%def unused(): int3 %def op_const(): /* const vAA, #+BBBBbbbb */ movl 2(rPC), %eax # grab all 32 bits at once SET_VREG %eax, rINST # vAA<- eax ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 %def op_const_16(): /* const/16 vAA, #+BBBB */ movswl 2(rPC), %ecx # ecx <- ssssBBBB SET_VREG %ecx, rINST # vAA <- ssssBBBB ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_const_4(): /* const/4 vA, #+B */ movsbl rINSTbl, %eax # eax <-ssssssBx andl MACRO_LITERAL(0xf), rINST # rINST <- A sarl MACRO_LITERAL(4), %eax SET_VREG %eax, rINST ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_const_high16(): /* const/high16 vAA, #+BBBB0000 */ movzwl 2(rPC), %eax # eax <- 0000BBBB sall MACRO_LITERAL(16), %eax # eax <- BBBB0000 SET_VREG %eax, rINST # vAA <- eax ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_const_object(jumbo="0", helper="nterp_load_object"): // Fast-path which gets the object from thread-local cache. % fetch_from_thread_cache("%eax", miss_label="2f") cmpl MACRO_LITERAL(0), rSELF:THREAD_READ_BARRIER_MARK_REG00_OFFSET jne 3f 1: SET_VREG_OBJECT %eax, rINST # vAA <- value .if $jumbo ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 .else ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 .endif 2: EXPORT_PC movl rSELF:THREAD_SELF_OFFSET, ARG0 movl 0(%esp), ARG1 movl rPC, ARG2 call SYMBOL($helper) jmp 1b 3: // 00 is %eax call art_quick_read_barrier_mark_reg00 jmp 1b %def op_const_class(): % op_const_object(jumbo="0", helper="nterp_get_class") %def op_const_method_handle(): % op_const_object(jumbo="0") %def op_const_method_type(): % op_const_object(jumbo="0") %def op_const_string(): /* const/string vAA, String@BBBB */ % op_const_object(jumbo="0") %def op_const_string_jumbo(): /* const/string vAA, String@BBBBBBBB */ % op_const_object(jumbo="1") %def op_const_wide(): /* const-wide vAA, #+HHHHhhhhBBBBbbbb */ movl 2(rPC), %eax # eax <- lsw movzbl rINSTbl, %ecx # ecx <- AA movl 6(rPC), rINST # rINST <- msw SET_VREG %eax, %ecx SET_VREG_HIGH rINST, %ecx ADVANCE_PC_FETCH_AND_GOTO_NEXT 5 %def op_const_wide_16(): /* const-wide/16 vAA, #+BBBB */ movswl 2(rPC), %eax # eax <- ssssBBBB movl rIBASE, %ecx # preserve rIBASE (cdq trashes it) cdq # rIBASE:eax <- ssssssssssssBBBB SET_VREG_HIGH rIBASE, rINST # store msw SET_VREG %eax, rINST # store lsw movl %ecx, rIBASE # restore rIBASE ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_const_wide_32(): /* const-wide/32 vAA, #+BBBBbbbb */ movl 2(rPC), %eax # eax <- BBBBbbbb movl rIBASE, %ecx # preserve rIBASE (cdq trashes it) cdq # rIBASE:eax <- ssssssssssssBBBB SET_VREG_HIGH rIBASE, rINST # store msw SET_VREG %eax, rINST # store lsw movl %ecx, rIBASE # restore rIBASE ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 %def op_const_wide_high16(): /* const-wide/high16 vAA, #+BBBB000000000000 */ movzwl 2(rPC), %eax # eax <- 0000BBBB sall $$16, %eax # eax <- BBBB0000 SET_VREG_HIGH %eax, rINST # v[AA+1] <- eax xorl %eax, %eax SET_VREG %eax, rINST # v[AA+0] <- eax ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_monitor_enter(): /* * Synchronize on an object. */ /* monitor-enter vAA */ EXPORT_PC GET_VREG ARG0, rINST call art_quick_lock_object RESTORE_IBASE ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_monitor_exit(): /* * Unlock an object. * * Exceptions that occur when unlocking a monitor need to appear as * if they happened at the following instruction. See the Dalvik * instruction spec. */ /* monitor-exit vAA */ EXPORT_PC GET_VREG ARG0, rINST call art_quick_unlock_object RESTORE_IBASE ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_move(is_object="0"): /* for move, move-object, long-to-int */ /* op vA, vB */ movl rINST, %eax # eax <- BA andb $$0xf, %al # eax <- A shrl $$4, rINST # rINST <- B GET_VREG %ecx, rINST .if $is_object SET_VREG_OBJECT %ecx, %eax # fp[A] <- fp[B] .else SET_VREG %ecx, %eax # fp[A] <- fp[B] .endif ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_move_16(is_object="0"): /* for: move/16, move-object/16 */ /* op vAAAA, vBBBB */ movzwl 4(rPC), %ecx # ecx <- BBBB movzwl 2(rPC), %eax # eax <- AAAA GET_VREG %ecx, %ecx .if $is_object SET_VREG_OBJECT %ecx, %eax # fp[A] <- fp[B] .else SET_VREG %ecx, %eax # fp[A] <- fp[B] .endif ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 %def op_move_exception(): /* move-exception vAA */ movl rSELF:THREAD_EXCEPTION_OFFSET, %eax SET_VREG_OBJECT %eax, rINST # fp[AA] <- exception object movl $$0, rSELF:THREAD_EXCEPTION_OFFSET ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_move_from16(is_object="0"): /* for: move/from16, move-object/from16 */ /* op vAA, vBBBB */ movzwl 2(rPC), %eax # eax <- BBBB GET_VREG %ecx, %eax # ecx <- fp[BBBB] .if $is_object SET_VREG_OBJECT %ecx, rINST # fp[A] <- fp[B] .else SET_VREG %ecx, rINST # fp[A] <- fp[B] .endif ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_move_object(): % op_move(is_object="1") %def op_move_object_16(): % op_move_16(is_object="1") %def op_move_object_from16(): % op_move_from16(is_object="1") %def op_move_result(is_object="0"): /* for: move-result, move-result-object */ /* op vAA */ .if $is_object SET_VREG_OBJECT %eax, rINST # fp[A] <- fp[B] .else SET_VREG %eax, rINST # fp[A] <- fp[B] .endif ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_move_result_object(): % op_move_result(is_object="1") %def op_move_result_wide(): /* move-result-wide vAA */ SET_VREG %eax, rINST LOAD_WIDE_RETURN %eax SET_VREG_HIGH %eax, rINST ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_move_wide(): /* move-wide vA, vB */ /* NOTE: regs can overlap, e.g. "move v6,v7" or "move v7,v6" */ movzbl rINSTbl, %ecx # ecx <- BA sarl $$4, rINST # rINST <- B andb $$0xf, %cl # ecx <- A GET_WIDE_FP_VREG %xmm0, rINST # xmm0 <- v[B] SET_WIDE_FP_VREG %xmm0, %ecx # v[A] <- xmm0 ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_move_wide_16(): /* move-wide/16 vAAAA, vBBBB */ /* NOTE: regs can overlap, e.g. "move v6,v7" or "move v7,v6" */ movzwl 4(rPC), %ecx # ecx<- BBBB movzwl 2(rPC), %eax # eax<- AAAA GET_WIDE_FP_VREG %xmm0, %ecx # xmm0 <- v[B] SET_WIDE_FP_VREG %xmm0, %eax # v[A] <- xmm0 ADVANCE_PC_FETCH_AND_GOTO_NEXT 3 %def op_move_wide_from16(): /* move-wide/from16 vAA, vBBBB */ /* NOTE: regs can overlap, e.g. "move v6,v7" or "move v7,v6" */ movzwl 2(rPC), %ecx # ecx <- BBBB movzbl rINSTbl, %eax # eax <- AAAA GET_WIDE_FP_VREG %xmm0, %ecx # xmm0 <- v[B] SET_WIDE_FP_VREG %xmm0, %eax # v[A] <- xmm0 ADVANCE_PC_FETCH_AND_GOTO_NEXT 2 %def op_nop(): ADVANCE_PC_FETCH_AND_GOTO_NEXT 1 %def op_unused_3e(): % unused() %def op_unused_3f(): % unused() %def op_unused_40(): % unused() %def op_unused_41(): % unused() %def op_unused_42(): % unused() %def op_unused_43(): % unused() %def op_unused_73(): % unused() %def op_unused_79(): % unused() %def op_unused_7a(): % unused() %def op_unused_e3(): % unused() %def op_unused_e4(): % unused() %def op_unused_e5(): % unused() %def op_unused_e6(): % unused() %def op_unused_e7(): % unused() %def op_unused_e8(): % unused() %def op_unused_e9(): % unused() %def op_unused_ea(): % unused() %def op_unused_eb(): % unused() %def op_unused_ec(): % unused() %def op_unused_ed(): % unused() %def op_unused_ee(): % unused() %def op_unused_ef(): % unused() %def op_unused_f0(): % unused() %def op_unused_f1(): % unused() %def op_unused_f2(): % unused() %def op_unused_f3(): % unused() %def op_unused_f4(): % unused() %def op_unused_f5(): % unused() %def op_unused_f6(): % unused() %def op_unused_f7(): % unused() %def op_unused_f8(): % unused() %def op_unused_f9(): % unused() %def op_unused_fc(): % unused() %def op_unused_fd(): % unused()