/* meas.c -- measure qt stuff. */
#include "copyright.h"
/* Need this to get assertions under Mach on the Sequent/i386: */
#ifdef __i386__
#define assert(ex) \
do { \
if (!(ex)) { \
fprintf (stderr, "[%s:%d] Assertion " #ex " failed\n", __FILE__, __LINE__); \
abort(); \
} \
} while (0)
#else
#include <assert.h>
#endif
/* This really ought to be defined in some ANSI include file (*I*
think...), but it's defined here instead, which leads us to another
machine dependency.
The `iaddr_t' type is an integer representation of a pointer,
suited for doing arithmetic on addresses, e.g. to round an address
to an alignment boundary. */
typedef unsigned long iaddr_t;
#include <stdarg.h> /* For varargs tryout. */
#include <stdio.h>
#include "b.h"
#include "qt.h"
#include "stp.h"
extern void exit (int status);
extern int atoi (char const *s);
extern int fprintf (FILE *out, char const *fmt, ...);
extern int fputs (char const *s, FILE *fp);
extern void free (void *sto);
extern void *malloc (unsigned nbytes);
extern void perror (char const *s);
void usage (void);
void tracer(void);
/* Round `v' to be `a'-aligned, assuming `a' is a power of two. */
#define ROUND(v, a) (((v) + (a) - 1) & ~((a)-1))
typedef struct thread_t {
qt_t *qt; /* Pointer to thread of function... */
void *stk;
void *top; /* Set top of stack if reuse. */
struct thread_t *next;
} thread_t;
static thread_t *
t_alloc (void)
{
thread_t *t;
int ssz = 0x1000;
t = malloc (sizeof(thread_t));
if (!t) {
perror ("malloc");
exit (1);
}
assert (ssz > QT_STKBASE);
t->stk = malloc (ssz);
t->stk = (void *)ROUND (((iaddr_t)t->stk), QT_STKALIGN);
if (!t->stk) {
perror ("malloc");
exit (1);
}
assert ((((iaddr_t)t->stk) & (QT_STKALIGN-1)) == 0);
t->top = QT_SP (t->stk, ssz - QT_STKBASE);
return (t);
}
static thread_t *
t_create (qt_only_t *starter, void *p0, qt_userf_t *f)
{
thread_t *t;
t = t_alloc();
t->qt = QT_ARGS (t->top, p0, t, f, starter);
return (t);
}
static void
t_free (thread_t *t)
{
free (t->stk);
free (t);
}
static void *
t_null (qt_t *old, void *p1, void *p2)
{
/* return (garbage); */
}
static void *
t_splat (qt_t *old, void *oldp, void *null)
{
*(qt_t **)oldp = old;
/* return (garbage); */
}
static char const test01_msg[] =
"*QT_SP(sto,sz), QT_ARGS(top,p0,p1,userf,first)";
static char const *test01_descr[] = {
"Performs 1 QT_SP and one QT_ARGS per iteration.",
NULL
};
/* This test gives a guess on how long it takes to initalize
a thread. */
static void
test01 (int n)
{
char stack[QT_STKBASE+QT_STKALIGN];
char *stk;
qt_t *top;
stk = (char *)ROUND (((iaddr_t)stack), QT_STKALIGN);
{
int i;
for (i=0; i<QT_STKBASE; ++i) {
stk[i] = 0;
}
}
while (n>0) {
/* RETVALUSED */
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
#ifdef NDEF
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
top = QT_SP (stk, QT_STKBASE); QT_ARGS (top, 0, 0, 0, 0);
n -= 10;
#else
n -= 1;
#endif
}
}
static char const test02_msg[] = "QT_BLOCKI (0, 0, test02_aux, t->qt)";
static qt_t *rootthread;
static void
test02_aux1 (void *pu, void *pt, qt_userf_t *f)
{
QT_ABORT (t_null, 0, 0, rootthread);
}
static void *
test02_aux2 (qt_t *old, void *farg1, void *farg2)
{
rootthread = old;
/* return (garbage); */
}
static void
test02 (int n)
{
thread_t *t;
while (n>0) {
t = t_create (test02_aux1, 0, 0);
QT_BLOCKI (test02_aux2, 0, 0, t->qt);
t_free (t);
t = t_create (test02_aux1, 0, 0);
QT_BLOCKI (test02_aux2, 0, 0, t->qt);
t_free (t);
t = t_create (test02_aux1, 0, 0);
QT_BLOCKI (test02_aux2, 0, 0, t->qt);
t_free (t);
t = t_create (test02_aux1, 0, 0);
QT_BLOCKI (test02_aux2, 0, 0, t->qt);
t_free (t);
t = t_create (test02_aux1, 0, 0);
QT_BLOCKI (test02_aux2, 0, 0, t->qt);
t_free (t);
n -= 5;
}
}
static char const test03_msg[] = "QT_BLOCKI (...) test vals are right.";
/* Called by the thread function when it wants to shut down.
Return a value to the main thread. */
static void *
test03_aux0 (qt_t *old_is_garbage, void *farg1, void *farg2)
{
assert (farg1 == (void *)5);
assert (farg2 == (void *)6);
return ((void *)15); /* Some unlikely value. */
}
/* Called during new thread startup by main thread. Since the new
thread has never run before, return value is ignored. */
static void *
test03_aux1 (qt_t *old, void *farg1, void *farg2)
{
assert (old != NULL);
assert (farg1 == (void *)5);
assert (farg2 == (void *)6);
rootthread = old;
return ((void *)16); /* Different than `15'. */
}
static void
test03_aux2 (void *pu, void *pt, qt_userf_t *f)
{
assert (pu == (void *)1);
assert (f == (qt_userf_t *)4);
QT_ABORT (test03_aux0, (void *)5, (void *)6, rootthread);
}
static void
test03 (int n)
{
thread_t *t;
void *rv;
while (n>0) {
t = t_create (test03_aux2, (void *)1, (qt_userf_t *)4);
rv = QT_BLOCKI (test03_aux1, (void *)5, (void *)6, t->qt);
assert (rv == (void *)15);
t_free (t);
--n;
}
}
static char const test04_msg[] = "stp_start w/ no threads.";
static void
test04 (int n)
{
while (n>0) {
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
stp_init(); stp_start();
n -= 10;
}
}
static char const test05_msg[] = "stp w/ 2 yielding thread.";
static void
test05_aux (void *null)
{
stp_yield();
stp_yield();
}
static void
test05 (int n)
{
while (n>0) {
stp_init();
stp_create (test05_aux, 0);
stp_create (test05_aux, 0);
stp_start();
--n;
}
}
static char const test06_msg[] = "*QT_ARGS(...), QT_BLOCKI one thread";
static char const *test06_descr[] = {
"Does a QT_ARGS, QT_BLOCKI to a helper function that saves the",
"stack pointer of the main thread, calls an `only' function that",
"saves aborts the thread, calling a null helper function.",
":: start/stop = QT_ARGS + QT_BLOCKI + QT_ABORT + 3 procedure calls.",
NULL
};
/* This test initializes a thread, runs it, then returns to the main
program, which reinitializes the thread, runs it again, etc. Each
iteration corresponds to 1 init, 1 abort, 1 block. */
static qt_t *test06_sp;
static void
test06_aux2 (void *null0a, void *null1b, void *null2b, qt_userf_t *null)
{
QT_ABORT (t_null, 0, 0, test06_sp);
}
static void *
test06_aux3 (qt_t *sp, void *null0c, void *null1c)
{
test06_sp = sp;
/* return (garbage); */
}
static void
test06 (int n)
{
thread_t *t;
t = t_create (0, 0, 0);
while (n>0) {
/* RETVALUSED */
QT_ARGS (t->top, 0, 0, 0, test06_aux2);
QT_BLOCKI (test06_aux3, 0, 0, t->qt);
#ifdef NDEF
/* RETVALUSED */
QT_ARGS (t->top, 0, 0, 0, test06_aux2);
QT_BLOCKI (test06_aux3, 0, 0, t->qt);
/* RETVALUSED */
QT_ARGS (t->top, 0, 0, 0, test06_aux2);
QT_BLOCKI (test06_aux3, 0, 0, t->qt);
/* RETVALUSED */
QT_ARGS (t->top, 0, 0, 0, test06_aux2);
QT_BLOCKI (test06_aux3, 0, 0, t->qt);
/* RETVALUSED */
QT_ARGS (t->top, 0, 0, 0, test06_aux2);
QT_BLOCKI (test06_aux3, 0, 0, t->qt);
n -= 5;
#else
--n;
#endif
}
}
static char test07_msg[] = "*cswap between threads";
static char const *test07_descr[] = {
"Build a chain of threads where each thread has a fixed successor.",
"There is no scheduling performed. Each thread but one is a loop",
"that simply blocks with QT_BLOCKI, calling a helper that saves the",
"current stack pointer. The last thread decrements a count, and,",
"if zero, aborts back to the main thread. Else it continues with",
"the blocking chain. The count is divided by the number of threads",
"in the chain, so `n' is the number of integer block operations.",
":: integer cswap = QT_BLOCKI + a procedure call.",
NULL
};
/* This test repeatedly blocks a bunch of threads.
Each iteration corresponds to one block operation.
The threads are arranged so that there are TEST07_N-1 of them that
run `test07_aux2'. Each one of those blocks saving it's sp to
storage owned by the preceding thread; a pointer to that storage is
passed in via `mep'. Each thread has a handle on it's own storage
for the next thread, referenced by `nxtp', and it blocks by passing
control to `*nxtp', telling the helper function to save its state
in `*mep'. The last thread in the chain decrements a count and, if
it's gone below zero, returns to `test07'; otherwise, it invokes
the first thread in the chain. */
static qt_t *test07_heavy;
#define TEST07_N (4)
static void
test07_aux2 (void *null0, void *mep, void *nxtp, qt_userf_t *null)
{
qt_t *nxt;
while (1) {
nxt = *(qt_t **)nxtp;
#ifdef NDEF
printf ("Helper 0x%p\n", nxtp);
#endif
QT_BLOCKI (t_splat, mep, 0, nxt);
}
}
static void
test07_aux3 (void *np, void *mep, void *nxtp, qt_userf_t *null)
{
int n;
n = *(int *)np;
while (1) {
n -= TEST07_N;
if (n<0) {
QT_ABORT (t_splat, mep, 0, test07_heavy);
}
QT_BLOCKI (t_splat, mep, 0, *(qt_t **)nxtp);
}
}
static void
test07 (int n)
{
int i;
thread_t *t[TEST07_N];
for (i=0; i<TEST07_N; ++i) {
t[i] = t_create (0, 0, 0);
}
for (i=0; i<TEST07_N-1; ++i) {
/* RETVALUSED */
QT_ARGS (t[i]->top, 0, &t[i]->qt, &t[i+1]->qt, test07_aux2);
}
/* RETVALUSED */
QT_ARGS (t[i]->top, &n, &t[TEST07_N-1]->qt, &t[0]->qt, test07_aux3);
QT_BLOCKI (t_splat, &test07_heavy, 0, t[0]->qt);
}
static char test08_msg[] = "Floating-point cswap between threads";
static char const *test08_descr[] = {
"Measure context switch times including floating-point, use QT_BLOCK.",
NULL
};
static qt_t *test08_heavy;
#define TEST08_N (4)
static void
test08_aux2 (void *null0, void *mep, void *nxtp, qt_userf_t *null)
{
qt_t *nxt;
while (1) {
nxt = *(qt_t **)nxtp;
QT_BLOCK (t_splat, mep, 0, nxt);
}
}
static void
test08_aux3 (void *np, void *mep, void *nxtp, qt_userf_t *null)
{
int n;
n = *(int *)np;
while (1) {
n -= TEST08_N;
if (n<0) {
QT_ABORT (t_splat, mep, 0, test08_heavy);
}
QT_BLOCK (t_splat, mep, 0, *(qt_t **)nxtp);
}
}
static void
test08 (int n)
{
int i;
thread_t *t[TEST08_N];
for (i=0; i<TEST08_N; ++i) {
t[i] = t_create (0, 0, 0);
}
for (i=0; i<TEST08_N-1; ++i) {
/* RETVALUSED */
QT_ARGS (t[i]->top, 0, &t[i]->qt, &t[i+1]->qt, test08_aux2);
}
/* RETVALUSED */
QT_ARGS (t[i]->top, &n, &t[TEST08_N-1]->qt, &t[0]->qt, test08_aux3);
QT_BLOCK (t_splat, &test08_heavy, 0, t[0]->qt);
}
/* Test the varargs procedure calling. */
char const test09_msg[] = { "Start and run threads using varargs." };
thread_t *test09_t0, *test09_t1, *test09_t2, *test09_main;
thread_t *
test09_create (qt_startup_t *start, qt_vuserf_t *f,
qt_cleanup_t *cleanup, int nbytes, ...)
{
va_list ap;
thread_t *t;
t = t_alloc();
va_start (ap, nbytes);
t->qt = QT_VARGS (t->top, nbytes, ap, t, start, f, cleanup);
va_end (ap);
return (t);
}
static void
test09_cleanup (void *pt, void *vuserf_retval)
{
assert (vuserf_retval == (void *)17);
QT_ABORT (t_splat, &((thread_t *)pt)->qt, 0,
((thread_t *)pt)->next->qt);
}
static void
test09_start (void *pt)
{
}
static void *
test09_user0 (void)
{
QT_BLOCKI (t_splat, &test09_t0->qt, 0, test09_t1->qt);
return ((void *)17);
}
static void *
test09_user2 (int one, int two)
{
assert (one == 1);
assert (two == 2);
QT_BLOCKI (t_splat, &test09_t1->qt, 0, test09_t2->qt);
assert (one == 1);
assert (two == 2);
return ((void *)17);
}
static void *
test09_user10 (int one, int two, int three, int four, int five,
int six, int seven, int eight, int nine, int ten)
{
assert (one == 1);
assert (two == 2);
assert (three == 3);
assert (four == 4);
assert (five == 5);
assert (six == 6);
assert (seven == 7);
assert (eight == 8);
assert (nine == 9);
assert (ten == 10);
QT_BLOCKI (t_splat, &test09_t2->qt, 0, test09_main->qt);
assert (one == 1);
assert (two == 2);
assert (three == 3);
assert (four == 4);
assert (five == 5);
assert (six == 6);
assert (seven == 7);
assert (eight == 8);
assert (nine == 9);
assert (ten == 10);
return ((void *)17);
}
void
test09 (int n)
{
thread_t main;
test09_main = &main;
while (--n >= 0) {
test09_t0 = test09_create (test09_start, (qt_vuserf_t*)test09_user0,
test09_cleanup, 0);
test09_t1 = test09_create (test09_start, (qt_vuserf_t*)test09_user2,
test09_cleanup, 2 * sizeof(qt_word_t), 1, 2);
test09_t2 = test09_create (test09_start, (qt_vuserf_t*)test09_user10,
test09_cleanup, 10 * sizeof(qt_word_t),
1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
/* Chaining used by `test09_cleanup' to determine who is next. */
test09_t0->next = test09_t1;
test09_t1->next = test09_t2;
test09_t2->next = test09_main;
QT_BLOCKI (t_splat, &test09_main->qt, 0, test09_t0->qt);
QT_BLOCKI (t_splat, &test09_main->qt, 0, test09_t0->qt);
t_free (test09_t0);
t_free (test09_t1);
t_free (test09_t2);
}
}
�/* Test 10/11/12: time the cost of various number of args. */
char const test10_msg[] = { "*Test varargs init & startup w/ 0 args." };
char const *test10_descr[] = {
"Start and stop threads that use variant argument lists (varargs).",
"Each thread is initialized by calling a routine that calls",
"QT_VARARGS. Then runs the thread by calling QT_BLOCKI to hald the",
"main thread, a helper that saves the main thread's stack pointer,",
"a null startup function, a null user function, a cleanup function",
"that calls QT_ABORT and restarts the main thread. Copies no user",
"parameters.",
":: varargs start/stop = QT_BLOCKI + QT_ABORT + 6 function calls.",
NULL
};
/* Helper function to send control back to main.
Don't save anything. */
/* Helper function for starting the varargs thread. Save the stack
pointer of the main thread so we can get back there eventually. */
/* Startup function for a varargs thread. */
static void
test10_startup (void *pt)
{
}
/* User function for a varargs thread. */
static void *
test10_run (int arg0, ...)
{
/* return (garbage); */
}
/* Cleanup function for a varargs thread. Send control
back to the main thread. Don't save any state from the thread that
is halting. */
void
test10_cleanup (void *pt, void *vuserf_retval)
{
QT_ABORT (t_null, 0, 0, ((thread_t *)pt)->qt);
}
void
test10_init (thread_t *new, thread_t *next, int nbytes, ...)
{
va_list ap;
va_start (ap, nbytes);
new->qt = QT_VARGS (new->top, nbytes, ap, next, test10_startup,
test10_run, test10_cleanup);
va_end (ap);
}
void
test10 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 0);
QT_BLOCKI (t_splat, &main.qt, 0, t->qt);
}
t_free (t);
}
char const test11_msg[] = { "*Test varargs init & startup w/ 2 args." };
char const *test11_descr[] = {
"Varargs initialization/run. Copies 2 user arguments.",
":: varargs 2 start/stop = QT_VARGS(2 args), QT_BLOCKI, QT_ABORT, 6 f() calls.",
NULL
};
void
test11 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 2 * sizeof(int), 2, 1);
QT_BLOCKI (t_splat, &main.qt, 0, t->qt);
}
t_free (t);
}
char const test12_msg[] = { "*Test varargs init & startup w/ 4 args." };
char const *test12_descr[] = {
"Varargs initialization/run. Copies 4 user arguments.",
":: varargs 4 start/stop = QT_VARGS(4 args), QT_BLOCKI, QT_ABORT, 6 f() calls.",
NULL
};
void
test12 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 4 * sizeof(int), 4, 3, 2, 1);
QT_BLOCKI (t_splat, &main.qt, 0, t->qt);
}
t_free (t);
}
char const test13_msg[] = { "*Test varargs init & startup w/ 8 args." };
char const *test13_descr[] = {
"Varargs initialization/run. Copies 8 user arguments.",
":: varargs 8 start/stop = QT_VARGS(8 args), QT_BLOCKI, QT_ABORT, 6 f() calls.",
NULL
};
void
test13 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 8 * sizeof(int), 8, 7, 6, 5, 4, 3, 2, 1);
QT_BLOCKI (t_splat, &main.qt, 0, t->qt);
}
t_free (t);
}
char const test14_msg[] = { "*Test varargs initialization w/ 0 args." };
char const *test14_descr[] = {
"Varargs initialization without running the thread. Just calls",
"QT_VARGS.",
":: varargs 0 init = QT_VARGS()",
NULL
};
void
test14 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 0 * sizeof(int));
}
t_free (t);
}
char const test15_msg[] = { "*Test varargs initialization w/ 2 args." };
char const *test15_descr[] = {
"Varargs initialization without running the thread. Just calls",
"QT_VARGS.",
":: varargs 2 init = QT_VARGS(2 args)",
NULL
};
void
test15 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 2 * sizeof(int), 2, 1);
}
t_free (t);
}
char const test16_msg[] = { "*Test varargs initialization w/ 4 args." };
char const *test16_descr[] = {
"Varargs initialization without running the thread. Just calls",
"QT_VARGS.",
":: varargs 4 init = QT_VARGS(4 args)",
NULL
};
void
test16 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 4 * sizeof(int), 4, 3, 2, 1);
}
t_free (t);
}
char const test17_msg[] = { "*Test varargs initialization w/ 8 args." };
char const *test17_descr[] = {
"Varargs initialization without running the thread. Just calls",
"QT_VARGS.",
":: varargs 8 init = QT_VARGS(8 args)",
NULL
};
void
test17 (int n)
{
thread_t main;
thread_t *t;
t = t_alloc();
t->next = &main;
while (--n >= 0) {
test10_init (t, &main, 8 * sizeof(int), 8, 7, 6, 5, 4, 3, 2, 1);
}
t_free (t);
}
�/* Test times for basic machine operations. */
char const test18_msg[] = { "*Call register indirect." };
char const *test18_descr[] = { NULL };
void
test18 (int n)
{
b_call_reg (n);
}
char const test19_msg[] = { "*Call immediate." };
char const *test19_descr[] = { NULL };
void
test19 (int n)
{
b_call_imm (n);
}
char const test20_msg[] = { "*Add register-to-register." };
char const *test20_descr[] = { NULL };
void
test20 (int n)
{
b_add (n);
}
char const test21_msg[] = { "*Load memory to a register." };
char const *test21_descr[] = { NULL };
void
test21 (int n)
{
b_load (n);
}
�/* Driver. */
typedef struct foo_t {
char const *msg; /* Message to print for generic help. */
char const **descr; /* A description of what is done by the test. */
void (*f)(int n);
} foo_t;
static foo_t foo[] = {
{ "Usage:\n", NULL, (void(*)(int n))usage },
{ test01_msg, test01_descr, test01 },
{ test02_msg, NULL, test02 },
{ test03_msg, NULL, test03 },
{ test04_msg, NULL, test04 },
{ test05_msg, NULL, test05 },
{ test06_msg, test06_descr, test06 },
{ test07_msg, test07_descr, test07 },
{ test08_msg, test08_descr, test08 },
{ test09_msg, NULL, test09 },
{ test10_msg, test10_descr, test10 },
{ test11_msg, test11_descr, test11 },
{ test12_msg, test12_descr, test12 },
{ test13_msg, test13_descr, test13 },
{ test14_msg, test14_descr, test14 },
{ test15_msg, test15_descr, test15 },
{ test16_msg, test16_descr, test16 },
{ test17_msg, test17_descr, test17 },
{ test18_msg, test18_descr, test18 },
{ test19_msg, test19_descr, test19 },
{ test20_msg, test20_descr, test20 },
{ test21_msg, test21_descr, test21 },
{ 0, 0 }
};
static int tv = 0;
void
tracer ()
{
fprintf (stderr, "tracer\t%d\n", tv++);
fflush (stderr);
}
void
tracer2 (void *val)
{
fprintf (stderr, "tracer2\t%d val=0x%p", tv++, val);
fflush (stderr);
}
void
describe()
{
int i;
FILE *out = stdout;
for (i=0; foo[i].msg; ++i) {
if (foo[i].descr) {
int j;
putc ('\n', out);
fprintf (out, "[%d]\n", i);
for (j=0; foo[i].descr[j]; ++j) {
fputs (foo[i].descr[j], out);
putc ('\n', out);
}
}
}
exit (0);
}
void
usage()
{
int i;
fputs (foo[0].msg, stderr);
for (i=1; foo[i].msg; ++i) {
fprintf (stderr, "%2d\t%s\n", i, foo[i].msg);
}
exit (1);
}
void
args (int *which, int *n, int argc, char **argv)
{
static int nfuncs = 0;
if (argc == 2 && argv[1][0] == '-' && argv[1][1] == 'h') {
describe();
}
if (nfuncs == 0) {
for (nfuncs=0; foo[nfuncs].msg; ++nfuncs)
;
}
if (argc != 2 && argc != 3) {
usage();
}
*which = atoi (argv[1]);
if (*which < 0 || *which >= nfuncs) {
usage();
}
*n = (argc == 3)
? atoi (argv[2])
: 1;
}
int
main (int argc, char **argv)
{
int which, n;
args (&which, &n, argc, argv);
(*(foo[which].f))(n);
exit (0);
return (0);
}