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Quelle array_impl.rs Sprache: unbekannt |
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Spracherkennung für: .rs vermutete Sprache: Unknown {[0] [0] [0]} [Methode: Schwerpunktbildung, einfache Gewichte, sechs Dimensionen] use super::*;
use {Signature, Path, Message, ffi, OwnedFd}; use std::marker::PhantomData; use std::{ptr, mem, any, fmt}; use super::check; use std::ffi::{CString}; use std::os::raw::{c_void, c_int}; use std::collections::HashMap; use std::hash::Hash; // Map DBus-Type -> Alignment. Copied from _dbus_marshal_write_fixed_multi in // http://dbus.freedesktop.org/doc/api/html/dbus-marshal-basic_8c_source.html#l01 // Note that Rust booleans are one byte, dbus booleans are four bytes! const FIXED_ARRAY_ALIGNMENTS: [(ArgType, usize); 9] = [ (ArgType::Byte, 1), (ArgType::Int16, 2), (ArgType::UInt16, 2), (ArgType::UInt32, 4), (ArgType::Int32, 4), (ArgType::Boolean, 4), (ArgType::Int64, 8), (ArgType::UInt64, 8), (ArgType::Double, 8) ]; /// Represents a D-Bus array. impl<'a, T: Arg> Arg for &'a [T] { const ARG_TYPE: ArgType = ArgType::Array; fn signature() -> Signature<'static> { Signature::from(format!("a{}", T::signature())) } } fn array_append<T: Arg, F: FnMut(&T, &mut IterAppend)>(z: &[T], i: &mut IterAppend, mut f: let zptr = z.as_ptr(); let zlen = z.len() as i32; // Can we do append_fixed_array? let a = (T::ARG_TYPE, mem::size_of::<T>()); let can_fixed_array = (zlen > 1) && (z.len() == zlen as usize) && FIXED_ARRAY_ALIGNMENTS.iter().an i.append_container(ArgType::Array, Some(T::signature().as_cstr()), |s| if can_fixed_array { unsafe { check("dbus_message_iter_append_fixed_array", ffi::dbus_message_iter_append_fixed_array(&mut s.0, a.0 as c_int, &zptr as *const _ as *c else { for arg in z { f(arg, s); }} ); } /// Appends a D-Bus array. Note: In case you have a large array of a type that implements FixedArr /// using this method will be more efficient than using an Array. impl<'a, T: Arg + Append + Clone> Append for &'a [T] { fn append(self, i: &mut IterAppend) { array_append(self, i, |arg, s| arg.clone().append(s)); } } impl<'a, T: Arg + RefArg> RefArg for &'a [T] { fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { Signature::from(format!("a{}", <T as Arg>::signatu fn append(&self, i: &mut IterAppend) { array_append(self, i, |arg, s| (arg as &RefArg).append(s)); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn box_clone(&self) -> Box<RefArg + 'static> { Box::new(InternalArray { inner_sig: <T as Arg>::signature(), data: self.iter().map(|x| x.box_clone()).collect(), }) } } impl<T: Arg + RefArg> RefArg for Vec<T> { fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { Signature::from(format!("a{}", <T as Arg>::signatu fn append(&self, i: &mut IterAppend) { array_append(&self, i, |arg, s| (arg as &RefArg).append(s)); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn as_iter<'a>(&'a self) -> Option<Box<Iterator<Item=&'a RefArg> + 'a>> { Some(Box::new(self.iter().map(|b| b as &RefArg))) } #[inline] fn box_clone(&self) -> Box<RefArg + 'static> { (&**self).box_clone() } } impl<'a, T: FixedArray> Get<'a> for &'a [T] { fn get(i: &mut Iter<'a>) -> Option<&'a [T]> { debug_assert!(FIXED_ARRAY_ALIGNMENTS.iter().any(|&v| v == (T::ARG_TYPE, mem::size_ i.recurse(Self::ARG_TYPE).and_then(|mut si| unsafe { let etype = ffi::dbus_message_iter_get_element_type(&mut i.0); if etype != T::ARG_TYPE as c_int { return None }; let mut v = ptr::null_mut(); let mut i = 0; ffi::dbus_message_iter_get_fixed_array(&mut si.0, &mut v as *mut _ as *mut c_void, &mut if v == ptr::null_mut() { assert_eq!(i, 0); Some(&[][..]) } else { Some(::std::slice::from_raw_parts(v, i as usize)) } }) } } #[derive(Copy, Clone, Debug)] /// Append a D-Bus dict type (i e, an array of dict entries). /// /// See the argument guide and module level documentation for details and alternatives. pub struct Dict<'a, K: DictKey, V: Arg, I>(I, PhantomData<(&'a Message, *const K, *const V)>); impl<'a, K: DictKey, V: Arg, I> Dict<'a, K, V, I> { fn entry_sig() -> String { format!("{{{}{}}}", K::signature(), V::signature()) } } impl<'a, K: 'a + DictKey, V: 'a + Append + Arg, I: Iterator<Item=(K, V)>> Dict<'a, K, V, I> { /// Creates a new Dict from an iterator. The iterator is consumed when appended. pub fn new<J: IntoIterator<IntoIter=I, Item=(K, V)>>(j: J) -> Dict<'a, K, V, I> { Dict(j.into_iter() } impl<'a, K: DictKey, V: Arg, I> Arg for Dict<'a, K, V, I> { const ARG_TYPE: ArgType = ArgType::Array; fn signature() -> Signature<'static> { Signature::from(format!("a{}", Self::entry_sig())) } } impl<'a, K: 'a + DictKey + Append, V: 'a + Append + Arg, I: Iterator<Item=(K, V)>> Append for Dict<'a, K fn append(self, i: &mut IterAppend) { let z = self.0; i.append_container(Self::ARG_TYPE, Some(&CString::new(Self::entry_sig()).unwrap()), |s| for (k, v) in z { s.append_container(ArgType::DictEntry, None, |ss| { k.append(ss); v.append(ss); }) }); } } impl<'a, K: DictKey + Get<'a>, V: Arg + Get<'a>> Get<'a> for Dict<'a, K, V, Iter<'a>> { fn get(i: &mut Iter<'a>) -> Option<Self> { i.recurse(Self::ARG_TYPE).map(|si| Dict(si, PhantomData)) // TODO: Verify full element signature? } } impl<'a, K: DictKey + Get<'a>, V: Arg + Get<'a>> Iterator for Dict<'a, K, V, Iter<'a>> { type Item = (K, V); fn next(&mut self) -> Option<(K, V)> { let i = self.0.recurse(ArgType::DictEntry).and_then(|mut si| { let k = si.get(); if k.is_none() { return None }; assert!(si.next()); let v = si.get(); if v.is_none() { return None }; Some((k.unwrap(), v.unwrap())) }); self.0.next(); i } } impl<K: DictKey, V: Arg> Arg for HashMap<K, V> { const ARG_TYPE: ArgType = ArgType::Array; fn signature() -> Signature<'static> { Signature::from(format!("a{{{}{}}}", K::signature(), V::signature())) } } impl<K: DictKey + Append + Eq + Hash, V: Arg + Append> Append for HashMap<K, V> { fn append(self, i: &mut IterAppend) { Dict::new(self.into_iter()).append(i); } } impl<'a, K: DictKey + Get<'a> + Eq + Hash, V: Arg + Get<'a>> Get<'a> for HashMap<K, V> { fn get(i: &mut Iter<'a>) -> Option<Self> { // TODO: Full element signature is not verified. Dict::get(i).map(|d| d.into_iter().collect()) } } impl<K: DictKey + RefArg + Eq + Hash, V: RefArg + Arg> RefArg for HashMap<K, V> { fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { format!("a{{{}{}}}", <K as Arg>::signature(), <V as Ar fn append(&self, i: &mut IterAppend) { let sig = CString::new(format!("{{{}{}}}", <K as Arg>::signature(), <V as Arg>::signature())) i.append_container(ArgType::Array, Some(&sig), |s| for (k, v) in self { s.append_container(ArgType::DictEntry, None, |ss| { k.append(ss); v.append(ss); }) }); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn as_iter<'b>(&'b self) -> Option<Box<Iterator<Item=&'b RefArg> + 'b>> { Some(Box::new(self.iter().flat_map(|(k, v)| vec![k as &RefArg, v as &RefArg].into_iter()))) } #[inline] fn box_clone(&self) -> Box<RefArg + 'static> { Box::new(InternalDict { outer_sig: self.signature(), data: self.iter().map(|(k, v)| (k.box_clone(), v.box_clone())).collect(), }) } } impl<T: Arg> Arg for Vec<T> { const ARG_TYPE: ArgType = ArgType::Array; fn signature() -> Signature<'static> { Signature::from(format!("a{}", T::signature())) } } impl<T: Arg + Append> Append for Vec<T> { fn append(self, i: &mut IterAppend) { Array::new(self).append(i); } } impl<'a, T: Arg + Get<'a>> Get<'a> for Vec<T> { fn get(i: &mut Iter<'a>) -> Option<Self> { <Array<T, Iter<'a>>>::get(i).map(|a| a.collect()) } } #[derive(Copy, Clone, Debug)] /// Represents a D-Bus Array. Maximum flexibility (wraps an iterator of items to append). /// /// See the argument guide and module level documentation for details and alternatives. pub struct Array<'a, T, I>(I, PhantomData<(*const T, &'a Message)>); impl<'a, T: 'a, I: Iterator<Item=T>> Array<'a, T, I> { /// Creates a new Array from an iterator. The iterator is consumed when appending. pub fn new<J: IntoIterator<IntoIter=I, Item=T>>(j: J) -> Array<'a, T, I> { Array(j.into_iter(), Pha } impl<'a, T: Arg, I> Arg for Array<'a, T, I> { const ARG_TYPE: ArgType = ArgType::Array; fn signature() -> Signature<'static> { Signature::from(format!("a{}", T::signature())) } } impl<'a, T: 'a + Arg + Append, I: Iterator<Item=T>> Append for Array<'a, T, I> { fn append(self, i: &mut IterAppend) { let z = self.0; i.append_container(ArgType::Array, Some(T::signature().as_cstr()), |s| for arg in z { ar } } impl<'a, T: Arg + Get<'a>> Get<'a> for Array<'a, T, Iter<'a>> { fn get(i: &mut Iter<'a>) -> Option<Array<'a, T, Iter<'a>>> { i.recurse(Self::ARG_TYPE).map(|si| Array(si, PhantomData)) // TODO: Verify full element signature? } } impl<'a, T: Get<'a>> Iterator for Array<'a, T, Iter<'a>> { type Item = T; fn next(&mut self) -> Option<T> { let i = self.0.get(); self.0.next(); i } } // Due to the strong typing here; RefArg is implemented only for T's that are both Arg and RefArg. // We need Arg for this to work for empty arrays (we can't get signature from first element if ther // We need RefArg for non-consuming append. impl<'a, T: 'a + Arg + fmt::Debug + RefArg, I: fmt::Debug + Clone + Iterator<Item=&'a T>> RefArg fo fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { Signature::from(format!("a{}", <T as Arg>::signatu fn append(&self, i: &mut IterAppend) { let z = self.0.clone(); i.append_container(ArgType::Array, Some(<T as Arg>::signature().as_cstr()), |s| for arg in z { (arg as &RefArg).append(s) } ); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn box_clone(&self) -> Box<RefArg + 'static> { Box::new(InternalArray { inner_sig: <T as Arg>::signature(), data: self.0.clone().map(|x| x.box_clone()).collect(), }) } } fn get_fixed_array_refarg<'a, T: FixedArray + Clone + RefArg>(i: &mut Iter<'a>) -> Box<RefArg> { let s = <&[T]>::get(i).unwrap(); Box::new(s.to_vec()) } fn get_var_array_refarg<'a, T: 'static + RefArg + Arg, F: FnMut(&mut Iter<'a>) -> Option<T>> (i: &mut Iter<'a>, mut f: F) -> Box<RefArg> { let mut v: Vec<T> = vec!(); // dbus_message_iter_get_element_count might be O(n), better not us let mut si = i.recurse(ArgType::Array).unwrap(); while let Some(q) = f(&mut si) { v.push(q); si.next(); } Box::new(v) } #[derive(Debug)] struct InternalDict<K> { data: Vec<(K, Box<RefArg>)>, outer_sig: Signature<'static>, } fn get_dict_refarg<'a, K, F: FnMut(&mut Iter<'a>) -> Option<K>>(i: &mut Iter<'a>, mut f: F) -> Box<RefA where K: DictKey + 'static + RefArg + Clone { let mut data = vec!(); let outer_sig = i.signature(); let mut si = i.recurse(ArgType::Array).unwrap(); while let Some(mut d) = si.recurse(ArgType::DictEntry) { let k = f(&mut d).unwrap(); d.next(); data.push((k, d.get_refarg().unwrap())); si.next(); } Box::new(InternalDict { data, outer_sig }) } // This only happens from box_clone impl RefArg for InternalDict<Box<RefArg>> { fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { self.outer_sig.clone() } fn append(&self, i: &mut IterAppend) { let inner_sig = &self.outer_sig.as_cstr().to_bytes_with_nul()[1..]; let inner_sig = CStr::from_bytes_with_nul(inner_sig).unwrap(); i.append_container(ArgType::Array, Some(inner_sig), |s| for (k, v) in &self.data { s.append_container(ArgType::DictEntry, None, |ss| { k.append(ss); v.append(ss); }) }); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn as_iter<'b>(&'b self) -> Option<Box<Iterator<Item=&'b RefArg> + 'b>> { Some(Box::new(self.data.iter().flat_map(|(k, v)| vec![k as &RefArg, v as &RefArg].into_iter()))) } #[inline] fn box_clone(&self) -> Box<RefArg + 'static> { Box::new(InternalDict { data: self.data.iter().map(|(k, v)| (k.box_clone(), v.box_clone())).collect(), outer_sig: self.outer_sig.clone(), }) } } impl<K: DictKey + RefArg + Clone + 'static> RefArg for InternalDict<K> { fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { self.outer_sig.clone() } fn append(&self, i: &mut IterAppend) { let inner_sig = &self.outer_sig.as_cstr().to_bytes_with_nul()[1..]; let inner_sig = CStr::from_bytes_with_nul(inner_sig).unwrap(); i.append_container(ArgType::Array, Some(inner_sig), |s| for (k, v) in &self.data { s.append_container(ArgType::DictEntry, None, |ss| { k.append(ss); v.append(ss); }) }); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn as_iter<'b>(&'b self) -> Option<Box<Iterator<Item=&'b RefArg> + 'b>> { Some(Box::new(self.data.iter().flat_map(|(k, v)| vec![k as &RefArg, v as &RefArg].into_iter()))) } #[inline] fn box_clone(&self) -> Box<RefArg + 'static> { Box::new(InternalDict { data: self.data.iter().map(|(k, v)| (k.clone(), v.box_clone())).collect(), outer_sig: self.outer_sig.clone(), }) } } // Fallback for Arrays of Arrays and Arrays of Structs. // We store the signature manually here and promise that it is correct for all elements // has that signature. #[derive(Debug)] struct InternalArray { data: Vec<Box<RefArg>>, inner_sig: Signature<'static>, } fn get_internal_array<'a>(i: &mut Iter<'a>) -> Box<RefArg> { let mut si = i.recurse(ArgType::Array).unwrap(); let inner_sig = si.signature(); let data = si.collect::<Vec<_>>(); Box::new(InternalArray { data, inner_sig }) } impl RefArg for InternalArray { fn arg_type(&self) -> ArgType { ArgType::Array } fn signature(&self) -> Signature<'static> { Signature::from(format!("a{}", self.inner_sig) fn append(&self, i: &mut IterAppend) { i.append_container(ArgType::Array, Some(self.inner_sig.as_cstr()), |s| for arg in &self.data { (arg as &RefArg).append(s) } ); } #[inline] fn as_any(&self) -> &any::Any where Self: 'static { self } #[inline] fn as_any_mut(&mut self) -> &mut any::Any where Self: 'static { self } fn as_iter<'a>(&'a self) -> Option<Box<Iterator<Item=&'a RefArg> + 'a>> { Some(Box::new(self.data.iter().map(|b| b as &RefArg))) } #[inline] fn box_clone(&self) -> Box<RefArg + 'static> { Box::new(InternalArray { data: self.data.iter().map(|x| x.box_clone()).collect(), inner_sig: self.inner_sig.clone(), }) } } pub fn get_array_refarg<'a>(i: &mut Iter<'a>) -> Box<RefArg> { debug_assert!(i.arg_type() == ArgType::Array); let etype = ArgType::from_i32(unsafe { ffi::dbus_message_iter_get_element_type(&mut i let x = match etype { ArgType::Byte => get_fixed_array_refarg::<u8>(i), ArgType::Int16 => get_fixed_array_refarg::<i16>(i), ArgType::UInt16 => get_fixed_array_refarg::<u16>(i), ArgType::Int32 => get_fixed_array_refarg::<i32>(i), ArgType::UInt32 => get_fixed_array_refarg::<u32>(i), ArgType::Int64 => get_fixed_array_refarg::<i64>(i), ArgType::UInt64 => get_fixed_array_refarg::<u64>(i), ArgType::Double => get_fixed_array_refarg::<f64>(i), ArgType::String => get_var_array_refarg::<String, _>(i, |si| si.get()), ArgType::ObjectPath => get_var_array_refarg::<Path<'static>, _>(i, |si| si.get::<Path>().map ArgType::Signature => get_var_array_refarg::<Signature<'static>, _>(i, |si| si.get::<Signat ArgType::Variant => get_var_array_refarg::<Variant<Box<RefArg>>, _>(i, |si| Variant::new_ref ArgType::Boolean => get_var_array_refarg::<bool, _>(i, |si| si.get()), ArgType::Invalid => panic!("Array with Invalid ArgType"), ArgType::Array => get_internal_array(i), ArgType::DictEntry => { let key = ArgType::from_i32(i.signature().as_bytes()[2] as i32).unwrap(); // The third ch match key { ArgType::Byte => get_dict_refarg::<u8, _>(i, |si| si.get()), ArgType::Int16 => get_dict_refarg::<i16, _>(i, |si| si.get()), ArgType::UInt16 => get_dict_refarg::<u16, _>(i, |si| si.get()), ArgType::Int32 => get_dict_refarg::<i32, _>(i, |si| si.get()), ArgType::UInt32 => get_dict_refarg::<u32, _>(i, |si| si.get()), ArgType::Int64 => get_dict_refarg::<i64, _>(i, |si| si.get()), ArgType::UInt64 => get_dict_refarg::<u64, _>(i, |si| si.get()), ArgType::Double => get_dict_refarg::<f64, _>(i, |si| si.get()), ArgType::Boolean => get_dict_refarg::<bool, _>(i, |si| si.get()), // ArgType::UnixFd => get_dict_refarg::<OwnedFd, _>(i, |si| si.get()), ArgType::String => get_dict_refarg::<String, _>(i, |si| si.get()), ArgType::ObjectPath => get_dict_refarg::<Path<'static>, _>(i, |si| si.get::<Path>().map(|s| s ArgType::Signature => get_dict_refarg::<Signature<'static>, _>(i, |si| si.get::<Signature>() _ => panic!("Array with invalid dictkey ({:?})", key), } } ArgType::UnixFd => get_var_array_refarg::<OwnedFd, _>(i, |si| si.get()), ArgType::Struct => get_internal_array(i), }; debug_assert_eq!(i.signature(), x.signature()); x } [ Dauer der Verarbeitung: 0.42 Sekunden ] |
2026-04-02