Cross Reference: /src/external/gpl3/gcc/dist/libgcc/config/pa/milli64.S

Lines Matching defs:LREF
180 #define LREF(sym)	 CAT(.L,sym)
216 #define LREF(sym)	 CAT(L$,sym)
234 	bb,>=,n %r22,30,LREF(1)		; branch if not plabel address
324 	comib,=,n  -1,arg1,LREF(negative1)	/*  when divisor == -1 */
329 	b,n	LREF(neg_denom)
350 	b,n	LREF(regular_seq)
352 	comb,=,n  arg1,temp,LREF(regular_seq)	/*  test against 0x80000000 and 0 */
355 	b,n	LREF(regular_seq)
357 	comb,=,n arg0,retreg,LREF(regular_seq) /*  test against 0x80000000 */
360 	b	LREF(pow2)
363 	comib,>>=,n 15,arg1,LREF(small_divisor)
474 	b	LREF(normal)		/*  divisor == 11 */
478 	b	LREF(normal)		/*  divisor == 13 */
561 	b	LREF(regular_seq)
581 	comib,>=  15,arg1,LREF(special_divisor)
655 /*	comib,>,n  0,arg1,LREF(big_divisor) ; nullify previous instruction */
667 	comib,>	0,arg1,LREF(big_divisor)
695 	b	LREF(normal)		/* divisor == 11 */
699 	b	LREF(normal)		/* divisor == 13 */
774 	b,n		LREF(neg_denom)
776 	comb,>,n	0,arg0,LREF(neg_num)	/*  is numerator < 0 ? */
787 	b,n		LREF(regular_seq)
789 	comb,=,n	arg1,tmp,LREF(regular_seq) /*  test against 0x80000000 and 0 */
792 	b,n		LREF(regular_seq)
793 	comb,>,n	0,arg0,LREF(neg_num_2)	/*  if arg0 < 0, negate it  */
877 	movb,>=,n	 tmp,retreg,LREF(finish) /*  branch if pos.  tmp */
944 	b	LREF(regular_seq)
949 	comib,>=,n  0,arg1,LREF(special_case)
1342 	comb,<,N	x2,0,LREF(neg3)
1347 	b		LREF(pos)
1354 	b		LREF(neg)
1363 	b		LREF(pos)
1370 	comb,<,N	x2,0,LREF(neg5)
1374 	b		LREF(pos)
1382 	b		LREF(neg)
1391 	b		LREF(pos)
1397 	comb,<,N	x2,0,LREF(neg6)
1401 	b		LREF(pos)
1411 	b		LREF(neg)
1420 	b		LREF(pos)
1449 	comb,<		x2,0,LREF(neg10)
1452 	addib,TR	1,x2,LREF(pos)	/* add 1 (cannot overflow)     */
1482 	comb,<		x2,0,LREF(neg12)
1485 	addib,tr	1,x2,LREF(pos)	/* compute 5*(x2+1) = 5*x2+5    */
1493 	b		LREF(neg)
1501 	b		LREF(pos)
1507 	comb,<		x2,0,LREF(neg15)
1509 	addib,tr	1,x2,LREF(pos)+4
1513 	b		LREF(neg)
1519 	b		LREF(pos)
1525 	comb,<,n	x2,0,LREF(neg17)
1530 	b		LREF(pos_for_17)
1538 	b		LREF(neg_for_17)
1549 	b		LREF(pos_for_17)
1582 	comb,<,n	x2,0,LREF(neg7)
1604 	addb,tr		t1,x1,LREF(2)	/* add to previous quotient   */
1610 	addb,tr		t1,x2,LREF(1)	/* adjust remainder */
1636 	addb,tr		t1,x1,LREF(4)	/* add to previous quotient   */
1643 	addb,tr		t1,x2,LREF(3)	/* adjust remainder */
1652 	b		LREF(pos7)
1658 	comb,<,n	x2,0,LREF(neg9)
1663 	b		LREF(pos7)
1671 	b		LREF(neg7_shift)
1681 	b		LREF(pos7)
1687 	comb,<,n	x2,0,LREF(neg14)
1690 	b		LREF(7)		/* go to 7 case */
1695 	b		LREF(8)
1760 #define	a1_ne_0_b_l0	comb,<>	a1,0,LREF(l0)
1761 #define	a1_ne_0_b_l1	comb,<>	a1,0,LREF(l1)
1762 #define	a1_ne_0_b_l2	comb,<>	a1,0,LREF(l2)
1763 #define	b_n_ret_t0	b,n	LREF(ret_t0)
1764 #define	b_e_shift	b	LREF(e_shift)
1765 #define	b_e_t0ma0	b	LREF(e_t0ma0)
1766 #define	b_e_t0		b	LREF(e_t0)
1767 #define	b_e_t0a0	b	LREF(e_t0a0)
1768 #define	b_e_t02a0	b	LREF(e_t02a0)
1769 #define	b_e_t04a0	b	LREF(e_t04a0)
1770 #define	b_e_2t0		b	LREF(e_2t0)
1771 #define	b_e_2t0a0	b	LREF(e_2t0a0)
1772 #define	b_e_2t04a0	b	LREF(e2t04a0)
1773 #define	b_e_3t0		b	LREF(e_3t0)
1774 #define	b_e_4t0		b	LREF(e_4t0)
1775 #define	b_e_4t0a0	b	LREF(e_4t0a0)
1776 #define	b_e_4t08a0	b	LREF(e4t08a0)
1777 #define	b_e_5t0		b	LREF(e_5t0)
1778 #define	b_e_8t0		b	LREF(e_8t0)
1779 #define	b_e_8t0a0	b	LREF(e_8t0a0)
1822 	combt,<<=	a1,a0,LREF(l4)	/* swap args if unsigned a1>a0 */
1828 	combt,<=	0,a0,LREF(l3)		/* if a0>=0 then proceed like unsigned */
1831 	combt,<=,n	a0,t0,LREF(l2)	/*  swap back if |a0|<|a1| */
1833 	movb,tr,n	t0,a0,LREF(l2)	/* 10th inst.  */
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