from: http://pallergabor.uw.hu/androidblog/dalvik_opcodes.html

 

Dalvik opcodes

Author: Gabor Paller

Vx values in the table denote aDalvik register. Depending on the instruction, 16, 256 or 64k registerscan be accessed. Operations on long and double values use tworegisters, e.g. a double value addressed in the V0 register occupiesthe V0 and V1 registers.

Boolean values are stored as 1 for true and 0 for false. Operations onbooleans are translated into integer operations.

All the examples are in hig-endian format, e.g. 0F00 0A00 is coded as0F, 00, 0A, 00 sequence.

Note there are no explanation/example at some instructions. This meansthat I have not seen that instruction "in the wild" and itspresence/name is only known from Androidopcode constant list.

Opcode(hex)
Opcode name
Explanation
Example
00
nop
No operation
0000 - nop
01
move vx,vy
Moves the content of vy into vx.Both registers must be in the first 256 register range.
0110 - move v0, v1
Moves v1 into v0.
02
move/from16 vx,vy
Moves the content of vy into vx.vy may be in the 64k register range while vx is one of the first 256registers.
0200 1900 - move/from16 v0, v25
Moves v25 into v0.
03
move/16


04
move-wide


05
move-wide/from16 vx,vy
Moves a long/double value fromvy to vx. vy may be in the 64k register range while wx is one of thefirst 256 registers.
0516 0000 - move-wide/from16v22, v0
Moves v0 into v22.
06
move-wide/16


07
move-object vx,vy
Moves the object reference fromvy to vx.
0781 - move-object v1, v8
Moves the object reference in v8 to v1.
08
move-object/from16 vx,vy
Moves the object reference fromvy to vx, vy can address 64k registers and vx can address 256 registers.
0801 1500 - move-object/from16v1, v21
Move the object reference in v21 to v1.
09
move-object/16


0A
move-result vx
Move the result value of theprevious method invocation into vx.
0A00 - move-result v0
Move the return value of a previous method invocation into v0.
0B
move-result-wide vx
Move the long/double resultvalue of the previous method invocation into vx,vx+1.
0B02 - move-result-wide v2
Move the long/double result value of the previous method invocationinto v2,v3.
0C
move-result-object vx
Move the result object referenceof the previous method invocation into vx.
0C00 - move-result-object v0
0D
move-exception vx
Move the exception objectreference thrown during a method invocation into vx.
0D19 - move-exception v25
0E
return-void
Return without a return value
0E00 - return-void
0F
return vx
Return with vx return value
0F00 - return v0
Returns with return value in v0.

10
return-wide vx
Return with double/long resultin vx,vx+1.
1000 - return-wide v0
Returns with a double/long value in v0,v1.
11
return-object vx
Return with vx object referencevalue.
1100 - return-object v0
Returns with object reference value in v0
12
const/4 vx,lit4
Puts the 4 bit constant into vx
1221 - const/4 v1, #int2
Moves literal 2 into v1. The destination register is in the lower 4 bitin the second byte, the literal 2 is in the higher 4 bit.
13
const/16 vx,lit16
Puts the 16 bit constant into vx
1300 0A00 - const/16 v0, #int 10
Puts the literal constant of 10 into v0.
14
const vx, lit32
Puts the integer constant into vx
1400 4E61 BC00 - const v0,#12345678 // #00BC614E
Moves literal 12345678 into v0.
15
const/high16 v0, lit16
Puts the 16 bit constant intothe topmost bits of the register. Used to initialize float values.
1500 2041 - const/high16 v0,#float 10.0 // #41200000
Moves the floating literal of 10.0 into v0. The 16 bit literal in theinstruction carries the top 16 bits of the floating point number.
16
const-wide/16 vx, lit16
Puts the integer constant intovx and vx+1 registers, expanding the integer constant into a longconstant..
1600 0A00 - const-wide/16 v0,#long 10
Moves literal 10 into v0 and v1 registers.
17
const-wide/32 vx, lit32
Puts the 32 bit constant into vxand vx+1 registers, expanding the integer constant into a long constant.
1702 4e61 bc00 - const-wide/32v2, #long 12345678 // #00bc614e
Puts #12345678 into v2 and v3 registers.
18
const-wide vx, lit64
Puts the 64 bit constant into vxand vx+1 registers.
1802 874b 6b5d 54dc 2b00-const-wide v2, #long 12345678901234567 // #002bdc545d6b4b87
Puts #12345678901234567 into v2 and v3 registers.
19
const-wide/high16 vx,lit16
Puts the 16 bit constant intothe highest 16 bit of vx and vx+1 registers. Used to initialize doublevalues.
1900 2440 - const-wide/high16v0, #double 10.0 // #402400000
Puts the double constant of 10.0 into v0 register.
1A
const-string vx,string_id
Puts reference to a stringconstant identified by string_id into vx.
1A08 0000 - const-string v8, ""// string@0000
Puts reference to string@0000 (entry #0 in the string table) into v8.
1B
const-string-jumbo


1C
const-class vx,type_id
Moves the class object of aclass identified by type_id (e.g. Object.class) into vx.
1C00 0100 - const-class v0,Test3 // type@0001
Moves reference to Test3.class (entry#1 in the type id table) into
1D
monitor-enter vx
Obtains the monitor of theobject referenced by vx.
1D03 - monitor-enter v3
Obtains the monitor of the object referenced by v3.
1E
monitor-exit
Releases the monitor of theobject referenced by vx.
1E03 - monitor-exit v3
Releases the monitor of the object referenced by v3.
1F
check-cast vx, type_id
Checks whether the objectreference in vx can be cast to an instance of a class referenced bytype_id. Throws ClassCastException if the cast is not possible,continues execution otherwise.
1F04 0100 - check-cast v4, Test3// type@0001
Checks whether the object reference in v4 can be cast to type@0001(entry #1 in the type id table)
20
instance-of vx,vy,type_id
Checks whether vy is instance ofa class identified by type_id. Sets vx non-zero if it is, 0 otherwise.
2040 0100 - instance-of v0, v4,Test3 // type@0001
Checks whether the object reference in v4 is an instance of type@0001(entry #1 in the type id table). Sets v0 to non-zero if v4 is instanceof Test3, 0 otherwise.
21
array-length vx,vy
Calculates the number ofelements of the array referenced by vy and puts the length value intovx.
2111 - array-length v1, v1
Calculates the number of elements of the array referenced by v1 andputs the result into v1.
22
new-instance vx,type
Instantiates an object type andputs the reference of the newly created instance into vx.
2200 1500 - new-instance v0,java.io.FileInputStream // type@0015
Instantiates type@0015 (entry #15H in the type table) and puts itsreference into v0.
23
new-array vx,vy,type_id
Generates a new array of type_idtype and vy element size and puts the reference to the array into vx.
2312 2500 - new-array v2, v1,char[] // type@0025
Generates a new array of type@0025 type and v1 size and puts thereference to the new array into v2.
24
filled-new-array{parameters},type_id
Generates a new array of type_idand fills it with the parameters⁵. Reference to the newlygenerated array can be obtained by a move-result-object instruction,immediately following the filled-new-array instruction.
2420 530D 0000 -filled-new-array {v0,v0},[I // type@0D53
Generates a new array of type@0D53. The array's size will be 2 and bothelements will be filled with the contents of v0 register.
25
filled-new-array-range{vx..vy},type_id
Generates a new array of type_idand fills it with a range of parameters. Reference to the newlygenerated array can be obtained by amove-result-object instruction, immediately following thefilled-new-array instruction. 2503 0600 1300 -filled-new-array/range{v19..v21}, [B // type@0006
Generates a new array of type@0D53. The array's size will be 3 and theelements will be filled using the v19,v20 and v21 registers⁴.
26
fill-array-datavx,array_data_offset
Fills the array referenced by vxwith the static data. The location of the static data is the sumof  the position of the current instruction and the offset
2606 2500 0000 - fill-array-datav6, 00e6 // +0025
Fills the array referenced by v0 with the static data at currentinstruction+25H words location. The offset is expressed as a 32-bitnumber. The static data is stored in the following format:
0003 // Table type: static array data
0400 // Byte per array element (in this case, 4 byte integers)
0300 0000 // Number of elements in the table
0100 0000  // Element #0: integer 1
0200 0000 // Element #1: integer 2
0300 0000 // Element #2: integer3
27
throw vx
Throws an exception object. Thereference of the exception object is in vx.
2700 - throw v0
Throws an exception. The exception object reference is in v0.
28
goto target
Unconditional jump by shortoffset².
28F0 - goto 0005 // -0010
Jumps to current position-16 words (hex 10). 0005 is the label of thetarget instruction.
29
goto/16 target
Unconditional jump by 16 bitoffset².
2900 0FFE - goto/16 002f // -01f1
Jumps to the current position-1F1H words. 002F is the label of thetarget instruction.
2A
goto/32 target


2B
packed-switch vx,table
Implements a switch statementwhere the case constants are close to each other. The instruction usesan index table. vx indexes into this table to find the offset of theinstruction for a particular case. If vx falls out of the index table,the execution continues on the next instruction (default case).
2B02 0C00 0000 - packed-switchv2, 000c // +000c
Execute a packed switch according to the switch argument in v2. Theposition of the index table is at current instruction+0CH words. Thetable looks like the following:
0001 // Table type: packed switch table
0300 // number of elements
0000 0000 // element base
0500 0000  0: 00000005 // case 0: +00000005
0700 0000  1: 00000007 // case 1: +00000007
0900 0000  2: 00000009 // case 2: +00000009
2C
sparse-switch vx,table
Implements a switch statementwith sparse case table. The instruction uses a lookup table with caseconstants and offsets for each case constant. If there is no match inthe table, execution continues on the next instruction (default case).
2C02 0c00 0000 - sparse-switchv2, 000c // +000c
Execute a sparse switch according to the switch argument in v2. Theposition of the lookup table is at current instruction+0CH words. Thetable looks like the following.
0002 // Table type: sparse switch table
0300 // number of elements
9cff ffff // first case: -100
fa00 0000 // second case constant: 250
e803 0000 // third case constant: 1000
0500 0000 // offset for the first case constant: +5
0700 0000 // offset for the second case constant: +7
0900 0000 // offset for the third case constant: +9
2D
cmpl-float
Compares the float values in vyand vz and sets the integer value in vx accordingly³ 2D00 0607 - cmpl-float v0, v6, v7
Compares the float values in v6 and v7 then sets v0 accordingly. NaNbias is less-than, the instruction will return -1 if any of theparameters is NaN. 2E
cmpg-float vx, vy, vz
Compares the float values in vyand vz and sets the integer value in vx accordingly³.2E00 0607 - cmpg-float v0, v6, v7
Compares the float values in v6 and v7 then sets v0 accordingly. NaNbias is greater-than, the instruction will return 1 if any of theparameters is NaN. 2F
cmpl-double vx,vy,vz
Compares the double values in vyand vz² and sets the integer value in vx accordingly³. 2F19 0608 - cmpl-double v25, v6,v8
Compares the double values in v6,v7 and v8,v9 and sets v25 accordingly.NaN bias is less-than, the instruction will return -1 if any of theparameters is NaN. 30
cmpg-double vx, vy, vz
Compares the double values in vyand vz² and sets the integer value in vx accordingly³.3000 080A - cmpg-double v0, v8,v10
Compares the double values in v8,v9 and v10,v11 then sets v0accordingly. NaN bias is greater-than, the instruction will return 1 ifany of the parameters is NaN. 31
cmp-long vx, vy, vz
Compares the long values in vyand vz and sets the integer value in vx accordingly³.
3100 0204 - cmp-long v0, v2, v4
Compares the long values in v2 and v4 then sets v0 accordingly.
32
if-eq vx,vy,target
Jumps to target if vx==vy².vx and vy are integer values.
32b3 6600 - if-eq v3, v11, 0080// +0066
Jumps to the current position+66H words if v3==v11. 0080 is the labelof the target instruction.
33
if-ne vx,vy,target
Jumps to target if vx!=vy².vx and vy are integer values. 33A3 1000 - if-ne v3, v10, 002c// +0010
Jumps to the current position+10H words if v3!=v10. 002c is the labelof the target instruction.
34
if-lt vx,vy,target
Jumps to target is vx<vy².vx and vy are integer values.
3432 CBFF - if-lt v2, v3, 0023// -0035
Jumps to the current position-35H words if v2<v3. 0023 is the labelof the target instruction.
35
if-ge vx, vy,target
Jumps to target if vx>=vy².vx and vy are integer values.
3510 1B00 - if-ge v0, v1, 002b//+001b
Jumps to the current position+1BH words if v0>=v1. 002b is the labelof the target instruction.
36
if-gt vx,vy,target
Jumps to target if vx>vy².vx and vy are integer values.3610 1B00 - if-ge v0, v1, 002b//+001b
Jumps to the current position+1BH words if v0>v1. 002b is the labelof the target instruction.37
if-le vx,vy,target
Jumps to target if vx<=vy².vx and vy are integer values. 3756 0B00 - if-le v6, v5, 0144// +000b
Jumps to the current position+0BH words if v6<=v5. 0144 is the labelof the target instruction.
38
if-eqz vx,target
Jumps to target if vx==0².vx is an integer value.
3802 1900 - if-eqz v2, 0038 //+0019
Jumps to the current position+19H words if v2==0. 0038 is the labelof the target instruction.
39
if-nez vx,target
Checks vx and jumps if vx isnonzero².
3902 1200 - if-nez v2, 0014 //+0012
Jumps to current position+18 words (hex 12) if v2 is nonzero. 0014 isthe label of the target instruction.
3A
if-ltz vx,target
Checks vx and jumps if vx<0². 3A00 1600 - if-ltz v0, 002d //+0016
Jumps to the current position+16H words if v0<0. 002d is the labelof the target instruction. 3B
if-gez vx,target
Checks vx and jumps if vx>=0².
3B00 1600 - if-gez v0, 002d //+0016
Jumps to the current position+16H words if v0 >=0. 002d is the labelof the target instruction.
3C
if-gtz vx,target
Checks vx and jumps if vx>0². 3C00 1D00 - if-gtz v0, 004a //+001d
Jumps to the current position+1DH words if v0>0. 004A is the labelof the target instruction. 3D
if-lez vx,target
Checks vx and jumps if vx<=0². 3D00 1D00 - if-lez v0, 004a //+001d
Jumps to the current position+1DH words if v0<=0. 004A is the labelof the target instruction.
3E
unused_3E


3F
unused_3F


40
unused_40


41
unused_41


42
unused_42


43
unused_43


44
aget vx,vy,vz
Gets an integer value of anobject reference array into vx. The array is referenced by vy and isindexed by vz. 4407 0306 - aget v7, v3, v6
Gets an integer array element. The array is referenced by v3and the element is indexed by v6. The element will be put into v7.
45
aget-wide vx,vy,vz
Gets a long/double value oflong/double array into vx,vx+1. The array is referenced by vy and isindexed by vz. 4505 0104 - aget-wide v5, v1, v4
Gets a long/double array element. The array is referenced by v1and the element is indexed by v4. The element will be put into v5,v6.
46
aget-object vx,vy,vz
Gets an object reference valueof an object reference array into vx. The array is referenced by vyand is indexed by vz.
4602 0200 - aget-object v2, v2,v0
Gets an object reference array element. The array is referenced by v2and the element is indexed by v0. The element will be put into v2.
47
aget-boolean vx,vy,vz
Gets a boolean valueof a boolean array into vx. The array is referenced by vyand is indexed by vz. 4700 0001 - aget-boolean v0, v0,v1
Gets a boolean array element. The array is referenced by v0and the element is indexed by v1. The element will be put into v0. 48
aget-byte vx,vy,vz
Gets a byte valueof a byte array into vx. The array is referenced by vyand is indexed by vz. 4800 0001 - aget-byte v0, v0, v1
Gets a byte array element. The array is referenced by v0and the element is indexed by v1. The element will be put into v0.
49
aget-char vx, vy,vz
Gets a char value  of acharacter array into vx. Theelement is indexed by vz, the array object is referenced by vy 4905 0003 - aget-char v5, v0, v3
Gets a character array element. The array is referenced by v0 and theelement is indexed by v3. The element will be put into v5.
4A
aget-short vx,vy,vz
Gets a short value  of ashort array into vx. Theelement is indexed by vz, the array object is referenced by vy. 4A00 0001 - aget-short v0, v0, v1
Gets a short array element. The array is referenced by v0 and theelement is indexed by v1. The element will be put into v0.
4B
aput vx,vy,vz
Puts the integer value in vxinto an element of an integer array. Theelement is indexed by vz, the array object is referenced by vy. 4B00 0305 - aput v0, v3, v5
Puts the integer value in v2 into an integer arrayreferenced by v0. The target array element is indexed by v1.
4C
aput-wide vx,vy,vz
Puts the double/long value invx,vx+1 into a double/long array. The array is referenced by vy, theelement is indexed by vz.
4C05 0104 - aput-wide v5, v1, v4
Puts the double/long value in v5,v6 into a double/long arrayreferenced by v1. The target array element is indexed by v4.
4D
aput-object vx,vy,vz
Puts the object reference valuein vx into an element of an object reference array. Theelement is indexed by vz, the array object is referenced by vy. 4D02 0100 - aput-object v2, v1,v0
Puts the object reference value in v2 into an object reference arrayreferenced by v0. The target array element is indexed by v1.
4E
aput-boolean vx,vy,vz
Puts the boolean valuein vx into an element of a boolean array. Theelement is indexed by vz, the array object is referenced by vy. 4E01 0002 - aput-boolean v1, v0,v2
Puts the boolean value in v1 into an object reference arrayreferenced by v0. The target array element is indexed by v2.
4F
aput-byte vx,vy,vz
Puts the byte valuein vx into an element of a byte array. Theelement is indexed by vz, the array object is referenced by vy. 4F02 0001 - aput-byte v2, v0, v1
Puts the boolean value in v2 into a byte arrayreferenced by v0. The target array element is indexed by v1.
50
aput-char vx,vy,vz
Puts the char value in vx intoan element of a character array. Theelement is indexed by vz, the array object is referenced by vy. 5003 0001 - aput-char v3, v0, v1
Puts the character value in v3 into a character array referenced by v0.The target array element is indexed by v1. 51
aput-short vx,vy,vz
Puts the short value in vx intoan element of a short array. Theelement is indexed by vz, the array object is referenced by vy. 5102 0001 - aput-short v2, v0, v1
Puts the short value in v2 into a character array referenced by v0.The target array element is indexed by v1.
52
iget vx, vy, field_id
Reads an instance field into vx.The instance is referenced by vy.
5210 0300 - iget v0, v1,Test2.i6:I // field@0003
Reads field@0003 into v0 (entry #3 in the field id table). The instanceis referenced by v1.
53
iget-wide vx,vy,field_id
Reads an instance field into vx¹.The instance is referenced by vy.
5320 0400 - iget-wide v0, v2,Test2.l0:J // field@0004
Reads field@0004 into v0 and v1 registers (entry #4 in the field idtable). The instance is referenced by v2.
54
iget-object vx,vy,field_id
Reads an object referenceinstance field into vx. The instance is referenced by vy.
iget-object v1, v2,LineReader.fis:Ljava/io/FileInputStream; // field@0002
Reads field@0002 into v1  (entry #2 in the field idtable). The instance is referenced by v2.
55
iget-boolean vx,vy,field_id
Reads a boolean instance fieldinto vx. The instance is referenced by vy.
55FC 0000 - iget-boolean v12,v15, Test2.b0:Z // field@0000
Reads the boolean field@0000 into v12 register (entry #0 in the fieldid table). The instance is referenced by v15.
56
iget-byte vx,vy,field_id
Reads a byte instance fieldinto vx. The instance is referenced by vy. 5632 0100 - iget-byte v2, v3,Test3.bi1:B // field@0001
Reads the char field@0001 into v2 register (entry #1 in the fieldid table). The instance is referenced by v3.
57
iget-char vx,vy,field_id
Reads a char instance fieldinto vx. The instance is referenced by vy. 5720 0300 - iget-char v0, v2,Test3.ci1:C // field@0003
Reads the char field@0003 into v0 register (entry #3 in the fieldid table). The instance is referenced by v2.
58
iget-short vx,vy,field_id
Reads a short instance fieldinto vx. The instance is referenced by vy. 5830 0800 - iget-short v0, v3,Test3.si1:S // field@0008
Reads the short field@0008 into v0 register (entry #8 in the fieldid table). The instance is referenced by v3.
59
iput vx,vy, field_id
Puts vx into an instance field.The instance is referenced by vy.
5920 0200 - iput v0,v2,Test2.i6:I // field@0002
Stores v0 into field@0002 (entry #2 in the field id table). Theinstance is referenced by v2.
5A
iput-wide vx,vy, field_id
Puts the wide value located invx and vx+1 registers into an instance field. The instance isreferenced by vy.
5A20 0000 - iput-wide v0,v2,Test2.d0:D // field@0000
Stores the wide value in v0, v1 registers into field@0000 (entry #0 inthe field id table). The instance is referenced by v2.
5B
iput-object vx,vy,field_id
Puts the object reference in vxinto an instance field. The instance is referenced by vy.
5B20 0000 - iput-object v0, v2,LineReader.bis:Ljava/io/BufferedInputStream; // field@0000
Stores the object reference in v0 into field@0000 (entry #0 in thefield table). The instance is referenced by v2.
5C
iput-boolean vx,vy, field_id
Puts the boolean value locatedin vx into an instance field. The instance is referenced by vy.
5C30 0000 - iput-boolean v0, v3,Test2.b0:Z // field@0000
Puts the boolean value in v0 into field@0000 (entry #0 in the field idtable). The instance is referenced by v3.
5D
iput-byte vx,vy,field_id
Puts the byte value locatedin vx into an instance field. The instance is referenced by vy. 5D20 0100 - iput-byte v0, v2,Test3.bi1:B // field@0001
Puts the boolean value in v0 into field@0001 (entry #1 in the field idtable). The instance is referenced by v2.
5E
iput-char vx,vy,field_id
Puts the char value locatedin vx into an instance field. The instance is referenced by vy. 5E20 0300 - iput-char v0, v2,Test3.ci1:C // field@0003
Puts the char value in v0 into field@0003 (entry #3 in the field idtable). The instance is referenced by v2.
5F
iput-short vx,vy,field_id
Puts the short value locatedin vx into an instance field. The instance is referenced by vy. 5F21 0800 - iput-short v1, v2,Test3.si1:S // field@0008
Puts the short value in v1 into field@0008 (entry #8 in the field idtable). The instance is referenced by v2.
60
sget vx,field_id
Reads the integer fieldidentified by the field_id into vx. 6000 0700 - sget v0, Test3.is1:I// field@0007
Reads field@0007 (entry #7 in the field id table) into v0.
61
sget-wide vx, field_id
Reads the static fieldidentified by the field_id into vx and vx+1 registers.
6100 0500 - sget-wide v0,Test2.l1:J // field@0005
Reads field@0005 (entry #5 in the field id table) into v0 and v1registers.
62
sget-object vx,field_id
Reads the object reference fieldidentified by the field_id into vx. 6201 0C00 - sget-object v1,Test3.os1:Ljava/lang/Object; // field@000c
Reads field@000c (entry #CH in the field id table) into v1.
63
sget-boolean vx,field_id
Reads the boolean static fieldidentified by the field_id into vx.6300 0C00 - sget-boolean v0,Test2.sb:Z // field@000c
Reads boolean field@000c (entry #12 in the field id table) into v0.
64
sget-byte vx,field_id
Reads the byte static fieldidentified by the field_id into vx. 6400 0200 - sget-byte v0,Test3.bs1:B // field@0002
Reads byte field@0002 (entry #2 in the field id table) into v0.
65
sget-char vx,field_id
Reads the char static fieldidentified by the field_id into vx. 6500 0700 - sget-char v0,Test3.cs1:C // field@0007
Reads byte field@0007 (entry #7 in the field id table) into v0.
66
sget-short vx,field_id
Reads the short static fieldidentified by the field_id into vx. 6600 0B00 - sget-short v0,Test3.ss1:S // field@000b
Reads short field@000b (entry #BH in the field id table) into v0.
67
sput vx, field_id
Puts vx into a static field.
6700 0100 - sput v0, Test2.i5:I// field@0001
Stores v0 into field@0001 (entry #1 in the field id table).
68
sput-wide vx, field_id
Puts vx and vx+1 into a staticfield.
6800 0500 - sput-wide v0,Test2.l1:J // field@0005
Puts the long value in v0 and v1 into the field@0005 static field(entry #5 in the field id table).
69
sput-object vx,field_id
Puts object reference in vx intoa static field. 6900 0c00 - sput-object v0,Test3.os1:Ljava/lang/Object; // field@000c
Puts the object reference value in v0 into the field@000c static field(entry #CH in the field id table).
6A
sput-boolean vx,field_id
Puts boolean value in vx into astatic field. 6A00 0300 - sput-boolean v0,Test3.bls1:Z // field@0003
Puts the byte value in v0 into the field@0003 static field(entry #3 in the field id table).
6B
sput-byte vx,field_id
Puts byte value in vx into astatic field. 6B00 0200 - sput-byte v0,Test3.bs1:B // field@0002
Puts the byte value in v0 into the field@0002 static field(entry #2 in the field id table).
6C
sput-char vx,field_id
Puts char value in vx into astatic field. 6C01 0700 - sput-char v1,Test3.cs1:C // field@0007
Puts the char value in v1 into the field@0007 static field(entry #7 in the field id table).
6D
sput-short vx,field_id
Puts short value in vx into astatic field. 6D00 0B00 - sput-short v0,Test3.ss1:S // field@000b
Puts the short value in v0 into the field@000b static field(entry #BH in the field id table).
6E
invoke-virtual { parameters },methodtocall
Invokes a virtual method withparameters.
6E53 0600 0421 - invoke-virtual{ v4, v0, v1, v2, v3}, Test2.method5:(IIII)V // method@0006
Invokes the 6th method in the method table with the followingarguments: v4 is the "this" instance, v0, v1, v2, and v3 are the methodparameters. The method has 5 arguments (4 MSB bits of the second byte)⁵.
6F
invoke-super{parameter},methodtocall
Invokes the virtual method ofthe immediate parent class. 6F10 A601 0100 invoke-super{v1},java.io.FilterOutputStream.close:()V // method@01a6
Invokes method@01a6 with one parameter, v1.
70
invoke-direct { parameters },methodtocall
Invokes a method with parameterswithout the virtual method resolution.
7010 0800 0100 - invoke-direct{v1}, java.lang.Object.<init>:()V // method@0008
Invokes the 8th method in the method table with just one parameter, v1is the "this" instance⁵.
71
invoke-static {parameters},methodtocall
Invokes a static method withparameters.
7110 3400 0400 - invoke-static{v4}, java.lang.Integer.parseInt:( Ljava/lang/String;)I // method@0034
Invokes method@34 static method. The method is called with oneparameter, v4⁵.
72
invoke-interface{parameters},methodtocall
Invokes an interface method.
7240 2102 3154 invoke-interface{v1, v3, v4, v5}, mwfw.IReceivingProtocolAdapter.receivePackage:(
ILjava/lang/String;Ljava/io/InputStream;)Z // method@0221
Invokes method@221 interface method using parameters in v1,v3,v4 and v5⁵.
73
unused_73


74
invoke-virtual/range{vx..vy},methodtocall
Invokes virtual method with arange of registers. The instructionspecifies the first register and the number of registers to be passedto the method. 7403 0600 1300 - invoke-virtual{v19..v21}, Test2.method5:(IIII)V // method@0006
Invokes the 6th method in the method table with the followingarguments: v19 is the "this" instance, v20 and v21 are the methodparameters.  75
invoke-super/range
Invokes  the virtual methodof the immediate parent class. The instruction specifies the firstregister and the number of registers to be passed to the method. 7501 A601 0100 invoke-super{v1},java.io.FilterOutputStream.close:()V // method@01a6
Invokes method@01a6 with one parameter, v1. 76
invoke-direct/range{vx..vy},methodtocall
Invokes direct method with arange of registers. The instruction specifies the first register andthe number of registers to be passed to the method.
7603 3A00 1300 -invoke-direct/range {v19..21},java.lang.Object.<init>:()V //method@003a
Invokes method@3A with 1 parameters (second byte of theinstruction=03). The parameter is stored in v19 (5th,6th bytes of theinstruction).
77
invoke-static/range{vx..vy},methodtocall
Invokes static method with arange of registers. The instructionspecifies the first register and the number of registers to be passedto the method. 7703 3A00 1300 -invoke-static/range {v19..21},java.lang.Integer.parseInt:(Ljava/lang/String;)I // method@0034
Invokes method@3A with 1 parameters (second byte of theinstruction=03). The parameter is stored in v19 (5th,6th bytes of theinstruction). 78
invoke-interface-range
Invokes an interface method witha range of registers. The instructionspecifies the first register and the number of registers to be passedto the method. 7840 2102 0100 invoke-interface{v1..v4}, mwfw.IReceivingProtocolAdapter.receivePackage:(
ILjava/lang/String;Ljava/io/InputStream;)Z // method@0221
Invokes method@221 interface method using parameters in v1..v4. 79
unused_79


7A
unused_7A


7B
neg-int vx,vy
Calculates vx=-vy.
7B01 - neg-int v1,v0
Calculates -v0 and stores the result in v1.
7C
not-int vx,vy


7D
neg-long vx,vy
Calculates vx,vx+1=-(vy,vy+1)
7D02 - neg-long v2,v0
Calculates -(v0,v1) and stores the result into (v2,v3)
7E
not-long vx,vy


7F
neg-float vx,vy
Calculates vx=-vy
7F01 - neg-float v1,v0
Calculates -v0 and stores the result into v1.
80
neg-double vx,vy
Calculates vx,vx+1=-(vy,vy+1) 8002 - neg-double v2,v0
Calculates -(v0,v1) and stores the result into (v2,v3)
81
int-to-long vx, vy
Converts the integer in vy intoa long in vx,vx+1.
8106 - int-to-long v6, v0
Converts an integer in v0 into a long in v6,v7.
82
int-to-float vx, vy
Converts the integer in vx intoa float in vx.
8206 - int-to-float v6, v0
Converts the integer in v0 into a float in v6.
83
int-to-double vx, vy
Converts the integer in vy intothe double in vx,vx+1.
8306 - int-to-double v6, v0
Converts the integer in v0 into a double in v6,v7
84
long-to-int vx,vy
Converts the long value invy,vy+1 into an integer in vx.
8424 - long-to-int v4, v2
Converts the long value in v2,v3 into an integer value in v4.
85
long-to-float vx, vy
Converts the long value invy,vy+1 into a float in vx.
8510 - long-to-float v0, v1
Convcerts the long value in v1,v2 into a float value in v0.
86
long-to-double vx, vy
Converts the long value invy,vy+1 into a double value in vx,vx+1.
8610 - long-to-double v0, v1
Converts the long value in v1,v2 into a double value in v0,v1.
87
float-to-int vx, vy
Converts the float value in vyinto an integer value in vx.
8730 - float-to-int v0, v3
Converts the float value in v3 into an integer value in v0.
88
float-to-long vx,vy
Converts the float value in vyinto a long value in vx.
8830 - float-to-long v0, v3
Converts the float value in v3 into a long value in v0,v1.
89
float-to-double vx, vy
Converts the float value in vyinto a double value in vx,vx+1.
8930 - float-to-double v0, v3
Converts the float value in v3 into a double value in v0,v1.
8A
double-to-int vx, vy
Converts the double value invy,vy+1 into an integer value in vx.
8A40  - double-to-int v0, v4
Converts the double value in v4,v5 into an integer value in v0.
8B
double-to-long vx, vy
Converts the double value invy,vy+1 into a long value in vx,vx+1.
8B40 - double-to-long v0, v4
Converts the double value in v4,v5 into a long value in v0,v1.
8C
double-to-float vx, vy
Converts the double value invy,vy+1 into a float value in vx.
8C40 - double-to-float v0, v4
Converts the double value in v4,v5 into a float value in v0,v1.
8D
int-to-byte vx,vy
Converts the int value in vy toa byte value and stores it in vx.
8D00 - int-to-byte v0, v0
Converts the integer in v0 into a byte and puts the byte value into v0.
8E
int-to-char vx,vy
Converts the int value in vy toa char value and stores it in vx.
8E33  - int-to-char v3, v3
Converts the integer in v3 into a char and puts the char value into v3.
8F
int-to-short vx,vy
Converts the int value in vy toa short value and stores it in vx. 8F00 - int-to-short v0, v0
Converts the integer in v0 into a short and puts the short value intov3.
90
add-int vx,vy,vzCalculates vy+vz and puts theresult into vx.9000 0203 - add-int v0, v2, v3
Adds v3 to v2 and puts the result into v0⁴.91
sub-int vx,vy,vz
Calculates vy-vz and puts theresult into vx.
9100 0203 - sub-int v0, v2, v3
Subtracts v3 from v2 and puts the result into v0.
92
mul-int vx, vy, vz
Multiplies vz with wy and putsthe result int vx.
9200 0203 - mul-int v0,v2,v3
Multiplies v2 with w3 and puts the result into v0
93
div-int vx,vy,vz
Divides vy with vz and puts theresult into vx.
9303 0001 - div-int v3, v0, v1
Divides v0 with v1 and puts the result into v3.
94
rem-int vx,vy,vz
Calculates vy % vz and puts theresult into vx. 9400 0203 - rem-int v0, v2, v3
Calculates v3 % v2 and puts the result into v0. 95
and-int vx, vy, vz
Calculates vy AND vz and putsthe result into vx.
9503 0001 - and-int v3, v0, v1
Calculates v0 AND v1 and puts the result into v3.
96
or-int vx, vy, vz
Calculates vy OR vz and puts theresult into vx.
9603 0001 - or-int v3, v0, v1
Calculates v0 OR v1 and puts the result into v3.
97
xor-int vx, vy, vz
Calculates vy XOR vz and putsthe result into vx.9703 0001 - xor-int v3, v0, v1
Calculates v0 XOR v1 and puts the result into v3.
98
shl-int vx, vy, vz
Shift vy left by the positionsspecified by vz and store the result into vx.9802 0001 - shl-int v2, v0, v1
Shift v0 left by the positions specified by v1 and store the result inv2.
99
shr-int vx, vy, vz
Shift vy right by the positionsspecified by vz and store the result into vx.
9902 0001 - shr-int v2, v0, v1
Shift v0 right by the positions specified by v1 and store the result inv2.
9A
ushr-int vx, vy, vz
Unsigned shift right(>>>) vy by the positions specified by vz and store the resultinto vx.
9A02 0001 - ushr-int v2, v0, v1
Unsigned shift v0 right by the positions specified by v1 and store theresult in v2.
9B
add-long vx, vy, vz
Adds vy to vz and puts theresult into vx¹.
9B00 0305 - add-long v0, v3, v5
The long value in v3,v4 is added to the value in v5,v6 and the resultis stored in v0,v1.
9C
sub-long vx,vy,vz
Calculates vy-vz and puts theresult into vx¹.
9C00 0305 - sub-long v0, v3, v5
Subtracts the long value in v5,v6 from the long value in v3,v4 and putsthe result into v0,v1.
9D
mul-long vx,vy,vz
Calculates vy*vz and puts theresult into vx¹. 9D00 0305 - mul-long v0, v3, v5
Multiplies the long value in v5,v6 with the long value in v3,v4 andputsthe result into v0,v1. 9E
div-long vx, vy, vz
Calculates vy/vz and puts theresult into vx¹.
9E06 0002 - div-long v6, v0, v2
Divides the long value in v0,v1 with the long value in v2,v3 and pustthe result into v6,v7.
9F
rem-long vx,vy,vz
Calculates vy % vz and puts theresult into vx¹. 9F06 0002 - rem-long v6, v0, v2
Calculates v0,v1 %  v2,v3 and putsthe result into v6,v7. A0
and-long vx, vy, vz
Calculates the vy AND vz andputs the result into vx¹.A006 0002 - and-long v6, v0, v2
Calculates v0,v1 AND v2,v3 and puts the result into v6,v7.
A1
or-long vx, vy, vz
Calculates the vy OR vz and putsthe result into vx¹.
A106 0002 - or-long v6, v0, v2
Calculates v0,v1 OR v2,v3 and puts the result into v6,v7.
A2
xor-long vx, vy, vz
Calculates the vy XOR vz andputs the result into vx¹.A206 0002 - xor-long v6, v0, v2
Calculates v0,v1 XOR v2,v3 and puts the result into v6,v7.
A3
shl-long vx, vy, vz
Shifts left vy by vz positionsand stores the result in vx¹.A302 0004 - shl-long v2, v0, v4
Shift v0,v1 by postions specified by v4 and puts the result into v2,v3.
A4
shr-long vx,vy,vz
Shifts right vy by vz positionsand stores the result in vx¹.
A402 0004 - shr-long v2, v0, v4
Shift v0,v1 by postions specified by v4 and puts the result into v2,v3.
A5
ushr-long vx, vy, vz
Unsigned shifts right vy by vzpositions and stores the result in vx¹.A502 0004 - ushr-long v2, v0, v4
Unsigned shift v0,v1 by postions specified by v4 and puts the resultinto v2,v3.
A6
add-float vx,vy,vz
Adds vy to vz and puts theresult into vx.
A600 0203 - add-float v0, v2, v3
Adds the floating point numbers in v2 and v3 and puts the result intov0.
A7
sub-float vx,vy,vz
Calculates vy-vz and puts theresult into vx. A700 0203 - sub-float v0, v2, v3
Calculates v2-v3 and puts the result intov0. A8
mul-float vx, vy, vz
Multiplies vy with vz and putsthe result into vx.
A803 0001 - mul-float v3, v0, v1
Multiplies v0 with v1 and puts the result into v3.
A9
div-float vx, vy, vz
Calculates vy/vz and puts theresult into vx.
A903 0001 - div-float v3, v0, v1
Divides v0 with v1 and puts the result into v3.
AA
rem-float vx,vy,vz
Calculates vy % vz and puts theresult into vx. AA03 0001 - rem-float v3, v0, v1
Calculates v0 %  v1 and puts the result into v3. AB
add-double vx,vy,vz
Adds vy to vz and puts theresult into vx¹.
AB00 0305 - add-double v0, v3, v5
Adds the double value in v5,v6 registers to the double value in v3,v4registers and places the result  in v0,v1 registers.
AC
sub-double vx,vy,vz
Calculates vy-vz and puts theresult into vx¹.
AC00 0305 - sub-double v0, v3, v5
Subtracts the value in v5,v6 from the value in v3,v4 and puts theresult into v0,v1.
AD
mul-double vx, vy, vz
Multiplies vy with vz and putsthe result into vx¹.
AD06 0002 - mul-double v6, v0, v2
Multiplies the double value in v0,v1 with the double value in v2,v3 andputs the result into v6,v7.
AE
div-double vx, vy, vz
Calculates vy/vz and puts theresult into vx¹.
AE06 0002 - div-double v6, v0, v2
Divides the double value in v0,v1 with the double value in v2,v3 andputs the result into v6,v7.
AF
rem-double vx,vy,vz
Calculates vy % vz and puts theresult into vx¹. AF06 0002 - rem-double v6, v0, v2
Calculates v0,v1 % v2,v3 andputs the result into v6,v7. B0
add-int/2addr vx,vy
Adds vy to vx.
B010 - add-int/2addr v0,v1
Adds v1 to v0.
B1
sub-int/2addr vx,vy
Calculates vx-vy and puts theresult into vx.
B140 - sub-int/2addr v0, v4
Subtracts v4 from v0 and puts the result into v0.
B2
mul-int/2addr vx,vy
Multiplies vx with vy.
B210 - mul-int/2addr v0, v1
Multiples v0 with v1 and puts the result into v0.
B3
div-int/2addr vx,vy
Divides vx with vy and puts theresult into vx.
B310 - div-int/2addr v0, v1
Divides v0 with v1 and puts the result into v0.
B4
rem-int/2addr vx,vy
Calculates vx % vy and puts theresult into vx B410 - rem-int/2addr v0, v1
 Calculates v0 % v1 and puts the result into v0. B5
and-int/2addr vx, vy
Calculates vx AND vy and putsthe result into vx.
B510 - and-int/2addr v0, v1
Calculates v0 AND v1 and puts the result into v0.
B6
or-int/2addr vx, vy
Calculates vx OR vy and puts theresult into vx.
B610 - or-int/2addr v0, v1
Calculates v0 OR v1 and puts the result into v0.
B7
xor-int/2addr vx, vy
Calculates vx XOR vy and putsthe result into vx.B710  - xor-int/2addr v0, v1
Calculates v0 XOR v1 and puts the result into v0.
B8
shl-int/2addr vx, vy
Shifts vx left by vy positions.
B810 - shl-int/2addr v0, v1
Shift v0 left by v1 positions.
B9
shr-int/2addr vx, vy
Shifts vx right by vy positions.
B910 - shr-int/2addr v0, v1
Shift v0 right by v1 positions.
BA
ushr-int/2addr vx, vy
Unsigned shift right(>>>) vx by the positions specified by vy.
BA10 - ushr-int/2addr v0, v1
Unsigned shift v0 by the positions specified by v1.
BB
add-long/2addr vx,vy
Adds vy to vx¹.
BB20 - add-long/2addr v0, v2
Adds the long value in v2,v3 registers to the long value in v0,v1registers.
BC
sub-long/2addr vx,vy
Calculates vx-vy and puts theresult into vx¹.
BC70 - sub-long/2addr v0, v7
Subtracts the long value in v7,v8 from the long value in v0,v1 and putsthe result into v0,v1.
BD
mul-long/2addr vx,vy
Calculates vx*vy and puts theresult into vx¹. BD70 - mul-long/2addr v0, v7
Multiplies the long value in v7,v8 with the long value in v0,v1 andputsthe result into v0,v1. BE
div-long/2addr vx, vy
Calculates vx/vy and puts theresult into vx¹.
BE20 - div-long/2addr v0, v2
Divides the long value in v0,v1 with the long value in v2,v3 and putsthe result into v0,v1
BF
rem-long/2addr vx,vy
Calculates vx % vy and puts theresult into vx¹. BF20 - rem-long/2addr v0, v2
Calculates v0,v1 % v2,v3 and putsthe result into v0,v1 C0
and-long/2addr vx, vy
Calculates vx AND vy and putsthe result into vx¹.C020 - and-long/2addr v0, v2
Calculates v0,v1 OR v2,v3 and puts the result into v0,v1.
C1
or-long/2addr vx, vy
Calculates vx OR vy and puts theresult into vx¹.
C120  - or-long/2addr v0, v2
Calculates v0,v1 OR v2,v3 and puts the result into v0,v1.
C2
xor-long/2addr vx, vy
Calculates vx XOR vy and putsthe result into vx¹.C220 - xor-long/2addr v0, v2
Calculates v0,v1 XOR v2,v3 and puts the result into v0,v1.
C3
shl-long/2addr vx, vy
Shifts left the value in vx,vx+1by the positions specified by vy and stores the result in vx,vx+1.
C320 - shl-long/2addr v0, v2
Shifts left v0,v1 by the positions specified by v2.
C4
shr-long/2addr vx, vy
Shifts right the value invx,vx+1 by the positions specified by vy and stores the result invx,vx+1.C420 - shr-long/2addr v0, v2
Shifts right v0,v1 by the positions specified by v2.
C5
ushr-long/2addr vx, vy
Unsigned shifts right the valuein vx,vx+1 by the positions specified by vy and stores the result invx,vx+1.C520 - ushr-long/2addr v0, v2
Unsigned shifts right v0,v1 by the positions specified by v2.
C6
add-float/2addr vx,vy
Adds vy to vx.
C640 - add-float/2addr v0,v4
Adds v4 to v0.
C7
sub-float/2addr vx,vy
Calculates vx-vy and stores theresult in vx. C740 - sub-float/2addr v0,v4
Adds v4 to v0. C8
mul-float/2addr vx, vy
Multiplies vx with vy.
C810 - mul-float/2addr v0, v1
Multiplies v0 with v1.
C9
div-float/2addr vx, vy
Calculates vx/vy and puts theresult into vx.
C910 - div-float/2addr v0, v1
Divides v0 with v1 and puts the result into v0.
CA
rem-float/2addr vx,vy
Calculates vx/vy and puts theresult into vx. CA10 - rem-float/2addr v0, v1
 Calculates v0 % v1 and puts the result into v0. CB
add-double/2addr vx, vy
Adds vy to vx¹.
CB70 - add-double/2addr v0, v7
Adds v7 to v0.
CC
sub-double/2addr vx, vy
Calculates vx-vy and puts theresult into vx¹.
CC70 - sub-double/2addr v0, v7
Subtracts the value in v7,v8 from the value in v0,v1 and puts theresult into v0,v1.
CD
mul-double/2addr vx, vy
Multiplies vx with vy¹.
CD20 - mul-double/2addr v0, v2
Multiplies the double value in v0,v1 with the double value in v2,v3 andputs the result into v0,v1.
CE
div-double/2addr vx, vy
Calculates vx/vy and puts theresult into vx¹.
CE20 - div-double/2addr v0, v2
Divides the double value in v0,v1 with the double value in v2,v3 andputs the value into v0,v1.
CF
rem-double/2addr vx,vy
Calculates vx % vy and puts theresult into vx¹. CF20 - rem-double/2addr v0, v2
 Calculates  v0,v1 %  v2,v3 andputs the value into v0,v1. D0
add-int/lit16 vx,vy,lit16
Adds vy to lit16 and stores theresult into vx.
D001 D204 - add-int/lit16 v1,v0, #int 1234 // #04d2
Adds v0 to literal 1234 and stores the result into v1.
D1
sub-int/lit16 vx,vy,lit16
Calculates vy - lit16 and storesthe result into vx.
D101 D204 - sub-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 - literal 1234 and stores the result into v1.
D2
mul-int/lit16 vx,vy,lit16
Calculates vy * lit16 and storesthe result into vx. D201 D204 - mul-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 * literal 1234 and stores the result into v1. D3
div-int/lit16 vx,vy,lit16
Calculates vy / lit16 and storesthe result into vx. D301 D204 - div-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 / literal 1234 and stores the result into v1. D4
rem-int/lit16 vx,vy,lit16
Calculates vy % lit16 and storesthe result into vx. D401 D204 - rem-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 % literal 1234 and stores the result into v1. D5
and-int/lit16 vx,vy,lit16
Calculates vy AND lit16 andstores the result into vx. D501 D204 - and-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 AND literal 1234 and stores the result into v1. D6
or-int/lit16 vx,vy,lit16
Calculates vy OR lit16 andstores the result into vx. D601 D204 - or-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 OR literal 1234 and stores the result into v1. D7
xor-int/lit16 vx,vy,lit16
Calculates vy XOR lit16 andstores the result into vx. D701 D204 - xor-int/lit16 v1,v0, #int 1234 // #04d2
Calculates v0 XOR literal 1234 and stores the result into v1. D8
add-int/lit8 vx,vy,lit8
Adds vy to lit8 and stores theresult into vx.
D800 0201 - add-int/lit8 v0,v2,#int1
Adds literal 1 to v2 and stores the result into v0.
D9
sub-int/lit8 vx,vy,lit8
Calculates vy-lit8 and storestheresult into vx. D900 0201 - sub-int/lit8 v0,v2,#int1
Calculates v2-1 and stores the result into v0. DA
mul-int/lit-8 vx,vy,lit8
Multiplies vy with lit8 8-bitliteral constant and puts the result into vx.
DA00 0002 - mul-int/lit8 v0,v0,#int2
Multiplies v0 with literal 2 and puts the result into v0.
DB
div-int/lit8 vx,vy,lit8
Calculates vy/lit8 and storestheresult into vx. DB00 0203 - mul-int/lit8 v0,v2,#int3
Calculates v2/3 and stores the result into v0. DC
rem-int/lit8 vx,vy,lit8
Calculates vy % lit8 and storestheresult into vx. DC00 0203 - rem-int/lit8 v0,v2,#int3
Calculates v2 % 3 and stores the result into v0. DD
and-int/lit8 vx,vy,lit8
Calculates vy AND lit8 andstores theresult into vx. DD00 0203 - and-int/lit8 v0,v2,#int3
Calculates v2 AND 3 and stores the result into v0. DE
or-int/lit8 vx, vy, lit8
Calculates vy OR lit8 and putsthe result into vx.
DE00 0203 - or-int/lit8 v0, v2,#int 3
Calculates v2 OR literal 3 and puts the result into v0.
DF
xor-int/lit8 vx, vy, lit8
Calculates vy XOR lit8 and putsthe result into vx.DF000203     |  0008: xor-int/lit8 v0, v2, #int 3
Calculates v2 XOR literal 3 and puts the result into v0.
E0
shl-int/lit8 vx, vy, lit8
Shift v0 left by the bitpositions specified by the literal constant and put the result into vx.E001 0001 - shl-int/lit8 v1, v0,#int 1
Shift v0 left by 1 position and put the result into v1.
E1
shr-int/lit8 vx, vy, lit8
Shift v0 right by the bitpositions specified by the literal constant and put the result into vx.
E101 0001 - shr-int/lit8 v1, v0,#int 1
Shift v0 right by 1 position and put the result into v1.
E2
ushr-int/lit8 vx, vy, lit8
Unsigned right shift of v0(>>>) by the bit positions specified by the literal constantand put the result into vx.E201 0001 - ushr-int/lit8 v1,v0, #int 1
Unsigned shift v0 right by 1 position and put the result into v1.
E3
unused_E3


E4
unused_E4


E5
unused_E5


E6
unused_E6


E7
unused_E7


E8
unused_E8


E9
unused_E9


EA
unused_EA


EB
unused_EB


EC
unused_EC


ED
unused_ED


EE
execute-inline{parameters},inline ID
Executes the inline methodidentified by inline ID⁶.
EE20 0300 0100 - execute-inline{v1, v0}, inline #0003
Executes inline method #3 using v1 as "this" and passing one parameterin v0.
EF
unused_EF


F0
invoke-direct-empty
Stands as a placeholder forpruned empty methods like Object.<init>. This acts as nop duringnormal execution⁶.
F010 F608 0000 -invoke-direct-empty {v0}, Ljava/lang/Object;.<init>:()V //method@08f6
Replacement for the empty method java/lang/Object;<init>.
F1
unused_F1


F2
iget-quick vx,vy,offset
Gets the value stored at offsetin vy instance's data area to vx⁶. F221 1000 - iget-quick v1, v2,[obj+0010]
Gets the value at offset 0CH of the instance pointed by v2 and storesthe object reference in v1.
F3
iget-wide-quick vx,vy,offset
Gets the object reference valuestored at offset in vy instance's data area to vx,vx+1⁶. F364 3001 - iget-wide-quick v4,v6, [obj+0130]
Gets the value at offset 130H of the instance pointed by v6 and storesthe object reference in v4,v5.
F4
iget-object-quick vx,vy,offset
Gets the object reference valuestored at offset in vy instance's data area to vx⁶.
F431 0C00 - iget-object-quickv1, v3, [obj+000c]
Gets the object reference value at offset 0CH of the instance pointedby v3 and stores the object reference in v1.
F5
iput-quick vx,vy,offset
Puts the value stored in vx tooffset in vy instance's data area⁶. F521 1000  - iput-quick v1,v2, [obj+0010]
Puts the object reference value in v1 to offset 10H of the instancepointed by v2.
F6
iput-wide-quick vx,vy,offset
Puts the value stored in vx,vx+1to offset in vy instance's data area⁶. F652 7001 - iput-wide-quick v2,v5, [obj+0170]
Puts the value in v2,v3 to offset 170H of the instance pointed by v5.
F7
iput-object-quick vx,vy,offset
Puts the object reference valuestored in vx to offset in vy instance's data area to vx⁶. F701 4C00 - iput-object-quickv1, v0, [obj+004c]
Puts the object reference value in v1 to offset 0CH of the instancepointed by v3.
F8
invoke-virtual-quick{parameters},vtable offset
Invokes a virtual method usingthe vtable of the target object⁶.
F820 B800 CF00 -invoke-virtual-quick {v15, v12}, vtable #00b8
Invokes a virtual method. The target object instance is pointed by v15and vtable entry #B8 points to the method to be called. v12 is aparameter to the method call.
F9
invoke-virtual-quick/range{parameter range},vtable offset
Invokes a virtual method usingthe vtable of the target object⁶ F906 1800 0000 -invoke-virtual-quick/range {v0..v5},vtable #0018
Invokes a method using the vtable of theinstance pointed by v0. v1..v5 registers are parameters to the methodcall.
FA
invoke-super-quick{parameters},vtable offset
Invokes a virtual method in thetarget object's immediate parent class using the vtable of that parentclass⁶. FA40 8100 3254  -invoke-super-quick {v2, v3, v4, v5}, vtable #0081
Invokes a method using the vtable of the immediate parent class ofinstance pointed by v2. v3, v4 and v5 registers are parameters to themethodcall.
FB
invoke-super-quick/range{register range},vtable offset
Invokes a virtual method in thetarget object's immediate parent class using the vtable of that parentclass⁶.
F906 1B00 0000 -invoke-super-quick/range {v0..v5}, vtable #001b
Invokes a method using the vtable of the immediate parent class ofinstance pointed by v0. v1..v5 registers are parameters to the methodcall.
FC
unused_FC


FD
unused_FD


FE
unused_FE


FF
unused_FF

1. Note that double and longvalues occupytwo registers (e.g. the value addressed by vy is located in vy and vy+1registers)
2. The offset can be positive or negative and it is calculated fromthe offset of the starting byte of the instruction. The offset isalways interpreted in words (2 bytes per 1 offset valueincrement/decrement). Negative offset is stored in two's complementformat. The currentposition is the offset of the starting byte of the instruction.
3. Compare operations returrn positive value if the first operand isgreater than the second operand, 0 if they are equal and negative valueif the first operand is smaller than the second operand.
4. Not seen in the wild, interpolated from Dalvik bytecode list.
5. The invocation parameter list encoding is somewhat weird.Starting if parameter number > 4 and parameter number % 4 == 1, the5th (9th, etc.) parameter is encoded on the 4 lowest bit of the byteimmediately following the instruction. Curiously, this encoding is notused in case of 1 parameter, in this case an entire 16 bit word isadded after the method index of which only 4 bit is used to encode thesingle parameter while the lowest 4 bit of the byte following theinstruction byte is left unused.
6. This is an unsafe instruction and occurs only in ODEX files.