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Write an unsigned 32-bit integer to memory.
The memory address is the one of the first byte; we write that, and the subsequent bytes. For now we only support little endian memory, so the first byte is the lowest one.
As in write-memory-unsigned8,
we let the address be any integer.
We use write-memory-unsigned8 twice.
Note that if
Function:
(defun write-memory-unsigned32 (addr val stat feat) (declare (xargs :guard (and (integerp addr) (ubyte32p val) (statp stat) (featp feat)))) (declare (xargs :guard (stat-validp stat feat))) (let ((__function__ 'write-memory-unsigned32)) (declare (ignorable __function__)) (b* ((addr (lifix addr)) (val (ubyte32-fix val)) (b0 (logand val 255)) (b1 (logand (ash val -8) 255)) (b2 (logand (ash val -16) 255)) (b3 (ash val -24)) (stat (write-memory-unsigned8 addr b0 stat feat)) (stat (write-memory-unsigned8 (+ addr 1) b1 stat feat)) (stat (write-memory-unsigned8 (+ addr 2) b2 stat feat)) (stat (write-memory-unsigned8 (+ addr 3) b3 stat feat))) stat)))
Theorem:
(defthm statp-of-write-memory-unsigned32 (b* ((new-stat (write-memory-unsigned32 addr val stat feat))) (statp new-stat)) :rule-classes :rewrite)
Theorem:
(defthm stat-validp-of-write-memory-unsigned32 (implies (stat-validp stat feat) (b* ((?new-stat (write-memory-unsigned32 addr val stat feat))) (stat-validp new-stat feat))))
Theorem:
(defthm write-memory-unsigned32-of-ifix-addr (equal (write-memory-unsigned32 (ifix addr) val stat feat) (write-memory-unsigned32 addr val stat feat)))
Theorem:
(defthm write-memory-unsigned32-int-equiv-congruence-on-addr (implies (acl2::int-equiv addr addr-equiv) (equal (write-memory-unsigned32 addr val stat feat) (write-memory-unsigned32 addr-equiv val stat feat))) :rule-classes :congruence)
Theorem:
(defthm write-memory-unsigned32-of-ubyte32-fix-val (equal (write-memory-unsigned32 addr (ubyte32-fix val) stat feat) (write-memory-unsigned32 addr val stat feat)))
Theorem:
(defthm write-memory-unsigned32-ubyte32-equiv-congruence-on-val (implies (acl2::ubyte32-equiv val val-equiv) (equal (write-memory-unsigned32 addr val stat feat) (write-memory-unsigned32 addr val-equiv stat feat))) :rule-classes :congruence)
Theorem:
(defthm write-memory-unsigned32-of-stat-fix-stat (equal (write-memory-unsigned32 addr val (stat-fix stat) feat) (write-memory-unsigned32 addr val stat feat)))
Theorem:
(defthm write-memory-unsigned32-stat-equiv-congruence-on-stat (implies (stat-equiv stat stat-equiv) (equal (write-memory-unsigned32 addr val stat feat) (write-memory-unsigned32 addr val stat-equiv feat))) :rule-classes :congruence)
Theorem:
(defthm write-memory-unsigned32-of-feat-fix-feat (equal (write-memory-unsigned32 addr val stat (feat-fix feat)) (write-memory-unsigned32 addr val stat feat)))
Theorem:
(defthm write-memory-unsigned32-feat-equiv-congruence-on-feat (implies (feat-equiv feat feat-equiv) (equal (write-memory-unsigned32 addr val stat feat) (write-memory-unsigned32 addr val stat feat-equiv))) :rule-classes :congruence)