Arithmetic Rewrite Rules: Difference between revisions
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imported>Laurent Updated side-condition for rules SIMP_LIT_IN_*. |
imported>Laurent Removed rules SIMP_CARD_SETMINUS and SIMP_CARD_CPROD (are now inference rules). |
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{{RRRow}}|*||{{Rulename|SIMP_CARD_POW}}||<math> \card (\pow (S)) \;\;\defi\;\; 2 ^ \card (S) </math>|| || A | {{RRRow}}|*||{{Rulename|SIMP_CARD_POW}}||<math> \card (\pow (S)) \;\;\defi\;\; 2 ^ \card (S) </math>|| || A | ||
{{RRRow}}|*||{{Rulename|SIMP_CARD_BUNION}}||<math> \card (S \bunion T) \;\;\defi\;\; \card (S) + \card (T) - \card (S \binter T) </math>|| || A | {{RRRow}}|*||{{Rulename|SIMP_CARD_BUNION}}||<math> \card (S \bunion T) \;\;\defi\;\; \card (S) + \card (T) - \card (S \binter T) </math>|| || A | ||
{{RRRow}}|||{{Rulename|SIMP_CARD_CONVERSE}}||<math> \card (r^{-1} ) \;\;\defi\;\; \card (r) </math>|| || A | {{RRRow}}|||{{Rulename|SIMP_CARD_CONVERSE}}||<math> \card (r^{-1} ) \;\;\defi\;\; \card (r) </math>|| || A | ||
{{RRRow}}|||{{Rulename|SIMP_CARD_ID}}||<math> \card (\id (S)) \;\;\defi\;\; \card (S) </math>|| || A | {{RRRow}}|||{{Rulename|SIMP_CARD_ID}}||<math> \card (\id (S)) \;\;\defi\;\; \card (S) </math>|| || A | ||
Revision as of 11:59, 1 February 2010
| Name | Rule | Side Condition | A/M | |
|---|---|---|---|---|
SIMP_SPECIAL_MOD_0 |
 |
A | ||
SIMP_SPECIAL_MOD_1 |
 |
A | ||
SIMP_MIN_SING |
 |
where  is a single expression |
A | |
SIMP_MAX_SING |
 |
where is a single expression |
A | |
SIMP_MIN_NATURAL |
 |
A | ||
SIMP_MIN_NATURAL1 |
 |
A | ||
SIMP_MIN_BUNION_SING |
 |
A | ||
SIMP_MAX_BUNION_SING |
 |
A | ||
SIMP_MIN_UPTO |
 |
A | ||
SIMP_MAX_UPTO |
 |
A | ||
SIMP_LIT_MIN |
 |
where  and  are literals and  |
A | |
SIMP_LIT_MAX |
 |
where and are literals and  |
A | |
SIMP_LIT_MIN_UPTO |
 |
where  are literals |
A | |
SIMP_LIT_MAX_UPTO |
 |
where are literals |
A | |
| * | SIMP_SPECIAL_CARD |
 |
A | |
| * | SIMP_CARD_SING |
 |
where is a single expression |
A |
| * | SIMP_SPECIAL_EQUAL_CARD |
 |
A | |
| * | SIMP_CARD_POW |
 |
A | |
| * | SIMP_CARD_BUNION |
 |
A | |
SIMP_CARD_CONVERSE |
 |
A | ||
SIMP_CARD_ID |
 |
A | ||
SIMP_CARD_LAMBDA |
 |
A | ||
SIMP_CARD_COMPSET |
 |
where  non free in  |
A | |
| * | SIMP_LIT_CARD_UPTO |
 |
where and are literals and |
A |
SIMP_TYPE_CARD |
 |
where  is a carrier set containing  elements |
A | |
SIMP_LIT_GE_CARD_0 |
 |
A | ||
SIMP_LIT_LE_CARD_1 |
 |
A | ||
SIMP_LIT_LE_CARD_0 |
 |
A | ||
SIMP_LIT_GE_CARD_0 |
 |
A | ||
| * | SIMP_LIT_GT_CARD_0 |
 |
A | |
| * | SIMP_LIT_LT_CARD_0 |
 |
A | |
| * | SIMP_LIT_EQUAL_CARD_1 |
 |
A | |
SIMP_CARD_NATURAL |
 |
A | ||
SIMP_CARD_NATURAL1 |
 |
A | ||
SIMP_LIT_IN_NATURAL |
 |
where is a non-negative literal |
A | |
SIMP_SPECIAL_IN_NATURAL1 |
 |
A | ||
SIMP_LIT_IN_NATURAL1 |
 |
where is a positive literal |
A | |
SIMP_LIT_UPTO |
 |
where and are literals and  |
A | |
SIMP_LIT_IN_MINUS_NATURAL |
 |
where is a positive literal |
A | |
SIMP_LIT_IN_MINUS_NATURAL1 |
 |
where is a non-negative literal |
A | |
DEF_IN_NATURAL |
 |
where has type  |
A | |
DEF_IN_NATURAL1 |
 |
where has type |
A | |
SIMP_SPECIAL_KBOOL_BTRUE |
 |
A | ||
SIMP_SPECIAL_KBOOL_BFALSE |
 |
A | ||
| * | SIMP_LIT_EQUAL_KBOOL_TRUE |
 |
A | |
| * | SIMP_LIT_EQUAL_KBOOL_FALSE |
 |
A | |
DEF_EQUAL_MIN |
 |
where non free in  |
M | |
DEF_EQUAL_MAX |
 |
where non free in |
M | |
| * | SIMP_SPECIAL_PLUS |
 |
A | |
| * | SIMP_SPECIAL_MINUS_R |
 |
A | |
| * | SIMP_SPECIAL_MINUS_L |
 |
A | |
| * | SIMP_MINUS_MINUS |
 |
A | |
| * | SIMP_MINUS_UNMINUS |
 |
where  is a unary minus expression or a negative literal |
M |
| * | SIMP_MULTI_MINUS |
 |
A | |
| * | SIMP_MULTI_MINUS_PLUS_L |
 |
M | |
| * | SIMP_MULTI_MINUS_PLUS_R |
 |
M | |
| * | SIMP_MULTI_MINUS_PLUS_PLUS |
 |
M | |
| * | SIMP_MULTI_PLUS_MINUS |
 |
M | |
| * | SIMP_MULTI_ARITHREL_PLUS_PLUS |
 |
where the root relation ( here) is one of  |
M |
| * | SIMP_MULTI_ARITHREL_PLUS_R |
 |
where the root relation ( here) is one of |
M |
| * | SIMP_MULTI_ARITHREL_PLUS_L |
 |
where the root relation ( here) is one of |
M |
| * | SIMP_MULTI_ARITHREL_MINUS_MINUS_R |
 |
where the root relation ( here) is one of |
M |
| * | SIMP_MULTI_ARITHREL_MINUS_MINUS_L |
 |
where the root relation ( here) is one of |
M |
| * | SIMP_SPECIAL_PROD_0 |
 |
A | |
| * | SIMP_SPECIAL_PROD_1 |
 |
A | |
| * | SIMP_SPECIAL_PROD_MINUS_EVEN |
 |
if an even number of  |
A |
| * | SIMP_SPECIAL_PROD_MINUS_ODD |
 |
if an odd number of |
A |
SIMP_LIT_MINUS |
 |
where is a literal |
A | |
SIMP_LIT_MINUS_MINUS |
 |
where is a literal |
A | |
| * | SIMP_LIT_EQUAL |
 |
where and are literals |
A |
| * | SIMP_LIT_LE |
 |
where and are literals |
A |
| * | SIMP_LIT_LT |
 |
where and are literals |
A |
| * | SIMP_LIT_GE |
 |
where and are literals |
A |
| * | SIMP_LIT_GT |
 |
where and are literals |
A |
| * | SIMP_DIV_MINUS |
 |
A | |
SIMP_SPECIAL_DIV_1 |
 |
A | ||
| * | SIMP_SPECIAL_DIV_0 |
 |
A | |
| * | SIMP_SPECIAL_EXPN_1_R |
 |
A | |
| * | SIMP_SPECIAL_EXPN_1_L |
 |
A | |
| * | SIMP_SPECIAL_EXPN_0 |
 |
A | |
| * | SIMP_MULTI_LE |
 |
A | |
| * | SIMP_MULTI_LT |
 |
A | |
| * | SIMP_MULTI_GE |
 |
A | |
| * | SIMP_MULTI_GT |
 |
A | |
| * | SIMP_MULTI_DIV |
 |
A | |
| * | SIMP_MULTI_DIV_PROD |
 |
A | |
SIMP_MULTI_MOD |
 |
A | ||
DISTRI_PROD_PLUS |
 |
M | ||
DISTRI_PROD_MINUS |
 |
M | ||
DERIV_NOT_EQUAL |
 |
and  must be of Integer type |
M |
