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inline int arg_count ()
| arg_count |
#include <c_format.hh>
template <class A>
inline int arg_count (A)
| arg_count |
#include <c_format.hh>
template <class A, class B>
inline int arg_count (A,B)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C>
inline int arg_count (A,B,C)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D>
inline int arg_count (A,B,C,D)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E>
inline int arg_count (A,B,C,D,E)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C,class D, class E, class F>
inline int arg_count (A,B,C,D,E,F)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G>
inline int arg_count (A,B,C,D,E,F,G)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H>
inline int arg_count (A,B,C,D,E,F,G,H)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H, class I>
inline int arg_count (A,B,C,D,E,F,G,H,I)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H, class I, class J>
inline int arg_count (A,B,C,D,E,F,G,H,I,J)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H, class I, class J, class K>
inline int arg_count (A,B,C,D,E,F,G,H,I,J,K)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H, class I, class J, class K, class L>
inline int arg_count (A,B,C,D,E,F,G,H,I,J,K,L)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H, class I, class J, class K, class L, class M>
inline int arg_count (A,B,C,D,E,F,G,H,I,J,K,L,M)
| arg_count |
#include <c_format.hh>
template <class A, class B, class C, class D, class E, class F, class G,
class H, class I, class J, class K, class L, class M, class N>
inline int arg_count (A,B,C,D,E,F,G,H,I,J,K,L,M,N)
| arg_count |
#include <c_format.hh>
void c_format_validate (const char* fmt, int n)
| c_format_validate |
#include <c_format.hh>
inline void swallow_args (const char*)
| swallow_args |
#include <debug.h>
template <class A>
inline void swallow_args (const char*, A)
| swallow_args |
#include <debug.h>
template <class A, class B>
inline void swallow_args (const char*, A, B)
| swallow_args |
#include <debug.h>
template <class A, class B, class C>
inline void swallow_args (const char*, A, B, C)
| swallow_args |
#include <debug.h>
template <class A, class B, class C, class D>
inline void swallow_args (const char*, A, B, C, D)
| swallow_args |
#include <debug.h>
template <class A, class B, class C, class D, class E>
inline void swallow_args (const char*, A, B, C, D, E)
| swallow_args |
#include <debug.h>
template <class A, class B, class C, class D, class E, class F>
inline void swallow_args (const char*, A, B, C, D, E, F)
| swallow_args |
#include <debug.h>
template <class A, class B, class C, class D, class E, class F, class G>
inline void swallow_args (const char*, A, B, C, D, E, F, G)
| swallow_args |
#include <debug.h>
template <class A, class B, class C, class D, class E, class F, class G, class H>
inline void swallow_args (const char*, A, B, C, D, E, F, G, H)
| swallow_args |
#include <debug.h>
inline void
check_args (const char*, ...)
| check_args |
#include <debug.h>
struct ether_addr* ether_aton (const char *a)
| ether_aton |
#include <ether_compat.h>
const char* ether_ntoa (const struct ether_addr* ea)
| ether_ntoa |
#include <ether_compat.h>
void xorp_catch_standard_exceptions ()
| xorp_catch_standard_exceptions |
#include <exceptions.hh>
Print diagnostic message if exception is derived from XorpException or from standard exceptions, and terminate the program.
void xorp_print_standard_exceptions ()
| xorp_print_standard_exceptions |
#include <exceptions.hh>
Print diagnostic message if exception is derived from XorpException or from standard exceptions.
Note that unlike xorp_catch_standard_exceptions(), the program does NOT terminate.
void xorp_unexpected_handler ()
| xorp_unexpected_handler |
#include <exceptions.hh>
Unexpected exceptions are programming errors and this handler can be installed with XorpUnexpectedHandler to print out as much information as possible. The default behaviour is just to dump core, but it very hard to detect what happened.
template <class A> size_t
overlap (const IPNet<A>& a1, const IPNet<A>& a2)
| overlap |
#include <ipnet.hh>
Determine the number of the most significant bits overlapping between two subnets.
Parameters:
a1 | the first subnet. |
a2 | the subnet. |
Returns: the number of bits overlapping between a1 and a2.
typedef IPNet<IPv4> IPv4Net | IPv4Net |
#include <ipv4net.hh>
typedef IPNet<IPv6> IPv6Net | IPv6Net |
#include <ipv6net.hh>
inline size_t
family2addr_size (const int family)
| family2addr_size |
#include <ipvx.hh>
inline size_t
family2addr_bitlen (const int family)
| family2addr_bitlen |
#include <ipvx.hh>
typedef IPNet<IPvX> BaseIPvXNet | BaseIPvXNet |
#include <ipvxnet.hh>
Base IPvXNet just has IPNet methods. IPvXNet is derived from BaseIPvXNet and has IPvX specific functions such as whether contained type is an IPv4 network or an IPv6 network.
See IPNet for available methods.
inline bool
operator== (const Mac& m1, const Mac& m2)
| operator== |
#include <mac.hh>
typedef IPNextHop<IPv4> IPv4NextHop | IPv4NextHop |
#include <nexthop.hh>
typedef IPNextHop<IPv6> IPv6NextHop | IPv6NextHop |
#include <nexthop.hh>
typedef IPNextHop<IPvX> IPvXNextHop | IPvXNextHop |
#include <nexthop.hh>
typedef IPPeerNextHop<IPv4> IPv4PeerNextHop | IPv4PeerNextHop |
#include <nexthop.hh>
typedef IPPeerNextHop<IPv6> IPv6PeerNextHop | IPv6PeerNextHop |
#include <nexthop.hh>
typedef IPPeerNextHop<IPvX> IPvXPeerNextHop | IPvXPeerNextHop |
#include <nexthop.hh>
typedef IPEncapsNextHop<IPv4> IPv4EncapsNextHop | IPv4EncapsNextHop |
#include <nexthop.hh>
typedef IPEncapsNextHop<IPv6> IPv6EncapsNextHop | IPv6EncapsNextHop |
#include <nexthop.hh>
typedef IPEncapsNextHop<IPvX> IPvXEncapsNextHop | IPvXEncapsNextHop |
#include <nexthop.hh>
typedef IPExternalNextHop<IPv4> IPv4ExternalNextHop | IPv4ExternalNextHop |
#include <nexthop.hh>
typedef IPExternalNextHop<IPv6> IPv6ExternalNextHop | IPv6ExternalNextHop |
#include <nexthop.hh>
typedef IPExternalNextHop<IPvX> IPvXExternalNextHop | IPvXExternalNextHop |
#include <nexthop.hh>
enum SelectorMask { SEL_RD = 0x01, SEL_WR = 0x02, SEL_EX = 0x04, SEL_ALL = SEL_RD | SEL_WR | SEL_EX } | SelectorMask |
#include <selector.hh>
Selector event type masks.
typedef XorpCallback2<void,int,SelectorMask>::RefPtr SelectorCallback | SelectorCallback |
#include <selector.hh>
typedef ref_ptr<SelectorTag> Selector | Selector |
#include <selector.hh>
typedef enum -- | -- |
#include <status_codes.h>
enum -- { PROC_NULL = 0, PROC_STARTUP = 1, PROC_NOT_READY = 2, PROC_READY = 3, PROC_SHUTDOWN = 4, PROC_FAILED = 5 } | -- |
#include <status_codes.h>
typedef XorpCallback0<void>::RefPtr OneoffTimerCallback | OneoffTimerCallback |
#include <timer.hh>
typedef XorpCallback0<bool>::RefPtr PeriodicTimerCallback | PeriodicTimerCallback |
#include <timer.hh>
typedef XorpCallback1<void, XorpTimer&>::RefPtr BasicTimerCallback | BasicTimerCallback |
#include <timer.hh>
typedef void (*query_current_time) (TimeVal*) | (*query_current_time) |
#include <timer.hh>
inline TimeVal
operator- (const TimeVal& v)
| operator- |
#include <timeval.hh>
Prefix unary minus.
inline TimeVal
operator* (int n, const TimeVal& t)
| operator* |
#include <timeval.hh>
Multiply TimeVal by integer.
inline TimeVal
operator* (const double& d, const TimeVal& t)
| operator* |
#include <timeval.hh>
Multiply TimeVal by double.
inline TimeVal
random_uniform (const TimeVal& lower, const TimeVal& upper)
| random_uniform |
#include <timeval.hh>
Generate a TimeVal value from a uniform random distribution between specified bounds.
Parameters:
lower | lower bound of generated value. |
upper | upper bound of generated value. |
Returns: value chosen from uniform random distribution.
inline TimeVal
random_uniform (const TimeVal& upper)
| random_uniform |
#include <timeval.hh>
Generate a TimeVal value from a uniform random distribution between zero and specified bound.
Parameters:
upper | upper bound of generated value. |
Returns: value chosen from uniform random distribution.
inline TimeVal
positive_random_uniform (const TimeVal& center, const double& factor)
| positive_random_uniform |
#include <timeval.hh>
Generate a TimeVal value from a uniform random distribution between the bounds center - factor * center and center + factor * center. If the lower bound is less than TimeVal::ZERO() it is rounded up to TimeVal::ZERO().
Parameters:
center | mid-point of generated time value. |
factor | the spread of the uniform random distribution. |
Returns: value chosen from uniform random distribution.
string copy_token (const string& token_org)
| copy_token |
#include <token.hh>
Copy a token.
If the token contains token separators, enclose it within quotations.
Parameters:
token_org | the token to copy. |
Returns: the copy of the token with token separators enclosed within quotations.
string pop_token (string& token_line)
| pop_token |
#include <token.hh>
Pop a token from a token line.
Parameters:
token_line | the token line to pop a token from. |
Returns: the first token from the front of the line. Also, token_line is modified to exlude that token.
bool is_token_separator (const char c)
| is_token_separator |
#include <token.hh>
Test if a character is a token separator.
Currently, the is_space(3) characters and '|' are considered as token separators.
Parameters:
c | the character to test whether it is token separator. |
Returns: true if c is a token separator, otherwise false.
bool has_more_tokens (const string& token_line)
| has_more_tokens |
#include <token.hh>
Test if a token line contains more tokens.
Parameters:
token_line | the token line to test. |
Returns: true if token_line contains more tokens, otherwise false.
string char_line2token_line (const char *char_line)
| char_line2token_line |
#include <token.hh>
Create a copy of a token line.
Create a copy of a token line, but all tokens with a single space between.
Parameters:
char_line | C-style token line to copy. |
Returns: C++ string copy of char_line, but with all tokens inside with a single space between.
template<class T> void
delete_pointers_list (list<T *>& delete_list)
| delete_pointers_list |
#include <utils.hh>
Template to delete a list of pointers, and the objects pointed to.
Parameters:
delete_list | the list of pointers to objects to delete. |
template<class T> void
delete_pointers_vector (vector<T *>& delete_vector)
| delete_pointers_vector |
#include <utils.hh>
Template to delete an array of pointers, and the objects pointed to.
Parameters:
delete_vector | the vector of pointers to objects to delete. |
typedef enum -- | -- |
#include <xorp.h>
The xlog functions provide a similar role to syslog. The log messages may be output to multiple output streams simulataneously.
enum -- { true = TRUE, false = FALSE } | -- |
#include <xorp.h>
typedef bool bool_t | bool_t |
#include <xorp.h>
Generated by: pavlin on possum.icir.org on Mon Jun 9 13:23:43 2003, using kdoc 2.0a54+XORP. |