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Add probabability distribution utility code.

Browse Source 
Add probabability distribution utility code that enables generation of
random deviates drawn from normal, Chi-square, and Gamma distributions.

Fix format strings in several of the assert_* macros (remove a %s).

Clean up header issues; it's critical that system headers are not
included after internal definitions potentially do things like:

  #define inline

Fix the build system to incorporate header dependencies for the test
library C files.
This commit is contained in:
Jason Evans 2013-12-09 23:36:37 -08:00
parent 80061b6df0
commit b1941c6150
11 changed files with 731 additions and 48 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

16
Makefile.in
View File

@ -103,12 +103,11 @@ DOCS_XML := $(objroot)doc/jemalloc$(install_suffix).xml
DOCS_HTML := $(DOCS_XML:$(objroot)%.xml=$(srcroot)%.html) DOCS_HTML := $(DOCS_XML:$(objroot)%.xml=$(srcroot)%.html)
DOCS_MAN3 := $(DOCS_XML:$(objroot)%.xml=$(srcroot)%.3) DOCS_MAN3 := $(DOCS_XML:$(objroot)%.xml=$(srcroot)%.3)
DOCS := $(DOCS_HTML) $(DOCS_MAN3) DOCS := $(DOCS_HTML) $(DOCS_MAN3)
C_TESTLIB_SRCS := $(srcroot)test/src/SFMT.c $(srcroot)test/src/test.c \ C_TESTLIB_SRCS := $(srcroot)test/src/math.c $(srcroot)test/src/SFMT.c \
$(srcroot)test/src/thread.c $(srcroot)test/src/test.c $(srcroot)test/src/thread.c
C_UTIL_INTEGRATION_SRCS := $(srcroot)src/util.c C_UTIL_INTEGRATION_SRCS := $(srcroot)src/util.c
TESTS_UNIT := $(srcroot)test/unit/bitmap.c \ TESTS_UNIT := $(srcroot)test/unit/bitmap.c $(srcroot)test/unit/math.c \
$(srcroot)test/unit/SFMT.c \ $(srcroot)test/unit/SFMT.c $(srcroot)test/unit/tsd.c
$(srcroot)test/unit/tsd.c
TESTS_INTEGRATION := $(srcroot)test/integration/aligned_alloc.c \ TESTS_INTEGRATION := $(srcroot)test/integration/aligned_alloc.c \
$(srcroot)test/integration/allocated.c \ $(srcroot)test/integration/allocated.c \
$(srcroot)test/integration/ALLOCM_ARENA.c \ $(srcroot)test/integration/ALLOCM_ARENA.c \
@ -166,6 +165,7 @@ ifdef CC_MM
-include $(C_OBJS:%.$(O)=%.d) -include $(C_OBJS:%.$(O)=%.d)
-include $(C_PIC_OBJS:%.$(O)=%.d) -include $(C_PIC_OBJS:%.$(O)=%.d)
-include $(C_JET_OBJS:%.$(O)=%.d) -include $(C_JET_OBJS:%.$(O)=%.d)
-include $(C_TESTLIB_OBJS:%.$(O)=%.d)
-include $(TESTS_OBJS:%.$(O)=%.d) -include $(TESTS_OBJS:%.$(O)=%.d)
endif endif
@ -227,15 +227,15 @@ $(STATIC_LIBS):
$(objroot)test/unit/%$(EXE): $(objroot)test/unit/%.$(O) $(C_JET_OBJS) $(C_TESTLIB_UNIT_OBJS) $(objroot)test/unit/%$(EXE): $(objroot)test/unit/%.$(O) $(C_JET_OBJS) $(C_TESTLIB_UNIT_OBJS)
@mkdir -p $(@D) @mkdir -p $(@D)
$(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(LDFLAGS) $(LIBS) $(EXTRA_LDFLAGS) $(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(LDFLAGS) $(filter-out -lm,$(LIBS)) -lm $(EXTRA_LDFLAGS)
$(objroot)test/integration/%$(EXE): $(objroot)test/integration/%.$(O) $(C_TESTLIB_INTEGRATION_OBJS) $(C_UTIL_INTEGRATION_OBJS) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(objroot)test/integration/%$(EXE): $(objroot)test/integration/%.$(O) $(C_TESTLIB_INTEGRATION_OBJS) $(C_UTIL_INTEGRATION_OBJS) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB)
@mkdir -p $(@D) @mkdir -p $(@D)
$(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(LDFLAGS) $(filter -lpthread,$(LIBS)) $(EXTRA_LDFLAGS) $(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(LDFLAGS) $(filter-out -lm,$(filter -lpthread,$(LIBS))) -lm $(EXTRA_LDFLAGS)
$(objroot)test/stress/%$(EXE): $(objroot)test/stress/%.$(O) $(C_JET_OBJS) $(C_TESTLIB_STRESS_OBJS) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(objroot)test/stress/%$(EXE): $(objroot)test/stress/%.$(O) $(C_JET_OBJS) $(C_TESTLIB_STRESS_OBJS) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB)
@mkdir -p $(@D) @mkdir -p $(@D)
$(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(LDFLAGS) $(LIBS) $(EXTRA_LDFLAGS) $(CC) $(LDTARGET) $(filter %.$(O),$^) $(call RPATH,$(objroot)lib) $(objroot)lib/$(LIBJEMALLOC).$(IMPORTLIB) $(LDFLAGS) $(filter-out -lm,$(LIBS)) -lm $(EXTRA_LDFLAGS)
build_lib_shared: $(DSOS) build_lib_shared: $(DSOS)
build_lib_static: $(STATIC_LIBS) build_lib_static: $(STATIC_LIBS)

1
include/jemalloc/internal/jemalloc_internal_macros.h
View File

@ -37,6 +37,7 @@
#define ZU(z) ((size_t)z) #define ZU(z) ((size_t)z)
#define QU(q) ((uint64_t)q) #define QU(q) ((uint64_t)q)
#define QI(q) ((int64_t)q)
#ifndef __DECONST #ifndef __DECONST
# define __DECONST(type, var) ((type)(uintptr_t)(const void *)(var)) # define __DECONST(type, var) ((type)(uintptr_t)(const void *)(var))

2
include/jemalloc/internal/prof.h
View File

@ -355,7 +355,7 @@ prof_sample_threshold_update(prof_tdata_t *prof_tdata)
* Luc Devroye * Luc Devroye
* Springer-Verlag, New York, 1986 * Springer-Verlag, New York, 1986
* pp 500 * pp 500
* (http://cg.scs.carleton.ca/~luc/rnbookindex.html) * (http://luc.devroye.org/rnbookindex.html)
*/ */
prng64(r, 53, prof_tdata->prng_state, prng64(r, 53, prof_tdata->prng_state,
UINT64_C(6364136223846793005), UINT64_C(1442695040888963407)); UINT64_C(6364136223846793005), UINT64_C(1442695040888963407));

26
test/include/test/SFMT.h
View File

@ -66,32 +66,6 @@
#ifndef SFMT_H #ifndef SFMT_H
#define SFMT_H #define SFMT_H
#include <stdio.h>
#include <stdlib.h>
#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)
#include <inttypes.h>
#elif defined(_MSC_VER) || defined(__BORLANDC__)
typedef unsigned int uint32_t;
typedef unsigned __int64 uint64_t;
#define inline __inline
#else
#include <inttypes.h>
#if defined(__GNUC__)
#define inline __inline__
#endif
#endif
#ifndef PRIu64
#if defined(_MSC_VER) || defined(__BORLANDC__)
#define PRIu64 "I64u"
#define PRIx64 "I64x"
#else
#define PRIu64 "llu"
#define PRIx64 "llx"
#endif
#endif
#if defined(__GNUC__) #if defined(__GNUC__)
#define ALWAYSINLINE __attribute__((always_inline)) #define ALWAYSINLINE __attribute__((always_inline))
#else #else

17
test/include/test/jemalloc_test.h.in
View File

@ -1,6 +1,14 @@
#include <stdlib.h> #include <stdlib.h>
#include <stdbool.h> #include <stdbool.h>
#include <string.h> #include <string.h>
#include <inttypes.h>
#include <math.h>
#ifdef _WIN32
# include <windows.h>
#else
# include <pthread.h>
#endif
/******************************************************************************/ /******************************************************************************/
/* /*
@ -37,6 +45,13 @@
#include "test/jemalloc_test_defs.h" #include "test/jemalloc_test_defs.h"
#if defined(HAVE_ALTIVEC) && !defined(__APPLE__)
# include <altivec.h>
#endif
#ifdef HAVE_SSE2
# include <emmintrin.h>
#endif
/******************************************************************************/ /******************************************************************************/
/* /*
* For unit tests, expose all public and private interfaces. * For unit tests, expose all public and private interfaces.
@ -60,7 +75,6 @@
# define JEMALLOC_N(n) @private_namespace@##n # define JEMALLOC_N(n) @private_namespace@##n
# include "jemalloc/internal/private_namespace.h" # include "jemalloc/internal/private_namespace.h"
# include <inttypes.h>
# include <stdarg.h> # include <stdarg.h>
# include <errno.h> # include <errno.h>
# define JEMALLOC_H_TYPES # define JEMALLOC_H_TYPES
@ -109,6 +123,7 @@
/* /*
* Common test utilities. * Common test utilities.
*/ */
#include "test/math.h"
#include "test/test.h" #include "test/test.h"
#include "test/thread.h" #include "test/thread.h"
#define MEXP 19937 #define MEXP 19937

311
test/include/test/math.h Normal file
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@ -0,0 +1,311 @@
#ifndef JEMALLOC_ENABLE_INLINE
double ln_gamma(double x);
double i_gamma(double x, double p, double ln_gamma_p);
double pt_norm(double p);
double pt_chi2(double p, double df, double ln_gamma_df_2);
double pt_gamma(double p, double shape, double scale, double ln_gamma_shape);
#endif
#if (defined(JEMALLOC_ENABLE_INLINE) || defined(MATH_C_))
/*
* Compute the natural log of Gamma(x), accurate to 10 decimal places.
*
* This implementation is based on:
*
* Pike, M.C., I.D. Hill (1966) Algorithm 291: Logarithm of Gamma function
* [S14]. Communications of the ACM 9(9):684.
*/
JEMALLOC_INLINE double
ln_gamma(double x)
{
double f, z;
assert(x > 0.0);
if (x < 7.0) {
f = 1.0;
z = x;
while (z < 7.0) {
f *= z;
z += 1.0;
}
x = z;
f = -log(f);
} else
f = 0.0;
z = 1.0 / (x * x);
return (f + (x-0.5) * log(x) - x + 0.918938533204673 +
(((-0.000595238095238 * z + 0.000793650793651) * z -
0.002777777777778) * z + 0.083333333333333) / x);
}
/*
* Compute the incomplete Gamma ratio for [0..x], where p is the shape
* parameter, and ln_gamma_p is ln_gamma(p).
*
* This implementation is based on:
*
* Bhattacharjee, G.P. (1970) Algorithm AS 32: The incomplete Gamma integral.
* Applied Statistics 19:285-287.
*/
JEMALLOC_INLINE double
i_gamma(double x, double p, double ln_gamma_p)
{
double acu, factor, oflo, gin, term, rn, a, b, an, dif;
double pn[6];
unsigned i;
assert(p > 0.0);
assert(x >= 0.0);
if (x == 0.0)
return (0.0);
acu = 1.0e-10;
oflo = 1.0e30;
gin = 0.0;
factor = exp(p * log(x) - x - ln_gamma_p);
if (x <= 1.0 || x < p) {
/* Calculation by series expansion. */
gin = 1.0;
term = 1.0;
rn = p;
while (true) {
rn += 1.0;
term *= x / rn;
gin += term;
if (term <= acu) {
gin *= factor / p;
return (gin);
}
}
} else {
/* Calculation by continued fraction. */
a = 1.0 - p;
b = a + x + 1.0;
term = 0.0;
pn[0] = 1.0;
pn[1] = x;
pn[2] = x + 1.0;
pn[3] = x * b;
gin = pn[2] / pn[3];
while (true) {
a += 1.0;
b += 2.0;
term += 1.0;
an = a * term;
for (i = 0; i < 2; i++)
pn[i+4] = b * pn[i+2] - an * pn[i];
if (pn[5] != 0.0) {
rn = pn[4] / pn[5];
dif = fabs(gin - rn);
if (dif <= acu && dif <= acu * rn) {
gin = 1.0 - factor * gin;
return (gin);
}
gin = rn;
}
for (i = 0; i < 4; i++)
pn[i] = pn[i+2];
if (fabs(pn[4]) >= oflo) {
for (i = 0; i < 4; i++)
pn[i] /= oflo;
}
}
}
}
/*
* Given a value p in [0..1] of the lower tail area of the normal distribution,
* compute the limit on the definite integral from [-inf..z] that satisfies p,
* accurate to 16 decimal places.
*
* This implementation is based on:
*
* Wichura, M.J. (1988) Algorithm AS 241: The percentage points of the normal
* distribution. Applied Statistics 37(3):477-484.
*/
JEMALLOC_INLINE double
pt_norm(double p)
{
double q, r, ret;
assert(p > 0.0 && p < 1.0);
q = p - 0.5;
if (fabs(q) <= 0.425) {
/* p close to 1/2. */
r = 0.180625 - q * q;
return (q * (((((((2.5090809287301226727e3 * r +
3.3430575583588128105e4) * r + 6.7265770927008700853e4) * r
+ 4.5921953931549871457e4) * r + 1.3731693765509461125e4) *
r + 1.9715909503065514427e3) * r + 1.3314166789178437745e2)
* r + 3.3871328727963666080e0) /
(((((((5.2264952788528545610e3 * r +
2.8729085735721942674e4) * r + 3.9307895800092710610e4) * r
+ 2.1213794301586595867e4) * r + 5.3941960214247511077e3) *
r + 6.8718700749205790830e2) * r + 4.2313330701600911252e1)
* r + 1.0));
} else {
if (q < 0.0)
r = p;
else
r = 1.0 - p;
assert(r > 0.0);
r = sqrt(-log(r));
if (r <= 5.0) {
/* p neither close to 1/2 nor 0 or 1. */
r -= 1.6;
ret = ((((((((7.74545014278341407640e-4 * r +
2.27238449892691845833e-2) * r +
2.41780725177450611770e-1) * r +
1.27045825245236838258e0) * r +
3.64784832476320460504e0) * r +
5.76949722146069140550e0) * r +
4.63033784615654529590e0) * r +
1.42343711074968357734e0) /
(((((((1.05075007164441684324e-9 * r +
5.47593808499534494600e-4) * r +
1.51986665636164571966e-2)
* r + 1.48103976427480074590e-1) * r +
6.89767334985100004550e-1) * r +
1.67638483018380384940e0) * r +
2.05319162663775882187e0) * r + 1.0));
} else {
/* p near 0 or 1. */
r -= 5.0;
ret = ((((((((2.01033439929228813265e-7 * r +
2.71155556874348757815e-5) * r +
1.24266094738807843860e-3) * r +
2.65321895265761230930e-2) * r +
2.96560571828504891230e-1) * r +
1.78482653991729133580e0) * r +
5.46378491116411436990e0) * r +
6.65790464350110377720e0) /
(((((((2.04426310338993978564e-15 * r +
1.42151175831644588870e-7) * r +
1.84631831751005468180e-5) * r +
7.86869131145613259100e-4) * r +
1.48753612908506148525e-2) * r +
1.36929880922735805310e-1) * r +
5.99832206555887937690e-1)
* r + 1.0));
}
if (q < 0.0)
ret = -ret;
return (ret);
}
}
/*
* Given a value p in [0..1] of the lower tail area of the Chi^2 distribution
* with df degrees of freedom, where ln_gamma_df_2 is ln_gamma(df/2.0), compute
* the upper limit on the definite integral from [0..z] that satisfies p,
* accurate to 12 decimal places.
*
* This implementation is based on:
*
* Best, D.J., D.E. Roberts (1975) Algorithm AS 91: The percentage points of
* the Chi^2 distribution. Applied Statistics 24(3):385-388.
*
* Shea, B.L. (1991) Algorithm AS R85: A remark on AS 91: The percentage
* points of the Chi^2 distribution. Applied Statistics 40(1):233-235.
*/
JEMALLOC_INLINE double
pt_chi2(double p, double df, double ln_gamma_df_2)
{
double e, aa, xx, c, ch, a, q, p1, p2, t, x, b, s1, s2, s3, s4, s5, s6;
unsigned i;
assert(p >= 0.0 && p < 1.0);
assert(df > 0.0);
e = 5.0e-7;
aa = 0.6931471805;
xx = 0.5 * df;
c = xx - 1.0;
if (df < -1.24 * log(p)) {
/* Starting approximation for small Chi^2. */
ch = pow(p * xx * exp(ln_gamma_df_2 + xx * aa), 1.0 / xx);
if (ch - e < 0.0)
return (ch);
} else {
if (df > 0.32) {
x = pt_norm(p);
/*
* Starting approximation using Wilson and Hilferty
* estimate.
*/
p1 = 0.222222 / df;
ch = df * pow(x * sqrt(p1) + 1.0 - p1, 3.0);
/* Starting approximation for p tending to 1. */
if (ch > 2.2 * df + 6.0) {
ch = -2.0 * (log(1.0 - p) - c * log(0.5 * ch) +
ln_gamma_df_2);
}
} else {
ch = 0.4;
a = log(1.0 - p);
while (true) {
q = ch;
p1 = 1.0 + ch * (4.67 + ch);
p2 = ch * (6.73 + ch * (6.66 + ch));
t = -0.5 + (4.67 + 2.0 * ch) / p1 - (6.73 + ch
* (13.32 + 3.0 * ch)) / p2;
ch -= (1.0 - exp(a + ln_gamma_df_2 + 0.5 * ch +
c * aa) * p2 / p1) / t;
if (fabs(q / ch - 1.0) - 0.01 <= 0.0)
break;
}
}
}
for (i = 0; i < 20; i++) {
/* Calculation of seven-term Taylor series. */
q = ch;
p1 = 0.5 * ch;
if (p1 < 0.0)
return (-1.0);
p2 = p - i_gamma(p1, xx, ln_gamma_df_2);
t = p2 * exp(xx * aa + ln_gamma_df_2 + p1 - c * log(ch));
b = t / ch;
a = 0.5 * t - b * c;
s1 = (210.0 + a * (140.0 + a * (105.0 + a * (84.0 + a * (70.0 +
60.0 * a))))) / 420.0;
s2 = (420.0 + a * (735.0 + a * (966.0 + a * (1141.0 + 1278.0 *
a)))) / 2520.0;
s3 = (210.0 + a * (462.0 + a * (707.0 + 932.0 * a))) / 2520.0;
s4 = (252.0 + a * (672.0 + 1182.0 * a) + c * (294.0 + a *
(889.0 + 1740.0 * a))) / 5040.0;
s5 = (84.0 + 264.0 * a + c * (175.0 + 606.0 * a)) / 2520.0;
s6 = (120.0 + c * (346.0 + 127.0 * c)) / 5040.0;
ch += t * (1.0 + 0.5 * t * s1 - b * c * (s1 - b * (s2 - b * (s3
- b * (s4 - b * (s5 - b * s6))))));
if (fabs(q / ch - 1.0) <= e)
break;
}
return (ch);
}
/*
* Given a value p in [0..1] and Gamma distribution shape and scale parameters,
* compute the upper limit on the definite integeral from [0..z] that satisfies
* p.
*/
JEMALLOC_INLINE double
pt_gamma(double p, double shape, double scale, double ln_gamma_shape)
{
return (pt_chi2(p, shape * 2.0, ln_gamma_shape) * 0.5 * scale);
}
#endif

8
test/include/test/test.h
View File

@ -131,7 +131,7 @@
if (!(a_ == true)) { \ if (!(a_ == true)) { \
p_test_fail( \ p_test_fail( \
"%s:%s:%d: Failed assertion: " \ "%s:%s:%d: Failed assertion: " \
"(%s) == true --> %s != true: %s\n", \ "(%s) == true --> %s != true: ", \
__func__, __FILE__, __LINE__, \ __func__, __FILE__, __LINE__, \
#a, a_ ? "true" : "false", fmt); \ #a, a_ ? "true" : "false", fmt); \
} \ } \
@ -141,7 +141,7 @@
if (!(a_ == false)) { \ if (!(a_ == false)) { \
p_test_fail( \ p_test_fail( \
"%s:%s:%d: Failed assertion: " \ "%s:%s:%d: Failed assertion: " \
"(%s) == false --> %s != false: %s\n", \ "(%s) == false --> %s != false: ", \
__func__, __FILE__, __LINE__, \ __func__, __FILE__, __LINE__, \
#a, a_ ? "true" : "false", fmt); \ #a, a_ ? "true" : "false", fmt); \
} \ } \
@ -152,7 +152,7 @@
p_test_fail( \ p_test_fail( \
"%s:%s:%d: Failed assertion: " \ "%s:%s:%d: Failed assertion: " \
"(%s) same as (%s) --> " \ "(%s) same as (%s) --> " \
"\"%s\" differs from \"%s\": %s\n", \ "\"%s\" differs from \"%s\": ", \
__func__, __FILE__, __LINE__, #a, #b, a, b, fmt); \ __func__, __FILE__, __LINE__, #a, #b, a, b, fmt); \
} \ } \
} while (0) } while (0)
@ -161,7 +161,7 @@
p_test_fail( \ p_test_fail( \
"%s:%s:%d: Failed assertion: " \ "%s:%s:%d: Failed assertion: " \
"(%s) differs from (%s) --> " \ "(%s) differs from (%s) --> " \
"\"%s\" same as \"%s\": %s\n", \ "\"%s\" same as \"%s\": ", \
__func__, __FILE__, __LINE__, #a, #b, a, b, fmt); \ __func__, __FILE__, __LINE__, #a, #b, a, b, fmt); \
} \ } \
} while (0) } while (0)

3
test/include/test/thread.h
View File

@ -1,10 +1,7 @@
/* Abstraction layer for threading in tests */ /* Abstraction layer for threading in tests */
#ifdef _WIN32 #ifdef _WIN32
#include <windows.h>
typedef HANDLE je_thread_t; typedef HANDLE je_thread_t;
#else #else
#include <pthread.h>
typedef pthread_t je_thread_t; typedef pthread_t je_thread_t;
#endif #endif

5
test/src/SFMT.c
View File

@ -65,9 +65,6 @@
128-bit SIMD data type for Altivec, SSE2 or standard C 128-bit SIMD data type for Altivec, SSE2 or standard C
------------------------------------------------------*/ ------------------------------------------------------*/
#if defined(HAVE_ALTIVEC) #if defined(HAVE_ALTIVEC)
#if !defined(__APPLE__)
#include <altivec.h>
#endif
/** 128-bit data structure */ /** 128-bit data structure */
union W128_T { union W128_T {
vector unsigned int s; vector unsigned int s;
@ -77,8 +74,6 @@ union W128_T {
typedef union W128_T w128_t; typedef union W128_T w128_t;
#elif defined(HAVE_SSE2) #elif defined(HAVE_SSE2)
#include <emmintrin.h>
/** 128-bit data structure */ /** 128-bit data structure */
union W128_T { union W128_T {
__m128i si; __m128i si;

2
test/src/math.c Normal file
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@ -0,0 +1,2 @@
#define MATH_C_
#include "test/jemalloc_test.h"

388
test/unit/math.c Normal file
View File

@ -0,0 +1,388 @@
#include "test/jemalloc_test.h"
#define MAX_REL_ERR 1.0e-9
#define MAX_ABS_ERR 1.0e-9
static bool
double_eq_rel(double a, double b, double max_rel_err, double max_abs_err)
{
double rel_err;
if (fabs(a - b) < max_abs_err)
return (true);
rel_err = (fabs(b) > fabs(a)) ? fabs((a-b)/b) : fabs((a-b)/a);
return (rel_err < max_rel_err);
}
static uint64_t
factorial(unsigned x)
{
uint64_t ret = 1;
unsigned i;
for (i = 2; i <= x; i++)
ret *= (uint64_t)i;
return (ret);
}
TEST_BEGIN(test_ln_gamma_factorial)
{
unsigned x;
/* exp(ln_gamma(x)) == (x-1)! for integer x. */
for (x = 1; x <= 21; x++) {
assert_true(double_eq_rel(exp(ln_gamma(x)),
(double)factorial(x-1), MAX_REL_ERR, MAX_ABS_ERR),
"Incorrect factorial result for x=%u", x);
}
}
TEST_END
/* Expected ln_gamma([0.0..100.0] increment=0.25). */
static const double ln_gamma_misc_expected[] = {
INFINITY,
1.28802252469807743, 0.57236494292470008, 0.20328095143129538,
0.00000000000000000, -0.09827183642181320, -0.12078223763524518,
-0.08440112102048555, 0.00000000000000000, 0.12487171489239651,
0.28468287047291918, 0.47521466691493719, 0.69314718055994529,
0.93580193110872523, 1.20097360234707429, 1.48681557859341718,
1.79175946922805496, 2.11445692745037128, 2.45373657084244234,
2.80857141857573644, 3.17805383034794575, 3.56137591038669710,
3.95781396761871651, 4.36671603662228680, 4.78749174278204581,
5.21960398699022932, 5.66256205985714178, 6.11591589143154568,
6.57925121201010121, 7.05218545073853953, 7.53436423675873268,
8.02545839631598312, 8.52516136106541467, 9.03318691960512332,
9.54926725730099690, 10.07315123968123949, 10.60460290274525086,
11.14340011995171231, 11.68933342079726856, 12.24220494005076176,
12.80182748008146909, 13.36802367147604720, 13.94062521940376342,
14.51947222506051816, 15.10441257307551943, 15.69530137706046524,
16.29200047656724237, 16.89437797963419285, 17.50230784587389010,
18.11566950571089407, 18.73434751193644843, 19.35823122022435427,
19.98721449566188468, 20.62119544270163018, 21.26007615624470048,
21.90376249182879320, 22.55216385312342098, 23.20519299513386002,
23.86276584168908954, 24.52480131594137802, 25.19122118273868338,
25.86194990184851861, 26.53691449111561340, 27.21604439872720604,
27.89927138384089389, 28.58652940490193828, 29.27775451504081516,
29.97288476399884871, 30.67186010608067548, 31.37462231367769050,
32.08111489594735843, 32.79128302226991565, 33.50507345013689076,
34.22243445715505317, 34.94331577687681545, 35.66766853819134298,
36.39544520803305261, 37.12659953718355865, 37.86108650896109395,
38.59886229060776230, 39.33988418719949465, 40.08411059791735198,
40.83150097453079752, 41.58201578195490100, 42.33561646075348506,
43.09226539146988699, 43.85192586067515208, 44.61456202863158893,
45.38013889847690052, 46.14862228684032885, 46.91997879580877395,
47.69417578616628361, 48.47118135183522014, 49.25096429545256882,
50.03349410501914463, 50.81874093156324790, 51.60667556776436982,
52.39726942748592364, 53.19049452616926743, 53.98632346204390586,
54.78472939811231157, 55.58568604486942633, 56.38916764371992940,
57.19514895105859864, 58.00360522298051080, 58.81451220059079787,
59.62784609588432261, 60.44358357816834371, 61.26170176100199427,
62.08217818962842927, 62.90499082887649962, 63.73011805151035958,
64.55753862700632340, 65.38723171073768015, 66.21917683354901385,
67.05335389170279825, 67.88974313718154008, 68.72832516833013017,
69.56908092082363737, 70.41199165894616385, 71.25703896716800045,
72.10420474200799390, 72.95347118416940191, 73.80482079093779646,
74.65823634883015814, 75.51370092648485866, 76.37119786778275454,
77.23071078519033961, 78.09222355331530707, 78.95572030266725960,
79.82118541361435859, 80.68860351052903468, 81.55795945611502873,
82.42923834590904164, 83.30242550295004378, 84.17750647261028973,
85.05446701758152983, 85.93329311301090456, 86.81397094178107920,
87.69648688992882057, 88.58082754219766741, 89.46697967771913795,
90.35493026581838194, 91.24466646193963015, 92.13617560368709292,
93.02944520697742803, 93.92446296229978486, 94.82121673107967297,
95.71969454214321615, 96.61988458827809723, 97.52177522288820910,
98.42535495673848800, 99.33061245478741341, 100.23753653310367895,
101.14611615586458981, 102.05634043243354370, 102.96819861451382394,
103.88168009337621811, 104.79677439715833032, 105.71347118823287303,
106.63176026064346047, 107.55163153760463501, 108.47307506906540198,
109.39608102933323153, 110.32063971475740516, 111.24674154146920557,
112.17437704317786995, 113.10353686902013237, 114.03421178146170689,
114.96639265424990128, 115.90007047041454769, 116.83523632031698014,
117.77188139974506953, 118.70999700805310795, 119.64957454634490830,
120.59060551569974962, 121.53308151543865279, 122.47699424143097247,
123.42233548443955726, 124.36909712850338394, 125.31727114935689826,
126.26684961288492559, 127.21782467361175861, 128.17018857322420899,
129.12393363912724453, 130.07905228303084755, 131.03553699956862033,
131.99338036494577864, 132.95257503561629164, 133.91311374698926784,
134.87498931216194364, 135.83819462068046846, 136.80272263732638294,
137.76856640092901785, 138.73571902320256299, 139.70417368760718091,
140.67392364823425055, 141.64496222871400732, 142.61728282114600574,
143.59087888505104047, 144.56574394634486680, 145.54187159633210058,
146.51925549072063859, 147.49788934865566148, 148.47776695177302031,
149.45888214327129617, 150.44122882700193600, 151.42480096657754984,
152.40959258449737490, 153.39559776128982094, 154.38281063467164245,
155.37122539872302696, 156.36083630307879844, 157.35163765213474107,
158.34362380426921391, 159.33678917107920370, 160.33112821663092973,
161.32663545672428995, 162.32330545817117695, 163.32113283808695314,
164.32011226319519892, 165.32023844914485267, 166.32150615984036790,
167.32391020678358018, 168.32744544842768164, 169.33210678954270634,
170.33788918059275375, 171.34478761712384198, 172.35279713916281707,
173.36191283062726143, 174.37212981874515094, 175.38344327348534080,
176.39584840699734514, 177.40934047306160437, 178.42391476654847793,
179.43956662288721304, 180.45629141754378111, 181.47408456550741107,
182.49294152078630304, 183.51285777591152737, 184.53382886144947861,
185.55585034552262869, 186.57891783333786861, 187.60302696672312095,
188.62817342367162610, 189.65435291789341932, 190.68156119837468054,
191.70979404894376330, 192.73904728784492590, 193.76931676731820176,
194.80059837318714244, 195.83288802445184729, 196.86618167288995096,
197.90047530266301123, 198.93576492992946214, 199.97204660246373464,
201.00931639928148797, 202.04757043027063901, 203.08680483582807597,
204.12701578650228385, 205.16819948264117102, 206.21035215404597807,
207.25347005962987623, 208.29754948708190909, 209.34258675253678916,
210.38857820024875878, 211.43552020227099320, 212.48340915813977858,
213.53224149456323744, 214.58201366511514152, 215.63272214993284592,
216.68436345542014010, 217.73693411395422004, 218.79043068359703739,
219.84484974781133815, 220.90018791517996988, 221.95644181913033322,
223.01360811766215875, 224.07168349307951871, 225.13066465172661879,
226.19054832372759734, 227.25133126272962159, 228.31301024565024704,
229.37558207242807384, 230.43904356577689896, 231.50339157094342113,
232.56862295546847008, 233.63473460895144740, 234.70172344281823484,
235.76958639009222907, 236.83832040516844586, 237.90792246359117712,
238.97838956183431947, 240.04971871708477238, 241.12190696702904802,
242.19495136964280846, 243.26884900298270509, 244.34359696498191283,
245.41919237324782443, 246.49563236486270057, 247.57291409618682110,
248.65103474266476269, 249.72999149863338175, 250.80978157713354904,
251.89040220972316320, 252.97185064629374551, 254.05412415488834199,
255.13722002152300661, 256.22113555000953511, 257.30586806178126835,
258.39141489572085675, 259.47777340799029844, 260.56494097186322279,
261.65291497755913497, 262.74169283208021852, 263.83127195904967266,
264.92164979855277807, 266.01282380697938379, 267.10479145686849733,
268.19755023675537586, 269.29109765101975427, 270.38543121973674488,
271.48054847852881721, 272.57644697842033565, 273.67312428569374561,
274.77057798174683967, 275.86880566295326389, 276.96780494052313770,
278.06757344036617496, 279.16810880295668085, 280.26940868320008349,
281.37147075030043197, 282.47429268763045229, 283.57787219260217171,
284.68220697654078322, 285.78729476455760050, 286.89313329542699194,
287.99972032146268930, 289.10705360839756395, 290.21513093526289140,
291.32395009427028754, 292.43350889069523646, 293.54380514276073200,
294.65483668152336350, 295.76660135076059532, 296.87909700685889902,
297.99232151870342022, 299.10627276756946458, 300.22094864701409733,
301.33634706277030091, 302.45246593264130297, 303.56930318639643929,
304.68685676566872189, 305.80512462385280514, 306.92410472600477078,
308.04379504874236773, 309.16419358014690033, 310.28529831966631036,
311.40710727801865687, 312.52961847709792664, 313.65282994987899201,
314.77673974032603610, 315.90134590329950015, 317.02664650446632777,
318.15263962020929966, 319.27932333753892635, 320.40669575400545455,
321.53475497761127144, 322.66349912672620803, 323.79292633000159185,
324.92303472628691452, 326.05382246454587403, 327.18528770377525916,
328.31742861292224234, 329.45024337080525356, 330.58373016603343331,
331.71788719692847280, 332.85271267144611329, 333.98820480709991898,
335.12436183088397001, 336.26118197919845443, 337.39866349777429377,
338.53680464159958774, 339.67560367484657036, 340.81505887079896411,
341.95516851178109619, 343.09593088908627578, 344.23734430290727460,
345.37940706226686416, 346.52211748494903532, 347.66547389743118401,
348.80947463481720661, 349.95411804077025408, 351.09940246744753267,
352.24532627543504759, 353.39188783368263103, 354.53908551944078908,
355.68691771819692349, 356.83538282361303118, 357.98447923746385868,
359.13420536957539753
};
TEST_BEGIN(test_ln_gamma_misc)
{
unsigned i;
for (i = 1; i < sizeof(ln_gamma_misc_expected)/sizeof(double); i++) {
double x = (double)i * 0.25;
assert_true(double_eq_rel(ln_gamma(x),
ln_gamma_misc_expected[i], MAX_REL_ERR, MAX_ABS_ERR),
"Incorrect ln_gamma result for i=%u", i);
}
}
TEST_END
/* Expected pt_norm([0.01..0.99] increment=0.01). */
static const double pt_norm_expected[] = {
-INFINITY,
-2.32634787404084076, -2.05374891063182252, -1.88079360815125085,
-1.75068607125216946, -1.64485362695147264, -1.55477359459685305,
-1.47579102817917063, -1.40507156030963221, -1.34075503369021654,
-1.28155156554460081, -1.22652812003661049, -1.17498679206608991,
-1.12639112903880045, -1.08031934081495606, -1.03643338949378938,
-0.99445788320975281, -0.95416525314619416, -0.91536508784281390,
-0.87789629505122846, -0.84162123357291418, -0.80642124701824025,
-0.77219321418868492, -0.73884684918521371, -0.70630256284008752,
-0.67448975019608171, -0.64334540539291685, -0.61281299101662701,
-0.58284150727121620, -0.55338471955567281, -0.52440051270804067,
-0.49585034734745320, -0.46769879911450812, -0.43991316567323380,
-0.41246312944140462, -0.38532046640756751, -0.35845879325119373,
-0.33185334643681652, -0.30548078809939738, -0.27931903444745404,
-0.25334710313579978, -0.22754497664114931, -0.20189347914185077,
-0.17637416478086135, -0.15096921549677725, -0.12566134685507399,
-0.10043372051146975, -0.07526986209982976, -0.05015358346473352,
-0.02506890825871106, 0.00000000000000000, 0.02506890825871106,
0.05015358346473366, 0.07526986209982990, 0.10043372051146990,
0.12566134685507413, 0.15096921549677739, 0.17637416478086146,
0.20189347914185105, 0.22754497664114931, 0.25334710313579978,
0.27931903444745404, 0.30548078809939738, 0.33185334643681652,
0.35845879325119373, 0.38532046640756762, 0.41246312944140484,
0.43991316567323391, 0.46769879911450835, 0.49585034734745348,
0.52440051270804111, 0.55338471955567303, 0.58284150727121620,
0.61281299101662701, 0.64334540539291685, 0.67448975019608171,
0.70630256284008752, 0.73884684918521371, 0.77219321418868492,
0.80642124701824036, 0.84162123357291441, 0.87789629505122879,
0.91536508784281423, 0.95416525314619460, 0.99445788320975348,
1.03643338949378938, 1.08031934081495606, 1.12639112903880045,
1.17498679206608991, 1.22652812003661049, 1.28155156554460081,
1.34075503369021654, 1.40507156030963265, 1.47579102817917085,
1.55477359459685394, 1.64485362695147308, 1.75068607125217102,
1.88079360815125041, 2.05374891063182208, 2.32634787404084076
};
TEST_BEGIN(test_pt_norm)
{
unsigned i;
for (i = 1; i < sizeof(pt_norm_expected)/sizeof(double); i++) {
double p = (double)i * 0.01;
assert_true(double_eq_rel(pt_norm(p), pt_norm_expected[i],
MAX_REL_ERR, MAX_ABS_ERR),
"Incorrect pt_norm result for i=%u", i);
}
}
TEST_END
/*
* Expected pt_chi2(p=[0.01..0.99] increment=0.07,
* df={0.1, 1.1, 10.1, 100.1, 1000.1}).
*/
static const double pt_chi2_df[] = {0.1, 1.1, 10.1, 100.1, 1000.1};
static const double pt_chi2_expected[] = {
1.168926411457320e-40, 1.347680397072034e-22, 3.886980416666260e-17,
8.245951724356564e-14, 2.068936347497604e-11, 1.562561743309233e-09,
5.459543043426564e-08, 1.114775688149252e-06, 1.532101202364371e-05,
1.553884683726585e-04, 1.239396954915939e-03, 8.153872320255721e-03,
4.631183739647523e-02, 2.473187311701327e-01, 2.175254800183617e+00,
0.0003729887888876379, 0.0164409238228929513, 0.0521523015190650113,
0.1064701372271216612, 0.1800913735793082115, 0.2748704281195626931,
0.3939246282787986497, 0.5420727552260817816, 0.7267265822221973259,
0.9596554296000253670, 1.2607440376386165326, 1.6671185084541604304,
2.2604828984738705167, 3.2868613342148607082, 6.9298574921692139839,
2.606673548632508, 4.602913725294877, 5.646152813924212,
6.488971315540869, 7.249823275816285, 7.977314231410841,
8.700354939944047, 9.441728024225892, 10.224338321374127,
11.076435368801061, 12.039320937038386, 13.183878752697167,
14.657791935084575, 16.885728216339373, 23.361991680031817,
70.14844087392152, 80.92379498849355, 85.53325420085891,
88.94433120715347, 91.83732712857017, 94.46719943606301,
96.96896479994635, 99.43412843510363, 101.94074719829733,
104.57228644307247, 107.43900093448734, 110.71844673417287,
114.76616819871325, 120.57422505959563, 135.92318818757556,
899.0072447849649, 937.9271278858220, 953.8117189560207,
965.3079371501154, 974.8974061207954, 983.4936235182347,
991.5691170518946, 999.4334123954690, 1007.3391826856553,
1015.5445154999951, 1024.3777075619569, 1034.3538789836223,
1046.4872561869577, 1063.5717461999654, 1107.0741966053859
};
TEST_BEGIN(test_pt_chi2)
{
unsigned i, j;
unsigned e = 0;
for (i = 0; i < sizeof(pt_chi2_df)/sizeof(double); i++) {
double df = pt_chi2_df[i];
double ln_gamma_df = ln_gamma(df * 0.5);
for (j = 1; j < 100; j += 7) {
double p = (double)j * 0.01;
assert_true(double_eq_rel(pt_chi2(p, df, ln_gamma_df),
pt_chi2_expected[e], MAX_REL_ERR, MAX_ABS_ERR),
"Incorrect pt_chi2 result for i=%u, j=%u", i, j);
e++;
}
}
}
TEST_END
/*
* Expected pt_gamma(p=[0.1..0.99] increment=0.07,
* shape=[0.5..3.0] increment=0.5).
*/
static const double pt_gamma_shape[] = {0.5, 1.0, 1.5, 2.0, 2.5, 3.0};
static const double pt_gamma_expected[] = {
7.854392895485103e-05, 5.043466107888016e-03, 1.788288957794883e-02,
3.900956150232906e-02, 6.913847560638034e-02, 1.093710833465766e-01,
1.613412523825817e-01, 2.274682115597864e-01, 3.114117323127083e-01,
4.189466220207417e-01, 5.598106789059246e-01, 7.521856146202706e-01,
1.036125427911119e+00, 1.532450860038180e+00, 3.317448300510606e+00,
0.01005033585350144, 0.08338160893905107, 0.16251892949777497,
0.24846135929849966, 0.34249030894677596, 0.44628710262841947,
0.56211891815354142, 0.69314718055994529, 0.84397007029452920,
1.02165124753198167, 1.23787435600161766, 1.51412773262977574,
1.89711998488588196, 2.52572864430825783, 4.60517018598809091,
0.05741590094955853, 0.24747378084860744, 0.39888572212236084,
0.54394139997444901, 0.69048812513915159, 0.84311389861296104,
1.00580622221479898, 1.18298694218766931, 1.38038096305861213,
1.60627736383027453, 1.87396970522337947, 2.20749220408081070,
2.65852391865854942, 3.37934630984842244, 5.67243336507218476,
0.1485547402532659, 0.4657458011640391, 0.6832386130709406,
0.8794297834672100, 1.0700752852474524, 1.2629614217350744,
1.4638400448580779, 1.6783469900166610, 1.9132338090606940,
2.1778589228618777, 2.4868823970010991, 2.8664695666264195,
3.3724415436062114, 4.1682658512758071, 6.6383520679938108,
0.2771490383641385, 0.7195001279643727, 0.9969081732265243,
1.2383497880608061, 1.4675206597269927, 1.6953064251816552,
1.9291243435606809, 2.1757300955477641, 2.4428032131216391,
2.7406534569230616, 3.0851445039665513, 3.5043101122033367,
4.0575997065264637, 4.9182956424675286, 7.5431362346944937,
0.4360451650782932, 0.9983600902486267, 1.3306365880734528,
1.6129750834753802, 1.8767241606994294, 2.1357032436097660,
2.3988853336865565, 2.6740603137235603, 2.9697561737517959,
3.2971457713883265, 3.6731795898504660, 4.1275751617770631,
4.7230515633946677, 5.6417477865306020, 8.4059469148854635
};
TEST_BEGIN(test_pt_gamma_shape)
{
unsigned i, j;
unsigned e = 0;
for (i = 0; i < sizeof(pt_gamma_shape)/sizeof(double); i++) {
double shape = pt_gamma_shape[i];
double ln_gamma_shape = ln_gamma(shape);
for (j = 1; j < 100; j += 7) {
double p = (double)j * 0.01;
assert_true(double_eq_rel(pt_gamma(p, shape, 1.0,
ln_gamma_shape), pt_gamma_expected[e], MAX_REL_ERR,
MAX_ABS_ERR),
"Incorrect pt_gamma result for i=%u, j=%u", i, j);
e++;
}
}
}
TEST_END
TEST_BEGIN(test_pt_gamma_scale)
{
double shape = 1.0;
double ln_gamma_shape = ln_gamma(shape);
assert_true(double_eq_rel(
pt_gamma(0.5, shape, 1.0, ln_gamma_shape) * 10.0,
pt_gamma(0.5, shape, 10.0, ln_gamma_shape), MAX_REL_ERR,
MAX_ABS_ERR),
"Scale should be trivially equivalent to external multiplication");
}
TEST_END
int
main(void)
{
return (test(
test_ln_gamma_factorial,
test_ln_gamma_misc,
test_pt_norm,
test_pt_chi2,
test_pt_gamma_shape,
test_pt_gamma_scale));
}