Add missing methods to DList. Issue #209

This commit is contained in:
Eugen Wissner 2017-07-08 13:44:57 +02:00
parent 4ac890d7d3
commit 53df12897b

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@ -545,7 +545,18 @@ struct SList(T)
*/ */
size_t insertBefore(size_t R)(Range r, T[R] el) size_t insertBefore(size_t R)(Range r, T[R] el)
{ {
return insertFront!(T[])(el[]); return insertBefore!(T[])(r, el[]);
}
///
@safe @nogc unittest
{
auto l1 = SList!int([5, 234, 30, 1]);
auto l2 = SList!int([5, 1]);
auto r = l2[];
r.popFront();
l2.insertBefore(r, [234, 30]);
assert(l1 == l2);
} }
/** /**
@ -916,20 +927,19 @@ struct DRange(L)
{ {
private alias E = typeof(L.head.content); private alias E = typeof(L.head.content);
private alias EntryPointer = typeof(L.head); private alias EntryPointer = typeof(L.head);
private alias TailPointer = Unqual!EntryPointer;
private EntryPointer* head; private EntryPointer* head;
private TailPointer tail; private EntryPointer* tail;
invariant invariant
{ {
assert(this.head !is null); assert(this.head !is null);
} }
private this(ref EntryPointer head, TailPointer tail) @trusted private this(ref EntryPointer head, ref EntryPointer tail) @trusted
{ {
this.head = &head; this.head = &head;
this.tail = tail; this.tail = &tail;
} }
@disable this(); @disable this();
@ -941,7 +951,7 @@ struct DRange(L)
@property bool empty() const @property bool empty() const
{ {
return *this.head is null || *this.head is this.tail.next; return *this.head is null || *this.head is (*this.tail).next;
} }
@property ref inout(E) front() inout @property ref inout(E) front() inout
@ -961,7 +971,7 @@ struct DRange(L)
} }
body body
{ {
return this.tail.content; return (*this.tail).content;
} }
void popFront() @trusted void popFront() @trusted
@ -981,17 +991,17 @@ struct DRange(L)
} }
body body
{ {
this.tail = this.tail.prev; this.tail = &(*this.tail).prev;
} }
DRange opIndex() DRange opIndex()
{ {
return typeof(return)(*this.head, this.tail); return typeof(return)(*this.head, *this.tail);
} }
L.ConstRange opIndex() const L.ConstRange opIndex() const
{ {
return typeof(return)(*this.head, this.tail); return typeof(return)(*this.head, *this.tail);
} }
} }
@ -1019,6 +1029,7 @@ struct DList(T)
assert((this.tail is null && this.head is null) assert((this.tail is null && this.head is null)
|| (this.tail !is null && this.head !is null)); || (this.tail !is null && this.head !is null));
assert(this.tail is null || this.tail.next is null); assert(this.tail is null || this.tail.next is null);
assert(this.head is null || this.head.prev is null);
} }
/** /**
@ -1274,20 +1285,21 @@ struct DList(T)
assert(l.back == 25); assert(l.back == 25);
} }
private size_t moveEntry(R)(ref Entry* head, ref R el) @trusted private size_t moveFront(R)(ref Entry* head, ref R el) @trusted
if (isImplicitlyConvertible!(R, T)) if (isImplicitlyConvertible!(R, T))
{ {
auto temp = cast(Entry*) allocator.allocate(Entry.sizeof); auto temp = cast(Entry*) allocator.allocate(Entry.sizeof);
el.moveEmplace(temp.content); el.moveEmplace(temp.content);
temp.next = head; temp.next = head;
temp.prev = null;
if (this.tail is null) if (this.tail is null)
{ {
temp.prev = null;
this.tail = temp; this.tail = temp;
} }
else else
{ {
temp.prev = head.prev;
head.prev = temp; head.prev = temp;
} }
@ -1307,7 +1319,7 @@ struct DList(T)
size_t insertFront(R)(R el) size_t insertFront(R)(R el)
if (isImplicitlyConvertible!(R, T)) if (isImplicitlyConvertible!(R, T))
{ {
return moveEntry(this.head, el); return moveFront(this.head, el);
} }
/// Ditto. /// Ditto.
@ -1390,9 +1402,6 @@ struct DList(T)
return insertFront!(T[])(el[]); return insertFront!(T[])(el[]);
} }
/// Ditto.
alias insert = insertBack;
/// ///
@safe @nogc unittest @safe @nogc unittest
{ {
@ -1416,6 +1425,28 @@ struct DList(T)
assert(l2.back == 15); assert(l2.back == 15);
} }
private size_t moveBack(R)(ref Entry* tail, ref R el) @trusted
if (isImplicitlyConvertible!(R, T))
{
auto temp = cast(Entry*) allocator.allocate(Entry.sizeof);
el.moveEmplace(temp.content);
temp.prev = tail;
if (this.head is null)
{
temp.next = null;
this.head = this.tail = temp;
}
else
{
temp.next = tail.next;
tail.next = temp;
}
tail = temp;
return 1;
}
/** /**
* Inserts a new element at the end. * Inserts a new element at the end.
* *
@ -1428,22 +1459,7 @@ struct DList(T)
size_t insertBack(R)(R el) @trusted size_t insertBack(R)(R el) @trusted
if (isImplicitlyConvertible!(R, T)) if (isImplicitlyConvertible!(R, T))
{ {
auto temp = cast(Entry*) allocator.allocate(Entry.sizeof); return moveBack(this.tail, el);
el.moveEmplace(temp.content);
temp.next = null;
temp.prev = tail;
if (this.head is null)
{
this.head = temp;
}
else
{
this.tail.next = temp;
}
this.tail = temp;
return 1;
} }
/// Ditto. /// Ditto.
@ -1519,6 +1535,9 @@ struct DList(T)
assert(l2.back == 9); assert(l2.back == 9);
} }
/// Ditto.
alias insert = insertBack;
version (assert) version (assert)
{ {
private bool checkRangeBelonging(ref Range r) const private bool checkRangeBelonging(ref Range r) const
@ -1551,7 +1570,7 @@ struct DList(T)
} }
body body
{ {
return moveEntry(*r.head, el); return moveFront(*r.head, el);
} }
/// ///
@ -1563,6 +1582,41 @@ struct DList(T)
assert(l1 == l2); assert(l1 == l2);
} }
/// Ditto.
size_t insertBefore(Range r, ref T el) @trusted
in
{
assert(checkRangeBelonging(r));
}
body
{
auto temp = allocator.make!Entry(el, *r.head);
if (this.tail is null)
{
this.tail = temp;
}
else
{
temp.prev = (*r.head).prev;
(*r.head).prev = temp;
}
*r.head = temp;
return 1;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([234, 5, 1]);
auto l2 = DList!int([5, 1]);
int var = 234;
l2.insertBefore(l2[], var);
assert(l1 == l2);
}
/// Ditto. /// Ditto.
size_t insertBefore(R)(Range r, R el) size_t insertBefore(R)(Range r, R el)
if (!isInfinite!R if (!isInfinite!R
@ -1588,32 +1642,9 @@ struct DList(T)
{ {
auto l1 = DList!int([5, 234, 30, 1]); auto l1 = DList!int([5, 234, 30, 1]);
auto l2 = DList!int([5, 1]); auto l2 = DList!int([5, 1]);
auto l3 = DList!int([234, 30]);
auto r = l2[]; auto r = l2[];
r.popFront(); r.popFront();
l2.insertBefore(r, l3[]); l2.insertBefore(r, [234, 30]);
assert(l1 == l2);
}
/// Ditto.
size_t insertBefore(Range r, ref T el) @trusted
in
{
assert(checkRangeBelonging(r));
}
body
{
*r.head = allocator.make!Entry(el, *r.head);
return 1;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([234, 5, 1]);
auto l2 = DList!int([5, 1]);
int var = 234;
l2.insertBefore(l2[], var);
assert(l1 == l2); assert(l1 == l2);
} }
@ -1631,7 +1662,133 @@ struct DList(T)
*/ */
size_t insertBefore(size_t R)(Range r, T[R] el) size_t insertBefore(size_t R)(Range r, T[R] el)
{ {
return insertFront!(T[])(el[]); return insertBefore!(T[])(r, el[]);
}
/**
* Inserts new elements after $(D_PARAM r).
*
* Params:
* R = Type of the inserted value(s).
* r = Range extracted from this list.
* el = New element(s).
*
* Returns: The number of elements inserted.
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
size_t insertAfter(R)(Range r, R el) @trusted
if (isImplicitlyConvertible!(R, T))
in
{
assert(checkRangeBelonging(r));
}
body
{
return moveBack(*r.tail, el);
}
///
@safe @nogc unittest
{
auto l1 = DList!int([5, 234, 1]);
auto l2 = DList!int([5, 1]);
auto r = l2[];
r.popBack();
l2.insertAfter(r, 234);
assert(l1 == l2);
}
private @safe @nogc unittest
{
DList!int l;
l.insertAfter(l[], 234);
assert(l.front == 234);
assert(l.back == 234);
assert(l.length == 1);
}
/// Ditto.
size_t insertAfter(Range r, ref T el) @trusted
in
{
assert(checkRangeBelonging(r));
}
body
{
auto temp = allocator.make!Entry(el, null, *r.tail);
if (this.head is null)
{
this.head = temp;
}
else
{
temp.next = (*r.tail).next;
(*r.tail).next = temp;
}
*r.tail = temp;
return 1;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([5, 1, 234]);
auto l2 = DList!int([5, 1]);
int var = 234;
l2.insertAfter(l2[], var);
assert(l1 == l2);
}
/// Ditto.
size_t insertAfter(R)(Range r, R el)
if (!isInfinite!R
&& isInputRange!R
&& isImplicitlyConvertible!(ElementType!R, T))
in
{
assert(checkRangeBelonging(r));
}
body
{
size_t inserted;
foreach (e; el)
{
inserted += insertAfter(r, e);
}
return inserted;
}
///
@safe @nogc unittest
{
auto l1 = DList!int([5, 234, 30, 1]);
auto l2 = DList!int([5, 1]);
auto r = l2[];
r.popBack();
l2.insertAfter(r, [234, 30]);
assert(l1 == l2);
}
/**
* Inserts elements from a static array after $(D_PARAM r).
*
* Params:
* R = Static array size.
* r = Range extracted from this list.
* el = New elements.
*
* Returns: The number of elements inserted.
*
* Precondition: $(D_PARAM r) is extracted from this list.
*/
size_t insertAfter(size_t R)(Range r, T[R] el)
{
return insertAfter!(T[])(r, el[]);
} }
/** /**
@ -1703,7 +1860,7 @@ struct DList(T)
} }
/** /**
* Removes the front element. * Removes the front or back element.
* *
* Precondition: $(D_INLINECODE !empty) * Precondition: $(D_INLINECODE !empty)
*/ */
@ -1722,6 +1879,10 @@ struct DList(T)
{ {
this.tail = null; this.tail = null;
} }
else
{
this.head.prev = null;
}
} }
/// ///
@ -1738,12 +1899,47 @@ struct DList(T)
assert(l.empty); assert(l.empty);
} }
/// Ditto.
void removeBack()
in
{
assert(!empty);
}
body
{
auto n = this.tail.prev;
allocator.dispose(this.tail);
this.tail = n;
if (this.tail is null)
{
this.head = null;
}
else
{
this.tail.next = null;
}
}
///
@safe @nogc unittest
{
auto l = DList!int([9, 8]);
assert(l.back == 8);
l.removeBack();
assert(l.back == 9);
l.removeFront();
assert(l.empty);
}
/** /**
* Removes $(D_PARAM howMany) elements from the list. * Removes $(D_PARAM howMany) elements from the list.
* *
* Unlike $(D_PSYMBOL removeFront()), this method doesn't fail, if it could not * Unlike $(D_PSYMBOL removeFront()) and $(D_PSYMBOL removeBack()), this
* remove $(D_PARAM howMany) elements. Instead, if $(D_PARAM howMany) is * method doesn't fail, if it could not remove $(D_PARAM howMany) elements.
* greater than the list length, all elements are removed. * Instead, if $(D_PARAM howMany) is greater than the list length, all
* elements are removed.
* *
* Params: * Params:
* howMany = How many elements should be removed. * howMany = How many elements should be removed.
@ -1776,6 +1972,33 @@ struct DList(T)
assert(l.removeFront(3) == 0); assert(l.removeFront(3) == 0);
} }
/// Ditto.
size_t removeBack(const size_t howMany)
out (removed)
{
assert(removed <= howMany);
}
body
{
size_t i;
for (; i < howMany && !empty; ++i)
{
removeBack();
}
return i;
}
///
@safe @nogc unittest
{
DList!int l = DList!int([8, 5, 4]);
assert(l.removeBack(0) == 0);
assert(l.removeBack(2) == 2);
assert(l.removeBack(3) == 1);
assert(l.removeBack(3) == 0);
}
/** /**
* Removes $(D_PARAM r) from the list. * Removes $(D_PARAM r) from the list.
* *
@ -1795,9 +2018,9 @@ struct DList(T)
{ {
// Save references to the elements before and after the range. // Save references to the elements before and after the range.
Entry* tailNext, headPrev; Entry* tailNext, headPrev;
if (r.tail !is null && r.tail.next !is null) if (*r.tail !is null && (*r.tail).next !is null)
{ {
tailNext = r.tail.next; tailNext = (*r.tail).next;
} }
if (*r.head !is null) if (*r.head !is null)
{ {
@ -1819,7 +2042,7 @@ struct DList(T)
tailNext.prev = headPrev; tailNext.prev = headPrev;
} }
*r.head = tailNext; *r.head = tailNext;
r.tail = tail; *r.tail = tail;
return r; return r;
} }