From fa90e48c53384889d28f171170ab79d777d46949 Mon Sep 17 00:00:00 2001
From: Julien Palard <julien@palard.fr>
Date: Sun, 6 Feb 2022 13:44:04 +0100
Subject: [PATCH] [doc] Enhance readability by avoiding big blocks for small
 numbers. (GH-31157)

Initially reported by Gregory Jacob on the docs@ mailing list:

https://mail.python.org/archives/list/docs@python.org/thread/VPSFGLOZOHSPF7TGPOI65AOH25TCPSVR/
---
 Doc/tutorial/floatingpoint.rst | 12 +++---------
 1 file changed, 3 insertions(+), 9 deletions(-)

diff --git a/Doc/tutorial/floatingpoint.rst b/Doc/tutorial/floatingpoint.rst
index 7212b40be83..e1cd7f9ece7 100644
--- a/Doc/tutorial/floatingpoint.rst
+++ b/Doc/tutorial/floatingpoint.rst
@@ -12,15 +12,9 @@ Floating Point Arithmetic:  Issues and Limitations
 
 
 Floating-point numbers are represented in computer hardware as base 2 (binary)
-fractions.  For example, the decimal fraction ::
-
-   0.125
-
-has value 1/10 + 2/100 + 5/1000, and in the same way the binary fraction ::
-
-   0.001
-
-has value 0/2 + 0/4 + 1/8.  These two fractions have identical values, the only
+fractions.  For example, the **decimal** fraction ``0.125``
+has value 1/10 + 2/100 + 5/1000, and in the same way the **binary** fraction ``0.001``
+has value 0/2 + 0/4 + 1/8. These two fractions have identical values, the only
 real difference being that the first is written in base 10 fractional notation,
 and the second in base 2.