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Use the external tool ABC to apply a combinational simplification to the network, and assume the result correct.
(abc-comb-simplify input-aignet output-aignet config state) → (mv new-output-aignet new-state)
Function:
(defun abc-comb-simplify (input-aignet output-aignet config state) (declare (xargs :stobjs (input-aignet output-aignet state))) (declare (xargs :guard (abc-comb-simp-config-p config))) (let ((__function__ 'abc-comb-simplify)) (declare (ignorable __function__)) (b* (((abc-comb-simp-config config)) ((mv input-filename state) (oslib::tempfile "abc-comb-simplify-input.aig")) ((mv output-filename state) (oslib::tempfile "abc-comb-simplify-output.aig")) ((mv script-filename state) (oslib::tempfile "abc-comb-simplify-script")) ((unless (and input-filename output-filename script-filename)) (cw "Error -- couldn't generate temp filenames.~%") (b* ((output-aignet (aignet-raw-copy input-aignet output-aignet))) (mv output-aignet state))) (script (str::cat "&r " input-filename "; " config.script "; &w " output-filename)) ((local-stobjs frames) (mv output-aignet state frames)) ((mv status output-aignet frames) (aignet-abc input-aignet output-aignet frames script :script-filename script-filename :input-filename input-filename :output-filename output-filename :axiom :comb-simp)) ((when (stringp status)) (cw "Error -- ABC failed: ~s0~%" status) (b* ((output-aignet (aignet-raw-copy input-aignet output-aignet))) (mv output-aignet state frames)))) (mv output-aignet state frames))))
Theorem:
(defthm normalize-inputs-of-abc-comb-simplify (implies (syntaxp (not (equal output-aignet ''nil))) (equal (abc-comb-simplify input-aignet output-aignet config state) (abc-comb-simplify input-aignet nil config state))))
Theorem:
(defthm num-ins-of-abc-comb-simplify (b* (((mv ?new-output-aignet ?new-state) (abc-comb-simplify input-aignet output-aignet config state))) (equal (stype-count :pi new-output-aignet) (stype-count :pi input-aignet))))
Theorem:
(defthm num-regs-of-abc-comb-simplify (b* (((mv ?new-output-aignet ?new-state) (abc-comb-simplify input-aignet output-aignet config state))) (equal (stype-count :reg new-output-aignet) (stype-count :reg input-aignet))))
Theorem:
(defthm num-outs-of-abc-comb-simplify (b* (((mv ?new-output-aignet ?new-state) (abc-comb-simplify input-aignet output-aignet config state))) (equal (stype-count :po new-output-aignet) (stype-count :po input-aignet))))
Theorem:
(defthm abc-comb-simplify-comb-equivalent (b* (((mv ?new-output-aignet ?new-state) (abc-comb-simplify input-aignet output-aignet config state))) (comb-equiv new-output-aignet input-aignet)))
Theorem:
(defthm w-state-of-abc-comb-simplify (b* (((mv ?new-output-aignet ?new-state) (abc-comb-simplify input-aignet output-aignet config state))) (equal (w new-state) (w state))))