RubyRational.java
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* License Version 1.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
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package org.jruby;
import static org.jruby.util.Numeric.checkInteger;
import static org.jruby.util.Numeric.f_abs;
import static org.jruby.util.Numeric.f_add;
import static org.jruby.util.Numeric.f_cmp;
import static org.jruby.util.Numeric.f_div;
import static org.jruby.util.Numeric.f_equal;
import static org.jruby.util.Numeric.f_expt;
import static org.jruby.util.Numeric.f_floor;
import static org.jruby.util.Numeric.f_gcd;
import static org.jruby.util.Numeric.f_idiv;
import static org.jruby.util.Numeric.f_inspect;
import static org.jruby.util.Numeric.f_integer_p;
import static org.jruby.util.Numeric.f_lt_p;
import static org.jruby.util.Numeric.f_mul;
import static org.jruby.util.Numeric.f_negate;
import static org.jruby.util.Numeric.f_negative_p;
import static org.jruby.util.Numeric.f_one_p;
import static org.jruby.util.Numeric.f_rshift;
import static org.jruby.util.Numeric.f_sub;
import static org.jruby.util.Numeric.f_to_f;
import static org.jruby.util.Numeric.f_to_i;
import static org.jruby.util.Numeric.f_to_r;
import static org.jruby.util.Numeric.f_to_s;
import static org.jruby.util.Numeric.f_truncate;
import static org.jruby.util.Numeric.f_xor;
import static org.jruby.util.Numeric.f_zero_p;
import static org.jruby.util.Numeric.i_gcd;
import static org.jruby.util.Numeric.i_ilog2;
import static org.jruby.util.Numeric.k_exact_p;
import static org.jruby.util.Numeric.ldexp;
import static org.jruby.util.Numeric.nurat_rationalize_internal;
import java.io.IOException;
import org.jcodings.specific.ASCIIEncoding;
import org.jruby.anno.JRubyClass;
import org.jruby.anno.JRubyMethod;
import org.jruby.common.IRubyWarnings;
import org.jruby.runtime.Arity;
import org.jruby.runtime.Block;
import org.jruby.runtime.ClassIndex;
import org.jruby.runtime.ObjectAllocator;
import org.jruby.runtime.ObjectMarshal;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.Visibility;
import org.jruby.runtime.builtin.IRubyObject;
import org.jruby.runtime.marshal.MarshalStream;
import org.jruby.runtime.marshal.UnmarshalStream;
import org.jruby.util.ByteList;
import org.jruby.util.Numeric;
import org.jruby.util.TypeConverter;
import static org.jruby.runtime.Helpers.invokedynamic;
import static org.jruby.runtime.invokedynamic.MethodNames.HASH;
/**
* 1.9 rational.c as of revision: 20011
*/
@JRubyClass(name = "Rational", parent = "Numeric", include = "Precision")
public class RubyRational extends RubyNumeric {
public static RubyClass createRationalClass(Ruby runtime) {
RubyClass rationalc = runtime.defineClass("Rational", runtime.getNumeric(), RATIONAL_ALLOCATOR);
runtime.setRational(rationalc);
rationalc.setClassIndex(ClassIndex.RATIONAL);
rationalc.setReifiedClass(RubyRational.class);
rationalc.kindOf = new RubyModule.JavaClassKindOf(RubyRational.class);
rationalc.setMarshal(RATIONAL_MARSHAL);
rationalc.defineAnnotatedMethods(RubyRational.class);
rationalc.getSingletonClass().undefineMethod("allocate");
rationalc.getSingletonClass().undefineMethod("new");
return rationalc;
}
private static ObjectAllocator RATIONAL_ALLOCATOR = new ObjectAllocator() {
@Override
public IRubyObject allocate(Ruby runtime, RubyClass klass) {
RubyFixnum zero = RubyFixnum.zero(runtime);
return new RubyRational(runtime, klass, zero, zero);
}
};
/** internal
*
*/
private RubyRational(Ruby runtime, IRubyObject clazz, IRubyObject num, IRubyObject den) {
super(runtime, (RubyClass)clazz);
this.num = num;
this.den = den;
}
/** rb_rational_raw
*
*/
static RubyRational newRationalRaw(Ruby runtime, IRubyObject x, IRubyObject y) {
return new RubyRational(runtime, runtime.getRational(), x, y);
}
/** rb_rational_raw1
*
*/
static RubyRational newRationalRaw(Ruby runtime, IRubyObject x) {
return new RubyRational(runtime, runtime.getRational(), x, RubyFixnum.one(runtime));
}
/** rb_rational_new1
*
*/
static IRubyObject newRationalCanonicalize(ThreadContext context, IRubyObject x) {
return newRationalCanonicalize(context, x, RubyFixnum.one(context.runtime));
}
/** rb_rational_new
*
*/
private static IRubyObject newRationalCanonicalize(ThreadContext context, IRubyObject x, IRubyObject y) {
return canonicalizeInternal(context, context.runtime.getRational(), x, y);
}
/** f_rational_new2
*
*/
private static IRubyObject newRational(ThreadContext context, IRubyObject clazz, IRubyObject x, IRubyObject y) {
assert !(x instanceof RubyRational) && !(y instanceof RubyRational);
return canonicalizeInternal(context, clazz, x, y);
}
/** f_rational_new_no_reduce2
*
*/
private static IRubyObject newRationalNoReduce(ThreadContext context, IRubyObject clazz, IRubyObject x, IRubyObject y) {
assert !(x instanceof RubyRational) && !(y instanceof RubyRational);
return canonicalizeInternalNoReduce(context, clazz, x, y);
}
/** f_rational_new_bang2
*
*/
private static RubyRational newRationalBang(ThreadContext context, IRubyObject clazz, IRubyObject x, IRubyObject y) {
assert !f_negative_p(context, y) && !(f_zero_p(context, y));
return new RubyRational(context.runtime, clazz, x, y);
}
/** f_rational_new_bang1
*
*/
private static RubyRational newRationalBang(ThreadContext context, IRubyObject clazz, IRubyObject x) {
return newRationalBang(context, clazz, x, RubyFixnum.one(context.runtime));
}
private IRubyObject num;
private IRubyObject den;
/** nurat_canonicalization
*
*/
private static boolean canonicalization = false;
public static void setCanonicalization(boolean canonical) {
canonicalization = canonical;
}
/** nurat_int_check
*
*/
static void intCheck(ThreadContext context, IRubyObject num) {
if (num instanceof RubyFixnum || num instanceof RubyBignum) return;
if (!(num instanceof RubyNumeric) || !num.callMethod(context, "integer?").isTrue()) {
Ruby runtime = num.getRuntime();
throw runtime.newTypeError("can't convert "
+ num.getMetaClass().getName() + " into Rational");
}
}
/** nurat_int_value
*
*/
static IRubyObject intValue(ThreadContext context, IRubyObject num) {
intCheck(context, num);
if (!(num instanceof RubyInteger)) num = num.callMethod(context, "to_f");
return num;
}
/** nurat_s_canonicalize_internal
*
*/
private static IRubyObject canonicalizeInternal(ThreadContext context, IRubyObject clazz, IRubyObject num, IRubyObject den) {
Ruby runtime = context.runtime;
IRubyObject res = f_cmp(context, den, RubyFixnum.zero(runtime));
if (res == RubyFixnum.minus_one(runtime)) {
num = f_negate(context, num);
den = f_negate(context, den);
} else if (res == RubyFixnum.zero(runtime)) {
throw runtime.newZeroDivisionError();
}
IRubyObject gcd = f_gcd(context, num, den);
num = f_idiv(context, num, gcd);
den = f_idiv(context, den, gcd);
if (Numeric.CANON && canonicalization && f_one_p(context, den)) {
return num;
}
return new RubyRational(context.runtime, clazz, num, den);
}
/** nurat_s_canonicalize_internal_no_reduce
*
*/
private static IRubyObject canonicalizeInternalNoReduce(ThreadContext context, IRubyObject clazz, IRubyObject num, IRubyObject den) {
Ruby runtime = context.runtime;
IRubyObject res = f_cmp(context, den, RubyFixnum.zero(runtime));
if (res == RubyFixnum.minus_one(runtime)) {
num = f_negate(context, num);
den = f_negate(context, den);
} else if (res == RubyFixnum.zero(runtime)) {
throw runtime.newZeroDivisionError();
}
if (Numeric.CANON && canonicalization && f_one_p(context, den)) {
return num;
}
return new RubyRational(context.runtime, clazz, num, den);
}
/** nurat_s_new
*
*/
@Deprecated
public static IRubyObject newInstance(ThreadContext context, IRubyObject clazz, IRubyObject[]args) {
switch (args.length) {
case 1: return newInstance(context, clazz, args[0]);
case 2: return newInstance(context, clazz, args[0], args[1]);
}
Arity.raiseArgumentError(context.runtime, args.length, 1, 1);
return null;
}
// @JRubyMethod(name = "new", meta = true, visibility = Visibility.PRIVATE)
public static IRubyObject newInstance(ThreadContext context, IRubyObject clazz, IRubyObject num) {
num = intValue(context, num);
return canonicalizeInternal(context, clazz, num, RubyFixnum.one(context.runtime));
}
// @JRubyMethod(name = "new", meta = true, visibility = Visibility.PRIVATE)
public static IRubyObject newInstance(ThreadContext context, IRubyObject clazz, IRubyObject num, IRubyObject den) {
num = intValue(context, num);
den = intValue(context, den);
return canonicalizeInternal(context, clazz, num, den);
}
/** rb_Rational1
*
*/
public static IRubyObject newRationalConvert(ThreadContext context, IRubyObject x) {
return newRationalConvert(context, x, RubyFixnum.one(context.runtime));
}
/** rb_Rational/rb_Rational2
*
*/
public static IRubyObject newRationalConvert(ThreadContext context, IRubyObject x, IRubyObject y) {
return convert(context, context.runtime.getRational(), x, y);
}
public static RubyRational newRational(Ruby runtime, long x, long y) {
return new RubyRational(runtime, runtime.getRational(), runtime.newFixnum(x), runtime.newFixnum(y));
}
@Deprecated
public static IRubyObject convert(ThreadContext context, IRubyObject clazz, IRubyObject[]args) {
switch (args.length) {
case 1: return convert(context, clazz, args[0]);
case 2: return convert(context, clazz, args[0], args[1]);
}
Arity.raiseArgumentError(context.runtime, args.length, 1, 1);
return null;
}
/** nurat_s_convert
*
*/
@JRubyMethod(name = "convert", meta = true, visibility = Visibility.PRIVATE)
public static IRubyObject convert(ThreadContext context, IRubyObject recv, IRubyObject a1) {
if (a1.isNil()) {
throw context.runtime.newTypeError("can't convert nil into Rational");
}
return convertCommon(context, recv, a1, context.runtime.getNil());
}
/** nurat_s_convert
*
*/
@JRubyMethod(name = "convert", meta = true, visibility = Visibility.PRIVATE)
public static IRubyObject convert(ThreadContext context, IRubyObject recv, IRubyObject a1, IRubyObject a2) {
if (a1.isNil() || a2.isNil()) {
throw context.runtime.newTypeError("can't convert nil into Rational");
}
return convertCommon(context, recv, a1, a2);
}
private static IRubyObject convertCommon(ThreadContext context, IRubyObject recv, IRubyObject a1, IRubyObject a2) {
if (a1 instanceof RubyComplex) {
RubyComplex a1Complex = (RubyComplex)a1;
if (k_exact_p(a1Complex.getImage()) && f_zero_p(context, a1Complex.getImage())) a1 = a1Complex.getReal();
}
if (a2 instanceof RubyComplex) {
RubyComplex a2Complex = (RubyComplex)a2;
if (k_exact_p(a2Complex.getImage()) && f_zero_p(context, a2Complex.getImage())) a2 = a2Complex.getReal();
}
if (a1 instanceof RubyFloat) {
a1 = f_to_r(context, a1);
} else if (a1 instanceof RubyString) {
a1 = str_to_r_strict(context, a1);
} else {
if (a1.respondsTo("to_r")) {
a1 = f_to_r(context, a1);
}
}
if (a2 instanceof RubyFloat) {
a2 = f_to_r(context, a2);
} else if (a2 instanceof RubyString) {
a2 = str_to_r_strict(context, a2);
}
if (a1 instanceof RubyRational) {
if (a2.isNil() || (k_exact_p(a2) && f_one_p(context, a2))) return a1;
}
if (a2.isNil()) {
if (a1 instanceof RubyNumeric && !f_integer_p(context, a1).isTrue()) return a1;
return newInstance(context, recv, a1);
} else {
if (a1 instanceof RubyNumeric && a2 instanceof RubyNumeric &&
(!f_integer_p(context, a1).isTrue() || !f_integer_p(context, a2).isTrue())) {
return f_div(context, a1, a2);
}
return newInstance(context, recv, a1, a2);
}
}
/** nurat_numerator
*
*/
@JRubyMethod(name = "numerator")
@Override
public IRubyObject numerator(ThreadContext context) {
return num;
}
/** nurat_denominator
*
*/
@JRubyMethod(name = "denominator")
@Override
public IRubyObject denominator(ThreadContext context) {
return den;
}
/** f_imul
*
*/
private static IRubyObject f_imul(ThreadContext context, long a, long b) {
Ruby runtime = context.runtime;
if (a == 0 || b == 0) {
return RubyFixnum.zero(runtime);
} else if (a == 1) {
return RubyFixnum.newFixnum(runtime, b);
} else if (b == 1) {
return RubyFixnum.newFixnum(runtime, a);
}
long c = a * b;
if(c / a != b) {
return RubyBignum.newBignum(runtime, a).op_mul(context, RubyBignum.newBignum(runtime, b));
}
return RubyFixnum.newFixnum(runtime, c);
}
/** f_addsub
*
*/
private IRubyObject f_addsub(ThreadContext context, IRubyObject anum, IRubyObject aden, IRubyObject bnum, IRubyObject bden, boolean plus) {
Ruby runtime = context.runtime;
IRubyObject newNum, newDen, g, a, b;
if (anum instanceof RubyFixnum && aden instanceof RubyFixnum &&
bnum instanceof RubyFixnum && bden instanceof RubyFixnum) {
long an = ((RubyFixnum)anum).getLongValue();
long ad = ((RubyFixnum)aden).getLongValue();
long bn = ((RubyFixnum)bnum).getLongValue();
long bd = ((RubyFixnum)bden).getLongValue();
long ig = i_gcd(ad, bd);
g = RubyFixnum.newFixnum(runtime, ig);
a = f_imul(context, an, bd / ig);
b = f_imul(context, bn, ad / ig);
} else {
g = f_gcd(context, aden, bden);
a = f_mul(context, anum, f_idiv(context, bden, g));
b = f_mul(context, bnum, f_idiv(context, aden, g));
}
IRubyObject c = plus ? f_add(context, a, b) : f_sub(context, a, b);
b = f_idiv(context, aden, g);
g = f_gcd(context, c, g);
newNum = f_idiv(context, c, g);
a = f_idiv(context, bden, g);
newDen = f_mul(context, a, b);
return RubyRational.newRationalNoReduce(context, getMetaClass(), newNum, newDen);
}
/** nurat_add
*
*/
@JRubyMethod(name = "+")
public IRubyObject op_add(ThreadContext context, IRubyObject other) {
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
return f_addsub(context, num, den, other, RubyFixnum.one(context.runtime), true);
} else if (other instanceof RubyFloat) {
return f_add(context, f_to_f(context, this), other);
} else if (other instanceof RubyRational) {
RubyRational otherRational = (RubyRational)other;
return f_addsub(context, num, den, otherRational.num, otherRational.den, true);
}
return coerceBin(context, "+", other);
}
/** nurat_sub
*
*/
@JRubyMethod(name = "-")
public IRubyObject op_sub(ThreadContext context, IRubyObject other) {
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
return f_addsub(context, num, den, other, RubyFixnum.one(context.runtime), false);
} else if (other instanceof RubyFloat) {
return f_sub(context, f_to_f(context, this), other);
} else if (other instanceof RubyRational) {
RubyRational otherRational = (RubyRational)other;
return f_addsub(context, num, den, otherRational.num, otherRational.den, false);
}
return coerceBin(context, "-", other);
}
/** f_muldiv
*
*/
private IRubyObject f_muldiv(ThreadContext context, IRubyObject anum, IRubyObject aden, IRubyObject bnum, IRubyObject bden, boolean mult) {
if (!mult) {
if (f_negative_p(context, bnum)) {
anum = f_negate(context, anum);
bnum = f_negate(context, bnum);
}
IRubyObject tmp = bnum;
bnum = bden;
bden = tmp;
}
final IRubyObject newNum, newDen;
if (anum instanceof RubyFixnum && aden instanceof RubyFixnum &&
bnum instanceof RubyFixnum && bden instanceof RubyFixnum) {
long an = ((RubyFixnum)anum).getLongValue();
long ad = ((RubyFixnum)aden).getLongValue();
long bn = ((RubyFixnum)bnum).getLongValue();
long bd = ((RubyFixnum)bden).getLongValue();
long g1 = i_gcd(an, bd);
long g2 = i_gcd(ad, bn);
newNum = f_imul(context, an / g1, bn / g2);
newDen = f_imul(context, ad / g2, bd / g1);
} else {
IRubyObject g1 = f_gcd(context, anum, bden);
IRubyObject g2 = f_gcd(context, aden, bnum);
newNum = f_mul(context, f_idiv(context, anum, g1), f_idiv(context, bnum, g2));
newDen = f_mul(context, f_idiv(context, aden, g2), f_idiv(context, bden, g1));
}
return RubyRational.newRationalNoReduce(context, getMetaClass(), newNum, newDen);
}
/** nurat_mul
*
*/
@JRubyMethod(name = "*")
public IRubyObject op_mul(ThreadContext context, IRubyObject other) {
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
return f_muldiv(context, num, den, other, RubyFixnum.one(context.runtime), true);
} else if (other instanceof RubyFloat) {
return f_mul(context, f_to_f(context, this), other);
} else if (other instanceof RubyRational) {
RubyRational otherRational = (RubyRational)other;
return f_muldiv(context, num, den, otherRational.num, otherRational.den, true);
}
return coerceBin(context, "*", other);
}
/** nurat_div
*
*/
@JRubyMethod(name = {"/", "quo"})
public IRubyObject op_div(ThreadContext context, IRubyObject other) {
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
if (f_zero_p(context, other)) {
throw context.runtime.newZeroDivisionError();
}
return f_muldiv(context, num, den, other, RubyFixnum.one(context.runtime), false);
} else if (other instanceof RubyFloat) {
return f_to_f(context, this).callMethod(context, "/", other);
} else if (other instanceof RubyRational) {
if (f_zero_p(context, other)) {
throw context.runtime.newZeroDivisionError();
}
RubyRational otherRational = (RubyRational)other;
return f_muldiv(context, num, den, otherRational.num, otherRational.den, false);
}
return coerceBin(context, "/", other);
}
/** nurat_fdiv
*
*/
@JRubyMethod(name = "fdiv")
public IRubyObject op_fdiv(ThreadContext context, IRubyObject other) {
return f_div(context, f_to_f(context, this), other);
}
/** nurat_expt
*
*/
@JRubyMethod(name = "**")
public IRubyObject op_expt(ThreadContext context, IRubyObject other) {
Ruby runtime = context.runtime;
if (k_exact_p(other) && f_zero_p(context, other)) {
return RubyRational.newRationalBang(context, getMetaClass(), RubyFixnum.one(runtime));
}
if (other instanceof RubyRational) {
RubyRational otherRational = (RubyRational)other;
if (f_one_p(context, otherRational.den)) other = otherRational.num;
}
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
final IRubyObject tnum, tden;
IRubyObject res = f_cmp(context, other, RubyFixnum.zero(runtime));
if (res == RubyFixnum.one(runtime)) {
tnum = f_expt(context, num, other);
tden = f_expt(context, den, other);
} else if (res == RubyFixnum.minus_one(runtime)){
tnum = f_expt(context, den, f_negate(context, other));
tden = f_expt(context, num, f_negate(context, other));
} else {
tnum = tden = RubyFixnum.one(runtime);
}
return RubyRational.newRational(context, getMetaClass(), tnum, tden);
} else if (other instanceof RubyFloat || other instanceof RubyRational) {
return f_expt(context, f_to_f(context, this), other);
}
return coerceBin(context, "**", other);
}
/** nurat_cmp
*
*/
@JRubyMethod(name = "<=>")
@Override
public IRubyObject op_cmp(ThreadContext context, IRubyObject other) {
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
if (den instanceof RubyFixnum && ((RubyFixnum)den).getLongValue() == 1) return f_cmp(context, num, other);
return f_cmp(context, this, RubyRational.newRationalBang(context, getMetaClass(), other));
} else if (other instanceof RubyFloat) {
return f_cmp(context, f_to_f(context, this), other);
} else if (other instanceof RubyRational) {
RubyRational otherRational = (RubyRational)other;
final IRubyObject num1, num2;
if (num instanceof RubyFixnum && den instanceof RubyFixnum &&
otherRational.num instanceof RubyFixnum && otherRational.den instanceof RubyFixnum) {
num1 = f_imul(context, ((RubyFixnum)num).getLongValue(), ((RubyFixnum)otherRational.den).getLongValue());
num2 = f_imul(context, ((RubyFixnum)otherRational.num).getLongValue(), ((RubyFixnum)den).getLongValue());
} else {
num1 = f_mul(context, num, otherRational.den);
num2 = f_mul(context, otherRational.num, den);
}
return f_cmp(context, f_sub(context, num1, num2), RubyFixnum.zero(context.runtime));
}
return coerceBin(context, "<=>", other);
}
/** nurat_equal_p
*
*/
@JRubyMethod(name = "==")
@Override
public IRubyObject op_equal(ThreadContext context, IRubyObject other) {
Ruby runtime = context.runtime;
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
if (f_zero_p(context, num) && f_zero_p(context, other)) return runtime.getTrue();
if (!(den instanceof RubyFixnum) || ((RubyFixnum)den).getLongValue() != 1) return runtime.getFalse();
return f_equal(context, num, other);
} else if (other instanceof RubyFloat) {
return f_equal(context, f_to_f(context, this), other);
} else if (other instanceof RubyRational) {
RubyRational otherRational = (RubyRational)other;
if (f_zero_p(context, num) && f_zero_p(context, otherRational.num)) return runtime.getTrue();
return runtime.newBoolean(f_equal(context, num, otherRational.num).isTrue() &&
f_equal(context, den, otherRational.den).isTrue());
}
return f_equal(context, other, this);
}
/** nurat_coerce
*
*/
@JRubyMethod(name = "coerce")
public IRubyObject op_coerce(ThreadContext context, IRubyObject other) {
Ruby runtime = context.runtime;
if (other instanceof RubyFixnum || other instanceof RubyBignum) {
return runtime.newArray(RubyRational.newRationalBang(context, getMetaClass(), other), this);
} else if (other instanceof RubyFloat) {
return runtime.newArray(other, f_to_f(context, this));
} else if (other instanceof RubyRational) {
return runtime.newArray(other, this);
}
throw runtime.newTypeError(other.getMetaClass() + " can't be coerced into " + getMetaClass());
}
/** nurat_idiv
*
*/
public IRubyObject op_idiv(ThreadContext context, IRubyObject other) {
return op_idiv19(context, other);
}
@JRubyMethod(name = "div")
public IRubyObject op_idiv19(ThreadContext context, IRubyObject other) {
if (num2dbl(other) == 0.0) throw context.runtime.newZeroDivisionError();
return f_floor(context, f_div(context, this, other));
}
/** nurat_mod
*
*/
public IRubyObject op_mod(ThreadContext context, IRubyObject other) {
return op_mod19(context, other);
}
@JRubyMethod(name = {"modulo", "%"})
public IRubyObject op_mod19(ThreadContext context, IRubyObject other) {
if (num2dbl(other) == 0.0) throw context.runtime.newZeroDivisionError();
return f_sub(context, this, f_mul(context, other, f_floor(context, f_div(context, this, other))));
}
/** nurat_divmod
*
*/
public IRubyObject op_divmod(ThreadContext context, IRubyObject other) {
return op_divmod19(context, other);
}
@JRubyMethod(name = "divmod")
public IRubyObject op_divmod19(ThreadContext context, IRubyObject other) {
if (num2dbl(other) == 0.0) throw context.runtime.newZeroDivisionError();
IRubyObject val = f_floor(context, f_div(context, this, other));
return context.runtime.newArray(val, f_sub(context, this, f_mul(context, other, val)));
}
/** nurat_rem
*
*/
@JRubyMethod(name = "remainder")
public IRubyObject op_rem(ThreadContext context, IRubyObject other) {
IRubyObject val = f_truncate(context, f_div(context, this, other));
return f_sub(context, this, f_mul(context, other, val));
}
/** nurat_abs
*
*/
@JRubyMethod(name = "abs")
public IRubyObject op_abs(ThreadContext context) {
if (!f_negative_p(context, this)) return this;
return f_negate(context, this);
}
private IRubyObject op_roundCommonPre(ThreadContext context, IRubyObject n) {
checkInteger(context, n);
Ruby runtime = context.runtime;
return f_expt(context, RubyFixnum.newFixnum(runtime, 10), n);
}
private IRubyObject op_roundCommonPost(ThreadContext context, IRubyObject s, IRubyObject n, IRubyObject b) {
s = f_div(context, newRationalBang(context, getMetaClass(), s), b);
if (f_lt_p(context, n, RubyFixnum.one(context.runtime)).isTrue()) s = f_to_i(context, s);
return s;
}
/** nurat_floor
*
*/
@JRubyMethod(name = "floor")
public IRubyObject op_floor(ThreadContext context) {
return f_idiv(context, num, den);
}
@JRubyMethod(name = "floor")
public IRubyObject op_floor(ThreadContext context, IRubyObject n) {
IRubyObject b = op_roundCommonPre(context, n);
return op_roundCommonPost(context, ((RubyRational)f_mul(context, this, b)).op_floor(context), n, b);
}
/** nurat_ceil
*
*/
@JRubyMethod(name = "ceil")
public IRubyObject op_ceil(ThreadContext context) {
return f_negate(context, f_idiv(context, f_negate(context, num), den));
}
@JRubyMethod(name = "ceil")
public IRubyObject op_ceil(ThreadContext context, IRubyObject n) {
IRubyObject b = op_roundCommonPre(context, n);
return op_roundCommonPost(context, ((RubyRational)f_mul(context, this, b)).op_ceil(context), n, b);
}
@JRubyMethod(name = "to_i")
public IRubyObject to_i(ThreadContext context) {
return op_truncate(context);
}
/** nurat_truncate
*
*/
@JRubyMethod(name = "truncate")
public IRubyObject op_truncate(ThreadContext context) {
if (f_negative_p(context, num)) {
return f_negate(context, f_idiv(context, f_negate(context, num), den));
}
return f_idiv(context, num, den);
}
@JRubyMethod(name = "truncate")
public IRubyObject op_truncate(ThreadContext context, IRubyObject n) {
IRubyObject b = op_roundCommonPre(context, n);
return op_roundCommonPost(context, ((RubyRational)f_mul(context, this, b)).op_truncate(context), n, b);
}
/** nurat_round
*
*/
@JRubyMethod(name = "round")
public IRubyObject op_round(ThreadContext context) {
IRubyObject myNum = this.num;
boolean neg = f_negative_p(context, myNum);
if (neg) myNum = f_negate(context, myNum);
IRubyObject myDen = this.den;
IRubyObject two = RubyFixnum.two(context.runtime);
myNum = f_add(context, f_mul(context, myNum, two), myDen);
myDen = f_mul(context, myDen, two);
myNum = f_idiv(context, myNum, myDen);
if (neg) myNum = f_negate(context, myNum);
return myNum;
}
@JRubyMethod(name = "round")
public IRubyObject op_round(ThreadContext context, IRubyObject n) {
IRubyObject b = op_roundCommonPre(context, n);
return op_roundCommonPost(context, ((RubyRational)f_mul(context, this, b)).op_round(context), n, b);
}
/** nurat_to_f
*
*/
private static long ML = (long)(Math.log(Double.MAX_VALUE) / Math.log(2.0) - 1);
@JRubyMethod(name = "to_f")
public IRubyObject to_f(ThreadContext context) {
return context.runtime.newFloat(getDoubleValue(context));
}
@Override
public double getDoubleValue() {
return getDoubleValue(getRuntime().getCurrentContext());
}
public double getDoubleValue(ThreadContext context) {
Ruby runtime = context.runtime;
if (f_zero_p(context, num)) return 0;
IRubyObject myNum = this.num;
IRubyObject myDen = this.den;
boolean minus = false;
if (f_negative_p(context, myNum)) {
myNum = f_negate(context, myNum);
minus = true;
}
long nl = i_ilog2(context, myNum);
long dl = i_ilog2(context, myDen);
long ne = 0;
if (nl > ML) {
ne = nl - ML;
myNum = f_rshift(context, myNum, RubyFixnum.newFixnum(runtime, ne));
}
long de = 0;
if (dl > ML) {
de = dl - ML;
myDen = f_rshift(context, myDen, RubyFixnum.newFixnum(runtime, de));
}
long e = ne - de;
if (e > 1023 || e < -1022) {
runtime.getWarnings().warn(IRubyWarnings.ID.FLOAT_OUT_OF_RANGE, "out of Float range");
return e > 0 ? Double.MAX_VALUE : 0;
}
double f = RubyNumeric.num2dbl(myNum) / RubyNumeric.num2dbl(myDen);
if (minus) f = -f;
f = ldexp(f, e);
if (Double.isInfinite(f) || Double.isNaN(f)) {
runtime.getWarnings().warn(IRubyWarnings.ID.FLOAT_OUT_OF_RANGE, "out of Float range");
}
return f;
}
/** nurat_to_r
*
*/
@JRubyMethod(name = "to_r")
public IRubyObject to_r(ThreadContext context) {
return this;
}
/** nurat_rationalize
*
*/
@JRubyMethod(name = "rationalize", optional = 1)
public IRubyObject rationalize(ThreadContext context, IRubyObject[] args) {
IRubyObject a, b;
if (args.length == 0) return to_r(context);
if (f_negative_p(context, this)) {
return f_negate(context,
((RubyRational) f_abs(context, this)).rationalize(context, args));
}
IRubyObject eps = f_abs(context, args[0]);
a = f_sub(context, this, eps);
b = f_add(context, this, eps);
if (f_equal(context, a, b).isTrue()) return this;
IRubyObject[] ary = new IRubyObject[2];
ary[0] = a;
ary[1] = b;
IRubyObject[] ans = nurat_rationalize_internal(context, ary);
return newRational(context, this.metaClass, ans[0], ans[1]);
}
/** nurat_hash
*
*/
@JRubyMethod(name = "hash")
public IRubyObject hash(ThreadContext context) {
return f_xor(context, invokedynamic(context, num, HASH), invokedynamic(context, den, HASH));
}
/** nurat_to_s
*
*/
@JRubyMethod(name = "to_s")
public IRubyObject to_s(ThreadContext context) {
RubyString str = RubyString.newEmptyString(context.getRuntime());
str.append(f_to_s(context, num));
str.cat((byte)'/');
str.append(f_to_s(context, den));
return str;
}
/** nurat_inspect
*
*/
@JRubyMethod(name = "inspect")
public IRubyObject inspect(ThreadContext context) {
RubyString str = RubyString.newEmptyString(context.getRuntime());
str.cat((byte)'(');
str.append(f_inspect(context, num));
str.cat((byte)'/');
str.append(f_inspect(context, den));
str.cat((byte)')');
return str;
}
/** nurat_marshal_dump
*
*/
@JRubyMethod(name = "marshal_dump")
public IRubyObject marshal_dump(ThreadContext context) {
RubyArray dump = context.runtime.newArray(num, den);
if (hasVariables()) dump.syncVariables(this);
return dump;
}
/** nurat_marshal_load
*
*/
@JRubyMethod(name = "marshal_load")
public IRubyObject marshal_load(ThreadContext context, IRubyObject arg) {
RubyArray load = arg.convertToArray();
num = load.size() > 0 ? load.eltInternal(0) : context.runtime.getNil();
den = load.size() > 1 ? load.eltInternal(1) : context.runtime.getNil();
if (f_zero_p(context, den)) {
throw context.runtime.newZeroDivisionError();
}
if (load.hasVariables()) syncVariables((IRubyObject)load);
return this;
}
private static final ObjectMarshal RATIONAL_MARSHAL = new ObjectMarshal() {
@Override
public void marshalTo(Ruby runtime, Object obj, RubyClass type,
MarshalStream marshalStream) throws IOException {
throw runtime.newTypeError("marshal_dump should be used instead for Rational");
}
@Override
public Object unmarshalFrom(Ruby runtime, RubyClass type,
UnmarshalStream unmarshalStream) throws IOException {
RubyRational r = (RubyRational) RubyClass.DEFAULT_OBJECT_MARSHAL.unmarshalFrom(runtime, type, unmarshalStream);
r.num = r.removeInstanceVariable("@numerator");
r.den = r.removeInstanceVariable("@denominator");
return r;
}
};
static RubyArray str_to_r_internal(ThreadContext context, IRubyObject recv) {
RubyString s = recv.convertToString();
ByteList bytes = s.getByteList();
Ruby runtime = context.runtime;
if (bytes.getRealSize() == 0) return runtime.newArray(runtime.getNil(), recv);
IRubyObject m = RubyRegexp.newDummyRegexp(runtime, Numeric.RationalPatterns.rat_pat).match_m19(context, s, false, Block.NULL_BLOCK);
if (!m.isNil()) {
RubyMatchData match = (RubyMatchData)m;
IRubyObject si = match.op_aref19(RubyFixnum.one(runtime));
RubyString nu = (RubyString)match.op_aref19(RubyFixnum.two(runtime));
IRubyObject de = match.op_aref19(RubyFixnum.three(runtime));
IRubyObject re = match.post_match(context);
RubyArray a = nu.split19(context, RubyRegexp.newDummyRegexp(runtime, Numeric.RationalPatterns.an_e_pat), false).convertToArray();
RubyString ifp = (RubyString)a.eltInternal(0);
IRubyObject exp = a.size() != 2 ? runtime.getNil() : a.eltInternal(1);
a = ifp.split19(context, RubyRegexp.newDummyRegexp(runtime, Numeric.RationalPatterns.a_dot_pat), false).convertToArray();
IRubyObject ip = a.eltInternal(0);
IRubyObject fp = a.size() != 2 ? runtime.getNil() : a.eltInternal(1);
IRubyObject v = RubyRational.newRationalCanonicalize(context, f_to_i(context, ip));
if (!fp.isNil()) {
bytes = fp.convertToString().getByteList();
int count = 0;
byte[]buf = bytes.getUnsafeBytes();
int i = bytes.getBegin();
int end = i + bytes.getRealSize();
while (i < end) {
if (ASCIIEncoding.INSTANCE.isDigit(buf[i])) count++;
i++;
}
IRubyObject l = f_expt(context, RubyFixnum.newFixnum(runtime, 10), RubyFixnum.newFixnum(runtime, count));
v = f_mul(context, v, l);
v = f_add(context, v, f_to_i(context, fp));
v = f_div(context, v, l);
}
if (!si.isNil()) {
ByteList siBytes = si.convertToString().getByteList();
if (siBytes.length() > 0 && siBytes.get(0) == '-') v = f_negate(context, v);
}
if (!exp.isNil()) {
v = f_mul(context, v, f_expt(context, RubyFixnum.newFixnum(runtime, 10), f_to_i(context, exp)));
}
if (!de.isNil()) {
v = f_div(context, v, f_to_i(context, de));
}
return runtime.newArray(v, re);
}
return runtime.newArray(runtime.getNil(), recv);
}
private static IRubyObject str_to_r_strict(ThreadContext context, IRubyObject recv) {
RubyArray a = str_to_r_internal(context, recv);
if (a.eltInternal(0).isNil() || a.eltInternal(1).convertToString().getByteList().length() > 0) {
IRubyObject s = recv.callMethod(context, "inspect");
throw context.runtime.newArgumentError("invalid value for convert(): " + s.convertToString());
}
return a.eltInternal(0);
}
/**
* numeric_quo
*/
public static IRubyObject numericQuo(ThreadContext context, IRubyObject x, IRubyObject y) {
if (y instanceof RubyFloat) {
return ((RubyNumeric)x).fdiv(context, y);
}
if (Numeric.CANON && canonicalization) {
x = newRationalRaw(context.runtime, x);
} else {
x = TypeConverter.convertToType(x, context.runtime.getRational(), "to_r");
}
return x.callMethod(context, "/", y);
}
}