Mercurial > sdl-ios-xcode
view src/cpuinfo/scitech.mac @ 742:528a52626680
Fixed building cpuinfo under mingw32
author | Sam Lantinga <slouken@libsdl.org> |
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date | Wed, 19 Nov 2003 08:03:10 +0000 |
parents | 22dbf364c017 |
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;**************************************************************************** ;* ;* ======================================================================== ;* ;* Copyright (C) 1991-2002 SciTech Software, Inc. All rights reserved. ;* ;* This file may be distributed and/or modified under the terms of the ;* GNU Lesser General Public License version 2.1 as published by the Free ;* Software Foundation and appearing in the file LICENSE.LGPL included ;* in the packaging of this file. ;* ;* Licensees holding a valid Commercial License for this product from ;* SciTech Software, Inc. may use this file in accordance with the ;* Commercial License Agreement provided with the Software. ;* ;* This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING ;* THE WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR ;* PURPOSE. ;* ;* See http://www.scitechsoft.com/license/ for information about ;* the licensing options available and how to purchase a Commercial ;* License Agreement. ;* ;* Contact license@scitechsoft.com if any conditions of this licensing ;* are not clear to you, or you have questions about licensing options. ;* ;* ======================================================================== ;* ;* Language: NetWide Assembler (NASM) ;* Environment: Any Intel IA32 Environment ;* ;* Description: Macros to provide memory model independant assembly language ;* module for C programming. Supports the large and flat memory ;* models. ;* ;* The defines that you should use when assembling modules that ;* use this macro package are: ;* ;* __FLAT__ Assemble for 32-bit FLAT memory model ;* __NOU__ No underscore for all external C labels ;* __NOU_VAR__ No underscore for global variables only ;* ;* The default settings are for 16-bit large memory model with ;* leading underscores for symbol names. ;* ;**************************************************************************** %ifndef SCITECH_MAC %define SCITECH_MAC ; Turn off underscores for globals if disabled for all externals %ifdef __NOU__ %define __NOU_VAR__ %endif ; Determine if we should use COFF style segment naming %ifdef __MSC__ %define __COFF__ %endif %ifdef __GNUC__ %define __COFF__ %endif ; Define the __WINDOWS__ symbol if we are compiling for any Windows ; environment %ifdef __WINDOWS16__ %define __WINDOWS__ 1 %endif %ifdef __WINDOWS32__ %define __WINDOWS__ 1 %define __WINDOWS32_386__ 1 %endif ; Macros for accessing 'generic' registers %ifdef __FLAT__ %idefine _ax eax %idefine _bx ebx %idefine _cx ecx %idefine _dx edx %idefine _si esi %idefine _di edi %idefine _bp ebp %idefine _sp esp %idefine _es %idefine UCHAR BYTE ; Size of a character %idefine USHORT WORD ; Size of a short %idefine UINT DWORD ; Size of an integer %idefine ULONG DWORD ; Size of a long %idefine BOOL DWORD ; Size of a boolean %idefine DPTR DWORD ; Size of a data pointer %idefine FDPTR FWORD ; Size of a far data pointer %idefine NDPTR DWORD ; Size of a near data pointer %idefine CPTR DWORD ; Size of a code pointer %idefine FCPTR FWORD ; Size of a far code pointer %idefine NCPTR DWORD ; Size of a near code pointer %idefine FPTR NEAR ; Distance for function pointers %idefine DUINT dd ; Declare a integer variable %idefine intsize 4 %idefine flatmodel 1 %else %idefine _ax ax %idefine _bx bx %idefine _cx cx %idefine _dx dx %idefine _si si %idefine _di di %idefine _bp bp %idefine _sp sp %idefine _es es: %idefine UCHAR BYTE ; Size of a character %idefine USHORT WORD ; Size of a short %idefine UINT WORD ; Size of an integer %idefine ULONG DWORD ; Size of a long %idefine BOOL WORD ; Size of a boolean %idefine DPTR DWORD ; Size of a data pointer %idefine FDPTR DWORD ; Size of a far data pointer %idefine NDPTR WORD ; Size of a near data pointer %idefine CPTR DWORD ; Size of a code pointer %idefine FCPTR DWORD ; Size of a far code pointer %idefine NCPTR WORD ; Size of a near code pointer %idefine FPTR FAR ; Distance for function pointers %idefine DUINT dw ; Declare a integer variable %idefine intsize 2 %endif %idefine invert ~ %idefine offset %idefine use_nasm ; Convert all jumps to near jumps, since NASM does not so this automatically %idefine jo jo near %idefine jno jno near %idefine jz jz near %idefine jnz jnz near %idefine je je near %idefine jne jne near %idefine jb jb near %idefine jbe jbe near %idefine ja ja near %idefine jae jae near %idefine jl jl near %idefine jle jle near %idefine jg jg near %idefine jge jge near %idefine jc jc near %idefine jnc jnc near %idefine js js near %idefine jns jns near %ifdef DOUBLE %idefine REAL QWORD %idefine DREAL dq %else %idefine REAL DWORD %idefine DREAL dd %endif ; Boolean truth values (same as those in debug.h) %idefine False 0 %idefine True 1 %idefine No 0 %idefine Yes 1 %idefine Yes 1 ; TODO: If we wish to port VxD code to NASM, we will potentially ; need special macros in here to handle this! ; Setup all correct segment definitions and attributes once at the ; beginning of the assembler module. This allows us to open/close ; code and data segments at will throughout the code as necessary. %ifdef __PIC__ %ifdef __LINUX__ extern _GLOBAL_OFFSET_TABLE_ %else extern __GLOBAL_OFFSET_TABLE_ %endif %endif %ifdef __COFF__ segment .text public class=CODE use32 flat segment .data public class=DATA use32 flat %else %ifdef flatmodel segment _TEXT public align=16 class=CODE use32 flat segment _DATA public align=4 class=DATA use32 flat %else segment _TEXT public align=16 class=CODE use16 segment _DATA public align=4 class=DATA use16 %endif %endif ; Macro to be invoked at the start of all modules to set up segments for ; later use. This does nothing for 32-bit code, but for 16-bit code ; will set up a far model code segment as well for later use. %imacro header 1 %ifndef flatmodel segment %1_TEXT public align=16 class=CODE use16 %endif %endmacro ; Macro to begin a data segment. Segment attributes were specified in ; the header macro that is always required. %imacro begdataseg 1 %ifdef __COFF__ segment .data %else segment _DATA %endif %endmacro ; Macro to end a data segment %imacro enddataseg 1 %endmacro ; Macro to begin a code segment %imacro begcodeseg 1 %ifdef __COFF__ segment .text %else %ifdef flatmodel segment _TEXT %else segment %1_TEXT %endif %endif %endmacro ; Macro to end a code segment %imacro endcodeseg 1 %endmacro ; Macro to begin a near code segment %imacro begcodeseg_near 0 %ifdef __COFF__ segment .text %else segment _TEXT %endif %endmacro ; Macro to end a near code segment %imacro endcodeseg_near 0 %endmacro ; Macro for an extern C symbol. If the C compiler requires leading ; underscores, then the underscores are added to the symbol names, otherwise ; they are left off. The symbol name is referenced in the assembler code ; using the non-underscored symbol name. %imacro cextern 2 %ifdef __NOU_VAR__ extern %1 %else extern _%1 %define %1 _%1 %endif %endmacro %imacro cexternfunc 2 %ifdef __NOU__ extern %1 %else extern _%1 %define %1 _%1 %endif %endmacro ; Macro for a public C symbol. If the C compiler requires leading ; underscores, then the underscores are added to the symbol names, otherwise ; they are left off. The symbol name is referenced in the assembler code ; using the non-underscored symbol name. %imacro cpublic 1 %ifdef __NOU_VAR__ global %1 %1: %else global _%1 _%1: %define %1 _%1 %endif %endmacro ; Macro for an global C symbol. If the C compiler requires leading ; underscores, then the underscores are added to the symbol names, otherwise ; they are left off. The symbol name is referenced in the assembler code ; using the non-underscored symbol name. %imacro cglobal 1 %ifdef __NOU_VAR__ global %1 %else global _%1 %define %1 _%1 %endif %endmacro ; Macro for an global C function symbol. If the C compiler requires leading ; underscores, then the underscores are added to the symbol names, otherwise ; they are left off. The symbol name is referenced in the assembler code ; using the non-underscored symbol name. %imacro cglobalfunc 1 %ifdef __PIC__ global %1:function %else %ifdef __NOU__ global %1 %else global _%1 %define %1 _%1 %endif %endif %endmacro ; Macro to start a C callable function. This will be a far function for ; 16-bit code, and a near function for 32-bit code. %imacro cprocstatic 1 %push cproc %1: %ifdef flatmodel %stacksize flat %define ret retn %else %stacksize large %define ret retf %endif %assign %$localsize 0 %endmacro %imacro cprocstart 1 %push cproc cglobalfunc %1 %1: %ifdef flatmodel %stacksize flat %define ret retn %else %stacksize large %define ret retf %endif %assign %$localsize 0 %endmacro ; This macro sets up a procedure to be exported from a 16 bit DLL. Since the ; calling conventions are always _far _pascal for 16 bit DLL's, we actually ; rename this routine with an extra underscore with 'C' calling conventions ; and a small DLL stub will be provided by the high level code to call the ; assembler routine. %imacro cprocstartdll16 1 %ifdef __WINDOWS16__ cprocstart _%1 %else cprocstart %1 %endif %endmacro ; Macro to start a C callable near function. %imacro cprocnear 1 %push cproc cglobalfunc %1 %1: %define ret retn %ifdef flatmodel %stacksize flat %else %stacksize small %endif %assign %$localsize 0 %endmacro ; Macro to start a C callable far function. %imacro cprocfar 1 %push cproc cglobalfunc %1 %1: %define ret retf %ifdef flatmodel %stacksize flat %else %stacksize large %endif %assign %$localsize 0 %endmacro ; Macro to end a C function %imacro cprocend 0 %pop %endmacro ; Macros for entering and exiting C callable functions. Note that we must ; always save and restore the SI and DI registers for C functions, and for ; 32 bit C functions we also need to save and restore EBX and clear the ; direction flag. %imacro enter_c 0 push _bp mov _bp,_sp %ifnidn %$localsize,0 sub _sp,%$localsize %endif %ifdef flatmodel push ebx %endif push _si push _di %endmacro %imacro leave_c 0 pop _di pop _si %ifdef flatmodel pop ebx cld %endif %ifnidn %$localsize,0 mov _sp,_bp %endif pop _bp %endmacro %imacro use_ebx 0 %ifdef flatmodel push ebx %endif %endmacro %imacro unuse_ebx 0 %ifdef flatmodel pop ebx %endif %endmacro ; Macros for saving and restoring the value of DS,ES,FS,GS when it is to ; be used in assembly routines. This evaluates to nothing in the flat memory ; model, but is saves and restores DS in the large memory model. %imacro use_ds 0 %ifndef flatmodel push ds %endif %endmacro %imacro unuse_ds 0 %ifndef flatmodel pop ds %endif %endmacro %imacro use_es 0 %ifndef flatmodel push es %endif %endmacro %imacro unuse_es 0 %ifndef flatmodel pop es %endif %endmacro ; Macros for loading the address of a data pointer into a segment and ; index register pair. The %imacro explicitly loads DS or ES in the 16 bit ; memory model, or it simply loads the offset into the register in the flat ; memory model since DS and ES always point to all addressable memory. You ; must use the correct _REG (ie: _BX) %imacros for documentation purposes. %imacro _lds 2 %ifdef flatmodel mov %1,%2 %else lds %1,%2 %endif %endmacro %imacro _les 2 %ifdef flatmodel mov %1,%2 %else les %1,%2 %endif %endmacro ; Macros for adding and subtracting a value from registers. Two value are ; provided, one for 16 bit modes and another for 32 bit modes (the extended ; register is used in 32 bit modes). %imacro _add 3 %ifdef flatmodel add e%1, %3 %else add %1, %2 %endif %endmacro %imacro _sub 3 %ifdef flatmodel sub e%1, %3 %else sub %1, %2 %endif %endmacro ; Macro to clear the high order word for the 32 bit extended registers. ; This is used to convert an unsigned 16 bit value to an unsigned 32 bit ; value, and will evaluate to nothing in 16 bit modes. %imacro clrhi 1 %ifdef flatmodel movzx e%1,%1 %endif %endmacro %imacro sgnhi 1 %ifdef flatmodel movsx e%1,%1 %endif %endmacro ; Macro to load an extended register with an integer value in either mode %imacro loadint 2 %ifdef flatmodel mov e%1,%2 %else xor e%1,e%1 mov %1,%2 %endif %endmacro ; Macros to load and store integer values with string instructions %imacro LODSINT 0 %ifdef flatmodel lodsd %else lodsw %endif %endmacro %imacro STOSINT 0 %ifdef flatmodel stosd %else stosw %endif %endmacro ; Macros to provide resb, resw, resd compatibility with NASM %imacro dclb 1 times %1 db 0 %endmacro %imacro dclw 1 times %1 dw 0 %endmacro %imacro dcld 1 times %1 dd 0 %endmacro ; Macro to get the addres of the GOT for Linux/FreeBSD shared ; libraries into the EBX register. %imacro get_GOT 1 call %%getgot %%getgot: pop %1 add %1,_GLOBAL_OFFSET_TABLE_+$$-%%getgot wrt ..gotpc %endmacro ; Macro to get the address of a *local* variable that is global to ; a single module in a manner that will work correctly when compiled ; into a Linux shared library. Note that this will *not* work for ; variables that are defined as global to all modules. For that ; use the LEA_G macro %macro LEA_L 2 %ifdef __PIC__ get_GOT %1 lea %1,[%1+%2 wrt ..gotoff] %else lea %1,[%2] %endif %endmacro ; Same macro as above but for global variables public to *all* ; modules. %macro LEA_G 2 %ifdef __PIC__ get_GOT %1 mov %1,[%1+%2 wrt ..got] %else lea %1,[%2] %endif %endmacro ; macros to declare assembler function stubs for function structures %imacro BEGIN_STUBS_DEF 2 begdataseg _STUBS %ifdef __NOU_VAR__ extern %1 %define STUBS_START %1 %else extern _%1 %define STUBS_START _%1 %endif enddataseg _STUBS begcodeseg _STUBS %assign off %2 %endmacro %imacro DECLARE_STUB 1 %ifdef __PIC__ global %1:function %1: get_GOT eax mov eax,[eax+STUBS_START wrt ..got] jmp [eax+off] %else %ifdef __NOU__ global %1 %1: %else global _%1 _%1: %endif jmp [DWORD STUBS_START+off] %endif %assign off off+4 %endmacro %imacro SKIP_STUB 1 %assign off off+4 %endmacro %imacro DECLARE_STDCALL 2 %ifdef STDCALL_MANGLE global _%1@%2 _%1@%2: %else %ifdef STDCALL_USCORE global _%1 _%1: %else global %1 %1: %endif %endif jmp [DWORD STUBS_START+off] %assign off off+4 %endmacro %imacro END_STUBS_DEF 0 endcodeseg _STUBS %endmacro ; macros to declare assembler import stubs for binary loadable drivers %imacro BEGIN_IMPORTS_DEF 1 BEGIN_STUBS_DEF %1,4 %endmacro ifndef LOCAL_DECLARE_IMP %imacro DECLARE_IMP 2 DECLARE_STUB %1 %endmacro %imacro DECLARE_PTR 2 DECLARE_STUB %1 %endmacro %imacro SKIP_IMP 2 SKIP_STUB %1 %endmacro %imacro SKIP_PTR 2 SKIP_STUB %1 %endmacro %imacro SKIP_IMP2 1 DECLARE_STUB %1 %endmacro %imacro SKIP_IMP3 1 SKIP_STUB %1 %endmacro endif %imacro END_IMPORTS_DEF 0 END_STUBS_DEF %endmacro %endif