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[/] [openrisc/] [trunk/] [gnu-src/] [binutils-2.20.1/] [gas/] [testsuite/] [gas/] [tic4x/] [addressing.s] - Rev 219
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;; ;; test all addressing modes and register constraints ;; (types/classes is read from include/opcodes/tic4x.h) ;; .text start: ;; ;; Type B - infix condition branch ;; Type_BI:bu Type_BI ; Unconditional branch (00000) bc Type_BI ; Carry branch (00001) blo Type_BI ; Lower than branch (00001) bls Type_BI ; Lower than or same branch (00010) bhi Type_BI ; Higher than branch (00011) bhs Type_BI ; Higher than or same branch (00100) bnc Type_BI ; No carry branch (00100) beq Type_BI ; Equal to branch (00101) bz Type_BI ; Zero branch (00101) bne Type_BI ; Not equal to branch (00110) bnz Type_BI ; Not zero branch (00110) blt Type_BI ; Less than branch (00111) bn Type_BI ; Negative branch (00111) ble Type_BI ; Less than or equal to branch (01000) bgt Type_BI ; Greater than branch (01001) bp Type_BI ; Positive branch (01001) bge Type_BI ; Greater than or equal branch (01010) bnn Type_BI ; Nonnegative branch (01010) bnv Type_BI ; No overflow branch (01000) bv Type_BI ; Overflow branch (01101) bnuf Type_BI ; No underflow branch (01110) buf Type_BI ; Underflow branch (01111) bnlv Type_BI ; No latched overflow branch (10000) blv Type_BI ; Latched overflow branch (10001) bnluf Type_BI ; No latched FP underflow branch (10010) bluf Type_BI ; Latched FP underflow branch (10011) bzuf Type_BI ; Zero or FP underflow branch (10100) b Type_BI ; Unconditional branch (00000) ;; ;; Type C - infix condition load ;; Type_CI:ldiu R0,R0 ; Unconditional load (00000) ldic R0,R0 ; Carry load (00001) ldilo R0,R0 ; Lower than load (00001) ldils R0,R0 ; Lower than or same load (00010) ldihi R0,R0 ; Higher than load (00011) ldihs R0,R0 ; Higher than or same load (00100) ldinc R0,R0 ; No carry load (00100) ldieq R0,R0 ; Equal to load (00101) ldiz R0,R0 ; Zero load (00101) ldine R0,R0 ; Not equal to load (00110) ldinz R0,R0 ; Not zero load (00110) ldil R0,R0 ; Less than load (00111) ldin R0,R0 ; Negative load (00111) ldile R0,R0 ; Less than or equal to load (01000) ldigt R0,R0 ; Greater than load (01001) ldip R0,R0 ; Positive load (01001) ldige R0,R0 ; Greater than or equal load (01010) ldinn R0,R0 ; Nonnegative load (01010) ldinv R0,R0 ; No overflow load (01000) ldiv R0,R0 ; Overflow load (01101) ldinuf R0,R0 ; No underflow load (01110) ldiuf R0,R0 ; Underflow load (01111) ldinlv R0,R0 ; No latched overflow load (10000) ldilv R0,R0 ; Latched overflow load (10001) ldinluf R0,R0 ; No latched FP underflow load (10010) ldiluf R0,R0 ; Latched FP underflow load (10011) ldizuf R0,R0 ; Zero or FP underflow load (10100) ;; ;; Type * - Indirect (full) ;; Type_ind: ldi *AR0,R0 ; Indirect addressing (G=10) ldi *+AR0(5),R0 ; with predisplacement add ldi *-AR0(5),R0 ; with predisplacement subtract ldi *++AR0(5),R0 ; with predisplacement add and modify ldi *--AR0(5),R0 ; with predisplacement subtract and modify ldi *AR0++(5),R0 ; with postdisplacement add and modify ldi *AR0--(5),R0 ; with postdisplacement subtract and modify ldi *AR0++(5)%,R0 ; with postdisplacement add and circular modify ldi *AR0--(5)%,R0 ; with postdisplacement subtract and circular modify ldi *+AR0(IR0),R0 ; with predisplacement add ldi *-AR0(IR0),R0 ; with predisplacement subtract ldi *++AR0(IR0),R0 ; with predisplacement add and modify ldi *--AR0(IR0),R0 ; with predisplacement subtract and modify ldi *AR0++(IR0),R0 ; with postdisplacement add and modify ldi *AR0--(IR0),R0 ; with postdisplacement subtract and modify ldi *AR0++(IR0)%,R0 ; with postdisplacement add and circular modify ldi *AR0--(IR0)%,R0 ; with postdisplacement subtract and circular modify ldi *AR0++(IR0)B,R0 ; with postincrement add and bit-reversed modify ldi *AR0++,R0 ; Same as *AR0++(1) ;; ;; Type # - Direct for ldp ;; Type_ldp: ldp 12 ldp @start ldp start ;; ;; Type @ - Direct ;; Type_dir: ldi @start,R0 ldi start,R0 ldi @16,R0 ldi @65535,R0 ;; ;; Type A - Address register ;; Type_A: dbc AR0,R0 dbc AR2,R0 dbc AR7,R0 ;; ;; Type B - Unsigned integer (PC) ;; Type_B: br start br 0x809800 ;; ;; Type C - Indirect ;; .ifdef TEST_C4X Type_C: addc3 *+AR0(5),R0,R0 .endif ;; ;; Type E - Register (all) ;; Type_E: andn3 R0,R0,R0 andn3 AR0,R0,R0 addc3 DP,R0,R0 andn3 R7,R0,R0 ;; ;; Type e - Register (0-11) ;; Type_ee:subf3 R7,R0,R0 addf3 R0,R0,R0 addf3 R7,R0,R0 cmpf3 R7,R0 .ifdef TEST_C4X addf3 R11,R0,R0 .endif ;; ;; Type F - Short float immediate ;; Type_F: ldf 0,R0 ldf 3.5,R0 ldf -3.5,R0 ldf 0e-3.5e-1,R0 ;; ;; Type G - Register (all) ;; Type_G: andn3 R0,AR0,R0 addc3 R0,DP,R0 addc3 R0,R0,R0 andn3 R0,R7,R0 ;; ;; Type g - Register (0-11) ;; Type_gg:subf3 R0,R7,R0 addf3 R0,R0,R0 addf3 R0,R7,R0 cmpf3 R0,R7 .ifdef TEST_C4X addf3 R0,R11,R0 .endif ;; ;; Type H - Register (0-7) ;; Type_H: stf R0,*AR0 &|| stf R0,*AR0 stf R0,*AR0 &|| stf R2,*AR0 stf R0,*AR0 &|| stf R7,*AR0 ;; ;; Type I - Indirect ;; Type_I: addf3 *AR0,R0,R0 ; Indirect addressing (G=10) addf3 *+AR0(1),R0,R0 ; with predisplacement add addf3 *-AR0(1),R0,R0 ; with predisplacement subtract addf3 *++AR0(1),R0,R0 ; with predisplacement add and modify addf3 *--AR0(1),R0,R0 ; with predisplacement subtract and modify addf3 *AR0++(1),R0,R0 ; with postdisplacement add and modify addf3 *AR0--(1),R0,R0 ; with postdisplacement subtract and modify addf3 *AR0++(1)%,R0,R0; with postdisplacement add and circular modify addf3 *AR0--(1)%,R0,R0; with postdisplacement subtract and circular modify addf3 *+AR0(IR0),R0,R0; with predisplacement add addf3 *-AR0(IR0),R0,R0; with predisplacement subtract addf3 *++AR0(IR0),R0,R0; with predisplacement add and modify addf3 *--AR0(IR0),R0,R0; with predisplacement subtract and modify addf3 *AR0++(IR0),R0,R0; with postdisplacement add and modify addf3 *AR0--(IR0),R0,R0; with postdisplacement subtract and modify addf3 *AR0++(IR0)%,R0,R0; with postdisplacement add and circular modify addf3 *AR0--(IR0)%,R0,R0; with postdisplacement subtract and circular modify addf3 *AR0++(IR0)B,R0,R0; with postincrement add and bit-reversed modify addf3 *AR0++,R0,R0 ; Same as *AR0++(1) ;; ;; Type J - Indirect ;; Type_J: addf3 R0,*AR0,R0 ; Indirect addressing (G=10) addf3 R0,*+AR0(1),R0 ; with predisplacement add addf3 R0,*-AR0(1),R0 ; with predisplacement subtract addf3 R0,*++AR0(1),R0 ; with predisplacement add and modify addf3 R0,*--AR0(1),R0 ; with predisplacement subtract and modify addf3 R0,*AR0++(1),R0 ; with postdisplacement add and modify addf3 R0,*AR0--(1),R0 ; with postdisplacement subtract and modify addf3 R0,*AR0++(1)%,R0; with postdisplacement add and circular modify addf3 R0,*AR0--(1)%,R0; with postdisplacement subtract and circular modify addf3 R0,*+AR0(IR0),R0; with predisplacement add addf3 R0,*-AR0(IR0),R0; with predisplacement subtract addf3 R0,*++AR0(IR0),R0; with predisplacement add and modify addf3 R0,*--AR0(IR0),R0; with predisplacement subtract and modify addf3 R0,*AR0++(IR0),R0; with postdisplacement add and modify addf3 R0,*AR0--(IR0),R0; with postdisplacement subtract and modify addf3 R0,*AR0++(IR0)%,R0; with postdisplacement add and circular modify addf3 R0,*AR0--(IR0)%,R0; with postdisplacement subtract and circular modify addf3 R0,*AR0++(IR0)B,R0; with postincrement add and bit-reversed modify addf3 R0,*AR0++,R0 ; Same as *AR0++(1) ;; ;; Type K - Register (0-7) ;; Type_K: ldf *AR0,R0 &|| ldf *AR0,R1 ldf *AR0,R0 &|| ldf *AR0,R2 ldf *AR0,R0 &|| ldf *AR0,R7 ;; ;; Type L - Register (0-7) ;; Type_L: stf R0,*AR0 &|| stf R0,*AR0 stf R2,*AR0 &|| stf R0,*AR0 stf R7,*AR0 &|| stf R0,*AR0 ;; ;; Type M - Register (2-3) ;; Type_M: mpyf3 *AR0,*AR0,R0 &|| addf3 R0,R0,R2 mpyf3 *AR0,*AR0,R0 &|| addf3 R0,R0,R3 ;; ;; Type N - Register (0-1) ;; Type_N: mpyf3 *AR0,*AR0,R0 &|| addf3 R0,R0,R2 mpyf3 *AR0,*AR0,R1 &|| addf3 R0,R0,R2 ;; ;; Type O - Indirect ;; .ifdef TEST_C4X Type_O: addc3 *+AR0(5),*+AR0(5),R0 .endif ;; ;; Type P - Displacement (PC rel) ;; Type_P: callc start callc 1 ;; ;; Type Q - Register (all) ;; Type_Q: ldi R0,R0 ldi AR0,R0 ldi DP,R0 ldi SP,R0 ;; ;; Type q - Register (0-11) ;; Type_qq:fix R0,R0 fix R7,R0 .ifdef TEST_C4X fix R11,R0 absf R11,R0 .endif ;; ;; Type R - Register (all) ;; Type_R: ldi R0,R0 ldi R0,AR0 ldi R0,DP ldi R0,SP ;; ;; Type r - Register (0-11) ;; Type_rr:ldf R0,R0 ldf R0,R7 .ifdef TEST_C4X ldf R0,R11 .endif ;; ;; Type S - Signed immediate ;; Type_S: ldi 0,R0 ldi -123,R0 ldi 6543,R0 ldi -32768, R0 ;; ;; Type T - Integer ;; .ifdef TEST_C4X Type_T: stik 0,*AR0 stik 12,*AR0 stik -5,*AR0 .endif ;; ;; Type U - Unsigned integer ;; Type_U: and 0,R0 and 256,R0 and 65535,R0 ;; ;; Type V - Vector ;; Type_V: trapu 12 trapu 0 trapu 31 .ifdef TEST_C4X trapu 511 .endif ;; ;; Type W - Short int ;; .ifdef TEST_C4X Type_W: addc3 -3,R0,R0 addc3 5,R0,R0 .endif ;; ;; Type X - Expansion register ;; .ifdef TEST_C4X Type_X: ldep IVTP,R0 ldep TVTP,R0 .endif ;; ;; Type Y - Address register ;; .ifdef TEST_C4X Type_Y: lda R0,AR0 lda R0,DP lda R0,SP lda R0,IR0 .endif ;; ;; Type Z - Expansion register ;; .ifdef TEST_C4X Type_Z: ldpe R0,IVTP ldpe R0,TVTP .endif
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