/macosx-10.10.1/file_cmds-242/csh/ |
H A D | strpct.c | 57 strpct(numerator, denominator, digits) 58 u_long numerator, denominator; 76 denominator /= factor; 79 if (denominator == 0L) 80 denominator = 1L; 82 result = numerator / denominator;
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/macosx-10.10.1/WTF-7600.1.24/wtf/dtoa/ |
H A D | bignum-dtoa.cc | 55 // and denominator. 60 Bignum* denominator, 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 67 // denominator after the call to this function. 70 Bignum* numerator, Bignum* denominator, 74 static void GenerateShortestDigits(Bignum* numerator, Bignum* denominator, 80 Bignum* numerator, Bignum* denominator, 82 // Generates 'count' digits of numerator/denominator 117 Bignum denominator; 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-10.10.1/ruby-106/ruby/ext/json/lib/json/add/ |
H A D | rational.rb | 15 'd' => denominator,
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/macosx-10.10.1/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);
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/macosx-10.10.1/ruby-106/ruby/lib/ |
H A D | mathn.rb | 152 dpd = denominator.prime_division 160 if !elm[1].kind_of?(Integer) and elm[1].denominator != 1 168 if !elm[1].kind_of?(Integer) and elm[1].denominator != 1 182 den = denominator ** other 184 num = denominator ** -other 259 rsqrt(a.numerator)/rsqrt(a.denominator)
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/macosx-10.10.1/ICU-531.30/icuSources/i18n/ |
H A D | gregoimp.h | 36 * @param denominator a divisor which must be != 0 39 static int32_t floorDivide(int32_t numerator, int32_t denominator); 47 * @param denominator a divisor which must be != 0 50 static inline double floorDivide(double numerator, double denominator); 60 * @param denominator a divisor which must be != 0 62 * remainder. Unlike <code>numerator % denominator</code>, this 64 * |denominator|)</code>. 67 static int32_t floorDivide(double numerator, int32_t denominator, 254 inline double ClockMath::floorDivide(double numerator, double denominator) { argument 255 return uprv_floor(numerator / denominator); [all...] |
H A D | gregoimp.cpp | 27 int32_t ClockMath::floorDivide(int32_t numerator, int32_t denominator) { argument 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));
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H A D | nfsubs.cpp | 268 double denominator; member in class:NumeratorSubstitution 285 : NFSubstitution(_pos, _ruleSet, formatter, fixdesc(description), status), denominator(_denominator) 287 ldenominator = util64_fromDouble(denominator); 295 virtual double transformNumber(double number) const { return uprv_round(number * denominator); } 307 virtual double calcUpperBound(double /*oldUpperBound*/) const { return denominator; } 1262 while ((nf *= 10) < denominator) { 1354 // d is now our true denominator 1365 denominator == ((const NumeratorSubstitution*)&rhs)->denominator;
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/macosx-10.10.1/ruby-106/ruby/ext/bigdecimal/lib/bigdecimal/ |
H A D | util.rb | 92 # as it is used along with the #denominator and the +precision+ for 104 BigDecimal(num).div(self.denominator, precision)
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/macosx-10.10.1/tcl-105/tcl_ext/tcllib/tcllib/modules/units/ |
H A D | units.tcl | 156 # subunits are in the denominator. There can be at most 178 # operator, which separates the numerator from the denominator. 273 # numerator and denominator is sorted, and common units have 287 # between numerator and denominator if we encounter a "/". 292 set denominator [list] 429 lappend denominator $matchsubunit 449 # Add primitive subunits to numerator/denominator 452 # between numerator and denominator. Subunits in 454 # normally, but subunits in the denominator of 467 lappend denominator [all...] |
/macosx-10.10.1/misc_cmds-33/units/ |
H A D | units.c | 54 char *denominator[MAXSUBUNITS]; member in struct:unittype 212 theunit->numerator[0] = theunit->denominator[0] = NULL; 262 for (ptr = theunit->denominator; *ptr; ptr++) { 263 if (ptr > theunit->denominator && **ptr && 389 if (addsubunit(doingtop ^ flip ? theunit->numerator : theunit->denominator, item)) 421 for (count = 0, ptr = theunit->denominator; *ptr; ptr++, count++); 422 qsort(theunit->denominator, count, sizeof(char *), compare); 432 den = theunit->denominator; 543 product = theunit->denominator; 573 Reduces numerator and denominator o [all...] |
/macosx-10.10.1/OpenLDAP-499.27/OpenLDAP/libraries/liblunicode/ucdata/ |
H A D | ucdata.c | 1221 num->denominator = (int) *vp; 1269 num.numerator = num.denominator = -111; 1439 if (num.denominator != 1) 1440 printf("UCNUMBER: 0x30 = %d/%d\n", num.numerator, num.denominator); 1447 if (num.denominator != 1) 1448 printf("UCNUMBER: 0xbc = %d/%d\n", num.numerator, num.denominator); 1456 if (num.denominator != 1) 1457 printf("UCNUMBER: 0xff19 = %d/%d\n", num.numerator, num.denominator); 1464 if (num.denominator != 1) 1465 printf("UCNUMBER: 0x4e00 = %d/%d\n", num.numerator, num.denominator); [all...] |
H A D | ucgendat.c | 200 short denominator; member in struct:__anon3037 745 if (nums[n].numerator == num && nums[n].denominator == denom) 760 nums[n].denominator = denom; 1065 * Move the the denominator of the fraction. 1078 * Adjust the denominator in case of integers and add the number. 1832 nums[i].numerator, nums[i].denominator); 1835 nums[i].numerator, nums[i].denominator);
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H A D | api.txt | 161 int denominator; 167 field with the numerator and denominator. If the code happens to be a 168 single digit, the denominator field will be 1. 171 The original code would set numerator = denominator for regular digits.
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H A D | ucdata.h | 311 int denominator; member in struct:ucnumber
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H A D | README | 89 1. Changed the number lookup to set the denominator to 1 in cases of digits.
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H A D | format.txt | 265 and denominator of the numeric value of the character. If the character
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/macosx-10.10.1/ruby-106/ruby/test/ruby/ |
H A D | test_complexrational.rb | 214 def denominator() @den end method in class:SimpleRat 222 a = @num * o.denominator 224 self.class.new(a + b, @den * o.denominator) 238 a = @num * o.denominator 240 self.class.new(a - b, @den * o.denominator) 255 b = @den * o.denominator 270 a = @num * o.denominator 362 a = @num * o.denominator 386 [self.class.new(o.numerator, o.denominator), self]
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/macosx-10.10.1/tcl-105/tcl_ext/tcllib/tcllib/modules/exif/ |
H A D | exif.tcl | 794 set denominator [readLong $data [expr {$offset + 4}]] 795 return [expr {(1.0*$numerator)/$denominator}] 800 set denominator [readLong $data [expr {$offset + 4}]] 801 return [expr {(1.0*$numerator)/$denominator}]
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/macosx-10.10.1/ICU-531.30/icuSources/common/ |
H A D | uchar.c | 409 int32_t denominator=(ntv&0xf)+1; local 410 return (double)numerator/denominator;
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/macosx-10.10.1/hfs-285/fsck_hfs/dfalib/ |
H A D | SAllocate.c | 336 ; Function: Divide numerator by denominator, rounding up the result if there 343 UInt32 denominator) 347 quotient = numerator / denominator; 348 if (quotient * denominator != numerator) 341 DivideAndRoundUp( UInt32 numerator, UInt32 denominator) argument
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/macosx-10.10.1/JavaScriptCore-7600.1.17/ftl/ |
H A D | FTLLowerDFGToLLVM.cpp | 1224 LValue denominator = lowInt32(m_node->child2()); local 1226 LBasicBlock unsafeDenominator = FTL_NEW_BLOCK(m_out, ("ArithDiv unsafe denominator")); 1232 LValue adjustedDenominator = m_out.add(denominator, m_out.int32One); 1243 LValue cond = m_out.bitOr(m_out.isZero32(denominator), m_out.equal(numerator, neg2ToThe31)); 1248 // if the denominator is zero, then the result should be zero. 1249 // If the denominator is not zero (i.e. it's -1 because we're guarded by the 1257 m_out.isZero32(denominator), rarely(divByZero), usually(notDivByZero)); 1286 NegativeZero, noValue(), 0, m_out.lessThan(denominator, m_out.int32Zero)); 1293 LValue result = m_out.div(numerator, denominator); 1298 m_out.notEqual(m_out.mul(result, denominator), numerato 1327 LValue denominator = lowInt32(m_node->child2()); local [all...] |
/macosx-10.10.1/ruby-106/ruby/ext/psych/lib/psych/visitors/ |
H A D | yaml_tree.rb | 206 'denominator', o.denominator.to_s,
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/macosx-10.10.1/ruby-106/ruby/test/psych/ |
H A D | test_yaml.rb | 1070 denominator: 2
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/macosx-10.10.1/vim-55/runtime/syntax/ |
H A D | monk.vim | 80 syn keyword monkFunc quotient remainder modulo gcd lcm numerator denominator
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