/*
TEST_HEADER
id = $HopeName: MMQA_test_function!124.c(trunk.2) $
summary = allocate in 2 arenas
language = c
link = testlib.o rankfmt.o
OUTPUT_SPEC
result = pass
END_HEADER
*/
/* This test is basically MMQA_test_function!124.c modified to
used two arenas
*/
#include "testlib.h"
#include "mpscamc.h"
#include "mpsavm.h"
#include "rankfmt.h"
#define ARENALIMIT (100)
#define TABSIZE (50000)
#define ENTERRAMP (30000)
#define LEAVERAMP (100000)
#define BACKSIZE (32)
#define BACKITER (32)
#define RAMPSIZE (128)
#define ITERATIONS (1000000ul)
#define RAMP_INTERFACE
/*
#define COLLECT_WORLD
*/
void *stackpointer;
mps_space_t arena1, arena2;
mps_pool_t poolamc1, poolamc2;
mps_thr_t thread1, thread2;
mps_root_t root1, root1a, root2, root2a;
mps_fmt_t format1, format2;
mps_ap_t apamc1, apamc2;
static mps_addr_t objtab1[TABSIZE], objtab2[TABSIZE];
static void alloc_back(void) {
long int i, j;
for (j = 0; j < BACKITER; j++) {
i = ranint(ranint(ranint(ranint(TABSIZE)+1)+1)+1);
objtab1[i] = allocdumb(apamc1, BACKSIZE*2, MPS_RANK_EXACT);
i = ranint(ranint(ranint(ranint(TABSIZE)+1)+1)+1);
objtab2[i] = allocdumb(apamc2, BACKSIZE, MPS_RANK_EXACT);
}
}
static void test(void) {
long int i;
long int rsize;
int inramp;
mycell *r1, *r2, *s1, *s2;
cdie(mps_arena_create(&arena1, mps_arena_class_vm(),
(size_t) 1024*1024*ARENALIMIT), "create space");
cdie(mps_arena_create(&arena2, mps_arena_class_vm(),
(size_t) 1024*1024*ARENALIMIT), "create space");
cdie(mps_thread_reg(&thread1, arena1), "register thread");
cdie(mps_thread_reg(&thread2, arena2), "register thread");
cdie(
mps_root_create_reg(&root1, arena1, MPS_RANK_AMBIG, 0, thread1,
mps_stack_scan_ambig, stackpointer, 0),
"create root");
cdie(
mps_root_create_reg(&root2, arena2, MPS_RANK_AMBIG, 0, thread2,
mps_stack_scan_ambig, stackpointer, 0),
"create root");
cdie(
mps_root_create_table(&root1a, arena1, MPS_RANK_EXACT, 0, &objtab1[0], TABSIZE),
"create root table");
cdie(
mps_root_create_table(&root2a, arena2, MPS_RANK_EXACT, 0, &objtab2[0], TABSIZE),
"create root table");
cdie(
mps_fmt_create_A(&format1, arena1, &fmtA),
"create format");
cdie(
mps_fmt_create_A(&format2, arena2, &fmtA),
"create format");
cdie(
mps_pool_create(&poolamc1, arena1, mps_class_amc(), format1),
"create pool");
cdie(
mps_pool_create(&poolamc2, arena2, mps_class_amc(), format2),
"create pool");
cdie(
mps_ap_create(&apamc1, poolamc1, MPS_RANK_EXACT),
"create ap");
cdie(
mps_ap_create(&apamc2, poolamc2, MPS_RANK_EXACT),
"create ap");
inramp = 0;
for (i = 0; i < ITERATIONS; i++) {
if (i % 10000 == 0) {
comment("%ld of %ld", i, ITERATIONS);
}
alloc_back();
if (inramp) {
s1 = allocone(apamc1, 3, MPS_RANK_EXACT);
s2 = allocone(apamc2, 3, MPS_RANK_EXACT);
setref(r1, 0, s1);
setref(r2, 0, s2);
setref(s1, 1, r1);
setref(s2, 1, r2);
r1 = s1;
r2 = s2;
s1 = allocdumb(apamc1, RAMPSIZE, MPS_RANK_EXACT);
s2 = allocdumb(apamc2, RAMPSIZE, MPS_RANK_EXACT);
setref(r1, 2, s1);
setref(r2, 2, s2);
rsize ++;
if (ranint(LEAVERAMP) == 0) {
r1 = allocone(apamc1, 2, MPS_RANK_EXACT);
r2 = allocone(apamc2, 2, MPS_RANK_EXACT);
s1 = allocone(apamc1, 2, MPS_RANK_EXACT);
s2 = allocone(apamc2, 2, MPS_RANK_EXACT);
#ifdef RAMP_INTERFACE
mps_ap_alloc_pattern_end(apamc1, mps_alloc_pattern_ramp());
mps_ap_alloc_pattern_end(apamc2, mps_alloc_pattern_ramp());
#endif
#ifdef COLLECT_WORLD
mps_arena_collect(arena1);
mps_arena_collect(arena2);
mps_arena_release(arena1);
mps_arena_release(arena2);
#endif
comment("ramp end, %ld objects", rsize);
inramp = 0;
}
} else {
if (ranint(ENTERRAMP) == 0) {
#ifdef RAMP_INTERFACE
mps_ap_alloc_pattern_begin(apamc1, mps_alloc_pattern_ramp());
mps_ap_alloc_pattern_begin(apamc2, mps_alloc_pattern_ramp());
#endif
comment("ramp begin");
r1 = allocone(apamc1, 3, MPS_RANK_EXACT);
r2 = allocone(apamc2, 3, MPS_RANK_EXACT);
inramp = 1;
rsize = 0;
}
}
}
mps_ap_destroy(apamc1);
mps_ap_destroy(apamc2);
comment("Destroyed ap.");
mps_pool_destroy(poolamc1);
mps_pool_destroy(poolamc2);
comment("Destroyed pool.");
mps_fmt_destroy(format1);
mps_fmt_destroy(format2);
comment("Destroyed format.");
mps_root_destroy(root1);
mps_root_destroy(root1a);
mps_root_destroy(root2);
mps_root_destroy(root2a);
comment("Destroyed roots.");
mps_thread_dereg(thread1);
mps_thread_dereg(thread2);
comment("Deregistered thread.");
mps_arena_destroy(arena1);
mps_arena_destroy(arena2);
comment("Destroyed space.");
}
int main(void)
{
void *m;
stackpointer=&m; /* hack to get stack pointer */
easy_tramp(test);
report("result", "pass");
return 0;
}