/********************************************************************** compar.c - $Author$ created at: Thu Aug 26 14:39:48 JST 1993 Copyright (C) 1993-2007 Yukihiro Matsumoto **********************************************************************/ #include "id.h" #include "internal.h" #include "internal/compar.h" #include "internal/error.h" #include "internal/vm.h" #include "ruby/ruby.h" VALUE rb_mComparable; static VALUE rb_cmp(VALUE x, VALUE y) { return rb_funcallv(x, idCmp, 1, &y); } void rb_cmperr(VALUE x, VALUE y) { VALUE classname; if (SPECIAL_CONST_P(y) || BUILTIN_TYPE(y) == T_FLOAT) { classname = rb_inspect(y); } else { classname = rb_obj_class(y); } rb_raise(rb_eArgError, "comparison of %"PRIsVALUE" with %"PRIsVALUE" failed", rb_obj_class(x), classname); } static VALUE invcmp_recursive(VALUE x, VALUE y, int recursive) { if (recursive) return Qnil; return rb_cmp(y, x); } VALUE rb_invcmp(VALUE x, VALUE y) { VALUE invcmp = rb_exec_recursive(invcmp_recursive, x, y); if (invcmp == Qundef || NIL_P(invcmp)) { return Qnil; } else { int result = -rb_cmpint(invcmp, x, y); return INT2FIX(result); } } static VALUE cmp_eq_recursive(VALUE arg1, VALUE arg2, int recursive) { if (recursive) return Qnil; return rb_cmp(arg1, arg2); } /* * call-seq: * obj == other -> true or false * * Compares two objects based on the receiver's <=> * method, returning true if it returns 0. Also returns true if * _obj_ and _other_ are the same object. */ static VALUE cmp_equal(VALUE x, VALUE y) { VALUE c; if (x == y) return Qtrue; c = rb_exec_recursive_paired_outer(cmp_eq_recursive, x, y, y); if (NIL_P(c)) return Qfalse; return RBOOL(rb_cmpint(c, x, y) == 0); } static int cmpint(VALUE x, VALUE y) { return rb_cmpint(rb_cmp(x, y), x, y); } /* * call-seq: * obj > other -> true or false * * Compares two objects based on the receiver's <=> * method, returning true if it returns a value greater than 0. */ static VALUE cmp_gt(VALUE x, VALUE y) { return RBOOL(cmpint(x, y) > 0); } /* * call-seq: * obj >= other -> true or false * * Compares two objects based on the receiver's <=> * method, returning true if it returns a value greater than or equal to 0. */ static VALUE cmp_ge(VALUE x, VALUE y) { return RBOOL(cmpint(x, y) >= 0); } /* * call-seq: * obj < other -> true or false * * Compares two objects based on the receiver's <=> * method, returning true if it returns a value less than 0. */ static VALUE cmp_lt(VALUE x, VALUE y) { return RBOOL(cmpint(x, y) < 0); } /* * call-seq: * obj <= other -> true or false * * Compares two objects based on the receiver's <=> * method, returning true if it returns a value less than or equal to 0. */ static VALUE cmp_le(VALUE x, VALUE y) { return RBOOL(cmpint(x, y) <= 0); } /* * call-seq: * obj.between?(min, max) -> true or false * * Returns false if _obj_ <=> _min_ is less * than zero or if _obj_ <=> _max_ is greater than zero, * true otherwise. * * 3.between?(1, 5) #=> true * 6.between?(1, 5) #=> false * 'cat'.between?('ant', 'dog') #=> true * 'gnu'.between?('ant', 'dog') #=> false * */ static VALUE cmp_between(VALUE x, VALUE min, VALUE max) { if (cmpint(x, min) < 0) return Qfalse; if (cmpint(x, max) > 0) return Qfalse; return Qtrue; } /* * call-seq: * obj.clamp(min, max) -> obj * obj.clamp(range) -> obj * * In (min, max) form, returns _min_ if _obj_ * <=> _min_ is less than zero, _max_ if _obj_ * <=> _max_ is greater than zero, and _obj_ * otherwise. * * 12.clamp(0, 100) #=> 12 * 523.clamp(0, 100) #=> 100 * -3.123.clamp(0, 100) #=> 0 * * 'd'.clamp('a', 'f') #=> 'd' * 'z'.clamp('a', 'f') #=> 'f' * * In (range) form, returns _range.begin_ if _obj_ * <=> _range.begin_ is less than zero, _range.end_ * if _obj_ <=> _range.end_ is greater than zero, and * _obj_ otherwise. * * 12.clamp(0..100) #=> 12 * 523.clamp(0..100) #=> 100 * -3.123.clamp(0..100) #=> 0 * * 'd'.clamp('a'..'f') #=> 'd' * 'z'.clamp('a'..'f') #=> 'f' * * If _range.begin_ is +nil+, it is considered smaller than _obj_, * and if _range.end_ is +nil+, it is considered greater than * _obj_. * * -20.clamp(0..) #=> 0 * 523.clamp(..100) #=> 100 * * When _range.end_ is excluded and not +nil+, an exception is * raised. * * 100.clamp(0...100) # ArgumentError */ static VALUE cmp_clamp(int argc, VALUE *argv, VALUE x) { VALUE min, max; int c, excl = 0; if (rb_scan_args(argc, argv, "11", &min, &max) == 1) { VALUE range = min; if (!rb_range_values(range, &min, &max, &excl)) { rb_raise(rb_eTypeError, "wrong argument type %s (expected Range)", rb_builtin_class_name(range)); } if (!NIL_P(max)) { if (excl) rb_raise(rb_eArgError, "cannot clamp with an exclusive range"); } } if (!NIL_P(min) && !NIL_P(max) && cmpint(min, max) > 0) { rb_raise(rb_eArgError, "min argument must be smaller than max argument"); } if (!NIL_P(min)) { c = cmpint(x, min); if (c == 0) return x; if (c < 0) return min; } if (!NIL_P(max)) { c = cmpint(x, max); if (c > 0) return max; } return x; } /* * The Comparable mixin is used by classes whose objects may be * ordered. The class must define the <=> operator, * which compares the receiver against another object, returning a * value less than 0, returning 0, or returning a value greater than 0, * depending on whether the receiver is less than, equal to, * or greater than the other object. If the other object is not * comparable then the <=> operator should return +nil+. * Comparable uses <=> to implement the conventional * comparison operators (<, <=, * ==, >=, and >) and the * method between?. * * class SizeMatters * include Comparable * attr :str * def <=>(other) * str.size <=> other.str.size * end * def initialize(str) * @str = str * end * def inspect * @str * end * end * * s1 = SizeMatters.new("Z") * s2 = SizeMatters.new("YY") * s3 = SizeMatters.new("XXX") * s4 = SizeMatters.new("WWWW") * s5 = SizeMatters.new("VVVVV") * * s1 < s2 #=> true * s4.between?(s1, s3) #=> false * s4.between?(s3, s5) #=> true * [ s3, s2, s5, s4, s1 ].sort #=> [Z, YY, XXX, WWWW, VVVVV] * * == What's Here * * \Module \Comparable provides these methods, all of which use method <=>: * * - {<}[#method-i-3C]:: Returns whether +self+ is less than the given object. * - {<=}[#method-i-3C-3D]:: Returns whether +self+ is less than or equal to * the given object. * - {==}[#method-i-3D-3D]:: Returns whether +self+ is equal to the given object. * - {>}[#method-i-3E]:: Returns whether +self+ is greater than or equal to * the given object. * - {>=}[#method-i-3E-3D]:: Returns whether +self+ is greater than the given object. * - #between? Returns +true+ if +self+ is between two given objects. * - #clamp:: For given objects +min+ and +max+, or range (min..max), returns: * - +min+ if (self <=> min) < 0. * - +max+ if (self <=> max) > 0. * - +self+ otherwise. */ void Init_Comparable(void) { rb_mComparable = rb_define_module("Comparable"); rb_define_method(rb_mComparable, "==", cmp_equal, 1); rb_define_method(rb_mComparable, ">", cmp_gt, 1); rb_define_method(rb_mComparable, ">=", cmp_ge, 1); rb_define_method(rb_mComparable, "<", cmp_lt, 1); rb_define_method(rb_mComparable, "<=", cmp_le, 1); rb_define_method(rb_mComparable, "between?", cmp_between, 2); rb_define_method(rb_mComparable, "clamp", cmp_clamp, -1); }