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3bab79a7
编写于
1月 09, 2013
作者:
G
Grissiom
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AUTHORS
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+45
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bsp/avr32uc3b0/SOFTWARE_FRAMEWORK/DRIVERS/INTC/exception.x
bsp/avr32uc3b0/SOFTWARE_FRAMEWORK/DRIVERS/INTC/exception.x
+1
-1
bsp/bf533/vdsp/bf533.dpj
bsp/bf533/vdsp/bf533.dpj
+740
-740
bsp/m16c62p/lnkm30627fhp.xcl
bsp/m16c62p/lnkm30627fhp.xcl
+236
-236
bsp/mini2440/Readme
bsp/mini2440/Readme
+1
-1
bsp/pic32ethernet/project.mcp
bsp/pic32ethernet/project.mcp
+194
-194
bsp/simulator/SDL/BUGS
bsp/simulator/SDL/BUGS
+18
-18
bsp/simulator/SDL/COPYING
bsp/simulator/SDL/COPYING
+458
-458
bsp/simulator/SDL/README
bsp/simulator/SDL/README
+49
-49
bsp/simulator/SDL/WhatsNew
bsp/simulator/SDL/WhatsNew
+727
-727
未找到文件。
AUTHORS
100644 → 100755
浏览文件 @
3bab79a7
Kernel Design & Implementation
- Bernard Xiong <bernard.xiong@gmail.com>
LwIP 1.3.0/1.3.1/1.3.2/1.4.0
- Porting
Qiu Yi
Mbbill
- Testing
Bernard Xiong
Filesystem
- Porting and Add Virtual Filesystem
- Testing
Qiu Yi
prife
RTGUI
- Design and Implemenation
Bernard Xiong
Grissiom
BSP
Bernard Xiong
- ATMEL AT91SAM7S64 & AT91SAM7X256 Porting
- STM32 Porting
- S3C4510 Porting
Mbbill
- ATMEL AT91SAM7X256
Xulong Cao
- QEMU/x86
Aozima
- LPC 2148 Porting
- STM32 Porting
Jing Lee
- LPC 2478 Porting
Qiu Yi
- S3C2410 & S3C2440 Porting
- TI LM3S
others...
Kernel Design & Implementation
- Bernard Xiong <bernard.xiong@gmail.com>
LwIP 1.3.0/1.3.1/1.3.2/1.4.0
- Porting
Qiu Yi
Mbbill
- Testing
Bernard Xiong
Filesystem
- Porting and Add Virtual Filesystem
- Testing
Qiu Yi
prife
RTGUI
- Design and Implemenation
Bernard Xiong
Grissiom
BSP
Bernard Xiong
- ATMEL AT91SAM7S64 & AT91SAM7X256 Porting
- STM32 Porting
- S3C4510 Porting
Mbbill
- ATMEL AT91SAM7X256
Xulong Cao
- QEMU/x86
Aozima
- LPC 2148 Porting
- STM32 Porting
Jing Lee
- LPC 2478 Porting
Qiu Yi
- S3C2410 & S3C2440 Porting
- TI LM3S
others...
bsp/avr32uc3b0/SOFTWARE_FRAMEWORK/DRIVERS/INTC/exception.x
浏览文件 @
3bab79a7
/* This file is part of the ATMEL AVR-UC3-SoftwareFramework-1.7.0 Release */
/* This file is part of the ATMEL AVR-UC3-SoftwareFramework-1.7.0 Release */
/*This file is prepared for Doxygen automatic documentation generation.*/
/*! \file *********************************************************************
...
...
bsp/bf533/vdsp/bf533.dpj
浏览文件 @
3bab79a7
此差异已折叠。
点击以展开。
bsp/m16c62p/lnkm30627fhp.xcl
浏览文件 @
3bab79a7
//================================================================
//
// IAR XLINK command file for the IAR C/C++ Compiler for
// Renesas M16C/R8C
//
// This is an example XLINK command file for use with the
// M30627FHP derivative.
//
// Derivative group: m16c 62p
//
//
// Usage: xlink your_file(s) -f this_file clm16c*.r48
//
// Copyright 2001-2008 IAR Systems AB.
//
// $Revision: 2144 $
//
//================================================================
//================================================================
// The M16C IAR C/EC++ Compiler places code and data into named
// segments which are referred to by the IAR XLINK Linker. The
// table below shows the available segments.
//
// SEGMENT REFERENCE
// =================
//
// Segment Description
// ------- -----------
// BITVARS Bit variables.
// CODE The program code.
// CSTACK The stack used by C or Embedded C++ programs.
// CSTART The startup code.
// DATA16_HEAP Heap data used by malloc and free. Used by CLib and DLib
// FAR_HEAP Heap used by malloc and free in DLib
// DATA20_HEAP Heap used by malloc and free in DLib
//
// x_AC Non-initialized located const objects.
// x_AN Non-initialized located non-const objects.
// x_C Constant data, including string literals.
// x_I Initialized data.
// x_ID Data that is copied to x_I by cstartup.
// x_N Uninitialized data.
// x_Z zero initialized data.
//
// Where x can be one of:
// DATA13 (Range: 0-0x1FFF)
// DATA16 (Range: 0-0xFFFF, except DATA16_ID)
// DATA20 (Range: 0-0xFFFFF)
// FAR (Range: 0-0xFFFFF)
//
// DIFUNCT Pointers to code, typically EC++ constructors
// FLIST Jump table for __tiny_func functions.
// INTVEC Contains reset and interrupt vectors.
// INTVEC1 Contains the fixed reset and interrupt vectors.
// ISTACK The stack used by interrupts and exceptions.
//================================================================
// Define CPU
-cm16c
//================================================================
// USER DEFINITIONS
// Please customize according to your preferences.
//================================================================
// Size of the user stack
// Uncomment for command line use
//-D_CSTACK_SIZE=100
// Size of the interrupt stack
// Uncomment for command line use
//-D_ISTACK_SIZE=40
// Size of the heap
// Uncomment for command line use
//-D_DATA16_HEAP_SIZE=400
//-D_FAR_HEAP_SIZE=400
//-D_DATA20_HEAP_SIZE=400
// Reserved memory
// Reservation of RAM and ROM memory not to be used by the application.
// Preset for use with the E8 emulator.
// NOTE! Set these values to zero to utilize the whole RAM and ROM memory.
-D_RESERVED_RAM_SIZE=80
-D_RESERVED_ROM_SIZE=800
//================================================================
// Memory Definitions
//================================================================
// Memory areas available for the application
-D_USER_RAM_BEGIN=(00400+_RESERVED_RAM_SIZE)
-D_USER_RAM_END=07FFF
-D_DATA_FLASH_BEGIN=0F000
-D_DATA_FLASH_END=0FFFF
-D_USER_ROM_BEGIN=(A0000+_RESERVED_ROM_SIZE)
-D_USER_ROM_END=FFFFF
// Relocatable "bit" segment (must be in near area).
// As BITVARS contains bit addresses, the address has to be recalculated.
// Byte address 400 --> 400 * 8 = bit address 2000
-D_BITVAR_BEGIN=2000 // address 400
-D_BITVAR_END=FFFF // address 1FFF
// ID code and OFS value written to ROM memory
-D_ID_CODE_1=FF
-D_ID_CODE_2=FF
-D_ID_CODE_3=FF
-D_ID_CODE_4=FF
-D_ID_CODE_5=FF
-D_ID_CODE_6=FF
-D_ID_CODE_7=FF
-D_OFS_VALUE=FF
// _OFS2_VALUE has to be defined. It is only used in some R8C devices and will
// not result in any additional code or data for any other device.
-D_OFS2_VALUE=FF
// =======================
// DATA13 RAM
// =======================
-Z(NEAR)DATA13_AN=0-01FFF
-Z(NEAR)DATA13_I=_USER_RAM_BEGIN-01FFF
-Z(NEAR)DATA13_Z,DATA13_N=_USER_RAM_BEGIN-01FFF
// Relocatable "bit" segment. As BITVARS contains bit addresses,
// the desired (byte) address has to be multiplied by 8.
-Z(BIT)BITVARS=_BITVAR_BEGIN-_BITVAR_END
// =======================
// DATA16 RAM
// =======================
// Set up interrupt stack
-Z(NEAR)ISTACK+_ISTACK_SIZE#_USER_RAM_BEGIN-_USER_RAM_END
// Set up user stack
-Z(NEAR)CSTACK+_CSTACK_SIZE#_USER_RAM_BEGIN-_USER_RAM_END
// Set up near heap
-Z(NEAR)DATA16_HEAP+_DATA16_HEAP_SIZE=_USER_RAM_BEGIN-_USER_RAM_END
// Near variables
-Z(NEAR)DATA16_I,DATA16_Z,DATA16_N,DATA16_AN=_USER_RAM_BEGIN-_USER_RAM_END
// User defined near DATA segments
// =======================
// DATA16 ROM
// =======================
// Data flash
-Z(CONST)DATA_FLASH=_DATA_FLASH_BEGIN-_DATA_FLASH_END
// Constant segments (in ROM), reachable for near pointers
// (Use declaration -Z(CONST)DATA16_C if near ROM exists)
// User defined near CONST segments
// =======================
// FAR/DATA20 RAM
// =======================
// Far and huge data segments
-Z(FAR)FAR_I,FAR_Z,FAR_N,FAR_AN=_USER_RAM_BEGIN-_USER_RAM_END
-Z(FAR)FAR_HEAP+_FAR_HEAP_SIZE=_USER_RAM_BEGIN-_USER_RAM_END
-Z(HUGE)DATA20_I,DATA20_Z,DATA20_N,DATA20_AN=_USER_RAM_BEGIN-_USER_RAM_END
-Z(HUGE)DATA20_HEAP+_DATA20_HEAP_SIZE=_USER_RAM_BEGIN-_USER_RAM_END
// User defined far & huge DATA segments
// =======================
// FAR/DATA20 ROM
// =======================
// Fixed interrupt vector table
-Z(CONST)INTVEC1=FFFDC-FFFFF
// Special page table
-Z(CONST)FLIST=FFE00-FFFDB
// Variable vector table (growing downwards from _USER_ROM_END)
// The added -1 is too assure that all vectors start at even
// addresses.
-Z(CONST)INTVEC=D0000-(_USER_ROM_END-1)
// Constant and initializer segments (in ROM)
-Z(FARCONST)FAR_ID=_USER_ROM_BEGIN-_USER_ROM_END
-Z(FARCONST)FAR_C=_USER_ROM_BEGIN-_USER_ROM_END
-Z(HUGECONST)DATA20_C,DATA20_ID,CHECKSUM=_USER_ROM_BEGIN-_USER_ROM_END
-Z(FARCONST)DATA16_ID,DATA13_ID,DIFUNCT=_USER_ROM_BEGIN-_USER_ROM_END
// User defined far & huge CONST segments
// CODE segments
// TINYFUNC code must be located above 0xF0000
-P(CODE)TINYFUNC=F0000-_USER_ROM_END
// Startup code
-P(CODE)CSTART=D0000-_USER_ROM_END
// "Regular" code
-P(CODE)CODE=_USER_ROM_BEGIN-_USER_ROM_END
// User defined CODE segments
// ========================
// IAR C library formatting
// ========================
// Uncomment for command line use
//-e_small_write=_formatted_write
//-e_medium_read=_formatted_read
// ========================
// Output files
// ========================
// Use the -O option to create one or more output files
// at the same link session. Formats flags, file name and
// extension is optional. Please un-comment the wanted
// output formats below.
//
// CAUTION: Do not combine other output formats with -rt (special
// UBROF for Terminal I/O in C-SPY). Output files are valid but
// contain code that expects to be run under C-SPY.
// Motorola output
//-Omotorola=.mot
// IEEE-695 output with format flags for the Renesas debugger
//-Oieee695,lbm=.x30
// ELF/DWARF output with format flags for the Renesas debugger
//-Oelf,spc=.elf
//================================================================
//
// IAR XLINK command file for the IAR C/C++ Compiler for
// Renesas M16C/R8C
//
// This is an example XLINK command file for use with the
// M30627FHP derivative.
//
// Derivative group: m16c 62p
//
//
// Usage: xlink your_file(s) -f this_file clm16c*.r48
//
// Copyright 2001-2008 IAR Systems AB.
//
// $Revision: 2144 $
//
//================================================================
//================================================================
// The M16C IAR C/EC++ Compiler places code and data into named
// segments which are referred to by the IAR XLINK Linker. The
// table below shows the available segments.
//
// SEGMENT REFERENCE
// =================
//
// Segment Description
// ------- -----------
// BITVARS Bit variables.
// CODE The program code.
// CSTACK The stack used by C or Embedded C++ programs.
// CSTART The startup code.
// DATA16_HEAP Heap data used by malloc and free. Used by CLib and DLib
// FAR_HEAP Heap used by malloc and free in DLib
// DATA20_HEAP Heap used by malloc and free in DLib
//
// x_AC Non-initialized located const objects.
// x_AN Non-initialized located non-const objects.
// x_C Constant data, including string literals.
// x_I Initialized data.
// x_ID Data that is copied to x_I by cstartup.
// x_N Uninitialized data.
// x_Z zero initialized data.
//
// Where x can be one of:
// DATA13 (Range: 0-0x1FFF)
// DATA16 (Range: 0-0xFFFF, except DATA16_ID)
// DATA20 (Range: 0-0xFFFFF)
// FAR (Range: 0-0xFFFFF)
//
// DIFUNCT Pointers to code, typically EC++ constructors
// FLIST Jump table for __tiny_func functions.
// INTVEC Contains reset and interrupt vectors.
// INTVEC1 Contains the fixed reset and interrupt vectors.
// ISTACK The stack used by interrupts and exceptions.
//================================================================
// Define CPU
-cm16c
//================================================================
// USER DEFINITIONS
// Please customize according to your preferences.
//================================================================
// Size of the user stack
// Uncomment for command line use
//-D_CSTACK_SIZE=100
// Size of the interrupt stack
// Uncomment for command line use
//-D_ISTACK_SIZE=40
// Size of the heap
// Uncomment for command line use
//-D_DATA16_HEAP_SIZE=400
//-D_FAR_HEAP_SIZE=400
//-D_DATA20_HEAP_SIZE=400
// Reserved memory
// Reservation of RAM and ROM memory not to be used by the application.
// Preset for use with the E8 emulator.
// NOTE! Set these values to zero to utilize the whole RAM and ROM memory.
-D_RESERVED_RAM_SIZE=80
-D_RESERVED_ROM_SIZE=800
//================================================================
// Memory Definitions
//================================================================
// Memory areas available for the application
-D_USER_RAM_BEGIN=(00400+_RESERVED_RAM_SIZE)
-D_USER_RAM_END=07FFF
-D_DATA_FLASH_BEGIN=0F000
-D_DATA_FLASH_END=0FFFF
-D_USER_ROM_BEGIN=(A0000+_RESERVED_ROM_SIZE)
-D_USER_ROM_END=FFFFF
// Relocatable "bit" segment (must be in near area).
// As BITVARS contains bit addresses, the address has to be recalculated.
// Byte address 400 --> 400 * 8 = bit address 2000
-D_BITVAR_BEGIN=2000 // address 400
-D_BITVAR_END=FFFF // address 1FFF
// ID code and OFS value written to ROM memory
-D_ID_CODE_1=FF
-D_ID_CODE_2=FF
-D_ID_CODE_3=FF
-D_ID_CODE_4=FF
-D_ID_CODE_5=FF
-D_ID_CODE_6=FF
-D_ID_CODE_7=FF
-D_OFS_VALUE=FF
// _OFS2_VALUE has to be defined. It is only used in some R8C devices and will
// not result in any additional code or data for any other device.
-D_OFS2_VALUE=FF
// =======================
// DATA13 RAM
// =======================
-Z(NEAR)DATA13_AN=0-01FFF
-Z(NEAR)DATA13_I=_USER_RAM_BEGIN-01FFF
-Z(NEAR)DATA13_Z,DATA13_N=_USER_RAM_BEGIN-01FFF
// Relocatable "bit" segment. As BITVARS contains bit addresses,
// the desired (byte) address has to be multiplied by 8.
-Z(BIT)BITVARS=_BITVAR_BEGIN-_BITVAR_END
// =======================
// DATA16 RAM
// =======================
// Set up interrupt stack
-Z(NEAR)ISTACK+_ISTACK_SIZE#_USER_RAM_BEGIN-_USER_RAM_END
// Set up user stack
-Z(NEAR)CSTACK+_CSTACK_SIZE#_USER_RAM_BEGIN-_USER_RAM_END
// Set up near heap
-Z(NEAR)DATA16_HEAP+_DATA16_HEAP_SIZE=_USER_RAM_BEGIN-_USER_RAM_END
// Near variables
-Z(NEAR)DATA16_I,DATA16_Z,DATA16_N,DATA16_AN=_USER_RAM_BEGIN-_USER_RAM_END
// User defined near DATA segments
// =======================
// DATA16 ROM
// =======================
// Data flash
-Z(CONST)DATA_FLASH=_DATA_FLASH_BEGIN-_DATA_FLASH_END
// Constant segments (in ROM), reachable for near pointers
// (Use declaration -Z(CONST)DATA16_C if near ROM exists)
// User defined near CONST segments
// =======================
// FAR/DATA20 RAM
// =======================
// Far and huge data segments
-Z(FAR)FAR_I,FAR_Z,FAR_N,FAR_AN=_USER_RAM_BEGIN-_USER_RAM_END
-Z(FAR)FAR_HEAP+_FAR_HEAP_SIZE=_USER_RAM_BEGIN-_USER_RAM_END
-Z(HUGE)DATA20_I,DATA20_Z,DATA20_N,DATA20_AN=_USER_RAM_BEGIN-_USER_RAM_END
-Z(HUGE)DATA20_HEAP+_DATA20_HEAP_SIZE=_USER_RAM_BEGIN-_USER_RAM_END
// User defined far & huge DATA segments
// =======================
// FAR/DATA20 ROM
// =======================
// Fixed interrupt vector table
-Z(CONST)INTVEC1=FFFDC-FFFFF
// Special page table
-Z(CONST)FLIST=FFE00-FFFDB
// Variable vector table (growing downwards from _USER_ROM_END)
// The added -1 is too assure that all vectors start at even
// addresses.
-Z(CONST)INTVEC=D0000-(_USER_ROM_END-1)
// Constant and initializer segments (in ROM)
-Z(FARCONST)FAR_ID=_USER_ROM_BEGIN-_USER_ROM_END
-Z(FARCONST)FAR_C=_USER_ROM_BEGIN-_USER_ROM_END
-Z(HUGECONST)DATA20_C,DATA20_ID,CHECKSUM=_USER_ROM_BEGIN-_USER_ROM_END
-Z(FARCONST)DATA16_ID,DATA13_ID,DIFUNCT=_USER_ROM_BEGIN-_USER_ROM_END
// User defined far & huge CONST segments
// CODE segments
// TINYFUNC code must be located above 0xF0000
-P(CODE)TINYFUNC=F0000-_USER_ROM_END
// Startup code
-P(CODE)CSTART=D0000-_USER_ROM_END
// "Regular" code
-P(CODE)CODE=_USER_ROM_BEGIN-_USER_ROM_END
// User defined CODE segments
// ========================
// IAR C library formatting
// ========================
// Uncomment for command line use
//-e_small_write=_formatted_write
//-e_medium_read=_formatted_read
// ========================
// Output files
// ========================
// Use the -O option to create one or more output files
// at the same link session. Formats flags, file name and
// extension is optional. Please un-comment the wanted
// output formats below.
//
// CAUTION: Do not combine other output formats with -rt (special
// UBROF for Terminal I/O in C-SPY). Output files are valid but
// contain code that expects to be run under C-SPY.
// Motorola output
//-Omotorola=.mot
// IEEE-695 output with format flags for the Renesas debugger
//-Oieee695,lbm=.x30
// ELF/DWARF output with format flags for the Renesas debugger
//-Oelf,spc=.elf
bsp/mini2440/Readme
浏览文件 @
3bab79a7
Documents here
Documents here
http://www.rt-thread.org/dokuwiki/doku.php?id=s3c2440
\ No newline at end of file
bsp/pic32ethernet/project.mcp
浏览文件 @
3bab79a7
[HEADER]
magic_cookie={66E99B07-E706-4689-9E80-9B2582898A13}
file_version=1.0
device=PIC32MX795F512L
[PATH_INFO]
BuildDirPolicy=BuildDirIsProjectDir
dir_src=
dir_bin=./obj
dir_tmp=./obj
dir_sin=
dir_inc=.;../../include;../../components/finsh
dir_lib=C:\Program Files\Microchip\MPLAB C32 Suite\lib;C:\Program Files\Microchip\MPLAB C32 Suite\pic32mx\lib
dir_lkr=
[CAT_FILTERS]
filter_src=*.s;*.c
filter_inc=*.h;*.inc
filter_obj=*.o
filter_lib=*.a
filter_lkr=*.ld
[CAT_SUBFOLDERS]
subfolder_src=finsh;kernel;pic32
subfolder_inc=
subfolder_obj=
subfolder_lib=
subfolder_lkr=
[FILE_SUBFOLDERS]
file_000=.
file_001=.
file_002=kernel
file_003=kernel
file_004=kernel
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file_007=kernel
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file_012=kernel
file_013=kernel
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file_015=kernel
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file_017=.
file_018=pic32
file_019=.
file_020=finsh
file_021=finsh
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file_023=finsh
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file_025=finsh
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file_029=finsh
file_030=finsh
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file_032=finsh
file_033=.
file_034=pic32
file_035=pic32
file_036=.
[GENERATED_FILES]
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file_001=no
file_002=no
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file_017=no
file_018=no
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[OTHER_FILES]
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file_036=no
[FILE_INFO]
file_000=board.c
file_001=application.c
file_002=..\..\src\device.c
file_003=..\..\src\idle.c
file_004=..\..\src\ipc.c
file_005=..\..\src\irq.c
file_006=..\..\src\kservice.c
file_007=..\..\src\mem.c
file_008=..\..\src\mempool.c
file_009=..\..\src\module.c
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bsp/simulator/SDL/BUGS
浏览文件 @
3bab79a7
Bugs are now managed in the SDL bug tracker, here:
http://bugzilla.libsdl.org/
You may report bugs there, and search to see if a given issue has already
been reported, discussed, and maybe even fixed.
You may also find help at the SDL mailing list. Subscription information:
http://lists.libsdl.org/listinfo.cgi/sdl-libsdl.org
Bug reports are welcome here, but we really appreciate if you use Bugzilla, as
bugs discussed on the mailing list may be forgotten or missed.
Bugs are now managed in the SDL bug tracker, here:
http://bugzilla.libsdl.org/
You may report bugs there, and search to see if a given issue has already
been reported, discussed, and maybe even fixed.
You may also find help at the SDL mailing list. Subscription information:
http://lists.libsdl.org/listinfo.cgi/sdl-libsdl.org
Bug reports are welcome here, but we really appreciate if you use Bugzilla, as
bugs discussed on the mailing list may be forgotten or missed.
bsp/simulator/SDL/COPYING
浏览文件 @
3bab79a7
此差异已折叠。
点击以展开。
bsp/simulator/SDL/README
浏览文件 @
3bab79a7
Simple DirectMedia Layer
(SDL)
Version 1.2
---
http://www.libsdl.org/
This is the Simple DirectMedia Layer, a general API that provides low
level access to audio, keyboard, mouse, joystick, 3D hardware via OpenGL,
and 2D framebuffer across multiple platforms.
The current version supports Linux, Windows CE/95/98/ME/XP/Vista, BeOS,
MacOS Classic, Mac OS X, FreeBSD, NetBSD, OpenBSD, BSD/OS, Solaris, IRIX,
and QNX. The code contains support for Dreamcast, Atari, AIX, OSF/Tru64,
RISC OS, SymbianOS, Nintendo DS, and OS/2, but these are not officially
supported.
SDL is written in C, but works with C++ natively, and has bindings to
several other languages, including Ada, C#, Eiffel, Erlang, Euphoria,
Guile, Haskell, Java, Lisp, Lua, ML, Objective C, Pascal, Perl, PHP,
Pike, Pliant, Python, Ruby, and Smalltalk.
This library is distributed under GNU LGPL version 2, which can be
found in the file "COPYING". This license allows you to use SDL
freely in commercial programs as long as you link with the dynamic
library.
The best way to learn how to use SDL is to check out the header files in
the "include" subdirectory and the programs in the "test" subdirectory.
The header files and test programs are well commented and always up to date.
More documentation is available in HTML format in "docs/index.html", and
a documentation wiki is available online at:
http://www.libsdl.org/cgi/docwiki.cgi
The test programs in the "test" subdirectory are in the public domain.
Frequently asked questions are answered online:
http://www.libsdl.org/faq.php
If you need help with the library, or just want to discuss SDL related
issues, you can join the developers mailing list:
http://www.libsdl.org/mailing-list.php
Enjoy!
Sam Lantinga (slouken@libsdl.org)
Simple DirectMedia Layer
(SDL)
Version 1.2
---
http://www.libsdl.org/
This is the Simple DirectMedia Layer, a general API that provides low
level access to audio, keyboard, mouse, joystick, 3D hardware via OpenGL,
and 2D framebuffer across multiple platforms.
The current version supports Linux, Windows CE/95/98/ME/XP/Vista, BeOS,
MacOS Classic, Mac OS X, FreeBSD, NetBSD, OpenBSD, BSD/OS, Solaris, IRIX,
and QNX. The code contains support for Dreamcast, Atari, AIX, OSF/Tru64,
RISC OS, SymbianOS, Nintendo DS, and OS/2, but these are not officially
supported.
SDL is written in C, but works with C++ natively, and has bindings to
several other languages, including Ada, C#, Eiffel, Erlang, Euphoria,
Guile, Haskell, Java, Lisp, Lua, ML, Objective C, Pascal, Perl, PHP,
Pike, Pliant, Python, Ruby, and Smalltalk.
This library is distributed under GNU LGPL version 2, which can be
found in the file "COPYING". This license allows you to use SDL
freely in commercial programs as long as you link with the dynamic
library.
The best way to learn how to use SDL is to check out the header files in
the "include" subdirectory and the programs in the "test" subdirectory.
The header files and test programs are well commented and always up to date.
More documentation is available in HTML format in "docs/index.html", and
a documentation wiki is available online at:
http://www.libsdl.org/cgi/docwiki.cgi
The test programs in the "test" subdirectory are in the public domain.
Frequently asked questions are answered online:
http://www.libsdl.org/faq.php
If you need help with the library, or just want to discuss SDL related
issues, you can join the developers mailing list:
http://www.libsdl.org/mailing-list.php
Enjoy!
Sam Lantinga (slouken@libsdl.org)
bsp/simulator/SDL/WhatsNew
浏览文件 @
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