// Test r4 = ROT (r2 by r3); # mach: bfin .include "testutils.inc" start R0.L = 0x0001; R0.H = 0x8000; // rot // left by 1 // 8000 0001 -> 0000 0002 cc=1 R7 = 0; CC = R7; R1 = 1; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0002 ); DBGA ( R6.H , 0x0000 ); R7 = CC; DBGA ( R7.L , 0x0001 ); // rot // right by -1 // 8000 0001 -> 4000 0000 cc=1 R7 = 0; CC = R7; R1.L = 0xffff; // check alternate mechanism for immediates R1.H = 0xffff; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0000 ); DBGA ( R6.H , 0x4000 ); R7 = CC; DBGA ( R7.L , 0x0001 ); // rot // right by largest positive magnitude of 31 // 8000 0001 -> a000 0000 cc=0 R7 = 0; CC = R7; R1 = 31; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0000 ); DBGA ( R6.H , 0xa000 ); R7 = CC; DBGA ( R7.L , 0x0000 ); // rot // right by largest positive magnitude of 31 with cc=1 // 8000 0001 cc=1 -> a000 0000 cc=0 R7 = 1; CC = R7; R1 = 31; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0000 ); DBGA ( R6.H , 0xe000 ); R7 = CC; DBGA ( R7.L , 0x0000 ); // rot // right by largest negative magnitude of -31 // 8000 0001 -> 0000 0005 cc=0 R7 = 0; CC = R7; R1 = -31; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0005 ); DBGA ( R6.H , 0x0000 ); R7 = CC; DBGA ( R7.L , 0x0000 ); // rot // right by largest negative magnitude of -31 with cc=1 // 8000 0001 cc=1 -> 0000 0007 cc=0 R7 = 1; CC = R7; R1 = -31; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0007 ); DBGA ( R6.H , 0x0000 ); R7 = CC; DBGA ( R7.L , 0x0000 ); // rot // left by 7 // 8000 0001 cc=1 -> 0000 00e0 cc=0 R7 = 1; CC = R7; R1 = 7; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x00e0 ); DBGA ( R6.H , 0x0000 ); R7 = CC; DBGA ( R7.L , 0x0000 ); // rot by zero // 8000 0001 -> 8000 0000 R7 = 1; CC = R7; R1 = 0; R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0001 ); DBGA ( R6.H , 0x8000 ); R7 = CC; DBGA ( R7.L , 0x0001 ); // rot by 0b1100 0001 is the same as by 1 (mask 6 bits) // 8000 0001 -> 0000 0002 cc=1 R7 = 0; CC = R7; R1 = 0xc1 (X); R6 = ROT R0 BY R1.L; DBGA ( R6.L , 0x0002 ); DBGA ( R6.H , 0x0000 ); R7 = CC; DBGA ( R7.L , 0x0001 ); pass