Lines Matching refs:k12x
22 V(0x01, MOVE, "move", k12x, true, kNone, kContinue, kVerifyRegA | kVerifyRegB) \
25 V(0x04, MOVE_WIDE, "move-wide", k12x, true, kNone, kContinue, kVerifyRegAWide | kVerifyRegBWide) \
28 V(0x07, MOVE_OBJECT, "move-object", k12x, true, kNone, kContinue, kVerifyRegA | kVerifyRegB) \
54 V(0x21, ARRAY_LENGTH, "array-length", k12x, true, kNone, kContinue | kThrow, kVerifyRegA | kVerifyRegB) \
144 V(0x7B, NEG_INT, "neg-int", k12x, true, kNone, kContinue, kVerifyRegA | kVerifyRegB) \
145 V(0x7C, NOT_INT, "not-int", k12x, true, kNone, kContinue, kVerifyRegA | kVerifyRegB) \
146 V(0x7D, NEG_LONG, "neg-long", k12x, true, kNone, kContinue, kVerifyRegAWide | kVerifyRegBWide) \
147 V(0x7E, NOT_LONG, "not-long", k12x, true, kNone, kContinue, kVerifyRegAWide | kVerifyRegBWide) \
148 V(0x7F, NEG_FLOAT, "neg-float", k12x, true, kNone, kContinue, kVerifyRegA | kVerifyRegB) \
149 V(0x80, NEG_DOUBLE, "neg-double", k12x, true, kNone, kContinue, kVerifyRegAWide | kVerifyRegBWide) \
150 V(0x81, INT_TO_LONG, "int-to-long", k12x, true, kNone, kContinue | kCast, kVerifyRegAWide | kVerifyRegB) \
151 V(0x82, INT_TO_FLOAT, "int-to-float", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegB) \
152 k12x, true, kNone, kContinue | kCast, kVerifyRegAWide | kVerifyRegB) \
153 V(0x84, LONG_TO_INT, "long-to-int", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegBWide) \
154 V(0x85, LONG_TO_FLOAT, "long-to-float", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegBWide) \
155 V(0x86, LONG_TO_DOUBLE, "long-to-double", k12x, true, kNone, kContinue | kCast, kVerifyRegAWide | kVerifyRegBWide) \
156 V(0x87, FLOAT_TO_INT, "float-to-int", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegB) \
157 V(0x88, FLOAT_TO_LONG, "float-to-long", k12x, true, kNone, kContinue | kCast, kVerifyRegAWide | kVerifyRegB) \
158 V(0x89, FLOAT_TO_DOUBLE, "float-to-double", k12x, true, kNone, kContinue | kCast, kVerifyRegAWide | kVerifyRegB) \
159 V(0x8A, DOUBLE_TO_INT, "double-to-int", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegBWide) \
160 V(0x8B, DOUBLE_TO_LONG, "double-to-long", k12x, true, kNone, kContinue | kCast, kVerifyRegAWide | kVerifyRegBWide) \
161 V(0x8C, DOUBLE_TO_FLOAT, "double-to-float", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegBWide) \
162 V(0x8D, INT_TO_BYTE, "int-to-byte", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegB) \
163 V(0x8E, INT_TO_CHAR, "int-to-char", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegB) \
164 V(0x8F, INT_TO_SHORT, "int-to-short", k12x, true, kNone, kContinue | kCast, kVerifyRegA | kVerifyRegB) \
197 V(0xB0, ADD_INT_2ADDR, "add-int/2addr", k12x, true, kNone, kContinue | kAdd, kVerifyRegA | kVerifyRegB) \
198 V(0xB1, SUB_INT_2ADDR, "sub-int/2addr", k12x, true, kNone, kContinue | kSubtract, kVerifyRegA | kVerifyRegB) \
199 V(0xB2, MUL_INT_2ADDR, "mul-int/2addr", k12x, true, kNone, kContinue | kMultiply, kVerifyRegA | kVerifyRegB) \
200 V(0xB3, DIV_INT_2ADDR, "div-int/2addr", k12x, true, kNone, kContinue | kThrow | kDivide, kVerifyRegA | kVerifyRegB) \
201 V(0xB4, REM_INT_2ADDR, "rem-int/2addr", k12x, true, kNone, kContinue | kThrow | kRemainder, kVerifyRegA | kVerifyRegB) \
202 V(0xB5, AND_INT_2ADDR, "and-int/2addr", k12x, true, kNone, kContinue | kAnd, kVerifyRegA | kVerifyRegB) \
203 V(0xB6, OR_INT_2ADDR, "or-int/2addr", k12x, true, kNone, kContinue | kOr, kVerifyRegA | kVerifyRegB) \
204 V(0xB7, XOR_INT_2ADDR, "xor-int/2addr", k12x, true, kNone, kContinue | kXor, kVerifyRegA | kVerifyRegB) \
205 V(0xB8, SHL_INT_2ADDR, "shl-int/2addr", k12x, true, kNone, kContinue | kShl, kVerifyRegA | kVerifyRegB) \
206 V(0xB9, SHR_INT_2ADDR, "shr-int/2addr", k12x, true, kNone, kContinue | kShr, kVerifyRegA | kVerifyRegB) \
207 V(0xBA, USHR_INT_2ADDR, "ushr-int/2addr", k12x, true, kNone, kContinue | kUshr, kVerifyRegA | kVerifyRegB) \
208 V(0xBB, ADD_LONG_2ADDR, "add-long/2addr", k12x, true, kNone, kContinue | kAdd, kVerifyRegAWide | kVerifyRegBWide) \
209 V(0xBC, SUB_LONG_2ADDR, "sub-long/2addr", k12x, true, kNone, kContinue | kSubtract, kVerifyRegAWide | kVerifyRegBWide) \
210 V(0xBD, MUL_LONG_2ADDR, "mul-long/2addr", k12x, true, kNone, kContinue | kMultiply, kVerifyRegAWide | kVerifyRegBWide) \
211 V(0xBE, DIV_LONG_2ADDR, "div-long/2addr", k12x, true, kNone, kContinue | kThrow | kDivide, kVerifyRegAWide | kVerifyRegBWide) \
212 V(0xBF, REM_LONG_2ADDR, "rem-long/2addr", k12x, true, kNone, kContinue | kThrow | kRemainder, kVerifyRegAWide | kVerifyRegBWide) \
213 V(0xC0, AND_LONG_2ADDR, "and-long/2addr", k12x, true, kNone, kContinue | kAnd, kVerifyRegAWide | kVerifyRegBWide) \
214 V(0xC1, OR_LONG_2ADDR, "or-long/2addr", k12x, true, kNone, kContinue | kOr, kVerifyRegAWide | kVerifyRegBWide) \
215 V(0xC2, XOR_LONG_2ADDR, "xor-long/2addr", k12x, true, kNone, kContinue | kXor, kVerifyRegAWide | kVerifyRegBWide) \
216 V(0xC3, SHL_LONG_2ADDR, "shl-long/2addr", k12x, true, kNone, kContinue | kShl, kVerifyRegAWide | kVerifyRegB) \
217 V(0xC4, SHR_LONG_2ADDR, "shr-long/2addr", k12x, true, kNone, kContinue | kShr, kVerifyRegAWide | kVerifyRegB) \
218 V(0xC5, USHR_LONG_2ADDR, "ushr-long/2addr", k12x, true, kNone, kContinue | kUshr, kVerifyRegAWide | kVerifyRegB) \
219 V(0xC6, ADD_FLOAT_2ADDR, "add-float/2addr", k12x, true, kNone, kContinue | kAdd, kVerifyRegA | kVerifyRegB) \
220 V(0xC7, SUB_FLOAT_2ADDR, "sub-float/2addr", k12x, true, kNone, kContinue | kSubtract, kVerifyRegA | kVerifyRegB) \
221 V(0xC8, MUL_FLOAT_2ADDR, "mul-float/2addr", k12x, true, kNone, kContinue | kMultiply, kVerifyRegA | kVerifyRegB) \
222 V(0xC9, DIV_FLOAT_2ADDR, "div-float/2addr", k12x, true, kNone, kContinue | kDivide, kVerifyRegA | kVerifyRegB) \
223 V(0xCA, REM_FLOAT_2ADDR, "rem-float/2addr", k12x, true, kNone, kContinue | kRemainder, kVerifyRegA | kVerifyRegB) \
224 V(0xCB, ADD_DOUBLE_2ADDR, "add-double/2addr", k12x, true, kNone, kContinue | kAdd, kVerifyRegAWide | kVerifyRegBWide) \
225 V(0xCC, SUB_DOUBLE_2ADDR, "sub-double/2addr", k12x, true, kNone, kContinue | kSubtract, kVerifyRegAWide | kVerifyRegBWide) \
226 V(0xCD, MUL_DOUBLE_2ADDR, "mul-double/2addr", k12x, true, kNone, kContinue | kMultiply, kVerifyRegAWide | kVerifyRegBWide) \
227 V(0xCE, DIV_DOUBLE_2ADDR, "div-double/2addr", k12x, true, kNone, kContinue | kDivide, kVerifyRegAWide | kVerifyRegBWide) \
228 V(0xCF, REM_DOUBLE_2ADDR, "rem-double/2addr", k12x, true, kNone, kContinue | kRemainder, kVerifyRegAWide | kVerifyRegBWide) \
280 V(k12x) \