Jeremy Avigad 7d72c9b6b5 refactor(library/algebra/{field,ordered_field}, library/*): more renaming, setting implicit arguments ... Many theorems for division rings and fields have stronger versions for discrete fields, where we assume x / 0 = 0. Before, we used primes to distinguish the versions, but that has the downside that e.g. for rat and real, all the theorems are equally present. Now, I qualified the weaker ones with division_ring.foo or field.foo. Maybe that is not ideal, but let's try it. I also set implicit arguments with the following convention: an argument to a theorem should be explicit unless it can be inferred from the other arguments and hypotheses.		2015-09-01 14:47:19 -07:00
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bezout.lean	feat(library/tactic/assert_tactic): allow duplicate names for hypotheses in assert tactic	2015-07-23 18:52:59 -07:00
irrational_roots.lean	refactor(library/algebra/{field,ordered_field}, library/*): more renaming, setting implicit arguments	2015-09-01 14:47:19 -07:00
number_theory.md	feat/refactor(library/theories/number_theory/irrational_roots,library/*): show nth roots irrational, and add lots of missing theorems	2015-08-16 23:23:23 -04:00
prime_factorization.lean	feat/refactor(library/theories/number_theory/irrational_roots,library/*): show nth roots irrational, and add lots of missing theorems	2015-08-16 23:23:23 -04:00
primes.lean	feat/refactor(library/theories/number_theory/irrational_roots,library/*): show nth roots irrational, and add lots of missing theorems	2015-08-16 23:23:23 -04:00