diff options
Diffstat (limited to 'misc/benchmarks/plotbench/cmap_benchmark.cpp')
| -rw-r--r-- | misc/benchmarks/plotbench/cmap_benchmark.cpp | 34 |
1 files changed, 17 insertions, 17 deletions
diff --git a/misc/benchmarks/plotbench/cmap_benchmark.cpp b/misc/benchmarks/plotbench/cmap_benchmark.cpp index 7a8f29d2..0582d162 100644 --- a/misc/benchmarks/plotbench/cmap_benchmark.cpp +++ b/misc/benchmarks/plotbench/cmap_benchmark.cpp @@ -1,7 +1,7 @@ #include <stdio.h> #include <time.h> #define i_static -#include <stc/crandom.h> +#include <stc/crand.h> #ifdef __cplusplus #include <unordered_map> @@ -26,28 +26,28 @@ Sample test_std_unordered_map() { typedef std::unordered_map<uint64_t, uint64_t> container; Sample s = {"std,unordered_map"}; { - csrandom(seed); + csrand(seed); s.test[INSERT].t1 = clock(); container con; - c_forrange (i, N/2) con.emplace(crandom() & mask1, i); + c_forrange (i, N/2) con.emplace(crand() & mask1, i); c_forrange (i, N/2) con.emplace(i, i); s.test[INSERT].t2 = clock(); s.test[INSERT].sum = con.size(); - csrandom(seed); + csrand(seed); s.test[ERASE].t1 = clock(); - c_forrange (N) con.erase(crandom() & mask1); + c_forrange (N) con.erase(crand() & mask1); s.test[ERASE].t2 = clock(); s.test[ERASE].sum = con.size(); }{ container con; - csrandom(seed); - c_forrange (i, N/2) con.emplace(crandom() & mask1, i); + csrand(seed); + c_forrange (i, N/2) con.emplace(crand() & mask1, i); c_forrange (i, N/2) con.emplace(i, i); - csrandom(seed); + csrand(seed); s.test[FIND].t1 = clock(); size_t sum = 0; container::iterator it; - c_forrange (N) if ((it = con.find(crandom() & mask1)) != con.end()) sum += it->second; + c_forrange (N) if ((it = con.find(crand() & mask1)) != con.end()) sum += it->second; s.test[FIND].t2 = clock(); s.test[FIND].sum = sum; s.test[ITER].t1 = clock(); @@ -70,30 +70,30 @@ Sample test_stc_unordered_map() { typedef cmap_x container; Sample s = {"STC,unordered_map"}; { - csrandom(seed); + csrand(seed); s.test[INSERT].t1 = clock(); container con = cmap_x_init(); - c_forrange (i, N/2) cmap_x_insert(&con, crandom() & mask1, i); + c_forrange (i, N/2) cmap_x_insert(&con, crand() & mask1, i); c_forrange (i, N/2) cmap_x_insert(&con, i, i); s.test[INSERT].t2 = clock(); s.test[INSERT].sum = cmap_x_size(&con); - csrandom(seed); + csrand(seed); s.test[ERASE].t1 = clock(); - c_forrange (N) cmap_x_erase(&con, crandom() & mask1); + c_forrange (N) cmap_x_erase(&con, crand() & mask1); s.test[ERASE].t2 = clock(); s.test[ERASE].sum = cmap_x_size(&con); cmap_x_drop(&con); }{ container con = cmap_x_init(); - csrandom(seed); - c_forrange (i, N/2) cmap_x_insert(&con, crandom() & mask1, i); + csrand(seed); + c_forrange (i, N/2) cmap_x_insert(&con, crand() & mask1, i); c_forrange (i, N/2) cmap_x_insert(&con, i, i); - csrandom(seed); + csrand(seed); s.test[FIND].t1 = clock(); size_t sum = 0; const cmap_x_value* val; c_forrange (N) - if ((val = cmap_x_get(&con, crandom() & mask1))) + if ((val = cmap_x_get(&con, crand() & mask1))) sum += val->second; s.test[FIND].t2 = clock(); s.test[FIND].sum = sum; |