Files in the top-level directory of check-in 26410a9c32b31248
This will build a Tclkit named "tclkit-<version>".
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Using This Tool
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Usage:
kitcreator [{<version> | cvs_<cvsTag> | clean | distclean}]
[<configure_options...>]
Where:
version is a Tcl version number (e.g., 8.4.19)
cvsTag is a CVS release tag (e.g., HEAD)
configure_options are options to pass to subordinate configure
scripts (e.g., --enable-64bit)
Default is to create a Tclkit from Tcl version 8.4.19
Examples:
1. Create a Tclkit:
a. $ ./kitcreator
2. Create a Tclkit for Tcl 8.5.8:
a. $ ./kitcreator 8.5.8
3. Create a Tclkit for Tcl from CVS HEAD:
a. $ ./kitcreator cvs_HEAD
4. Compile a 64-bit Tclkit:
a. $ ./kitcreator --enable-64bit
5. Cross-compile a Tclkit:
a. Bootstrap (optional, you can use an existing Tclkit):
i. $ ./kitcreator
ii. $ mv tclkit-8.4.19 tclkit-local
iii. $ TCLKIT="`pwd`/tclkit-local"
iv. $ export TCLKIT
b. Cross-compile:
i. $ CC=mipsel-linux-uclibc-gcc
ii. $ CXX=false
iii. $ AR=mipsel-linux-uclibc-ar
iv. $ RANLIB=mipsel-linux-uclibc-ranlib
v. $ export CC CXX AR RANLIB
v. $ ./kitcreator --host=mipsel-linux-uclibc
6. Compile a 64-bit Tclkit 8.5.8 using SunStudio 12.1 on Solaris/x86:
a. $ CC='/opt/sunstudio12.1/bin/cc -m64'
b. $ CXX='/opt/sunstudio12.1/bin/CC -m64'
c. $ PATCH='gpatch'
c. $ export CC CXX PATCH
d. $ ./kitcreator 8.5.8 --enable-64bit
7. To clean up post-build:
a. $ ./kitcreator clean
Environment variables:
1. MAKE
Specifies the tool you wish to be called to build targets
from a Makefile. This script is generally more well tested
with GNU Make.
2. PATCH
Specifies the tool you wish to be called to apply unified
diff patches. This script is generally more well tested with
GNU Patch.
3. TCLKIT
Specify the path to a Tclkit that is runnable on the current
system. The default is "tclkit". A working tclkit is required
for cross-compiling Tclkits.
4. STATICTK
Specify this as "1" to statically link to Tk. The default
action on most platforms is to dynamically link to Tk.
5. STRIP
Specifies the tool you wish to be called to strip object files,
archives, and shared objects. The default is "strip". You
should probably set this if you are cross-compiling.
6. KITCREATOR_PKGS
Specify which non-required packages to build. The default list
is:
tk itcl mk4tcl
If mk4tcl is not present a pure-Tcl implementation will be used
instead.
7. KITCREATOR_MINENCODINGS
Set this variable to a non-empty string to generate a Tclkit
without all encodings, only including the following:
ascii.enc cp1252.enc iso8859-1.enc iso8859-15.enc
iso8859-2.enc koi8-r.enc macRoman.enc
8. KITCREATOR_MINBUILD
Set this variable to a non-empty string to exclude unnecessary
packages from Tcl build. This excludes the following packages:
tcltest
-------------------
Method of Operation
-------------------
Summary:
1. "kitcreator" calls */build.sh
2. */build.sh downloads and compiles appropriate software
3. */build.sh installs software into "inst" (run-time + compile-time)
4. */build.sh installs run-time software into "out", this will be
included in the Tclkit as if it were the root directory of the
Tclkit (combined with other "out" directories)
5. kitsh/build.sh compiles a "main" function and links all the built
libraries together into an executable
6. kitsh/build.sh combines all the "out" directories into one
7. kitsh/build.sh creates a Metakit database from the combined
directories and appends that to the compiled executable using:
a. A Tclkit found in the environment variable "TCLKIT" (tclkit
if unset) if it is functional; or
b. The built kit itself (does not work for cross-compiling)
Details:
The general mechanism that enables a Tclkit to operate is a small Tcl
initialization routine linked statically to the core libraries needed to
operate a Tcl interpreter, the Tcl VFS Layer, and a database-backed (Metakit)
Virtual File System that is appended to the end of the executable.
This project brings together all of the required pieces, plus some additional
pieces that were found in the original Tclkit:
1. Tk (dynamically linked)
2. Itcl (dynamically linked)
These source code for these pieces are downloaded, compiled, and linked, and
the database containing the appropriate filesystem data is created. What sets
this project apart from other similar projects is that:
1. It attempts to be modular;
2. It supports cross-compiling;
3. It downloads the source from their original repositories;
4. It allows you to specify an arbitrary version of Tcl (including
CVS); and
5. It uses GNU Autoconf scripts for compiling the part of the Tclkit
that brings the whole thing together (the Kitsh)
To accomplish these goals the following mechanisms are in place:
1. The top-level "kitcreator" script; and
2. Per-project subdirectories, each containing a "build.sh" script
The top-level "kitcreator" script is very simple. Its only job is to
interpret command line arguments, and call the per-project "build.sh" scripts.
For the "tcl" project it also finds the appropriate "tclConfig.sh" (and stores
this path in TCLCONFIGDIR) to enable subsequent build scripts to find the
appropriate Tcl to link against.
The per-project "build.sh" scripts are entirely autonomous. They are
responsible for downloading the source code for the appropriate version that
will compile and link against the current version of Tcl (user requested
version can be found in "TCLVERS", while the actual version must be requested
from the "tclConfig.sh" script), compiling it, installing a functional copy
into the per-project "inst" directory, and installing anything that needs to
be in the Tclkit's VFS root into the per-project "out" directory.
The exception to this is the "kitsh" project. It is the glue that binds all
the individual projects together into a single executable. Its build script
does not create an "inst" or an "out" directory because it is not a library.
Instead, it collects all the other project's "out" directories into a single
directory (starpack.vfs), as well a static file (boot.tcl). It then compiles
the source code, and then installs the Metakit database containing the VFS
onto the resulting executable.
To create the Metakit database, one of two Tclkits is used (tried in this
order):
1. The Tclkit specified by the TCLKIT environment variable (or
"tclkit" if that variable is not set) if it is functional; or
2. The built Tclkit itself
The second method will not work if the built Tclkit is not executable on the
current platform (i.e., in the case of cross-compilation) and so it may be
necessary to bootstrap a runnable Tclkit first.