%def op_aget(load="movl", shift="4", data_offset="MIRROR_INT_ARRAY_DATA_OFFSET", wide="0"): /* * Array get, 32 bits or less. vAA <- vBB[vCC]. * * for: aget, aget-boolean, aget-byte, aget-char, aget-short, aget-wide * */ /* op vAA, vBB, vCC */ movzbq 2(rPC), %rax # eax <- BB movzbq 3(rPC), %rcx # ecx <- CC GET_VREG %eax, %rax # eax <- vBB (array object) GET_VREG %ecx, %rcx # ecx <- vCC (requested index) testl %eax, %eax # null array object? je common_errNullObject # bail if so cmpl MIRROR_ARRAY_LENGTH_OFFSET(%eax), %ecx jae common_errArrayIndex # index >= length, bail. .if $wide movq $data_offset(%rax,%rcx,8), %rax SET_WIDE_VREG %rax, rINSTq .else $load $data_offset(%rax,%rcx,$shift), %eax SET_VREG %eax, rINSTq .endif ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_aget_boolean(): % op_aget(load="movzbl", shift="1", data_offset="MIRROR_BOOLEAN_ARRAY_DATA_OFFSET") %def op_aget_byte(): % op_aget(load="movsbl", shift="1", data_offset="MIRROR_BYTE_ARRAY_DATA_OFFSET") %def op_aget_char(): % op_aget(load="movzwl", shift="2", data_offset="MIRROR_CHAR_ARRAY_DATA_OFFSET") %def op_aget_object(): /* * Array object get. vAA <- vBB[vCC]. * * for: aget-object */ /* op vAA, vBB, vCC */ movzbq 2(rPC), %rax # rax <- BB movzbq 3(rPC), %rcx # rcx <- CC GET_VREG OUT_32_ARG0, %rax # eax <- vBB (array object) GET_VREG OUT_32_ARG1, %rcx # ecx <- vCC (requested index) EXPORT_PC call SYMBOL(artAGetObjectFromMterp) # (array, index) movq rSELF, %rcx cmpq $$0, THREAD_EXCEPTION_OFFSET(%rcx) jnz MterpException SET_VREG_OBJECT %eax, rINSTq ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_aget_short(): % op_aget(load="movswl", shift="2", data_offset="MIRROR_SHORT_ARRAY_DATA_OFFSET") %def op_aget_wide(): % op_aget(load="movq", shift="8", data_offset="MIRROR_WIDE_ARRAY_DATA_OFFSET", wide="1") %def op_aput(reg="rINST", store="movl", shift="4", data_offset="MIRROR_INT_ARRAY_DATA_OFFSET", wide="0"): /* * Array put, 32 bits or less. vBB[vCC] <- vAA. * * for: aput, aput-boolean, aput-byte, aput-char, aput-short, aput-wide * */ /* op vAA, vBB, vCC */ movzbq 2(rPC), %rax # rax <- BB movzbq 3(rPC), %rcx # rcx <- CC GET_VREG %eax, %rax # eax <- vBB (array object) GET_VREG %ecx, %rcx # ecx <- vCC (requested index) testl %eax, %eax # null array object? je common_errNullObject # bail if so cmpl MIRROR_ARRAY_LENGTH_OFFSET(%eax), %ecx jae common_errArrayIndex # index >= length, bail. .if $wide GET_WIDE_VREG rINSTq, rINSTq .else GET_VREG rINST, rINSTq .endif $store $reg, $data_offset(%rax,%rcx,$shift) ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_aput_boolean(): % op_aput(reg="rINSTbl", store="movb", shift="1", data_offset="MIRROR_BOOLEAN_ARRAY_DATA_OFFSET") %def op_aput_byte(): % op_aput(reg="rINSTbl", store="movb", shift="1", data_offset="MIRROR_BYTE_ARRAY_DATA_OFFSET") %def op_aput_char(): % op_aput(reg="rINSTw", store="movw", shift="2", data_offset="MIRROR_CHAR_ARRAY_DATA_OFFSET") %def op_aput_object(): /* * Store an object into an array. vBB[vCC] <- vAA. */ /* op vAA, vBB, vCC */ EXPORT_PC leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG0 movq rPC, OUT_ARG1 REFRESH_INST ${opnum} movq rINSTq, OUT_ARG2 call SYMBOL(MterpAputObject) # (array, index) testb %al, %al jz MterpPossibleException ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_aput_short(): % op_aput(reg="rINSTw", store="movw", shift="2", data_offset="MIRROR_SHORT_ARRAY_DATA_OFFSET") %def op_aput_wide(): % op_aput(reg="rINSTq", store="movq", shift="8", data_offset="MIRROR_WIDE_ARRAY_DATA_OFFSET", wide="1") %def op_array_length(): /* * Return the length of an array. */ movl rINST, %eax # eax <- BA sarl $$4, rINST # rINST <- B GET_VREG %ecx, rINSTq # ecx <- vB (object ref) testl %ecx, %ecx # is null? je common_errNullObject andb $$0xf, %al # eax <- A movl MIRROR_ARRAY_LENGTH_OFFSET(%rcx), rINST SET_VREG rINST, %rax ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_fill_array_data(): /* fill-array-data vAA, +BBBBBBBB */ EXPORT_PC movslq 2(rPC), %rcx # rcx <- ssssssssBBBBbbbb leaq (rPC,%rcx,2), OUT_ARG1 # OUT_ARG1 <- PC + ssssssssBBBBbbbb*2 GET_VREG OUT_32_ARG0, rINSTq # OUT_ARG0 <- vAA (array object) call SYMBOL(MterpFillArrayData) # (obj, payload) testb %al, %al # 0 means an exception is thrown jz MterpPossibleException ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 %def op_filled_new_array(helper="MterpFilledNewArray"): /* * Create a new array with elements filled from registers. * * for: filled-new-array, filled-new-array/range */ /* op vB, {vD, vE, vF, vG, vA}, class@CCCC */ /* op {vCCCC..v(CCCC+AA-1)}, type@BBBB */ .extern $helper EXPORT_PC leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG0 movq rPC, OUT_ARG1 movq rSELF, OUT_ARG2 call SYMBOL($helper) testb %al, %al # 0 means an exception is thrown jz MterpPossibleException ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 %def op_filled_new_array_range(): % op_filled_new_array(helper="MterpFilledNewArrayRange") %def op_new_array(): /* * Allocate an array of objects, specified with the array class * and a count. * * The verifier guarantees that this is an array class, so we don't * check for it here. */ /* new-array vA, vB, class@CCCC */ EXPORT_PC leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG0 movq rPC, OUT_ARG1 REFRESH_INST ${opnum} movq rINSTq, OUT_ARG2 movq rSELF, OUT_ARG3 call SYMBOL(MterpNewArray) testb %al, %al # 0 means an exception is thrown jz MterpPossibleException ADVANCE_PC_FETCH_AND_GOTO_NEXT 2