From 898bb1cbe3391dd69093edbbc00f2f164c8457b6 Mon Sep 17 00:00:00 2001
From: tadf <tadf@b2dd03c8-39d4-4d8f-98ff-823fe69b080e>
Date: Sun, 12 Jul 2009 12:09:21 +0000
Subject: 	* complex.c: use k_exact_{zero,one}_p macro.

	* rational.c: ditto.


git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@24036 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
---
 ChangeLog  |  6 ++++++
 complex.c  | 21 ++++++++++-----------
 rational.c | 13 ++++++++-----
 3 files changed, 24 insertions(+), 16 deletions(-)

diff --git a/ChangeLog b/ChangeLog
index 546fad954b..a9032efddc 100644
--- a/ChangeLog
+++ b/ChangeLog
@@ -1,3 +1,9 @@
+Sun Jul 12 21:07:46 2009  Tadayoshi Funaba  <tadf@dotrb.org>
+
+	* complex.c: use k_exact_{zero,one}_p macro.
+
+	* rational.c: ditto.
+
 Sun Jul 12 20:42:58 2009  Tadayoshi Funaba  <tadf@dotrb.org>
 
 	* numeric.c (fix_divide): added an entry to rational.
diff --git a/complex.c b/complex.c
index f8c0ecd1c2..691ffc6cff 100644
--- a/complex.c
+++ b/complex.c
@@ -261,6 +261,9 @@ k_complex_p(VALUE x)
 #define k_exact_p(x) (!k_float_p(x))
 #define k_inexact_p(x) k_float_p(x)
 
+#define k_exact_zero_p(x) (k_exact_p(x) && f_zero_p(x))
+#define k_exact_one_p(x) (k_exact_p(x) && f_one_p(x))
+
 #define get_dat1(x) \
     struct RComplex *dat;\
     dat = ((struct RComplex *)(x))
@@ -362,7 +365,7 @@ nucomp_s_canonicalize_internal(VALUE klass, VALUE real, VALUE imag)
 #ifdef CANON
 #define CL_CANON
 #ifdef CL_CANON
-    if (f_zero_p(imag) && k_exact_p(imag) && canonicalization)
+    if (k_exact_zero_p(imag) && canonicalization)
 	return real;
 #else
     if (f_zero_p(imag) && canonicalization)
@@ -758,10 +761,6 @@ f_divide(VALUE self, VALUE other,
 static VALUE
 nucomp_div(VALUE self, VALUE other)
 {
-#if 0 /* too much cost */
-    if (f_zero_p(other) && k_exact_p(self) && k_exact_p(other))
-	rb_raise_zerodiv();
-#endif
     return f_divide(self, other, f_quo, id_quo);
 }
 
@@ -832,7 +831,7 @@ f_reciprocal(VALUE x)
 static VALUE
 nucomp_expt(VALUE self, VALUE other)
 {
-    if (f_zero_p(other) && k_exact_p(other))
+    if (k_exact_zero_p(other))
 	return f_complex_new_bang1(CLASS_OF(self), ONE);
 
     if (k_rational_p(other) && f_one_p(f_denominator(other)))
@@ -841,7 +840,7 @@ nucomp_expt(VALUE self, VALUE other)
     if (k_complex_p(other)) {
 	get_dat1(other);
 
-	if (k_exact_p(dat->imag) && f_zero_p(dat->imag))
+	if (k_exact_zero_p(dat->imag))
 	    other = dat->real; /* c14n */
     }
 
@@ -1062,7 +1061,7 @@ static VALUE
 nucomp_exact_p(VALUE self)
 {
     get_dat1(self);
-    return f_boolcast(f_exact_p(dat->real) && f_exact_p(dat->imag));
+    return f_boolcast(k_exact_p(dat->real) && k_exact_p(dat->imag));
 }
 
 /* :nodoc: */
@@ -1625,7 +1624,7 @@ nucomp_s_convert(int argc, VALUE *argv, VALUE klass)
 	{
 	    get_dat1(a1);
 
-	    if (k_exact_p(dat->imag) && f_zero_p(dat->imag))
+	    if (k_exact_zero_p(dat->imag))
 		a1 = dat->real;
 	}
     }
@@ -1635,14 +1634,14 @@ nucomp_s_convert(int argc, VALUE *argv, VALUE klass)
 	{
 	    get_dat1(a2);
 
-	    if (k_exact_p(dat->imag) && f_zero_p(dat->imag))
+	    if (k_exact_zero_p(dat->imag))
 		a2 = dat->real;
 	}
     }
 
     switch (TYPE(a1)) {
       case T_COMPLEX:
-	if (argc == 1 || (k_exact_p(a2) && f_zero_p(a2)))
+	if (argc == 1 || (k_exact_zero_p(a2)))
 	    return a1;
     }
 
diff --git a/rational.c b/rational.c
index 632dc90117..d5a87f6b36 100644
--- a/rational.c
+++ b/rational.c
@@ -214,6 +214,9 @@ k_rational_p(VALUE x)
 #define k_exact_p(x) (!k_float_p(x))
 #define k_inexact_p(x) k_float_p(x)
 
+#define k_exact_zero_p(x) (k_exact_p(x) && f_zero_p(x))
+#define k_exact_one_p(x) (k_exact_p(x) && f_one_p(x))
+
 #ifndef NDEBUG
 #define f_gcd f_gcd_orig
 #endif
@@ -892,7 +895,7 @@ extern VALUE rb_fexpt(VALUE x, VALUE y);
 static VALUE
 nurat_expt(VALUE self, VALUE other)
 {
-    if (k_exact_p(other) && f_zero_p(other))
+    if (k_exact_zero_p(other))
 	return f_rational_new_bang1(CLASS_OF(self), ONE);
 
     if (k_rational_p(other)) {
@@ -1051,7 +1054,7 @@ nurat_coerce(VALUE self, VALUE other)
       case T_RATIONAL:
 	return rb_assoc_new(other, self);
       case T_COMPLEX:
-	if (k_exact_p(RCOMPLEX(other)->imag) && f_zero_p(RCOMPLEX(other)->imag))
+	if (k_exact_zero_p(RCOMPLEX(other)->imag))
 	    return rb_assoc_new(f_rational_new_bang1
 				(CLASS_OF(self), RCOMPLEX(other)->real), self);
     }
@@ -1882,13 +1885,13 @@ nurat_s_convert(int argc, VALUE *argv, VALUE klass)
 
     switch (TYPE(a1)) {
       case T_COMPLEX:
-	if (k_exact_p(RCOMPLEX(a1)->imag) && f_zero_p(RCOMPLEX(a1)->imag))
+	if (k_exact_zero_p(RCOMPLEX(a1)->imag))
 	    a1 = RCOMPLEX(a1)->real;
     }
 
     switch (TYPE(a2)) {
       case T_COMPLEX:
-	if (k_exact_p(RCOMPLEX(a2)->imag) && f_zero_p(RCOMPLEX(a2)->imag))
+	if (k_exact_zero_p(RCOMPLEX(a2)->imag))
 	    a2 = RCOMPLEX(a2)->real;
     }
 
@@ -1923,7 +1926,7 @@ nurat_s_convert(int argc, VALUE *argv, VALUE klass)
 
     switch (TYPE(a1)) {
       case T_RATIONAL:
-	if (argc == 1 || (k_exact_p(a2) && f_one_p(a2)))
+	if (argc == 1 || (k_exact_one_p(a2)))
 	    return a1;
     }
 
-- 
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