12e2672b8SSascha Wildner /*******************************************************************************
22e2672b8SSascha Wildner *
32e2672b8SSascha Wildner * Module Name: dmcstyle - Support for C-style operator disassembly
42e2672b8SSascha Wildner *
52e2672b8SSascha Wildner ******************************************************************************/
62e2672b8SSascha Wildner
7b4315fc7SSascha Wildner /******************************************************************************
8b4315fc7SSascha Wildner *
9b4315fc7SSascha Wildner * 1. Copyright Notice
10b4315fc7SSascha Wildner *
11*383048acSSascha Wildner * Some or all of this work - Copyright (c) 1999 - 2021, Intel Corp.
122e2672b8SSascha Wildner * All rights reserved.
132e2672b8SSascha Wildner *
14b4315fc7SSascha Wildner * 2. License
15b4315fc7SSascha Wildner *
16b4315fc7SSascha Wildner * 2.1. This is your license from Intel Corp. under its intellectual property
17b4315fc7SSascha Wildner * rights. You may have additional license terms from the party that provided
18b4315fc7SSascha Wildner * you this software, covering your right to use that party's intellectual
19b4315fc7SSascha Wildner * property rights.
20b4315fc7SSascha Wildner *
21b4315fc7SSascha Wildner * 2.2. Intel grants, free of charge, to any person ("Licensee") obtaining a
22b4315fc7SSascha Wildner * copy of the source code appearing in this file ("Covered Code") an
23b4315fc7SSascha Wildner * irrevocable, perpetual, worldwide license under Intel's copyrights in the
24b4315fc7SSascha Wildner * base code distributed originally by Intel ("Original Intel Code") to copy,
25b4315fc7SSascha Wildner * make derivatives, distribute, use and display any portion of the Covered
26b4315fc7SSascha Wildner * Code in any form, with the right to sublicense such rights; and
27b4315fc7SSascha Wildner *
28b4315fc7SSascha Wildner * 2.3. Intel grants Licensee a non-exclusive and non-transferable patent
29b4315fc7SSascha Wildner * license (with the right to sublicense), under only those claims of Intel
30b4315fc7SSascha Wildner * patents that are infringed by the Original Intel Code, to make, use, sell,
31b4315fc7SSascha Wildner * offer to sell, and import the Covered Code and derivative works thereof
32b4315fc7SSascha Wildner * solely to the minimum extent necessary to exercise the above copyright
33b4315fc7SSascha Wildner * license, and in no event shall the patent license extend to any additions
34b4315fc7SSascha Wildner * to or modifications of the Original Intel Code. No other license or right
35b4315fc7SSascha Wildner * is granted directly or by implication, estoppel or otherwise;
36b4315fc7SSascha Wildner *
37b4315fc7SSascha Wildner * The above copyright and patent license is granted only if the following
38b4315fc7SSascha Wildner * conditions are met:
39b4315fc7SSascha Wildner *
40b4315fc7SSascha Wildner * 3. Conditions
41b4315fc7SSascha Wildner *
42b4315fc7SSascha Wildner * 3.1. Redistribution of Source with Rights to Further Distribute Source.
43b4315fc7SSascha Wildner * Redistribution of source code of any substantial portion of the Covered
44b4315fc7SSascha Wildner * Code or modification with rights to further distribute source must include
45b4315fc7SSascha Wildner * the above Copyright Notice, the above License, this list of Conditions,
46b4315fc7SSascha Wildner * and the following Disclaimer and Export Compliance provision. In addition,
47b4315fc7SSascha Wildner * Licensee must cause all Covered Code to which Licensee contributes to
48b4315fc7SSascha Wildner * contain a file documenting the changes Licensee made to create that Covered
49b4315fc7SSascha Wildner * Code and the date of any change. Licensee must include in that file the
50b4315fc7SSascha Wildner * documentation of any changes made by any predecessor Licensee. Licensee
51b4315fc7SSascha Wildner * must include a prominent statement that the modification is derived,
52b4315fc7SSascha Wildner * directly or indirectly, from Original Intel Code.
53b4315fc7SSascha Wildner *
54b4315fc7SSascha Wildner * 3.2. Redistribution of Source with no Rights to Further Distribute Source.
55b4315fc7SSascha Wildner * Redistribution of source code of any substantial portion of the Covered
56b4315fc7SSascha Wildner * Code or modification without rights to further distribute source must
57b4315fc7SSascha Wildner * include the following Disclaimer and Export Compliance provision in the
58b4315fc7SSascha Wildner * documentation and/or other materials provided with distribution. In
59b4315fc7SSascha Wildner * addition, Licensee may not authorize further sublicense of source of any
60b4315fc7SSascha Wildner * portion of the Covered Code, and must include terms to the effect that the
61b4315fc7SSascha Wildner * license from Licensee to its licensee is limited to the intellectual
62b4315fc7SSascha Wildner * property embodied in the software Licensee provides to its licensee, and
63b4315fc7SSascha Wildner * not to intellectual property embodied in modifications its licensee may
64b4315fc7SSascha Wildner * make.
65b4315fc7SSascha Wildner *
66b4315fc7SSascha Wildner * 3.3. Redistribution of Executable. Redistribution in executable form of any
67b4315fc7SSascha Wildner * substantial portion of the Covered Code or modification must reproduce the
68b4315fc7SSascha Wildner * above Copyright Notice, and the following Disclaimer and Export Compliance
69b4315fc7SSascha Wildner * provision in the documentation and/or other materials provided with the
70b4315fc7SSascha Wildner * distribution.
71b4315fc7SSascha Wildner *
72b4315fc7SSascha Wildner * 3.4. Intel retains all right, title, and interest in and to the Original
73b4315fc7SSascha Wildner * Intel Code.
74b4315fc7SSascha Wildner *
75b4315fc7SSascha Wildner * 3.5. Neither the name Intel nor any other trademark owned or controlled by
76b4315fc7SSascha Wildner * Intel shall be used in advertising or otherwise to promote the sale, use or
77b4315fc7SSascha Wildner * other dealings in products derived from or relating to the Covered Code
78b4315fc7SSascha Wildner * without prior written authorization from Intel.
79b4315fc7SSascha Wildner *
80b4315fc7SSascha Wildner * 4. Disclaimer and Export Compliance
81b4315fc7SSascha Wildner *
82b4315fc7SSascha Wildner * 4.1. INTEL MAKES NO WARRANTY OF ANY KIND REGARDING ANY SOFTWARE PROVIDED
83b4315fc7SSascha Wildner * HERE. ANY SOFTWARE ORIGINATING FROM INTEL OR DERIVED FROM INTEL SOFTWARE
84b4315fc7SSascha Wildner * IS PROVIDED "AS IS," AND INTEL WILL NOT PROVIDE ANY SUPPORT, ASSISTANCE,
85b4315fc7SSascha Wildner * INSTALLATION, TRAINING OR OTHER SERVICES. INTEL WILL NOT PROVIDE ANY
86b4315fc7SSascha Wildner * UPDATES, ENHANCEMENTS OR EXTENSIONS. INTEL SPECIFICALLY DISCLAIMS ANY
87b4315fc7SSascha Wildner * IMPLIED WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT AND FITNESS FOR A
88b4315fc7SSascha Wildner * PARTICULAR PURPOSE.
89b4315fc7SSascha Wildner *
90b4315fc7SSascha Wildner * 4.2. IN NO EVENT SHALL INTEL HAVE ANY LIABILITY TO LICENSEE, ITS LICENSEES
91b4315fc7SSascha Wildner * OR ANY OTHER THIRD PARTY, FOR ANY LOST PROFITS, LOST DATA, LOSS OF USE OR
92b4315fc7SSascha Wildner * COSTS OF PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES, OR FOR ANY INDIRECT,
93b4315fc7SSascha Wildner * SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THIS AGREEMENT, UNDER ANY
94b4315fc7SSascha Wildner * CAUSE OF ACTION OR THEORY OF LIABILITY, AND IRRESPECTIVE OF WHETHER INTEL
95b4315fc7SSascha Wildner * HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES. THESE LIMITATIONS
96b4315fc7SSascha Wildner * SHALL APPLY NOTWITHSTANDING THE FAILURE OF THE ESSENTIAL PURPOSE OF ANY
97b4315fc7SSascha Wildner * LIMITED REMEDY.
98b4315fc7SSascha Wildner *
99b4315fc7SSascha Wildner * 4.3. Licensee shall not export, either directly or indirectly, any of this
100b4315fc7SSascha Wildner * software or system incorporating such software without first obtaining any
101b4315fc7SSascha Wildner * required license or other approval from the U. S. Department of Commerce or
102b4315fc7SSascha Wildner * any other agency or department of the United States Government. In the
103b4315fc7SSascha Wildner * event Licensee exports any such software from the United States or
104b4315fc7SSascha Wildner * re-exports any such software from a foreign destination, Licensee shall
105b4315fc7SSascha Wildner * ensure that the distribution and export/re-export of the software is in
106b4315fc7SSascha Wildner * compliance with all laws, regulations, orders, or other restrictions of the
107b4315fc7SSascha Wildner * U.S. Export Administration Regulations. Licensee agrees that neither it nor
108b4315fc7SSascha Wildner * any of its subsidiaries will export/re-export any technical data, process,
109b4315fc7SSascha Wildner * software, or service, directly or indirectly, to any country for which the
110b4315fc7SSascha Wildner * United States government or any agency thereof requires an export license,
111b4315fc7SSascha Wildner * other governmental approval, or letter of assurance, without first obtaining
112b4315fc7SSascha Wildner * such license, approval or letter.
113b4315fc7SSascha Wildner *
114b4315fc7SSascha Wildner *****************************************************************************
115b4315fc7SSascha Wildner *
116b4315fc7SSascha Wildner * Alternatively, you may choose to be licensed under the terms of the
117b4315fc7SSascha Wildner * following license:
118b4315fc7SSascha Wildner *
1192e2672b8SSascha Wildner * Redistribution and use in source and binary forms, with or without
1202e2672b8SSascha Wildner * modification, are permitted provided that the following conditions
1212e2672b8SSascha Wildner * are met:
1222e2672b8SSascha Wildner * 1. Redistributions of source code must retain the above copyright
1232e2672b8SSascha Wildner * notice, this list of conditions, and the following disclaimer,
1242e2672b8SSascha Wildner * without modification.
1252e2672b8SSascha Wildner * 2. Redistributions in binary form must reproduce at minimum a disclaimer
1262e2672b8SSascha Wildner * substantially similar to the "NO WARRANTY" disclaimer below
1272e2672b8SSascha Wildner * ("Disclaimer") and any redistribution must be conditioned upon
1282e2672b8SSascha Wildner * including a substantially similar Disclaimer requirement for further
1292e2672b8SSascha Wildner * binary redistribution.
1302e2672b8SSascha Wildner * 3. Neither the names of the above-listed copyright holders nor the names
1312e2672b8SSascha Wildner * of any contributors may be used to endorse or promote products derived
1322e2672b8SSascha Wildner * from this software without specific prior written permission.
1332e2672b8SSascha Wildner *
134b4315fc7SSascha Wildner * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
135b4315fc7SSascha Wildner * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
136b4315fc7SSascha Wildner * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
137b4315fc7SSascha Wildner * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
138b4315fc7SSascha Wildner * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
139b4315fc7SSascha Wildner * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
140b4315fc7SSascha Wildner * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
141b4315fc7SSascha Wildner * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
142b4315fc7SSascha Wildner * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
143b4315fc7SSascha Wildner * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
144b4315fc7SSascha Wildner * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
145b4315fc7SSascha Wildner *
146b4315fc7SSascha Wildner * Alternatively, you may choose to be licensed under the terms of the
1472e2672b8SSascha Wildner * GNU General Public License ("GPL") version 2 as published by the Free
1482e2672b8SSascha Wildner * Software Foundation.
1492e2672b8SSascha Wildner *
150b4315fc7SSascha Wildner *****************************************************************************/
1512e2672b8SSascha Wildner
1522e2672b8SSascha Wildner #include "acpi.h"
1532e2672b8SSascha Wildner #include "accommon.h"
1542e2672b8SSascha Wildner #include "acparser.h"
1552e2672b8SSascha Wildner #include "amlcode.h"
1562e2672b8SSascha Wildner #include "acdebug.h"
157d638c6eeSSascha Wildner #include "acconvert.h"
1582e2672b8SSascha Wildner
1592e2672b8SSascha Wildner #ifdef ACPI_DISASSEMBLER
1602e2672b8SSascha Wildner
1612e2672b8SSascha Wildner #define _COMPONENT ACPI_CA_DEBUGGER
1622e2672b8SSascha Wildner ACPI_MODULE_NAME ("dmcstyle")
1632e2672b8SSascha Wildner
1642e2672b8SSascha Wildner
1652e2672b8SSascha Wildner /* Local prototypes */
1662e2672b8SSascha Wildner
1672e2672b8SSascha Wildner static char *
1682e2672b8SSascha Wildner AcpiDmGetCompoundSymbol (
1692e2672b8SSascha Wildner UINT16 AslOpcode);
1702e2672b8SSascha Wildner
1712e2672b8SSascha Wildner static void
1722e2672b8SSascha Wildner AcpiDmPromoteTarget (
1732e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Op,
1742e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Target);
1752e2672b8SSascha Wildner
1762e2672b8SSascha Wildner static BOOLEAN
1772e2672b8SSascha Wildner AcpiDmIsValidTarget (
1782e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Op);
1792e2672b8SSascha Wildner
1802e2672b8SSascha Wildner static BOOLEAN
1812e2672b8SSascha Wildner AcpiDmIsTargetAnOperand (
1822e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Target,
1832e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Operand,
1842e2672b8SSascha Wildner BOOLEAN TopLevel);
1852e2672b8SSascha Wildner
186a96e04f2SSascha Wildner static BOOLEAN
187a96e04f2SSascha Wildner AcpiDmIsOptimizationIgnored (
188a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *StoreOp,
189a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *StoreArgument);
190a96e04f2SSascha Wildner
1912e2672b8SSascha Wildner
1922e2672b8SSascha Wildner /*******************************************************************************
1932e2672b8SSascha Wildner *
1942e2672b8SSascha Wildner * FUNCTION: AcpiDmCheckForSymbolicOpcode
1952e2672b8SSascha Wildner *
1962e2672b8SSascha Wildner * PARAMETERS: Op - Current parse object
1972e2672b8SSascha Wildner * Walk - Current parse tree walk info
1982e2672b8SSascha Wildner *
1992e2672b8SSascha Wildner * RETURN: TRUE if opcode can be converted to symbolic, FALSE otherwise
2002e2672b8SSascha Wildner *
2012e2672b8SSascha Wildner * DESCRIPTION: This is the main code that implements disassembly of AML code
2022e2672b8SSascha Wildner * to C-style operators. Called during descending phase of the
2032e2672b8SSascha Wildner * parse tree walk.
2042e2672b8SSascha Wildner *
2052e2672b8SSascha Wildner ******************************************************************************/
2062e2672b8SSascha Wildner
2072e2672b8SSascha Wildner BOOLEAN
AcpiDmCheckForSymbolicOpcode(ACPI_PARSE_OBJECT * Op,ACPI_OP_WALK_INFO * Info)2082e2672b8SSascha Wildner AcpiDmCheckForSymbolicOpcode (
2092e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Op,
2102e2672b8SSascha Wildner ACPI_OP_WALK_INFO *Info)
2112e2672b8SSascha Wildner {
2122e2672b8SSascha Wildner char *OperatorSymbol = NULL;
213a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *Argument1;
214a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *Argument2;
2152e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Target;
216a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *Target2;
2172e2672b8SSascha Wildner
2182e2672b8SSascha Wildner
2192e2672b8SSascha Wildner /* Exit immediately if ASL+ not enabled */
2202e2672b8SSascha Wildner
2212e2672b8SSascha Wildner if (!AcpiGbl_CstyleDisassembly)
2222e2672b8SSascha Wildner {
2232e2672b8SSascha Wildner return (FALSE);
2242e2672b8SSascha Wildner }
2252e2672b8SSascha Wildner
2262e2672b8SSascha Wildner /* Get the first operand */
2272e2672b8SSascha Wildner
228a96e04f2SSascha Wildner Argument1 = AcpiPsGetArg (Op, 0);
229a96e04f2SSascha Wildner if (!Argument1)
2302e2672b8SSascha Wildner {
2312e2672b8SSascha Wildner return (FALSE);
2322e2672b8SSascha Wildner }
2332e2672b8SSascha Wildner
2342e2672b8SSascha Wildner /* Get the second operand */
2352e2672b8SSascha Wildner
236a96e04f2SSascha Wildner Argument2 = Argument1->Common.Next;
2372e2672b8SSascha Wildner
2382e2672b8SSascha Wildner /* Setup the operator string for this opcode */
2392e2672b8SSascha Wildner
2402e2672b8SSascha Wildner switch (Op->Common.AmlOpcode)
2412e2672b8SSascha Wildner {
2422e2672b8SSascha Wildner case AML_ADD_OP:
2432e2672b8SSascha Wildner OperatorSymbol = " + ";
2442e2672b8SSascha Wildner break;
2452e2672b8SSascha Wildner
2462e2672b8SSascha Wildner case AML_SUBTRACT_OP:
2472e2672b8SSascha Wildner OperatorSymbol = " - ";
2482e2672b8SSascha Wildner break;
2492e2672b8SSascha Wildner
2502e2672b8SSascha Wildner case AML_MULTIPLY_OP:
2512e2672b8SSascha Wildner OperatorSymbol = " * ";
2522e2672b8SSascha Wildner break;
2532e2672b8SSascha Wildner
2542e2672b8SSascha Wildner case AML_DIVIDE_OP:
2552e2672b8SSascha Wildner OperatorSymbol = " / ";
2562e2672b8SSascha Wildner break;
2572e2672b8SSascha Wildner
2582e2672b8SSascha Wildner case AML_MOD_OP:
2592e2672b8SSascha Wildner OperatorSymbol = " % ";
2602e2672b8SSascha Wildner break;
2612e2672b8SSascha Wildner
2622e2672b8SSascha Wildner case AML_SHIFT_LEFT_OP:
2632e2672b8SSascha Wildner OperatorSymbol = " << ";
2642e2672b8SSascha Wildner break;
2652e2672b8SSascha Wildner
2662e2672b8SSascha Wildner case AML_SHIFT_RIGHT_OP:
2672e2672b8SSascha Wildner OperatorSymbol = " >> ";
2682e2672b8SSascha Wildner break;
2692e2672b8SSascha Wildner
2702e2672b8SSascha Wildner case AML_BIT_AND_OP:
2712e2672b8SSascha Wildner OperatorSymbol = " & ";
2722e2672b8SSascha Wildner break;
2732e2672b8SSascha Wildner
2742e2672b8SSascha Wildner case AML_BIT_OR_OP:
2752e2672b8SSascha Wildner OperatorSymbol = " | ";
2762e2672b8SSascha Wildner break;
2772e2672b8SSascha Wildner
2782e2672b8SSascha Wildner case AML_BIT_XOR_OP:
2792e2672b8SSascha Wildner OperatorSymbol = " ^ ";
2802e2672b8SSascha Wildner break;
2812e2672b8SSascha Wildner
2822e2672b8SSascha Wildner /* Logical operators, no target */
2832e2672b8SSascha Wildner
284d638c6eeSSascha Wildner case AML_LOGICAL_AND_OP:
2852e2672b8SSascha Wildner OperatorSymbol = " && ";
2862e2672b8SSascha Wildner break;
2872e2672b8SSascha Wildner
288d638c6eeSSascha Wildner case AML_LOGICAL_EQUAL_OP:
2892e2672b8SSascha Wildner OperatorSymbol = " == ";
2902e2672b8SSascha Wildner break;
2912e2672b8SSascha Wildner
292d638c6eeSSascha Wildner case AML_LOGICAL_GREATER_OP:
2932e2672b8SSascha Wildner OperatorSymbol = " > ";
2942e2672b8SSascha Wildner break;
2952e2672b8SSascha Wildner
296d638c6eeSSascha Wildner case AML_LOGICAL_LESS_OP:
2972e2672b8SSascha Wildner OperatorSymbol = " < ";
2982e2672b8SSascha Wildner break;
2992e2672b8SSascha Wildner
300d638c6eeSSascha Wildner case AML_LOGICAL_OR_OP:
3012e2672b8SSascha Wildner OperatorSymbol = " || ";
3022e2672b8SSascha Wildner break;
3032e2672b8SSascha Wildner
304d638c6eeSSascha Wildner case AML_LOGICAL_NOT_OP:
3052e2672b8SSascha Wildner /*
3062e2672b8SSascha Wildner * Check for the LNOT sub-opcodes. These correspond to
3072e2672b8SSascha Wildner * LNotEqual, LLessEqual, and LGreaterEqual. There are
3082e2672b8SSascha Wildner * no actual AML opcodes for these operators.
3092e2672b8SSascha Wildner */
310a96e04f2SSascha Wildner switch (Argument1->Common.AmlOpcode)
3112e2672b8SSascha Wildner {
312d638c6eeSSascha Wildner case AML_LOGICAL_EQUAL_OP:
3132e2672b8SSascha Wildner OperatorSymbol = " != ";
3142e2672b8SSascha Wildner break;
3152e2672b8SSascha Wildner
316d638c6eeSSascha Wildner case AML_LOGICAL_GREATER_OP:
3172e2672b8SSascha Wildner OperatorSymbol = " <= ";
3182e2672b8SSascha Wildner break;
3192e2672b8SSascha Wildner
320d638c6eeSSascha Wildner case AML_LOGICAL_LESS_OP:
3212e2672b8SSascha Wildner OperatorSymbol = " >= ";
3222e2672b8SSascha Wildner break;
3232e2672b8SSascha Wildner
3242e2672b8SSascha Wildner default:
3252e2672b8SSascha Wildner
3262e2672b8SSascha Wildner /* Unary LNOT case, emit "!" immediately */
3272e2672b8SSascha Wildner
3282e2672b8SSascha Wildner AcpiOsPrintf ("!");
3292e2672b8SSascha Wildner return (TRUE);
3302e2672b8SSascha Wildner }
3312e2672b8SSascha Wildner
332a96e04f2SSascha Wildner Argument1->Common.DisasmOpcode = ACPI_DASM_LNOT_SUFFIX;
3332e2672b8SSascha Wildner Op->Common.DisasmOpcode = ACPI_DASM_LNOT_PREFIX;
3342e2672b8SSascha Wildner
3352e2672b8SSascha Wildner /* Save symbol string in the next child (not peer) */
3362e2672b8SSascha Wildner
337a96e04f2SSascha Wildner Argument2 = AcpiPsGetArg (Argument1, 0);
338a96e04f2SSascha Wildner if (!Argument2)
3392e2672b8SSascha Wildner {
3402e2672b8SSascha Wildner return (FALSE);
3412e2672b8SSascha Wildner }
3422e2672b8SSascha Wildner
343a96e04f2SSascha Wildner Argument2->Common.OperatorSymbol = OperatorSymbol;
3442e2672b8SSascha Wildner return (TRUE);
3452e2672b8SSascha Wildner
3462e2672b8SSascha Wildner case AML_INDEX_OP:
347c6400d37SSascha Wildner /*
348c6400d37SSascha Wildner * Check for constant source operand. Note: although technically
349c6400d37SSascha Wildner * legal syntax, the iASL compiler does not support this with
350c6400d37SSascha Wildner * the symbolic operators for Index(). It doesn't make sense to
351c6400d37SSascha Wildner * use Index() with a constant anyway.
352c6400d37SSascha Wildner */
353a96e04f2SSascha Wildner if ((Argument1->Common.AmlOpcode == AML_STRING_OP) ||
354a96e04f2SSascha Wildner (Argument1->Common.AmlOpcode == AML_BUFFER_OP) ||
355a96e04f2SSascha Wildner (Argument1->Common.AmlOpcode == AML_PACKAGE_OP) ||
356d638c6eeSSascha Wildner (Argument1->Common.AmlOpcode == AML_VARIABLE_PACKAGE_OP))
357c6400d37SSascha Wildner {
358c6400d37SSascha Wildner Op->Common.DisasmFlags |= ACPI_PARSEOP_CLOSING_PAREN;
359c6400d37SSascha Wildner return (FALSE);
360c6400d37SSascha Wildner }
361c6400d37SSascha Wildner
362c6400d37SSascha Wildner /* Index operator is [] */
363c6400d37SSascha Wildner
364a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = " [";
365a96e04f2SSascha Wildner Argument2->Common.OperatorSymbol = "]";
3662e2672b8SSascha Wildner break;
3672e2672b8SSascha Wildner
3682e2672b8SSascha Wildner /* Unary operators */
3692e2672b8SSascha Wildner
3702e2672b8SSascha Wildner case AML_DECREMENT_OP:
3712e2672b8SSascha Wildner OperatorSymbol = "--";
3722e2672b8SSascha Wildner break;
3732e2672b8SSascha Wildner
3742e2672b8SSascha Wildner case AML_INCREMENT_OP:
3752e2672b8SSascha Wildner OperatorSymbol = "++";
3762e2672b8SSascha Wildner break;
3772e2672b8SSascha Wildner
3782e2672b8SSascha Wildner case AML_BIT_NOT_OP:
3792e2672b8SSascha Wildner case AML_STORE_OP:
3802e2672b8SSascha Wildner OperatorSymbol = NULL;
3812e2672b8SSascha Wildner break;
3822e2672b8SSascha Wildner
3832e2672b8SSascha Wildner default:
3842e2672b8SSascha Wildner return (FALSE);
3852e2672b8SSascha Wildner }
3862e2672b8SSascha Wildner
387a96e04f2SSascha Wildner if (Argument1->Common.DisasmOpcode == ACPI_DASM_LNOT_SUFFIX)
3882e2672b8SSascha Wildner {
3892e2672b8SSascha Wildner return (TRUE);
3902e2672b8SSascha Wildner }
3912e2672b8SSascha Wildner
3922e2672b8SSascha Wildner /*
3932e2672b8SSascha Wildner * This is the key to how the disassembly of the C-style operators
3942e2672b8SSascha Wildner * works. We save the operator symbol in the first child, thus
3952e2672b8SSascha Wildner * deferring symbol output until after the first operand has been
3962e2672b8SSascha Wildner * emitted.
3972e2672b8SSascha Wildner */
398a96e04f2SSascha Wildner if (!Argument1->Common.OperatorSymbol)
3992e2672b8SSascha Wildner {
400a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = OperatorSymbol;
4012e2672b8SSascha Wildner }
4022e2672b8SSascha Wildner
4032e2672b8SSascha Wildner /*
4042e2672b8SSascha Wildner * Check for a valid target as the 3rd (or sometimes 2nd) operand
4052e2672b8SSascha Wildner *
4062e2672b8SSascha Wildner * Compound assignment operator support:
4072e2672b8SSascha Wildner * Attempt to optimize constructs of the form:
4082e2672b8SSascha Wildner * Add (Local1, 0xFF, Local1)
4092e2672b8SSascha Wildner * to:
4102e2672b8SSascha Wildner * Local1 += 0xFF
4112e2672b8SSascha Wildner *
4122e2672b8SSascha Wildner * Only the math operators and Store() have a target.
4132e2672b8SSascha Wildner * Logicals have no target.
4142e2672b8SSascha Wildner */
4152e2672b8SSascha Wildner switch (Op->Common.AmlOpcode)
4162e2672b8SSascha Wildner {
4172e2672b8SSascha Wildner case AML_ADD_OP:
4182e2672b8SSascha Wildner case AML_SUBTRACT_OP:
4192e2672b8SSascha Wildner case AML_MULTIPLY_OP:
4202e2672b8SSascha Wildner case AML_DIVIDE_OP:
4212e2672b8SSascha Wildner case AML_MOD_OP:
4222e2672b8SSascha Wildner case AML_SHIFT_LEFT_OP:
4232e2672b8SSascha Wildner case AML_SHIFT_RIGHT_OP:
4242e2672b8SSascha Wildner case AML_BIT_AND_OP:
4252e2672b8SSascha Wildner case AML_BIT_OR_OP:
4262e2672b8SSascha Wildner case AML_BIT_XOR_OP:
4272e2672b8SSascha Wildner
4282e2672b8SSascha Wildner /* Target is 3rd operand */
4292e2672b8SSascha Wildner
430a96e04f2SSascha Wildner Target = Argument2->Common.Next;
4312e2672b8SSascha Wildner if (Op->Common.AmlOpcode == AML_DIVIDE_OP)
4322e2672b8SSascha Wildner {
433a96e04f2SSascha Wildner Target2 = Target->Common.Next;
434a96e04f2SSascha Wildner
4352e2672b8SSascha Wildner /*
4362e2672b8SSascha Wildner * Divide has an extra target operand (Remainder).
437a96e04f2SSascha Wildner * Default behavior is to simply ignore ASL+ conversion
438a96e04f2SSascha Wildner * if the remainder target (modulo) is specified.
4392e2672b8SSascha Wildner */
440a96e04f2SSascha Wildner if (!AcpiGbl_DoDisassemblerOptimizations)
441a96e04f2SSascha Wildner {
4422e2672b8SSascha Wildner if (AcpiDmIsValidTarget (Target))
4432e2672b8SSascha Wildner {
444a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = NULL;
44596f24602SSascha Wildner Op->Common.DisasmFlags |= ACPI_PARSEOP_LEGACY_ASL_ONLY;
4462e2672b8SSascha Wildner return (FALSE);
4472e2672b8SSascha Wildner }
4482e2672b8SSascha Wildner
4492e2672b8SSascha Wildner Target->Common.DisasmFlags |= ACPI_PARSEOP_IGNORE;
450a96e04f2SSascha Wildner Target = Target2;
451a96e04f2SSascha Wildner }
452a96e04f2SSascha Wildner else
453a96e04f2SSascha Wildner {
454a96e04f2SSascha Wildner /*
455a96e04f2SSascha Wildner * Divide has an extra target operand (Remainder).
456a96e04f2SSascha Wildner * If both targets are specified, it cannot be converted
457a96e04f2SSascha Wildner * to a C-style operator.
458a96e04f2SSascha Wildner */
459a96e04f2SSascha Wildner if (AcpiDmIsValidTarget (Target) &&
460a96e04f2SSascha Wildner AcpiDmIsValidTarget (Target2))
461a96e04f2SSascha Wildner {
462a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = NULL;
463a96e04f2SSascha Wildner Op->Common.DisasmFlags |= ACPI_PARSEOP_LEGACY_ASL_ONLY;
464a96e04f2SSascha Wildner return (FALSE);
465a96e04f2SSascha Wildner }
466a96e04f2SSascha Wildner
467a96e04f2SSascha Wildner if (AcpiDmIsValidTarget (Target)) /* Only first Target is valid (remainder) */
468a96e04f2SSascha Wildner {
469a96e04f2SSascha Wildner /* Convert the Divide to Modulo */
470a96e04f2SSascha Wildner
471a96e04f2SSascha Wildner Op->Common.AmlOpcode = AML_MOD_OP;
472a96e04f2SSascha Wildner
473a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = " % ";
474a96e04f2SSascha Wildner Target2->Common.DisasmFlags |= ACPI_PARSEOP_IGNORE;
475a96e04f2SSascha Wildner }
476a96e04f2SSascha Wildner else /* Only second Target (quotient) is valid */
477a96e04f2SSascha Wildner {
478a96e04f2SSascha Wildner Target->Common.DisasmFlags |= ACPI_PARSEOP_IGNORE;
479a96e04f2SSascha Wildner Target = Target2;
480a96e04f2SSascha Wildner }
481a96e04f2SSascha Wildner }
4822e2672b8SSascha Wildner }
4832e2672b8SSascha Wildner
4842e2672b8SSascha Wildner /* Parser should ensure there is at least a placeholder target */
4852e2672b8SSascha Wildner
4862e2672b8SSascha Wildner if (!Target)
4872e2672b8SSascha Wildner {
4882e2672b8SSascha Wildner return (FALSE);
4892e2672b8SSascha Wildner }
4902e2672b8SSascha Wildner
4912e2672b8SSascha Wildner if (!AcpiDmIsValidTarget (Target))
4922e2672b8SSascha Wildner {
4932e2672b8SSascha Wildner /* Not a valid target (placeholder only, from parser) */
4942e2672b8SSascha Wildner break;
4952e2672b8SSascha Wildner }
4962e2672b8SSascha Wildner
4972e2672b8SSascha Wildner /*
4982e2672b8SSascha Wildner * Promote the target up to the first child in the parse
4992e2672b8SSascha Wildner * tree. This is done because the target will be output
5002e2672b8SSascha Wildner * first, in the form:
5012e2672b8SSascha Wildner * <Target> = Operands...
5022e2672b8SSascha Wildner */
5032e2672b8SSascha Wildner AcpiDmPromoteTarget (Op, Target);
5042e2672b8SSascha Wildner
50525ca8c79SSascha Wildner /* Check operands for conversion to a "Compound Assignment" */
50625ca8c79SSascha Wildner
50725ca8c79SSascha Wildner switch (Op->Common.AmlOpcode)
50825ca8c79SSascha Wildner {
50925ca8c79SSascha Wildner /* Commutative operators */
51025ca8c79SSascha Wildner
51125ca8c79SSascha Wildner case AML_ADD_OP:
51225ca8c79SSascha Wildner case AML_MULTIPLY_OP:
51325ca8c79SSascha Wildner case AML_BIT_AND_OP:
51425ca8c79SSascha Wildner case AML_BIT_OR_OP:
51525ca8c79SSascha Wildner case AML_BIT_XOR_OP:
5162e2672b8SSascha Wildner /*
51725ca8c79SSascha Wildner * For the commutative operators, we can convert to a
51825ca8c79SSascha Wildner * compound statement only if at least one (either) operand
51925ca8c79SSascha Wildner * is the same as the target.
5202e2672b8SSascha Wildner *
52125ca8c79SSascha Wildner * Add (A, B, A) --> A += B
52225ca8c79SSascha Wildner * Add (B, A, A) --> A += B
52325ca8c79SSascha Wildner * Add (B, C, A) --> A = (B + C)
5242e2672b8SSascha Wildner */
525a96e04f2SSascha Wildner if ((AcpiDmIsTargetAnOperand (Target, Argument1, TRUE)) ||
526a96e04f2SSascha Wildner (AcpiDmIsTargetAnOperand (Target, Argument2, TRUE)))
5272e2672b8SSascha Wildner {
5282e2672b8SSascha Wildner Target->Common.OperatorSymbol =
5292e2672b8SSascha Wildner AcpiDmGetCompoundSymbol (Op->Common.AmlOpcode);
5302e2672b8SSascha Wildner
5312e2672b8SSascha Wildner /* Convert operator to compound assignment */
5322e2672b8SSascha Wildner
5330d27ae55SSascha Wildner Op->Common.DisasmFlags |= ACPI_PARSEOP_COMPOUND_ASSIGNMENT;
534a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = NULL;
5352e2672b8SSascha Wildner return (TRUE);
5362e2672b8SSascha Wildner }
53725ca8c79SSascha Wildner break;
53825ca8c79SSascha Wildner
53925ca8c79SSascha Wildner /* Non-commutative operators */
54025ca8c79SSascha Wildner
54125ca8c79SSascha Wildner case AML_SUBTRACT_OP:
54225ca8c79SSascha Wildner case AML_DIVIDE_OP:
54325ca8c79SSascha Wildner case AML_MOD_OP:
54425ca8c79SSascha Wildner case AML_SHIFT_LEFT_OP:
54525ca8c79SSascha Wildner case AML_SHIFT_RIGHT_OP:
54625ca8c79SSascha Wildner /*
54725ca8c79SSascha Wildner * For the non-commutative operators, we can convert to a
54825ca8c79SSascha Wildner * compound statement only if the target is the same as the
54925ca8c79SSascha Wildner * first operand.
55025ca8c79SSascha Wildner *
55125ca8c79SSascha Wildner * Subtract (A, B, A) --> A -= B
55225ca8c79SSascha Wildner * Subtract (B, A, A) --> A = (B - A)
55325ca8c79SSascha Wildner */
554a96e04f2SSascha Wildner if ((AcpiDmIsTargetAnOperand (Target, Argument1, TRUE)))
55525ca8c79SSascha Wildner {
55625ca8c79SSascha Wildner Target->Common.OperatorSymbol =
55725ca8c79SSascha Wildner AcpiDmGetCompoundSymbol (Op->Common.AmlOpcode);
55825ca8c79SSascha Wildner
55925ca8c79SSascha Wildner /* Convert operator to compound assignment */
56025ca8c79SSascha Wildner
5610d27ae55SSascha Wildner Op->Common.DisasmFlags |= ACPI_PARSEOP_COMPOUND_ASSIGNMENT;
562a96e04f2SSascha Wildner Argument1->Common.OperatorSymbol = NULL;
56325ca8c79SSascha Wildner return (TRUE);
56425ca8c79SSascha Wildner }
56525ca8c79SSascha Wildner break;
56625ca8c79SSascha Wildner
56725ca8c79SSascha Wildner default:
56825ca8c79SSascha Wildner break;
56925ca8c79SSascha Wildner }
5702e2672b8SSascha Wildner
5712e2672b8SSascha Wildner /*
5722e2672b8SSascha Wildner * If we are within a C-style expression, emit an extra open
5732e2672b8SSascha Wildner * paren. Implemented by examining the parent op.
5742e2672b8SSascha Wildner */
5752e2672b8SSascha Wildner switch (Op->Common.Parent->Common.AmlOpcode)
5762e2672b8SSascha Wildner {
5772e2672b8SSascha Wildner case AML_ADD_OP:
5782e2672b8SSascha Wildner case AML_SUBTRACT_OP:
5792e2672b8SSascha Wildner case AML_MULTIPLY_OP:
5802e2672b8SSascha Wildner case AML_DIVIDE_OP:
5812e2672b8SSascha Wildner case AML_MOD_OP:
5822e2672b8SSascha Wildner case AML_SHIFT_LEFT_OP:
5832e2672b8SSascha Wildner case AML_SHIFT_RIGHT_OP:
5842e2672b8SSascha Wildner case AML_BIT_AND_OP:
5852e2672b8SSascha Wildner case AML_BIT_OR_OP:
5862e2672b8SSascha Wildner case AML_BIT_XOR_OP:
587d638c6eeSSascha Wildner case AML_LOGICAL_AND_OP:
588d638c6eeSSascha Wildner case AML_LOGICAL_EQUAL_OP:
589d638c6eeSSascha Wildner case AML_LOGICAL_GREATER_OP:
590d638c6eeSSascha Wildner case AML_LOGICAL_LESS_OP:
591d638c6eeSSascha Wildner case AML_LOGICAL_OR_OP:
5922e2672b8SSascha Wildner
5932e2672b8SSascha Wildner Op->Common.DisasmFlags |= ACPI_PARSEOP_ASSIGNMENT;
5942e2672b8SSascha Wildner AcpiOsPrintf ("(");
5952e2672b8SSascha Wildner break;
5962e2672b8SSascha Wildner
5972e2672b8SSascha Wildner default:
5982e2672b8SSascha Wildner break;
5992e2672b8SSascha Wildner }
6002e2672b8SSascha Wildner
6012e2672b8SSascha Wildner /* Normal output for ASL/AML operators with a target operand */
6022e2672b8SSascha Wildner
6032e2672b8SSascha Wildner Target->Common.OperatorSymbol = " = (";
6042e2672b8SSascha Wildner return (TRUE);
6052e2672b8SSascha Wildner
6062e2672b8SSascha Wildner /* Binary operators, no parens */
6072e2672b8SSascha Wildner
6082e2672b8SSascha Wildner case AML_DECREMENT_OP:
6092e2672b8SSascha Wildner case AML_INCREMENT_OP:
6102e2672b8SSascha Wildner return (TRUE);
6112e2672b8SSascha Wildner
6122e2672b8SSascha Wildner case AML_INDEX_OP:
6132e2672b8SSascha Wildner
6142e2672b8SSascha Wildner /* Target is optional, 3rd operand */
6152e2672b8SSascha Wildner
616a96e04f2SSascha Wildner Target = Argument2->Common.Next;
6172e2672b8SSascha Wildner if (AcpiDmIsValidTarget (Target))
6182e2672b8SSascha Wildner {
6192e2672b8SSascha Wildner AcpiDmPromoteTarget (Op, Target);
6202e2672b8SSascha Wildner
6212e2672b8SSascha Wildner if (!Target->Common.OperatorSymbol)
6222e2672b8SSascha Wildner {
6232e2672b8SSascha Wildner Target->Common.OperatorSymbol = " = ";
6242e2672b8SSascha Wildner }
6252e2672b8SSascha Wildner }
6262e2672b8SSascha Wildner return (TRUE);
6272e2672b8SSascha Wildner
6282e2672b8SSascha Wildner case AML_STORE_OP:
6292e2672b8SSascha Wildner /*
630a96e04f2SSascha Wildner * For Store, the Target is the 2nd operand. We know the target
631a96e04f2SSascha Wildner * is valid, because it is not optional.
63296f24602SSascha Wildner *
633a96e04f2SSascha Wildner * Ignore any optimizations/folding if flag is set.
634a96e04f2SSascha Wildner * Used for iASL/disassembler test suite only.
63596f24602SSascha Wildner */
636a96e04f2SSascha Wildner if (AcpiDmIsOptimizationIgnored (Op, Argument1))
63796f24602SSascha Wildner {
63896f24602SSascha Wildner return (FALSE);
63996f24602SSascha Wildner }
64096f24602SSascha Wildner
64196f24602SSascha Wildner /*
642a96e04f2SSascha Wildner * Perform conversion.
6432e2672b8SSascha Wildner * In the parse tree, simply swap the target with the
6442e2672b8SSascha Wildner * source so that the target is processed first.
6452e2672b8SSascha Wildner */
646a96e04f2SSascha Wildner Target = Argument1->Common.Next;
64725ca8c79SSascha Wildner if (!Target)
64825ca8c79SSascha Wildner {
64925ca8c79SSascha Wildner return (FALSE);
65025ca8c79SSascha Wildner }
6512e2672b8SSascha Wildner
65225ca8c79SSascha Wildner AcpiDmPromoteTarget (Op, Target);
6532e2672b8SSascha Wildner if (!Target->Common.OperatorSymbol)
6542e2672b8SSascha Wildner {
6552e2672b8SSascha Wildner Target->Common.OperatorSymbol = " = ";
6562e2672b8SSascha Wildner }
6572e2672b8SSascha Wildner return (TRUE);
6582e2672b8SSascha Wildner
6592e2672b8SSascha Wildner case AML_BIT_NOT_OP:
6602e2672b8SSascha Wildner
6612e2672b8SSascha Wildner /* Target is optional, 2nd operand */
6622e2672b8SSascha Wildner
663a96e04f2SSascha Wildner Target = Argument1->Common.Next;
6642e2672b8SSascha Wildner if (!Target)
6652e2672b8SSascha Wildner {
6662e2672b8SSascha Wildner return (FALSE);
6672e2672b8SSascha Wildner }
6682e2672b8SSascha Wildner
6692e2672b8SSascha Wildner if (AcpiDmIsValidTarget (Target))
6702e2672b8SSascha Wildner {
6712e2672b8SSascha Wildner /* Valid target, not a placeholder */
6722e2672b8SSascha Wildner
6732e2672b8SSascha Wildner AcpiDmPromoteTarget (Op, Target);
6742e2672b8SSascha Wildner Target->Common.OperatorSymbol = " = ~";
6752e2672b8SSascha Wildner }
6762e2672b8SSascha Wildner else
6772e2672b8SSascha Wildner {
6782e2672b8SSascha Wildner /* No target. Emit this prefix operator immediately */
6792e2672b8SSascha Wildner
6802e2672b8SSascha Wildner AcpiOsPrintf ("~");
6812e2672b8SSascha Wildner }
6822e2672b8SSascha Wildner return (TRUE);
6832e2672b8SSascha Wildner
6842e2672b8SSascha Wildner default:
6852e2672b8SSascha Wildner break;
6862e2672b8SSascha Wildner }
6872e2672b8SSascha Wildner
6882e2672b8SSascha Wildner /* All other operators, emit an open paren */
6892e2672b8SSascha Wildner
6902e2672b8SSascha Wildner AcpiOsPrintf ("(");
6912e2672b8SSascha Wildner return (TRUE);
6922e2672b8SSascha Wildner }
6932e2672b8SSascha Wildner
6942e2672b8SSascha Wildner
6952e2672b8SSascha Wildner /*******************************************************************************
6962e2672b8SSascha Wildner *
697a96e04f2SSascha Wildner * FUNCTION: AcpiDmIsOptimizationIgnored
698a96e04f2SSascha Wildner *
699a96e04f2SSascha Wildner * PARAMETERS: StoreOp - Store operator parse object
700a96e04f2SSascha Wildner * StoreArgument - Target associate with the Op
701a96e04f2SSascha Wildner *
702a96e04f2SSascha Wildner * RETURN: TRUE if this Store operator should not be converted/removed.
703a96e04f2SSascha Wildner *
704a96e04f2SSascha Wildner * DESCRIPTION: The following function implements "Do not optimize if a
705a96e04f2SSascha Wildner * store is immediately followed by a math/bit operator that
706a96e04f2SSascha Wildner * has no target".
707a96e04f2SSascha Wildner *
708a96e04f2SSascha Wildner * Function is ignored if DoDisassemblerOptimizations is TRUE.
709a96e04f2SSascha Wildner * This is the default, ignore this function.
710a96e04f2SSascha Wildner *
711a96e04f2SSascha Wildner * Disables these types of optimizations, and simply emits
712a96e04f2SSascha Wildner * legacy ASL code:
713a96e04f2SSascha Wildner * Store (Add (INT1, 4), INT2) --> Add (INT1, 4, INT2)
714a96e04f2SSascha Wildner * --> INT2 = INT1 + 4
715a96e04f2SSascha Wildner *
716a96e04f2SSascha Wildner * Store (Not (INT1), INT2) --> Not (INT1, INT2)
717a96e04f2SSascha Wildner * --> INT2 = ~INT1
718a96e04f2SSascha Wildner *
719a96e04f2SSascha Wildner * Used only for the ASL test suite. For the test suite, we
720a96e04f2SSascha Wildner * don't want to perform some optimizations to ensure binary
721a96e04f2SSascha Wildner * compatibility with the generation of the legacy ASL->AML.
722a96e04f2SSascha Wildner * In other words, for all test modules we want exactly:
723a96e04f2SSascha Wildner * (ASL+ -> AML) == (ASL- -> AML)
724a96e04f2SSascha Wildner *
725a96e04f2SSascha Wildner ******************************************************************************/
726a96e04f2SSascha Wildner
727a96e04f2SSascha Wildner static BOOLEAN
AcpiDmIsOptimizationIgnored(ACPI_PARSE_OBJECT * StoreOp,ACPI_PARSE_OBJECT * StoreArgument)728a96e04f2SSascha Wildner AcpiDmIsOptimizationIgnored (
729a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *StoreOp,
730a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *StoreArgument)
731a96e04f2SSascha Wildner {
732a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *Argument1;
733a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *Argument2;
734a96e04f2SSascha Wildner ACPI_PARSE_OBJECT *Target;
735a96e04f2SSascha Wildner
736a96e04f2SSascha Wildner
737a96e04f2SSascha Wildner /* No optimizations/folding for the typical case */
738a96e04f2SSascha Wildner
739a96e04f2SSascha Wildner if (AcpiGbl_DoDisassemblerOptimizations)
740a96e04f2SSascha Wildner {
741a96e04f2SSascha Wildner return (FALSE);
742a96e04f2SSascha Wildner }
743a96e04f2SSascha Wildner
744a96e04f2SSascha Wildner /*
745a96e04f2SSascha Wildner * Only a small subset of ASL/AML operators can be optimized.
746a96e04f2SSascha Wildner * Can only optimize/fold if there is no target (or targets)
747a96e04f2SSascha Wildner * specified for the operator. And of course, the operator
748c5a52fd3SSascha Wildner * is surrounded by a Store() operator.
749a96e04f2SSascha Wildner */
750a96e04f2SSascha Wildner switch (StoreArgument->Common.AmlOpcode)
751a96e04f2SSascha Wildner {
752a96e04f2SSascha Wildner case AML_ADD_OP:
753a96e04f2SSascha Wildner case AML_SUBTRACT_OP:
754a96e04f2SSascha Wildner case AML_MULTIPLY_OP:
755a96e04f2SSascha Wildner case AML_MOD_OP:
756a96e04f2SSascha Wildner case AML_SHIFT_LEFT_OP:
757a96e04f2SSascha Wildner case AML_SHIFT_RIGHT_OP:
758a96e04f2SSascha Wildner case AML_BIT_AND_OP:
759a96e04f2SSascha Wildner case AML_BIT_OR_OP:
760a96e04f2SSascha Wildner case AML_BIT_XOR_OP:
761a96e04f2SSascha Wildner case AML_INDEX_OP:
762a96e04f2SSascha Wildner
763a96e04f2SSascha Wildner /* These operators have two arguments and one target */
764a96e04f2SSascha Wildner
765a96e04f2SSascha Wildner Argument1 = StoreArgument->Common.Value.Arg;
766a96e04f2SSascha Wildner Argument2 = Argument1->Common.Next;
767a96e04f2SSascha Wildner Target = Argument2->Common.Next;
768a96e04f2SSascha Wildner
769a96e04f2SSascha Wildner if (!AcpiDmIsValidTarget (Target))
770a96e04f2SSascha Wildner {
771a96e04f2SSascha Wildner StoreOp->Common.DisasmFlags |= ACPI_PARSEOP_LEGACY_ASL_ONLY;
772a96e04f2SSascha Wildner return (TRUE);
773a96e04f2SSascha Wildner }
774a96e04f2SSascha Wildner break;
775a96e04f2SSascha Wildner
776a96e04f2SSascha Wildner case AML_DIVIDE_OP:
777a96e04f2SSascha Wildner
778a96e04f2SSascha Wildner /* This operator has two arguments and two targets */
779a96e04f2SSascha Wildner
780a96e04f2SSascha Wildner Argument1 = StoreArgument->Common.Value.Arg;
781a96e04f2SSascha Wildner Argument2 = Argument1->Common.Next;
782a96e04f2SSascha Wildner Target = Argument2->Common.Next;
783a96e04f2SSascha Wildner
784a96e04f2SSascha Wildner if (!AcpiDmIsValidTarget (Target) ||
785a96e04f2SSascha Wildner !AcpiDmIsValidTarget (Target->Common.Next))
786a96e04f2SSascha Wildner {
787a96e04f2SSascha Wildner StoreOp->Common.DisasmFlags |= ACPI_PARSEOP_LEGACY_ASL_ONLY;
788a96e04f2SSascha Wildner return (TRUE);
789a96e04f2SSascha Wildner }
790a96e04f2SSascha Wildner break;
791a96e04f2SSascha Wildner
792a96e04f2SSascha Wildner case AML_BIT_NOT_OP:
793a96e04f2SSascha Wildner
794a96e04f2SSascha Wildner /* This operator has one operand and one target */
795a96e04f2SSascha Wildner
796a96e04f2SSascha Wildner Argument1 = StoreArgument->Common.Value.Arg;
797a96e04f2SSascha Wildner Target = Argument1->Common.Next;
798a96e04f2SSascha Wildner
799a96e04f2SSascha Wildner if (!AcpiDmIsValidTarget (Target))
800a96e04f2SSascha Wildner {
801a96e04f2SSascha Wildner StoreOp->Common.DisasmFlags |= ACPI_PARSEOP_LEGACY_ASL_ONLY;
802a96e04f2SSascha Wildner return (TRUE);
803a96e04f2SSascha Wildner }
804a96e04f2SSascha Wildner break;
805a96e04f2SSascha Wildner
806a96e04f2SSascha Wildner default:
807a96e04f2SSascha Wildner break;
808a96e04f2SSascha Wildner }
809a96e04f2SSascha Wildner
810a96e04f2SSascha Wildner return (FALSE);
811a96e04f2SSascha Wildner }
812a96e04f2SSascha Wildner
813a96e04f2SSascha Wildner
814a96e04f2SSascha Wildner /*******************************************************************************
815a96e04f2SSascha Wildner *
8162e2672b8SSascha Wildner * FUNCTION: AcpiDmCloseOperator
8172e2672b8SSascha Wildner *
8182e2672b8SSascha Wildner * PARAMETERS: Op - Current parse object
8192e2672b8SSascha Wildner *
8202e2672b8SSascha Wildner * RETURN: None
8212e2672b8SSascha Wildner *
8222e2672b8SSascha Wildner * DESCRIPTION: Closes an operator by adding a closing parentheses if and
8232e2672b8SSascha Wildner * when necessary. Called during ascending phase of the
8242e2672b8SSascha Wildner * parse tree walk.
8252e2672b8SSascha Wildner *
8262e2672b8SSascha Wildner ******************************************************************************/
8272e2672b8SSascha Wildner
8282e2672b8SSascha Wildner void
AcpiDmCloseOperator(ACPI_PARSE_OBJECT * Op)8292e2672b8SSascha Wildner AcpiDmCloseOperator (
8302e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Op)
8312e2672b8SSascha Wildner {
83296f24602SSascha Wildner
8332e2672b8SSascha Wildner /* Always emit paren if ASL+ disassembly disabled */
8342e2672b8SSascha Wildner
8352e2672b8SSascha Wildner if (!AcpiGbl_CstyleDisassembly)
8362e2672b8SSascha Wildner {
8372e2672b8SSascha Wildner AcpiOsPrintf (")");
838d638c6eeSSascha Wildner ASL_CV_PRINT_ONE_COMMENT (Op, AML_COMMENT_END_NODE, NULL, 0);
8392e2672b8SSascha Wildner return;
8402e2672b8SSascha Wildner }
8412e2672b8SSascha Wildner
84296f24602SSascha Wildner if (Op->Common.DisasmFlags & ACPI_PARSEOP_LEGACY_ASL_ONLY)
84396f24602SSascha Wildner {
84496f24602SSascha Wildner AcpiOsPrintf (")");
845d638c6eeSSascha Wildner ASL_CV_PRINT_ONE_COMMENT (Op, AML_COMMENT_END_NODE, NULL, 0);
84696f24602SSascha Wildner return;
84796f24602SSascha Wildner }
84896f24602SSascha Wildner
8492e2672b8SSascha Wildner /* Check if we need to add an additional closing paren */
8502e2672b8SSascha Wildner
8512e2672b8SSascha Wildner switch (Op->Common.AmlOpcode)
8522e2672b8SSascha Wildner {
8532e2672b8SSascha Wildner case AML_ADD_OP:
8542e2672b8SSascha Wildner case AML_SUBTRACT_OP:
8552e2672b8SSascha Wildner case AML_MULTIPLY_OP:
8562e2672b8SSascha Wildner case AML_DIVIDE_OP:
8572e2672b8SSascha Wildner case AML_MOD_OP:
8582e2672b8SSascha Wildner case AML_SHIFT_LEFT_OP:
8592e2672b8SSascha Wildner case AML_SHIFT_RIGHT_OP:
8602e2672b8SSascha Wildner case AML_BIT_AND_OP:
8612e2672b8SSascha Wildner case AML_BIT_OR_OP:
8622e2672b8SSascha Wildner case AML_BIT_XOR_OP:
863d638c6eeSSascha Wildner case AML_LOGICAL_AND_OP:
864d638c6eeSSascha Wildner case AML_LOGICAL_EQUAL_OP:
865d638c6eeSSascha Wildner case AML_LOGICAL_GREATER_OP:
866d638c6eeSSascha Wildner case AML_LOGICAL_LESS_OP:
867d638c6eeSSascha Wildner case AML_LOGICAL_OR_OP:
8682e2672b8SSascha Wildner
8692e2672b8SSascha Wildner /* Emit paren only if this is not a compound assignment */
8702e2672b8SSascha Wildner
8710d27ae55SSascha Wildner if (Op->Common.DisasmFlags & ACPI_PARSEOP_COMPOUND_ASSIGNMENT)
8722e2672b8SSascha Wildner {
873d638c6eeSSascha Wildner ASL_CV_PRINT_ONE_COMMENT (Op, AML_COMMENT_END_NODE, NULL, 0);
8742e2672b8SSascha Wildner return;
8752e2672b8SSascha Wildner }
8762e2672b8SSascha Wildner
8772e2672b8SSascha Wildner /* Emit extra close paren for assignment within an expression */
8782e2672b8SSascha Wildner
8792e2672b8SSascha Wildner if (Op->Common.DisasmFlags & ACPI_PARSEOP_ASSIGNMENT)
8802e2672b8SSascha Wildner {
8812e2672b8SSascha Wildner AcpiOsPrintf (")");
8822e2672b8SSascha Wildner }
8832e2672b8SSascha Wildner break;
8842e2672b8SSascha Wildner
885c6400d37SSascha Wildner case AML_INDEX_OP:
886c6400d37SSascha Wildner
887c6400d37SSascha Wildner /* This is case for unsupported Index() source constants */
888c6400d37SSascha Wildner
889c6400d37SSascha Wildner if (Op->Common.DisasmFlags & ACPI_PARSEOP_CLOSING_PAREN)
890c6400d37SSascha Wildner {
891c6400d37SSascha Wildner AcpiOsPrintf (")");
892c6400d37SSascha Wildner }
893d638c6eeSSascha Wildner ASL_CV_PRINT_ONE_COMMENT (Op, AML_COMMENT_END_NODE, NULL, 0);
894c6400d37SSascha Wildner return;
8952e2672b8SSascha Wildner
8962e2672b8SSascha Wildner /* No need for parens for these */
8972e2672b8SSascha Wildner
8982e2672b8SSascha Wildner case AML_DECREMENT_OP:
8992e2672b8SSascha Wildner case AML_INCREMENT_OP:
900d638c6eeSSascha Wildner case AML_LOGICAL_NOT_OP:
9012e2672b8SSascha Wildner case AML_BIT_NOT_OP:
9022e2672b8SSascha Wildner case AML_STORE_OP:
903d638c6eeSSascha Wildner ASL_CV_PRINT_ONE_COMMENT (Op, AML_COMMENT_END_NODE, NULL, 0);
9042e2672b8SSascha Wildner return;
9052e2672b8SSascha Wildner
9062e2672b8SSascha Wildner default:
9072e2672b8SSascha Wildner
9082e2672b8SSascha Wildner /* Always emit paren for non-ASL+ operators */
9092e2672b8SSascha Wildner break;
9102e2672b8SSascha Wildner }
9112e2672b8SSascha Wildner
9122e2672b8SSascha Wildner AcpiOsPrintf (")");
913d638c6eeSSascha Wildner ASL_CV_PRINT_ONE_COMMENT (Op, AML_COMMENT_END_NODE, NULL, 0);
914d638c6eeSSascha Wildner
915d638c6eeSSascha Wildner return;
9162e2672b8SSascha Wildner }
9172e2672b8SSascha Wildner
9182e2672b8SSascha Wildner
9192e2672b8SSascha Wildner /*******************************************************************************
9202e2672b8SSascha Wildner *
9212e2672b8SSascha Wildner * FUNCTION: AcpiDmGetCompoundSymbol
9222e2672b8SSascha Wildner *
9232e2672b8SSascha Wildner * PARAMETERS: AslOpcode
9242e2672b8SSascha Wildner *
9252e2672b8SSascha Wildner * RETURN: String containing the compound assignment symbol
9262e2672b8SSascha Wildner *
9272e2672b8SSascha Wildner * DESCRIPTION: Detect opcodes that can be converted to compound assignment,
9282e2672b8SSascha Wildner * return the appropriate operator string.
9292e2672b8SSascha Wildner *
9302e2672b8SSascha Wildner ******************************************************************************/
9312e2672b8SSascha Wildner
9322e2672b8SSascha Wildner static char *
AcpiDmGetCompoundSymbol(UINT16 AmlOpcode)9332e2672b8SSascha Wildner AcpiDmGetCompoundSymbol (
9342e2672b8SSascha Wildner UINT16 AmlOpcode)
9352e2672b8SSascha Wildner {
9362e2672b8SSascha Wildner char *Symbol;
9372e2672b8SSascha Wildner
9382e2672b8SSascha Wildner
9392e2672b8SSascha Wildner switch (AmlOpcode)
9402e2672b8SSascha Wildner {
9412e2672b8SSascha Wildner case AML_ADD_OP:
9422e2672b8SSascha Wildner Symbol = " += ";
9432e2672b8SSascha Wildner break;
9442e2672b8SSascha Wildner
9452e2672b8SSascha Wildner case AML_SUBTRACT_OP:
9462e2672b8SSascha Wildner Symbol = " -= ";
9472e2672b8SSascha Wildner break;
9482e2672b8SSascha Wildner
9492e2672b8SSascha Wildner case AML_MULTIPLY_OP:
9502e2672b8SSascha Wildner Symbol = " *= ";
9512e2672b8SSascha Wildner break;
9522e2672b8SSascha Wildner
9532e2672b8SSascha Wildner case AML_DIVIDE_OP:
9542e2672b8SSascha Wildner Symbol = " /= ";
9552e2672b8SSascha Wildner break;
9562e2672b8SSascha Wildner
9572e2672b8SSascha Wildner case AML_MOD_OP:
9582e2672b8SSascha Wildner Symbol = " %= ";
9592e2672b8SSascha Wildner break;
9602e2672b8SSascha Wildner
9612e2672b8SSascha Wildner case AML_SHIFT_LEFT_OP:
9622e2672b8SSascha Wildner Symbol = " <<= ";
9632e2672b8SSascha Wildner break;
9642e2672b8SSascha Wildner
9652e2672b8SSascha Wildner case AML_SHIFT_RIGHT_OP:
9662e2672b8SSascha Wildner Symbol = " >>= ";
9672e2672b8SSascha Wildner break;
9682e2672b8SSascha Wildner
9692e2672b8SSascha Wildner case AML_BIT_AND_OP:
9702e2672b8SSascha Wildner Symbol = " &= ";
9712e2672b8SSascha Wildner break;
9722e2672b8SSascha Wildner
9732e2672b8SSascha Wildner case AML_BIT_OR_OP:
9742e2672b8SSascha Wildner Symbol = " |= ";
9752e2672b8SSascha Wildner break;
9762e2672b8SSascha Wildner
9772e2672b8SSascha Wildner case AML_BIT_XOR_OP:
9782e2672b8SSascha Wildner Symbol = " ^= ";
9792e2672b8SSascha Wildner break;
9802e2672b8SSascha Wildner
9812e2672b8SSascha Wildner default:
9822e2672b8SSascha Wildner
9832e2672b8SSascha Wildner /* No operator string for all other opcodes */
984820c5b08SSascha Wildner
9852e2672b8SSascha Wildner return (NULL);
9862e2672b8SSascha Wildner }
9872e2672b8SSascha Wildner
9882e2672b8SSascha Wildner return (Symbol);
9892e2672b8SSascha Wildner }
9902e2672b8SSascha Wildner
9912e2672b8SSascha Wildner
9922e2672b8SSascha Wildner /*******************************************************************************
9932e2672b8SSascha Wildner *
9942e2672b8SSascha Wildner * FUNCTION: AcpiDmPromoteTarget
9952e2672b8SSascha Wildner *
9962e2672b8SSascha Wildner * PARAMETERS: Op - Operator parse object
9972e2672b8SSascha Wildner * Target - Target associate with the Op
9982e2672b8SSascha Wildner *
9992e2672b8SSascha Wildner * RETURN: None
10002e2672b8SSascha Wildner *
10012e2672b8SSascha Wildner * DESCRIPTION: Transform the parse tree by moving the target up to the first
10022e2672b8SSascha Wildner * child of the Op.
10032e2672b8SSascha Wildner *
10042e2672b8SSascha Wildner ******************************************************************************/
10052e2672b8SSascha Wildner
10062e2672b8SSascha Wildner static void
AcpiDmPromoteTarget(ACPI_PARSE_OBJECT * Op,ACPI_PARSE_OBJECT * Target)10072e2672b8SSascha Wildner AcpiDmPromoteTarget (
10082e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Op,
10092e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Target)
10102e2672b8SSascha Wildner {
10112e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Child;
10122e2672b8SSascha Wildner
10132e2672b8SSascha Wildner
10142e2672b8SSascha Wildner /* Link target directly to the Op as first child */
10152e2672b8SSascha Wildner
10162e2672b8SSascha Wildner Child = Op->Common.Value.Arg;
10172e2672b8SSascha Wildner Op->Common.Value.Arg = Target;
10182e2672b8SSascha Wildner Target->Common.Next = Child;
10192e2672b8SSascha Wildner
10202e2672b8SSascha Wildner /* Find the last peer, it is linked to the target. Unlink it. */
10212e2672b8SSascha Wildner
10222e2672b8SSascha Wildner while (Child->Common.Next != Target)
10232e2672b8SSascha Wildner {
10242e2672b8SSascha Wildner Child = Child->Common.Next;
10252e2672b8SSascha Wildner }
10262e2672b8SSascha Wildner
10272e2672b8SSascha Wildner Child->Common.Next = NULL;
10282e2672b8SSascha Wildner }
10292e2672b8SSascha Wildner
10302e2672b8SSascha Wildner
10312e2672b8SSascha Wildner /*******************************************************************************
10322e2672b8SSascha Wildner *
10332e2672b8SSascha Wildner * FUNCTION: AcpiDmIsValidTarget
10342e2672b8SSascha Wildner *
10352e2672b8SSascha Wildner * PARAMETERS: Target - Target Op from the parse tree
10362e2672b8SSascha Wildner *
10372e2672b8SSascha Wildner * RETURN: TRUE if the Target is real. FALSE if it is just a placeholder
10382e2672b8SSascha Wildner * Op that was inserted by the parser.
10392e2672b8SSascha Wildner *
10402e2672b8SSascha Wildner * DESCRIPTION: Determine if a Target Op is a placeholder Op or a real Target.
10412e2672b8SSascha Wildner * In other words, determine if the optional target is used or
104225ca8c79SSascha Wildner * not. Note: If Target is NULL, something is seriously wrong,
104325ca8c79SSascha Wildner * probably with the parse tree.
10442e2672b8SSascha Wildner *
10452e2672b8SSascha Wildner ******************************************************************************/
10462e2672b8SSascha Wildner
10472e2672b8SSascha Wildner static BOOLEAN
AcpiDmIsValidTarget(ACPI_PARSE_OBJECT * Target)10482e2672b8SSascha Wildner AcpiDmIsValidTarget (
10492e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Target)
10502e2672b8SSascha Wildner {
10512e2672b8SSascha Wildner
105225ca8c79SSascha Wildner if (!Target)
105325ca8c79SSascha Wildner {
105425ca8c79SSascha Wildner return (FALSE);
105525ca8c79SSascha Wildner }
105625ca8c79SSascha Wildner
10572e2672b8SSascha Wildner if ((Target->Common.AmlOpcode == AML_INT_NAMEPATH_OP) &&
10582e2672b8SSascha Wildner (Target->Common.Value.Arg == NULL))
10592e2672b8SSascha Wildner {
10602e2672b8SSascha Wildner return (FALSE);
10612e2672b8SSascha Wildner }
10622e2672b8SSascha Wildner
10632e2672b8SSascha Wildner return (TRUE);
10642e2672b8SSascha Wildner }
10652e2672b8SSascha Wildner
10662e2672b8SSascha Wildner
10672e2672b8SSascha Wildner /*******************************************************************************
10682e2672b8SSascha Wildner *
10692e2672b8SSascha Wildner * FUNCTION: AcpiDmIsTargetAnOperand
10702e2672b8SSascha Wildner *
10712e2672b8SSascha Wildner * PARAMETERS: Target - Target associated with the expression
10722e2672b8SSascha Wildner * Operand - An operand associated with expression
10732e2672b8SSascha Wildner *
10742e2672b8SSascha Wildner * RETURN: TRUE if expression can be converted to a compound assignment.
10752e2672b8SSascha Wildner * FALSE otherwise.
10762e2672b8SSascha Wildner *
10772e2672b8SSascha Wildner * DESCRIPTION: Determine if the Target duplicates the operand, in order to
10782e2672b8SSascha Wildner * detect if the expression can be converted to a compound
107900ffa116SSascha Wildner * assignment. (+=, *=, etc.)
10802e2672b8SSascha Wildner *
10812e2672b8SSascha Wildner ******************************************************************************/
10822e2672b8SSascha Wildner
10832e2672b8SSascha Wildner static BOOLEAN
AcpiDmIsTargetAnOperand(ACPI_PARSE_OBJECT * Target,ACPI_PARSE_OBJECT * Operand,BOOLEAN TopLevel)10842e2672b8SSascha Wildner AcpiDmIsTargetAnOperand (
10852e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Target,
10862e2672b8SSascha Wildner ACPI_PARSE_OBJECT *Operand,
10872e2672b8SSascha Wildner BOOLEAN TopLevel)
10882e2672b8SSascha Wildner {
10892e2672b8SSascha Wildner const ACPI_OPCODE_INFO *OpInfo;
10902e2672b8SSascha Wildner BOOLEAN Same;
10912e2672b8SSascha Wildner
10922e2672b8SSascha Wildner
10932e2672b8SSascha Wildner /*
10942e2672b8SSascha Wildner * Opcodes must match. Note: ignoring the difference between nameseg
10952e2672b8SSascha Wildner * and namepath for now. May be needed later.
10962e2672b8SSascha Wildner */
10972e2672b8SSascha Wildner if (Target->Common.AmlOpcode != Operand->Common.AmlOpcode)
10982e2672b8SSascha Wildner {
10992e2672b8SSascha Wildner return (FALSE);
11002e2672b8SSascha Wildner }
11012e2672b8SSascha Wildner
11022e2672b8SSascha Wildner /* Nodes should match, even if they are NULL */
11032e2672b8SSascha Wildner
11042e2672b8SSascha Wildner if (Target->Common.Node != Operand->Common.Node)
11052e2672b8SSascha Wildner {
11062e2672b8SSascha Wildner return (FALSE);
11072e2672b8SSascha Wildner }
11082e2672b8SSascha Wildner
11092e2672b8SSascha Wildner /* Determine if a child exists */
11102e2672b8SSascha Wildner
11112e2672b8SSascha Wildner OpInfo = AcpiPsGetOpcodeInfo (Operand->Common.AmlOpcode);
11122e2672b8SSascha Wildner if (OpInfo->Flags & AML_HAS_ARGS)
11132e2672b8SSascha Wildner {
11142e2672b8SSascha Wildner Same = AcpiDmIsTargetAnOperand (Target->Common.Value.Arg,
11152e2672b8SSascha Wildner Operand->Common.Value.Arg, FALSE);
11162e2672b8SSascha Wildner if (!Same)
11172e2672b8SSascha Wildner {
11182e2672b8SSascha Wildner return (FALSE);
11192e2672b8SSascha Wildner }
11202e2672b8SSascha Wildner }
11212e2672b8SSascha Wildner
11222e2672b8SSascha Wildner /* Check the next peer, as long as we are not at the top level */
11232e2672b8SSascha Wildner
11242e2672b8SSascha Wildner if ((!TopLevel) &&
11252e2672b8SSascha Wildner Target->Common.Next)
11262e2672b8SSascha Wildner {
11272e2672b8SSascha Wildner Same = AcpiDmIsTargetAnOperand (Target->Common.Next,
11282e2672b8SSascha Wildner Operand->Common.Next, FALSE);
11292e2672b8SSascha Wildner if (!Same)
11302e2672b8SSascha Wildner {
11312e2672b8SSascha Wildner return (FALSE);
11322e2672b8SSascha Wildner }
11332e2672b8SSascha Wildner }
11342e2672b8SSascha Wildner
113500ffa116SSascha Wildner /* Suppress the duplicate operand at the top-level */
11362e2672b8SSascha Wildner
11372e2672b8SSascha Wildner if (TopLevel)
11382e2672b8SSascha Wildner {
11392e2672b8SSascha Wildner Operand->Common.DisasmFlags |= ACPI_PARSEOP_IGNORE;
11402e2672b8SSascha Wildner }
11412e2672b8SSascha Wildner return (TRUE);
11422e2672b8SSascha Wildner }
11432e2672b8SSascha Wildner
11442e2672b8SSascha Wildner #endif
1145