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+/* Manipulate doubly linked lists.
+ Copyright (C) 2025 Free Software Foundation, Inc.
+
+ This program is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 3 of the License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program. If not, see <http://www.gnu.org/licenses/>. */
+
+
+#ifndef _DOUBLY_LINKED_LIST_H
+#define _DOUBLY_LINKED_LIST_H
+
+/* Doubly linked list implementation enforcing typing.
+
+ This implementation of doubly linked list tries to achieve the enforcement of
+ typing similarly to C++ templates, but without encapsulation.
+
+ All the functions are prefixed with the type of the value: "AType_xxx".
+ Some functions are prefixed with "_AType_xxx" and are not part of the public
+ API, so should not be used, except for _##LTYPE##_merge_sort with a caveat
+ (see note above its definition).
+
+ Each function (### is a placeholder for method name) has a macro for:
+ (1) its invocation LINKED_LIST_###(LTYPE).
+ (2) its prototype LINKED_LIST_DECL_###(A, A2, scope). To add in a header
+ file, or a source file for forward declaration. 'scope' should be set
+ respectively to 'extern', or 'static'.
+ (3) its definition LINKED_LIST_DEFN_###(A, A2, scope). To add in a source
+ file with the 'scope' set respectively to nothing, or 'static' depending
+ on (2).
+
+ Data structures requirements:
+ - LTYPE corresponds to the node of a doubly linked list. It needs to define
+ attributes 'prev' and 'next' which are pointers on the type of a node.
+ For instance:
+ struct my_list_node
+ {
+ T value;
+ struct my_list_node *prev;
+ struct my_list_node *next;
+ };
+ - LWRAPPERTYPE is a structure wrapping the nodes and others metadata (first,
+ last, size).
+ */
+
+
+/* Mutative operations:
+ - append
+ - prepend
+ - insert_before
+ - pop_front
+ - pop_back
+ - remove
+ - swap
+ The header and body of each of those operation can be declared individually,
+ or as a whole via LINKED_LIST_MUTATIVE_OPS_PROTOTYPE for the prototypes, and
+ LINKED_LIST_MUTATIVE_OPS_DECL for the implementations. */
+
+/* Append the given node new_ to the exising list.
+ Precondition: prev and next of new_ must be NULL. */
+#define LINKED_LIST_APPEND(LTYPE) LTYPE##_append
+
+#define LINKED_LIST_DECL_APPEND(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT void \
+ LTYPE##_append (LWRAPPERTYPE *wrapper, LTYPE *new_)
+
+#define LINKED_LIST_DEFN_APPEND(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT void \
+LTYPE##_append (LWRAPPERTYPE *wrapper, LTYPE *new_) \
+{ \
+ if (wrapper->last == NULL) \
+ wrapper->first = new_; \
+ else \
+ { \
+ new_->prev = wrapper->last; \
+ wrapper->last->next = new_; \
+ } \
+ wrapper->last = new_; \
+ ++wrapper->size; \
+}
+
+/* Prepend the given node new_ to the existing list.
+ Precondition: prev and next of new_ must be NULL. */
+#define LINKED_LIST_PREPEND(LTYPE) LTYPE##_prepend
+
+#define LINKED_LIST_DECL_PREPEND(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT void \
+ LTYPE##_prepend (LWRAPPERTYPE *wrapper, LTYPE *new_)
+
+#define LINKED_LIST_DEFN_PREPEND(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT void \
+LTYPE##_prepend (LWRAPPERTYPE *wrapper, LTYPE *new_) \
+{ \
+ if (wrapper->first == NULL) \
+ wrapper->last = new_; \
+ else \
+ { \
+ new_->next = wrapper->first; \
+ wrapper->first->prev = new_; \
+ } \
+ wrapper->first = new_; \
+ ++wrapper->size; \
+}
+
+/* Insert the given node new_ before 'where' in the existing list.
+ If where == NULL, the insertion is equivalent to an append.
+ If where == first, the insertion is equivalent to a prepend. */
+#define LINKED_LIST_INSERT_BEFORE(LTYPE) LTYPE##_insert_before
+
+#define LINKED_LIST_DECL_INSERT_BEFORE(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT void \
+ LTYPE##_insert_before (LWRAPPERTYPE *wrapper, \
+ LTYPE *new_, \
+ LTYPE *where)
+
+#define LINKED_LIST_DEFN_INSERT_BEFORE(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT void \
+LTYPE##_insert_before (LWRAPPERTYPE *wrapper, \
+ LTYPE *new_, \
+ LTYPE *where) \
+{ \
+ if (where == wrapper->first) \
+ LTYPE##_prepend (wrapper, new_); \
+ else if (where == NULL) \
+ LTYPE##_append (wrapper, new_); \
+ else \
+ { \
+ where->prev->next = new_; \
+ new_->prev = where->prev; \
+ where->prev = new_; \
+ new_->next = where; \
+ ++wrapper->size; \
+ } \
+}
+
+/* Pop the first node of the list. */
+#define LINKED_LIST_POP_FRONT(LTYPE) LTYPE##_pop_front
+
+#define LINKED_LIST_DECL_POP_FRONT(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT LTYPE * \
+ LTYPE##_pop_front (LWRAPPERTYPE *wrapper)
+
+#define LINKED_LIST_DEFN_POP_FRONT(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT LTYPE * \
+LTYPE##_pop_front (LWRAPPERTYPE *wrapper) \
+{ \
+ LTYPE *front_node = wrapper->first; \
+ if (front_node != NULL) \
+ { \
+ wrapper->first = front_node->next; \
+ if (wrapper->last == front_node) \
+ wrapper->last = NULL; \
+ else \
+ { \
+ front_node->next->prev = NULL; \
+ front_node->next = NULL; \
+ } \
+ front_node->next = NULL; \
+ --wrapper->size; \
+ } \
+ return front_node; \
+}
+
+/* Pop the last node of the list. */
+#define LINKED_LIST_POP_BACK(LTYPE) LTYPE##_pop_back
+
+#define LINKED_LIST_DECL_POP_BACK(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT LTYPE * \
+ LTYPE##_pop_back (LWRAPPERTYPE *wrapper)
+
+#define LINKED_LIST_DEFN_POP_BACK(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT LTYPE * \
+LTYPE##_pop_back (LWRAPPERTYPE *wrapper) \
+{ \
+ LTYPE *back_node = wrapper->last; \
+ if (back_node != NULL) \
+ { \
+ wrapper->last = back_node->prev; \
+ if (wrapper->first == back_node) \
+ wrapper->first = NULL; \
+ else \
+ { \
+ back_node->prev->next = NULL; \
+ back_node->prev = NULL; \
+ } \
+ back_node->prev = NULL; \
+ --wrapper->size; \
+ } \
+ return back_node; \
+}
+
+/* Remove the given node from the existing list, and return the previous
+ node. */
+#define LINKED_LIST_REMOVE(LTYPE) LTYPE##_remove
+
+#define LINKED_LIST_DECL_REMOVE(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT LTYPE * \
+ LTYPE##_remove (LWRAPPERTYPE *wrapper, LTYPE *node)
+
+#define LINKED_LIST_DEFN_REMOVE(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT LTYPE * \
+LTYPE##_remove (LWRAPPERTYPE *wrapper, LTYPE *node) \
+{ \
+ LTYPE *previous = NULL; \
+ \
+ if (node->prev != NULL) \
+ { \
+ node->prev->next = node->next; \
+ if (node->next == NULL) \
+ wrapper->last = node->prev; \
+ else \
+ node->next->prev = node->prev; \
+ previous = node->prev; \
+ node->next = NULL; \
+ node->prev = NULL; \
+ --wrapper->size; \
+ } \
+ else \
+ LTYPE##_pop_front (wrapper); \
+ \
+ return previous; \
+}
+
+/* Generic swap. */
+#define LINKED_LIST_SWAP(LTYPE) LTYPE##_swap
+
+#define LINKED_LIST_DECL_SWAP(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT void \
+ LTYPE##_swap (LWRAPPERTYPE *wrapper, LTYPE *node1, LTYPE *node2)
+
+/* Swap two nodes in a list. */
+#define LINKED_LIST_DEFN_SWAP(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT void \
+LTYPE##_swap (LWRAPPERTYPE *wrapper, LTYPE *node1, LTYPE *node2) \
+{ \
+ LTYPE *prev1 = node1->prev; \
+ LTYPE *next1 = node1->next; \
+ LTYPE *prev2 = node2->prev; \
+ LTYPE *next2 = node2->next; \
+ \
+ if (prev1 != NULL) \
+ prev1->next = node2; \
+ else \
+ wrapper->first = node2; \
+ if (prev2 != NULL) \
+ prev2->next = node1; \
+ else \
+ wrapper->first = node1; \
+ \
+ if (next1 != NULL) \
+ next1->prev = node2; \
+ else \
+ wrapper->last = node2; \
+ if (next2 != NULL) \
+ next2->prev = node1; \
+ else \
+ wrapper->last = node1; \
+ \
+ { \
+ LTYPE *temp = node1->next; \
+ node1->next = node2->next; \
+ node2->next = temp; \
+ } \
+ { \
+ LTYPE *temp = node1->prev; \
+ node1->prev = node2->prev; \
+ node2->prev = temp; \
+ } \
+}
+
+/* Note: all the mutative operations below also update the data in the wrapper,
+ i.e. first, last and size. */
+#define LINKED_LIST_MUTATIVE_OPS_PROTOTYPE(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DECL_APPEND(LWRAPPERTYPE, LTYPE, EXPORT); \
+ LINKED_LIST_DECL_PREPEND(LWRAPPERTYPE, LTYPE, EXPORT); \
+ LINKED_LIST_DECL_INSERT_BEFORE(LWRAPPERTYPE, LTYPE, EXPORT); \
+ LINKED_LIST_DECL_POP_FRONT(LWRAPPERTYPE, LTYPE, EXPORT); \
+ LINKED_LIST_DECL_POP_BACK(LWRAPPERTYPE, LTYPE, EXPORT); \
+ LINKED_LIST_DECL_REMOVE(LWRAPPERTYPE, LTYPE, EXPORT); \
+ LINKED_LIST_DECL_SWAP(LWRAPPERTYPE, LTYPE, EXPORT)
+
+#define LINKED_LIST_MUTATIVE_OPS_DECL(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_APPEND(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_PREPEND(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_INSERT_BEFORE(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_POP_FRONT(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_POP_BACK(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_REMOVE(LWRAPPERTYPE, LTYPE, EXPORT) \
+ LINKED_LIST_DEFN_SWAP(LWRAPPERTYPE, LTYPE, EXPORT)
+
+
+/* Sorting. */
+
+#define LINKED_LIST_MERGE_SORT_(LTYPE) LTYPE##_merge_sort_
+
+#define LINKED_LIST_MERGE_SORT(LTYPE) LTYPE##_merge_sort
+
+#define LINKED_LIST_MERGE_SORT_PROTOTYPE_(LTYPE, EXPORT) \
+ EXPORT LTYPE * \
+ LTYPE##_merge_sort_ (LTYPE *node, \
+ int (*fn_cmp) (const LTYPE *, const LTYPE *))
+
+#define LINKED_LIST_MERGE_SORT_PROTOTYPE(LWRAPPERTYPE, LTYPE, EXPORT) \
+ EXPORT void \
+ LTYPE##_merge_sort (LWRAPPERTYPE *wrapper, \
+ int (*fn_cmp) (const LTYPE *, const LTYPE *))
+
+/* Note: all the functions and macros below starting with "_" should be
+ considered private. */
+
+/* Compute the middle element of the list based on the turtle and hare
+ approach, i.e. the hare runs twice faster than the turtle. */
+#define _MERGE_SORT_IMPL_COMPUTE_TURTLE(LTYPE) \
+static inline LTYPE * \
+LTYPE##_merge_sort_compute_turtle_ (LTYPE *node) \
+{ \
+ if (node == NULL) \
+ return node; \
+ \
+ LTYPE *turtle = node, *hare = node->next; \
+ while (hare != NULL && hare->next != NULL) \
+ { \
+ turtle = turtle->next; \
+ hare = hare->next->next; \
+ } \
+ return turtle; \
+}
+
+/* Append n at the end of l_out, and return the next node after n.
+ l_out and l_last should be ideally encapsulated into a list structure
+ but this is overkill for what we need here. */
+#define _MERGE_SORT_IMPL_OUT_APPEND(LTYPE) \
+static inline LTYPE * \
+LTYPE##_merge_sort_out_append_ (LTYPE **l_out, LTYPE **l_last, \
+ LTYPE *n) \
+{ \
+ if (*l_last == NULL) \
+ { \
+ *l_last = n; \
+ *l_out = n; \
+ n->prev = NULL; \
+ } \
+ else \
+ { \
+ (*l_last)->next = n; \
+ n->prev = *l_last; \
+ *l_last = n; \
+ } \
+ \
+ return n->next; \
+}
+
+/* Merge two sorted lists together.
+ The returned value corresponds to the first element of the list.
+ Note: both input lists are invalidated after the call. */
+#define _MERGE_SORT_IMPL_MERGE(LTYPE) \
+static inline LTYPE * \
+LTYPE##_merge_sort_merge_ (LTYPE *l_left, LTYPE *l_right, \
+ int (*fn_cmp) (const LTYPE *, const LTYPE *))\
+{ \
+ if (l_left == NULL) \
+ return l_right; \
+ else if (l_right == NULL) \
+ return l_left; \
+ \
+ LTYPE *l_out = NULL, *l_last = NULL; \
+ \
+ LTYPE *l_l = l_left, *l_r = l_right; \
+ while (l_l != NULL && l_r != NULL) \
+ { \
+ int cmp = fn_cmp (l_l, l_r); \
+ if (cmp <= 0) \
+ l_l = LTYPE##_merge_sort_out_append_ (&l_out, &l_last, l_l); \
+ else \
+ l_r = LTYPE##_merge_sort_out_append_ (&l_out, &l_last, l_r); \
+ } \
+ \
+ LTYPE *l_remaining = (l_l != NULL) ? l_l : l_r; \
+ while (l_remaining != NULL) \
+ l_remaining = \
+ LTYPE##_merge_sort_out_append_ (&l_out, &l_last, l_remaining); \
+ \
+ return l_out; \
+}
+
+/* Merge sort implementation taking the first node of the list to sort,
+ and the comparison function. Returns the first node of the sorted list.
+ Note: use this if you don't care about updating the information in the
+ wrapper. */
+#define _MERGE_SORT_DEFN_SORT(LTYPE, EXPORT) \
+EXPORT LTYPE * \
+LTYPE##_merge_sort_ (LTYPE *node, \
+ int (*fn_cmp)(const LTYPE *, const LTYPE *)) \
+{ \
+ if (node == NULL) \
+ return NULL; \
+ else if (node->next == NULL) \
+ return node; \
+ \
+ LTYPE *left_end = LTYPE##_merge_sort_compute_turtle_ (node); \
+ LTYPE *left_begin = node; \
+ LTYPE *right_begin = left_end->next; \
+ /* break the list. */ \
+ left_end->next = NULL; \
+ right_begin->prev = NULL; \
+ \
+ left_begin = LTYPE##_merge_sort_ (left_begin, fn_cmp); \
+ right_begin = LTYPE##_merge_sort_ (right_begin, fn_cmp); \
+ return LTYPE##_merge_sort_merge_ (left_begin, right_begin, fn_cmp); \
+}
+
+/* Merge sort wrapper that the end-user should be using as it updates the
+ first and last metadata of the list in wrapper as well.
+ If the user does not want to pay the cost of the update of the data,
+ it can directly use _##LTYPE##_merge_sort_merge. */
+#define _MERGE_SORT_DEFN_WRAPPER_SORT(LWRAPPERTYPE, LTYPE, EXPORT) \
+EXPORT void \
+LTYPE##_merge_sort (LWRAPPERTYPE *wrapper, \
+ int (*fn_cmp) (const LTYPE *, const LTYPE *)) \
+{ \
+ wrapper->first = LTYPE##_merge_sort_ (wrapper->first, fn_cmp); \
+ \
+ if (wrapper->first == NULL || wrapper->first->next == NULL) \
+ wrapper->last = wrapper->first; \
+ else \
+ for (LTYPE *node = wrapper->first; \
+ node != NULL; \
+ node = node->next) \
+ wrapper->last = node; \
+}
+
+#define LINKED_LIST_MERGE_SORT_DECL(LWRAPPERTYPE, LTYPE, EXPORT) \
+ _MERGE_SORT_IMPL_COMPUTE_TURTLE(LTYPE) \
+ _MERGE_SORT_IMPL_OUT_APPEND(LTYPE) \
+ _MERGE_SORT_IMPL_MERGE(LTYPE) \
+ _MERGE_SORT_DEFN_SORT(LTYPE, EXPORT) \
+ _MERGE_SORT_DEFN_WRAPPER_SORT(LWRAPPERTYPE, LTYPE, EXPORT)
+
+#endif /* _DOUBLY_LINKED_LIST_H */
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