runtime/interpreter/mterp/x86_64/control_flow.S - LeafOS-Project/android_art - Gitiles

 %def bincmp(revcmp=""):
 /*
  * Generic two-operand compare-and-branch operation.  Provide a "revcmp"
  * fragment that specifies the *reverse* comparison to perform, e.g.
  * for "if-le" you would use "gt".
  *
  * For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le
  */
     /* if-cmp vA, vB, +CCCC */
     movl    rINST, %ecx                     # rcx <- A+
     sarl    $$4, rINST                      # rINST <- B
     andb    $$0xf, %cl                      # rcx <- A
     GET_VREG %eax, %rcx                     # eax <- vA
     cmpl    VREG_ADDRESS(rINSTq), %eax      # compare (vA, vB)
     j${revcmp}   1f
     movswq  2(rPC), rINSTq                  # Get signed branch offset
     testq   rINSTq, rINSTq
     jmp     MterpCommonTakenBranch
 1:
     cmpl    $$JIT_CHECK_OSR, rPROFILE
     je      .L_check_not_taken_osr
     ADVANCE_PC_FETCH_AND_GOTO_NEXT 2

 %def zcmp(revcmp=""):
 /*
  * Generic one-operand compare-and-branch operation.  Provide a "revcmp"
  * fragment that specifies the *reverse* comparison to perform, e.g.
  * for "if-le" you would use "gt".
  *
  * for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez
  */
     /* if-cmp vAA, +BBBB */
     cmpl    $$0, VREG_ADDRESS(rINSTq)       # compare (vA, 0)
     j${revcmp}   1f
     movswq  2(rPC), rINSTq                  # fetch signed displacement
     testq   rINSTq, rINSTq
     jmp     MterpCommonTakenBranch
 1:
     cmpl    $$JIT_CHECK_OSR, rPROFILE
     je      .L_check_not_taken_osr
     ADVANCE_PC_FETCH_AND_GOTO_NEXT 2

 %def op_goto():
 /*
  * Unconditional branch, 8-bit offset.
  *
  * The branch distance is a signed code-unit offset, which we need to
  * double to get a byte offset.
  */
     /* goto +AA */
     movsbq  rINSTbl, rINSTq                 # rINSTq <- ssssssAA
     testq   rINSTq, rINSTq
     jmp     MterpCommonTakenBranch

 %def op_goto_16():
 /*
  * Unconditional branch, 16-bit offset.
  *
  * The branch distance is a signed code-unit offset, which we need to
  * double to get a byte offset.
  */
     /* goto/16 +AAAA */
     movswq  2(rPC), rINSTq                  # rINSTq <- ssssAAAA
     testq   rINSTq, rINSTq
     jmp     MterpCommonTakenBranch

 %def op_goto_32():
 /*
  * Unconditional branch, 32-bit offset.
  *
  * The branch distance is a signed code-unit offset, which we need to
  * double to get a byte offset.
  *
  *  Because we need the SF bit set, we'll use an adds
  * to convert from Dalvik offset to byte offset.
  */
     /* goto/32 +AAAAAAAA */
     movslq  2(rPC), rINSTq                  # rINSTq <- AAAAAAAA
     testq   rINSTq, rINSTq
     jmp     MterpCommonTakenBranch

 %def op_if_eq():
 %  bincmp(revcmp="ne")

 %def op_if_eqz():
 %  zcmp(revcmp="ne")

 %def op_if_ge():
 %  bincmp(revcmp="l")

 %def op_if_gez():
 %  zcmp(revcmp="l")

 %def op_if_gt():
 %  bincmp(revcmp="le")

 %def op_if_gtz():
 %  zcmp(revcmp="le")

 %def op_if_le():
 %  bincmp(revcmp="g")

 %def op_if_lez():
 %  zcmp(revcmp="g")

 %def op_if_lt():
 %  bincmp(revcmp="ge")

 %def op_if_ltz():
 %  zcmp(revcmp="ge")

 %def op_if_ne():
 %  bincmp(revcmp="e")

 %def op_if_nez():
 %  zcmp(revcmp="e")

 %def op_packed_switch(func="MterpDoPackedSwitch"):
 /*
  * Handle a packed-switch or sparse-switch instruction.  In both cases
  * we decode it and hand it off to a helper function.
  *
  * We don't really expect backward branches in a switch statement, but
  * they're perfectly legal, so we check for them here.
  *
  * for: packed-switch, sparse-switch
  */
     /* op vAA, +BBBB */
     movslq  2(rPC), OUT_ARG0                # rcx <- ssssssssBBBBbbbb
     leaq    (rPC,OUT_ARG0,2), OUT_ARG0      # rcx <- PC + ssssssssBBBBbbbb*2
     GET_VREG OUT_32_ARG1, rINSTq            # eax <- vAA
     call    SYMBOL($func)
     testl   %eax, %eax
     movslq  %eax, rINSTq
     jmp     MterpCommonTakenBranch

 %def op_return():
 /*
  * Return a 32-bit value.
  *
  * for: return, return-object
  */
     /* op vAA */
     .extern MterpThreadFenceForConstructor
     call    SYMBOL(MterpThreadFenceForConstructor)
     movq    rSELF, OUT_ARG0
     testl   $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
     jz      1f
     call    SYMBOL(MterpSuspendCheck)
 1:
     GET_VREG %eax, rINSTq                   # eax <- vAA
     jmp     MterpReturn

 %def op_return_object():
 %  op_return()

 %def op_return_void():
     .extern MterpThreadFenceForConstructor
     call    SYMBOL(MterpThreadFenceForConstructor)
     movq    rSELF, OUT_ARG0
     testl   $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
     jz      1f
     call    SYMBOL(MterpSuspendCheck)
 1:
     xorq    %rax, %rax
     jmp     MterpReturn

 %def op_return_void_no_barrier():
     movq    rSELF, OUT_ARG0
     testl   $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
     jz      1f
     call    SYMBOL(MterpSuspendCheck)
 1:
     xorq    %rax, %rax
     jmp     MterpReturn

 %def op_return_wide():
 /*
  * Return a 64-bit value.
  */
     /* return-wide vAA */
     .extern MterpThreadFenceForConstructor
     call    SYMBOL(MterpThreadFenceForConstructor)
     movq    rSELF, OUT_ARG0
     testl   $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
     jz      1f
     call    SYMBOL(MterpSuspendCheck)
 1:
     GET_WIDE_VREG %rax, rINSTq              # eax <- v[AA]
     jmp     MterpReturn

 %def op_sparse_switch():
 %  op_packed_switch(func="MterpDoSparseSwitch")

 %def op_throw():
 /*
  * Throw an exception object in the current thread.
  */
     /* throw vAA */
     EXPORT_PC
     GET_VREG %eax, rINSTq                   # eax<- vAA (exception object)
     testb   %al, %al
     jz      common_errNullObject
     movq    rSELF, %rcx
     movq    %rax, THREAD_EXCEPTION_OFFSET(%rcx)
     jmp     MterpException
	%def bincmp(revcmp=""):
	/*
	* Generic two-operand compare-and-branch operation. Provide a "revcmp"
	* fragment that specifies the reverse comparison to perform, e.g.
	* for "if-le" you would use "gt".
	*
	* For: if-eq, if-ne, if-lt, if-ge, if-gt, if-le
	*/
	/* if-cmp vA, vB, +CCCC */
	movl rINST, %ecx # rcx <- A+
	sarl $$4, rINST # rINST <- B
	andb $$0xf, %cl # rcx <- A
	GET_VREG %eax, %rcx # eax <- vA
	cmpl VREG_ADDRESS(rINSTq), %eax # compare (vA, vB)
	j${revcmp} 1f
	movswq 2(rPC), rINSTq # Get signed branch offset
	testq rINSTq, rINSTq
	jmp MterpCommonTakenBranch
	1:
	cmpl $$JIT_CHECK_OSR, rPROFILE
	je .L_check_not_taken_osr
	ADVANCE_PC_FETCH_AND_GOTO_NEXT 2

	%def zcmp(revcmp=""):
	/*
	* Generic one-operand compare-and-branch operation. Provide a "revcmp"
	* fragment that specifies the reverse comparison to perform, e.g.
	* for "if-le" you would use "gt".
	*
	* for: if-eqz, if-nez, if-ltz, if-gez, if-gtz, if-lez
	*/
	/* if-cmp vAA, +BBBB */
	cmpl $$0, VREG_ADDRESS(rINSTq) # compare (vA, 0)
	j${revcmp} 1f
	movswq 2(rPC), rINSTq # fetch signed displacement
	testq rINSTq, rINSTq
	jmp MterpCommonTakenBranch
	1:
	cmpl $$JIT_CHECK_OSR, rPROFILE
	je .L_check_not_taken_osr
	ADVANCE_PC_FETCH_AND_GOTO_NEXT 2

	%def op_goto():
	/*
	* Unconditional branch, 8-bit offset.
	*
	* The branch distance is a signed code-unit offset, which we need to
	* double to get a byte offset.
	*/
	/* goto +AA */
	movsbq rINSTbl, rINSTq # rINSTq <- ssssssAA
	testq rINSTq, rINSTq
	jmp MterpCommonTakenBranch

	%def op_goto_16():
	/*
	* Unconditional branch, 16-bit offset.
	*
	* The branch distance is a signed code-unit offset, which we need to
	* double to get a byte offset.
	*/
	/* goto/16 +AAAA */
	movswq 2(rPC), rINSTq # rINSTq <- ssssAAAA
	testq rINSTq, rINSTq
	jmp MterpCommonTakenBranch

	%def op_goto_32():
	/*
	* Unconditional branch, 32-bit offset.
	*
	* The branch distance is a signed code-unit offset, which we need to
	* double to get a byte offset.
	*
	* Because we need the SF bit set, we'll use an adds
	* to convert from Dalvik offset to byte offset.
	*/
	/* goto/32 +AAAAAAAA */
	movslq 2(rPC), rINSTq # rINSTq <- AAAAAAAA
	testq rINSTq, rINSTq
	jmp MterpCommonTakenBranch

	%def op_if_eq():
	% bincmp(revcmp="ne")

	%def op_if_eqz():
	% zcmp(revcmp="ne")

	%def op_if_ge():
	% bincmp(revcmp="l")

	%def op_if_gez():
	% zcmp(revcmp="l")

	%def op_if_gt():
	% bincmp(revcmp="le")

	%def op_if_gtz():
	% zcmp(revcmp="le")

	%def op_if_le():
	% bincmp(revcmp="g")

	%def op_if_lez():
	% zcmp(revcmp="g")

	%def op_if_lt():
	% bincmp(revcmp="ge")

	%def op_if_ltz():
	% zcmp(revcmp="ge")

	%def op_if_ne():
	% bincmp(revcmp="e")

	%def op_if_nez():
	% zcmp(revcmp="e")

	%def op_packed_switch(func="MterpDoPackedSwitch"):
	/*
	* Handle a packed-switch or sparse-switch instruction. In both cases
	* we decode it and hand it off to a helper function.
	*
	* We don't really expect backward branches in a switch statement, but
	* they're perfectly legal, so we check for them here.
	*
	* for: packed-switch, sparse-switch
	*/
	/* op vAA, +BBBB */
	movslq 2(rPC), OUT_ARG0 # rcx <- ssssssssBBBBbbbb
	leaq (rPC,OUT_ARG0,2), OUT_ARG0 # rcx <- PC + ssssssssBBBBbbbb*2
	GET_VREG OUT_32_ARG1, rINSTq # eax <- vAA
	call SYMBOL($func)
	testl %eax, %eax
	movslq %eax, rINSTq
	jmp MterpCommonTakenBranch

	%def op_return():
	/*
	* Return a 32-bit value.
	*
	* for: return, return-object
	*/
	/* op vAA */
	.extern MterpThreadFenceForConstructor
	call SYMBOL(MterpThreadFenceForConstructor)
	movq rSELF, OUT_ARG0
	testl $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
	jz 1f
	call SYMBOL(MterpSuspendCheck)
	1:
	GET_VREG %eax, rINSTq # eax <- vAA
	jmp MterpReturn

	%def op_return_object():
	% op_return()

	%def op_return_void():
	.extern MterpThreadFenceForConstructor
	call SYMBOL(MterpThreadFenceForConstructor)
	movq rSELF, OUT_ARG0
	testl $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
	jz 1f
	call SYMBOL(MterpSuspendCheck)
	1:
	xorq %rax, %rax
	jmp MterpReturn

	%def op_return_void_no_barrier():
	movq rSELF, OUT_ARG0
	testl $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
	jz 1f
	call SYMBOL(MterpSuspendCheck)
	1:
	xorq %rax, %rax
	jmp MterpReturn

	%def op_return_wide():
	/*
	* Return a 64-bit value.
	*/
	/* return-wide vAA */
	.extern MterpThreadFenceForConstructor
	call SYMBOL(MterpThreadFenceForConstructor)
	movq rSELF, OUT_ARG0
	testl $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(OUT_ARG0)
	jz 1f
	call SYMBOL(MterpSuspendCheck)
	1:
	GET_WIDE_VREG %rax, rINSTq # eax <- v[AA]
	jmp MterpReturn

	%def op_sparse_switch():
	% op_packed_switch(func="MterpDoSparseSwitch")

	%def op_throw():
	/*
	* Throw an exception object in the current thread.
	*/
	/* throw vAA */
	EXPORT_PC
	GET_VREG %eax, rINSTq # eax<- vAA (exception object)
	testb %al, %al
	jz common_errNullObject
	movq rSELF, %rcx
	movq %rax, THREAD_EXCEPTION_OFFSET(%rcx)
	jmp MterpException