/usr/lib/python3/dist-packages/Cython/Utility/Overflow.c is in cython3 0.25.2-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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These functions provide integer arithmetic with integer checking. They do not
actually raise an exception when an overflow is detected, but rather set a bit
in the overflow parameter. (This parameter may be re-used accross several
arithmetic operations, so should be or-ed rather than assigned to.)
The implementation is divided into two parts, the signed and unsigned basecases,
which is where the magic happens, and a generic template matching a specific
type to an implementation based on its (c-compile-time) size and signedness.
When possible, branching is avoided, and preference is given to speed over
accuracy (a low rate of falsely "detected" overflows are acceptable,
undetected overflows are not).
TODO: Hook up checking.
TODO: Conditionally support 128-bit with intmax_t?
*/
/////////////// Common.proto ///////////////
static int __Pyx_check_twos_complement(void) {
if (-1 != ~0) {
PyErr_SetString(PyExc_RuntimeError, "Two's complement required for overflow checks.");
return 1;
} else if (sizeof(short) == sizeof(int)) {
PyErr_SetString(PyExc_RuntimeError, "sizeof(short) < sizeof(int) required for overflow checks.");
return 1;
} else {
return 0;
}
}
#define __PYX_IS_UNSIGNED(type) (((type) -1) > 0)
#define __PYX_SIGN_BIT(type) (((unsigned type) 1) << (sizeof(type) * 8 - 1))
#define __PYX_HALF_MAX(type) (((type) 1) << (sizeof(type) * 8 - 2))
#define __PYX_MIN(type) (__PYX_IS_UNSIGNED(type) ? (type) 0 : 0 - __PYX_HALF_MAX(type) - __PYX_HALF_MAX(type))
#define __PYX_MAX(type) (~__PYX_MIN(type))
#define __Pyx_add_no_overflow(a, b, overflow) ((a) + (b))
#define __Pyx_add_const_no_overflow(a, b, overflow) ((a) + (b))
#define __Pyx_sub_no_overflow(a, b, overflow) ((a) - (b))
#define __Pyx_sub_const_no_overflow(a, b, overflow) ((a) - (b))
#define __Pyx_mul_no_overflow(a, b, overflow) ((a) * (b))
#define __Pyx_mul_const_no_overflow(a, b, overflow) ((a) * (b))
#define __Pyx_div_no_overflow(a, b, overflow) ((a) / (b))
#define __Pyx_div_const_no_overflow(a, b, overflow) ((a) / (b))
/////////////// Common.init ///////////////
__Pyx_check_twos_complement();
/////////////// BaseCaseUnsigned.proto ///////////////
static CYTHON_INLINE {{UINT}} __Pyx_add_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow);
static CYTHON_INLINE {{UINT}} __Pyx_sub_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow);
static CYTHON_INLINE {{UINT}} __Pyx_mul_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow);
static CYTHON_INLINE {{UINT}} __Pyx_div_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow);
// Use these when b is known at compile time.
#define __Pyx_add_const_{{NAME}}_checking_overflow __Pyx_add_{{NAME}}_checking_overflow
#define __Pyx_sub_const_{{NAME}}_checking_overflow __Pyx_sub_{{NAME}}_checking_overflow
static CYTHON_INLINE {{UINT}} __Pyx_mul_const_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} constant, int *overflow);
#define __Pyx_div_const_{{NAME}}_checking_overflow __Pyx_div_{{NAME}}_checking_overflow
/////////////// BaseCaseUnsigned ///////////////
static CYTHON_INLINE {{UINT}} __Pyx_add_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow) {
{{UINT}} r = a + b;
*overflow |= r < a;
return r;
}
static CYTHON_INLINE {{UINT}} __Pyx_sub_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow) {
{{UINT}} r = a - b;
*overflow |= r > a;
return r;
}
static CYTHON_INLINE {{UINT}} __Pyx_mul_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow) {
if (sizeof({{UINT}}) < sizeof(unsigned long)) {
unsigned long big_r = ((unsigned long) a) * ((unsigned long) b);
{{UINT}} r = ({{UINT}}) big_r;
*overflow |= big_r != r;
return r;
#ifdef HAVE_LONG_LONG
} else if (sizeof({{UINT}}) < sizeof(unsigned PY_LONG_LONG)) {
unsigned PY_LONG_LONG big_r = ((unsigned PY_LONG_LONG) a) * ((unsigned PY_LONG_LONG) b);
{{UINT}} r = ({{UINT}}) big_r;
*overflow |= big_r != r;
return r;
#endif
} else {
{{UINT}} prod = a * b;
double dprod = ((double) a) * ((double) b);
// Overflow results in an error of at least 2^sizeof(UINT),
// whereas rounding represents an error on the order of 2^(sizeof(UINT)-53).
*overflow |= fabs(dprod - prod) > (__PYX_MAX({{UINT}}) / 2);
return prod;
}
}
static CYTHON_INLINE {{UINT}} __Pyx_mul_const_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow) {
if (b > 1) {
*overflow |= a > __PYX_MAX({{UINT}}) / b;
}
return a * b;
}
static CYTHON_INLINE {{UINT}} __Pyx_div_{{NAME}}_checking_overflow({{UINT}} a, {{UINT}} b, int *overflow) {
if (b == 0) {
*overflow |= 1;
return 0;
}
return a / b;
}
/////////////// BaseCaseSigned.proto ///////////////
static CYTHON_INLINE {{INT}} __Pyx_add_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow);
static CYTHON_INLINE {{INT}} __Pyx_sub_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow);
static CYTHON_INLINE {{INT}} __Pyx_mul_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow);
static CYTHON_INLINE {{INT}} __Pyx_div_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow);
// Use when b is known at compile time.
static CYTHON_INLINE {{INT}} __Pyx_add_const_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow);
static CYTHON_INLINE {{INT}} __Pyx_sub_const_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow);
static CYTHON_INLINE {{INT}} __Pyx_mul_const_{{NAME}}_checking_overflow({{INT}} a, {{INT}} constant, int *overflow);
#define __Pyx_div_const_{{NAME}}_checking_overflow __Pyx_div_{{NAME}}_checking_overflow
/////////////// BaseCaseSigned ///////////////
static CYTHON_INLINE {{INT}} __Pyx_add_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
if (sizeof({{INT}}) < sizeof(long)) {
long big_r = ((long) a) + ((long) b);
{{INT}} r = ({{INT}}) big_r;
*overflow |= big_r != r;
return r;
#ifdef HAVE_LONG_LONG
} else if (sizeof({{INT}}) < sizeof(PY_LONG_LONG)) {
PY_LONG_LONG big_r = ((PY_LONG_LONG) a) + ((PY_LONG_LONG) b);
{{INT}} r = ({{INT}}) big_r;
*overflow |= big_r != r;
return r;
#endif
} else {
// Signed overflow undefined, but unsigned overflow is well defined.
{{INT}} r = ({{INT}}) ((unsigned {{INT}}) a + (unsigned {{INT}}) b);
// Overflow happened if the operands have the same sign, but the result
// has opposite sign.
// sign(a) == sign(b) != sign(r)
{{INT}} sign_a = __PYX_SIGN_BIT({{INT}}) & a;
{{INT}} sign_b = __PYX_SIGN_BIT({{INT}}) & b;
{{INT}} sign_r = __PYX_SIGN_BIT({{INT}}) & r;
*overflow |= (sign_a == sign_b) & (sign_a != sign_r);
return r;
}
}
static CYTHON_INLINE {{INT}} __Pyx_add_const_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
if (b > 0) {
*overflow |= a > __PYX_MAX({{INT}}) - b;
} else if (b < 0) {
*overflow |= a < __PYX_MIN({{INT}}) - b;
}
return a + b;
}
static CYTHON_INLINE {{INT}} __Pyx_sub_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
*overflow |= b == __PYX_MIN({{INT}});
return __Pyx_add_{{NAME}}_checking_overflow(a, -b, overflow);
}
static CYTHON_INLINE {{INT}} __Pyx_sub_const_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
*overflow |= b == __PYX_MIN({{INT}});
return __Pyx_add_const_{{NAME}}_checking_overflow(a, -b, overflow);
}
static CYTHON_INLINE {{INT}} __Pyx_mul_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
if (sizeof({{INT}}) < sizeof(long)) {
long big_r = ((long) a) * ((long) b);
{{INT}} r = ({{INT}}) big_r;
*overflow |= big_r != r;
return ({{INT}}) r;
#ifdef HAVE_LONG_LONG
} else if (sizeof({{INT}}) < sizeof(PY_LONG_LONG)) {
PY_LONG_LONG big_r = ((PY_LONG_LONG) a) * ((PY_LONG_LONG) b);
{{INT}} r = ({{INT}}) big_r;
*overflow |= big_r != r;
return ({{INT}}) r;
#endif
} else {
{{INT}} prod = a * b;
double dprod = ((double) a) * ((double) b);
// Overflow results in an error of at least 2^sizeof(INT),
// whereas rounding represents an error on the order of 2^(sizeof(INT)-53).
*overflow |= fabs(dprod - prod) > (__PYX_MAX({{INT}}) / 2);
return prod;
}
}
static CYTHON_INLINE {{INT}} __Pyx_mul_const_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
if (b > 1) {
*overflow |= a > __PYX_MAX({{INT}}) / b;
*overflow |= a < __PYX_MIN({{INT}}) / b;
} else if (b == -1) {
*overflow |= a == __PYX_MIN({{INT}});
} else if (b < -1) {
*overflow |= a > __PYX_MIN({{INT}}) / b;
*overflow |= a < __PYX_MAX({{INT}}) / b;
}
return a * b;
}
static CYTHON_INLINE {{INT}} __Pyx_div_{{NAME}}_checking_overflow({{INT}} a, {{INT}} b, int *overflow) {
if (b == 0) {
*overflow |= 1;
return 0;
}
*overflow |= (a == __PYX_MIN({{INT}})) & (b == -1);
return a / b;
}
/////////////// SizeCheck.init ///////////////
__Pyx_check_sane_{{NAME}}();
/////////////// SizeCheck.proto ///////////////
static int __Pyx_check_sane_{{NAME}}(void) {
if (sizeof({{TYPE}}) <= sizeof(int) ||
#ifdef HAVE_LONG_LONG
sizeof({{TYPE}}) == sizeof(PY_LONG_LONG) ||
#endif
sizeof({{TYPE}}) == sizeof(long)) {
return 0;
} else {
PyErr_Format(PyExc_RuntimeError, \
"Bad size for int type %.{{max(60, len(TYPE))}}s: %d", "{{TYPE}}", (int) sizeof({{TYPE}}));
return 1;
}
}
/////////////// Binop.proto ///////////////
static CYTHON_INLINE {{TYPE}} __Pyx_{{BINOP}}_{{NAME}}_checking_overflow({{TYPE}} a, {{TYPE}} b, int *overflow);
/////////////// Binop ///////////////
static CYTHON_INLINE {{TYPE}} __Pyx_{{BINOP}}_{{NAME}}_checking_overflow({{TYPE}} a, {{TYPE}} b, int *overflow) {
if (sizeof({{TYPE}}) < sizeof(int)) {
return __Pyx_{{BINOP}}_no_overflow(a, b, overflow);
} else if (__PYX_IS_UNSIGNED({{TYPE}})) {
if (sizeof({{TYPE}}) == sizeof(unsigned int)) {
return __Pyx_{{BINOP}}_unsigned_int_checking_overflow(a, b, overflow);
} else if (sizeof({{TYPE}}) == sizeof(unsigned long)) {
return __Pyx_{{BINOP}}_unsigned_long_checking_overflow(a, b, overflow);
#ifdef HAVE_LONG_LONG
} else if (sizeof({{TYPE}}) == sizeof(unsigned PY_LONG_LONG)) {
return __Pyx_{{BINOP}}_unsigned_long_long_checking_overflow(a, b, overflow);
#endif
} else {
abort(); return 0; // handled elsewhere
}
} else {
if (sizeof({{TYPE}}) == sizeof(int)) {
return __Pyx_{{BINOP}}_int_checking_overflow(a, b, overflow);
} else if (sizeof({{TYPE}}) == sizeof(long)) {
return __Pyx_{{BINOP}}_long_checking_overflow(a, b, overflow);
#ifdef HAVE_LONG_LONG
} else if (sizeof({{TYPE}}) == sizeof(PY_LONG_LONG)) {
return __Pyx_{{BINOP}}_long_long_checking_overflow(a, b, overflow);
#endif
} else {
abort(); return 0; // handled elsewhere
}
}
}
/////////////// LeftShift.proto ///////////////
static CYTHON_INLINE {{TYPE}} __Pyx_lshift_{{NAME}}_checking_overflow({{TYPE}} a, {{TYPE}} b, int *overflow) {
*overflow |=
#if {{SIGNED}}
(b < 0) |
#endif
(b > ({{TYPE}}) (8 * sizeof({{TYPE}}))) | (a > (__PYX_MAX({{TYPE}}) >> b));
return a << b;
}
#define __Pyx_lshift_const_{{NAME}}_checking_overflow __Pyx_lshift_{{NAME}}_checking_overflow
/////////////// UnaryNegOverflows.proto ///////////////
//FIXME: shouldn't the macro name be prefixed by "__Pyx_" ? Too late now, I guess...
// from intobject.c
#define UNARY_NEG_WOULD_OVERFLOW(x) \
(((x) < 0) & ((unsigned long)(x) == 0-(unsigned long)(x)))
|