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377 lines
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377 lines
14 KiB
Plaintext
This is basic information about the Macintosh(tm) MPW(tm) port of the
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GNU tools. The information below applies to both native and cross
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compilers.
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(Please note that there are two versions of this file; "mpw-README"
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is the source form, and "Read Me for MPW" is the distribution form.
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"Read Me for MPW" has 8-bit chars such as \Option-d embedded in it.)
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INSTALLING GNU TOOLS
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* System Requirements
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To use these tools, you will need a Mac with a 68020 or better or else
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any PowerMac, System 7.1 or later, and MPW 3.3 or 3.4. You will *not*
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need any other MPW compiler unless you want to rebuild from sources,
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nor even any include files, unless you are building actual Mac
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applications. For PowerMac native you will need PPCLink, however;
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also the executables are PowerPC-only.
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* Automated Installation
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The simplest way to install GNU tools is to run the Install script.
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The script will copy things to where you want to keep them, will build
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a UserStartup file with settings corresponding to where things were
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copied, and offer to put that UserStartup file in your MPW folder.
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The Install script does not alter anything in the System Folder, and
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it does not take any action without confirmation.
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The Install script will be at the top level of the binary
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distribution, or at the top level of the object directory if
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rebuilding from source. (The sources include a file called
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"mpw-install" at the top level, but it is the source to the Install
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script and cannot be run directly.)
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* Manual Installation
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If you don't want to run the Install script, you can do installation
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manually; this section describes the steps involved.
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The GNU tools can go in any directory that is in your {Commands} list.
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We generally put all the tools somewhere like {Boot}Cygnus:latest:bin,
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and then add to a UserStartup file:
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set Commands "{Boot}Cygnus:latest:bin:,{Commands}"
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However, the cpp and cc1 programs of GCC are not normally stored here.
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Instead, they will be in a "lib" directory that is alongside "bin",
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and organized by target and version underneath, with names like
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:lib:gcc-lib:<target>:cygnus-<version>:
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If you build and install everything yourself according to the build
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instructions below, then you will not have any problems. However, you
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may discover that GCC seems unable to find the right cpp and cc1;
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usually this will be because directory names have changed. (Even
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renaming your hard disk will make this happen.) In such cases, you
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have several choices. One is just to add this directory to
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{Commands}, but then you will not be able to get any other cpp or cc1,
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such as those used by a different target or version. Another way is
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to rename your disk and directories to match the prefix used when the
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tools were compiled. Finally, you can set the variable
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GCC_EXEC_PREFIX to point to the library directory:
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set GCC_EXEC_PREFIX MyDisk:Stuff:lib:gcc-lib:
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export GCC_EXEC_PREFIX
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You may also want to edit MPW's HEXA 128 resource. When GCC is built
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using a native GCC, it is compiled to use a special stack allocator
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function alloca(). While this is very efficient, it means that GCC
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will need considerable stack space to run, especially when compiling
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large programs with optimization turned on. You give MPW more stack
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by editing the HEXA 128 resource of the MPW Shell. A value of "0008
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0000" gives 512K of stack size, which is usually sufficient.
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USING GNU TOOLS
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* Using Native PowerMac GCC
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Using a native PowerMac GCC to produce MPW tools or MacOS applications
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is more complicated than just "gC foo.c", although no more complicated
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than with other Mac compilers.
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To build a native PowerMac MPW tool, use this sequence, where hello.c
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is the usual "hello world" program, and genericcfrg.r is the Rez file
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with the code fragment resource:
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gC -I{CIncludes} -fno-builtin -Dpascal= -c -g hello.c
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PPCLink hello.o -o hello \Option-d
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"{PPCLibraries}"StdCRuntime.o \Option-d
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"{SharedLibraries}"InterfaceLib \Option-d
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"{SharedLibraries}"StdCLib \Option-d
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"{PPCLibraries}"PPCToolLibs.o \Option-d
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"{PPCLibraries}"PPCCRuntime.o \Option-d
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"{GCCPPCLibraries}"libgcc.xcoff
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rez -d APPNAME='"'hello'"' GenericCFRG.r -o hello
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setfile -t 'MPST' -c 'MPS ' hello
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The same sequence works to build a MacOS application, but you set the file
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type to 'APPL' and don't link in PPCToolLibs.o. For further details on
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using MPW to build Mac applications, see the general MPW documentation.
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Recent versions of PPCLink have an option to generate the code
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fragment resource and automatically set creator and file type;
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here is what GenericCFRG.r should look like if you have an older
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PPCLink or are using GNU ld:
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#include "CodeFragmentTypes.r"
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resource 'cfrg' (0) {
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{
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kPowerPC,
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kFullLib,
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kNoVersionNum,kNoVersionNum,
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0,0,
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kIsApp,kOnDiskFlat,kZeroOffset,kWholeFork,
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APPNAME // must be defined on Rez command line with -d option
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}
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};
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In general this port of GCC supports the same option syntax and
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behavior as its Unix counterpart. It also has similar compilation
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rules, so it will run the assembler on .s files and so forth.
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The GCC manual includes full information on the available options.
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One option that may be especially useful is "-v", which shows you what
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tools and options are being used; unlike most Mac C compilers, GCC
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directs assembly and linking in addition to compilation.
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MPW GCC does feature two extensions to the option syntax; '-d macro=name'
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works just as '-Dmacro=name' does in Unix, and '-i directory' works the
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same as '-Idirectory'.
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MPW GCC supports the usual Pascal-style strings and alignment pragmas.
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To find standard include files you can set the variable GCCIncludes:
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set GCCIncludes MyDisk:MyIncludes:
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export GCCIncludes
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GCCIncludes is similar to MPW's CIncludes or CW's MWCIncludes. In
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order to use MPW's usual include files, just say:
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set GCCIncludes "{CIncludes}"
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export GCCIncludes
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* Using GCC as a Cross-Compiler
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If you have a cross-compiler, and you have all of the correct
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target-side crt0 and libraries available, then to compile and link a
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file "foo.c", you can say just
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gC foo.c
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The output file will be an MPW binary file named "a.out"; the format
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of the contents will depend on which target is in use, so for instance
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a MIPS-targeting GCC will produce ECOFF or ELF executables.
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Note that using MPW include files with a cross-compiler is somewhat
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dangerous.
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* Using the Assembler and Friends
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The assembler ("as") and linker ("ld") are faithful ports of their
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Unix counterparts. Similarly, the binutils "ar", "cplusfilt", "nm",
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"objcopy", "objdump", "ranlib", "size", "strings", and "strip" are all
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like they are under Unix. (Note that "cplusfilt" is usually called
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"c++filt" under Unix.)
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* Using GDB
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There are two flavors of GDB. "gdb" is an MPW tool that works very
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much like it does in Unix; put a command into the MPW worksheet and
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type the <enter> key to send it to GDB. While "gdb" is running, you
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cannot do anything else in MPW, although you can switch to other
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Mac applications and use them.
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"SiowGDB" is also a Mac application, but it is GDB using the SIOW
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package to provide console emulation. Commands are exactly as for the
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MPW tool, but since this is its own application, you can switch
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between it and MPW.
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BUILDING GNU TOOLS
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This port of the GNU tools uses a configure script similar to
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that used for GNU tools under Unix, but rewritten for MPW. As with
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Unix configuration, there is an "object" directory that may be
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different from the "source" directory. In the example commands below,
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we will assume that we are currently in the object directory, and that
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the source directory is "{Boot}Cygnus:src:".
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* Requirements for Building
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In addition to the sources, you will need a set of tools that the
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configure and build scripts assume to be available. These tools
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(and their versions, if relevant) are as follows:
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byacc tool
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flex (2.3.7) tool (and Flex.skel file)
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forward-include script
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MoveIfChange script
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mpw-touch script
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mpw-true script
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NewFolderRecursive script
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null-command script
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open-brace script
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sed (1.13) tool
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tr-7to8 script
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true script
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The scripts are in the sources, under utils:mpw:. You must arrange to
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get the other tools yourself (they are readily available from the
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"usual" net sites, and are also on many CDROMS). In addition, there
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will usually be a set of these available at ftp.cygnus.com, in pub/mac.
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You may put the build tools in your usual Tools or Scripts
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directories, or keep them in a separate directories. We prefer to
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make a directory called "buildtools" and we put this in one of our
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UserStartup files:
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set Commands "{Boot}Cygnus:buildtools:,{Commands}"
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Flex uses an environment variable FLEX_SKELETON to locate its skeleton
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file, so you need to do something like this, preferably in a UserStartup:
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Set FLEX_SKELETON "{Boot}"Cygnus:buildtools:Flex.skel
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Export FLEX_SKELETON
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* Configuring
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Before you can build anything, you must configure. You do this by
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creating an directory where object files will be stored, setdirectory
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to that directory and do a configure command:
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{Boot}Cygnus:src:mpw-configure --target <name> --cc <compiler> --srcdir {Boot}Cygnus:src: --prefix <whatever>
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If the source directory is not in your {Commands} list, then you must
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supply a full pathname to mpw-configure, since mpw-configure invokes
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itself after switching into each subdirectory. Using a relative
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pathname, even something like ':mpw-configure', will therefore not work.
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<name> must be a known target. Valid ones include "m68k-apple-macos",
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"powerpc-apple-macos", "i386-unknown-go32", "mips-idt-ecoff", and
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"sh-hitachi-hms". Not all target types are accepted for all of the
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tools yet.
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<compiler> must be the name of the compiler to use. It defaults to "mpwc".
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(m68k)
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mpwc MPW C
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sc68k Symantec C
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mwc68k Metrowerks C (Codewarrior)
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gcc68k GCC
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(powerpc)
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ppcc PPCC
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mrc Macintosh on RisC (Mister C, aka(?) Frankenstein)
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scppc Symantec C
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mwcppc Metrowerks C (Codewarrior)
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gccppc GCC
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Not all compilers will compile all tools equally well! For m68k Macs,
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MPW C has the best record so far (it has problems, but they can be
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worked around), while for PowerMacs, CodeWarrior is the only compiler
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that has successfully compiled everything into running code.
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<prefix> is the path that "gcc" will prepend when looking for tools
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to execute. GCC_EXEC_PREFIX overrides this value, so you need not
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include it if you plan to use GCC_EXEC_PREFIX.
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As an example, here is the configure line that you could use to build
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native PowerMac GCC:
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"{Boot}"Cygnus:src:mpw-configure --cc mwcppc --target powerpc-apple-macos --srcdir "{Boot}"Cygnus:src: --prefix "{Boot}"GNUTools:
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* Building
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If you use CodeWarrior, you *must* first set MWCIncludes to
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{CIncludes}. This is because you will be building MPW tools, and
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their standard I/O works by making references to data that is part of
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the MPW Shell, which means that the code must be compiled and linked
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with macros that refer to that data, and those macros are in
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{CIncludes}, not the default {MWCIncludes}. Without this change, you
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will encounter problems compiling libiberty/mpw.c, but tweaking that
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file only masks the real problem, and does not fix it.
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The command
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mpw-build
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will build everything. Building will take over an hour on a Quadra 800
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or PowerMac 8100/110, longer if the sources are on a shared volume.
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You may see some warnings; these are mostly likely benign, typically
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disagreements about declarations of library and system functions.
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* Installing
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To install the just-built tools, use the command
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mpw-build install
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This part of the installation procedure just copies files to the
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location specified at configure time by <prefix>, and, in some cases,
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renames them from temporary internal names to their usual names. This
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install process is *not* the same as what the Install script does;
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Install can copy tools from the installation location chosen at
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configuration time to a user-chosen place, and sets up a UserStartup
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file. Note that while the Install script is optional, the install
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build action performs some tasks would be very hard to replicate
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manually, so you should always do it before using the tools.
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* Known Problems With Using Various Compilers to Build
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Most versions of MPW C have problems with compiling GNU software.
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MPW C 3.2.x has preprocessing bugs that render it incapable of
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compiling the BFD library, so it can't be used at all for building BFD.
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MPW C 3.3, 3.3.1, and 3.3.2 will spontaneously claim to have found
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errors in the source code, but in fact the code is perfectly fine. If
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this happens, just set the working directory back to the top-level
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objdir (where the configure command above was performed), and type
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"mpw-build all" again. If it goes on through the supposed error, then
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you got one of the spurious errors. A full build may require a number
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of these restarts.
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MPW C 3.3.3 seems to work OK, at least with the aid of a number of
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workarounds that are in the sources (look for #ifdef MPW_C).
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Versions of MPW Make earlier than 4.0d2 have exhibited bizarre behavior,
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failure to substitute variables and the like.
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Metrowerks CW6 PPC linker (MWLinkPPC) seems to do bad things with memory
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if the "Modern Memory Manager" is turned on (in the Memory control panel),
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but works OK if it is turned off.
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Metrowerks CW6 loses bigtime compiling opcodes:ppc-opc.c, which has
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some deeply nested macros. (CW7 is OK.) There is a way to patch the
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file, by substituting constant values. If you need to do this,
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contact shebs@cygnus.com for details.
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<Gestalt.h> is missing from {CIncludes} in the MPW version that comes
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with CW7. You can just copy the one in CW7's {MWCIncludes}.
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CW8 and later have changes to headers and such that will require changes
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to the source in order to be able to use them to rebuild.
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KNOWN BUGS
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The declarations for memcpy and memcmp in some versions of header files
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may conflict with GCC's builtin definition. Either use -fno-builtin
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or ignore the warnings.
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This is not a bug, but - watch out for cr/nl translation! For instance,
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if config/mpw-mh-mpw is not properly translated because it has been
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copied or updated separately, then everything will almost build, but
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you will get puzzling error messages from make or the compiler.
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'/' or ' ' embedded in any device, directory, or file name may or may
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not work.
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objcopy -O srec foo.o makes random output filenames.
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Mac-x-mips requires -mgas but Unix hosts don't.
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GDB will frequently require a '/' on the front of a device name in order
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to recognize it as an absolute rather than a relative pathname.
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GDB doesn't seem to use the printer port correctly, although it tries.
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The cursor doesn't always spin as much as it should. To get elaborate
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statistics and warnings about spin rates, add this to UserStartup:
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set MEASURE_SPIN all
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export MEASURE_SPIN
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