| /macosx-10.10/WTF-7600.1.24/wtf/dtoa/ |
| H A D | bignum-dtoa.cc | 54 // Computes v / 10^estimated_power exactly, as a ratio of two bignums, numerator
59 Bignum* numerator,
63 // Multiplies numerator/denominator so that its values lies in the range 1-10.
65 // v = numerator'/denominator' * 10^(decimal_point-1)
66 // where numerator' and denominator' are the values of numerator and
70 Bignum* numerator, Bignum* denominator,
74 static void GenerateShortestDigits(Bignum* numerator, Bignum* denominator,
80 Bignum* numerator, Bignum* denominator,
82 // Generates 'count' digits of numerator/denominato
116 Bignum numerator; local
171 GenerateShortestDigits(Bignum* numerator, Bignum* denominator, Bignum* delta_minus, Bignum* delta_plus, bool is_even, BufferReference<char> buffer, int* length) argument
269 GenerateCountedDigits(int count, int* decimal_point, Bignum* numerator, Bignum* denominator, BufferReference<char>(buffer), int* length) argument
311 BignumToFixed(int requested_digits, int* decimal_point, Bignum* numerator, Bignum* denominator, BufferReference<char>(buffer), int* length) argument
402 InitialScaledStartValuesPositiveExponent( double v, int estimated_power, bool need_boundary_deltas, Bignum* numerator, Bignum* denominator, Bignum* delta_minus, Bignum* delta_plus) argument
448 InitialScaledStartValuesNegativeExponentPositivePower( double v, int estimated_power, bool need_boundary_deltas, Bignum* numerator, Bignum* denominator, Bignum* delta_minus, Bignum* delta_plus) argument
498 InitialScaledStartValuesNegativeExponentNegativePower( double v, int estimated_power, bool need_boundary_deltas, Bignum* numerator, Bignum* denominator, Bignum* delta_minus, Bignum* delta_plus) argument
594 InitialScaledStartValues(double v, int estimated_power, bool need_boundary_deltas, Bignum* numerator, Bignum* denominator, Bignum* delta_minus, Bignum* delta_plus) argument
628 FixupMultiply10(int estimated_power, bool is_even, int* decimal_point, Bignum* numerator, Bignum* denominator, Bignum* delta_minus, Bignum* delta_plus) argument
[all...] |
| /macosx-10.10/file_cmds-242/csh/ |
| H A D | strpct.c | 57 strpct(numerator, denominator, digits)
58 u_long numerator, denominator;
72 if (numerator < (ULONG_MAX / factor)) {
73 numerator *= factor;
82 result = numerator / denominator;
|
| /macosx-10.10/ruby-106/ruby/ext/json/lib/json/add/ |
| H A D | rational.rb | 14 'n' => numerator,
|
| /macosx-10.10/ipsec-286.1.1/ipsec-tools/Common/ |
| H A D | ipsecMessageTracer.h | 83 static inline double get_percentage (double numerator, double denominator) argument
85 if (numerator >= denominator || denominator == 0) {
88 return((numerator/denominator)*100);
|
| /macosx-10.10/ICU-531.30/icuSources/i18n/ |
| H A D | gregoimp.h | 35 * @param numerator the numerator
39 static int32_t floorDivide(int32_t numerator, int32_t denominator);
46 * @param numerator the numerator
50 static inline double floorDivide(double numerator, double denominator);
57 * -1 with <code>remainder</code> => 3. NOTE: If numerator is
59 * @param numerator the numerator
62 * remainder. Unlike <code>numerator
254 floorDivide(double numerator, double denominator) argument
[all...] |
| H A D | gregoimp.cpp | 27 int32_t ClockMath::floorDivide(int32_t numerator, int32_t denominator) { argument
28 return (numerator >= 0) ?
29 numerator / denominator : ((numerator + 1) / denominator) - 1;
32 int32_t ClockMath::floorDivide(double numerator, int32_t denominator, argument
35 quotient = uprv_floor(numerator / denominator);
36 remainder = (int32_t) (numerator - (quotient * denominator));
|
| H A D | nfrs.cpp | 502 * same base value, the first one is used when the numerator of the
522 int64_t numerator; local
527 numerator = util64_fromDouble(number * (double)leastCommonMultiple + 0.5);
534 // "numerator" is the numerator of the fraction if the
535 // denominator is the LCD. The numerator if the rule's
536 // base value is the denominator is "numerator" times the
540 tempDifference = numerator * rules[i]->getBaseValue() % leastCommonMultiple;
544 // the numerator's distance from the CLOSEST multiple
565 // the numerator o
[all...] |
| /macosx-10.10/WebCore-7600.1.25/rendering/mathml/ |
| H A D | RenderMathMLFraction.cpp | 124 RenderObject* numerator = numeratorWrapper->firstChildSlow();
125 if (!numerator || !numerator->isRenderMathMLBlock())
127 return toRenderMathMLBlock(numerator)->unembellishedOperator();
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| /macosx-10.10/ruby-106/ruby/ext/bigdecimal/lib/bigdecimal/ |
| H A D | util.rb | 103 num = self.numerator
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| /macosx-10.10/ruby-106/ruby/lib/ |
| H A D | mathn.rb | 151 npd = numerator.prime_division
181 num = numerator ** other
185 den = numerator ** -other
259 rsqrt(a.numerator)/rsqrt(a.denominator)
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| /macosx-10.10/tcl-105/tcl_ext/tcllib/tcllib/modules/units/ |
| H A D | units.tcl | 178 # operator, which separates the numerator from the denominator.
273 # numerator and denominator is sorted, and common units have
284 # process each subunit in turn, starting in the numerator
287 # between numerator and denominator if we encounter a "/".
291 set numerator [list]
427 lappend numerator $matchsubunit
449 # Add primitive subunits to numerator/denominator
452 # between numerator and denominator. Subunits in
453 # the numerator of the unitString are processed
465 lappend numerator
[all...] |
| /macosx-10.10/misc_cmds-33/units/ |
| H A D | units.c | 53 char *numerator[MAXSUBUNITS]; member in struct:unittype
212 theunit->numerator[0] = theunit->denominator[0] = NULL;
246 for (ptr = theunit->numerator; *ptr; ptr++) {
247 if (ptr > theunit->numerator && **ptr &&
389 if (addsubunit(doingtop ^ flip ? theunit->numerator : theunit->denominator, item))
419 for (count = 0, ptr = theunit->numerator; *ptr; ptr++, count++);
420 qsort(theunit->numerator, count, sizeof(char *), compare);
433 num = theunit->numerator;
545 product = theunit->numerator;
573 Reduces numerator an
[all...] |
| /macosx-10.10/OpenLDAP-499.27/OpenLDAP/libraries/liblunicode/ucdata/ |
| H A D | ucdata.c | 1220 num->numerator = (int) *vp++;
1269 num.numerator = num.denominator = -111;
1440 printf("UCNUMBER: 0x30 = %d/%d\n", num.numerator, num.denominator);
1442 printf("UCNUMBER: 0x30 = %d\n", num.numerator);
1448 printf("UCNUMBER: 0xbc = %d/%d\n", num.numerator, num.denominator);
1450 printf("UCNUMBER: 0xbc = %d\n", num.numerator);
1457 printf("UCNUMBER: 0xff19 = %d/%d\n", num.numerator, num.denominator);
1459 printf("UCNUMBER: 0xff19 = %d\n", num.numerator);
1465 printf("UCNUMBER: 0x4e00 = %d/%d\n", num.numerator, num.denominator);
1467 printf("UCNUMBER: 0x4e00 = %d\n", num.numerator);
[all...] |
| H A D | ucgendat.c | 199 short numerator; member in struct:__anon3037
745 if (nums[n].numerator == num && nums[n].denominator == denom)
759 nums[n].numerator = num;
1830 if (nums[i].numerator < 0) {
1832 nums[i].numerator, nums[i].denominator);
1835 nums[i].numerator, nums[i].denominator);
|
| H A D | api.txt | 160 int numerator;
167 field with the numerator and denominator. If the code happens to be a
171 The original code would set numerator = denominator for regular digits.
|
| H A D | ucdata.h | 310 int numerator; member in struct:ucnumber
|
| /macosx-10.10/ruby-106/ruby/test/ruby/ |
| H A D | test_complexrational.rb | 213 def numerator() @num end method in class:SimpleRat
223 b = o.numerator * @den
239 b = o.numerator * @den
254 a = @num * o.numerator
271 b = @den * o.numerator
363 b = o.numerator * @den
386 [self.class.new(o.numerator, o.denominator), self]
|
| /macosx-10.10/ICU-531.30/icuSources/test/intltest/ |
| H A D | winnmtst.cpp | 98 int64_t numerator = randomInt64(); local
105 ran = (double)numerator / (double)denomenator;
|
| /macosx-10.10/WebCore-7600.1.25/platform/audio/ |
| H A D | Biquad.cpp | 579 std::complex<double> numerator = b0 + (b1 + b2 * z) * z;
581 std::complex<double> response = numerator / denominator;
|
| /macosx-10.10/tcl-105/tcl_ext/tcllib/tcllib/modules/exif/ |
| H A D | exif.tcl | 793 set numerator [readLong $data $offset]
795 return [expr {(1.0*$numerator)/$denominator}]
799 set numerator [readLong $data $offset]
801 return [expr {(1.0*$numerator)/$denominator}]
|
| /macosx-10.10/ICU-531.30/icuSources/common/ |
| H A D | uchar.c | 408 int32_t numerator=(ntv>>4)-12; local
410 return (double)numerator/denominator;
|
| /macosx-10.10/hfs-285/fsck_hfs/dfalib/ |
| H A D | SAllocate.c | 336 ; Function: Divide numerator by denominator, rounding up the result if there
342 UInt32 numerator,
347 quotient = numerator / denominator;
348 if (quotient * denominator != numerator)
341 DivideAndRoundUp( UInt32 numerator, UInt32 denominator) argument
|
| /macosx-10.10/tcl-105/tcl_ext/tcllib/tcllib/modules/math/ |
| H A D | bigfloat.tcl | 1334 # epsNum IN (the numerator of epsilon)
2016 # numerator holds 2n-1
2017 set numerator $three
2019 set temp [::math::bignum::div [::math::bignum::mul $temp $numerator] $integer]
2023 set numerator [::math::bignum::add $numerator $two]
2027 set temp [::math::bignum::mul [::math::bignum::mul $temp $delta] $numerator]
|
| H A D | bigfloat2.tcl | 1236 # epsNum IN (the numerator of epsilon)
1890 # numerator holds 2n-1
1891 set numerator 3
1892 set temp [expr {($result*$delta*$numerator)/($integer*$denom)}]
1896 incr numerator 2
1900 set temp [expr {($temp*$delta*$numerator)/($integer*$denom)}]
|
| /macosx-10.10/ruby-106/ruby/ext/bigdecimal/ |
| H A D | bigdecimal.c | 675 VALUE numerator = rb_funcall(digits, rb_intern("to_i"), 0); local
680 numerator = rb_funcall(numerator, '*', 1, INT2FIX(-1));
683 ret = rb_funcall(numerator, rb_intern("div"), 1,
688 ret = rb_funcall(numerator, '*', 1,
753 VALUE a, digits, numerator; local
763 numerator = rb_funcall(digits, rb_intern("to_i"), 0);
766 numerator = rb_funcall(numerator, '*', 1, INT2FIX(-1));
769 return rb_Rational(numerator,
[all...] |