Lines Matching full:these
105 … RHCT table is updated with new nodes. Add compile and dump functionality for these new structures.
405 A warning will be issued for each of these cases.
406 Note: For existing ASL/projects, these warnings may be disabled by
552 These included a few casts, as well as a null pointer check.
642 for these macros to a simple string literal - thus disallowing the use
650 Note: The MS compiler requires the use of string literals for these
864 parameters. This change swaps these parameter requirements. Now it is
1083 errors are directed to the console instead. These error messages
1113 buffers with no initializer list (these buffers will be filled with
1179 pointer" warnings, but these have been found to be false positive
1273 scope. If these named objects are declared outside the root scope, they
1279 initialization. Second, the GPEs without these methods (like GPEs listed
1307 scope. If these named objects are declared outside the root scope, they
1372 This affects these AML operators:
1513 These methods provide OSPM with health information and device boot
1537 PPTT: New additional fields in Processor Structure Flags. These flags
1583 Previously, these tables were treated as "unknown table".
1621 which are rarely seen in the field. For these, the LEN field of the ASL
1673 _Lxx, _Exx, _EJx, _T_x, etc. For these, any legal hex value can now be
1805 operator within a Field Unit list. A remark is now issued for these. For
1808 automatically, these Offsets simply refer to the current offset and are
1873 warnings during exit of the utility. These warnings were similar to
1874 these:
1996 ACPI tables -- RSDP and FACS. These tables do not contain a standard ACPI
2036 up to 8 characters. These changes are backwards compatible with existing
2061 For compatibility with other ACPI implementations, these references are
2064 affect existing ASL/AML code because of the fact that these references
2069 these strings were simply silently truncated.
2106 Cleaned up and simplified the module-level code support. These changes
2155 Package objects. To disable these errors, define
2161 until recently because these operators are not fully supported by other
2179 related to the ToXXXX explicit conversion operators. These operators do
2181 ASL expressions that use these operators cannot be folded to a simple
2316 run, these memory statistics are recorded and stored in a log file.
2376 management and error detection. These changes are related to issues seen
2502 AML Debugger: Enhanced to properly handle AML Alias objects. These
2551 has occurred. These changes are intended to improve the usefulness of the
2703 These interfaces are intended to be used only in conjunction with the
2708 Example Code and Data Size: These are the sizes for the OS-independent
2814 Example Code and Data Size: These are the sizes for the OS-independent
2914 fully supports these fields. This affects the internal support for FADT
2927 Called from these internal interfaces:
2938 portability, for environments where these clib functions are not
2955 Example Code and Data Size: These are the sizes for the OS-independent
3005 Example Code and Data Size: These are the sizes for the OS-independent
3027 iASL: Implemented several grammar changes for the operators below. These
3041 Strings within Buffer objects. These subtypes do not contain a specific
3086 Example Code and Data Size: These are the sizes for the OS-independent
3150 UEFI support: these OSL functions have been implemented. This is an
3170 handler. These events are used to indicate a table installation or
3171 uninstallation. These events are used in addition to existed table load
3183 Example Code and Data Size: These are the sizes for the OS-independent
3230 help in the implementation of these functions would be appreciated:
3241 include files. These changes may affect the existing platform-dependent
3276 Example Code and Data Size: These are the sizes for the OS-independent
3299 Windows. These tables are now easily available -- SSDTs are not available
3312 Apologies for any inconveniences these issues may have caused.
3321 Example Code and Data Size: These are the sizes for the OS-independent
3343 was added to each of these macros, and the original name has been
3359 Example Code and Data Size: These are the sizes for the OS-independent
3379 conditional runtime creation of named objects under these object types:
3404 under conditionals in order to allow these objects to be conditionally
3468 Example Code and Data Size: These are the sizes for the OS-independent
3516 support ACPI 6.1, in these areas:
3583 Example Code and Data Size: These are the sizes for the OS-independent
3621 code to access these address spaces during the table load and module-
3627 utilities for the changes above. Although these tools were changed, host
3663 to another ASL operator. In these cases, the method was not invoked.
3684 Integer/String/Buffer. For objects other than these 3 basic data types,
3695 Example Code and Data Size: These are the sizes for the OS-independent
3788 emitted for the case where one or more of these methods do not exist.
3796 Example Code and Data Size: These are the sizes for the OS-independent
3865 Example Code and Data Size: These are the sizes for the OS-independent
3928 exercising these features of the compiler. These files are automatically
3979 Example Code and Data Size: These are the sizes for the OS-independent
4032 Moved all C library prototypes (used for the local versions of these
4034 Cleaned up the use of non-ANSI C library functions. These functions are
4046 provide casting for these functions and eliminate possible compiler
4047 warnings for these parameters.
4052 Example Code and Data Size: These are the sizes for the OS-independent
4125 purpose for these macros is no longer applicable. This simplification
4166 Example Code and Data Size: These are the sizes for the OS-independent
4236 Example Code and Data Size: These are the sizes for the OS-independent
4402 provide support for symbolic ("C-style") operators and expressions. These
4417 iASL: Added Printf/Fprintf macros for formatted output. These macros are
4454 maintainability. These language extensions can exist concurrently with
4601 Example Code and Data Size: These are the sizes for the OS-independent
4658 Example Code and Data Size: These are the sizes for the OS-independent
4678 range was equal to the (length -1) caused by the fact that these values
4703 1) For _PS0, one of these must exist within the same scope: _PS1, _PS2,
4770 Example Code and Data Size: These are the sizes for the OS-independent
4807 of this feature will fix/prevent these issues once and for all. Some
4821 -- To address these printf issues in a complete manner, ACPICA now
4841 There are C library implementations of these functions in the new file
4864 Example Code and Data Size: These are the sizes for the OS-independent
4890 AcpiExec/AcpiNames: Fixed a problem where these utilities could fault if
4907 Some of these tables are known to contain a trailing NULL entry. Lv
4932 Example Code and Data Size: These are the sizes for the OS-independent
5009 time. However, these operators may be deployed in a future ACPICA
5021 Example Code and Data Size: These are the sizes for the OS-independent
5106 Example Code and Data Size: These are the sizes for the OS-independent
5166 Example Code and Data Size: These are the sizes for the OS-independent
5200 allows AcpiExec to simulate these address spaces, similar to the current
5262 Example Code and Data Size: These are the sizes for the OS-independent
5292 method, but are unused (these are temporary names that are only valid
5293 during the time the method is executing). A remark is issued for these
5342 attached to the root node via AcpiAttachData. Previously, none of these
5352 Example Code and Data Size: These are the sizes for the OS-independent
5435 additional or different processing for these functions. Changed from
5436 ACPI_EXPORT_SYMBOL to ACPI_EXPORT_SYMBOL_INIT for these functions. Lv
5456 Example Code and Data Size: These are the sizes for the OS-independent
5492 no other data. This change adds support to dump these tables. Any tables
5526 Example Code and Data Size: These are the sizes for the OS-independent
5569 Application OSLs: Set the return value for the PCI read functions. These
5579 compile these types of errors, and they typically end up causing a
5594 Fixed a problem where the _WAK method could cause a fault under these
5621 Example Code and Data Size: These are the sizes for the OS-independent
5646 These are external references to control methods that could not be
5667 Example Code and Data Size: These are the sizes for the OS-independent
5704 the actual signatures for these tables are "FACP" and "APIC",
5723 5.0 FADT. Do not use these registers (even if populated) unless the HW-
5761 Example Code and Data Size: These are the sizes for the OS-independent
5800 be resolved at runtime.) These types of references cannot be validated at
5868 Example Code and Data Size: These are the sizes for the OS-independent
5939 Example Code and Data Size: These are the sizes for the OS-independent
5992 evaluated only once. Although these macros are not needed for the ACPICA
6001 AE_OK) because ACPI is always enabled by definition on these machines:
6008 predefined name return values. Both of these repairs can simplify code in
6009 the related device drivers that invoke these methods:
6032 Example Code and Data Size: These are the sizes for the OS-independent
6075 assumes zero method arguments in these cases (it cannot determine the
6111 Example Code and Data Size: These are the sizes for the OS-independent
6145 BIOS. When disassembled and recompiled, these NOOPs will cause syntax
6173 both get and set the new wake bit in these descriptors, separately from
6200 Example Code and Data Size: These are the sizes for the OS-independent
6218 method invocation when these are used as an argument to the ObjectType
6269 Example Code and Data Size: These are the sizes for the OS-independent
6319 duplicates such as these:
6354 ACPI_DEVICE_ID_LIST to ACPI_PNP_DEVICE_ID_LIST. These changes prevent
6384 Example Code and Data Size: These are the sizes for the OS-independent
6436 acpica/generate/linux. These makefiles are obsolete and have been
6446 Example Code and Data Size: These are the sizes for the OS-independent
6519 is that the ACPI specification states that these methods must be run with
6523 invoking these functions caused failures on some machines, probably
6540 interface eliminates these issues, and should be called after _PLD is
6559 names. This simplifies access to the buffers returned by these predefined
6581 Example Code and Data Size: These are the sizes for the OS-independent
6608 handles these versions in order to eliminate generation warnings.
6629 affect these predefined names: _ALR, _MLS, _PSS, _TRT, _TSS, _PRT, _HPX,
6665 Deployed these new interfaces in the ACPICA Table Manager code for ACPI
6685 Example Code and Data Size: These are the sizes for the OS-independent
6742 Example Code and Data Size: These are the sizes for the OS-independent
6776 these:
6825 Example Code and Data Size: These are the sizes for the OS-independent
6915 Example Code and Data Size: These are the sizes for the OS-independent
6975 does not execute these methods, and therefore these methods are often
6976 untested. It has been seen on some systems where the execution of these
6979 therefore suggested that host operating systems do not execute these
6981 by default. In the future, perhaps these methods can be optionally
7030 Example Code and Data Size: These are the sizes for the OS-independent
7056 These preprocessor directives are supported:
7069 In addition, these new command line options are supported:
7080 project file to invoke these tools from the standard location. ACPICA BZ
7172 Example Code and Data Size: These are the sizes for the OS-independent
7228 Example Code and Data Size: These are the sizes for the OS-independent
7255 Table Compiler: Make all "generic" operators caseless. These are the
7257 like UINT8, String, etc. Making these caseless improves ease-of-use.
7295 Data Table Compiler. ACPI 5.0 defines these new tables:
7382 AcpiAcquireMutex and AcpiReleaseMutex: These interfaces allow the host OS
7493 These are the sizes for the OS-independent acpica.lib produced by the
7552 VAR_PACKAGE when these are used as a package length. 2) Allow the
7590 These are the sizes for the OS-independent acpica.lib produced by the
7648 Example Code and Data Size: These are the sizes for the OS-independent
7720 Example Code and Data Size: These are the sizes for the OS-independent
7741 Increased the default command line buffer size to accommodate these
7809 Example Code and Data Size: These are the sizes for the OS-independent
7840 Since the parser stuffs a "zero" as the return value for these statements
7874 AcpiXtract: Fix for RSDP and dynamic SSDT extraction. These tables have
7877 these
7916 Example Code and Data Size: These are the sizes for the OS-independent
7993 generation cases. The _AcpiModuleName was left undefined in these cases,
7996 _AcpiModuleName as a null string in these cases. ACPICA Bugzilla 888.
8005 Example Code and Data Size: These are the sizes for the OS-independent
8021 These are useful C-style macros with the standard definitions. ACPICA
8102 these also.
8124 Example Code and Data Size: These are the sizes for the OS-independent
8192 Example Code and Data Size: These are the sizes for the OS-independent
8207 iASL: Relax the alphanumeric restriction on _CID strings. These strings
8267 Example Code and Data Size: These are the sizes for the OS-independent
8363 Example Code and Data Size: These are the sizes for the OS-independent
8425 useful for the EC driver to lock these as a single transaction. This
8439 and AcpiExec. These new makefiles place the generated object files in the
8444 Example Code and Data Size: These are the sizes for the OS-independent
8480 control of these GPEs. Eventually, the ACPICA core will not execute any
8492 5) Remove GpeType argument from AcpiEnable and AcpiDisable. These
8506 Index Fields and possibly Bank Fields. It will be reintroduced when these
8520 Example Code and Data Size: These are the sizes for the OS-independent
8537 These
8540 process of creating these tables for the BIOS, as well as allowing the
8583 to lock these as a single transaction. This change enables single
8633 methods. These objects are defined by "Windows Instrumentation", and are
8649 Example Code and Data Size: These are the sizes for the OS-independent
8665 methods. These objects are defined by "Windows Instrumentation", and are
8710 Example Code and Data Size: These are the sizes for the OS-independent
8728 are common to all address-type resource descriptors. These checks are
8738 and these names were not recognized by the compiler as valid predefined
8743 value and thus must be implemented as Control Methods. These include all
8788 Implemented write support for DataTable operation regions. These regions
8822 Example Code and Data Size: These are the sizes for the OS-independent
8893 invocations.) These invocations were converted from the original
8896 Example Code and Data Size: These are the sizes for the OS-independent
8970 Example Code and Data Size: These are the sizes for the OS-independent
9054 Example Code and Data Size: These are the sizes for the OS-independent
9130 info message for now. These messages may eventually be changed to debug-
9134 Example Code and Data Size: These are the sizes for the OS-independent
9205 Example Code and Data Size: These are the sizes for the OS-independent
9271 Store(LocalX,LocalX) when LocalX is uninitialized. These curious
9281 Example Code and Data Size: These are the sizes for the OS-independent
9318 pathname. These features allow all machine tables to be easily loaded and
9357 must exist under either an If, Else, or While construct; these are the
9367 wrapping a new package object around the existing package. These methods
9398 Example Code and Data Size: These are the sizes for the OS-independent
9444 These changes will require an update to all callers of this interface.
9453 order to support new ACPI 4.0 tables. These changes will require an
9456 all callers of these interfaces. See the ACPICA Programmer Reference for
9471 these fields are occasionally seen in the field. ACPICA BZ 788.
9490 Example Code and Data Size: These are the sizes for the OS-independent
9582 Example Code and Data Size: These are the sizes for the OS-independent
9638 Example Code and Data Size: These are the sizes for the OS-independent
9674 environment. These makefiles are intended to generate the acpica tools
9714 FADT can contain both 32-bit and 64-bit versions of these addresses.
9792 This will improve performance for reads on these registers. ACPICA BZ
9799 the register has an address of zero. Previously, these cases simply
9806 AcpiGetRegister and AcpiSetRegister to clarify the purpose of these
9809 Also, restructured the code for these functions by simplifying the code
9814 registers. AcpiHwReadMultiple and AcpiHwWriteMultiple. These two
9823 This function writes both of the PM1 control registers (A/B). These
9841 these
9872 Example Code and Data Size: These are the sizes for the OS-independent
9917 Example Code and Data Size: These are the sizes for the OS-independent
9991 Example Code and Data Size: These are the sizes for the OS-independent
10039 predefined ACPI methods. For these methods (such as _BIF), added
10120 Example Code and Data Size: These are the sizes for the OS-independent
10194 AcpiUtUpdateObjectReference and AcpiUtWalkPackageTree. These functions
10212 Example Code and Data Size: These are the sizes for the OS-independent
10254 these types were allowed, but an exception would be generated at some
10261 Removed the obsolete debug levels ACPI_DB_WARN and ACPI_DB_ERROR. These
10271 use any of these exceptions.
10278 Example Code and Data Size: These are the sizes for the OS-independent
10331 (these
10365 Example Code and Data Size: These are the sizes for the OS-independent
10388 iASL: relax error for using reserved "_T_x" identifiers. These names can
10391 manually change these names, issue a remark instead.
10501 Example Code and Data Size: These are the sizes for the OS-independent
10602 Example Code and Data Size: These are the sizes for the OS-independent
10704 Example Code and Data Size: These are the sizes for the OS-independent
10751 an executing control method. In this case, these operators created
10796 Example Code and Data Size: These are the sizes for the OS-independent
10852 objects did not perform an implicit conversion as it should. These types
10874 Example Code and Data Size: These are the sizes for the OS-independent
10891 complicated HEST table. These tables support the Windows Hardware Error
10905 objects. These objects have deferred execution for some arguments, and
10949 Example Code and Data Size: These are the sizes for the OS-independent
11033 Example Code and Data Size: These are the sizes for the OS-independent
11054 These
11088 These
11092 Example Code and Data Size: These are the sizes for the OS-independent
11115 used, causing truncation of the upper 32-bits of these addresses. Lin
11127 Processor, and ThermalZone. In these cases, any children of the original
11176 Example Code and Data Size: These are the sizes for the OS-independent
11204 LOAD and UNLOAD. These interfaces allow the host to track ACPI tables as
11216 Example Code and Data Size: These are the sizes for the OS-independent
11267 failures because these fields have meaning in later revisions of the
11269 For incoming ACPI 1.0 FADTs, these fields are now always zeroed. (The
11285 Example Code and Data Size: These are the sizes for the OS-independent
11357 Example Code and Data Size: These are the sizes for the OS-independent
11384 Example Code and Data Size: These are the sizes for the OS-independent
11427 Example Code and Data Size: These are the sizes for the OS-independent
11477 Example Code and Data Size: These are the sizes for the OS-independent
11542 Example Code and Data Size: These are the sizes for the OS-independent
11567 These functions now use a spinlock for mutual exclusion and the interrupt
11580 Example Code and Data Size: These are the sizes for the OS-independent
11654 Example Code and Data Size: These are the sizes for the OS-independent
11724 Example Code and Data Size: These are the sizes for the OS-independent
11829 Example Code and Data Size: These are the sizes for the OS-independent
11900 Example Code and Data Size: These are the sizes for the OS-independent
11977 Example Code and Data Size: These are the sizes for the OS-independent
12008 the ACPI specification, these bits should be preserved when writing the
12049 Example Code and Data Size: These are the sizes for the OS-independent
12101 Example Code and Data Size: These are the sizes for the OS-independent
12169 Example Code and Data Size: These are the sizes for the OS-independent
12229 Example Code and Data Size: These are the sizes for the OS-independent
12253 these statements will no longer have to be added manually.
12333 Example Code and Data Size: These are the sizes for the OS-independent
12423 Example Code and Data Size: These are the sizes for the OS-independent
12494 code. (These macros have been replaced by the ACPI_ERROR and ACPI_WARNING
12497 Code and Data Size: These are the sizes for the acpica.lib produced by
12503 trace mechanism and has a much larger code and data size. Note that these
12560 Code and Data Size: These are the sizes for the acpica.lib produced by
12566 trace mechanism and has a much larger code and data size. Note that these
12631 Code and Data Size: These are the sizes for the acpica.lib produced by
12637 trace mechanism and has a much larger code and data size. Note that these
12664 normal execution. These became apparent after the conversion from
12700 subsystem are shown below. These are the code and data sizes for the
12702 These
12706 and data size. Note that these values will vary depending on the
12734 within the AML parser. If the interpreter slack mode is enabled, these
12740 messages across the subsystem. These macros are simpler and generate less
12765 subsystem are shown below. These are the code and data sizes for the
12767 These
12771 and data size. Note that these values will vary depending on the
12822 subsystem are shown below. These are the code and data sizes for the
12824 These
12828 and data size. Note that these values will vary depending on the
12884 these components are independent.
12894 subsystem are shown below. These are the code and data sizes for the
12896 These
12900 and data size. Note that these values will vary depending on the
12950 subsystem are shown below. These are the code and data sizes for the
12952 These
12956 and data size. Note that these values will vary depending on the
13031 subsystem are shown below. These are the code and data sizes for the
13033 These
13037 and data size. Note that these values will vary depending on the
13093 These local types include RegionFields, BankFields, IndexFields, Alias,
13102 subsystem are shown below. These are the code and data sizes for the
13104 These
13108 and data size. Note that these values will vary depending on the
13154 essentially entails recognizing that these processors support non-aligned
13181 subsystem are shown below. These are the code and data sizes for the
13183 These
13187 and data size. Note that these values will vary depending on the
13259 eliminate these. (From Randy Dunlap)
13274 subsystem are shown below. These are the code and data sizes for the
13276 These
13280 and data size. Note that these values will vary depending on the
13320 subsystem are shown below. These are the code and data sizes for the
13322 These
13326 and data size. Note that these values will vary depending on the
13385 are shown below. These are the code and data sizes for the acpica.lib
13386 produced by the Microsoft Visual C++ 6.0 compiler. These values do not
13391 Note that these values will vary depending on the efficiency of the
13440 shown below. These are the code and data sizes for the acpica.lib
13442 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13446 that these values will vary depending on the efficiency of the compiler
13508 shown below. These are the code and data sizes for the acpica.lib
13510 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13514 that these values will vary depending on the efficiency of the compiler
13572 flag definitions within the headers for the predefined ACPI tables. These
13588 shown below. These are the code and data sizes for the acpica.lib
13590 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13594 that these values will vary depending on the efficiency of the compiler
13628 _HID, _UID, and _CID are displayed for these devices.
13653 shown below. These are the code and data sizes for the acpica.lib
13655 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13659 that these values will vary depending on the efficiency of the compiler
13685 the host OS to handle these operations if desired (for example, the Linux
13703 passed to these interfaces. If necessary, the OSL must determine this
13744 shown below. These are the code and data sizes for the acpica.lib
13746 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13750 that these values will vary depending on the efficiency of the compiler
13787 the module level (not within a control method.) These opcodes are
13813 error conditions and error handling control paths. These fixes were
13821 shown below. These are the code and data sizes for the acpica.lib
13823 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13827 that these values will vary depending on the efficiency of the compiler
13842 the module level (not within a control method.) These operators will be
13909 shown below. These are the code and data sizes for the acpica.lib
13911 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13915 that these values will vary depending on the efficiency of the compiler
13982 shown below. These are the code and data sizes for the acpica.lib
13984 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
13988 that these values will vary depending on the efficiency of the compiler
14048 shown below. These are the code and data sizes for the acpica.lib
14050 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14054 that these values will vary depending on the efficiency of the compiler
14144 shown below. These are the code and data sizes for the acpica.lib
14146 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14150 that these values will vary depending on the efficiency of the compiler
14255 shown below. These are the code and data sizes for the acpica.lib
14257 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14261 that these values will vary depending on the efficiency of the compiler
14285 descriptor fields. These fields were inadvertently ignored and not output
14321 stack was not being popped after the execution of these operators,
14340 shown below. These are the code and data sizes for the acpica.lib
14342 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14346 that these values will vary depending on the efficiency of the compiler
14414 shown below. These are the code and data sizes for the acpica.lib
14416 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14420 that these values will vary depending on the efficiency of the compiler
14490 performed on the OemId and OemTableId table header fields. These fields
14522 shown below. These are the code and data sizes for the acpica.lib
14524 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14528 that these values will vary depending on the efficiency of the compiler
14562 shown below. These are the code and data sizes for the acpica.lib
14564 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14568 that these values will vary depending on the efficiency of the compiler
14638 shown below. These are the code and data sizes for the acpica.lib
14640 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14644 that these values will vary depending on the efficiency of the compiler
14698 shown below. These are the code and data sizes for the acpica.lib
14700 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14704 that these values will vary depending on the efficiency of the compiler
14749 shown below. These are the code and data sizes for the acpica.lib
14751 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14755 that these values will vary depending on the efficiency of the compiler
14828 shown below. These are the code and data sizes for the acpica.lib
14830 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14834 that these values will vary depending on the efficiency of the compiler
14910 shown below. These are the code and data sizes for the acpica.lib
14912 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14916 that these values will vary depending on the efficiency of the compiler
14978 shown below. These are the code and data sizes for the acpica.lib
14980 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
14984 that these values will vary depending on the efficiency of the compiler
15063 shown below. These are the code and data sizes for the acpica.lib
15065 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15069 that these values will vary depending on the efficiency of the compiler
15111 shown below. These are the code and data sizes for the acpica.lib
15113 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15117 that these values will vary depending on the efficiency of the compiler
15173 these
15181 shown below. These are the code and data sizes for the acpica.lib
15183 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15187 that these values will vary depending on the efficiency of the compiler
15237 shown below. These are the code and data sizes for the acpica.lib
15239 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15243 that these values will vary depending on the efficiency of the compiler
15310 shown below. These are the code and data sizes for the acpica.lib
15312 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15316 that these values will vary depending on the efficiency of the compiler
15360 these
15368 shown below. These are the code and data sizes for the acpica.lib
15370 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15374 that these values will vary depending on the efficiency of the compiler
15422 thus no longer depend on the hardware to maintain these bits.
15503 shown below. These are the code and data sizes for the acpica.lib
15505 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15509 that these values will vary depending on the efficiency of the compiler
15546 shown below. These are the code and data sizes for the acpica.lib
15548 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15552 that these values will vary depending on the efficiency of the compiler
15592 _Lxx or _Exx method - but most of these turn out to be WAKE GPEs anyway.
15623 shown below. These are the code and data sizes for the acpica.lib
15625 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15629 that these values will vary depending on the efficiency of the compiler
15687 shown below. These are the code and data sizes for the acpica.lib
15689 by the Microsoft Visual C++ 6.0 compiler, and these values do not include
15693 that these values will vary depending on the efficiency of the compiler
15834 sizes are shown below. These are the code and data sizes for the
15836 these values do not include any ACPI driver or OSPM code. The
15839 these values will vary depending on the efficiency of the compiler
15876 init-time execution of these methods.
15889 macro replaces the HIDWORD and LODWORD macros for dumping these
15909 sizes are shown below. These are the code and data sizes for the
15911 these values do not include any ACPI driver or OSPM code. The
15915 these values will vary depending on the efficiency of the compiler
15958 CA header files. Even though these tables are not directly
15968 sizes are shown below. These are the code and data sizes for the
15970 these values do not include any ACPI driver or OSPM code. The
15973 these values will vary depending on the efficiency of the compiler
16022 sizes are shown below. These are the code and data sizes for the
16024 these values do not include any ACPI driver or OSPM code. The
16027 these values will vary depending on the efficiency of the compiler
16141 sizes are shown below. These are the code and data sizes for the
16143 these values do not include any ACPI driver or OSPM code. The
16146 these values will vary depending on the efficiency of the compiler
16230 below. These are the code and data sizes for the acpica.lib
16231 produced by the Microsoft Visual C++ 6.0 compiler, and these
16234 has a much larger code and data size. Note that these values will
16315 below. These are the code and data sizes for the acpica.lib
16316 produced by the Microsoft Visual C++ 6.0 compiler, and these
16319 has a much larger code and data size. Note that these values will
16365 below. These are the code and data sizes for the acpica.lib
16366 produced by the Microsoft Visual C++ 6.0 compiler, and these
16369 has a much larger code and data size. Note that these values will
16501 below. These are the code and data sizes for the acpica.lib
16502 produced by the Microsoft Visual C++ 6.0 compiler, and these
16505 has a much larger code and data size. Note that these values will
16583 below. These are the code and data sizes for the acpica.lib
16584 produced by the Microsoft Visual C++ 6.0 compiler, and these
16587 has a much larger code and data size. Note that these values will
16648 below. These are the code and data sizes for the acpica.lib
16649 produced by the Microsoft Visual C++ 6.0 compiler, and these
16652 has a much larger code and data size. Note that these values will
16711 below. These are the code and data sizes for the acpica.lib
16712 produced by the Microsoft Visual C++ 6.0 compiler, and these
16715 has a much larger code and data size. Note that these values will
16785 below. These are the code and data sizes for the acpica.lib
16786 produced by the Microsoft Visual C++ 6.0 compiler, and these
16789 has a much larger code and data size. Note that these values will
16850 below. These are the code and data sizes for the acpica.lib
16851 produced by the Microsoft Visual C++ 6.0 compiler, and these
16854 has a much larger code and data size. Note that these values will
16908 below. These are the code and data sizes for the acpica.lib
16909 produced by the Microsoft Visual C++ 6.0 compiler, and these
16912 has a much larger code and data size. Note that these values will
16960 these types had become obsolete with the introduction of the two-
17053 below. These are the code and data sizes for the acpica.lib
17054 produced by the Microsoft Visual C++ 6.0 compiler, and these
17057 has a larger code and data size. Note that these values will vary
17101 The definition of these operators includes the dereferencing of
17245 below. These are the code and data sizes for the acpica.lib
17246 produced by the Microsoft Visual C++ 6.0 compiler, and these
17249 has a larger code and data size. Note that these values will vary
17324 start and end), and missing StartDependentFn macro. These are
17359 below. These are the code and data sizes for the acpica.lib
17360 produced by the Microsoft Visual C++ 6.0 compiler, and these
17363 has a larger code and data size. Note that these values will vary
17436 finer granularity initialization sequence. These two calls should
17505 switch statements for these constants (which previously were
17512 below. These are the code and data sizes for the acpica.lib
17513 produced by the Microsoft Visual C++ 6.0 compiler, and these
17516 has a larger code and data size. Note that these values will vary
17588 below. These are the code and data sizes for the acpica.lib
17589 produced by the Microsoft Visual C++ 6.0 compiler, and these
17592 has a larger code and data size. Note that these values will vary
17687 below. These are the code and data sizes for the acpica.lib
17688 produced by the Microsoft Visual C++ 6.0 compiler, and these
17691 has a larger code and data size. Note that these values will vary
17816 below. These are the code and data sizes for the acpica.lib
17817 produced by the Microsoft Visual C++ 6.0 compiler, and these
17820 has a larger code and data size. Note that these values will vary
17856 used in the declarations of these object types.
17875 mapped I/O for these ACPI features.
17891 below. These are the code and data sizes for the acpica.lib
17892 produced by the Microsoft Visual C++ 6.0 compiler, and these
17895 has a larger code and data size. Note that these values will vary
18056 calls. Although a failure from one of these interfaces is
18057 probably a fatal system error, these checks will cause the
18074 below. These are the code and data sizes for the acpica.lib
18075 produced by the Microsoft Visual C++ 6.0 compiler, and these
18078 has a larger code and data size. Note that these values will vary
18138 If a separate pool is required for these buffers, the caller can
18199 below. These are the code and data sizes for the acpica.lib
18200 produced by the Microsoft Visual C++ 6.0 compiler, and these
18203 has a larger code and data size. Note that these values will vary
18309 below. These are the code and data sizes for the acpica.lib
18310 produced by the Microsoft Visual C++ 6.0 compiler, and these
18313 has a larger code and data size. Note that these values will vary
18371 below. These are the code and data sizes for the acpica.lib
18372 produced by the Microsoft Visual C++ 6.0 compiler, and these
18375 has a larger code and data size. Note that these values will vary
18442 Current core subsystem library sizes are shown below. These are
18444 Microsoft Visual C++ 6.0 compiler, and these values do not include
18447 and data size. Note that these values will vary depending on the
18499 target field. In these cases, the source operand is zero-extended
18551 an ACPI_INTEGER. OSL implementations of these interfaces must now
18592 Current core subsystem library sizes are shown below. These are
18594 Microsoft Visual C++ 6.0 compiler, and these values do not include
18597 and data size. Note that these values will vary depending on the
18673 Current core subsystem library code sizes are shown below. These
18676 Microsoft Visual C++ 6.0 compiler, and these values do not include
18680 larger code and data size. Note that these values will vary
18716 enabled (i.e., these GPEs are to remain enabled when the platform
18722 When leaving the sleep state, these GPEs are re-enabled.
18744 However, these objects may end up being stored into the namespace
18746 applied to these objects instead of a force delete.
18751 delete them. These objects are now marked with the "static
18762 Current core subsystem library code sizes are shown below. These
18764 Microsoft Visual C++ 6.0 compiler, and these values do not include
18767 larger code and data size. Note that these values will vary
18818 Current core subsystem library code sizes are shown below. These
18820 Microsoft Visual C++ 6.0 compiler, and these values do not include
18825 leading to a much larger code and data size. Note that these
18851 AML interpreter (These are already supported by the Intel ASL
18951 parameter. For these reasons, the 18 address space interfaces
18952 have been replaced by these 6 new ones:
18995 Implemented support for ACPI 2.0 variable-length packages. These
19025 support. These are the names that are automatically created by the
19478 strings, integers, and buffers. These types are now converted by
19604 Note: These interface changes require changes to all existing OSDs
19619 52 bytes to 32 bytes. There is usually one of these for every
19780 effects of these global changes have been somewhat far reaching.
19847 been added (via configurable macros) in these three areas: -