# frv testcase for caddcc $GRi,$GRj,$GRk,$CCi,$cond # mach: all .include "testutils.inc" start .global caddcc caddcc: set_spr_immed 0x1b1b,cccr set_gr_immed 1,gr7 set_gr_immed 2,gr8 set_icc 0x0f,0 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc0,1 test_icc 0 0 0 0 icc0 test_gr_immed 3,gr8 set_gr_limmed 0x7fff,0xffff,gr7 set_gr_immed 1,gr8 set_icc 0x05,0 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc0,1 test_icc 1 0 1 0 icc0 test_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,0 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc4,1 test_icc 0 1 1 1 icc0 test_gr_immed 0,gr8 set_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,0 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc4,1; test zero, carry and overflow bits test_icc 0 1 1 1 icc0 test_gr_immed 0,gr8 set_gr_immed 1,gr7 set_gr_immed 2,gr8 set_icc 0x0f,0 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc0,0 test_icc 1 1 1 1 icc0 test_gr_immed 2,gr8 set_gr_limmed 0x7fff,0xffff,gr7 set_gr_immed 1,gr8 set_icc 0x05,0 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc0,0 test_icc 0 1 0 1 icc0 test_gr_immed 1,gr8 set_icc 0x08,0 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc4,0 test_icc 1 0 0 0 icc0 test_gr_immed 1,gr8 set_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,0 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc4,0; test zero, carry and overflow bits test_icc 1 0 0 0 icc0 test_gr_limmed 0x8000,0x0000,gr8 set_gr_immed 1,gr7 set_gr_immed 2,gr8 set_icc 0x0f,1 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc1,0 test_icc 0 0 0 0 icc1 test_gr_immed 3,gr8 set_gr_limmed 0x7fff,0xffff,gr7 set_gr_immed 1,gr8 set_icc 0x05,1 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc1,0 test_icc 1 0 1 0 icc1 test_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,1 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc5,0 test_icc 0 1 1 1 icc1 test_gr_immed 0,gr8 set_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,1 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc5,0; test zero, carry and overflow bits test_icc 0 1 1 1 icc1 test_gr_immed 0,gr8 set_gr_immed 1,gr7 set_gr_immed 2,gr8 set_icc 0x0f,1 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc1,1 test_icc 1 1 1 1 icc1 test_gr_immed 2,gr8 set_gr_limmed 0x7fff,0xffff,gr7 set_gr_immed 1,gr8 set_icc 0x05,1 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc1,1 test_icc 0 1 0 1 icc1 test_gr_immed 1,gr8 set_icc 0x08,1 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc5,1 test_icc 1 0 0 0 icc1 test_gr_immed 1,gr8 set_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,1 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc5,1; test zero, carry and overflow bits test_icc 1 0 0 0 icc1 test_gr_limmed 0x8000,0x0000,gr8 set_gr_immed 1,gr7 set_gr_immed 2,gr8 set_icc 0x0f,2 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc2,0 test_icc 1 1 1 1 icc2 test_gr_immed 2,gr8 set_gr_limmed 0x7fff,0xffff,gr7 set_gr_immed 1,gr8 set_icc 0x05,2 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc2,0 test_icc 0 1 0 1 icc2 test_gr_immed 1,gr8 set_icc 0x08,2 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc6,1 test_icc 1 0 0 0 icc2 test_gr_immed 1,gr8 set_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,2 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc6,1; test zero, carry and overflow bits test_icc 1 0 0 0 icc2 test_gr_limmed 0x8000,0x0000,gr8 set_gr_immed 1,gr7 set_gr_immed 2,gr8 set_icc 0x0f,3 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc3,0 test_icc 1 1 1 1 icc3 test_gr_immed 2,gr8 set_gr_limmed 0x7fff,0xffff,gr7 set_gr_immed 1,gr8 set_icc 0x05,3 ; Set mask opposite of expected caddcc gr7,gr8,gr8,cc3,0 test_icc 0 1 0 1 icc3 test_gr_immed 1,gr8 set_icc 0x08,3 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc7,1 test_icc 1 0 0 0 icc3 test_gr_immed 1,gr8 set_gr_limmed 0x8000,0x0000,gr8 set_icc 0x08,3 ; Set mask opposite of expected caddcc gr8,gr8,gr8,cc7,1; test zero, carry and overflow bits test_icc 1 0 0 0 icc3 test_gr_limmed 0x8000,0x0000,gr8 pass