diff options
Diffstat (limited to 'jni/ruby/ccan')
-rw-r--r-- | jni/ruby/ccan/build_assert/build_assert.h | 40 | ||||
-rw-r--r-- | jni/ruby/ccan/check_type/check_type.h | 63 | ||||
-rw-r--r-- | jni/ruby/ccan/container_of/container_of.h | 142 | ||||
-rw-r--r-- | jni/ruby/ccan/licenses/BSD-MIT | 17 | ||||
-rw-r--r-- | jni/ruby/ccan/licenses/CC0 | 28 | ||||
-rw-r--r-- | jni/ruby/ccan/list/list.h | 635 | ||||
-rw-r--r-- | jni/ruby/ccan/str/str.h | 16 |
7 files changed, 941 insertions, 0 deletions
diff --git a/jni/ruby/ccan/build_assert/build_assert.h b/jni/ruby/ccan/build_assert/build_assert.h new file mode 100644 index 0000000..a04d1d4 --- /dev/null +++ b/jni/ruby/ccan/build_assert/build_assert.h @@ -0,0 +1,40 @@ +/* CC0 (Public domain) - see ccan/licenses/CC0 file for details */ +#ifndef CCAN_BUILD_ASSERT_H +#define CCAN_BUILD_ASSERT_H + +/** + * BUILD_ASSERT - assert a build-time dependency. + * @cond: the compile-time condition which must be true. + * + * Your compile will fail if the condition isn't true, or can't be evaluated + * by the compiler. This can only be used within a function. + * + * Example: + * #include <stddef.h> + * ... + * static char *foo_to_char(struct foo *foo) + * { + * // This code needs string to be at start of foo. + * BUILD_ASSERT(offsetof(struct foo, string) == 0); + * return (char *)foo; + * } + */ +#define BUILD_ASSERT(cond) \ + do { (void) sizeof(char [1 - 2*!(cond)]); } while(0) + +/** + * BUILD_ASSERT_OR_ZERO - assert a build-time dependency, as an expression. + * @cond: the compile-time condition which must be true. + * + * Your compile will fail if the condition isn't true, or can't be evaluated + * by the compiler. This can be used in an expression: its value is "0". + * + * Example: + * #define foo_to_char(foo) \ + * ((char *)(foo) \ + * + BUILD_ASSERT_OR_ZERO(offsetof(struct foo, string) == 0)) + */ +#define BUILD_ASSERT_OR_ZERO(cond) \ + (sizeof(char [1 - 2*!(cond)]) - 1) + +#endif /* CCAN_BUILD_ASSERT_H */ diff --git a/jni/ruby/ccan/check_type/check_type.h b/jni/ruby/ccan/check_type/check_type.h new file mode 100644 index 0000000..1f77a53 --- /dev/null +++ b/jni/ruby/ccan/check_type/check_type.h @@ -0,0 +1,63 @@ +/* CC0 (Public domain) - see ccan/licenses/CC0 file for details */ +#ifndef CCAN_CHECK_TYPE_H +#define CCAN_CHECK_TYPE_H + +/** + * check_type - issue a warning or build failure if type is not correct. + * @expr: the expression whose type we should check (not evaluated). + * @type: the exact type we expect the expression to be. + * + * This macro is usually used within other macros to try to ensure that a macro + * argument is of the expected type. No type promotion of the expression is + * done: an unsigned int is not the same as an int! + * + * check_type() always evaluates to 0. + * + * If your compiler does not support typeof, then the best we can do is fail + * to compile if the sizes of the types are unequal (a less complete check). + * + * Example: + * // They should always pass a 64-bit value to _set_some_value! + * #define set_some_value(expr) \ + * _set_some_value((check_type((expr), uint64_t), (expr))) + */ + +/** + * check_types_match - issue a warning or build failure if types are not same. + * @expr1: the first expression (not evaluated). + * @expr2: the second expression (not evaluated). + * + * This macro is usually used within other macros to try to ensure that + * arguments are of identical types. No type promotion of the expressions is + * done: an unsigned int is not the same as an int! + * + * check_types_match() always evaluates to 0. + * + * If your compiler does not support typeof, then the best we can do is fail + * to compile if the sizes of the types are unequal (a less complete check). + * + * Example: + * // Do subtraction to get to enclosing type, but make sure that + * // pointer is of correct type for that member. + * #define container_of(mbr_ptr, encl_type, mbr) \ + * (check_types_match((mbr_ptr), &((encl_type *)0)->mbr), \ + * ((encl_type *) \ + * ((char *)(mbr_ptr) - offsetof(enclosing_type, mbr)))) + */ +#if HAVE_TYPEOF +#define check_type(expr, type) \ + ((typeof(expr) *)0 != (type *)0) + +#define check_types_match(expr1, expr2) \ + ((typeof(expr1) *)0 != (typeof(expr2) *)0) +#else +#include "ccan/build_assert/build_assert.h" +/* Without typeof, we can only test the sizes. */ +#define check_type(expr, type) \ + BUILD_ASSERT_OR_ZERO(sizeof(expr) == sizeof(type)) + +#define check_types_match(expr1, expr2) \ + BUILD_ASSERT_OR_ZERO(sizeof(expr1) == sizeof(expr2)) +#endif /* HAVE_TYPEOF */ + +#endif /* CCAN_CHECK_TYPE_H */ diff --git a/jni/ruby/ccan/container_of/container_of.h b/jni/ruby/ccan/container_of/container_of.h new file mode 100644 index 0000000..ae3e1fc --- /dev/null +++ b/jni/ruby/ccan/container_of/container_of.h @@ -0,0 +1,142 @@ +/* CC0 (Public domain) - see ccan/licenses/CC0 file for details */ +#ifndef CCAN_CONTAINER_OF_H +#define CCAN_CONTAINER_OF_H +#include "ccan/check_type/check_type.h" + +/** + * container_of - get pointer to enclosing structure + * @member_ptr: pointer to the structure member + * @containing_type: the type this member is within + * @member: the name of this member within the structure. + * + * Given a pointer to a member of a structure, this macro does pointer + * subtraction to return the pointer to the enclosing type. + * + * Example: + * struct foo { + * int fielda, fieldb; + * // ... + * }; + * struct info { + * int some_other_field; + * struct foo my_foo; + * }; + * + * static struct info *foo_to_info(struct foo *foo) + * { + * return container_of(foo, struct info, my_foo); + * } + */ +#define container_of(member_ptr, containing_type, member) \ + ((containing_type *) \ + ((char *)(member_ptr) \ + - container_off(containing_type, member)) \ + + check_types_match(*(member_ptr), ((containing_type *)0)->member)) + + +/** + * container_of_or_null - get pointer to enclosing structure, or NULL + * @member_ptr: pointer to the structure member + * @containing_type: the type this member is within + * @member: the name of this member within the structure. + * + * Given a pointer to a member of a structure, this macro does pointer + * subtraction to return the pointer to the enclosing type, unless it + * is given NULL, in which case it also returns NULL. + * + * Example: + * struct foo { + * int fielda, fieldb; + * // ... + * }; + * struct info { + * int some_other_field; + * struct foo my_foo; + * }; + * + * static struct info *foo_to_info_allowing_null(struct foo *foo) + * { + * return container_of_or_null(foo, struct info, my_foo); + * } + */ +static inline char *container_of_or_null_(void *member_ptr, size_t offset) +{ + return member_ptr ? (char *)member_ptr - offset : NULL; +} +#define container_of_or_null(member_ptr, containing_type, member) \ + ((containing_type *) \ + container_of_or_null_(member_ptr, \ + container_off(containing_type, member)) \ + + check_types_match(*(member_ptr), ((containing_type *)0)->member)) + +/** + * container_off - get offset to enclosing structure + * @containing_type: the type this member is within + * @member: the name of this member within the structure. + * + * Given a pointer to a member of a structure, this macro does + * typechecking and figures out the offset to the enclosing type. + * + * Example: + * struct foo { + * int fielda, fieldb; + * // ... + * }; + * struct info { + * int some_other_field; + * struct foo my_foo; + * }; + * + * static struct info *foo_to_info(struct foo *foo) + * { + * size_t off = container_off(struct info, my_foo); + * return (void *)((char *)foo - off); + * } + */ +#define container_off(containing_type, member) \ + offsetof(containing_type, member) + +/** + * container_of_var - get pointer to enclosing structure using a variable + * @member_ptr: pointer to the structure member + * @container_var: a pointer of same type as this member's container + * @member: the name of this member within the structure. + * + * Given a pointer to a member of a structure, this macro does pointer + * subtraction to return the pointer to the enclosing type. + * + * Example: + * static struct info *foo_to_i(struct foo *foo) + * { + * struct info *i = container_of_var(foo, i, my_foo); + * return i; + * } + */ +#if HAVE_TYPEOF +#define container_of_var(member_ptr, container_var, member) \ + container_of(member_ptr, typeof(*container_var), member) +#else +#define container_of_var(member_ptr, container_var, member) \ + ((void *)((char *)(member_ptr) - \ + container_off_var(container_var, member))) +#endif + +/** + * container_off_var - get offset of a field in enclosing structure + * @container_var: a pointer to a container structure + * @member: the name of a member within the structure. + * + * Given (any) pointer to a structure and a its member name, this + * macro does pointer subtraction to return offset of member in a + * structure memory layout. + * + */ +#if HAVE_TYPEOF +#define container_off_var(var, member) \ + container_off(typeof(*var), member) +#else +#define container_off_var(var, member) \ + ((const char *)&(var)->member - (const char *)(var)) +#endif + +#endif /* CCAN_CONTAINER_OF_H */ diff --git a/jni/ruby/ccan/licenses/BSD-MIT b/jni/ruby/ccan/licenses/BSD-MIT new file mode 100644 index 0000000..89de354 --- /dev/null +++ b/jni/ruby/ccan/licenses/BSD-MIT @@ -0,0 +1,17 @@ +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 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Limitations and Disclaimers. + + No trademark or patent rights held by Affirmer are waived, abandoned, surrendered, licensed or otherwise affected by this document. + Affirmer offers the Work as-is and makes no representations or warranties of any kind concerning the Work, express, implied, statutory or otherwise, including without limitation warranties of title, merchantability, fitness for a particular purpose, non infringement, or the absence of latent or other defects, accuracy, or the present or absence of errors, whether or not discoverable, all to the greatest extent permissible under applicable law. + Affirmer disclaims responsibility for clearing rights of other persons that may apply to the Work or any use thereof, including without limitation any person's Copyright and Related Rights in the Work. Further, Affirmer disclaims responsibility for obtaining any necessary consents, permissions or other rights required for any use of the Work. + Affirmer understands and acknowledges that Creative Commons is not a party to this document and has no duty or obligation with respect to this CC0 or use of the Work. diff --git a/jni/ruby/ccan/list/list.h b/jni/ruby/ccan/list/list.h new file mode 100644 index 0000000..749db78 --- /dev/null +++ b/jni/ruby/ccan/list/list.h @@ -0,0 +1,635 @@ +/* Licensed under BSD-MIT - see ccan/licenses/BSD-MIT file for details */ +#ifndef CCAN_LIST_H +#define CCAN_LIST_H +#include <assert.h> +#include "ccan/str/str.h" +#include "ccan/container_of/container_of.h" +#include "ccan/check_type/check_type.h" + +/** + * struct list_node - an entry in a doubly-linked list + * @next: next entry (self if empty) + * @prev: previous entry (self if empty) + * + * This is used as an entry in a linked list. + * Example: + * struct child { + * const char *name; + * // Linked list of all us children. + * struct list_node list; + * }; + */ +struct list_node +{ + struct list_node *next, *prev; +}; + +/** + * struct list_head - the head of a doubly-linked list + * @h: the list_head (containing next and prev pointers) + * + * This is used as the head of a linked list. + * Example: + * struct parent { + * const char *name; + * struct list_head children; + * unsigned int num_children; + * }; + */ +struct list_head +{ + struct list_node n; +}; + +#define LIST_LOC __FILE__ ":" stringify(__LINE__) +#define list_debug(h, loc) (h) +#define list_debug_node(n, loc) (n) + +/** + * LIST_HEAD_INIT - initializer for an empty list_head + * @name: the name of the list. + * + * Explicit initializer for an empty list. + * + * See also: + * LIST_HEAD, list_head_init() + * + * Example: + * static struct list_head my_list = LIST_HEAD_INIT(my_list); + */ +#define LIST_HEAD_INIT(name) { { &name.n, &name.n } } + +/** + * LIST_HEAD - define and initialize an empty list_head + * @name: the name of the list. + * + * The LIST_HEAD macro defines a list_head and initializes it to an empty + * list. It can be prepended by "static" to define a static list_head. + * + * See also: + * LIST_HEAD_INIT, list_head_init() + * + * Example: + * static LIST_HEAD(my_global_list); + */ +#define LIST_HEAD(name) \ + struct list_head name = LIST_HEAD_INIT(name) + +/** + * list_head_init - initialize a list_head + * @h: the list_head to set to the empty list + * + * Example: + * ... + * struct parent *parent = malloc(sizeof(*parent)); + * + * list_head_init(&parent->children); + * parent->num_children = 0; + */ +static inline void list_head_init(struct list_head *h) +{ + h->n.next = h->n.prev = &h->n; +} + +/** + * list_node_init - initialize a list_node + * @n: the list_node to link to itself. + * + * You don't need to use this normally! But it lets you list_del(@n) + * safely. + */ +static inline void list_node_init(struct list_node *n) +{ + n->next = n->prev = n; +} + +/** + * list_add - add an entry at the start of a linked list. + * @h: the list_head to add the node to + * @n: the list_node to add to the list. + * + * The list_node does not need to be initialized; it will be overwritten. + * Example: + * struct child *child = malloc(sizeof(*child)); + * + * child->name = "marvin"; + * list_add(&parent->children, &child->list); + * parent->num_children++; + */ +#define list_add(h, n) list_add_(h, n, LIST_LOC) +static inline void list_add_(struct list_head *h, + struct list_node *n, + const char *abortstr) +{ + n->next = h->n.next; + n->prev = &h->n; + h->n.next->prev = n; + h->n.next = n; + (void)list_debug(h, abortstr); +} + +/** + * list_add_tail - add an entry at the end of a linked list. + * @h: the list_head to add the node to + * @n: the list_node to add to the list. + * + * The list_node does not need to be initialized; it will be overwritten. + * Example: + * list_add_tail(&parent->children, &child->list); + * parent->num_children++; + */ +#define list_add_tail(h, n) list_add_tail_(h, n, LIST_LOC) +static inline void list_add_tail_(struct list_head *h, + struct list_node *n, + const char *abortstr) +{ + n->next = &h->n; + n->prev = h->n.prev; + h->n.prev->next = n; + h->n.prev = n; + (void)list_debug(h, abortstr); +} + +/** + * list_empty - is a list empty? + * @h: the list_head + * + * If the list is empty, returns true. + * + * Example: + * assert(list_empty(&parent->children) == (parent->num_children == 0)); + */ +#define list_empty(h) list_empty_(h, LIST_LOC) +static inline int list_empty_(const struct list_head *h, const char* abortstr) +{ + (void)list_debug(h, abortstr); + return h->n.next == &h->n; +} + +/** + * list_empty_nodebug - is a list empty (and don't perform debug checks)? + * @h: the list_head + * + * If the list is empty, returns true. + * This differs from list_empty() in that if CCAN_LIST_DEBUG is set it + * will NOT perform debug checks. Only use this function if you REALLY + * know what you're doing. + * + * Example: + * assert(list_empty_nodebug(&parent->children) == (parent->num_children == 0)); + */ +#ifndef CCAN_LIST_DEBUG +#define list_empty_nodebug(h) list_empty(h) +#else +static inline int list_empty_nodebug(const struct list_head *h) +{ + return h->n.next == &h->n; +} +#endif + +/** + * list_del - delete an entry from an (unknown) linked list. + * @n: the list_node to delete from the list. + * + * Note that this leaves @n in an undefined state; it can be added to + * another list, but not deleted again. + * + * See also: + * list_del_from(), list_del_init() + * + * Example: + * list_del(&child->list); + * parent->num_children--; + */ +#define list_del(n) list_del_(n, LIST_LOC) +static inline void list_del_(struct list_node *n, const char* abortstr) +{ + (void)list_debug_node(n, abortstr); + n->next->prev = n->prev; + n->prev->next = n->next; +#ifdef CCAN_LIST_DEBUG + /* Catch use-after-del. */ + n->next = n->prev = NULL; +#endif +} + +/** + * list_del_init - delete a node, and reset it so it can be deleted again. + * @n: the list_node to be deleted. + * + * list_del(@n) or list_del_init() again after this will be safe, + * which can be useful in some cases. + * + * See also: + * list_del_from(), list_del() + * + * Example: + * list_del_init(&child->list); + * parent->num_children--; + */ +#define list_del_init(n) list_del_init_(n, LIST_LOC) +static inline void list_del_init_(struct list_node *n, const char *abortstr) +{ + list_del_(n, abortstr); + list_node_init(n); +} + +/** + * list_del_from - delete an entry from a known linked list. + * @h: the list_head the node is in. + * @n: the list_node to delete from the list. + * + * This explicitly indicates which list a node is expected to be in, + * which is better documentation and can catch more bugs. + * + * See also: list_del() + * + * Example: + * list_del_from(&parent->children, &child->list); + * parent->num_children--; + */ +static inline void list_del_from(struct list_head *h, struct list_node *n) +{ +#ifdef CCAN_LIST_DEBUG + { + /* Thorough check: make sure it was in list! */ + struct list_node *i; + for (i = h->n.next; i != n; i = i->next) + assert(i != &h->n); + } +#endif /* CCAN_LIST_DEBUG */ + + /* Quick test that catches a surprising number of bugs. */ + assert(!list_empty(h)); + list_del(n); +} + +/** + * list_entry - convert a list_node back into the structure containing it. + * @n: the list_node + * @type: the type of the entry + * @member: the list_node member of the type + * + * Example: + * // First list entry is children.next; convert back to child. + * child = list_entry(parent->children.n.next, struct child, list); + * + * See Also: + * list_top(), list_for_each() + */ +#define list_entry(n, type, member) container_of(n, type, member) + +/** + * list_top - get the first entry in a list + * @h: the list_head + * @type: the type of the entry + * @member: the list_node member of the type + * + * If the list is empty, returns NULL. + * + * Example: + * struct child *first; + * first = list_top(&parent->children, struct child, list); + * if (!first) + * printf("Empty list!\n"); + */ +#define list_top(h, type, member) \ + ((type *)list_top_((h), list_off_(type, member))) + +static inline const void *list_top_(const struct list_head *h, size_t off) +{ + if (list_empty(h)) + return NULL; + return (const char *)h->n.next - off; +} + +/** + * list_pop - remove the first entry in a list + * @h: the list_head + * @type: the type of the entry + * @member: the list_node member of the type + * + * If the list is empty, returns NULL. + * + * Example: + * struct child *one; + * one = list_pop(&parent->children, struct child, list); + * if (!one) + * printf("Empty list!\n"); + */ +#define list_pop(h, type, member) \ + ((type *)list_pop_((h), list_off_(type, member))) + +static inline const void *list_pop_(const struct list_head *h, size_t off) +{ + struct list_node *n; + + if (list_empty(h)) + return NULL; + n = h->n.next; + list_del(n); + return (const char *)n - off; +} + +/** + * list_tail - get the last entry in a list + * @h: the list_head + * @type: the type of the entry + * @member: the list_node member of the type + * + * If the list is empty, returns NULL. + * + * Example: + * struct child *last; + * last = list_tail(&parent->children, struct child, list); + * if (!last) + * printf("Empty list!\n"); + */ +#define list_tail(h, type, member) \ + ((type *)list_tail_((h), list_off_(type, member))) + +static inline const void *list_tail_(const struct list_head *h, size_t off) +{ + if (list_empty(h)) + return NULL; + return (const char *)h->n.prev - off; +} + +/** + * list_for_each - iterate through a list. + * @h: the list_head (warning: evaluated multiple times!) + * @i: the structure containing the list_node + * @member: the list_node member of the structure + * + * This is a convenient wrapper to iterate @i over the entire list. It's + * a for loop, so you can break and continue as normal. + * + * Example: + * list_for_each(&parent->children, child, list) + * printf("Name: %s\n", child->name); + */ +#define list_for_each(h, i, member) \ + list_for_each_off(h, i, list_off_var_(i, member)) + +/** + * list_for_each_rev - iterate through a list backwards. + * @h: the list_head + * @i: the structure containing the list_node + * @member: the list_node member of the structure + * + * This is a convenient wrapper to iterate @i over the entire list. It's + * a for loop, so you can break and continue as normal. + * + * Example: + * list_for_each_rev(&parent->children, child, list) + * printf("Name: %s\n", child->name); + */ +#define list_for_each_rev(h, i, member) \ + for (i = container_of_var(list_debug(h, LIST_LOC)->n.prev, i, member); \ + &i->member != &(h)->n; \ + i = container_of_var(i->member.prev, i, member)) + +/** + * list_for_each_safe - iterate through a list, maybe during deletion + * @h: the list_head + * @i: the structure containing the list_node + * @nxt: the structure containing the list_node + * @member: the list_node member of the structure + * + * This is a convenient wrapper to iterate @i over the entire list. It's + * a for loop, so you can break and continue as normal. The extra variable + * @nxt is used to hold the next element, so you can delete @i from the list. + * + * Example: + * struct child *next; + * list_for_each_safe(&parent->children, child, next, list) { + * list_del(&child->list); + * parent->num_children--; + * } + */ +#define list_for_each_safe(h, i, nxt, member) \ + list_for_each_safe_off(h, i, nxt, list_off_var_(i, member)) + +/** + * list_next - get the next entry in a list + * @h: the list_head + * @i: a pointer to an entry in the list. + * @member: the list_node member of the structure + * + * If @i was the last entry in the list, returns NULL. + * + * Example: + * struct child *second; + * second = list_next(&parent->children, first, list); + * if (!second) + * printf("No second child!\n"); + */ +#define list_next(h, i, member) \ + ((list_typeof(i))list_entry_or_null(list_debug(h, \ + __FILE__ ":" stringify(__LINE__)), \ + (i)->member.next, \ + list_off_var_((i), member))) + +/** + * list_prev - get the previous entry in a list + * @h: the list_head + * @i: a pointer to an entry in the list. + * @member: the list_node member of the structure + * + * If @i was the first entry in the list, returns NULL. + * + * Example: + * first = list_prev(&parent->children, second, list); + * if (!first) + * printf("Can't go back to first child?!\n"); + */ +#define list_prev(h, i, member) \ + ((list_typeof(i))list_entry_or_null(list_debug(h, \ + __FILE__ ":" stringify(__LINE__)), \ + (i)->member.prev, \ + list_off_var_((i), member))) + +/** + * list_append_list - empty one list onto the end of another. + * @to: the list to append into + * @from: the list to empty. + * + * This takes the entire contents of @from and moves it to the end of + * @to. After this @from will be empty. + * + * Example: + * struct list_head adopter; + * + * list_append_list(&adopter, &parent->children); + * assert(list_empty(&parent->children)); + * parent->num_children = 0; + */ +#define list_append_list(t, f) list_append_list_(t, f, \ + __FILE__ ":" stringify(__LINE__)) +static inline void list_append_list_(struct list_head *to, + struct list_head *from, + const char *abortstr) +{ + struct list_node *from_tail = list_debug(from, abortstr)->n.prev; + struct list_node *to_tail = list_debug(to, abortstr)->n.prev; + + /* Sew in head and entire list. */ + to->n.prev = from_tail; + from_tail->next = &to->n; + to_tail->next = &from->n; + from->n.prev = to_tail; + + /* Now remove head. */ + list_del(&from->n); + list_head_init(from); +} + +/** + * list_prepend_list - empty one list into the start of another. + * @to: the list to prepend into + * @from: the list to empty. + * + * This takes the entire contents of @from and moves it to the start + * of @to. After this @from will be empty. + * + * Example: + * list_prepend_list(&adopter, &parent->children); + * assert(list_empty(&parent->children)); + * parent->num_children = 0; + */ +#define list_prepend_list(t, f) list_prepend_list_(t, f, LIST_LOC) +static inline void list_prepend_list_(struct list_head *to, + struct list_head *from, + const char *abortstr) +{ + struct list_node *from_tail = list_debug(from, abortstr)->n.prev; + struct list_node *to_head = list_debug(to, abortstr)->n.next; + + /* Sew in head and entire list. */ + to->n.next = &from->n; + from->n.prev = &to->n; + to_head->prev = from_tail; + from_tail->next = to_head; + + /* Now remove head. */ + list_del(&from->n); + list_head_init(from); +} + +/** + * list_for_each_off - iterate through a list of memory regions. + * @h: the list_head + * @i: the pointer to a memory region wich contains list node data. + * @off: offset(relative to @i) at which list node data resides. + * + * This is a low-level wrapper to iterate @i over the entire list, used to + * implement all oher, more high-level, for-each constructs. It's a for loop, + * so you can break and continue as normal. + * + * WARNING! Being the low-level macro that it is, this wrapper doesn't know + * nor care about the type of @i. The only assumtion made is that @i points + * to a chunk of memory that at some @offset, relative to @i, contains a + * properly filled `struct node_list' which in turn contains pointers to + * memory chunks and it's turtles all the way down. Whith all that in mind + * remember that given the wrong pointer/offset couple this macro will + * happilly churn all you memory untill SEGFAULT stops it, in other words + * caveat emptor. + * + * It is worth mentioning that one of legitimate use-cases for that wrapper + * is operation on opaque types with known offset for `struct list_node' + * member(preferably 0), because it allows you not to disclose the type of + * @i. + * + * Example: + * list_for_each_off(&parent->children, child, + * offsetof(struct child, list)) + * printf("Name: %s\n", child->name); + */ +#define list_for_each_off(h, i, off) \ + for (i = list_node_to_off_(list_debug(h, LIST_LOC)->n.next, \ + (off)); \ + list_node_from_off_((void *)i, (off)) != &(h)->n; \ + i = list_node_to_off_(list_node_from_off_((void *)i, (off))->next, \ + (off))) + +/** + * list_for_each_safe_off - iterate through a list of memory regions, maybe + * during deletion + * @h: the list_head + * @i: the pointer to a memory region wich contains list node data. + * @nxt: the structure containing the list_node + * @off: offset(relative to @i) at which list node data resides. + * + * For details see `list_for_each_off' and `list_for_each_safe' + * descriptions. + * + * Example: + * list_for_each_safe_off(&parent->children, child, + * next, offsetof(struct child, list)) + * printf("Name: %s\n", child->name); + */ +#define list_for_each_safe_off(h, i, nxt, off) \ + for (i = list_node_to_off_(list_debug(h, LIST_LOC)->n.next, \ + (off)), \ + nxt = list_node_to_off_(list_node_from_off_(i, (off))->next, \ + (off)); \ + list_node_from_off_(i, (off)) != &(h)->n; \ + i = nxt, \ + nxt = list_node_to_off_(list_node_from_off_(i, (off))->next, \ + (off))) + + +/* Other -off variants. */ +#define list_entry_off(n, type, off) \ + ((type *)list_node_from_off_((n), (off))) + +#define list_head_off(h, type, off) \ + ((type *)list_head_off((h), (off))) + +#define list_tail_off(h, type, off) \ + ((type *)list_tail_((h), (off))) + +#define list_add_off(h, n, off) \ + list_add((h), list_node_from_off_((n), (off))) + +#define list_del_off(n, off) \ + list_del(list_node_from_off_((n), (off))) + +#define list_del_from_off(h, n, off) \ + list_del_from(h, list_node_from_off_((n), (off))) + +/* Offset helper functions so we only single-evaluate. */ +static inline void *list_node_to_off_(struct list_node *node, size_t off) +{ + return (void *)((char *)node - off); +} +static inline struct list_node *list_node_from_off_(void *ptr, size_t off) +{ + return (struct list_node *)((char *)ptr + off); +} + +/* Get the offset of the member, but make sure it's a list_node. */ +#define list_off_(type, member) \ + (container_off(type, member) + \ + check_type(((type *)0)->member, struct list_node)) + +#define list_off_var_(var, member) \ + (container_off_var(var, member) + \ + check_type(var->member, struct list_node)) + +#if HAVE_TYPEOF +#define list_typeof(var) typeof(var) +#else +#define list_typeof(var) void * +#endif + +/* Returns member, or NULL if at end of list. */ +static inline void *list_entry_or_null(const struct list_head *h, + const struct list_node *n, + size_t off) +{ + if (n == &h->n) + return NULL; + return (char *)n - off; +} +#endif /* CCAN_LIST_H */ diff --git a/jni/ruby/ccan/str/str.h b/jni/ruby/ccan/str/str.h new file mode 100644 index 0000000..9a9da9c --- /dev/null +++ b/jni/ruby/ccan/str/str.h @@ -0,0 +1,16 @@ +/* CC0 (Public domain) - see ccan/licenses/CC0 file for details */ +#ifndef CCAN_STR_H +#define CCAN_STR_H +/** + * stringify - Turn expression into a string literal + * @expr: any C expression + * + * Example: + * #define PRINT_COND_IF_FALSE(cond) \ + * ((cond) || printf("%s is false!", stringify(cond))) + */ +#define stringify(expr) stringify_1(expr) +/* Double-indirection required to stringify expansions */ +#define stringify_1(expr) #expr + +#endif /* CCAN_STR_H */ |