Inference Rules: Difference between revisions
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imported>Laurent Marked CARD_EMPTY_INTERV as not implemented. |
imported>Laurent Added rules SIMP_CARD_SETMINUS_L, SIMP_CARD_SETMINUS_R, SIMP_CARD_CPROD_L and SIMP_CARD_CPROD_R (were previously rewrite rules). |
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{{RRRow}}|*||{{Rulename|DERIV_EQUAL_CARD}}|| <math>\frac{\textbf{H} \;\;\vdash\;\; S = T}{\textbf{H} \;\;\vdash\;\; \card(S) = \card(T)}</math> || <math>S</math> and <math>T</math> bear the same type || M | {{RRRow}}|*||{{Rulename|DERIV_EQUAL_CARD}}|| <math>\frac{\textbf{H} \;\;\vdash\;\; S = T}{\textbf{H} \;\;\vdash\;\; \card(S) = \card(T)}</math> || <math>S</math> and <math>T</math> bear the same type || M | ||
{{RRRow}}| ||{{Rulename|SIMP_CARD_SETMINUS_L}}||<math>\frac{\textbf{H},\, \textbf{P}(\card (S \setminus T)) \;\;\vdash\;\; \finite(S) \qquad \textbf{H},\, \textbf{P}(\card(S) - \card(S\binter T)) \;\;\vdash\;\; \textbf{G}}{\textbf{H},\, \textbf{P}(\card (S \setminus T)) \;\;\vdash\;\; \textbf{G}} </math>|| <math>\card (S \setminus T)</math> must appear at "top-level" || M | |||
{{RRRow}}| ||{{Rulename|SIMP_CARD_SETMINUS_R}}||<math>\frac{\textbf{H} \;\;\vdash\;\; \finite(S) \qquad \textbf{H} \;\;\vdash\;\; \textbf{P}(\card(S) - \card(S\binter T))}{\textbf{H} \;\;\vdash\;\; \textbf{P}(\card (S \setminus T))} </math>|| <math>\card (S \setminus T)</math> must appear at "top-level" || M | |||
{{RRRow}}| ||{{Rulename|SIMP_CARD_CPROD_L}}||<math>\frac{\textbf{H},\, \textbf{P}(\card (S \cprod T)) \;\;\vdash\;\; \finite(S) \qquad \textbf{H},\, \textbf{P}(\card (S \cprod T)) \;\;\vdash\;\; \finite(T) \qquad \textbf{H},\, \textbf{P}(\card(S) * \card(T)) \;\;\vdash\;\; \textbf{G}}{\textbf{H},\, \textbf{P}(\card (S \cprod T)) \;\;\vdash\;\; \textbf{G}} </math>|| <math>\card (S \cprod T)</math> must appear at "top-level" || M | |||
{{RRRow}}| ||{{Rulename|SIMP_CARD_CPROD_R}}||<math>\frac{\textbf{H} \;\;\vdash\;\; \finite(S) \qquad \textbf{H} \;\;\vdash\;\; \finite(T) \qquad \textbf{H} \;\;\vdash\;\; \textbf{P}(\card(S) * \card(T))}{\textbf{H} \;\;\vdash\;\; \textbf{P}(\card (S \cprod T))} </math>|| <math>\card (S \cprod T)</math> must appear at "top-level" || M | |||
{{RRRow}}|*||{{Rulename|FORALL_INST}}|| <math>\frac{\textbf{H} \;\;\vdash \;\; {WD}(E) \qquad \textbf{H} , [x \bcmeq E]\textbf{P} \;\;\vdash \;\; \textbf{G}}{\textbf{H}, \forall x \qdot \textbf{P} \;\;\vdash\;\; \textbf{G}}</math> || <math>x</math> is instantiated with <math>E</math> || M | {{RRRow}}|*||{{Rulename|FORALL_INST}}|| <math>\frac{\textbf{H} \;\;\vdash \;\; {WD}(E) \qquad \textbf{H} , [x \bcmeq E]\textbf{P} \;\;\vdash \;\; \textbf{G}}{\textbf{H}, \forall x \qdot \textbf{P} \;\;\vdash\;\; \textbf{G}}</math> || <math>x</math> is instantiated with <math>E</math> || M |
Revision as of 11:56, 1 February 2010
Conventions used in these tables are described in The_Proving_Perspective_(Rodin_User_Manual)#Inference_Rules.
Rules that are marked with a b in the first column are currently broken in Rodin 1.1 (see bug 2895507).
Name | Rule | Side Condition | A/M
| |
---|---|---|---|---|
* | HYP |
A
| ||
* | HYP_OR |
A
| ||
* | CNTR |
A
| ||
* | FALSE_HYP |
A
| ||
* | TRUE_GOAL |
A
| ||
* | FUN_GOAL |
where and denote types and is one of , , , , , , . | A
| |
* | DBL_HYP |
A
| ||
* | AND_L |
A
| ||
* | AND_R |
A
| ||
IMP_L1 |
A
| |||
* | IMP_R |
A
| ||
* | IMP_AND_L |
A
| ||
* | IMP_OR_L |
A
| ||
* | AUTO_MH |
A
| ||
* | NEG_IN_L |
A
| ||
* | NEG_IN_R |
A
| ||
* | XST_L |
A
| ||
* | ALL_R |
A
| ||
* | EQL_LR |
is a variable which is not free in | A
| |
* | EQL_RL |
is a variable which is not free in | A
| |
SUBSET_INTER |
the operator must appear at the "top level" | A
| ||
IN_INTER |
the operator must appear at the "top level" | A
| ||
NOTIN_INTER |
the operator must appear at the "top level" | A
| ||
* | FIN_L_LOWER_BOUND_L |
The goal is discharged | A
| |
* | FIN_L_LOWER_BOUND_R |
The goal is discharged | A
| |
* | FIN_L_UPPER_BOUND_L |
The goal is discharged | A
| |
* | FIN_L_UPPER_BOUND_R |
The goal is discharged | A
| |
* | CONTRADICT_L |
M
| ||
* | CONTRADICT_R |
M
| ||
* | CASE |
M
| ||
* | MH |
M
| ||
* | HM |
M
| ||
EQV |
M
| |||
* | OV_L |
the operator must appear at the "top level" | M
| |
* | OV_R |
the operator must appear at the "top level" | M
| |
* | OV_L |
the operator must appear at the "top level" | M
| |
* | OV_R |
the operator must appear at the "top level" | M
| |
* | DIS_BINTER_R |
the occurrence of must appear at the "top level". Moreover and denote some type. | M
| |
* | DIS_BINTER_L |
the occurrence of must appear at the "top level". Moreover and denote some type. | M
| |
* | DIS_SETMINUS_R |
the occurrence of must appear at the "top level". Moreover and denote some type. | M
| |
* | DIS_SETMINUS_L |
the occurrence of must appear at the "top level". Moreover and denote some type. | M
| |
* | SIM_REL_IMAGE_R |
the occurrence of must appear at the "top level". | M
| |
* | SIM_REL_IMAGE_L |
the occurrence of must appear at the "top level". | M
| |
* | SIM_FCOMP_R |
the occurrence of must appear at the "top level". | M
| |
* | SIM_FCOMP_L |
the occurrence of must appear at the "top level". | M
| |
* | FIN_SUBSETEQ_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | FIN_BINTER_R |
M
| ||
* | FIN_SETMINUS_R |
M
| ||
* | FIN_REL_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | FIN_REL_IMG_R |
M
| ||
* | FIN_REL_RAN_R |
M
| ||
* | FIN_REL_DOM_R |
M
| ||
* | FIN_FUN1_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | FIN_FUN2_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | FIN_FUN_IMG_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | FIN_FUN_RAN_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | FIN_FUN_DOM_R |
the user has to write the set corresponding to in the editing area of the Proof Control Window | M
| |
* | LOWER_BOUND_L |
must not contain any bound variable | M
| |
* | LOWER_BOUND_R |
must not contain any bound variable | M
| |
* | UPPER_BOUND_L |
must not contain any bound variable | M
| |
* | UPPER_BOUND_R |
must not contain any bound variable | M
| |
* | FIN_LT_0 |
M
| ||
* | FIN_GE_0 |
M
| ||
CARD_INTERV |
must appear at "top-level" | M
| ||
CARD_EMPTY_INTERV |
must appear at "top-level" | M
| ||
* | DERIV_LE_CARD |
and bear the same type | M
| |
* | DERIV_GE_CARD |
and bear the same type | M
| |
* | DERIV_LT_CARD |
and bear the same type | M
| |
* | DERIV_GT_CARD |
and bear the same type | M
| |
* | DERIV_EQUAL_CARD |
and bear the same type | M
| |
SIMP_CARD_SETMINUS_L |
must appear at "top-level" | M | ||
SIMP_CARD_SETMINUS_R |
must appear at "top-level" | M
| ||
SIMP_CARD_CPROD_L |
must appear at "top-level" | M | ||
SIMP_CARD_CPROD_R |
must appear at "top-level" | M
| ||
* | FORALL_INST |
is instantiated with | M
| |
* | FORALL_INST_MP |
is instantiated with and a Modus Ponens is applied | M
| |
* | CUT |
hypothesis is added | M
| |
* | EXISTS_INST |
is instantiated with | M
| |
* | DISTINCT_CASE |
case distinction on predicate | M
| |
ONE_POINT_L |
The rule can be applied with as well as with | A
| ||
ONE_POINT_R |
The rule can be applied with as well as with | A |