From: Michael Orlitzky <michael@orlitzky.com>
Date: Wed, 9 Nov 2016 14:34:41 +0000 (-0500)
Subject: Fix docstring formatting of the solution() method.
X-Git-Tag: 0.1.0~60
X-Git-Url: http://gitweb.michael.orlitzky.com/?p=dunshire.git;a=commitdiff_plain;h=e297d8d0471068f10d4953570047d6770ceeb7be

Fix docstring formatting of the solution() method.
---

diff --git a/dunshire/games.py b/dunshire/games.py
index b27be52..437b533 100644
--- a/dunshire/games.py
+++ b/dunshire/games.py
@@ -887,45 +887,42 @@ class SymmetricLinearGame:
             >>> SLG.solution().game_value() < -ABS_TOL
             True
 
-        Tests
-        -----
-
         The following two games are problematic numerically, but we
         should be able to solve them::
 
-        >>> from dunshire import *
-        >>> L = [[-0.95237953890954685221, 1.83474556206462535712],
-        ...      [ 1.30481749924621448500, 1.65278664543326403447]]
-        >>> K = NonnegativeOrthant(2)
-        >>> e1 = [0.95477167524644313001, 0.63270781756540095397]
-        >>> e2 = [0.39633793037154141370, 0.10239281495640320530]
-        >>> SLG = SymmetricLinearGame(L, K, e1, e2)
-        >>> print(SLG.solution())
-        Game value: 18.767...
-        Player 1 optimal:
-          [-0.000...]
-          [ 9.766...]
-        Player 2 optimal:
-          [1.047...]
-          [0.000...]
+            >>> from dunshire import *
+            >>> L = [[-0.95237953890954685221, 1.83474556206462535712],
+            ...      [ 1.30481749924621448500, 1.65278664543326403447]]
+            >>> K = NonnegativeOrthant(2)
+            >>> e1 = [0.95477167524644313001, 0.63270781756540095397]
+            >>> e2 = [0.39633793037154141370, 0.10239281495640320530]
+            >>> SLG = SymmetricLinearGame(L, K, e1, e2)
+            >>> print(SLG.solution())
+            Game value: 18.767...
+            Player 1 optimal:
+              [-0.000...]
+              [ 9.766...]
+            Player 2 optimal:
+              [1.047...]
+              [0.000...]
 
         ::
 
-        >>> from dunshire import *
-        >>> L = [[1.54159395026049472754, 2.21344728574316684799],
-        ...      [1.33147433507846657541, 1.17913616272988108769]]
-        >>> K = NonnegativeOrthant(2)
-        >>> e1 = [0.39903040089404784307, 0.12377403622479113410]
-        >>> e2 = [0.15695181142215544612, 0.85527381344651265405]
-        >>> SLG = SymmetricLinearGame(L, K, e1, e2)
-        >>> print(SLG.solution())
-        Game value: 24.614...
-        Player 1 optimal:
-          [ 6.371...]
-          [-0.000...]
-        Player 2 optimal:
-          [2.506...]
-          [0.000...]
+            >>> from dunshire import *
+            >>> L = [[1.54159395026049472754, 2.21344728574316684799],
+            ...      [1.33147433507846657541, 1.17913616272988108769]]
+            >>> K = NonnegativeOrthant(2)
+            >>> e1 = [0.39903040089404784307, 0.12377403622479113410]
+            >>> e2 = [0.15695181142215544612, 0.85527381344651265405]
+            >>> SLG = SymmetricLinearGame(L, K, e1, e2)
+            >>> print(SLG.solution())
+            Game value: 24.614...
+            Player 1 optimal:
+              [ 6.371...]
+              [-0.000...]
+            Player 2 optimal:
+              [2.506...]
+              [0.000...]
 
         """
         try: