Add a tool to examine random number distributions
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.gitignore
vendored
5
.gitignore
vendored
@ -71,6 +71,11 @@ test/include/test/jemalloc_test_defs.h
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/test/unit/*.[od]
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/test/unit/*.out
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/test/analyze/[A-Za-z]*
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!/test/analyze/[A-Za-z]*.*
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/test/analyze/*.[od]
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/test/analyze/*.out
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/VERSION
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*.pdb
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33
Makefile.in
33
Makefile.in
@ -287,6 +287,7 @@ else
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CPP_SRCS :=
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TESTS_INTEGRATION_CPP :=
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endif
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TESTS_ANALYZE := $(srcroot)test/analyze/rand.c
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TESTS_STRESS := $(srcroot)test/stress/microbench.c \
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$(srcroot)test/stress/fill_flush.c \
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$(srcroot)test/stress/large_microbench.c \
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@ -294,7 +295,8 @@ TESTS_STRESS := $(srcroot)test/stress/microbench.c \
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$(srcroot)test/stress/sizes.c
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TESTS := $(TESTS_UNIT) $(TESTS_INTEGRATION) $(TESTS_INTEGRATION_CPP) $(TESTS_STRESS)
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TESTS := $(TESTS_UNIT) $(TESTS_INTEGRATION) $(TESTS_INTEGRATION_CPP) \
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$(TESTS_ANALYZE) $(TESTS_STRESS)
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PRIVATE_NAMESPACE_HDRS := $(objroot)include/jemalloc/internal/private_namespace.h $(objroot)include/jemalloc/internal/private_namespace_jet.h
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PRIVATE_NAMESPACE_GEN_HDRS := $(PRIVATE_NAMESPACE_HDRS:%.h=%.gen.h)
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@ -310,14 +312,19 @@ C_JET_OBJS := $(C_SRCS:$(srcroot)%.c=$(objroot)%.jet.$(O))
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C_TESTLIB_UNIT_OBJS := $(C_TESTLIB_SRCS:$(srcroot)%.c=$(objroot)%.unit.$(O))
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C_TESTLIB_INTEGRATION_OBJS := $(C_TESTLIB_SRCS:$(srcroot)%.c=$(objroot)%.integration.$(O))
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C_UTIL_INTEGRATION_OBJS := $(C_UTIL_INTEGRATION_SRCS:$(srcroot)%.c=$(objroot)%.integration.$(O))
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C_TESTLIB_ANALYZE_OBJS := $(C_TESTLIB_SRCS:$(srcroot)%.c=$(objroot)%.analyze.$(O))
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C_TESTLIB_STRESS_OBJS := $(C_TESTLIB_SRCS:$(srcroot)%.c=$(objroot)%.stress.$(O))
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C_TESTLIB_OBJS := $(C_TESTLIB_UNIT_OBJS) $(C_TESTLIB_INTEGRATION_OBJS) $(C_UTIL_INTEGRATION_OBJS) $(C_TESTLIB_STRESS_OBJS)
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C_TESTLIB_OBJS := $(C_TESTLIB_UNIT_OBJS) $(C_TESTLIB_INTEGRATION_OBJS) \
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$(C_UTIL_INTEGRATION_OBJS) $(C_TESTLIB_ANALYZE_OBJS) \
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$(C_TESTLIB_STRESS_OBJS)
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TESTS_UNIT_OBJS := $(TESTS_UNIT:$(srcroot)%.c=$(objroot)%.$(O))
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TESTS_INTEGRATION_OBJS := $(TESTS_INTEGRATION:$(srcroot)%.c=$(objroot)%.$(O))
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TESTS_INTEGRATION_CPP_OBJS := $(TESTS_INTEGRATION_CPP:$(srcroot)%.cpp=$(objroot)%.$(O))
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TESTS_ANALYZE_OBJS := $(TESTS_ANALYZE:$(srcroot)%.c=$(objroot)%.$(O))
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TESTS_STRESS_OBJS := $(TESTS_STRESS:$(srcroot)%.c=$(objroot)%.$(O))
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TESTS_OBJS := $(TESTS_UNIT_OBJS) $(TESTS_INTEGRATION_OBJS) $(TESTS_STRESS_OBJS)
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TESTS_OBJS := $(TESTS_UNIT_OBJS) $(TESTS_INTEGRATION_OBJS) $(TESTS_ANALYZE_OBJS) \
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$(TESTS_STRESS_OBJS)
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TESTS_CPP_OBJS := $(TESTS_INTEGRATION_CPP_OBJS)
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.PHONY: all dist build_doc_html build_doc_man build_doc
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@ -391,12 +398,15 @@ $(C_TESTLIB_UNIT_OBJS): CPPFLAGS += -DJEMALLOC_UNIT_TEST
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$(C_TESTLIB_INTEGRATION_OBJS): $(objroot)test/src/%.integration.$(O): $(srcroot)test/src/%.c
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$(C_TESTLIB_INTEGRATION_OBJS): CPPFLAGS += -DJEMALLOC_INTEGRATION_TEST
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$(C_UTIL_INTEGRATION_OBJS): $(objroot)src/%.integration.$(O): $(srcroot)src/%.c
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$(C_TESTLIB_ANALYZE_OBJS): $(objroot)test/src/%.analyze.$(O): $(srcroot)test/src/%.c
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$(C_TESTLIB_ANALYZE_OBJS): CPPFLAGS += -DJEMALLOC_ANALYZE_TEST
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$(C_TESTLIB_STRESS_OBJS): $(objroot)test/src/%.stress.$(O): $(srcroot)test/src/%.c
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$(C_TESTLIB_STRESS_OBJS): CPPFLAGS += -DJEMALLOC_STRESS_TEST -DJEMALLOC_STRESS_TESTLIB
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$(C_TESTLIB_OBJS): CPPFLAGS += -I$(srcroot)test/include -I$(objroot)test/include
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$(TESTS_UNIT_OBJS): CPPFLAGS += -DJEMALLOC_UNIT_TEST
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$(TESTS_INTEGRATION_OBJS): CPPFLAGS += -DJEMALLOC_INTEGRATION_TEST
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$(TESTS_INTEGRATION_CPP_OBJS): CPPFLAGS += -DJEMALLOC_INTEGRATION_CPP_TEST
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$(TESTS_ANALYZE_OBJS): CPPFLAGS += -DJEMALLOC_ANALYZE_TEST
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$(TESTS_STRESS_OBJS): CPPFLAGS += -DJEMALLOC_STRESS_TEST
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$(TESTS_OBJS): $(objroot)test/%.$(O): $(srcroot)test/%.c
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$(TESTS_CPP_OBJS): $(objroot)test/%.$(O): $(srcroot)test/%.cpp
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@ -416,7 +426,7 @@ $(TESTS_OBJS) $(TESTS_CPP_OBJS): $(objroot)test/include/test/jemalloc_test.h
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endif
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$(C_OBJS) $(CPP_OBJS) $(C_PIC_OBJS) $(CPP_PIC_OBJS) $(C_TESTLIB_INTEGRATION_OBJS) $(C_UTIL_INTEGRATION_OBJS) $(TESTS_INTEGRATION_OBJS) $(TESTS_INTEGRATION_CPP_OBJS): $(objroot)include/jemalloc/internal/private_namespace.h
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$(C_JET_OBJS) $(C_TESTLIB_UNIT_OBJS) $(C_TESTLIB_STRESS_OBJS) $(TESTS_UNIT_OBJS) $(TESTS_STRESS_OBJS): $(objroot)include/jemalloc/internal/private_namespace_jet.h
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$(C_JET_OBJS) $(C_TESTLIB_UNIT_OBJS) $(C_TESTLIB_ANALYZE_OBJS) $(C_TESTLIB_STRESS_OBJS) $(TESTS_UNIT_OBJS) $(TESTS_ANALYZE_OBJS) $(TESTS_STRESS_OBJS): $(objroot)include/jemalloc/internal/private_namespace_jet.h
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$(C_SYM_OBJS) $(C_OBJS) $(C_PIC_OBJS) $(C_JET_SYM_OBJS) $(C_JET_OBJS) $(C_TESTLIB_OBJS) $(TESTS_OBJS): %.$(O):
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@mkdir -p $(@D)
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@ -479,6 +489,10 @@ $(objroot)test/integration/cpp/%$(EXE): $(objroot)test/integration/cpp/%.$(O) $(
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@mkdir -p $(@D)
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$(CXX) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(LDFLAGS) $(filter-out -lm,$(LIBS)) -lm $(EXTRA_LDFLAGS)
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$(objroot)test/analyze/%$(EXE): $(objroot)test/analyze/%.$(O) $(C_JET_OBJS) $(C_TESTLIB_ANALYZE_OBJS)
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@mkdir -p $(@D)
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$(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(LDFLAGS) $(filter-out -lm,$(LIBS)) $(LM) $(EXTRA_LDFLAGS)
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$(objroot)test/stress/%$(EXE): $(objroot)test/stress/%.$(O) $(C_JET_OBJS) $(C_TESTLIB_STRESS_OBJS) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB)
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@mkdir -p $(@D)
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$(CC) $(TEST_LD_MODE) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(LDFLAGS) $(filter-out -lm,$(LIBS)) $(LM) $(EXTRA_LDFLAGS)
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@ -559,13 +573,16 @@ endif
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tests_unit: $(TESTS_UNIT:$(srcroot)%.c=$(objroot)%$(EXE))
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tests_integration: $(TESTS_INTEGRATION:$(srcroot)%.c=$(objroot)%$(EXE)) $(TESTS_INTEGRATION_CPP:$(srcroot)%.cpp=$(objroot)%$(EXE))
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tests_analyze: $(TESTS_ANALYZE:$(srcroot)%.c=$(objroot)%$(EXE))
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tests_stress: $(TESTS_STRESS:$(srcroot)%.c=$(objroot)%$(EXE))
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tests: tests_unit tests_integration tests_stress
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tests: tests_unit tests_integration tests_analyze tests_stress
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check_unit_dir:
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@mkdir -p $(objroot)test/unit
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check_integration_dir:
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@mkdir -p $(objroot)test/integration
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analyze_dir:
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@mkdir -p $(objroot)test/analyze
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stress_dir:
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@mkdir -p $(objroot)test/stress
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check_dir: check_unit_dir check_integration_dir
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@ -582,6 +599,12 @@ check_integration_decay: tests_integration check_integration_dir
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$(MALLOC_CONF)="dirty_decay_ms:0,muzzy_decay_ms:0" $(SHELL) $(objroot)test/test.sh $(TESTS_INTEGRATION:$(srcroot)%.c=$(objroot)%) $(TESTS_INTEGRATION_CPP:$(srcroot)%.cpp=$(objroot)%)
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check_integration: tests_integration check_integration_dir
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$(SHELL) $(objroot)test/test.sh $(TESTS_INTEGRATION:$(srcroot)%.c=$(objroot)%) $(TESTS_INTEGRATION_CPP:$(srcroot)%.cpp=$(objroot)%)
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analyze: tests_analyze analyze_dir
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ifeq ($(enable_prof), 1)
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$(MALLOC_CONF)="prof:true" $(SHELL) $(objroot)test/test.sh $(TESTS_ANALYZE:$(srcroot)%.c=$(objroot)%)
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else
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$(SHELL) $(objroot)test/test.sh $(TESTS_ANALYZE:$(srcroot)%.c=$(objroot)%)
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endif
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stress: tests_stress stress_dir
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$(SHELL) $(objroot)test/test.sh $(TESTS_STRESS:$(srcroot)%.c=$(objroot)%)
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check: check_unit check_integration check_integration_decay check_integration_prof
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276
test/analyze/rand.c
Normal file
276
test/analyze/rand.c
Normal file
@ -0,0 +1,276 @@
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#include "test/jemalloc_test.h"
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/******************************************************************************/
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/*
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* General purpose tool for examining random number distributions.
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*
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* Input -
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* (a) a random number generator, and
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* (b) the buckets:
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* (1) number of buckets,
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* (2) width of each bucket, in log scale,
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* (3) expected mean and stddev of the count of random numbers in each
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* bucket, and
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* (c) number of iterations to invoke the generator.
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*
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* The program generates the specified amount of random numbers, and assess how
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* well they conform to the expectations: for each bucket, output -
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* (a) the (given) expected mean and stddev,
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* (b) the actual count and any interesting level of deviation:
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* (1) ~68% buckets should show no interesting deviation, meaning a
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* deviation less than stddev from the expectation;
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* (2) ~27% buckets should show '+' / '-', meaning a deviation in the range
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* of [stddev, 2 * stddev) from the expectation;
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* (3) ~4% buckets should show '++' / '--', meaning a deviation in the
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* range of [2 * stddev, 3 * stddev) from the expectation; and
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* (4) less than 0.3% buckets should show more than two '+'s / '-'s.
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*
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* Technical remarks:
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* (a) The generator is expected to output uint64_t numbers, so you might need
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* to define a wrapper.
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* (b) The buckets must be of equal width and the lowest bucket starts at
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* [0, 2^lg_bucket_width - 1).
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* (c) Any generated number >= n_bucket * 2^lg_bucket_width will be counted
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* towards the last bucket; the expected mean and stddev provided should
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* also reflect that.
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* (d) The number of iterations is adviced to be determined so that the bucket
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* with the minimal expected proportion gets a sufficient count.
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*/
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static void
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fill(size_t a[], const size_t n, const size_t k) {
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for (size_t i = 0; i < n; ++i) {
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a[i] = k;
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}
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}
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static void
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collect_buckets(uint64_t (*gen)(void *), void *opaque, size_t buckets[],
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const size_t n_bucket, const size_t lg_bucket_width, const size_t n_iter) {
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for (size_t i = 0; i < n_iter; ++i) {
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uint64_t num = gen(opaque);
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uint64_t bucket_id = num >> lg_bucket_width;
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if (bucket_id >= n_bucket) {
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bucket_id = n_bucket - 1;
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}
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++buckets[bucket_id];
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}
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}
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static void
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print_buckets(const size_t buckets[], const size_t means[],
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const size_t stddevs[], const size_t n_bucket) {
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for (size_t i = 0; i < n_bucket; ++i) {
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malloc_printf("%zu:\tmean = %zu,\tstddev = %zu,\tbucket = %zu",
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i, means[i], stddevs[i], buckets[i]);
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/* Make sure there's no overflow. */
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assert(buckets[i] + stddevs[i] >= stddevs[i]);
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assert(means[i] + stddevs[i] >= stddevs[i]);
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if (buckets[i] + stddevs[i] <= means[i]) {
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malloc_write(" ");
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for (size_t t = means[i] - buckets[i]; t >= stddevs[i];
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t -= stddevs[i]) {
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malloc_write("-");
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}
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} else if (buckets[i] >= means[i] + stddevs[i]) {
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malloc_write(" ");
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for (size_t t = buckets[i] - means[i]; t >= stddevs[i];
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t -= stddevs[i]) {
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malloc_write("+");
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}
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}
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malloc_write("\n");
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}
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}
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static void
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bucket_analysis(uint64_t (*gen)(void *), void *opaque, size_t buckets[],
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const size_t means[], const size_t stddevs[], const size_t n_bucket,
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const size_t lg_bucket_width, const size_t n_iter) {
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for (size_t i = 1; i <= 3; ++i) {
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malloc_printf("round %zu\n", i);
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fill(buckets, n_bucket, 0);
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collect_buckets(gen, opaque, buckets, n_bucket,
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lg_bucket_width, n_iter);
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print_buckets(buckets, means, stddevs, n_bucket);
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}
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}
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/* (Recommended) minimal bucket mean. */
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#define MIN_BUCKET_MEAN 10000
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/******************************************************************************/
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/* Uniform random number generator. */
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typedef struct uniform_gen_arg_s uniform_gen_arg_t;
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struct uniform_gen_arg_s {
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uint64_t state;
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const unsigned lg_range;
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};
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static uint64_t
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uniform_gen(void *opaque) {
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uniform_gen_arg_t *arg = (uniform_gen_arg_t *)opaque;
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return prng_lg_range_u64(&arg->state, arg->lg_range);
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}
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TEST_BEGIN(test_uniform) {
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#define LG_N_BUCKET 5
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#define N_BUCKET (1 << LG_N_BUCKET)
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#define QUOTIENT_CEIL(n, d) (((n) - 1) / (d) + 1)
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const unsigned lg_range_test = 25;
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/*
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* Mathematical tricks to guarantee that both mean and stddev are
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* integers, and that the minimal bucket mean is at least
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* MIN_BUCKET_MEAN.
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*/
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const size_t q = 1 << QUOTIENT_CEIL(LG_CEIL(QUOTIENT_CEIL(
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MIN_BUCKET_MEAN, N_BUCKET * (N_BUCKET - 1))), 2);
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const size_t stddev = (N_BUCKET - 1) * q;
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const size_t mean = N_BUCKET * stddev * q;
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const size_t n_iter = N_BUCKET * mean;
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size_t means[N_BUCKET];
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fill(means, N_BUCKET, mean);
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size_t stddevs[N_BUCKET];
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fill(stddevs, N_BUCKET, stddev);
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uniform_gen_arg_t arg = {(uint64_t)(uintptr_t)&lg_range_test,
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lg_range_test};
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size_t buckets[N_BUCKET];
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assert_zu_ge(lg_range_test, LG_N_BUCKET, "");
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const size_t lg_bucket_width = lg_range_test - LG_N_BUCKET;
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bucket_analysis(uniform_gen, &arg, buckets, means, stddevs,
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N_BUCKET, lg_bucket_width, n_iter);
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#undef LG_N_BUCKET
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#undef N_BUCKET
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#undef QUOTIENT_CEIL
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}
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TEST_END
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/******************************************************************************/
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/* Geometric random number generator; compiled only when prof is on. */
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#ifdef JEMALLOC_PROF
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/*
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* Fills geometric proportions and returns the minimal proportion. See
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* comments in test_prof_sample for explanations for n_divide.
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*/
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static double
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fill_geometric_proportions(double proportions[], const size_t n_bucket,
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const size_t n_divide) {
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assert(n_bucket > 0);
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assert(n_divide > 0);
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double x = 1.;
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for (size_t i = 0; i < n_bucket; ++i) {
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if (i == n_bucket - 1) {
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proportions[i] = x;
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} else {
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double y = x * exp(-1. / n_divide);
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proportions[i] = x - y;
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x = y;
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}
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}
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/*
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* The minimal proportion is the smaller one of the last two
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* proportions for geometric distribution.
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*/
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double min_proportion = proportions[n_bucket - 1];
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if (n_bucket >= 2 && proportions[n_bucket - 2] < min_proportion) {
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min_proportion = proportions[n_bucket - 2];
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}
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return min_proportion;
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}
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static size_t
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round_to_nearest(const double x) {
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return (size_t)(x + .5);
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}
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static void
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fill_references(size_t means[], size_t stddevs[], const double proportions[],
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const size_t n_bucket, const size_t n_iter) {
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for (size_t i = 0; i < n_bucket; ++i) {
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double x = n_iter * proportions[i];
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means[i] = round_to_nearest(x);
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stddevs[i] = round_to_nearest(sqrt(x * (1. - proportions[i])));
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}
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}
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static uint64_t
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prof_sample_gen(void *opaque) {
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return prof_sample_new_event_wait((tsd_t *)opaque) - 1;
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}
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#endif /* JEMALLOC_PROF */
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TEST_BEGIN(test_prof_sample) {
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test_skip_if(!config_prof);
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#ifdef JEMALLOC_PROF
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/* Number of divisions within [0, mean). */
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#define LG_N_DIVIDE 3
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#define N_DIVIDE (1 << LG_N_DIVIDE)
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/* Coverage of buckets in terms of multiples of mean. */
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#define LG_N_MULTIPLY 2
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#define N_GEO_BUCKET (N_DIVIDE << LG_N_MULTIPLY)
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test_skip_if(!opt_prof);
|
||||
|
||||
size_t lg_prof_sample_test = 25;
|
||||
|
||||
size_t lg_prof_sample_orig = lg_prof_sample;
|
||||
assert_d_eq(mallctl("prof.reset", NULL, NULL, &lg_prof_sample_test,
|
||||
sizeof(size_t)), 0, "");
|
||||
malloc_printf("lg_prof_sample = %zu\n", lg_prof_sample_test);
|
||||
|
||||
double proportions[N_GEO_BUCKET + 1];
|
||||
const double min_proportion = fill_geometric_proportions(proportions,
|
||||
N_GEO_BUCKET + 1, N_DIVIDE);
|
||||
const size_t n_iter = round_to_nearest(MIN_BUCKET_MEAN /
|
||||
min_proportion);
|
||||
size_t means[N_GEO_BUCKET + 1];
|
||||
size_t stddevs[N_GEO_BUCKET + 1];
|
||||
fill_references(means, stddevs, proportions, N_GEO_BUCKET + 1, n_iter);
|
||||
|
||||
tsd_t *tsd = tsd_fetch();
|
||||
assert_ptr_not_null(tsd, "");
|
||||
size_t buckets[N_GEO_BUCKET + 1];
|
||||
assert_zu_ge(lg_prof_sample, LG_N_DIVIDE, "");
|
||||
const size_t lg_bucket_width = lg_prof_sample - LG_N_DIVIDE;
|
||||
|
||||
bucket_analysis(prof_sample_gen, tsd, buckets, means, stddevs,
|
||||
N_GEO_BUCKET + 1, lg_bucket_width, n_iter);
|
||||
|
||||
assert_d_eq(mallctl("prof.reset", NULL, NULL, &lg_prof_sample_orig,
|
||||
sizeof(size_t)), 0, "");
|
||||
|
||||
#undef LG_N_DIVIDE
|
||||
#undef N_DIVIDE
|
||||
#undef LG_N_MULTIPLY
|
||||
#undef N_GEO_BUCKET
|
||||
|
||||
#endif /* JEMALLOC_PROF */
|
||||
}
|
||||
TEST_END
|
||||
|
||||
/******************************************************************************/
|
||||
|
||||
int
|
||||
main(void) {
|
||||
return test_no_reentrancy(
|
||||
test_uniform,
|
||||
test_prof_sample);
|
||||
}
|
@ -38,9 +38,9 @@ extern "C" {
|
||||
|
||||
/******************************************************************************/
|
||||
/*
|
||||
* For unit tests, expose all public and private interfaces.
|
||||
* For unit tests and analytics tests, expose all public and private interfaces.
|
||||
*/
|
||||
#ifdef JEMALLOC_UNIT_TEST
|
||||
#if defined(JEMALLOC_UNIT_TEST) || defined (JEMALLOC_ANALYZE_TEST)
|
||||
# define JEMALLOC_JET
|
||||
# define JEMALLOC_MANGLE
|
||||
# include "jemalloc/internal/jemalloc_preamble.h"
|
||||
|
Loading…
Reference in New Issue
Block a user