%default { "isrange":"0" } %verify "executed" %verify "unimplemented array type" /* * 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 */ ldr r3, [rSELF, #offThread_methodClassDex] @ r3<- pDvmDex FETCH(r1, 1) @ r1<- BBBB ldr r3, [r3, #offDvmDex_pResClasses] @ r3<- pDvmDex->pResClasses EXPORT_PC() @ need for resolve and alloc ldr r0, [r3, r1, lsl #2] @ r0<- resolved class mov r10, rINST, lsr #8 @ r10<- AA or BA cmp r0, #0 @ already resolved? bne .L${opcode}_continue @ yes, continue on 8: ldr r3, [rSELF, #offThread_method] @ r3<- self->method mov r2, #0 @ r2<- false ldr r0, [r3, #offMethod_clazz] @ r0<- method->clazz bl dvmResolveClass @ r0<- call(clazz, ref) cmp r0, #0 @ got null? beq common_exceptionThrown @ yes, handle exception b .L${opcode}_continue %break /* * On entry: * r0 holds array class * r10 holds AA or BA */ .L${opcode}_continue: ldr r3, [r0, #offClassObject_descriptor] @ r3<- arrayClass->descriptor mov r2, #ALLOC_DONT_TRACK @ r2<- alloc flags ldrb rINST, [r3, #1] @ rINST<- descriptor[1] .if $isrange mov r1, r10 @ r1<- AA (length) .else mov r1, r10, lsr #4 @ r1<- B (length) .endif cmp rINST, #'I' @ array of ints? cmpne rINST, #'L' @ array of objects? cmpne rINST, #'[' @ array of arrays? mov r9, r1 @ save length in r9 bne .L${opcode}_notimpl @ no, not handled yet bl dvmAllocArrayByClass @ r0<- call(arClass, length, flags) cmp r0, #0 @ null return? beq common_exceptionThrown @ alloc failed, handle exception FETCH(r1, 2) @ r1<- FEDC or CCCC str r0, [rSELF, #offThread_retval] @ retval.l <- new array str rINST, [rSELF, #offThread_retval+4] @ retval.h <- type add r0, r0, #offArrayObject_contents @ r0<- newArray->contents subs r9, r9, #1 @ length--, check for neg FETCH_ADVANCE_INST(3) @ advance to next instr, load rINST bmi 2f @ was zero, bail @ copy values from registers into the array @ r0=array, r1=CCCC/FEDC, r9=length (from AA or B), r10=AA/BA .if $isrange add r2, rFP, r1, lsl #2 @ r2<- &fp[CCCC] 1: ldr r3, [r2], #4 @ r3<- *r2++ subs r9, r9, #1 @ count-- str r3, [r0], #4 @ *contents++ = vX bpl 1b @ continue at 2 .else cmp r9, #4 @ length was initially 5? and r2, r10, #15 @ r2<- A bne 1f @ <= 4 args, branch GET_VREG(r3, r2) @ r3<- vA sub r9, r9, #1 @ count-- str r3, [r0, #16] @ contents[4] = vA 1: and r2, r1, #15 @ r2<- F/E/D/C GET_VREG(r3, r2) @ r3<- vF/vE/vD/vC mov r1, r1, lsr #4 @ r1<- next reg in low 4 subs r9, r9, #1 @ count-- str r3, [r0], #4 @ *contents++ = vX bpl 1b @ continue at 2 .endif 2: ldr r0, [rSELF, #offThread_retval] @ r0<- object ldr r1, [rSELF, #offThread_retval+4] @ r1<- type ldr r2, [rSELF, #offThread_cardTable] @ r2<- card table base GET_INST_OPCODE(ip) @ ip<- opcode from rINST cmp r1, #'I' @ Is int array? strneb r2, [r2, r0, lsr #GC_CARD_SHIFT] @ Mark card based on object head GOTO_OPCODE(ip) @ execute it /* * Throw an exception indicating that we have not implemented this * mode of filled-new-array. */ .L${opcode}_notimpl: ldr r0, .L_strFilledNewArrayNotImpl_${opcode} bl dvmThrowInternalError b common_exceptionThrown /* * Ideally we'd only define this once, but depending on layout we can * exceed the range of the load above. */ .L_strFilledNewArrayNotImpl_${opcode}: .word .LstrFilledNewArrayNotImpl