
DBusMessageIter sub;
dbus_message_iter_open_container(iter, 'r', null, &sub);
buildIter(&sub, arg.expand);
dbus_message_iter_close_container(iter, &sub);
} else static if(isInputRange!T) {
} else static if (isInputRange!T) {
DBusMessageIter sub;
const(char)* subSig = (typeSig!(ElementType!T)()).toStringz();
dbus_message_iter_open_container(iter, 'a', subSig, &sub);
foreach(x; arg) {
static if(isInstanceOf!(DictionaryEntry, typeof(x))) {
foreach (x; arg) {
static if (isInstanceOf!(DictionaryEntry, typeof(x))) {
DBusMessageIter entry;
dbus_message_iter_open_container(&sub, 'e', null, &entry);
buildIter(&entry, x.key);
@ -47,11 +48,11 @@ void buildIter(TS...)(DBusMessageIter *iter, TS args) if(allCanDBus!TS) {
}
}
dbus_message_iter_close_container(iter, &sub);
} else static if(isAssociativeArray!T) {
} else static if (isAssociativeArray!T) {
DBusMessageIter sub;
const(char)* subSig = typeSig!T[1..$].toStringz();
const(char)* subSig = typeSig!T[1 .. $].toStringz();
dbus_message_iter_open_container(iter, 'a', subSig, &sub);
foreach(k, v; arg) {
foreach (k, v; arg) {
DBusMessageIter entry;
dbus_message_iter_open_container(&sub, 'e', null, &entry);
buildIter(&entry, k);
@ -59,12 +60,11 @@ void buildIter(TS...)(DBusMessageIter *iter, TS args) if(allCanDBus!TS) {
dbus_message_iter_close_container(&sub, &entry);
}
dbus_message_iter_close_container(iter, &sub);
} else static if(isInstanceOf!(VariantN, T)) {
enforce(arg.hasValue,
new InvalidValueException(arg, "dbus:" ~ cast(char) typeCode!T));
} else static if (isInstanceOf!(VariantN, T)) {
enforce(arg.hasValue, new InvalidValueException(arg, "dbus:" ~ cast(char) typeCode!T));
DBusMessageIter sub;
foreach(AT; T.AllowedTypes) {
foreach (AT; T.AllowedTypes) {
if (arg.peek!AT) {
dbus_message_iter_open_container(iter, 'v', typeSig!AT.ptr, &sub);
buildIter(&sub, arg.get!AT);
@ -72,8 +72,8 @@ void buildIter(TS...)(DBusMessageIter *iter, TS args) if(allCanDBus!TS) {
break;
}
}
} else static if(is(T == DBusAny) || is(T == Variant!DBusAny)) {
static if(is(T == Variant!DBusAny)) {
} else static if (is(T == DBusAny) || is(T == Variant!DBusAny)) {
static if (is(T == Variant!DBusAny)) {
auto val = arg.data;
val.explicitVariant = true;
} else {
@ -81,66 +81,81 @@ void buildIter(TS...)(DBusMessageIter *iter, TS args) if(allCanDBus!TS) {
}
DBusMessageIter subStore;
DBusMessageIter* sub = &subStore;
const(char)[] sig = [ cast(char) val.type ];
if(val.type == 'a')
const(char)[] sig = [cast(char) val.type];
if (val.type == 'a') {
sig ~= val.signature;
else if(val.type == 'r')
} else if (val.type == 'r') {
sig = val.signature;
}
sig ~= '\0';
if (!val.explicitVariant)
if (!val.explicitVariant) {
sub = iter;
else
} else {
dbus_message_iter_open_container(iter, 'v', sig.ptr, sub);
if(val.type == 's') {
}
if (val.type == 's') {
buildIter(sub, val.str);
} else if(val.type == 'o') {
} else if (val.type == 'o') {
buildIter(sub, val.obj);
} else if(val.type == 'b') {
buildIter(sub,val.boolean);
} else if(dbus_type_is_basic(val.type)) {
dbus_message_iter_append_basic(sub,val.type,&val.int64);
} else if(val.type == 'a') {
} else if (val.type == 'b') {
buildIter(sub, val.boolean);
} else if (dbus_type_is_basic(val.type)) {
dbus_message_iter_append_basic(sub, val.type, &val.int64);
} else if (val.type == 'a') {
DBusMessageIter arr;
dbus_message_iter_open_container(sub, 'a', sig[1 .. $].ptr, &arr);
if (val.signature == ['y'])
foreach (item; val.binaryData)
if (val.signature == ['y']) {
foreach (item; val.binaryData) {
dbus_message_iter_append_basic(&arr, 'y', &item);
else
foreach(item; val.array)
}
} else {
foreach (item; val.array) {
buildIter(&arr, item);
}
}
dbus_message_iter_close_container(sub, &arr);
} else if(val.type == 'r') {
} else if (val.type == 'r') {
DBusMessageIter arr;
dbus_message_iter_open_container(sub, 'r', null, &arr);
foreach(item; val.tuple)
foreach (item; val.tuple) {
buildIter(&arr, item);
}
dbus_message_iter_close_container(sub, &arr);
} else if(val.type == 'e') {
} else if (val.type == 'e') {
DBusMessageIter entry;
dbus_message_iter_open_container(sub, 'e', null, &entry);
buildIter(&entry, val.entry.key);
buildIter(&entry, val.entry.value);
dbus_message_iter_close_container(sub, &entry);
}
if(val.explicitVariant)
if (val.explicitVariant) {
dbus_message_iter_close_container(iter, sub);
} else static if(isInstanceOf!(Variant, T)) {
}
} else static if (isInstanceOf!(Variant, T)) {
DBusMessageIter sub;
const(char)* subSig = typeSig!(VariantType!T).toStringz();
dbus_message_iter_open_container(iter, 'v', subSig, &sub);
buildIter(&sub, arg.data);
dbus_message_iter_close_container(iter, &sub);
} else static if(is(T == struct)) {
} else static if (is(T == struct)) {
DBusMessageIter sub;
dbus_message_iter_open_container(iter, 'r', null, &sub);
// Following failed because of missing 'this' for members of arg.
// That sucks. It worked without Filter.
// Reported: https://issues.dlang.org/show_bug.cgi?id=17692
// buildIter(&sub, Filter!(isAllowedField, arg.tupleof));
// buildIter(&sub, Filter!(isAllowedField, arg.tupleof));
// Using foreach to work around the issue
foreach(i, member; arg.tupleof) {
foreach (i, member; arg.tupleof) {
// Ugly, but we need to use tupleof again in the condition, because when
// we use `member`, isAllowedField will fail because it'll find this
// nice `buildIter` function instead of T when it looks up the parent
@ -150,55 +165,52 @@ void buildIter(TS...)(DBusMessageIter *iter, TS args) if(allCanDBus!TS) {
}
dbus_message_iter_close_container(iter, &sub);
} else static if(basicDBus!T) {
dbus_message_iter_append_basic(iter,typeCode!T,&arg);
} else static if (basicDBus!T) {
dbus_message_iter_append_basic(iter, typeCode!T, &arg);
}
}
}
T readIter(T)(DBusMessageIter *iter) if (is(T == enum)) {
T readIter(T)(DBusMessageIter* iter)
if (is(T == enum)) {
import std.algorithm.searching : canFind;
alias OriginalType!T B;
B value = readIter!B(iter);
enforce(
only(EnumMembers!T).canFind(value),
new InvalidValueException(value, T.stringof)
);
enforce(only(EnumMembers!T).canFind(value), new InvalidValueException(value, T.stringof));
return cast(T) value;
}
T readIter(T)(DBusMessageIter *iter) if (isInstanceOf!(BitFlags, T)) {
T readIter(T)(DBusMessageIter* iter)
if (isInstanceOf!(BitFlags, T)) {
import std.algorithm.iteration : fold;
alias TemplateArgsOf!T[0] E;
alias OriginalType!E B;
B mask = only(EnumMembers!E).fold!((a, b) => cast(B) (a | b));
B mask = only(EnumMembers!E).fold!((a, b) => cast(B)(a | b));
B value = readIter!B(iter);
enforce(
!(value & ~mask),
new InvalidValueException(value, T.stringof)
);
enforce(!(value & ~mask), new InvalidValueException(value, T.stringof));
return T(cast(E) value);
}
T readIter(T)(DBusMessageIter *iter) if (!is(T == enum) && !isInstanceOf!(BitFlags, T) && canDBus!T) {
T readIter(T)(DBusMessageIter* iter)
if (!is(T == enum) && !isInstanceOf!(BitFlags, T) && canDBus!T) {
auto argType = dbus_message_iter_get_arg_type(iter);
T ret;
static if(!isInstanceOf!(Variant, T) || is(T == Variant!DBusAny)) {
if(argType == 'v') {
static if (!isInstanceOf!(Variant, T) || is(T == Variant!DBusAny)) {
if (argType == 'v') {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
static if(is(T == Variant!DBusAny)) {
static if (is(T == Variant!DBusAny)) {
ret = variant(readIter!DBusAny(&sub));
} else {
ret = readIter!T(&sub);
static if(is(T == DBusAny))
static if (is(T == DBusAny))
ret.explicitVariant = true;
}
dbus_message_iter_next(iter);
@ -206,36 +218,35 @@ T readIter(T)(DBusMessageIter *iter) if (!is(T == enum) && !isInstanceOf!(BitFla
}
}
static if(
!is(T == DBusAny)
&& !is(T == Variant!DBusAny)
&& !isInstanceOf!(VariantN, T)
) {
enforce(argType == typeCode!T(),
new TypeMismatchException(typeCode!T(), argType));
static if (!is(T == DBusAny) && !is(T == Variant!DBusAny) && !isInstanceOf!(VariantN, T)) {
enforce(argType == typeCode!T(), new TypeMismatchException(typeCode!T(), argType));
}
static if(is(T==string) || is(T==ObjectPath)) {
static if (is(T == string) || is(T == ObjectPath)) {
const(char)* cStr;
dbus_message_iter_get_basic(iter, &cStr);
string str = cStr.fromStringz().idup; // copy string
static if(is(T==string))
static if (is(T == string)) {
ret = str;
else
} else {
ret = ObjectPath(str);
} else static if(is(T==bool)) {
}
} else static if (is(T == bool)) {
dbus_bool_t longerBool;
dbus_message_iter_get_basic(iter, &longerBool);
ret = cast(bool)longerBool;
} else static if(isTuple!T) {
ret = cast(bool) longerBool;
} else static if (isTuple!T) {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
readIterTuple!T(&sub, ret);
} else static if(is(T t : U[], U)) {
} else static if (is(T t : U[], U)) {
assert(dbus_message_iter_get_element_type(iter) == typeCode!U);
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
while(dbus_message_iter_get_arg_type(&sub) != 0) {
static if(is(U == DictionaryEntry!(K,V), K, V)) {
while (dbus_message_iter_get_arg_type(&sub) != 0) {
static if (is(U == DictionaryEntry!(K, V), K, V)) {
DBusMessageIter entry;
dbus_message_iter_recurse(&sub, &entry);
ret ~= U(readIter!K(&entry), readIter!V(&entry));
@ -244,17 +255,16 @@ T readIter(T)(DBusMessageIter *iter) if (!is(T == enum) && !isInstanceOf!(BitFla
ret ~= readIter!U(&sub);
}
}
} else static if(isInstanceOf!(Variant, T)) {
} else static if (isInstanceOf!(Variant, T)) {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
ret.data = readIter!(VariantType!T)(&sub);
} else static if(isInstanceOf!(VariantN, T)) {
scope const(char)[] argSig =
dbus_message_iter_get_signature(iter).fromStringz();
scope(exit)
} else static if (isInstanceOf!(VariantN, T)) {
scope const(char)[] argSig = dbus_message_iter_get_signature(iter).fromStringz();
scope (exit)
dbus_free(cast(void*) argSig.ptr);
foreach(AT; T.AllowedTypes) {
foreach (AT; T.AllowedTypes) {
// We have to compare the full signature here, not just the typecode.
// Otherwise, in case of container types, we might select the wrong one.
// We would then be calling an incorrect instance of readIter, which would
@ -267,10 +277,11 @@ T readIter(T)(DBusMessageIter *iter) if (!is(T == enum) && !isInstanceOf!(BitFla
// If no value is in ret, apparently none of the types matched.
enforce(ret.hasValue, new TypeMismatchException(typeCode!T, argType));
} else static if(isAssociativeArray!T) {
} else static if (isAssociativeArray!T) {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
while(dbus_message_iter_get_arg_type(&sub) != 0) {
while (dbus_message_iter_get_arg_type(&sub) != 0) {
DBusMessageIter entry;
dbus_message_iter_recurse(&sub, &entry);
auto k = readIter!(KeyType!T)(&entry);
@ -278,59 +289,64 @@ T readIter(T)(DBusMessageIter *iter) if (!is(T == enum) && !isInstanceOf!(BitFla
ret[k] = v;
dbus_message_iter_next(&sub);
}
} else static if(is(T == DBusAny)) {
} else static if (is(T == DBusAny)) {
ret.type = argType;
ret.explicitVariant = false;
if(ret.type == 's') {
if (ret.type == 's') {
ret.str = readIter!string(iter);
return ret;
} else if(ret.type == 'o') {
} else if (ret.type == 'o') {
ret.obj = readIter!ObjectPath(iter);
return ret;
} else if(ret.type == 'b') {
} else if (ret.type == 'b') {
ret.boolean = readIter!bool(iter);
return ret;
} else if(dbus_type_is_basic(ret.type)) {
} else if (dbus_type_is_basic(ret.type)) {
dbus_message_iter_get_basic(iter, &ret.int64);
} else if(ret.type == 'a') {
} else if (ret.type == 'a') {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
auto sig = dbus_message_iter_get_signature(&sub);
ret.signature = sig.fromStringz.dup;
dbus_free(sig);
if (ret.signature == ['y'])
while(dbus_message_iter_get_arg_type(&sub) != 0) {
if (ret.signature == ['y']) {
while (dbus_message_iter_get_arg_type(&sub) != 0) {
ubyte b;
assert(dbus_message_iter_get_arg_type(&sub) == 'y');
dbus_message_iter_get_basic(&sub, &b);
dbus_message_iter_next(&sub);
ret.binaryData ~= b;
}
else
while(dbus_message_iter_get_arg_type(&sub) != 0) {
} else {
while (dbus_message_iter_get_arg_type(&sub) != 0) {
ret.array ~= readIter!DBusAny(&sub);
}
} else if(ret.type == 'r') {
}
} else if (ret.type == 'r') {
auto sig = dbus_message_iter_get_signature(iter);
ret.signature = sig.fromStringz.dup;
dbus_free(sig);
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
while(dbus_message_iter_get_arg_type(&sub) != 0) {
while (dbus_message_iter_get_arg_type(&sub) != 0) {
ret.tuple ~= readIter!DBusAny(&sub);
}
} else if(ret.type == 'e') {
} else if (ret.type == 'e') {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
ret.entry = new DictionaryEntry!(DBusAny, DBusAny);
ret.entry.key = readIter!DBusAny(&sub);
ret.entry.value = readIter!DBusAny(&sub);
}
} else static if(is(T == struct)) {
} else static if (is(T == struct)) {
DBusMessageIter sub;
dbus_message_iter_recurse(iter, &sub);
readIterStruct!T(&sub, ret);
} else static if(basicDBus!T) {
} else static if (basicDBus!T) {
dbus_message_iter_get_basic(iter, &ret);
}
@ -338,15 +354,16 @@ T readIter(T)(DBusMessageIter *iter) if (!is(T == enum) && !isInstanceOf!(BitFla
return ret;
}
void readIterTuple(Tup)(DBusMessageIter *iter, ref Tup tuple) if(isTuple!Tup && allCanDBus!(Tup.Types)) {
foreach(index, T; Tup.Types) {
void readIterTuple(Tup)(DBusMessageIter* iter, ref Tup tuple)
if (isTuple!Tup && allCanDBus!(Tup.Types)) {
foreach (index, T; Tup.Types) {
tuple[index] = readIter!T(iter);
}
}
void readIterStruct(S)(DBusMessageIter *iter, ref S s) if(is(S == struct) && canDBus!S)
{
foreach(index, T; Fields!S) {
void readIterStruct(S)(DBusMessageIter* iter, ref S s)
if (is(S == struct) && canDBus!S) {
foreach (index, T; Fields!S) {
static if (isAllowedField!(s.tupleof[index])) {
s.tupleof[index] = readIter!T(iter);
}
@ -356,8 +373,12 @@ void readIterStruct(S)(DBusMessageIter *iter, ref S s) if(is(S == struct) && can
unittest {
import dunit.toolkit;
import ddbus.thin;
Variant!T var(T)(T data){ return Variant!T(data); }
Message msg = Message("org.example.wow","/wut","org.test.iface","meth");
Variant!T var(T)(T data) {
return Variant!T(data);
}
Message msg = Message("org.example.wow", "/wut", "org.test.iface", "meth");
bool[] emptyB;
string[string] map;
map["hello"] = "world";
@ -365,24 +386,24 @@ unittest {
anyVar.type.assertEqual('t');
anyVar.uint64.assertEqual(1561);
anyVar.explicitVariant.assertEqual(false);
auto tupleMember = DBusAny(tuple(Variant!int(45), Variant!ushort(5), 32, [1, 2], tuple(variant(4), 5), map));
Variant!DBusAny complexVar = variant(DBusAny([
"hello world": variant(DBusAny(1337)),
"array value": variant(DBusAny([42, 64])),
"tuple value": variant(tupleMember),
"optimized binary data": variant(DBusAny(cast(ubyte[]) [1, 2, 3, 4, 5, 6]))
]));
auto tupleMember = DBusAny(tuple(Variant!int(45), Variant!ushort(5), 32,
[1, 2], tuple(variant(4), 5), map));
Variant!DBusAny complexVar = variant(DBusAny(["hello world" : variant(DBusAny(1337)),
"array value" : variant(DBusAny([42, 64])), "tuple value"
: variant(tupleMember), "optimized binary data"
: variant(DBusAny(cast(ubyte[])[1, 2, 3, 4, 5, 6]))]));
complexVar.data.type.assertEqual('a');
complexVar.data.signature.assertEqual("{sv}".dup);
tupleMember.signature.assertEqual("(vviai(vi)a{ss})");
auto args = tuple(5,true,"wow",var(5.9),[6,5],tuple(6.2,4,[["lol"]],emptyB,var([4,2])),map,anyVar,complexVar);
auto args = tuple(5, true, "wow", var(5.9), [6, 5], tuple(6.2, 4, [["lol"]],
emptyB, var([4, 2])), map, anyVar, complexVar);
msg.build(args.expand);
msg.signature().assertEqual("ibsvai(diaasabv)a{ss}tv");
msg.read!string().assertThrow!TypeMismatchException();
msg.readTuple!(Tuple!(int, bool, double)).assertThrow!TypeMismatchException();
msg.readTuple!(Tuple!(int, bool, string, double)).assertEqual(tuple(5,true,"wow", 5.9));
msg.readTuple!(Tuple!(int, bool, string, double)).assertEqual(tuple(5, true, "wow", 5.9));
msg.readTuple!(typeof(args))().assertEqual(args);
DBusMessageIter iter;
@ -391,13 +412,14 @@ unittest {
readIter!bool(&iter).assertEqual(true);
readIter!string(&iter).assertEqual("wow");
readIter!double(&iter).assertEqual(5.9);
readIter!(int[])(&iter).assertEqual([6,5]);
readIter!(Tuple!(double,int,string[][],bool[],Variant!(int[])))(&iter).assertEqual(tuple(6.2,4,[["lol"]],emptyB,var([4,2])));
readIter!(int[])(&iter).assertEqual([6, 5]);
readIter!(Tuple!(double, int, string[][], bool[], Variant!(int[])))(&iter).assertEqual(
tuple(6.2, 4, [["lol"]], emptyB, var([4, 2])));
// There are two ways to read a dictionary, so duplicate the iterator to test both.
auto iter2 = iter;
readIter!(string[string])(&iter).assertEqual(["hello": "world"]);
auto dict = readIter!(DictionaryEntry!(string,string)[])(&iter2);
readIter!(string[string])(&iter).assertEqual(["hello" : "world"]);
auto dict = readIter!(DictionaryEntry!(string, string)[])(&iter2);
dict.length.assertEqual(1);
dict[0].key.assertEqual("hello");
dict[0].value.assertEqual("world");
@ -412,8 +434,18 @@ unittest {
import std.variant : Algebraic;
enum E : int { a, b, c }
enum F : uint { x = 1, y = 2, z = 4 }
enum E : int {
a,
b,
c
}
enum F : uint {
x = 1,
y = 2,
z = 4
}
alias V = Algebraic!(byte, short, int, long, string);
Message msg = Message("org.example.wow", "/wut", "org.test.iface", "meth2");
@ -437,4 +469,3 @@ unittest {
readIter!V(&iter).assertEqual(v1);
readIter!short(&iter).assertEqual(v2.get!short);
}

View file

@ -2,16 +2,12 @@ module ddbus.exception;
import ddbus.c_lib;
package T wrapErrors(T)(
T delegate(DBusError *err) del,
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null
) {
package T wrapErrors(T)(T delegate(DBusError* err) del, string file = __FILE__,
size_t line = __LINE__, Throwable next = null) {
DBusError error;
dbus_error_init(&error);
T ret = del(&error);
if(dbus_error_is_set(&error)) {
if (dbus_error_is_set(&error)) {
auto ex = new DBusException(&error, file, line, next);
dbus_error_free(&error);
throw ex;
@ -23,12 +19,8 @@ package T wrapErrors(T)(
Thrown when a DBus error code was returned by libdbus.
+/
class DBusException : Exception {
private this(
scope DBusError *err,
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null
) pure nothrow {
private this(scope DBusError* err, string file = __FILE__,
size_t line = __LINE__, Throwable next = null) pure nothrow {
import std.string : fromStringz;
super(err.message.fromStringz().idup, file, line, next);
@ -41,37 +33,27 @@ class DBusException : Exception {
of its actual value.
+/
class TypeMismatchException : Exception {
package this(
int expectedType,
int actualType,
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null
) pure nothrow @safe {
package this(int expectedType, int actualType, string file = __FILE__,
size_t line = __LINE__, Throwable next = null) pure nothrow @safe {
string message;
// dfmt off
if (expectedType == 'v') {
message = "The type of value at the current position in the message is"
~ " incompatible to the target variant type."
~ " Type code of the value: '" ~ cast(char) actualType ~ '\'';
~ " incompatible to the target variant type." ~ " Type code of the value: '"
~ cast(char) actualType ~ '\'';
} else {
message = "The type of value at the current position in the message does"
~ " not match the type of value to be read."
~ " Expected: '" ~ cast(char) expectedType ~ "',"
~ " Got: '" ~ cast(char) actualType ~ '\'';
~ " not match the type of value to be read." ~ " Expected: '"
~ cast(char) expectedType ~ "'," ~ " Got: '" ~ cast(char) actualType ~ '\'';
}
// dfmt on
this(message, expectedType, actualType, file, line, next);
}
this(
string message,
int expectedType,
int actualType,
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null
) pure nothrow @safe {
this(string message, int expectedType, int actualType, string file = __FILE__,
size_t line = __LINE__, Throwable next = null) pure nothrow @safe {
_expectedType = expectedType;
_actualType = actualType;
super(message, file, line, next);
@ -85,7 +67,7 @@ class TypeMismatchException : Exception {
return _actualType;
}
private:
private:
int _expectedType;
int _actualType;
}
@ -98,19 +80,15 @@ class TypeMismatchException : Exception {
that have a constrained value set, such as Enums.
+/
class InvalidValueException : Exception {
package this(Source)(
Source value,
string targetType,
string file = __FILE__,
size_t line = __LINE__,
Throwable next = null
) {
package this(Source)(Source value, string targetType, string file = __FILE__,
size_t line = __LINE__, Throwable next = null) {
import std.conv : to;
static if(__traits(compiles, value.to!string))
static if (__traits(compiles, value.to!string)) {
string valueString = value.to!string;
else
} else {
string valueString = "(unprintable)";
}
super("Value " ~ valueString ~ " cannot be represented in type " ~ targetType);
}

View file

@ -36,19 +36,20 @@ struct MessagePattern {
hash += stringHash(&path);
hash += stringHash(&iface);
hash += stringHash(&method);
hash += (signal?1:0);
hash += (signal ? 1 : 0);
return hash;
}
bool opEquals(ref const this s) const @safe pure nothrow {
bool opEquals(ref const typeof(this) s) const @safe pure nothrow {
return (path == s.path) && (iface == s.iface) && (method == s.method) && (signal == s.signal);
}
}
unittest {
import dunit.toolkit;
auto msg = Message("org.example.test", "/test","org.example.testing","testMethod");
auto patt= new MessagePattern(msg);
auto msg = Message("org.example.test", "/test", "org.example.testing", "testMethod");
auto patt = new MessagePattern(msg);
patt.assertEqual(patt);
patt.signal.assertFalse();
patt.path.assertEqual("/test");
@ -66,30 +67,34 @@ class MessageRouter {
bool handle(Message msg, Connection conn) {
MessageType type = msg.type();
if(type != MessageType.Call && type != MessageType.Signal)
if (type != MessageType.Call && type != MessageType.Signal) {
return false;
}
auto pattern = MessagePattern(msg);
// import std.stdio; debug writeln("Handling ", pattern);
if(pattern.iface == "org.freedesktop.DBus.Introspectable" &&
pattern.method == "Introspect" && !pattern.signal) {
if (pattern.iface == "org.freedesktop.DBus.Introspectable"
&& pattern.method == "Introspect" && !pattern.signal) {
handleIntrospect(pattern.path, msg, conn);
return true;
}
MessageHandler* handler = (pattern in callTable);
if(handler is null) return false;
if (handler is null) {
return false;
}
// Check for matching argument types
version(DDBusNoChecking) {
version (DDBusNoChecking) {
} else {
if(!equal(join(handler.argSig), msg.signature())) {
if (!equal(join(handler.argSig), msg.signature())) {
return false;
}
}
handler.func(msg,conn);
handler.func(msg, conn);
return true;
}
@ -97,25 +102,39 @@ class MessageRouter {
void handlerWrapper(Message call, Connection conn) {
Tuple!Args args = call.readTuple!(Tuple!Args)();
auto retMsg = call.createReturn();
static if(!is(Ret == void)) {
static if (!is(Ret == void)) {
Ret ret = handler(args.expand);
static if (is(Ret == Tuple!T, T...))
static if (is(Ret == Tuple!T, T...)) {
retMsg.build!T(ret.expand);
else
} else {
retMsg.build(ret);
}
} else {
handler(args.expand);
}
if(!patt.signal)
if (!patt.signal) {
conn.send(retMsg);
}
}
static string[] args = typeSigArr!Args;
static if(is(Ret==void)) {
static if (is(Ret == void)) {
static string[] ret = [];
} else {
static string[] ret = typeSigReturn!Ret;
}
MessageHandler handleStruct = {func: &handlerWrapper, argSig: args, retSig: ret};
// dfmt off
MessageHandler handleStruct = {
func: &handlerWrapper,
argSig: args,
retSig: ret
};
// dfmt on
callTable[patt] = handleStruct;
}
@ -123,38 +142,50 @@ class MessageRouter {
<node name="%s">`;
string introspectXML(string path) {
auto methods = callTable.byKey().filter!(a => (a.path == path) && !a.signal)().array()
// .schwartzSort!((a) => a.iface, "a<b")();
.sort!((a,b) => a.iface < b.iface)();
// dfmt off
auto methods = callTable
.byKey()
.filter!(a => (a.path == path) && !a.signal)
.array
.sort!((a, b) => a.iface < b.iface)();
// dfmt on
auto ifaces = methods.groupBy();
auto app = appender!string;
formattedWrite(app,introspectHeader,path);
foreach(iface; ifaces) {
formattedWrite(app,`<interface name="%s">`,iface.front.iface);
foreach(methodPatt; iface.array()) {
formattedWrite(app,`<method name="%s">`,methodPatt.method);
formattedWrite(app, introspectHeader, path);
foreach (iface; ifaces) {
formattedWrite(app, `<interface name="%s">`, iface.front.iface);
foreach (methodPatt; iface.array()) {
formattedWrite(app, `<method name="%s">`, methodPatt.method);
auto handler = callTable[methodPatt];
foreach(arg; handler.argSig) {
formattedWrite(app,`<arg type="%s" direction="in"/>`,arg);
foreach (arg; handler.argSig) {
formattedWrite(app, `<arg type="%s" direction="in"/>`, arg);
}
foreach(arg; handler.retSig) {
formattedWrite(app,`<arg type="%s" direction="out"/>`,arg);
foreach (arg; handler.retSig) {
formattedWrite(app, `<arg type="%s" direction="out"/>`, arg);
}
app.put("</method>");
}
app.put("</interface>");
}
string childPath = path;
if(!childPath.endsWith("/")) {
if (!childPath.endsWith("/")) {
childPath ~= "/";
}
auto children = callTable.byKey().filter!(a => (a.path.startsWith(childPath)) && !a.signal)()
.map!((s) => s.path.chompPrefix(childPath))
.map!((s) => s.splitter('/').front)
.array().sort().uniq();
foreach(child; children) {
formattedWrite(app,`<node name="%s"/>`,child);
auto children = callTable.byKey()
.filter!(a => (a.path.startsWith(childPath)) && !a.signal)().map!(
(s) => s.path.chompPrefix(childPath)).map!((s) => s.splitter('/')
.front).array().sort().uniq();
foreach (child; children) {
formattedWrite(app, `<node name="%s"/>`, child);
}
app.put("</node>");
@ -168,31 +199,33 @@ class MessageRouter {
}
}
extern(C) private DBusHandlerResult filterFunc(DBusConnection *dConn, DBusMessage *dMsg, void *routerP) {
MessageRouter router = cast(MessageRouter)routerP;
extern (C) private DBusHandlerResult filterFunc(DBusConnection* dConn,
DBusMessage* dMsg, void* routerP) {
MessageRouter router = cast(MessageRouter) routerP;
dbus_message_ref(dMsg);
Message msg = Message(dMsg);
dbus_connection_ref(dConn);
Connection conn = Connection(dConn);
bool handled = router.handle(msg, conn);
if(handled) {
if (handled) {
return DBusHandlerResult.DBUS_HANDLER_RESULT_HANDLED;
} else {
return DBusHandlerResult.DBUS_HANDLER_RESULT_NOT_YET_HANDLED;
}
}
extern(C) private void unrootUserData(void *userdata) {
extern (C) private void unrootUserData(void* userdata) {
GC.removeRoot(userdata);
}
void registerRouter(Connection conn, MessageRouter router) {
void *routerP = cast(void*)router;
void* routerP = cast(void*) router;
GC.addRoot(routerP);
dbus_connection_add_filter(conn.conn, &filterFunc, routerP, &unrootUserData);
}
unittest{
unittest {
import dunit.toolkit;
import std.typecons : BitFlags;
@ -200,31 +233,53 @@ unittest{
auto router = new MessageRouter();
// set up test messages
MessagePattern patt = MessagePattern("/root","ca.thume.test","test");
router.setHandler!(int,int)(patt,(int p) {return 6;});
patt = MessagePattern("/root","ca.thume.tester","lolwut");
router.setHandler!(void,int,string)(patt,(int p, string p2) {});
patt = MessagePattern("/root/wat","ca.thume.tester","lolwut");
router.setHandler!(int,int)(patt,(int p) {return 6;});
patt = MessagePattern("/root/bar","ca.thume.tester","lolwut");
router.setHandler!(Variant!DBusAny,int)(patt,(int p) {return variant(DBusAny(p));});
patt = MessagePattern("/root/foo","ca.thume.tester","lolwut");
router.setHandler!(Tuple!(string,string,int),int,Variant!DBusAny)(patt,(int p, Variant!DBusAny any) {Tuple!(string,string,int) ret; ret[0] = "a"; ret[1] = "b"; ret[2] = p; return ret;});
patt = MessagePattern("/troll","ca.thume.tester","wow");
router.setHandler!(void)(patt,{return;});
MessagePattern patt = MessagePattern("/root", "ca.thume.test", "test");
router.setHandler!(int, int)(patt, (int p) { return 6; });
patt = MessagePattern("/root", "ca.thume.tester", "lolwut");
router.setHandler!(void, int, string)(patt, (int p, string p2) { });
patt = MessagePattern("/root/wat", "ca.thume.tester", "lolwut");
router.setHandler!(int, int)(patt, (int p) { return 6; });
patt = MessagePattern("/root/bar", "ca.thume.tester", "lolwut");
router.setHandler!(Variant!DBusAny, int)(patt, (int p) {
return variant(DBusAny(p));
});
patt = MessagePattern("/root/foo", "ca.thume.tester", "lolwut");
router.setHandler!(Tuple!(string, string, int), int,
Variant!DBusAny)(patt, (int p, Variant!DBusAny any) {
Tuple!(string, string, int) ret;
ret[0] = "a";
ret[1] = "b";
ret[2] = p;
return ret;
});
patt = MessagePattern("/troll", "ca.thume.tester", "wow");
router.setHandler!(void)(patt, { return; });
patt = MessagePattern("/root/fancy", "ca.thume.tester", "crazyTest");
enum F : ushort {
a = 1,
b = 8,
c = 16
}
struct S {
byte b;
ulong ul;
F f;
}
patt = MessagePattern("/root/fancy","ca.thume.tester","crazyTest");
enum F : ushort { a = 1, b = 8, c = 16 }
struct S { byte b; ulong ul; F f; }
router.setHandler!(int)(patt, (Algebraic!(ushort, BitFlags!F, S) v) {
if (v.type is typeid(ushort) || v.type is typeid(BitFlags!F)) {
return v.coerce!int;
} else if (v.type is typeid(S)) {
auto s = v.get!S;
final switch (s.f) {
case F.a: return s.b;
case F.b: return cast(int) s.ul;
case F.c: return cast(int) s.ul + s.b;
case F.a:
return s.b;
case F.b:
return cast(int) s.ul;
case F.c:
return cast(int) s.ul + s.b;
}
}
@ -232,8 +287,8 @@ unittest{
});
static assert(!__traits(compiles, {
patt = MessagePattern("/root/bar","ca.thume.tester","lolwut");
router.setHandler!(void, DBusAny)(patt,(DBusAny wrongUsage){return;});
patt = MessagePattern("/root/bar", "ca.thume.tester", "lolwut");
router.setHandler!(void, DBusAny)(patt, (DBusAny wrongUsage) { return; });
}));
// TODO: these tests rely on nondeterministic hash map ordering
@ -246,5 +301,6 @@ unittest{
static string introspectResult3 = `<!DOCTYPE node PUBLIC "-//freedesktop//DTD D-BUS Object Introspection 1.0//EN" "http://www.freedesktop.org/standards/dbus/1.0/introspect.dtd">
<node name="/root/fancy"><interface name="ca.thume.tester"><method name="crazyTest"><arg type="v" direction="in"/><arg type="i" direction="out"/></method></interface></node>`;
router.introspectXML("/root/fancy").assertEqual(introspectResult3);
router.introspectXML("/").assertEndsWith(`<node name="/"><node name="root"/><node name="troll"/></node>`);
router.introspectXML("/")
.assertEndsWith(`<node name="/"><node name="root"/><node name="troll"/></node>`);
}

View file

@ -19,15 +19,16 @@ class PathIface {
this.iface = iface.toStringz();
}
Ret call(Ret, Args...)(string meth, Args args) if(allCanDBus!Args && canDBus!Ret) {
Message msg = Message(dbus_message_new_method_call(dest,path,iface,meth.toStringz()));
Ret call(Ret, Args...)(string meth, Args args)
if (allCanDBus!Args && canDBus!Ret) {
Message msg = Message(dbus_message_new_method_call(dest, path, iface, meth.toStringz()));
msg.build(args);
Message ret = conn.sendWithReplyBlocking(msg);
return ret.read!Ret();
}
Message opDispatch(string meth, Args...)(Args args) {
Message msg = Message(dbus_message_new_method_call(dest,path,iface,meth.toStringz()));
Message msg = Message(dbus_message_new_method_call(dest, path, iface, meth.toStringz()));
msg.build(args);
return conn.sendWithReplyBlocking(msg);
}
@ -40,12 +41,13 @@ class PathIface {
unittest {
import dunit.toolkit;
Connection conn = connectToBus();
PathIface obj = new PathIface(conn, "org.freedesktop.DBus","/org/freedesktop/DBus",
"org.freedesktop.DBus");
PathIface obj = new PathIface(conn, "org.freedesktop.DBus",
"/org/freedesktop/DBus", "org.freedesktop.DBus");
auto names = obj.GetNameOwner("org.freedesktop.DBus").to!string();
names.assertEqual("org.freedesktop.DBus");
obj.call!string("GetNameOwner","org.freedesktop.DBus").assertEqual("org.freedesktop.DBus");
obj.call!string("GetNameOwner", "org.freedesktop.DBus").assertEqual("org.freedesktop.DBus");
}
enum SignalMethod;
@ -63,30 +65,39 @@ enum SignalMethod;
could be instantiated with any object efficiently and placed in the router table with minimal duplication.
*/
void registerMethods(T : Object)(MessageRouter router, string path, string iface, T obj) {
MessagePattern patt = MessagePattern(path,iface,"",false);
foreach(member; __traits(allMembers, T)) {
MessagePattern patt = MessagePattern(path, iface, "", false);
foreach (member; __traits(allMembers, T)) {
// dfmt off
static if (__traits(compiles, __traits(getOverloads, obj, member))
&& __traits(getOverloads, obj, member).length > 0
&& __traits(compiles, router.setHandler(patt, &__traits(getOverloads,obj,member)[0]))) {
&& __traits(compiles, router.setHandler(patt, &__traits(getOverloads, obj, member)[0]))) {
patt.method = member;
patt.signal = hasUDA!(__traits(getOverloads,obj,member)[0], SignalMethod);
router.setHandler(patt, &__traits(getOverloads,obj,member)[0]);
patt.signal = hasUDA!(__traits(getOverloads, obj, member)[0], SignalMethod);
router.setHandler(patt, &__traits(getOverloads, obj, member)[0]);
}
// dfmt on
}
}
unittest {
import dunit.toolkit;
class Tester {
int lol(int x, string s, string[string] map, Variant!DBusAny any) {return 5;}
void wat() {}
@SignalMethod
void signalRecv() {}
int lol(int x, string s, string[string] map, Variant!DBusAny any) {
return 5;
}
void wat() {
}
@SignalMethod void signalRecv() {
}
}
auto o = new Tester;
auto router = new MessageRouter;
registerMethods(router, "/","ca.thume.test",o);
MessagePattern patt = MessagePattern("/","ca.thume.test","wat");
registerMethods(router, "/", "ca.thume.test", o);
MessagePattern patt = MessagePattern("/", "ca.thume.test", "wat");
router.callTable.assertHasKey(patt);
patt.method = "signalRecv";
patt.signal = true;
@ -95,6 +106,6 @@ unittest {
patt.signal = false;
router.callTable.assertHasKey(patt);
auto res = router.callTable[patt];
res.argSig.assertEqual(["i","s","a{ss}","v"]);
res.argSig.assertEqual(["i", "s", "a{ss}", "v"]);
res.retSig.assertEqual(["i"]);
}

View file

@ -48,24 +48,28 @@ struct ObjectPath {
}
ObjectPath opBinary(string op : "~")(string rhs) const pure @safe {
if (!rhs.startsWith("/"))
if (!rhs.startsWith("/")) {
return opBinary!"~"(ObjectPath("/" ~ rhs));
else
} else {
return opBinary!"~"(ObjectPath(rhs));
}
}
ObjectPath opBinary(string op : "~")(ObjectPath rhs) const pure @safe
in {
assert(ObjectPath.isValid(_value) && ObjectPath.isValid(rhs._value));
} out (v) {
}
out (v) {
assert(ObjectPath.isValid(v._value));
} body {
}
body {
ObjectPath ret;
if (_value == "/")
if (_value == "/") {
ret._value = rhs._value;
else
} else {
ret._value = _value ~ rhs._value;
}
return ret;
}
@ -85,20 +89,21 @@ struct ObjectPath {
static bool isValid(string objPath) pure @nogc nothrow @safe {
import std.ascii : isAlphaNum;
if (!objPath.length)
if (!objPath.length) {
return false;
if (objPath == "/")
}
if (objPath == "/") {
return true;
if (objPath[0] != '/' || objPath[$ - 1] == '/')
}
if (objPath[0] != '/' || objPath[$ - 1] == '/') {
return false;
}
// .representation to avoid unicode exceptions -> @nogc & nothrow
return objPath.representation.splitter('/').drop(1)
.all!(a =>
a.length &&
a.all!(c =>
c.isAlphaNum || c == '_'
)
);
return objPath.representation.splitter('/').drop(1).all!(a => a.length
&& a.all!(c => c.isAlphaNum || c == '_'));
}
}
@ -137,8 +142,7 @@ struct DBusAny {
/// Same functionality as Variant!T but with dynamic types if true.
bool explicitVariant;
union
{
union {
///
byte int8;
///
@ -181,107 +185,125 @@ struct DBusAny {
/// Automatically creates a DBusAny object with fitting parameters from a D type or Variant!T.
/// Pass a `Variant!T` to make this an explicit variant.
this(T)(T value) {
static if(is(T == byte) || is(T == ubyte)) {
static if (is(T == byte) || is(T == ubyte)) {
this(typeCode!byte, null, false);
int8 = cast(byte) value;
} else static if(is(T == short)) {
} else static if (is(T == short)) {
this(typeCode!short, null, false);
int16 = cast(short) value;
} else static if(is(T == ushort)) {
} else static if (is(T == ushort)) {
this(typeCode!ushort, null, false);
uint16 = cast(ushort) value;
} else static if(is(T == int)) {
} else static if (is(T == int)) {
this(typeCode!int, null, false);
int32 = cast(int) value;
} else static if(is(T == uint)) {
} else static if (is(T == uint)) {
this(typeCode!uint, null, false);
uint32 = cast(uint) value;
} else static if(is(T == long)) {
} else static if (is(T == long)) {
this(typeCode!long, null, false);
int64 = cast(long) value;
} else static if(is(T == ulong)) {
} else static if (is(T == ulong)) {
this(typeCode!ulong, null, false);
uint64 = cast(ulong) value;
} else static if(is(T == double)) {
} else static if (is(T == double)) {
this(typeCode!double, null, false);
float64 = cast(double) value;
} else static if(isSomeString!T) {
} else static if (isSomeString!T) {
this(typeCode!string, null, false);
str = value.to!string;
} else static if(is(T == bool)) {
} else static if (is(T == bool)) {
this(typeCode!bool, null, false);
boolean = cast(bool) value;
} else static if(is(T == ObjectPath)) {
} else static if (is(T == ObjectPath)) {
this(typeCode!ObjectPath, null, false);
obj = value;
} else static if(is(T == Variant!R, R)) {
static if(is(R == DBusAny)) {
} else static if (is(T == Variant!R, R)) {
static if (is(R == DBusAny)) {
type = value.data.type;
signature = value.data.signature;
explicitVariant = true;
if(type == 'a' || type == 'r') {
if(signature == ['y'])
if (type == 'a' || type == 'r') {
if (signature == ['y']) {
binaryData = value.data.binaryData;
else
} else {
array = value.data.array;
} else if(type == 's')
}
} else if (type == 's') {
str = value.data.str;
else if(type == 'e')
} else if (type == 'e') {
entry = value.data.entry;
else
} else {
uint64 = value.data.uint64;
}
} else {
this(value.data);
explicitVariant = true;
}
} else static if(is(T : DictionaryEntry!(K, V), K, V)) {
} else static if (is(T : DictionaryEntry!(K, V), K, V)) {
this('e', null, false);
entry = new DictionaryEntry!(DBusAny, DBusAny)();
static if(is(K == DBusAny))
static if (is(K == DBusAny)) {
entry.key = value.key;
else
} else {
entry.key = DBusAny(value.key);
static if(is(V == DBusAny))
}
static if (is(V == DBusAny)) {
entry.value = value.value;
else
} else {
entry.value = DBusAny(value.value);
} else static if(is(T == ubyte[]) || is(T == byte[])) {
}
} else static if (is(T == ubyte[]) || is(T == byte[])) {
this('a', ['y'], false);
binaryData = cast(ubyte[]) value;
} else static if(isInputRange!T) {
} else static if (isInputRange!T) {
this.type = 'a';
static assert(!is(ElementType!T == DBusAny), "Array must consist of the same type, use Variant!DBusAny or DBusAny(tuple(...)) instead");
static assert(!is(ElementType!T == DBusAny),
"Array must consist of the same type, use Variant!DBusAny or DBusAny(tuple(...)) instead");
static assert(.typeSig!(ElementType!T) != "y");
this.signature = .typeSig!(ElementType!T);
this.explicitVariant = false;
foreach(elem; value)
foreach (elem; value) {
array ~= DBusAny(elem);
} else static if(isTuple!T) {
}
} else static if (isTuple!T) {
this.type = 'r';
this.signature = ['('];
this.explicitVariant = false;
foreach(index, R; value.Types) {
foreach (index, R; value.Types) {
auto var = DBusAny(value[index]);
tuple ~= var;
if(var.explicitVariant)
if (var.explicitVariant) {
this.signature ~= 'v';
else {
if (var.type != 'r')
} else {
if (var.type != 'r') {
this.signature ~= cast(char) var.type;
if(var.type == 'a' || var.type == 'r')
}
if (var.type == 'a' || var.type == 'r') {
this.signature ~= var.signature;
}
}
}
this.signature ~= ')';
} else static if(isAssociativeArray!T) {
} else static if (isAssociativeArray!T) {
this(value.byDictionaryEntries);
} else static assert(false, T.stringof ~ " not convertible to a Variant");
} else {
static assert(false, T.stringof ~ " not convertible to a Variant");
}
}
///
string toString() const {
string valueStr;
switch(type) {
switch (type) {
case typeCode!byte:
valueStr = int8.to!string;
break;
@ -318,10 +340,12 @@ struct DBusAny {
case 'a':
import std.digest.digest : toHexString;
if(signature == ['y'])
if (signature == ['y']) {
valueStr = "binary(" ~ binaryData.toHexString ~ ')';
else
} else {
valueStr = '[' ~ array.map!(a => a.toString).join(", ") ~ ']';
}
break;
case 'r':
valueStr = '(' ~ tuple.map!(a => a.toString).join(", ") ~ ')';
@ -333,10 +357,9 @@ struct DBusAny {
valueStr = "unknown";
break;
}
return "DBusAny(" ~ cast(char) type
~ ", \"" ~ signature.idup
~ "\", " ~ (explicitVariant ? "explicit" : "implicit")
~ ", " ~ valueStr ~ ")";
return "DBusAny(" ~ cast(char) type ~ ", \"" ~ signature.idup ~ "\", " ~ (explicitVariant
? "explicit" : "implicit") ~ ", " ~ valueStr ~ ")";
}
/++
@ -354,24 +377,21 @@ struct DBusAny {
DBusAny object is not the same as the DBus type used to represent T.
+/
T get(T)() @property const
if(staticIndexOf!(T, BasicTypes) >= 0)
{
enforce(type == typeCode!T,
new TypeMismatchException(
"Cannot get a " ~ T.stringof ~ " from a DBusAny with"
~ " a value of DBus type '" ~ typeSig ~ "'.", typeCode!T, type));
if (staticIndexOf!(T, BasicTypes) >= 0) {
enforce(type == typeCode!T, new TypeMismatchException(
"Cannot get a " ~ T.stringof ~ " from a DBusAny with" ~ " a value of DBus type '" ~ typeSig ~ "'.",
typeCode!T, type));
static if(isIntegral!T) {
enum memberName =
(isUnsigned!T ? "uint" : "int") ~ (T.sizeof * 8).to!string;
static if (isIntegral!T) {
enum memberName = (isUnsigned!T ? "uint" : "int") ~ (T.sizeof * 8).to!string;
return __traits(getMember, this, memberName);
} else static if(is(T == double)) {
} else static if (is(T == double)) {
return float64;
} else static if(is(T == string)) {
} else static if (is(T == string)) {
return str;
} else static if(is(T == ObjectPath)) {
} else static if (is(T == ObjectPath)) {
return obj;
} else static if(is(T == bool)) {
} else static if (is(T == bool)) {
return boolean;
} else {
static assert(false);
@ -380,12 +400,9 @@ struct DBusAny {
/// ditto
T get(T)() @property const
if(is(T == const(DBusAny)[]))
{
enforce((type == 'a' && signature != "y") || type == 'r',
new TypeMismatchException(
"Cannot get a " ~ T.stringof ~ " from a DBusAny with"
~ " a value of DBus type '" ~ this.typeSig ~ "'.",
if (is(T == const(DBusAny)[])) {
enforce((type == 'a' && signature != "y") || type == 'r', new TypeMismatchException(
"Cannot get a " ~ T.stringof ~ " from a DBusAny with" ~ " a value of DBus type '" ~ this.typeSig ~ "'.",
typeCode!T, type));
return array;
@ -393,12 +410,9 @@ struct DBusAny {
/// ditto
T get(T)() @property const
if (is(T == const(ubyte)[]))
{
enforce(type == 'a' && signature == "y",
new TypeMismatchException(
"Cannot get a " ~ T.stringof ~ " from a DBusAny with"
~ " a value of DBus type '" ~ this.typeSig ~ "'.",
if (is(T == const(ubyte)[])) {
enforce(type == 'a' && signature == "y", new TypeMismatchException(
"Cannot get a " ~ T.stringof ~ " from a DBusAny with" ~ " a value of DBus type '" ~ this.typeSig ~ "'.",
typeCode!T, type));
return binaryData;
@ -408,10 +422,12 @@ struct DBusAny {
DBusAny[DBusAny] toAA() {
enforce(type == 'a' && signature && signature[0] == '{');
DBusAny[DBusAny] aa;
foreach(val; array) {
foreach (val; array) {
enforce(val.type == 'e');
aa[val.entry.key] = val.entry.value;
}
return aa;
}
@ -421,34 +437,34 @@ struct DBusAny {
Returns:
The type signature of the value stored in this DBusAny object.
+/
string typeSig() @property const pure nothrow @safe
{
if(type == 'a') {
string typeSig() @property const pure nothrow @safe {
if (type == 'a') {
return "a" ~ signature;
} else if(type == 'r') {
} else if (type == 'r') {
return signature;
} else if(type == 'e') {
return () @trusted {
} else if (type == 'e') {
return () @trusted{
return "{" ~ entry.key.signature ~ entry.value.signature ~ "}";
} ();
}();
} else {
return [ cast(char) type ];
return [cast(char) type];
}
}
/// Converts a basic type, a tuple or an array to the D type with type checking. Tuples can get converted to an array too.
T to(T)() {
static if(is(T == Variant!R, R)) {
static if(is(R == DBusAny)) {
static if (is(T == Variant!R, R)) {
static if (is(R == DBusAny)) {
auto v = to!R;
v.explicitVariant = false;
return Variant!R(v);
} else
} else {
return Variant!R(to!R);
} else static if(is(T == DBusAny)) {
}
} else static if (is(T == DBusAny)) {
return this;
} else static if(isIntegral!T || isFloatingPoint!T) {
switch(type) {
} else static if (isIntegral!T || isFloatingPoint!T) {
switch (type) {
case typeCode!byte:
return cast(T) int8;
case typeCode!short:
@ -468,79 +484,106 @@ struct DBusAny {
default:
throw new Exception("Can't convert type " ~ cast(char) type ~ " to " ~ T.stringof);
}
} else static if(is(T == bool)) {
if(type == 'b')
} else static if (is(T == bool)) {
if (type == 'b') {
return boolean;
else
} else {
throw new Exception("Can't convert type " ~ cast(char) type ~ " to " ~ T.stringof);
} else static if(isSomeString!T) {
if(type == 's')
}
} else static if (isSomeString!T) {
if (type == 's') {
return str.to!T;
else if(type == 'o')
} else if (type == 'o') {
return obj.toString();
else
} else {
throw new Exception("Can't convert type " ~ cast(char) type ~ " to " ~ T.stringof);
} else static if(is(T == ObjectPath)) {
if(type == 'o')
}
} else static if (is(T == ObjectPath)) {
if (type == 'o') {
return obj;
else
} else {
throw new Exception("Can't convert type " ~ cast(char) type ~ " to " ~ T.stringof);
} else static if(isDynamicArray!T) {
if(type != 'a' && type != 'r')
}
} else static if (isDynamicArray!T) {
if (type != 'a' && type != 'r') {
throw new Exception("Can't convert type " ~ cast(char) type ~ " to an array");
}
T ret;
if(signature == ['y']) {
static if(isIntegral!(ElementType!T))
foreach(elem; binaryData)
if (signature == ['y']) {
static if (isIntegral!(ElementType!T)) {
foreach (elem; binaryData) {
ret ~= elem.to!(ElementType!T);
} else
foreach(elem; array)
}
}
} else {
foreach (elem; array) {
ret ~= elem.to!(ElementType!T);
}
}
return ret;
} else static if(isTuple!T) {
if(type != 'r')
} else static if (isTuple!T) {
if (type != 'r') {
throw new Exception("Can't convert type " ~ cast(char) type ~ " to " ~ T.stringof);
}
T ret;
enforce(ret.Types.length == tuple.length, "Tuple length mismatch");
foreach(index, T; ret.Types)
foreach (index, T; ret.Types) {
ret[index] = tuple[index].to!T;
}
return ret;
} else static if(isAssociativeArray!T) {
if(type != 'a' || !signature || signature[0] != '{')
} else static if (isAssociativeArray!T) {
if (type != 'a' || !signature || signature[0] != '{') {
throw new Exception("Can't convert type " ~ cast(char) type ~ " to " ~ T.stringof);
}
T ret;
foreach(pair; array) {
foreach (pair; array) {
enforce(pair.type == 'e');
ret[pair.entry.key.to!(KeyType!T)] = pair.entry.value.to!(ValueType!T);
}
return ret;
} else static assert(false, "Can't convert variant to " ~ T.stringof);
} else {
static assert(false, "Can't convert variant to " ~ T.stringof);
}
}
bool opEquals(ref in DBusAny b) const {
if(b.type != type || b.explicitVariant != explicitVariant)
if (b.type != type || b.explicitVariant != explicitVariant) {
return false;
if((type == 'a' || type == 'r') && b.signature != signature)
}
if ((type == 'a' || type == 'r') && b.signature != signature) {
return false;
if(type == 'a' && signature == ['y'])
}
if (type == 'a' && signature == ['y']) {
return binaryData == b.binaryData;
if(type == 'a')
}
if (type == 'a') {
return array == b.array;
else if(type == 'r')
} else if (type == 'r') {
return tuple == b.tuple;
else if(type == 's')
} else if (type == 's') {
return str == b.str;
else if(type == 'o')
} else if (type == 'o') {
return obj == b.obj;
else if(type == 'e')
} else if (type == 'e') {
return entry == b.entry || (entry && b.entry && *entry == *b.entry);
else
} else {
return uint64 == b.uint64;
}
}
}
unittest {
import dunit.toolkit;
DBusAny set(string member, T)(DBusAny v, T value) {
mixin("v." ~ member ~ " = value;");
return v;
@ -549,13 +592,15 @@ unittest {
void test(T)(T value, DBusAny b) {
assertEqual(DBusAny(value), b);
static if(is(T == Variant!R, R)) {
static if(__traits(compiles, b.get!R))
static if (is(T == Variant!R, R)) {
static if (__traits(compiles, b.get!R)) {
assertEqual(b.get!R, value.data);
}
} else {
static if(__traits(compiles, b.get!T))
static if (__traits(compiles, b.get!T)) {
assertEqual(b.get!T, value);
}
}
assertEqual(b.to!T, value);
b.toString();
@ -569,7 +614,8 @@ unittest {
test(cast(long) 184, set!"int64"(DBusAny('x', null, false), cast(long) 184));
test(cast(ulong) 184, set!"uint64"(DBusAny('t', null, false), cast(ulong) 184));
test(true, set!"boolean"(DBusAny('b', null, false), true));
test(cast(ubyte[]) [1, 2, 3], set!"binaryData"(DBusAny('a', ['y'], false), cast(ubyte[]) [1, 2, 3]));
test(cast(ubyte[])[1, 2, 3], set!"binaryData"(DBusAny('a', ['y'], false),
cast(ubyte[])[1, 2, 3]));
test(variant(cast(ubyte) 184), set!"int8"(DBusAny('y', null, true), cast(byte) 184));
test(variant(cast(short) 184), set!"int16"(DBusAny('n', null, true), cast(short) 184));
@ -579,18 +625,24 @@ unittest {
test(variant(cast(long) 184), set!"int64"(DBusAny('x', null, true), cast(long) 184));
test(variant(cast(ulong) 184), set!"uint64"(DBusAny('t', null, true), cast(ulong) 184));
test(variant(true), set!"boolean"(DBusAny('b', null, true), true));
test(variant(cast(ubyte[]) [1, 2, 3]), set!"binaryData"(DBusAny('a', ['y'], true), cast(ubyte[]) [1, 2, 3]));
test(variant(cast(ubyte[])[1, 2, 3]), set!"binaryData"(DBusAny('a', ['y'],
true), cast(ubyte[])[1, 2, 3]));
test(variant(DBusAny(5)), set!"int32"(DBusAny('i', null, true), 5));
test([1, 2, 3], set!"array"(DBusAny('a', ['i'], false), [DBusAny(1), DBusAny(2), DBusAny(3)]));
test(variant([1, 2, 3]), set!"array"(DBusAny('a', ['i'], true), [DBusAny(1), DBusAny(2), DBusAny(3)]));
test(variant([1, 2, 3]), set!"array"(DBusAny('a', ['i'], true), [DBusAny(1),
DBusAny(2), DBusAny(3)]));
test(tuple("a", 4, [1, 2]), set!"tuple"(DBusAny('r', "(siai)".dup, false), [DBusAny("a"), DBusAny(4), DBusAny([1, 2])]));
test(tuple("a", variant(4), variant([1, 2])), set!"tuple"(DBusAny('r', "(svv)", false), [DBusAny("a"), DBusAny(variant(4)), DBusAny(variant([1, 2]))]));
test(tuple("a", 4, [1, 2]), set!"tuple"(DBusAny('r', "(siai)".dup, false),
[DBusAny("a"), DBusAny(4), DBusAny([1, 2])]));
test(tuple("a", variant(4), variant([1, 2])), set!"tuple"(DBusAny('r',
"(svv)", false), [DBusAny("a"), DBusAny(variant(4)), DBusAny(variant([1, 2]))]));
test(["a": "b"], set!"array"(DBusAny('a', "{ss}", false), [DBusAny(DictionaryEntry!(DBusAny, DBusAny)(DBusAny("a"), DBusAny("b")))]));
test([variant("a"): 4], set!"array"(DBusAny('a', "{vi}", false), [DBusAny(DictionaryEntry!(DBusAny, DBusAny)(DBusAny(variant("a")), DBusAny(4)))]));
test(["a" : "b"], set!"array"(DBusAny('a', "{ss}", false),
[DBusAny(DictionaryEntry!(DBusAny, DBusAny)(DBusAny("a"), DBusAny("b")))]));
test([variant("a") : 4], set!"array"(DBusAny('a', "{vi}", false),
[DBusAny(DictionaryEntry!(DBusAny, DBusAny)(DBusAny(variant("a")), DBusAny(4)))]));
}
/// Marks the data as variant on serialization
@ -605,17 +657,21 @@ Variant!T variant(T)(T data) {
enum MessageType {
Invalid = 0,
Call, Return, Error, Signal
Call,
Return,
Error,
Signal
}
struct Message {
DBusMessage *msg;
DBusMessage* msg;
this(string dest, string path, string iface, string method) {
msg = dbus_message_new_method_call(dest.toStringz(), path.toStringz(), iface.toStringz(), method.toStringz());
msg = dbus_message_new_method_call(dest.toStringz(), path.toStringz(),
iface.toStringz(), method.toStringz());
}
this(DBusMessage *m) {
this(DBusMessage* m) {
msg = m;
}
@ -627,7 +683,8 @@ struct Message {
dbus_message_unref(msg);
}
void build(TS...)(TS args) if(allCanDBus!TS) {
void build(TS...)(TS args)
if (allCanDBus!TS) {
DBusMessageIter iter;
dbus_message_iter_init_append(msg, &iter);
buildIter(&iter, args);
@ -639,14 +696,17 @@ struct Message {
read the first argument. This is suitable for single item returns.
To read multiple arguments use readTuple.
*/
T read(T)() if(canDBus!T) {
T read(T)()
if (canDBus!T) {
DBusMessageIter iter;
dbus_message_iter_init(msg, &iter);
return readIter!T(&iter);
}
alias read to;
Tup readTuple(Tup)() if(isTuple!Tup && allCanDBus!(Tup.Types)) {
Tup readTuple(Tup)()
if (isTuple!Tup && allCanDBus!(Tup.Types)) {
DBusMessageIter iter;
dbus_message_iter_init(msg, &iter);
Tup ret;
@ -659,7 +719,7 @@ struct Message {
}
MessageType type() {
return cast(MessageType)dbus_message_get_type(msg);
return cast(MessageType) dbus_message_get_type(msg);
}
bool isCall() {
@ -673,21 +733,25 @@ struct Message {
assert(cStr != null);
return cStr.fromStringz().idup;
}
string path() {
const(char)* cStr = dbus_message_get_path(msg);
assert(cStr != null);
return cStr.fromStringz().idup;
}
string iface() {
const(char)* cStr = dbus_message_get_interface(msg);
assert(cStr != null);
return cStr.fromStringz().idup;
}
string member() {
const(char)* cStr = dbus_message_get_member(msg);
assert(cStr != null);
return cStr.fromStringz().idup;
}
string sender() {
const(char)* cStr = dbus_message_get_sender(msg);
assert(cStr != null);
@ -697,13 +761,14 @@ struct Message {
unittest {
import dunit.toolkit;
auto msg = Message("org.example.test", "/test","org.example.testing","testMethod");
auto msg = Message("org.example.test", "/test", "org.example.testing", "testMethod");
msg.path().assertEqual("/test");
}
struct Connection {
DBusConnection *conn;
this(DBusConnection *connection) {
DBusConnection* conn;
this(DBusConnection* connection) {
conn = connection;
}
@ -720,7 +785,7 @@ struct Connection {
}
void send(Message msg) {
dbus_connection_send(conn,msg.msg, null);
dbus_connection_send(conn, msg.msg, null);
}
void sendBlocking(Message msg) {
@ -729,10 +794,10 @@ struct Connection {
}
Message sendWithReplyBlocking(Message msg, int timeout = -1) {
DBusMessage *dbusMsg = msg.msg;
DBusMessage* dbusMsg = msg.msg;
dbus_message_ref(dbusMsg);
DBusMessage *reply = wrapErrors((err) {
auto ret = dbus_connection_send_with_reply_and_block(conn,dbusMsg,timeout,err);
DBusMessage* reply = wrapErrors((err) {
auto ret = dbus_connection_send_with_reply_and_block(conn, dbusMsg, timeout, err);
dbus_message_unref(dbusMsg);
return ret;
});
@ -758,7 +823,7 @@ unittest {
struct S2 {
int h, i;
@(Yes.DBusMarshal) int j, k;
int *p;
int* p;
}
@dbusMarshaling(MarshalingFlag.includePrivateFields)
@ -774,40 +839,32 @@ unittest {
__gshared int dummy;
enum testStruct = S3(
variant(5), "blah",
S1(-7, 63.5, "test"),
S2(84, -123, 78, 432, &dummy),
16
);
enum testStruct = S3(variant(5), "blah", S1(-7, 63.5, "test"), S2(84, -123,
78, 432, &dummy), 16);
msg.build(testStruct);
// Non-marshaled fields should appear as freshly initialized
enum expectedResult = S3(
variant(5), "blah",
S1(int.init, 63.5, "test"),
S2(int.init, int.init, 78, 432, null),
uint.init
);
enum expectedResult = S3(variant(5), "blah", S1(int.init, 63.5, "test"),
S2(int.init, int.init, 78, 432, null), uint.init);
msg.read!S3().assertEqual(expectedResult);
}
Connection connectToBus(DBusBusType bus = DBusBusType.DBUS_BUS_SESSION) {
DBusConnection *conn = wrapErrors((err) { return dbus_bus_get(bus,err); });
DBusConnection* conn = wrapErrors((err) { return dbus_bus_get(bus, err); });
return Connection(conn);
}
unittest {
import dunit.toolkit;
// This test will only pass if DBus is installed.
Connection conn = connectToBus();
conn.conn.assertTruthy();
// We can only count on no system bus on OSX
version(OSX) {
version (OSX) {
connectToBus(DBusBusType.DBUS_BUS_SYSTEM).assertThrow!DBusException();
}
}

View file

@ -26,12 +26,10 @@ auto byDictionaryEntries(K, V)(V[K] aa) {
Its meaning became unclear when support for Phobos-style variants was added.
It seemed best to remove it at that point.
+/
deprecated("Use std.traits.isInstanceOf instead.")
template isVariant(T) {
static if(isBasicType!T || isInputRange!T) {
deprecated("Use std.traits.isInstanceOf instead.") template isVariant(T) {
static if (isBasicType!T || isInputRange!T) {
enum isVariant = false;
} else static if(__traits(compiles, TemplateOf!T)
&& __traits(isSame, TemplateOf!T, Variant)) {
} else static if (__traits(compiles, TemplateOf!T) && __traits(isSame, TemplateOf!T, Variant)) {
enum isVariant = true;
} else {
enum isVariant = false;
@ -45,10 +43,10 @@ template VariantType(T) {
template allCanDBus(TS...) {
static if (TS.length == 0) {
enum allCanDBus = true;
} else static if(!canDBus!(TS[0])) {
} else static if (!canDBus!(TS[0])) {
enum allCanDBus = false;
} else {
enum allCanDBus = allCanDBus!(TS[1..$]);
enum allCanDBus = allCanDBus!(TS[1 .. $]);
}
}
@ -56,26 +54,15 @@ template allCanDBus(TS...) {
AliasSeq of all basic types in terms of the DBus typesystem
+/
package // Don't add to the API yet, 'cause I intend to move it later
alias BasicTypes = AliasSeq!(
bool,
byte,
short,
ushort,
int,
uint,
long,
ulong,
double,
string,
ObjectPath
);
alias BasicTypes = AliasSeq!(bool, byte, short, ushort, int, uint, long, ulong,
double, string, ObjectPath);
template basicDBus(T) {
static if(staticIndexOf!(T, BasicTypes) >= 0) {
static if (staticIndexOf!(T, BasicTypes) >= 0) {
enum basicDBus = true;
} else static if(is(T B == enum)) {
} else static if (is(T B == enum)) {
enum basicDBus = basicDBus!B;
} else static if(isInstanceOf!(BitFlags, T)) {
} else static if (isInstanceOf!(BitFlags, T)) {
alias TemplateArgsOf!T[0] E;
enum basicDBus = basicDBus!E;
} else {
@ -84,24 +71,24 @@ template basicDBus(T) {
}
template canDBus(T) {
static if(basicDBus!T || is(T == DBusAny)) {
static if (basicDBus!T || is(T == DBusAny)) {
enum canDBus = true;
} else static if(isInstanceOf!(Variant, T)) {
} else static if (isInstanceOf!(Variant, T)) {
enum canDBus = canDBus!(VariantType!T);
} else static if(isInstanceOf!(VariantN, T)) {
} else static if (isInstanceOf!(VariantN, T)) {
// Phobos-style variants are supported if limited to DBus compatible types.
enum canDBus = (T.AllowedTypes.length > 0) && allCanDBus!(T.AllowedTypes);
} else static if(isTuple!T) {
} else static if (isTuple!T) {
enum canDBus = allCanDBus!(T.Types);
} else static if(isInputRange!T) {
static if(is(ElementType!T == DictionaryEntry!(K, V), K, V)) {
} else static if (isInputRange!T) {
static if (is(ElementType!T == DictionaryEntry!(K, V), K, V)) {
enum canDBus = basicDBus!K && canDBus!V;
} else {
enum canDBus = canDBus!(ElementType!T);
}
} else static if(isAssociativeArray!T) {
} else static if (isAssociativeArray!T) {
enum canDBus = basicDBus!(KeyType!T) && canDBus!(ValueType!T);
} else static if(is(T == struct) && !isInstanceOf!(DictionaryEntry, T)) {
} else static if (is(T == struct) && !isInstanceOf!(DictionaryEntry, T)) {
enum canDBus = allCanDBus!(AllowedFieldTypes!T);
} else {
enum canDBus = false;
@ -110,60 +97,63 @@ template canDBus(T) {
unittest {
import dunit.toolkit;
(canDBus!int).assertTrue();
(canDBus!(int[])).assertTrue();
(allCanDBus!(int,string,bool)).assertTrue();
(canDBus!(Tuple!(int[],bool,Variant!short))).assertTrue();
(canDBus!(Tuple!(int[],int[string]))).assertTrue();
(allCanDBus!(int, string, bool)).assertTrue();
(canDBus!(Tuple!(int[], bool, Variant!short))).assertTrue();
(canDBus!(Tuple!(int[], int[string]))).assertTrue();
(canDBus!(int[string])).assertTrue();
}
string typeSig(T)() if(canDBus!T) {
static if(is(T == byte)) {
string typeSig(T)()
if (canDBus!T) {
static if (is(T == byte)) {
return "y";
} else static if(is(T == bool)) {
} else static if (is(T == bool)) {
return "b";
} else static if(is(T == short)) {
} else static if (is(T == short)) {
return "n";
} else static if(is(T == ushort)) {
} else static if (is(T == ushort)) {
return "q";
} else static if(is(T == int)) {
} else static if (is(T == int)) {
return "i";
} else static if(is(T == uint)) {
} else static if (is(T == uint)) {
return "u";
} else static if(is(T == long)) {
} else static if (is(T == long)) {
return "x";
} else static if(is(T == ulong)) {
} else static if (is(T == ulong)) {
return "t";
} else static if(is(T == double)) {
} else static if (is(T == double)) {
return "d";
} else static if(is(T == string)) {
} else static if (is(T == string)) {
return "s";
} else static if(is(T == ObjectPath)) {
} else static if (is(T == ObjectPath)) {
return "o";
} else static if(isInstanceOf!(Variant, T) || isInstanceOf!(VariantN, T)) {
} else static if (isInstanceOf!(Variant, T) || isInstanceOf!(VariantN, T)) {
return "v";
} else static if(is(T B == enum)) {
} else static if (is(T B == enum)) {
return typeSig!B;
} else static if(isInstanceOf!(BitFlags, T)) {
} else static if (isInstanceOf!(BitFlags, T)) {
alias TemplateArgsOf!T[0] E;
return typeSig!E;
} else static if(is(T == DBusAny)) {
static assert(false, "Cannot determine type signature of DBusAny. Change to Variant!DBusAny if a variant was desired.");
} else static if(isTuple!T) {
} else static if (is(T == DBusAny)) {
static assert(false,
"Cannot determine type signature of DBusAny. Change to Variant!DBusAny if a variant was desired.");
} else static if (isTuple!T) {
string sig = "(";
foreach(i, S; T.Types) {
foreach (i, S; T.Types) {
sig ~= typeSig!S();
}
sig ~= ")";
return sig;
} else static if(isInputRange!T) {
} else static if (isInputRange!T) {
return "a" ~ typeSig!(ElementType!T)();
} else static if(isAssociativeArray!T) {
} else static if (isAssociativeArray!T) {
return "a{" ~ typeSig!(KeyType!T) ~ typeSig!(ValueType!T) ~ "}";
} else static if(is(T == struct)) {
} else static if (is(T == struct)) {
string sig = "(";
foreach(i, S; AllowedFieldTypes!T) {
foreach (i, S; AllowedFieldTypes!T) {
sig ~= typeSig!S();
}
sig ~= ")";
@ -171,66 +161,99 @@ string typeSig(T)() if(canDBus!T) {
}
}
string typeSig(T)() if(isInstanceOf!(DictionaryEntry, T)) {
string typeSig(T)()
if (isInstanceOf!(DictionaryEntry, T)) {
alias typeof(T.key) K;
alias typeof(T.value) V;
return "{" ~ typeSig!K ~ typeSig!V ~ '}';
}
string[] typeSigReturn(T)() if(canDBus!T) {
static if(is(T == Tuple!TS, TS...))
string[] typeSigReturn(T)()
if (canDBus!T) {
static if (is(T == Tuple!TS, TS...))
return typeSigArr!TS;
else
return [typeSig!T];
}
string typeSigAll(TS...)() if(allCanDBus!TS) {
string typeSigAll(TS...)()
if (allCanDBus!TS) {
string sig = "";
foreach(i,T; TS) {
foreach (i, T; TS) {
sig ~= typeSig!T();
}
return sig;
}
string[] typeSigArr(TS...)() if(allCanDBus!TS) {
string[] typeSigArr(TS...)()
if (allCanDBus!TS) {
string[] sig = [];
foreach(i,T; TS) {
foreach (i, T; TS) {
sig ~= typeSig!T();
}
return sig;
}
int typeCode(T)() if(canDBus!T) {
int typeCode(T)()
if (canDBus!T) {
int code = typeSig!T()[0];
return (code != '(') ? code : 'r';
}
int typeCode(T)() if(isInstanceOf!(DictionaryEntry, T) && canDBus!(T[])) {
int typeCode(T)()
if (isInstanceOf!(DictionaryEntry, T) && canDBus!(T[])) {
return 'e';
}
unittest {
import dunit.toolkit;
// basics
typeSig!int().assertEqual("i");
typeSig!bool().assertEqual("b");
typeSig!string().assertEqual("s");
typeSig!(Variant!int)().assertEqual("v");
// enums
enum E : byte { a, b, c }
enum E : byte {
a,
b,
c
}
typeSig!E().assertEqual(typeSig!byte());
enum U : string { One = "One", Two = "Two" }
enum U : string {
One = "One",
Two = "Two"
}
typeSig!U().assertEqual(typeSig!string());
// bit flags
enum F : uint { a = 1, b = 2, c = 4 }
enum F : uint {
a = 1,
b = 2,
c = 4
}
typeSig!(BitFlags!F)().assertEqual(typeSig!uint());
// tuples (represented as structs in DBus)
typeSig!(Tuple!(int,string,string)).assertEqual("(iss)");
typeSig!(Tuple!(int,string,Variant!int,Tuple!(int,"k",double,"x"))).assertEqual("(isv(id))");
typeSig!(Tuple!(int, string, string)).assertEqual("(iss)");
typeSig!(Tuple!(int, string, Variant!int, Tuple!(int, "k", double, "x"))).assertEqual(
"(isv(id))");
// structs
struct S1 { int a; double b; string s; }
struct S1 {
int a;
double b;
string s;
}
typeSig!S1.assertEqual("(ids)");
struct S2 { Variant!int c; string d; S1 e; uint f; }
struct S2 {
Variant!int c;
string d;
S1 e;
uint f;
}
typeSig!S2.assertEqual("(vs(ids)u)");
// arrays
typeSig!(int[]).assertEqual("ai");
@ -240,7 +263,7 @@ unittest {
typeSig!(int[string]).assertEqual("a{si}");
typeSig!(DictionaryEntry!(string, int)[]).assertEqual("a{si}");
// multiple arguments
typeSigAll!(int,bool).assertEqual("ib");
typeSigAll!(int, bool).assertEqual("ib");
// Phobos-style variants
canDBus!(std.variant.Variant).assertFalse();
typeSig!(std.variant.Algebraic!(int, double, string)).assertEqual("v");
@ -251,17 +274,18 @@ unittest {
// ctfe-capable
static string sig = typeSig!ulong();
sig.assertEqual("t");
static string sig2 = typeSig!(Tuple!(int,string,string));
static string sig2 = typeSig!(Tuple!(int, string, string));
sig2.assertEqual("(iss)");
static string sig3 = typeSigAll!(int,string,string);
static string sig3 = typeSigAll!(int, string, string);
sig3.assertEqual("iss");
}
private template AllowedFieldTypes(S) if (is(S == struct)) {
private template AllowedFieldTypes(S)
if (is(S == struct)) {
import ddbus.attributes : isAllowedField;
import std.meta : Filter, staticMap;
static alias TypeOf(alias sym) = typeof(sym);
alias AllowedFieldTypes =
staticMap!(TypeOf, Filter!(isAllowedField, S.tupleof));
alias AllowedFieldTypes = staticMap!(TypeOf, Filter!(isAllowedField, S.tupleof));
}