diff options
Diffstat (limited to 'src/input/fixed.input.pamphlet')
-rw-r--r-- | src/input/fixed.input.pamphlet | 10 |
1 files changed, 5 insertions, 5 deletions
diff --git a/src/input/fixed.input.pamphlet b/src/input/fixed.input.pamphlet index 67279b89..e4ff69da 100644 --- a/src/input/fixed.input.pamphlet +++ b/src/input/fixed.input.pamphlet @@ -756,7 +756,7 @@ complexNumeric(log(sqrt(-3))) -- answer (barry): -- --Your problem in TEST about specifying target types which are Mapping's ---was a bug in the compiler and has been fixed for Axiom release 2.0. +--was a bug in the compiler and has been fixed for OpenAxiom release 2.0. -- ------------------------------------------------------------------- @@ -1191,7 +1191,7 @@ ll 3 -- 4893,4653,4475,4005,3893,3669,3459,3143,2967, -- 2807,2529,1827,1695,975,875,629,569 ---It was gotten from Axiom by issuing the commands +--It was gotten from OpenAxiom by issuing the commands qrimes : Stream Integer := generate(nextPrime,2**512-5000) rrimes := [ 2**512-p for p in qrimes while p < 2**512 ] srimes := complete rrimes @@ -1285,7 +1285,7 @@ L -- (5) ["There is","a real bug","here"] -- --Is there a way to fix this bug quickly ?? (I am ready to modify the source ---Axiom aggcat.spad). +--OpenAxiom aggcat.spad). --The problem with ! functions lies in the documentation not in the code. We --need to explain more clearly that ! functions are ALLOWED to update their --arguments, not REQUIRED to do so. @@ -1327,7 +1327,7 @@ minimalPolynomial(y)$E -- tr := rule cos(x)**(n | integer? n and even? n)==(1-sin(x)**2)**(n/2) -- ---Axiom returns +--OpenAxiom returns -- -- Cannot find a definition or library operation named even? with argument -- types @@ -1362,7 +1362,7 @@ tr := rule cos(x)**(n | integer? n and even? n)==(1-sin(x)**2)**(n/2) -- copper@yktvmv.vnet.ibm.com/02/22/94 don coppersmith ------------------------------------------------------------------- )clear all ---Questions that came up using Axiom on Aixproj: +--Questions that came up using OpenAxiom on Aixproj: -- --How does one find a Pade approximation? I tried pade(2,2,y) --pade(y,2,2) Pade(2,2,y) PadeApproximation(2,2,y) |