wxWidgets/wx-config.in
2004-09-21 23:46:54 +00:00

932 lines
32 KiB
Bash
Executable File

#!/bin/sh
#
# Name: wx-config{.in,}
# Purpose: wx configuration search and query tool {template,}
# Author: Ron <ron@debian.org>
# Modified by:
# Created: 8/9/2004
# RCS-ID: $Id$
# Copyright: (c) 2004 Ron <ron@debian.org>
# Essentially a fresh start this time around, but for maximum
# compatibility basic code was taken from, and heavy reference
# made to, the previously unattributed wx-config from cvs.
# All the usual suspects contributed to the dicussion that led
# to this new work and likewise to the ideas and content in the
# original (which was probably influenced by gtk), among them:
# Robert Roebling, Vadim Zeitlin, Vaclav Slavik, Robin Dunn
# Licence: wxWindows licence
############################################################################
# Start with some basic stuff, like the ability to die gracefully,
# and to tell people what we are about.
# ------------------------------------------------------------------
# decho _message
# Output a message to stderr.
decho() { echo "$*" 1>&2; }
# usage _exitcode
# Outputs a usage message to stderr and exits with _exitcode.
# Try to keep this to a single page. We can add alternate help
# targets if people want more detail from interactive help.
usage()
{
cat 1>&2 <<EOF
wx-config [--prefix[=DIR]] [--exec-prefix[=DIR]] [--release] [--version-full]
[--list] [--host=HOST] [--toolkit=TOOLKIT] [--universal[=yes|no]]
[--unicode[=yes|no]] [--debug[=yes|no]] [--static[=yes|no]]
[--version[=VERSION]] [--basename] [--cppflags] [--cflags]
[--cxxflags] [--rezflags] [--libs] [--cc] [--cxx] [--ld] [LIB ...]
wx-config returns information about the wxWidgets libraries available
on your system. It may be used to retrieve the information you require
to build applications using these libraries.
If alternative builds of wxWidgets exist on the system, you can use the
options: --prefix, --host, --toolkit, --unicode, --debug, --universal and
--version, to select from them. Use the --list option to show all builds
which match any specified criteria. The unicode, universal, and debug
options take an optional yes or no argument, while host and version accept
posix extended regex. eg. wx-config --unicode=n --debug --host=?.* --list
will show all ansi-debug libraries installed, including cross libraries.
Optional LIB arguments (comma or space separated) may be used to specify
the wxWidgets libraries that you wish to use. The magic "std" label may
be used to import all libraries that would be used by default if none were
specified explicitly. eg. wx-config --libs core,base.
EOF
exit $1
}
# Unfussy people are the easiest to deal with, get them out of the way now.
[ $# -gt 0 ] || usage 1
# For the people who know what they want, or think they do:
# Divide the valid arguments into functional groups for later examination,
# then parse all command line arguments completely, deferring action on
# output options until all significant input has been processed and any
# decision about delegation has been taken.
# Note early, that '-' is a complete no-no for use in option names below.
# It totally falls apart as soon as it becomes part of a variable name.
# Use '_' instead, and by the magic of it all just being bits, you'll
# be able to use --my-option or --my_option from the command line at
# your discretion. They are synonymous as user input, but _ALWAYS_ use
# underscores for compound names in the code here, never a dash.
# The list of all options we recognise. If it is not in here, then
# it is not something we want to handle.
# ------------------------------------------------------------------
# Options that specify a distinct library build.
#
# Note also that order in this list is significant later on, as this sets
# the precedence with which we will try to gauge the similarity of other
# configs to this one. Options earlier in the list should be more crucial
# to match well than those that follow. Options specified by the user will
# always take precedence and are not subject to any partial ordering here.
wxconfig_schema="host toolkit widgetset chartype debugtype flavour version linkage"
# Options that are expected to generate some output.
wxconfig_output_options="prefix exec_prefix \
list \
release version version_full \
basename \
cppflags cflags cxxflags \
rezflags \
libs \
cc cxx ld \
gl_libs"
# Options that permit the user to supply hints that may affect the output.
# These options all accept arbitrary values, to interpret as they please.
wxconfig_input_options="prefix exec_prefix $wxconfig_schema"
# Input options that accept only a yes or no argument.
wxconfig_yesno_options="universal unicode debug static"
# Boolean options that do something or not.
wxconfig_flag_options="$wxconfig_yesno_options inplace"
# Some simple sugar coating to keep things more readable below.
# --------------------------------------------------------------
# option_name _string
# Returns NAME if _string is of the form: --NAME[=...]
option_name()
{
_option_name_temp=${1%%=*}
echo "${_option_name_temp#--}" | tr '-' '_'
}
# option_value _string
# Returns FOO if _string is of the form: --option=FOO
option_value()
{
echo "${1#*=}"
}
# match_field _value _list
# Returns true if _value is a field in _list
match_field()
{
_match_field_match="$1"
shift
for _match_field_i; do
[ "x$_match_field_i" != "x$_match_field_match" ] || return 0
done
false
}
# remove_field _value _list
# Returns _list minus any field(s) that match _value.
remove_field()
{
_remf_value="$1"
_remf_list=''
shift
for _remf_item; do
[ "x$_remf_item" = "x$_remf_value" ] || \
_remf_list="${_remf_list:+$_remf_list }$_remf_item"
done
echo "$_remf_list"
}
# validate_arg _domain _set _name _value
# Boilerplate to validate an argument and initialise a psuedo-hash.
# This one is almost reduction into absurdity, and perhaps makes the
# precise action of the argument parser below just a little more
# obscure, but oh so neat and compact to use for multiple option
# groups. It expands to replace repetitive clauses of the form:
#
# i="$(option_name $arg)"
# if match_field "$i" $wxconfig_input_options; then
# input_options="${input_options:+$input_options }$i"
# eval "input_option_$i=$(option_value $arg)"
# continue
# fi
#
# with the one liners you see on the page below.
validate_arg()
{
if match_field "$3" $(eval echo \"\$$1_$2_options\"); then
eval "$2_options=\"\${$2_options:+\$$2_options }$3\""
eval "$2_option_$3=\"$4\""
return
fi
false
}
# check_yesno_option _ynoption _option _yesval _noval
# This one might be made more generic and/or incorporated into
# validate_arg above at some later stage, but right now we just
# condition any specialist options into a generic one for later
# handling. Once they are sanity checked there is no difference
# in any case.
check_yesno_option()
{
eval "case \${yesno_option_$1-\${flag_option_$1-unset}} in \
unset) ;; \
y*|Y*) input_option_$2=\"$3\" ;; \
n*|N*) input_option_$2=\"$4\" ;; \
*) \
decho; \
decho \" *** Error: Invalid request '--$1=\$yesno_option_$1'\"; \
decho \" Valid arguments for --$1 are: [ yes, no ]\"; \
decho; \
exit 1 ;; \
esac"
}
# Now we are ready to find out what the user wants from us.
# --------------------------------------------------------------
# With just a little more complexity here we could have shortest
# unique string matching for options, but that is probably overkill
# today, so lets just get the job done.
#
# The important thing now then is that we simply read all input from
# the user and don't try to act prematurely on partial information.
# --help or an illegal argument are the only shortcuts out of here
# at this point, otherwise, it's time to just shut up and listen for
# a moment.
for arg; do
case "$arg" in
--help|-h)
usage
;;
--*=*)
_name=$(option_name $arg)
_value=$(option_value $arg)
if validate_arg wxconfig input "$_name" "$_value" \
|| validate_arg wxconfig yesno "$_name" "$_value"; \
then
continue
fi
;;
--*)
_name=$(option_name $arg)
if validate_arg wxconfig flag "$_name" yes \
|| validate_arg wxconfig output "$_name" yes;
then
continue
fi
;;
*)
# FIXME Surely we can validate the parameters too ...
input_parameters="${input_parameters:+$input_parameters }$arg"
continue
;;
esac
decho " *** Error: Unrecognised option: '$arg'"
decho "Use wx-config --help for information on command line options."
exit 1
done
# validate_arg only checks and decomposes form. Sanity check the yes/no
# options now too and push their respective mask values into place.
check_yesno_option universal widgetset univ
check_yesno_option unicode chartype unicode ansi
check_yesno_option debug debugtype debug release
check_yesno_option static linkage '-static'
# Dump everything we just read in debug mode.
if [ -n "$WXDEBUG" ]; then
decho
decho " input parameters = $input_parameters"
decho " input options = $input_options"
for i in $input_options; do
decho " $i = $(eval echo \"\$input_option_$i\")"
done
decho " yes/no options = $yesno_options"
for y in $yesno_options; do
decho " $y = $(eval echo \"\$yesno_option_$y\")"
done
decho " flag options = $flag_options"
for f in $flag_options; do
decho " $f = $(eval echo \"\$flag_option_$f\")"
done
decho " output options = $output_options"
for o in $output_options; do
decho " $o = $(eval echo \"\$output_option_$o\")"
done
fi
# Everything came in as a legal argument then, lets put some of
# the pieces together with a little self knowledge to see what
# we should do next.
# --------------------------------------------------------------
# get_mask [ _hash ]
# Construct a config filename mask from a psuedo-hash of component variables.
# The optional argument is the prefix of the hash to use. If not specified
# this will return a mask derived from the command line options that were used.
get_mask()
{
[ $# -gt 0 ] || set m
eval echo "\${$1_host}\${$1_toolkit}\${$1_widgetset}-\${$1_chartype}-\${$1_debugtype}\${$1_linkage}-\${$1_version}\${$1_flavour}"
}
# Determine the base directories we require.
prefix=${input_option_prefix-${this_prefix:-@prefix@}}
exec_prefix=${input_option_exec_prefix-${input_option_prefix-${this_exec_prefix:-@exec_prefix@}}}
wxconfdir="@libdir@/wx/config"
installed_configs=$( cd "$wxconfdir" 2> /dev/null && ls | grep -v "^inplace-" )
target="@host_alias@"
# Define a pseudo-hash to contain the specification of this wx-config
# instance and its associated library.
this_host="${target:+${target}-}"
this_toolkit="@TOOLKIT_DIR@@TOOLKIT_VERSION@"
this_widgetset="@WIDGET_SET@"
this_chartype="@WX_CHARTYPE@"
this_debugtype="@WX_DEBUGTYPE@"
this_flavour="@WX_FLAVOUR@"
this_version="@WX_RELEASE@"
this_linkage=$( [ @SHARED@ -eq 1 ] || echo '-static' )
this_config=$(get_mask this)
# Extract the user specification from the options parsed.
m_host=${input_option_host:+${input_option_host}-?}
m_host=${m_host:-${input_option_host-$this_host}}
m_toolkit=${input_option_toolkit:-[^-]+}
m_widgetset=${input_option_widgetset-(univ)?}
m_chartype=${input_option_chartype:-(unicode|ansi)}
m_debugtype=${input_option_debugtype:-(debug|release)}
m_flavour=${input_option_flavour:+-$input_option_flavour}
m_flavour=${m_flavour:-${input_option_flavour-(-[^-]+)?}}
m_version=${input_option_version:-[0-9]+\.[0-9]+}
m_linkage=${input_option_linkage-(-static)?}
configmask="^$(get_mask)$"
# Dump the user specification in debug mode.
if [ -n "$WXDEBUG" ]; then
decho
decho " prefix = '$prefix'"
decho " exec_prefix = '$exec_prefix'"
decho " wxconfdir = '$wxconfdir'"
decho " m_host = '$m_host'"
decho " m_toolkit = '$m_toolkit'"
decho " m_widgetset = '$m_widgetset'"
decho " m_chartype = '$m_chartype'"
decho " m_debugtype = '$m_debugtype'"
decho " m_flavour = '$m_flavour'"
decho " m_version = '$m_version'"
decho " m_linkage = '$m_linkage'"
decho " configmask = '$configmask'"
decho " this config = '$this_config'"
decho
fi
# The only action we can perform authoritatively prior to delegation
# is to list all the possible delegates.
# --------------------------------------------------------------
# find_eligible_delegates _mask
# Outputs all the config files installed which match the
# (extended regex) _mask passed as an argument.
find_eligible_delegates() { echo "$installed_configs" | grep -E "$1" 2> /dev/null; }
# user_mask_fits _config
# Returns true if the string _config satisfies the user specified mask.
user_mask_fits() { echo "$1" | grep -E "$configmask" > /dev/null 2>&1; }
# Next chance for another satisfied customer then
#
# If we want to get really polished here we can do plural checking,
# but we should probably leave that until the day we gettextise it.
# If we have cpu cycles to spare for glitz, we could run the
# find_best_delegate function over the list and mark the one that
# would be used by default if no further disambiguation was to occur.
# FIXME: This is probably useful to do in any case, but lets not
# tangle them up until things settle down again.
if [ -n "$output_option_list" ]; then
_delegates="$(find_eligible_delegates $configmask)"
if user_mask_fits "$this_config" ; then
echo
echo " This config ($this_config) will be used for output."
if match_field "$this_config" $_delegates ; then
_delegates=$(remove_field $this_config $_delegates)
else
echo " though it is not installed in:"
echo " $wxconfdir"
fi
if [ -n "$_delegates" ]; then
echo
echo " You can select from the following alternates by explicitly"
echo " specifying additional features to wx-config:"
fi
elif [ -z "$_delegates" ]; then
cat <<-EOF
No config found to match:
$configmask
in $wxconfdir
This config is: $this_config
Please install the desired library build, or use --list
without any feature specifiers to see the available configs
for this host. wx-config --list --host=?.* will list all
installed configs including cross builds for other hosts.
EOF
exit 1
else
echo
echo " The following installed configurations match your specification:"
fi
echo
for i in $_delegates; do echo " $i"; done
[ -z "$_delegates" ] || echo
exit
fi
# From here, we now need to figure out a delegation target.
# --------------------------------------------------------------
# The rules for delegation are:
#
# 1. If the specification is so general that it matches the default config
# (ie. this one on a first pass), then the default config will be used
# even if other installed libs would also match the spec.
#
# 2. If the default config does not match, find a list of all installed
# libraries that do match.
# a. If that list is empty, the specification is incompatible
# with any installed lib. Warn and abort.
# b. If that list contains exactly one candidate. Delegate to
# that candidate.
# c. If the list contains multiple candidates, pass on to step 3.
#
# 3. Attempt to discriminate among rival candidates by their similarity
# to the default configuration (ie. this one). If we can find a unique
# candidate in this way, delegate to it. If not, present a list of
# options to the user and request that they disambiguate it with one or
# more additional fields.
#
# To refine the specified pattern, we specialise each unbound field
# using the default value from this config file. If that results in
# no matches, we unbind it again and try the next field. If it still
# results in multiple matches we try binding the next field as well
# until a unique or null result again occurs.
#
# A more general way to look at this, is the feature specifiers are all
# modifiers of the wx-config you are calling. If you supply none, the
# default for that build configuration will be used. If you supply one
# or more that the default build cannot satisfy, it will try to find the
# config most like itself with the desired feature(s) enabled.
# The features configured into the first wx-config called will be taken
# as implicitly specified if it is necessary to disambiguate likely
# candidates from the information that was explicitly provided.
# But first, more sugar to keep what follows clear and legible.
# --------------------------------------------------------------
# count_fields _word
# Returns the number of IFS split fields in _word
count_fields() { return $#; }
# count_delegates _mask
# Return the number of eligible config files that match _mask
count_delegates() { count_fields $(find_eligible_delegates $1); }
# is_set _variablename
# Returns true if $_variablename is initialised.
is_set() { [ "x$(eval echo \"\${$1-unset}\")" != "xunset" ]; }
# do_find_best_delegate _unbound-options
# The real worker part of find_best_delegate below. Recurses though all
# unbound options binding them one at a time to the default derived from
# this file until a unique match is made or no alternatives remain that
# may be sensibly guessed at. It will preferentially bind the unspecified
# options in the order they are listed in wxconfig_schema. Using this
# partial ordering it should find the first match with the most significant
# similarity to this file that unambiguously meets the user specification.
# If such a match exists it will be output to stdout.
#
# Be careful if you modify this function. If the pruning logic is rendered
# inoperative it will simply recurse over every permutation in the search
# space, which may still appear to work, but add a couple more options (or
# explicitly specify a few less) and you may not live long enough to learn
# the result. WXDEBUG=findprogress is your friend here, it will show you
# how many nodes get searched before a result. If you start seeing
# increases in that number for the same input, check your work.
# Raising the number of discriminating options from 6 to 8 raised the worst
# case time for this to run (without pruning) from 3 to nearly 15 seconds
# and its downhill fast from here if we have to ride that boat.
# Early pruning still gets that down to under half a second (up from about
# .25), so we have some breathing space yet before a different search method
# will be called for, but lets not squander it.
do_find_best_delegate()
{
(
if [ "x$WXDEBUG" = "xverbose" ]; then
_fbd_indent="${_fbd_indent}. "
decho " $_fbd_indent---> unbound options: $*"
fi
for i; do
if [ "x$WXDEBUG" = "xverbose" ]; then
decho " ${_fbd_indent}binding '$i' with '$(remove_field $i $*)' still free"
[ -z "$_pruned" ] || decho " ${_fbd_indent} --- pruned: $_pruned ---"
fi
if (
eval m_$i=\$this_$i
_mask="^$(get_mask)$"
if [ "x$WXDEBUG" = "xverbose" ]; then
decho " ${_fbd_indent} checking: $_mask"
count_delegates "$_mask"
decho " $_fbd_indent $? eligible delegates"
for d in $(find_eligible_delegates "$_mask"); do
decho " ${_fbd_indent} $d"
done
fi
count_delegates "$_mask"
_still_eligible=$?
if [ $_still_eligible -eq 1 ]; then
echo $(find_eligible_delegates "$_mask")
return
fi
[ "x$WXDEBUG" != "xfindprogress" ] || printf "." 1>&2
[ $_still_eligible -gt 1 ] && [ $# -gt 1 ] && \
do_find_best_delegate $(remove_field $i $*)
);
then
return
elif [ $# -gt 1 ]; then
if [ "x$WXDEBUG" = "xverbose" ]; then
decho " ${_fbd_indent}pruning: $i"
_pruned="${_pruned:+$_pruned }$i"
fi
set $(remove_field $i $*)
fi
done
false
)
}
# find_best_delegate
# A simple wrapper around do_find_best_delegate that first determines
# the unbound options (ie. the ones that the user did not explicitly
# declare a preference for on the command line)
find_best_delegate()
{
for _fbdi in $wxconfig_schema; do
is_set input_option_$_fbdi || \
_unbound_options="${_unbound_options:+$_unbound_options }$_fbdi"
done
do_find_best_delegate $_unbound_options
}
# And finally some cereal to sprinkle it all on.
# --------------------------------------------------------------
# No more messing around, can this config satisfy the user specification?
if ! user_mask_fits "$this_config" ; then
# No? Then lets see if it knows anybody who can.
# But first, just be sure someone hasn't typo'd us into a loop.
# In present day wx, correct delegation should never need more
# than one hop so this is trivial to detect.
if [ -n "$WXCONFIG_DELEGATED" ]; then
decho
decho " *** Error: Bad config delegation"
decho
decho " to: $0"
decho " ($this_config) cannot satisfy:"
decho " $configmask"
decho " Someone has been terribly careless."
decho
exit 1
fi
count_delegates "$configmask"
_numdelegates=$?
if [ -n "$WXDEBUG" ]; then
decho " must delegate to an alternate config"
decho " potential delegates ($_numdelegates):"
for i in $(find_eligible_delegates "$configmask"); do
decho " $i"
done
fi
if [ $_numdelegates -eq 0 ]; then
cat 1>&2 <<-EOF
No config found to match: $configmask
in $wxconfdir
Please install the desired library build, or use --list
without any feature specifiers to see all available configs.
EOF
# PIPEDREAM: This will probably give Vadim an aneurysm if I
# mention it out of context, but from here we are actually
# just a teensy step from simply building the missing config
# for the user on the fly if this is an in tree wx-config.
exit 1
fi
if [ $_numdelegates -gt 1 ]; then
[ -z "$WXDEBUG" ] || decho " must prune the list of eligible delegates"
best_delegate=$(find_best_delegate)
if [ -n "$best_delegate" ]; then
if [ -n "$WXDEBUG" ]; then
decho " found a suitable delegate: $best_delegate"
decho "--> $wxconfdir/$best_delegate $*"
fi
export WXCONFIG_DELEGATED=yes
$wxconfdir/$best_delegate $*
exit
fi
decho
decho " Specification was ambiguous."
decho " Use additional feature options to choose between:"
for i in $(find_eligible_delegates "$configmask"); do
decho " $i"
done
decho
exit 1
fi
if [ -n "$WXDEBUG" ]; then
decho " using the only suitable delegate"
decho "--> $wxconfdir/$(find_eligible_delegates $configmask) $*"
fi
export WXCONFIG_DELEGATED=yes
$wxconfdir/$(find_eligible_delegates $configmask) $*
exit
fi
# If we are still here, then from now on we are responsible for
# all the user's needs. Time to rustle up some output for them.
# --------------------------------------------------------------
[ -z "$WXDEBUG" ] || decho " using this config"
if [ -n "$flag_option_inplace" ]; then
# If the user supplied a prefix, then the in tree config did not
# delegate out to anything in the user supplied prefix so reset
# the prefixes back to provide the correct compile options for
# this uninstalled wx build.
prefix=$this_prefix
exec_prefix=$this_exec_prefix
fi
includedir="@includedir@"
libdir="@libdir@"
# Trivial queries we can answer now.
[ -z "$output_option_prefix" ] || echo $prefix
[ -z "$output_option_exec_prefix" ] || echo $exec_prefix
[ -z "$output_option_release" ] || echo "@WX_RELEASE@"
[ -z "$output_option_version" ] || echo "@WX_VERSION@"
[ -z "$output_option_version_full" ] || echo "@WX_SUBVERSION@"
[ -z "$output_option_basename" ] || echo "@WX_LIBRARY_BASENAME_GUI@"
[ -z "$output_option_rezflags" ] || echo $(eval echo @MACRESWXCONFIG@)
[ -z "$output_option_cc" ] || echo "@CC@"
[ -z "$output_option_cxx" ] || echo "@CXX@"
[ -z "$output_option_ld" ] || echo "@EXE_LINKER@"
# The rest are going to need a little more work.
# --------------------------------------------------------------
is_cross() { [ "x@cross_compiling@" = "xyes" ]; }
is_monolithic() { [ @MONOLITHIC@ -eq 1 ]; }
# Additional configuration for individual library components.
ldflags_gl="@LDFLAGS_GL@"
ldlibs_base="@WXCONFIG_EXTRALIBS@"
ldlibs_core="@EXTRALIBS_GUI@"
ldlibs_gl="@OPENGL_LIBS@"
ldlibs_html="@EXTRALIBS_HTML@"
ldlibs_xml="@EXTRALIBS_XML@"
ldlibs_odbc="@EXTRALIBS_ODBC@"
ldlibs_adv="@EXTRALIBS_SDL@"
# lib_flags_for _liblist
# This function returns a list of flags suitable to return with the
# output of --libs for all of the libraries in _liblist. You can
# add support for a new library by adding an entry for it in the
# psuedo-hashes above if it requires additional linker options.
lib_flags_for()
{
[ -z "$WXDEBUG" ] || decho " fetching lib flags for: '$*'"
_all_ldflags=''
_all_libs=''
_wxlibs=''
! is_cross || _target="-${target}"
for lib; do
# We evidently can't trust people not to duplicate things in
# configure, or to keep them in any sort of sane order overall,
# so only add unique new fields here even if it takes us a while.
# In the case of libs, we bubble any duplicates to the end,
# because if multiple libs require it, static linking at least
# will require it to come after all of them. So long as local
# order is ok in configure then we should always be able to
# massage a correct result here like this.
#
# FIXME: ldlibs_core is totally bogus. Fix the duplication
# there independently of this. This covers for it, but we
# want to do this anyway because some libs may share common
# deps without a common ancestor in wx. This is not a licence
# for sloppy work elsewhere though and @GUI_TK_LIBRARY should
# be fixed.
for f in $(eval echo \"\$ldflags_$lib\"); do
match_field "$f" $_all_ldflags || _all_ldflags="$_all_ldflags $f"
done
if match_field "$lib" @CORE_BASE_LIBS@ ; then
_libname="@WX_LIBRARY_BASENAME_NOGUI@"
else
_libname="@WX_LIBRARY_BASENAME_GUI@"
fi
[ $lib = base ] || _libname="${_libname}_$lib"
_libname="${_libname}-@WX_RELEASE@$_target"
if [ "x$this_linkage" = "x-static" ]; then
_wxlibs="$_wxlibs ${libdir}/lib${_libname}.a"
for f in $(eval echo \"\$ldlibs_$lib\"); do
_all_libs="$(remove_field $f $_all_libs) $f"
done
else
_wxlibs="$_wxlibs -l${_libname}"
fi
done
if [ -n "$WXDEBUG" ]; then
decho " retrieved: ldflags = $_all_ldflags"
decho " wxlibs = $_wxlibs"
decho " alllibs = $_all_libs"
fi
echo $_all_ldflags $_wxlibs $_all_libs
}
# Sanity check the list of libs the user provided us, if any.
# --------------------------------------------------------------
wx_libs=$(echo "$input_parameters" | tr ',' ' ')
[ -z "$WXDEBUG" ] || decho " user supplied libs: '$wx_libs'"
if is_monolithic; then
# Core libs are already built into the blob.
for i in std @CORE_GUI_LIBS@ @CORE_BASE_LIBS@; do
wx_libs=$(remove_field $i $wx_libs)
done
wx_libs="@WXCONFIG_LDFLAGS_GUI@ @WXCONFIG_RPATH@ $(lib_flags_for $wx_libs)"
# We still need the core lib deps for a static build though
if [ "x$this_linkage" = "x-static" ]; then
wx_libs="$wx_libs ${libdir}/libwx_@TOOLCHAIN_NAME@.a $ldlibs_core @LIBS@"
else
wx_libs="$wx_libs -lwx_@TOOLCHAIN_NAME@"
fi
using_gui=yes
else # MONOLITHIC = 0
# Import everything by default, and base if it was omitted.
if [ -z "$wx_libs" ]; then
wx_libs="@CORE_GUI_LIBS@ @CORE_BASE_LIBS@"
elif ! match_field base $wx_libs ; then
wx_libs="$wx_libs base"
fi
# Expand the magic library 'std' to the default set.
# Only add those not already specified to future-proof
# against changes to std which would otherwise break
# people's builds.
if match_field std $wx_libs; then
wx_libs=$(remove_field std $wx_libs)
for i in @CORE_GUI_LIBS@ @CORE_BASE_LIBS@; do
match_field "$i" $wx_libs || wx_libs="$wx_libs $i"
done
fi
using_gui=no
for i in $wx_libs ; do
if match_field "$i" @CORE_GUI_LIBS@ ; then
_guildflags="@WXCONFIG_LDFLAGS_GUI@"
using_gui=yes
break
fi
match_field "$i" @CORE_BASE_LIBS@ || using_gui=yes
done
wx_libs="$_guildflags @WXCONFIG_RPATH@ $(lib_flags_for $wx_libs)"
fi
if [ -n "$WXDEBUG" ]; then
decho
decho " using libs: '$wx_libs'"
decho " using_gui = $using_gui"
decho
fi
# Endgame. Nothing left to discover now.
# --------------------------------------------------------------
# cppflags
# This function exists for no other reason than to make conditional
# something that we may not use on several occasions. It outputs
# the basic cppflags determined from information gleaned above.
# Nothing below here will change what it outputs, only whether it
# does or not.
cppflags()
{
_cppflags="-I${libdir}/wx/include/@TOOLCHAIN_FULLNAME@"
if [ -n "$flag_option_inplace" ]; then
# Bring in all the headers as if the whole tree had been installed.
_cppflags="$_cppflags -I$includedir -I${prefix}/contrib/include"
else
_cppflags="$_cppflags -I${includedir}/wx-@WX_RELEASE@@WX_FLAVOUR@"
fi
_cppflags="$_cppflags @WXDEBUG_DEFINE@ @TOOLCHAIN_DEFS@"
[ -n "$this_linkage" ] || _cppflags="$_cppflags @TOOLCHAIN_DLL_DEFS@"
[ "$using_gui" = "yes" ] || _cppflags="$_cppflags -DwxUSE_GUI=0"
echo $_cppflags "@WXCONFIG_INCLUDE@" "@WX_LARGEFILE_FLAGS@" "@GCC_PRAGMA_FLAGS@"
}
# now without further ado, we can answer these too.
[ -z "$output_option_cppflags" ] || echo $(cppflags)
[ -z "$output_option_cflags" ] || echo $(cppflags) "@CODE_GEN_FLAGS@"
[ -z "$output_option_cxxflags" ] || echo $(cppflags) "@CODE_GEN_FLAGS@" "@CODE_GEN_FLAGS_CXX@"
[ -z "$output_option_gl_libs" ] || echo $(lib_flags_for gl)
if [ -n "$output_option_libs" ]; then
is_cross && [ "x$libdir" = "x/usr/${target}/lib" ] \
|| [ "x$libdir" = "x/usr/lib" ] \
|| _ldflags="-L$libdir"
echo $_ldflags "@LDFLAGS@" $wx_libs "@DMALLOC_LIBS@"
fi
# And so that's it, we're done. Have a nice build.
exit 0