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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 1996-2013. All Rights Reserved.
*
* The contents of this file are subject to the Erlang Public License,
* Version 1.1, (the "License"); you may not use this file except in
* compliance with the License. You should have received a copy of the
* Erlang Public License along with this software. If not, it can be
* retrieved online at http://www.erlang.org/.
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* %CopyrightEnd%
*/
/*
* Purpose: Representation of Erlang terms.
*/
#include "eidef.h"
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <math.h>
#include "ei_locking.h"
#include "ei_resolve.h"
#include "erl_interface.h"
#include "erl_eterm.h"
#include "erl_malloc.h"
#include "erl_marshal.h"
#include "erl_error.h"
#include "erl_internal.h"
#include "ei_internal.h"
#include "putget.h"
#define ERL_IS_BYTE(x) (ERL_IS_INTEGER(x) && (ERL_INT_VALUE(x) & ~0xFF) == 0)
/* FIXME use unsigned char, or uint8 for buffers, cast (int) really needed? */
static void iolist_to_buf(const ETERM* term, char** bufp);
static char* strsave(const char *src);
/***************************************************************************
*
* API: erl_init()
*
* Not documented to set erl_errno.
*
***************************************************************************/
/* all initialisation of erl_interface modules should be called from here */
/* order is important: erl_malloc and erl_resolve depend on ei_locking */
/* NOTE: don't call this directly - please use erl_init() macro defined
in ei_locking.h! */
void erl_init(void *hp,long heap_size)
{
erl_init_malloc(hp, heap_size);
erl_init_marshal();
ei_init_resolve();
}
void erl_set_compat_rel(unsigned rel)
{
ei_set_compat_rel(rel);
}
/*
* Create an INTEGER. Depending on its value it
* may end up as a BigNum.
*/
ETERM *erl_mk_int (int i)
{
ETERM *ep;
ep = erl_alloc_eterm(ERL_INTEGER);
ERL_COUNT(ep) = 1;
ERL_INT_VALUE(ep) = i;
return ep;
}
ETERM *erl_mk_longlong (long long i)
{
ETERM *ep;
ep = erl_alloc_eterm(ERL_LONGLONG);
ERL_COUNT(ep) = 1;
ERL_LL_VALUE(ep) = i;
return ep;
}
/*
* Create an UNSIGNED INTEGER. Depending on its
* value it may end up as a BigNum.
*/
ETERM *erl_mk_uint (unsigned int u)
{
ETERM *ep;
ep = erl_alloc_eterm(ERL_U_INTEGER);
ERL_COUNT(ep) = 1;
ERL_INT_UVALUE(ep) = u;
return ep;
}
ETERM *erl_mk_ulonglong (unsigned long long i)
{
ETERM *ep;
ep = erl_alloc_eterm(ERL_U_LONGLONG);
ERL_COUNT(ep) = 1;
ERL_LL_UVALUE(ep) = i;
return ep;
}
/*
* Create a FLOAT.
*/
ETERM *erl_mk_float (double d)
{
ETERM *ep;
/* Erlang does not handle Inf and NaN, so we return an error
* rather than letting the Erlang VM complain about a bad external
* term. */
switch(fpclassify(d)) {
case FP_NAN:
case FP_INFINITE:
return NULL;
}
ep = erl_alloc_eterm(ERL_FLOAT);
ERL_COUNT(ep) = 1;
ERL_FLOAT_VALUE(ep) = d;
return ep;
}
/*
* Create an ATOM
*/
ETERM *erl_mk_atom (const char *s)
{
ETERM *ep;
/* ASSERT(s != NULL); */
if (!s) return NULL;
ep = erl_alloc_eterm(ERL_ATOM);
ERL_COUNT(ep) = 1;
if (erl_atom_init_latin1(&ep->uval.aval.d, s) == NULL) {
erl_free_term(ep);
erl_errno = ENOMEM;
return NULL;
}
return ep;
}
char* erl_atom_ptr_latin1(Erl_Atom_data* a)
{
if (a->latin1 == NULL) {
erlang_char_encoding enc;
a->lenL = utf8_to_latin1(NULL, a->utf8, a->lenU, a->lenU, &enc);
if (a->lenL < 0) {
a->lenL = 0;
return NULL;
}
if (enc == ERLANG_ASCII) {
a->latin1 = a->utf8;
}
else {
a->latin1 = malloc(a->lenL+1);
utf8_to_latin1(a->latin1, a->utf8, a->lenU, a->lenL, NULL);
a->latin1[a->lenL] = '\0';
}
}
return a->latin1;
}
char* erl_atom_ptr_utf8(Erl_Atom_data* a)
{
if (a->utf8 == NULL) {
int dlen = a->lenL * 2; /* over estimation */
a->utf8 = malloc(dlen + 1);
a->lenU = latin1_to_utf8(a->utf8, a->latin1, a->lenL, dlen, NULL);
a->utf8[a->lenU] = '\0';
}
return a->utf8;
}
int erl_atom_size_latin1(Erl_Atom_data* a)
{
if (a->latin1 == NULL) {
erl_atom_ptr_latin1(a);
}
return a->lenL;
}
int erl_atom_size_utf8(Erl_Atom_data* a)
{
if (a->utf8 == NULL) {
erl_atom_ptr_utf8(a);
}
return a->lenU;
}
char* erl_atom_init_latin1(Erl_Atom_data* a, const char* s)
{
a->lenL = strlen(s);
if ((a->latin1 = strsave(s)) == NULL)
{
return NULL;
}
a->utf8 = NULL;
a->lenU = 0;
return a->latin1;
}
/*
* Given a string as input, creates a list.
*/
ETERM *erl_mk_string(const char *s)
{
/* ASSERT(s != NULL); */
if (!s) return NULL;
return erl_mk_estring(s, strlen(s));
}
ETERM *erl_mk_estring(const char *s, int len)
{
ETERM *ep;
int i;
if ((!s) || (len < 0)) return NULL;
/*
* ASSERT(s != NULL);
* ASSERT(len >= 0);
*/
ep = erl_mk_empty_list();
for (i = len-1; i >= 0; i--) {
ETERM* integer;
ETERM* cons;
integer = erl_alloc_eterm(ERL_INTEGER);
ERL_COUNT(integer) = 1;
ERL_INT_VALUE(integer) = (unsigned char)s[i];
cons = erl_alloc_eterm(ERL_LIST);
ERL_COUNT(cons) = 1;
HEAD(cons) = integer;
TAIL(cons) = ep;
ep = cons;
}
return ep;
}
/*
* Create a PID.
*/
ETERM *erl_mk_pid(const char *node,
unsigned int number,
unsigned int serial,
unsigned char creation)
{
ETERM *ep;
if (!node) return NULL;
/* ASSERT(node != NULL); */
ep = erl_alloc_eterm(ERL_PID);
ERL_COUNT(ep) = 1;
if (erl_atom_init_latin1(&ep->uval.pidval.node, node) == NULL)
{
erl_free_term(ep);
erl_errno = ENOMEM;
return NULL;
}
erl_mk_pid_helper(ep, number, serial, creation);
return ep;
}
void erl_mk_pid_helper(ETERM *ep, unsigned int number,
unsigned int serial, unsigned char creation)
{
ERL_PID_NUMBER(ep) = number & 0x7fff; /* 15 bits */
if (ei_internal_use_r9_pids_ports()) {
ERL_PID_SERIAL(ep) = serial & 0x07; /* 3 bits */
}
else {
ERL_PID_SERIAL(ep) = serial & 0x1fff; /* 13 bits */
}
ERL_PID_CREATION(ep) = creation & 0x03; /* 2 bits */
}
/*
* Create a PORT.
*/
ETERM *erl_mk_port(const char *node,
unsigned int number,
unsigned char creation)
{
ETERM *ep;
if (!node) return NULL;
/* ASSERT(node != NULL); */
ep = erl_alloc_eterm(ERL_PORT);
ERL_COUNT(ep) = 1;
if (erl_atom_init_latin1(&ep->uval.portval.node, node) == NULL)
{
erl_free_term(ep);
erl_errno = ENOMEM;
return NULL;
}
erl_mk_port_helper(ep, number, creation);
return ep;
}
void erl_mk_port_helper(ETERM* ep, unsigned number, unsigned char creation)
{
if (ei_internal_use_r9_pids_ports()) {
ERL_PORT_NUMBER(ep) = number & 0x3ffff; /* 18 bits */
}
else {
ERL_PORT_NUMBER(ep) = number & 0x0fffffff; /* 18 bits */
}
ERL_PORT_CREATION(ep) = creation & 0x03; /* 2 bits */
}
/*
* Create any kind of reference.
*/
ETERM *__erl_mk_reference (ETERM* t,
const char *node,
size_t len,
unsigned int n[],
unsigned char creation)
{
if (t == NULL) {
if (node == NULL) return NULL;
t = erl_alloc_eterm(ERL_REF);
ERL_COUNT(t) = 1;
if (erl_atom_init_latin1(&t->uval.refval.node, node) == NULL)
{
erl_free_term(t);
erl_errno = ENOMEM;
return NULL;
}
}
ERL_REF_LEN(t) = len;
ERL_REF_NUMBERS(t)[0] = n[0] & 0x3ffff; /* 18 bits */
ERL_REF_NUMBERS(t)[1] = n[1];
ERL_REF_NUMBERS(t)[2] = n[2];
ERL_REF_CREATION(t) = creation & 0x03; /* 2 bits */
return t;
}
/*
* Create a REFERENCE.
*/
ETERM *erl_mk_ref (const char *node,
unsigned int number,
unsigned char creation)
{
unsigned int n[3] = {0, 0, 0};
n[0] = number;
return __erl_mk_reference(NULL, node, 1, n, creation);
}
/*
* Create a long REFERENCE.
*/
ETERM *
erl_mk_long_ref (const char *node,
unsigned int n1, unsigned int n2, unsigned int n3,
unsigned char creation)
{
unsigned int n[3] = {0, 0, 0};
n[0] = n3; n[1] = n2; n[2] = n1;
return __erl_mk_reference(NULL, node, 3, n, creation);
}
/*
* Create a BINARY.
*/
ETERM *erl_mk_binary (const char *b, int size)
{
ETERM *ep;
if ((!b) || (size < 0)) return NULL;
/* ASSERT(b != NULL); */
ep = erl_alloc_eterm(ERL_BINARY);
ERL_COUNT(ep) = 1;
ERL_BIN_SIZE(ep) = size;
ERL_BIN_PTR(ep) = (unsigned char *) erl_malloc(size);
memcpy(ERL_BIN_PTR(ep), b, size);
return ep;
}
/*
* Create a TUPLE. For each element in the tuple
* bump its reference counter.
*/
ETERM *erl_mk_tuple (ETERM **arr,int size)
{
ETERM *ep;
int i;
if ((!arr) || (size < 0)) return NULL;
for (i=0; i<size; i++) if (!arr[i]) return NULL;
/* ASSERT(arr != NULL); */
ep = erl_alloc_eterm(ERL_TUPLE);
ERL_COUNT(ep) = 1;
ERL_TUPLE_SIZE(ep) = size;
ERL_TUPLE_ELEMS(ep) = (ETERM**) erl_malloc((size) * (sizeof(ETERM*)));
for (i = 0; i < size; i++) {
/* ASSERT(arr[i] != NULL); */
ERL_COUNT(arr[i])++;
ERL_TUPLE_ELEMENT(ep, i) = arr[i];
}
return ep;
}
/*
* SET an ELEMENT in a TUPLE. Free the old element
* and bump the reference counter of the new one.
* Return 1 on success, otherwise 0.
*/
#if 0
int erl_setelement (int ix, ETERM *ep, ETERM *vp)
{
if ((!ep) || (!vp)) return 0;
/* ASSERT(ep != NULL);
* ASSERT(vp != NULL);
*/
if ((ERL_TYPE(ep) == ERL_TUPLE) && (ix <= ERL_TUPLE_SIZE(ep))) {
erl_free_term(ERL_TUPLE_ELEMENT(ep, ix-1));
ERL_TUPLE_ELEMENT(ep, ix-1) = vp;
ERL_COUNT(vp)++;
return 1;
}
erl_err_msg("<ERROR> erl_setelement: Bad type to setelement or out of range \n");
return 0;
}
#endif
/*
* Extract an ELEMENT from a TUPLE. Bump the
* reference counter on the extracted object.
*/
ETERM *erl_element (int ix, const ETERM *ep)
{
if ((!ep) || (ix < 0)) return NULL;
/*
* ASSERT(ep != NULL);
* ASSERT(ix >= 0);
*/
if ((ERL_TYPE(ep) == ERL_TUPLE) && (ix <= ERL_TUPLE_SIZE(ep))) {
ERL_COUNT(ERL_TUPLE_ELEMENT(ep, ix-1))++;
return ERL_TUPLE_ELEMENT(ep, ix-1);
}
else
return NULL;
} /* erl_element */
ETERM *erl_mk_empty_list(void)
{
ETERM *ep;
ep = erl_alloc_eterm(ERL_EMPTY_LIST);
ERL_COUNT(ep) = 1;
return ep;
}
/*
* Construct a new list by CONS'ing a HEAD on
* to the TAIL. Bump the reference counter on
* the head and tail object. Note that we allow
* non-well formed lists to be created.
*/
ETERM *erl_cons(ETERM *hd, ETERM *tl)
{
ETERM *ep;
if ((!hd) || (!tl)) return NULL;
/*
* ASSERT(hd != NULL);
* ASSERT(tl != NULL);
*/
ep = erl_alloc_eterm(ERL_LIST);
ERL_COUNT(ep) = 1;
HEAD(ep) = hd;
TAIL(ep) = tl;
ERL_COUNT(hd)++;
ERL_COUNT(tl)++;
return ep;
}
/*
* Extract the HEAD of a LIST. Bump the reference
* counter on the head object.
*/
ETERM *erl_hd (const ETERM *ep)
{
if (!ep) return NULL;
/* ASSERT(ep != NULL); */
if (ERL_TYPE(ep) != ERL_LIST) {
return (ETERM *) NULL;
}
ERL_COUNT(ERL_CONS_HEAD(ep))++;
return ERL_CONS_HEAD(ep);
}
/*
* Extract the TAIL of a LIST. Bump the reference
* counter on the tail object.
*/
ETERM *erl_tl (const ETERM *ep)
{
ETERM *tl;
if (!ep) return NULL;
/* ASSERT(ep != NULL); */
if (ERL_TYPE(ep) != ERL_LIST) {
return (ETERM *) NULL;
}
tl = TAIL(ep);
ERL_COUNT(tl)++;
return tl;
}
/*
* Create a LIST from an array of elements. Note that
* we create it from the last element in the array to
* the first. Also, note that we decrement the reference
* counter for each member in the list but the first one.
* This is done because of the use of erl_cons.
*/
ETERM *erl_mk_list (ETERM **arr, int size)
{
ETERM *ep;
int i;
if ((!arr) || (size < 0)) return NULL;
for (i=0; i<size; i++) if (!arr[i]) return NULL;
/* ASSERT(arr != NULL); */
ep = erl_mk_empty_list();
if (size > 0) {
ERL_COUNT(ep)--;
}
for (i = size-1; i >= 0; i--) {
/* ASSERT(arr[i] != NULL); */
ep = erl_cons(arr[i], ep);
if (i > 0)
ERL_COUNT(ep)--; /* Internal reference */
}
return ep;
}
/*
* Create an empty VARIABLE.
*/
ETERM *erl_mk_var(const char *s)
{
ETERM *ep;
if (!s) return NULL;
/* ASSERT(s != NULL); */
ep = erl_alloc_eterm(ERL_VARIABLE);
ERL_COUNT(ep) = 1;
ERL_VAR_LEN(ep) = strlen(s);
if ((ERL_VAR_NAME(ep) = strsave(s)) == NULL)
{
erl_free_term(ep);
erl_errno = ENOMEM;
return NULL;
}
ERL_VAR_VALUE(ep) = (ETERM *) NULL;
return ep;
}
/*
* Return the CONTENT of a VARIABLE with NAME.
* If the content is non-nil then bump its
* reference counter.
*/
ETERM *erl_var_content (const ETERM *ep, const char *name)
{
int i;
ETERM *vp;
if ((!ep) || (!name)) return NULL;
/* ASSERT(ep != NULL); */
switch(ERL_TYPE(ep))
{
case ERL_VARIABLE:
if (strcmp(ERL_VAR_NAME(ep), name) == 0) {
if ((vp = ERL_VAR_VALUE(ep)) != NULL) {
ERL_COUNT(vp)++;
return vp;
}
}
break;
case ERL_LIST:
while (ep && (ERL_TYPE(ep) != ERL_EMPTY_LIST)) {
if ((vp = erl_var_content(HEAD(ep), name))) return vp;
ep = TAIL(ep);
}
break;
case ERL_TUPLE:
for (i=0; i < ERL_TUPLE_SIZE(ep); i++)
if ((vp = erl_var_content(ERL_TUPLE_ELEMENT(ep, i), name)))
{
return vp;
}
break;
default:
/* variables can't occur in other types */
break;
}
/* nothing found ! */
return NULL;
}
/*
* Return the SIZE of a TUPLE or a BINARY.
* At failure -1 is returned.
*/
int erl_size (const ETERM *ep)
{
if (!ep) return -1;
/* ASSERT(ep != NULL); */
switch (ERL_TYPE(ep)) {
case ERL_TUPLE:
return ERL_TUPLE_SIZE(ep);
case ERL_BINARY:
return ERL_BIN_SIZE(ep);
default:
return -1;
}
}
/*
* Return the LENGTH of a LIST.
* At failure -1 is returned (this include non-proper lists like [a|b]).
*/
int erl_length(const ETERM *ep)
{
int n = 0;
if (!ep) return -1;
/* ASSERT(ep != NULL); */
while (ERL_TYPE(ep) == ERL_LIST) {
n++;
ep = TAIL(ep);
}
if (!ERL_IS_EMPTY_LIST(ep)) return -1;
return n;
}
/***********************************************************************
* I o l i s t f u n c t i o n s
*
* The following functions handles I/O lists.
*
* Informally, an I/O list is a deep list of characters and binaries,
* which can be sent to an Erlang port.
*
* Formally, in BNF, an I/O list is defined as:
*
* iolist ::= []
* | Binary
* | [iohead | iolist]
* ;
*
* iohead ::= Binary
* | Byte (integer in the range [0..255])
* | iolist
* ;
*
* Note that versions of Erlang/OTP prior to R2 had a slightly more
* restricted definition of I/O lists, in that the tail of a an I/O list
* was not allowed to be a binary. The erl_interface functions
* for I/O lists follows the more liberal rules described by the BNF
* description above.
***********************************************************************/
/*
* This function converts an I/O list to a '\0' terminated C string.
* The I/O list must not contain any occurrences of the integer 0.
*
* The string will be in memory allocated by erl_malloc(). It is the
* responsibility of the caller to eventually call erl_free() to free
* the memory.
*
* Returns: NULL if the list was not an I/O list or contained
* the integer 0, otherwise a pointer to '\0' terminated string.
*/
char* erl_iolist_to_string(const ETERM* term)
{
ETERM* bin;
if ((bin = erl_iolist_to_binary(term)) == NULL) {
return NULL;
} else {
char* result = NULL;
if (memchr(ERL_BIN_PTR(bin), '\0', ERL_BIN_SIZE(bin)) == NULL) {
result = (char *) erl_malloc(ERL_BIN_SIZE(bin)+1);
memcpy(result, ERL_BIN_PTR(bin), ERL_BIN_SIZE(bin));
result[ERL_BIN_SIZE(bin)] = '\0';
}
erl_free_term(bin);
return result;
}
}
/*
* This function converts an I/O list to a binary term.
*
* Returns: NULL if the list was not an I/O list, otherwise
* an ETERM pointer pointing to a binary term.
*/
ETERM *erl_iolist_to_binary (const ETERM* term)
{
ETERM *dest;
int size;
char* ptr;
if (!term) return NULL;
/* ASSERT(term != NULL); */
/*
* Verify that the term is an I/O list and get its length.
*/
size = erl_iolist_length(term);
if (size == -1) {
return NULL;
}
/*
* Allocate the binary and copy the contents of the I/O list into it.
*/
dest = erl_alloc_eterm(ERL_BINARY);
ERL_COUNT(dest) = 1;
ERL_BIN_SIZE(dest) = size;
ptr = (char *)erl_malloc(size);
ERL_BIN_PTR(dest) = (unsigned char *)ptr;
iolist_to_buf(term, &ptr);
/*
* If ptr doesn't point exactly one byte beyond the end of the
* binary, something must be seriously wrong.
*/
if (ERL_BIN_PTR(dest) + size != (unsigned char *) ptr) return NULL;
/* ASSERT(ERL_BIN_PTR(dest) + size == (unsigned char *) ptr); */
return dest;
}
/*
* Returns the length of an I/O list.
*
* Returns: -1 if the term if the given term is not a I/O list,
* or the length otherwise.
*/
int erl_iolist_length (const ETERM* term)
{
int len = 0;
while (ERL_IS_CONS(term)) {
ETERM* obj = HEAD(term);
if (ERL_IS_BYTE(obj)) {
len++;
} else if (ERL_IS_CONS(obj)) {
int i;
if ((i = erl_iolist_length(obj)) < 0)
return i;
len += i;
} else if (ERL_IS_BINARY(obj)) {
len += ERL_BIN_SIZE(obj);
} else if (!ERL_IS_EMPTY_LIST(obj)) {
return(-1);
}
term = TAIL(term);
}
if (ERL_IS_EMPTY_LIST(term))
return len;
else if (ERL_IS_BINARY(term))
return len + ERL_BIN_SIZE(term);
else
return -1;
}
static int erl_atom_copy(Erl_Atom_data* dst, const Erl_Atom_data* src)
{
if (src->latin1 == src->utf8) {
dst->latin1 = dst->utf8 = strsave(src->latin1);
dst->lenL = dst->lenU = strlen(src->latin1);
}
else if (src->latin1) {
dst->latin1 = strsave(src->latin1);
dst->lenL = strlen(src->latin1);
dst->utf8 = NULL;
dst->lenU = 0;
}
else {
dst->utf8 = strsave(src->utf8);
dst->lenU = strlen(src->utf8);
dst->latin1 = NULL;
dst->lenL = 0;
}
return (dst->latin1 != NULL || dst->utf8 == NULL);
}
/*
* Return a brand NEW COPY of an ETERM.
*/
/*
* FIXME: Deep (the whole tree) or shallow (just the top term) copy?
* The documentation never says, but the code as written below will
* make a deep copy. This should be documented.
*/
ETERM *erl_copy_term(const ETERM *ep)
{
int i;
ETERM *cp;
if (!ep) return NULL;
/* ASSERT(ep != NULL); */
cp = erl_alloc_eterm(ERL_TYPE(ep));
ERL_COUNT(cp) = 1;
switch(ERL_TYPE(cp)) {
case ERL_INTEGER:
case ERL_SMALL_BIG:
ERL_INT_VALUE(cp) = ERL_INT_VALUE(ep);
break;
case ERL_U_INTEGER:
case ERL_U_SMALL_BIG:
ERL_INT_UVALUE(cp) = ERL_INT_UVALUE(ep);
break;
case ERL_LONGLONG:
ERL_LL_VALUE(cp) = ERL_LL_VALUE(ep);
break;
case ERL_U_LONGLONG:
ERL_LL_UVALUE(cp) = ERL_LL_UVALUE(ep);
break;
case ERL_FLOAT:
ERL_FLOAT_VALUE(cp) = ERL_FLOAT_VALUE(ep);
break;
case ERL_ATOM:
if (!erl_atom_copy(&cp->uval.aval.d, &ep->uval.aval.d))
{
erl_free_term(cp);
erl_errno = ENOMEM;
return NULL;
}
break;
case ERL_PID:
/* FIXME: First copy the bit pattern, then duplicate the node
name and plug in. Somewhat ugly (also done with port and
ref below). */
memcpy(&cp->uval.pidval, &ep->uval.pidval, sizeof(Erl_Pid));
erl_atom_copy(&cp->uval.pidval.node, &ep->uval.pidval.node);
ERL_COUNT(cp) = 1;
break;
case ERL_PORT:
memcpy(&cp->uval.portval, &ep->uval.portval, sizeof(Erl_Port));
erl_atom_copy(&cp->uval.portval.node, &ep->uval.portval.node);
ERL_COUNT(cp) = 1;
break;
case ERL_REF:
memcpy(&cp->uval.refval, &ep->uval.refval, sizeof(Erl_Ref));
erl_atom_copy(&cp->uval.refval.node, &ep->uval.refval.node);
ERL_COUNT(cp) = 1;
break;
case ERL_LIST:
HEAD(cp) = erl_copy_term(HEAD(ep));
TAIL(cp) = erl_copy_term(TAIL(ep));
break;
case ERL_EMPTY_LIST:
break;
case ERL_TUPLE:
i = ERL_TUPLE_SIZE(cp) = ERL_TUPLE_SIZE(ep);
ERL_TUPLE_ELEMS(cp) = (ETERM**) erl_malloc(i * sizeof(ETERM*));
for(i=0; i < ERL_TUPLE_SIZE(ep); i++)
ERL_TUPLE_ELEMENT(cp,i) = erl_copy_term(ERL_TUPLE_ELEMENT(ep, i));
break;
case ERL_BINARY:
ERL_BIN_SIZE(cp) = ERL_BIN_SIZE(ep);
ERL_BIN_PTR(cp) = (unsigned char *) erl_malloc(ERL_BIN_SIZE(ep));
memcpy(ERL_BIN_PTR(cp), ERL_BIN_PTR(ep), ERL_BIN_SIZE(ep));
break;
case ERL_FUNCTION:
i = ERL_CLOSURE_SIZE(cp) = ERL_CLOSURE_SIZE(ep);
ERL_FUN_ARITY(cp) = ERL_FUN_ARITY(ep);
ERL_FUN_NEW_INDEX(cp) = ERL_FUN_NEW_INDEX(ep);
ERL_FUN_INDEX(cp) = erl_copy_term(ERL_FUN_INDEX(ep));
ERL_FUN_UNIQ(cp) = erl_copy_term(ERL_FUN_UNIQ(ep));
ERL_FUN_CREATOR(cp) = erl_copy_term(ERL_FUN_CREATOR(ep));
ERL_FUN_MODULE(cp) = erl_copy_term(ERL_FUN_MODULE(ep));
memcpy(ERL_FUN_MD5(cp), ERL_FUN_MD5(ep), sizeof(ERL_FUN_MD5(ep)));
ERL_CLOSURE(cp) = (ETERM**) erl_malloc(i * sizeof(ETERM*));
for(i=0; i < ERL_CLOSURE_SIZE(ep); i++)
ERL_CLOSURE_ELEMENT(cp,i) =
erl_copy_term(ERL_CLOSURE_ELEMENT(ep, i));
break;
default:
erl_err_msg("<ERROR> erl_copy_term: wrong type encountered !");
erl_free_term(cp);
return (ETERM *) NULL;
}
return cp;
}
#ifndef SILENT
static int print_string(FILE* fp, const ETERM* ep);
static int is_printable_list(const ETERM* term);
/*
* PRINT out an ETERM.
*/
int erl_print_term(FILE *fp, const ETERM *ep)
{
int j,i,doquote;
int ch_written = 0; /* counter of written chars */
if ((!fp) || (!ep)) return 0;
/* ASSERT(ep != NULL); */
j = i = doquote = 0;
switch(ERL_TYPE(ep))
{
case ERL_ATOM: {
char* adata = ERL_ATOM_PTR(ep);
/* FIXME: what if some weird locale is in use? */
if (!islower(adata[0]))
doquote = 1;
for (i = 0; !doquote && i < ERL_ATOM_SIZE(ep); i++)
{
doquote = !(isalnum(adata[i]) || (adata[i] == '_'));
}
if (doquote) {
putc('\'', fp);
ch_written++;
}
fputs(adata, fp);
ch_written += ERL_ATOM_SIZE(ep);
if (doquote) {
putc('\'', fp);
ch_written++;
}
break;
}
case ERL_VARIABLE:
if (!isupper((int)ERL_VAR_NAME(ep)[0])) {
doquote = 1;
putc('\'', fp);
ch_written++;
}
fputs(ERL_VAR_NAME(ep), fp);
ch_written += ERL_VAR_LEN(ep);
if (doquote) {
putc('\'', fp);
ch_written++;
}
break;
case ERL_PID:
ch_written += fprintf(fp, "<%s.%d.%d>",
ERL_PID_NODE(ep),
ERL_PID_NUMBER(ep), ERL_PID_SERIAL(ep));
break;
case ERL_PORT:
ch_written += fprintf(fp, "#Port");
break;
case ERL_REF:
ch_written += fprintf(fp, "#Ref");
break;
case ERL_EMPTY_LIST:
ch_written += fprintf(fp, "[]");
break;
case ERL_LIST:
if (is_printable_list(ep)) {
ch_written += print_string(fp, ep);
} else {
putc('[', fp);
ch_written++;
while (ERL_IS_CONS(ep)) {
ch_written += erl_print_term(fp, HEAD(ep));
ep = TAIL(ep);
if (ERL_IS_CONS(ep)) {
putc(',', fp);
ch_written++;
}
}
if (!ERL_IS_EMPTY_LIST(ep)) {
putc('|', fp);
ch_written++;
ch_written += erl_print_term(fp, ep);
}
putc(']', fp);
ch_written++;
}
break;
case ERL_TUPLE:
putc('{', fp);
ch_written++;
for (i=0; i < ERL_TUPLE_SIZE(ep); i++) {
ch_written += erl_print_term(fp, ERL_TUPLE_ELEMENT(ep, j++) );
if (i != ERL_TUPLE_SIZE(ep)-1) {
putc(',', fp);
ch_written++;
}
}
putc('}', fp);
ch_written++;
break;
case ERL_BINARY: {
int sz = (ERL_BIN_SIZE(ep) > 20) ? 20 : ERL_BIN_SIZE(ep);
unsigned char *ptr = ERL_BIN_PTR(ep);
ch_written += fprintf(fp, "#Bin<");
for (i = 0; i < sz; i++) {
putc(ptr[i], fp); ch_written++;
}
if (sz == 20) ch_written += fprintf(fp, "(%d)....>", ERL_BIN_SIZE(ep)-20);
else ch_written += fprintf(fp, ">");
break;
}
case ERL_INTEGER:
case ERL_SMALL_BIG:
ch_written += fprintf(fp, "%d", ERL_INT_VALUE(ep));
break;
case ERL_U_INTEGER:
case ERL_U_SMALL_BIG:
ch_written += fprintf(fp, "%d", ERL_INT_UVALUE(ep));
break;
case ERL_LONGLONG:
case ERL_U_LONGLONG:
ch_written += fprintf(fp, "%lld", ERL_LL_UVALUE(ep));
break;
case ERL_FLOAT:
ch_written += fprintf(fp, "%f", ERL_FLOAT_VALUE(ep));
break;
case ERL_FUNCTION:
ch_written += fprintf(fp, "#Fun<");
ch_written += erl_print_term(fp, ERL_FUN_MODULE(ep));
putc('.', fp);
ch_written++;
ch_written += erl_print_term(fp, ERL_FUN_INDEX(ep));
putc('.', fp);
ch_written++;
ch_written += erl_print_term(fp, ERL_FUN_UNIQ(ep));
putc('>', fp);
ch_written++;
break;
default:
ch_written = -10000;
erl_err_msg("<ERROR> erl_print_term: Bad type of term !");
}
return ch_written;
}
/*
* FIXME not done yet....
*/
#if 0
int erl_sprint_term(char *buf, const ETERM *ep)
{
int j,i,doquote;
int ch_written = 0; /* counter of written chars */
if ((!buf) || (!ep)) return 0;
/* ASSERT(ep != NULL); */
j = i = doquote = 0;
switch(ERL_TYPE(ep))
{
case ERL_ATOM:
/* FIXME: what if some weird locale is in use? */
if (!islower((int)ERL_ATOM_PTR(ep)[0]))
doquote = 1;
for (i = 0; !doquote && i < ERL_ATOM_SIZE(ep); i++)
{
doquote = !(isalnum((int)ERL_ATOM_PTR(ep)[i])
|| (ERL_ATOM_PTR(ep)[i] == '_'));
}
if (doquote) {
*buf++ = '\'';
ch_written++;
}
{
int len = ERL_ATOM_SIZE(ep);
strncpy(buf, ERL_ATOM_PTR(ep), len);
buf += len;
ch_written += len;
}
if (doquote) {
*buf++ = '\'';
ch_written++;
}
break;
case ERL_VARIABLE:
if (!isupper((int)ERL_VAR_NAME(ep)[0])) {
doquote = 1;
*buf++ = '\'';
ch_written++;
}
len = ERL_VAR_LEN(ep);
strncpy(buf, ERL_VAR_NAME(ep), len);
buf += len;
ch_written += len;
if (doquote) {
*buf++ = '\'';
ch_written++;
}
break;
case ERL_PID:
len = sprintf(buf, "<%s.%d.%d>",
ERL_PID_NODE(ep),
ERL_PID_NUMBER(ep), ERL_PID_SERIAL(ep));
buf += len;
ch_written += len;
break;
case ERL_PORT:
len = sprintf(buf , "#Port");
buf += len;
ch_written += len;
break;
case ERL_REF:
len = sprintf(buf , "#Ref");
buf += len;
ch_written += len;
break;
case ERL_EMPTY_LIST:
len = sprintf(buf , "[]");
buf += len;
ch_written += len;
break;
case ERL_LIST:
if (is_printable_list(ep)) {
ch_written += print_string(fp, ep);
} else {
putc('[', fp);
ch_written++;
while (ERL_IS_CONS(ep)) {
ch_written += erl_sprint_term(fp, HEAD(ep));
ep = TAIL(ep);
if (ERL_IS_CONS(ep)) {
putc(',', fp);
ch_written++;
}
}
if (!ERL_IS_EMPTY_LIST(ep)) {
putc('|', fp);
ch_written++;
ch_written += erl_sprint_term(fp, ep);
}
putc(']', fp);
ch_written++;
}
break;
case ERL_TUPLE:
putc('{', fp);
ch_written++;
for (i=0; i < ERL_TUPLE_SIZE(ep); i++) {
ch_written += erl_sprint_term(fp, ERL_TUPLE_ELEMENT(ep, j++) );
if (i != ERL_TUPLE_SIZE(ep)-1) {
putc(',', fp);
ch_written++;
}
}
putc('}', fp);
ch_written++;
break;
case ERL_BINARY:
len = sprintf(buf , "#Bin");
buf += len;
ch_written += len;
break;
case ERL_INTEGER:
case ERL_SMALL_BIG:
len = sprintf(buf , "%d", ERL_INT_VALUE(ep));
buf += len;
ch_written += len;
break;
case ERL_U_INTEGER:
case ERL_U_SMALL_BIG:
len = sprintf(buf , "%d", ERL_INT_UVALUE(ep));
buf += len;
ch_written += len;
break;
case ERL_FLOAT:
len = sprintf(buf , "%f", ERL_FLOAT_VALUE(ep));
buf += len;
ch_written += len;
break;
case ERL_FUNCTION:
len = sprintf(buf , "#Fun<");
buf += len;
ch_written += len;
ch_written += erl_sprint_term(fp, ERL_FUN_MODULE(ep));
putc('.', fp);
ch_written++;
ch_written += erl_sprint_term(fp, ERL_FUN_INDEX(ep));
putc('.', fp);
ch_written++;
ch_written += erl_sprint_term(fp, ERL_FUN_UNIQ(ep));
putc('>', fp);
ch_written++;
break;
default:
ch_written = -10000;
erl_err_msg("<ERROR> erl_sprint_term: Bad type of term !");
}
return ch_written;
}
#endif
static int print_string(FILE* fp, const ETERM* ep)
{
int ch_written = 0; /* counter of written chars */
putc('"', fp);
ch_written++;
while (ERL_IS_CONS(ep)) {
int c = ERL_INT_VALUE(HEAD(ep));
if (c >= ' ') {
putc(c, fp);
ch_written++;
}
else {
switch (c) {
case '\n': fputs("\\n", fp); ch_written += 2; break;
case '\r': fputs("\\r", fp); ch_written += 2; break;
case '\t': fputs("\\t", fp); ch_written += 2; break;
case '\v': fputs("\\v", fp); ch_written += 2; break;
case '\b': fputs("\\b", fp); ch_written += 2; break;
case '\f': fputs("\\f", fp); ch_written += 2; break;
break;
default:
ch_written += fprintf(fp, "\\%o", c);
break;
}
}
ep = TAIL(ep);
}
putc('"', fp);
ch_written++;
return ch_written;
}
/*
* Returns 1 if term is a list of printable character, otherwise 0.
*/
static int is_printable_list(const ETERM* term)
{
while (ERL_TYPE(term) == ERL_LIST) {
ETERM* head = HEAD(term);
if (!ERL_IS_BYTE(head)) {
return 0;
}
if (ERL_INT_VALUE(head) < ' ') {
switch (ERL_INT_VALUE(head)) {
case '\n':
case '\r':
case '\t':
case '\v':
case '\b':
case '\f':
break;
default:
return 0;
}
}
term = TAIL(term);
}
return ERL_IS_EMPTY_LIST(term);
}
#endif
/*
* Retrieves the bytes from an I/O list and copy into a buffer.
*
* NOTE! It is the responsibility of the caller to ensure that
* that the buffer is big enough (typically by calling
* erl_iolist_length()), and that the term is an I/O list.
*
* ETERM* term; Term to convert to bytes.
* char** bufp; Pointer to pointer to buffer
* where the bytes should be stored.
* On return, the pointer will point beyond
* the last byte stored.
*/
static void iolist_to_buf(const ETERM* term, char** bufp)
{
char* dest = *bufp;
while (ERL_IS_CONS(term)) {
ETERM* obj = HEAD(term);
if (ERL_IS_BYTE(obj)) {
*dest++ = ERL_INT_VALUE(obj);
} else if (ERL_IS_CONS(obj)) {
iolist_to_buf(obj, &dest);
} else if (ERL_IS_BINARY(obj)) {
memcpy(dest, ERL_BIN_PTR(obj), ERL_BIN_SIZE(obj));
dest += ERL_BIN_SIZE(obj);
} else {
/*
* Types have been checked by caller.
*/
if (!ERL_IS_EMPTY_LIST(obj)) return;
/* ASSERT(ERL_IS_EMPTY_LIST(obj)); */
}
term = TAIL(term);
}
if (ERL_IS_BINARY(term)) {
memcpy(dest, ERL_BIN_PTR(term), ERL_BIN_SIZE(term));
dest += ERL_BIN_SIZE(term);
} else {
/*
* Types have been checked by caller.
*/
if (!ERL_IS_EMPTY_LIST(term)) return;
/* ASSERT(ERL_IS_EMPTY_LIST(term));*/
}
*bufp = dest;
}
static char* strsave(const char *src)
{
char * dest = malloc(strlen(src)+1);
if (dest != NULL)
strcpy(dest, src);
return dest;
}
/*
* Local Variables:
* compile-command: "cd ..; ERL_TOP=/clearcase/otp/erts make -k"
* End:
*/
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