2024-09-04 03:14:57 -07:00
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;; eval.lisp -- Evaluate parsed proposition strings
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;; Copyright (C) 2024 Alexander Rosenberg
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;;
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;; This program is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;;
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;; This program is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;;
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;; You should have received a copy of the GNU General Public License
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;; along with this program. If not, see <https://www.gnu.org/licenses/>.
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(in-package :truth-table/base)
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(define-condition proposition-eval-error (error)
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((message :initarg :message
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:accessor proposition-eval-error-message)
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(proposition :initarg :proposition
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:accessor proposition-eval-error-proposition
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:initform nil))
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(:report (lambda (con stream)
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(with-slots (message proposition)
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con
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(format stream "~a~@[:~% ~a~]"
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message proposition))))
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(:documentation "Condition representing an error that occurred during
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evaluation for a proposition."))
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(defun logical-xor (&rest args)
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"Logical xor (not equal) each argument in turn with its following argument.
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NOTE: This is NOT a macro, there is no short circuit evaluation (all arguments
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are evaluated no matter what)."
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2024-09-04 03:14:57 -07:00
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(loop with result = nil
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for arg in args do
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(setq result (not (eq result arg)))
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finally (return result)))
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(defun logical-and (&rest args)
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"Logical and (all true).
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NOTE: This is NOT a macro, there is no short circuit evaluation (all arguments
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are evaluated no matter what)."
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(not (member nil args)))
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(defun logical-or (&rest args)
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"Logical or (one or more true).
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2024-09-06 14:20:13 -07:00
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NOTE: This is NOT a macro, so there is no short circuit evaluation (all
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arguments are evaluated no matter what)."
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(not (not (member t args))))
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(defun logical-implies (prop1 prop2)
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"Evaluate the logical implies operation on PROP1 and PROP2. That is \"if
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PROP1, then PROP2\".
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2024-09-06 14:20:13 -07:00
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NOTE: This is NOT a macro, so there is no short circuit evaluation (all
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arguments are evaluated no matter what)."
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2024-09-04 03:14:57 -07:00
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(if prop1 ;; only if first is true
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prop2 ;; eval second
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t)) ;; otherwise, just return true
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(defun check-operator-argument-count (oper args)
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"Raise an error if OPER cannot be called with ARGS."
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(multiple-value-bind (min max) (operator-argument-count oper)
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(let ((arg-count (length args)))
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(cond
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((< arg-count min)
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(error 'proposition-eval-error
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:message
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(format nil "~s ~[takes no arguments~;requires one argument~:;~
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requires at least ~:*~d arguments~], ~
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but got ~[none~:;~:*~d~]"
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oper min arg-count)))
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((and max (> arg-count max))
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(error 'proposition-eval-error
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:message
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(format nil "~s can take at most ~d argument~:p, but got ~d"
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oper max arg-count)))))))
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(defun keep-unique-expressions (mapping)
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"Keep only unique expressions from MAPPING, which is an alist as returned by
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`eval-proposition'."
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(loop for entry in mapping
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unless (assoc (car entry) output :test 'equal)
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collect entry into output
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finally (return output)))
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(defun eval-proposition (prop vars)
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"Evaluate the proposition PROP, with the alist VARS mapping variables to their
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values. Return the result of the proposition as the first value, and an alist
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mapping sub expressions to their results as the second value.
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NOTE: the second value does not include individual variables, literal values
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(true and false)."
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(cond
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;; prop is a variable name
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((stringp prop)
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(let ((entry (assoc prop vars :test 'equal)))
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(unless entry
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(error 'proposition-eval-error
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:message (format nil "unknown variable: ~S~%" prop)))
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(values (cdr entry) '())))
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;; prop is true or false
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((eq prop 'true)
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(values t '()))
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((eq prop 'false)
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(values nil '()))
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;; prop is a compound expression
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(t
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(loop with (oper . args) = prop
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for arg in args
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for (value sub-map) = (multiple-value-list
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(eval-proposition arg vars))
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nconc sub-map into mapping
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collect value into arg-values
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finally
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(check-operator-argument-count oper args)
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(let ((result
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(case oper
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;; avoid using the macros `and' and `or' so we can avoid
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;; using `eval'
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(and
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(apply 'logical-and arg-values))
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(nand
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(not (apply 'logical-and arg-values)))
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(or
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(apply 'logical-or arg-values))
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(nor
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(not (apply 'logical-or arg-values)))
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(xor
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(apply 'logical-xor arg-values))
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(not
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(not (car arg-values)))
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(implies
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(logical-implies (car arg-values)
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(second arg-values)))
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(converse
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;; this is just implies with the arguments flipped
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(logical-implies (second arg-values)
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(car arg-values)))
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(iff
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(eq (car arg-values) ;; both must have the same value
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(second arg-values))))))
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(return (values result
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(keep-unique-expressions
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(cons (cons prop result) mapping)))))))))
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