/usr/include/pike7.8/pike/array.h is in pike7.8-dev 7.8.866-8.1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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|| This file is part of Pike. For copyright information see COPYRIGHT.
|| Pike is distributed under GPL, LGPL and MPL. See the file COPYING
|| for more information.
|| $Id: d0533bae20ed6798d5747f5e710f214b1b979c00 $
*/
#ifndef ARRAY_H
#define ARRAY_H
#include "svalue.h"
#include "dmalloc.h"
/* This debug tool writes out messages whenever arrays with unfinished
* type fields are encountered. */
/* #define TRACE_UNFINISHED_TYPE_FIELDS */
/**
* A Pike array is represented as a 'struct array' with all the
* needed svalues malloced in the same block.
*
* @see type_field
*/
struct array
{
PIKE_MEMORY_OBJECT_MEMBERS;
struct array *next; /**< we need to keep track of all arrays */
struct array *prev; /**< Another pointer, so we don't have to search
* when freeing arrays */
INT32 size; /**< number of svalues in this array */
INT32 malloced_size; /**< number of svalues that can fit in this array */
TYPE_FIELD type_field;/**< A bitfield with one bit for each type of
* data in this array.
Bits can be set that don't exist in the array. type_field is
* initialized to BIT_MIXED|BIT_UNFINISHED for newly allocated
* arrays so that they can be modified without having to update
* this. It should be set accurately when that's done, though. */
INT16 flags; /**< ARRAY_* flags */
struct svalue *item; /**< the array of svalues */
struct svalue real_item[1];
};
#define ARRAY_WEAK_FLAG 1
#define ARRAY_CYCLIC 2
#define ARRAY_LVALUE 4
PMOD_EXPORT extern struct array empty_array, weak_empty_array;
extern struct array *first_array;
extern struct array *gc_internal_array;
#if defined(DEBUG_MALLOC) && defined(PIKE_DEBUG)
#define ITEM(X) (((struct array *)(debug_malloc_pass((X))))->item)
#else
#define ITEM(X) ((X)->item)
#endif
/* These are arguments for the function 'merge' which merges two sorted
* set stored in arrays in the way you specify
*/
#define PIKE_ARRAY_OP_A 1
#define PIKE_ARRAY_OP_SKIP_A 2
#define PIKE_ARRAY_OP_TAKE_A 3
#define PIKE_ARRAY_OP_B 4
#define PIKE_ARRAY_OP_SKIP_B 8
#define PIKE_ARRAY_OP_TAKE_B 12
#define PIKE_MINTERM(X,Y,Z) (((X)<<8)+((Y)<<4)+(Z))
#define PIKE_ARRAY_OP_AND PIKE_MINTERM(PIKE_ARRAY_OP_SKIP_A,PIKE_ARRAY_OP_SKIP_A | PIKE_ARRAY_OP_TAKE_B,PIKE_ARRAY_OP_SKIP_B)
#define PIKE_ARRAY_OP_AND_LEFT PIKE_MINTERM(PIKE_ARRAY_OP_SKIP_A,PIKE_ARRAY_OP_SKIP_B | PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_SKIP_B)
#define PIKE_ARRAY_OP_OR PIKE_MINTERM(PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_SKIP_A | PIKE_ARRAY_OP_TAKE_B,PIKE_ARRAY_OP_TAKE_B)
#define PIKE_ARRAY_OP_OR_LEFT PIKE_MINTERM(PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_SKIP_B | PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_TAKE_B)
#define PIKE_ARRAY_OP_XOR PIKE_MINTERM(PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_SKIP_A | PIKE_ARRAY_OP_SKIP_B,PIKE_ARRAY_OP_TAKE_B)
#define PIKE_ARRAY_OP_ADD PIKE_MINTERM(PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_TAKE_A | PIKE_ARRAY_OP_TAKE_B ,PIKE_ARRAY_OP_TAKE_B)
#define PIKE_ARRAY_OP_SUB PIKE_MINTERM(PIKE_ARRAY_OP_TAKE_A,PIKE_ARRAY_OP_SKIP_A ,PIKE_ARRAY_OP_SKIP_B)
/**
* This macro frees one reference to the array V. If the reference
* is the last reference to the array, it will free the memory used
* by the array V.
* @param V an array struct to be freed.
*/
#define free_array(V) do{ \
struct array *v_=(V); \
debug_malloc_touch(v_); \
DO_IF_DEBUG ( \
DO_IF_PIKE_CLEANUP ( \
if (gc_external_refs_zapped) \
gc_check_zapped (v_, PIKE_T_ARRAY, __FILE__, __LINE__))); \
if(!sub_ref(v_)) \
really_free_array(v_); \
}while(0)
#define allocate_array(X) low_allocate_array((X),0)
#define allocate_array_no_init(X,Y) low_allocate_array((X),(Y))
typedef int (*cmpfun)(const struct svalue *, const struct svalue *);
typedef int (*short_cmpfun)(union anything *, union anything *);
typedef short_cmpfun (*cmpfun_getter)(TYPE_T);
#define low_allocate_array(size, extra_space) \
dmalloc_touch (struct array *, \
real_allocate_array ((size), (extra_space)))
/* Prototypes begin here */
PMOD_EXPORT struct array *real_allocate_array(ptrdiff_t size, ptrdiff_t extra_space);
PMOD_EXPORT void really_free_array(struct array *v);
PMOD_EXPORT void do_free_array(struct array *a);
PMOD_EXPORT struct array *array_set_flags(struct array *a, int flags);
PMOD_EXPORT void array_index(struct svalue *s,struct array *v,INT32 ind);
PMOD_EXPORT struct array *array_column (struct array *data, struct svalue *index,
int destructive);
PMOD_EXPORT void simple_array_index_no_free(struct svalue *s,
struct array *a,struct svalue *ind);
PMOD_EXPORT void array_free_index(struct array *v,INT32 ind);
PMOD_EXPORT void simple_set_index(struct array *a,struct svalue *ind,struct svalue *s);
PMOD_EXPORT struct array *array_insert(struct array *v,struct svalue *s,INT32 ind);
void o_append_array(INT32 args);
PMOD_EXPORT struct array *resize_array(struct array *a, INT32 size);
PMOD_EXPORT struct array *array_shrink(struct array *v, ptrdiff_t size);
PMOD_EXPORT struct array *array_remove(struct array *v,INT32 ind);
PMOD_EXPORT ptrdiff_t array_search(struct array *v, struct svalue *s,
ptrdiff_t start);
PMOD_EXPORT struct array *slice_array(struct array *v, ptrdiff_t start,
ptrdiff_t end);
PMOD_EXPORT struct array *friendly_slice_array(struct array *v,
ptrdiff_t start,
ptrdiff_t end);
PMOD_EXPORT struct array *copy_array(struct array *v);
PMOD_EXPORT void check_array_for_destruct(struct array *v);
PMOD_EXPORT INT32 array_find_destructed_object(struct array *v);
INT32 *get_order(struct array *v, cmpfun fun);
int set_svalue_cmpfun(const struct svalue *a, const struct svalue *b);
int alpha_svalue_cmpfun(const struct svalue *a, const struct svalue *b);
PMOD_EXPORT void sort_array_destructively(struct array *v);
PMOD_EXPORT INT32 *stable_sort_array_destructively(struct array *v);
PMOD_EXPORT INT32 *get_set_order(struct array *a);
PMOD_EXPORT INT32 *get_switch_order(struct array *a);
PMOD_EXPORT INT32 *get_alpha_order(struct array *a);
INT32 set_lookup(struct array *a, struct svalue *s);
INT32 switch_lookup(struct array *a, struct svalue *s);
PMOD_EXPORT struct array *order_array(struct array *v, INT32 *order);
PMOD_EXPORT struct array *reorder_and_copy_array(struct array *v, INT32 *order);
PMOD_EXPORT TYPE_FIELD array_fix_type_field(struct array *v);
#ifdef PIKE_DEBUG
PMOD_EXPORT void array_check_type_field(struct array *v);
#endif
PMOD_EXPORT union anything *low_array_get_item_ptr(struct array *a,
INT32 ind,
TYPE_T t);
PMOD_EXPORT union anything *array_get_item_ptr(struct array *a,
struct svalue *ind,
TYPE_T t);
INT32 * merge(struct array *a,struct array *b,INT32 opcode);
PMOD_EXPORT struct array *array_zip(struct array *a, struct array *b,INT32 *zipper);
PMOD_EXPORT struct array *add_arrays(struct svalue *argp, INT32 args);
PMOD_EXPORT int array_equal_p(struct array *a, struct array *b, struct processing *p);
PMOD_EXPORT struct array *merge_array_with_order(struct array *a,
struct array *b, INT32 op);
PMOD_EXPORT struct array *merge_array_without_order2(struct array *a, struct array *b,INT32 op);
PMOD_EXPORT struct array *merge_array_without_order(struct array *a,
struct array *b,
INT32 op);
PMOD_EXPORT struct array *subtract_arrays(struct array *a, struct array *b);
PMOD_EXPORT struct array *and_arrays(struct array *a, struct array *b);
int array_is_constant(struct array *a,
struct processing *p);
node *make_node_from_array(struct array *a);
PMOD_EXPORT void push_array_items(struct array *a);
void describe_array_low(struct array *a, struct processing *p, int indent);
#ifdef PIKE_DEBUG
void simple_describe_array(struct array *a);
void describe_index(struct array *a,
int e,
struct processing *p,
int indent);
#endif
void describe_array(struct array *a,struct processing *p,int indent);
PMOD_EXPORT struct array *aggregate_array(INT32 args);
PMOD_EXPORT struct array *append_array(struct array *a, struct svalue *s);
PMOD_EXPORT struct array *explode(struct pike_string *str,
struct pike_string *del);
PMOD_EXPORT struct pike_string *implode(struct array *a,struct pike_string *del);
PMOD_EXPORT struct array *copy_array_recursively(struct array *a,
struct mapping *p);
PMOD_EXPORT void apply_array(struct array *a, INT32 args, int flags);
PMOD_EXPORT struct array *reverse_array(struct array *a, int start, int end);
void array_replace(struct array *a,
struct svalue *from,
struct svalue *to);
#ifdef PIKE_DEBUG
PMOD_EXPORT void check_array(struct array *a);
void check_all_arrays(void);
#endif
PMOD_EXPORT void visit_array (struct array *a, int action);
void gc_mark_array_as_referenced(struct array *a);
void real_gc_cycle_check_array(struct array *a, int weak);
unsigned gc_touch_all_arrays(void);
void gc_check_all_arrays(void);
void gc_mark_all_arrays(void);
void gc_cycle_check_all_arrays(void);
void gc_zap_ext_weak_refs_in_arrays(void);
size_t gc_free_all_unreferenced_arrays(void);
#ifdef PIKE_DEBUG
void debug_dump_type_field(TYPE_FIELD t);
void debug_dump_array(struct array *a);
#endif
void count_memory_in_arrays(size_t *num_, size_t *size_);
PMOD_EXPORT struct array *explode_array(struct array *a, struct array *b);
PMOD_EXPORT struct array *implode_array(struct array *a, struct array *b);
/* Prototypes end here */
#define array_get_flags(a) ((a)->flags)
#define visit_array_ref(A, REF_TYPE) \
visit_ref (pass_array (A), (REF_TYPE), \
(visit_thing_fn *) &visit_array, NULL)
#define gc_cycle_check_array(X, WEAK) \
gc_cycle_enqueue((gc_cycle_check_cb *) real_gc_cycle_check_array, (X), (WEAK))
/** Macros for aggregating results built on the stack into an array,
* while maintaining a bound on stack consumption. Use like this:
*
* check_stack(120);
* BEGIN_AGGREGATE_ARRAY(estimated_size_of_final_array) {
* for (...) {
* ... stuff that produces a value on the stack ...
* DO_AGGREGATE_ARRAY(120);
* ...
* }
* } END_AGGREGATE_ARRAY;
*
* The array is left on top of the stack.
*/
#define AGGR_ARR_PROLOGUE(base_sval, estimated_size) do { \
push_array(allocate_array_no_init(0, (estimated_size))); \
base_sval = Pike_sp; \
if (base_sval[-1].u.array->malloced_size) \
base_sval[-1].u.array->type_field = (BIT_MIXED | BIT_UNFINISHED); \
} while (0)
#define AGGR_ARR_CHECK(base_sval, max_keep_on_stack) \
do { \
ptrdiff_t diff__ = Pike_sp - base_sval; \
if (diff__ > (max_keep_on_stack)) { \
INT32 oldsize__ = base_sval[-1].u.array->size; \
ACCEPT_UNFINISHED_TYPE_FIELDS { \
base_sval[-1].u.array = \
resize_array(base_sval[-1].u.array, oldsize__ + diff__); \
} END_ACCEPT_UNFINISHED_TYPE_FIELDS; \
/* Unless the user does something, the type field will contain */ \
/* BIT_MIXED|BIT_UNFINISHED from the allocation above. */ \
MEMCPY((char *) (ITEM(base_sval[-1].u.array) + oldsize__), \
(char *) base_sval, diff__ * sizeof(struct svalue)); \
Pike_sp = base_sval; \
} \
} while (0)
#define AGGR_ARR_EPILOGUE(base_sval) do { \
ptrdiff_t diff__ = Pike_sp - base_sval; \
if (!diff__) { \
if (!base_sval[-1].u.array->size) { \
free_array (base_sval[-1].u.array); \
add_ref (base_sval[-1].u.array = &empty_array); \
} \
} \
else \
AGGR_ARR_CHECK (base_sval, 0); \
if (base_sval[-1].u.array->type_field & BIT_UNFINISHED) \
array_fix_type_field(Pike_sp[-1].u.array); \
DO_IF_DEBUG(if (Pike_sp[-1].type != T_ARRAY) { \
Pike_fatal("Lost track of aggregated array.\n"); \
}); \
} while (0)
#define BEGIN_AGGREGATE_ARRAY(estimated_size) do { \
struct svalue *base__; \
AGGR_ARR_PROLOGUE (base__, estimated_size);
#define DO_AGGREGATE_ARRAY(max_keep_on_stack) \
AGGR_ARR_CHECK (base__, max_keep_on_stack)
#define END_AGGREGATE_ARRAY \
AGGR_ARR_EPILOGUE (base__); \
} while (0)
/**
* Extract an svalue from an array
*/
#define array_index_no_free(S,A,I) do { \
INT32 ind_=(I); \
struct array *v_=(A); \
DO_IF_DEBUG( \
if(ind_<0 || ind_>=v_->size) \
Pike_fatal("Illegal index in low level index routine.\n"); \
) \
\
assign_svalue_no_free((S), ITEM(v_) + ind_); \
}while(0)
/**
* Sets an index in an array.
*
* @param V the array to modify
* @param I the index of the array to set
* @param S the svalue to set
*/
#define array_set_index_no_free(V,I,S) do { \
struct array *v_=(V); \
INT32 index_=(I); \
struct svalue *s_=(S); \
\
DO_IF_DEBUG( \
if(index_<0 || index_>v_->size) \
Pike_fatal("Illegal index in low level array set routine.\n"); \
) \
\
check_destructed(s_); \
\
v_->type_field |= 1 << s_->type; \
assign_svalue_no_free( ITEM(v_) + index_, s_); \
}while(0)
#define array_set_index(V,I,S) do { \
struct array *v_=(V); \
INT32 index_=(I); \
struct svalue *s_=(S); \
\
DO_IF_DEBUG( \
if(index_<0 || index_>v_->size) \
Pike_fatal("Illegal index in low level array set routine.\n"); \
) \
\
check_destructed(s_); \
\
v_->type_field |= 1 << s_->type; \
assign_svalue( ITEM(v_) + index_, s_); \
}while(0)
#define array_fix_unfinished_type_field(A) do { \
struct array *a_ = (A); \
if (a_->type_field & BIT_UNFINISHED) { \
DO_IF_DEBUG (array_check_type_field (a_)); \
array_fix_type_field (a_); \
} \
} while (0)
#ifdef TRACE_UNFINISHED_TYPE_FIELDS
/* Note: These macros don't support thread switches. */
extern PMOD_EXPORT int accept_unfinished_type_fields;
PMOD_EXPORT void dont_accept_unfinished_type_fields (void *orig);
#define ACCEPT_UNFINISHED_TYPE_FIELDS do { \
ONERROR autf_uwp_; \
int orig_autf_ = accept_unfinished_type_fields; \
accept_unfinished_type_fields++; \
SET_ONERROR (autf_uwp_, dont_accept_unfinished_type_fields, \
(void *) orig_autf_); \
do
#define END_ACCEPT_UNFINISHED_TYPE_FIELDS \
while (0); \
accept_unfinished_type_fields = orig_autf_; \
UNSET_ONERROR (autf_uwp_); \
} while (0)
#else
#define ACCEPT_UNFINISHED_TYPE_FIELDS do
#define END_ACCEPT_UNFINISHED_TYPE_FIELDS while (0)
#endif
#endif /* ARRAY_H */
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